/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- * vim: set ts=4 sw=4 et tw=99: * * ***** BEGIN LICENSE BLOCK ***** * Version: MPL 1.1/GPL 2.0/LGPL 2.1 * * The contents of this file are subject to the Mozilla Public License Version * 1.1 (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the * License. * * The Original Code is Mozilla SpiderMonkey JavaScript 1.9 code, released * May 28, 2008. * * The Initial Developer of the Original Code is * Brendan Eich * * Contributor(s): * Andreas Gal * Mike Shaver * David Anderson * * Alternatively, the contents of this file may be used under the terms of * either of the GNU General Public License Version 2 or later (the "GPL"), * or the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), * in which case the provisions of the GPL or the LGPL are applicable instead * of those above. If you wish to allow use of your version of this file only * under the terms of either the GPL or the LGPL, and not to allow others to * use your version of this file under the terms of the MPL, indicate your * decision by deleting the provisions above and replace them with the notice * and other provisions required by the GPL or the LGPL. If you do not delete * the provisions above, a recipient may use your version of this file under * the terms of any one of the MPL, the GPL or the LGPL. * * ***** END LICENSE BLOCK ***** */ #include "jsstdint.h" #include "jsbit.h" // low-level (NSPR-based) headers next #include "jsprf.h" #include // standard headers next #if defined(_MSC_VER) || defined(__MINGW32__) #include #ifdef _MSC_VER #define alloca _alloca #endif #endif #ifdef SOLARIS #include #endif #include #include "nanojit/nanojit.h" #include "jsapi.h" // higher-level library and API headers #include "jsarray.h" #include "jsbool.h" #include "jscntxt.h" #include "jsdate.h" #include "jsdbgapi.h" #include "jsemit.h" #include "jsfun.h" #include "jsinterp.h" #include "jsiter.h" #include "jsmath.h" #include "jsobj.h" #include "jsopcode.h" #include "jsregexp.h" #include "jsscope.h" #include "jsscript.h" #include "jsstaticcheck.h" #include "jstracer.h" #include "jsxml.h" #include "jstypedarray.h" #include "jsatominlines.h" #include "jscntxtinlines.h" #include "jsfuninlines.h" #include "jsinterpinlines.h" #include "jspropertycacheinlines.h" #include "jsobjinlines.h" #include "jsscopeinlines.h" #include "jsscriptinlines.h" #include "jscntxtinlines.h" #include "jsautooplen.h" // generated headers last #include "imacros.c.out" #if defined(NANOJIT_ARM) && defined(__GNUC__) && defined(AVMPLUS_LINUX) #include #include #include #include #include #include #include #include #endif namespace nanojit { using namespace js; /* Implement embedder-specific nanojit members. */ void* nanojit::Allocator::allocChunk(size_t nbytes) { VMAllocator *vma = (VMAllocator*)this; JS_ASSERT(!vma->outOfMemory()); void *p = js_calloc(nbytes); if (!p) { JS_ASSERT(nbytes < sizeof(vma->mReserve)); vma->mOutOfMemory = true; p = (void*) &vma->mReserve[0]; } vma->mSize += nbytes; return p; } void nanojit::Allocator::freeChunk(void *p) { VMAllocator *vma = (VMAllocator*)this; if (p != &vma->mReserve[0]) js_free(p); } void nanojit::Allocator::postReset() { VMAllocator *vma = (VMAllocator*)this; vma->mOutOfMemory = false; vma->mSize = 0; } int StackFilter::getTop(LIns* guard) { VMSideExit* e = (VMSideExit*)guard->record()->exit; return e->sp_adj; } #ifdef DEBUG void ValidateWriter::checkAccSet(LOpcode op, LIns* base, int32_t disp, AccSet accSet) { LIns* sp = (LIns*)checkAccSetExtras[0]; LIns* rp = (LIns*)checkAccSetExtras[1]; bool isRstack = base == rp; bool isStack = base == sp || (base->isop(LIR_addp) && base->oprnd1() == sp && base->oprnd2()->isImmP()); bool isUnknown = !isStack && !isRstack; bool ok; NanoAssert(accSet != ACCSET_NONE); switch (accSet) { case ACCSET_STACK: ok = isStack; break; case ACCSET_RSTACK: ok = isRstack; break; case ACCSET_OTHER: ok = isUnknown; break; default: // This assertion will fail if any single-region AccSets aren't covered // by the switch -- only multi-region AccSets should be handled here. JS_ASSERT(compressAccSet(accSet).val == MINI_ACCSET_MULTIPLE.val); ok = true; break; } if (!ok) { InsBuf b1, b2; printer->formatIns(&b1, base); JS_snprintf(b2.buf, b2.len, "but the base pointer (%s) doesn't match", b1.buf); errorAccSet(lirNames[op], accSet, b2.buf); } } #endif #if defined NJ_VERBOSE void LInsPrinter::formatGuard(InsBuf *buf, LIns *ins) { RefBuf b1, b2; VMSideExit *x = (VMSideExit *)ins->record()->exit; VMPI_snprintf(buf->buf, buf->len, "%s: %s %s -> pc=%p imacpc=%p sp%+ld rp%+ld (GuardID=%03d)", formatRef(&b1, ins), lirNames[ins->opcode()], ins->oprnd1() ? formatRef(&b2, ins->oprnd1()) : "", (void *)x->pc, (void *)x->imacpc, (long int)x->sp_adj, (long int)x->rp_adj, ins->record()->profGuardID); } void LInsPrinter::formatGuardXov(InsBuf *buf, LIns *ins) { RefBuf b1, b2, b3; VMSideExit *x = (VMSideExit *)ins->record()->exit; VMPI_snprintf(buf->buf, buf->len, "%s = %s %s, %s -> pc=%p imacpc=%p sp%+ld rp%+ld (GuardID=%03d)", formatRef(&b1, ins), lirNames[ins->opcode()], formatRef(&b2, ins->oprnd1()), formatRef(&b3, ins->oprnd2()), (void *)x->pc, (void *)x->imacpc, (long int)x->sp_adj, (long int)x->rp_adj, ins->record()->profGuardID); } const char* nanojit::LInsPrinter::accNames[] = { "s", // (1 << 0) == ACCSET_STACK "r", // (1 << 1) == ACCSET_RSTACK "o", // (1 << 2) == ACCSET_OTHER "?", "?", "?", "?", "?", "?", "?", "?", // 3..10 (unused) "?", "?", "?", "?", "?", "?", "?", "?", "?", "?", // 11..20 (unused) "?", "?", "?", "?", "?", "?", "?", "?", "?", "?", // 21..30 (unused) "?" // 31 (unused) }; #endif } /* namespace nanojit */ JS_DEFINE_CALLINFO_2(extern, STRING, js_IntToString, CONTEXT, INT32, 1, nanojit::ACCSET_NONE) namespace js { using namespace nanojit; #if JS_HAS_XML_SUPPORT #define RETURN_VALUE_IF_XML(val, ret) \ JS_BEGIN_MACRO \ if (!val.isPrimitive() && val.toObject().isXML()) \ RETURN_VALUE("xml detected", ret); \ JS_END_MACRO #else #define RETURN_IF_XML(val, ret) ((void) 0) #endif #define RETURN_IF_XML_A(val) RETURN_VALUE_IF_XML(val, ARECORD_STOP) #define RETURN_IF_XML(val) RETURN_VALUE_IF_XML(val, RECORD_STOP) JS_STATIC_ASSERT(sizeof(JSValueType) == 1); JS_STATIC_ASSERT(offsetof(TraceNativeStorage, stack_global_buf) % 16 == 0); /* Map to translate a type tag into a printable representation. */ #ifdef DEBUG static char TypeToChar(JSValueType type) { switch (type) { case JSVAL_TYPE_DOUBLE: return 'D'; case JSVAL_TYPE_INT32: return 'I'; case JSVAL_TYPE_STRING: return 'S'; case JSVAL_TYPE_OBJECT: return '!'; case JSVAL_TYPE_BOOLEAN: return 'B'; case JSVAL_TYPE_NULL: return 'N'; case JSVAL_TYPE_UNDEFINED: return 'U'; case JSVAL_TYPE_MAGIC: return 'M'; case JSVAL_TYPE_FUNOBJ: return 'F'; case JSVAL_TYPE_NONFUNOBJ: return 'O'; case JSVAL_TYPE_BOXED: return '#'; case JSVAL_TYPE_STRORNULL: return 's'; case JSVAL_TYPE_OBJORNULL: return 'o'; case JSVAL_TYPE_UNINITIALIZED: return '*'; } return '?'; } static char ValueToTypeChar(const Value &v) { if (v.isInt32()) return 'I'; if (v.isDouble()) return 'D'; if (v.isString()) return 'S'; if (v.isObject()) return v.toObject().isFunction() ? 'F' : 'O'; if (v.isBoolean()) return 'B'; if (v.isNull()) return 'N'; if (v.isUndefined()) return 'U'; if (v.isMagic()) return 'M'; return '?'; } #endif /* Blacklist parameters. */ /* * Number of iterations of a loop where we start tracing. That is, we don't * start tracing until the beginning of the HOTLOOP-th iteration. */ #define HOTLOOP 8 /* Attempt recording this many times before blacklisting permanently. */ #define BL_ATTEMPTS 2 /* Skip this many hits before attempting recording again, after an aborted attempt. */ #define BL_BACKOFF 32 /* Minimum number of times a loop must execute, or else it is blacklisted. */ #define MIN_LOOP_ITERS 8 /* Number of times we wait to exit on a side exit before we try to extend the tree. */ #define HOTEXIT 1 /* Number of times we try to extend the tree along a side exit. */ #define MAXEXIT 3 /* Maximum number of peer trees allowed. */ #define MAXPEERS 9 /* Max call depths for inlining. */ #define MAX_CALLDEPTH 10 /* Max number of slots in a table-switch. */ #define MAX_TABLE_SWITCH 256 /* Max memory needed to rebuild the interpreter stack when falling off trace. */ #define MAX_INTERP_STACK_BYTES \ (MAX_NATIVE_STACK_SLOTS * sizeof(Value) + \ MAX_CALL_STACK_ENTRIES * sizeof(JSInlineFrame) + \ sizeof(JSInlineFrame)) /* possibly slow native frame at top of stack */ /* Max number of branches per tree. */ #define MAX_BRANCHES 32 #define CHECK_STATUS(expr) \ JS_BEGIN_MACRO \ RecordingStatus _status = (expr); \ if (_status != RECORD_CONTINUE) \ return _status; \ JS_END_MACRO #define CHECK_STATUS_A(expr) \ JS_BEGIN_MACRO \ AbortableRecordingStatus _status = InjectStatus((expr)); \ if (_status != ARECORD_CONTINUE) \ return _status; \ JS_END_MACRO #ifdef JS_JIT_SPEW #define RETURN_VALUE(msg, value) \ JS_BEGIN_MACRO \ debug_only_printf(LC_TMAbort, "trace stopped: %d: %s\n", __LINE__, (msg)); \ return (value); \ JS_END_MACRO #else #define RETURN_VALUE(msg, value) return (value) #endif #define RETURN_STOP(msg) RETURN_VALUE(msg, RECORD_STOP) #define RETURN_STOP_A(msg) RETURN_VALUE(msg, ARECORD_STOP) #define RETURN_ERROR(msg) RETURN_VALUE(msg, RECORD_ERROR) #define RETURN_ERROR_A(msg) RETURN_VALUE(msg, ARECORD_ERROR) #ifdef JS_JIT_SPEW struct __jitstats { #define JITSTAT(x) uint64 x; #include "jitstats.tbl" #undef JITSTAT } jitstats = { 0LL, }; JS_STATIC_ASSERT(sizeof(jitstats) % sizeof(uint64) == 0); enum jitstat_ids { #define JITSTAT(x) STAT ## x ## ID, #include "jitstats.tbl" #undef JITSTAT STAT_IDS_TOTAL }; static JSBool jitstats_getOnTrace(JSContext *cx, JSObject *obj, jsid id, jsval *vp) { *vp = BOOLEAN_TO_JSVAL(JS_ON_TRACE(cx)); return true; } static JSPropertySpec jitstats_props[] = { #define JITSTAT(x) { #x, STAT ## x ## ID, JSPROP_ENUMERATE | JSPROP_READONLY | JSPROP_PERMANENT }, #include "jitstats.tbl" #undef JITSTAT { "onTrace", 0, JSPROP_ENUMERATE | JSPROP_READONLY | JSPROP_PERMANENT, jitstats_getOnTrace, NULL }, { 0 } }; static JSBool jitstats_getProperty(JSContext *cx, JSObject *obj, jsid id, jsval *vp) { int index = -1; if (JSID_IS_STRING(id)) { JSString* str = JSID_TO_STRING(id); if (strcmp(JS_GetStringBytes(str), "HOTLOOP") == 0) { *vp = INT_TO_JSVAL(HOTLOOP); return JS_TRUE; } } if (JSID_IS_INT(id)) index = JSID_TO_INT(id); uint64 result = 0; switch (index) { #define JITSTAT(x) case STAT ## x ## ID: result = jitstats.x; break; #include "jitstats.tbl" #undef JITSTAT default: *vp = JSVAL_VOID; return JS_TRUE; } if (result < JSVAL_INT_MAX) { *vp = INT_TO_JSVAL(jsint(result)); return JS_TRUE; } char retstr[64]; JS_snprintf(retstr, sizeof retstr, "%llu", result); *vp = STRING_TO_JSVAL(JS_NewStringCopyZ(cx, retstr)); return JS_TRUE; } JSClass jitstats_class = { "jitstats", 0, JS_PropertyStub, JS_PropertyStub, jitstats_getProperty, JS_PropertyStub, JS_EnumerateStub, JS_ResolveStub, JS_ConvertStub, NULL, JSCLASS_NO_OPTIONAL_MEMBERS }; void InitJITStatsClass(JSContext *cx, JSObject *glob) { JS_InitClass(cx, glob, NULL, &jitstats_class, NULL, 0, jitstats_props, NULL, NULL, NULL); } #define AUDIT(x) (jitstats.x++) #else #define AUDIT(x) ((void)0) #endif /* JS_JIT_SPEW */ /* * INS_CONSTPTR can be used to embed arbitrary pointers into the native code. It should not * be used directly to embed GC thing pointers. Instead, use the INS_CONSTOBJ/FUN/STR/SHAPE * variants which ensure that the embedded pointer will be kept alive across GCs. */ #define INS_CONST(c) addName(lir->insImmI(c), #c) #define INS_CONSTU(c) addName(lir->insImmI((uint32_t)c), #c) #define INS_CONSTPTR(p) addName(lir->insImmP(p), #p) #define INS_CONSTWORD(v) addName(lir->insImmP((void *) (v)), #v) #define INS_CONSTQWORD(c) addName(lir->insImmQ(c), #c) #define INS_CONSTOBJ(obj) addName(insImmObj(obj), #obj) #define INS_CONSTFUN(fun) addName(insImmFun(fun), #fun) #define INS_CONSTSTR(str) addName(insImmStr(str), #str) #define INS_CONSTSHAPE(shape) addName(insImmShape(shape), #shape) #define INS_CONSTID(id) addName(insImmId(id), #id) #define INS_ATOM(atom) INS_CONSTSTR(ATOM_TO_STRING(atom)) #define INS_NULL() INS_CONSTPTR(NULL) #define INS_UNDEFINED() INS_CONST(0) #define INS_MAGIC_WHY(why) INS_CONSTWORD((size_t)why) #define INS_MAGIC_NULL() INS_NULL() static const size_t sPayloadOffset = offsetof(jsval_layout, s.payload); #if JS_BITS_PER_WORD == 32 static const size_t sTagOffset = offsetof(jsval_layout, s.tag); #endif static avmplus::AvmCore s_core = avmplus::AvmCore(); static avmplus::AvmCore* core = &s_core; static void OutOfMemoryAbort() { JS_NOT_REACHED("out of memory"); abort(); } #ifdef JS_JIT_SPEW static void DumpPeerStability(TraceMonitor* tm, const void* ip, JSObject* globalObj, uint32 globalShape, uint32 argc); #endif /* * We really need a better way to configure the JIT. Shaver, where is * my fancy JIT object? * * NB: this is raced on, if jstracer.cpp should ever be running MT. * I think it's harmless tho. */ static bool did_we_check_processor_features = false; /* ------ Debug logging control ------ */ /* * All the logging control stuff lives in here. It is shared between * all threads, but I think that's OK. */ LogControl LogController; #ifdef JS_JIT_SPEW /* * NB: this is raced on too, if jstracer.cpp should ever be running MT. * Also harmless. */ static bool did_we_set_up_debug_logging = false; static void InitJITLogController() { char *tm, *tmf; uint32_t bits; LogController.lcbits = 0; tm = getenv("TRACEMONKEY"); if (tm) { fflush(NULL); printf( "The environment variable $TRACEMONKEY has been replaced by $TMFLAGS.\n" "Try 'TMFLAGS=help js -j' for a list of options.\n" ); exit(0); } tmf = getenv("TMFLAGS"); if (!tmf) return; /* Using strstr() is really a cheap hack as far as flag decoding goes. */ if (strstr(tmf, "help")) { fflush(NULL); printf( "usage: TMFLAGS=option,option,option,... where options can be:\n" "\n" " help show this message\n" " ------ options for jstracer & jsregexp ------\n" " minimal ultra-minimalist output; try this first\n" " full everything except 'treevis' and 'fragprofile'\n" " tracer tracer lifetime (FIXME:better description)\n" " recorder trace recording stuff (FIXME:better description)\n" " abort show trace recording aborts\n" " stats show trace recording stats\n" " regexp show compilation & entry for regexps\n" " treevis spew that tracevis/tree.py can parse\n" " ------ options for Nanojit ------\n" " fragprofile count entries and exits for each fragment\n" " liveness show LIR liveness at start of reader pipeline\n" " readlir show LIR as it enters the reader pipeline\n" " aftersf show LIR after StackFilter\n" " afterdce show LIR after dead code elimination\n" " native show native code (interleaved with 'afterdce')\n" " regalloc show regalloc state in 'native' output\n" " activation show activation state in 'native' output\n" "\n" ); exit(0); /*NOTREACHED*/ } bits = 0; /* flags for jstracer.cpp */ if (strstr(tmf, "minimal") || strstr(tmf, "full")) bits |= LC_TMMinimal; if (strstr(tmf, "tracer") || strstr(tmf, "full")) bits |= LC_TMTracer; if (strstr(tmf, "recorder") || strstr(tmf, "full")) bits |= LC_TMRecorder; if (strstr(tmf, "abort") || strstr(tmf, "full")) bits |= LC_TMAbort; if (strstr(tmf, "stats") || strstr(tmf, "full")) bits |= LC_TMStats; if (strstr(tmf, "regexp") || strstr(tmf, "full")) bits |= LC_TMRegexp; if (strstr(tmf, "treevis")) bits |= LC_TMTreeVis; /* flags for nanojit */ if (strstr(tmf, "fragprofile")) bits |= LC_FragProfile; if (strstr(tmf, "liveness") || strstr(tmf, "full")) bits |= LC_Liveness; if (strstr(tmf, "readlir") || strstr(tmf, "full")) bits |= LC_ReadLIR; if (strstr(tmf, "aftersf") || strstr(tmf, "full")) bits |= LC_AfterSF; if (strstr(tmf, "afterdce") || strstr(tmf, "full")) bits |= LC_AfterDCE; if (strstr(tmf, "native") || strstr(tmf, "full")) bits |= LC_Native; if (strstr(tmf, "regalloc") || strstr(tmf, "full")) bits |= LC_RegAlloc; if (strstr(tmf, "activation") || strstr(tmf, "full")) bits |= LC_Activation; LogController.lcbits = bits; return; } #endif /* ------------------ Frag-level profiling support ------------------ */ #ifdef JS_JIT_SPEW /* * All the allocations done by this profile data-collection and * display machinery, are done in TraceMonitor::profAlloc. That is * emptied out at the end of js_FinishJIT. It has a lifetime from * js_InitJIT to js_FinishJIT, which exactly matches the span * js_FragProfiling_init to js_FragProfiling_showResults. */ template static Seq* reverseInPlace(Seq* seq) { Seq* prev = NULL; Seq* curr = seq; while (curr) { Seq* next = curr->tail; curr->tail = prev; prev = curr; curr = next; } return prev; } // The number of top blocks to show in the profile #define N_TOP_BLOCKS 50 // Contains profile info for a single guard struct GuardPI { uint32_t guardID; // identifying number uint32_t count; // count. }; struct FragPI { uint32_t count; // entry count for this Fragment uint32_t nStaticExits; // statically: the number of exits size_t nCodeBytes; // statically: the number of insn bytes in the main fragment size_t nExitBytes; // statically: the number of insn bytes in the exit paths Seq* guards; // guards, each with its own count uint32_t largestGuardID; // that exists in .guards }; void FragProfiling_FragFinalizer(Fragment* f, TraceMonitor* tm) { // Recover profiling data from 'f', which is logically at the end // of its useful lifetime. if (!(LogController.lcbits & LC_FragProfile)) return; NanoAssert(f); // Valid profFragIDs start at 1 NanoAssert(f->profFragID >= 1); // Should be called exactly once per Fragment. This will assert if // you issue the same FragID to more than one Fragment. NanoAssert(!tm->profTab->containsKey(f->profFragID)); FragPI pi = { f->profCount, f->nStaticExits, f->nCodeBytes, f->nExitBytes, NULL, 0 }; // Begin sanity check on the guards SeqBuilder guardsBuilder(*tm->profAlloc); GuardRecord* gr; uint32_t nGs = 0; uint32_t sumOfDynExits = 0; for (gr = f->guardsForFrag; gr; gr = gr->nextInFrag) { nGs++; // Also copy the data into our auxiliary structure. // f->guardsForFrag is in reverse order, and so this // copy preserves that ordering (->add adds at end). // Valid profGuardIDs start at 1. NanoAssert(gr->profGuardID > 0); sumOfDynExits += gr->profCount; GuardPI gpi = { gr->profGuardID, gr->profCount }; guardsBuilder.add(gpi); if (gr->profGuardID > pi.largestGuardID) pi.largestGuardID = gr->profGuardID; } pi.guards = guardsBuilder.get(); // And put the guard list in forwards order pi.guards = reverseInPlace(pi.guards); // Why is this so? Because nGs is the number of guards // at the time the LIR was generated, whereas f->nStaticExits // is the number of them observed by the time it makes it // through to the assembler. It can be the case that LIR // optimisation removes redundant guards; hence we expect // nGs to always be the same or higher. NanoAssert(nGs >= f->nStaticExits); // Also we can assert that the sum of the exit counts // can't exceed the entry count. It'd be nice to assert that // they are exactly equal, but we can't because we don't know // how many times we got to the end of the trace. NanoAssert(f->profCount >= sumOfDynExits); // End sanity check on guards tm->profTab->put(f->profFragID, pi); } static void FragProfiling_showResults(TraceMonitor* tm) { uint32_t topFragID[N_TOP_BLOCKS]; FragPI topPI[N_TOP_BLOCKS]; uint64_t totCount = 0, cumulCount; uint32_t totSE = 0; size_t totCodeB = 0, totExitB = 0; PodArrayZero(topFragID); PodArrayZero(topPI); FragStatsMap::Iter iter(*tm->profTab); while (iter.next()) { uint32_t fragID = iter.key(); FragPI pi = iter.value(); uint32_t count = pi.count; totCount += (uint64_t)count; /* Find the rank for this entry, in tops */ int r = N_TOP_BLOCKS-1; while (true) { if (r == -1) break; if (topFragID[r] == 0) { r--; continue; } if (count > topPI[r].count) { r--; continue; } break; } r++; NanoAssert(r >= 0 && r <= N_TOP_BLOCKS); /* This entry should be placed at topPI[r], and entries at higher numbered slots moved up one. */ if (r < N_TOP_BLOCKS) { for (int s = N_TOP_BLOCKS-1; s > r; s--) { topFragID[s] = topFragID[s-1]; topPI[s] = topPI[s-1]; } topFragID[r] = fragID; topPI[r] = pi; } } LogController.printf( "\n----------------- Per-fragment execution counts ------------------\n"); LogController.printf( "\nTotal count = %llu\n\n", (unsigned long long int)totCount); LogController.printf( " Entry counts Entry counts ----- Static -----\n"); LogController.printf( " ------Self------ ----Cumulative--- Exits Cbytes Xbytes FragID\n"); LogController.printf("\n"); if (totCount == 0) totCount = 1; /* avoid division by zero */ cumulCount = 0; int r; for (r = 0; r < N_TOP_BLOCKS; r++) { if (topFragID[r] == 0) break; cumulCount += (uint64_t)topPI[r].count; LogController.printf("%3d: %5.2f%% %9u %6.2f%% %9llu" " %3d %5u %5u %06u\n", r, (double)topPI[r].count * 100.0 / (double)totCount, topPI[r].count, (double)cumulCount * 100.0 / (double)totCount, (unsigned long long int)cumulCount, topPI[r].nStaticExits, (unsigned int)topPI[r].nCodeBytes, (unsigned int)topPI[r].nExitBytes, topFragID[r]); totSE += (uint32_t)topPI[r].nStaticExits; totCodeB += topPI[r].nCodeBytes; totExitB += topPI[r].nExitBytes; } LogController.printf("\nTotal displayed code bytes = %u, " "exit bytes = %u\n" "Total displayed static exits = %d\n\n", (unsigned int)totCodeB, (unsigned int)totExitB, totSE); LogController.printf("Analysis by exit counts\n\n"); for (r = 0; r < N_TOP_BLOCKS; r++) { if (topFragID[r] == 0) break; LogController.printf("FragID=%06u, total count %u:\n", topFragID[r], topPI[r].count); uint32_t madeItToEnd = topPI[r].count; uint32_t totThisFrag = topPI[r].count; if (totThisFrag == 0) totThisFrag = 1; GuardPI gpi; // visit the guards, in forward order for (Seq* guards = topPI[r].guards; guards; guards = guards->tail) { gpi = (*guards).head; if (gpi.count == 0) continue; madeItToEnd -= gpi.count; LogController.printf(" GuardID=%03u %7u (%5.2f%%)\n", gpi.guardID, gpi.count, 100.0 * (double)gpi.count / (double)totThisFrag); } LogController.printf(" Looped (%03u) %7u (%5.2f%%)\n", topPI[r].largestGuardID+1, madeItToEnd, 100.0 * (double)madeItToEnd / (double)totThisFrag); NanoAssert(madeItToEnd <= topPI[r].count); // else unsigned underflow LogController.printf("\n"); } tm->profTab = NULL; } #endif /* ----------------------------------------------------------------- */ #ifdef DEBUG static const char* getExitName(ExitType type) { static const char* exitNames[] = { #define MAKE_EXIT_STRING(x) #x, JS_TM_EXITCODES(MAKE_EXIT_STRING) #undef MAKE_EXIT_STRING NULL }; JS_ASSERT(type < TOTAL_EXIT_TYPES); return exitNames[type]; } static JSBool FASTCALL PrintOnTrace(char* format, uint32 argc, double *argv) { union { struct { uint32 lo; uint32 hi; } i; double d; char *cstr; JSObject *o; JSString *s; } u; #define GET_ARG() JS_BEGIN_MACRO \ if (argi >= argc) { \ fprintf(out, "[too few args for format]"); \ break; \ } \ u.d = argv[argi++]; \ JS_END_MACRO FILE *out = stderr; uint32 argi = 0; for (char *p = format; *p; ++p) { if (*p != '%') { putc(*p, out); continue; } char ch = *++p; if (!ch) { fprintf(out, "[trailing %%]"); continue; } switch (ch) { case 'a': GET_ARG(); fprintf(out, "[%u:%u 0x%x:0x%x %f]", u.i.lo, u.i.hi, u.i.lo, u.i.hi, u.d); break; case 'd': GET_ARG(); fprintf(out, "%d", u.i.lo); break; case 'u': GET_ARG(); fprintf(out, "%u", u.i.lo); break; case 'x': GET_ARG(); fprintf(out, "%x", u.i.lo); break; case 'f': GET_ARG(); fprintf(out, "%f", u.d); break; case 'o': GET_ARG(); js_DumpObject(u.o); break; case 's': GET_ARG(); { size_t length = u.s->length(); // protect against massive spew if u.s is a bad pointer. if (length > 1 << 16) length = 1 << 16; jschar *chars = u.s->chars(); for (unsigned i = 0; i < length; ++i) { jschar co = chars[i]; if (co < 128) putc(co, out); else if (co < 256) fprintf(out, "\\u%02x", co); else fprintf(out, "\\u%04x", co); } } break; case 'S': GET_ARG(); fprintf(out, "%s", u.cstr); break; case 'v': { GET_ARG(); Value *v = (Value *) u.i.lo; js_DumpValue(*v); break; } default: fprintf(out, "[invalid %%%c]", *p); } } #undef GET_ARG return JS_TRUE; } JS_DEFINE_CALLINFO_3(extern, BOOL, PrintOnTrace, CHARPTR, UINT32, DOUBLEPTR, 0, ACCSET_STORE_ANY) // This version is not intended to be called directly: usually it is easier to // use one of the other overloads. void TraceRecorder::tprint(const char *format, int count, nanojit::LIns *insa[]) { size_t size = strlen(format) + 1; char* data = (char*) traceMonitor->traceAlloc->alloc(size); memcpy(data, format, size); double *args = (double*) traceMonitor->traceAlloc->alloc(count * sizeof(double)); for (int i = 0; i < count; ++i) { JS_ASSERT(insa[i]); lir->insStore(insa[i], INS_CONSTPTR(args), sizeof(double) * i, ACCSET_OTHER); } LIns* args_ins[] = { INS_CONSTPTR(args), INS_CONST(count), INS_CONSTPTR(data) }; LIns* call_ins = lir->insCall(&PrintOnTrace_ci, args_ins); guard(false, lir->insEqI_0(call_ins), MISMATCH_EXIT); } // Generate a 'printf'-type call from trace for debugging. void TraceRecorder::tprint(const char *format) { LIns* insa[] = { NULL }; tprint(format, 0, insa); } void TraceRecorder::tprint(const char *format, LIns *ins) { LIns* insa[] = { ins }; tprint(format, 1, insa); } void TraceRecorder::tprint(const char *format, LIns *ins1, LIns *ins2) { LIns* insa[] = { ins1, ins2 }; tprint(format, 2, insa); } void TraceRecorder::tprint(const char *format, LIns *ins1, LIns *ins2, LIns *ins3) { LIns* insa[] = { ins1, ins2, ins3 }; tprint(format, 3, insa); } void TraceRecorder::tprint(const char *format, LIns *ins1, LIns *ins2, LIns *ins3, LIns *ins4) { LIns* insa[] = { ins1, ins2, ins3, ins4 }; tprint(format, 4, insa); } void TraceRecorder::tprint(const char *format, LIns *ins1, LIns *ins2, LIns *ins3, LIns *ins4, LIns *ins5) { LIns* insa[] = { ins1, ins2, ins3, ins4, ins5 }; tprint(format, 5, insa); } void TraceRecorder::tprint(const char *format, LIns *ins1, LIns *ins2, LIns *ins3, LIns *ins4, LIns *ins5, LIns *ins6) { LIns* insa[] = { ins1, ins2, ins3, ins4, ins5, ins6 }; tprint(format, 6, insa); } #endif Tracker::Tracker() { pagelist = NULL; } Tracker::~Tracker() { clear(); } inline jsuword Tracker::getTrackerPageBase(const void* v) const { return jsuword(v) & ~TRACKER_PAGE_MASK; } inline jsuword Tracker::getTrackerPageOffset(const void* v) const { return (jsuword(v) & TRACKER_PAGE_MASK) >> 2; } struct Tracker::TrackerPage* Tracker::findTrackerPage(const void* v) const { jsuword base = getTrackerPageBase(v); struct Tracker::TrackerPage* p = pagelist; while (p) { if (p->base == base) return p; p = p->next; } return NULL; } struct Tracker::TrackerPage* Tracker::addTrackerPage(const void* v) { jsuword base = getTrackerPageBase(v); struct TrackerPage* p = (struct TrackerPage*) js_calloc(sizeof(*p)); p->base = base; p->next = pagelist; pagelist = p; return p; } void Tracker::clear() { while (pagelist) { TrackerPage* p = pagelist; pagelist = pagelist->next; js_free(p); } } bool Tracker::has(const void *v) const { return get(v) != NULL; } LIns* Tracker::get(const void* v) const { struct Tracker::TrackerPage* p = findTrackerPage(v); if (!p) return NULL; return p->map[getTrackerPageOffset(v)]; } void Tracker::set(const void* v, LIns* i) { struct Tracker::TrackerPage* p = findTrackerPage(v); if (!p) p = addTrackerPage(v); p->map[getTrackerPageOffset(v)] = i; } static inline bool hasInt32Repr(const Value &v) { if (!v.isNumber()) return false; if (v.isInt32()) return true; int32_t _; return JSDOUBLE_IS_INT32(v.toDouble(), &_); } static inline jsint asInt32(const Value &v) { JS_ASSERT(v.isNumber()); if (v.isInt32()) return v.toInt32(); #ifdef DEBUG int32_t _; JS_ASSERT(JSDOUBLE_IS_INT32(v.toDouble(), &_)); #endif return jsint(v.toDouble()); } /* * Return JSVAL_TYPE_DOUBLE for all numbers (int and double). Split * JSVAL_TYPE_OBJECT into JSVAL_TYPE_FUNOBJ and JSVAL_TYPE_NONFUNOBJ. * Otherwise, just return the value's type. */ static inline JSValueType getPromotedType(const Value &v) { if (v.isNumber()) return JSVAL_TYPE_DOUBLE; if (v.isObject()) return v.toObject().isFunction() ? JSVAL_TYPE_FUNOBJ : JSVAL_TYPE_NONFUNOBJ; return v.extractNonDoubleObjectTraceType(); } /* * Return JSVAL_TYPE_INT32 for all whole numbers that fit into signed 32-bit. * Split JSVAL_TYPE_OBJECT into JSVAL_TYPE_FUNOBJ and JSVAL_TYPE_NONFUNOBJ. * Otherwise, just return the value's type. */ static inline JSValueType getCoercedType(const Value &v) { if (v.isNumber()) { int32_t _; return (v.isInt32() || JSDOUBLE_IS_INT32(v.toDouble(), &_)) ? JSVAL_TYPE_INT32 : JSVAL_TYPE_DOUBLE; } if (v.isObject()) return v.toObject().isFunction() ? JSVAL_TYPE_FUNOBJ : JSVAL_TYPE_NONFUNOBJ; return v.extractNonDoubleObjectTraceType(); } static inline JSValueType getFrameObjPtrTraceType(void *p, JSStackFrame *fp) { if (p == fp->addressOfScopeChain()) { JS_ASSERT(*(JSObject **)p != NULL); return JSVAL_TYPE_NONFUNOBJ; } JS_ASSERT(p == fp->addressOfArgs()); return fp->hasArgsObj() ? JSVAL_TYPE_NONFUNOBJ : JSVAL_TYPE_NULL; } static inline bool isFrameObjPtrTraceType(JSValueType t) { return t == JSVAL_TYPE_NULL || t == JSVAL_TYPE_NONFUNOBJ; } /* Constant seed and accumulate step borrowed from the DJB hash. */ const uintptr_t ORACLE_MASK = ORACLE_SIZE - 1; JS_STATIC_ASSERT((ORACLE_MASK & ORACLE_SIZE) == 0); const uintptr_t FRAGMENT_TABLE_MASK = FRAGMENT_TABLE_SIZE - 1; JS_STATIC_ASSERT((FRAGMENT_TABLE_MASK & FRAGMENT_TABLE_SIZE) == 0); const uintptr_t HASH_SEED = 5381; static inline void HashAccum(uintptr_t& h, uintptr_t i, uintptr_t mask) { h = ((h << 5) + h + (mask & i)) & mask; } static JS_REQUIRES_STACK inline int StackSlotHash(JSContext* cx, unsigned slot, const void* pc) { uintptr_t h = HASH_SEED; HashAccum(h, uintptr_t(cx->fp()->script()), ORACLE_MASK); HashAccum(h, uintptr_t(pc), ORACLE_MASK); HashAccum(h, uintptr_t(slot), ORACLE_MASK); return int(h); } static JS_REQUIRES_STACK inline int GlobalSlotHash(JSContext* cx, unsigned slot) { uintptr_t h = HASH_SEED; JSStackFrame* fp = cx->fp(); while (fp->prev()) fp = fp->prev(); HashAccum(h, uintptr_t(fp->maybeScript()), ORACLE_MASK); HashAccum(h, uintptr_t(fp->scopeChain().getGlobal()->shape()), ORACLE_MASK); HashAccum(h, uintptr_t(slot), ORACLE_MASK); return int(h); } static inline int PCHash(jsbytecode* pc) { return int(uintptr_t(pc) & ORACLE_MASK); } Oracle::Oracle() { /* Grow the oracle bitsets to their (fixed) size here, once. */ _stackDontDemote.set(ORACLE_SIZE-1); _globalDontDemote.set(ORACLE_SIZE-1); clear(); } /* Tell the oracle that a certain global variable should not be demoted. */ JS_REQUIRES_STACK void Oracle::markGlobalSlotUndemotable(JSContext* cx, unsigned slot) { _globalDontDemote.set(GlobalSlotHash(cx, slot)); } /* Consult with the oracle whether we shouldn't demote a certain global variable. */ JS_REQUIRES_STACK bool Oracle::isGlobalSlotUndemotable(JSContext* cx, unsigned slot) const { return _globalDontDemote.get(GlobalSlotHash(cx, slot)); } /* Tell the oracle that a certain slot at a certain stack slot should not be demoted. */ JS_REQUIRES_STACK void Oracle::markStackSlotUndemotable(JSContext* cx, unsigned slot, const void* pc) { _stackDontDemote.set(StackSlotHash(cx, slot, pc)); } JS_REQUIRES_STACK void Oracle::markStackSlotUndemotable(JSContext* cx, unsigned slot) { markStackSlotUndemotable(cx, slot, cx->regs->pc); } /* Consult with the oracle whether we shouldn't demote a certain slot. */ JS_REQUIRES_STACK bool Oracle::isStackSlotUndemotable(JSContext* cx, unsigned slot, const void* pc) const { return _stackDontDemote.get(StackSlotHash(cx, slot, pc)); } JS_REQUIRES_STACK bool Oracle::isStackSlotUndemotable(JSContext* cx, unsigned slot) const { return isStackSlotUndemotable(cx, slot, cx->regs->pc); } /* Tell the oracle that a certain slot at a certain bytecode location should not be demoted. */ void Oracle::markInstructionUndemotable(jsbytecode* pc) { _pcDontDemote.set(PCHash(pc)); } /* Consult with the oracle whether we shouldn't demote a certain bytecode location. */ bool Oracle::isInstructionUndemotable(jsbytecode* pc) const { return _pcDontDemote.get(PCHash(pc)); } void Oracle::clearDemotability() { _stackDontDemote.reset(); _globalDontDemote.reset(); _pcDontDemote.reset(); } JS_REQUIRES_STACK void TraceRecorder::markSlotUndemotable(LinkableFragment* f, unsigned slot) { if (slot < f->nStackTypes) { traceMonitor->oracle->markStackSlotUndemotable(cx, slot); return; } uint16* gslots = f->globalSlots->data(); traceMonitor->oracle->markGlobalSlotUndemotable(cx, gslots[slot - f->nStackTypes]); } JS_REQUIRES_STACK void TraceRecorder::markSlotUndemotable(LinkableFragment* f, unsigned slot, const void* pc) { if (slot < f->nStackTypes) { traceMonitor->oracle->markStackSlotUndemotable(cx, slot, pc); return; } uint16* gslots = f->globalSlots->data(); traceMonitor->oracle->markGlobalSlotUndemotable(cx, gslots[slot - f->nStackTypes]); } static JS_REQUIRES_STACK bool IsSlotUndemotable(Oracle* oracle, JSContext* cx, LinkableFragment* f, unsigned slot, const void* ip) { if (slot < f->nStackTypes) return !oracle || oracle->isStackSlotUndemotable(cx, slot, ip); uint16* gslots = f->globalSlots->data(); return !oracle || oracle->isGlobalSlotUndemotable(cx, gslots[slot - f->nStackTypes]); } class FrameInfoCache { struct HashPolicy { typedef FrameInfo *Lookup; static HashNumber hash(const FrameInfo* fi) { size_t len = sizeof(FrameInfo) + fi->callerHeight * sizeof(JSValueType); HashNumber h = 0; const unsigned char *s = (const unsigned char*)fi; for (size_t i = 0; i < len; i++, s++) h = JS_ROTATE_LEFT32(h, 4) ^ *s; return h; } static bool match(const FrameInfo* fi1, const FrameInfo* fi2) { if (memcmp(fi1, fi2, sizeof(FrameInfo)) != 0) return false; return memcmp(fi1->get_typemap(), fi2->get_typemap(), fi1->callerHeight * sizeof(JSValueType)) == 0; } }; typedef HashSet FrameSet; FrameSet set; VMAllocator *allocator; public: FrameInfoCache(VMAllocator *allocator); void reset() { set.clear(); } FrameInfo *memoize(FrameInfo *fi) { FrameSet::AddPtr p = set.lookupForAdd(fi); if (!p) { FrameInfo* n = (FrameInfo*) allocator->alloc(sizeof(FrameInfo) + fi->callerHeight * sizeof(JSValueType)); memcpy(n, fi, sizeof(FrameInfo) + fi->callerHeight * sizeof(JSValueType)); if (!set.add(p, n)) return NULL; } return *p; } }; FrameInfoCache::FrameInfoCache(VMAllocator *allocator) : allocator(allocator) { if (!set.init()) OutOfMemoryAbort(); } #define PC_HASH_COUNT 1024 static void Blacklist(jsbytecode* pc) { AUDIT(blacklisted); JS_ASSERT(*pc == JSOP_TRACE || *pc == JSOP_NOP); *pc = JSOP_NOP; } static bool IsBlacklisted(jsbytecode* pc) { if (*pc == JSOP_NOP) return true; if (*pc == JSOP_CALL) return *(pc + JSOP_CALL_LENGTH) == JSOP_NOP; return false; } static void Backoff(JSContext *cx, jsbytecode* pc, Fragment* tree = NULL) { /* N.B. This code path cannot assume the recorder is/is not alive. */ RecordAttemptMap &table = *JS_TRACE_MONITOR(cx).recordAttempts; if (RecordAttemptMap::AddPtr p = table.lookupForAdd(pc)) { if (p->value++ > (BL_ATTEMPTS * MAXPEERS)) { p->value = 0; Blacklist(pc); return; } } else { table.add(p, pc, 0); } if (tree) { tree->hits() -= BL_BACKOFF; /* * In case there is no entry or no table (due to OOM) or some * serious imbalance in the recording-attempt distribution on a * multitree, give each tree another chance to blacklist here as * well. */ if (++tree->recordAttempts > BL_ATTEMPTS) Blacklist(pc); } } static void ResetRecordingAttempts(JSContext *cx, jsbytecode* pc) { RecordAttemptMap &table = *JS_TRACE_MONITOR(cx).recordAttempts; if (RecordAttemptMap::Ptr p = table.lookup(pc)) p->value = 0; } static inline size_t FragmentHash(const void *ip, JSObject* globalObj, uint32 globalShape, uint32 argc) { uintptr_t h = HASH_SEED; HashAccum(h, uintptr_t(ip), FRAGMENT_TABLE_MASK); HashAccum(h, uintptr_t(globalObj), FRAGMENT_TABLE_MASK); HashAccum(h, uintptr_t(globalShape), FRAGMENT_TABLE_MASK); HashAccum(h, uintptr_t(argc), FRAGMENT_TABLE_MASK); return size_t(h); } static void RawLookupFirstPeer(TraceMonitor* tm, const void *ip, JSObject* globalObj, uint32 globalShape, uint32 argc, TreeFragment*& firstInBucket, TreeFragment**& prevTreeNextp) { size_t h = FragmentHash(ip, globalObj, globalShape, argc); TreeFragment** ppf = &tm->vmfragments[h]; firstInBucket = *ppf; for (; TreeFragment* pf = *ppf; ppf = &pf->next) { if (pf->globalObj == globalObj && pf->globalShape == globalShape && pf->ip == ip && pf->argc == argc) { prevTreeNextp = ppf; return; } } prevTreeNextp = ppf; return; } static TreeFragment* LookupLoop(TraceMonitor* tm, const void *ip, JSObject* globalObj, uint32 globalShape, uint32 argc) { TreeFragment *_, **prevTreeNextp; RawLookupFirstPeer(tm, ip, globalObj, globalShape, argc, _, prevTreeNextp); return *prevTreeNextp; } static TreeFragment* LookupOrAddLoop(TraceMonitor* tm, const void *ip, JSObject* globalObj, uint32 globalShape, uint32 argc) { TreeFragment *firstInBucket, **prevTreeNextp; RawLookupFirstPeer(tm, ip, globalObj, globalShape, argc, firstInBucket, prevTreeNextp); if (TreeFragment *f = *prevTreeNextp) return f; verbose_only( uint32_t profFragID = (LogController.lcbits & LC_FragProfile) ? (++(tm->lastFragID)) : 0; ) TreeFragment* f = new (*tm->dataAlloc) TreeFragment(ip, tm->dataAlloc, globalObj, globalShape, argc verbose_only(, profFragID)); f->root = f; /* f is the root of a new tree */ *prevTreeNextp = f; /* insert f at the end of the vmfragments bucket-list */ f->next = NULL; f->first = f; /* initialize peer-list at f */ f->peer = NULL; return f; } static TreeFragment* AddNewPeerToPeerList(TraceMonitor* tm, TreeFragment* peer) { JS_ASSERT(peer); verbose_only( uint32_t profFragID = (LogController.lcbits & LC_FragProfile) ? (++(tm->lastFragID)) : 0; ) TreeFragment* f = new (*tm->dataAlloc) TreeFragment(peer->ip, tm->dataAlloc, peer->globalObj, peer->globalShape, peer->argc verbose_only(, profFragID)); f->root = f; /* f is the root of a new tree */ f->first = peer->first; /* add f to peer list */ f->peer = peer->peer; peer->peer = f; /* only the |first| Fragment of a peer list needs a valid |next| field */ debug_only(f->next = (TreeFragment*)0xcdcdcdcd); return f; } JS_REQUIRES_STACK void TreeFragment::initialize(JSContext* cx, SlotList *globalSlots, bool speculate) { this->dependentTrees.clear(); this->linkedTrees.clear(); this->globalSlots = globalSlots; /* Capture the coerced type of each active slot in the type map. */ this->typeMap.captureTypes(cx, globalObj, *globalSlots, 0 /* callDepth */, speculate); this->nStackTypes = this->typeMap.length() - globalSlots->length(); this->spOffsetAtEntry = cx->regs->sp - cx->fp()->base(); #ifdef DEBUG this->treeFileName = cx->fp()->script()->filename; this->treeLineNumber = js_FramePCToLineNumber(cx, cx->fp()); this->treePCOffset = FramePCOffset(cx, cx->fp()); #endif this->script = cx->fp()->script(); this->gcthings.clear(); this->shapes.clear(); this->unstableExits = NULL; this->sideExits.clear(); /* Determine the native frame layout at the entry point. */ this->nativeStackBase = (nStackTypes - (cx->regs->sp - cx->fp()->base())) * sizeof(double); this->maxNativeStackSlots = nStackTypes; this->maxCallDepth = 0; this->execs = 0; } UnstableExit* TreeFragment::removeUnstableExit(VMSideExit* exit) { /* Now erase this exit from the unstable exit list. */ UnstableExit** tail = &this->unstableExits; for (UnstableExit* uexit = this->unstableExits; uexit != NULL; uexit = uexit->next) { if (uexit->exit == exit) { *tail = uexit->next; return *tail; } tail = &uexit->next; } JS_NOT_REACHED("exit not in unstable exit list"); return NULL; } #ifdef DEBUG static void AssertTreeIsUnique(TraceMonitor* tm, TreeFragment* f) { JS_ASSERT(f->root == f); /* * Check for duplicate entry type maps. This is always wrong and hints at * trace explosion since we are trying to stabilize something without * properly connecting peer edges. */ for (TreeFragment* peer = LookupLoop(tm, f->ip, f->globalObj, f->globalShape, f->argc); peer != NULL; peer = peer->peer) { if (!peer->code() || peer == f) continue; JS_ASSERT(!f->typeMap.matches(peer->typeMap)); } } #endif static void AttemptCompilation(JSContext *cx, JSObject* globalObj, jsbytecode* pc, uint32 argc) { TraceMonitor *tm = &JS_TRACE_MONITOR(cx); /* If we already permanently blacklisted the location, undo that. */ JS_ASSERT(*pc == JSOP_NOP || *pc == JSOP_TRACE); *pc = JSOP_TRACE; ResetRecordingAttempts(cx, pc); /* Breathe new life into all peer fragments at the designated loop header. */ TreeFragment* f = LookupLoop(tm, pc, globalObj, globalObj->shape(), argc); if (!f) { /* * If the global object's shape changed, we can't easily find the * corresponding loop header via a hash table lookup. In this * we simply bail here and hope that the fragment has another * outstanding compilation attempt. This case is extremely rare. */ return; } JS_ASSERT(f->root == f); f = f->first; while (f) { JS_ASSERT(f->root == f); --f->recordAttempts; f->hits() = HOTLOOP; f = f->peer; } } static bool isfop(LIns* i, LOpcode op) { if (i->isop(op)) return true; #if NJ_SOFTFLOAT_SUPPORTED if (nanojit::AvmCore::config.soft_float && i->isop(LIR_ii2d) && i->oprnd1()->isop(LIR_calli) && i->oprnd2()->isop(LIR_hcalli)) { return i->oprnd1()->callInfo() == softFloatOps.opmap[op]; } #endif return false; } static const CallInfo * fcallinfo(LIns *i) { #if NJ_SOFTFLOAT_SUPPORTED if (nanojit::AvmCore::config.soft_float) { if (!i->isop(LIR_ii2d)) return NULL; i = i->oprnd1(); return i->isop(LIR_calli) ? i->callInfo() : NULL; } #endif return i->isop(LIR_calld) ? i->callInfo() : NULL; } static LIns* fcallarg(LIns* i, int n) { #if NJ_SOFTFLOAT_SUPPORTED if (nanojit::AvmCore::config.soft_float) { NanoAssert(i->isop(LIR_ii2d)); return i->oprnd1()->callArgN(n); } #endif NanoAssert(i->isop(LIR_calld)); return i->callArgN(n); } static LIns* foprnd1(LIns* i) { #if NJ_SOFTFLOAT_SUPPORTED if (nanojit::AvmCore::config.soft_float) return fcallarg(i, 0); #endif return i->oprnd1(); } static LIns* foprnd2(LIns* i) { #if NJ_SOFTFLOAT_SUPPORTED if (nanojit::AvmCore::config.soft_float) return fcallarg(i, 1); #endif return i->oprnd2(); } static LIns* demote(LirWriter *out, LIns* ins) { JS_ASSERT(ins->isD()); if (ins->isCall()) return ins->callArgN(0); if (isfop(ins, LIR_i2d) || isfop(ins, LIR_ui2d)) return foprnd1(ins); JS_ASSERT(ins->isImmD()); double cf = ins->immD(); int32_t ci = cf > 0x7fffffff ? uint32_t(cf) : int32_t(cf); return out->insImmI(ci); } static bool isPromoteInt(LIns* ins) { if (isfop(ins, LIR_i2d)) return true; if (ins->isImmD()) { jsdouble d = ins->immD(); return d == jsdouble(jsint(d)) && !JSDOUBLE_IS_NEGZERO(d); } return false; } static bool isPromoteUint(LIns* ins) { if (isfop(ins, LIR_ui2d)) return true; if (ins->isImmD()) { jsdouble d = ins->immD(); return d == jsdouble(jsuint(d)) && !JSDOUBLE_IS_NEGZERO(d); } return false; } static bool isPromote(LIns* ins) { return isPromoteInt(ins) || isPromoteUint(ins); } /* * Determine whether this operand is guaranteed to not overflow the specified * integer operation. */ static void ChecksRequired(LOpcode op, LIns* op1, LIns* op2, bool* needsOverflowCheck, bool* needsNegZeroCheck) { Interval x = Interval::of(op1, 3); Interval y = Interval::of(op2, 3); Interval z(0, 0); switch (op) { case LIR_addi: z = Interval::add(x, y); *needsNegZeroCheck = false; break; case LIR_subi: z = Interval::sub(x, y); *needsNegZeroCheck = false; break; case LIR_muli: { z = Interval::mul(x, y); // A would-be negative zero result can only occur if we have // mul(0, -n) or mul(-n, 0), where n != 0. In particular, a multiply // where one operand is a positive immediate cannot result in negative // zero. // // This assumes that -0 cannot be an operand; if one had occurred we // would have already exited the trace in order to promote the // computation back to doubles. *needsNegZeroCheck = (x.canBeZero() && y.canBeNegative()) || (y.canBeZero() && x.canBeNegative()); break; } default: JS_NOT_REACHED("needsOverflowCheck"); } *needsOverflowCheck = z.hasOverflowed; } class FuncFilter: public LirWriter { public: FuncFilter(LirWriter* out): LirWriter(out) { } LIns* ins2(LOpcode v, LIns* s0, LIns* s1) { if (s0 == s1 && v == LIR_eqd) { if (isPromote(s0)) { // double(int) and double(uint) cannot be nan return insImmI(1); } if (s0->isop(LIR_muld) || s0->isop(LIR_subd) || s0->isop(LIR_addd)) { LIns* lhs = s0->oprnd1(); LIns* rhs = s0->oprnd2(); if (isPromote(lhs) && isPromote(rhs)) { // add/sub/mul promoted ints can't be nan return insImmI(1); } } } else if (isCmpDOpcode(v)) { if (isPromoteInt(s0) && isPromoteInt(s1)) { // demote fcmp to cmp v = cmpOpcodeD2I(v); return out->ins2(v, demote(out, s0), demote(out, s1)); } else if (isPromoteUint(s0) && isPromoteUint(s1)) { // uint compare v = cmpOpcodeD2UI(v); return out->ins2(v, demote(out, s0), demote(out, s1)); } } return out->ins2(v, s0, s1); } }; /* * JSStackFrame::numActualArgs is only defined for function frames. Since the * actual arguments of the entry frame are kept on trace, argc is included in * the tuple identifying a fragment so that two fragments for the same loop but * recorded with different number of actual arguments are treated as two * completely separate trees. For this particular use, we define the number of * actuals for global and eval frames to be 0. */ static inline uintN entryFrameArgc(JSContext *cx) { JSStackFrame *fp = cx->fp(); return fp->isGlobalFrame() || fp->isEvalFrame() ? 0 : fp->numActualArgs(); } template static JS_REQUIRES_STACK JS_ALWAYS_INLINE bool VisitStackAndArgs(Visitor &visitor, JSStackFrame *fp, JSStackFrame *next, Value *stack) { if (JS_LIKELY(!next->hasOverflowArgs())) return visitor.visitStackSlots(stack, next->formalArgsEnd() - stack, fp); /* * In the case of nactual > nformal, the formals are copied by the VM onto * the top of the stack. We only want to mark the formals once, so we * carefully mark only the canonical actual arguments (as defined by * JSStackFrame::canonicalActualArg). */ uintN nactual = next->numActualArgs(); Value *actuals = next->actualArgs(); size_t nstack = (actuals - 2 /* callee,this */) - stack; if (!visitor.visitStackSlots(stack, nstack, fp)) return false; uintN nformal = next->numFormalArgs(); Value *formals = next->formalArgs(); if (!visitor.visitStackSlots(formals - 2, 2 + nformal, fp)) return false; return visitor.visitStackSlots(actuals + nformal, nactual - nformal, fp); } /* * Visit the values in the given JSStackFrame that the tracer cares about. This * visitor function is (implicitly) the primary definition of the native stack * area layout. There are a few other independent pieces of code that must be * maintained to assume the same layout. They are marked like this: * * Duplicate native stack layout computation: see VisitFrameSlots header comment. */ template static JS_REQUIRES_STACK bool VisitFrameSlots(Visitor &visitor, JSContext *cx, unsigned depth, JSStackFrame *fp, JSStackFrame *next) { JS_ASSERT_IF(!next, cx->fp() == fp); if (depth > 0 && !VisitFrameSlots(visitor, cx, depth-1, fp->prev(), fp)) return false; if (depth == 0) { if (fp->isGlobalFrame()) { visitor.setStackSlotKind("global"); Value *base = fp->slots() + fp->globalScript()->nfixed; if (next) return VisitStackAndArgs(visitor, fp, next, base); return visitor.visitStackSlots(base, cx->regs->sp - base, fp); } if (JS_UNLIKELY(fp->isEvalFrame())) { visitor.setStackSlotKind("eval"); if (!visitor.visitStackSlots(&fp->calleeValue(), 2, fp)) return false; } else { /* * Only the bottom function frame must visit its arguments; for all * other frames, arguments are visited by the prev-frame. */ visitor.setStackSlotKind("args"); uintN nformal = fp->numFormalArgs(); if (!visitor.visitStackSlots(fp->formalArgs() - 2, 2 + nformal, fp)) return false; if (JS_UNLIKELY(fp->hasOverflowArgs())) { if (!visitor.visitStackSlots(fp->actualArgs() + nformal, fp->numActualArgs() - nformal, fp)) return false; } } } JS_ASSERT(fp->isFunctionFrame()); /* * We keep two members of JSStackFrame on trace: the args obj pointer and * the scope chain pointer. The visitor must take care not to treat these * as js::Value-typed variables, since they are unboxed pointers. * Moreover, JSStackFrame compresses the args obj pointer with nactual, so * fp->addressOfArgs() is not really a JSObject**: the visitor must treat * !fp->hasArgsObj() as a null args obj pointer. Hence, visitFrameObjPtr * is only passed a void *. */ visitor.setStackSlotKind("arguments"); if (!visitor.visitFrameObjPtr(fp->addressOfArgs(), fp)) return false; visitor.setStackSlotKind("scopeChain"); if (!visitor.visitFrameObjPtr(fp->addressOfScopeChain(), fp)) return false; visitor.setStackSlotKind("slots"); if (next) return VisitStackAndArgs(visitor, fp, next, fp->slots()); return visitor.visitStackSlots(fp->slots(), cx->regs->sp - fp->slots(), fp); } // Number of native frame slots used for 'special' values between args and vars. // Currently the two values are |arguments| (args object) and |scopeChain|. const int SPECIAL_FRAME_SLOTS = 2; template static JS_REQUIRES_STACK JS_ALWAYS_INLINE bool VisitStackSlots(Visitor &visitor, JSContext *cx, unsigned callDepth) { return VisitFrameSlots(visitor, cx, callDepth, cx->fp(), NULL); } template static JS_REQUIRES_STACK JS_ALWAYS_INLINE void VisitGlobalSlots(Visitor &visitor, JSContext *cx, JSObject *globalObj, unsigned ngslots, uint16 *gslots) { for (unsigned n = 0; n < ngslots; ++n) { unsigned slot = gslots[n]; visitor.visitGlobalSlot(&globalObj->getSlotRef(slot), n, slot); } } class AdjustCallerTypeVisitor; template static JS_REQUIRES_STACK JS_ALWAYS_INLINE void VisitGlobalSlots(Visitor &visitor, JSContext *cx, SlotList &gslots) { VisitGlobalSlots(visitor, cx, cx->fp()->scopeChain().getGlobal(), gslots.length(), gslots.data()); } template static JS_REQUIRES_STACK JS_ALWAYS_INLINE void VisitSlots(Visitor& visitor, JSContext* cx, JSObject* globalObj, unsigned callDepth, unsigned ngslots, uint16* gslots) { if (VisitStackSlots(visitor, cx, callDepth)) VisitGlobalSlots(visitor, cx, globalObj, ngslots, gslots); } template static JS_REQUIRES_STACK JS_ALWAYS_INLINE void VisitSlots(Visitor& visitor, JSContext* cx, unsigned callDepth, unsigned ngslots, uint16* gslots) { VisitSlots(visitor, cx, cx->fp()->scopeChain().getGlobal(), callDepth, ngslots, gslots); } template static JS_REQUIRES_STACK JS_ALWAYS_INLINE void VisitSlots(Visitor &visitor, JSContext *cx, JSObject *globalObj, unsigned callDepth, const SlotList& slots) { VisitSlots(visitor, cx, globalObj, callDepth, slots.length(), slots.data()); } template static JS_REQUIRES_STACK JS_ALWAYS_INLINE void VisitSlots(Visitor &visitor, JSContext *cx, unsigned callDepth, const SlotList& slots) { VisitSlots(visitor, cx, cx->fp()->scopeChain().getGlobal(), callDepth, slots.length(), slots.data()); } class SlotVisitorBase { #if defined JS_JIT_SPEW protected: char const *mStackSlotKind; public: SlotVisitorBase() : mStackSlotKind(NULL) {} JS_ALWAYS_INLINE const char *stackSlotKind() { return mStackSlotKind; } JS_ALWAYS_INLINE void setStackSlotKind(char const *k) { mStackSlotKind = k; } #else public: JS_ALWAYS_INLINE const char *stackSlotKind() { return NULL; } JS_ALWAYS_INLINE void setStackSlotKind(char const *k) {} #endif }; struct CountSlotsVisitor : public SlotVisitorBase { unsigned mCount; bool mDone; const void* mStop; public: JS_ALWAYS_INLINE CountSlotsVisitor(const void* stop = NULL) : mCount(0), mDone(false), mStop(stop) {} JS_REQUIRES_STACK JS_ALWAYS_INLINE bool visitStackSlots(Value *vp, size_t count, JSStackFrame* fp) { if (mDone) return false; if (mStop && size_t(((const Value *)mStop) - vp) < count) { mCount += size_t(((const Value *)mStop) - vp); mDone = true; return false; } mCount += count; return true; } JS_REQUIRES_STACK JS_ALWAYS_INLINE bool visitFrameObjPtr(void* p, JSStackFrame* fp) { if (mDone) return false; if (mStop && mStop == p) { mDone = true; return false; } mCount++; return true; } JS_ALWAYS_INLINE unsigned count() { return mCount; } JS_ALWAYS_INLINE bool stopped() { return mDone; } }; static JS_REQUIRES_STACK JS_ALWAYS_INLINE unsigned CountStackAndArgs(JSStackFrame *next, Value *stack) { if (JS_LIKELY(!next->hasOverflowArgs())) return (Value *)next - stack; size_t nvals = (next->formalArgs() - 2 /* callee, this */) - stack; JS_ASSERT(nvals == unsigned((next->actualArgs() - 2) - stack) + (2 + next->numActualArgs())); return nvals; } static JS_ALWAYS_INLINE uintN NumSlotsBeforeFixed(JSStackFrame *fp) { uintN numArgs = fp->isEvalFrame() ? 