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a18f57ecfd
gecko/js/src/jstracer.cpp
Graydon Hoare a18f57ecfd Bug 495734 - NJ: don't store non-LIR data in LIR buffers, r=gal. 
--HG--
extra : rebase_source : 4a73fd251f3077fe3623ef1341a8aa3729a4e8bf
2009-09-22 16:06:52 -07:00

14142 lines
452 KiB
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/* -*- 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 <brendan@mozilla.org>
*
* Contributor(s):
* Andreas Gal <gal@mozilla.com>
* Mike Shaver <shaver@mozilla.org>
* David Anderson <danderson@mozilla.com>
*
* 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 <math.h> // standard headers next
#if defined(_MSC_VER) || defined(__MINGW32__)
#include <malloc.h>
#ifdef _MSC_VER
#define alloca _alloca
#endif
#endif
#ifdef SOLARIS
#include <alloca.h>
#endif
#include <limits.h>
#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 "jsatominlines.h"
#include "jsscriptinlines.h"
#include "jsautooplen.h" // generated headers last
#include "imacros.c.out"
using namespace nanojit;
#if JS_HAS_XML_SUPPORT
#define ABORT_IF_XML(v) \
JS_BEGIN_MACRO \
if (!JSVAL_IS_PRIMITIVE(v) && OBJECT_IS_XML(BOGUS_CX, JSVAL_TO_OBJECT(v)))\
ABORT_TRACE("xml detected"); \
JS_END_MACRO
#else
#define ABORT_IF_XML(v) ((void) 0)
#endif
/*
* Never use JSVAL_IS_BOOLEAN because it restricts the value (true, false) and
* the type. What you want to use is JSVAL_IS_SPECIAL(x) and then handle the
* undefined case properly (bug 457363).
*/
#undef JSVAL_IS_BOOLEAN
#define JSVAL_IS_BOOLEAN(x) JS_STATIC_ASSERT(0)
JS_STATIC_ASSERT(sizeof(JSTraceType) == 1);
/* Map to translate a type tag into a printable representation. */
static const char typeChar[] = "OIDXSNBF";
static const char tagChar[] = "OIDISIBI";
/* 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 2
/* 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
/* 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 native stack size. */
#define MAX_NATIVE_STACK_SLOTS 1024
/* Max call stack size. */
#define MAX_CALL_STACK_ENTRIES 64
/* Max global object size. */
#define MAX_GLOBAL_SLOTS 4096
/* Max memory needed to rebuild the interpreter stack when falling off trace. */
#define MAX_INTERP_STACK_BYTES \
(MAX_NATIVE_STACK_SLOTS * sizeof(jsval) + \
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 \
JSRecordingStatus _status = (expr); \
if (_status != JSRS_CONTINUE) \
return _status; \
JS_END_MACRO
#ifdef JS_JIT_SPEW
#define ABORT_TRACE_RV(msg, value) \
JS_BEGIN_MACRO \
debug_only_printf(LC_TMAbort, "abort: %d: %s\n", __LINE__, (msg)); \
return (value); \
JS_END_MACRO
#else
#define ABORT_TRACE_RV(msg, value) return (value)
#endif
#define ABORT_TRACE(msg) ABORT_TRACE_RV(msg, JSRS_STOP)
#define ABORT_TRACE_ERROR(msg) ABORT_TRACE_RV(msg, JSRS_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 JSPropertySpec jitstats_props[] = {
#define JITSTAT(x) { #x, STAT ## x ## ID, JSPROP_ENUMERATE | JSPROP_READONLY | JSPROP_PERMANENT },
#include "jitstats.tbl"
#undef JITSTAT
{ 0 }
};
static JSBool
jitstats_getProperty(JSContext *cx, JSObject *obj, jsid id, jsval *vp)
{
int index = -1;
if (JSVAL_IS_STRING(id)) {
JSString* str = JSVAL_TO_STRING(id);
if (strcmp(JS_GetStringBytes(str), "HOTLOOP") == 0) {
*vp = INT_TO_JSVAL(HOTLOOP);
return JS_TRUE;
}
}
if (JSVAL_IS_INT(id))
index = JSVAL_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(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
js_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/SPROP
* variants which ensure that the embedded pointer will be kept alive across GCs.
*/
#define INS_CONST(c) addName(lir->insImm(c), #c)
#define INS_CONSTPTR(p) addName(lir->insImmPtr(p), #p)
#define INS_CONSTWORD(v) addName(lir->insImmPtr((void *) (v)), #v)
#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_CONSTSPROP(sprop) addName(insImmSprop(sprop), #sprop)
#define INS_ATOM(atom) INS_CONSTSTR(ATOM_TO_STRING(atom))
#define INS_NULL() INS_CONSTPTR(NULL)
#define INS_VOID() INS_CONST(JSVAL_TO_SPECIAL(JSVAL_VOID))
static avmplus::AvmCore s_core = avmplus::AvmCore();
static avmplus::AvmCore* core = &s_core;
/* Allocator SPI implementation. */
void*
nanojit::Allocator::allocChunk(size_t nbytes)
{
VMAllocator *vma = (VMAllocator*)this;
JS_ASSERT(!vma->outOfMemory());
void *p = malloc(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])
free(p);
}
void
nanojit::Allocator::postReset() {
VMAllocator *vma = (VMAllocator*)this;
vma->mOutOfMemory = false;
vma->mSize = 0;
}
#ifdef JS_JIT_SPEW
static void
DumpPeerStability(JSTraceMonitor* 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 js_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;
js_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 'nocodeaddrs'\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 rdr pipeline\n"
" readlir show LIR as it enters the reader pipeline\n"
" aftersf show LIR after StackFilter\n"
" regalloc show regalloc details\n"
" assembly show final aggregated assembly code\n"
" nocodeaddrs don't show code addresses in assembly listings\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, "regalloc") || strstr(tmf, "full")) bits |= LC_RegAlloc;
if (strstr(tmf, "assembly") || strstr(tmf, "full")) bits |= LC_Assembly;
if (strstr(tmf, "nocodeaddrs")) bits |= LC_NoCodeAddrs;
js_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 JSTraceMonitor::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<class T>
static
Seq<T>* reverseInPlace(Seq<T>* seq)
{
Seq<T>* prev = NULL;
Seq<T>* curr = seq;
while (curr) {
Seq<T>* 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<GuardPI>* guards; // guards, each with its own count
uint32_t largestGuardID; // that exists in .guards
};
/* A mapping of Fragment.profFragID to FragPI */
typedef HashMap<uint32,FragPI> FragStatsMap;
void
js_FragProfiling_FragFinalizer(Fragment* f, JSTraceMonitor* tm)
{
// Recover profiling data from 'f', which is logically at the end
// of its useful lifetime.
if (!(js_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<GuardPI> 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
js_FragProfiling_showResults(JSTraceMonitor* 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;
memset(topFragID, 0, sizeof(topFragID));
memset(topPI, 0, sizeof(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++;
AvmAssert(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;
}
}
js_LogController.printf(
"\n----------------- Per-fragment execution counts ------------------\n");
js_LogController.printf(
"\nTotal count = %llu\n\n", (unsigned long long int)totCount);
js_LogController.printf(
" Entry counts Entry counts ----- Static -----\n");
js_LogController.printf(
" ------Self------ ----Cumulative--- Exits Cbytes Xbytes FragID\n");
js_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;
js_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;
}
js_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);
js_LogController.printf("Analysis by exit counts\n\n");
for (r = 0; r < N_TOP_BLOCKS; r++) {
if (topFragID[r] == 0)
break;
js_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<GuardPI>* guards = topPI[r].guards; guards; guards = guards->tail) {
gpi = (*guards).head;
if (gpi.count == 0)
continue;
madeItToEnd -= gpi.count;
js_LogController.printf(" GuardID=%03u %7u (%5.2f%%)\n",
gpi.guardID, gpi.count,
100.0 * (double)gpi.count / (double)totThisFrag);
}
js_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
js_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 %lf]", 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, "%lf", 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;
default:
fprintf(out, "[invalid %%%c]", *p);
}
}
#undef GET_ARG
return JS_TRUE;
}
JS_DEFINE_CALLINFO_3(extern, BOOL, PrintOnTrace, CHARPTR, UINT32, DOUBLEPTR, 0, 0)
// 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*) lir->insSkip(size)->payload();
memcpy(data, format, size);
double *args = (double*) lir->insSkip(count * sizeof(double))->payload();
for (int i = 0; i < count; ++i) {
JS_ASSERT(insa[i]);
lir->insStorei(insa[i], INS_CONSTPTR(args), sizeof(double) * i);
}
LIns* args_ins[] = { INS_CONSTPTR(args), INS_CONST(count), INS_CONSTPTR(data) };
LIns* call_ins = lir->insCall(&PrintOnTrace_ci, args_ins);
guard(false, lir->ins_eq0(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
/*
* The entire VM shares one oracle. Collisions and concurrent updates are
* tolerated and worst case cause performance regressions.
*/
static Oracle oracle;
/*
* This confusing and mysterious expression is used for the Tracker. The
* tracker's responsibility is to map opaque, 4-byte aligned addresses to LIns
* pointers. To do this efficiently, we observe that the addresses of jsvals
* living in the interpreter tend to be aggregated close to each other -
* usually on the same page.
*
* For every address, we split it into two values: upper bits which represent
* the "base", and lower bits which represent an offset against the base. We
* create a list of:
* struct Page {
* void* base;
* LIns* map;
* };
* The mapping then becomes:
* page = page such that Base(address) == page->base,
* page->map[Index(address)]
*
* The size of the map is allocated as (PageSize >> 2) * sizeof(LIns*). Since
* the lower two bits are 0, they are always discounted. The result is the map
* can store N pointers, where N is (PageSize >> 2).
*
* PAGEMASK is the "reverse" expression, with a |- 1| to get a mask which
* separates an address into the Base and Index bits. It is necessary to do
* all this work rather than use NJ_PAGE_SIZE - 1, because on 64-bit platforms
* the pointer width is twice as large, and only half as many indexes can fit
* into Page::map. So the "Base" grows by one bit, and the "Index" shrinks by
* one bit.
*/
#define PAGEMASK (((NJ_PAGE_SIZE / sizeof(void*)) << 2) - 1)
Tracker::Tracker()
{
pagelist = 0;
}
Tracker::~Tracker()
{
clear();
}
jsuword
Tracker::getPageBase(const void* v) const
{
return jsuword(v) & ~jsuword(PAGEMASK);
}
struct Tracker::Page*
Tracker::findPage(const void* v) const
{
jsuword base = getPageBase(v);
struct Tracker::Page* p = pagelist;
while (p) {
if (p->base == base) {
return p;
}
p = p->next;
}
return 0;
}
struct Tracker::Page*
Tracker::addPage(const void* v) {
jsuword base = getPageBase(v);
struct Tracker::Page* p = (struct Tracker::Page*)
calloc(1, sizeof(*p) - sizeof(p->map) + (NJ_PAGE_SIZE >> 2) * sizeof(LIns*));
p->base = base;
p->next = pagelist;
pagelist = p;
return p;
}
void
Tracker::clear()
{
while (pagelist) {
Page* p = pagelist;
pagelist = pagelist->next;
free(p);
}
}
bool
Tracker::has(const void *v) const
{
return get(v) != NULL;
}
LIns*
Tracker::get(const void* v) const
{
struct Tracker::Page* p = findPage(v);
if (!p)
return NULL;
return p->map[(jsuword(v) & PAGEMASK) >> 2];
}
void
Tracker::set(const void* v, LIns* i)
{
struct Tracker::Page* p = findPage(v);
if (!p)
p = addPage(v);
p->map[(jsuword(v) & PAGEMASK) >> 2] = i;
}
static inline jsuint
argSlots(JSStackFrame* fp)
{
return JS_MAX(fp->argc, fp->fun->nargs);
}
static inline bool
isNumber(jsval v)
{
return JSVAL_IS_INT(v) || JSVAL_IS_DOUBLE(v);
}
static inline jsdouble
asNumber(jsval v)
{
JS_ASSERT(isNumber(v));
if (JSVAL_IS_DOUBLE(v))
return *JSVAL_TO_DOUBLE(v);
return (jsdouble)JSVAL_TO_INT(v);
}
static inline bool
isInt32(jsval v)
{
if (!isNumber(v))
return false;
jsdouble d = asNumber(v);
jsint i;
return JSDOUBLE_IS_INT(d, i);
}
static inline jsint
asInt32(jsval v)
{
JS_ASSERT(isNumber(v));
if (JSVAL_IS_INT(v))
return JSVAL_TO_INT(v);
#ifdef DEBUG
jsint i;
JS_ASSERT(JSDOUBLE_IS_INT(*JSVAL_TO_DOUBLE(v), i));
#endif
return jsint(*JSVAL_TO_DOUBLE(v));
}
/* Return TT_DOUBLE for all numbers (int and double) and the tag otherwise. */
static inline JSTraceType
GetPromotedType(jsval v)
{
if (JSVAL_IS_INT(v))
return TT_DOUBLE;
if (JSVAL_IS_OBJECT(v)) {
if (JSVAL_IS_NULL(v))
return TT_NULL;
if (HAS_FUNCTION_CLASS(JSVAL_TO_OBJECT(v)))
return TT_FUNCTION;
return TT_OBJECT;
}
uint8_t tag = JSVAL_TAG(v);
JS_ASSERT(tag == JSVAL_DOUBLE || tag == JSVAL_STRING || tag == JSVAL_SPECIAL);
JS_STATIC_ASSERT(static_cast<jsvaltag>(TT_DOUBLE) == JSVAL_DOUBLE);
JS_STATIC_ASSERT(static_cast<jsvaltag>(TT_STRING) == JSVAL_STRING);
JS_STATIC_ASSERT(static_cast<jsvaltag>(TT_PSEUDOBOOLEAN) == JSVAL_SPECIAL);
return JSTraceType(tag);
}
/* Return TT_INT32 for all whole numbers that fit into signed 32-bit and the tag otherwise. */
static inline JSTraceType
getCoercedType(jsval v)
{
if (isInt32(v))
return TT_INT32;
if (JSVAL_IS_OBJECT(v)) {
if (JSVAL_IS_NULL(v))
return TT_NULL;
if (HAS_FUNCTION_CLASS(JSVAL_TO_OBJECT(v)))
return TT_FUNCTION;
return TT_OBJECT;
}
uint8_t tag = JSVAL_TAG(v);
JS_ASSERT(tag == JSVAL_DOUBLE || tag == JSVAL_STRING || tag == JSVAL_SPECIAL);
JS_STATIC_ASSERT(static_cast<jsvaltag>(TT_DOUBLE) == JSVAL_DOUBLE);
JS_STATIC_ASSERT(static_cast<jsvaltag>(TT_STRING) == JSVAL_STRING);
JS_STATIC_ASSERT(static_cast<jsvaltag>(TT_PSEUDOBOOLEAN) == JSVAL_SPECIAL);
return JSTraceType(tag);
}
/* 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)
{
uintptr_t h = HASH_SEED;
HashAccum(h, uintptr_t(cx->fp->script), ORACLE_MASK);
HashAccum(h, uintptr_t(cx->fp->regs->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->down)
fp = fp->down;
HashAccum(h, uintptr_t(fp->script), ORACLE_MASK);
HashAccum(h, uintptr_t(OBJ_SHAPE(JS_GetGlobalForObject(cx, fp->scopeChain))), 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)
{
_stackDontDemote.set(StackSlotHash(cx, slot));
}
/* Consult with the oracle whether we shouldn't demote a certain slot. */
JS_REQUIRES_STACK bool
Oracle::isStackSlotUndemotable(JSContext* cx, unsigned slot) const
{
return _stackDontDemote.get(StackSlotHash(cx, slot));
}
/* 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 static JS_INLINE void
MarkSlotUndemotable(JSContext* cx, TreeInfo* ti, unsigned slot)
{
if (slot < ti->nStackTypes) {
oracle.markStackSlotUndemotable(cx, slot);
return;
}
uint16* gslots = ti->globalSlots->data();
oracle.markGlobalSlotUndemotable(cx, gslots[slot - ti->nStackTypes]);
}
static JS_REQUIRES_STACK inline bool
IsSlotUndemotable(JSContext* cx, TreeInfo* ti, unsigned slot)
{
if (slot < ti->nStackTypes)
return oracle.isStackSlotUndemotable(cx, slot);
uint16* gslots = ti->globalSlots->data();
return oracle.isGlobalSlotUndemotable(cx, gslots[slot - ti->nStackTypes]);
}
struct PCHashEntry : public JSDHashEntryStub {
size_t count;
};
#define PC_HASH_COUNT 1024
static void
Blacklist(jsbytecode* pc)
{
AUDIT(blacklisted);
JS_ASSERT(*pc == JSOP_TRACE || *pc == JSOP_NOP);
*pc = JSOP_NOP;
}
static void
Backoff(JSContext *cx, jsbytecode* pc, Fragment* tree = NULL)
{
JSDHashTable *table = &JS_TRACE_MONITOR(cx).recordAttempts;
if (table->ops) {
PCHashEntry *entry = (PCHashEntry *)
JS_DHashTableOperate(table, pc, JS_DHASH_ADD);
if (entry) {
if (!entry->key) {
entry->key = pc;
JS_ASSERT(entry->count == 0);
}
JS_ASSERT(JS_DHASH_ENTRY_IS_LIVE(&(entry->hdr)));
if (entry->count++ > (BL_ATTEMPTS * MAXPEERS)) {
entry->count = 0;
Blacklist(pc);
return;
}
}
}
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)
{
JSDHashTable *table = &JS_TRACE_MONITOR(cx).recordAttempts;
if (table->ops) {
PCHashEntry *entry = (PCHashEntry *)
JS_DHashTableOperate(table, pc, JS_DHASH_LOOKUP);
if (JS_DHASH_ENTRY_IS_FREE(&(entry->hdr)))
return;
JS_ASSERT(JS_DHASH_ENTRY_IS_LIVE(&(entry->hdr)));
entry->count = 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);
}
/*
* argc is cx->fp->argc at the trace loop header, i.e., the number of arguments
* pushed for the innermost JS frame. This is required as part of the fragment
* key because the fragment will write those arguments back to the interpreter
* stack when it exits, using its typemap, which implicitly incorporates a
* given value of argc. Without this feature, a fragment could be called as an
* inner tree with two different values of argc, and entry type checking or
* exit frame synthesis could crash.
*/
struct VMFragment : public Fragment
{
VMFragment(const void* _ip, JSObject* _globalObj, uint32 _globalShape, uint32 _argc
verbose_only(, uint32_t profFragID)) :
Fragment(_ip verbose_only(, profFragID)),
first(NULL),
next(NULL),
peer(NULL),
globalObj(_globalObj),
globalShape(_globalShape),
argc(_argc)
{ }
inline TreeInfo* getTreeInfo() {
return (TreeInfo*)vmprivate;
}
VMFragment* first;
VMFragment* next;
VMFragment* peer;
JSObject* globalObj;
uint32 globalShape;
uint32 argc;
};
static VMFragment*
getVMFragment(JSTraceMonitor* tm, const void *ip, JSObject* globalObj, uint32 globalShape,
uint32 argc)
{
size_t h = FragmentHash(ip, globalObj, globalShape, argc);
VMFragment* vf = tm->vmfragments[h];
while (vf &&
! (vf->globalObj == globalObj &&
vf->globalShape == globalShape &&
vf->ip == ip &&
vf->argc == argc)) {
vf = vf->next;
}
return vf;
}
static VMFragment*
getLoop(JSTraceMonitor* tm, const void *ip, JSObject* globalObj, uint32 globalShape, uint32 argc)
{
return getVMFragment(tm, ip, globalObj, globalShape, argc);
}
static VMFragment*
getAnchor(JSTraceMonitor* tm, const void *ip, JSObject* globalObj, uint32 globalShape, uint32 argc)
{
verbose_only(
uint32_t profFragID = (js_LogController.lcbits & LC_FragProfile)
? (++(tm->lastFragID)) : 0;
)
VMFragment *f = new (*tm->dataAlloc) VMFragment(ip, globalObj, globalShape, argc
verbose_only(, profFragID));
JS_ASSERT(f);
VMFragment *p = getVMFragment(tm, ip, globalObj, globalShape, argc);
if (p) {
f->first = p;
/* append at the end of the peer list */
VMFragment* next;
while ((next = p->peer) != NULL)
p = next;
p->peer = f;
} else {
/* this is the first fragment */
f->first = f;
size_t h = FragmentHash(ip, globalObj, globalShape, argc);
f->next = tm->vmfragments[h];
tm->vmfragments[h] = f;
}
f->root = f;
return f;
}
#ifdef DEBUG
static void
AssertTreeIsUnique(JSTraceMonitor* tm, VMFragment* f, TreeInfo* ti)
{
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.
*/
TreeInfo* ti_other;
for (VMFragment* peer = getLoop(tm, f->ip, f->globalObj, f->globalShape, f->argc);
peer != NULL;
peer = peer->peer) {
if (!peer->code() || peer == f)
continue;
ti_other = (TreeInfo*)peer->vmprivate;
JS_ASSERT(ti_other);
JS_ASSERT(!ti->typeMap.matches(ti_other->typeMap));
}
}
#endif
static void
AttemptCompilation(JSContext *cx, JSTraceMonitor* tm, JSObject* globalObj, jsbytecode* pc,
uint32 argc)
{
/* 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. */
VMFragment* f = (VMFragment*)getLoop(tm, pc, globalObj, OBJ_SHAPE(globalObj), 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;
}
}
// Forward declarations.
JS_DEFINE_CALLINFO_1(static, DOUBLE, i2f, INT32, 1, 1)
JS_DEFINE_CALLINFO_1(static, DOUBLE, u2f, UINT32, 1, 1)
static bool
isi2f(LIns* i)
{
if (i->isop(LIR_i2f))
return true;
if (nanojit::AvmCore::config.soft_float &&
i->isop(LIR_qjoin) &&
i->oprnd1()->isop(LIR_pcall) &&
i->oprnd2()->isop(LIR_callh)) {
if (i->oprnd1()->callInfo() == &i2f_ci)
return true;
}
return false;
}
static bool
isu2f(LIns* i)
{
if (i->isop(LIR_u2f))
return true;
if (nanojit::AvmCore::config.soft_float &&
i->isop(LIR_qjoin) &&
i->oprnd1()->isop(LIR_pcall) &&
i->oprnd2()->isop(LIR_callh)) {
if (i->oprnd1()->callInfo() == &u2f_ci)
return true;
}
return false;
}
static LIns*
iu2fArg(LIns* i)
{
if (nanojit::AvmCore::config.soft_float &&
i->isop(LIR_qjoin)) {
return i->oprnd1()->arg(0);
}
return i->oprnd1();
}
static LIns*
demote(LirWriter *out, LIns* i)
{
if (i->isCall())
return i->callArgN(0);
if (isi2f(i) || isu2f(i))
return iu2fArg(i);
if (i->isconst())
return i;
JS_ASSERT(i->isconstf());
double cf = i->imm64f();
int32_t ci = cf > 0x7fffffff ? uint32_t(cf) : int32_t(cf);
return out->insImm(ci);
}
static bool
isPromoteInt(LIns* i)
{
if (isi2f(i) || i->isconst())
return true;
if (!i->isconstf())
return false;
jsdouble d = i->imm64f();
return d == jsdouble(jsint(d)) && !JSDOUBLE_IS_NEGZERO(d);
}
static bool
isPromoteUint(LIns* i)
{
if (isu2f(i) || i->isconst())
return true;
if (!i->isconstf())
return false;
jsdouble d = i->imm64f();
return d == jsdouble(jsuint(d)) && !JSDOUBLE_IS_NEGZERO(d);
}
static bool
isPromote(LIns* i)
{
return isPromoteInt(i) || isPromoteUint(i);
}
static bool
IsConst(LIns* i, int32_t c)
{
return i->isconst() && i->imm32() == c;
}
/*
* Determine whether this operand is guaranteed to not overflow the specified
* integer operation.
*/
static bool
IsOverflowSafe(LOpcode op, LIns* i)
{
LIns* c;
switch (op) {
case LIR_add:
case LIR_sub:
return (i->isop(LIR_and) && ((c = i->oprnd2())->isconst()) &&
((c->imm32() & 0xc0000000) == 0)) ||
(i->isop(LIR_rsh) && ((c = i->oprnd2())->isconst()) &&
((c->imm32() > 0)));
default:
JS_ASSERT(op == LIR_mul);
}
return (i->isop(LIR_and) && ((c = i->oprnd2())->isconst()) &&
((c->imm32() & 0xffff0000) == 0)) ||
(i->isop(LIR_ush) && ((c = i->oprnd2())->isconst()) &&
((c->imm32() >= 16)));
}
/* soft float support */
static jsdouble FASTCALL
fneg(jsdouble x)
{
return -x;
}
JS_DEFINE_CALLINFO_1(static, DOUBLE, fneg, DOUBLE, 1, 1)
static jsdouble FASTCALL
i2f(int32 i)
{
return i;
}
static jsdouble FASTCALL
u2f(jsuint u)
{
return u;
}
static int32 FASTCALL
fcmpeq(jsdouble x, jsdouble y)
{
return x==y;
}
JS_DEFINE_CALLINFO_2(static, INT32, fcmpeq, DOUBLE, DOUBLE, 1, 1)
static int32 FASTCALL
fcmplt(jsdouble x, jsdouble y)
{
return x < y;
}
JS_DEFINE_CALLINFO_2(static, INT32, fcmplt, DOUBLE, DOUBLE, 1, 1)
static int32 FASTCALL
fcmple(jsdouble x, jsdouble y)
{
return x <= y;
}
JS_DEFINE_CALLINFO_2(static, INT32, fcmple, DOUBLE, DOUBLE, 1, 1)
static int32 FASTCALL
fcmpgt(jsdouble x, jsdouble y)
{
return x > y;
}
JS_DEFINE_CALLINFO_2(static, INT32, fcmpgt, DOUBLE, DOUBLE, 1, 1)
static int32 FASTCALL
fcmpge(jsdouble x, jsdouble y)
{
return x >= y;
}
JS_DEFINE_CALLINFO_2(static, INT32, fcmpge, DOUBLE, DOUBLE, 1, 1)
static jsdouble FASTCALL
fmul(jsdouble x, jsdouble y)
{
return x * y;
}
JS_DEFINE_CALLINFO_2(static, DOUBLE, fmul, DOUBLE, DOUBLE, 1, 1)
static jsdouble FASTCALL
fadd(jsdouble x, jsdouble y)
{
return x + y;
}
JS_DEFINE_CALLINFO_2(static, DOUBLE, fadd, DOUBLE, DOUBLE, 1, 1)
static jsdouble FASTCALL
fdiv(jsdouble x, jsdouble y)
{
return x / y;
}
JS_DEFINE_CALLINFO_2(static, DOUBLE, fdiv, DOUBLE, DOUBLE, 1, 1)
static jsdouble FASTCALL
fsub(jsdouble x, jsdouble y)
{
return x - y;
}
JS_DEFINE_CALLINFO_2(static, DOUBLE, fsub, DOUBLE, DOUBLE, 1, 1)
// replace fpu ops with function calls
class SoftFloatFilter: public LirWriter
{
public:
SoftFloatFilter(LirWriter *out) : LirWriter(out)
{}
LIns *hi(LIns *q) {
return ins1(LIR_qhi, q);
}
LIns *lo(LIns *q) {
return ins1(LIR_qlo, q);
}
LIns *split(LIns *a) {
if (a->isQuad() && !a->isop(LIR_qjoin)) {
// all quad-sized args must be qjoin's for soft-float
a = ins2(LIR_qjoin, lo(a), hi(a));
}
return a;
}
LIns *split(const CallInfo *call, LInsp args[]) {
LIns *lo = out->insCall(call, args);
LIns *hi = out->ins1(LIR_callh, lo);
return out->ins2(LIR_qjoin, lo, hi);
}
LIns *fcall1(const CallInfo *call, LIns *a) {
LIns *args[] = { split(a) };
return split(call, args);
}
LIns *fcall2(const CallInfo *call, LIns *a, LIns *b) {
LIns *args[] = { split(b), split(a) };
return split(call, args);
}
LIns *fcmp(const CallInfo *call, LIns *a, LIns *b) {
LIns *args[] = { split(b), split(a) };
return out->ins2(LIR_eq, out->insCall(call, args), out->insImm(1));
}
LIns *ins1(LOpcode op, LIns *a) {
switch (op) {
case LIR_i2f:
return fcall1(&i2f_ci, a);
case LIR_u2f:
return fcall1(&u2f_ci, a);
case LIR_fneg:
return fcall1(&fneg_ci, a);
case LIR_fret:
return out->ins1(op, split(a));
default:
return out->ins1(op, a);
}
}
LIns *ins2(LOpcode op, LIns *a, LIns *b) {
switch (op) {
case LIR_fadd:
return fcall2(&fadd_ci, a, b);
case LIR_fsub:
return fcall2(&fsub_ci, a, b);
case LIR_fmul:
return fcall2(&fmul_ci, a, b);
case LIR_fdiv:
return fcall2(&fdiv_ci, a, b);
case LIR_feq:
return fcmp(&fcmpeq_ci, a, b);
case LIR_flt:
return fcmp(&fcmplt_ci, a, b);
case LIR_fgt:
return fcmp(&fcmpgt_ci, a, b);
case LIR_fle:
return fcmp(&fcmple_ci, a, b);
case LIR_fge:
return fcmp(&fcmpge_ci, a, b);
default:
;
}
return out->ins2(op, a, b);
}
LIns *insCall(const CallInfo *ci, LInsp args[]) {
uint32_t argt = ci->_argtypes;
for (uint32_t i = 0, argsizes = argt >> ARGSIZE_SHIFT; argsizes != 0; i++, argsizes >>= ARGSIZE_SHIFT)
args[i] = split(args[i]);
if ((argt & ARGSIZE_MASK_ANY) == ARGSIZE_F) {
// this function returns a double as two 32bit values, so replace
// call with qjoin(qhi(call), call)
return split(ci, args);
} else {
return out->insCall(ci, args);
}
}
};
class FuncFilter: public LirWriter
{
public:
FuncFilter(LirWriter* out):
LirWriter(out)
{
}
LIns* ins2(LOpcode v, LIns* s0, LIns* s1)
{
if (s0 == s1 && v == LIR_feq) {
if (isPromote(s0)) {
// double(int) and double(uint) cannot be nan
return insImm(1);
}
if (s0->isop(LIR_fmul) || s0->isop(LIR_fsub) || s0->isop(LIR_fadd)) {
LIns* lhs = s0->oprnd1();
LIns* rhs = s0->oprnd2();
if (isPromote(lhs) && isPromote(rhs)) {
// add/sub/mul promoted ints can't be nan
return insImm(1);
}
}
} else if (LIR_feq <= v && v <= LIR_fge) {
if (isPromoteInt(s0) && isPromoteInt(s1)) {
// demote fcmp to cmp
v = LOpcode(v + (LIR_eq - LIR_feq));
return out->ins2(v, demote(out, s0), demote(out, s1));
} else if (isPromoteUint(s0) && isPromoteUint(s1)) {
// uint compare
v = LOpcode(v + (LIR_eq - LIR_feq));
if (v != LIR_eq)
v = LOpcode(v + (LIR_ult - LIR_lt)); // cmp -> ucmp
return out->ins2(v, demote(out, s0), demote(out, s1));
}
} else if (v == LIR_or &&
s0->isop(LIR_lsh) && IsConst(s0->oprnd2(), 16) &&
s1->isop(LIR_and) && IsConst(s1->oprnd2(), 0xffff)) {
LIns* msw = s0->oprnd1();
LIns* lsw = s1->oprnd1();
LIns* x;
LIns* y;
if (lsw->isop(LIR_add) &&
lsw->oprnd1()->isop(LIR_and) &&
lsw->oprnd2()->isop(LIR_and) &&
IsConst(lsw->oprnd1()->oprnd2(), 0xffff) &&
IsConst(lsw->oprnd2()->oprnd2(), 0xffff) &&
msw->isop(LIR_add) &&
msw->oprnd1()->isop(LIR_add) &&
msw->oprnd2()->isop(LIR_rsh) &&
msw->oprnd1()->oprnd1()->isop(LIR_rsh) &&
msw->oprnd1()->oprnd2()->isop(LIR_rsh) &&
IsConst(msw->oprnd2()->oprnd2(), 16) &&
IsConst(msw->oprnd1()->oprnd1()->oprnd2(), 16) &&
IsConst(msw->oprnd1()->oprnd2()->oprnd2(), 16) &&
(x = lsw->oprnd1()->oprnd1()) == msw->oprnd1()->oprnd1()->oprnd1() &&
(y = lsw->oprnd2()->oprnd1()) == msw->oprnd1()->oprnd2()->oprnd1() &&
lsw == msw->oprnd2()->oprnd1()) {
return out->ins2(LIR_add, x, y);
}
}
return out->ins2(v, s0, s1);
}
LIns* insCall(const CallInfo *ci, LIns* args[])
{
if (ci == &js_DoubleToUint32_ci) {
LIns* s0 = args[0];
if (s0->isconstf())
return out->insImm(js_DoubleToECMAUint32(s0->imm64f()));
if (isi2f(s0) || isu2f(s0))
return iu2fArg(s0);
} else if (ci == &js_DoubleToInt32_ci) {
LIns* s0 = args[0];
if (s0->isconstf())
return out->insImm(js_DoubleToECMAInt32(s0->imm64f()));
if (s0->isop(LIR_fadd) || s0->isop(LIR_fsub)) {
LIns* lhs = s0->oprnd1();
LIns* rhs = s0->oprnd2();
if (isPromote(lhs) && isPromote(rhs)) {
LOpcode op = LOpcode(s0->opcode() & ~LIR64);
return out->ins2(op, demote(out, lhs), demote(out, rhs));
}
}
if (isi2f(s0) || isu2f(s0))
return iu2fArg(s0);
// XXX ARM -- check for qjoin(call(UnboxDouble),call(UnboxDouble))
if (s0->isCall()) {
const CallInfo* ci2 = s0->callInfo();
if (ci2 == &js_UnboxDouble_ci) {
LIns* args2[] = { s0->callArgN(0) };
return out->insCall(&js_UnboxInt32_ci, args2);
} else if (ci2 == &js_StringToNumber_ci) {
// callArgN's ordering is that as seen by the builtin, not as stored in
// args here. True story!
LIns* args2[] = { s0->callArgN(1), s0->callArgN(0) };
return out->insCall(&js_StringToInt32_ci, args2);
} else if (ci2 == &js_String_p_charCodeAt0_ci) {
// Use a fast path builtin for a charCodeAt that converts to an int right away.