0 : Max(fp->numActualArgs(), fp->numFormalArgs()); return 2 + numArgs + SPECIAL_FRAME_SLOTS; } /* * Calculate the total number of native frame slots we need from this frame all * the way back to the entry frame, including the current stack usage. * * Duplicate native stack layout computation: see VisitFrameSlots header comment. */ JS_REQUIRES_STACK unsigned NativeStackSlots(JSContext *cx, unsigned callDepth) { JSStackFrame *fp = cx->fp(); JSStackFrame *next = NULL; unsigned slots = 0; unsigned depth = callDepth; for (; depth > 0; --depth, next = fp, fp = fp->prev()) { JS_ASSERT(fp->isFunctionFrame() && !fp->isEvalFrame()); slots += SPECIAL_FRAME_SLOTS; if (next) slots += CountStackAndArgs(next, fp->slots()); else slots += cx->regs->sp - fp->slots(); } Value *start; if (fp->isGlobalFrame()) { start = fp->slots() + fp->globalScript()->nfixed; } else { start = fp->slots(); slots += NumSlotsBeforeFixed(fp); } if (next) slots += CountStackAndArgs(next, start); else slots += cx->regs->sp - start; #ifdef DEBUG CountSlotsVisitor visitor; VisitStackSlots(visitor, cx, callDepth); JS_ASSERT(visitor.count() == slots && !visitor.stopped()); #endif return slots; } class CaptureTypesVisitor : public SlotVisitorBase { JSContext* mCx; JSValueType* mTypeMap; JSValueType* mPtr; Oracle * mOracle; public: JS_ALWAYS_INLINE CaptureTypesVisitor(JSContext* cx, JSValueType* typeMap, bool speculate) : mCx(cx), mTypeMap(typeMap), mPtr(typeMap), mOracle(speculate ? JS_TRACE_MONITOR(cx).oracle : NULL) {} JS_REQUIRES_STACK JS_ALWAYS_INLINE void visitGlobalSlot(Value *vp, unsigned n, unsigned slot) { JSValueType type = getCoercedType(*vp); if (type == JSVAL_TYPE_INT32 && (!mOracle || mOracle->isGlobalSlotUndemotable(mCx, slot))) type = JSVAL_TYPE_DOUBLE; JS_ASSERT(type != JSVAL_TYPE_BOXED); debug_only_printf(LC_TMTracer, "capture type global%d: %c\n", n, TypeToChar(type)); *mPtr++ = type; } JS_REQUIRES_STACK JS_ALWAYS_INLINE bool visitStackSlots(Value *vp, int count, JSStackFrame* fp) { for (int i = 0; i < count; ++i) { JSValueType type = getCoercedType(vp[i]); if (type == JSVAL_TYPE_INT32 && (!mOracle || mOracle->isStackSlotUndemotable(mCx, length()))) type = JSVAL_TYPE_DOUBLE; JS_ASSERT(type != JSVAL_TYPE_BOXED); debug_only_printf(LC_TMTracer, "capture type %s%d: %c\n", stackSlotKind(), i, TypeToChar(type)); *mPtr++ = type; } return true; } JS_REQUIRES_STACK JS_ALWAYS_INLINE bool visitFrameObjPtr(void* p, JSStackFrame* fp) { JSValueType type = getFrameObjPtrTraceType(p, fp); debug_only_printf(LC_TMTracer, "capture type %s%d: %c\n", stackSlotKind(), 0, TypeToChar(type)); *mPtr++ = type; return true; } JS_ALWAYS_INLINE uintptr_t length() { return mPtr - mTypeMap; } }; void TypeMap::set(unsigned stackSlots, unsigned ngslots, const JSValueType* stackTypeMap, const JSValueType* globalTypeMap) { setLength(ngslots + stackSlots); memcpy(data(), stackTypeMap, stackSlots * sizeof(JSValueType)); memcpy(data() + stackSlots, globalTypeMap, ngslots * sizeof(JSValueType)); } /* * Capture the type map for the selected slots of the global object and currently pending * stack frames. */ JS_REQUIRES_STACK void TypeMap::captureTypes(JSContext* cx, JSObject* globalObj, SlotList& slots, unsigned callDepth, bool speculate) { setLength(NativeStackSlots(cx, callDepth) + slots.length()); CaptureTypesVisitor visitor(cx, data(), speculate); VisitSlots(visitor, cx, globalObj, callDepth, slots); JS_ASSERT(visitor.length() == length()); } JS_REQUIRES_STACK void TypeMap::captureMissingGlobalTypes(JSContext* cx, JSObject* globalObj, SlotList& slots, unsigned stackSlots, bool speculate) { unsigned oldSlots = length() - stackSlots; int diff = slots.length() - oldSlots; JS_ASSERT(diff >= 0); setLength(length() + diff); CaptureTypesVisitor visitor(cx, data() + stackSlots + oldSlots, speculate); VisitGlobalSlots(visitor, cx, globalObj, diff, slots.data() + oldSlots); } /* Compare this type map to another one and see whether they match. */ bool TypeMap::matches(TypeMap& other) const { if (length() != other.length()) return false; return !memcmp(data(), other.data(), length()); } void TypeMap::fromRaw(JSValueType* other, unsigned numSlots) { unsigned oldLength = length(); setLength(length() + numSlots); for (unsigned i = 0; i < numSlots; i++) get(oldLength + i) = other[i]; } /* * Use the provided storage area to create a new type map that contains the * partial type map with the rest of it filled up from the complete type * map. */ static void MergeTypeMaps(JSValueType** partial, unsigned* plength, JSValueType* complete, unsigned clength, JSValueType* mem) { unsigned l = *plength; JS_ASSERT(l < clength); memcpy(mem, *partial, l * sizeof(JSValueType)); memcpy(mem + l, complete + l, (clength - l) * sizeof(JSValueType)); *partial = mem; *plength = clength; } /* * Specializes a tree to any specifically missing globals, including any * dependent trees. */ static JS_REQUIRES_STACK void SpecializeTreesToLateGlobals(JSContext* cx, TreeFragment* root, JSValueType* globalTypeMap, unsigned numGlobalSlots) { for (unsigned i = root->nGlobalTypes(); i < numGlobalSlots; i++) root->typeMap.add(globalTypeMap[i]); JS_ASSERT(root->nGlobalTypes() == numGlobalSlots); for (unsigned i = 0; i < root->dependentTrees.length(); i++) { TreeFragment* tree = root->dependentTrees[i]; if (tree->code() && tree->nGlobalTypes() < numGlobalSlots) SpecializeTreesToLateGlobals(cx, tree, globalTypeMap, numGlobalSlots); } for (unsigned i = 0; i < root->linkedTrees.length(); i++) { TreeFragment* tree = root->linkedTrees[i]; if (tree->code() && tree->nGlobalTypes() < numGlobalSlots) SpecializeTreesToLateGlobals(cx, tree, globalTypeMap, numGlobalSlots); } } /* Specializes a tree to any missing globals, including any dependent trees. */ static JS_REQUIRES_STACK void SpecializeTreesToMissingGlobals(JSContext* cx, JSObject* globalObj, TreeFragment* root) { /* If we already have a bunch of peer trees, try to be as generic as possible. */ size_t count = 0; for (TreeFragment *f = root->first; f; f = f->peer, ++count); bool speculate = count < MAXPEERS-1; root->typeMap.captureMissingGlobalTypes(cx, globalObj, *root->globalSlots, root->nStackTypes, speculate); JS_ASSERT(root->globalSlots->length() == root->typeMap.length() - root->nStackTypes); SpecializeTreesToLateGlobals(cx, root, root->globalTypeMap(), root->nGlobalTypes()); } static void ResetJITImpl(JSContext* cx); #ifdef MOZ_TRACEVIS static JS_INLINE void ResetJIT(JSContext* cx, TraceVisFlushReason r) { LogTraceVisEvent(cx, S_RESET, r); ResetJITImpl(cx); } #else # define ResetJIT(cx, reason) ResetJITImpl(cx) #endif void FlushJITCache(JSContext *cx) { ResetJIT(cx, FR_OOM); } static void TrashTree(JSContext* cx, TreeFragment* f); template static T& InitConst(const T &t) { return const_cast(t); } JS_REQUIRES_STACK TraceRecorder::TraceRecorder(JSContext* cx, VMSideExit* anchor, VMFragment* fragment, unsigned stackSlots, unsigned ngslots, JSValueType* typeMap, VMSideExit* innermost, jsbytecode* outer, uint32 outerArgc, bool speculate) : cx(cx), traceMonitor(&JS_TRACE_MONITOR(cx)), oracle(speculate ? JS_TRACE_MONITOR(cx).oracle : NULL), fragment(fragment), tree(fragment->root), globalObj(tree->globalObj), outer(outer), outerArgc(outerArgc), anchor(anchor), lir(NULL), cx_ins(NULL), eos_ins(NULL), eor_ins(NULL), loopLabel(NULL), importTypeMap(&tempAlloc()), lirbuf(new (tempAlloc()) LirBuffer(tempAlloc())), mark(*traceMonitor->traceAlloc), numSideExitsBefore(tree->sideExits.length()), tracker(), nativeFrameTracker(), global_dslots(NULL), callDepth(anchor ? anchor->calldepth : 0), atoms(FrameAtomBase(cx, cx->fp())), consts(cx->fp()->script()->constOffset ? cx->fp()->script()->consts()->vector : NULL), strictModeCode_ins(NULL), cfgMerges(&tempAlloc()), trashSelf(false), whichTreesToTrash(&tempAlloc()), guardedShapeTable(cx), rval_ins(NULL), native_rval_ins(NULL), newobj_ins(NULL), pendingSpecializedNative(NULL), pendingUnboxSlot(NULL), pendingGuardCondition(NULL), pendingLoop(true), generatedSpecializedNative(), tempTypeMap(cx) { JS_ASSERT(globalObj == cx->fp()->scopeChain().getGlobal()); JS_ASSERT(globalObj->hasOwnShape()); JS_ASSERT(cx->regs->pc == (jsbytecode*)fragment->ip); fragment->lirbuf = lirbuf; #ifdef DEBUG lirbuf->printer = new (tempAlloc()) LInsPrinter(tempAlloc(), TM_NUM_USED_ACCS); #endif /* * Reset the fragment state we care about in case we got a recycled * fragment. This includes resetting any profiling data we might have * accumulated. */ fragment->lastIns = NULL; fragment->setCode(NULL); fragment->lirbuf = lirbuf; verbose_only( fragment->profCount = 0; ) verbose_only( fragment->nStaticExits = 0; ) verbose_only( fragment->nCodeBytes = 0; ) verbose_only( fragment->nExitBytes = 0; ) verbose_only( fragment->guardNumberer = 1; ) verbose_only( fragment->guardsForFrag = NULL; ) verbose_only( fragment->loopLabel = NULL; ) /* * Don't change fragment->profFragID, though. Once the identity of the * Fragment is set up (for profiling purposes), we can't change it. */ if (!guardedShapeTable.init()) abort(); #ifdef JS_JIT_SPEW debug_only_print0(LC_TMMinimal, "\n"); debug_only_printf(LC_TMMinimal, "Recording starting from %s:%u@%u (FragID=%06u)\n", tree->treeFileName, tree->treeLineNumber, tree->treePCOffset, fragment->profFragID); debug_only_printf(LC_TMTracer, "globalObj=%p, shape=%d\n", (void*)this->globalObj, this->globalObj->shape()); debug_only_printf(LC_TMTreeVis, "TREEVIS RECORD FRAG=%p ANCHOR=%p\n", (void*)fragment, (void*)anchor); #endif nanojit::LirWriter*& lir = InitConst(this->lir); lir = new (tempAlloc()) LirBufWriter(lirbuf, nanojit::AvmCore::config); #ifdef DEBUG ValidateWriter* validate2; lir = validate2 = new (tempAlloc()) ValidateWriter(lir, lirbuf->printer, "end of writer pipeline"); #endif debug_only_stmt( if (LogController.lcbits & LC_TMRecorder) { lir = new (tempAlloc()) VerboseWriter(tempAlloc(), lir, lirbuf->printer, &LogController); } ) // CseFilter must be downstream of SoftFloatFilter (see bug 527754 for why). if (avmplus::AvmCore::config.cseopt) lir = new (tempAlloc()) CseFilter(lir, TM_NUM_USED_ACCS, tempAlloc()); #if NJ_SOFTFLOAT_SUPPORTED if (nanojit::AvmCore::config.soft_float) lir = new (tempAlloc()) SoftFloatFilter(lir); #endif lir = new (tempAlloc()) ExprFilter(lir); lir = new (tempAlloc()) FuncFilter(lir); #ifdef DEBUG ValidateWriter* validate1; lir = validate1 = new (tempAlloc()) ValidateWriter(lir, lirbuf->printer, "start of writer pipeline"); #endif lir->ins0(LIR_start); for (int i = 0; i < NumSavedRegs; ++i) lir->insParam(i, 1); #ifdef DEBUG for (int i = 0; i < NumSavedRegs; ++i) addName(lirbuf->savedRegs[i], regNames[Assembler::savedRegs[i]]); #endif lirbuf->state = addName(lir->insParam(0, 0), "state"); if (fragment == fragment->root) InitConst(loopLabel) = lir->ins0(LIR_label); // if profiling, drop a label, so the assembler knows to put a // frag-entry-counter increment at this point. If there's a // loopLabel, use that; else we'll have to make a dummy label // especially for this purpose. verbose_only( if (LogController.lcbits & LC_FragProfile) { LIns* entryLabel = NULL; if (fragment == fragment->root) { entryLabel = loopLabel; } else { entryLabel = lir->ins0(LIR_label); } NanoAssert(entryLabel); NanoAssert(!fragment->loopLabel); fragment->loopLabel = entryLabel; }) #ifdef DEBUG // Need to set these up before any loads/stores occur. // 'extras' is heap-allocated because its lifetime matches validate[12]'s. void** extras = new (tempAlloc()) void*[2]; extras[0] = 0; // we'll set it shortly extras[1] = 0; // we'll set it shortly validate1->setCheckAccSetExtras(extras); validate2->setCheckAccSetExtras(extras); #endif lirbuf->sp = addName(lir->insLoad(LIR_ldp, lirbuf->state, offsetof(TracerState, sp), ACCSET_OTHER), "sp"); lirbuf->rp = addName(lir->insLoad(LIR_ldp, lirbuf->state, offsetof(TracerState, rp), ACCSET_OTHER), "rp"); InitConst(cx_ins) = addName(lir->insLoad(LIR_ldp, lirbuf->state, offsetof(TracerState, cx), ACCSET_OTHER), "cx"); InitConst(eos_ins) = addName(lir->insLoad(LIR_ldp, lirbuf->state, offsetof(TracerState, eos), ACCSET_OTHER), "eos"); InitConst(eor_ins) = addName(lir->insLoad(LIR_ldp, lirbuf->state, offsetof(TracerState, eor), ACCSET_OTHER), "eor"); strictModeCode_ins = addName(lir->insImmI(cx->fp()->script()->strictModeCode), "strict"); #ifdef DEBUG // Need to update these before any stack/rstack loads/stores occur. extras[0] = lirbuf->sp; extras[1] = lirbuf->rp; #endif /* If we came from exit, we might not have enough global types. */ if (tree->globalSlots->length() > tree->nGlobalTypes()) SpecializeTreesToMissingGlobals(cx, globalObj, tree); /* read into registers all values on the stack and all globals we know so far */ import(tree, lirbuf->sp, stackSlots, ngslots, callDepth, typeMap); if (fragment == fragment->root) { /* * We poll the operation callback request flag. It is updated asynchronously whenever * the callback is to be invoked. We can use INS_CONSTPTR here as JIT-ed code is per * thread and cannot outlive the corresponding JSThreadData. */ LIns* flagptr = INS_CONSTPTR((void *) &JS_THREAD_DATA(cx)->interruptFlags); LIns* x = lir->insLoad(LIR_ldi, flagptr, 0, ACCSET_OTHER, LOAD_VOLATILE); guard(true, lir->insEqI_0(x), snapshot(TIMEOUT_EXIT)); /* * Count the number of iterations run by a trace, so that we can blacklist if * the trace runs too few iterations to be worthwhile. Do this only if the methodjit * is on--otherwise we must try to trace as much as possible. */ if (cx->methodJitEnabled) { LIns* counterPtr = INS_CONSTPTR((void *) &JS_THREAD_DATA(cx)->iterationCounter); LIns* counterValue = lir->insLoad(LIR_ldi, counterPtr, 0, ACCSET_OTHER, LOAD_VOLATILE); LIns* test = lir->ins2ImmI(LIR_lti, counterValue, MIN_LOOP_ITERS); LIns *branch = lir->insBranch(LIR_jf, test, NULL); counterValue = lir->ins2(LIR_addi, counterValue, INS_CONST(1)); lir->insStore(counterValue, counterPtr, 0, ACCSET_OTHER); branch->setTarget(lir->ins0(LIR_label)); } } /* * If we are attached to a tree call guard, make sure the guard the inner * tree exited from is what we expect it to be. */ if (anchor && anchor->exitType == NESTED_EXIT) { LIns* nested_ins = addName(lir->insLoad(LIR_ldp, lirbuf->state, offsetof(TracerState, outermostTreeExitGuard), ACCSET_OTHER), "outermostTreeExitGuard"); guard(true, lir->ins2(LIR_eqp, nested_ins, INS_CONSTPTR(innermost)), NESTED_EXIT); } } TraceRecorder::~TraceRecorder() { /* Should already have been adjusted by callers before calling delete. */ JS_ASSERT(traceMonitor->recorder != this); if (trashSelf) TrashTree(cx, fragment->root); for (unsigned int i = 0; i < whichTreesToTrash.length(); i++) TrashTree(cx, whichTreesToTrash[i]); /* Purge the tempAlloc used during recording. */ tempAlloc().reset(); forgetGuardedShapes(); } inline bool TraceMonitor::outOfMemory() const { return dataAlloc->outOfMemory() || tempAlloc->outOfMemory() || traceAlloc->outOfMemory(); } /* * This function destroys the recorder after a successful recording, possibly * starting a suspended outer recorder. */ AbortableRecordingStatus TraceRecorder::finishSuccessfully() { JS_ASSERT(traceMonitor->recorder == this); JS_ASSERT(fragment->lastIns && fragment->code()); AUDIT(traceCompleted); mark.commit(); /* Grab local copies of members needed after |delete this|. */ JSContext* localcx = cx; TraceMonitor* localtm = traceMonitor; localtm->recorder = NULL; delete this; /* Catch OOM that occurred during recording. */ if (localtm->outOfMemory() || OverfullJITCache(localtm)) { ResetJIT(localcx, FR_OOM); return ARECORD_ABORTED; } return ARECORD_COMPLETED; } /* This function aborts a recorder and any pending outer recorders. */ JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::finishAbort(const char* reason) { JS_ASSERT(traceMonitor->recorder == this); JS_ASSERT(!fragment->code()); AUDIT(recorderAborted); #ifdef DEBUG debug_only_printf(LC_TMAbort, "Abort recording of tree %s:%d@%d at %s:%d@%d: %s.\n", tree->treeFileName, tree->treeLineNumber, tree->treePCOffset, cx->fp()->script()->filename, js_FramePCToLineNumber(cx, cx->fp()), FramePCOffset(cx, cx->fp()), reason); #endif Backoff(cx, (jsbytecode*) fragment->root->ip, fragment->root); /* * If this is the primary trace and we didn't succeed compiling, trash the * tree. Otherwise, remove the VMSideExits we added while recording, which * are about to be invalid. * * BIG FAT WARNING: resetting the length is only a valid strategy as long as * there may be only one recorder active for a single TreeInfo at a time. * Otherwise, we may be throwing away another recorder's valid side exits. */ if (fragment->root == fragment) { TrashTree(cx, fragment->toTreeFragment()); } else { JS_ASSERT(numSideExitsBefore <= fragment->root->sideExits.length()); fragment->root->sideExits.setLength(numSideExitsBefore); } /* Grab local copies of members needed after |delete this|. */ JSContext* localcx = cx; TraceMonitor* localtm = traceMonitor; localtm->recorder = NULL; delete this; if (localtm->outOfMemory() || OverfullJITCache(localtm)) ResetJIT(localcx, FR_OOM); return ARECORD_ABORTED; } /* Add debug information to a LIR instruction as we emit it. */ inline LIns* TraceRecorder::addName(LIns* ins, const char* name) { #ifdef JS_JIT_SPEW /* * We'll only ask for verbose Nanojit when .lcbits > 0, so there's no point * in adding names otherwise. */ if (LogController.lcbits > 0) lirbuf->printer->lirNameMap->addName(ins, name); #endif return ins; } inline LIns* TraceRecorder::insImmObj(JSObject* obj) { tree->gcthings.addUnique(ObjectValue(*obj)); return lir->insImmP((void*)obj); } inline LIns* TraceRecorder::insImmFun(JSFunction* fun) { tree->gcthings.addUnique(ObjectValue(*fun)); return lir->insImmP((void*)fun); } inline LIns* TraceRecorder::insImmStr(JSString* str) { tree->gcthings.addUnique(StringValue(str)); return lir->insImmP((void*)str); } inline LIns* TraceRecorder::insImmShape(const Shape* shape) { tree->shapes.addUnique(shape); return lir->insImmP((void*)shape); } inline LIns* TraceRecorder::insImmId(jsid id) { if (JSID_IS_GCTHING(id)) tree->gcthings.addUnique(IdToValue(id)); return lir->insImmP((void*)JSID_BITS(id)); } inline LIns* TraceRecorder::p2i(nanojit::LIns* ins) { #ifdef NANOJIT_64BIT return lir->ins1(LIR_q2i, ins); #else return ins; #endif } ptrdiff_t TraceRecorder::nativeGlobalSlot(const Value* p) const { JS_ASSERT(isGlobal(p)); if (size_t(p - globalObj->fslots) < JS_INITIAL_NSLOTS) return ptrdiff_t(p - globalObj->fslots); return ptrdiff_t((p - globalObj->dslots) + JS_INITIAL_NSLOTS); } /* Determine the offset in the native global frame for a jsval we track. */ ptrdiff_t TraceRecorder::nativeGlobalOffset(const Value* p) const { return nativeGlobalSlot(p) * sizeof(double); } /* Determine whether a value is a global stack slot. */ bool TraceRecorder::isGlobal(const Value* p) const { return ((size_t(p - globalObj->fslots) < JS_INITIAL_NSLOTS) || (size_t(p - globalObj->dslots) < (globalObj->numSlots() - JS_INITIAL_NSLOTS))); } bool TraceRecorder::isVoidPtrGlobal(const void* p) const { return isGlobal((const Value *)p); } /* * Return the offset in the native stack for the given jsval. More formally, * |p| must be the address of a jsval that is represented in the native stack * area. The return value is the offset, from TracerState::stackBase, in bytes, * where the native representation of |*p| is stored. To get the offset * relative to TracerState::sp, subtract TreeFragment::nativeStackBase. */ JS_REQUIRES_STACK ptrdiff_t TraceRecorder::nativeStackOffsetImpl(const void* p) const { CountSlotsVisitor visitor(p); VisitStackSlots(visitor, cx, callDepth); size_t offset = visitor.count() * sizeof(double); /* * If it's not in a pending frame, it must be on the stack of the current * frame above sp but below fp->slots() + script->nslots. */ if (!visitor.stopped()) { const Value *vp = (const Value *)p; JS_ASSERT(size_t(vp - cx->fp()->slots()) < cx->fp()->numSlots()); offset += size_t(vp - cx->regs->sp) * sizeof(double); } return offset; } JS_REQUIRES_STACK inline ptrdiff_t TraceRecorder::nativeStackOffset(const Value* p) const { return nativeStackOffsetImpl(p); } JS_REQUIRES_STACK inline ptrdiff_t TraceRecorder::nativeStackSlotImpl(const void* p) const { return nativeStackOffsetImpl(p) / sizeof(double); } JS_REQUIRES_STACK inline ptrdiff_t TraceRecorder::nativeStackSlot(const Value* p) const { return nativeStackSlotImpl(p); } /* * Return the offset, from TracerState:sp, for the given jsval. Shorthand for: * -TreeFragment::nativeStackBase + nativeStackOffset(p). */ inline JS_REQUIRES_STACK ptrdiff_t TraceRecorder::nativespOffsetImpl(const void* p) const { return -tree->nativeStackBase + nativeStackOffsetImpl(p); } inline JS_REQUIRES_STACK ptrdiff_t TraceRecorder::nativespOffset(const Value* p) const { return nativespOffsetImpl(p); } /* Track the maximum number of native frame slots we need during execution. */ inline void TraceRecorder::trackNativeStackUse(unsigned slots) { if (slots > tree->maxNativeStackSlots) tree->maxNativeStackSlots = slots; } /* * Unbox a jsval into a slot. Slots are wide enough to hold double values * directly (instead of storing a pointer to them). We assert instead of * type checking. The caller must ensure the types are compatible. */ static inline void ValueToNative(const Value &v, JSValueType type, double* slot) { JS_ASSERT(type <= JSVAL_UPPER_INCL_TYPE_OF_BOXABLE_SET); if (type > JSVAL_UPPER_INCL_TYPE_OF_NUMBER_SET) v.unboxNonDoubleTo((uint64 *)slot); else if (type == JSVAL_TYPE_INT32) *(int32_t *)slot = v.isInt32() ? v.toInt32() : (int32_t)v.toDouble(); else *(double *)slot = v.toNumber(); #ifdef DEBUG int32_t _; switch (type) { case JSVAL_TYPE_NONFUNOBJ: { JS_ASSERT(!IsFunctionObject(v)); debug_only_printf(LC_TMTracer, "object<%p:%s> ", (void*)*(JSObject **)slot, v.toObject().getClass()->name); return; } case JSVAL_TYPE_INT32: JS_ASSERT(v.isInt32() || (v.isDouble() && JSDOUBLE_IS_INT32(v.toDouble(), &_))); debug_only_printf(LC_TMTracer, "int<%d> ", *(jsint *)slot); return; case JSVAL_TYPE_DOUBLE: JS_ASSERT(v.isNumber()); debug_only_printf(LC_TMTracer, "double<%g> ", *(jsdouble *)slot); return; case JSVAL_TYPE_BOXED: JS_NOT_REACHED("found jsval type in an entry type map"); return; case JSVAL_TYPE_STRING: JS_ASSERT(v.isString()); debug_only_printf(LC_TMTracer, "string<%p> ", (void*)*(JSString**)slot); return; case JSVAL_TYPE_NULL: JS_ASSERT(v.isNull()); debug_only_print0(LC_TMTracer, "null "); return; case JSVAL_TYPE_BOOLEAN: JS_ASSERT(v.isBoolean()); debug_only_printf(LC_TMTracer, "special<%d> ", *(JSBool*)slot); return; case JSVAL_TYPE_UNDEFINED: JS_ASSERT(v.isUndefined()); debug_only_print0(LC_TMTracer, "undefined "); return; case JSVAL_TYPE_MAGIC: JS_ASSERT(v.isMagic()); debug_only_print0(LC_TMTracer, "hole "); return; case JSVAL_TYPE_FUNOBJ: { JS_ASSERT(IsFunctionObject(v)); JSFunction* fun = GET_FUNCTION_PRIVATE(cx, &v.toObject()); debug_only_printf(LC_TMTracer, "function<%p:%s> ", (void*)*(JSObject **)slot, fun->atom ? JS_GetStringBytes(ATOM_TO_STRING(fun->atom)) : "unnamed"); return; } default: JS_NOT_REACHED("unexpected type"); break; } #endif } void TraceMonitor::flush() { /* flush should only be called after all recorders have been aborted. */ JS_ASSERT(!recorder); AUDIT(cacheFlushed); // recover profiling data from expiring Fragments verbose_only( for (size_t i = 0; i < FRAGMENT_TABLE_SIZE; ++i) { for (TreeFragment *f = vmfragments[i]; f; f = f->next) { JS_ASSERT(f->root == f); for (TreeFragment *p = f; p; p = p->peer) FragProfiling_FragFinalizer(p, this); } } ) verbose_only( for (Seq* f = branches; f; f = f->tail) FragProfiling_FragFinalizer(f->head, this); ) frameCache->reset(); dataAlloc->reset(); traceAlloc->reset(); codeAlloc->reset(); tempAlloc->reset(); reTempAlloc->reset(); oracle->clear(); Allocator& alloc = *dataAlloc; for (size_t i = 0; i < MONITOR_N_GLOBAL_STATES; ++i) { globalStates[i].globalShape = -1; globalStates[i].globalSlots = new (alloc) SlotList(&alloc); } assembler = new (alloc) Assembler(*codeAlloc, alloc, alloc, core, &LogController, avmplus::AvmCore::config); verbose_only( branches = NULL; ) PodArrayZero(vmfragments); reFragments = new (alloc) REHashMap(alloc); needFlush = JS_FALSE; } static inline void MarkTree(JSTracer* trc, TreeFragment *f) { Value* vp = f->gcthings.data(); unsigned len = f->gcthings.length(); while (len--) { Value &v = *vp++; JS_SET_TRACING_NAME(trc, "jitgcthing"); JS_ASSERT(v.isMarkable()); Mark(trc, v.asGCThing(), v.gcKind()); } const Shape** shapep = f->shapes.data(); len = f->shapes.length(); while (len--) { const Shape* shape = *shapep++; shape->trace(trc); } } void TraceMonitor::mark(JSTracer* trc) { if (!trc->context->runtime->gcFlushCodeCaches) { for (size_t i = 0; i < FRAGMENT_TABLE_SIZE; ++i) { TreeFragment* f = vmfragments[i]; while (f) { if (f->code()) MarkTree(trc, f); TreeFragment* peer = f->peer; while (peer) { if (peer->code()) MarkTree(trc, peer); peer = peer->peer; } f = f->next; } } if (recorder) MarkTree(trc, recorder->getTree()); } } /* * Box a value from the native stack back into the Value format. */ static inline void NativeToValue(JSContext* cx, Value& v, JSValueType type, double* slot) { if (type == JSVAL_TYPE_DOUBLE) { v.setNumber(*slot); } else if (JS_LIKELY(type <= JSVAL_UPPER_INCL_TYPE_OF_BOXABLE_SET)) { v.boxNonDoubleFrom(type, (uint64 *)slot); } else if (type == JSVAL_TYPE_STRORNULL) { JSString *str = *(JSString **)slot; v = str ? StringValue(str) : NullValue(); } else if (type == JSVAL_TYPE_OBJORNULL) { JSObject *obj = *(JSObject **)slot; v = obj ? ObjectValue(*obj) : NullValue(); } else { JS_ASSERT(type == JSVAL_TYPE_BOXED); JS_STATIC_ASSERT(sizeof(Value) == sizeof(double)); v = *(Value *)slot; } #ifdef DEBUG switch (type) { case JSVAL_TYPE_NONFUNOBJ: JS_ASSERT(!IsFunctionObject(v)); debug_only_printf(LC_TMTracer, "object<%p:%s> ", (void*) &v.toObject(), v.toObject().getClass()->name); break; case JSVAL_TYPE_INT32: debug_only_printf(LC_TMTracer, "int<%d> ", v.toInt32()); break; case JSVAL_TYPE_DOUBLE: debug_only_printf(LC_TMTracer, "double<%g> ", v.toNumber()); break; case JSVAL_TYPE_STRING: debug_only_printf(LC_TMTracer, "string<%p> ", (void*)v.toString()); break; case JSVAL_TYPE_NULL: JS_ASSERT(v.isNull()); debug_only_print0(LC_TMTracer, "null "); break; case JSVAL_TYPE_BOOLEAN: debug_only_printf(LC_TMTracer, "bool<%d> ", v.toBoolean()); break; case JSVAL_TYPE_UNDEFINED: JS_ASSERT(v.isUndefined()); debug_only_print0(LC_TMTracer, "undefined "); break; case JSVAL_TYPE_MAGIC: debug_only_printf(LC_TMTracer, "magic<%d> ", v.whyMagic()); break; case JSVAL_TYPE_FUNOBJ: { JS_ASSERT(IsFunctionObject(v)); JSFunction* fun = GET_FUNCTION_PRIVATE(cx, &v.toObject()); debug_only_printf(LC_TMTracer, "function<%p:%s> ", (void*) &v.toObject(), fun->atom ? JS_GetStringBytes(ATOM_TO_STRING(fun->atom)) : "unnamed"); break; } case JSVAL_TYPE_STRORNULL: debug_only_printf(LC_TMTracer, "nullablestr<%p> ", v.isNull() ? NULL : (void *)v.toString()); break; case JSVAL_TYPE_OBJORNULL: debug_only_printf(LC_TMTracer, "nullablestr<%p> ", v.isNull() ? NULL : (void *)&v.toObject()); break; case JSVAL_TYPE_BOXED: debug_only_printf(LC_TMTracer, "box<%llx> ", (long long unsigned int)v.asRawBits()); break; default: JS_NOT_REACHED("unexpected type"); break; } #endif } void ExternNativeToValue(JSContext* cx, Value& v, JSValueType type, double* slot) { return NativeToValue(cx, v, type, slot); } class BuildNativeFrameVisitor : public SlotVisitorBase { JSContext *mCx; JSValueType *mTypeMap; double *mGlobal; double *mStack; public: BuildNativeFrameVisitor(JSContext *cx, JSValueType *typemap, double *global, double *stack) : mCx(cx), mTypeMap(typemap), mGlobal(global), mStack(stack) {} JS_REQUIRES_STACK JS_ALWAYS_INLINE void visitGlobalSlot(Value *vp, unsigned n, unsigned slot) { debug_only_printf(LC_TMTracer, "global%d: ", n); ValueToNative(*vp, *mTypeMap++, &mGlobal[slot]); } JS_REQUIRES_STACK JS_ALWAYS_INLINE bool visitStackSlots(Value *vp, int count, JSStackFrame* fp) { for (int i = 0; i < count; ++i) { debug_only_printf(LC_TMTracer, "%s%d: ", stackSlotKind(), i); ValueToNative(*vp++, *mTypeMap++, mStack++); } return true; } JS_REQUIRES_STACK JS_ALWAYS_INLINE bool visitFrameObjPtr(void* p, JSStackFrame* fp) { debug_only_printf(LC_TMTracer, "%s%d: ", stackSlotKind(), 0); if (p == fp->addressOfScopeChain()) *(JSObject **)mStack = &fp->scopeChain(); else *(JSObject **)mStack = fp->hasArgsObj() ? &fp->argsObj() : NULL; #ifdef DEBUG if (*mTypeMap == JSVAL_TYPE_NULL) { JS_ASSERT(*(JSObject **)mStack == NULL); debug_only_print0(LC_TMTracer, "null "); } else { JS_ASSERT(*mTypeMap == JSVAL_TYPE_NONFUNOBJ); JS_ASSERT(!(*(JSObject **)p)->isFunction()); debug_only_printf(LC_TMTracer, "object<%p:%s> ", *(void **)p, (*(JSObject **)p)->getClass()->name); } #endif mTypeMap++; mStack++; return true; } }; static JS_REQUIRES_STACK void BuildNativeFrame(JSContext *cx, JSObject *globalObj, unsigned callDepth, unsigned ngslots, uint16 *gslots, JSValueType *typeMap, double *global, double *stack) { BuildNativeFrameVisitor visitor(cx, typeMap, global, stack); VisitSlots(visitor, cx, globalObj, callDepth, ngslots, gslots); debug_only_print0(LC_TMTracer, "\n"); } class FlushNativeGlobalFrameVisitor : public SlotVisitorBase { JSContext *mCx; JSValueType *mTypeMap; double *mGlobal; public: FlushNativeGlobalFrameVisitor(JSContext *cx, JSValueType *typeMap, double *global) : mCx(cx), mTypeMap(typeMap), mGlobal(global) {} JS_REQUIRES_STACK JS_ALWAYS_INLINE void visitGlobalSlot(Value *vp, unsigned n, unsigned slot) { debug_only_printf(LC_TMTracer, "global%d=", n); JS_ASSERT(JS_THREAD_DATA(mCx)->waiveGCQuota); NativeToValue(mCx, *vp, *mTypeMap++, &mGlobal[slot]); } }; class FlushNativeStackFrameVisitor : public SlotVisitorBase { JSContext *mCx; const JSValueType *mInitTypeMap; const JSValueType *mTypeMap; double *mStack; public: FlushNativeStackFrameVisitor(JSContext *cx, const JSValueType *typeMap, double *stack) : mCx(cx), mInitTypeMap(typeMap), mTypeMap(typeMap), mStack(stack) {} const JSValueType* getTypeMap() { return mTypeMap; } JS_REQUIRES_STACK JS_ALWAYS_INLINE bool visitStackSlots(Value *vp, size_t count, JSStackFrame* fp) { JS_ASSERT(JS_THREAD_DATA(mCx)->waiveGCQuota); for (size_t i = 0; i < count; ++i) { debug_only_printf(LC_TMTracer, "%s%u=", stackSlotKind(), unsigned(i)); NativeToValue(mCx, *vp, *mTypeMap, mStack); vp++; mTypeMap++; mStack++; } return true; } JS_REQUIRES_STACK JS_ALWAYS_INLINE bool visitFrameObjPtr(void* p, JSStackFrame* fp) { JS_ASSERT(JS_THREAD_DATA(mCx)->waiveGCQuota); debug_only_printf(LC_TMTracer, "%s%u=", stackSlotKind(), 0); JSObject *frameobj = *(JSObject **)mStack; JS_ASSERT((frameobj == NULL) == (*mTypeMap == JSVAL_TYPE_NULL)); if (p == fp->addressOfArgs()) { if (frameobj) { JS_ASSERT_IF(fp->hasArgsObj(), frameobj == &fp->argsObj()); fp->setArgsObj(*frameobj); frameobj->setPrivate(fp); debug_only_printf(LC_TMTracer, "argsobj<%p> ", (void *)frameobj); } else { JS_ASSERT(!fp->hasArgsObj()); debug_only_print0(LC_TMTracer, "argsobj "); } /* else, SynthesizeFrame has initialized fp->args.nactual */ } else { JS_ASSERT(p == fp->addressOfScopeChain()); if (frameobj->isCall() && !frameobj->getPrivate() && &fp->callee() == &frameobj->getCallObjCallee()) { JS_ASSERT(&fp->scopeChain() == JSStackFrame::sInvalidScopeChain); frameobj->setPrivate(fp); fp->setScopeChainAndCallObj(*frameobj); } else { fp->setScopeChainNoCallObj(*frameobj); } debug_only_printf(LC_TMTracer, "scopechain<%p> ", (void *)frameobj); } #ifdef DEBUG JSValueType type = *mTypeMap; if (type == JSVAL_TYPE_NULL) { debug_only_print0(LC_TMTracer, "null "); } else { JS_ASSERT(type == JSVAL_TYPE_NONFUNOBJ); JS_ASSERT(!frameobj->isFunction()); debug_only_printf(LC_TMTracer, "object<%p:%s> ", *(void **)p, frameobj->getClass()->name); } #endif mTypeMap++; mStack++; return true; } }; /* Box the given native frame into a JS frame. This is infallible. */ static JS_REQUIRES_STACK void FlushNativeGlobalFrame(JSContext *cx, JSObject *globalObj, double *global, unsigned ngslots, uint16 *gslots, JSValueType *typemap) { FlushNativeGlobalFrameVisitor visitor(cx, typemap, global); VisitGlobalSlots(visitor, cx, globalObj, ngslots, gslots); debug_only_print0(LC_TMTracer, "\n"); } /* * Returns the number of values on the native stack, excluding the innermost * frame. This walks all FrameInfos on the native frame stack and sums the * slot usage of each frame. */ static int32 StackDepthFromCallStack(TracerState* state, uint32 callDepth) { int32 nativeStackFramePos = 0; // Duplicate native stack layout computation: see VisitFrameSlots header comment. for (FrameInfo** fip = state->callstackBase; fip < state->rp + callDepth; fip++) nativeStackFramePos += (*fip)->callerHeight; return nativeStackFramePos; } /* * Generic function to read upvars on trace from slots of active frames. * T Traits type parameter. Must provide static functions: * interp_get(fp, slot) Read the value out of an interpreter frame. * native_slot(argc, slot) Return the position of the desired value in the on-trace * stack frame (with position 0 being callee). * * upvarLevel Static level of the function containing the upvar definition * slot Identifies the value to get. The meaning is defined by the traits type. * callDepth Call depth of current point relative to trace entry */ template inline JSValueType GetUpvarOnTrace(JSContext* cx, uint32 upvarLevel, int32 slot, uint32 callDepth, double* result) { TracerState* state = cx->tracerState; FrameInfo** fip = state->rp + callDepth; /* * First search the FrameInfo call stack for an entry containing our * upvar, namely one with level == upvarLevel. The first FrameInfo is a * transition from the entry frame to some callee. However, it is not * known (from looking at the FrameInfo) whether the entry frame had a * callee. Rather than special-case this or insert more logic into the * loop, instead just stop before that FrameInfo (i.e. |> base| instead of * |>= base|), and let the code after the loop handle it. */ int32 stackOffset = StackDepthFromCallStack(state, callDepth); while (--fip > state->callstackBase) { FrameInfo* fi = *fip; /* * The loop starts aligned to the top of the stack, so move down to the first meaningful * callee. Then read the callee directly from the frame. */ stackOffset -= fi->callerHeight; JSObject* callee = *(JSObject**)(&state->stackBase[stackOffset]); JSFunction* fun = GET_FUNCTION_PRIVATE(cx, callee); uintN calleeLevel = fun->u.i.script->staticLevel; if (calleeLevel == upvarLevel) { /* * Now find the upvar's value in the native stack. stackOffset is * the offset of the start of the activation record corresponding * to *fip in the native stack. */ uint32 native_slot = T::native_slot(fi->callerArgc, slot); *result = state->stackBase[stackOffset + native_slot]; return fi->get_typemap()[native_slot]; } } // Next search the trace entry frame, which is not in the FrameInfo stack. if (state->outermostTree->script->staticLevel == upvarLevel) { uint32 argc = state->outermostTree->argc; uint32 native_slot = T::native_slot(argc, slot); *result = state->stackBase[native_slot]; return state->callstackBase[0]->get_typemap()[native_slot]; } /* * If we did not find the upvar in the frames for the active traces, * then we simply get the value from the interpreter state. */ JS_ASSERT(upvarLevel < UpvarCookie::UPVAR_LEVEL_LIMIT); JSStackFrame* fp = cx->findFrameAtLevel(upvarLevel); Value v = T::interp_get(fp, slot); JSValueType type = getCoercedType(v); ValueToNative(v, type, result); return type; } // For this traits type, 'slot' is the argument index, which may be -2 for callee. struct UpvarArgTraits { static Value interp_get(JSStackFrame* fp, int32 slot) { return fp->formalArg(slot); } static uint32 native_slot(uint32 argc, int32 slot) { return 2 /*callee,this*/ + slot; } }; uint32 JS_FASTCALL GetUpvarArgOnTrace(JSContext* cx, uint32 upvarLevel, int32 slot, uint32 callDepth, double* result) { return GetUpvarOnTrace(cx, upvarLevel, slot, callDepth, result); } // For this traits type, 'slot' is an index into the local slots array. struct UpvarVarTraits { static Value interp_get(JSStackFrame* fp, int32 slot) { return fp->slots()[slot]; } static uint32 native_slot(uint32 argc, int32 slot) { return 4 /*callee,this,arguments,scopeChain*/ + argc + slot; } }; uint32 JS_FASTCALL GetUpvarVarOnTrace(JSContext* cx, uint32 upvarLevel, int32 slot, uint32 callDepth, double* result) { return GetUpvarOnTrace(cx, upvarLevel, slot, callDepth, result); } /* * For this traits type, 'slot' is an index into the stack area (within slots, * after nfixed) of a frame with no function. (On trace, the top-level frame is * the only one that can have no function.) */ struct UpvarStackTraits { static Value interp_get(JSStackFrame* fp, int32 slot) { return fp->slots()[slot + fp->numFixed()]; } static uint32 native_slot(uint32 argc, int32 slot) { /* * Locals are not imported by the tracer when the frame has no * function, so we do not add fp->getFixedCount(). */ JS_ASSERT(argc == 0); return slot; } }; uint32 JS_FASTCALL GetUpvarStackOnTrace(JSContext* cx, uint32 upvarLevel, int32 slot, uint32 callDepth, double* result) { return GetUpvarOnTrace(cx, upvarLevel, slot, callDepth, result); } // Parameters needed to access a value from a closure on trace. struct ClosureVarInfo { uint32 slot; #ifdef DEBUG uint32 callDepth; #endif }; /* * Generic function to read upvars from Call objects of active heavyweight functions. * call Callee Function object in which the upvar is accessed. */ template inline uint32 GetFromClosure(JSContext* cx, JSObject* call, const ClosureVarInfo* cv, double* result) { JS_ASSERT(call->isCall()); #ifdef DEBUG TracerState* state = cx->tracerState; FrameInfo** fip = state->rp + cv->callDepth; int32 stackOffset = StackDepthFromCallStack(state, cv->callDepth); while (--fip > state->callstackBase) { FrameInfo* fi = *fip; /* * The loop starts aligned to the top of the stack, so move down to the first meaningful * callee. Then read the callee directly from the frame. */ stackOffset -= fi->callerHeight; JSObject* callee = *(JSObject**)(&state->stackBase[stackOffset]); if (callee == call) { // This is not reachable as long as the tracer guards on the identity of the callee's // parent when making a call: // // - We can only reach this point if we execute JSOP_LAMBDA on trace, then call the // function created by the lambda, and then execute a JSOP_NAME on trace. // - Each time we execute JSOP_LAMBDA we get a function with a different parent. // - When we execute the call to the new function, we exit trace because the parent // is different. JS_NOT_REACHED("JSOP_NAME variable found in outer trace"); } } #endif // We already guarded on trace that we aren't touching an outer tree's entry frame VOUCH_DOES_NOT_REQUIRE_STACK(); JSStackFrame* fp = (JSStackFrame*) call->getPrivate(); JS_ASSERT(fp != cx->fp()); Value v; if (fp) { v = T::get_slot(fp, cv->slot); } else { /* * Get the value from the object. We know we have a Call object, and * that our slot index is fine, so don't monkey around with calling the * property getter (which just looks in the slot) or calling * js_GetReservedSlot. Just get the slot directly. Note the static * asserts in jsfun.cpp which make sure Call objects use dslots. */ JS_ASSERT(cv->slot < T::slot_count(call)); v = T::get_slot(call, cv->slot); } JSValueType type = getCoercedType(v); ValueToNative(v, type, result); return type; } struct ArgClosureTraits { // Get the right frame slots to use our slot index with. // See also UpvarArgTraits. static inline Value get_slot(JSStackFrame* fp, unsigned slot) { JS_ASSERT(slot < fp->numFormalArgs()); return fp->formalArg(slot); } // Get the right object slots to use our slot index with. static inline Value get_slot(JSObject* obj, unsigned slot) { return obj->getSlot(slot_offset(obj) + slot); } // Get the offset of our object slots from the object's dslots pointer. static inline uint32 slot_offset(JSObject* obj) { return JSSLOT_START(&js_CallClass) + JSObject::CALL_RESERVED_SLOTS; } // Get the maximum slot index of this type that should be allowed static inline uint16 slot_count(JSObject* obj) { return obj->getCallObjCalleeFunction()->nargs; } private: ArgClosureTraits(); }; uint32 JS_FASTCALL GetClosureArg(JSContext* cx, JSObject* callee, const ClosureVarInfo* cv, double* result) { return GetFromClosure(cx, callee, cv, result); } struct VarClosureTraits { // See also UpvarVarTraits. static inline Value get_slot(JSStackFrame* fp, unsigned slot) { JS_ASSERT(slot < fp->fun()->u.i.nvars); return fp->slots()[slot]; } static inline Value get_slot(JSObject* obj, unsigned slot) { return obj->getSlot(slot_offset(obj) + slot); } static inline uint32 slot_offset(JSObject* obj) { return JSSLOT_START(&js_CallClass) + JSObject::CALL_RESERVED_SLOTS + obj->getCallObjCalleeFunction()->nargs; } static inline uint16 slot_count(JSObject* obj) { return obj->getCallObjCalleeFunction()->u.i.nvars; } private: VarClosureTraits(); }; uint32 JS_FASTCALL GetClosureVar(JSContext* cx, JSObject* callee, const ClosureVarInfo* cv, double* result) { return GetFromClosure(cx, callee, cv, result); } /** * Box the given native stack frame into the virtual machine stack. This * is infallible. * * @param callDepth the distance between the entry frame into our trace and * cx->fp() when we make this call. If this is not called as a * result of a nested exit, callDepth is 0. * @param mp an array of JSValueType that indicate what the types of the things * on the stack are. * @param np pointer to the native stack. We want to copy values from here to * the JS stack as needed. * @return the number of things we popped off of np. */ static JS_REQUIRES_STACK int FlushNativeStackFrame(JSContext* cx, unsigned callDepth, const JSValueType* mp, double* np) { /* Root all string and object references first (we don't need to call the GC for this). */ FlushNativeStackFrameVisitor visitor(cx, mp, np); VisitStackSlots(visitor, cx, callDepth); debug_only_print0(LC_TMTracer, "\n"); return visitor.getTypeMap() - mp; } /* Emit load instructions onto the trace that read the initial stack state. */ JS_REQUIRES_STACK void TraceRecorder::importImpl(LIns* base, ptrdiff_t offset, const void* p, JSValueType t, const char *prefix, uintN index, JSStackFrame *fp) { LIns* ins; AccSet accSet = base == lirbuf->sp ? ACCSET_STACK : ACCSET_OTHER; if (t == JSVAL_TYPE_INT32) { /* demoted */ JS_ASSERT(hasInt32Repr(*(const Value *)p)); /* * Ok, we have a valid demotion attempt pending, so insert an integer * read and promote it to double since all arithmetic operations expect * to see doubles on entry. The first op to use this slot will emit a * d2i cast which will cancel out the i2d we insert here. */ ins = lir->insLoad(LIR_ldi, base, offset, accSet); ins = lir->ins1(LIR_i2d, ins); } else { JS_ASSERT_IF(t != JSVAL_TYPE_BOXED && !isFrameObjPtrTraceType(t), ((const Value *)p)->isNumber() == (t == JSVAL_TYPE_DOUBLE)); if (t == JSVAL_TYPE_DOUBLE) { ins = lir->insLoad(LIR_ldd, base, offset, accSet); } else if (t == JSVAL_TYPE_BOOLEAN) { ins = lir->insLoad(LIR_ldi, base, offset, accSet); } else if (t == JSVAL_TYPE_UNDEFINED) { ins = INS_UNDEFINED(); } else if (t == JSVAL_TYPE_MAGIC) { ins = lir->insLoad(LIR_ldi, base, offset, accSet); } else { ins = lir->insLoad(LIR_ldp, base, offset, accSet); } } checkForGlobalObjectReallocation(); tracker.set(p, ins); #ifdef DEBUG char name[64]; JS_ASSERT(strlen(prefix) < 11); void* mark = NULL; jsuword* localNames = NULL; const char* funName = NULL; if (*prefix == 'a' || *prefix == 'v') { mark = JS_ARENA_MARK(&cx->tempPool); if (fp->fun()->hasLocalNames()) localNames = fp->fun()->getLocalNameArray(cx, &cx->tempPool); funName = fp->fun()->atom ? js_AtomToPrintableString(cx, fp->fun()->atom) : ""; } if (!strcmp(prefix, "argv")) { if (index < fp->numFormalArgs()) { JSAtom *atom = JS_LOCAL_NAME_TO_ATOM(localNames[index]); JS_snprintf(name, sizeof name, "$%s.%s", funName, js_AtomToPrintableString(cx, atom)); } else { JS_snprintf(name, sizeof name, "$%s.", funName, index); } } else if (!strcmp(prefix, "vars")) { JSAtom *atom = JS_LOCAL_NAME_TO_ATOM(localNames[fp->numFormalArgs() + index]); JS_snprintf(name, sizeof name, "$%s.%s", funName, js_AtomToPrintableString(cx, atom)); } else { JS_snprintf(name, sizeof name, "$%s%d", prefix, index); } if (mark) JS_ARENA_RELEASE(&cx->tempPool, mark); addName(ins, name); debug_only_printf(LC_TMTracer, "import vp=%p name=%s type=%c\n", p, name, TypeToChar(t)); #endif } JS_REQUIRES_STACK void TraceRecorder::import(LIns* base, ptrdiff_t offset, const Value* p, JSValueType t, const char *prefix, uintN index, JSStackFrame *fp) { return importImpl(base, offset, p, t, prefix, index, fp); } class ImportBoxedStackSlotVisitor : public SlotVisitorBase { TraceRecorder &mRecorder; LIns *mBase; ptrdiff_t mStackOffset; JSValueType *mTypemap; JSStackFrame *mFp; public: ImportBoxedStackSlotVisitor(TraceRecorder &recorder, LIns *base, ptrdiff_t stackOffset, JSValueType *typemap) : mRecorder(recorder), mBase(base), mStackOffset(stackOffset), mTypemap(typemap) {} JS_REQUIRES_STACK JS_ALWAYS_INLINE bool visitStackSlots(Value *vp, size_t count, JSStackFrame* fp) { for (size_t i = 0; i < count; ++i) { if (*mTypemap == JSVAL_TYPE_BOXED) { mRecorder.import(mBase, mStackOffset, vp, JSVAL_TYPE_BOXED, "jsval", i, fp); LIns *vp_ins = mRecorder.unbox_value(*vp, mBase, mStackOffset, mRecorder.copy(mRecorder.anchor)); mRecorder.set(vp, vp_ins); } vp++; mTypemap++; mStackOffset += sizeof(double); } return true; } JS_REQUIRES_STACK JS_ALWAYS_INLINE bool visitFrameObjPtr(void* p, JSStackFrame *fp) { JS_ASSERT(*mTypemap != JSVAL_TYPE_BOXED); mTypemap++; mStackOffset += sizeof(double); return true; } }; JS_REQUIRES_STACK void TraceRecorder::import(TreeFragment* tree, LIns* sp, unsigned stackSlots, unsigned ngslots, unsigned callDepth, JSValueType* typeMap) { /* * If we get a partial list that doesn't have all the types (i.e. recording * from a side exit that was recorded but we added more global slots * later), merge the missing types from the entry type map. This is safe * because at the loop edge we verify that we have compatible types for all * globals (entry type and loop edge type match). While a different trace * of the tree might have had a guard with a different type map for these * slots we just filled in here (the guard we continue from didn't know * about them), since we didn't take that particular guard the only way we * could have ended up here is if that other trace had at its end a * compatible type distribution with the entry map. Since that's exactly * what we used to fill in the types our current side exit didn't provide, * this is always safe to do. */ JSValueType* globalTypeMap = typeMap + stackSlots; unsigned length = tree->nGlobalTypes(); /* * This is potentially the typemap of the side exit and thus shorter than * the tree's global type map. */ if (ngslots < length) { MergeTypeMaps(&globalTypeMap /* out param */, &ngslots /* out param */, tree->globalTypeMap(), length, (JSValueType*)alloca(sizeof(JSValueType) * length)); } JS_ASSERT(ngslots == tree->nGlobalTypes()); /* * Check whether there are any values on the stack we have to unbox and do * that first before we waste any time fetching the state from the stack. */ ImportBoxedStackSlotVisitor boxedStackVisitor(*this, sp, -tree->nativeStackBase, typeMap); VisitStackSlots(boxedStackVisitor, cx, callDepth); /* * Remember the import type map so we can lazily import later whatever * we need. */ importTypeMap.set(importStackSlots = stackSlots, importGlobalSlots = ngslots, typeMap, globalTypeMap); } JS_REQUIRES_STACK bool TraceRecorder::isValidSlot(JSObject *obj, const Shape* shape) { uint32 setflags = (js_CodeSpec[*cx->regs->pc].format & (JOF_SET | JOF_INCDEC | JOF_FOR)); if (setflags) { if (!shape->hasDefaultSetter()) RETURN_VALUE("non-stub setter", false); if (!shape->writable()) RETURN_VALUE("writing to a read-only property", false); } /* This check applies even when setflags == 0. */ if (setflags != JOF_SET && !shape->hasDefaultGetter()) { JS_ASSERT(!shape->isMethod()); RETURN_VALUE("non-stub getter", false); } if (!obj->containsSlot(shape->slot)) RETURN_VALUE("invalid-slot obj property", false); return true; } /* Lazily import a global slot if we don't already have it in the tracker. */ JS_REQUIRES_STACK void TraceRecorder::importGlobalSlot(unsigned slot) { JS_ASSERT(slot == uint16(slot)); JS_ASSERT(globalObj->numSlots() <= MAX_GLOBAL_SLOTS); Value* vp = &globalObj->getSlotRef(slot); JS_ASSERT(!known(vp)); /* Add the slot to the list of interned global slots. */ JSValueType type; int index = tree->globalSlots->offsetOf(uint16(slot)); if (index == -1) { type = getCoercedType(*vp); if (type == JSVAL_TYPE_INT32 && (!oracle || oracle->isGlobalSlotUndemotable(cx, slot))) type = JSVAL_TYPE_DOUBLE; index = (int)tree->globalSlots->length(); tree->globalSlots->add(uint16(slot)); tree->typeMap.add(type); SpecializeTreesToMissingGlobals(cx, globalObj, tree); JS_ASSERT(tree->nGlobalTypes() == tree->globalSlots->length()); } else { type = importTypeMap[importStackSlots + index]; JS_ASSERT(type != JSVAL_TYPE_UNINITIALIZED); } import(eos_ins, slot * sizeof(double), vp, type, "global", index, NULL); } /* Lazily import a global slot if we don't already have it in the tracker. */ JS_REQUIRES_STACK bool TraceRecorder::lazilyImportGlobalSlot(unsigned slot) { if (slot != uint16(slot)) /* we use a table of 16-bit ints, bail out if that's not enough */ return false; /* * If the global object grows too large, alloca in ExecuteTree might fail, * so abort tracing on global objects with unreasonably many slots. */ if (globalObj->numSlots() > MAX_GLOBAL_SLOTS) return false; Value* vp = &globalObj->getSlotRef(slot); if (known(vp)) return true; /* we already have it */ importGlobalSlot(slot); return true; } /* Write back a value onto the stack or global frames. */ LIns* TraceRecorder::writeBack(LIns* i, LIns* base, ptrdiff_t offset, bool shouldDemote) { /* * Sink all type casts targeting the stack into the side exit by simply storing the original * (uncasted) value. Each guard generates the side exit map based on the types of the * last stores to every stack location, so it's safe to not perform them on-trace. */ if (shouldDemote && isPromoteInt(i)) i = demote(lir, i); return lir->insStore(i, base, offset, (base == lirbuf->sp) ? ACCSET_STACK : ACCSET_OTHER); } /* Update the tracker, then issue a write back store. */ JS_REQUIRES_STACK void TraceRecorder::setImpl(void* p, LIns* i, bool demote) { JS_ASSERT(i != NULL); checkForGlobalObjectReallocation(); tracker.set(p, i); /* * If we are writing to this location for the first time, calculate the * offset into the native frame manually. Otherwise just look up the last * load or store associated with the same source address (p) and use the * same offset/base. */ LIns* x = nativeFrameTracker.get(p); if (!x) { if (isVoidPtrGlobal(p)) x = writeBack(i, eos_ins, nativeGlobalOffset((Value *)p), demote); else x = writeBack(i, lirbuf->sp, nativespOffsetImpl(p), demote); nativeFrameTracker.set(p, x); } else { #if defined NANOJIT_64BIT JS_ASSERT( x->isop(LIR_stq) || x->isop(LIR_sti) || x->isop(LIR_std)); #else JS_ASSERT( x->isop(LIR_sti) || x->isop(LIR_std)); #endif ptrdiff_t disp; LIns *base = x->oprnd2(); if (base->isop(LIR_addp) && base->oprnd2()->isImmP()) { disp = ptrdiff_t(base->oprnd2()->immP()); base = base->oprnd1(); } else { disp = x->disp(); } JS_ASSERT(base == lirbuf->sp || base == eos_ins); JS_ASSERT(disp == ((base == lirbuf->sp) ? nativespOffsetImpl(p) : nativeGlobalOffset((Value *)p))); writeBack(i, base, disp, demote); } } JS_REQUIRES_STACK inline void TraceRecorder::set(Value* p, LIns* i, bool demote) { return setImpl(p, i, demote); } JS_REQUIRES_STACK void TraceRecorder::setFrameObjPtr(void* p, LIns* i, bool demote) { JS_ASSERT(isValidFrameObjPtr(p)); return setImpl(p, i, demote); } JS_REQUIRES_STACK LIns* TraceRecorder::attemptImport(const Value* p) { if (LIns* i = getFromTracker(p)) return i; /* If the variable was not known, it could require a lazy import. */ CountSlotsVisitor countVisitor(p); VisitStackSlots(countVisitor, cx, callDepth); if (countVisitor.stopped() || size_t(p - cx->fp()->slots()) < cx->fp()->numSlots()) return get(p); return NULL; } inline nanojit::LIns* TraceRecorder::getFromTrackerImpl(const void* p) { checkForGlobalObjectReallocation(); return tracker.get(p); } inline nanojit::LIns* TraceRecorder::getFromTracker(const Value* p) { return getFromTrackerImpl(p); } JS_REQUIRES_STACK LIns* TraceRecorder::getImpl(const void *p) { LIns* x = getFromTrackerImpl(p); if (x) return x; if (isVoidPtrGlobal(p)) { unsigned slot = nativeGlobalSlot((const Value *)p); JS_ASSERT(tree->globalSlots->offsetOf(uint16(slot)) != -1); importGlobalSlot(slot); } else { unsigned slot = nativeStackSlotImpl(p); JSValueType type = importTypeMap[slot]; JS_ASSERT(type != JSVAL_TYPE_UNINITIALIZED); importImpl(lirbuf->sp, -tree->nativeStackBase + slot * sizeof(jsdouble), p, type, "stack", slot, cx->fp()); } JS_ASSERT(knownImpl(p)); return tracker.get(p); } JS_REQUIRES_STACK LIns* TraceRecorder::get(const Value *p) { return getImpl(p); } #ifdef DEBUG bool TraceRecorder::isValidFrameObjPtr(void *p) { JSStackFrame *fp = cx->fp(); for (; fp; fp = fp->prev()) { if (fp->addressOfScopeChain() == p || fp->addressOfArgs() == p) return true; } return false; } #endif JS_REQUIRES_STACK LIns* TraceRecorder::getFrameObjPtr(void *p) { JS_ASSERT(isValidFrameObjPtr(p)); return getImpl(p); } JS_REQUIRES_STACK LIns* TraceRecorder::addr(Value* p) { return isGlobal(p) ? lir->ins2(LIR_addp, eos_ins, INS_CONSTWORD(nativeGlobalOffset(p))) : lir->ins2(LIR_addp, lirbuf->sp, INS_CONSTWORD(nativespOffset(p))); } JS_REQUIRES_STACK inline bool TraceRecorder::knownImpl(const void* p) { checkForGlobalObjectReallocation(); return tracker.has(p); } JS_REQUIRES_STACK inline bool TraceRecorder::known(const Value* vp) { return knownImpl(vp); } JS_REQUIRES_STACK inline bool TraceRecorder::known(JSObject** p) { return knownImpl(p); } /* * The dslots of the global object are sometimes reallocated by the interpreter. * This function check for that condition and re-maps the entries of the tracker * accordingly. */ JS_REQUIRES_STACK void TraceRecorder::checkForGlobalObjectReallocationHelper() { debug_only_print0(LC_TMTracer, "globalObj->dslots relocated, updating tracker\n"); Value* src = global_dslots; Value* dst = globalObj->dslots; jsuint length = globalObj->dslots[-1].toPrivateUint32() - JS_INITIAL_NSLOTS; LIns** map = (LIns**)alloca(sizeof(LIns*) * length); for (jsuint n = 0; n < length; ++n) { map[n] = tracker.get(src); tracker.set(src++, NULL); } for (jsuint n = 0; n < length; ++n) tracker.set(dst++, map[n]); global_dslots = globalObj->dslots; } /* Determine whether the current branch is a loop edge (taken or not taken). */ static JS_REQUIRES_STACK bool IsLoopEdge(jsbytecode* pc, jsbytecode* header) { switch (*pc) { case JSOP_IFEQ: case JSOP_IFNE: return ((pc + GET_JUMP_OFFSET(pc)) == header); case JSOP_IFEQX: case JSOP_IFNEX: return ((pc + GET_JUMPX_OFFSET(pc)) == header); default: JS_ASSERT((*pc == JSOP_AND) || (*pc == JSOP_ANDX) || (*pc == JSOP_OR) || (*pc == JSOP_ORX)); } return false; } class AdjustCallerGlobalTypesVisitor : public SlotVisitorBase { TraceRecorder &mRecorder; JSContext *mCx; nanojit::LirBuffer *mLirbuf; nanojit::LirWriter *mLir; JSValueType *mTypeMap; public: AdjustCallerGlobalTypesVisitor(TraceRecorder &recorder, JSValueType *typeMap) : mRecorder(recorder), mCx(mRecorder.cx), mLirbuf(mRecorder.lirbuf), mLir(mRecorder.lir), mTypeMap(typeMap) {} JSValueType* getTypeMap() { return mTypeMap; } JS_REQUIRES_STACK JS_ALWAYS_INLINE void visitGlobalSlot(Value *vp, unsigned n, unsigned slot) { LIns *ins = mRecorder.get(vp); bool isPromote = isPromoteInt(ins); if (isPromote && *mTypeMap == JSVAL_TYPE_DOUBLE) { mLir->insStore(mRecorder.get(vp), mRecorder.eos_ins, mRecorder.nativeGlobalOffset(vp), ACCSET_OTHER); /* * Aggressively undo speculation so the inner tree will compile * if this fails. */ JS_TRACE_MONITOR(mCx).oracle->markGlobalSlotUndemotable(mCx, slot); } JS_ASSERT(!(!isPromote && *mTypeMap == JSVAL_TYPE_INT32)); ++mTypeMap; } }; class AdjustCallerStackTypesVisitor : public SlotVisitorBase { TraceRecorder &mRecorder; JSContext *mCx; nanojit::LirBuffer *mLirbuf; nanojit::LirWriter *mLir; unsigned mSlotnum; JSValueType *mTypeMap; public: AdjustCallerStackTypesVisitor(TraceRecorder &recorder, JSValueType *typeMap) : mRecorder(recorder), mCx(mRecorder.cx), mLirbuf(mRecorder.lirbuf), mLir(mRecorder.lir), mSlotnum(0), mTypeMap(typeMap) {} JSValueType* getTypeMap() { return mTypeMap; } JS_REQUIRES_STACK JS_ALWAYS_INLINE bool visitStackSlots(Value *vp, size_t count, JSStackFrame* fp) { /* N.B. vp may actually point to a JSObject*. */ for (size_t i = 0; i < count; ++i) { LIns *ins = mRecorder.get(vp); bool isPromote = isPromoteInt(ins); if (isPromote && *mTypeMap == JSVAL_TYPE_DOUBLE) { mLir->insStore(ins, mLirbuf->sp, mRecorder.nativespOffset(vp), ACCSET_STACK); /* * Aggressively undo speculation so the inner tree will compile * if this fails. */ JS_TRACE_MONITOR(mCx).oracle->markStackSlotUndemotable(mCx, mSlotnum); } JS_ASSERT(!