LIns* args2[] = { s0->callArgN(0) };
return out->insCall(&js_String_p_charCodeAt0_int_ci, args2);
} else if (ci2 == &js_String_p_charCodeAt_ci) {
LIns* idx = s0->callArgN(1);
// If the index is not already an integer, force it to be an integer.
idx = isPromote(idx)
? demote(out, idx)
: out->insCall(&js_DoubleToInt32_ci, &idx);
LIns* args2[] = { idx, s0->callArgN(0) };
return out->insCall(&js_String_p_charCodeAt_int_ci, args2);
}
}
} else if (ci == &js_BoxDouble_ci) {
LIns* s0 = args[0];
JS_ASSERT(s0->isQuad());
if (isPromoteInt(s0)) {
LIns* args2[] = { demote(out, s0), args[1] };
return out->insCall(&js_BoxInt32_ci, args2);
}
if (s0->isCall() && s0->callInfo() == &js_UnboxDouble_ci)
return s0->callArgN(0);
}
return out->insCall(ci, args);
}
};
/*
* 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 <typename Visitor>
static JS_REQUIRES_STACK bool
VisitFrameSlots(Visitor &visitor, unsigned depth, JSStackFrame *fp,
JSStackFrame *up)
{
if (depth > 0 && !VisitFrameSlots(visitor, depth-1, fp->down, fp))
return false;
if (fp->argv) {
if (depth == 0) {
visitor.setStackSlotKind("args");
if (!visitor.visitStackSlots(&fp->argv[-2], argSlots(fp) + 2, fp))
return false;
}
visitor.setStackSlotKind("arguments");
if (!visitor.visitStackSlots(&fp->argsobj, 1, fp))
return false;
visitor.setStackSlotKind("var");
if (!visitor.visitStackSlots(fp->slots, fp->script->nfixed, fp))
return false;
}
visitor.setStackSlotKind("stack");
JS_ASSERT(fp->regs->sp >= StackBase(fp));
if (!visitor.visitStackSlots(StackBase(fp),
size_t(fp->regs->sp - StackBase(fp)),
fp)) {
return false;
}
if (up) {
int missing = up->fun->nargs - up->argc;
if (missing > 0) {
visitor.setStackSlotKind("missing");
if (!visitor.visitStackSlots(fp->regs->sp, size_t(missing), fp))
return false;
}
}
return true;
}
template <typename Visitor>
static JS_REQUIRES_STACK JS_ALWAYS_INLINE bool
VisitStackSlots(Visitor &visitor, JSContext *cx, unsigned callDepth)
{
return VisitFrameSlots(visitor, callDepth, cx->fp, NULL);
}
template <typename Visitor>
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(&STOBJ_GET_SLOT(globalObj, slot), n, slot);
}
}
class AdjustCallerTypeVisitor;
template <typename Visitor>
static JS_REQUIRES_STACK JS_ALWAYS_INLINE void
VisitGlobalSlots(Visitor &visitor, JSContext *cx, SlotList &gslots)
{
VisitGlobalSlots(visitor, cx, JS_GetGlobalForObject(cx, cx->fp->scopeChain),
gslots.length(), gslots.data());
}
template <typename Visitor>
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 <typename Visitor>
static JS_REQUIRES_STACK JS_ALWAYS_INLINE void
VisitSlots(Visitor& visitor, JSContext* cx, unsigned callDepth,
unsigned ngslots, uint16* gslots)
{
VisitSlots(visitor, cx, JS_GetGlobalForObject(cx, cx->fp->scopeChain),
callDepth, ngslots, gslots);
}
template <typename Visitor>
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 <typename Visitor>
static JS_REQUIRES_STACK JS_ALWAYS_INLINE void
VisitSlots(Visitor &visitor, JSContext *cx, unsigned callDepth,
const SlotList& slots)
{
VisitSlots(visitor, cx, JS_GetGlobalForObject(cx, cx->fp->scopeChain),
callDepth, slots.length(), slots.data());
}
class SlotVisitorBase {
#ifdef 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;
jsval* mStop;
public:
JS_ALWAYS_INLINE CountSlotsVisitor(jsval* stop = NULL) :
mCount(0),
mDone(false),
mStop(stop)
{}
JS_REQUIRES_STACK JS_ALWAYS_INLINE bool
visitStackSlots(jsval *vp, size_t count, JSStackFrame* fp) {
if (mDone)
return false;
if (mStop && size_t(mStop - vp) < count) {
mCount += size_t(mStop - vp);
mDone = true;
return false;
}
mCount += count;
return true;
}
JS_ALWAYS_INLINE unsigned count() {
return mCount;
}
JS_ALWAYS_INLINE bool stopped() {
return mDone;
}
};
/*
* 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.
*/
JS_REQUIRES_STACK unsigned
NativeStackSlots(JSContext *cx, unsigned callDepth)
{
JSStackFrame* fp = cx->fp;
unsigned slots = 0;
unsigned depth = callDepth;
for (;;) {
/*
* Duplicate native stack layout computation: see VisitFrameSlots
* header comment.
*/
unsigned operands = fp->regs->sp - StackBase(fp);
slots += operands;
if (fp->argv)
slots += fp->script->nfixed + 1 /*argsobj*/;
if (depth-- == 0) {
if (fp->argv)
slots += 2/*callee,this*/ + argSlots(fp);
#ifdef DEBUG
CountSlotsVisitor visitor;
VisitStackSlots(visitor, cx, callDepth);
JS_ASSERT(visitor.count() == slots && !visitor.stopped());
#endif
return slots;
}
JSStackFrame* fp2 = fp;
fp = fp->down;
int missing = fp2->fun->nargs - fp2->argc;
if (missing > 0)
slots += missing;
}
JS_NOT_REACHED("NativeStackSlots");
}
class CaptureTypesVisitor : public SlotVisitorBase
{
JSContext* mCx;
JSTraceType* mTypeMap;
JSTraceType* mPtr;
public:
JS_ALWAYS_INLINE CaptureTypesVisitor(JSContext* cx, JSTraceType* typeMap) :
mCx(cx),
mTypeMap(typeMap),
mPtr(typeMap)
{}
JS_REQUIRES_STACK JS_ALWAYS_INLINE void
visitGlobalSlot(jsval *vp, unsigned n, unsigned slot) {
JSTraceType type = getCoercedType(*vp);
if (type == TT_INT32 &&
oracle.isGlobalSlotUndemotable(mCx, slot))
type = TT_DOUBLE;
JS_ASSERT(type != TT_JSVAL);
debug_only_printf(LC_TMTracer,
"capture type global%d: %d=%c\n",
n, type, typeChar[type]);
*mPtr++ = type;
}
JS_REQUIRES_STACK JS_ALWAYS_INLINE bool
visitStackSlots(jsval *vp, int count, JSStackFrame* fp) {
for (int i = 0; i < count; ++i) {
JSTraceType type = getCoercedType(vp[i]);
if (type == TT_INT32 &&
oracle.isStackSlotUndemotable(mCx, length()))
type = TT_DOUBLE;
JS_ASSERT(type != TT_JSVAL);
debug_only_printf(LC_TMTracer,
"capture type %s%d: %d=%c\n",
stackSlotKind(), i, type, typeChar[type]);
*mPtr++ = type;
}
return true;
}
JS_ALWAYS_INLINE uintptr_t length() {
return mPtr - mTypeMap;
}
};
/*
* 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)
{
setLength(NativeStackSlots(cx, callDepth) + slots.length());
CaptureTypesVisitor visitor(cx, data());
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)
{
unsigned oldSlots = length() - stackSlots;
int diff = slots.length() - oldSlots;
JS_ASSERT(diff >= 0);
setLength(length() + diff);
CaptureTypesVisitor visitor(cx, data() + stackSlots + oldSlots);
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(JSTraceType* 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(JSTraceType** partial, unsigned* plength, JSTraceType* complete, unsigned clength, JSTraceType* mem)
{
unsigned l = *plength;
JS_ASSERT(l < clength);
memcpy(mem, *partial, l * sizeof(JSTraceType));
memcpy(mem + l, complete + l, (clength - l) * sizeof(JSTraceType));
*partial = mem;
*plength = clength;
}
/* Specializes a tree to any missing globals, including any dependent trees. */
static JS_REQUIRES_STACK void
SpecializeTreesToMissingGlobals(JSContext* cx, JSObject* globalObj, TreeInfo* root)
{
TreeInfo* ti = root;
ti->typeMap.captureMissingGlobalTypes(cx, globalObj, *ti->globalSlots, ti->nStackTypes);
JS_ASSERT(ti->globalSlots->length() == ti->typeMap.length() - ti->nStackTypes);
for (unsigned i = 0; i < root->dependentTrees.length(); i++) {
ti = (TreeInfo*)root->dependentTrees[i]->vmprivate;
/* ti can be NULL if we hit the recording tree in emitTreeCall; this is harmless. */
if (ti && ti->nGlobalTypes() < ti->globalSlots->length())
SpecializeTreesToMissingGlobals(cx, globalObj, ti);
}
for (unsigned i = 0; i < root->linkedTrees.length(); i++) {
ti = (TreeInfo*)root->linkedTrees[i]->vmprivate;
if (ti && ti->nGlobalTypes() < ti->globalSlots->length())
SpecializeTreesToMissingGlobals(cx, globalObj, ti);
}
}
static void
TrashTree(JSContext* cx, Fragment* f);
JS_REQUIRES_STACK
TraceRecorder::TraceRecorder(JSContext* cx, VMSideExit* _anchor, Fragment* _fragment,
TreeInfo* ti, unsigned stackSlots, unsigned ngslots, JSTraceType* typeMap,
VMSideExit* innermostNestedGuard, jsbytecode* outer, uint32 outerArgc)
: whichTreesToTrash(&tempAlloc),
cfgMerges(&tempAlloc)
{
JS_ASSERT(!_fragment->vmprivate && ti && cx->fp->regs->pc == (jsbytecode*)_fragment->ip);
/* 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;
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.
this->cx = cx;
this->traceMonitor = &JS_TRACE_MONITOR(cx);
this->globalObj = JS_GetGlobalForObject(cx, cx->fp->scopeChain);
this->lexicalBlock = cx->fp->blockChain;
this->anchor = _anchor;
this->fragment = _fragment;
this->lirbuf = _fragment->lirbuf;
this->treeInfo = ti;
this->callDepth = _anchor ? _anchor->calldepth : 0;
this->atoms = FrameAtomBase(cx, cx->fp);
this->deepAborted = false;
this->trashSelf = false;
this->global_dslots = this->globalObj->dslots;
this->loop = true; /* default assumption is we are compiling a loop */
this->wasRootFragment = _fragment == _fragment->root;
this->outer = outer;
this->outerArgc = outerArgc;
this->pendingSpecializedNative = NULL;
this->newobj_ins = NULL;
this->loopLabel = NULL;
#ifdef JS_JIT_SPEW
debug_only_print0(LC_TMMinimal, "\n");
debug_only_printf(LC_TMMinimal, "Recording starting from %s:%u@%u (FragID=%06u)\n",
ti->treeFileName, ti->treeLineNumber, ti->treePCOffset,
_fragment->profFragID);
debug_only_printf(LC_TMTracer, "globalObj=%p, shape=%d\n",
(void*)this->globalObj, OBJ_SHAPE(this->globalObj));
debug_only_printf(LC_TMTreeVis, "TREEVIS RECORD FRAG=%p ANCHOR=%p\n", (void*)fragment,
(void*)anchor);
#endif
lir = lir_buf_writer = new LirBufWriter(lirbuf);
#ifdef DEBUG
lir = sanity_filter_1 = new SanityFilter(lir);
#endif
debug_only_stmt(
if (js_LogController.lcbits & LC_TMRecorder) {
lir = verbose_filter
= new VerboseWriter (tempAlloc, lir, lirbuf->names,
&js_LogController);
}
)
if (nanojit::AvmCore::config.soft_float)
lir = float_filter = new SoftFloatFilter(lir);
lir = cse_filter = new CseFilter(lir, tempAlloc);
lir = expr_filter = new ExprFilter(lir);
lir = func_filter = new FuncFilter(lir);
#ifdef DEBUG
lir = sanity_filter_2 = new SanityFilter(lir);
#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)
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 (js_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;
})
lirbuf->sp = addName(lir->insLoad(LIR_ldp, lirbuf->state, (int)offsetof(InterpState, sp)), "sp");
lirbuf->rp = addName(lir->insLoad(LIR_ldp, lirbuf->state, offsetof(InterpState, rp)), "rp");
cx_ins = addName(lir->insLoad(LIR_ldp, lirbuf->state, offsetof(InterpState, cx)), "cx");
eos_ins = addName(lir->insLoad(LIR_ldp, lirbuf->state, offsetof(InterpState, eos)), "eos");
eor_ins = addName(lir->insLoad(LIR_ldp, lirbuf->state, offsetof(InterpState, eor)), "eor");
/* If we came from exit, we might not have enough global types. */
if (ti->globalSlots->length() > ti->nGlobalTypes())
SpecializeTreesToMissingGlobals(cx, globalObj, ti);
/* read into registers all values on the stack and all globals we know so far */
import(treeInfo, 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.
*/
LIns* x = lir->insLoad(LIR_ld, cx_ins, offsetof(JSContext, operationCallbackFlag));
guard(true, lir->ins_eq0(x), snapshot(TIMEOUT_EXIT));
}
/*
* 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(InterpState, lastTreeExitGuard)),
"lastTreeExitGuard");
guard(true, lir->ins2(LIR_peq, nested_ins, INS_CONSTPTR(innermostNestedGuard)), NESTED_EXIT);
}
}
TraceRecorder::~TraceRecorder()
{
JS_ASSERT(nextRecorderToAbort == NULL);
JS_ASSERT(treeInfo && (fragment || wasDeepAborted()));
#ifdef DEBUG
TraceRecorder* tr = JS_TRACE_MONITOR(cx).abortStack;
while (tr) {
JS_ASSERT(this != tr);
tr = tr->nextRecorderToAbort;
}
#endif
if (fragment) {
if (trashSelf)
TrashTree(cx, fragment->root);
for (unsigned int i = 0; i < whichTreesToTrash.length(); i++)
TrashTree(cx, whichTreesToTrash[i]);
}
#ifdef DEBUG
debug_only_stmt( delete verbose_filter; )
delete sanity_filter_1;
delete sanity_filter_2;
#endif
delete cse_filter;
delete expr_filter;
delete func_filter;
delete float_filter;
delete lir_buf_writer;
}
bool
TraceRecorder::outOfMemory()
{
return traceMonitor->dataAlloc->outOfMemory() || tempAlloc.outOfMemory();
}
void
TraceRecorder::removeFragmentReferences()
{
fragment = NULL;
}
void
TraceRecorder::deepAbort()
{
debug_only_print0(LC_TMTracer|LC_TMAbort, "deep abort");
deepAborted = true;
}
/* 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 (js_LogController.lcbits > 0)
lirbuf->names->addName(ins, name);
#endif
return ins;
}
inline LIns*
TraceRecorder::insImmObj(JSObject* obj)
{
treeInfo->gcthings.addUnique(OBJECT_TO_JSVAL(obj));
return lir->insImmPtr((void*)obj);
}
inline LIns*
TraceRecorder::insImmFun(JSFunction* fun)
{
treeInfo->gcthings.addUnique(OBJECT_TO_JSVAL(FUN_OBJECT(fun)));
return lir->insImmPtr((void*)fun);
}
inline LIns*
TraceRecorder::insImmStr(JSString* str)
{
treeInfo->gcthings.addUnique(STRING_TO_JSVAL(str));
return lir->insImmPtr((void*)str);
}
inline LIns*
TraceRecorder::insImmSprop(JSScopeProperty* sprop)
{
treeInfo->sprops.addUnique(sprop);
return lir->insImmPtr((void*)sprop);
}
inline LIns*
TraceRecorder::p2i(nanojit::LIns* ins)
{
#ifdef NANOJIT_64BIT
return lir->ins1(LIR_qlo, ins);
#else
return ins;
#endif
}
/* Determine the current call depth (starting with the entry frame.) */
unsigned
TraceRecorder::getCallDepth() const
{
return callDepth;
}
/* Determine the offset in the native global frame for a jsval we track. */
ptrdiff_t
TraceRecorder::nativeGlobalOffset(jsval* p) const
{
JS_ASSERT(isGlobal(p));
if (size_t(p - globalObj->fslots) < JS_INITIAL_NSLOTS)
return sizeof(InterpState) + size_t(p - globalObj->fslots) * sizeof(double);
return sizeof(InterpState) + ((p - globalObj->dslots) + JS_INITIAL_NSLOTS) * sizeof(double);
}
/* Determine whether a value is a global stack slot. */
bool
TraceRecorder::isGlobal(jsval* p) const
{
return ((size_t(p - globalObj->fslots) < JS_INITIAL_NSLOTS) ||
(size_t(p - globalObj->dslots) < (STOBJ_NSLOTS(globalObj) - JS_INITIAL_NSLOTS)));
}
/*
* 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 InterpState::stackBase, in bytes,
* where the native representation of |*p| is stored. To get the offset
* relative to InterpState::sp, subtract TreeInfo::nativeStackBase.