(!isPromote && *mTypeMap == JSVAL_TYPE_INT32)); ++vp; ++mTypeMap; ++mSlotnum; } return true; } JS_REQUIRES_STACK JS_ALWAYS_INLINE bool visitFrameObjPtr(void* p, JSStackFrame* fp) { JS_ASSERT(*mTypeMap != JSVAL_TYPE_BOXED); ++mTypeMap; ++mSlotnum; return true; } }; /* * Promote slots if necessary to match the called tree's type map. This * function is infallible and must only be called if we are certain that it is * possible to reconcile the types for each slot in the inner and outer trees. */ JS_REQUIRES_STACK void TraceRecorder::adjustCallerTypes(TreeFragment* f) { AdjustCallerGlobalTypesVisitor globalVisitor(*this, f->globalTypeMap()); VisitGlobalSlots(globalVisitor, cx, *tree->globalSlots); AdjustCallerStackTypesVisitor stackVisitor(*this, f->stackTypeMap()); VisitStackSlots(stackVisitor, cx, 0); JS_ASSERT(f == f->root); } JS_REQUIRES_STACK inline JSValueType TraceRecorder::determineSlotType(Value* vp) { if (vp->isNumber()) { LIns *i = getFromTracker(vp); JSValueType t; if (i) { t = isPromoteInt(i) ? JSVAL_TYPE_INT32 : JSVAL_TYPE_DOUBLE; } else if (isGlobal(vp)) { int offset = tree->globalSlots->offsetOf(uint16(nativeGlobalSlot(vp))); JS_ASSERT(offset != -1); t = importTypeMap[importStackSlots + offset]; } else { t = importTypeMap[nativeStackSlot(vp)]; } JS_ASSERT(t != JSVAL_TYPE_UNINITIALIZED); JS_ASSERT_IF(t == JSVAL_TYPE_INT32, hasInt32Repr(*vp)); return t; } if (vp->isObject()) return vp->toObject().isFunction() ? JSVAL_TYPE_FUNOBJ : JSVAL_TYPE_NONFUNOBJ; return vp->extractNonDoubleObjectTraceType(); } class DetermineTypesVisitor : public SlotVisitorBase { TraceRecorder &mRecorder; JSValueType *mTypeMap; public: DetermineTypesVisitor(TraceRecorder &recorder, JSValueType *typeMap) : mRecorder(recorder), mTypeMap(typeMap) {} JS_REQUIRES_STACK JS_ALWAYS_INLINE void visitGlobalSlot(Value *vp, unsigned n, unsigned slot) { *mTypeMap++ = mRecorder.determineSlotType(vp); } JS_REQUIRES_STACK JS_ALWAYS_INLINE bool visitStackSlots(Value *vp, size_t count, JSStackFrame* fp) { for (size_t i = 0; i < count; ++i) *mTypeMap++ = mRecorder.determineSlotType(vp++); return true; } JS_REQUIRES_STACK JS_ALWAYS_INLINE bool visitFrameObjPtr(void* p, JSStackFrame* fp) { *mTypeMap++ = getFrameObjPtrTraceType(p, fp); return true; } JSValueType* getTypeMap() { return mTypeMap; } }; #if defined JS_JIT_SPEW JS_REQUIRES_STACK static void TreevisLogExit(JSContext* cx, VMSideExit* exit) { debug_only_printf(LC_TMTreeVis, "TREEVIS ADDEXIT EXIT=%p TYPE=%s FRAG=%p PC=%p FILE=\"%s\"" " LINE=%d OFFS=%d", (void*)exit, getExitName(exit->exitType), (void*)exit->from, (void*)cx->regs->pc, cx->fp()->script()->filename, js_FramePCToLineNumber(cx, cx->fp()), FramePCOffset(cx, cx->fp())); debug_only_print0(LC_TMTreeVis, " STACK=\""); for (unsigned i = 0; i < exit->numStackSlots; i++) debug_only_printf(LC_TMTreeVis, "%c", TypeToChar(exit->stackTypeMap()[i])); debug_only_print0(LC_TMTreeVis, "\" GLOBALS=\""); for (unsigned i = 0; i < exit->numGlobalSlots; i++) debug_only_printf(LC_TMTreeVis, "%c", TypeToChar(exit->globalTypeMap()[i])); debug_only_print0(LC_TMTreeVis, "\"\n"); } #endif JS_REQUIRES_STACK VMSideExit* TraceRecorder::snapshot(ExitType exitType) { JSStackFrame* const fp = cx->fp(); JSFrameRegs* const regs = cx->regs; jsbytecode* pc = regs->pc; /* * Check for a return-value opcode that needs to restart at the next * instruction. */ const JSCodeSpec& cs = js_CodeSpec[*pc]; /* * When calling a _FAIL native, make the snapshot's pc point to the next * instruction after the CALL or APPLY. Even on failure, a _FAIL native * must not be called again from the interpreter. */ bool resumeAfter = (pendingSpecializedNative && JSTN_ERRTYPE(pendingSpecializedNative) == FAIL_STATUS); if (resumeAfter) { JS_ASSERT(*pc == JSOP_CALL || *pc == JSOP_APPLY || *pc == JSOP_NEW || *pc == JSOP_SETPROP || *pc == JSOP_SETNAME); pc += cs.length; regs->pc = pc; MUST_FLOW_THROUGH("restore_pc"); } /* * Generate the entry map for the (possibly advanced) pc and stash it in * the trace. */ unsigned stackSlots = NativeStackSlots(cx, callDepth); /* * It's sufficient to track the native stack use here since all stores * above the stack watermark defined by guards are killed. */ trackNativeStackUse(stackSlots + 1); /* Capture the type map into a temporary location. */ unsigned ngslots = tree->globalSlots->length(); unsigned typemap_size = (stackSlots + ngslots) * sizeof(JSValueType); /* Use the recorder-local temporary type map. */ JSValueType* typemap = NULL; if (tempTypeMap.resize(typemap_size)) typemap = tempTypeMap.begin(); /* crash if resize() fails. */ /* * Determine the type of a store by looking at the current type of the * actual value the interpreter is using. For numbers we have to check what * kind of store we used last (integer or double) to figure out what the * side exit show reflect in its typemap. */ DetermineTypesVisitor detVisitor(*this, typemap); VisitSlots(detVisitor, cx, callDepth, ngslots, tree->globalSlots->data()); JS_ASSERT(unsigned(detVisitor.getTypeMap() - typemap) == ngslots + stackSlots); /* * If this snapshot is for a side exit that leaves a boxed Value result on * the stack, make a note of this in the typemap. Examples include the * builtinStatus guard after calling a _FAIL builtin, a JSFastNative, or * GetPropertyByName; and the type guard in unbox_value after such a call * (also at the beginning of a trace branched from such a type guard). */ if (pendingUnboxSlot || (pendingSpecializedNative && (pendingSpecializedNative->flags & JSTN_UNBOX_AFTER))) { unsigned pos = stackSlots - 1; if (pendingUnboxSlot == cx->regs->sp - 2) pos = stackSlots - 2; typemap[pos] = JSVAL_TYPE_BOXED; } else if (pendingSpecializedNative && (pendingSpecializedNative->flags & JSTN_RETURN_NULLABLE_STR)) { typemap[stackSlots - 1] = JSVAL_TYPE_STRORNULL; } else if (pendingSpecializedNative && (pendingSpecializedNative->flags & JSTN_RETURN_NULLABLE_OBJ)) { typemap[stackSlots - 1] = JSVAL_TYPE_OBJORNULL; } /* Now restore the the original pc (after which early returns are ok). */ if (resumeAfter) { MUST_FLOW_LABEL(restore_pc); regs->pc = pc - cs.length; } else { /* * If we take a snapshot on a goto, advance to the target address. This * avoids inner trees returning on a break goto, which the outer * recorder then would confuse with a break in the outer tree. */ if (*pc == JSOP_GOTO) pc += GET_JUMP_OFFSET(pc); else if (*pc == JSOP_GOTOX) pc += GET_JUMPX_OFFSET(pc); } /* * Check if we already have a matching side exit; if so we can return that * side exit instead of creating a new one. */ VMSideExit** exits = tree->sideExits.data(); unsigned nexits = tree->sideExits.length(); if (exitType == LOOP_EXIT) { for (unsigned n = 0; n < nexits; ++n) { VMSideExit* e = exits[n]; if (e->pc == pc && (e->imacpc == fp->maybeImacropc()) && ngslots == e->numGlobalSlots && !memcmp(exits[n]->fullTypeMap(), typemap, typemap_size)) { AUDIT(mergedLoopExits); #if defined JS_JIT_SPEW TreevisLogExit(cx, e); #endif return e; } } } /* We couldn't find a matching side exit, so create a new one. */ VMSideExit* exit = (VMSideExit*) traceAlloc().alloc(sizeof(VMSideExit) + (stackSlots + ngslots) * sizeof(JSValueType)); /* Setup side exit structure. */ exit->from = fragment; exit->calldepth = callDepth; exit->numGlobalSlots = ngslots; exit->numStackSlots = stackSlots; exit->numStackSlotsBelowCurrentFrame = cx->fp()->isFunctionFrame() ? nativeStackOffset(&cx->fp()->calleeValue()) / sizeof(double) : 0; exit->exitType = exitType; exit->block = fp->maybeBlockChain(); if (fp->hasBlockChain()) tree->gcthings.addUnique(ObjectValue(*fp->blockChain())); exit->pc = pc; exit->imacpc = fp->maybeImacropc(); exit->sp_adj = (stackSlots * sizeof(double)) - tree->nativeStackBase; exit->rp_adj = exit->calldepth * sizeof(FrameInfo*); exit->lookupFlags = js_InferFlags(cx, 0); memcpy(exit->fullTypeMap(), typemap, typemap_size); #if defined JS_JIT_SPEW TreevisLogExit(cx, exit); #endif return exit; } JS_REQUIRES_STACK GuardRecord* TraceRecorder::createGuardRecord(VMSideExit* exit) { #ifdef JS_JIT_SPEW // For debug builds, place the guard records in a longer lasting // pool. This is because the fragment profiler will look at them // relatively late in the day, after they would have been freed, // in some cases, had they been allocated in traceAlloc(). GuardRecord* gr = new (dataAlloc()) GuardRecord(); #else // The standard place (for production builds). GuardRecord* gr = new (traceAlloc()) GuardRecord(); #endif gr->exit = exit; exit->addGuard(gr); // gr->profCount is calloc'd to zero verbose_only( gr->profGuardID = fragment->guardNumberer++; gr->nextInFrag = fragment->guardsForFrag; fragment->guardsForFrag = gr; ) return gr; } /* * Emit a guard for condition (cond), expecting to evaluate to boolean result * (expected) and using the supplied side exit if the conditon doesn't hold. */ JS_REQUIRES_STACK void TraceRecorder::guard(bool expected, LIns* cond, VMSideExit* exit) { debug_only_printf(LC_TMRecorder, " About to try emitting guard code for " "SideExit=%p exitType=%s\n", (void*)exit, getExitName(exit->exitType)); GuardRecord* guardRec = createGuardRecord(exit); if (exit->exitType == LOOP_EXIT) tree->sideExits.add(exit); if (!cond->isCmp()) { expected = !expected; cond = cond->isI() ? lir->insEqI_0(cond) : lir->insEqP_0(cond); } LIns* guardIns = lir->insGuard(expected ? LIR_xf : LIR_xt, cond, guardRec); if (!guardIns) { debug_only_print0(LC_TMRecorder, " redundant guard, eliminated, no codegen\n"); } } /* * Emit a guard a 32-bit integer arithmetic operation op(d0, d1) and * using the supplied side exit if it overflows. */ JS_REQUIRES_STACK LIns* TraceRecorder::guard_xov(LOpcode op, LIns* d0, LIns* d1, VMSideExit* exit) { debug_only_printf(LC_TMRecorder, " About to try emitting guard_xov code for " "SideExit=%p exitType=%s\n", (void*)exit, getExitName(exit->exitType)); GuardRecord* guardRec = createGuardRecord(exit); JS_ASSERT(exit->exitType == OVERFLOW_EXIT); switch (op) { case LIR_addi: op = LIR_addxovi; break; case LIR_subi: op = LIR_subxovi; break; case LIR_muli: op = LIR_mulxovi; break; default: JS_NOT_REACHED("unexpected comparison op"); break; } LIns* guardIns = lir->insGuardXov(op, d0, d1, guardRec); NanoAssert(guardIns); return guardIns; } JS_REQUIRES_STACK VMSideExit* TraceRecorder::copy(VMSideExit* copy) { size_t typemap_size = copy->numGlobalSlots + copy->numStackSlots; VMSideExit* exit = (VMSideExit*) traceAlloc().alloc(sizeof(VMSideExit) + typemap_size * sizeof(JSValueType)); /* Copy side exit structure. */ memcpy(exit, copy, sizeof(VMSideExit) + typemap_size * sizeof(JSValueType)); exit->guards = NULL; exit->from = fragment; exit->target = NULL; if (exit->exitType == LOOP_EXIT) tree->sideExits.add(exit); #if defined JS_JIT_SPEW TreevisLogExit(cx, exit); #endif return exit; } /* * Emit a guard for condition (cond), expecting to evaluate to boolean result * (expected) and generate a side exit with type exitType to jump to if the * condition does not hold. */ JS_REQUIRES_STACK void TraceRecorder::guard(bool expected, LIns* cond, ExitType exitType) { guard(expected, cond, snapshot(exitType)); } /* * Determine whether any context associated with the same thread as cx is * executing native code. */ static inline bool ProhibitFlush(JSContext* cx) { if (cx->tracerState) // early out if the given is in native code return true; JSCList *cl; #ifdef JS_THREADSAFE JSThread* thread = cx->thread; for (cl = thread->contextList.next; cl != &thread->contextList; cl = cl->next) if (CX_FROM_THREAD_LINKS(cl)->tracerState) return true; #else JSRuntime* rt = cx->runtime; for (cl = rt->contextList.next; cl != &rt->contextList; cl = cl->next) if (js_ContextFromLinkField(cl)->tracerState) return true; #endif return false; } static void ResetJITImpl(JSContext* cx) { if (!(cx->traceJitEnabled || cx->methodJitEnabled)) return; TraceMonitor* tm = &JS_TRACE_MONITOR(cx); debug_only_print0(LC_TMTracer, "Flushing cache.\n"); if (tm->recorder) { JS_ASSERT_NOT_ON_TRACE(cx); AbortRecording(cx, "flush cache"); } if (ProhibitFlush(cx)) { debug_only_print0(LC_TMTracer, "Deferring JIT flush due to deep bail.\n"); tm->needFlush = JS_TRUE; return; } tm->flush(); } /* Compile the current fragment. */ JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::compile() { #ifdef MOZ_TRACEVIS TraceVisStateObj tvso(cx, S_COMPILE); #endif if (traceMonitor->needFlush) { ResetJIT(cx, FR_DEEP_BAIL); return ARECORD_ABORTED; } if (tree->maxNativeStackSlots >= MAX_NATIVE_STACK_SLOTS) { debug_only_print0(LC_TMTracer, "Blacklist: excessive stack use.\n"); Blacklist((jsbytecode*)tree->ip); return ARECORD_STOP; } if (anchor && anchor->exitType != CASE_EXIT) ++tree->branchCount; if (outOfMemory()) return ARECORD_STOP; /* :TODO: windows support */ #if defined DEBUG && !defined WIN32 /* Associate a filename and line number with the fragment. */ const char* filename = cx->fp()->script()->filename; char* label = (char*)js_malloc((filename ? strlen(filename) : 7) + 16); sprintf(label, "%s:%u", filename ? filename : "", js_FramePCToLineNumber(cx, cx->fp())); lirbuf->printer->addrNameMap->addAddrRange(fragment, sizeof(Fragment), 0, label); js_free(label); #endif Assembler *assm = traceMonitor->assembler; JS_ASSERT(assm->error() == nanojit::None); assm->compile(fragment, tempAlloc(), /*optimize*/true verbose_only(, lirbuf->printer)); if (assm->error() != nanojit::None) { assm->setError(nanojit::None); debug_only_print0(LC_TMTracer, "Blacklisted: error during compilation\n"); Blacklist((jsbytecode*)tree->ip); return ARECORD_STOP; } if (outOfMemory()) return ARECORD_STOP; ResetRecordingAttempts(cx, (jsbytecode*)fragment->ip); ResetRecordingAttempts(cx, (jsbytecode*)tree->ip); if (anchor) { #ifdef NANOJIT_IA32 if (anchor->exitType == CASE_EXIT) assm->patch(anchor, anchor->switchInfo); else #endif assm->patch(anchor); } JS_ASSERT(fragment->code()); JS_ASSERT_IF(fragment == fragment->root, fragment->root == tree); return ARECORD_CONTINUE; } static void JoinPeers(Assembler* assm, VMSideExit* exit, TreeFragment* target) { exit->target = target; assm->patch(exit); debug_only_printf(LC_TMTreeVis, "TREEVIS JOIN ANCHOR=%p FRAG=%p\n", (void*)exit, (void*)target); if (exit->root() == target) return; target->dependentTrees.addUnique(exit->root()); exit->root()->linkedTrees.addUnique(target); } /* Results of trying to connect an arbitrary type A with arbitrary type B */ enum TypeCheckResult { TypeCheck_Okay, /* Okay: same type */ TypeCheck_Promote, /* Okay: Type A needs d2i() */ TypeCheck_Demote, /* Okay: Type A needs i2d() */ TypeCheck_Undemote, /* Bad: Slot is undemotable */ TypeCheck_Bad /* Bad: incompatible types */ }; class SlotMap : public SlotVisitorBase { public: struct SlotInfo { SlotInfo() : vp(NULL), promoteInt(false), lastCheck(TypeCheck_Bad) {} SlotInfo(Value* vp, bool promoteInt) : vp(vp), promoteInt(promoteInt), lastCheck(TypeCheck_Bad), type(getCoercedType(*vp)) {} SlotInfo(JSValueType t) : vp(NULL), promoteInt(false), lastCheck(TypeCheck_Bad), type(t) {} SlotInfo(Value* vp, JSValueType t) : vp(vp), promoteInt(t == JSVAL_TYPE_INT32), lastCheck(TypeCheck_Bad), type(t) {} void *vp; bool promoteInt; TypeCheckResult lastCheck; JSValueType type; }; SlotMap(TraceRecorder& rec) : mRecorder(rec), mCx(rec.cx), slots(NULL) { } virtual ~SlotMap() { } JS_REQUIRES_STACK JS_ALWAYS_INLINE void visitGlobalSlot(Value *vp, unsigned n, unsigned slot) { addSlot(vp); } JS_ALWAYS_INLINE SlotMap::SlotInfo& operator [](unsigned i) { return slots[i]; } JS_ALWAYS_INLINE SlotMap::SlotInfo& get(unsigned i) { return slots[i]; } JS_ALWAYS_INLINE unsigned length() { return slots.length(); } /** * Possible return states: * * TypeConsensus_Okay: All types are compatible. Caller must go through slot list and handle * promote/demotes. * TypeConsensus_Bad: Types are not compatible. Individual type check results are undefined. * TypeConsensus_Undemotes: Types would be compatible if slots were marked as undemotable * before recording began. Caller can go through slot list and mark * such slots as undemotable. */ JS_REQUIRES_STACK TypeConsensus checkTypes(LinkableFragment* f) { if (length() != f->typeMap.length()) return TypeConsensus_Bad; bool has_undemotes = false; for (unsigned i = 0; i < length(); i++) { TypeCheckResult result = checkType(i, f->typeMap[i]); if (result == TypeCheck_Bad) return TypeConsensus_Bad; if (result == TypeCheck_Undemote) has_undemotes = true; slots[i].lastCheck = result; } if (has_undemotes) return TypeConsensus_Undemotes; return TypeConsensus_Okay; } JS_REQUIRES_STACK JS_ALWAYS_INLINE void addSlot(Value* vp) { bool promoteInt = false; if (vp->isNumber()) { if (LIns* i = mRecorder.getFromTracker(vp)) { promoteInt = isPromoteInt(i); } else if (mRecorder.isGlobal(vp)) { int offset = mRecorder.tree->globalSlots->offsetOf(uint16(mRecorder.nativeGlobalSlot(vp))); JS_ASSERT(offset != -1); promoteInt = mRecorder.importTypeMap[mRecorder.importStackSlots + offset] == JSVAL_TYPE_INT32; } else { promoteInt = mRecorder.importTypeMap[mRecorder.nativeStackSlot(vp)] == JSVAL_TYPE_INT32; } } slots.add(SlotInfo(vp, promoteInt)); } JS_REQUIRES_STACK JS_ALWAYS_INLINE void addSlot(JSValueType t) { slots.add(SlotInfo(NULL, t)); } JS_REQUIRES_STACK JS_ALWAYS_INLINE void addSlot(Value *vp, JSValueType t) { slots.add(SlotInfo(vp, t)); } JS_REQUIRES_STACK void markUndemotes() { for (unsigned i = 0; i < length(); i++) { if (get(i).lastCheck == TypeCheck_Undemote) mRecorder.markSlotUndemotable(mRecorder.tree, i); } } JS_REQUIRES_STACK virtual void adjustTail(TypeConsensus consensus) { } JS_REQUIRES_STACK virtual void adjustTypes() { for (unsigned i = 0; i < length(); i++) adjustType(get(i)); } protected: JS_REQUIRES_STACK virtual void adjustType(SlotInfo& info) { JS_ASSERT(info.lastCheck != TypeCheck_Undemote && info.lastCheck != TypeCheck_Bad); #ifdef DEBUG if (info.lastCheck == TypeCheck_Promote) { JS_ASSERT(info.type == JSVAL_TYPE_INT32 || info.type == JSVAL_TYPE_DOUBLE); /* * This should only happen if the slot has a trivial conversion, i.e. * isPromoteInt() is true. We check this. * * Note that getFromTracker() will return NULL if the slot was * never used, in which case we don't do the check. We could * instead called mRecorder.get(info.vp) and always check, but * get() has side-effects, which is not good in an assertion. * Not checking unused slots isn't so bad. */ LIns* ins = mRecorder.getFromTrackerImpl(info.vp); JS_ASSERT_IF(ins, isPromoteInt(ins)); } else #endif if (info.lastCheck == TypeCheck_Demote) { JS_ASSERT(info.type == JSVAL_TYPE_INT32 || info.type == JSVAL_TYPE_DOUBLE); JS_ASSERT(mRecorder.getImpl(info.vp)->isD()); /* Never demote this final i2d. */ mRecorder.setImpl(info.vp, mRecorder.getImpl(info.vp), false); } } private: TypeCheckResult checkType(unsigned i, JSValueType t) { debug_only_printf(LC_TMTracer, "checkType slot %d: interp=%c typemap=%c isNum=%d promoteInt=%d\n", i, TypeToChar(slots[i].type), TypeToChar(t), slots[i].type == JSVAL_TYPE_INT32 || slots[i].type == JSVAL_TYPE_DOUBLE, slots[i].promoteInt); switch (t) { case JSVAL_TYPE_INT32: if (slots[i].type != JSVAL_TYPE_INT32 && slots[i].type != JSVAL_TYPE_DOUBLE) return TypeCheck_Bad; /* Not a number? Type mismatch. */ /* This is always a type mismatch, we can't close a double to an int. */ if (!slots[i].promoteInt) return TypeCheck_Undemote; /* Looks good, slot is an int32, the last instruction should be promotable. */ JS_ASSERT_IF(slots[i].vp, hasInt32Repr(*(const Value *)slots[i].vp) && slots[i].promoteInt); return slots[i].vp ? TypeCheck_Promote : TypeCheck_Okay; case JSVAL_TYPE_DOUBLE: if (slots[i].type != JSVAL_TYPE_INT32 && slots[i].type != JSVAL_TYPE_DOUBLE) return TypeCheck_Bad; /* Not a number? Type mismatch. */ if (slots[i].promoteInt) return slots[i].vp ? TypeCheck_Demote : TypeCheck_Bad; return TypeCheck_Okay; default: return slots[i].type == t ? TypeCheck_Okay : TypeCheck_Bad; } JS_NOT_REACHED("shouldn't fall through type check switch"); } protected: TraceRecorder& mRecorder; JSContext* mCx; Queue slots; }; class DefaultSlotMap : public SlotMap { public: DefaultSlotMap(TraceRecorder& tr) : SlotMap(tr) { } virtual ~DefaultSlotMap() { } JS_REQUIRES_STACK JS_ALWAYS_INLINE bool visitStackSlots(Value *vp, size_t count, JSStackFrame* fp) { for (size_t i = 0; i < count; i++) addSlot(&vp[i]); return true; } JS_REQUIRES_STACK JS_ALWAYS_INLINE bool visitFrameObjPtr(void* p, JSStackFrame* fp) { addSlot(getFrameObjPtrTraceType(p, fp)); return true; } }; JS_REQUIRES_STACK TypeConsensus TraceRecorder::selfTypeStability(SlotMap& slotMap) { debug_only_printf(LC_TMTracer, "Checking type stability against self=%p\n", (void*)fragment); TypeConsensus consensus = slotMap.checkTypes(tree); /* Best case: loop jumps back to its own header */ if (consensus == TypeConsensus_Okay) return TypeConsensus_Okay; /* If the only thing keeping this loop from being stable is undemotions, then mark relevant * slots as undemotable. */ if (consensus == TypeConsensus_Undemotes) slotMap.markUndemotes(); return consensus; } JS_REQUIRES_STACK TypeConsensus TraceRecorder::peerTypeStability(SlotMap& slotMap, const void* ip, TreeFragment** pPeer) { /* See if there are any peers that would make this stable */ JS_ASSERT(fragment->root == tree); TreeFragment* peer = LookupLoop(traceMonitor, ip, tree->globalObj, tree->globalShape, tree->argc); /* This condition is possible with recursion */ JS_ASSERT_IF(!peer, tree->ip != ip); if (!peer) return TypeConsensus_Bad; bool onlyUndemotes = false; for (; peer != NULL; peer = peer->peer) { if (!peer->code() || peer == fragment) continue; debug_only_printf(LC_TMTracer, "Checking type stability against peer=%p\n", (void*)peer); TypeConsensus consensus = slotMap.checkTypes(peer); if (consensus == TypeConsensus_Okay) { *pPeer = peer; /* Return this even though there will be linkage; the trace itself is not stable. * Caller should inspect ppeer to check for a compatible peer. */ return TypeConsensus_Okay; } if (consensus == TypeConsensus_Undemotes) onlyUndemotes = true; } return onlyUndemotes ? TypeConsensus_Undemotes : TypeConsensus_Bad; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::closeLoop() { return closeLoop(snapshot(UNSTABLE_LOOP_EXIT)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::closeLoop(VMSideExit* exit) { DefaultSlotMap slotMap(*this); VisitSlots(slotMap, cx, 0, *tree->globalSlots); return closeLoop(slotMap, exit); } /* * Complete and compile a trace and link it to the existing tree if * appropriate. Returns ARECORD_ABORTED or ARECORD_STOP, depending on whether * the recorder was deleted. Outparam is always set. */ JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::closeLoop(SlotMap& slotMap, VMSideExit* exit) { /* * We should have arrived back at the loop header, and hence we don't want * to be in an imacro here and the opcode should be either JSOP_TRACE or, in * case this loop was blacklisted in the meantime, JSOP_NOP. */ JS_ASSERT((*cx->regs->pc == JSOP_TRACE || *cx->regs->pc == JSOP_NOP) && !cx->fp()->hasImacropc()); if (callDepth != 0) { debug_only_print0(LC_TMTracer, "Blacklisted: stack depth mismatch, possible recursion.\n"); Blacklist((jsbytecode*)tree->ip); trashSelf = true; return ARECORD_STOP; } JS_ASSERT_IF(exit->exitType == UNSTABLE_LOOP_EXIT, exit->numStackSlots == tree->nStackTypes); JS_ASSERT(fragment->root == tree); TreeFragment* peer = NULL; TypeConsensus consensus = TypeConsensus_Bad; if (exit->exitType == UNSTABLE_LOOP_EXIT) consensus = selfTypeStability(slotMap); if (consensus != TypeConsensus_Okay) { TypeConsensus peerConsensus = peerTypeStability(slotMap, tree->ip, &peer); /* If there was a semblance of a stable peer (even if not linkable), keep the result. */ if (peerConsensus != TypeConsensus_Bad) consensus = peerConsensus; } #if DEBUG if (consensus != TypeConsensus_Okay || peer) AUDIT(unstableLoopVariable); #endif JS_ASSERT(!trashSelf); /* * This exit is indeed linkable to something now. Process any promote or * demotes that are pending in the slot map. */ if (consensus == TypeConsensus_Okay) slotMap.adjustTypes(); /* Give up-recursion a chance to pop the stack frame. */ slotMap.adjustTail(consensus); if (consensus != TypeConsensus_Okay || peer) { fragment->lastIns = lir->insGuard(LIR_x, NULL, createGuardRecord(exit)); /* If there is a peer, there must have been an "Okay" consensus. */ JS_ASSERT_IF(peer, consensus == TypeConsensus_Okay); /* Compile as a type-unstable loop, and hope for a connection later. */ if (!peer) { /* * If such a fragment does not exist, let's compile the loop ahead * of time anyway. Later, if the loop becomes type stable, we will * connect these two fragments together. */ debug_only_print0(LC_TMTracer, "Trace has unstable loop variable with no stable peer, " "compiling anyway.\n"); UnstableExit* uexit = new (traceAlloc()) UnstableExit; uexit->fragment = fragment; uexit->exit = exit; uexit->next = tree->unstableExits; tree->unstableExits = uexit; } else { JS_ASSERT(peer->code()); exit->target = peer; debug_only_printf(LC_TMTracer, "Joining type-unstable trace to target fragment %p.\n", (void*)peer); peer->dependentTrees.addUnique(tree); tree->linkedTrees.addUnique(peer); } } else { exit->exitType = LOOP_EXIT; debug_only_printf(LC_TMTreeVis, "TREEVIS CHANGEEXIT EXIT=%p TYPE=%s\n", (void*)exit, getExitName(LOOP_EXIT)); JS_ASSERT((fragment == fragment->root) == !!loopLabel); if (loopLabel) { lir->insBranch(LIR_j, NULL, loopLabel); lir->ins1(LIR_livep, lirbuf->state); } exit->target = tree; /* * This guard is dead code. However, it must be present because it * can keep alive values on the stack. Without it, StackFilter can * remove some stack stores that it shouldn't. See bug 582766 comment * 19. */ fragment->lastIns = lir->insGuard(LIR_x, NULL, createGuardRecord(exit)); } CHECK_STATUS_A(compile()); debug_only_printf(LC_TMTreeVis, "TREEVIS CLOSELOOP EXIT=%p PEER=%p\n", (void*)exit, (void*)peer); JS_ASSERT(LookupLoop(traceMonitor, tree->ip, tree->globalObj, tree->globalShape, tree->argc) == tree->first); JS_ASSERT(tree->first); peer = tree->first; joinEdgesToEntry(peer); debug_only_stmt(DumpPeerStability(traceMonitor, peer->ip, peer->globalObj, peer->globalShape, peer->argc);) debug_only_print0(LC_TMTracer, "updating specializations on dependent and linked trees\n"); if (tree->code()) SpecializeTreesToMissingGlobals(cx, globalObj, tree); /* * If this is a newly formed tree, and the outer tree has not been compiled yet, we * should try to compile the outer tree again. */ if (outer) AttemptCompilation(cx, globalObj, outer, outerArgc); #ifdef JS_JIT_SPEW debug_only_printf(LC_TMMinimal, "Recording completed at %s:%u@%u via closeLoop (FragID=%06u)\n", cx->fp()->script()->filename, js_FramePCToLineNumber(cx, cx->fp()), FramePCOffset(cx, cx->fp()), fragment->profFragID); debug_only_print0(LC_TMMinimal, "\n"); #endif return finishSuccessfully(); } static void FullMapFromExit(TypeMap& typeMap, VMSideExit* exit) { typeMap.setLength(0); typeMap.fromRaw(exit->stackTypeMap(), exit->numStackSlots); typeMap.fromRaw(exit->globalTypeMap(), exit->numGlobalSlots); /* Include globals that were later specialized at the root of the tree. */ if (exit->numGlobalSlots < exit->root()->nGlobalTypes()) { typeMap.fromRaw(exit->root()->globalTypeMap() + exit->numGlobalSlots, exit->root()->nGlobalTypes() - exit->numGlobalSlots); } } static JS_REQUIRES_STACK TypeConsensus TypeMapLinkability(JSContext* cx, const TypeMap& typeMap, TreeFragment* peer) { const TypeMap& peerMap = peer->typeMap; unsigned minSlots = JS_MIN(typeMap.length(), peerMap.length()); TypeConsensus consensus = TypeConsensus_Okay; for (unsigned i = 0; i < minSlots; i++) { if (typeMap[i] == peerMap[i]) continue; if (typeMap[i] == JSVAL_TYPE_INT32 && peerMap[i] == JSVAL_TYPE_DOUBLE && IsSlotUndemotable(JS_TRACE_MONITOR(cx).oracle, cx, peer, i, peer->ip)) { consensus = TypeConsensus_Undemotes; } else { return TypeConsensus_Bad; } } return consensus; } JS_REQUIRES_STACK unsigned TraceRecorder::findUndemotesInTypemaps(const TypeMap& typeMap, LinkableFragment* f, Queue& undemotes) { undemotes.setLength(0); unsigned minSlots = JS_MIN(typeMap.length(), f->typeMap.length()); for (unsigned i = 0; i < minSlots; i++) { if (typeMap[i] == JSVAL_TYPE_INT32 && f->typeMap[i] == JSVAL_TYPE_DOUBLE) { undemotes.add(i); } else if (typeMap[i] != f->typeMap[i]) { return 0; } } for (unsigned i = 0; i < undemotes.length(); i++) markSlotUndemotable(f, undemotes[i]); return undemotes.length(); } JS_REQUIRES_STACK void TraceRecorder::joinEdgesToEntry(TreeFragment* peer_root) { if (fragment->root != fragment) return; TypeMap typeMap(NULL); Queue undemotes(NULL); for (TreeFragment* peer = peer_root; peer; peer = peer->peer) { if (!peer->code()) continue; UnstableExit* uexit = peer->unstableExits; while (uexit != NULL) { /* Build the full typemap for this unstable exit */ FullMapFromExit(typeMap, uexit->exit); /* Check its compatibility against this tree */ TypeConsensus consensus = TypeMapLinkability(cx, typeMap, tree); JS_ASSERT_IF(consensus == TypeConsensus_Okay, peer != fragment); if (consensus == TypeConsensus_Okay) { debug_only_printf(LC_TMTracer, "Joining type-stable trace to target exit %p->%p.\n", (void*)uexit->fragment, (void*)uexit->exit); /* * See bug 531513. Before linking these trees, make sure the * peer's dependency graph is up to date. */ TreeFragment* from = uexit->exit->root(); if (from->nGlobalTypes() < tree->nGlobalTypes()) { SpecializeTreesToLateGlobals(cx, from, tree->globalTypeMap(), tree->nGlobalTypes()); } /* It's okay! Link together and remove the unstable exit. */ JS_ASSERT(tree == fragment); JoinPeers(traceMonitor->assembler, uexit->exit, tree); uexit = peer->removeUnstableExit(uexit->exit); } else { /* Check for int32->double slots that suggest trashing. */ if (findUndemotesInTypemaps(typeMap, tree, undemotes)) { JS_ASSERT(peer == uexit->fragment->root); if (fragment == peer) trashSelf = true; else whichTreesToTrash.addUnique(uexit->fragment->root); return; } uexit = uexit->next; } } } } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::endLoop() { return endLoop(snapshot(LOOP_EXIT)); } /* Emit an always-exit guard and compile the tree (used for break statements. */ JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::endLoop(VMSideExit* exit) { JS_ASSERT(fragment->root == tree); if (callDepth != 0) { debug_only_print0(LC_TMTracer, "Blacklisted: stack depth mismatch, possible recursion.\n"); Blacklist((jsbytecode*)tree->ip); trashSelf = true; return ARECORD_STOP; } fragment->lastIns = lir->insGuard(LIR_x, NULL, createGuardRecord(exit)); CHECK_STATUS_A(compile()); debug_only_printf(LC_TMTreeVis, "TREEVIS ENDLOOP EXIT=%p\n", (void*)exit); JS_ASSERT(LookupLoop(traceMonitor, tree->ip, tree->globalObj, tree->globalShape, tree->argc) == tree->first); joinEdgesToEntry(tree->first); debug_only_stmt(DumpPeerStability(traceMonitor, tree->ip, tree->globalObj, tree->globalShape, tree->argc);) /* * Note: this must always be done, in case we added new globals on trace * and haven't yet propagated those to linked and dependent trees. */ debug_only_print0(LC_TMTracer, "updating specializations on dependent and linked trees\n"); if (tree->code()) SpecializeTreesToMissingGlobals(cx, globalObj, fragment->root); /* * If this is a newly formed tree, and the outer tree has not been compiled * yet, we should try to compile the outer tree again. */ if (outer) AttemptCompilation(cx, globalObj, outer, outerArgc); #ifdef JS_JIT_SPEW debug_only_printf(LC_TMMinimal, "Recording completed at %s:%u@%u via endLoop (FragID=%06u)\n", cx->fp()->script()->filename, js_FramePCToLineNumber(cx, cx->fp()), FramePCOffset(cx, cx->fp()), fragment->profFragID); debug_only_print0(LC_TMTracer, "\n"); #endif return finishSuccessfully(); } /* Emit code to adjust the stack to match the inner tree's stack expectations. */ JS_REQUIRES_STACK void TraceRecorder::prepareTreeCall(TreeFragment* inner) { VMSideExit* exit = snapshot(OOM_EXIT); /* * The inner tree expects to be called from the current frame. If the outer * tree (this trace) is currently inside a function inlining code * (calldepth > 0), we have to advance the native stack pointer such that * we match what the inner trace expects to see. We move it back when we * come out of the inner tree call. */ if (callDepth > 0) { /* * Calculate the amount we have to lift the native stack pointer by to * compensate for any outer frames that the inner tree doesn't expect * but the outer tree has. */ ptrdiff_t sp_adj = nativeStackOffset(&cx->fp()->calleeValue()); /* Calculate the amount we have to lift the call stack by. */ ptrdiff_t rp_adj = callDepth * sizeof(FrameInfo*); /* * Guard that we have enough stack space for the tree we are trying to * call on top of the new value for sp. */ debug_only_printf(LC_TMTracer, "sp_adj=%lld outer=%lld inner=%lld\n", (long long int)sp_adj, (long long int)tree->nativeStackBase, (long long int)inner->nativeStackBase); ptrdiff_t sp_offset = - tree->nativeStackBase /* rebase sp to beginning of outer tree's stack */ + sp_adj /* adjust for stack in outer frame inner tree can't see */ + inner->maxNativeStackSlots * sizeof(double); /* plus the inner tree's stack */ LIns* sp_top = lir->ins2(LIR_addp, lirbuf->sp, INS_CONSTWORD(sp_offset)); guard(true, lir->ins2(LIR_ltp, sp_top, eos_ins), exit); /* Guard that we have enough call stack space. */ ptrdiff_t rp_offset = rp_adj + inner->maxCallDepth * sizeof(FrameInfo*); LIns* rp_top = lir->ins2(LIR_addp, lirbuf->rp, INS_CONSTWORD(rp_offset)); guard(true, lir->ins2(LIR_ltp, rp_top, eor_ins), exit); sp_offset = - tree->nativeStackBase /* rebase sp to beginning of outer tree's stack */ + sp_adj /* adjust for stack in outer frame inner tree can't see */ + inner->nativeStackBase; /* plus the inner tree's stack base */ /* We have enough space, so adjust sp and rp to their new level. */ lir->insStore(lir->ins2(LIR_addp, lirbuf->sp, INS_CONSTWORD(sp_offset)), lirbuf->state, offsetof(TracerState, sp), ACCSET_OTHER); lir->insStore(lir->ins2(LIR_addp, lirbuf->rp, INS_CONSTWORD(rp_adj)), lirbuf->state, offsetof(TracerState, rp), ACCSET_OTHER); } /* * The inner tree will probably access stack slots. So tell nanojit not to * discard or defer stack writes before emitting the call tree code. * * (The ExitType of this snapshot is nugatory. The exit can't be taken.) */ GuardRecord* guardRec = createGuardRecord(exit); lir->insGuard(LIR_xbarrier, NULL, guardRec); } static unsigned BuildGlobalTypeMapFromInnerTree(Queue& typeMap, VMSideExit* inner) { #if defined DEBUG unsigned initialSlots = typeMap.length(); #endif /* First, use the innermost exit's global typemap. */ typeMap.add(inner->globalTypeMap(), inner->numGlobalSlots); /* Add missing global types from the innermost exit's tree. */ TreeFragment* innerFrag = inner->root(); unsigned slots = inner->numGlobalSlots; if (slots < innerFrag->nGlobalTypes()) { typeMap.add(innerFrag->globalTypeMap() + slots, innerFrag->nGlobalTypes() - slots); slots = innerFrag->nGlobalTypes(); } JS_ASSERT(typeMap.length() - initialSlots == slots); return slots; } /* Record a call to an inner tree. */ JS_REQUIRES_STACK void TraceRecorder::emitTreeCall(TreeFragment* inner, VMSideExit* exit) { /* Invoke the inner tree. */ LIns* args[] = { lirbuf->state }; /* reverse order */ /* Construct a call info structure for the target tree. */ CallInfo* ci = new (traceAlloc()) CallInfo(); ci->_address = uintptr_t(inner->code()); JS_ASSERT(ci->_address); ci->_typesig = CallInfo::typeSig1(ARGTYPE_P, ARGTYPE_P); ci->_isPure = 0; ci->_storeAccSet = ACCSET_STORE_ANY; ci->_abi = ABI_FASTCALL; #ifdef DEBUG ci->_name = "fragment"; #endif LIns* rec = lir->insCall(ci, args); LIns* lr = lir->insLoad(LIR_ldp, rec, offsetof(GuardRecord, exit), ACCSET_OTHER); LIns* nested = lir->insBranch(LIR_jt, lir->ins2ImmI(LIR_eqi, lir->insLoad(LIR_ldi, lr, offsetof(VMSideExit, exitType), ACCSET_OTHER), NESTED_EXIT), NULL); /* * If the tree exits on a regular (non-nested) guard, keep updating lastTreeExitGuard * with that guard. If we mismatch on a tree call guard, this will contain the last * non-nested guard we encountered, which is the innermost loop or branch guard. */ lir->insStore(lr, lirbuf->state, offsetof(TracerState, lastTreeExitGuard), ACCSET_OTHER); LIns* done1 = lir->insBranch(LIR_j, NULL, NULL); /* * The tree exited on a nested guard. This only occurs once a tree call guard mismatches * and we unwind the tree call stack. We store the first (innermost) tree call guard in state * and we will try to grow the outer tree the failing call was in starting at that guard. */ nested->setTarget(lir->ins0(LIR_label)); LIns* done2 = lir->insBranch(LIR_jf, lir->insEqP_0(lir->insLoad(LIR_ldp, lirbuf->state, offsetof(TracerState, lastTreeCallGuard), ACCSET_OTHER)), NULL); lir->insStore(lr, lirbuf->state, offsetof(TracerState, lastTreeCallGuard), ACCSET_OTHER); lir->insStore(lir->ins2(LIR_addp, lir->insLoad(LIR_ldp, lirbuf->state, offsetof(TracerState, rp), ACCSET_OTHER), lir->insI2P(lir->ins2ImmI(LIR_lshi, lir->insLoad(LIR_ldi, lr, offsetof(VMSideExit, calldepth), ACCSET_OTHER), sizeof(void*) == 4 ? 2 : 3))), lirbuf->state, offsetof(TracerState, rpAtLastTreeCall), ACCSET_OTHER); LIns* label = lir->ins0(LIR_label); done1->setTarget(label); done2->setTarget(label); /* * Keep updating outermostTreeExit so that TracerState always contains the most recent * side exit. */ lir->insStore(lr, lirbuf->state, offsetof(TracerState, outermostTreeExitGuard), ACCSET_OTHER); /* Read back all registers, in case the called tree changed any of them. */ #ifdef DEBUG JSValueType* map; size_t i; map = exit->globalTypeMap(); for (i = 0; i < exit->numGlobalSlots; i++) JS_ASSERT(map[i] != JSVAL_TYPE_BOXED); map = exit->stackTypeMap(); for (i = 0; i < exit->numStackSlots; i++) JS_ASSERT(map[i] != JSVAL_TYPE_BOXED); #endif /* * Clear anything from the tracker that the inner tree could have written so * that it will be lazily reloaded from the native stack. The only portion * of the native stack that may be written to by both the inner and outer * tree are the slots associated with the inner tree's entry frame. We may * be certain of this by the following argument: * * 0. The only way for the inner tree to mutate the outer tree's upvars * is by writing to the call object associated with cx->fp or the * callDepth frames below it. * 1. To write to a given call object, the innerTree must be executing with * that call object on its scope chain. * 2. Only function frames' scope chains may contain call objects. * 3. An interpreted function frame's scope chain is set to be the parent * of the callee when the callee is called. * 4. On trace, there is a guard on the identity of the callee's parent. * 5. From 1, 2, 3 and 4, any call object written to on trace will be the * exact same call object as was observed at record time. * 6. Inner trees are recorded before outer trees. * 7. From 5 and 6, the only call object created by an outer tree that can * be written to by an inner tree before the call object's associated * stack frame is popped is cx->fp->callObj. * 8. setCallProp has an explicit guard against writing to cx->fp->callObj. * 9. From 0, 7 and 8, an inner tree never mutates its outer tree's upvars. */ clearCurrentFrameSlotsFromTracker(tracker); SlotList& gslots = *tree->globalSlots; for (unsigned i = 0; i < gslots.length(); i++) { unsigned slot = gslots[i]; Value* vp = &globalObj->getSlotRef(slot); tracker.set(vp, NULL); } /* Set stack slots from the innermost frame. */ importTypeMap.setLength(NativeStackSlots(cx, callDepth)); #ifdef DEBUG for (unsigned i = importStackSlots; i < importTypeMap.length(); i++) importTypeMap[i] = JSVAL_TYPE_UNINITIALIZED; #endif unsigned startOfInnerFrame = importTypeMap.length() - exit->numStackSlots; for (unsigned i = 0; i < exit->numStackSlots; i++) importTypeMap[startOfInnerFrame + i] = exit->stackTypeMap()[i]; importStackSlots = importTypeMap.length(); JS_ASSERT(importStackSlots == NativeStackSlots(cx, callDepth)); /* * Bug 502604 - It is illegal to extend from the outer typemap without * first extending from the inner. Make a new typemap here. */ BuildGlobalTypeMapFromInnerTree(importTypeMap, exit); importGlobalSlots = importTypeMap.length() - importStackSlots; JS_ASSERT(importGlobalSlots == tree->globalSlots->length()); /* Restore sp and rp to their original values (we still have them in a register). */ if (callDepth > 0) { lir->insStore(lirbuf->sp, lirbuf->state, offsetof(TracerState, sp), ACCSET_OTHER); lir->insStore(lirbuf->rp, lirbuf->state, offsetof(TracerState, rp), ACCSET_OTHER); } /* * Guard that we come out of the inner tree along the same side exit we came out when * we called the inner tree at recording time. */ VMSideExit* nestedExit = snapshot(NESTED_EXIT); JS_ASSERT(exit->exitType == LOOP_EXIT); guard(true, lir->ins2(LIR_eqp, lr, INS_CONSTPTR(exit)), nestedExit); debug_only_printf(LC_TMTreeVis, "TREEVIS TREECALL INNER=%p EXIT=%p GUARD=%p\n", (void*)inner, (void*)nestedExit, (void*)exit); /* Register us as a dependent tree of the inner tree. */ inner->dependentTrees.addUnique(fragment->root); tree->linkedTrees.addUnique(inner); } /* Add a if/if-else control-flow merge point to the list of known merge points. */ JS_REQUIRES_STACK void TraceRecorder::trackCfgMerges(jsbytecode* pc) { /* If we hit the beginning of an if/if-else, then keep track of the merge point after it. */ JS_ASSERT((*pc == JSOP_IFEQ) || (*pc == JSOP_IFEQX)); jssrcnote* sn = js_GetSrcNote(cx->fp()->script(), pc); if (sn != NULL) { if (SN_TYPE(sn) == SRC_IF) { cfgMerges.add((*pc == JSOP_IFEQ) ? pc + GET_JUMP_OFFSET(pc) : pc + GET_JUMPX_OFFSET(pc)); } else if (SN_TYPE(sn) == SRC_IF_ELSE) cfgMerges.add(pc + js_GetSrcNoteOffset(sn, 0)); } } /* * Invert the direction of the guard if this is a loop edge that is not * taken (thin loop). */ JS_REQUIRES_STACK void TraceRecorder::emitIf(jsbytecode* pc, bool cond, LIns* x) { ExitType exitType; if (IsLoopEdge(pc, (jsbytecode*)tree->ip)) { exitType = LOOP_EXIT; /* * If we are about to walk out of the loop, generate code for the * inverse loop condition, pretending we recorded the case that stays * on trace. */ if ((*pc == JSOP_IFEQ || *pc == JSOP_IFEQX) == cond) { JS_ASSERT(*pc == JSOP_IFNE || *pc == JSOP_IFNEX || *pc == JSOP_IFEQ || *pc == JSOP_IFEQX); debug_only_print0(LC_TMTracer, "Walking out of the loop, terminating it anyway.\n"); cond = !cond; } /* * Conditional guards do not have to be emitted if the condition is * constant. We make a note whether the loop condition is true or false * here, so we later know whether to emit a loop edge or a loop end. */ if (x->isImmI()) { pendingLoop = (x->immI() == int32(cond)); return; } } else { exitType = BRANCH_EXIT; } if (!x->isImmI()) guard(cond, x, exitType); } /* Emit code for a fused IFEQ/IFNE. */ JS_REQUIRES_STACK void TraceRecorder::fuseIf(jsbytecode* pc, bool cond, LIns* x) { if (*pc == JSOP_IFEQ || *pc == JSOP_IFNE) { emitIf(pc, cond, x); if (*pc == JSOP_IFEQ) trackCfgMerges(pc); } } /* Check whether we have reached the end of the trace. */ JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::checkTraceEnd(jsbytecode *pc) { if (IsLoopEdge(pc, (jsbytecode*)tree->ip)) { /* * If we compile a loop, the trace should have a zero stack balance at * the loop edge. Currently we are parked on a comparison op or * IFNE/IFEQ, so advance pc to the loop header and adjust the stack * pointer and pretend we have reached the loop header. */ if (pendingLoop) { JS_ASSERT(!cx->fp()->hasImacropc() && (pc == cx->regs->pc || pc == cx->regs->pc + 1)); JSFrameRegs orig = *cx->regs; cx->regs->pc = (jsbytecode*)tree->ip; cx->regs->sp = cx->fp()->base() + tree->spOffsetAtEntry; JSContext* localcx = cx; AbortableRecordingStatus ars = closeLoop(); *localcx->regs = orig; return ars; } return endLoop(); } return ARECORD_CONTINUE; } /* * Check whether the shape of the global object has changed. The return value * indicates whether the recorder is still active. If 'false', any active * recording has been aborted and the JIT may have been reset. */ static JS_REQUIRES_STACK bool CheckGlobalObjectShape(JSContext* cx, TraceMonitor* tm, JSObject* globalObj, uint32 *shape = NULL, SlotList** slots = NULL) { if (tm->needFlush) { ResetJIT(cx, FR_DEEP_BAIL); return false; } if (globalObj->numSlots() > MAX_GLOBAL_SLOTS) { if (tm->recorder) AbortRecording(cx, "too many slots in global object"); return false; } /* * The global object must have a unique shape. That way, if an operand * isn't the global at record time, a shape guard suffices to ensure * that it isn't the global at run time. */ if (!globalObj->hasOwnShape()) { JS_LOCK_OBJ(cx, globalObj); bool ok = globalObj->globalObjectOwnShapeChange(cx); JS_UNLOCK_OBJ(cx, globalObj); if (!ok) { debug_only_print0(LC_TMTracer, "Can't record: failed to give globalObj a unique shape.\n"); return false; } } else { /* Claim the title so we don't abort at the top of recordLoopEdge. */ JS_LOCK_OBJ(cx, globalObj); JS_UNLOCK_OBJ(cx, globalObj); } uint32 globalShape = globalObj->shape(); if (tm->recorder) { TreeFragment* root = tm->recorder->getFragment()->root; /* Check the global shape matches the recorder's treeinfo's shape. */ if (globalObj != root->globalObj || globalShape != root->globalShape) { AUDIT(globalShapeMismatchAtEntry); debug_only_printf(LC_TMTracer, "Global object/shape mismatch (%p/%u vs. %p/%u), flushing cache.\n", (void*)globalObj, globalShape, (void*)root->globalObj, root->globalShape); Backoff(cx, (jsbytecode*) root->ip); ResetJIT(cx, FR_GLOBAL_SHAPE_MISMATCH); return false; } if (shape) *shape = globalShape; if (slots) *slots = root->globalSlots; return true; } /* No recorder, search for a tracked global-state (or allocate one). */ for (size_t i = 0; i < MONITOR_N_GLOBAL_STATES; ++i) { GlobalState &state = tm->globalStates[i]; if (state.globalShape == uint32(-1)) { state.globalObj = globalObj; state.globalShape = globalShape; JS_ASSERT(state.globalSlots); JS_ASSERT(state.globalSlots->length() == 0); } if (state.globalObj == globalObj && state.globalShape == globalShape) { if (shape) *shape = globalShape; if (slots) *slots = state.globalSlots; return true; } } /* No currently-tracked-global found and no room to allocate, abort. */ AUDIT(globalShapeMismatchAtEntry); debug_only_printf(LC_TMTracer, "No global slotlist for global shape %u, flushing cache.\n", globalShape); ResetJIT(cx, FR_GLOBALS_FULL); return false; } /* * Return whether or not the recorder could be started. If 'false', the JIT has * been reset in response to an OOM. */ bool JS_REQUIRES_STACK TraceRecorder::startRecorder(JSContext* cx, VMSideExit* anchor, VMFragment* f, unsigned stackSlots, unsigned ngslots, JSValueType* typeMap, VMSideExit* expectedInnerExit, jsbytecode* outer, uint32 outerArgc, bool speculate) { TraceMonitor *tm = &JS_TRACE_MONITOR(cx); JS_ASSERT(!tm->needFlush); JS_ASSERT_IF(cx->fp()->hasImacropc(), f->root != f); tm->recorder = new TraceRecorder(cx, anchor, f, stackSlots, ngslots, typeMap, expectedInnerExit, outer, outerArgc, speculate); if (!tm->recorder || tm->outOfMemory() || OverfullJITCache(tm)) { ResetJIT(cx, FR_OOM); return false; } return true; } static void TrashTree(JSContext* cx, TreeFragment* f) { JS_ASSERT(f == f->root); debug_only_printf(LC_TMTreeVis, "TREEVIS TRASH FRAG=%p\n", (void*)f); if (!f->code()) return; AUDIT(treesTrashed); debug_only_print0(LC_TMTracer, "Trashing tree info.\n"); f->setCode(NULL); TreeFragment** data = f->dependentTrees.data(); unsigned length = f->dependentTrees.length(); for (unsigned n = 0; n < length; ++n) TrashTree(cx, data[n]); data = f->linkedTrees.data(); length = f->linkedTrees.length(); for (unsigned n = 0; n < length; ++n) TrashTree(cx, data[n]); } static void SynthesizeFrame(JSContext* cx, const FrameInfo& fi, JSObject* callee) { VOUCH_DOES_NOT_REQUIRE_STACK(); /* Assert that we have a correct sp distance from cx->fp()->slots in fi. */ JSStackFrame* const fp = cx->fp(); JS_ASSERT_IF(!fi.imacpc, js_ReconstructStackDepth(cx, fp->script(), fi.pc) == uintN(fi.spdist - fp->numFixed())); /* Use the just-flushed prev-frame to get the callee function. */ JSFunction* newfun = callee->getFunctionPrivate(); JSScript* newscript = newfun->script(); /* Fill in the prev-frame's sp. */ JSFrameRegs *regs = cx->regs; regs->sp = fp->slots() + fi.spdist; regs->pc = fi.pc; if (fi.imacpc) fp->setImacropc(fi.imacpc); fp->setBlockChain(fi.block); /* Set argc/flags then mimic JSOP_CALL. */ uintN argc = fi.get_argc(); uint32 flags = fi.is_constructing () ? JSFRAME_CONSTRUCTING | JSFRAME_CONSTRUCTING : 0; /* Get pointer to new/frame/slots, prepare arguments. */ StackSpace &stack = cx->stack(); JSStackFrame *newfp = stack.getInlineFrame(cx, regs->sp, argc, newfun, newscript, &flags); /* Initialize frame; do not need to initialize locals. */ newfp->initCallFrame(cx, *callee, newfun, argc, flags); #ifdef DEBUG /* The stack is conservatively marked, so we can leave non-canonical args uninitialized. */ if (newfp->hasOverflowArgs()) { Value *beg = newfp->actualArgs() - 2; Value *end = newfp->actualArgs() + newfp->numFormalArgs(); for (Value *p = beg; p != end; ++p) p->setMagic(JS_ARG_POISON); } /* These should be initialized by FlushNativeStackFrame. */ newfp->thisValue().setMagic(JS_THIS_POISON); newfp->setScopeChainNoCallObj(*JSStackFrame::sInvalidScopeChain); #endif /* Officially push the frame. */ stack.pushInlineFrame(cx, newscript, newfp, cx->regs); /* Call object will be set by FlushNativeStackFrame. */ /* Call the debugger hook if present. */ JSInterpreterHook hook = cx->debugHooks->callHook; if (hook) { newfp->setHookData(hook(cx, newfp, JS_TRUE, 0, cx->debugHooks->callHookData)); } } static JS_REQUIRES_STACK bool RecordTree(JSContext* cx, TreeFragment* first, jsbytecode* outer, uint32 outerArgc, SlotList* globalSlots) { TraceMonitor* tm = &JS_TRACE_MONITOR(cx); /* Try to find an unused peer fragment, or allocate a new one. */ JS_ASSERT(first->first == first); TreeFragment* f = NULL; size_t count = 0; for (TreeFragment* peer = first; peer; peer = peer->peer, ++count) { if (!peer->code()) f = peer; } if (!f) f = AddNewPeerToPeerList(tm, first); JS_ASSERT(f->root == f); /* Disable speculation if we are starting to accumulate a lot of trees. */ bool speculate = count < MAXPEERS-1; /* save a local copy for use after JIT flush */ const void* localRootIP = f->root->ip; /* Make sure the global type map didn't change on us. */ if (!CheckGlobalObjectShape(cx, tm, f->globalObj)) { Backoff(cx, (jsbytecode*) localRootIP); return false; } AUDIT(recorderStarted); if (tm->outOfMemory() || OverfullJITCache(tm)) { Backoff(cx, (jsbytecode*) f->root->ip); ResetJIT(cx, FR_OOM); debug_only_print0(LC_TMTracer, "Out of memory recording new tree, flushing cache.