*/
JS_REQUIRES_STACK ptrdiff_t
TraceRecorder::nativeStackOffset(jsval* 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()) {
JS_ASSERT(size_t(p - cx->fp->slots) < cx->fp->script->nslots);
offset += size_t(p - cx->fp->regs->sp) * sizeof(double);
}
return offset;
}
/* Track the maximum number of native frame slots we need during execution. */
void
TraceRecorder::trackNativeStackUse(unsigned slots)
{
if (slots > treeInfo->maxNativeStackSlots)
treeInfo->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 void
ValueToNative(JSContext* cx, jsval v, JSTraceType type, double* slot)
{
uint8_t tag = JSVAL_TAG(v);
switch (type) {
case TT_OBJECT:
JS_ASSERT(tag == JSVAL_OBJECT);
JS_ASSERT(!JSVAL_IS_NULL(v) && !HAS_FUNCTION_CLASS(JSVAL_TO_OBJECT(v)));
*(JSObject**)slot = JSVAL_TO_OBJECT(v);
debug_only_printf(LC_TMTracer,
"object<%p:%s> ", (void*)JSVAL_TO_OBJECT(v),
JSVAL_IS_NULL(v)
? "null"
: STOBJ_GET_CLASS(JSVAL_TO_OBJECT(v))->name);
return;
case TT_INT32:
jsint i;
if (JSVAL_IS_INT(v))
*(jsint*)slot = JSVAL_TO_INT(v);
else if (tag == JSVAL_DOUBLE && JSDOUBLE_IS_INT(*JSVAL_TO_DOUBLE(v), i))
*(jsint*)slot = i;
else
JS_ASSERT(JSVAL_IS_INT(v));
debug_only_printf(LC_TMTracer, "int<%d> ", *(jsint*)slot);
return;
case TT_DOUBLE:
jsdouble d;
if (JSVAL_IS_INT(v))
d = JSVAL_TO_INT(v);
else
d = *JSVAL_TO_DOUBLE(v);
JS_ASSERT(JSVAL_IS_INT(v) || JSVAL_IS_DOUBLE(v));
*(jsdouble*)slot = d;
debug_only_printf(LC_TMTracer, "double<%g> ", d);
return;
case TT_JSVAL:
JS_NOT_REACHED("found jsval type in an entry type map");
return;
case TT_STRING:
JS_ASSERT(tag == JSVAL_STRING);
*(JSString**)slot = JSVAL_TO_STRING(v);
debug_only_printf(LC_TMTracer, "string<%p> ", (void*)(*(JSString**)slot));
return;
case TT_NULL:
JS_ASSERT(tag == JSVAL_OBJECT);
*(JSObject**)slot = NULL;
debug_only_print0(LC_TMTracer, "null ");
return;
case TT_PSEUDOBOOLEAN:
/* Watch out for pseudo-booleans. */
JS_ASSERT(tag == JSVAL_SPECIAL);
*(JSBool*)slot = JSVAL_TO_SPECIAL(v);
debug_only_printf(LC_TMTracer, "pseudoboolean<%d> ", *(JSBool*)slot);
return;
case TT_FUNCTION: {
JS_ASSERT(tag == JSVAL_OBJECT);
JSObject* obj = JSVAL_TO_OBJECT(v);
*(JSObject**)slot = obj;
#ifdef DEBUG
JSFunction* fun = GET_FUNCTION_PRIVATE(cx, obj);
debug_only_printf(LC_TMTracer,
"function<%p:%s> ", (void*) obj,
fun->atom
? JS_GetStringBytes(ATOM_TO_STRING(fun->atom))
: "unnamed");
#endif
return;
}
}
JS_NOT_REACHED("unexpected type");
}
/*
* We maintain an emergency pool of doubles so we can recover safely if a trace
* runs out of memory (doubles or objects).
*/
static jsval
AllocateDoubleFromReservedPool(JSContext* cx)
{
JSTraceMonitor* tm = &JS_TRACE_MONITOR(cx);
JS_ASSERT(tm->reservedDoublePoolPtr > tm->reservedDoublePool);
return *--tm->reservedDoublePoolPtr;
}
static bool
ReplenishReservedPool(JSContext* cx, JSTraceMonitor* tm)
{
/* We should not be called with a full pool. */
JS_ASSERT((size_t) (tm->reservedDoublePoolPtr - tm->reservedDoublePool) <
MAX_NATIVE_STACK_SLOTS);
/*
* When the GC runs in js_NewDoubleInRootedValue, it resets
* tm->reservedDoublePoolPtr back to tm->reservedDoublePool.
*/
JSRuntime* rt = cx->runtime;
uintN gcNumber = rt->gcNumber;
uintN lastgcNumber = gcNumber;
jsval* ptr = tm->reservedDoublePoolPtr;
while (ptr < tm->reservedDoublePool + MAX_NATIVE_STACK_SLOTS) {
if (!js_NewDoubleInRootedValue(cx, 0.0, ptr))
goto oom;
/* Check if the last call to js_NewDoubleInRootedValue GC'd. */
if (rt->gcNumber != lastgcNumber) {
lastgcNumber = rt->gcNumber;
JS_ASSERT(tm->reservedDoublePoolPtr == tm->reservedDoublePool);
ptr = tm->reservedDoublePool;
/*
* Have we GC'd more than once? We're probably running really
* low on memory, bail now.
*/
if (uintN(rt->gcNumber - gcNumber) > uintN(1))
goto oom;
continue;
}
++ptr;
}
tm->reservedDoublePoolPtr = ptr;
return true;
oom:
/*
* Already massive GC pressure, no need to hold doubles back.
* We won't run any native code anyway.
*/
tm->reservedDoublePoolPtr = tm->reservedDoublePool;
return false;
}
void
JSTraceMonitor::flush()
{
AUDIT(cacheFlushed);
// recover profiling data from expiring Fragments
verbose_only(
for (size_t i = 0; i < FRAGMENT_TABLE_SIZE; ++i) {
for (VMFragment *f = vmfragments[i]; f; f = f->next) {
JS_ASSERT(f->root == f);
for (VMFragment *p = f; p; p = p->peer)
js_FragProfiling_FragFinalizer(p, this);
}
}
)
verbose_only(
for (Seq<Fragment*>* f = branches; f; f = f->tail)
js_FragProfiling_FragFinalizer(f->head, this);
)
dataAlloc->reset();
codeAlloc->reset();
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, core, &js_LogController);
lirbuf = new (alloc) LirBuffer(alloc);
reLirBuf = new (alloc) LirBuffer(alloc);
verbose_only( branches = NULL; )
#ifdef DEBUG
labels = new (alloc) LabelMap(alloc, &js_LogController);
reLirBuf->names =
lirbuf->names = new (alloc) LirNameMap(alloc, labels);
#endif
memset(&vmfragments[0], 0, FRAGMENT_TABLE_SIZE * sizeof(VMFragment*));
reFragments = new (alloc) REHashMap(alloc);
needFlush = JS_FALSE;
}
void
JSTraceMonitor::mark(JSTracer* trc)
{
if (!trc->context->runtime->gcFlushCodeCaches) {
for (size_t i = 0; i < FRAGMENT_TABLE_SIZE; ++i) {
VMFragment* f = vmfragments[i];
while (f) {
TreeInfo* ti = (TreeInfo*)f->vmprivate;
if (ti) {
jsval* vp = ti->gcthings.data();
unsigned len = ti->gcthings.length();
while (len--) {
jsval v = *vp++;
JS_SET_TRACING_NAME(trc, "jitgcthing");
JS_CallTracer(trc, JSVAL_TO_TRACEABLE(v), JSVAL_TRACE_KIND(v));
}
JSScopeProperty** spropp = ti->sprops.data();
len = ti->sprops.length();
while (len--) {
JSScopeProperty* sprop = *spropp++;
sprop->trace(trc);
}
}
f = f->next;
}
}
return;
}
flush();
}
/*
* Box a value from the native stack back into the jsval format. Integers that
* are too large to fit into a jsval are automatically boxed into
* heap-allocated doubles.
*/
template <typename E>
static inline bool
NativeToValueBase(JSContext* cx, jsval& v, JSTraceType type, double* slot)
{
jsint i;
jsdouble d;
switch (type) {
case TT_OBJECT:
v = OBJECT_TO_JSVAL(*(JSObject**)slot);
JS_ASSERT(v != JSVAL_ERROR_COOKIE); /* don't leak JSVAL_ERROR_COOKIE */
debug_only_printf(LC_TMTracer,
"object<%p:%s> ", (void*)JSVAL_TO_OBJECT(v),
JSVAL_IS_NULL(v)
? "null"
: STOBJ_GET_CLASS(JSVAL_TO_OBJECT(v))->name);
break;
case TT_INT32:
i = *(jsint*)slot;
debug_only_printf(LC_TMTracer, "int<%d> ", i);
store_int:
if (INT_FITS_IN_JSVAL(i)) {
v = INT_TO_JSVAL(i);
break;
}
d = (jsdouble)i;
goto store_double;
case TT_DOUBLE:
d = *slot;
debug_only_printf(LC_TMTracer, "double<%g> ", d);
if (JSDOUBLE_IS_INT(d, i))
goto store_int;
store_double: {
/*
* It's not safe to trigger the GC here, so use an emergency heap if we
* are out of double boxes.
*/
if (cx->doubleFreeList) {
#ifdef DEBUG
JSBool ok =
#endif
js_NewDoubleInRootedValue(cx, d, &v);
JS_ASSERT(ok);
return true;
}
return E::handleDoubleOOM(cx, d, v);
}
case TT_JSVAL:
v = *(jsval*)slot;
JS_ASSERT(v != JSVAL_ERROR_COOKIE); /* don't leak JSVAL_ERROR_COOKIE */
debug_only_printf(LC_TMTracer, "box<%p> ", (void*)v);
break;
case TT_STRING:
v = STRING_TO_JSVAL(*(JSString**)slot);
debug_only_printf(LC_TMTracer, "string<%p> ", (void*)(*(JSString**)slot));
break;
case TT_NULL:
JS_ASSERT(*(JSObject**)slot == NULL);
v = JSVAL_NULL;
debug_only_printf(LC_TMTracer, "null<%p> ", (void*)(*(JSObject**)slot));
break;
case TT_PSEUDOBOOLEAN:
/* Watch out for pseudo-booleans. */
v = SPECIAL_TO_JSVAL(*(JSBool*)slot);
debug_only_printf(LC_TMTracer, "boolean<%d> ", *(JSBool*)slot);
break;
case TT_FUNCTION: {
JS_ASSERT(HAS_FUNCTION_CLASS(*(JSObject**)slot));
v = OBJECT_TO_JSVAL(*(JSObject**)slot);
#ifdef DEBUG
JSFunction* fun = GET_FUNCTION_PRIVATE(cx, JSVAL_TO_OBJECT(v));
debug_only_printf(LC_TMTracer,
"function<%p:%s> ", (void*)JSVAL_TO_OBJECT(v),
fun->atom
? JS_GetStringBytes(ATOM_TO_STRING(fun->atom))
: "unnamed");
#endif
break;
}
}
return true;
}
struct ReserveDoubleOOMHandler {
static bool handleDoubleOOM(JSContext *cx, double d, jsval& v) {
v = AllocateDoubleFromReservedPool(cx);
JS_ASSERT(JSVAL_IS_DOUBLE(v) && *JSVAL_TO_DOUBLE(v) == 0.0);
*JSVAL_TO_DOUBLE(v) = d;
return true;
}
};
static void
NativeToValue(JSContext* cx, jsval& v, JSTraceType type, double* slot)
{
#ifdef DEBUG
bool ok =
#endif
NativeToValueBase<ReserveDoubleOOMHandler>(cx, v, type, slot);
JS_ASSERT(ok);
}
struct FailDoubleOOMHandler {
static bool handleDoubleOOM(JSContext *cx, double d, jsval& v) {
return false;
}
};
bool
js_NativeToValue(JSContext* cx, jsval& v, JSTraceType type, double* slot)
{
return NativeToValueBase<FailDoubleOOMHandler>(cx, v, type, slot);
}
class BuildNativeFrameVisitor : public SlotVisitorBase
{
JSContext *mCx;
JSTraceType *mTypeMap;
double *mGlobal;
double *mStack;
public:
BuildNativeFrameVisitor(JSContext *cx,
JSTraceType *typemap,
double *global,
double *stack) :
mCx(cx),
mTypeMap(typemap),
mGlobal(global),
mStack(stack)
{}
JS_REQUIRES_STACK JS_ALWAYS_INLINE void
visitGlobalSlot(jsval *vp, unsigned n, unsigned slot) {
debug_only_printf(LC_TMTracer, "global%d: ", n);
ValueToNative(mCx, *vp, *mTypeMap++, &mGlobal[slot]);
}
JS_REQUIRES_STACK JS_ALWAYS_INLINE bool
visitStackSlots(jsval *vp, int count, JSStackFrame* fp) {
for (int i = 0; i < count; ++i) {
debug_only_printf(LC_TMTracer, "%s%d: ", stackSlotKind(), i);
ValueToNative(mCx, *vp++, *mTypeMap++, mStack++);
}
return true;
}
};
static JS_REQUIRES_STACK void
BuildNativeFrame(JSContext *cx, JSObject *globalObj, unsigned callDepth,
unsigned ngslots, uint16 *gslots,
JSTraceType *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;
JSTraceType *mTypeMap;
double *mGlobal;
public:
FlushNativeGlobalFrameVisitor(JSContext *cx,
JSTraceType *typeMap,
double *global) :
mCx(cx),
mTypeMap(typeMap),
mGlobal(global)
{}
JS_REQUIRES_STACK JS_ALWAYS_INLINE void
visitGlobalSlot(jsval *vp, unsigned n, unsigned slot) {
debug_only_printf(LC_TMTracer, "global%d=", n);
NativeToValue(mCx, *vp, *mTypeMap++, &mGlobal[slot]);
}
};
class FlushNativeStackFrameVisitor : public SlotVisitorBase
{
JSContext *mCx;
JSTraceType *mTypeMap;
double *mStack;
jsval *mStop;
public:
FlushNativeStackFrameVisitor(JSContext *cx,
JSTraceType *typeMap,
double *stack,
jsval *stop) :
mCx(cx),
mTypeMap(typeMap),
mStack(stack),
mStop(stop)
{}
JSTraceType* getTypeMap()
{
return mTypeMap;
}
JS_REQUIRES_STACK JS_ALWAYS_INLINE bool
visitStackSlots(jsval *vp, size_t count, JSStackFrame* fp) {
for (size_t i = 0; i < count; ++i) {
if (vp == mStop)
return false;
debug_only_printf(LC_TMTracer, "%s%u=", stackSlotKind(), unsigned(i));
NativeToValue(mCx, *vp++, *mTypeMap++, mStack++);
}
return true;
}
};
/* Box the given native frame into a JS frame. This is infallible. */
static JS_REQUIRES_STACK void
FlushNativeGlobalFrame(JSContext *cx, double *global, unsigned ngslots,
uint16 *gslots, JSTraceType *typemap)
{
FlushNativeGlobalFrameVisitor visitor(cx, typemap, global);
JSObject *globalObj = JS_GetGlobalForObject(cx, cx->fp->scopeChain);
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(InterpState* 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<typename T>
inline JSTraceType
GetUpvarOnTrace(JSContext* cx, uint32 upvarLevel, int32 slot, uint32 callDepth, double* result)
{
InterpState* state = cx->interpState;
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 = ((VMFragment*) state->outermostTree->fragment)->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 < JS_DISPLAY_SIZE);
JSStackFrame* fp = cx->display[upvarLevel];
jsval v = T::interp_get(fp, slot);
JSTraceType type = getCoercedType(v);
ValueToNative(cx, v, type, result);
return type;
}
// For this traits type, 'slot' is the argument index, which may be -2 for callee.
struct UpvarArgTraits {
static jsval interp_get(JSStackFrame* fp, int32 slot) {
return fp->argv[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<UpvarArgTraits>(cx, upvarLevel, slot, callDepth, result);
}
// For this traits type, 'slot' is an index into the local slots array.
struct UpvarVarTraits {
static jsval interp_get(JSStackFrame* fp, int32 slot) {
return fp->slots[slot];
}
static uint32 native_slot(uint32 argc, int32 slot) {
return 3 /*callee,this,arguments*/ + argc + slot;
}
};
uint32 JS_FASTCALL
GetUpvarVarOnTrace(JSContext* cx, uint32 upvarLevel, int32 slot, uint32 callDepth, double* result)
{
return GetUpvarOnTrace<UpvarVarTraits>(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 jsval interp_get(JSStackFrame* fp, int32 slot) {
return fp->slots[slot + fp->script->nfixed];
}
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->script->nfixed.
*/
JS_ASSERT(argc == 0);
return slot;
}
};
uint32 JS_FASTCALL
GetUpvarStackOnTrace(JSContext* cx, uint32 upvarLevel, int32 slot, uint32 callDepth,
double* result)
{
return GetUpvarOnTrace<UpvarStackTraits>(cx, upvarLevel, slot, callDepth, result);
}
// Parameters needed to access a value from a closure on trace.
struct ClosureVarInfo
{
jsid id;
uint32 slot;
uint32 callDepth;
uint32 resolveFlags;
};
/*
* Generic function to read upvars from Call objects of active heavyweight functions.
* call Callee Function object in which the upvar is accessed.
*/
template<typename T>
inline uint32
GetFromClosure(JSContext* cx, JSObject* call, const ClosureVarInfo* cv, double* result)
{
JS_ASSERT(OBJ_GET_CLASS(cx, call) == &js_CallClass);
InterpState* state = cx->interpState;
#ifdef DEBUG
int32 stackOffset = StackDepthFromCallStack(state, cv->callDepth);
FrameInfo** fip = state->rp + cv->callDepth;
while (--fip > state->callstackBase) {
FrameInfo* fi = *fip;
JSObject* callee = *(JSObject**)(&state->stackBase[stackOffset]);
if (callee == call) {
// This is not reachable as long as JSOP_LAMBDA is not traced:
// - The upvar is found at this point only if the upvar was defined on a frame that was
// entered on this trace.
// - The upvar definition must be (dynamically, and thus on trace) before the definition
// of the function that uses the upvar.
// - Therefore, if the upvar is found at this point, the function definition JSOP_LAMBDA
// is on the trace.
JS_NOT_REACHED("JSOP_NAME variable found in outer trace");
}
stackOffset -= fi->callerHeight;
}
#endif
/*
* Here we specifically want to check the call object of the trace entry frame.
*/
uint32 slot = cv->slot;
VOUCH_DOES_NOT_REQUIRE_STACK();
if (cx->fp->callobj == call) {
slot = T::adj_slot(cx->fp, slot);
*result = state->stackBase[slot];
return state->callstackBase[0]->get_typemap()[slot];
}
JSStackFrame* fp = (JSStackFrame*) call->getPrivate();
jsval v;
if (fp) {
v = T::slots(fp)[slot];
} else {
JS_ASSERT(cv->resolveFlags != JSRESOLVE_INFER);
JSAutoResolveFlags rf(cx, cv->resolveFlags);
#ifdef DEBUG
JSBool rv =
#endif
js_GetPropertyHelper(cx, call, cv->id, JSGET_METHOD_BARRIER, &v);
JS_ASSERT(rv);
}
JSTraceType type = getCoercedType(v);
ValueToNative(cx, v, type, result);
return type;
}
struct ArgClosureTraits
{
static inline uint32 adj_slot(JSStackFrame* fp, uint32 slot) { return fp->argc + slot; }
static inline jsval* slots(JSStackFrame* fp) { return fp->argv; }
private:
ArgClosureTraits();
};
uint32 JS_FASTCALL
GetClosureArg(JSContext* cx, JSObject* callee, const ClosureVarInfo* cv, double* result)
{
return GetFromClosure<ArgClosureTraits>(cx, callee, cv, result);
}
struct VarClosureTraits
{
static inline uint32 adj_slot(JSStackFrame* fp, uint32 slot) { return slot; }
static inline jsval* slots(JSStackFrame* fp) { return fp->slots; }
private:
VarClosureTraits();
};
uint32 JS_FASTCALL
GetClosureVar(JSContext* cx, JSObject* callee, const ClosureVarInfo* cv, double* result)
{
return GetFromClosure<VarClosureTraits>(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 JSTraceTypes 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.
* @param stopFrame if non-null, this frame and everything above it should not
* be restored.
* @return the number of things we popped off of np.
*/
static JS_REQUIRES_STACK int
FlushNativeStackFrame(JSContext* cx, unsigned callDepth, JSTraceType* mp, double* np,
JSStackFrame* stopFrame)
{
jsval* stopAt = stopFrame ? &stopFrame->argv[-2] : NULL;
/* Root all string and object references first (we don't need to call the GC for this). */
FlushNativeStackFrameVisitor visitor(cx, mp, np, stopAt);
VisitStackSlots(visitor, cx, callDepth);
// Restore thisv from the now-restored argv[-1] in each pending frame.
// Keep in mind that we didn't restore frames at stopFrame and above!
// Scope to keep |fp| from leaking into the macros we're using.
{
unsigned n = callDepth+1; // +1 to make sure we restore the entry frame
JSStackFrame* fp = cx->fp;
if (stopFrame) {
for (; fp != stopFrame; fp = fp->down) {
JS_ASSERT(n != 0);
--n;
}
// Skip over stopFrame itself.
JS_ASSERT(n != 0);
--n;
fp = fp->down;
}
for (; n != 0; fp = fp->down) {
--n;
if (fp->argv) {
if (fp->argsobj &&
js_GetArgsPrivateNative(JSVAL_TO_OBJECT(fp->argsobj))) {
JSVAL_TO_OBJECT(fp->argsobj)->setPrivate(fp);
}
/*
* We might return from trace with a different callee object, but it still
* has to be the same JSFunction (FIXME: bug 471425, eliminate fp->callee).
*/
JS_ASSERT(JSVAL_IS_OBJECT(fp->argv[-1]));
JS_ASSERT(HAS_FUNCTION_CLASS(JSVAL_TO_OBJECT(fp->argv[-2])));
JS_ASSERT(GET_FUNCTION_PRIVATE(cx, JSVAL_TO_OBJECT(fp->argv[-2])) ==
GET_FUNCTION_PRIVATE(cx, fp->callee()));
JS_ASSERT(GET_FUNCTION_PRIVATE(cx, fp->callee()) == fp->fun);
/*
* SynthesizeFrame sets scopeChain to NULL, because we can't calculate the
* correct scope chain until we have the final callee. Calculate the real
* scope object here.
*/
if (!fp->scopeChain) {
fp->scopeChain = OBJ_GET_PARENT(cx, JSVAL_TO_OBJECT(fp->argv[-2]));
if (fp->fun->flags & JSFUN_HEAVYWEIGHT) {
/*
* Set hookData to null because the failure case for js_GetCallObject
* involves it calling the debugger hook.
*
* Allocating the Call object must not fail, so use an object
* previously reserved by ExecuteTree if needed.
*/
void* hookData = ((JSInlineFrame*)fp)->hookData;
((JSInlineFrame*)fp)->hookData = NULL;
JS_ASSERT(!JS_TRACE_MONITOR(cx).useReservedObjects);
JS_TRACE_MONITOR(cx).useReservedObjects = JS_TRUE;
#ifdef DEBUG
JSObject *obj =
#endif
js_GetCallObject(cx, fp);
JS_ASSERT(obj);
JS_TRACE_MONITOR(cx).useReservedObjects = JS_FALSE;
((JSInlineFrame*)fp)->hookData = hookData;
}
}
fp->thisv = fp->argv[-1];
if (fp->flags & JSFRAME_CONSTRUCTING) // constructors always compute 'this'
fp->flags |= JSFRAME_COMPUTED_THIS;
}
}
}
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::import(LIns* base, ptrdiff_t offset, jsval* p, JSTraceType t,
const char *prefix, uintN index, JSStackFrame *fp)
{
LIns* ins;
if (t == TT_INT32) { /* demoted */
JS_ASSERT(isInt32(*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
* f2i cast which will cancel out the i2f we insert here.
*/
ins = lir->insLoad(LIR_ld, base, offset);
ins = lir->ins1(LIR_i2f, ins);
} else {
JS_ASSERT_IF(t != TT_JSVAL, isNumber(*p) == (t == TT_DOUBLE));
if (t == TT_DOUBLE) {
ins = lir->insLoad(LIR_ldq, base, offset);
} else if (t == TT_PSEUDOBOOLEAN) {
ins = lir->insLoad(LIR_ld, base, offset);
} else {
ins = lir->insLoad(LIR_ldp, base, offset);
}
}
checkForGlobalObjectReallocation();
tracker.set(p, ins);
#ifdef DEBUG
char name[64];
JS_ASSERT(strlen(prefix) < 10);
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 = js_GetLocalNameArray(cx, fp->fun, &cx->tempPool);
funName = fp->fun->atom ? js_AtomToPrintableString(cx, fp->fun->atom) : "<anonymous>";
}
if (!strcmp(prefix, "argv")) {
if (index < fp->fun->nargs) {
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, "$%s.<arg%d>", funName, index);
}
} else if (!strcmp(prefix, "vars")) {
JSAtom *atom = JS_LOCAL_NAME_TO_ATOM(localNames[fp->fun->nargs + index]);
JS_snprintf(name, sizeof name, "$%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);
static const char* typestr[] = {
"object", "int", "double", "jsval", "string", "null", "boolean", "function"
};
debug_only_printf(LC_TMTracer, "import vp=%p name=%s type=%s flags=%d\n",
(void*)p, name, typestr[t & 7], t >> 3);
#endif
}
class ImportGlobalSlotVisitor : public SlotVisitorBase
{
TraceRecorder &mRecorder;
LIns *mBase;
JSTraceType *mTypemap;
public:
ImportGlobalSlotVisitor(TraceRecorder &recorder,
LIns *base,
JSTraceType *typemap) :
mRecorder(recorder),
mBase(base),
mTypemap(typemap)
{}
JS_REQUIRES_STACK JS_ALWAYS_INLINE void
visitGlobalSlot(jsval *vp, unsigned n, unsigned slot) {
JS_ASSERT(*mTypemap != TT_JSVAL);
mRecorder.import(mBase, mRecorder.nativeGlobalOffset(vp),
vp, *mTypemap++, "global", n, NULL);
}
};
class ImportBoxedStackSlotVisitor : public SlotVisitorBase
{
TraceRecorder &mRecorder;
LIns *mBase;
ptrdiff_t mStackOffset;
JSTraceType *mTypemap;
JSStackFrame *mFp;
public:
ImportBoxedStackSlotVisitor(TraceRecorder &recorder,
LIns *base,
ptrdiff_t stackOffset,
JSTraceType *typemap) :
mRecorder(recorder),
mBase(base),
mStackOffset(stackOffset),
mTypemap(typemap)
{}
JS_REQUIRES_STACK JS_ALWAYS_INLINE bool
visitStackSlots(jsval *vp, size_t count, JSStackFrame* fp) {
for (size_t i = 0; i < count; ++i) {
if (*mTypemap == TT_JSVAL) {
mRecorder.import(mBase, mStackOffset, vp, TT_JSVAL,
"jsval", i, fp);
LIns *vp_ins = mRecorder.unbox_jsval(*vp, mRecorder.get(vp),
mRecorder.copy(mRecorder.anchor));
mRecorder.set(vp, vp_ins);
}
vp++;
mTypemap++;
mStackOffset += sizeof(double);
}
return true;
}
};
class ImportUnboxedStackSlotVisitor : public SlotVisitorBase
{
TraceRecorder &mRecorder;
LIns *mBase;
ptrdiff_t mStackOffset;
JSTraceType *mTypemap;
JSStackFrame *mFp;
public:
ImportUnboxedStackSlotVisitor(TraceRecorder &recorder,
LIns *base,
ptrdiff_t stackOffset,
JSTraceType *typemap) :
mRecorder(recorder),
mBase(base),
mStackOffset(stackOffset),
mTypemap(typemap)
{}
JS_REQUIRES_STACK JS_ALWAYS_INLINE bool
visitStackSlots(jsval *vp, size_t count, JSStackFrame* fp) {
for (size_t i = 0; i < count; ++i) {
if (*mTypemap != TT_JSVAL) {
mRecorder.import(mBase, mStackOffset, vp++, *mTypemap,
stackSlotKind(), i, fp);
}
mTypemap++;
mStackOffset += sizeof(double);
}
return true;
}
};
JS_REQUIRES_STACK void
TraceRecorder::import(TreeInfo* treeInfo, LIns* sp, unsigned stackSlots, unsigned ngslots,
unsigned callDepth, JSTraceType* 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.
*/
JSTraceType* globalTypeMap = typeMap + stackSlots;
unsigned length = treeInfo->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 */,
treeInfo->globalTypeMap(), length,
(JSTraceType*)alloca(sizeof(JSTraceType) * length));
}
JS_ASSERT(ngslots == treeInfo->nGlobalTypes());
ptrdiff_t offset = -treeInfo->nativeStackBase;
/*
* 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, offset, typeMap);
VisitStackSlots(boxedStackVisitor, cx, callDepth);
ImportGlobalSlotVisitor globalVisitor(*this, lirbuf->state, globalTypeMap);
VisitGlobalSlots(globalVisitor, cx, globalObj, ngslots,
treeInfo->globalSlots->data());
ImportUnboxedStackSlotVisitor unboxedStackVisitor(*this, sp, offset,
typeMap);
VisitStackSlots(unboxedStackVisitor, cx, callDepth);
}
JS_REQUIRES_STACK bool
TraceRecorder::isValidSlot(JSScope* scope, JSScopeProperty* sprop)
{
uint32 setflags = (js_CodeSpec[*cx->fp->regs->pc].format & (JOF_SET | JOF_INCDEC | JOF_FOR));
if (setflags) {
if (!SPROP_HAS_STUB_SETTER(sprop))
ABORT_TRACE_RV("non-stub setter", false);
if (sprop->attrs & JSPROP_READONLY)
ABORT_TRACE_RV("writing to a read-only property", false);
}
/* This check applies even when setflags == 0. */
if (setflags != JOF_SET && !SPROP_HAS_STUB_GETTER(sprop)) {
JS_ASSERT(!sprop->isMethod());
ABORT_TRACE_RV("non-stub getter", false);
}
if (!SPROP_HAS_VALID_SLOT(sprop, scope))
ABORT_TRACE_RV("slotless obj property", false);
return true;
}
/* 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 (STOBJ_NSLOTS(globalObj) > MAX_GLOBAL_SLOTS)
return false;
jsval* vp = &STOBJ_GET_SLOT(globalObj, slot);
if (known(vp))
return true; /* we already have it */
unsigned index = treeInfo->globalSlots->length();
/* Add the slot to the list of interned global slots. */
JS_ASSERT(treeInfo->nGlobalTypes() == treeInfo->globalSlots->length());
treeInfo->globalSlots->add(slot);
JSTraceType type = getCoercedType(*vp);
if (type == TT_INT32 && oracle.isGlobalSlotUndemotable(cx, slot))
type = TT_DOUBLE;
treeInfo->typeMap.add(type);
import(lirbuf->state, sizeof(struct InterpState) + slot*sizeof(double),
vp, type, "global", index, NULL);
SpecializeTreesToMissingGlobals(cx, globalObj, treeInfo);
return true;
}
/* Write back a value onto the stack or global frames. */
LIns*
TraceRecorder::writeBack(LIns* i, LIns* base, ptrdiff_t offset, bool demote)
{
/*
* 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 (demote && isPromoteInt(i))
i = ::demote(lir, i);
return lir->insStorei(i, base, offset);
}
/* Update the tracker, then issue a write back store. */
JS_REQUIRES_STACK void
TraceRecorder::set(jsval* p, LIns* i, bool initializing, bool demote)
{
JS_ASSERT(i != NULL);
JS_ASSERT(initializing || known(p));
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 (isGlobal(p))
x = writeBack(i, lirbuf->state, nativeGlobalOffset(p), demote);
else
x = writeBack(i, lirbuf->sp, -treeInfo->nativeStackBase + nativeStackOffset(p), demote);
nativeFrameTracker.set(p, x);
} else {
#define ASSERT_VALID_CACHE_HIT(base, offset) \
JS_ASSERT(base == lirbuf->sp || base == lirbuf->state); \
JS_ASSERT(offset == ((base == lirbuf->sp) \
? -treeInfo->nativeStackBase + nativeStackOffset(p) \
: nativeGlobalOffset(p))); \
JS_ASSERT(x->isop(LIR_sti) || x->isop(LIR_stqi));
ASSERT_VALID_CACHE_HIT(x->oprnd2(), x->disp());
writeBack(i, x->oprnd2(), x->disp(), demote);
}
#undef ASSERT_VALID_CACHE_HIT
}
JS_REQUIRES_STACK LIns*
TraceRecorder::get(jsval* p)
{
JS_ASSERT(known(p));
checkForGlobalObjectReallocation();
return tracker.get(p);
}
JS_REQUIRES_STACK LIns*
TraceRecorder::addr(jsval* p)
{
return isGlobal(p)
? lir->ins2(LIR_piadd, lirbuf->state, INS_CONSTWORD(nativeGlobalOffset(p)))
: lir->ins2(LIR_piadd, lirbuf->sp,
INS_CONSTWORD(-treeInfo->nativeStackBase + nativeStackOffset(p)));
}
JS_REQUIRES_STACK bool
TraceRecorder::known(jsval* p)
{
checkForGlobalObjectReallocation();
return tracker.has(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::checkForGlobalObjectReallocation()
{
if (global_dslots != globalObj->dslots) {
debug_only_print0(LC_TMTracer,
"globalObj->dslots relocated, updating tracker\n");
jsval* src = global_dslots;
jsval* dst = globalObj->dslots;
jsuint length = globalObj->dslots[-1] - 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;
JSTraceType *mTypeMap;
public:
AdjustCallerGlobalTypesVisitor(TraceRecorder &recorder,
JSTraceType *typeMap) :
mRecorder(recorder),
mCx(mRecorder.cx),
mLirbuf(mRecorder.lirbuf),
mLir(mRecorder.lir),
mTypeMap(typeMap)
{}
JSTraceType* getTypeMap()
{
return mTypeMap;
}
JS_REQUIRES_STACK JS_ALWAYS_INLINE void
visitGlobalSlot(jsval *vp, unsigned n, unsigned slot) {
LIns *ins = mRecorder.get(vp);
bool isPromote = isPromoteInt(ins);
if (isPromote && *mTypeMap == TT_DOUBLE) {
mLir->insStorei(mRecorder.get(vp), mLirbuf->state,
mRecorder.nativeGlobalOffset(vp));
/*
* Aggressively undo speculation so the inner tree will compile
* if this fails.
*/
oracle.markGlobalSlotUndemotable(mCx, slot);
}
JS_ASSERT(!(!isPromote && *mTypeMap == TT_INT32));
++mTypeMap;
}
};
class AdjustCallerStackTypesVisitor : public SlotVisitorBase
{
TraceRecorder &mRecorder;
JSContext *mCx;
nanojit::LirBuffer *mLirbuf;
nanojit::LirWriter *mLir;
unsigned mSlotnum;
JSTraceType *mTypeMap;
public:
AdjustCallerStackTypesVisitor(TraceRecorder &recorder,
JSTraceType *typeMap) :
mRecorder(recorder),
mCx(mRecorder.cx),
mLirbuf(mRecorder.lirbuf),
mLir(mRecorder.lir),
mSlotnum(0),
mTypeMap(typeMap)
{}
JSTraceType* getTypeMap()
{
return mTypeMap;
}
JS_REQUIRES_STACK JS_ALWAYS_INLINE bool
visitStackSlots(jsval *vp, size_t count, JSStackFrame* fp) {
for (size_t i = 0; i < count; ++i) {
LIns *ins = mRecorder.get(vp);
bool isPromote = isPromoteInt(ins);
if (isPromote && *mTypeMap == TT_DOUBLE) {
mLir->insStorei(mRecorder.get(vp), mLirbuf->sp,
-mRecorder.treeInfo->nativeStackBase +
mRecorder.nativeStackOffset(vp));
/*
* Aggressively undo speculation so the inner tree will compile
* if this fails.