\n"); return false; } JS_ASSERT(!f->code()); f->initialize(cx, globalSlots, speculate); #ifdef DEBUG AssertTreeIsUnique(tm, f); #endif #ifdef JS_JIT_SPEW debug_only_printf(LC_TMTreeVis, "TREEVIS CREATETREE ROOT=%p PC=%p FILE=\"%s\" LINE=%d OFFS=%d", (void*)f, f->ip, f->treeFileName, f->treeLineNumber, FramePCOffset(cx, cx->fp())); debug_only_print0(LC_TMTreeVis, " STACK=\""); for (unsigned i = 0; i < f->nStackTypes; i++) debug_only_printf(LC_TMTreeVis, "%c", TypeToChar(f->typeMap[i])); debug_only_print0(LC_TMTreeVis, "\" GLOBALS=\""); for (unsigned i = 0; i < f->nGlobalTypes(); i++) debug_only_printf(LC_TMTreeVis, "%c", TypeToChar(f->typeMap[f->nStackTypes + i])); debug_only_print0(LC_TMTreeVis, "\"\n"); #endif /* Recording primary trace. */ return TraceRecorder::startRecorder(cx, NULL, f, f->nStackTypes, f->globalSlots->length(), f->typeMap.data(), NULL, outer, outerArgc, speculate); } static JS_REQUIRES_STACK TypeConsensus FindLoopEdgeTarget(JSContext* cx, VMSideExit* exit, TreeFragment** peerp) { TreeFragment* from = exit->root(); JS_ASSERT(from->code()); Oracle* oracle = JS_TRACE_MONITOR(cx).oracle; TypeMap typeMap(NULL); FullMapFromExit(typeMap, exit); JS_ASSERT(typeMap.length() - exit->numStackSlots == from->nGlobalTypes()); /* Mark all double slots as undemotable */ uint16* gslots = from->globalSlots->data(); for (unsigned i = 0; i < typeMap.length(); i++) { if (typeMap[i] == JSVAL_TYPE_DOUBLE) { if (i < from->nStackTypes) oracle->markStackSlotUndemotable(cx, i, from->ip); else if (i >= exit->numStackSlots) oracle->markGlobalSlotUndemotable(cx, gslots[i - exit->numStackSlots]); } } JS_ASSERT(exit->exitType == UNSTABLE_LOOP_EXIT); TreeFragment* firstPeer = from->first; for (TreeFragment* peer = firstPeer; peer; peer = peer->peer) { if (!peer->code()) continue; JS_ASSERT(peer->argc == from->argc); JS_ASSERT(exit->numStackSlots == peer->nStackTypes); TypeConsensus consensus = TypeMapLinkability(cx, typeMap, peer); if (consensus == TypeConsensus_Okay || consensus == TypeConsensus_Undemotes) { *peerp = peer; return consensus; } } return TypeConsensus_Bad; } static JS_REQUIRES_STACK bool AttemptToStabilizeTree(JSContext* cx, JSObject* globalObj, VMSideExit* exit, jsbytecode* outer, uint32 outerArgc) { TraceMonitor* tm = &JS_TRACE_MONITOR(cx); if (tm->needFlush) { ResetJIT(cx, FR_DEEP_BAIL); return false; } TreeFragment* from = exit->root(); TreeFragment* peer = NULL; TypeConsensus consensus = FindLoopEdgeTarget(cx, exit, &peer); if (consensus == TypeConsensus_Okay) { JS_ASSERT(from->globalSlots == peer->globalSlots); JS_ASSERT_IF(exit->exitType == UNSTABLE_LOOP_EXIT, from->nStackTypes == peer->nStackTypes); JS_ASSERT(exit->numStackSlots == peer->nStackTypes); /* Patch this exit to its peer */ JoinPeers(tm->assembler, exit, peer); /* * Update peer global types. The |from| fragment should already be updated because it on * the execution path, and somehow connected to the entry trace. */ if (peer->nGlobalTypes() < peer->globalSlots->length()) SpecializeTreesToMissingGlobals(cx, globalObj, peer); JS_ASSERT(from->nGlobalTypes() == from->globalSlots->length()); /* This exit is no longer unstable, so remove it. */ if (exit->exitType == UNSTABLE_LOOP_EXIT) from->removeUnstableExit(exit); debug_only_stmt(DumpPeerStability(tm, peer->ip, globalObj, from->globalShape, from->argc);) return false; } else if (consensus == TypeConsensus_Undemotes) { /* The original tree is unconnectable, so trash it. */ TrashTree(cx, peer); return false; } SlotList *globalSlots = from->globalSlots; JS_ASSERT(from == from->root); /* If this tree has been blacklisted, don't try to record a new one. */ if (*(jsbytecode*)from->ip == JSOP_NOP) return false; return RecordTree(cx, from->first, outer, outerArgc, globalSlots); } static JS_REQUIRES_STACK VMFragment* CreateBranchFragment(JSContext* cx, TreeFragment* root, VMSideExit* anchor) { TraceMonitor* tm = &JS_TRACE_MONITOR(cx); verbose_only( uint32_t profFragID = (LogController.lcbits & LC_FragProfile) ? (++(tm->lastFragID)) : 0; ) VMFragment* f = new (*tm->dataAlloc) VMFragment(cx->regs->pc verbose_only(, profFragID)); debug_only_printf(LC_TMTreeVis, "TREEVIS CREATEBRANCH ROOT=%p FRAG=%p PC=%p FILE=\"%s\"" " LINE=%d ANCHOR=%p OFFS=%d\n", (void*)root, (void*)f, (void*)cx->regs->pc, cx->fp()->script()->filename, js_FramePCToLineNumber(cx, cx->fp()), (void*)anchor, FramePCOffset(cx, cx->fp())); verbose_only( tm->branches = new (*tm->dataAlloc) Seq(f, tm->branches); ) f->root = root; if (anchor) anchor->target = f; return f; } static JS_REQUIRES_STACK bool AttemptToExtendTree(JSContext* cx, VMSideExit* anchor, VMSideExit* exitedFrom, jsbytecode* outer #ifdef MOZ_TRACEVIS , TraceVisStateObj* tvso = NULL #endif ) { TraceMonitor* tm = &JS_TRACE_MONITOR(cx); JS_ASSERT(!tm->recorder); if (tm->needFlush) { ResetJIT(cx, FR_DEEP_BAIL); #ifdef MOZ_TRACEVIS if (tvso) tvso->r = R_FAIL_EXTEND_FLUSH; #endif return false; } TreeFragment* f = anchor->root(); JS_ASSERT(f->code()); /* * Don't grow trees above a certain size to avoid code explosion due to * tail duplication. */ if (f->branchCount >= MAX_BRANCHES) { #ifdef MOZ_TRACEVIS if (tvso) tvso->r = R_FAIL_EXTEND_MAX_BRANCHES; #endif return false; } VMFragment* c = (VMFragment*)anchor->target; if (!c) { c = CreateBranchFragment(cx, f, anchor); } else { /* * If we are recycling a fragment, it might have a different ip so reset it * here. This can happen when attaching a branch to a NESTED_EXIT, which * might extend along separate paths (i.e. after the loop edge, and after a * return statement). */ c->ip = cx->regs->pc; JS_ASSERT(c->root == f); } debug_only_printf(LC_TMTracer, "trying to attach another branch to the tree (hits = %d)\n", c->hits()); int32_t& hits = c->hits(); int32_t maxHits = HOTEXIT + MAXEXIT; if (anchor->exitType == CASE_EXIT) maxHits *= anchor->switchInfo->count; if (outer || (hits++ >= HOTEXIT && hits <= maxHits)) { /* start tracing secondary trace from this point */ unsigned stackSlots; unsigned ngslots; JSValueType* typeMap; TypeMap fullMap(NULL); if (!exitedFrom) { /* * If we are coming straight from a simple side exit, just use that * exit's type map as starting point. */ ngslots = anchor->numGlobalSlots; stackSlots = anchor->numStackSlots; typeMap = anchor->fullTypeMap(); } else { /* * If we side-exited on a loop exit and continue on a nesting * guard, the nesting guard (anchor) has the type information for * everything below the current scope, and the actual guard we * exited from has the types for everything in the current scope * (and whatever it inlined). We have to merge those maps here. */ VMSideExit* e1 = anchor; VMSideExit* e2 = exitedFrom; fullMap.add(e1->stackTypeMap(), e1->numStackSlotsBelowCurrentFrame); fullMap.add(e2->stackTypeMap(), e2->numStackSlots); stackSlots = fullMap.length(); ngslots = BuildGlobalTypeMapFromInnerTree(fullMap, e2); JS_ASSERT(ngslots >= e1->numGlobalSlots); // inner tree must have all globals JS_ASSERT(ngslots == fullMap.length() - stackSlots); typeMap = fullMap.data(); } JS_ASSERT(ngslots >= anchor->numGlobalSlots); bool rv = TraceRecorder::startRecorder(cx, anchor, c, stackSlots, ngslots, typeMap, exitedFrom, outer, entryFrameArgc(cx), hits < maxHits); #ifdef MOZ_TRACEVIS if (!rv && tvso) tvso->r = R_FAIL_EXTEND_START; #endif return rv; } #ifdef MOZ_TRACEVIS if (tvso) tvso->r = R_FAIL_EXTEND_COLD; #endif return false; } static JS_REQUIRES_STACK bool ExecuteTree(JSContext* cx, TreeFragment* f, uintN& inlineCallCount, VMSideExit** innermostNestedGuardp, VMSideExit** lrp); static inline MonitorResult RecordingIfTrue(bool b) { return b ? MONITOR_RECORDING : MONITOR_NOT_RECORDING; } /* * A postcondition of recordLoopEdge is that if recordLoopEdge does not return * MONITOR_RECORDING, the recording has been aborted. */ JS_REQUIRES_STACK MonitorResult TraceRecorder::recordLoopEdge(JSContext* cx, TraceRecorder* r, uintN& inlineCallCount) { #ifdef JS_THREADSAFE /* If changing this, see "Claim the title" in CheckGlobalObjectShape. */ if (cx->fp()->scopeChain().getGlobal()->title.ownercx != cx) { AbortRecording(cx, "Global object not owned by this context"); return MONITOR_NOT_RECORDING; /* we stay away from shared global objects */ } #endif TraceMonitor* tm = &JS_TRACE_MONITOR(cx); /* Process needFlush and deep abort requests. */ if (tm->needFlush) { ResetJIT(cx, FR_DEEP_BAIL); return MONITOR_NOT_RECORDING; } JS_ASSERT(r->fragment && !r->fragment->lastIns); TreeFragment* root = r->fragment->root; TreeFragment* first = LookupOrAddLoop(tm, cx->regs->pc, root->globalObj, root->globalShape, entryFrameArgc(cx)); /* * Make sure the shape of the global object still matches (this might flush * the JIT cache). */ JSObject* globalObj = cx->fp()->scopeChain().getGlobal(); uint32 globalShape = -1; SlotList* globalSlots = NULL; if (!CheckGlobalObjectShape(cx, tm, globalObj, &globalShape, &globalSlots)) { JS_ASSERT(!tm->recorder); return MONITOR_NOT_RECORDING; } debug_only_printf(LC_TMTracer, "Looking for type-compatible peer (%s:%d@%d)\n", cx->fp()->script()->filename, js_FramePCToLineNumber(cx, cx->fp()), FramePCOffset(cx, cx->fp())); // Find a matching inner tree. If none can be found, compile one. TreeFragment* f = r->findNestedCompatiblePeer(first); if (!f || !f->code()) { AUDIT(noCompatInnerTrees); TreeFragment* outerFragment = root; jsbytecode* outer = (jsbytecode*) outerFragment->ip; uint32 outerArgc = outerFragment->argc; JS_ASSERT(entryFrameArgc(cx) == first->argc); AbortRecording(cx, "No compatible inner tree"); return RecordingIfTrue(RecordTree(cx, first, outer, outerArgc, globalSlots)); } AbortableRecordingStatus status = r->attemptTreeCall(f, inlineCallCount); if (status == ARECORD_CONTINUE) return MONITOR_RECORDING; if (status == ARECORD_ERROR) { if (TRACE_RECORDER(cx)) AbortRecording(cx, "Error returned while recording loop edge"); return MONITOR_ERROR; } JS_ASSERT(status == ARECORD_ABORTED && !tm->recorder); return MONITOR_NOT_RECORDING; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::attemptTreeCall(TreeFragment* f, uintN& inlineCallCount) { adjustCallerTypes(f); prepareTreeCall(f); #ifdef DEBUG uintN oldInlineCallCount = inlineCallCount; #endif JSContext *localCx = cx; // Refresh the import type map so the tracker can reimport values after the // call with their correct types. The inner tree must not change the type of // any variable in a frame above the current one (i.e., upvars). // // Note that DetermineTypesVisitor may call determineSlotType, which may // read from the (current, stale) import type map, but this is safe here. // The reason is that determineSlotType will read the import type map only // if there is not a tracker instruction for that value, which means that // value has not been written yet, so that type map entry is up to date. importTypeMap.setLength(NativeStackSlots(cx, callDepth)); DetermineTypesVisitor visitor(*this, importTypeMap.data()); VisitStackSlots(visitor, cx, callDepth); VMSideExit* innermostNestedGuard = NULL; VMSideExit* lr; bool ok = ExecuteTree(cx, f, inlineCallCount, &innermostNestedGuard, &lr); /* * If ExecuteTree reentered the interpreter, it may have killed |this| * and/or caused an error, which must be propagated. */ JS_ASSERT_IF(TRACE_RECORDER(localCx), TRACE_RECORDER(localCx) == this); if (!ok) return ARECORD_ERROR; if (!TRACE_RECORDER(localCx)) return ARECORD_ABORTED; if (!lr) { AbortRecording(cx, "Couldn't call inner tree"); return ARECORD_ABORTED; } TreeFragment* outerFragment = tree; jsbytecode* outer = (jsbytecode*) outerFragment->ip; switch (lr->exitType) { case LOOP_EXIT: /* If the inner tree exited on an unknown loop exit, grow the tree around it. */ if (innermostNestedGuard) { AbortRecording(cx, "Inner tree took different side exit, abort current " "recording and grow nesting tree"); return AttemptToExtendTree(localCx, innermostNestedGuard, lr, outer) ? ARECORD_CONTINUE : ARECORD_ABORTED; } JS_ASSERT(oldInlineCallCount == inlineCallCount); /* Emit a call to the inner tree and continue recording the outer tree trace. */ emitTreeCall(f, lr); return ARECORD_CONTINUE; case UNSTABLE_LOOP_EXIT: { /* Abort recording so the inner loop can become type stable. */ JSObject* _globalObj = globalObj; AbortRecording(cx, "Inner tree is trying to stabilize, abort outer recording"); return AttemptToStabilizeTree(localCx, _globalObj, lr, outer, outerFragment->argc) ? ARECORD_CONTINUE : ARECORD_ABORTED; } case OVERFLOW_EXIT: traceMonitor->oracle->markInstructionUndemotable(cx->regs->pc); /* FALL THROUGH */ case BRANCH_EXIT: case CASE_EXIT: { /* Abort recording the outer tree, extend the inner tree. */ AbortRecording(cx, "Inner tree is trying to grow, abort outer recording"); return AttemptToExtendTree(localCx, lr, NULL, outer) ? ARECORD_CONTINUE : ARECORD_ABORTED; } case NESTED_EXIT: JS_NOT_REACHED("NESTED_EXIT should be replaced by innermost side exit"); default: debug_only_printf(LC_TMTracer, "exit_type=%s\n", getExitName(lr->exitType)); AbortRecording(cx, "Inner tree not suitable for calling"); return ARECORD_ABORTED; } } static inline bool IsEntryTypeCompatible(const Value &v, JSValueType type) { bool ok; JS_ASSERT(type <= JSVAL_UPPER_INCL_TYPE_OF_BOXABLE_SET); JS_ASSERT(type != JSVAL_TYPE_OBJECT); /* JSVAL_TYPE_OBJECT does not belong in a type map */ if (v.isInt32()) { ok = (type == JSVAL_TYPE_INT32 || type == JSVAL_TYPE_DOUBLE); } else if (v.isDouble()) { int32_t _; ok = (type == JSVAL_TYPE_DOUBLE) || (type == JSVAL_TYPE_INT32 && JSDOUBLE_IS_INT32(v.toDouble(), &_)); } else if (v.isObject()) { ok = v.toObject().isFunction() ? type == JSVAL_TYPE_FUNOBJ : type == JSVAL_TYPE_NONFUNOBJ; } else { ok = v.extractNonDoubleObjectTraceType() == type; } #ifdef DEBUG char ttag = TypeToChar(type); char vtag = ValueToTypeChar(v); debug_only_printf(LC_TMTracer, "%c/%c ", vtag, ttag); if (!ok) debug_only_printf(LC_TMTracer, "%s", "(incompatible types)"); #endif return ok; } static inline bool IsFrameObjPtrTypeCompatible(void *p, JSStackFrame *fp, JSValueType type) { if (p == fp->addressOfScopeChain()) return type == JSVAL_TYPE_NONFUNOBJ; JS_ASSERT(p == fp->addressOfArgs()); JS_ASSERT(type == JSVAL_TYPE_NONFUNOBJ || type == JSVAL_TYPE_NULL); return fp->hasArgsObj() == (type == JSVAL_TYPE_NONFUNOBJ); } class TypeCompatibilityVisitor : public SlotVisitorBase { TraceRecorder &mRecorder; JSContext *mCx; Oracle *mOracle; JSValueType *mTypeMap; unsigned mStackSlotNum; bool mOk; public: TypeCompatibilityVisitor (TraceRecorder &recorder, JSValueType *typeMap) : mRecorder(recorder), mCx(mRecorder.cx), mOracle(JS_TRACE_MONITOR(mCx).oracle), mTypeMap(typeMap), mStackSlotNum(0), mOk(true) {} JS_REQUIRES_STACK JS_ALWAYS_INLINE void visitGlobalSlot(Value *vp, unsigned n, unsigned slot) { debug_only_printf(LC_TMTracer, "global%d=", n); if (!IsEntryTypeCompatible(*vp, *mTypeMap)) { mOk = false; } else if (!isPromoteInt(mRecorder.get(vp)) && *mTypeMap == JSVAL_TYPE_INT32) { mOracle->markGlobalSlotUndemotable(mCx, slot); mOk = false; } else if (vp->isInt32() && *mTypeMap == JSVAL_TYPE_DOUBLE) { mOracle->markGlobalSlotUndemotable(mCx, slot); } mTypeMap++; } /* * For the below two methods, one may be inclined to 'return false' early * when mOk is set to 'false'. Don't do that. It is very important to run * through the whole list to let all mis-matching slots get marked * undemotable in the oracle. */ JS_REQUIRES_STACK JS_ALWAYS_INLINE bool visitStackSlots(Value *vp, size_t count, JSStackFrame* fp) { for (size_t i = 0; i < count; ++i) { debug_only_printf(LC_TMTracer, "%s%u=", stackSlotKind(), unsigned(i)); if (!IsEntryTypeCompatible(*vp, *mTypeMap)) { mOk = false; } else if (!isPromoteInt(mRecorder.get(vp)) && *mTypeMap == JSVAL_TYPE_INT32) { mOracle->markStackSlotUndemotable(mCx, mStackSlotNum); mOk = false; } else if (vp->isInt32() && *mTypeMap == JSVAL_TYPE_DOUBLE) { mOracle->markStackSlotUndemotable(mCx, mStackSlotNum); } vp++; mTypeMap++; mStackSlotNum++; } return true; } JS_REQUIRES_STACK JS_ALWAYS_INLINE bool visitFrameObjPtr(void* p, JSStackFrame* fp) { debug_only_printf(LC_TMTracer, "%s%u=", stackSlotKind(), 0); if (!IsFrameObjPtrTypeCompatible(p, fp, *mTypeMap)) mOk = false; mTypeMap++; mStackSlotNum++; return true; } bool isOk() { return mOk; } }; JS_REQUIRES_STACK TreeFragment* TraceRecorder::findNestedCompatiblePeer(TreeFragment* f) { TraceMonitor* tm; tm = &JS_TRACE_MONITOR(cx); unsigned int ngslots = tree->globalSlots->length(); for (; f != NULL; f = f->peer) { if (!f->code()) continue; debug_only_printf(LC_TMTracer, "checking nested types %p: ", (void*)f); if (ngslots > f->nGlobalTypes()) SpecializeTreesToMissingGlobals(cx, globalObj, f); /* * Determine whether the typemap of the inner tree matches the outer * tree's current state. If the inner tree expects an integer, but the * outer tree doesn't guarantee an integer for that slot, we mark the * slot undemotable and mismatch here. This will force a new tree to be * compiled that accepts a double for the slot. If the inner tree * expects a double, but the outer tree has an integer, we can proceed, * but we mark the location undemotable. */ TypeCompatibilityVisitor visitor(*this, f->typeMap.data()); VisitSlots(visitor, cx, 0, *tree->globalSlots); debug_only_printf(LC_TMTracer, " %s\n", visitor.isOk() ? "match" : ""); if (visitor.isOk()) return f; } return NULL; } class CheckEntryTypeVisitor : public SlotVisitorBase { bool mOk; JSValueType *mTypeMap; public: CheckEntryTypeVisitor(JSValueType *typeMap) : mOk(true), mTypeMap(typeMap) {} JS_ALWAYS_INLINE void checkSlot(const Value &v, char const *name, int i) { debug_only_printf(LC_TMTracer, "%s%d=", name, i); JS_ASSERT(*(uint8_t*)mTypeMap != 0xCD); mOk = IsEntryTypeCompatible(v, *mTypeMap++); } JS_REQUIRES_STACK JS_ALWAYS_INLINE void visitGlobalSlot(Value *vp, unsigned n, unsigned slot) { if (mOk) checkSlot(*vp, "global", n); } JS_REQUIRES_STACK JS_ALWAYS_INLINE bool visitStackSlots(Value *vp, size_t count, JSStackFrame* fp) { for (size_t i = 0; i < count; ++i) { if (!mOk) break; checkSlot(*vp++, stackSlotKind(), i); } return mOk; } JS_REQUIRES_STACK JS_ALWAYS_INLINE bool visitFrameObjPtr(void* p, JSStackFrame *fp) { debug_only_printf(LC_TMTracer, "%s%d=", stackSlotKind(), 0); JS_ASSERT(*(uint8_t*)mTypeMap != 0xCD); return mOk = IsFrameObjPtrTypeCompatible(p, fp, *mTypeMap++); } bool isOk() { return mOk; } }; /** * Check if types are usable for trace execution. * * @param cx Context. * @param f Tree of peer we're testing. * @return True if compatible (with or without demotions), false otherwise. */ static JS_REQUIRES_STACK bool CheckEntryTypes(JSContext* cx, JSObject* globalObj, TreeFragment* f) { unsigned int ngslots = f->globalSlots->length(); JS_ASSERT(f->nStackTypes == NativeStackSlots(cx, 0)); if (ngslots > f->nGlobalTypes()) SpecializeTreesToMissingGlobals(cx, globalObj, f); JS_ASSERT(f->typeMap.length() == NativeStackSlots(cx, 0) + ngslots); JS_ASSERT(f->typeMap.length() == f->nStackTypes + ngslots); JS_ASSERT(f->nGlobalTypes() == ngslots); CheckEntryTypeVisitor visitor(f->typeMap.data()); VisitSlots(visitor, cx, 0, *f->globalSlots); debug_only_print0(LC_TMTracer, "\n"); return visitor.isOk(); } /** * Find an acceptable entry tree given a PC. * * @param cx Context. * @param globalObj Global object. * @param f First peer fragment. * @param nodemote If true, will try to find a peer that does not require demotion. * @out count Number of fragments consulted. */ static JS_REQUIRES_STACK TreeFragment* FindVMCompatiblePeer(JSContext* cx, JSObject* globalObj, TreeFragment* f, uintN& count) { count = 0; for (; f != NULL; f = f->peer) { if (!f->code()) continue; debug_only_printf(LC_TMTracer, "checking vm types %p (ip: %p): ", (void*)f, f->ip); if (CheckEntryTypes(cx, globalObj, f)) return f; ++count; } return NULL; } /* * For the native stacks and global frame, reuse the storage in |tm->storage|. * This reuse depends on the invariant that only one trace uses |tm->storage| at * a time. This is subtley correct in lieu of deep bail; see comment for * |deepBailSp| in DeepBail. */ JS_ALWAYS_INLINE TracerState::TracerState(JSContext* cx, TraceMonitor* tm, TreeFragment* f, uintN& inlineCallCount, VMSideExit** innermostNestedGuardp) : cx(cx), stackBase(tm->storage->stack()), sp(stackBase + f->nativeStackBase / sizeof(double)), eos(tm->storage->global()), callstackBase(tm->storage->callstack()), sor(callstackBase), rp(callstackBase), eor(callstackBase + JS_MIN(MAX_CALL_STACK_ENTRIES, JS_MAX_INLINE_CALL_COUNT - inlineCallCount)), lastTreeExitGuard(NULL), lastTreeCallGuard(NULL), rpAtLastTreeCall(NULL), outermostTree(f), inlineCallCountp(&inlineCallCount), innermostNestedGuardp(innermostNestedGuardp), #ifdef EXECUTE_TREE_TIMER startTime(rdtsc()), #endif builtinStatus(0), nativeVp(NULL), bailedSlowNativeRegs(bailedSlowNativeRegs) { JS_ASSERT(!tm->tracecx); tm->tracecx = cx; prev = cx->tracerState; cx->tracerState = this; JS_ASSERT(eos == stackBase + MAX_NATIVE_STACK_SLOTS); JS_ASSERT(sp < eos); /* * inlineCallCount has already been incremented, if being invoked from * EnterFrame. It is okay to have a 0-frame restriction since the JIT * might not need any frames. */ JS_ASSERT(inlineCallCount <= JS_MAX_INLINE_CALL_COUNT); #ifdef DEBUG /* * Cannot 0xCD-fill global frame since it may overwrite a bailed outer * ExecuteTree's 0xdeadbeefdeadbeef marker. */ memset(tm->storage->stack(), 0xCD, MAX_NATIVE_STACK_SLOTS * sizeof(double)); memset(tm->storage->callstack(), 0xCD, MAX_CALL_STACK_ENTRIES * sizeof(FrameInfo*)); #endif } JS_ALWAYS_INLINE TracerState::~TracerState() { JS_ASSERT(!nativeVp); cx->tracerState = prev; JS_TRACE_MONITOR(cx).tracecx = NULL; } /* Call |f|, return the exit taken. */ static JS_ALWAYS_INLINE VMSideExit* ExecuteTrace(JSContext* cx, Fragment* f, TracerState& state) { JS_ASSERT(!cx->bailExit); union { NIns *code; GuardRecord* (FASTCALL *func)(TracerState*); } u; u.code = f->code(); GuardRecord* rec; #if defined(JS_NO_FASTCALL) && defined(NANOJIT_IA32) SIMULATE_FASTCALL(rec, state, NULL, u.func); #else rec = u.func(&state); #endif JS_ASSERT(!cx->bailExit); return (VMSideExit*)rec->exit; } /* Check whether our assumptions about the incoming scope-chain are upheld. */ static JS_REQUIRES_STACK JS_ALWAYS_INLINE bool ScopeChainCheck(JSContext* cx, TreeFragment* f) { JS_ASSERT(f->globalObj == cx->fp()->scopeChain().getGlobal()); /* * The JIT records and expects to execute with two scope-chain * assumptions baked-in: * * 1. That the bottom of the scope chain is global, in the sense of * JSCLASS_IS_GLOBAL. * * 2. That the scope chain between fp and the global is free of * "unusual" native objects such as HTML forms or other funny * things. * * #2 is checked here while following the scope-chain links, via * js_IsCacheableNonGlobalScope, which consults a whitelist of known * class types; once a global is found, it's checked for #1. Failing * either check causes an early return from execution. */ JSObject* child = &cx->fp()->scopeChain(); while (JSObject* parent = child->getParent()) { if (!js_IsCacheableNonGlobalScope(child)) { debug_only_print0(LC_TMTracer,"Blacklist: non-cacheable object on scope chain.\n"); Blacklist((jsbytecode*) f->root->ip); return false; } child = parent; } JS_ASSERT(child == f->globalObj); if (!(f->globalObj->getClass()->flags & JSCLASS_IS_GLOBAL)) { debug_only_print0(LC_TMTracer, "Blacklist: non-global at root of scope chain.\n"); Blacklist((jsbytecode*) f->root->ip); return false; } return true; } static void LeaveTree(TraceMonitor *tm, TracerState&, VMSideExit* lr); /* Return false if the interpreter should goto error. */ static JS_REQUIRES_STACK bool ExecuteTree(JSContext* cx, TreeFragment* f, uintN& inlineCallCount, VMSideExit** innermostNestedGuardp, VMSideExit **lrp) { #ifdef MOZ_TRACEVIS TraceVisStateObj tvso(cx, S_EXECUTE); #endif JS_ASSERT(f->root == f && f->code()); TraceMonitor* tm = &JS_TRACE_MONITOR(cx); if (!ScopeChainCheck(cx, f) || !cx->stack().ensureEnoughSpaceToEnterTrace() || inlineCallCount + f->maxCallDepth > JS_MAX_INLINE_CALL_COUNT) { *lrp = NULL; return true; } /* Make sure the global object is sane. */ JS_ASSERT(f->globalObj->numSlots() <= MAX_GLOBAL_SLOTS); JS_ASSERT(f->nGlobalTypes() == f->globalSlots->length()); JS_ASSERT_IF(f->globalSlots->length() != 0, f->globalObj->shape() == f->globalShape); /* Initialize trace state. */ TracerState state(cx, tm, f, inlineCallCount, innermostNestedGuardp); double* stack = tm->storage->stack(); double* global = tm->storage->global(); JSObject* globalObj = f->globalObj; unsigned ngslots = f->globalSlots->length(); uint16* gslots = f->globalSlots->data(); BuildNativeFrame(cx, globalObj, 0 /* callDepth */, ngslots, gslots, f->typeMap.data(), global, stack); AUDIT(traceTriggered); debug_only_printf(LC_TMTracer, "entering trace at %s:%u@%u, execs: %u code: %p\n", cx->fp()->script()->filename, js_FramePCToLineNumber(cx, cx->fp()), FramePCOffset(cx, cx->fp()), f->execs, f->code()); debug_only_stmt(uint32 globalSlots = globalObj->numSlots();) debug_only_stmt(*(uint64*)&tm->storage->global()[globalSlots] = 0xdeadbeefdeadbeefLL;) /* Execute trace. */ JS_THREAD_DATA(cx)->iterationCounter = 0; #ifdef MOZ_TRACEVIS VMSideExit* lr = (TraceVisStateObj(cx, S_NATIVE), ExecuteTrace(cx, f, state)); #else VMSideExit* lr = ExecuteTrace(cx, f, state); #endif JS_ASSERT(*(uint64*)&tm->storage->global()[globalSlots] == 0xdeadbeefdeadbeefLL); JS_ASSERT_IF(lr->exitType == LOOP_EXIT, !lr->calldepth); /* Restore interpreter state. */ LeaveTree(tm, state, lr); *lrp = state.innermost; bool ok = !(state.builtinStatus & BUILTIN_ERROR); JS_ASSERT_IF(cx->throwing, !ok); if (cx->methodJitEnabled) { if (lr->exitType == LOOP_EXIT && JS_THREAD_DATA(cx)->iterationCounter < MIN_LOOP_ITERS) { debug_only_printf(LC_TMTracer, "tree %p executed only %d iterations, blacklisting\n", (void*)f, f->execs); Blacklist((jsbytecode *)f->ip); } } return ok; } class Guardian { bool *flagp; public: Guardian(bool *flagp) { this->flagp = flagp; JS_ASSERT(!*flagp); *flagp = true; } ~Guardian() { JS_ASSERT(*flagp); *flagp = false; } }; static JS_FORCES_STACK void LeaveTree(TraceMonitor *tm, TracerState& state, VMSideExit* lr) { VOUCH_DOES_NOT_REQUIRE_STACK(); JSContext* cx = state.cx; /* Temporary waive the soft GC quota to make sure LeaveTree() doesn't fail. */ Guardian waiver(&JS_THREAD_DATA(cx)->waiveGCQuota); FrameInfo** callstack = state.callstackBase; double* stack = state.stackBase; /* * Except if we find that this is a nested bailout, the guard the call * returned is the one we have to use to adjust pc and sp. */ VMSideExit* innermost = lr; /* * While executing a tree we do not update state.sp and state.rp even if * they grow. Instead, guards tell us by how much sp and rp should be * incremented in case of a side exit. When calling a nested tree, however, * we actively adjust sp and rp. If we have such frames from outer trees on * the stack, then rp will have been adjusted. Before we can process the * stack of the frames of the tree we directly exited from, we have to * first work our way through the outer frames and generate interpreter * frames for them. Once the call stack (rp) is empty, we can process the * final frames (which again are not directly visible and only the guard we * exited on will tells us about). */ FrameInfo** rp = (FrameInfo**)state.rp; if (lr->exitType == NESTED_EXIT) { VMSideExit* nested = state.lastTreeCallGuard; if (!nested) { /* * If lastTreeCallGuard is not set in state, we only have a single * level of nesting in this exit, so lr itself is the innermost and * outermost nested guard, and hence we set nested to lr. The * calldepth of the innermost guard is not added to state.rp, so we * do it here manually. For a nesting depth greater than 1 the * call tree code already added the innermost guard's calldepth * to state.rpAtLastTreeCall. */ nested = lr; rp += lr->calldepth; } else { /* * During unwinding state.rp gets overwritten at every step and we * restore it here to its state at the innermost nested guard. The * builtin already added the calldepth of that innermost guard to * rpAtLastTreeCall. */ rp = (FrameInfo**)state.rpAtLastTreeCall; } innermost = state.lastTreeExitGuard; if (state.innermostNestedGuardp) *state.innermostNestedGuardp = nested; JS_ASSERT(nested); JS_ASSERT(nested->exitType == NESTED_EXIT); JS_ASSERT(state.lastTreeExitGuard); JS_ASSERT(state.lastTreeExitGuard->exitType != NESTED_EXIT); } int32_t bs = state.builtinStatus; bool bailed = innermost->exitType == STATUS_EXIT && (bs & BUILTIN_BAILED); if (bailed) { /* * Deep-bail case. * * A _FAIL native already called LeaveTree. We already reconstructed * the interpreter stack, in pre-call state, with pc pointing to the * CALL/APPLY op, for correctness. Then we continued in native code. */ if (!(bs & (BUILTIN_ERROR | BUILTIN_NO_FIXUP_NEEDED))) { /* * The builtin or native deep-bailed but finished successfully * (no exception or error). * * After it returned, the JIT code stored the results of the * builtin or native at the top of the native stack and then * immediately flunked the guard on state->builtinStatus. * * Now LeaveTree has been called again from the tail of * ExecuteTree. We are about to return to the interpreter. Adjust * the top stack frame to resume on the next op. */ JSFrameRegs* regs = cx->regs; JSOp op = (JSOp) *regs->pc; JS_ASSERT(op == JSOP_CALL || op == JSOP_APPLY || op == JSOP_NEW || op == JSOP_GETPROP || op == JSOP_GETTHISPROP || op == JSOP_GETARGPROP || op == JSOP_GETLOCALPROP || op == JSOP_LENGTH || op == JSOP_GETELEM || op == JSOP_CALLELEM || op == JSOP_CALLPROP || op == JSOP_SETPROP || op == JSOP_SETNAME || op == JSOP_SETMETHOD || op == JSOP_SETELEM || op == JSOP_INITELEM || op == JSOP_ENUMELEM || op == JSOP_INSTANCEOF || op == JSOP_ITER || op == JSOP_MOREITER || op == JSOP_ENDITER || op == JSOP_FORARG || op == JSOP_FORLOCAL || op == JSOP_FORNAME || op == JSOP_FORPROP || op == JSOP_FORELEM || op == JSOP_DELPROP || op == JSOP_DELELEM); /* * JSOP_SETELEM can be coalesced with a JSOP_POP in the interpeter. * Since this doesn't re-enter the recorder, the post-state snapshot * is invalid. Fix it up here. */ if (op == JSOP_SETELEM && JSOp(regs->pc[JSOP_SETELEM_LENGTH]) == JSOP_POP) { regs->sp -= js_CodeSpec[JSOP_SETELEM].nuses; regs->sp += js_CodeSpec[JSOP_SETELEM].ndefs; regs->pc += JSOP_SETELEM_LENGTH; op = JSOP_POP; } const JSCodeSpec& cs = js_CodeSpec[op]; regs->sp -= (cs.format & JOF_INVOKE) ? GET_ARGC(regs->pc) + 2 : cs.nuses; regs->sp += cs.ndefs; regs->pc += cs.length; JS_ASSERT_IF(!cx->fp()->hasImacropc(), cx->fp()->slots() + cx->fp()->numFixed() + js_ReconstructStackDepth(cx, cx->fp()->script(), regs->pc) == regs->sp); /* * If there's a tree call around the point that we deep exited at, * then state.sp and state.rp were restored to their original * values before the tree call and sp might be less than deepBailSp, * which we sampled when we were told to deep bail. */ JS_ASSERT(state.deepBailSp >= state.stackBase && state.sp <= state.deepBailSp); /* * As explained above, the JIT code stored a result value or values * on the native stack. Transfer them to the interpreter stack now. * (Some opcodes, like JSOP_CALLELEM, produce two values, hence the * loop.) */ JSValueType* typeMap = innermost->stackTypeMap(); for (int i = 1; i <= cs.ndefs; i++) { NativeToValue(cx, regs->sp[-i], typeMap[innermost->numStackSlots - i], (jsdouble *) state.deepBailSp + innermost->sp_adj / sizeof(jsdouble) - i); } } return; } while (callstack < rp) { FrameInfo* fi = *callstack; /* Peek at the callee native slot in the not-yet-synthesized prev frame. */ JSObject* callee = *(JSObject**)&stack[fi->callerHeight]; /* * Flush the slots for cx->fp() (which will become cx->fp()->prev after * SynthesizeFrame). Since a frame's arguments (including callee * and thisv) are part of the frame, we only want to flush up to the * next frame's arguments, so set cx->regs->sp to to not include said * arguments. The upcoming call to SynthesizeFrame will reset regs->sp * to its correct value. */ cx->regs->sp = cx->fp()->slots() + (fi->spdist - (2 + fi->get_argc())); int slots = FlushNativeStackFrame(cx, 0 /* callDepth */, fi->get_typemap(), stack); /* Finish initializing cx->fp() and push a new cx->fp(). */ SynthesizeFrame(cx, *fi, callee); #ifdef DEBUG JSStackFrame* fp = cx->fp(); debug_only_printf(LC_TMTracer, "synthesized deep frame for %s:%u@%u, slots=%d, fi=%p\n", fp->script()->filename, js_FramePCToLineNumber(cx, fp), FramePCOffset(cx, fp), slots, (void*)*callstack); #endif /* * Keep track of the additional frames we put on the interpreter stack * and the native stack slots we consumed. */ ++*state.inlineCallCountp; ++callstack; stack += slots; } /* * We already synthesized the frames around the innermost guard. Here we * just deal with additional frames inside the tree we are bailing out * from. */ JS_ASSERT(rp == callstack); unsigned calldepth = innermost->calldepth; unsigned calleeOffset = 0; for (unsigned n = 0; n < calldepth; ++n) { /* Peek at the callee native slot in the not-yet-synthesized prev frame. */ calleeOffset += callstack[n]->callerHeight; JSObject* callee = *(JSObject**)&stack[calleeOffset]; /* Reconstruct the frame. */ SynthesizeFrame(cx, *callstack[n], callee); ++*state.inlineCallCountp; #ifdef DEBUG JSStackFrame* fp = cx->fp(); debug_only_printf(LC_TMTracer, "synthesized shallow frame for %s:%u@%u\n", fp->script()->filename, js_FramePCToLineNumber(cx, fp), FramePCOffset(cx, fp)); #endif } /* * Adjust sp and pc relative to the tree we exited from (not the tree we * entered into). These are our final values for sp and pc since * SynthesizeFrame has already taken care of all frames in between. But * first we recover fp->blockChain, which comes from the side exit * struct. */ JSStackFrame* const fp = cx->fp(); fp->setBlockChain(innermost->block); /* * If we are not exiting from an inlined frame, the state->sp is spbase. * Otherwise spbase is whatever slots frames around us consume. */ cx->regs->pc = innermost->pc; if (innermost->imacpc) fp->setImacropc(innermost->imacpc); else fp->clearImacropc(); /* * Set cx->regs->regs for the top frame. Since the top frame does not have a * FrameInfo (a FrameInfo is only pushed for calls), we basically need to * compute the offset from fp->slots() to the top of the stack based on the * number of native slots allocated for this function. * * Duplicate native stack layout computation: see VisitFrameSlots header comment. */ uintN slotOffset = innermost->numStackSlots - innermost->numStackSlotsBelowCurrentFrame; if (fp->isGlobalFrame()) { /* Global nfixed slots are not kept on the native stack, so add them back. */ slotOffset += fp->globalScript()->nfixed; } else { /* A frame's native slots includes args and frame ptrs, so strip them off. */ slotOffset -= NumSlotsBeforeFixed(fp); } cx->regs->sp = fp->slots() + slotOffset; /* Assert that we computed sp correctly. */ JS_ASSERT_IF(!fp->hasImacropc(), fp->slots() + fp->numFixed() + js_ReconstructStackDepth(cx, fp->script(), cx->regs->pc) == cx->regs->sp); #ifdef EXECUTE_TREE_TIMER uint64 cycles = rdtsc() - state.startTime; #elif defined(JS_JIT_SPEW) uint64 cycles = 0; #endif debug_only_printf(LC_TMTracer, "leaving trace at %s:%u@%u, op=%s, lr=%p, exitType=%s, sp=%lld, " "calldepth=%d, cycles=%llu\n", fp->script()->filename, js_FramePCToLineNumber(cx, fp), FramePCOffset(cx, fp), js_CodeName[fp->hasImacropc() ? *fp->imacropc() : *cx->regs->pc], (void*)lr, getExitName(lr->exitType), (long long int)(cx->regs->sp - fp->base()), calldepth, (unsigned long long int)cycles); #ifdef DEBUG int slots = #endif FlushNativeStackFrame(cx, innermost->calldepth, innermost->stackTypeMap(), stack); JS_ASSERT(unsigned(slots) == innermost->numStackSlots); /* * If this trace is part of a tree, later branches might have added * additional globals for which we don't have any type information * available in the side exit. We merge in this information from the entry * type-map. See also the comment in the constructor of TraceRecorder * regarding why this is always safe to do. */ TreeFragment* outermostTree = state.outermostTree; uint16* gslots = outermostTree->globalSlots->data(); unsigned ngslots = outermostTree->globalSlots->length(); JS_ASSERT(ngslots == outermostTree->nGlobalTypes()); JSValueType* globalTypeMap; /* Are there enough globals? */ TypeMap& typeMap = *tm->cachedTempTypeMap; typeMap.clear(); if (innermost->numGlobalSlots == ngslots) { /* Yes. This is the ideal fast path. */ globalTypeMap = innermost->globalTypeMap(); } else { /* * No. Merge the typemap of the innermost entry and exit together. This * should always work because it is invalid for nested trees or linked * trees to have incompatible types. Thus, whenever a new global type * is lazily added into a tree, all dependent and linked trees are * immediately specialized (see bug 476653). */ JS_ASSERT(innermost->root()->nGlobalTypes() == ngslots); JS_ASSERT(innermost->root()->nGlobalTypes() > innermost->numGlobalSlots); typeMap.ensure(ngslots); #ifdef DEBUG unsigned check_ngslots = #endif BuildGlobalTypeMapFromInnerTree(typeMap, innermost); JS_ASSERT(check_ngslots == ngslots); globalTypeMap = typeMap.data(); } /* Write back interned globals. */ JS_ASSERT(state.eos == state.stackBase + MAX_NATIVE_STACK_SLOTS); JSObject* globalObj = outermostTree->globalObj; FlushNativeGlobalFrame(cx, globalObj, state.eos, ngslots, gslots, globalTypeMap); #ifdef DEBUG /* Verify that our state restoration worked. */ for (JSStackFrame* fp = cx->fp(); fp; fp = fp->prev()) { JS_ASSERT_IF(fp->isFunctionFrame(), fp->thisValue().isObjectOrNull()); } #endif #ifdef JS_JIT_SPEW if (innermost->exitType != TIMEOUT_EXIT) AUDIT(sideExitIntoInterpreter); else AUDIT(timeoutIntoInterpreter); #endif state.innermost = innermost; } JS_REQUIRES_STACK MonitorResult MonitorLoopEdge(JSContext* cx, uintN& inlineCallCount) { #ifdef MOZ_TRACEVIS TraceVisStateObj tvso(cx, S_MONITOR); #endif TraceMonitor* tm = &JS_TRACE_MONITOR(cx); /* Is the recorder currently active? */ if (tm->recorder) { jsbytecode* pc = cx->regs->pc; if (pc == tm->recorder->tree->ip) { tm->recorder->closeLoop(); } else { MonitorResult r = TraceRecorder::recordLoopEdge(cx, tm->recorder, inlineCallCount); JS_ASSERT((r == MONITOR_RECORDING) == (TRACE_RECORDER(cx) != NULL)); if (r == MONITOR_RECORDING || r == MONITOR_ERROR) return r; /* * recordLoopEdge will invoke an inner tree if we have a matching * one. If we arrive here, that tree didn't run to completion and * instead we mis-matched or the inner tree took a side exit other than * the loop exit. We are thus no longer guaranteed to be parked on the * same loop header js_MonitorLoopEdge was called for. In fact, this * might not even be a loop header at all. Hence if the program counter * no longer hovers over the inner loop header, return to the * interpreter and do not attempt to trigger or record a new tree at * this location. */ if (pc != cx->regs->pc) { #ifdef MOZ_TRACEVIS tvso.r = R_INNER_SIDE_EXIT; #endif return MONITOR_NOT_RECORDING; } } } JS_ASSERT(!tm->recorder); /* * Make sure the shape of the global object still matches (this might flush * the JIT cache). */ JSObject* globalObj = cx->fp()->scopeChain().getGlobal(); uint32 globalShape = -1; SlotList* globalSlots = NULL; if (!CheckGlobalObjectShape(cx, tm, globalObj, &globalShape, &globalSlots)) { Backoff(cx, cx->regs->pc); return MONITOR_NOT_RECORDING; } /* Do not enter the JIT code with a pending operation callback. */ if (JS_THREAD_DATA(cx)->interruptFlags) { #ifdef MOZ_TRACEVIS tvso.r = R_CALLBACK_PENDING; #endif return MONITOR_NOT_RECORDING; } jsbytecode* pc = cx->regs->pc; uint32 argc = entryFrameArgc(cx); TreeFragment* f = LookupOrAddLoop(tm, pc, globalObj, globalShape, argc); /* * If we have no code in the anchor and no peers, we definitively won't be * able to activate any trees, so start compiling. */ if (!f->code() && !f->peer) { record: if (++f->hits() < HOTLOOP) { #ifdef MOZ_TRACEVIS tvso.r = f->hits() < 1 ? R_BACKED_OFF : R_COLD; #endif return MONITOR_NOT_RECORDING; } if (!ScopeChainCheck(cx, f)) { #ifdef MOZ_TRACEVIS tvso.r = R_FAIL_SCOPE_CHAIN_CHECK; #endif return MONITOR_NOT_RECORDING; } /* * We can give RecordTree the root peer. If that peer is already taken, * it will walk the peer list and find us a free slot or allocate a new * tree if needed. */ bool rv = RecordTree(cx, f->first, NULL, 0, globalSlots); #ifdef MOZ_TRACEVIS if (!rv) tvso.r = R_FAIL_RECORD_TREE; #endif return RecordingIfTrue(rv); } debug_only_printf(LC_TMTracer, "Looking for compat peer %d@%d, from %p (ip: %p)\n", js_FramePCToLineNumber(cx, cx->fp()), FramePCOffset(cx, cx->fp()), (void*)f, f->ip); uintN count; TreeFragment* match = FindVMCompatiblePeer(cx, globalObj, f, count); if (!match) { if (count < MAXPEERS) goto record; /* * If we hit the max peers ceiling, don't try to lookup fragments all * the time. That's expensive. This must be a rather type-unstable loop. */ debug_only_print0(LC_TMTracer, "Blacklisted: too many peer trees.\n"); Blacklist((jsbytecode*) f->root->ip); #ifdef MOZ_TRACEVIS tvso.r = R_MAX_PEERS; #endif return MONITOR_NOT_RECORDING; } VMSideExit* lr = NULL; VMSideExit* innermostNestedGuard = NULL; if (!ExecuteTree(cx, match, inlineCallCount, &innermostNestedGuard, &lr)) return MONITOR_ERROR; if (!lr) { #ifdef MOZ_TRACEVIS tvso.r = R_FAIL_EXECUTE_TREE; #endif return MONITOR_NOT_RECORDING; } /* * If we exit on a branch, or on a tree call guard, try to grow the inner * tree (in case of a branch exit), or the tree nested around the tree we * exited from (in case of the tree call guard). */ bool rv; switch (lr->exitType) { case UNSTABLE_LOOP_EXIT: rv = AttemptToStabilizeTree(cx, globalObj, lr, NULL, 0); #ifdef MOZ_TRACEVIS if (!rv) tvso.r = R_FAIL_STABILIZE; #endif return RecordingIfTrue(rv); case OVERFLOW_EXIT: tm->oracle->markInstructionUndemotable(cx->regs->pc); /* FALL THROUGH */ case BRANCH_EXIT: case CASE_EXIT: rv = AttemptToExtendTree(cx, lr, NULL, NULL #ifdef MOZ_TRACEVIS , &tvso #endif ); return RecordingIfTrue(rv); case LOOP_EXIT: if (innermostNestedGuard) { rv = AttemptToExtendTree(cx, innermostNestedGuard, lr, NULL #ifdef MOZ_TRACEVIS , &tvso #endif ); return RecordingIfTrue(rv); } #ifdef MOZ_TRACEVIS tvso.r = R_NO_EXTEND_OUTER; #endif return MONITOR_NOT_RECORDING; #ifdef MOZ_TRACEVIS case MISMATCH_EXIT: tvso.r = R_MISMATCH_EXIT; return MONITOR_NOT_RECORDING; case OOM_EXIT: tvso.r = R_OOM_EXIT; return MONITOR_NOT_RECORDING; case TIMEOUT_EXIT: tvso.r = R_TIMEOUT_EXIT; return MONITOR_NOT_RECORDING; case DEEP_BAIL_EXIT: tvso.r = R_DEEP_BAIL_EXIT; return MONITOR_NOT_RECORDING; case STATUS_EXIT: tvso.r = R_STATUS_EXIT; return MONITOR_NOT_RECORDING; #endif default: /* * No, this was an unusual exit (i.e. out of memory/GC), so just resume * interpretation. */ #ifdef MOZ_TRACEVIS tvso.r = R_OTHER_EXIT; #endif return MONITOR_NOT_RECORDING; } } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::monitorRecording(JSOp op) { TraceMonitor &localtm = JS_TRACE_MONITOR(cx); debug_only_stmt( JSContext *localcx = cx; ) /* Process needFlush requests now. */ if (localtm.needFlush) { ResetJIT(cx, FR_DEEP_BAIL); return ARECORD_ABORTED; } JS_ASSERT(!fragment->lastIns); /* * Clear one-shot state used to communicate between record_JSOP_CALL and post- * opcode-case-guts record hook (record_NativeCallComplete). */ pendingSpecializedNative = NULL; newobj_ins = NULL; /* Handle one-shot request from finishGetProp or INSTANCEOF to snapshot post-op state and guard. */ if (pendingGuardCondition) { guard(true, pendingGuardCondition, STATUS_EXIT); pendingGuardCondition = NULL; } /* Handle one-shot request to unbox the result of a property get. */ if (pendingUnboxSlot) { LIns* val_ins = get(pendingUnboxSlot); /* * We need to know from where to unbox the value. Since pendingUnboxSlot * is only set in finishGetProp, we can depend on LIns* tracked for * pendingUnboxSlot to have this information. */ LIns* unboxed_ins = unbox_value(*pendingUnboxSlot, val_ins->oprnd1(), val_ins->disp(), snapshot(BRANCH_EXIT)); set(pendingUnboxSlot, unboxed_ins); pendingUnboxSlot = 0; } debug_only_stmt( if (LogController.lcbits & LC_TMRecorder) { js_Disassemble1(cx, cx->fp()->script(), cx->regs->pc, cx->fp()->hasImacropc() ? 0 : cx->regs->pc - cx->fp()->script()->code, !cx->fp()->hasImacropc(), stdout); } ) /* * If op is not a break or a return from a loop, continue recording and * follow the trace. We check for imacro-calling bytecodes inside each * switch case to resolve the if (JSOP_IS_IMACOP(x)) conditions at compile * time. */ AbortableRecordingStatus status; #ifdef DEBUG bool wasInImacro = (cx->fp()->hasImacropc()); #endif switch (op) { default: AbortRecording(cx, "unsupported opcode"); status = ARECORD_ERROR; break; # define OPDEF(x,val,name,token,length,nuses,ndefs,prec,format) \ case x: \ status = this->record_##x(); \ break; # include "jsopcode.tbl" # undef OPDEF } /* N.B. |this| may have been deleted. */ if (!JSOP_IS_IMACOP(op)) { JS_ASSERT(status != ARECORD_IMACRO); JS_ASSERT_IF(!wasInImacro, !localcx->fp()->hasImacropc()); } if (localtm.recorder) { JS_ASSERT(status != ARECORD_ABORTED); JS_ASSERT(localtm.recorder == this); /* |this| recorder completed, but a new one started; keep recording. */ if (status == ARECORD_COMPLETED) return ARECORD_CONTINUE; /* Handle lazy aborts; propagate the 'error' status. */ if (StatusAbortsRecorderIfActive(status)) { AbortRecording(cx, js_CodeName[op]); return status == ARECORD_ERROR ? ARECORD_ERROR : ARECORD_ABORTED; } if (outOfMemory() || OverfullJITCache(&localtm)) { ResetJIT(cx, FR_OOM); /* * If the status returned was ARECORD_IMACRO, then we just * changed cx->regs, we need to tell the interpreter to sync * its local variables. */ return status == ARECORD_IMACRO ? ARECORD_IMACRO_ABORTED : ARECORD_ABORTED; } } else { JS_ASSERT(status == ARECORD_COMPLETED || status == ARECORD_ABORTED || status == ARECORD_ERROR); } return status; } JS_REQUIRES_STACK void AbortRecording(JSContext* cx, const char* reason) { #ifdef DEBUG JS_ASSERT(TRACE_RECORDER(cx)); TRACE_RECORDER(cx)->finishAbort(reason); #else TRACE_RECORDER(cx)->finishAbort("[no reason]"); #endif } #if defined NANOJIT_IA32 static bool CheckForSSE2() { char *c = getenv("X86_FORCE_SSE2"); if (c) return (!strcmp(c, "true") || !strcmp(c, "1") || !strcmp(c, "yes")); int features = 0; #if defined _MSC_VER __asm { pushad mov eax, 1 cpuid mov features, edx popad } #elif defined __GNUC__ asm("xchg %%esi, %%ebx\n" /* we can't clobber ebx on gcc (PIC register) */ "mov $0x01, %%eax\n" "cpuid\n" "mov %%edx, %0\n" "xchg %%esi, %%ebx\n" : "=m" (features) : /* We have no inputs */ : "%eax", "%esi", "%ecx", "%edx" ); #elif defined __SUNPRO_C || defined __SUNPRO_CC asm("push %%ebx\n" "mov $0x01, %%eax\n" "cpuid\n" "pop %%ebx\n" : "=d" (features) : /* We have no inputs */ : "%eax", "%ecx" ); #endif return (features & (1<<26)) != 0; } #endif #if defined(NANOJIT_ARM) #if defined(_MSC_VER) && defined(WINCE) // these come in from jswince.asm extern "C" int js_arm_try_armv5_op(); extern "C" int js_arm_try_armv6_op(); extern "C" int js_arm_try_armv7_op(); extern "C" int js_arm_try_vfp_op(); static unsigned int arm_check_arch() { unsigned int arch = 4; __try { js_arm_try_armv5_op(); arch = 5; js_arm_try_armv6_op(); arch = 6; js_arm_try_armv7_op(); arch = 7; } __except(GetExceptionCode() == EXCEPTION_ILLEGAL_INSTRUCTION) { } return arch; } static bool arm_check_vfp() { #ifdef WINCE_WINDOWS_MOBILE return false; #else bool ret = false; __try { js_arm_try_vfp_op(); ret = true; } __except(GetExceptionCode() == EXCEPTION_ILLEGAL_INSTRUCTION) { ret = false; } return ret; #endif } #define HAVE_ENABLE_DISABLE_DEBUGGER_EXCEPTIONS 1 /* See "Suppressing Exception Notifications while Debugging", at * http://msdn.microsoft.com/en-us/library/ms924252.aspx */ static void disable_debugger_exceptions() { // 2 == TLSSLOT_KERNEL DWORD kctrl = (DWORD) TlsGetValue(2); // 0x12 = TLSKERN_NOFAULT | TLSKERN_NOFAULTMSG kctrl |= 0x12; TlsSetValue(2, (LPVOID) kctrl); } static void enable_debugger_exceptions() { // 2 == TLSSLOT_KERNEL DWORD kctrl = (DWORD) TlsGetValue(2); // 0x12 = TLSKERN_NOFAULT | TLSKERN_NOFAULTMSG kctrl &= ~0x12; TlsSetValue(2, (LPVOID) kctrl); } #elif defined(__GNUC__) && defined(AVMPLUS_LINUX) // Assume ARMv4 by default. static unsigned int arm_arch = 4; static bool arm_has_vfp = false; static bool arm_has_neon = false; static bool arm_has_iwmmxt = false; static bool arm_tests_initialized = false; #ifdef ANDROID // we're actually reading /proc/cpuinfo, but oh well static void arm_read_auxv() { char buf[1024]; char* pos; const char* ver_token = "CPU architecture: "; FILE* f = fopen("/proc/cpuinfo", "r"); fread(buf, sizeof(char), 1024, f); fclose(f); pos = strstr(buf, ver_token); if (pos) { int ver = *(pos + strlen(ver_token)) - '0'; arm_arch = ver; } arm_has_neon = strstr(buf, "neon") != NULL; arm_has_vfp = strstr(buf, "vfp") != NULL; arm_has_iwmmxt = strstr(buf, "iwmmxt") != NULL; arm_tests_initialized = true; } #else static void arm_read_auxv() { int fd; Elf32_auxv_t aux; fd = open("/proc/self/auxv", O_RDONLY); if (fd > 0) { while (read(fd, &aux, sizeof(Elf32_auxv_t))) { if (aux.a_type == AT_HWCAP) { uint32_t hwcap = aux.a_un.a_val; if (getenv("ARM_FORCE_HWCAP")) hwcap = strtoul(getenv("ARM_FORCE_HWCAP"), NULL, 0); else if (getenv("_SBOX_DIR")) continue; // Ignore the rest, if we're running in scratchbox // hardcode these values to avoid depending on specific versions // of the hwcap header, e.g. HWCAP_NEON arm_has_vfp = (hwcap & 64) != 0; arm_has_iwmmxt = (hwcap & 512) != 0; // this flag is only present on kernel 2.6.29 arm_has_neon = (hwcap & 4096) != 0; } else if (aux.a_type == AT_PLATFORM) { const char *plat = (const char*) aux.a_un.a_val; if (getenv("ARM_FORCE_PLATFORM")) plat = getenv("ARM_FORCE_PLATFORM"); else if (getenv("_SBOX_DIR")) continue; // Ignore the rest, if we're running in scratchbox // The platform string has the form "v[0-9][lb]". The "l" or "b" indicate little- // or big-endian variants and the digit indicates the version of the platform. // We can only accept ARMv4 and above, but allow anything up to ARMv9 for future // processors. Architectures newer than ARMv7 are assumed to be // backwards-compatible with ARMv7. if ((plat[0] == 'v') && (plat[1] >= '4') && (plat[1] <= '9') && ((plat[2] == 'l') || (plat[2] == 'b'))) { arm_arch = plat[1] - '0'; } } } close (fd); // if we don't have 2.6.29, we have to do this hack; set // the env var to trust HWCAP. if (!getenv("ARM_TRUST_HWCAP") && (arm_arch >= 7)) arm_has_neon = true; } arm_tests_initialized = true; } #endif static unsigned int arm_check_arch() { if (!arm_tests_initialized) arm_read_auxv(); return arm_arch; } static bool arm_check_vfp() { if (!arm_tests_initialized) arm_read_auxv(); return arm_has_vfp; } #else #warning Not sure how to check for architecture variant on your platform. Assuming ARMv4. static unsigned int arm_check_arch() { return 4; } static bool arm_check_vfp() { return false; } #endif #ifndef HAVE_ENABLE_DISABLE_DEBUGGER_EXCEPTIONS static void enable_debugger_exceptions() { } static void disable_debugger_exceptions() { } #endif #endif /* NANOJIT_ARM */ #define K *1024 #define M K K #define G K M void SetMaxCodeCacheBytes(JSContext* cx, uint32 bytes) { TraceMonitor* tm = &JS_THREAD_DATA(cx)->traceMonitor; JS_ASSERT(tm->codeAlloc && tm->dataAlloc && tm->traceAlloc); if (bytes > 1 G) bytes = 1 G; if (bytes < 128 K) bytes = 128 K; tm->maxCodeCacheBytes = bytes; } void InitJIT(TraceMonitor *tm) { #if defined JS_JIT_SPEW tm->profAlloc = NULL; /* Set up debug logging. */ if (!did_we_set_up_debug_logging) { InitJITLogController(); did_we_set_up_debug_logging = true; } /* Set up fragprofiling, if required. */ if (LogController.lcbits & LC_FragProfile) { tm->profAlloc = new VMAllocator(); tm->profTab = new (*tm->profAlloc) FragStatsMap(*tm->profAlloc); } tm->lastFragID = 0; #else PodZero(&LogController); #endif if (!did_we_check_processor_features) { #if defined NANOJIT_IA32 avmplus::AvmCore::config.i386_use_cmov = avmplus::AvmCore::config.i386_sse2 = CheckForSSE2(); avmplus::AvmCore::config.i386_fixed_esp = true; #endif #if defined NANOJIT_ARM disable_debugger_exceptions(); bool arm_vfp = arm_check_vfp(); unsigned int arm_arch = arm_check_arch(); enable_debugger_exceptions(); avmplus::AvmCore::config.arm_vfp = arm_vfp; avmplus::AvmCore::config.soft_float = !arm_vfp; avmplus::AvmCore::config.arm_arch = arm_arch; // Sanity-check the configuration detection. // * We don't understand architectures prior to ARMv4. JS_ASSERT(arm_arch >= 4); #endif did_we_check_processor_features = true; } /* Set the default size for the code cache to 16MB. */ tm->maxCodeCacheBytes = 16 M; tm->oracle = new Oracle(); tm->recordAttempts = new RecordAttemptMap; if (!tm->recordAttempts->init(PC_HASH_COUNT)) abort(); JS_ASSERT(!tm->dataAlloc && !tm->traceAlloc && !tm->codeAlloc); tm->dataAlloc = new VMAllocator(); tm->traceAlloc = new VMAllocator(); tm->tempAlloc = new VMAllocator(); tm->reTempAlloc = new VMAllocator(); tm->codeAlloc = new CodeAlloc(); tm->frameCache = new FrameInfoCache(tm->dataAlloc); tm->storage = new TraceNativeStorage(); tm->cachedTempTypeMap = new TypeMap(0); tm->flush(); verbose_only( tm->branches = NULL; ) #if !defined XP_WIN debug_only(PodZero(&jitstats)); #endif #ifdef JS_JIT_SPEW /* Architecture properties used by test cases. */ jitstats.archIsIA32 = 0; jitstats.archIs64BIT = 0; jitstats.archIsARM = 0; jitstats.archIsSPARC = 0; jitstats.archIsPPC = 0; #if defined NANOJIT_IA32 jitstats.archIsIA32 = 1; #endif #if defined NANOJIT_64BIT jitstats.archIs64BIT = 1; #endif #if defined NANOJIT_ARM jitstats.archIsARM = 1; #endif #if defined NANOJIT_SPARC jitstats.archIsSPARC = 1; #endif #if defined NANOJIT_PPC jitstats.archIsPPC = 1; #endif #if defined NANOJIT_X64 jitstats.archIsAMD64 = 1; #endif #endif } void FinishJIT(TraceMonitor *tm) { JS_ASSERT(!tm->recorder); #ifdef JS_JIT_SPEW if (jitstats.recorderStarted) { char sep = ':'; debug_only_print0(LC_TMStats, "recorder"); #define RECORDER_JITSTAT(_ident, _name) \ debug_only_printf(LC_TMStats, "%c " _name "(%llu)", sep, \ (unsigned long long int)jitstats._ident); \ sep = ','; #define JITSTAT(x) /* nothing */ #include "jitstats.tbl" #undef JITSTAT #undef RECORDER_JITSTAT debug_only_print0(LC_TMStats, "\n"); sep = ':'; debug_only_print0(LC_TMStats, "monitor"); #define MONITOR_JITSTAT(_ident, _name) \ debug_only_printf(LC_TMStats, "%c " _name "(%llu)", sep, \ (unsigned long long int)jitstats._ident); \ sep = ','; #define JITSTAT(x) /* nothing */ #include "jitstats.tbl" #undef JITSTAT #undef MONITOR_JITSTAT debug_only_print0(LC_TMStats, "\n"); } #endif delete tm->recordAttempts; delete tm->oracle; #ifdef DEBUG // Recover profiling data from expiring Fragments, and display // final results. if (LogController.lcbits & LC_FragProfile) { for (Seq* f = tm->branches; f; f = f->tail) { FragProfiling_FragFinalizer(f->head, tm); } for (size_t i = 0; i < FRAGMENT_TABLE_SIZE; ++i) { for (TreeFragment *f = tm->vmfragments[i]; f; f = f->next) { JS_ASSERT(f->root == f); for (TreeFragment *p = f; p; p = p->peer) FragProfiling_FragFinalizer(p, tm); } } REHashMap::Iter iter(*(tm->reFragments)); while (iter.next()) { VMFragment* frag = (VMFragment*)iter.value(); FragProfiling_FragFinalizer(frag, tm); } FragProfiling_showResults(tm); delete tm->profAlloc; } else { NanoAssert(!tm->profTab); NanoAssert(!tm->profAlloc); } #endif PodArrayZero(tm->vmfragments); if (tm->frameCache) { delete tm->frameCache; tm->frameCache = NULL; } if (tm->codeAlloc) { delete tm->codeAlloc; tm->codeAlloc = NULL; } if (tm->dataAlloc) { delete tm->dataAlloc; tm->dataAlloc = NULL; } if (tm->traceAlloc) { delete tm->traceAlloc; tm->traceAlloc = NULL; } if (tm->tempAlloc) { delete tm->tempAlloc; tm->tempAlloc = NULL; } if (tm->reTempAlloc) { delete tm->reTempAlloc; tm->reTempAlloc = NULL; } if (tm->storage) { delete tm->storage; tm->storage = NULL; } delete tm->cachedTempTypeMap; tm->cachedTempTypeMap = NULL; } JS_REQUIRES_STACK void PurgeScriptFragments(JSContext* cx, JSScript* script) { debug_only_printf(LC_TMTracer, "Purging fragments for JSScript %p.\n", (void*)script); TraceMonitor* tm = &JS_TRACE_MONITOR(cx); for (size_t i = 0; i < FRAGMENT_TABLE_SIZE; ++i) { TreeFragment** fragp = &tm->vmfragments[i]; while (TreeFragment* frag = *fragp) { if (JS_UPTRDIFF(frag->ip, script->code) < script->length) { /* This fragment is associated with the script. */ debug_only_printf(LC_TMTracer, "Disconnecting TreeFragment %p " "with ip %p, in range [%p,%p).\n", (void*)frag, frag->ip, script->code, script->code + script->length); JS_ASSERT(frag->root == frag); *fragp = frag->next; do { verbose_only( FragProfiling_FragFinalizer(frag, tm); ) TrashTree(cx, frag); } while ((frag = frag->peer) != NULL); continue; } fragp = &frag->next; } } RecordAttemptMap &table = *tm->recordAttempts; for (RecordAttemptMap::Enum e(table); !e.empty(); e.popFront()) { if (JS_UPTRDIFF(e.front().key, script->code) < script->length) e.removeFront(); } } bool OverfullJITCache(TraceMonitor* tm) { /* * You might imagine the outOfMemory flag on the allocator is sufficient * to model the notion of "running out of memory", but there are actually * two separate issues involved: * * 1. The process truly running out of memory: malloc() or mmap() * failed. * * 2. The limit we put on the "intended size" of the tracemonkey code * cache, in pages, has been exceeded. * * Condition 1 doesn't happen very often, but we're obliged to try to * safely shut down and signal the rest of spidermonkey when it * does. Condition 2 happens quite regularly. * * Presently, the code in this file doesn't check the outOfMemory condition * often enough, and frequently misuses the unchecked results of * lirbuffer insertions on the asssumption that it will notice the * outOfMemory flag "soon enough" when it returns to the monitorRecording * function. This turns out to be a false assumption if we use outOfMemory * to signal condition 2: we regularly provoke "passing our intended * size" and regularly fail to notice it in time to prevent writing * over the end of an artificially self-limited LIR buffer. * * To mitigate, though not completely solve, this problem, we're * modeling the two forms of memory exhaustion *separately* for the * time being: condition 1 is handled by the outOfMemory flag inside * nanojit, and condition 2 is being handled independently *here*. So * we construct our allocators to use all available memory they like, * and only report outOfMemory to us when there is literally no OS memory * left. Merely purging our cache when we hit our highwater mark is * handled by the (few) callers of this function. * */ jsuint maxsz = tm->maxCodeCacheBytes; VMAllocator *dataAlloc = tm->dataAlloc; VMAllocator *traceAlloc = tm->traceAlloc; CodeAlloc *codeAlloc = tm->codeAlloc; return (codeAlloc->size() + dataAlloc->size() + traceAlloc->size() > maxsz); } JS_FORCES_STACK JS_FRIEND_API(void) DeepBail(JSContext *cx) { JS_ASSERT(JS_ON_TRACE(cx)); /* * Exactly one context on the current thread is on trace. Find out which * one. (Most callers cannot guarantee that it's cx.) */ TraceMonitor *tm = &JS_TRACE_MONITOR(cx); JSContext *tracecx = tm->tracecx; /* It's a bug if a non-FAIL_STATUS builtin gets here. */ JS_ASSERT(tracecx->bailExit); tm->tracecx = NULL; debug_only_print0(LC_TMTracer, "Deep bail.\n"); LeaveTree(tm, *tracecx->tracerState, tracecx->bailExit); tracecx->bailExit = NULL; TracerState* state = tracecx->tracerState; state->builtinStatus |= BUILTIN_BAILED; /* * Between now and the LeaveTree in ExecuteTree, |tm->storage| may be reused * if another trace executes before the currently executing native returns. * However, all such traces will complete by the time the currently * executing native returns and the return value is written to the native * stack. After that point, no traces may execute until the LeaveTree in * ExecuteTree, hence the invariant is maintained that only one trace uses * |tm->storage| at a time. */ state->deepBailSp = state->sp; } JS_REQUIRES_STACK Value& TraceRecorder::argval(unsigned n) const { JS_ASSERT(n < cx->fp()->numFormalArgs()); return cx->fp()->formalArg(n); } JS_REQUIRES_STACK Value& TraceRecorder::varval(unsigned n) const { JS_ASSERT(n < cx->fp()->numSlots()); return cx->fp()->slots()[n]; } JS_REQUIRES_STACK Value& TraceRecorder::stackval(int n) const { return cx->regs->sp[n]; } JS_REQUIRES_STACK void TraceRecorder::updateAtoms() { JSScript *script = cx->fp()->script(); atoms = FrameAtomBase(cx, cx->fp()); consts = cx->fp()->hasImacropc() || script->constOffset == 0 ? 0 : script->consts()->vector; strictModeCode_ins = addName(lir->insImmI(script->strictModeCode), "strict"); } JS_REQUIRES_STACK void TraceRecorder::updateAtoms(JSScript *script) { atoms = script->atomMap.vector; consts = script->constOffset == 0 ? 0 : script->consts()->vector; strictModeCode_ins = addName(lir->insImmI(script->strictModeCode), "strict"); } /* * Generate LIR to compute the scope chain. */ JS_REQUIRES_STACK LIns* TraceRecorder::scopeChain() { return cx->fp()->isFunctionFrame() ? getFrameObjPtr(cx->fp()->addressOfScopeChain()) : entryScopeChain(); } /* * Generate LIR to compute the scope chain on entry to the trace. This is * generally useful only for getting to the global object, because only * the global object is guaranteed to be present. */ JS_REQUIRES_STACK LIns* TraceRecorder::entryScopeChain() const { return lir->insLoad(LIR_ldp, entryFrameIns(), JSStackFrame::offsetOfScopeChain(), ACCSET_OTHER); } /* * Generate LIR to compute the stack frame on entry to the trace. */ JS_REQUIRES_STACK LIns* TraceRecorder::entryFrameIns() const { LIns *regs_ins = lir->insLoad(LIR_ldp, cx_ins, offsetof(JSContext, regs), ACCSET_OTHER); return lir->insLoad(LIR_ldp, regs_ins, offsetof(JSFrameRegs, fp), ACCSET_OTHER); } /* * Return the frame of a call object if that frame is part of the current * trace. |depthp| is an optional outparam: if it is non-null, it will be * filled in with the depth of the call object's frame relevant to cx->fp(). */ JS_REQUIRES_STACK JSStackFrame* TraceRecorder::frameIfInRange(JSObject* obj, unsigned* depthp) const { JSStackFrame* ofp = (JSStackFrame*) obj->getPrivate(); JSStackFrame* fp = cx->fp(); for (unsigned depth = 0; depth <= callDepth; ++depth) { if (fp == ofp) { if (depthp) *depthp = depth; return ofp; } if (!