*/
oracle.markStackSlotUndemotable(mCx, mSlotnum);
}
JS_ASSERT(!(!isPromote && *mTypeMap == TT_INT32));
++vp;
++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(Fragment* f)
{
TreeInfo* ti = (TreeInfo*)f->vmprivate;
AdjustCallerGlobalTypesVisitor globalVisitor(*this, ti->globalTypeMap());
VisitGlobalSlots(globalVisitor, cx, *treeInfo->globalSlots);
AdjustCallerStackTypesVisitor stackVisitor(*this, ti->stackTypeMap());
VisitStackSlots(stackVisitor, cx, 0);
JS_ASSERT(f == f->root);
}
JS_REQUIRES_STACK JSTraceType
TraceRecorder::determineSlotType(jsval* vp)
{
JSTraceType m;
LIns* i = get(vp);
if (isNumber(*vp)) {
m = isPromoteInt(i) ? TT_INT32 : TT_DOUBLE;
} else if (JSVAL_IS_OBJECT(*vp)) {
if (JSVAL_IS_NULL(*vp))
m = TT_NULL;
else if (HAS_FUNCTION_CLASS(JSVAL_TO_OBJECT(*vp)))
m = TT_FUNCTION;
else
m = TT_OBJECT;
} else {
JS_ASSERT(JSVAL_TAG(*vp) == JSVAL_STRING || JSVAL_IS_SPECIAL(*vp));
JS_STATIC_ASSERT(static_cast<jsvaltag>(TT_STRING) == JSVAL_STRING);
JS_STATIC_ASSERT(static_cast<jsvaltag>(TT_PSEUDOBOOLEAN) == JSVAL_SPECIAL);
m = JSTraceType(JSVAL_TAG(*vp));
}
JS_ASSERT(m != TT_INT32 || isInt32(*vp));
return m;
}
class DetermineTypesVisitor : public SlotVisitorBase
{
TraceRecorder &mRecorder;
JSTraceType *mTypeMap;
public:
DetermineTypesVisitor(TraceRecorder &recorder,
JSTraceType *typeMap) :
mRecorder(recorder),
mTypeMap(typeMap)
{}
JS_REQUIRES_STACK JS_ALWAYS_INLINE void
visitGlobalSlot(jsval *vp, unsigned n, unsigned slot) {
*mTypeMap++ = mRecorder.determineSlotType(vp);
}
JS_REQUIRES_STACK JS_ALWAYS_INLINE bool
visitStackSlots(jsval *vp, size_t count, JSStackFrame* fp) {
for (size_t i = 0; i < count; ++i)
*mTypeMap++ = mRecorder.determineSlotType(vp++);
return true;
}
JSTraceType* 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->fp->regs->pc, cx->fp->script->filename,
js_FramePCToLineNumber(cx, cx->fp), FramePCOffset(cx->fp));
debug_only_print0(LC_TMTreeVis, " STACK=\"");
for (unsigned i = 0; i < exit->numStackSlots; i++)
debug_only_printf(LC_TMTreeVis, "%c", typeChar[exit->stackTypeMap()[i]]);
debug_only_print0(LC_TMTreeVis, "\" GLOBALS=\"");
for (unsigned i = 0; i < exit->numGlobalSlots; i++)
debug_only_printf(LC_TMTreeVis, "%c", typeChar[exit->globalTypeMap()[i]]);
debug_only_print0(LC_TMTreeVis, "\"\n");
}
#endif
JS_REQUIRES_STACK VMSideExit*
TraceRecorder::snapshot(ExitType exitType)
{
JSStackFrame* fp = cx->fp;
JSFrameRegs* regs = fp->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 == JSOP_SETMETHOD);
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 = treeInfo->globalSlots->length();
unsigned typemap_size = (stackSlots + ngslots) * sizeof(JSTraceType);
void *mark = JS_ARENA_MARK(&cx->tempPool);
JSTraceType* typemap;
JS_ARENA_ALLOCATE_CAST(typemap, JSTraceType*, &cx->tempPool, typemap_size);
/*
* 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,
treeInfo->globalSlots->data());
JS_ASSERT(unsigned(detVisitor.getTypeMap() - typemap) ==
ngslots + stackSlots);
/*
* If this snapshot is for a side exit that leaves a boxed jsval 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_jsval 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->fp->regs->sp - 2)
pos = stackSlots - 2;
typemap[pos] = TT_JSVAL;
}
/* 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 = treeInfo->sideExits.data();
unsigned nexits = treeInfo->sideExits.length();
if (exitType == LOOP_EXIT) {
for (unsigned n = 0; n < nexits; ++n) {
VMSideExit* e = exits[n];
if (e->pc == pc && e->imacpc == fp->imacpc &&
ngslots == e->numGlobalSlots &&
!memcmp(exits[n]->fullTypeMap(), typemap, typemap_size)) {
AUDIT(mergedLoopExits);
#if defined JS_JIT_SPEW
TreevisLogExit(cx, e);
#endif
JS_ARENA_RELEASE(&cx->tempPool, mark);
return e;
}
}
}
if (sizeof(VMSideExit) + (stackSlots + ngslots) * sizeof(JSTraceType) >
LirBuffer::MAX_SKIP_PAYLOAD_SZB) {
/*
* ::snapshot() is infallible in the sense that callers don't
* expect errors; but this is a trace-aborting error condition. So
* mangle the request to consume zero slots, and mark the tree as
* to-be-trashed. This should be safe as the trace will be aborted
* before assembly or execution due to the call to
* trackNativeStackUse above.
*/
stackSlots = 0;
ngslots = 0;
typemap_size = 0;
trashSelf = true;
}
/* We couldn't find a matching side exit, so create a new one. */
VMSideExit* exit = (VMSideExit*)
traceMonitor->dataAlloc->alloc(sizeof(VMSideExit) +
(stackSlots + ngslots) * sizeof(JSTraceType));
/* Setup side exit structure. */
memset(exit, 0, sizeof(VMSideExit));
exit->from = fragment;
exit->calldepth = callDepth;
exit->numGlobalSlots = ngslots;
exit->numStackSlots = stackSlots;
exit->numStackSlotsBelowCurrentFrame = cx->fp->argv ?
nativeStackOffset(&cx->fp->argv[-2]) / sizeof(double) :
0;
exit->exitType = exitType;
exit->block = fp->blockChain;
if (fp->blockChain)
treeInfo->gcthings.addUnique(OBJECT_TO_JSVAL(fp->blockChain));
exit->pc = pc;
exit->imacpc = fp->imacpc;
exit->sp_adj = (stackSlots * sizeof(double)) - treeInfo->nativeStackBase;
exit->rp_adj = exit->calldepth * sizeof(FrameInfo*);
exit->nativeCalleeWord = 0;
exit->lookupFlags = js_InferFlags(cx, 0);
memcpy(exit->fullTypeMap(), typemap, typemap_size);
#if defined JS_JIT_SPEW
TreevisLogExit(cx, exit);
#endif
JS_ARENA_RELEASE(&cx->tempPool, mark);
return exit;
}
JS_REQUIRES_STACK GuardRecord*
TraceRecorder::createGuardRecord(VMSideExit* exit)
{
GuardRecord* gr = new (*traceMonitor->dataAlloc) GuardRecord();
memset(gr, 0, sizeof(GuardRecord));
gr->exit = exit;
exit->addGuard(gr);
// gr->profCount is memset'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);
/*
* BIG FAT WARNING: If compilation fails we don't reset the lirbuf, so it's
* safe to keep references to the side exits here. If we ever start
* clearing those lirbufs, we have to make sure we purge the side exits
* that then no longer will be in valid memory.
*/
if (exit->exitType == LOOP_EXIT)
treeInfo->sideExits.add(exit);
if (!cond->isCond()) {
expected = !expected;
cond = cond->isQuad() ? lir->ins_peq0(cond) : lir->ins_eq0(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");
}
}
JS_REQUIRES_STACK VMSideExit*
TraceRecorder::copy(VMSideExit* copy)
{
size_t typemap_size = copy->numGlobalSlots + copy->numStackSlots;
VMSideExit* exit = (VMSideExit*)
traceMonitor->dataAlloc->alloc(sizeof(VMSideExit) +
typemap_size * sizeof(JSTraceType));
/* Copy side exit structure. */
memcpy(exit, copy, sizeof(VMSideExit) + typemap_size * sizeof(JSTraceType));
exit->guards = NULL;
exit->from = fragment;
exit->target = NULL;
/*
* BIG FAT WARNING: If compilation fails we don't reset the lirbuf, so it's
* safe to keep references to the side exits here. If we ever start
* clearing those lirbufs, we have to make sure we purge the side exits
* that then no longer will be in valid memory.
*/
if (exit->exitType == LOOP_EXIT)
treeInfo->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->interpState) // 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)->interpState)
return true;
#else
JSRuntime* rt = cx->runtime;
for (cl = rt->contextList.next; cl != &rt->contextList; cl = cl->next)
if (js_ContextFromLinkField(cl)->interpState)
return true;
#endif
return false;
}
static JS_REQUIRES_STACK void
ResetJITImpl(JSContext* cx)
{
if (!TRACING_ENABLED(cx))
return;
JSTraceMonitor* tm = &JS_TRACE_MONITOR(cx);
debug_only_print0(LC_TMTracer, "Flushing cache.\n");
if (tm->recorder)
js_AbortRecording(cx, "flush cache");
TraceRecorder* tr;
while ((tr = tm->abortStack) != NULL) {
tr->removeFragmentReferences();
tr->deepAbort();
tr->popAbortStack();
}
if (ProhibitFlush(cx)) {
debug_only_print0(LC_TMTracer, "Deferring JIT flush due to deep bail.\n");
tm->needFlush = JS_TRUE;
return;
}
tm->flush();
}
#ifdef MOZ_TRACEVIS
static JS_INLINE JS_REQUIRES_STACK void
ResetJIT(JSContext* cx, TraceVisFlushReason r)
{
js_LogTraceVisEvent(cx, S_RESET, r);
ResetJITImpl(cx);
}
#else
#define ResetJIT(cx, r) ResetJITImpl(cx)
#endif
JS_REQUIRES_STACK void
js_ResetJIT(JSContext* cx)
{
ResetJIT(cx, FR_OOM);
}
/* Compile the current fragment. */
JS_REQUIRES_STACK void
TraceRecorder::compile(JSTraceMonitor* tm)
{
#ifdef MOZ_TRACEVIS
TraceVisStateObj tvso(cx, S_COMPILE);
#endif
if (tm->needFlush) {
ResetJIT(cx, FR_DEEP_BAIL);
return;
}
if (treeInfo->maxNativeStackSlots >= MAX_NATIVE_STACK_SLOTS) {
debug_only_print0(LC_TMTracer, "Blacklist: excessive stack use.\n");
Blacklist((jsbytecode*) fragment->root->ip);
return;
}
if (anchor && anchor->exitType != CASE_EXIT)
++treeInfo->branchCount;
if (outOfMemory())
return;
Assembler *assm = tm->assembler;
::compile(assm, fragment, tempAlloc verbose_only(, tm->labels));
if (outOfMemory())
return;
if (assm->error() != nanojit::None) {
debug_only_print0(LC_TMTracer, "Blacklisted: error during compilation\n");
Blacklist((jsbytecode*) fragment->root->ip);
return;
}
ResetRecordingAttempts(cx, (jsbytecode*) fragment->ip);
ResetRecordingAttempts(cx, (jsbytecode*) fragment->root->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(!fragment->vmprivate);
if (fragment == fragment->root)
fragment->vmprivate = treeInfo;
/* :TODO: windows support */
#if defined DEBUG && !defined WIN32
const char* filename = cx->fp->script->filename;
char* label = (char*)js_malloc((filename ? strlen(filename) : 7) + 16);
sprintf(label, "%s:%u", filename ? filename : "<stdin>",
js_FramePCToLineNumber(cx, cx->fp));
tm->labels->add(fragment, sizeof(Fragment), 0, label);
js_free(label);
#endif
AUDIT(traceCompleted);
}
static void
JoinPeers(Assembler* assm, VMSideExit* exit, VMFragment* 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->getTreeInfo()->dependentTrees.addUnique(exit->root());
exit->root()->getTreeInfo()->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 f2i() */
TypeCheck_Demote, /* Okay: Type A needs i2f() */
TypeCheck_Undemote, /* Bad: Slot is undemotable */
TypeCheck_Bad /* Bad: incompatible types */
};
class SlotMap : public SlotVisitorBase
{
public:
struct SlotInfo
{
SlotInfo()
: v(0), promoteInt(false), lastCheck(TypeCheck_Bad)
{}
SlotInfo(jsval* v, bool promoteInt)
: v(v), promoteInt(promoteInt), lastCheck(TypeCheck_Bad)
{}
jsval *v;
bool promoteInt;
TypeCheckResult lastCheck;
};
SlotMap(TraceRecorder& rec, unsigned slotOffset)
: mRecorder(rec),
mCx(rec.cx),
slots(NULL),
slotOffset(slotOffset)
{
}
JS_REQUIRES_STACK JS_ALWAYS_INLINE void
visitGlobalSlot(jsval *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(TreeInfo* ti)
{
if (ti->typeMap.length() < slotOffset || length() != ti->typeMap.length() - slotOffset)
return TypeConsensus_Bad;
bool has_undemotes = false;
for (unsigned i = 0; i < length(); i++) {
TypeCheckResult result = checkType(i, ti->typeMap[i + slotOffset]);
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(jsval* vp)
{
slots.add(SlotInfo(vp, isNumber(*vp) && isPromoteInt(mRecorder.get(vp))));
}
JS_REQUIRES_STACK void
markUndemotes()
{
for (unsigned i = 0; i < length(); i++) {
if (get(i).lastCheck == TypeCheck_Undemote)
MarkSlotUndemotable(mRecorder.cx, mRecorder.treeInfo, slotOffset + i);
}
}
JS_REQUIRES_STACK virtual void
adjustTypes()
{
for (unsigned i = 0; i < length(); i++) {
SlotInfo& info = get(i);
JS_ASSERT(info.lastCheck != TypeCheck_Undemote && info.lastCheck != TypeCheck_Bad);
if (info.lastCheck == TypeCheck_Promote) {
JS_ASSERT(isNumber(*info.v));
mRecorder.set(info.v, mRecorder.f2i(mRecorder.get(info.v)));
} else if (info.lastCheck == TypeCheck_Demote) {
JS_ASSERT(isNumber(*info.v));
JS_ASSERT(mRecorder.get(info.v)->isQuad());
/* Never demote this final i2f. */
mRecorder.set(info.v, mRecorder.get(info.v), false, false);
}
}
}
private:
TypeCheckResult
checkType(unsigned i, JSTraceType t)
{
debug_only_printf(LC_TMTracer,
"checkType slot %d: interp=%c typemap=%c isNum=%d promoteInt=%d\n",
i,
typeChar[getCoercedType(*slots[i].v)],
typeChar[t],
isNumber(*slots[i].v),
slots[i].promoteInt);
switch (t) {
case TT_INT32:
if (!isNumber(*slots[i].v))
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(isInt32(*slots[i].v) && slots[i].promoteInt);
return TypeCheck_Promote;
case TT_DOUBLE:
if (!isNumber(*slots[i].v))
return TypeCheck_Bad; /* Not a number? Type mismatch. */
if (slots[i].promoteInt)
return TypeCheck_Demote;
return TypeCheck_Okay;
case TT_NULL:
return JSVAL_IS_NULL(*slots[i].v) ? TypeCheck_Okay : TypeCheck_Bad;
case TT_FUNCTION:
return !JSVAL_IS_PRIMITIVE(*slots[i].v) &&
HAS_FUNCTION_CLASS(JSVAL_TO_OBJECT(*slots[i].v)) ?
TypeCheck_Okay : TypeCheck_Bad;
case TT_OBJECT:
return !JSVAL_IS_PRIMITIVE(*slots[i].v) &&
!HAS_FUNCTION_CLASS(JSVAL_TO_OBJECT(*slots[i].v)) ?
TypeCheck_Okay : TypeCheck_Bad;
default:
return getCoercedType(*slots[i].v) == t ? TypeCheck_Okay : TypeCheck_Bad;
}
JS_NOT_REACHED("shouldn't fall through type check switch");
}
protected:
TraceRecorder& mRecorder;
JSContext* mCx;
Queue<SlotInfo> slots;
unsigned slotOffset;
};
class DefaultSlotMap : public SlotMap
{
public:
DefaultSlotMap(TraceRecorder& tr) : SlotMap(tr, 0)
{
}
JS_REQUIRES_STACK JS_ALWAYS_INLINE bool
visitStackSlots(jsval *vp, size_t count, JSStackFrame* fp)
{
for (size_t i = 0; i < count; i++)
addSlot(&vp[i]);
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(treeInfo);
/* 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, VMFragment** pPeer)
{
/* See if there are any peers that would make this stable */
VMFragment* root = (VMFragment*)fragment->root;
VMFragment* peer = getLoop(traceMonitor, root->ip, root->globalObj, root->globalShape,
root->argc);
JS_ASSERT(peer != NULL);
bool onlyUndemotes = false;
for (; peer != NULL; peer = (VMFragment*)peer->peer) {
if (!peer->vmprivate || peer == fragment)
continue;
debug_only_printf(LC_TMTracer, "Checking type stability against peer=%p\n", (void*)peer);
TypeConsensus consensus = slotMap.checkTypes((TreeInfo*)peer->vmprivate);
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 bool
TraceRecorder::closeLoop(TypeConsensus &consensus)
{
DefaultSlotMap slotMap(*this);
VisitSlots(slotMap, cx, 0, *treeInfo->globalSlots);
return closeLoop(slotMap, snapshot(UNSTABLE_LOOP_EXIT), consensus);
}
/* Complete and compile a trace and link it to the existing tree if appropriate.
* Returns true if something was compiled. Outparam is always set.
*/
JS_REQUIRES_STACK bool
TraceRecorder::closeLoop(SlotMap& slotMap, VMSideExit* exit, TypeConsensus& consensus)
{
/*
* 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->fp->regs->pc == JSOP_TRACE || *cx->fp->regs->pc == JSOP_NOP) &&
!cx->fp->imacpc);
if (callDepth != 0) {
debug_only_print0(LC_TMTracer,
"Blacklisted: stack depth mismatch, possible recursion.\n");
Blacklist((jsbytecode*) fragment->root->ip);
trashSelf = true;
consensus = TypeConsensus_Bad;
return false;
}
JS_ASSERT(exit->exitType == UNSTABLE_LOOP_EXIT);
JS_ASSERT(exit->numStackSlots == treeInfo->nStackTypes);
VMFragment* peer = NULL;
VMFragment* root = (VMFragment*)fragment->root;
consensus = selfTypeStability(slotMap);
if (consensus != TypeConsensus_Okay) {
TypeConsensus peerConsensus = peerTypeStability(slotMap, &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/demotes that
* are pending in the slot map.