(fp = fp->prev())) break; } return NULL; } JS_DEFINE_CALLINFO_4(extern, UINT32, GetClosureVar, CONTEXT, OBJECT, CVIPTR, DOUBLEPTR, 0, ACCSET_STORE_ANY) JS_DEFINE_CALLINFO_4(extern, UINT32, GetClosureArg, CONTEXT, OBJECT, CVIPTR, DOUBLEPTR, 0, ACCSET_STORE_ANY) /* * Search the scope chain for a property lookup operation at the current PC and * generate LIR to access the given property. Return RECORD_CONTINUE on success, * otherwise abort and return RECORD_STOP. There are 3 outparams: * * vp the address of the current property value * ins LIR instruction representing the property value on trace * NameResult describes how to look up name; see comment for NameResult in jstracer.h */ JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::scopeChainProp(JSObject* chainHead, Value*& vp, LIns*& ins, NameResult& nr) { JS_ASSERT(chainHead == &cx->fp()->scopeChain()); JS_ASSERT(chainHead != globalObj); TraceMonitor &localtm = *traceMonitor; JSAtom* atom = atoms[GET_INDEX(cx->regs->pc)]; JSObject* obj2; JSProperty* prop; JSObject *obj = chainHead; if (!js_FindProperty(cx, ATOM_TO_JSID(atom), &obj, &obj2, &prop)) RETURN_ERROR_A("error in js_FindProperty"); /* js_FindProperty can reenter the interpreter and kill |this|. */ if (!localtm.recorder) return ARECORD_ABORTED; if (!prop) RETURN_STOP_A("failed to find name in non-global scope chain"); if (obj == globalObj) { // Even if the property is on the global object, we must guard against // the creation of properties that shadow the property in the middle // of the scope chain. LIns *head_ins; if (cx->fp()->isFunctionFrame()) { // Skip any Call object when inside a function. Any reference to a // Call name the compiler resolves statically and we do not need // to match shapes of the Call objects. chainHead = cx->fp()->callee().getParent(); head_ins = stobj_get_parent(get(&cx->fp()->calleeValue())); } else { head_ins = scopeChain(); } LIns *obj_ins; CHECK_STATUS_A(traverseScopeChain(chainHead, head_ins, obj, obj_ins)); if (obj2 != obj) { obj2->dropProperty(cx, prop); RETURN_STOP_A("prototype property"); } Shape* shape = (Shape*) prop; if (!isValidSlot(obj, shape)) { JS_UNLOCK_OBJ(cx, obj2); return ARECORD_STOP; } if (!lazilyImportGlobalSlot(shape->slot)) { JS_UNLOCK_OBJ(cx, obj2); RETURN_STOP_A("lazy import of global slot failed"); } vp = &obj->getSlotRef(shape->slot); ins = get(vp); JS_UNLOCK_OBJ(cx, obj2); nr.tracked = true; return ARECORD_CONTINUE; } if (obj == obj2 && obj->isCall()) { AbortableRecordingStatus status = InjectStatus(callProp(obj, prop, ATOM_TO_JSID(atom), vp, ins, nr)); JS_UNLOCK_OBJ(cx, obj); return status; } obj2->dropProperty(cx, prop); RETURN_STOP_A("fp->scopeChain is not global or active call object"); } /* * Generate LIR to access a property of a Call object. */ JS_REQUIRES_STACK RecordingStatus TraceRecorder::callProp(JSObject* obj, JSProperty* prop, jsid id, Value*& vp, LIns*& ins, NameResult& nr) { Shape *shape = (Shape*) prop; JSOp op = JSOp(*cx->regs->pc); uint32 setflags = (js_CodeSpec[op].format & (JOF_SET | JOF_INCDEC | JOF_FOR)); if (setflags && !shape->writable()) RETURN_STOP("writing to a read-only property"); uintN slot = uint16(shape->shortid); vp = NULL; JSStackFrame* cfp = (JSStackFrame*) obj->getPrivate(); if (cfp) { if (shape->getterOp() == js_GetCallArg) { JS_ASSERT(slot < cfp->numFormalArgs()); vp = &cfp->formalArg(slot); nr.v = *vp; } else if (shape->getterOp() == js_GetCallVar || shape->getterOp() == js_GetCallVarChecked) { JS_ASSERT(slot < cfp->numSlots()); vp = &cfp->slots()[slot]; nr.v = *vp; } else { RETURN_STOP("dynamic property of Call object"); } // Now assert that our use of shape->shortid was in fact kosher. JS_ASSERT(shape->hasShortID()); if (frameIfInRange(obj)) { // At this point we are guaranteed to be looking at an active call oject // whose properties are stored in the corresponding JSStackFrame. ins = get(vp); nr.tracked = true; return RECORD_CONTINUE; } } else { // Call objects do not yet have shape->isMethod() properties, but they // should. See bug 514046, for which this code is future-proof. Remove // this comment when that bug is fixed (so, FIXME: 514046). #ifdef DEBUG JSBool rv = #endif js_GetPropertyHelper(cx, obj, shape->id, (op == JSOP_CALLNAME) ? JSGET_NO_METHOD_BARRIER : JSGET_METHOD_BARRIER, &nr.v); JS_ASSERT(rv); } LIns* obj_ins; JSObject* parent = cx->fp()->callee().getParent(); LIns* parent_ins = stobj_get_parent(get(&cx->fp()->calleeValue())); CHECK_STATUS(traverseScopeChain(parent, parent_ins, obj, obj_ins)); if (!cfp) { // Because the parent guard in guardCallee ensures this Call object // will be the same object now and on trace, and because once a Call // object loses its frame it never regains one, on trace we will also // have a null private in the Call object. So all we need to do is // write the value to the Call object's slot. if (shape->getterOp() == js_GetCallArg) { JS_ASSERT(slot < ArgClosureTraits::slot_count(obj)); slot += ArgClosureTraits::slot_offset(obj); } else if (shape->getterOp() == js_GetCallVar || shape->getterOp() == js_GetCallVarChecked) { JS_ASSERT(slot < VarClosureTraits::slot_count(obj)); slot += VarClosureTraits::slot_offset(obj); } else { RETURN_STOP("dynamic property of Call object"); } // Now assert that our use of shape->shortid was in fact kosher. JS_ASSERT(shape->hasShortID()); ins = unbox_slot(obj, obj_ins, slot, snapshot(BRANCH_EXIT)); } else { ClosureVarInfo* cv = new (traceAlloc()) ClosureVarInfo(); cv->slot = slot; #ifdef DEBUG cv->callDepth = callDepth; #endif // Even though the frame is out of range, later we might be called as an // inner trace such that the target variable is defined in the outer trace // entry frame. For simplicity, we just fall off trace. guard(false, lir->ins2(LIR_eqp, entryFrameIns(), stobj_get_private(obj_ins)), MISMATCH_EXIT); LIns* outp = lir->insAlloc(sizeof(double)); LIns* args[] = { outp, INS_CONSTPTR(cv), obj_ins, cx_ins }; const CallInfo* ci; if (shape->getterOp() == js_GetCallArg) { ci = &GetClosureArg_ci; } else if (shape->getterOp() == js_GetCallVar || shape->getterOp() == js_GetCallVarChecked) { ci = &GetClosureVar_ci; } else { RETURN_STOP("dynamic property of Call object"); } // Now assert that our use of shape->shortid was in fact kosher. JS_ASSERT(shape->hasShortID()); LIns* call_ins = lir->insCall(ci, args); JSValueType type = getCoercedType(nr.v); guard(true, addName(lir->ins2(LIR_eqi, call_ins, lir->insImmI(type)), "guard(type-stable name access)"), BRANCH_EXIT); ins = stackLoad(outp, ACCSET_OTHER, type); } nr.tracked = false; nr.obj = obj; nr.obj_ins = obj_ins; nr.shape = shape; return RECORD_CONTINUE; } JS_REQUIRES_STACK LIns* TraceRecorder::arg(unsigned n) { return get(&argval(n)); } JS_REQUIRES_STACK void TraceRecorder::arg(unsigned n, LIns* i) { set(&argval(n), i); } JS_REQUIRES_STACK LIns* TraceRecorder::var(unsigned n) { return get(&varval(n)); } JS_REQUIRES_STACK void TraceRecorder::var(unsigned n, LIns* i) { set(&varval(n), i); } JS_REQUIRES_STACK LIns* TraceRecorder::stack(int n) { return get(&stackval(n)); } JS_REQUIRES_STACK void TraceRecorder::stack(int n, LIns* i) { set(&stackval(n), i); } JS_REQUIRES_STACK LIns* TraceRecorder::alu(LOpcode v, jsdouble v0, jsdouble v1, LIns* s0, LIns* s1) { /* * To even consider this operation for demotion, both operands have to be * integers and the oracle must not give us a negative hint for the * instruction. */ if (!oracle || oracle->isInstructionUndemotable(cx->regs->pc) || !isPromoteInt(s0) || !isPromoteInt(s1)) { out: if (v == LIR_modd) { LIns* args[] = { s1, s0 }; return lir->insCall(&js_dmod_ci, args); } LIns* result = lir->ins2(v, s0, s1); JS_ASSERT_IF(s0->isImmD() && s1->isImmD(), result->isImmD()); return result; } jsdouble r; switch (v) { case LIR_addd: r = v0 + v1; break; case LIR_subd: r = v0 - v1; break; case LIR_muld: r = v0 * v1; if (r == 0.0) goto out; break; #if defined NANOJIT_IA32 || defined NANOJIT_X64 case LIR_divd: if (v1 == 0) goto out; r = v0 / v1; break; case LIR_modd: if (v0 < 0 || v1 == 0 || (s1->isImmD() && v1 < 0)) goto out; r = js_dmod(v0, v1); break; #endif default: goto out; } /* * The result must be an integer at record time, otherwise there is no * point in trying to demote it. */ if (jsint(r) != r || JSDOUBLE_IS_NEGZERO(r)) goto out; LIns* d0 = demote(lir, s0); LIns* d1 = demote(lir, s1); /* * Speculatively emit an integer operation, betting that at runtime we * will get integer results again. */ VMSideExit* exit = NULL; LIns* result; switch (v) { #if defined NANOJIT_IA32 || defined NANOJIT_X64 case LIR_divd: if (d0->isImmI() && d1->isImmI()) return lir->ins1(LIR_i2d, lir->insImmI(jsint(r))); exit = snapshot(OVERFLOW_EXIT); /* * If the divisor is greater than zero its always safe to execute * the division. If not, we have to make sure we are not running * into -2147483648 / -1, because it can raise an overflow exception. */ if (!d1->isImmI()) { LIns* gt = lir->insBranch(LIR_jt, lir->ins2ImmI(LIR_gti, d1, 0), NULL); guard(false, lir->insEqI_0(d1), exit); guard(false, lir->ins2(LIR_andi, lir->ins2ImmI(LIR_eqi, d0, 0x80000000), lir->ins2ImmI(LIR_eqi, d1, -1)), exit); gt->setTarget(lir->ins0(LIR_label)); } else { if (d1->immI() == -1) guard(false, lir->ins2ImmI(LIR_eqi, d0, 0x80000000), exit); } result = lir->ins2(v = LIR_divi, d0, d1); /* As long as the modulus is zero, the result is an integer. */ guard(true, lir->insEqI_0(lir->ins1(LIR_modi, result)), exit); /* Don't lose a -0. */ guard(false, lir->insEqI_0(result), exit); break; case LIR_modd: { if (d0->isImmI() && d1->isImmI()) return lir->ins1(LIR_i2d, lir->insImmI(jsint(r))); exit = snapshot(OVERFLOW_EXIT); /* Make sure we don't trigger division by zero at runtime. */ if (!d1->isImmI()) guard(false, lir->insEqI_0(d1), exit); result = lir->ins1(v = LIR_modi, lir->ins2(LIR_divi, d0, d1)); /* If the result is not 0, it is always within the integer domain. */ LIns* branch = lir->insBranch(LIR_jf, lir->insEqI_0(result), NULL); /* * If the result is zero, we must exit if the lhs is negative since * the result is -0 in this case, which is not in the integer domain. */ guard(false, lir->ins2ImmI(LIR_lti, d0, 0), exit); branch->setTarget(lir->ins0(LIR_label)); break; } #endif default: v = arithOpcodeD2I(v); JS_ASSERT(v == LIR_addi || v == LIR_muli || v == LIR_subi); /* * If the operands guarantee that the result will be an integer (e.g. * z = x * y with 0 <= (x|y) <= 0xffff guarantees z <= fffe0001), we * don't have to guard against an overflow. Otherwise we emit a guard * that will inform the oracle and cause a non-demoted trace to be * attached that uses floating-point math for this operation. */ bool needsOverflowCheck = true, needsNegZeroCheck = true; ChecksRequired(v, d0, d1, &needsOverflowCheck, &needsNegZeroCheck); if (needsOverflowCheck) { exit = snapshot(OVERFLOW_EXIT); result = guard_xov(v, d0, d1, exit); } else { result = lir->ins2(v, d0, d1); } if (needsNegZeroCheck) { // make sure we don't lose a -0 JS_ASSERT(v == LIR_muli); if (!exit) exit = snapshot(OVERFLOW_EXIT); guard(false, lir->insEqI_0(result), exit); } break; } JS_ASSERT_IF(d0->isImmI() && d1->isImmI(), result->isImmI() && result->immI() == jsint(r)); return lir->ins1(LIR_i2d, result); } LIns* TraceRecorder::i2d(LIns* i) { return lir->ins1(LIR_i2d, i); } LIns* TraceRecorder::d2i(LIns* f, bool resultCanBeImpreciseIfFractional) { if (f->isImmD()) return lir->insImmI(js_DoubleToECMAInt32(f->immD())); if (isfop(f, LIR_i2d) || isfop(f, LIR_ui2d)) return foprnd1(f); if (isfop(f, LIR_addd) || isfop(f, LIR_subd)) { LIns* lhs = foprnd1(f); LIns* rhs = foprnd2(f); if (isPromote(lhs) && isPromote(rhs)) { LOpcode op = arithOpcodeD2I(f->opcode()); return lir->ins2(op, demote(lir, lhs), demote(lir, rhs)); } } if (f->isCall()) { const CallInfo* ci = f->callInfo(); if (ci == &js_UnboxDouble_ci) { #if JS_BITS_PER_WORD == 32 LIns *tag_ins = fcallarg(f, 0); LIns *payload_ins = fcallarg(f, 1); LIns* args[] = { payload_ins, tag_ins }; return lir->insCall(&js_UnboxInt32_ci, args); #else LIns* val_ins = fcallarg(f, 0); LIns* args[] = { val_ins }; return lir->insCall(&js_UnboxInt32_ci, args); #endif } if (ci == &js_StringToNumber_ci) { LIns* args[] = { fcallarg(f, 1), fcallarg(f, 0) }; return lir->insCall(&js_StringToInt32_ci, args); } } return resultCanBeImpreciseIfFractional ? lir->ins1(LIR_d2i, f) : lir->insCall(&js_DoubleToInt32_ci, &f); } LIns* TraceRecorder::f2u(LIns* f) { if (f->isImmD()) return lir->insImmI(js_DoubleToECMAUint32(f->immD())); if (isfop(f, LIR_i2d) || isfop(f, LIR_ui2d)) return foprnd1(f); return lir->insCall(&js_DoubleToUint32_ci, &f); } JS_REQUIRES_STACK LIns* TraceRecorder::makeNumberInt32(LIns* f) { JS_ASSERT(f->isD()); LIns* x; if (!isPromote(f)) { // This means "convert double to int if it's integral, otherwise // exit". We first convert the double to an int, then convert it back // and exit if the two doubles don't match. x = d2i(f, /* resultCanBeImpreciseIfFractional = */true); guard(true, lir->ins2(LIR_eqd, f, lir->ins1(LIR_i2d, x)), MISMATCH_EXIT); } else { x = demote(lir, f); } return x; } JS_REQUIRES_STACK LIns* TraceRecorder::stringify(const Value& v) { LIns* v_ins = get(&v); if (v.isString()) return v_ins; LIns* args[] = { v_ins, cx_ins }; const CallInfo* ci; if (v.isNumber()) { ci = &js_NumberToString_ci; } else if (v.isUndefined()) { return INS_ATOM(cx->runtime->atomState.booleanAtoms[2]); } else if (v.isBoolean()) { ci = &js_BooleanIntToString_ci; } else { /* * Callers must deal with non-primitive (non-null object) values by * calling an imacro. We don't try to guess about which imacro, with * what valueOf hint, here. */ JS_ASSERT(v.isNull()); return INS_ATOM(cx->runtime->atomState.nullAtom); } v_ins = lir->insCall(ci, args); guard(false, lir->insEqP_0(v_ins), OOM_EXIT); return v_ins; } JS_REQUIRES_STACK bool TraceRecorder::canCallImacro() const { /* We cannot nest imacros. */ return !cx->fp()->hasImacropc(); } JS_REQUIRES_STACK RecordingStatus TraceRecorder::callImacro(jsbytecode* imacro) { return canCallImacro() ? callImacroInfallibly(imacro) : RECORD_STOP; } JS_REQUIRES_STACK RecordingStatus TraceRecorder::callImacroInfallibly(jsbytecode* imacro) { JSStackFrame* fp = cx->fp(); JS_ASSERT(!fp->hasImacropc()); JSFrameRegs* regs = cx->regs; fp->setImacropc(regs->pc); regs->pc = imacro; updateAtoms(); return RECORD_IMACRO; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::ifop() { Value& v = stackval(-1); LIns* v_ins = get(&v); bool cond; LIns* x; if (v.isNull() || v.isUndefined()) { cond = false; x = lir->insImmI(0); } else if (!v.isPrimitive()) { cond = true; x = lir->insImmI(1); } else if (v.isBoolean()) { /* Test for boolean is true, negate later if we are testing for false. */ cond = v.isTrue(); x = lir->ins2ImmI(LIR_eqi, v_ins, 1); } else if (v.isNumber()) { jsdouble d = v.toNumber(); cond = !JSDOUBLE_IS_NaN(d) && d; x = lir->ins2(LIR_andi, lir->ins2(LIR_eqd, v_ins, v_ins), lir->insEqI_0(lir->ins2(LIR_eqd, v_ins, lir->insImmD(0)))); } else if (v.isString()) { cond = v.toString()->length() != 0; x = getStringLength(v_ins); } else { JS_NOT_REACHED("ifop"); return ARECORD_STOP; } jsbytecode* pc = cx->regs->pc; emitIf(pc, cond, x); return checkTraceEnd(pc); } #ifdef NANOJIT_IA32 /* * Record LIR for a tableswitch or tableswitchx op. We record LIR only the * "first" time we hit the op. Later, when we start traces after exiting that * trace, we just patch. */ JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::tableswitch() { Value& v = stackval(-1); /* No need to guard if the condition can't match any of the cases. */ if (!v.isNumber()) return ARECORD_CONTINUE; /* No need to guard if the condition is constant. */ LIns* v_ins = d2i(get(&v)); if (v_ins->isImmI()) return ARECORD_CONTINUE; jsbytecode* pc = cx->regs->pc; /* Starting a new trace after exiting a trace via switch. */ if (anchor && (anchor->exitType == CASE_EXIT || anchor->exitType == DEFAULT_EXIT) && fragment->ip == pc) { return ARECORD_CONTINUE; } /* Decode jsop. */ jsint low, high; if (*pc == JSOP_TABLESWITCH) { pc += JUMP_OFFSET_LEN; low = GET_JUMP_OFFSET(pc); pc += JUMP_OFFSET_LEN; high = GET_JUMP_OFFSET(pc); } else { pc += JUMPX_OFFSET_LEN; low = GET_JUMPX_OFFSET(pc); pc += JUMPX_OFFSET_LEN; high = GET_JUMPX_OFFSET(pc); } /* * If there are no cases, this is a no-op. The default case immediately * follows in the bytecode and is always taken, so we need no special * action to handle it. */ int count = high + 1 - low; if (count == 0) return ARECORD_CONTINUE; /* Cap maximum table-switch size for modesty. */ if (count > MAX_TABLE_SWITCH) return InjectStatus(switchop()); /* Generate switch LIR. */ SwitchInfo* si = new (traceAlloc()) SwitchInfo(); si->count = count; si->table = 0; si->index = (uint32) -1; LIns* diff = lir->ins2(LIR_subi, v_ins, lir->insImmI(low)); LIns* cmp = lir->ins2(LIR_ltui, diff, lir->insImmI(si->count)); lir->insGuard(LIR_xf, cmp, createGuardRecord(snapshot(DEFAULT_EXIT))); lir->insStore(diff, lir->insImmP(&si->index), 0, ACCSET_OTHER); VMSideExit* exit = snapshot(CASE_EXIT); exit->switchInfo = si; LIns* guardIns = lir->insGuard(LIR_xtbl, diff, createGuardRecord(exit)); fragment->lastIns = guardIns; CHECK_STATUS_A(compile()); return finishSuccessfully(); } #endif JS_REQUIRES_STACK RecordingStatus TraceRecorder::switchop() { Value& v = stackval(-1); LIns* v_ins = get(&v); /* No need to guard if the condition is constant. */ if (v_ins->isImmAny()) return RECORD_CONTINUE; if (v.isNumber()) { jsdouble d = v.toNumber(); guard(true, addName(lir->ins2(LIR_eqd, v_ins, lir->insImmD(d)), "guard(switch on numeric)"), BRANCH_EXIT); } else if (v.isString()) { LIns* args[] = { INS_CONSTSTR(v.toString()), v_ins }; guard(true, addName(lir->insEqI_0(lir->insEqI_0(lir->insCall(&js_EqualStrings_ci, args))), "guard(switch on string)"), BRANCH_EXIT); } else if (v.isBoolean()) { guard(true, addName(lir->ins2(LIR_eqi, v_ins, lir->insImmI(v.isTrue())), "guard(switch on boolean)"), BRANCH_EXIT); } else if (v.isUndefined()) { // This is a unit type, so no guard is needed. } else { RETURN_STOP("switch on object or null"); } return RECORD_CONTINUE; } JS_REQUIRES_STACK RecordingStatus TraceRecorder::inc(Value& v, jsint incr, bool pre) { LIns* v_ins = get(&v); CHECK_STATUS(inc(v, v_ins, incr, pre)); set(&v, v_ins); return RECORD_CONTINUE; } /* * On exit, v_ins is the incremented unboxed value, and the appropriate value * (pre- or post-increment as described by pre) is stacked. */ JS_REQUIRES_STACK RecordingStatus TraceRecorder::inc(const Value &v, LIns*& v_ins, jsint incr, bool pre) { LIns* v_after; CHECK_STATUS(incHelper(v, v_ins, v_after, incr)); const JSCodeSpec& cs = js_CodeSpec[*cx->regs->pc]; JS_ASSERT(cs.ndefs == 1); stack(-cs.nuses, pre ? v_after : v_ins); v_ins = v_after; return RECORD_CONTINUE; } /* * Do an increment operation without storing anything to the stack. */ JS_REQUIRES_STACK RecordingStatus TraceRecorder::incHelper(const Value &v, LIns* v_ins, LIns*& v_after, jsint incr) { if (!v.isNumber()) RETURN_STOP("can only inc numbers"); v_after = alu(LIR_addd, v.toNumber(), incr, v_ins, lir->insImmD(incr)); return RECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::incProp(jsint incr, bool pre) { Value& l = stackval(-1); if (l.isPrimitive()) RETURN_STOP_A("incProp on primitive"); JSObject* obj = &l.toObject(); LIns* obj_ins = get(&l); uint32 slot; LIns* v_ins; CHECK_STATUS_A(prop(obj, obj_ins, &slot, &v_ins, NULL)); if (slot == SHAPE_INVALID_SLOT) RETURN_STOP_A("incProp on invalid slot"); Value& v = obj->getSlotRef(slot); CHECK_STATUS_A(inc(v, v_ins, incr, pre)); LIns* dslots_ins = NULL; stobj_set_slot(obj_ins, slot, dslots_ins, v, v_ins); return ARECORD_CONTINUE; } JS_REQUIRES_STACK RecordingStatus TraceRecorder::incElem(jsint incr, bool pre) { Value& r = stackval(-1); Value& l = stackval(-2); Value* vp; LIns* v_ins; LIns* addr_ins; if (!l.isPrimitive() && l.toObject().isDenseArray() && r.isInt32()) { guardDenseArray(get(&l), MISMATCH_EXIT); CHECK_STATUS(denseArrayElement(l, r, vp, v_ins, addr_ins, snapshot(BRANCH_EXIT))); if (!addr_ins) // if we read a hole, abort return RECORD_STOP; CHECK_STATUS(inc(*vp, v_ins, incr, pre)); box_value_into(*vp, v_ins, addr_ins, 0, ACCSET_OTHER); return RECORD_CONTINUE; } return callImacro((incr == 1) ? pre ? incelem_imacros.incelem : incelem_imacros.eleminc : pre ? decelem_imacros.decelem : decelem_imacros.elemdec); } static bool EvalCmp(LOpcode op, double l, double r) { bool cond; switch (op) { case LIR_eqd: cond = (l == r); break; case LIR_ltd: cond = l < r; break; case LIR_gtd: cond = l > r; break; case LIR_led: cond = l <= r; break; case LIR_ged: cond = l >= r; break; default: JS_NOT_REACHED("unexpected comparison op"); return false; } return cond; } static bool EvalCmp(LOpcode op, JSString* l, JSString* r) { if (op == LIR_eqd) return !!js_EqualStrings(l, r); return EvalCmp(op, js_CompareStrings(l, r), 0); } JS_REQUIRES_STACK void TraceRecorder::strictEquality(bool equal, bool cmpCase) { Value& r = stackval(-1); Value& l = stackval(-2); LIns* l_ins = get(&l); LIns* r_ins = get(&r); LIns* x; bool cond; JSValueType ltag = getPromotedType(l); if (ltag != getPromotedType(r)) { cond = !equal; x = lir->insImmI(cond); } else if (ltag == JSVAL_TYPE_STRING) { LIns* args[] = { r_ins, l_ins }; x = lir->ins2ImmI(LIR_eqi, lir->insCall(&js_EqualStrings_ci, args), equal); cond = !!js_EqualStrings(l.toString(), r.toString()); } else { LOpcode op; if (ltag == JSVAL_TYPE_DOUBLE) op = LIR_eqd; else if (ltag == JSVAL_TYPE_NULL || ltag == JSVAL_TYPE_NONFUNOBJ || ltag == JSVAL_TYPE_FUNOBJ) op = LIR_eqp; else op = LIR_eqi; x = lir->ins2(op, l_ins, r_ins); if (!equal) x = lir->insEqI_0(x); cond = (ltag == JSVAL_TYPE_DOUBLE) ? l.toNumber() == r.toNumber() : l == r; } cond = (cond == equal); if (cmpCase) { /* Only guard if the same path may not always be taken. */ if (!x->isImmI()) guard(cond, x, BRANCH_EXIT); return; } set(&l, x); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::equality(bool negate, bool tryBranchAfterCond) { Value& rval = stackval(-1); Value& lval = stackval(-2); LIns* l_ins = get(&lval); LIns* r_ins = get(&rval); return equalityHelper(lval, rval, l_ins, r_ins, negate, tryBranchAfterCond, lval); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::equalityHelper(Value& l, Value& r, LIns* l_ins, LIns* r_ins, bool negate, bool tryBranchAfterCond, Value& rval) { LOpcode op = LIR_eqi; bool cond; LIns* args[] = { NULL, NULL }; /* * The if chain below closely mirrors that found in 11.9.3, in general * deviating from that ordering of ifs only to account for SpiderMonkey's * conflation of booleans and undefined and for the possibility of * confusing objects and null. Note carefully the spec-mandated recursion * in the final else clause, which terminates because Number == T recurs * only if T is Object, but that must recur again to convert Object to * primitive, and ToPrimitive throws if the object cannot be converted to * a primitive value (which would terminate recursion). */ if (getPromotedType(l) == getPromotedType(r)) { if (l.isUndefined() || l.isNull()) { cond = true; if (l.isNull()) op = LIR_eqp; } else if (l.isObject()) { if (l.toObject().getClass()->ext.equality) RETURN_STOP_A("Can't trace extended class equality operator"); op = LIR_eqp; cond = (l == r); } else if (l.isBoolean()) { JS_ASSERT(r.isBoolean()); cond = (l == r); } else if (l.isString()) { JSString *l_str = l.toString(); JSString *r_str = r.toString(); if (!l_str->isRope() && !r_str->isRope() && l_str->length() == 1 && r_str->length() == 1) { VMSideExit *exit = snapshot(BRANCH_EXIT); LIns *c = INS_CONSTWORD(1); guard(true, lir->ins2(LIR_eqp, getStringLength(l_ins), c), exit); guard(true, lir->ins2(LIR_eqp, getStringLength(r_ins), c), exit); l_ins = lir->insLoad(LIR_ldus2ui, getStringChars(l_ins), 0, ACCSET_OTHER, LOAD_CONST); r_ins = lir->insLoad(LIR_ldus2ui, getStringChars(r_ins), 0, ACCSET_OTHER, LOAD_CONST); } else { args[0] = r_ins, args[1] = l_ins; l_ins = lir->insCall(&js_EqualStrings_ci, args); r_ins = lir->insImmI(1); } cond = !!js_EqualStrings(l.toString(), r.toString()); } else { JS_ASSERT(l.isNumber() && r.isNumber()); cond = (l.toNumber() == r.toNumber()); op = LIR_eqd; } } else if (l.isNull() && r.isUndefined()) { l_ins = INS_UNDEFINED(); cond = true; } else if (l.isUndefined() && r.isNull()) { r_ins = INS_UNDEFINED(); cond = true; } else if (l.isNumber() && r.isString()) { args[0] = r_ins, args[1] = cx_ins; r_ins = lir->insCall(&js_StringToNumber_ci, args); cond = (l.toNumber() == js_StringToNumber(cx, r.toString())); op = LIR_eqd; } else if (l.isString() && r.isNumber()) { args[0] = l_ins, args[1] = cx_ins; l_ins = lir->insCall(&js_StringToNumber_ci, args); cond = (js_StringToNumber(cx, l.toString()) == r.toNumber()); op = LIR_eqd; } else { // Below we may assign to l or r, which modifies the interpreter state. // This is fine as long as we also update the tracker. if (l.isBoolean()) { l_ins = i2d(l_ins); set(&l, l_ins); l.setInt32(l.isTrue()); return equalityHelper(l, r, l_ins, r_ins, negate, tryBranchAfterCond, rval); } if (r.isBoolean()) { r_ins = i2d(r_ins); set(&r, r_ins); r.setInt32(r.isTrue()); return equalityHelper(l, r, l_ins, r_ins, negate, tryBranchAfterCond, rval); } if ((l.isString() || l.isNumber()) && !r.isPrimitive()) { CHECK_STATUS_A(guardNativeConversion(r)); return InjectStatus(callImacro(equality_imacros.any_obj)); } if (!l.isPrimitive() && (r.isString() || r.isNumber())) { CHECK_STATUS_A(guardNativeConversion(l)); return InjectStatus(callImacro(equality_imacros.obj_any)); } l_ins = lir->insImmI(0); r_ins = lir->insImmI(1); cond = false; } /* If the operands aren't numbers, compare them as integers. */ LIns* x = lir->ins2(op, l_ins, r_ins); if (negate) { x = lir->insEqI_0(x); cond = !cond; } jsbytecode* pc = cx->regs->pc; /* * Don't guard if the same path is always taken. If it isn't, we have to * fuse comparisons and the following branch, because the interpreter does * that. */ if (tryBranchAfterCond) fuseIf(pc + 1, cond, x); /* * There is no need to write out the result of this comparison if the trace * ends on this operation. */ if (pc[1] == JSOP_IFNE || pc[1] == JSOP_IFEQ) CHECK_STATUS_A(checkTraceEnd(pc + 1)); /* * We update the stack after the guard. This is safe since the guard bails * out at the comparison and the interpreter will therefore re-execute the * comparison. This way the value of the condition doesn't have to be * calculated and saved on the stack in most cases. */ set(&rval, x); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::relational(LOpcode op, bool tryBranchAfterCond) { Value& r = stackval(-1); Value& l = stackval(-2); LIns* x = NULL; bool cond; LIns* l_ins = get(&l); LIns* r_ins = get(&r); bool fp = false; jsdouble lnum, rnum; /* * 11.8.5 if either argument is an object with a function-valued valueOf * property; if both arguments are objects with non-function-valued valueOf * properties, abort. */ if (!l.isPrimitive()) { CHECK_STATUS_A(guardNativeConversion(l)); if (!r.isPrimitive()) { CHECK_STATUS_A(guardNativeConversion(r)); return InjectStatus(callImacro(binary_imacros.obj_obj)); } return InjectStatus(callImacro(binary_imacros.obj_any)); } if (!r.isPrimitive()) { CHECK_STATUS_A(guardNativeConversion(r)); return InjectStatus(callImacro(binary_imacros.any_obj)); } /* 11.8.5 steps 3, 16-21. */ if (l.isString() && r.isString()) { LIns* args[] = { r_ins, l_ins }; l_ins = lir->insCall(&js_CompareStrings_ci, args); r_ins = lir->insImmI(0); cond = EvalCmp(op, l.toString(), r.toString()); goto do_comparison; } /* 11.8.5 steps 4-5. */ if (!l.isNumber()) { LIns* args[] = { l_ins, cx_ins }; if (l.isBoolean()) { l_ins = i2d(l_ins); } else if (l.isUndefined()) { l_ins = lir->insImmD(js_NaN); } else if (l.isString()) { l_ins = lir->insCall(&js_StringToNumber_ci, args); } else if (l.isNull()) { l_ins = lir->insImmD(0.0); } else { JS_NOT_REACHED("JSVAL_IS_NUMBER if int/double, objects should " "have been handled at start of method"); RETURN_STOP_A("safety belt"); } } if (!r.isNumber()) { LIns* args[] = { r_ins, cx_ins }; if (r.isBoolean()) { r_ins = i2d(r_ins); } else if (r.isUndefined()) { r_ins = lir->insImmD(js_NaN); } else if (r.isString()) { r_ins = lir->insCall(&js_StringToNumber_ci, args); } else if (r.isNull()) { r_ins = lir->insImmD(0.0); } else { JS_NOT_REACHED("JSVAL_IS_NUMBER if int/double, objects should " "have been handled at start of method"); RETURN_STOP_A("safety belt"); } } { AutoValueRooter tvr(cx); *tvr.addr() = l; ValueToNumber(cx, tvr.value(), &lnum); *tvr.addr() = r; ValueToNumber(cx, tvr.value(), &rnum); } cond = EvalCmp(op, lnum, rnum); fp = true; /* 11.8.5 steps 6-15. */ do_comparison: /* * If the result is not a number or it's not a quad, we must use an integer * compare. */ if (!fp) { JS_ASSERT(isCmpDOpcode(op)); op = cmpOpcodeD2I(op); } x = lir->ins2(op, l_ins, r_ins); jsbytecode* pc = cx->regs->pc; /* * Don't guard if the same path is always taken. If it isn't, we have to * fuse comparisons and the following branch, because the interpreter does * that. */ if (tryBranchAfterCond) fuseIf(pc + 1, cond, x); /* * There is no need to write out the result of this comparison if the trace * ends on this operation. */ if (pc[1] == JSOP_IFNE || pc[1] == JSOP_IFEQ) CHECK_STATUS_A(checkTraceEnd(pc + 1)); /* * We update the stack after the guard. This is safe since the guard bails * out at the comparison and the interpreter will therefore re-execute the * comparison. This way the value of the condition doesn't have to be * calculated and saved on the stack in most cases. */ set(&l, x); return ARECORD_CONTINUE; } JS_REQUIRES_STACK RecordingStatus TraceRecorder::unary(LOpcode op) { Value& v = stackval(-1); bool intop = retTypes[op] == LTy_I; if (v.isNumber()) { LIns* a = get(&v); if (intop) a = d2i(a); a = lir->ins1(op, a); if (intop) a = lir->ins1(LIR_i2d, a); set(&v, a); return RECORD_CONTINUE; } return RECORD_STOP; } JS_REQUIRES_STACK RecordingStatus TraceRecorder::binary(LOpcode op) { Value& r = stackval(-1); Value& l = stackval(-2); if (!l.isPrimitive()) { CHECK_STATUS(guardNativeConversion(l)); if (!r.isPrimitive()) { CHECK_STATUS(guardNativeConversion(r)); return callImacro(binary_imacros.obj_obj); } return callImacro(binary_imacros.obj_any); } if (!r.isPrimitive()) { CHECK_STATUS(guardNativeConversion(r)); return callImacro(binary_imacros.any_obj); } bool intop = retTypes[op] == LTy_I; LIns* a = get(&l); LIns* b = get(&r); bool leftIsNumber = l.isNumber(); jsdouble lnum = leftIsNumber ? l.toNumber() : 0; bool rightIsNumber = r.isNumber(); jsdouble rnum = rightIsNumber ? r.toNumber() : 0; if (l.isString()) { NanoAssert(op != LIR_addd); // LIR_addd/IS_STRING case handled by record_JSOP_ADD() LIns* args[] = { a, cx_ins }; a = lir->insCall(&js_StringToNumber_ci, args); lnum = js_StringToNumber(cx, l.toString()); leftIsNumber = true; } if (r.isString()) { NanoAssert(op != LIR_addd); // LIR_addd/IS_STRING case handled by record_JSOP_ADD() LIns* args[] = { b, cx_ins }; b = lir->insCall(&js_StringToNumber_ci, args); rnum = js_StringToNumber(cx, r.toString()); rightIsNumber = true; } if (l.isBoolean()) { a = i2d(a); lnum = l.toBoolean(); leftIsNumber = true; } else if (l.isUndefined()) { a = lir->insImmD(js_NaN); lnum = js_NaN; leftIsNumber = true; } if (r.isBoolean()) { b = i2d(b); rnum = r.toBoolean(); rightIsNumber = true; } else if (r.isUndefined()) { b = lir->insImmD(js_NaN); rnum = js_NaN; rightIsNumber = true; } if (leftIsNumber && rightIsNumber) { if (intop) { a = (op == LIR_rshui) ? f2u(a) : d2i(a); b = d2i(b); } a = alu(op, lnum, rnum, a, b); if (intop) a = lir->ins1(op == LIR_rshui ? LIR_ui2d : LIR_i2d, a); set(&l, a); return RECORD_CONTINUE; } return RECORD_STOP; } #if defined DEBUG_notme && defined XP_UNIX #include static FILE* shapefp = NULL; static void DumpShape(JSObject* obj, const char* prefix) { if (!shapefp) { shapefp = fopen("/tmp/shapes.dump", "w"); if (!shapefp) return; } fprintf(shapefp, "\n%s: shape %u flags %x\n", prefix, obj->shape(), obj->flags); for (Shape::Range r = obj->lastProperty()->all(); !r.empty(); r.popFront()) { const Shape &shape = r.front(); if (JSID_IS_ATOM(shape.id)) { fprintf(shapefp, " %s", JS_GetStringBytes(JSID_TO_STRING(shape.id))); } else { JS_ASSERT(!JSID_IS_OBJECT(shape.id)); fprintf(shapefp, " %d", JSID_TO_INT(shape.id)); } fprintf(shapefp, " %u %p %p %x %x %d\n", shape.slot, shape.getter, shape.setter, shape.attrs, shape.flags, shape.shortid); } fflush(shapefp); } void TraceRecorder::dumpGuardedShapes(const char* prefix) { for (GuardedShapeTable::Range r = guardedShapeTable.all(); !r.empty(); r.popFront()) DumpShape(r.front().value, prefix); } #endif /* DEBUG_notme && XP_UNIX */ JS_REQUIRES_STACK RecordingStatus TraceRecorder::guardShape(LIns* obj_ins, JSObject* obj, uint32 shape, const char* guardName, VMSideExit* exit) { // Test (with add if missing) for a remembered guard for (obj_ins, obj). GuardedShapeTable::AddPtr p = guardedShapeTable.lookupForAdd(obj_ins); if (p) { JS_ASSERT(p->value == obj); return RECORD_CONTINUE; } if (!guardedShapeTable.add(p, obj_ins, obj)) return RECORD_ERROR; if (obj == globalObj) { // In this case checking object identity is equivalent and faster. guard(true, addName(lir->ins2(LIR_eqp, obj_ins, INS_CONSTOBJ(globalObj)), "guard_global"), exit); return RECORD_CONTINUE; } #if defined DEBUG_notme && defined XP_UNIX DumpShape(obj, "guard"); fprintf(shapefp, "for obj_ins %p\n", obj_ins); #endif // Finally, emit the shape guard. guard(true, addName(lir->ins2ImmI(LIR_eqi, shape_ins(obj_ins), shape), guardName), exit); return RECORD_CONTINUE; } void TraceRecorder::forgetGuardedShapesForObject(JSObject* obj) { for (GuardedShapeTable::Enum e(guardedShapeTable); !e.empty(); e.popFront()) { if (e.front().value == obj) { #if defined DEBUG_notme && defined XP_UNIX DumpShape(entry->obj, "forget"); #endif e.removeFront(); } } } void TraceRecorder::forgetGuardedShapes() { #if defined DEBUG_notme && defined XP_UNIX dumpGuardedShapes("forget-all"); #endif guardedShapeTable.clear(); } inline LIns* TraceRecorder::shape_ins(LIns* obj_ins) { return addName(lir->insLoad(LIR_ldi, obj_ins, int(offsetof(JSObject, objShape)), ACCSET_OTHER), "objShape"); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::test_property_cache(JSObject* obj, LIns* obj_ins, JSObject*& obj2, PCVal& pcval) { jsbytecode* pc = cx->regs->pc; JS_ASSERT(*pc != JSOP_INITPROP && *pc != JSOP_INITMETHOD && *pc != JSOP_SETNAME && *pc != JSOP_SETPROP && *pc != JSOP_SETMETHOD); // Mimic the interpreter's special case for dense arrays by skipping up one // hop along the proto chain when accessing a named (not indexed) property, // typically to find Array.prototype methods. JSObject* aobj = obj; if (obj->isDenseArray()) { guardDenseArray(obj_ins, BRANCH_EXIT); aobj = obj->getProto(); obj_ins = stobj_get_proto(obj_ins); } if (!aobj->isNative()) RETURN_STOP_A("non-native object"); JSAtom* atom; PropertyCacheEntry* entry; JS_PROPERTY_CACHE(cx).test(cx, pc, aobj, obj2, entry, atom); if (atom) { // Miss: pre-fill the cache for the interpreter, as well as for our needs. // FIXME: bug 458271. jsid id = ATOM_TO_JSID(atom); // The lookup below may change object shapes. forgetGuardedShapes(); JSProperty* prop; if (JOF_OPMODE(*pc) == JOF_NAME) { JS_ASSERT(aobj == obj); TraceMonitor &localtm = *traceMonitor; entry = js_FindPropertyHelper(cx, id, true, &obj, &obj2, &prop); if (!entry) RETURN_ERROR_A("error in js_FindPropertyHelper"); /* js_FindPropertyHelper can reenter the interpreter and kill |this|. */ if (!localtm.recorder) return ARECORD_ABORTED; if (entry == JS_NO_PROP_CACHE_FILL) RETURN_STOP_A("cannot cache name"); } else { TraceMonitor &localtm = *traceMonitor; JSContext *localcx = cx; int protoIndex = js_LookupPropertyWithFlags(cx, aobj, id, cx->resolveFlags, &obj2, &prop); if (protoIndex < 0) RETURN_ERROR_A("error in js_LookupPropertyWithFlags"); /* js_LookupPropertyWithFlags can reenter the interpreter and kill |this|. */ if (!localtm.recorder) { if (prop) obj2->dropProperty(localcx, prop); return ARECORD_ABORTED; } if (prop) { if (!obj2->isNative()) RETURN_STOP_A("property found on non-native object"); entry = JS_PROPERTY_CACHE(cx).fill(cx, aobj, 0, protoIndex, obj2, (Shape*) prop); JS_ASSERT(entry); if (entry == JS_NO_PROP_CACHE_FILL) entry = NULL; } } if (!prop) { // Propagate obj from js_FindPropertyHelper to record_JSOP_BINDNAME // via our obj2 out-parameter. If we are recording JSOP_SETNAME and // the global it's assigning does not yet exist, create it. obj2 = obj; // Use a null pcval to return "no such property" to our caller. pcval.setNull(); return ARECORD_CONTINUE; } obj2->dropProperty(cx, prop); if (!entry) RETURN_STOP_A("failed to fill property cache"); } #ifdef JS_THREADSAFE // There's a potential race in any JS_THREADSAFE embedding that's nuts // enough to share mutable objects on the scope or proto chain, but we // don't care about such insane embeddings. Anyway, the (scope, proto) // entry->vcap coordinates must reach obj2 from aobj at this point. JS_ASSERT(cx->thread->data.requestDepth); #endif return InjectStatus(guardPropertyCacheHit(obj_ins, aobj, obj2, entry, pcval)); } JS_REQUIRES_STACK RecordingStatus TraceRecorder::guardPropertyCacheHit(LIns* obj_ins, JSObject* aobj, JSObject* obj2, PropertyCacheEntry* entry, PCVal& pcval) { VMSideExit* exit = snapshot(BRANCH_EXIT); uint32 vshape = entry->vshape(); // Special case for the global object, which may be aliased to get a property value. // To catch cross-global property accesses we must check against globalObj identity. // But a JOF_NAME mode opcode needs no guard, as we ensure the global object's shape // never changes, and name ops can't reach across a global object ('with' aborts). if (aobj == globalObj) { if (entry->adding()) RETURN_STOP("adding a property to the global object"); JSOp op = js_GetOpcode(cx, cx->fp()->script(), cx->regs->pc); if (JOF_OPMODE(op) != JOF_NAME) { guard(true, addName(lir->ins2(LIR_eqp, obj_ins, INS_CONSTOBJ(globalObj)), "guard_global"), exit); } } else { CHECK_STATUS(guardShape(obj_ins, aobj, entry->kshape, "guard_kshape", exit)); } if (entry->adding()) { LIns *vshape_ins = addName( lir->insLoad(LIR_ldi, addName(lir->insLoad(LIR_ldp, cx_ins, offsetof(JSContext, runtime), ACCSET_OTHER, LOAD_CONST), "runtime"), offsetof(JSRuntime, protoHazardShape), ACCSET_OTHER), "protoHazardShape"); guard(true, addName(lir->ins2ImmI(LIR_eqi, vshape_ins, vshape), "guard_protoHazardShape"), MISMATCH_EXIT); } // For any hit that goes up the scope and/or proto chains, we will need to // guard on the shape of the object containing the property. if (entry->vcapTag() >= 1) { JS_ASSERT(obj2->shape() == vshape); if (obj2 == globalObj) RETURN_STOP("hitting the global object via a prototype chain"); LIns* obj2_ins; if (entry->vcapTag() == 1) { // Duplicate the special case in PropertyCache::test. obj2_ins = addName(stobj_get_proto(obj_ins), "proto"); guard(false, lir->insEqP_0(obj2_ins), exit); } else { obj2_ins = INS_CONSTOBJ(obj2); } CHECK_STATUS(guardShape(obj2_ins, obj2, vshape, "guard_vshape", exit)); } pcval = entry->vword; return RECORD_CONTINUE; } void TraceRecorder::stobj_set_fslot(LIns *obj_ins, unsigned slot, const Value &v, LIns* v_ins) { box_value_into(v, v_ins, obj_ins, offsetof(JSObject, fslots) + slot * sizeof(Value), ACCSET_OTHER); } void TraceRecorder::stobj_set_dslot(LIns *obj_ins, unsigned slot, LIns*& dslots_ins, const Value &v, LIns* v_ins) { if (!dslots_ins) dslots_ins = lir->insLoad(LIR_ldp, obj_ins, offsetof(JSObject, dslots), ACCSET_OTHER); box_value_into(v, v_ins, dslots_ins, slot * sizeof(Value), ACCSET_OTHER); } void TraceRecorder::stobj_set_slot(LIns* obj_ins, unsigned slot, LIns*& dslots_ins, const Value &v, LIns* v_ins) { if (slot < JS_INITIAL_NSLOTS) stobj_set_fslot(obj_ins, slot, v, v_ins); else stobj_set_dslot(obj_ins, slot - JS_INITIAL_NSLOTS, dslots_ins, v, v_ins); } #if JS_BITS_PER_WORD == 32 || JS_BITS_PER_WORD == 64 void TraceRecorder::set_array_fslot(LIns *obj_ins, unsigned slot, uint32 val) { /* * We can assume the destination fslot has been appropriately tagged so we * can just overwrite the 32-bit payload. */ lir->insStore(INS_CONSTU(val), obj_ins, offsetof(JSObject, fslots) + slot * sizeof(Value) + sPayloadOffset, ACCSET_OTHER); } LIns* TraceRecorder::stobj_get_fslot_uint32(LIns* obj_ins, unsigned slot) { JS_ASSERT(slot < JS_INITIAL_NSLOTS); return lir->insLoad(LIR_ldi, obj_ins, offsetof(JSObject, fslots) + slot * sizeof(Value) + sPayloadOffset, ACCSET_OTHER); } LIns* TraceRecorder::stobj_set_fslot_uint32(LIns* value_ins, LIns* obj_ins, unsigned slot) { JS_ASSERT(slot < JS_INITIAL_NSLOTS); return lir->insStore(LIR_sti, value_ins, obj_ins, offsetof(JSObject, fslots) + slot * sizeof(Value) + sPayloadOffset, ACCSET_OTHER); } #endif LIns* TraceRecorder::unbox_slot(JSObject *obj, LIns *obj_ins, uint32 slot, VMSideExit *exit) { LIns *vaddr_ins; ptrdiff_t offset; if (slot < JS_INITIAL_NSLOTS) { vaddr_ins = obj_ins; offset = offsetof(JSObject, fslots) + slot * sizeof(Value); } else { vaddr_ins = lir->insLoad(LIR_ldp, obj_ins, offsetof(JSObject, dslots), ACCSET_OTHER); offset = (slot - JS_INITIAL_NSLOTS) * sizeof(Value); } const Value &v = obj->getSlot(slot); return unbox_value(v, vaddr_ins, offset, exit); } #if JS_BITS_PER_WORD == 32 LIns* TraceRecorder::stobj_get_fslot_private_ptr(LIns *obj_ins, unsigned slot) { JS_ASSERT(slot < JS_INITIAL_NSLOTS && slot != JSSLOT_PRIVATE); return lir->insLoad(LIR_ldi, obj_ins, offsetof(JSObject, fslots) + slot * sizeof(Value) + sPayloadOffset, ACCSET_OTHER, LOAD_CONST); } void TraceRecorder::box_undefined_into(LIns *vaddr_ins, ptrdiff_t offset, AccSet accSet) { lir->insStore(INS_CONSTU(JSVAL_TAG_UNDEFINED), vaddr_ins, offset + sTagOffset, accSet); lir->insStore(INS_CONST(0), vaddr_ins, offset + sPayloadOffset, accSet); } void TraceRecorder::box_null_into(LIns *dstaddr_ins, ptrdiff_t offset, AccSet accSet) { lir->insStore(INS_CONSTU(JSVAL_TAG_NULL), dstaddr_ins, offset + sTagOffset, accSet); lir->insStore(INS_CONST(0), dstaddr_ins, offset + sPayloadOffset, accSet); } inline LIns* TraceRecorder::unbox_number_as_double(LIns *vaddr_ins, ptrdiff_t offset, LIns *tag_ins, VMSideExit *exit, AccSet accSet) { guard(true, lir->ins2(LIR_leui, tag_ins, INS_CONSTU(JSVAL_UPPER_INCL_TAG_OF_NUMBER_SET)), exit); LIns *val_ins = lir->insLoad(LIR_ldi, vaddr_ins, offset + sPayloadOffset, accSet); LIns* args[] = { val_ins, tag_ins }; return lir->insCall(&js_UnboxDouble_ci, args); } inline LIns* TraceRecorder::unbox_non_double_object(LIns* vaddr_ins, ptrdiff_t offset, LIns* tag_ins, JSValueType type, VMSideExit* exit, AccSet accSet) { LIns *val_ins; if (type == JSVAL_TYPE_UNDEFINED) { val_ins = INS_UNDEFINED(); } else if (type == JSVAL_TYPE_NULL) { val_ins = INS_NULL(); } else { JS_ASSERT(type == JSVAL_TYPE_INT32 || type == JSVAL_TYPE_OBJECT || type == JSVAL_TYPE_STRING || type == JSVAL_TYPE_BOOLEAN || type == JSVAL_TYPE_MAGIC); val_ins = lir->insLoad(LIR_ldi, vaddr_ins, offset + sPayloadOffset, accSet); } guard(true, lir->ins2(LIR_eqi, tag_ins, INS_CONSTU(JSVAL_TYPE_TO_TAG(type))), exit); return val_ins; } LIns* TraceRecorder::unbox_object(LIns* vaddr_ins, ptrdiff_t offset, LIns* tag_ins, JSValueType type, VMSideExit* exit, AccSet accSet) { JS_ASSERT(type == JSVAL_TYPE_FUNOBJ || type == JSVAL_TYPE_NONFUNOBJ); guard(true, lir->ins2(LIR_eqi, tag_ins, INS_CONSTU(JSVAL_TAG_OBJECT)), exit); LIns *payload_ins = lir->insLoad(LIR_ldi, vaddr_ins, offset + sPayloadOffset, accSet); if (type == JSVAL_TYPE_FUNOBJ) guardClass(payload_ins, &js_FunctionClass, exit, LOAD_NORMAL); else guardNotClass(payload_ins, &js_FunctionClass, exit, LOAD_NORMAL); return payload_ins; } LIns* TraceRecorder::unbox_value(const Value &v, LIns *vaddr_ins, ptrdiff_t offset, VMSideExit *exit, bool force_double) { AccSet accSet = vaddr_ins == lirbuf->sp ? ACCSET_STACK : ACCSET_OTHER; LIns *tag_ins = lir->insLoad(LIR_ldi, vaddr_ins, offset + sTagOffset, accSet); if (v.isNumber() && force_double) return unbox_number_as_double(vaddr_ins, offset, tag_ins, exit, accSet); if (v.isInt32()) { guard(true, lir->ins2(LIR_eqi, tag_ins, INS_CONSTU(JSVAL_TAG_INT32)), exit); return i2d(lir->insLoad(LIR_ldi, vaddr_ins, offset + sPayloadOffset, accSet)); } if (v.isDouble()) { guard(true, lir->ins2(LIR_ltui, tag_ins, INS_CONSTU(JSVAL_TAG_CLEAR)), exit); return lir->insLoad(LIR_ldd, vaddr_ins, offset, accSet); } if (v.isObject()) { JSValueType type = v.toObject().isFunction() ? JSVAL_TYPE_FUNOBJ : JSVAL_TYPE_NONFUNOBJ; return unbox_object(vaddr_ins, offset, tag_ins, type, exit, accSet); } JSValueType type = v.extractNonDoubleObjectTraceType(); return unbox_non_double_object(vaddr_ins, offset, tag_ins, type, exit, accSet); } void TraceRecorder::unbox_any_object(LIns *vaddr_ins, LIns **obj_ins, LIns **is_obj_ins, AccSet accSet) { LIns *tag_ins = lir->insLoad(LIR_ldp, vaddr_ins, sTagOffset, accSet); *is_obj_ins = lir->ins2(LIR_eqi, tag_ins, INS_CONSTU(JSVAL_TAG_OBJECT)); *obj_ins = lir->insLoad(LIR_ldp, vaddr_ins, sPayloadOffset, accSet); } LIns* TraceRecorder::is_boxed_true(LIns *vaddr_ins, AccSet accSet) { LIns *tag_ins = lir->insLoad(LIR_ldi, vaddr_ins, sTagOffset, accSet); LIns *bool_ins = lir->ins2(LIR_eqi, tag_ins, INS_CONSTU(JSVAL_TAG_BOOLEAN)); LIns *payload_ins = lir->insLoad(LIR_ldi, vaddr_ins, sPayloadOffset, accSet); return lir->ins2(LIR_andi, bool_ins, payload_ins); } void TraceRecorder::box_value_into(const Value &v, LIns *v_ins, LIns *dstaddr_ins, ptrdiff_t offset, AccSet accSet) { if (v.isNumber()) { JS_ASSERT(v_ins->isD()); if (fcallinfo(v_ins) == &js_UnboxDouble_ci) { LIns *tag_ins = fcallarg(v_ins, 0); LIns *payload_ins = fcallarg(v_ins, 1); lir->insStore(tag_ins, dstaddr_ins, offset + sTagOffset, accSet); lir->insStore(payload_ins, dstaddr_ins, offset + sPayloadOffset, accSet); } else if (isPromoteInt(v_ins)) { LIns *int_ins = demote(lir, v_ins); lir->insStore(INS_CONSTU(JSVAL_TAG_INT32), dstaddr_ins, offset + sTagOffset, accSet); lir->insStore(int_ins, dstaddr_ins, offset + sPayloadOffset, accSet); } else { lir->insStore(v_ins, dstaddr_ins, offset, accSet); } return; } if (v.isUndefined()) { box_undefined_into(dstaddr_ins, offset, accSet); } else if (v.isNull()) { box_null_into(dstaddr_ins, offset, accSet); } else { JSValueTag tag = v.isObject() ? JSVAL_TAG_OBJECT : v.extractNonDoubleObjectTraceTag(); lir->insStore(INS_CONSTU(tag), dstaddr_ins, offset + sTagOffset, accSet); lir->insStore(v_ins, dstaddr_ins, offset + sPayloadOffset, accSet); } } LIns* TraceRecorder::box_value_into_alloc(const Value &v, LIns *v_ins) { LIns *boxed_ins = lir->insAlloc(sizeof(Value)); box_value_into(v, v_ins, boxed_ins, 0, ACCSET_OTHER); return boxed_ins; } LIns* TraceRecorder::box_value_for_native_call(const Value &v, LIns *v_ins) { return box_value_into_alloc(v, v_ins); } #elif JS_BITS_PER_WORD == 64 LIns* TraceRecorder::stobj_get_fslot_private_ptr(LIns *obj_ins, unsigned slot) { /* N.B. On 64-bit, privates are encoded differently from other pointers. */ JS_ASSERT(slot < JS_INITIAL_NSLOTS && slot != JSSLOT_PRIVATE); LIns *v_ins = lir->insLoad(LIR_ldq, obj_ins, offsetof(JSObject, fslots) + slot * sizeof(Value), ACCSET_OTHER, LOAD_CONST); return lir->ins2ImmI(LIR_lshq, v_ins, 1); } void TraceRecorder::box_undefined_into(LIns *vaddr_ins, ptrdiff_t offset, AccSet accSet) { lir->insStore(INS_CONSTQWORD(JSVAL_BITS(JSVAL_VOID)), vaddr_ins, offset, accSet); } inline LIns * TraceRecorder::non_double_object_value_has_type(LIns *v_ins, JSValueType type) { return lir->ins2(LIR_eqi, lir->ins1(LIR_q2i, lir->ins2ImmI(LIR_rshuq, v_ins, JSVAL_TAG_SHIFT)), INS_CONSTU(JSVAL_TYPE_TO_TAG(type))); } inline LIns * TraceRecorder::unpack_ptr(LIns *v_ins) { return lir->ins2(LIR_andq, v_ins, INS_CONSTQWORD(JSVAL_PAYLOAD_MASK)); } inline LIns * TraceRecorder::unbox_number_as_double(LIns *v_ins, VMSideExit *exit) { guard(true, lir->ins2(LIR_ltuq, v_ins, INS_CONSTQWORD(JSVAL_UPPER_EXCL_SHIFTED_TAG_OF_NUMBER_SET)), exit); LIns* args[] = { v_ins }; return lir->insCall(&js_UnboxDouble_ci, args); } inline nanojit::LIns* TraceRecorder::unbox_non_double_object(LIns* v_ins, JSValueType type, VMSideExit* exit) { JS_ASSERT(type <= JSVAL_UPPER_INCL_TYPE_OF_VALUE_SET); LIns *unboxed_ins; if (type == JSVAL_TYPE_UNDEFINED) { unboxed_ins = INS_UNDEFINED(); } else if (type == JSVAL_TYPE_NULL) { unboxed_ins = INS_NULL(); } else if (type >= JSVAL_LOWER_INCL_TYPE_OF_PTR_PAYLOAD_SET) { unboxed_ins = unpack_ptr(v_ins); } else { JS_ASSERT(type == JSVAL_TYPE_INT32 || type == JSVAL_TYPE_BOOLEAN || type == JSVAL_TYPE_MAGIC); unboxed_ins = lir->ins1(LIR_q2i, v_ins); } guard(true, non_double_object_value_has_type(v_ins, type), exit); return unboxed_ins; } LIns* TraceRecorder::unbox_object(LIns* v_ins, JSValueType type, VMSideExit* exit) { JS_STATIC_ASSERT(JSVAL_TYPE_OBJECT == JSVAL_UPPER_INCL_TYPE_OF_VALUE_SET); JS_ASSERT(type == JSVAL_TYPE_FUNOBJ || type == JSVAL_TYPE_NONFUNOBJ); guard(true, lir->ins2(LIR_geuq, v_ins, INS_CONSTQWORD(JSVAL_SHIFTED_TAG_OBJECT)), exit); v_ins = unpack_ptr(v_ins); if (type == JSVAL_TYPE_FUNOBJ) guardClass(v_ins, &js_FunctionClass, exit, LOAD_NORMAL); else guardNotClass(v_ins, &js_FunctionClass, exit, LOAD_NORMAL); return v_ins; } LIns* TraceRecorder::unbox_value(const Value &v, LIns *vaddr_ins, ptrdiff_t offset, VMSideExit *exit, bool force_double) { AccSet accSet = vaddr_ins == lirbuf->sp ? ACCSET_STACK : ACCSET_OTHER; LIns *v_ins = lir->insLoad(LIR_ldq, vaddr_ins, offset, accSet); if (v.isNumber() && force_double) return unbox_number_as_double(v_ins, exit); if (v.isInt32()) { guard(true, non_double_object_value_has_type(v_ins, JSVAL_TYPE_INT32), exit); return i2d(lir->ins1(LIR_q2i, v_ins)); } if (v.isDouble()) { guard(true, lir->ins2(LIR_leuq, v_ins, INS_CONSTQWORD(JSVAL_SHIFTED_TAG_MAX_DOUBLE)), exit); return lir->ins1(LIR_qasd, v_ins); } if (v.isObject()) { JSValueType type = v.toObject().isFunction() ? JSVAL_TYPE_FUNOBJ : JSVAL_TYPE_NONFUNOBJ; return unbox_object(v_ins, type, exit); } JSValueType type = v.extractNonDoubleObjectTraceType(); return unbox_non_double_object(v_ins, type, exit); } void TraceRecorder::unbox_any_object(LIns *vaddr_ins, LIns **obj_ins, LIns **is_obj_ins, AccSet accSet) { JS_STATIC_ASSERT(JSVAL_TYPE_OBJECT == JSVAL_UPPER_INCL_TYPE_OF_VALUE_SET); LIns *v_ins = lir->insLoad(LIR_ldq, vaddr_ins, 0, accSet); *is_obj_ins = lir->ins2(LIR_geuq, v_ins, INS_CONSTQWORD(JSVAL_TYPE_OBJECT)); *obj_ins = unpack_ptr(v_ins); } LIns* TraceRecorder::is_boxed_true(LIns *vaddr_ins, AccSet accSet) { LIns *v_ins = lir->insLoad(LIR_ldq, vaddr_ins, 0, accSet); return lir->ins2(LIR_eqq, v_ins, lir->insImmQ(JSVAL_BITS(JSVAL_TRUE))); } LIns* TraceRecorder::box_value_for_native_call(const Value &v, LIns *v_ins) { if (v.isNumber()) { JS_ASSERT(v_ins->isD()); if (fcallinfo(v_ins) == &js_UnboxDouble_ci) return fcallarg(v_ins, 0); if (isPromoteInt(v_ins)) { return lir->ins2(LIR_orq, lir->ins1(LIR_ui2uq, demote(lir, v_ins)), INS_CONSTQWORD(JSVAL_SHIFTED_TAG_INT32)); } return lir->ins1(LIR_dasq, v_ins); } if (v.isNull()) return INS_CONSTQWORD(JSVAL_BITS(JSVAL_NULL)); if (v.isUndefined()) return INS_CONSTQWORD(JSVAL_BITS(JSVAL_VOID)); JSValueTag tag = v.isObject() ? JSVAL_TAG_OBJECT : v.extractNonDoubleObjectTraceTag(); uint64 shiftedTag = ((uint64)tag) << JSVAL_TAG_SHIFT; LIns *shiftedTag_ins = INS_CONSTQWORD(shiftedTag); if (v.hasPtrPayload()) return lir->ins2(LIR_orq, v_ins, shiftedTag_ins); return lir->ins2(LIR_orq, lir->ins1(LIR_ui2uq, v_ins), shiftedTag_ins); } void TraceRecorder::box_value_into(const Value &v, LIns *v_ins, LIns *dstaddr_ins, ptrdiff_t offset, AccSet accSet) { LIns *boxed_ins = box_value_for_native_call(v, v_ins); lir->insStore(boxed_ins, dstaddr_ins, offset, accSet); } LIns* TraceRecorder::box_value_into_alloc(const Value &v, LIns *v_ins) { LIns *alloc_ins = lir->insAlloc(sizeof(Value)); box_value_into(v, v_ins, alloc_ins, 0, ACCSET_OTHER); return alloc_ins; } #endif /* JS_BITS_PER_WORD */ LIns* TraceRecorder::stobj_get_parent(nanojit::LIns* obj_ins) { return lir->insLoad(LIR_ldp, obj_ins, offsetof(JSObject, parent), ACCSET_OTHER); } LIns* TraceRecorder::stobj_get_private(nanojit::LIns* obj_ins) { JS_STATIC_ASSERT(JSSLOT_PRIVATE == 0); return lir->insLoad(LIR_ldp, obj_ins, offsetof(JSObject, fslots), ACCSET_OTHER); } LIns* TraceRecorder::stobj_get_proto(nanojit::LIns* obj_ins) { return lir->insLoad(LIR_ldp, obj_ins, offsetof(JSObject, proto), ACCSET_OTHER); } LIns* TraceRecorder::is_string_id(LIns *id_ins) { return lir->insEqP_0(lir->ins2(LIR_andp, id_ins, INS_CONSTWORD(JSID_TYPE_MASK))); } LIns * TraceRecorder::unbox_string_id(LIns *id_ins) { JS_STATIC_ASSERT(JSID_TYPE_STRING == 0); return id_ins; } LIns * TraceRecorder::unbox_int_id(LIns *id_ins) { return lir->ins2ImmI(LIR_rshi, p2i(id_ins), 1); } JS_REQUIRES_STACK RecordingStatus TraceRecorder::getThis(LIns*& this_ins) { JSStackFrame *fp = cx->fp(); if (fp->isGlobalFrame()) { // Top-level code. It is an invariant of the interpreter that fp->thisv // is non-null. Furthermore, we would not be recording if globalObj // were not at the end of the scope chain, so `this` can only be one // object, which we can burn into the trace. JS_ASSERT(!fp->thisValue().isPrimitive()); #ifdef DEBUG JSObject *obj = globalObj->thisObject(cx); if (!obj) RETURN_ERROR("thisObject hook failed"); JS_ASSERT(&fp->thisValue().toObject() == obj); #endif this_ins = INS_CONSTOBJ(&fp->thisValue().toObject()); return RECORD_CONTINUE; } JS_ASSERT(fp->callee().getGlobal() == globalObj); const Value& thisv = fp->thisValue(); if (!thisv.isNull()) { /* * fp->argv[-1] has already been computed. Since the type-specialization * of traces distinguishes between null and objects, the same will be * true at run time (or we won't get this far). */ this_ins = get(&fp->thisValue()); return RECORD_CONTINUE; } /* * Compute 'this' now. The result is globalObj->thisObject(), * which is trace-constant. getThisObject writes back to fp->argv[-1], * so do the same on trace. */ JSObject *obj = fp->computeThisObject(cx); if (!obj) RETURN_ERROR("getThisObject failed"); JS_ASSERT(&fp->thisValue().toObject() == obj); this_ins = INS_CONSTOBJ(obj); set(&fp->thisValue(), this_ins); return RECORD_CONTINUE; } JS_REQUIRES_STACK void TraceRecorder::guardClassHelper(bool cond, LIns* obj_ins, Class* clasp, VMSideExit* exit, LoadQual loadQual) { LIns* class_ins = lir->insLoad(LIR_ldp, obj_ins, offsetof(JSObject, clasp), ACCSET_OTHER, loadQual); #ifdef JS_JIT_SPEW char namebuf[32]; JS_snprintf(namebuf, sizeof namebuf, "guard(class is %s)", clasp->name); #else static const char namebuf[] = ""; #endif guard(cond, addName(lir->ins2(LIR_eqp, class_ins, INS_CONSTPTR(clasp)), namebuf), exit); } JS_REQUIRES_STACK void TraceRecorder::guardClass(LIns* obj_ins, Class* clasp, VMSideExit* exit, LoadQual loadQual) { guardClassHelper(true, obj_ins, clasp, exit, loadQual); } JS_REQUIRES_STACK void TraceRecorder::guardNotClass(LIns* obj_ins, Class* clasp, VMSideExit* exit, LoadQual loadQual) { guardClassHelper(false, obj_ins, clasp, exit, loadQual); } JS_REQUIRES_STACK void TraceRecorder::guardDenseArray(LIns* obj_ins, ExitType exitType) { guardClass(obj_ins, &js_ArrayClass, snapshot(exitType), LOAD_NORMAL); } JS_REQUIRES_STACK void TraceRecorder::guardDenseArray(LIns* obj_ins, VMSideExit* exit) { guardClass(obj_ins, &js_ArrayClass, exit, LOAD_NORMAL); } JS_REQUIRES_STACK bool TraceRecorder::guardHasPrototype(JSObject* obj, LIns* obj_ins, JSObject** pobj, LIns** pobj_ins, VMSideExit* exit) { *pobj = obj->getProto(); *pobj_ins = stobj_get_proto(obj_ins); bool cond = *pobj == NULL; guard(cond, addName(lir->insEqP_0(*pobj_ins), "guard(proto-not-null)"), exit); return !cond; } JS_REQUIRES_STACK RecordingStatus TraceRecorder::guardPrototypeHasNoIndexedProperties(JSObject* obj, LIns* obj_ins, VMSideExit *exit) { /* * Guard that no object along the prototype chain has any indexed * properties which might become visible through holes in the array. */ if (js_PrototypeHasIndexedProperties(cx, obj)) return RECORD_STOP; while (guardHasPrototype(obj, obj_ins, &obj, &obj_ins, exit)) CHECK_STATUS(guardShape(obj_ins, obj, obj->shape(), "guard(shape)", exit)); return RECORD_CONTINUE; } /* * Guard that the object stored in v has the ECMA standard [[DefaultValue]] * method. Several imacros require this. */ JS_REQUIRES_STACK RecordingStatus TraceRecorder::guardNativeConversion(Value& v) { JSObject* obj = &v.toObject(); LIns* obj_ins = get(&v); ConvertOp convert = obj->getClass()->convert; if (convert != Valueify(JS_ConvertStub) && convert != js_TryValueOf) RETURN_STOP("operand has convert hook"); VMSideExit* exit = snapshot(BRANCH_EXIT); if (obj->isNative()) { // The common case. Guard on shape rather than class because it'll // often be free: we're about to do a shape guard anyway to get the // .valueOf property of this object, and this guard will be cached. CHECK_STATUS(guardShape(obj_ins, obj, obj->shape(), "guardNativeConversion", exit)); } else { // We could specialize to guard on just JSClass.convert, but a mere // class guard is simpler and slightly faster. guardClass(obj_ins, obj->getClass(), snapshot(MISMATCH_EXIT), LOAD_NORMAL); } return RECORD_CONTINUE; } /* * Clear out all slots of this frame in the nativeFrameTracker. Different * locations on the VM stack might map to different locations on the native * stack depending on the number of arguments (i.e.) of the next call, so we * have to make sure we map those in to the cache with the right offsets. */ JS_REQUIRES_STACK void TraceRecorder::clearCurrentFrameSlotsFromTracker(Tracker& which) { JSStackFrame *const fp = cx->fp(); /* * Duplicate native stack layout computation: see VisitFrameSlots header comment. * This doesn't do layout arithmetic, but it must clear out all the slots defined as * imported by VisitFrameSlots. */ if (fp->isGlobalFrame()) { Value *vp = fp->slots() + fp->globalScript()->nfixed; Value *vpend = fp->slots() + fp->globalScript()->nslots; for (; vp < vpend; ++vp) which.set(vp, (LIns*)0); return; } if (!fp->isEvalFrame()) { /* For simplicitly, flush 'em all, even non-canonical arg slots. */ Value *vp = fp->actualArgs() - 2 /* callee, this */; Value *vpend = fp->formalArgsEnd(); for (; vp < vpend; ++vp) which.set(vp, (LIns*)0); } which.set(fp->addressOfArgs(), (LIns*)0); which.set(fp->addressOfScopeChain(), (LIns*)0); Value *vp = fp->slots(); Value *vpend = fp->slots() + fp->functionScript()->nslots; for (; vp < vpend; ++vp) which.set(vp, (LIns*)0); } struct BoxArg { BoxArg(TraceRecorder *tr, ptrdiff_t offset, LIns *base_ins) : tr(tr), offset(offset), base_ins(base_ins) {} TraceRecorder *tr; ptrdiff_t offset; LIns *base_ins; void operator()(uintN argi, Value *src) { tr->box_value_into(*src, tr->get(src), base_ins, offset + argi * sizeof(Value), ACCSET_OTHER); } }; /* * If we have created an |arguments| object for the frame, we must copy the * argument values into the object as properties in case it is used after * this frame returns. */ JS_REQUIRES_STACK void TraceRecorder::putActivationObjects() { JSStackFrame *const fp = cx->fp(); bool have_args = fp->hasArgsObj() && !fp->argsObj().isStrictArguments(); bool have_call = fp->isFunctionFrame() && fp->fun()->isHeavyweight(); if (!have_args && !have_call) return; uintN nformal = fp->numFormalArgs(); uintN nactual = fp->numActualArgs(); uintN nargs = have_args && have_call ? Max(nformal, nactual) : have_args ? nactual : nformal; LIns *args_ins; if (nargs > 0) { args_ins = lir->insAlloc(nargs * sizeof(Value)); /* Don't copy all the actuals if we are only boxing for the callobj. */ if (nargs == nactual) fp->forEachCanonicalActualArg(BoxArg(this, 0, args_ins)); else fp->forEachFormalArg(BoxArg(this, 0, args_ins)); } else { args_ins = INS_CONSTPTR(0); } if (have_args) { LIns* argsobj_ins = getFrameObjPtr(fp->addressOfArgs()); LIns* args[] = { args_ins, argsobj_ins, cx_ins }; lir->insCall(&js_PutArgumentsOnTrace_ci, args); } if (have_call) { int nslots = fp->fun()->countVars(); LIns* slots_ins; if (nslots) { slots_ins = lir->insAlloc(sizeof(Value) * nslots); for (int i = 0; i < nslots; ++i) { box_value_into(fp->slots()[i], get(&fp->slots()[i]), slots_ins, i * sizeof(Value), ACCSET_OTHER); } } else { slots_ins = INS_CONSTPTR(0); } LIns* scopeChain_ins = getFrameObjPtr(fp->addressOfScopeChain()); LIns* args[] = { slots_ins, INS_CONST(nslots), args_ins, INS_CONST(fp->numFormalArgs()), scopeChain_ins, cx_ins }; lir->insCall(&js_PutCallObjectOnTrace_ci, args); } } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_EnterFrame() { JSStackFrame* const fp = cx->fp(); if (++callDepth >= MAX_CALLDEPTH) RETURN_STOP_A("exceeded maximum call depth"); debug_only_printf(LC_TMTracer, "EnterFrame %s, callDepth=%d\n", js_AtomToPrintableString(cx, cx->fp()->fun()->atom), callDepth); debug_only_stmt( if (LogController.lcbits & LC_TMRecorder) { js_Disassemble(cx, cx->fp()->script(), JS_TRUE, stdout); debug_only_print0(LC_TMTracer, "----\n"); } ) LIns* void_ins = INS_UNDEFINED(); // Before we enter this frame, we need to clear out any dangling insns left // in the tracer. While we also clear when returning from a function, it is // possible to have the following sequence of stack usage: // // [fp1]***************** push // [fp1]***** pop // [fp1]*****[fp2] call // [fp1]*****[fp2]*** push // // Duplicate native stack layout computation: see VisitFrameSlots header comment. // args: carefully copy stack layout uintN nactual = fp->numActualArgs(); uintN nformal = fp->numFormalArgs(); if (nactual < nformal) { // Fill in missing with void. JS_ASSERT(fp->actualArgs() == fp->formalArgs()); Value *beg = fp->formalArgs() + nactual; Value *end = fp->formalArgsEnd(); for (Value *vp = beg; vp != end; ++vp) { nativeFrameTracker.set(vp, NULL); set(vp, void_ins); } } else if (nactual > nformal) { // Although the VM clones the formal args to the top of the stack, due // to the fact that we only track the canonical arguments (in argument // order), the native stack offset of the arguments doesn't change. The // only thing that changes is which js::Value* in the tracker maps to // that slot. Thus, all we need to do here is fixup the trackers, not // emit any actual copying on trace. JS_ASSERT(fp->actualArgs() != fp->formalArgs()); JS_ASSERT(fp->hasOverflowArgs()); Value *srcbeg = fp->actualArgs() - 2; Value *srcend = fp->actualArgs() + nformal; Value *dstbeg = fp->formalArgs() - 2; for (Value *src = srcbeg, *dst = dstbeg; src != srcend; ++src, ++dst) { nativeFrameTracker.set(dst, NULL); tracker.set(dst, tracker.get(src)); nativeFrameTracker.set(src, NULL); tracker.set(src, NULL); } } // argsObj: clear and set to null nativeFrameTracker.set(fp->addressOfArgs(), NULL); setFrameObjPtr(fp->addressOfArgs(), INS_NULL()); // scopeChain: clear, initialize before snapshot, set below nativeFrameTracker.set(fp->addressOfScopeChain(), NULL); setFrameObjPtr(fp->addressOfScopeChain(), INS_NULL()); // nfixed: clear and set to undefined Value *vp = fp->slots(); Value *vpstop = vp + fp->numFixed(); for (; vp < vpstop; ++vp) { nativeFrameTracker.set(vp, NULL); set(vp, void_ins); } // nfixed to nslots: clear vp = fp->base(); vpstop = fp->slots() + fp->numSlots(); for (; vp < vpstop; ++vp) nativeFrameTracker.set(vp, NULL); LIns* callee_ins = get(&cx->fp()->calleeValue()); LIns* scopeChain_ins = stobj_get_parent(callee_ins); // set scopeChain for real if (cx->fp()->fun()->isHeavyweight()) { if (js_IsNamedLambda(cx->fp()->fun())) RETURN_STOP_A("can't call named lambda heavyweight on trace"); LIns* fun_ins = INS_CONSTPTR(cx->fp()->fun()); LIns* args[] = { scopeChain_ins, callee_ins, fun_ins, cx_ins }; LIns* call_ins = lir->insCall(&js_CreateCallObjectOnTrace_ci, args); guard(false, lir->insEqP_0(call_ins), snapshot(OOM_EXIT)); setFrameObjPtr(fp->addressOfScopeChain(), call_ins); } else { setFrameObjPtr(fp->addressOfScopeChain(), scopeChain_ins); } /* Try inlining one level in case this recursion doesn't go too deep. */ if (fp->script() == fp->prev()->script() && fp->prev()->prev() && fp->prev()->prev()->script() == fp->script()) { RETURN_STOP_A("recursion started inlining"); } return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_LeaveFrame() { debug_only_stmt( debug_only_printf(LC_TMTracer, "LeaveFrame (back to %s), callDepth=%d\n", js_AtomToPrintableString(cx, cx->fp()->fun()->atom), callDepth); ); JS_ASSERT(js_CodeSpec[js_GetOpcode(cx, cx->fp()->script(), cx->regs->pc)].length == JSOP_CALL_LENGTH); if (callDepth-- <= 0) RETURN_STOP_A("returned out of a loop we started tracing"); // LeaveFrame gets called after the interpreter popped the frame and // stored rval, so cx->fp() not cx->fp()->prev, and -1 not 0. updateAtoms(); set(&stackval(-1), rval_ins); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_PUSH() { stack(0, INS_UNDEFINED()); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_POPV() { Value& rval = stackval(-1); // Store it in cx->fp()->rval. NB: Tricky dependencies. cx->fp() is the right // frame because POPV appears only in global and eval code and we don't // trace JSOP_EVAL or leaving the frame where tracing started. LIns *fp_ins = entryFrameIns(); box_value_into(rval, get(&rval), fp_ins, JSStackFrame::offsetOfReturnValue(), ACCSET_OTHER); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_ENTERWITH() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_LEAVEWITH() { return ARECORD_STOP; } #ifdef MOZ_TRACE_JSCALLS // Usually, cx->doFunctionCallback() is invoked via DTrace::enterJSFun // and friends, but the DTrace:: probes use fp and therefore would // need to break out of tracing. So we define a functionProbe() // callback to be called by generated code when a Javascript function // is entered or exited. static JSBool JS_FASTCALL functionProbe(JSContext *cx, JSFunction *fun, JSBool enter) { cx->doFunctionCallback(fun, FUN_SCRIPT(fun), enter); return true; } JS_DEFINE_CALLINFO_3(static, BOOL, functionProbe, CONTEXT, FUNCTION, BOOL, 0, 0) #endif JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_RETURN() { /* A return from callDepth 0 terminates the current loop, except for recursion. */ if (callDepth == 0) { AUDIT(returnLoopExits); return endLoop(); } putActivationObjects(); #ifdef MOZ_TRACE_JSCALLS if (cx->functionCallback) { LIns* args[] = { INS_CONST(0), INS_CONSTPTR(cx->fp()->fun()), cx_ins }; LIns* call_ins = lir->insCall(&functionProbe_ci, args); guard(false, lir->insEqI_0(call_ins), MISMATCH_EXIT); } #endif /* If we inlined this function call, make the return value available to the caller code. */ Value& rval = stackval(-1); JSStackFrame *fp = cx->fp(); if (fp->isConstructing() && rval.isPrimitive()) { rval_ins = get(&fp->thisValue()); } else { rval_ins = get(&rval); } debug_only_printf(LC_TMTracer, "returning from %s\n", js_AtomToPrintableString(cx, fp->fun()->atom)); clearCurrentFrameSlotsFromTracker(nativeFrameTracker); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_GOTO() { /* * If we hit a break or a continue to an outer loop, end the loop and * generate an always-taken loop exit guard. For other downward gotos * (like if/else) continue recording. */ jssrcnote* sn = js_GetSrcNote(cx->fp()->script(), cx->regs->pc); if (sn && (SN_TYPE(sn) == SRC_BREAK || SN_TYPE(sn) == SRC_CONT2LABEL)) { AUDIT(breakLoopExits); return endLoop(); } return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_IFEQ() { trackCfgMerges(cx->regs->pc); return ifop(); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_IFNE() { return ifop(); } LIns* TraceRecorder::newArguments(LIns* callee_ins, bool strict) { LIns* global_ins = INS_CONSTOBJ(globalObj); LIns* argc_ins = INS_CONST(cx->fp()->numActualArgs()); LIns* args[] = { callee_ins, argc_ins, global_ins, cx_ins }; LIns* argsobj_ins = lir->insCall(&js_NewArgumentsOnTrace_ci, args); guard(false, lir->insEqP_0(argsobj_ins), OOM_EXIT); if (strict) { LIns* argsData_ins = stobj_get_fslot_private_ptr(argsobj_ins, JSObject::JSSLOT_ARGS_DATA); ptrdiff_t slotsOffset = offsetof(ArgumentsData, slots); cx->fp()->forEachCanonicalActualArg(BoxArg(this, slotsOffset, argsData_ins)); } return argsobj_ins; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_ARGUMENTS() { JSStackFrame* const fp = cx->fp(); /* In an eval, 'arguments' will be a BINDNAME, which we don't trace. */ JS_ASSERT(!fp->isEvalFrame()); if (fp->hasOverriddenArgs()) RETURN_STOP_A("Can't trace |arguments| if |arguments| is assigned to"); LIns* a_ins = getFrameObjPtr(fp->addressOfArgs()); LIns* args_ins; LIns* callee_ins = get(&fp->calleeValue()); bool strict = fp->fun()->inStrictMode(); if (a_ins->isImmP()) { // |arguments| is set to 0 by EnterFrame on this trace, so call to create it. args_ins = newArguments(callee_ins, strict); } else { // Generate LIR to create arguments only if it has not already been created. LIns* mem_ins = lir->insAlloc(sizeof(JSObject *)); LIns* br1 = lir->insBranch(LIR_jt, lir->insEqP_0(a_ins), NULL); lir->insStore(a_ins, mem_ins, 0, ACCSET_OTHER); LIns* br2 = lir->insBranch(LIR_j, NULL, NULL); LIns* label1 = lir->ins0(LIR_label); br1->setTarget(label1); LIns* call_ins = newArguments(callee_ins, strict); lir->insStore(call_ins, mem_ins, 0, ACCSET_OTHER); LIns* label2 = lir->ins0(LIR_label); br2->setTarget(label2); args_ins = lir->insLoad(LIR_ldp, mem_ins, 0, ACCSET_OTHER); } stack(0, args_ins); setFrameObjPtr(fp->addressOfArgs(), args_ins); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_DUP() { stack(0, get(&stackval(-1))); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_DUP2() { stack(0, get(&stackval(-2))); stack(1, get(&stackval(-1))); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_SWAP() { Value& l = stackval(-2); Value& r = stackval(-1); LIns* l_ins = get(&l); LIns* r_ins = get(&r); set(&r, l_ins); set(&l, r_ins); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_PICK() { Value* sp = cx->regs->sp; jsint n = cx->regs->pc[1]; JS_ASSERT(sp - (n+1) >= cx->fp()->base()); LIns* top = get(sp - (n+1)); for (jsint i = 0; i < n; ++i) set(sp - (n+1) + i, get(sp - n + i)); set(&sp[-1], top); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_SETCONST() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_BITOR() { return InjectStatus(binary(LIR_ori)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_BITXOR() { return InjectStatus(binary(LIR_xori)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_BITAND() { return InjectStatus(binary(LIR_andi)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_EQ() { return equality(false, true); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_NE() { return equality(true, true); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_LT() { return relational(LIR_ltd, true); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_LE() { return relational(LIR_led, true); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_GT() { return relational(LIR_gtd, true); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_GE() { return relational(LIR_ged, true); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_LSH() { return InjectStatus(binary(LIR_lshi)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_RSH() { return InjectStatus(binary(LIR_rshi)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_URSH() { return InjectStatus(binary(LIR_rshui)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_ADD() { Value& r = stackval(-1); Value& l = stackval(-2); if (!l.isPrimitive()) { CHECK_STATUS_A(guardNativeConversion(l)); if (!r.isPrimitive()) { CHECK_STATUS_A(guardNativeConversion(r)); return InjectStatus(callImacro(add_imacros.obj_obj)); } return InjectStatus(callImacro(add_imacros.obj_any)); } if (!r.isPrimitive()) { CHECK_STATUS_A(guardNativeConversion(r)); return InjectStatus(callImacro(add_imacros.any_obj)); } if (l.isString() || r.isString()) { LIns* args[] = { stringify(r), stringify(l), cx_ins }; LIns* concat = lir->insCall(&js_ConcatStrings_ci, args); guard(false, lir->insEqP_0(concat), OOM_EXIT); set(&l, concat); return ARECORD_CONTINUE; } return InjectStatus(binary(LIR_addd)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_SUB() { return InjectStatus(binary(LIR_subd)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_MUL() { return InjectStatus(binary(LIR_muld)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_DIV() { return InjectStatus(binary(LIR_divd)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_MOD() { return InjectStatus(binary(LIR_modd)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_NOT() { Value& v = stackval(-1); if (v.isBoolean() || v.isUndefined()) { set(&v, lir->insEqI_0(lir->ins2ImmI(LIR_eqi, get(&v), 1))); return ARECORD_CONTINUE; } if (v.isNumber()) { LIns* v_ins = get(&v); set(&v, lir->ins2(LIR_ori, lir->ins2(LIR_eqd, v_ins, lir->insImmD(0)), lir->insEqI_0(lir->ins2(LIR_eqd, v_ins, v_ins)))); return ARECORD_CONTINUE; } if (v.isObjectOrNull()) { set(&v, lir->insEqP_0(get(&v))); return ARECORD_CONTINUE; } JS_ASSERT(v.isString()); set(&v, lir->insEqP_0(getStringLength(get(&v)))); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_BITNOT() { return InjectStatus(unary(LIR_noti)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_NEG() { Value& v = stackval(-1); if (!v.isPrimitive()) { CHECK_STATUS_A(guardNativeConversion(v)); return InjectStatus(callImacro(unary_imacros.sign)); } if (v.isNumber()) { LIns* a = get(&v); /* * If we're a promoted integer, we have to watch out for 0s since -0 is * a double. Only follow this path if we're not an integer that's 0 and * we're not a double that's zero. */ if (oracle && !oracle->isInstructionUndemotable(cx->regs->pc) && isPromoteInt(a) && (!v.isInt32() || v.toInt32() != 0) && (!v.isDouble() || v.toDouble() != 0) && -v.toNumber() == (int)-v.toNumber()) { VMSideExit* exit = snapshot(OVERFLOW_EXIT); a = guard_xov(LIR_subi, lir->insImmI(0), demote(lir, a), exit); if (!a->isImmI() && a->isop(LIR_subxovi)) { guard(false, lir->ins2ImmI(LIR_eqi, a, 0), exit); // make sure we don't lose a -0 } a = lir->ins1(LIR_i2d, a); } else { a = lir->ins1(LIR_negd, a); } set(&v, a); return ARECORD_CONTINUE; } if (v.isNull()) { set(&v, lir->insImmD(-0.0)); return ARECORD_CONTINUE; } if (v.isUndefined()) { set(&v, lir->insImmD(js_NaN)); return ARECORD_CONTINUE; } if (v.isString()) { LIns* args[] = { get(&v), cx_ins }; set(&v, lir->ins1(LIR_negd, lir->insCall(&js_StringToNumber_ci, args))); return ARECORD_CONTINUE; } JS_ASSERT(v.isBoolean()); set(&v, lir->ins1(LIR_negd, i2d(get(&v)))); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_POS() { Value& v = stackval(-1); if (!v.isPrimitive()) { CHECK_STATUS_A(guardNativeConversion(v)); return InjectStatus(callImacro(unary_imacros.sign)); } if (v.isNumber()) return ARECORD_CONTINUE; if (v.isNull()) { set(&v, lir->insImmD(0)); return ARECORD_CONTINUE; } if (v.isUndefined()) { set(&v, lir->insImmD(js_NaN)); return ARECORD_CONTINUE; } if (v.isString()) { LIns* args[] = { get(&v), cx_ins }; set(&v, lir->insCall(&js_StringToNumber_ci, args)); return ARECORD_CONTINUE; } JS_ASSERT(v.isBoolean()); set(&v, i2d(get(&v))); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_PRIMTOP() { // Either this opcode does nothing or we couldn't have traced here, because // we'd have thrown an exception -- so do nothing if we actually hit this. return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_OBJTOP() { Value& v = stackval(-1); RETURN_IF_XML_A(v); return ARECORD_CONTINUE; } RecordingStatus TraceRecorder::getClassPrototype(JSObject* ctor, LIns*& proto_ins) { // ctor must be a function created via js_InitClass. #ifdef DEBUG Class *clasp = FUN_CLASP(GET_FUNCTION_PRIVATE(cx, ctor)); JS_ASSERT(clasp); TraceMonitor &localtm = JS_TRACE_MONITOR(cx); #endif Value pval; if (!ctor->getProperty(cx, ATOM_TO_JSID(cx->runtime->atomState.classPrototypeAtom), &pval)) RETURN_ERROR("error getting prototype from constructor"); // ctor.prototype is a permanent data property, so this lookup cannot have // deep-aborted. JS_ASSERT(localtm.recorder); #ifdef DEBUG JSBool ok, found; uintN attrs; ok = JS_GetPropertyAttributes(cx, ctor, js_class_prototype_str, &attrs, &found); JS_ASSERT(ok); JS_ASSERT(found); JS_ASSERT((~attrs & (JSPROP_READONLY | JSPROP_PERMANENT)) == 0); #endif // Since ctor was built by js_InitClass, we can assert (rather than check) // that pval is usable. JS_ASSERT(!pval.isPrimitive()); JSObject *proto = &pval.toObject(); JS_ASSERT_IF(clasp != &js_ArrayClass, proto->emptyShape->getClass() == clasp); proto_ins = INS_CONSTOBJ(proto); return RECORD_CONTINUE; } RecordingStatus TraceRecorder::getClassPrototype(JSProtoKey key, LIns*& proto_ins) { #ifdef DEBUG TraceMonitor &localtm = JS_TRACE_MONITOR(cx); #endif JSObject* proto; if (!js_GetClassPrototype(cx, globalObj, key, &proto)) RETURN_ERROR("error in js_GetClassPrototype"); // This should not have reentered. JS_ASSERT(localtm.recorder); #ifdef DEBUG /* Double-check that a native proto has a matching emptyShape. */ if (key != JSProto_Array) { JS_ASSERT(proto->isNative()); EmptyShape *empty = proto->emptyShape; JS_ASSERT(empty); JS_ASSERT(JSCLASS_CACHED_PROTO_KEY(empty->getClass()) == key); } #endif proto_ins = INS_CONSTOBJ(proto); return RECORD_CONTINUE; } #define IGNORE_NATIVE_CALL_COMPLETE_CALLBACK ((JSSpecializedNative*)1) RecordingStatus TraceRecorder::newString(JSObject* ctor, uint32 argc, Value* argv, Value* rval) { JS_ASSERT(argc == 1); if (!argv[0].isPrimitive()) { CHECK_STATUS(guardNativeConversion(argv[0])); return callImacro(new_imacros.String); } LIns* proto_ins; CHECK_STATUS(getClassPrototype(ctor, proto_ins)); LIns* args[] = { stringify(argv[0]), proto_ins, cx_ins }; LIns* obj_ins = lir->insCall(&js_String_tn_ci, args); guard(false, lir->insEqP_0(obj_ins), OOM_EXIT); set(rval, obj_ins); pendingSpecializedNative = IGNORE_NATIVE_CALL_COMPLETE_CALLBACK; return RECORD_CONTINUE; } RecordingStatus TraceRecorder::newArray(JSObject* ctor, uint32 argc, Value* argv, Value* rval) { LIns *proto_ins; CHECK_STATUS(getClassPrototype(ctor, proto_ins)); LIns *arr_ins; if (argc == 0 || (argc == 1 && argv[0].isNumber())) { LIns *args[] = { argc == 0 ? lir->insImmI(0) : d2i(get(argv)), proto_ins, cx_ins }; arr_ins = lir->insCall(&js_NewEmptyArray_ci, args); guard(false, lir->insEqP_0(arr_ins), OOM_EXIT); } else { LIns *args[] = { INS_CONST(argc), proto_ins, cx_ins }; arr_ins = lir->insCall(&js_NewPreallocatedArray_ci, args); guard(false, lir->insEqP_0(arr_ins), OOM_EXIT); // arr->dslots[i] = box_jsval(vp[i]); for i in 0..argc LIns *dslots_ins = NULL; for (uint32 i = 0; i < argc && !outOfMemory(); i++) { stobj_set_dslot(arr_ins, i, dslots_ins, argv[i], get(&argv[i])); } } set(rval, arr_ins); pendingSpecializedNative = IGNORE_NATIVE_CALL_COMPLETE_CALLBACK; return RECORD_CONTINUE; } JS_REQUIRES_STACK void TraceRecorder::propagateFailureToBuiltinStatus(LIns* ok_ins, LIns*& status_ins) { /* * Check the boolean return value (ok_ins) of a native JSNative, * JSFastNative, or JSPropertyOp hook for failure. On failure, set the * BUILTIN_ERROR bit of cx->builtinStatus. * * If the return value (ok_ins) is true, status' == status. Otherwise * status' = status | BUILTIN_ERROR. We calculate (rval&1)^1, which is 1 * if rval is JS_FALSE (error), and then shift that by 1, which is the log2 * of BUILTIN_ERROR. */ JS_STATIC_ASSERT(((JS_TRUE & 1) ^ 1) << 1 == 0); JS_STATIC_ASSERT(((JS_FALSE & 1) ^ 1) << 1 == BUILTIN_ERROR); status_ins = lir->ins2(LIR_ori, status_ins, lir->ins2ImmI(LIR_lshi, lir->ins2ImmI(LIR_xori, lir->ins2ImmI(LIR_andi, ok_ins, 1), 1), 1)); lir->insStore(status_ins, lirbuf->state, (int) offsetof(TracerState, builtinStatus), ACCSET_OTHER); } JS_REQUIRES_STACK void TraceRecorder::emitNativePropertyOp(const Shape* shape, LIns* obj_ins, bool setflag, LIns* addr_boxed_val_ins) { JS_ASSERT(addr_boxed_val_ins->isop(LIR_allocp)); JS_ASSERT(setflag ? !shape->hasSetterValue() : !shape->hasGetterValue()); JS_ASSERT(setflag ? !shape->hasDefaultSetter() : !shape->hasDefaultGetterOrIsMethod()); enterDeepBailCall(); lir->insStore(addr_boxed_val_ins, lirbuf->state, offsetof(TracerState, nativeVp), ACCSET_OTHER); lir->insStore(INS_CONST(1), lirbuf->state, offsetof(TracerState, nativeVpLen), ACCSET_OTHER); CallInfo* ci = new (traceAlloc()) CallInfo(); ci->_address = uintptr_t(setflag ? shape->setterOp() : shape->getterOp()); ci->_typesig = CallInfo::typeSig4(ARGTYPE_I, ARGTYPE_P, ARGTYPE_P, ARGTYPE_P, ARGTYPE_P); ci->_isPure = 0; ci->_storeAccSet = ACCSET_STORE_ANY; ci->_abi = ABI_CDECL; #ifdef DEBUG ci->_name = "JSPropertyOp"; #endif LIns* args[] = { addr_boxed_val_ins, INS_CONSTID(SHAPE_USERID(shape)), obj_ins, cx_ins }; LIns* ok_ins = lir->insCall(ci, args); // Cleanup. Immediately clear nativeVp before we might deep bail. lir->insStore(INS_NULL(), lirbuf->state, offsetof(TracerState, nativeVp), ACCSET_OTHER); leaveDeepBailCall(); // Guard that the call succeeded and builtinStatus is still 0. // If the native op succeeds but we deep-bail here, the result value is // lost! Therefore this can only be used for setters of shared properties. // In that case we ignore the result value anyway. LIns* status_ins = lir->insLoad(LIR_ldi, lirbuf->state, (int) offsetof(TracerState, builtinStatus), ACCSET_OTHER); propagateFailureToBuiltinStatus(ok_ins, status_ins); guard(true, lir->insEqI_0(status_ins), STATUS_EXIT); } JS_REQUIRES_STACK RecordingStatus TraceRecorder::emitNativeCall(JSSpecializedNative* sn, uintN argc, LIns* args[], bool rooted) { if (JSTN_ERRTYPE(sn) == FAIL_STATUS) { // This needs to capture the pre-call state of the stack. So do not set // pendingSpecializedNative before taking this snapshot. JS_ASSERT(!pendingSpecializedNative); // Take snapshot for DeepBail and store it in cx->bailExit. enterDeepBailCall(); } LIns* res_ins = lir->insCall(sn->builtin, args); // Immediately unroot the vp as soon we return since we might deep bail next. if (rooted) lir->insStore(INS_NULL(), lirbuf->state, offsetof(TracerState, nativeVp), ACCSET_OTHER); rval_ins = res_ins; switch (JSTN_ERRTYPE(sn)) { case FAIL_NULL: guard(false, lir->insEqP_0(res_ins), OOM_EXIT); break; case FAIL_NEG: res_ins = lir->ins1(LIR_i2d, res_ins); guard(false, lir->ins2(LIR_ltd, res_ins, lir->insImmD(0)), OOM_EXIT); break; case FAIL_NEITHER: guard(false, lir->ins2ImmI(LIR_eqi, res_ins, JS_NEITHER), OOM_EXIT); break; default:; } set(&stackval(0 - (2 + argc)), res_ins); /* * The return value will be processed by NativeCallComplete since * we have to know the actual return value type for calls that return * jsval. */ pendingSpecializedNative = sn; return RECORD_CONTINUE; } /* * Check whether we have a specialized implementation for this native * invocation. */ JS_REQUIRES_STACK RecordingStatus TraceRecorder::callSpecializedNative(JSNativeTraceInfo *trcinfo, uintN argc, bool constructing) { JSStackFrame* const fp = cx->fp(); jsbytecode *pc = cx->regs->pc; Value& fval = stackval(0 - (2 + argc)); Value& tval = stackval(0 - (1 + argc)); LIns* this_ins = get(&tval); LIns* args[nanojit::MAXARGS]; JSSpecializedNative *sn = trcinfo->specializations; JS_ASSERT(sn); do { if (((sn->flags & JSTN_CONSTRUCTOR) != 0) != constructing) continue; uintN knownargc = strlen(sn->argtypes); if (argc != knownargc) continue; intN prefixc = strlen(sn->prefix); JS_ASSERT(prefixc <= 3); LIns** argp = &args[argc + prefixc - 1]; char argtype; #if defined DEBUG memset(args, 0xCD, sizeof(args)); #endif uintN i; for (i = prefixc; i--; ) { argtype = sn->prefix[i]; if (argtype == 'C') { *argp = cx_ins; } else if (argtype == 'T') { /* this, as an object */ if (tval.isPrimitive()) goto next_specialization; *argp = this_ins; } else if (argtype == 'S') { /* this, as a string */ if (!tval.isString()) goto next_specialization; *argp = this_ins; } else if (argtype == 'f') { *argp = INS_CONSTOBJ(&fval.toObject()); } else if (argtype == 'p') { CHECK_STATUS(getClassPrototype(&fval.toObject(), *argp)); } else if (argtype == 'R') { *argp = INS_CONSTPTR(cx->runtime); } else if (argtype == 'P') { // FIXME: Set pc to imacpc when recording JSOP_CALL inside the // JSOP_GETELEM imacro (bug 476559). if ((*pc == JSOP_CALL) && fp->hasImacropc() && *fp->imacropc() == JSOP_GETELEM) *argp = INS_CONSTPTR(fp->imacropc()); else *argp = INS_CONSTPTR(pc); } else if (argtype == 'D') { /* this, as a number */ if (!tval.isNumber()) goto next_specialization; *argp = this_ins; } else { JS_NOT_REACHED("unknown prefix arg type"); } argp--; } for (i = knownargc; i--; ) { Value& arg = stackval(0 - (i + 1)); *argp = get(&arg); argtype = sn->argtypes[i]; if (argtype == 'd' || argtype == 'i') { if (!arg.isNumber()) goto next_specialization; if (argtype == 'i') *argp = d2i(*argp); } else if (argtype == 'o') { if (arg.isPrimitive()) goto next_specialization; } else if (argtype == 's') { if (!arg.isString()) goto next_specialization; } else if (argtype == 'r') { if (!VALUE_IS_REGEXP(cx, arg)) goto next_specialization; } else if (argtype == 'f') { if (!IsFunctionObject(arg)) goto next_specialization; } else if (argtype == 'v') { *argp = box_value_for_native_call(arg, *argp); } else { goto next_specialization; } argp--; } #if defined DEBUG JS_ASSERT(args[0] != (LIns *)0xcdcdcdcd); #endif return emitNativeCall(sn, argc, args, false); next_specialization:; } while ((sn++)->flags & JSTN_MORE); return RECORD_STOP; } JS_REQUIRES_STACK RecordingStatus TraceRecorder::callNative(uintN argc, JSOp mode) { LIns* args[5]; JS_ASSERT(mode == JSOP_CALL || mode == JSOP_NEW || mode == JSOP_APPLY); Value* vp = &stackval(0 - (2 + argc)); JSObject* funobj = &vp[0].toObject(); JSFunction* fun = GET_FUNCTION_PRIVATE(cx, funobj); Native native = fun->u.n.native; switch (argc) { case 1: if (vp[2].isNumber() && mode == JSOP_CALL) { if (native == js_math_ceil || native == js_math_floor || native == js_math_round) { LIns* a = get(&vp[2]); if (isPromote(a)) { set(&vp[0], a); pendingSpecializedNative = IGNORE_NATIVE_CALL_COMPLETE_CALLBACK; return RECORD_CONTINUE; } } if (vp[1].isString()) { JSString *str = vp[1].toString(); if (native == js_str_charAt) { LIns* str_ins = get(&vp[1]); LIns* idx_ins = get(&vp[2]); set(&vp[0], getCharAt(str, str_ins, idx_ins, mode)); pendingSpecializedNative = IGNORE_NATIVE_CALL_COMPLETE_CALLBACK; return RECORD_CONTINUE; } else if (native == js_str_charCodeAt) { jsdouble i = vp[2].toNumber(); if (i < 0 || i >= str->length()) RETURN_STOP("charCodeAt out of bounds"); LIns* str_ins = get(&vp[1]); LIns* idx_ins = get(&vp[2]); set(&vp[0], getCharCodeAt(str, str_ins, idx_ins)); pendingSpecializedNative = IGNORE_NATIVE_CALL_COMPLETE_CALLBACK; return RECORD_CONTINUE; } } } else if (vp[2].isString() && mode == JSOP_CALL) { if (native == js_regexp_exec) { jsbytecode *pc = cx->regs->pc; /* * If we see any of these sequences, the result is unused: * - call / pop * - call / trace / pop * * If we see any of these sequences, the result is only tested for nullness: * - call / ifeq * - call / trace / ifeq * - call / not / ifeq * - call / trace / not / ifeq * * In either case, we replace the call to RegExp.exec() on the * stack with a call to RegExp.test() because "r.exec(s) != * null" is equivalent to "r.test(s)". This avoids building * the result array, which can be expensive. This requires * that RegExp.prototype.test() hasn't been changed; we check this. */ if (pc[0] == JSOP_CALL) { if ((pc[JSOP_CALL_LENGTH] == JSOP_POP) || (pc[JSOP_CALL_LENGTH] == JSOP_TRACE && pc[JSOP_CALL_LENGTH + JSOP_TRACE_LENGTH] == JSOP_POP) || (pc[JSOP_CALL_LENGTH] == JSOP_IFEQ) || (pc[JSOP_CALL_LENGTH] == JSOP_TRACE && pc[JSOP_CALL_LENGTH + JSOP_TRACE_LENGTH] == JSOP_IFEQ) || (pc[JSOP_CALL_LENGTH] == JSOP_NOT && pc[JSOP_CALL_LENGTH + JSOP_NOT_LENGTH] == JSOP_IFEQ) || (pc[JSOP_CALL_LENGTH] == JSOP_TRACE && pc[JSOP_CALL_LENGTH + JSOP_TRACE_LENGTH] == JSOP_NOT && pc[JSOP_CALL_LENGTH + JSOP_TRACE_LENGTH + JSOP_NOT_LENGTH] == JSOP_IFEQ)) { JSObject* proto; Value test; jsid testId = ATOM_TO_JSID(cx->runtime->atomState.testAtom); /* Get RegExp.prototype.test() and check it hasn't been changed. */ if (js_GetClassPrototype(cx, funobj->getParent(), JSProto_RegExp, &proto) && js_GetProperty(cx, proto, testId, &test) && IsFunctionObject(test)) { JSObject* tmpfunobj = &test.toObject(); JSFunction* tmpfun = GET_FUNCTION_PRIVATE(cx, tmpfunobj); Native tmpnative = tmpfun->maybeNative(); if (tmpnative == js_regexp_test) { vp[0] = test; funobj = tmpfunobj; fun = tmpfun; native = tmpnative; } } } } } } break; case 2: if (vp[2].isNumber() && vp[3].isNumber() && mode == JSOP_CALL && (native == js_math_min || native == js_math_max)) { LIns* a = get(&vp[2]); LIns* b = get(&vp[3]); if (isPromote(a) && isPromote(b)) { a = demote(lir, a); b = demote(lir, b); set(&vp[0], lir->ins1(LIR_i2d, lir->insChoose(lir->ins2((native == js_math_min) ? LIR_lti : LIR_gti, a, b), a, b, avmplus::AvmCore::use_cmov()))); pendingSpecializedNative = IGNORE_NATIVE_CALL_COMPLETE_CALLBACK; return RECORD_CONTINUE; } } break; } if (fun->flags & JSFUN_TRCINFO) { JSNativeTraceInfo *trcinfo = FUN_TRCINFO(fun); JS_ASSERT(trcinfo && fun->u.n.native == trcinfo->native); /* Try to call a type specialized version of the native. */ if (trcinfo->specializations) { RecordingStatus status = callSpecializedNative(trcinfo, argc, mode == JSOP_NEW); if (status != RECORD_STOP) return status; } } if (native == js_fun_apply || native == js_fun_call) RETURN_STOP("trying to call native apply or call"); // Allocate the vp vector and emit code to root it. uintN vplen = 2 + argc; LIns* invokevp_ins = lir->insAlloc(vplen * sizeof(Value)); // vp[0] is the callee. box_value_into(vp[0], INS_CONSTOBJ(funobj), invokevp_ins, 0, ACCSET_OTHER); // Calculate |this|. LIns* this_ins; if (mode == JSOP_NEW) { Class* clasp = fun->u.n.clasp; JS_ASSERT(clasp != &js_SlowArrayClass); if (!clasp) clasp = &js_ObjectClass; JS_ASSERT(((jsuword) clasp & 3) == 0); // Abort on |new Function|. js_NewInstance would allocate a regular- // sized JSObject, not a Function-sized one. (The Function ctor would // deep-bail anyway but let's not go there.) if (clasp == &js_FunctionClass) RETURN_STOP("new Function"); if (!clasp->isNative()) RETURN_STOP("new with non-native ops"); if (fun->isConstructor()) { vp[1].setMagicWithObjectOrNullPayload(NULL); newobj_ins = INS_MAGIC_NULL(); /* Treat this as a regular call, the constructor will behave correctly. */ mode = JSOP_CALL; } else { args[0] = INS_CONSTOBJ(funobj); args[1] = INS_CONSTPTR(clasp); args[2] = cx_ins; newobj_ins = lir->insCall(&js_NewInstanceFromTrace_ci, args); guard(false, lir->insEqP_0(newobj_ins), OOM_EXIT); /* * emitNativeCall may take a snapshot below. To avoid having a type * mismatch (e.g., where get(&vp[1]) is an object and vp[1] is * null), we make sure vp[1] is some object. The actual object * doesn't matter; JSOP_NEW and InvokeConstructor both overwrite * vp[1] without observing its value. * * N.B. tracing specializes for functions, so pick a non-function. */ vp[1].setObject(*globalObj); } this_ins = newobj_ins; } else { this_ins = get(&vp[1]); } set(&vp[1], this_ins); box_value_into(vp[1], this_ins, invokevp_ins, 1 * sizeof(Value), ACCSET_OTHER); // Populate argv. for (uintN n = 2; n < 2 + argc; n++) { box_value_into(vp[n], get(&vp[n]), invokevp_ins, n * sizeof(Value), ACCSET_OTHER); // For a very long argument list we might run out of LIR space, so // check inside the loop. if (outOfMemory()) RETURN_STOP("out of memory in argument list"); } // Populate extra slots, including the return value slot for a slow native. if (2 + argc < vplen) { for (uintN n = 2 + argc; n < vplen; n++) { box_undefined_into(invokevp_ins, n * sizeof(Value), ACCSET_OTHER); if (outOfMemory()) RETURN_STOP("out of memory in extra slots"); } } // Set up arguments for the JSNative or JSFastNative. if (mode == JSOP_NEW) RETURN_STOP("untraceable fast native constructor"); native_rval_ins = invokevp_ins; args[0] = invokevp_ins; args[1] = lir->insImmI(argc); args[2] = cx_ins; uint32 typesig = CallInfo::typeSig3(ARGTYPE_I, ARGTYPE_P, ARGTYPE_I, ARGTYPE_P); // Generate CallInfo and a JSSpecializedNative structure on the fly. // Do not use JSTN_UNBOX_AFTER for mode JSOP_NEW because // record_NativeCallComplete unboxes the result specially. CallInfo* ci = new (traceAlloc()) CallInfo(); ci->_address = uintptr_t(fun->u.n.native); ci->_isPure = 0; ci->_storeAccSet = ACCSET_STORE_ANY; ci->_abi = ABI_CDECL; ci->_typesig = typesig; #ifdef DEBUG ci->_name = JS_GetFunctionName(fun); #endif // Generate a JSSpecializedNative structure on the fly. generatedSpecializedNative.builtin = ci; generatedSpecializedNative.flags = FAIL_STATUS | ((mode == JSOP_NEW) ? JSTN_CONSTRUCTOR : JSTN_UNBOX_AFTER); generatedSpecializedNative.prefix = NULL; generatedSpecializedNative.argtypes = NULL; // We only have to ensure that the values we wrote into the stack buffer // are rooted if we actually make it to the call, so only set nativeVp and // nativeVpLen immediately before emitting the call code. This way we avoid // leaving trace with a bogus nativeVp because we fall off trace while unboxing // values into the stack buffer. lir->insStore(INS_CONST(vplen), lirbuf->state, offsetof(TracerState, nativeVpLen), ACCSET_OTHER); lir->insStore(invokevp_ins, lirbuf->state, offsetof(TracerState, nativeVp), ACCSET_OTHER); // argc is the original argc here. It is used to calculate where to place // the return value. return emitNativeCall(&generatedSpecializedNative, argc, args, true); } JS_REQUIRES_STACK RecordingStatus TraceRecorder::functionCall(uintN argc, JSOp mode) { Value& fval = stackval(0 - (2 + argc)); JS_ASSERT(&fval >= cx->fp()->base()); if (!IsFunctionObject(fval)) RETURN_STOP("callee is not a function"); Value& tval = stackval(0 - (1 + argc)); /* * If callee is not constant, it's a shapeless call and we have to guard * explicitly that we will get this callee again at runtime. */ if (!get(&fval)->isImmP()) CHECK_STATUS(guardCallee(fval)); /* * Require that the callee be a function object, to avoid guarding on its * class here. We know if the callee and this were pushed by JSOP_CALLNAME * or JSOP_CALLPROP that callee is a *particular* function, since these hit * the property cache and guard on the object (this) in which the callee * was found. So it's sufficient to test here that the particular function * is interpreted, not guard on that condition. * * Bytecode sequences that push shapeless callees must guard on the callee * class being Function and the function being interpreted. */ JSFunction* fun = GET_FUNCTION_PRIVATE(cx, &fval.toObject()); #ifdef MOZ_TRACE_JSCALLS if (cx->functionCallback) { JSScript *script = FUN_SCRIPT(fun); if (! script || ! script->isEmpty()) { LIns* args[] = { INS_CONST(1), INS_CONSTPTR(fun), cx_ins }; LIns* call_ins = lir->insCall(&functionProbe_ci, args); guard(false, lir->insEqI_0(call_ins), MISMATCH_EXIT); } } #endif if (FUN_INTERPRETED(fun)) { if (mode == JSOP_NEW) { LIns* args[] = { get(&fval), INS_CONSTPTR(&js_ObjectClass), cx_ins }; LIns* tv_ins = lir->insCall(&js_NewInstanceFromTrace_ci, args); guard(false, lir->insEqP_0(tv_ins), OOM_EXIT); set(&tval, tv_ins); } return interpretedFunctionCall(fval, fun, argc, mode == JSOP_NEW); } Native native = fun->maybeNative(); Value* argv = &tval + 1; if (native == js_Array) return newArray(&fval.toObject(), argc, argv, &fval); if (native == js_String && argc == 1) { if (mode == JSOP_NEW) return newString(&fval.toObject(), 1, argv, &fval); if (!argv[0].isPrimitive()) { CHECK_STATUS(guardNativeConversion(argv[0])); return callImacro(call_imacros.String); } set(&fval, stringify(argv[0])); pendingSpecializedNative = IGNORE_NATIVE_CALL_COMPLETE_CALLBACK; return RECORD_CONTINUE; } RecordingStatus rs = callNative(argc, mode); #ifdef MOZ_TRACE_JSCALLS if (cx->functionCallback) { LIns* args[] = { INS_CONST(0), INS_CONSTPTR(fun), cx_ins }; LIns* call_ins = lir->insCall(&functionProbe_ci, args); guard(false, lir->insEqI_0(call_ins), MISMATCH_EXIT); } #endif return rs; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_NEW() { uintN argc = GET_ARGC(cx->regs->pc); cx->assertValidStackDepth(argc + 2); return InjectStatus(functionCall(argc, JSOP_NEW)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_DELNAME() { return ARECORD_STOP; } JSBool JS_FASTCALL DeleteIntKey(JSContext* cx, JSObject* obj, int32 i, JSBool strict) { LeaveTraceIfGlobalObject(cx, obj); Value v = BooleanValue(false); jsid id = INT_TO_JSID(i); if (!obj->deleteProperty(cx, id, &v, strict)) SetBuiltinError(cx); return v.toBoolean(); } JS_DEFINE_CALLINFO_4(extern, BOOL_FAIL, DeleteIntKey, CONTEXT, OBJECT, INT32, BOOL, 0, ACCSET_STORE_ANY) JSBool JS_FASTCALL DeleteStrKey(JSContext* cx, JSObject* obj, JSString* str, JSBool strict) { LeaveTraceIfGlobalObject(cx, obj); Value v = BooleanValue(false); jsid id; /* * NB: JSOP_DELPROP does not need js_ValueToStringId to atomize, but (see * jsatominlines.h) that helper early-returns if the computed property name * string is already atomized, and we are *not* on a perf-critical path! */ if (!js_ValueToStringId(cx, StringValue(str), &id) || !obj->deleteProperty(cx, id, &v, strict)) SetBuiltinError(cx); return v.toBoolean(); } JS_DEFINE_CALLINFO_4(extern, BOOL_FAIL, DeleteStrKey, CONTEXT, OBJECT, STRING, BOOL, 0, ACCSET_STORE_ANY) JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_DELPROP() { Value& lval = stackval(-1); if (lval.isPrimitive()) RETURN_STOP_A("JSOP_DELPROP on primitive base expression"); if (&lval.toObject() == globalObj) RETURN_STOP_A("JSOP_DELPROP on global property"); JSAtom* atom = atoms[GET_INDEX(cx->regs->pc)]; enterDeepBailCall(); LIns* args[] = { strictModeCode_ins, INS_ATOM(atom), get(&lval), cx_ins }; LIns* rval_ins = lir->insCall(&DeleteStrKey_ci, args); LIns* status_ins = lir->insLoad(LIR_ldi, lirbuf->state, offsetof(TracerState, builtinStatus), ACCSET_OTHER); pendingGuardCondition = lir->insEqI_0(status_ins); leaveDeepBailCall(); set(&lval, rval_ins); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_DELELEM() { Value& lval = stackval(-2); if (lval.isPrimitive()) RETURN_STOP_A("JSOP_DELELEM on primitive base expression"); if (&lval.toObject() == globalObj) RETURN_STOP_A("JSOP_DELELEM on global property"); Value& idx = stackval(-1); LIns* rval_ins; enterDeepBailCall(); if (hasInt32Repr(idx)) { LIns* args[] = { strictModeCode_ins, makeNumberInt32(get(&idx)), get(&lval), cx_ins }; rval_ins = lir->insCall(&DeleteIntKey_ci, args); } else if (idx.isString()) { LIns* args[] = { strictModeCode_ins, get(&idx), get(&lval), cx_ins }; rval_ins = lir->insCall(&DeleteStrKey_ci, args); } else { RETURN_STOP_A("JSOP_DELELEM on non-int, non-string index"); } LIns* status_ins = lir->insLoad(LIR_ldi, lirbuf->state, offsetof(TracerState, builtinStatus), ACCSET_OTHER); pendingGuardCondition = lir->insEqI_0(status_ins); leaveDeepBailCall(); set(&lval, rval_ins); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_TYPEOF() { Value& r = stackval(-1); LIns* type; if (r.isString()) { type = INS_ATOM(cx->runtime->atomState.typeAtoms[JSTYPE_STRING]); } else if (r.isNumber()) { type = INS_ATOM(cx->runtime->atomState.typeAtoms[JSTYPE_NUMBER]); } else if (r.isUndefined()) { type = INS_ATOM(cx->runtime->atomState.typeAtoms[JSTYPE_VOID]); } else if (r.isBoolean()) { type = INS_ATOM(cx->runtime->atomState.typeAtoms[JSTYPE_BOOLEAN]); } else if (r.isNull()) { type = INS_ATOM(cx->runtime->atomState.typeAtoms[JSTYPE_OBJECT]); } else { if (r.toObject().isFunction()) { type = INS_ATOM(cx->runtime->atomState.typeAtoms[JSTYPE_FUNCTION]); } else { LIns* args[] = { get(&r), cx_ins }; type = lir->insCall(&js_TypeOfObject_ci, args); } } set(&r, type); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_VOID() { stack(-1, INS_UNDEFINED()); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_INCNAME() { return incName(1); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_INCPROP() { return incProp(1); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_INCELEM() { return InjectStatus(incElem(1)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_DECNAME() { return incName(-1); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_DECPROP() { return incProp(-1); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_DECELEM() { return InjectStatus(incElem(-1)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::incName(jsint incr, bool pre) { Value* vp; LIns* v_ins; LIns* v_after; NameResult nr; CHECK_STATUS_A(name(vp, v_ins, nr)); Value v = nr.tracked ? *vp : nr.v; CHECK_STATUS_A(incHelper(v, v_ins, v_after, incr)); LIns* v_result = pre ? v_after : v_ins; if (nr.tracked) { set(vp, v_after); stack(0, v_result); return ARECORD_CONTINUE; } if (!nr.obj->isCall()) RETURN_STOP_A("incName on unsupported object class"); CHECK_STATUS_A(setCallProp(nr.obj, nr.obj_ins, nr.shape, v_after, v)); stack(0, v_result); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_NAMEINC() { return incName(1, false); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_PROPINC() { return incProp(1, false); } // XXX consolidate with record_JSOP_GETELEM code... JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_ELEMINC() { return InjectStatus(incElem(1, false)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_NAMEDEC() { return incName(-1, false); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_PROPDEC() { return incProp(-1, false); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_ELEMDEC() { return InjectStatus(incElem(-1, false)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_GETPROP() { return getProp(stackval(-1)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_SETPROP() { Value& l = stackval(-2); if (l.isPrimitive()) RETURN_STOP_A("primitive this for SETPROP"); JSObject* obj = &l.toObject(); if (obj->getOps()->setProperty) RETURN_STOP_A("non-native js::ObjectOps::setProperty"); return ARECORD_CONTINUE; } /* Emit a specialized, inlined copy of js_NativeSet. */ JS_REQUIRES_STACK RecordingStatus TraceRecorder::nativeSet(JSObject* obj, LIns* obj_ins, const Shape* shape, const Value &v, LIns* v_ins) { uint32 slot = shape->slot; /* * We do not trace assignment to properties that have both a nonstub setter * and a slot, for several reasons. * * First, that would require sampling rt->propertyRemovals before and after * (see js_NativeSet), and even more code to handle the case where the two * samples differ. A mere guard is not enough, because you can't just bail * off trace in the middle of a property assignment without storing the * value and making the stack right. * * If obj is the global object, there are two additional problems. We would * have to emit still more code to store the result in the object (not the * native global frame) if the setter returned successfully after * deep-bailing. And we would have to cope if the run-time type of the * setter's return value differed from the record-time type of v, in which * case unboxing would fail and, having called a native setter, we could * not just retry the instruction in the interpreter. */ JS_ASSERT(shape->hasDefaultSetter() || slot == SHAPE_INVALID_SLOT); // Call the setter, if any. if (!shape->hasDefaultSetter()) emitNativePropertyOp(shape, obj_ins, true, box_value_into_alloc(v, v_ins)); // Store the value, if this property has a slot. if (slot != SHAPE_INVALID_SLOT) { JS_ASSERT(obj->containsSlot(shape->slot)); JS_ASSERT(shape->hasSlot()); if (obj == globalObj) { if (!lazilyImportGlobalSlot(slot)) RETURN_STOP("lazy import of global slot failed"); set(&obj->getSlotRef(slot), v_ins); } else { LIns* dslots_ins = NULL; stobj_set_slot(obj_ins, slot, dslots_ins, v, v_ins); } } return RECORD_CONTINUE; } static JSBool FASTCALL MethodWriteBarrier(JSContext* cx, JSObject* obj, Shape* shape, JSObject* funobj) { bool ok = obj->methodWriteBarrier(cx, *shape, ObjectValue(*funobj)); JS_ASSERT(cx->tracerState->builtinStatus == 0); return ok; } JS_DEFINE_CALLINFO_4(static, BOOL_RETRY, MethodWriteBarrier, CONTEXT, OBJECT, SHAPE, OBJECT, 0, ACCSET_STORE_ANY) JS_REQUIRES_STACK RecordingStatus TraceRecorder::setProp(Value &l, PropertyCacheEntry* entry, const Shape* shape, Value &v, LIns*& v_ins, bool isDefinitelyAtom) { if (entry == JS_NO_PROP_CACHE_FILL) RETURN_STOP("can't trace uncacheable property set"); JS_ASSERT_IF(entry->vcapTag() >= 1, !shape->hasSlot()); JS_ASSERT(!l.isPrimitive()); JSObject* obj = &l.toObject(); if (!shape->hasDefaultSetter() && shape->slot != SHAPE_INVALID_SLOT && !obj->isCall()) RETURN_STOP("can't trace set of property with setter and slot"); if (shape->hasSetterValue()) RETURN_STOP("can't trace JavaScript function setter"); // These two cases are errors and can't be traced. if (shape->hasGetterValue()) RETURN_STOP("can't assign to property with script getter but no setter"); if (!shape->writable()) RETURN_STOP("can't assign to readonly property"); LIns* obj_ins = get(&l); JS_ASSERT_IF(entry->directHit(), obj->nativeContains(*shape)); // Fast path for CallClass. This is about 20% faster than the general case. v_ins = get(&v); if (obj->isCall()) return setCallProp(obj, obj_ins, shape, v_ins, v); // Find obj2. If entry->adding(), the TAG bits are all 0. JSObject* obj2 = obj; for (jsuword i = entry->scopeIndex(); i; i--) obj2 = obj2->getParent(); for (jsuword j = entry->protoIndex(); j; j--) obj2 = obj2->getProto(); JS_ASSERT_IF(entry->adding(), obj2 == obj); // Guard before anything else. PCVal pcval; CHECK_STATUS(guardPropertyCacheHit(obj_ins, obj, obj2, entry, pcval)); JS_ASSERT(!obj2->nativeEmpty()); JS_ASSERT(obj2->nativeContains(*shape)); JS_ASSERT_IF(obj2 != obj, !shape->hasSlot()); /* * Setting a function-valued property might need to rebrand the object, so * we emit a call to the method write barrier. There's no need to guard on * this, because functions have distinct trace-type from other values and * branded-ness is implied by the shape, which we've already guarded on. */ if (obj2->brandedOrHasMethodBarrier() && IsFunctionObject(v) && entry->directHit()) { /* * This guarantees that generateOwnShape (possibly called by the * methodWriteBarrier) will not leave trace. */ if (obj == globalObj) RETURN_STOP("can't trace function-valued property set in branded global scope"); /* * MethodWriteBarrier takes care not to deep bail, but it may reshape * the given object, so forget anything we knew about obj's shape. */ guardedShapeTable.remove(obj_ins); LIns* args[] = { v_ins, INS_CONSTSHAPE(shape), obj_ins, cx_ins }; LIns* ok_ins = lir->insCall(&MethodWriteBarrier_ci, args); guard(false, lir->insEqI_0(ok_ins), OOM_EXIT); } // Add a property to the object if necessary. if (entry->adding()) { JS_ASSERT(shape->hasSlot()); if (obj == globalObj) RETURN_STOP("adding a property to the global object"); LIns* args[] = { INS_CONSTSHAPE(shape), obj_ins, cx_ins }; const CallInfo *ci = isDefinitelyAtom ? &js_AddAtomProperty_ci : &js_AddProperty_ci; LIns* ok_ins = lir->insCall(ci, args); guard(false, lir->insEqI_0(ok_ins), OOM_EXIT); } return nativeSet(obj, obj_ins, shape, v, v_ins); } JS_REQUIRES_STACK RecordingStatus TraceRecorder::setUpwardTrackedVar(Value* stackVp, const Value &v, LIns* v_ins) { JSValueType stackT = determineSlotType(stackVp); JSValueType otherT = getCoercedType(v); bool promote = true; if (stackT != otherT) { if (stackT == JSVAL_TYPE_DOUBLE && otherT == JSVAL_TYPE_INT32 && isPromoteInt(v_ins)) promote = false; else RETURN_STOP("can't trace this upvar mutation"); } set(stackVp, v_ins, promote); return RECORD_CONTINUE; } JS_REQUIRES_STACK RecordingStatus TraceRecorder::setCallProp(JSObject *callobj, LIns *callobj_ins, const Shape *shape, LIns *v_ins, const Value &v) { // Set variables in on-trace-stack call objects by updating the tracker. JSStackFrame *fp = frameIfInRange(callobj); if (fp) { if (shape->setterOp() == SetCallArg) { JS_ASSERT(shape->hasShortID()); uintN slot = uint16(shape->shortid); Value *vp2 = &fp->formalArg(slot); CHECK_STATUS(setUpwardTrackedVar(vp2, v, v_ins)); return RECORD_CONTINUE; } if (shape->setterOp() == SetCallVar) { JS_ASSERT(shape->hasShortID()); uintN slot = uint16(shape->shortid); Value *vp2 = &fp->slots()[slot]; CHECK_STATUS(setUpwardTrackedVar(vp2, v, v_ins)); return RECORD_CONTINUE; } RETURN_STOP("can't trace special CallClass setter"); } if (!callobj->getPrivate()) { // Because the parent guard in guardCallee ensures this Call object // will be the same object now and on trace, and because once a Call // object loses its frame it never regains one, on trace we will also // have a null private in the Call object. So all we need to do is // write the value to the Call object's slot. intN slot = uint16(shape->shortid); if (shape->setterOp() == SetCallArg) { JS_ASSERT(slot < ArgClosureTraits::slot_count(callobj)); slot += ArgClosureTraits::slot_offset(callobj); } else if (shape->setterOp() == SetCallVar) { JS_ASSERT(slot < VarClosureTraits::slot_count(callobj)); slot += VarClosureTraits::slot_offset(callobj); } else { RETURN_STOP("can't trace special CallClass setter"); } // Now assert that the shortid get we did above was ok. Have to do it // after the RETURN_STOP above, since in that case we may in fact not // have a valid shortid; but we don't use it in that case anyway. JS_ASSERT(shape->hasShortID()); LIns* dslots_ins = NULL; stobj_set_slot(callobj_ins, slot, dslots_ins, v, v_ins); return RECORD_CONTINUE; } // This is the hard case: we have a JSStackFrame private, but it's not in // range. During trace execution we may or may not have a JSStackFrame // anymore. Call the standard builtins, which handle that situation. // Set variables in off-trace-stack call objects by calling standard builtins. const CallInfo* ci = NULL; if (shape->setterOp() == SetCallArg) ci = &js_SetCallArg_ci; else if (shape->setterOp() == SetCallVar) ci = &js_SetCallVar_ci; else RETURN_STOP("can't trace special CallClass setter"); // Even though the frame is out of range, later we might be called as an // inner trace such that the target variable is defined in the outer trace // entry frame. For simplicity, we just fall off trace. guard(false, lir->ins2(LIR_eqp, entryFrameIns(), stobj_get_private(callobj_ins)), MISMATCH_EXIT); LIns* args[] = { box_value_for_native_call(v, v_ins), INS_CONSTWORD(JSID_BITS(SHAPE_USERID(shape))), callobj_ins, cx_ins }; LIns* call_ins = lir->insCall(ci, args); guard(false, addName(lir->insEqI_0(call_ins), "guard(set upvar)"), STATUS_EXIT); return RECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_SetPropHit(PropertyCacheEntry* entry, const Shape* shape) { Value& r = stackval(-1); Value& l = stackval(-2); LIns* v_ins; jsbytecode* pc = cx->regs->pc; bool isDefinitelyAtom = (*pc == JSOP_SETPROP); CHECK_STATUS_A(setProp(l, entry, shape, r, v_ins, isDefinitelyAtom)); switch (*pc) { case JSOP_SETPROP: case JSOP_SETNAME: case JSOP_SETGNAME: case JSOP_SETMETHOD: if (pc[JSOP_SETPROP_LENGTH] != JSOP_POP) set(&l, v_ins); break; default:; } return ARECORD_CONTINUE; } JS_REQUIRES_STACK VMSideExit* TraceRecorder::enterDeepBailCall() { // Take snapshot for DeepBail and store it in cx->bailExit. VMSideExit* exit = snapshot(DEEP_BAIL_EXIT); lir->insStore(INS_CONSTPTR(exit), cx_ins, offsetof(JSContext, bailExit), ACCSET_OTHER); // Tell nanojit not to discard or defer stack writes before this call. GuardRecord* guardRec = createGuardRecord(exit); lir->insGuard(LIR_xbarrier, NULL, guardRec); // Forget about guarded shapes, since deep bailers can reshape the world. forgetGuardedShapes(); return exit; } JS_REQUIRES_STACK void TraceRecorder::leaveDeepBailCall() { // Keep cx->bailExit null when it's invalid. lir->insStore(INS_NULL(), cx_ins, offsetof(JSContext, bailExit), ACCSET_OTHER); } JS_REQUIRES_STACK void TraceRecorder::finishGetProp(LIns* obj_ins, LIns* vp_ins, LIns* ok_ins, Value* outp) { // Store the boxed result (and this-object, if JOF_CALLOP) before the // guard. The deep-bail case requires this. If the property get fails, // these slots will be ignored anyway. // N.B. monitorRecording expects get(outp)->isLoad() LIns* result_ins = lir->insLoad(LIR_ldd, vp_ins, 0, ACCSET_OTHER); set(outp, result_ins); if (js_CodeSpec[*cx->regs->pc].format & JOF_CALLOP) set(outp + 1, obj_ins); // We need to guard on ok_ins, but this requires a snapshot of the state // after this op. monitorRecording will do it for us. pendingGuardCondition = ok_ins; // Note there is a boxed result sitting on the stack. The caller must leave // it there for the time being, since the return type is not yet // known. monitorRecording will emit the code to unbox it. pendingUnboxSlot = outp; } static inline bool