*/
if (consensus == TypeConsensus_Okay)
slotMap.adjustTypes();
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 (*traceMonitor->dataAlloc) UnstableExit;
uexit->fragment = fragment;
uexit->exit = exit;
uexit->next = treeInfo->unstableExits;
treeInfo->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);
((TreeInfo*)peer->vmprivate)->dependentTrees.addUnique(fragment->root);
treeInfo->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_live, lirbuf->state);
}
exit->target = fragment->root;
fragment->lastIns = lir->insGuard(LIR_x, NULL, createGuardRecord(exit));
}
compile(traceMonitor);
Assembler *assm = JS_TRACE_MONITOR(cx).assembler;
if (assm->error() != nanojit::None)
return false;
debug_only_printf(LC_TMTreeVis, "TREEVIS CLOSELOOP EXIT=%p PEER=%p\n", (void*)exit, (void*)peer);
peer = getLoop(traceMonitor, root->ip, root->globalObj, root->globalShape, root->argc);
JS_ASSERT(peer);
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 (fragment->root->vmprivate)
SpecializeTreesToMissingGlobals(cx, globalObj, (TreeInfo*)fragment->root->vmprivate);
/*
* 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, traceMonitor, 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->fp),
fragment->profFragID);
debug_only_print0(LC_TMMinimal, "\n");
#endif
return true;
}
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()->getTreeInfo()->nGlobalTypes()) {
typeMap.fromRaw(exit->root()->getTreeInfo()->globalTypeMap() + exit->numGlobalSlots,
exit->root()->getTreeInfo()->nGlobalTypes() - exit->numGlobalSlots);
}
}
static JS_REQUIRES_STACK TypeConsensus
TypeMapLinkability(JSContext* cx, const TypeMap& typeMap, VMFragment* peer)
{
const TypeMap& peerMap = peer->getTreeInfo()->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] == TT_INT32 && peerMap[i] == TT_DOUBLE &&
IsSlotUndemotable(cx, peer->getTreeInfo(), i)) {
consensus = TypeConsensus_Undemotes;
} else {
return TypeConsensus_Bad;
}
}
return consensus;
}
static JS_REQUIRES_STACK unsigned
FindUndemotesInTypemaps(JSContext* cx, const TypeMap& typeMap, TreeInfo* treeInfo,
Queue<unsigned>& undemotes)
{
undemotes.setLength(0);
unsigned minSlots = JS_MIN(typeMap.length(), treeInfo->typeMap.length());
for (unsigned i = 0; i < minSlots; i++) {
if (typeMap[i] == TT_INT32 && treeInfo->typeMap[i] == TT_DOUBLE) {
undemotes.add(i);
} else if (typeMap[i] != treeInfo->typeMap[i]) {
return 0;
}
}
for (unsigned i = 0; i < undemotes.length(); i++)
MarkSlotUndemotable(cx, treeInfo, undemotes[i]);
return undemotes.length();
}
JS_REQUIRES_STACK void
TraceRecorder::joinEdgesToEntry(VMFragment* peer_root)
{
if (fragment->root != fragment)
return;
TypeMap typeMap(NULL);
Queue<unsigned> undemotes(NULL);
for (VMFragment* peer = peer_root; peer; peer = (VMFragment*)peer->peer) {
TreeInfo* ti = peer->getTreeInfo();
if (!ti)
continue;
UnstableExit* uexit = ti->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, (VMFragment*)fragment->root);
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);
/* It's okay! Link together and remove the unstable exit. */
JoinPeers(traceMonitor->assembler, uexit->exit, (VMFragment*)fragment);
uexit = ti->removeUnstableExit(uexit->exit);
} else {
/* Check for int32->double slots that suggest trashing. */
if (FindUndemotesInTypemaps(cx, typeMap, treeInfo, 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 void
TraceRecorder::endLoop()
{
endLoop(snapshot(LOOP_EXIT));
}
/* Emit an always-exit guard and compile the tree (used for break statements. */
JS_REQUIRES_STACK void
TraceRecorder::endLoop(VMSideExit* exit)
{
if (callDepth != 0) {
debug_only_print0(LC_TMTracer, "Blacklisted: stack depth mismatch, possible recursion.\n");
Blacklist((jsbytecode*) fragment->root->ip);
trashSelf = true;
return;
}
fragment->lastIns =
lir->insGuard(LIR_x, NULL, createGuardRecord(exit));
compile(traceMonitor);
Assembler *assm = traceMonitor->assembler;
if (assm->error() != nanojit::None)
return;
debug_only_printf(LC_TMTreeVis, "TREEVIS ENDLOOP EXIT=%p\n", (void*)exit);
VMFragment* root = (VMFragment*)fragment->root;
joinEdgesToEntry(getLoop(traceMonitor,
root->ip,
root->globalObj,
root->globalShape,
root->argc));
debug_only_stmt(DumpPeerStability(traceMonitor, root->ip, root->globalObj,
root->globalShape, root->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 (fragment->root->vmprivate)
SpecializeTreesToMissingGlobals(cx, globalObj, (TreeInfo*)fragment->root->vmprivate);
/*
* 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, traceMonitor, 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->fp),
fragment->profFragID);
debug_only_print0(LC_TMTracer, "\n");
#endif
}
/* Emit code to adjust the stack to match the inner tree's stack expectations. */
JS_REQUIRES_STACK void
TraceRecorder::prepareTreeCall(VMFragment* inner)
{
TreeInfo* ti = (TreeInfo*)inner->vmprivate;
inner_sp_ins = lirbuf->sp;
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->argv[-2]);
/* 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)treeInfo->nativeStackBase,
(long long int)ti->nativeStackBase);
ptrdiff_t sp_offset =
- treeInfo->nativeStackBase /* rebase sp to beginning of outer tree's stack */
+ sp_adj /* adjust for stack in outer frame inner tree can't see */
+ ti->maxNativeStackSlots * sizeof(double); /* plus the inner tree's stack */
LIns* sp_top = lir->ins2(LIR_piadd, lirbuf->sp, INS_CONSTWORD(sp_offset));
guard(true, lir->ins2(LIR_plt, sp_top, eos_ins), exit);
/* Guard that we have enough call stack space. */
ptrdiff_t rp_offset = rp_adj + ti->maxCallDepth * sizeof(FrameInfo*);
LIns* rp_top = lir->ins2(LIR_piadd, lirbuf->rp, INS_CONSTWORD(rp_offset));
guard(true, lir->ins2(LIR_plt, rp_top, eor_ins), exit);
sp_offset =
- treeInfo->nativeStackBase /* rebase sp to beginning of outer tree's stack */
+ sp_adj /* adjust for stack in outer frame inner tree can't see */
+ ti->nativeStackBase; /* plus the inner tree's stack base */
/* We have enough space, so adjust sp and rp to their new level. */
lir->insStorei(inner_sp_ins = lir->ins2(LIR_piadd, lirbuf->sp, INS_CONSTWORD(sp_offset)),
lirbuf->state, offsetof(InterpState, sp));
lir->insStorei(lir->ins2(LIR_piadd, lirbuf->rp, INS_CONSTWORD(rp_adj)),
lirbuf->state, offsetof(InterpState, rp));
}
/*
* The inner tree will probably access stack slots. So tell nanojit not to
* discard or defer stack writes before calling js_CallTree.
*
* (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<JSTraceType>& 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. */
TreeInfo* innerTree = inner->root()->getTreeInfo();
unsigned slots = inner->numGlobalSlots;
if (slots < innerTree->nGlobalTypes()) {
typeMap.add(innerTree->globalTypeMap() + slots, innerTree->nGlobalTypes() - slots);
slots = innerTree->nGlobalTypes();
}
JS_ASSERT(typeMap.length() - initialSlots == slots);
return slots;
}
/* Record a call to an inner tree. */
JS_REQUIRES_STACK void
TraceRecorder::emitTreeCall(VMFragment* inner, VMSideExit* exit)
{
TreeInfo* ti = (TreeInfo*)inner->vmprivate;
/* Invoke the inner tree. */
LIns* args[] = { INS_CONSTPTR(inner), lirbuf->state }; /* reverse order */
LIns* ret = lir->insCall(&js_CallTree_ci, args);
/* Read back all registers, in case the called tree changed any of them. */
#ifdef DEBUG
JSTraceType* map;
size_t i;
map = exit->globalTypeMap();
for (i = 0; i < exit->numGlobalSlots; i++)
JS_ASSERT(map[i] != TT_JSVAL);
map = exit->stackTypeMap();
for (i = 0; i < exit->numStackSlots; i++)
JS_ASSERT(map[i] != TT_JSVAL);
#endif
/*
* Bug 502604 - It is illegal to extend from the outer typemap without
* first extending from the inner. Make a new typemap here.
*/
TypeMap fullMap(NULL);
fullMap.add(exit->stackTypeMap(), exit->numStackSlots);
BuildGlobalTypeMapFromInnerTree(fullMap, exit);
import(ti, inner_sp_ins, exit->numStackSlots, fullMap.length() - exit->numStackSlots,
exit->calldepth, fullMap.data());
/* Restore sp and rp to their original values (we still have them in a register). */
if (callDepth > 0) {
lir->insStorei(lirbuf->sp, lirbuf->state, offsetof(InterpState, sp));
lir->insStorei(lirbuf->rp, lirbuf->state, offsetof(InterpState, rp));
}
/*
* 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* nested = snapshot(NESTED_EXIT);
guard(true, lir->ins2(LIR_peq, ret, INS_CONSTPTR(exit)), nested);
debug_only_printf(LC_TMTreeVis, "TREEVIS TREECALL INNER=%p EXIT=%p GUARD=%p\n", (void*)inner,
(void*)nested, (void*)exit);
/* Register us as a dependent tree of the inner tree. */
((TreeInfo*)inner->vmprivate)->dependentTrees.addUnique(fragment->root);
treeInfo->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*)fragment->root->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->isconst()) {
loop = (x->imm32() == cond);
return;
}
} else {
exitType = BRANCH_EXIT;
}
if (!x->isconst())
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 JSRecordingStatus
TraceRecorder::checkTraceEnd(jsbytecode *pc)
{
if (IsLoopEdge(pc, (jsbytecode*)fragment->root->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 (loop) {
JS_ASSERT(!cx->fp->imacpc && (pc == cx->fp->regs->pc || pc == cx->fp->regs->pc + 1));
bool fused = pc != cx->fp->regs->pc;
JSFrameRegs orig = *cx->fp->regs;
cx->fp->regs->pc = (jsbytecode*)fragment->root->ip;
cx->fp->regs->sp -= fused ? 2 : 1;
TypeConsensus consensus;
closeLoop(consensus);
*cx->fp->regs = orig;
} else {
endLoop();
}
return JSRS_STOP;
}
return JSRS_CONTINUE;
}
bool
TraceRecorder::hasMethod(JSObject* obj, jsid id)
{
if (!obj)
return false;
JSObject* pobj;
JSProperty* prop;
int protoIndex = obj->lookupProperty(cx, id, &pobj, &prop);
if (protoIndex < 0 || !prop)
return false;
bool found = false;
if (OBJ_IS_NATIVE(pobj)) {
JSScope* scope = OBJ_SCOPE(pobj);
JSScopeProperty* sprop = (JSScopeProperty*) prop;
if (SPROP_HAS_STUB_GETTER_OR_IS_METHOD(sprop) &&
SPROP_HAS_VALID_SLOT(sprop, scope)) {
jsval v = LOCKED_OBJ_GET_SLOT(pobj, sprop->slot);
if (VALUE_IS_FUNCTION(cx, v)) {
found = true;
if (!scope->branded()) {
scope->brandingShapeChange(cx, sprop->slot, v);
scope->setBranded();
}
}
}
}
pobj->dropProperty(cx, prop);
return found;
}
JS_REQUIRES_STACK bool
TraceRecorder::hasIteratorMethod(JSObject* obj)
{
JS_ASSERT(cx->fp->regs->sp + 2 <= cx->fp->slots + cx->fp->script->nslots);
return hasMethod(obj, ATOM_TO_JSID(cx->runtime->atomState.iteratorAtom));
}
void
nanojit::StackFilter::getTops(LIns* guard, int& spTop, int& rpTop)
{
VMSideExit* e = (VMSideExit*)guard->record()->exit;
spTop = e->sp_adj;
rpTop = e->rp_adj;
}
#if defined NJ_VERBOSE
void
nanojit::LirNameMap::formatGuard(LIns *i, char *out)
{
VMSideExit *x;
x = (VMSideExit *)i->record()->exit;
sprintf(out,
"%s: %s %s -> pc=%p imacpc=%p sp%+ld rp%+ld (GuardID=%03d)",
formatRef(i),
lirNames[i->opcode()],
i->oprnd1() ? formatRef(i->oprnd1()) : "",
(void *)x->pc,
(void *)x->imacpc,
(long int)x->sp_adj,
(long int)x->rp_adj,
i->record()->profGuardID);
}
#endif
static JS_REQUIRES_STACK bool
DeleteRecorder(JSContext* cx)
{
JSTraceMonitor* tm = &JS_TRACE_MONITOR(cx);
/* Aborting and completing a trace end up here. */
delete tm->recorder;
tm->recorder = NULL;
/* If we ran out of memory, flush the code cache. */
if (tm->dataAlloc->outOfMemory() ||
js_OverfullJITCache(tm)) {
ResetJIT(cx, FR_OOM);
return false;
}
return true;
}
/* Check whether the shape of the global object has changed. */
static JS_REQUIRES_STACK bool
CheckGlobalObjectShape(JSContext* cx, JSTraceMonitor* tm, JSObject* globalObj,
uint32 *shape = NULL, SlotList** slots = NULL)
{
if (tm->needFlush) {
ResetJIT(cx, FR_DEEP_BAIL);
return false;
}
if (STOBJ_NSLOTS(globalObj) > MAX_GLOBAL_SLOTS)
return false;
uint32 globalShape = OBJ_SHAPE(globalObj);
if (tm->recorder) {
VMFragment* root = (VMFragment*)tm->recorder->getFragment()->root;
TreeInfo* ti = tm->recorder->getTreeInfo();
/* 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 = ti->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;
}
static JS_REQUIRES_STACK bool
StartRecorder(JSContext* cx, VMSideExit* anchor, Fragment* f, TreeInfo* ti,
unsigned stackSlots, unsigned ngslots, JSTraceType* typeMap,
VMSideExit* expectedInnerExit, jsbytecode* outer, uint32 outerArgc)
{
JSTraceMonitor* tm = &JS_TRACE_MONITOR(cx);
if (JS_TRACE_MONITOR(cx).needFlush) {
ResetJIT(cx, FR_DEEP_BAIL);
return false;
}
JS_ASSERT(f->root != f || !cx->fp->imacpc);
/* Start recording if no exception during construction. */
tm->recorder = new TraceRecorder(cx, anchor, f, ti,
stackSlots, ngslots, typeMap,
expectedInnerExit, outer, outerArgc);
if (cx->throwing) {
js_AbortRecording(cx, "setting up recorder failed");
return false;
}
/* Clear any leftover error state. */
Assembler *assm = JS_TRACE_MONITOR(cx).assembler;
assm->setError(None);
return true;
}
static void
TrashTree(JSContext* cx, Fragment* f)
{
JS_ASSERT((!f->code()) == (!f->vmprivate));
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");
TreeInfo* ti = (TreeInfo*)f->vmprivate;
f->vmprivate = NULL;
f->setCode(NULL);
Fragment** data = ti->dependentTrees.data();
unsigned length = ti->dependentTrees.length();
for (unsigned n = 0; n < length; ++n)
TrashTree(cx, data[n]);
data = ti->linkedTrees.data();
length = ti->linkedTrees.length();
for (unsigned n = 0; n < length; ++n)
TrashTree(cx, data[n]);
}
static int
SynthesizeFrame(JSContext* cx, const FrameInfo& fi, JSObject* callee)
{
VOUCH_DOES_NOT_REQUIRE_STACK();
JSFunction* fun = GET_FUNCTION_PRIVATE(cx, callee);
JS_ASSERT(FUN_INTERPRETED(fun));
/* Assert that we have a correct sp distance from cx->fp->slots in fi. */
JSStackFrame* fp = cx->fp;
JS_ASSERT_IF(!fi.imacpc,
js_ReconstructStackDepth(cx, fp->script, fi.pc) ==
uintN(fi.spdist - fp->script->nfixed));
uintN nframeslots = JS_HOWMANY(sizeof(JSInlineFrame), sizeof(jsval));
JSScript* script = fun->u.i.script;
size_t nbytes = (nframeslots + script->nslots) * sizeof(jsval);
/* Code duplicated from inline_call: case in js_Interpret (FIXME). */
JSArena* a = cx->stackPool.current;
void* newmark = (void*) a->avail;
uintN argc = fi.get_argc();
jsval* vp = fp->slots + fi.spdist - (2 + argc);
uintN missing = 0;
jsval* newsp;
if (fun->nargs > argc) {
const JSFrameRegs& regs = *fp->regs;
newsp = vp + 2 + fun->nargs;
JS_ASSERT(newsp > regs.sp);
if ((jsuword) newsp <= a->limit) {
if ((jsuword) newsp > a->avail)
a->avail = (jsuword) newsp;
jsval* argsp = newsp;
do {
*--argsp = JSVAL_VOID;
} while (argsp != regs.sp);
missing = 0;
} else {
missing = fun->nargs - argc;
nbytes += (2 + fun->nargs) * sizeof(jsval);
}
}
/* Allocate the inline frame with its vars and operands. */
if (a->avail + nbytes <= a->limit) {
newsp = (jsval *) a->avail;
a->avail += nbytes;
JS_ASSERT(missing == 0);
} else {
/*
* This allocation is infallible: ExecuteTree reserved enough stack.
* (But see bug 491023.)
*/
JS_ARENA_ALLOCATE_CAST(newsp, jsval *, &cx->stackPool, nbytes);
JS_ASSERT(newsp);
/*
* Move args if the missing ones overflow arena a, then push
* undefined for the missing args.