RootedStringToId(JSContext* cx, JSString** namep, jsid* idp) { JSString* name = *namep; if (name->isAtomized()) { *idp = INTERNED_STRING_TO_JSID(name); return true; } JSAtom* atom = js_AtomizeString(cx, name, 0); if (!atom) return false; *namep = ATOM_TO_STRING(atom); /* write back to GC root */ *idp = ATOM_TO_JSID(atom); return true; } static const size_t PIC_TABLE_ENTRY_COUNT = 32; struct PICTableEntry { jsid id; uint32 shape; uint32 slot; }; struct PICTable { PICTable() : entryCount(0) {} PICTableEntry entries[PIC_TABLE_ENTRY_COUNT]; uint32 entryCount; bool scan(uint32 shape, jsid id, uint32 *slotOut) { for (size_t i = 0; i < entryCount; ++i) { PICTableEntry &entry = entries[i]; if (entry.shape == shape && entry.id == id) { *slotOut = entry.slot; return true; } } return false; } void update(uint32 shape, jsid id, uint32 slot) { if (entryCount >= PIC_TABLE_ENTRY_COUNT) return; PICTableEntry &newEntry = entries[entryCount++]; newEntry.shape = shape; newEntry.id = id; newEntry.slot = slot; } }; static JSBool FASTCALL GetPropertyByName(JSContext* cx, JSObject* obj, JSString** namep, Value* vp, PICTable *picTable) { LeaveTraceIfGlobalObject(cx, obj); jsid id; if (!RootedStringToId(cx, namep, &id)) { SetBuiltinError(cx); return false; } /* Delegate to the op, if present. */ PropertyIdOp op = obj->getOps()->getProperty; if (op) { bool result = op(cx, obj, id, vp); if (!result) SetBuiltinError(cx); return result; } /* Try to hit in the cache. */ uint32 slot; if (picTable->scan(obj->shape(), id, &slot)) { *vp = obj->getSlot(slot); return cx->tracerState->builtinStatus == 0; } const Shape *shape; JSObject *holder; if (!js_GetPropertyHelperWithShape(cx, obj, id, JSGET_METHOD_BARRIER, vp, &shape, &holder)) { SetBuiltinError(cx); return false; } /* Only update the table when the object is the holder of the property. */ if (obj == holder && shape->hasSlot()) { /* * Note: we insert the non-normalized id into the table so you don't need to * normalize it before hitting in the table (faster lookup). */ picTable->update(obj->shape(), id, shape->slot); } return cx->tracerState->builtinStatus == 0; } JS_DEFINE_CALLINFO_5(static, BOOL_FAIL, GetPropertyByName, CONTEXT, OBJECT, STRINGPTR, VALUEPTR, PICTABLE, 0, ACCSET_STORE_ANY) // Convert the value in a slot to a string and store the resulting string back // in the slot (typically in order to root it). JS_REQUIRES_STACK RecordingStatus TraceRecorder::primitiveToStringInPlace(Value* vp) { Value v = *vp; JS_ASSERT(v.isPrimitive()); if (!v.isString()) { // v is not a string. Turn it into one. js_ValueToString is safe // because v is not an object. JSString *str = js_ValueToString(cx, v); JS_ASSERT(TRACE_RECORDER(cx) == this); if (!str) RETURN_ERROR("failed to stringify element id"); v.setString(str); set(vp, stringify(*vp)); // Write the string back to the stack to save the interpreter some work // and to ensure snapshots get the correct type for this slot. *vp = v; } return RECORD_CONTINUE; } JS_REQUIRES_STACK RecordingStatus TraceRecorder::getPropertyByName(LIns* obj_ins, Value* idvalp, Value* outp) { CHECK_STATUS(primitiveToStringInPlace(idvalp)); enterDeepBailCall(); // Call GetPropertyByName. The vp parameter points to stack because this is // what the interpreter currently does. obj and id are rooted on the // interpreter stack, but the slot at vp is not a root. LIns* vp_ins = addName(lir->insAlloc(sizeof(Value)), "vp"); LIns* idvalp_ins = addName(addr(idvalp), "idvalp"); PICTable *picTable = new (traceAlloc()) PICTable(); LIns* pic_ins = INS_CONSTPTR(picTable); LIns* args[] = {pic_ins, vp_ins, idvalp_ins, obj_ins, cx_ins}; LIns* ok_ins = lir->insCall(&GetPropertyByName_ci, args); // GetPropertyByName can assign to *idvalp, so the tracker has an incorrect // entry for that address. Correct it. (If the value in the address is // never used again, the usual case, Nanojit will kill this load.) // The AccSet could be made more precise with some effort (idvalp_ins may // equal 'sp+k'), but it's not worth it because this case is rare. tracker.set(idvalp, lir->insLoad(LIR_ldp, idvalp_ins, 0, ACCSET_STACK|ACCSET_OTHER)); finishGetProp(obj_ins, vp_ins, ok_ins, outp); leaveDeepBailCall(); return RECORD_CONTINUE; } static JSBool FASTCALL GetPropertyByIndex(JSContext* cx, JSObject* obj, int32 index, Value* vp) { LeaveTraceIfGlobalObject(cx, obj); AutoIdRooter idr(cx); if (!js_Int32ToId(cx, index, idr.addr()) || !obj->getProperty(cx, idr.id(), vp)) { SetBuiltinError(cx); return JS_FALSE; } return cx->tracerState->builtinStatus == 0; } JS_DEFINE_CALLINFO_4(static, BOOL_FAIL, GetPropertyByIndex, CONTEXT, OBJECT, INT32, VALUEPTR, 0, ACCSET_STORE_ANY) JS_REQUIRES_STACK RecordingStatus TraceRecorder::getPropertyByIndex(LIns* obj_ins, LIns* index_ins, Value* outp) { index_ins = makeNumberInt32(index_ins); // See note in getPropertyByName about vp. enterDeepBailCall(); LIns* vp_ins = addName(lir->insAlloc(sizeof(Value)), "vp"); LIns* args[] = {vp_ins, index_ins, obj_ins, cx_ins}; LIns* ok_ins = lir->insCall(&GetPropertyByIndex_ci, args); finishGetProp(obj_ins, vp_ins, ok_ins, outp); leaveDeepBailCall(); return RECORD_CONTINUE; } static JSBool FASTCALL GetPropertyById(JSContext* cx, JSObject* obj, jsid id, Value* vp) { LeaveTraceIfGlobalObject(cx, obj); if (!obj->getProperty(cx, id, vp)) { SetBuiltinError(cx); return JS_FALSE; } return cx->tracerState->builtinStatus == 0; } JS_DEFINE_CALLINFO_4(static, BOOL_FAIL, GetPropertyById, CONTEXT, OBJECT, JSID, VALUEPTR, 0, ACCSET_STORE_ANY) JS_REQUIRES_STACK RecordingStatus TraceRecorder::getPropertyById(LIns* obj_ins, Value* outp) { // Find the atom. JSAtom* atom; jsbytecode* pc = cx->regs->pc; const JSCodeSpec& cs = js_CodeSpec[*pc]; if (*pc == JSOP_LENGTH) { atom = cx->runtime->atomState.lengthAtom; } else if (JOF_TYPE(cs.format) == JOF_ATOM) { atom = atoms[GET_INDEX(pc)]; } else { JS_ASSERT(JOF_TYPE(cs.format) == JOF_SLOTATOM); atom = atoms[GET_INDEX(pc + SLOTNO_LEN)]; } JS_STATIC_ASSERT(sizeof(jsid) == sizeof(void *)); jsid id = ATOM_TO_JSID(atom); // Call GetPropertyById. See note in getPropertyByName about vp. enterDeepBailCall(); LIns* vp_ins = addName(lir->insAlloc(sizeof(Value)), "vp"); LIns* args[] = {vp_ins, INS_CONSTWORD(JSID_BITS(id)), obj_ins, cx_ins}; LIns* ok_ins = lir->insCall(&GetPropertyById_ci, args); finishGetProp(obj_ins, vp_ins, ok_ins, outp); leaveDeepBailCall(); return RECORD_CONTINUE; } /* Manually inlined, specialized copy of js_NativeGet. */ static JSBool FASTCALL GetPropertyWithNativeGetter(JSContext* cx, JSObject* obj, Shape* shape, Value* vp) { LeaveTraceIfGlobalObject(cx, obj); #ifdef DEBUG JSProperty* prop; JSObject* pobj; JS_ASSERT(obj->lookupProperty(cx, shape->id, &pobj, &prop)); JS_ASSERT(prop == (JSProperty*) shape); pobj->dropProperty(cx, prop); #endif // Shape::get contains a special case for With objects. We can elide it // here because With objects are, we claim, never on the operand stack // while recording. JS_ASSERT(obj->getClass() != &js_WithClass); vp->setUndefined(); if (!shape->getterOp()(cx, obj, SHAPE_USERID(shape), vp)) { SetBuiltinError(cx); return JS_FALSE; } return cx->tracerState->builtinStatus == 0; } JS_DEFINE_CALLINFO_4(static, BOOL_FAIL, GetPropertyWithNativeGetter, CONTEXT, OBJECT, SHAPE, VALUEPTR, 0, ACCSET_STORE_ANY) JS_REQUIRES_STACK RecordingStatus TraceRecorder::getPropertyWithNativeGetter(LIns* obj_ins, const Shape* shape, Value* outp) { JS_ASSERT(!shape->hasGetterValue()); JS_ASSERT(shape->slot == SHAPE_INVALID_SLOT); JS_ASSERT(!shape->hasDefaultGetterOrIsMethod()); // Call GetPropertyWithNativeGetter. See note in getPropertyByName about vp. // FIXME - We should call the getter directly. Using a builtin function for // now because it buys some extra asserts. See bug 508310. enterDeepBailCall(); LIns* vp_ins = addName(lir->insAlloc(sizeof(Value)), "vp"); LIns* args[] = {vp_ins, INS_CONSTPTR(shape), obj_ins, cx_ins}; LIns* ok_ins = lir->insCall(&GetPropertyWithNativeGetter_ci, args); finishGetProp(obj_ins, vp_ins, ok_ins, outp); leaveDeepBailCall(); return RECORD_CONTINUE; } JS_REQUIRES_STACK RecordingStatus TraceRecorder::getPropertyWithScriptGetter(JSObject *obj, LIns* obj_ins, const Shape* shape) { if (!canCallImacro()) RETURN_STOP("cannot trace script getter, already in imacro"); // Rearrange the stack in preparation for the imacro, taking care to adjust // the interpreter state and the tracker in the same way. This adjustment // is noted in imacros.jsasm with .fixup tags. Value getter = shape->getterValue(); Value*& sp = cx->regs->sp; switch (*cx->regs->pc) { case JSOP_GETPROP: sp++; sp[-1] = sp[-2]; set(&sp[-1], get(&sp[-2])); sp[-2] = getter; set(&sp[-2], INS_CONSTOBJ(&getter.toObject())); return callImacroInfallibly(getprop_imacros.scriptgetter); case JSOP_CALLPROP: sp += 2; sp[-2] = getter; set(&sp[-2], INS_CONSTOBJ(&getter.toObject())); sp[-1] = sp[-3]; set(&sp[-1], get(&sp[-3])); return callImacroInfallibly(callprop_imacros.scriptgetter); case JSOP_GETTHISPROP: case JSOP_GETARGPROP: case JSOP_GETLOCALPROP: sp += 2; sp[-2] = getter; set(&sp[-2], INS_CONSTOBJ(&getter.toObject())); sp[-1] = ObjectValue(*obj); set(&sp[-1], obj_ins); return callImacroInfallibly(getthisprop_imacros.scriptgetter); default: RETURN_STOP("cannot trace script getter for this opcode"); } } JS_REQUIRES_STACK LIns* TraceRecorder::getStringLength(LIns* str_ins) { return addName(lir->ins2ImmI(LIR_rshup, addName(lir->insLoad(LIR_ldp, str_ins, offsetof(JSString, mLengthAndFlags), ACCSET_OTHER), "mLengthAndFlags"), JSString::FLAGS_LENGTH_SHIFT), "length"); } JS_REQUIRES_STACK LIns* TraceRecorder::getStringChars(LIns* str_ins) { return addName(lir->insLoad(LIR_ldp, str_ins, offsetof(JSString, mChars), ACCSET_OTHER), "chars"); } JS_REQUIRES_STACK LIns* TraceRecorder::getCharCodeAt(JSString *str, LIns* str_ins, LIns* idx_ins) { idx_ins = lir->insUI2P(makeNumberInt32(idx_ins)); LIns *length_ins = lir->insLoad(LIR_ldp, str_ins, offsetof(JSString, mLengthAndFlags), ACCSET_OTHER); LIns *br = lir->insBranch(LIR_jt, lir->insEqP_0(lir->ins2(LIR_andp, length_ins, INS_CONSTWORD(JSString::ROPE_BIT))), NULL); lir->insCall(&js_Flatten_ci, &str_ins); br->setTarget(lir->ins0(LIR_label)); guard(true, lir->ins2(LIR_ltup, idx_ins, lir->ins2ImmI(LIR_rshup, length_ins, JSString::FLAGS_LENGTH_SHIFT)), snapshot(MISMATCH_EXIT)); LIns *chars_ins = getStringChars(str_ins); return i2d(lir->insLoad(LIR_ldus2ui, lir->ins2(LIR_addp, chars_ins, lir->ins2ImmI(LIR_lshp, idx_ins, 1)), 0, ACCSET_OTHER, LOAD_CONST)); } JS_STATIC_ASSERT(sizeof(JSString) == 16 || sizeof(JSString) == 32); JS_REQUIRES_STACK LIns* TraceRecorder::getCharAt(JSString *str, LIns* str_ins, LIns* idx_ins, JSOp mode) { idx_ins = lir->insUI2P(makeNumberInt32(idx_ins)); LIns *length_ins = lir->insLoad(LIR_ldp, str_ins, offsetof(JSString, mLengthAndFlags), ACCSET_OTHER); LIns *br = lir->insBranch(LIR_jt, lir->insEqP_0(lir->ins2(LIR_andp, length_ins, INS_CONSTWORD(JSString::ROPE_BIT))), NULL); lir->insCall(&js_Flatten_ci, &str_ins); br->setTarget(lir->ins0(LIR_label)); LIns *phi_ins = NULL; if (mode == JSOP_GETELEM) { guard(true, lir->ins2(LIR_ltup, idx_ins, lir->ins2ImmI(LIR_rshup, length_ins, JSString::FLAGS_LENGTH_SHIFT)), MISMATCH_EXIT); } else { phi_ins = lir->insAlloc(sizeof(JSString *)); lir->insStore(LIR_stp, INS_CONSTSTR(cx->runtime->emptyString), phi_ins, 0, ACCSET_OTHER); br = lir->insBranch(LIR_jf, lir->ins2(LIR_ltup, idx_ins, lir->ins2ImmI(LIR_rshup, length_ins, JSString::FLAGS_LENGTH_SHIFT)), NULL); } LIns *chars_ins = getStringChars(str_ins); LIns *ch_ins = lir->insLoad(LIR_ldus2ui, lir->ins2(LIR_addp, chars_ins, lir->ins2ImmI(LIR_lshp, idx_ins, 1)), 0, ACCSET_OTHER, LOAD_CONST); guard(true, lir->ins2ImmI(LIR_ltui, ch_ins, UNIT_STRING_LIMIT), snapshot(MISMATCH_EXIT)); LIns *unitstr_ins = lir->ins2(LIR_addp, INS_CONSTPTR(JSString::unitStringTable), lir->ins2ImmI(LIR_lshp, lir->insUI2P(ch_ins), (sizeof(JSString) == 16) ? 4 : 5)); if (mode == JSOP_GETELEM) return unitstr_ins; lir->insStore(LIR_stp, unitstr_ins, phi_ins, 0, ACCSET_OTHER); br->setTarget(lir->ins0(LIR_label)); return lir->insLoad(LIR_ldp, phi_ins, 0, ACCSET_OTHER); } // Typed array tracing depends on EXPANDED_LOADSTORE and F2I #if NJ_EXPANDED_LOADSTORE_SUPPORTED && NJ_F2I_SUPPORTED static bool OkToTraceTypedArrays = true; #else static bool OkToTraceTypedArrays = false; #endif JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_GETELEM() { bool call = *cx->regs->pc == JSOP_CALLELEM; Value& idx = stackval(-1); Value& lval = stackval(-2); LIns* obj_ins = get(&lval); LIns* idx_ins = get(&idx); // Special case for array-like access of strings. if (lval.isString() && hasInt32Repr(idx)) { if (call) RETURN_STOP_A("JSOP_CALLELEM on a string"); int i = asInt32(idx); if (size_t(i) >= lval.toString()->length()) RETURN_STOP_A("Invalid string index in JSOP_GETELEM"); set(&lval, getCharAt(lval.toString(), obj_ins, idx_ins, JSOP_GETELEM)); return ARECORD_CONTINUE; } if (lval.isPrimitive()) RETURN_STOP_A("JSOP_GETLEM on a primitive"); RETURN_IF_XML_A(lval); JSObject* obj = &lval.toObject(); if (obj == globalObj) RETURN_STOP_A("JSOP_GETELEM on global"); LIns* v_ins; /* Property access using a string name or something we have to stringify. */ if (!idx.isInt32()) { if (!idx.isPrimitive()) RETURN_STOP_A("object used as index"); return InjectStatus(getPropertyByName(obj_ins, &idx, &lval)); } if (obj->isArguments()) { unsigned depth; JSStackFrame *afp = guardArguments(obj, obj_ins, &depth); if (afp) { int32 int_idx = idx.toInt32(); if (int_idx < 0 || int_idx >= (int32)afp->numActualArgs()) RETURN_STOP_A("cannot trace arguments with out of range index"); Value* vp = &afp->canonicalActualArg(int_idx); if (idx_ins->isImmD()) { v_ins = get(vp); } else { // If the index is not a constant expression, we generate LIR to load the value from // the native stack area. The guard on js_ArgumentClass above ensures the up-to-date // value has been written back to the native stack area. idx_ins = makeNumberInt32(idx_ins); /* * For small nactual, * 0 <= int_idx < nactual iff unsigned(int_idx) < unsigned(nactual). */ guard(true, addName(lir->ins2(LIR_ltui, idx_ins, INS_CONSTU(afp->numActualArgs())), "guard(upvar index in range)"), MISMATCH_EXIT); JSValueType type = getCoercedType(*vp); // Guard that the argument has the same type on trace as during recording. LIns* typemap_ins; if (depth == 0) { // In this case, we are in the same frame where the arguments object was created. // The entry type map is not necessarily up-to-date, so we capture a new type map // for this point in the code. unsigned stackSlots = NativeStackSlots(cx, 0 /* callDepth */); JSValueType* typemap = new (traceAlloc()) JSValueType[stackSlots]; DetermineTypesVisitor detVisitor(*this, typemap); VisitStackSlots(detVisitor, cx, 0); typemap_ins = INS_CONSTPTR(typemap + 2 /* callee, this */); } else { // In this case, we are in a deeper frame from where the arguments object was // created. The type map at the point of the call out from the creation frame // is accurate. // Note: this relies on the assumption that we abort on setting an element of // an arguments object in any deeper frame. LIns* fip_ins = lir->insLoad(LIR_ldp, lirbuf->rp, (callDepth-depth)*sizeof(FrameInfo*), ACCSET_RSTACK); typemap_ins = lir->ins2(LIR_addp, fip_ins, INS_CONSTWORD(sizeof(FrameInfo) + 2/*callee,this*/ * sizeof(JSValueType))); } LIns* typep_ins = lir->ins2(LIR_addp, typemap_ins, lir->insUI2P(lir->ins2(LIR_muli, idx_ins, INS_CONST(sizeof(JSValueType))))); LIns* type_ins = lir->insLoad(LIR_lduc2ui, typep_ins, 0, ACCSET_OTHER, LOAD_CONST); guard(true, addName(lir->ins2(LIR_eqi, type_ins, lir->insImmI(type)), "guard(type-stable upvar)"), BRANCH_EXIT); // Read the value out of the native stack area. size_t stackOffset = nativespOffset(&afp->canonicalActualArg(0)); LIns* args_addr_ins = lir->ins2(LIR_addp, lirbuf->sp, INS_CONSTWORD(stackOffset)); LIns* argi_addr_ins = lir->ins2(LIR_addp, args_addr_ins, lir->insUI2P(lir->ins2(LIR_muli, idx_ins, INS_CONST(sizeof(double))))); // The AccSet could be more precise, but ValidateWriter // doesn't recognise the complex expression involving 'sp' as // an ACCSET_STACK access, and it's not worth the effort to be // more precise because this case is rare. v_ins = stackLoad(argi_addr_ins, ACCSET_LOAD_ANY, type); } JS_ASSERT(v_ins); set(&lval, v_ins); if (call) set(&idx, obj_ins); return ARECORD_CONTINUE; } RETURN_STOP_A("can't reach arguments object's frame"); } if (obj->isDenseArray()) { // Fast path for dense arrays accessed with a integer index. Value* vp; LIns* addr_ins; VMSideExit* branchExit = snapshot(BRANCH_EXIT); guardDenseArray(obj_ins, branchExit); CHECK_STATUS_A(denseArrayElement(lval, idx, vp, v_ins, addr_ins, branchExit)); set(&lval, v_ins); if (call) set(&idx, obj_ins); return ARECORD_CONTINUE; } if (OkToTraceTypedArrays && js_IsTypedArray(obj)) { // Fast path for typed arrays accessed with a integer index. Value* vp; LIns* addr_ins; guardClass(obj_ins, obj->getClass(), snapshot(BRANCH_EXIT), LOAD_CONST); CHECK_STATUS_A(typedArrayElement(lval, idx, vp, v_ins, addr_ins)); set(&lval, v_ins); if (call) set(&idx, obj_ins); return ARECORD_CONTINUE; } return InjectStatus(getPropertyByIndex(obj_ins, idx_ins, &lval)); } /* Functions used by JSOP_SETELEM */ static JSBool FASTCALL SetPropertyByName(JSContext* cx, JSObject* obj, JSString** namep, Value* vp, JSBool strict) { LeaveTraceIfGlobalObject(cx, obj); jsid id; if (!RootedStringToId(cx, namep, &id) || !obj->setProperty(cx, id, vp, strict)) { SetBuiltinError(cx); return false; } return cx->tracerState->builtinStatus == 0; } JS_DEFINE_CALLINFO_5(static, BOOL_FAIL, SetPropertyByName, CONTEXT, OBJECT, STRINGPTR, VALUEPTR, BOOL, 0, ACCSET_STORE_ANY) static JSBool FASTCALL InitPropertyByName(JSContext* cx, JSObject* obj, JSString** namep, ValueArgType arg) { LeaveTraceIfGlobalObject(cx, obj); jsid id; if (!RootedStringToId(cx, namep, &id) || !obj->defineProperty(cx, id, ValueArgToConstRef(arg), NULL, NULL, JSPROP_ENUMERATE)) { SetBuiltinError(cx); return JS_FALSE; } return cx->tracerState->builtinStatus == 0; } JS_DEFINE_CALLINFO_4(static, BOOL_FAIL, InitPropertyByName, CONTEXT, OBJECT, STRINGPTR, VALUE, 0, ACCSET_STORE_ANY) JS_REQUIRES_STACK RecordingStatus TraceRecorder::initOrSetPropertyByName(LIns* obj_ins, Value* idvalp, Value* rvalp, bool init) { CHECK_STATUS(primitiveToStringInPlace(idvalp)); if (init) { LIns* v_ins = box_value_for_native_call(*rvalp, get(rvalp)); enterDeepBailCall(); LIns* idvalp_ins = addName(addr(idvalp), "idvalp"); LIns* args[] = {v_ins, idvalp_ins, obj_ins, cx_ins}; pendingGuardCondition = lir->insCall(&InitPropertyByName_ci, args); } else { // See note in getPropertyByName about vp. LIns* vp_ins = box_value_into_alloc(*rvalp, get(rvalp)); enterDeepBailCall(); LIns* idvalp_ins = addName(addr(idvalp), "idvalp"); LIns* args[] = { strictModeCode_ins, vp_ins, idvalp_ins, obj_ins, cx_ins }; pendingGuardCondition = lir->insCall(&SetPropertyByName_ci, args); } leaveDeepBailCall(); return RECORD_CONTINUE; } static JSBool FASTCALL SetPropertyByIndex(JSContext* cx, JSObject* obj, int32 index, Value* vp, JSBool strict) { LeaveTraceIfGlobalObject(cx, obj); AutoIdRooter idr(cx); if (!js_Int32ToId(cx, index, idr.addr()) || !obj->setProperty(cx, idr.id(), vp, strict)) { SetBuiltinError(cx); return false; } return cx->tracerState->builtinStatus == 0; } JS_DEFINE_CALLINFO_5(static, BOOL_FAIL, SetPropertyByIndex, CONTEXT, OBJECT, INT32, VALUEPTR, BOOL, 0, ACCSET_STORE_ANY) static JSBool FASTCALL InitPropertyByIndex(JSContext* cx, JSObject* obj, int32 index, ValueArgType arg) { LeaveTraceIfGlobalObject(cx, obj); AutoIdRooter idr(cx); if (!js_Int32ToId(cx, index, idr.addr()) || !obj->defineProperty(cx, idr.id(), ValueArgToConstRef(arg), NULL, NULL, JSPROP_ENUMERATE)) { SetBuiltinError(cx); return JS_FALSE; } return cx->tracerState->builtinStatus == 0; } JS_DEFINE_CALLINFO_4(static, BOOL_FAIL, InitPropertyByIndex, CONTEXT, OBJECT, INT32, VALUE, 0, ACCSET_STORE_ANY) JS_REQUIRES_STACK RecordingStatus TraceRecorder::initOrSetPropertyByIndex(LIns* obj_ins, LIns* index_ins, Value* rvalp, bool init) { index_ins = makeNumberInt32(index_ins); if (init) { LIns* rval_ins = box_value_for_native_call(*rvalp, get(rvalp)); enterDeepBailCall(); LIns* args[] = {rval_ins, index_ins, obj_ins, cx_ins}; pendingGuardCondition = lir->insCall(&InitPropertyByIndex_ci, args); } else { // See note in getPropertyByName about vp. LIns* vp_ins = box_value_into_alloc(*rvalp, get(rvalp)); enterDeepBailCall(); LIns* args[] = {strictModeCode_ins, vp_ins, index_ins, obj_ins, cx_ins}; pendingGuardCondition = lir->insCall(&SetPropertyByIndex_ci, args); } leaveDeepBailCall(); return RECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::setElem(int lval_spindex, int idx_spindex, int v_spindex) { Value& v = stackval(v_spindex); Value& idx = stackval(idx_spindex); Value& lval = stackval(lval_spindex); if (lval.isPrimitive()) RETURN_STOP_A("left JSOP_SETELEM operand is not an object"); RETURN_IF_XML_A(lval); JSObject* obj = &lval.toObject(); LIns* obj_ins = get(&lval); LIns* idx_ins = get(&idx); LIns* v_ins = get(&v); if (obj->isArguments()) RETURN_STOP_A("can't trace setting elements of the |arguments| object"); if (obj == globalObj) RETURN_STOP_A("can't trace setting elements on the global object"); if (!idx.isInt32()) { if (!idx.isPrimitive()) RETURN_STOP_A("non-primitive index"); CHECK_STATUS_A(initOrSetPropertyByName(obj_ins, &idx, &v, *cx->regs->pc == JSOP_INITELEM)); } else if (OkToTraceTypedArrays && js_IsTypedArray(obj)) { // Fast path: assigning to element of typed array. VMSideExit* branchExit = snapshot(BRANCH_EXIT); // Ensure array is a typed array and is the same type as what was written guardClass(obj_ins, obj->getClass(), branchExit, LOAD_CONST); js::TypedArray* tarray = js::TypedArray::fromJSObject(obj); LIns* priv_ins = stobj_get_private(obj_ins); // The index was on the stack and is therefore a LIR float; force it to // be an integer. idx_ins = makeNumberInt32(idx_ins); // Ensure idx >= 0 && idx < length (by using uint32) lir->insGuard(LIR_xf, lir->ins2(LIR_ltui, idx_ins, lir->insLoad(LIR_ldi, priv_ins, js::TypedArray::lengthOffset(), ACCSET_OTHER, LOAD_CONST)), createGuardRecord(snapshot(OVERFLOW_EXIT))); // We're now ready to store LIns* data_ins = lir->insLoad(LIR_ldp, priv_ins, js::TypedArray::dataOffset(), ACCSET_OTHER, LOAD_CONST); LIns* pidx_ins = lir->insUI2P(idx_ins); LIns* addr_ins = 0; LIns* typed_v_ins = v_ins; // If it's not a number, convert objects to NaN, // null to 0, and call StringToNumber or BooleanOrUndefinedToNumber // for those. if (!v.isNumber()) { if (v.isNull()) { typed_v_ins = lir->insImmD(0); } else if (v.isUndefined()) { typed_v_ins = lir->insImmD(js_NaN); } else if (v.isString()) { LIns* args[] = { typed_v_ins, cx_ins }; typed_v_ins = lir->insCall(&js_StringToNumber_ci, args); } else if (v.isBoolean()) { JS_ASSERT(v.isBoolean()); typed_v_ins = i2d(typed_v_ins); } else { typed_v_ins = lir->insImmD(js_NaN); } } switch (tarray->type) { case js::TypedArray::TYPE_INT8: case js::TypedArray::TYPE_INT16: case js::TypedArray::TYPE_INT32: typed_v_ins = d2i(typed_v_ins); break; case js::TypedArray::TYPE_UINT8: case js::TypedArray::TYPE_UINT16: case js::TypedArray::TYPE_UINT32: typed_v_ins = f2u(typed_v_ins); break; case js::TypedArray::TYPE_UINT8_CLAMPED: if (isPromoteInt(typed_v_ins)) { typed_v_ins = demote(lir, typed_v_ins); typed_v_ins = lir->insChoose(lir->ins2ImmI(LIR_lti, typed_v_ins, 0), lir->insImmI(0), lir->insChoose(lir->ins2ImmI(LIR_gti, typed_v_ins, 0xff), lir->insImmI(0xff), typed_v_ins, avmplus::AvmCore::use_cmov()), avmplus::AvmCore::use_cmov()); } else { typed_v_ins = lir->insCall(&js_TypedArray_uint8_clamp_double_ci, &typed_v_ins); } break; case js::TypedArray::TYPE_FLOAT32: case js::TypedArray::TYPE_FLOAT64: // Do nothing, this is already a float break; default: JS_NOT_REACHED("Unknown typed array type in tracer"); } switch (tarray->type) { case js::TypedArray::TYPE_INT8: case js::TypedArray::TYPE_UINT8_CLAMPED: case js::TypedArray::TYPE_UINT8: addr_ins = lir->ins2(LIR_addp, data_ins, pidx_ins); lir->insStore(LIR_sti2c, typed_v_ins, addr_ins, 0, ACCSET_OTHER); break; case js::TypedArray::TYPE_INT16: case js::TypedArray::TYPE_UINT16: addr_ins = lir->ins2(LIR_addp, data_ins, lir->ins2ImmI(LIR_lshp, pidx_ins, 1)); lir->insStore(LIR_sti2s, typed_v_ins, addr_ins, 0, ACCSET_OTHER); break; case js::TypedArray::TYPE_INT32: case js::TypedArray::TYPE_UINT32: addr_ins = lir->ins2(LIR_addp, data_ins, lir->ins2ImmI(LIR_lshp, pidx_ins, 2)); lir->insStore(LIR_sti, typed_v_ins, addr_ins, 0, ACCSET_OTHER); break; case js::TypedArray::TYPE_FLOAT32: addr_ins = lir->ins2(LIR_addp, data_ins, lir->ins2ImmI(LIR_lshp, pidx_ins, 2)); lir->insStore(LIR_std2f, typed_v_ins, addr_ins, 0, ACCSET_OTHER); break; case js::TypedArray::TYPE_FLOAT64: addr_ins = lir->ins2(LIR_addp, data_ins, lir->ins2ImmI(LIR_lshp, pidx_ins, 3)); lir->insStore(LIR_std, typed_v_ins, addr_ins, 0, ACCSET_OTHER); break; default: JS_NOT_REACHED("Unknown typed array type in tracer"); } } else if (idx.toInt32() < 0 || !obj->isDenseArray()) { CHECK_STATUS_A(initOrSetPropertyByIndex(obj_ins, idx_ins, &v, *cx->regs->pc == JSOP_INITELEM)); } else { // Fast path: assigning to element of dense array. VMSideExit* branchExit = snapshot(BRANCH_EXIT); VMSideExit* mismatchExit = snapshot(MISMATCH_EXIT); // Make sure the array is actually dense. if (!obj->isDenseArray()) return ARECORD_STOP; guardDenseArray(obj_ins, branchExit); // The index was on the stack and is therefore a LIR float. Force it to // be an integer. idx_ins = makeNumberInt32(idx_ins); if (MAX_DSLOTS_LENGTH > MAX_DSLOTS_LENGTH32) { /* * Check for negative values bleeding through on 64-bit machines only, * since we can't allocate large enough arrays for this on 32-bit * machines. */ guard(true, lir->ins2ImmI(LIR_gei, idx_ins, 0), mismatchExit); } if (!js_EnsureDenseArrayCapacity(cx, obj, idx.toInt32())) RETURN_STOP_A("couldn't ensure dense array capacity for setelem"); // Grow the array if the index exceeds the capacity. This happens // rarely, eg. less than 1% of the time in SunSpider. LIns* capacity_ins = addName(stobj_get_fslot_uint32(obj_ins, JSObject::JSSLOT_DENSE_ARRAY_CAPACITY), "capacity"); LIns* br = lir->insBranch(LIR_jt, lir->ins2(LIR_ltui, idx_ins, capacity_ins), NULL); LIns* args[] = { idx_ins, obj_ins, cx_ins }; LIns* res_ins = lir->insCall(&js_EnsureDenseArrayCapacity_ci, args); guard(false, lir->insEqI_0(res_ins), mismatchExit); br->setTarget(lir->ins0(LIR_label)); // Get the address of the element. LIns *dslots_ins = addName(lir->insLoad(LIR_ldp, obj_ins, offsetof(JSObject, dslots), ACCSET_OTHER), "dslots"); JS_ASSERT(sizeof(Value) == 8); // The |3| in the following statement requires this. LIns *addr_ins = lir->ins2(LIR_addp, dslots_ins, lir->ins2ImmI(LIR_lshp, lir->insUI2P(idx_ins), 3)); // If we are overwriting a hole: // - Guard that we don't have any indexed properties along the prototype chain. // - Check if the length has changed; if so, update it to index+1. // This happens moderately often, eg. close to 10% of the time in // SunSpider, and for some benchmarks it's close to 100%. LIns* cond = lir->ins2(LIR_eqi, #if JS_BITS_PER_WORD == 32 lir->insLoad(LIR_ldi, addr_ins, sTagOffset, ACCSET_OTHER), #else lir->ins1(LIR_q2i, lir->ins2ImmI(LIR_rshuq, lir->insLoad(LIR_ldq, addr_ins, 0, ACCSET_OTHER), JSVAL_TAG_SHIFT)), #endif INS_CONSTU(JSVAL_TAG_MAGIC)); LIns* br2 = lir->insBranch(LIR_jf, cond, NULL); LIns* args2[] = { idx_ins, obj_ins, cx_ins }; LIns* res_ins2 = addName(lir->insCall(&js_Array_dense_setelem_hole_ci, args2), "hasNoIndexedProperties"); guard(false, lir->insEqI_0(res_ins2), mismatchExit); br2->setTarget(lir->ins0(LIR_label)); // Right, actually set the element. box_value_into(v, v_ins, addr_ins, 0, ACCSET_OTHER); } jsbytecode* pc = cx->regs->pc; if (*pc == JSOP_SETELEM && pc[JSOP_SETELEM_LENGTH] != JSOP_POP) set(&lval, v_ins); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_SETELEM() { return setElem(-3, -2, -1); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_CALLNAME() { JSObject* obj = &cx->fp()->scopeChain(); if (obj != globalObj) { Value* vp; LIns* ins; NameResult nr; CHECK_STATUS_A(scopeChainProp(obj, vp, ins, nr)); stack(0, ins); stack(1, INS_NULL()); return ARECORD_CONTINUE; } LIns* obj_ins = INS_CONSTOBJ(globalObj); JSObject* obj2; PCVal pcval; CHECK_STATUS_A(test_property_cache(obj, obj_ins, obj2, pcval)); if (pcval.isNull() || !pcval.isFunObj()) RETURN_STOP_A("callee is not an object"); stack(0, INS_CONSTOBJ(&pcval.toFunObj())); stack(1, INS_NULL()); return ARECORD_CONTINUE; } JS_DEFINE_CALLINFO_5(extern, UINT32, GetUpvarArgOnTrace, CONTEXT, UINT32, INT32, UINT32, DOUBLEPTR, 0, ACCSET_STORE_ANY) JS_DEFINE_CALLINFO_5(extern, UINT32, GetUpvarVarOnTrace, CONTEXT, UINT32, INT32, UINT32, DOUBLEPTR, 0, ACCSET_STORE_ANY) JS_DEFINE_CALLINFO_5(extern, UINT32, GetUpvarStackOnTrace, CONTEXT, UINT32, INT32, UINT32, DOUBLEPTR, 0, ACCSET_STORE_ANY) /* * Record LIR to get the given upvar. Return the LIR instruction for the upvar * value. NULL is returned only on a can't-happen condition with an invalid * typemap. The value of the upvar is returned as v. */ JS_REQUIRES_STACK LIns* TraceRecorder::upvar(JSScript* script, JSUpvarArray* uva, uintN index, Value& v) { /* * Try to find the upvar in the current trace's tracker. For &vr to be * the address of the jsval found in js::GetUpvar, we must initialize * vr directly with the result, so it is a reference to the same location. * It does not work to assign the result to v, because v is an already * existing reference that points to something else. */ UpvarCookie cookie = uva->vector[index]; const Value& vr = GetUpvar(cx, script->staticLevel, cookie); v = vr; if (LIns* ins = attemptImport(&vr)) return ins; /* * The upvar is not in the current trace, so get the upvar value exactly as * the interpreter does and unbox. */ uint32 level = script->staticLevel - cookie.level(); uint32 cookieSlot = cookie.slot(); JSStackFrame* fp = cx->findFrameAtLevel(level); const CallInfo* ci; int32 slot; if (!fp->isFunctionFrame() || fp->isEvalFrame()) { ci = &GetUpvarStackOnTrace_ci; slot = cookieSlot; } else if (cookieSlot < fp->numFormalArgs()) { ci = &GetUpvarArgOnTrace_ci; slot = cookieSlot; } else if (cookieSlot == UpvarCookie::CALLEE_SLOT) { ci = &GetUpvarArgOnTrace_ci; slot = -2; } else { ci = &GetUpvarVarOnTrace_ci; slot = cookieSlot - fp->numFormalArgs(); } LIns* outp = lir->insAlloc(sizeof(double)); LIns* args[] = { outp, INS_CONST(callDepth), INS_CONST(slot), INS_CONST(level), cx_ins }; LIns* call_ins = lir->insCall(ci, args); JSValueType type = getCoercedType(v); guard(true, addName(lir->ins2(LIR_eqi, call_ins, lir->insImmI(type)), "guard(type-stable upvar)"), BRANCH_EXIT); return stackLoad(outp, ACCSET_OTHER, type); } /* * Generate LIR to load a value from the native stack. This method ensures that * the correct LIR load operator is used. */ LIns* TraceRecorder::stackLoad(LIns* base, AccSet accSet, uint8 type) { LOpcode loadOp; switch (type) { case JSVAL_TYPE_DOUBLE: loadOp = LIR_ldd; break; case JSVAL_TYPE_NONFUNOBJ: case JSVAL_TYPE_STRING: case JSVAL_TYPE_FUNOBJ: case JSVAL_TYPE_NULL: loadOp = LIR_ldp; break; case JSVAL_TYPE_INT32: case JSVAL_TYPE_BOOLEAN: case JSVAL_TYPE_UNDEFINED: case JSVAL_TYPE_MAGIC: loadOp = LIR_ldi; break; case JSVAL_TYPE_BOXED: default: JS_NOT_REACHED("found jsval type in an upvar type map entry"); return NULL; } LIns* result = lir->insLoad(loadOp, base, 0, accSet); if (type == JSVAL_TYPE_INT32) result = lir->ins1(LIR_i2d, result); return result; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_GETUPVAR() { uintN index = GET_UINT16(cx->regs->pc); JSScript *script = cx->fp()->script(); JSUpvarArray* uva = script->upvars(); JS_ASSERT(index < uva->length); Value v; LIns* upvar_ins = upvar(script, uva, index, v); if (!upvar_ins) return ARECORD_STOP; stack(0, upvar_ins); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_CALLUPVAR() { CHECK_STATUS_A(record_JSOP_GETUPVAR()); stack(1, INS_NULL()); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_GETFCSLOT() { JSObject& callee = cx->fp()->callee(); LIns* callee_ins = get(&cx->fp()->calleeValue()); LIns* upvars_ins = stobj_get_fslot_private_ptr(callee_ins, JSObject::JSSLOT_FLAT_CLOSURE_UPVARS); unsigned index = GET_UINT16(cx->regs->pc); LIns *v_ins = unbox_value(callee.getFlatClosureUpvar(index), upvars_ins, index * sizeof(Value), snapshot(BRANCH_EXIT)); stack(0, v_ins); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_CALLFCSLOT() { CHECK_STATUS_A(record_JSOP_GETFCSLOT()); stack(1, INS_NULL()); return ARECORD_CONTINUE; } JS_REQUIRES_STACK RecordingStatus TraceRecorder::guardCallee(Value& callee) { JSObject& callee_obj = callee.toObject(); JS_ASSERT(callee_obj.isFunction()); JSFunction* callee_fun = (JSFunction*) callee_obj.getPrivate(); /* * First, guard on the callee's function (JSFunction*) identity. This is * necessary since tracing always inlines function calls. But note that * TR::functionCall avoids calling TR::guardCallee for constant methods * (those hit in the property cache from JSOP_CALLPROP). */ VMSideExit* branchExit = snapshot(BRANCH_EXIT); LIns* callee_ins = get(&callee); tree->gcthings.addUnique(callee); guard(true, lir->ins2(LIR_eqp, stobj_get_private(callee_ins), INS_CONSTPTR(callee_fun)), branchExit); /* * Second, consider guarding on the parent scope of the callee. * * As long as we guard on parent scope, we are guaranteed when recording * variable accesses for a Call object having no private data that we can * emit code that avoids checking for an active JSStackFrame for the Call * object (which would hold fresh variable values -- the Call object's * slots would be stale until the stack frame is popped). This is because * Call objects can't pick up a new stack frame in their private slot once * they have none. TR::callProp and TR::setCallProp depend on this fact and * document where; if this guard is removed make sure to fix those methods. * Search for the "parent guard" comments in them. * * In general, a loop in an escaping function scoped by Call objects could * be traced before the function has returned, and the trace then triggered * after, or vice versa. The function must escape, i.e., be a "funarg", or * else there's no need to guard callee parent at all. So once we know (by * static analysis) that a function may escape, we cannot avoid guarding on * either the private data of the Call object or the Call object itself, if * we wish to optimize for the particular deactivated stack frame (null * private data) case as noted above. */ if (FUN_INTERPRETED(callee_fun) && (!FUN_NULL_CLOSURE(callee_fun) || callee_fun->u.i.nupvars != 0)) { JSObject* parent = callee_obj.getParent(); if (parent != globalObj) { if (!parent->isCall()) RETURN_STOP("closure scoped by neither the global object nor a Call object"); guard(true, lir->ins2(LIR_eqp, stobj_get_parent(callee_ins), INS_CONSTOBJ(parent)), branchExit); } } return RECORD_CONTINUE; } /* * Prepare the given |arguments| object to be accessed on trace. If the return * value is non-NULL, then the given |arguments| object refers to a frame on * the current trace and is guaranteed to refer to the same frame on trace for * all later executions. */ JS_REQUIRES_STACK JSStackFrame * TraceRecorder::guardArguments(JSObject *obj, LIns* obj_ins, unsigned *depthp) { JS_ASSERT(obj->isArguments()); JSStackFrame *afp = frameIfInRange(obj, depthp); if (!afp) return NULL; VMSideExit *exit = snapshot(MISMATCH_EXIT); guardClass(obj_ins, obj->getClass(), exit, LOAD_CONST); LIns* args_ins = getFrameObjPtr(afp->addressOfArgs()); LIns* cmp = lir->ins2(LIR_eqp, args_ins, obj_ins); lir->insGuard(LIR_xf, cmp, createGuardRecord(exit)); return afp; } JS_REQUIRES_STACK RecordingStatus TraceRecorder::interpretedFunctionCall(Value& fval, JSFunction* fun, uintN argc, bool constructing) { /* * The function's identity (JSFunction and therefore JSScript) is guarded, * so we can optimize for the empty script singleton right away. No need to * worry about crossing globals or relocating argv, even, in this case! * * Note that the interpreter shortcuts empty-script call and construct too, * and does not call any TR::record_*CallComplete hook. */ if (fun->u.i.script->isEmpty()) { LIns* rval_ins = constructing ? stack(-1 - argc) : INS_UNDEFINED(); stack(-2 - argc, rval_ins); return RECORD_CONTINUE; } if (fval.toObject().getGlobal() != globalObj) RETURN_STOP("JSOP_CALL or JSOP_NEW crosses global scopes"); JSStackFrame* const fp = cx->fp(); // Generate a type map for the outgoing frame and stash it in the LIR unsigned stackSlots = NativeStackSlots(cx, 0 /* callDepth */); FrameInfo* fi = (FrameInfo*) tempAlloc().alloc(sizeof(FrameInfo) + stackSlots * sizeof(JSValueType)); JSValueType* typemap = (JSValueType*)(fi + 1); DetermineTypesVisitor detVisitor(*this, typemap); VisitStackSlots(detVisitor, cx, 0); JS_ASSERT(argc < FrameInfo::CONSTRUCTING_FLAG); tree->gcthings.addUnique(fval); fi->block = fp->maybeBlockChain(); if (fp->hasBlockChain()) tree->gcthings.addUnique(ObjectValue(*fp->blockChain())); fi->pc = cx->regs->pc; fi->imacpc = fp->maybeImacropc(); fi->spdist = cx->regs->sp - fp->slots(); fi->set_argc(uint16(argc), constructing); fi->callerHeight = stackSlots - (2 + argc); fi->callerArgc = fp->isGlobalFrame() || fp->isEvalFrame() ? 0 : fp->numActualArgs(); if (callDepth >= tree->maxCallDepth) tree->maxCallDepth = callDepth + 1; fi = traceMonitor->frameCache->memoize(fi); if (!fi) RETURN_STOP("out of memory"); lir->insStore(INS_CONSTPTR(fi), lirbuf->rp, callDepth * sizeof(FrameInfo*), ACCSET_RSTACK); #if defined JS_JIT_SPEW debug_only_printf(LC_TMTracer, "iFC frameinfo=%p, stack=%d, map=", (void*)fi, fi->callerHeight); for (unsigned i = 0; i < fi->callerHeight; i++) debug_only_printf(LC_TMTracer, "%c", TypeToChar(fi->get_typemap()[i])); debug_only_print0(LC_TMTracer, "\n"); #endif updateAtoms(fun->u.i.script); return RECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_CALL() { uintN argc = GET_ARGC(cx->regs->pc); cx->assertValidStackDepth(argc + 2); return InjectStatus(functionCall(argc, (cx->fp()->hasImacropc() && *cx->fp()->imacropc() == JSOP_APPLY) ? JSOP_APPLY : JSOP_CALL)); } static jsbytecode* apply_imacro_table[] = { apply_imacros.apply0, apply_imacros.apply1, apply_imacros.apply2, apply_imacros.apply3, apply_imacros.apply4, apply_imacros.apply5, apply_imacros.apply6, apply_imacros.apply7, apply_imacros.apply8 }; static jsbytecode* call_imacro_table[] = { apply_imacros.call0, apply_imacros.call1, apply_imacros.call2, apply_imacros.call3, apply_imacros.call4, apply_imacros.call5, apply_imacros.call6, apply_imacros.call7, apply_imacros.call8 }; JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_APPLY() { jsbytecode *pc = cx->regs->pc; uintN argc = GET_ARGC(pc); cx->assertValidStackDepth(argc + 2); Value* vp = cx->regs->sp - (argc + 2); jsuint length = 0; JSObject* aobj = NULL; LIns* aobj_ins = NULL; JS_ASSERT(!cx->fp()->hasImacropc()); if (!IsFunctionObject(vp[0])) return record_JSOP_CALL(); RETURN_IF_XML_A(vp[0]); JSObject* obj = &vp[0].toObject(); JSFunction* fun = GET_FUNCTION_PRIVATE(cx, obj); if (FUN_INTERPRETED(fun)) return record_JSOP_CALL(); bool apply = fun->u.n.native == js_fun_apply; if (!apply && fun->u.n.native != js_fun_call) return record_JSOP_CALL(); /* * We don't trace apply and call with a primitive 'this', which is the * first positional parameter. */ if (argc > 0 && !vp[2].isObject()) return record_JSOP_CALL(); /* * Guard on the identity of this, which is the function we are applying. */ if (!IsFunctionObject(vp[1])) RETURN_STOP_A("callee is not a function"); CHECK_STATUS_A(guardCallee(vp[1])); if (apply && argc >= 2) { if (argc != 2) RETURN_STOP_A("apply with excess arguments"); if (vp[3].isPrimitive()) RETURN_STOP_A("arguments parameter of apply is primitive"); aobj = &vp[3].toObject(); aobj_ins = get(&vp[3]); /* * We trace dense arrays and arguments objects. The code we generate * for apply uses imacros to handle a specific number of arguments. */ if (aobj->isDenseArray()) { guardDenseArray(aobj_ins, MISMATCH_EXIT); length = aobj->getArrayLength(); guard(true, lir->ins2ImmI(LIR_eqi, stobj_get_fslot_uint32(aobj_ins, JSObject::JSSLOT_ARRAY_LENGTH), length), BRANCH_EXIT); } else if (aobj->isArguments()) { unsigned depth; JSStackFrame *afp = guardArguments(aobj, aobj_ins, &depth); if (!afp) RETURN_STOP_A("can't reach arguments object's frame"); length = afp->numActualArgs(); } else { RETURN_STOP_A("arguments parameter of apply is not a dense array or argments object"); } if (length >= JS_ARRAY_LENGTH(apply_imacro_table)) RETURN_STOP_A("too many arguments to apply"); return InjectStatus(callImacro(apply_imacro_table[length])); } if (argc >= JS_ARRAY_LENGTH(call_imacro_table)) RETURN_STOP_A("too many arguments to call"); return InjectStatus(callImacro(call_imacro_table[argc])); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_NativeCallComplete() { if (pendingSpecializedNative == IGNORE_NATIVE_CALL_COMPLETE_CALLBACK) return ARECORD_CONTINUE; #ifdef DEBUG JS_ASSERT(pendingSpecializedNative); jsbytecode* pc = cx->regs->pc; JS_ASSERT(*pc == JSOP_CALL || *pc == JSOP_APPLY || *pc == JSOP_NEW || *pc == JSOP_SETPROP); #endif Value& v = stackval(-1); LIns* v_ins = get(&v); /* * At this point the generated code has already called the native function * and we can no longer fail back to the original pc location (JSOP_CALL) * because that would cause the interpreter to re-execute the native * function, which might have side effects. * * Instead, the snapshot() call below sees that we are currently parked on * a traceable native's JSOP_CALL instruction, and it will advance the pc * to restore by the length of the current opcode. If the native's return * type is jsval, snapshot() will also indicate in the type map that the * element on top of the stack is a boxed value which doesn't need to be * boxed if the type guard generated by unbox_value() fails. */ if (JSTN_ERRTYPE(pendingSpecializedNative) == FAIL_STATUS) { /* Keep cx->bailExit null when it's invalid. */ lir->insStore(INS_NULL(), cx_ins, (int) offsetof(JSContext, bailExit), ACCSET_OTHER); LIns* status = lir->insLoad(LIR_ldi, lirbuf->state, (int) offsetof(TracerState, builtinStatus), ACCSET_OTHER); if (pendingSpecializedNative == &generatedSpecializedNative) { LIns* ok_ins = v_ins; /* * If we run a generic traceable native, the return value is in the argument * vector for native function calls. The actual return value of the native is a JSBool * indicating the error status. */ if (pendingSpecializedNative->flags & JSTN_CONSTRUCTOR) { LIns *cond_ins; LIns *x; // v_ins := the object payload from native_rval_ins // cond_ins := true if native_rval_ins contains a JSObject* unbox_any_object(native_rval_ins, &v_ins, &cond_ins, ACCSET_OTHER); // x := v_ins if native_rval_ins contains a JSObject*, NULL otherwise x = lir->insChoose(cond_ins, v_ins, INS_CONSTWORD(0), avmplus::AvmCore::use_cmov()); // v_ins := newobj_ins if native_rval_ins doesn't contain a JSObject*, // the object payload from native_rval_ins otherwise v_ins = lir->insChoose(lir->insEqP_0(x), newobj_ins, x, avmplus::AvmCore::use_cmov()); } else { v_ins = lir->insLoad(LIR_ldd, native_rval_ins, 0, ACCSET_OTHER); } set(&v, v_ins); propagateFailureToBuiltinStatus(ok_ins, status); } guard(true, lir->insEqI_0(status), STATUS_EXIT); } if (pendingSpecializedNative->flags & JSTN_UNBOX_AFTER) { /* * If we side exit on the unboxing code due to a type change, make sure that the boxed * value is actually currently associated with that location, and that we are talking * about the top of the stack here, which is where we expected boxed values. */ JS_ASSERT(&v == &cx->regs->sp[-1] && get(&v) == v_ins); set(&v, unbox_value(v, native_rval_ins, 0, snapshot(BRANCH_EXIT))); } else if (pendingSpecializedNative->flags & (JSTN_RETURN_NULLABLE_STR | JSTN_RETURN_NULLABLE_OBJ)) { guard(v.isNull(), addName(lir->insEqP_0(v_ins), "guard(nullness)"), BRANCH_EXIT); } else if (JSTN_ERRTYPE(pendingSpecializedNative) == FAIL_NEG) { /* Already added i2d in functionCall. */ JS_ASSERT(v.isNumber()); } else { /* Convert the result to double if the builtin returns int32. */ if (v.isNumber() && pendingSpecializedNative->builtin->returnType() == ARGTYPE_I) { set(&v, lir->ins1(LIR_i2d, v_ins)); } } // We'll null pendingSpecializedNative in monitorRecording, on the next op // cycle. There must be a next op since the stack is non-empty. return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::name(Value*& vp, LIns*& ins, NameResult& nr) { JSObject* obj = &cx->fp()->scopeChain(); JSOp op = JSOp(*cx->regs->pc); if (js_CodeSpec[op].format & JOF_GNAME) obj = obj->getGlobal(); if (obj != globalObj) return scopeChainProp(obj, vp, ins, nr); /* Can't use prop here, because we don't want unboxing from global slots. */ LIns* obj_ins = INS_CONSTOBJ(globalObj); uint32 slot; JSObject* obj2; PCVal pcval; /* * Property cache ensures that we are dealing with an existing property, * and guards the shape for us. */ CHECK_STATUS_A(test_property_cache(obj, obj_ins, obj2, pcval)); /* Abort if property doesn't exist (interpreter will report an error.) */ if (pcval.isNull()) RETURN_STOP_A("named property not found"); /* Insist on obj being the directly addressed object. */ if (obj2 != obj) RETURN_STOP_A("name() hit prototype chain"); /* Don't trace getter or setter calls, our caller wants a direct slot. */ if (pcval.isShape()) { const Shape* shape = pcval.toShape(); if (!isValidSlot(obj, shape)) RETURN_STOP_A("name() not accessing a valid slot"); slot = shape->slot; } else { if (!pcval.isSlot()) RETURN_STOP_A("PCE is not a slot"); slot = pcval.toSlot(); } if (!lazilyImportGlobalSlot(slot)) RETURN_STOP_A("lazy import of global slot failed"); vp = &obj->getSlotRef(slot); ins = get(vp); nr.tracked = true; return ARECORD_CONTINUE; } static JSObject* FASTCALL MethodReadBarrier(JSContext* cx, JSObject* obj, Shape* shape, JSObject* funobj) { Value v = ObjectValue(*funobj); AutoValueRooter tvr(cx, v); if (!obj->methodReadBarrier(cx, *shape, tvr.addr())) return NULL; return &tvr.value().toObject(); } JS_DEFINE_CALLINFO_4(static, OBJECT_FAIL, MethodReadBarrier, CONTEXT, OBJECT, SHAPE, OBJECT, 0, ACCSET_STORE_ANY) /* * Get a property. The current opcode has JOF_ATOM. * * There are two modes. The caller must pass nonnull pointers for either outp * or both slotp and v_insp. In the latter case, we require a plain old * property with a slot; if the property turns out to be anything else, abort * tracing (rather than emit a call to a native getter or GetAnyProperty). */ JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::prop(JSObject* obj, LIns* obj_ins, uint32 *slotp, LIns** v_insp, Value *outp) { /* * Insist that obj have js_SetProperty as its set object-op. This suffices * to prevent a rogue obj from being used on-trace (loaded via obj_ins), * because we will guard on shape (or else global object identity) and any * object not having the same op must have a different class, and therefore * must differ in its shape (or not be the global object). */ if (!obj->isDenseArray() && obj->getOps()->getProperty) RETURN_STOP_A("non-dense-array, non-native js::ObjectOps::getProperty"); JS_ASSERT((slotp && v_insp && !outp) || (!slotp && !v_insp && outp)); /* * Property cache ensures that we are dealing with an existing property, * and guards the shape for us. */ JSObject* obj2; PCVal pcval; CHECK_STATUS_A(test_property_cache(obj, obj_ins, obj2, pcval)); /* Check for nonexistent property reference, which results in undefined. */ if (pcval.isNull()) { if (slotp) RETURN_STOP_A("property not found"); /* * We could specialize to guard on just JSClass.getProperty, but a mere * class guard is simpler and slightly faster. */ if (obj->getClass()->getProperty != Valueify(JS_PropertyStub)) { RETURN_STOP_A("can't trace through access to undefined property if " "JSClass.getProperty hook isn't stubbed"); } guardClass(obj_ins, obj->getClass(), snapshot(MISMATCH_EXIT), LOAD_NORMAL); /* * This trace will be valid as long as neither the object nor any object * on its prototype chain changes shape. * * FIXME: This loop can become a single shape guard once bug 497789 has * been fixed. */ VMSideExit* exit = snapshot(BRANCH_EXIT); do { if (obj->isNative()) { CHECK_STATUS_A(guardShape(obj_ins, obj, obj->shape(), "guard(shape)", exit)); } else if (obj->isDenseArray()) { guardDenseArray(obj_ins, exit); } else { RETURN_STOP_A("non-native object involved in undefined property access"); } } while (guardHasPrototype(obj, obj_ins, &obj, &obj_ins, exit)); set(outp, INS_UNDEFINED()); return ARECORD_CONTINUE; } return InjectStatus(propTail(obj, obj_ins, obj2, pcval, slotp, v_insp, outp)); } JS_REQUIRES_STACK RecordingStatus TraceRecorder::propTail(JSObject* obj, LIns* obj_ins, JSObject* obj2, PCVal pcval, uint32 *slotp, LIns** v_insp, Value *outp) { const JSCodeSpec& cs = js_CodeSpec[*cx->regs->pc]; uint32 setflags = (cs.format & (JOF_INCDEC | JOF_FOR)); JS_ASSERT(!(cs.format & JOF_SET)); const Shape* shape; uint32 slot; bool isMethod; if (pcval.isShape()) { shape = pcval.toShape(); JS_ASSERT(obj2->nativeContains(*shape)); if (setflags && !shape->hasDefaultSetter()) RETURN_STOP("non-stub setter"); if (setflags && !shape->writable()) RETURN_STOP("writing to a readonly property"); if (!shape->hasDefaultGetterOrIsMethod()) { if (slotp) RETURN_STOP("can't trace non-stub getter for this opcode"); if (shape->hasGetterValue()) return getPropertyWithScriptGetter(obj, obj_ins, shape); if (shape->slot == SHAPE_INVALID_SLOT) return getPropertyWithNativeGetter(obj_ins, shape, outp); return getPropertyById(obj_ins, outp); } if (!obj2->containsSlot(shape->slot)) RETURN_STOP("no valid slot"); slot = shape->slot; isMethod = shape->isMethod(); JS_ASSERT_IF(isMethod, obj2->hasMethodBarrier()); } else { if (!pcval.isSlot()) RETURN_STOP("PCE is not a slot"); slot = pcval.toSlot(); shape = NULL; isMethod = false; } /* We have a slot. Check whether it is direct or in a prototype. */ if (obj2 != obj) { if (setflags) RETURN_STOP("JOF_INCDEC|JOF_FOR opcode hit prototype chain"); /* * We're getting a prototype property. Two cases: * * 1. If obj2 is obj's immediate prototype we must walk up from obj, * since direct and immediate-prototype cache hits key on obj's shape, * not its identity. * * 2. Otherwise obj2 is higher up the prototype chain and we've keyed * on obj's identity, and since setting __proto__ reshapes all objects * along the old prototype chain, then provided we shape-guard obj2, * we can "teleport" directly to obj2 by embedding it as a constant * (this constant object instruction will be CSE'ed with the constant * emitted by test_property_cache, whose shape is guarded). */ obj_ins = (obj2 == obj->getProto()) ? stobj_get_proto(obj_ins) : INS_CONSTOBJ(obj2); obj = obj2; } LIns* v_ins; if (obj2 == globalObj) { if (isMethod) RETURN_STOP("get global method"); if (!lazilyImportGlobalSlot(slot)) RETURN_STOP("lazy import of global slot failed"); v_ins = get(&globalObj->getSlotRef(slot)); } else { v_ins = unbox_slot(obj, obj_ins, slot, snapshot(BRANCH_EXIT)); } /* * Joined function object stored as a method must be cloned when extracted * as a property value other than a callee. Note that shapes cover method * value as well as other property attributes and order, so this condition * is trace-invariant. * * We do not impose the method read barrier if in an imacro, assuming any * property gets it does (e.g., for 'toString' from JSOP_NEW) will not be * leaked to the calling script. */ if (isMethod && !cx->fp()->hasImacropc()) { enterDeepBailCall(); LIns* args[] = { v_ins, INS_CONSTSHAPE(shape), obj_ins, cx_ins }; v_ins = lir->insCall(&MethodReadBarrier_ci, args); leaveDeepBailCall(); } if (slotp) { *slotp = slot; *v_insp = v_ins; } if (outp) set(outp, v_ins); return RECORD_CONTINUE; } JS_REQUIRES_STACK RecordingStatus TraceRecorder::denseArrayElement(Value& oval, Value& ival, Value*& vp, LIns*& v_ins, LIns*& addr_ins, VMSideExit* branchExit) { JS_ASSERT(oval.isObject() && ival.isInt32()); JSObject* obj = &oval.toObject(); LIns* obj_ins = get(&oval); jsint idx = ival.toInt32(); LIns* idx_ins = makeNumberInt32(get(&ival)); /* * Arrays have both a length and a capacity, but we only need to check * |index < capacity|; in the case where |length < index < capacity| * the entries [length..capacity-1] will have already been marked as * holes by resizeDenseArrayElements() so we can read them and get * the correct value. */ LIns* capacity_ins = addName(stobj_get_fslot_uint32(obj_ins, JSObject::JSSLOT_DENSE_ARRAY_CAPACITY), "capacity"); jsuint capacity = obj->getDenseArrayCapacity(); bool within = (jsuint(idx) < capacity); if (!within) { /* If not idx < capacity, stay on trace (and read value as undefined). */ guard(true, lir->ins2(LIR_geui, idx_ins, capacity_ins), branchExit); CHECK_STATUS(guardPrototypeHasNoIndexedProperties(obj, obj_ins, snapshot(MISMATCH_EXIT))); // Return undefined and indicate that we didn't actually read this (addr_ins). v_ins = INS_UNDEFINED(); addr_ins = NULL; return RECORD_CONTINUE; } /* Guard that index is within capacity. */ guard(true, lir->ins2(LIR_ltui, idx_ins, capacity_ins), branchExit); /* Load the value and guard on its type to unbox it. */ LIns* dslots_ins = addName(lir->insLoad(LIR_ldp, obj_ins, offsetof(JSObject, dslots), ACCSET_OTHER), "dslots"); vp = &obj->dslots[jsuint(idx)]; JS_ASSERT(sizeof(Value) == 8); // The |3| in the following statement requires this. addr_ins = lir->ins2(LIR_addp, dslots_ins, lir->ins2ImmI(LIR_lshp, lir->insUI2P(idx_ins), 3)); v_ins = unbox_value(*vp, addr_ins, 0, branchExit); /* Don't let the hole value escape. Turn it into an undefined. */ if (vp->isMagic()) { CHECK_STATUS(guardPrototypeHasNoIndexedProperties(obj, obj_ins, snapshot(MISMATCH_EXIT))); v_ins = INS_UNDEFINED(); } return RECORD_CONTINUE; } /* See comments in TypedArrayTemplate::copyIndexToValue. */ LIns * TraceRecorder::canonicalizeNaNs(LIns *dval_ins) { /* NaNs are the only floating point values that do not == themselves. */ LIns *isnonnan_ins = lir->ins2(LIR_eqd, dval_ins, dval_ins); return lir->insChoose(isnonnan_ins, dval_ins, lir->insImmD(js_NaN), true); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::typedArrayElement(Value& oval, Value& ival, Value*& vp, LIns*& v_ins, LIns*& addr_ins) { JS_ASSERT(oval.isObject() && ival.isInt32()); JSObject* obj = &oval.toObject(); LIns* obj_ins = get(&oval); jsint idx = ival.toInt32(); LIns* idx_ins = makeNumberInt32(get(&ival)); LIns* pidx_ins = lir->insUI2P(idx_ins); js::TypedArray* tarray = js::TypedArray::fromJSObject(obj); JS_ASSERT(tarray); /* priv_ins will load the TypedArray* */ LIns* priv_ins = stobj_get_private(obj_ins); /* for out-of-range, do the same thing that the interpreter does, which is return undefined */ if ((jsuint) idx >= tarray->length) { guard(false, lir->ins2(LIR_ltui, idx_ins, lir->insLoad(LIR_ldi, priv_ins, js::TypedArray::lengthOffset(), ACCSET_OTHER, LOAD_CONST)), BRANCH_EXIT); v_ins = INS_UNDEFINED(); return ARECORD_CONTINUE; } /* * Ensure idx < length * * NOTE! mLength is uint32, but it's guaranteed to fit in a Value * int, so we can treat it as either signed or unsigned. * If the index happens to be negative, when it's treated as * unsigned it'll be a very large int, and thus won't be less than * length. */ guard(true, lir->ins2(LIR_ltui, idx_ins, lir->insLoad(LIR_ldi, priv_ins, js::TypedArray::lengthOffset(), ACCSET_OTHER, LOAD_CONST)), BRANCH_EXIT); /* We are now ready to load. Do a different type of load * depending on what type of thing we're loading. */ LIns* data_ins = lir->insLoad(LIR_ldp, priv_ins, js::TypedArray::dataOffset(), ACCSET_OTHER, LOAD_CONST); switch (tarray->type) { case js::TypedArray::TYPE_INT8: addr_ins = lir->ins2(LIR_addp, data_ins, pidx_ins); v_ins = lir->ins1(LIR_i2d, lir->insLoad(LIR_ldc2i, addr_ins, 0, ACCSET_OTHER)); break; case js::TypedArray::TYPE_UINT8: case js::TypedArray::TYPE_UINT8_CLAMPED: addr_ins = lir->ins2(LIR_addp, data_ins, pidx_ins); v_ins = lir->ins1(LIR_ui2d, lir->insLoad(LIR_lduc2ui, addr_ins, 0, ACCSET_OTHER)); break; case js::TypedArray::TYPE_INT16: addr_ins = lir->ins2(LIR_addp, data_ins, lir->ins2ImmI(LIR_lshp, pidx_ins, 1)); v_ins = lir->ins1(LIR_i2d, lir->insLoad(LIR_lds2i, addr_ins, 0, ACCSET_OTHER)); break; case js::TypedArray::TYPE_UINT16: addr_ins = lir->ins2(LIR_addp, data_ins, lir->ins2ImmI(LIR_lshp, pidx_ins, 1)); v_ins = lir->ins1(LIR_ui2d, lir->insLoad(LIR_ldus2ui, addr_ins, 0, ACCSET_OTHER)); break; case js::TypedArray::TYPE_INT32: addr_ins = lir->ins2(LIR_addp, data_ins, lir->ins2ImmI(LIR_lshp, pidx_ins, 2)); v_ins = lir->ins1(LIR_i2d, lir->insLoad(LIR_ldi, addr_ins, 0, ACCSET_OTHER)); break; case js::TypedArray::TYPE_UINT32: addr_ins = lir->ins2(LIR_addp, data_ins, lir->ins2ImmI(LIR_lshp, pidx_ins, 2)); v_ins = lir->ins1(LIR_ui2d, lir->insLoad(LIR_ldi, addr_ins, 0, ACCSET_OTHER)); break; case js::TypedArray::TYPE_FLOAT32: addr_ins = lir->ins2(LIR_addp, data_ins, lir->ins2ImmI(LIR_lshp, pidx_ins, 2)); v_ins = canonicalizeNaNs(lir->insLoad(LIR_ldf2d, addr_ins, 0, ACCSET_OTHER)); break; case js::TypedArray::TYPE_FLOAT64: addr_ins = lir->ins2(LIR_addp, data_ins, lir->ins2ImmI(LIR_lshp, pidx_ins, 3)); v_ins = canonicalizeNaNs(lir->insLoad(LIR_ldd, addr_ins, 0, ACCSET_OTHER)); break; default: JS_NOT_REACHED("Unknown typed array type in tracer"); } return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::getProp(JSObject* obj, LIns* obj_ins) { JSOp op = JSOp(*cx->regs->pc); const JSCodeSpec& cs = js_CodeSpec[op]; JS_ASSERT(cs.ndefs == 1); return prop(obj, obj_ins, NULL, NULL, &stackval(-cs.nuses)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::getProp(Value& v) { if (v.isPrimitive()) RETURN_STOP_A("primitive lhs"); return getProp(&v.toObject(), get(&v)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_NAME() { Value* vp; LIns* v_ins; NameResult nr; CHECK_STATUS_A(name(vp, v_ins, nr)); stack(0, v_ins); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_DOUBLE() { double d = consts[GET_INDEX(cx->regs->pc)].toDouble(); stack(0, lir->insImmD(d)); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_STRING() { JSAtom* atom = atoms[GET_INDEX(cx->regs->pc)]; stack(0, INS_ATOM(atom)); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_ZERO() { stack(0, lir->insImmD(0)); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_ONE() { stack(0, lir->insImmD(1)); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_NULL() { stack(0, INS_NULL()); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_THIS() { LIns* this_ins; CHECK_STATUS_A(getThis(this_ins)); stack(0, this_ins); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_FALSE() { stack(0, lir->insImmI(0)); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_TRUE() { stack(0, lir->insImmI(1)); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_OR() { return ifop(); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_AND() { return ifop(); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_TABLESWITCH() { #ifdef NANOJIT_IA32 /* Handle tableswitches specially -- prepare a jump table if needed. */ return tableswitch(); #else return InjectStatus(switchop()); #endif } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_LOOKUPSWITCH() { return InjectStatus(switchop()); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_STRICTEQ() { strictEquality(true, false); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_STRICTNE() { strictEquality(false, false); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_OBJECT() { JSStackFrame* const fp = cx->fp(); JSScript* script = fp->script(); unsigned index = atoms - script->atomMap.vector + GET_INDEX(cx->regs->pc); JSObject* obj; obj = script->getObject(index); stack(0, INS_CONSTOBJ(obj)); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_POP() { return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_TRAP() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_GETARG() { stack(0, arg(GET_ARGNO(cx->regs->pc))); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_SETARG() { arg(GET_ARGNO(cx->regs->pc), stack(-1)); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_GETLOCAL() { stack(0, var(GET_SLOTNO(cx->regs->pc))); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_SETLOCAL() { var(GET_SLOTNO(cx->regs->pc), stack(-1)); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_UINT16() { stack(0, lir->insImmD(GET_UINT16(cx->regs->pc))); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_NEWINIT() { JSProtoKey key = JSProtoKey(GET_INT8(cx->regs->pc)); LIns* proto_ins; CHECK_STATUS_A(getClassPrototype(key, proto_ins)); LIns *v_ins; if (key == JSProto_Array) { LIns *args[] = { lir->insImmI(0), proto_ins, cx_ins }; v_ins = lir->insCall(&js_NewEmptyArray_ci, args); } else { LIns *args[] = { proto_ins, cx_ins }; v_ins = lir->insCall((cx->regs->pc[JSOP_NEWINIT_LENGTH] != JSOP_ENDINIT) ? &js_NonEmptyObject_ci : &js_Object_tn_ci, args); } guard(false, lir->insEqP_0(v_ins), OOM_EXIT); stack(0, v_ins); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_ENDINIT() { #ifdef DEBUG Value& v = stackval(-1); JS_ASSERT(!v.isPrimitive()); #endif return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_INITPROP() { // All the action is in record_SetPropHit. return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_INITELEM() { return setElem(-3, -2, -1); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_DEFSHARP() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_USESHARP() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_INCARG() { return InjectStatus(inc(argval(GET_ARGNO(cx->regs->pc)), 1)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_INCLOCAL() { return InjectStatus(inc(varval(GET_SLOTNO(cx->regs->pc)), 1)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_DECARG() { return InjectStatus(inc(argval(GET_ARGNO(cx->regs->pc)), -1)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_DECLOCAL() { return InjectStatus(inc(varval(GET_SLOTNO(cx->regs->pc)), -1)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_ARGINC() { return InjectStatus(inc(argval(GET_ARGNO(cx->regs->pc)), 1, false)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_LOCALINC() { return InjectStatus(inc(varval(GET_SLOTNO(cx->regs->pc)), 1, false)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_ARGDEC() { return InjectStatus(inc(argval(GET_ARGNO(cx->regs->pc)), -1, false)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_LOCALDEC() { return InjectStatus(inc(varval(GET_SLOTNO(cx->regs->pc)), -1, false)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_IMACOP() { JS_ASSERT(cx->fp()->hasImacropc()); return ARECORD_CONTINUE; } static JSBool FASTCALL ObjectToIterator(JSContext* cx, JSObject *obj, int32 flags, JSObject **objp) { AutoValueRooter tvr(cx, ObjectValue(*obj)); bool ok = js_ValueToIterator(cx, flags, tvr.addr()); if (!ok) { SetBuiltinError(cx); return false; } *objp = &tvr.value().toObject(); return cx->tracerState->builtinStatus == 0; } JS_DEFINE_CALLINFO_4(static, BOOL_FAIL, ObjectToIterator, CONTEXT, OBJECT, INT32, OBJECTPTR, 0, ACCSET_STORE_ANY) JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_ITER() { Value& v = stackval(-1); if (v.isPrimitive()) RETURN_STOP_A("for-in on a primitive value"); RETURN_IF_XML_A(v); LIns *obj_ins = get(&v); jsuint flags = cx->regs->pc[1]; enterDeepBailCall(); LIns* objp_ins = lir->insAlloc(sizeof(JSObject*)); LIns* args[] = { objp_ins, lir->insImmI(flags), obj_ins, cx_ins }; LIns* ok_ins = lir->insCall(&ObjectToIterator_ci, args); // We need to guard on ok_ins, but this requires a snapshot of the state // after this op. monitorRecording will do it for us. pendingGuardCondition = ok_ins; leaveDeepBailCall(); stack(-1, addName(lir->insLoad(LIR_ldp, objp_ins, 0, ACCSET_OTHER), "iterobj")); return ARECORD_CONTINUE; } static JSBool FASTCALL IteratorMore(JSContext *cx, JSObject *iterobj, Value *vp) { if (!js_IteratorMore(cx, iterobj, vp)) { SetBuiltinError(cx, BUILTIN_ERROR_NO_FIXUP_NEEDED); return false; } else if (cx->tracerState->builtinStatus) { SetBuiltinError(cx, BUILTIN_NO_FIXUP_NEEDED); return false; } return true; } JS_DEFINE_CALLINFO_3(extern, BOOL_FAIL, IteratorMore, CONTEXT, OBJECT, VALUEPTR, 0, ACCSET_STORE_ANY) JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_MOREITER() { Value& iterobj_val = stackval(-1); if (iterobj_val.isPrimitive()) RETURN_STOP_A("for-in on a primitive value"); RETURN_IF_XML_A(iterobj_val); JSObject* iterobj = &iterobj_val.toObject(); LIns* iterobj_ins = get(&iterobj_val); bool cond; LIns* cond_ins; /* JSOP_FOR* already guards on this, but in certain rare cases we might record misformed loop traces. */ if (iterobj->hasClass(&js_IteratorClass)) { guardClass(iterobj_ins, &js_IteratorClass, snapshot(BRANCH_EXIT), LOAD_NORMAL); NativeIterator *ni = (NativeIterator *) iterobj->getPrivate(); void *cursor = ni->props_cursor; void *end = ni->props_end; LIns *ni_ins = stobj_get_private(iterobj_ins); LIns *cursor_ins = addName(lir->insLoad(LIR_ldp, ni_ins, offsetof(NativeIterator, props_cursor), ACCSET_OTHER), "cursor"); LIns *end_ins = addName(lir->insLoad(LIR_ldp, ni_ins, offsetof(NativeIterator, props_end), ACCSET_OTHER), "end"); /* Figure out whether the native iterator contains more values. */ cond = cursor < end; cond_ins = lir->ins2(LIR_ltp, cursor_ins, end_ins); } else { guardNotClass(iterobj_ins, &js_IteratorClass, snapshot(BRANCH_EXIT), LOAD_NORMAL); enterDeepBailCall(); LIns* vp_ins = lir->insAlloc(sizeof(Value)); LIns* args[] = { vp_ins, iterobj_ins, cx_ins }; LIns* ok_ins = lir->insCall(&IteratorMore_ci, args); /* * We cannot use pendingGuardCondition since monitorRecording may not be * triggered if we close the loop below with endLoop. Instead, we guard * here with STATUS_EXIT. By default, STATUS_EXIT means "advance the pc * and fixup the stack", so IteratorMore sets BUILTIN_NO_FIXUP_NEEDED. * If IteratorMore fails, we will reexecute this op in the interpreter, * but js_IteratoreMore is idempotent so this is ok. */ guard(false, lir->insEqI_0(ok_ins), STATUS_EXIT); leaveDeepBailCall(); /* * The interpreter will call js_IteratorMore again, but that's legal. We have to * carefully protect ourselves against reentrancy. */ JSContext *localCx = cx; AutoValueRooter rooter(cx); if (!js_IteratorMore(cx, iterobj, rooter.addr())) RETURN_ERROR_A("error in js_IteratorMore"); if (!TRACE_RECORDER(localCx)) return ARECORD_ABORTED; cond = (rooter.value().isTrue()); cond_ins = is_boxed_true(vp_ins, ACCSET_OTHER); } jsbytecode* pc = cx->regs->pc; if (pc[1] == JSOP_IFNE) { fuseIf(pc + 1, cond, cond_ins); return checkTraceEnd(pc + 1); } stack(0, cond_ins); return ARECORD_CONTINUE; } static JSBool FASTCALL CloseIterator(JSContext *cx, JSObject *iterobj) { if (!js_CloseIterator(cx, iterobj)) { SetBuiltinError(cx); return false; } return cx->tracerState->builtinStatus == 0; } JS_DEFINE_CALLINFO_2(extern, BOOL_FAIL, CloseIterator, CONTEXT, OBJECT, 0, ACCSET_STORE_ANY) JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_ENDITER() { JS_ASSERT(!stackval(-1).isPrimitive()); enterDeepBailCall(); LIns* args[] = { stack(-1), cx_ins }; LIns* ok_ins = lir->insCall(&CloseIterator_ci, args); // We need to guard on ok_ins, but this requires a snapshot of the state // after this op. monitorRecording will do it for us. pendingGuardCondition = ok_ins; leaveDeepBailCall(); return ARECORD_CONTINUE; } #if JS_BITS_PER_WORD == 32 JS_REQUIRES_STACK void TraceRecorder::storeMagic(JSWhyMagic why, nanojit::LIns *addr_ins, ptrdiff_t offset, AccSet accSet) { lir->insStore(INS_MAGIC_WHY(why), addr_ins, offset + sPayloadOffset, accSet); lir->insStore(INS_MAGIC_WHY(JSVAL_TAG_MAGIC), addr_ins, offset + sTagOffset, accSet); } #elif JS_BITS_PER_WORD == 64 JS_REQUIRES_STACK void TraceRecorder::storeMagic(JSWhyMagic why, nanojit::LIns *addr_ins, ptrdiff_t offset, AccSet accSet) { LIns *magic = INS_CONSTQWORD(BUILD_JSVAL(JSVAL_TAG_MAGIC, why)); lir->insStore(magic, addr_ins, offset, accSet); } #endif JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::unboxNextValue(LIns* &v_ins) { Value &iterobj_val = stackval(-1); JSObject *iterobj = &iterobj_val.toObject(); LIns* iterobj_ins = get(&iterobj_val); if (iterobj->hasClass(&js_IteratorClass)) { guardClass(iterobj_ins, &js_IteratorClass, snapshot(BRANCH_EXIT), LOAD_NORMAL); NativeIterator *ni = (NativeIterator *) iterobj->getPrivate(); LIns *ni_ins = stobj_get_private(iterobj_ins); LIns *cursor_ins = addName(lir->insLoad(LIR_ldp, ni_ins, offsetof(NativeIterator, props_cursor), ACCSET_OTHER), "cursor"); /* Emit code to stringify the id if necessary. */ if (!(((NativeIterator *) iterobj->getPrivate())->flags & JSITER_FOREACH)) { /* Read the next id from the iterator. */ jsid id = *ni->currentKey(); LIns *id_ins = addName(lir->insLoad(LIR_ldp, cursor_ins, 0, ACCSET_OTHER), "id"); /* * Most iterations over object properties never have to actually deal with * any numeric properties, so we guard here instead of branching. */ guard(JSID_IS_STRING(id), is_string_id(id_ins), snapshot(BRANCH_EXIT)); if (JSID_IS_STRING(id)) { v_ins = unbox_string_id(id_ins); } else { /* id is an integer, convert to a string. */ JS_ASSERT(JSID_IS_INT(id)); LIns *id_to_int_ins = unbox_int_id(id_ins); LIns* args[] = { id_to_int_ins, cx_ins }; v_ins = lir->insCall(&js_IntToString_ci, args); guard(false, lir->insEqP_0(v_ins), OOM_EXIT); } /* Increment the cursor by one jsid and store it back. */ cursor_ins = lir->ins2(LIR_addp, cursor_ins, INS_CONSTWORD(sizeof(jsid))); } else { /* Read the next value from the iterator. */ Value v = *ni->currentValue(); v_ins = unbox_value(v, cursor_ins, 0, snapshot(BRANCH_EXIT)); /* Increment the cursor by one Value and store it back. */ cursor_ins = lir->ins2(LIR_addp, cursor_ins, INS_CONSTWORD(sizeof(Value))); } lir->insStore(LIR_stp, cursor_ins, ni_ins, offsetof(NativeIterator, props_cursor), ACCSET_OTHER); } else { guardNotClass(iterobj_ins, &js_IteratorClass, snapshot(BRANCH_EXIT), LOAD_NORMAL); v_ins = unbox_value(cx->iterValue, cx_ins, offsetof(JSContext, iterValue), snapshot(BRANCH_EXIT)); storeMagic(JS_NO_ITER_VALUE, cx_ins, offsetof(JSContext, iterValue), ACCSET_OTHER); } return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_FORNAME() { Value* vp; LIns* x_ins; NameResult nr; CHECK_STATUS_A(name(vp, x_ins, nr)); if (!nr.tracked) RETURN_STOP_A("forname on non-tracked value not supported"); LIns* v_ins; CHECK_STATUS_A(unboxNextValue(v_ins)); set(vp, v_ins); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_FORPROP() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_FORELEM() { LIns* v_ins; CHECK_STATUS_A(unboxNextValue(v_ins)); stack(0, v_ins); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_FORARG() { LIns* v_ins; CHECK_STATUS_A(unboxNextValue(v_ins)); arg(GET_ARGNO(cx->regs->pc), v_ins); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_FORLOCAL() { LIns* v_ins; CHECK_STATUS_A(unboxNextValue(v_ins)); var(GET_SLOTNO(cx->regs->pc), v_ins); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_FORGLOBAL() { LIns* v_ins; CHECK_STATUS_A(unboxNextValue(v_ins)); uint32 slot = cx->fp()->script()->getGlobalSlot(GET_SLOTNO(cx->regs->pc)); if (!lazilyImportGlobalSlot(slot)) RETURN_STOP_A("lazy import of global slot failed"); set(&globalObj->getSlotRef(slot), v_ins); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_POPN() { return ARECORD_CONTINUE; } /* * Generate LIR to reach |obj2| from |obj| by traversing the scope chain. The * generated code also ensures that any call objects found have not changed shape. * * obj starting object * obj_ins LIR instruction representing obj * targetObj end object for traversal * targetIns [out] LIR instruction representing obj2 */ JS_REQUIRES_STACK RecordingStatus TraceRecorder::traverseScopeChain(JSObject *obj, LIns *obj_ins, JSObject *targetObj, LIns *&targetIns) { VMSideExit* exit = NULL; /* * Scope chains are often left "incomplete", and reified lazily when * necessary, since doing so is expensive. When creating null and flat * closures on trace (the only kinds supported), the global object is * hardcoded as the parent, since reifying the scope chain on trace * would be extremely difficult. This is because block objects need frame * pointers, which do not exist on trace, and thus would require magic * similar to arguments objects or reification of stack frames. Luckily, * for null and flat closures, these blocks are unnecessary. * * The problem, as exposed by bug 523793, is that this means creating a * fixed traversal on trace can be inconsistent with the shorter scope * chain used when executing a trace. To address this, perform an initial * sweep of the scope chain to make sure that if there is a heavyweight * function with a call object, and there is also a block object, the * trace is safely aborted. * * If there is no call object, we must have arrived at the global object, * and can bypass the scope chain traversal completely. */ bool foundCallObj = false; bool foundBlockObj = false; JSObject* searchObj = obj; for (;;) { if (searchObj != globalObj) { Class* clasp = searchObj->getClass(); if (clasp == &js_BlockClass) { foundBlockObj = true; } else if (clasp == &js_CallClass && searchObj->getCallObjCalleeFunction()->isHeavyweight()) { foundCallObj = true; } } if (searchObj == targetObj) break; searchObj = searchObj->getParent(); if (!searchObj) RETURN_STOP("cannot traverse this scope chain on trace"); } if (!foundCallObj) { JS_ASSERT(targetObj == globalObj); targetIns = INS_CONSTPTR(globalObj); return RECORD_CONTINUE; } if (foundBlockObj) RETURN_STOP("cannot traverse this scope chain on trace"); /* There was a call object, or should be a call object now. */ for (;;) { if (obj != globalObj) { if (!js_IsCacheableNonGlobalScope(obj)) RETURN_STOP("scope chain lookup crosses non-cacheable object"); // We must guard on the shape of all call objects for heavyweight functions // that we traverse on the scope chain: if the shape changes, a variable with // the same name may have been inserted in the scope chain. if (obj->isCall() && obj->getCallObjCalleeFunction()->isHeavyweight()) { if (!exit) exit = snapshot(BRANCH_EXIT); guard(true, addName(lir->ins2ImmI(LIR_eqi, shape_ins(obj_ins), obj->shape()), "guard_shape"), exit); } } JS_ASSERT(!obj->isBlock()); if (obj == targetObj) break; obj = obj->getParent(); obj_ins = stobj_get_parent(obj_ins); } targetIns = obj_ins; return RECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_BINDNAME() { JSStackFrame* const fp = cx->fp(); JSObject *obj; if (!fp->isFunctionFrame()) { obj = &fp->scopeChain(); #ifdef DEBUG JSStackFrame *fp2 = fp; #endif // In global code, fp->scopeChain can only contain blocks whose values // are still on the stack. We never use BINDNAME to refer to these. while (obj->isBlock()) { // The block's values are still on the stack. #ifdef DEBUG // NB: fp2 can't be a generator frame, because !fp->hasFunction. while (obj->getPrivate() != fp2) { JS_ASSERT(fp2->isEvalOrDebuggerFrame()); fp2 = fp2->prev(); if (!fp2) JS_NOT_REACHED("bad stack frame"); } #endif obj = obj->getParent(); // Blocks always have parents. JS_ASSERT(obj); } // If anything other than Block, Call, DeclEnv, and the global object // is on the scope chain, we shouldn't be recording. Of those, only // Block and global can be present in global code. JS_ASSERT(obj == globalObj); /* * The trace is specialized to this global object. Furthermore, we know it * is the sole 'global' object on the scope chain: we set globalObj to the * scope chain element with no parent, and we reached it starting from the * function closure or the current scopeChain, so there is nothing inner to * it. Therefore this must be the right base object. */ stack(0, INS_CONSTOBJ(obj)); return ARECORD_CONTINUE; } // We can't trace BINDNAME in functions that contain direct calls to eval, // as they might add bindings which previously-traced references would have // to see. if (JSFUN_HEAVYWEIGHT_TEST(fp->fun()->flags)) RETURN_STOP_A("BINDNAME in heavyweight function."); // We don't have the scope chain on trace, so instead we get a start object // that is on the scope chain and doesn't skip the target object (the one // that contains the property). Value *callee = &cx->fp()->calleeValue(); obj = callee->toObject().getParent(); if (obj == globalObj) { stack(0, INS_CONSTOBJ(obj)); return ARECORD_CONTINUE; } LIns *obj_ins = stobj_get_parent(get(callee)); // Find the target object. JSAtom *atom = atoms[GET_INDEX(cx->regs->pc)]; jsid id = ATOM_TO_JSID(atom); JSContext *localCx = cx; JSObject *obj2 = js_FindIdentifierBase(cx, &fp->scopeChain(), id); if (!obj2) RETURN_ERROR_A("error in js_FindIdentifierBase"); if (!TRACE_RECORDER(localCx)) return ARECORD_ABORTED; if (obj2 != globalObj && !obj2->isCall()) RETURN_STOP_A("BINDNAME on non-global, non-call object"); // Generate LIR to get to the target object from the start object. LIns *obj2_ins; CHECK_STATUS_A(traverseScopeChain(obj, obj_ins, obj2, obj2_ins)); // If |obj2| is the global object, we can refer to it directly instead of walking up // the scope chain. There may still be guards on intervening call objects. stack(0, obj2 == globalObj ? INS_CONSTOBJ(obj2) : obj2_ins); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_SETNAME() { // record_SetPropHit does all the work. return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_THROW() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_IN() { Value& rval = stackval(-1); Value& lval = stackval(-2); if (rval.isPrimitive()) RETURN_STOP_A("JSOP_IN on non-object right operand"); JSObject* obj = &rval.toObject(); LIns* obj_ins = get(&rval); jsid id; LIns* x; if (lval.isInt32()) { if (!js_Int32ToId(cx, lval.toInt32(), &id)) RETURN_ERROR_A("OOM converting left operand of JSOP_IN to string"); LIns* args[] = { makeNumberInt32(get(&lval)), obj_ins, cx_ins }; x = lir->insCall(&js_HasNamedPropertyInt32_ci, args); } else if (lval.isString()) { if (!js_ValueToStringId(cx, lval, &id)) RETURN_ERROR_A("left operand of JSOP_IN didn't convert to a string-id"); LIns* args[] = { get(&lval), obj_ins, cx_ins }; x = lir->insCall(&js_HasNamedProperty_ci, args); } else { RETURN_STOP_A("string or integer expected"); } guard(false, lir->ins2ImmI(LIR_eqi, x, JS_NEITHER), OOM_EXIT); x = lir->ins2ImmI(LIR_eqi, x, 1); TraceMonitor &localtm = *traceMonitor; JSContext *localcx = cx; JSObject* obj2; JSProperty* prop; JSBool ok = obj->lookupProperty(cx, id, &obj2, &prop); if (!ok) RETURN_ERROR_A("obj->lookupProperty failed in JSOP_IN"); /* lookupProperty can reenter the interpreter and kill |this|. */ if (!localtm.recorder) { if (prop) obj2->dropProperty(localcx, prop); return ARECORD_ABORTED; } bool cond = prop != NULL; if (prop) obj2->dropProperty(cx, prop); /* * The interpreter fuses comparisons and the following branch, so we have * to do that here as well. */ fuseIf(cx->regs->pc + 1, cond, x); /* * We update the stack after the guard. This is safe since the guard bails * out at the comparison and the interpreter will therefore re-execute the * comparison. This way the value of the condition doesn't have to be * calculated and saved on the stack in most cases. */ set(&lval, x); return ARECORD_CONTINUE; } static JSBool FASTCALL HasInstanceOnTrace(JSContext* cx, JSObject* ctor, ValueArgType arg) { const Value &argref = ValueArgToConstRef(arg); JSBool result = JS_FALSE; if (!HasInstance(cx, ctor, &argref, &result)) SetBuiltinError(cx); return result; } JS_DEFINE_CALLINFO_3(static, BOOL_FAIL, HasInstanceOnTrace, CONTEXT, OBJECT, VALUE, 0, ACCSET_STORE_ANY) JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_INSTANCEOF() { // If the rhs isn't an object, we are headed for a TypeError. Value& ctor = stackval(-1); if (ctor.isPrimitive()) RETURN_STOP_A("non-object on rhs of instanceof"); Value& val = stackval(-2); LIns* val_ins = box_value_for_native_call(val, get(&val)); enterDeepBailCall(); LIns* args[] = {val_ins, get(&ctor), cx_ins}; stack(-2, lir->insCall(&HasInstanceOnTrace_ci, args)); LIns* status_ins = lir->insLoad(LIR_ldi, lirbuf->state, offsetof(TracerState, builtinStatus), ACCSET_OTHER); pendingGuardCondition = lir->insEqI_0(status_ins); leaveDeepBailCall(); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_DEBUGGER() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_GOSUB() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_RETSUB() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_EXCEPTION() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_LINENO() { return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_CONDSWITCH() { return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_CASE() { strictEquality(true, true); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_DEFAULT() { return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_EVAL() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_ENUMELEM() { /* * To quote from jsinterp.cpp's JSOP_ENUMELEM case: * Funky: the value to set is under the [obj, id] pair. */ return setElem(-2, -1, -3); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_GETTER() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_SETTER() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_DEFFUN() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_DEFFUN_FC() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_DEFCONST() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_DEFVAR() { return ARECORD_STOP; } jsatomid TraceRecorder::getFullIndex(ptrdiff_t pcoff) { jsatomid index = GET_INDEX(cx->regs->pc + pcoff); index += atoms - cx->fp()->script()->atomMap.vector; return index; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_LAMBDA() { JSFunction* fun; fun = cx->fp()->script()->getFunction(getFullIndex()); /* * Emit code to clone a null closure parented by this recorder's global * object, in order to preserve function object evaluation rules observable * via identity and mutation. But don't clone if our result is consumed by * JSOP_SETMETHOD or JSOP_INITMETHOD, since we optimize away the clone for * these combinations and clone only if the "method value" escapes. * * See jsinterp.cpp, the JSOP_LAMBDA null closure case. The JSOP_SETMETHOD and * JSOP_INITMETHOD logic governing the early ARECORD_CONTINUE returns below * must agree with the corresponding break-from-do-while(0) logic there. */ if (FUN_NULL_CLOSURE(fun)) { if (FUN_OBJECT(fun)->getParent() != globalObj) RETURN_STOP_A("Null closure function object parent must be global object"); jsbytecode *pc2 = cx->regs->pc + JSOP_LAMBDA_LENGTH; JSOp op2 = JSOp(*pc2); if (op2 == JSOP_INITMETHOD) { stack(0, INS_CONSTOBJ(FUN_OBJECT(fun))); return ARECORD_CONTINUE; } if (op2 == JSOP_SETMETHOD) { Value lval = stackval(-1); if (!lval.isPrimitive() && lval.toObject().canHaveMethodBarrier()) { stack(0, INS_CONSTOBJ(FUN_OBJECT(fun))); return ARECORD_CONTINUE; } } else if (fun->joinable()) { if (op2 == JSOP_CALL) { /* * Array.prototype.sort and String.prototype.replace are * optimized as if they are special form. We know that they * won't leak the joined function object in obj, therefore * we don't need to clone that compiler- created function * object for identity/mutation reasons. */ int iargc = GET_ARGC(pc2); /* * Note that we have not yet pushed obj as the final argument, * so regs.sp[1 - (iargc + 2)], and not regs.sp[-(iargc + 2)], * is the callee for this JSOP_CALL. */ const Value &cref = cx->regs->sp[1 - (iargc + 2)]; JSObject *callee; if (IsFunctionObject(cref, &callee)) { JSFunction *calleeFun = callee->getFunctionPrivate(); Native native = calleeFun->maybeNative(); if ((iargc == 1 && native == array_sort) || (iargc == 2 && native == str_replace)) { stack(0, INS_CONSTOBJ(FUN_OBJECT(fun))); return ARECORD_CONTINUE; } } } else if (op2 == JSOP_NULL) { pc2 += JSOP_NULL_LENGTH; op2 = JSOp(*pc2); if (op2 == JSOP_CALL && GET_ARGC(pc2) == 0) { stack(0, INS_CONSTOBJ(FUN_OBJECT(fun))); return ARECORD_CONTINUE; } } } LIns *proto_ins; CHECK_STATUS_A(getClassPrototype(JSProto_Function, proto_ins)); LIns* args[] = { INS_CONSTOBJ(globalObj), proto_ins, INS_CONSTFUN(fun), cx_ins }; LIns* x = lir->insCall(&js_NewNullClosure_ci, args); stack(0, x); return ARECORD_CONTINUE; } if (cx->fp()->hasBlockChain()) RETURN_STOP_A("Unable to trace creating lambda in let"); LIns *proto_ins; CHECK_STATUS_A(getClassPrototype(JSProto_Function, proto_ins)); LIns* scopeChain_ins = scopeChain(); JS_ASSERT(scopeChain_ins); LIns* args[] = { proto_ins, scopeChain_ins, INS_CONSTPTR(fun), cx_ins }; LIns* call_ins = lir->insCall(&js_CloneFunctionObject_ci, args); guard(false, addName(lir->insEqP_0(call_ins), "guard(js_CloneFunctionObject)"), OOM_EXIT); stack(0, call_ins); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_LAMBDA_FC() { JSFunction* fun; fun = cx->fp()->script()->getFunction(getFullIndex()); if (FUN_OBJECT(fun)->getParent() != globalObj) return ARECORD_STOP; if (cx->fp()->hasBlockChain()) RETURN_STOP_A("Unable to trace creating lambda in let"); LIns* args[] = { scopeChain(), INS_CONSTFUN(fun), cx_ins }; LIns* closure_ins = lir->insCall(&js_AllocFlatClosure_ci, args); guard(false, addName(lir->ins2(LIR_eqp, closure_ins, INS_NULL()), "guard(js_AllocFlatClosure)"), OOM_EXIT); if (fun->u.i.nupvars) { JSUpvarArray *uva = fun->u.i.script->upvars(); LIns* upvars_ins = stobj_get_fslot_private_ptr(closure_ins, JSObject::JSSLOT_FLAT_CLOSURE_UPVARS); for (uint32 i = 0, n = uva->length; i < n; i++) { Value v; LIns* v_ins = upvar(fun->u.i.script, uva, i, v); if (!v_ins) return ARECORD_STOP; box_value_into(v, v_ins, upvars_ins, i * sizeof(Value), ACCSET_OTHER); } } stack(0, closure_ins); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_CALLEE() { stack(0, get(&cx->fp()->calleeValue())); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_SETLOCALPOP() { var(GET_SLOTNO(cx->regs->pc), stack(-1)); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_IFPRIMTOP() { // Traces are type-specialized, including null vs. object, so we need do // nothing here. The upstream unbox_value called after valueOf or toString // from an imacro (e.g.) will fork the trace for us, allowing us to just // follow along mindlessly :-). return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_SETCALL() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_TRY() { return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_FINALLY() { return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_NOP() { return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_ARGSUB() { JSStackFrame* const fp = cx->fp(); if (!fp->fun()->isHeavyweight()) { uintN slot = GET_ARGNO(cx->regs->pc); if (slot >= fp->numActualArgs()) RETURN_STOP_A("can't trace out-of-range arguments"); stack(0, get(&cx->fp()->canonicalActualArg(slot))); return ARECORD_CONTINUE; } RETURN_STOP_A("can't trace JSOP_ARGSUB hard case"); } JS_REQUIRES_STACK LIns* TraceRecorder::guardArgsLengthNotAssigned(LIns* argsobj_ins) { // The following implements JSObject::isArgsLengthOverridden on trace. // ARGS_LENGTH_OVERRIDDEN_BIT is set if length was overridden. LIns *len_ins = stobj_get_fslot_uint32(argsobj_ins, JSObject::JSSLOT_ARGS_LENGTH); LIns *ovr_ins = lir->ins2(LIR_andi, len_ins, INS_CONST(JSObject::ARGS_LENGTH_OVERRIDDEN_BIT)); guard(true, lir->insEqI_0(ovr_ins), snapshot(BRANCH_EXIT)); return len_ins; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_ARGCNT() { JSStackFrame * const fp = cx->fp(); if (fp->fun()->flags & JSFUN_HEAVYWEIGHT) RETURN_STOP_A("can't trace heavyweight JSOP_ARGCNT"); // argc is fixed on trace, so ideally we would simply generate LIR for // constant argc. But the user can mutate arguments.length in the // interpreter, so we have to check for that in the trace entry frame. // We also have to check that arguments.length has not been mutated // at record time, because if so we will generate incorrect constant // LIR, which will assert in alu(). if (fp->hasArgsObj() && fp->argsObj().isArgsLengthOverridden()) RETURN_STOP_A("can't trace JSOP_ARGCNT if arguments.length has been modified"); LIns *a_ins = getFrameObjPtr(fp->addressOfArgs()); if (callDepth == 0) { LIns *br = lir->insBranch(LIR_jt, lir->insEqP_0(a_ins), NULL); guardArgsLengthNotAssigned(a_ins); LIns *label = lir->ins0(LIR_label); br->setTarget(label); } stack(0, lir->insImmD(fp->numActualArgs())); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_DefLocalFunSetSlot(uint32 slot, JSObject* obj) { JSFunction* fun = GET_FUNCTION_PRIVATE(cx, obj); if (FUN_NULL_CLOSURE(fun) && FUN_OBJECT(fun)->getParent() == globalObj) { LIns *proto_ins; CHECK_STATUS_A(getClassPrototype(JSProto_Function, proto_ins)); LIns* args[] = { INS_CONSTOBJ(globalObj), proto_ins, INS_CONSTFUN(fun), cx_ins }; LIns* x = lir->insCall(&js_NewNullClosure_ci, args); var(slot, x); return ARECORD_CONTINUE; } return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_DEFLOCALFUN() { return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_DEFLOCALFUN_FC() { return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_GOTOX() { return record_JSOP_GOTO(); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_IFEQX() { return record_JSOP_IFEQ(); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_IFNEX() { return record_JSOP_IFNE(); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_ORX() { return record_JSOP_OR(); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_ANDX() { return record_JSOP_AND(); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_GOSUBX() { return record_JSOP_GOSUB(); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_CASEX() { strictEquality(true, true); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_DEFAULTX() { return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_TABLESWITCHX() { return record_JSOP_TABLESWITCH(); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_LOOKUPSWITCHX() { return InjectStatus(switchop()); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_BACKPATCH() { return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_BACKPATCH_POP() { return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_THROWING() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_SETRVAL() { // If we implement this, we need to update JSOP_STOP. return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_RETRVAL() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_REGEXP() { JSStackFrame* const fp = cx->fp(); JSScript* script = fp->script(); unsigned index = atoms - script->atomMap.vector + GET_INDEX(cx->regs->pc); LIns* proto_ins; CHECK_STATUS_A(getClassPrototype(JSProto_RegExp, proto_ins)); LIns* args[] = { proto_ins, INS_CONSTOBJ(script->getRegExp(index)), cx_ins }; LIns* regex_ins = lir->insCall(&js_CloneRegExpObject_ci, args); guard(false, lir->insEqP_0(regex_ins), OOM_EXIT); stack(0, regex_ins); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_UNUSED180() { JS_NOT_REACHED("recording JSOP_UNUSED180?!?"); return ARECORD_ERROR; } // begin JS_HAS_XML_SUPPORT JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_DEFXMLNS() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_ANYNAME() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_QNAMEPART() { return record_JSOP_STRING(); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_QNAMECONST() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_QNAME() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_TOATTRNAME() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_TOATTRVAL() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_ADDATTRNAME() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_ADDATTRVAL() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_BINDXMLNAME() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_SETXMLNAME() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_XMLNAME() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_DESCENDANTS() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_FILTER() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_ENDFILTER() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_TOXML() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_TOXMLLIST() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_XMLTAGEXPR() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_XMLELTEXPR() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_XMLCDATA() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_XMLCOMMENT() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_XMLPI() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_GETFUNNS() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_STARTXML() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_STARTXMLEXPR() { return ARECORD_STOP; } // end JS_HAS_XML_SUPPORT JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_CALLPROP() { Value& l = stackval(-1); JSObject* obj; LIns* obj_ins; LIns* this_ins; if (!l.isPrimitive()) { obj = &l.toObject(); obj_ins = get(&l); this_ins = obj_ins; // |this| for subsequent call } else { JSProtoKey protoKey; debug_only_stmt(const char* protoname = NULL;) if (l.isString()) { protoKey = JSProto_String; debug_only_stmt(protoname = "String.prototype";) } else if (l.isNumber()) { protoKey = JSProto_Number; debug_only_stmt(protoname = "Number.prototype";) } else if (l.isBoolean()) { protoKey = JSProto_Boolean; debug_only_stmt(protoname = "Boolean.prototype";) } else { JS_ASSERT(l.isNull() || l.isUndefined()); RETURN_STOP_A("callprop on null or void"); } if (!js_GetClassPrototype(cx, NULL, protoKey, &obj)) RETURN_ERROR_A("GetClassPrototype failed!"); obj_ins = INS_CONSTOBJ(obj); debug_only_stmt(obj_ins = addName(obj_ins, protoname);) this_ins = get(&l); // use primitive as |this| } JSObject* obj2; PCVal pcval; CHECK_STATUS_A(test_property_cache(obj, obj_ins, obj2, pcval)); if (pcval.isNull()) RETURN_STOP_A("callprop of missing method"); if (pcval.isFunObj()) { if (l.isPrimitive()) { JSFunction* fun = GET_FUNCTION_PRIVATE(cx, &pcval.toFunObj()); if (!PrimitiveThisTest(fun, l)) RETURN_STOP_A("callee does not accept primitive |this|"); } set(&l, INS_CONSTOBJ(&pcval.toFunObj())); } else { if (l.isPrimitive()) RETURN_STOP_A("callprop of primitive method"); JS_ASSERT_IF(pcval.isShape(), !pcval.toShape()->isMethod()); CHECK_STATUS_A(propTail(obj, obj_ins, obj2, pcval, NULL, NULL, &l)); } stack(0, this_ins); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_DELDESC() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_UINT24() { stack(0, lir->insImmD(GET_UINT24(cx->regs->pc))); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_INDEXBASE() { atoms += GET_INDEXBASE(cx->regs->pc); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_RESETBASE() { updateAtoms(); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_RESETBASE0() { updateAtoms(); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_CALLELEM() { return record_JSOP_GETELEM(); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_STOP() { JSStackFrame *fp = cx->fp(); if (fp->hasImacropc()) { /* * End of imacro, so return true to the interpreter immediately. The * interpreter's JSOP_STOP case will return from the imacro, back to * the pc after the calling op, still in the same JSStackFrame. */ updateAtoms(fp->script()); return ARECORD_CONTINUE; } putActivationObjects(); #ifdef MOZ_TRACE_JSCALLS if (cx->functionCallback) { LIns* args[] = { INS_CONST(0), INS_CONSTPTR(cx->fp()->fun()), cx_ins }; LIns* call_ins = lir->insCall(&functionProbe_ci, args); guard(false, lir->insEqI_0(call_ins), MISMATCH_EXIT); } #endif /* * We know falling off the end of a constructor returns the new object that * was passed in via fp->argv[-1], while falling off the end of a function * returns undefined. * * NB: we do not support script rval (eval, API users who want the result * of the last expression-statement, debugger API calls). */ if (fp->isConstructing()) { rval_ins = get(&fp->thisValue()); } else { rval_ins = INS_UNDEFINED(); } clearCurrentFrameSlotsFromTracker(nativeFrameTracker); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_GETXPROP() { Value& l = stackval(-1); if (l.isPrimitive()) RETURN_STOP_A("primitive-this for GETXPROP?"); Value* vp; LIns* v_ins; NameResult nr; CHECK_STATUS_A(name(vp, v_ins, nr)); stack(-1, v_ins); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_CALLXMLNAME() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_TYPEOFEXPR() { return record_JSOP_TYPEOF(); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_ENTERBLOCK() { JSObject* obj; obj = cx->fp()->script()->getObject(getFullIndex(0)); LIns* void_ins = INS_UNDEFINED(); for (int i = 0, n = OBJ_BLOCK_COUNT(cx, obj); i < n; i++) stack(i, void_ins); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_LEAVEBLOCK() { return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_GENERATOR() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_YIELD() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_ARRAYPUSH() { uint32_t slot = GET_UINT16(cx->regs->pc); JS_ASSERT(cx->fp()->numFixed() <= slot); JS_ASSERT(cx->fp()->slots() + slot < cx->regs->sp - 1); Value &arrayval = cx->fp()->slots()[slot]; JS_ASSERT(arrayval.isObject()); JS_ASSERT(arrayval.toObject().isDenseArray()); LIns *array_ins = get(&arrayval); Value &elt = stackval(-1); LIns *elt_ins = box_value_for_native_call(elt, get(&elt)); LIns *args[] = { elt_ins, array_ins, cx_ins }; LIns *ok_ins = lir->insCall(&js_ArrayCompPush_tn_ci, args); guard(false, lir->insEqI_0(ok_ins), OOM_EXIT); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_ENUMCONSTELEM() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_LEAVEBLOCKEXPR() { LIns* v_ins = stack(-1); int n = -1 - GET_UINT16(cx->regs->pc); stack(n, v_ins); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_GETTHISPROP() { LIns* this_ins; CHECK_STATUS_A(getThis(this_ins)); /* * It's safe to just use cx->fp->thisv here because getThis() returns * ARECORD_STOP or ARECORD_ERROR if thisv is not available. */ CHECK_STATUS_A(getProp(&cx->fp()->thisValue().toObject(), this_ins)); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_GETARGPROP() { return getProp(argval(GET_ARGNO(cx->regs->pc))); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_DEFUPVAR() { return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_GETLOCALPROP() { return getProp(varval(GET_SLOTNO(cx->regs->pc))); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_INDEXBASE1() { atoms += 1 << 16; return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_INDEXBASE2() { atoms += 2 << 16; return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_INDEXBASE3() { atoms += 3 << 16; return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_CALLLOCAL() { uintN slot = GET_SLOTNO(cx->regs->pc); stack(0, var(slot)); stack(1, INS_NULL()); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_CALLARG() { uintN slot = GET_ARGNO(cx->regs->pc); stack(0, arg(slot)); stack(1, INS_NULL()); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_BINDGNAME() { stack(0, INS_CONSTOBJ(globalObj)); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_INT8() { stack(0, lir->insImmD(GET_INT8(cx->regs->pc))); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_INT32() { stack(0, lir->insImmD(GET_INT32(cx->regs->pc))); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_LENGTH() { Value& l = stackval(-1); if (l.isPrimitive()) { if (!l.isString()) RETURN_STOP_A("non-string primitive JSOP_LENGTH unsupported"); set(&l, lir->ins1(LIR_i2d, p2i(getStringLength(get(&l))))); return ARECORD_CONTINUE; } JSObject* obj = &l.toObject(); LIns* obj_ins = get(&l); if (obj->isArguments()) { unsigned depth; JSStackFrame *afp = guardArguments(obj, obj_ins, &depth); if (!afp) RETURN_STOP_A("can't reach arguments object's frame"); // We must both check at record time and guard at run time that // arguments.length has not been reassigned, redefined or deleted. if (obj->isArgsLengthOverridden()) RETURN_STOP_A("can't trace JSOP_ARGCNT if arguments.length has been modified"); LIns* slot_ins = guardArgsLengthNotAssigned(obj_ins); // slot_ins is the value from the slot; right-shift to get the length // (see JSObject::getArgsInitialLength in jsfun.cpp). LIns* v_ins = lir->ins1(LIR_i2d, lir->ins2ImmI(LIR_rshi, slot_ins, JSObject::ARGS_PACKED_BITS_COUNT)); set(&l, v_ins); return ARECORD_CONTINUE; } LIns* v_ins; if (obj->isArray()) { if (obj->isDenseArray()) { guardDenseArray(obj_ins, BRANCH_EXIT); } else { JS_ASSERT(obj->isSlowArray()); guardClass(obj_ins, &js_SlowArrayClass, snapshot(BRANCH_EXIT), LOAD_NORMAL); } v_ins = lir->ins1(LIR_i2d, stobj_get_fslot_uint32(obj_ins, JSObject::JSSLOT_ARRAY_LENGTH)); } else if (OkToTraceTypedArrays && js_IsTypedArray(obj)) { // Ensure array is a typed array and is the same type as what was written guardClass(obj_ins, obj->getClass(), snapshot(BRANCH_EXIT), LOAD_NORMAL); v_ins = lir->ins1(LIR_i2d, lir->insLoad(LIR_ldi, stobj_get_private(obj_ins), js::TypedArray::lengthOffset(), ACCSET_OTHER, LOAD_CONST)); } else { if (!obj->isNative()) RETURN_STOP_A("can't trace length property access on non-array, non-native object"); return getProp(obj, obj_ins); } set(&l, v_ins); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_NEWARRAY() { LIns *proto_ins; CHECK_STATUS_A(getClassPrototype(JSProto_Array, proto_ins)); uint32 len = GET_UINT16(cx->regs->pc); cx->assertValidStackDepth(len); LIns* args[] = { lir->insImmI(len), proto_ins, cx_ins }; LIns* v_ins = lir->insCall(&js_NewPreallocatedArray_ci, args); guard(false, lir->insEqP_0(v_ins), OOM_EXIT); LIns* dslots_ins = NULL; uint32 count = 0; for (uint32 i = 0; i < len; i++) { Value& v = stackval(int(i) - int(len)); if (!v.isMagic()) count++; stobj_set_dslot(v_ins, i, dslots_ins, v, get(&v)); } stack(-int(len), v_ins); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_HOLE() { stack(0, INS_MAGIC_WHY(JS_ARRAY_HOLE)); return ARECORD_CONTINUE; } AbortableRecordingStatus TraceRecorder::record_JSOP_TRACE() { return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_SETMETHOD() { return record_JSOP_SETPROP(); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_INITMETHOD() { return record_JSOP_INITPROP(); } JSBool FASTCALL js_Unbrand(JSContext *cx, JSObject *obj) { return obj->unbrand(cx); } JS_DEFINE_CALLINFO_2(extern, BOOL, js_Unbrand, CONTEXT, OBJECT, 0, ACCSET_STORE_ANY) JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_UNBRAND() { LIns* args_ins[] = { stack(-1), cx_ins }; LIns* call_ins = lir->insCall(&js_Unbrand_ci, args_ins); guard(true, call_ins, OOM_EXIT); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_UNBRANDTHIS() { LIns* this_ins; RecordingStatus status = getThis(this_ins); if (status != RECORD_CONTINUE) return InjectStatus(status); LIns* args_ins[] = { this_ins, cx_ins }; LIns* call_ins = lir->insCall(&js_Unbrand_ci, args_ins); guard(true, call_ins, OOM_EXIT); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_SHARPINIT() { return ARECORD_STOP; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_GETGLOBAL() { uint32 slot = cx->fp()->script()->getGlobalSlot(GET_SLOTNO(cx->regs->pc)); if (!lazilyImportGlobalSlot(slot)) RETURN_STOP_A("lazy import of global slot failed"); stack(0, get(&globalObj->getSlotRef(slot))); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_SETGLOBAL() { uint32 slot = cx->fp()->script()->getGlobalSlot(GET_SLOTNO(cx->regs->pc)); if (!lazilyImportGlobalSlot(slot)) RETURN_STOP_A("lazy import of global slot failed"); set(&globalObj->getSlotRef(slot), stack(-1)); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_CALLGLOBAL() { uint32 slot = cx->fp()->script()->getGlobalSlot(GET_SLOTNO(cx->regs->pc)); if (!lazilyImportGlobalSlot(slot)) RETURN_STOP_A("lazy import of global slot failed"); Value &v = globalObj->getSlotRef(slot); stack(0, get(&v)); stack(1, INS_NULL()); return ARECORD_CONTINUE; } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_GLOBALDEC() { uint32 slot = cx->fp()->script()->getGlobalSlot(GET_SLOTNO(cx->regs->pc)); if (!lazilyImportGlobalSlot(slot)) RETURN_STOP_A("lazy import of global slot failed"); return InjectStatus(inc(globalObj->getSlotRef(slot), -1, false)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_DECGLOBAL() { uint32 slot = cx->fp()->script()->getGlobalSlot(GET_SLOTNO(cx->regs->pc)); if (!lazilyImportGlobalSlot(slot)) RETURN_STOP_A("lazy import of global slot failed"); return InjectStatus(inc(globalObj->getSlotRef(slot), -1, true)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_INCGLOBAL() { uint32 slot = cx->fp()->script()->getGlobalSlot(GET_SLOTNO(cx->regs->pc)); if (!lazilyImportGlobalSlot(slot)) RETURN_STOP_A("lazy import of global slot failed"); return InjectStatus(inc(globalObj->getSlotRef(slot), 1, true)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_GLOBALINC() { uint32 slot = cx->fp()->script()->getGlobalSlot(GET_SLOTNO(cx->regs->pc)); if (!lazilyImportGlobalSlot(slot)) RETURN_STOP_A("lazy import of global slot failed"); return InjectStatus(inc(globalObj->getSlotRef(slot), 1, false)); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_GETGNAME() { return record_JSOP_NAME(); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_SETGNAME() { return record_JSOP_SETNAME(); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_GNAMEDEC() { return record_JSOP_NAMEDEC(); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_GNAMEINC() { return record_JSOP_NAMEINC(); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_DECGNAME() { return record_JSOP_DECNAME(); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_INCGNAME() { return record_JSOP_INCNAME(); } JS_REQUIRES_STACK AbortableRecordingStatus TraceRecorder::record_JSOP_CALLGNAME() { return record_JSOP_CALLNAME(); } #define DBG_STUB(OP) \ JS_REQUIRES_STACK AbortableRecordingStatus \ TraceRecorder::record_##OP() \ { \ RETURN_STOP_A("can't trace " #OP); \ } DBG_STUB(JSOP_GETUPVAR_DBG) DBG_STUB(JSOP_CALLUPVAR_DBG) DBG_STUB(JSOP_DEFFUN_DBGFC) DBG_STUB(JSOP_DEFLOCALFUN_DBGFC) DBG_STUB(JSOP_LAMBDA_DBGFC) #ifdef JS_JIT_SPEW /* * Print information about entry typemaps and unstable exits for all peers * at a PC. */ void DumpPeerStability(TraceMonitor* tm, const void* ip, JSObject* globalObj, uint32 globalShape, uint32 argc) { TreeFragment* f; bool looped = false; unsigned length = 0; for (f = LookupLoop(tm, ip, globalObj, globalShape, argc); f != NULL; f = f->peer) { if (!f->code()) continue; debug_only_printf(LC_TMRecorder, "Stability of fragment %p:\nENTRY STACK=", (void*)f); if (looped) JS_ASSERT(f->nStackTypes == length); for (unsigned i = 0; i < f->nStackTypes; i++) debug_only_printf(LC_TMRecorder, "%c", TypeToChar(f->stackTypeMap()[i])); debug_only_print0(LC_TMRecorder, " GLOBALS="); for (unsigned i = 0; i < f->nGlobalTypes(); i++) debug_only_printf(LC_TMRecorder, "%c", TypeToChar(f->globalTypeMap()[i])); debug_only_print0(LC_TMRecorder, "\n"); UnstableExit* uexit = f->unstableExits; while (uexit != NULL) { debug_only_print0(LC_TMRecorder, "EXIT "); JSValueType* m = uexit->exit->fullTypeMap(); debug_only_print0(LC_TMRecorder, "STACK="); for (unsigned i = 0; i < uexit->exit->numStackSlots; i++) debug_only_printf(LC_TMRecorder, "%c", TypeToChar(m[i])); debug_only_print0(LC_TMRecorder, " GLOBALS="); for (unsigned i = 0; i < uexit->exit->numGlobalSlots; i++) { debug_only_printf(LC_TMRecorder, "%c", TypeToChar(m[uexit->exit->numStackSlots + i])); } debug_only_print0(LC_TMRecorder, "\n"); uexit = uexit->next; } length = f->nStackTypes; looped = true; } } #endif #ifdef MOZ_TRACEVIS FILE* traceVisLogFile = NULL; JSHashTable *traceVisScriptTable = NULL; JS_FRIEND_API(bool) StartTraceVis(const char* filename = "tracevis.dat") { if (traceVisLogFile) { // If we're currently recording, first we must stop. StopTraceVis(); } traceVisLogFile = fopen(filename, "wb"); if (!traceVisLogFile) return false; return true; } JS_FRIEND_API(JSBool) StartTraceVisNative(JSContext *cx, JSObject *obj, uintN argc, Value *argv, Value *rval) { JSBool ok; if (argc > 0 && argv[0].isString()) { JSString *str = JSVAL_TO_STRING(argv[0]); char *filename = js_DeflateString(cx, str->chars(), str->length()); if (!filename) goto error; ok = StartTraceVis(filename); cx->free(filename); } else { ok = StartTraceVis(); } if (ok) { fprintf(stderr, "started TraceVis recording\n"); return JS_TRUE; } error: JS_ReportError(cx, "failed to start TraceVis recording"); return JS_FALSE; } JS_FRIEND_API(bool) StopTraceVis() { if (!traceVisLogFile) return false; fclose(traceVisLogFile); // not worth checking the result traceVisLogFile = NULL; return true; } JS_FRIEND_API(JSBool) StopTraceVisNative(JSContext *cx, JSObject *obj, uintN argc, Value *argv, Value *rval) { JSBool ok = StopTraceVis(); if (ok) fprintf(stderr, "stopped TraceVis recording\n"); else JS_ReportError(cx, "TraceVis isn't running"); return ok; } #endif /* MOZ_TRACEVIS */ JS_REQUIRES_STACK void TraceRecorder::captureStackTypes(unsigned callDepth, JSValueType* typeMap) { CaptureTypesVisitor capVisitor(cx, typeMap, !!oracle); VisitStackSlots(capVisitor, cx, callDepth); } JS_REQUIRES_STACK void TraceRecorder::determineGlobalTypes(JSValueType* typeMap) { DetermineTypesVisitor detVisitor(*this, typeMap); VisitGlobalSlots(detVisitor, cx, *tree->globalSlots); } #ifdef JS_METHODJIT class AutoRetBlacklist { jsbytecode* pc; bool& blacklist; public: AutoRetBlacklist(jsbytecode* pc, bool& blacklist) : pc(pc), blacklist(blacklist) { } ~AutoRetBlacklist() { blacklist = IsBlacklisted(pc); } }; JS_REQUIRES_STACK TracePointAction MonitorTracePoint(JSContext* cx, uintN& inlineCallCount, bool& blacklist) { JSStackFrame* fp = cx->fp(); TraceMonitor* tm = &JS_TRACE_MONITOR(cx); jsbytecode* pc = cx->regs->pc; JS_ASSERT(!TRACE_RECORDER(cx)); JSObject* globalObj = cx->fp()->scopeChain().getGlobal(); uint32 globalShape = -1; SlotList* globalSlots = NULL; AutoRetBlacklist autoRetBlacklist(pc, blacklist); if (!CheckGlobalObjectShape(cx, tm, globalObj, &globalShape, &globalSlots)) { Backoff(cx, pc); return TPA_Nothing; } uint32 argc = entryFrameArgc(cx); TreeFragment* tree = LookupOrAddLoop(tm, pc, globalObj, globalShape, argc); debug_only_printf(LC_TMTracer, "Looking for compat peer %d@%d, from %p (ip: %p)\n", js_FramePCToLineNumber(cx, cx->fp()), FramePCOffset(cx, cx->fp()), (void*)tree, tree->ip); if (tree->code() || tree->peer) { uintN count; TreeFragment* match = FindVMCompatiblePeer(cx, globalObj, tree, count); if (match) { VMSideExit* lr = NULL; VMSideExit* innermostNestedGuard = NULL; /* Best case - just go and execute. */ if (!ExecuteTree(cx, match, inlineCallCount, &innermostNestedGuard, &lr)) return TPA_Error; if (!lr) return TPA_Nothing; switch (lr->exitType) { case UNSTABLE_LOOP_EXIT: if (!AttemptToStabilizeTree(cx, globalObj, lr, NULL, 0)) return TPA_RanStuff; break; case OVERFLOW_EXIT: tm->oracle->markInstructionUndemotable(cx->regs->pc); /* FALL THROUGH */ case BRANCH_EXIT: case CASE_EXIT: if (!AttemptToExtendTree(cx, lr, NULL, NULL)) return TPA_RanStuff; break; case LOOP_EXIT: if (!innermostNestedGuard) return TPA_RanStuff; if (!AttemptToExtendTree(cx, innermostNestedGuard, lr, NULL)) return TPA_RanStuff; break; default: return TPA_RanStuff; } JS_ASSERT(TRACE_RECORDER(cx)); goto interpret; } if (count >= MAXPEERS) { debug_only_print0(LC_TMTracer, "Blacklisted: too many peer trees.\n"); Blacklist((jsbytecode*)tree->root->ip); return TPA_Nothing; } } if (++tree->hits() < HOTLOOP) return TPA_Nothing; if (!ScopeChainCheck(cx, tree)) return TPA_Nothing; if (!RecordTree(cx, tree->first, NULL, 0, globalSlots)) return TPA_Nothing; interpret: JS_ASSERT(TRACE_RECORDER(cx)); /* Locked and loaded with a recorder. Ask the interperter to go run some code. */ if (!Interpret(cx, fp, inlineCallCount, JSINTERP_RECORD)) return TPA_Error; return TPA_RanStuff; } #endif } /* namespace js */