*/
if (missing) {
memcpy(newsp, vp, (2 + argc) * sizeof(jsval));
vp = newsp;
newsp = vp + 2 + argc;
do {
*newsp++ = JSVAL_VOID;
} while (--missing != 0);
}
}
/* Claim space for the stack frame and initialize it. */
JSInlineFrame* newifp = (JSInlineFrame *) newsp;
newsp += nframeslots;
newifp->frame.callobj = NULL;
newifp->frame.argsobj = NULL;
newifp->frame.varobj = NULL;
newifp->frame.script = script;
newifp->frame.fun = fun;
bool constructing = fi.is_constructing();
newifp->frame.argc = argc;
newifp->callerRegs.pc = fi.pc;
newifp->callerRegs.sp = fp->slots + fi.spdist;
fp->imacpc = fi.imacpc;
#ifdef DEBUG
if (fi.block != fp->blockChain) {
for (JSObject* obj = fi.block; obj != fp->blockChain; obj = STOBJ_GET_PARENT(obj))
JS_ASSERT(obj);
}
#endif
fp->blockChain = fi.block;
newifp->frame.argv = newifp->callerRegs.sp - argc;
JS_ASSERT(newifp->frame.argv);
#ifdef DEBUG
// Initialize argv[-1] to a known-bogus value so we'll catch it if
// someone forgets to initialize it later.
newifp->frame.argv[-1] = JSVAL_HOLE;
#endif
JS_ASSERT(newifp->frame.argv >= StackBase(fp) + 2);
newifp->frame.rval = JSVAL_VOID;
newifp->frame.down = fp;
newifp->frame.annotation = NULL;
newifp->frame.scopeChain = NULL; // will be updated in FlushNativeStackFrame
newifp->frame.flags = constructing ? JSFRAME_CONSTRUCTING : 0;
newifp->frame.dormantNext = NULL;
newifp->frame.blockChain = NULL;
newifp->mark = newmark;
newifp->frame.thisv = JSVAL_NULL; // will be updated in FlushNativeStackFrame
newifp->frame.regs = fp->regs;
newifp->frame.regs->pc = script->code;
newifp->frame.regs->sp = newsp + script->nfixed;
newifp->frame.imacpc = NULL;
newifp->frame.slots = newsp;
if (script->staticLevel < JS_DISPLAY_SIZE) {
JSStackFrame **disp = &cx->display[script->staticLevel];
newifp->frame.displaySave = *disp;
*disp = &newifp->frame;
}
/*
* Note that fp->script is still the caller's script; set the callee
* inline frame's idea of caller version from its version.
*/
newifp->callerVersion = (JSVersion) fp->script->version;
// After this paragraph, fp and cx->fp point to the newly synthesized frame.
fp->regs = &newifp->callerRegs;
fp = cx->fp = &newifp->frame;
/*
* If there's a call hook, invoke it to compute the hookData used by
* debuggers that cooperate with the interpreter.
*/
JSInterpreterHook hook = cx->debugHooks->callHook;
if (hook) {
newifp->hookData = hook(cx, fp, JS_TRUE, 0, cx->debugHooks->callHookData);
} else {
newifp->hookData = NULL;
}
/*
* Duplicate native stack layout computation: see VisitFrameSlots header comment.
*
* FIXME - We must count stack slots from caller's operand stack up to (but
* not including) callee's, including missing arguments. Could we shift
* everything down to the caller's fp->slots (where vars start) and avoid
* some of the complexity?
*/
return (fi.spdist - fp->down->script->nfixed) +
((fun->nargs > fp->argc) ? fun->nargs - fp->argc : 0) +
script->nfixed + 1/*argsobj*/;
}
static void
SynthesizeSlowNativeFrame(InterpState& state, JSContext *cx, VMSideExit *exit)
{
VOUCH_DOES_NOT_REQUIRE_STACK();
void *mark;
JSInlineFrame *ifp;
/* This allocation is infallible: ExecuteTree reserved enough stack. */
mark = JS_ARENA_MARK(&cx->stackPool);
JS_ARENA_ALLOCATE_CAST(ifp, JSInlineFrame *, &cx->stackPool, sizeof(JSInlineFrame));
JS_ASSERT(ifp);
JSStackFrame *fp = &ifp->frame;
fp->regs = NULL;
fp->imacpc = NULL;
fp->slots = NULL;
fp->callobj = NULL;
fp->argsobj = NULL;
fp->varobj = cx->fp->varobj;
fp->script = NULL;
fp->thisv = state.nativeVp[1];
fp->argc = state.nativeVpLen - 2;
fp->argv = state.nativeVp + 2;
fp->fun = GET_FUNCTION_PRIVATE(cx, JSVAL_TO_OBJECT(fp->argv[-2]));
fp->rval = JSVAL_VOID;
fp->down = cx->fp;
fp->annotation = NULL;
JS_ASSERT(cx->fp->scopeChain);
fp->scopeChain = cx->fp->scopeChain;
fp->blockChain = NULL;
fp->flags = exit->constructing() ? JSFRAME_CONSTRUCTING : 0;
fp->dormantNext = NULL;
fp->displaySave = NULL;
ifp->mark = mark;
cx->fp = fp;
}
static JS_REQUIRES_STACK bool
RecordTree(JSContext* cx, JSTraceMonitor* tm, VMFragment* f, jsbytecode* outer,
uint32 outerArgc, JSObject* globalObj, uint32 globalShape,
SlotList* globalSlots, uint32 argc)
{
JS_ASSERT(f->root == f);
/* Make sure the global type map didn't change on us. */
if (!CheckGlobalObjectShape(cx, tm, globalObj)) {
Backoff(cx, (jsbytecode*) f->root->ip);
return false;
}
AUDIT(recorderStarted);
/* Try to find an unused peer fragment, or allocate a new one. */
while (f->code() && f->peer)
f = f->peer;
if (f->code())
f = getAnchor(&JS_TRACE_MONITOR(cx), f->root->ip, globalObj, globalShape, argc);
if (!f) {
ResetJIT(cx, FR_OOM);
return false;
}
f->root = f;
f->lirbuf = tm->lirbuf;
if (tm->dataAlloc->outOfMemory() || js_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->vmprivate);
/* Set up the VM-private treeInfo structure for this fragment. */
TreeInfo* ti = new (*tm->dataAlloc) TreeInfo(tm->dataAlloc, f, globalSlots);
/* Capture the coerced type of each active slot in the type map. */
ti->typeMap.captureTypes(cx, globalObj, *globalSlots, 0 /* callDepth */);
ti->nStackTypes = ti->typeMap.length() - globalSlots->length();
#ifdef DEBUG
AssertTreeIsUnique(tm, (VMFragment*)f, ti);
ti->treeFileName = cx->fp->script->filename;
ti->treeLineNumber = js_FramePCToLineNumber(cx, cx->fp);
ti->treePCOffset = FramePCOffset(cx->fp);
#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, ti->treeFileName, ti->treeLineNumber,
FramePCOffset(cx->fp));
debug_only_print0(LC_TMTreeVis, " STACK=\"");
for (unsigned i = 0; i < ti->nStackTypes; i++)
debug_only_printf(LC_TMTreeVis, "%c", typeChar[ti->typeMap[i]]);
debug_only_print0(LC_TMTreeVis, "\" GLOBALS=\"");
for (unsigned i = 0; i < ti->nGlobalTypes(); i++)
debug_only_printf(LC_TMTreeVis, "%c", typeChar[ti->typeMap[ti->nStackTypes + i]]);
debug_only_print0(LC_TMTreeVis, "\"\n");
#endif
/* Determine the native frame layout at the entry point. */
unsigned entryNativeStackSlots = ti->nStackTypes;
JS_ASSERT(entryNativeStackSlots == NativeStackSlots(cx, 0 /* callDepth */));
ti->nativeStackBase = (entryNativeStackSlots -
(cx->fp->regs->sp - StackBase(cx->fp))) * sizeof(double);
ti->maxNativeStackSlots = entryNativeStackSlots;
ti->maxCallDepth = 0;
ti->script = cx->fp->script;
/* Recording primary trace. */
if (!StartRecorder(cx, NULL, f, ti,
ti->nStackTypes,
ti->globalSlots->length(),
ti->typeMap.data(), NULL, outer, outerArgc)) {
return false;
}
return true;
}
static JS_REQUIRES_STACK TypeConsensus
FindLoopEdgeTarget(JSContext* cx, VMSideExit* exit, VMFragment** peerp)
{
VMFragment* from = exit->root();
TreeInfo* from_ti = from->getTreeInfo();
JS_ASSERT(from->code());
TypeMap typeMap(NULL);
FullMapFromExit(typeMap, exit);
JS_ASSERT(typeMap.length() - exit->numStackSlots == from_ti->nGlobalTypes());
/* Mark all double slots as undemotable */
for (unsigned i = 0; i < typeMap.length(); i++) {
if (typeMap[i] == TT_DOUBLE)
MarkSlotUndemotable(cx, from_ti, i);
}
VMFragment* firstPeer = ((VMFragment*)from)->first;
for (VMFragment* peer = firstPeer; peer; peer = peer->peer) {
TreeInfo* peer_ti = peer->getTreeInfo();
if (!peer_ti)
continue;
JS_ASSERT(peer->argc == from->argc);
JS_ASSERT(exit->numStackSlots == peer_ti->nStackTypes);
TypeConsensus consensus = TypeMapLinkability(cx, typeMap, peer);
if (consensus == TypeConsensus_Okay || consensus == TypeConsensus_Undemotes) {
*peerp = peer;
return consensus;
}
}
return TypeConsensus_Bad;
}
UnstableExit*
TreeInfo::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;
}
static JS_REQUIRES_STACK bool
AttemptToStabilizeTree(JSContext* cx, JSObject* globalObj, VMSideExit* exit, jsbytecode* outer,
uint32 outerArgc)
{
JSTraceMonitor* tm = &JS_TRACE_MONITOR(cx);
if (tm->needFlush) {
ResetJIT(cx, FR_DEEP_BAIL);
return false;
}
VMFragment* from = exit->root();
TreeInfo* from_ti = from->getTreeInfo();
VMFragment* peer = NULL;
TypeConsensus consensus = FindLoopEdgeTarget(cx, exit, &peer);
if (consensus == TypeConsensus_Okay) {
TreeInfo* peer_ti = peer->getTreeInfo();
JS_ASSERT(from_ti->globalSlots == peer_ti->globalSlots);
JS_ASSERT(from_ti->nStackTypes == peer_ti->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_ti->nGlobalTypes() < peer_ti->globalSlots->length())
SpecializeTreesToMissingGlobals(cx, globalObj, peer_ti);
JS_ASSERT(from_ti->nGlobalTypes() == from_ti->globalSlots->length());
/* This exit is no longer unstable, so remove it. */
from_ti->removeUnstableExit(exit);
debug_only_stmt(DumpPeerStability(tm, peer->ip, from->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;
}
return RecordTree(cx, tm, from->first, outer, outerArgc, from->globalObj,
from->globalShape, from_ti->globalSlots, cx->fp->argc);
}
static JS_REQUIRES_STACK bool
AttemptToExtendTree(JSContext* cx, VMSideExit* anchor, VMSideExit* exitedFrom, jsbytecode* outer
#ifdef MOZ_TRACEVIS
, TraceVisStateObj* tvso = NULL
#endif
)
{
JSTraceMonitor* tm = &JS_TRACE_MONITOR(cx);
if (tm->needFlush) {
ResetJIT(cx, FR_DEEP_BAIL);
#ifdef MOZ_TRACEVIS
if (tvso) tvso->r = R_FAIL_EXTEND_FLUSH;
#endif
return false;
}
Fragment* f = anchor->root();
JS_ASSERT(f->vmprivate);
TreeInfo* ti = (TreeInfo*)f->vmprivate;
/*
* Don't grow trees above a certain size to avoid code explosion due to
* tail duplication.
*/
if (ti->branchCount >= MAX_BRANCHES) {
#ifdef MOZ_TRACEVIS
if (tvso) tvso->r = R_FAIL_EXTEND_MAX_BRANCHES;
#endif
return false;
}
Fragment* c;
if (!(c = anchor->target)) {
JSTraceMonitor *tm = &JS_TRACE_MONITOR(cx);
Allocator& alloc = *tm->dataAlloc;
verbose_only(
uint32_t profFragID = (js_LogController.lcbits & LC_FragProfile)
? (++(tm->lastFragID)) : 0;
)
c = new (alloc) Fragment(cx->fp->regs->pc verbose_only(, profFragID));
c->root = anchor->from->root;
debug_only_printf(LC_TMTreeVis, "TREEVIS CREATEBRANCH ROOT=%p FRAG=%p PC=%p FILE=\"%s\""
" LINE=%d ANCHOR=%p OFFS=%d\n",
(void*)f, (void*)c, (void*)cx->fp->regs->pc, cx->fp->script->filename,
js_FramePCToLineNumber(cx, cx->fp), (void*)anchor,
FramePCOffset(cx->fp));
anchor->target = c;
c->root = f;
verbose_only( tm->branches = new (alloc) Seq<Fragment*>(c, tm->branches); )
}
/*
* 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->fp->regs->pc;
debug_only_printf(LC_TMTracer,
"trying to attach another branch to the tree (hits = %d)\n", c->hits());
int32_t& hits = c->hits();
if (outer || (hits++ >= HOTEXIT && hits <= HOTEXIT+MAXEXIT)) {
/* start tracing secondary trace from this point */
c->lirbuf = f->lirbuf;
unsigned stackSlots;
unsigned ngslots;
JSTraceType* typeMap;
TypeMap fullMap(NULL);
if (exitedFrom == NULL) {
/*
* 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 = StartRecorder(cx, anchor, c, (TreeInfo*)f->vmprivate, stackSlots,
ngslots, typeMap, exitedFrom, outer, cx->fp->argc);
#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 VMSideExit*
ExecuteTree(JSContext* cx, Fragment* f, uintN& inlineCallCount,
VMSideExit** innermostNestedGuardp);
static JS_REQUIRES_STACK bool
RecordLoopEdge(JSContext* cx, TraceRecorder* r, uintN& inlineCallCount)
{
#ifdef JS_THREADSAFE
if (OBJ_SCOPE(JS_GetGlobalForObject(cx, cx->fp->scopeChain))->title.ownercx != cx) {
js_AbortRecording(cx, "Global object not owned by this context");
return false; /* we stay away from shared global objects */
}
#endif
JSTraceMonitor* tm = &JS_TRACE_MONITOR(cx);
/* Process needFlush and deep abort requests. */
if (tm->needFlush) {
ResetJIT(cx, FR_DEEP_BAIL);
return false;
}
if (r->wasDeepAborted()) {
js_AbortRecording(cx, "deep abort requested");
return false;
}
JS_ASSERT(r->getFragment() && !r->getFragment()->lastIns);
VMFragment* root = (VMFragment*)r->getFragment()->root;
/* Does this branch go to an inner loop? */
VMFragment* first = getLoop(&JS_TRACE_MONITOR(cx), cx->fp->regs->pc,
root->globalObj, root->globalShape, cx->fp->argc);
if (!first) {
/* Not an inner loop we can call, abort trace. */
AUDIT(returnToDifferentLoopHeader);
JS_ASSERT(!cx->fp->imacpc);
debug_only_printf(LC_TMTracer,
"loop edge to %lld, header %lld\n",
(long long int)(cx->fp->regs->pc - cx->fp->script->code),
(long long int)((jsbytecode*)r->getFragment()->root->ip - cx->fp->script->code));
js_AbortRecording(cx, "Loop edge does not return to header");
return false;
}
/* Make sure inner tree call will not run into an out-of-memory condition. */
if (tm->reservedDoublePoolPtr < (tm->reservedDoublePool + MAX_NATIVE_STACK_SLOTS) &&
!ReplenishReservedPool(cx, tm)) {
js_AbortRecording(cx, "Couldn't call inner tree (out of memory)");
return false;
}
/*
* Make sure the shape of the global object still matches (this might flush
* the JIT cache).
*/
JSObject* globalObj = JS_GetGlobalForObject(cx, cx->fp->scopeChain);
uint32 globalShape = -1;
SlotList* globalSlots = NULL;
if (!CheckGlobalObjectShape(cx, tm, globalObj, &globalShape, &globalSlots))
return false;
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->fp));
// Find a matching inner tree. If none can be found, compile one.
VMFragment* f = r->findNestedCompatiblePeer(first);
if (!f || !f->code()) {
AUDIT(noCompatInnerTrees);
VMFragment* outerFragment = (VMFragment*) tm->recorder->getFragment()->root;
jsbytecode* outer = (jsbytecode*) outerFragment->ip;
uint32 outerArgc = outerFragment->argc;
uint32 argc = cx->fp->argc;
js_AbortRecording(cx, "No compatible inner tree");
// Find an empty fragment we can recycle, or allocate a new one.
for (f = first; f != NULL; f = f->peer) {
if (!f->code())
break;
}
if (!f || f->code()) {
f = getAnchor(tm, cx->fp->regs->pc, globalObj, globalShape, argc);
if (!f) {
ResetJIT(cx, FR_OOM);
return false;
}
}
return RecordTree(cx, tm, f, outer, outerArgc, globalObj, globalShape, globalSlots, argc);
}
r->adjustCallerTypes(f);
r->prepareTreeCall(f);
VMSideExit* innermostNestedGuard = NULL;
VMSideExit* lr = ExecuteTree(cx, f, inlineCallCount, &innermostNestedGuard);
if (!lr || r->wasDeepAborted()) {
if (!lr)
js_AbortRecording(cx, "Couldn't call inner tree");
return false;
}
VMFragment* outerFragment = (VMFragment*) tm->recorder->getFragment()->root;
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) {
js_AbortRecording(cx, "Inner tree took different side exit, abort current "
"recording and grow nesting tree");
return AttemptToExtendTree(cx, innermostNestedGuard, lr, outer);
}
/* Emit a call to the inner tree and continue recording the outer tree trace. */
r->emitTreeCall(f, lr);
return true;
case UNSTABLE_LOOP_EXIT:
/* Abort recording so the inner loop can become type stable. */
js_AbortRecording(cx, "Inner tree is trying to stabilize, abort outer recording");
return AttemptToStabilizeTree(cx, globalObj, lr, outer, outerFragment->argc);
case OVERFLOW_EXIT:
oracle.markInstructionUndemotable(cx->fp->regs->pc);
/* FALL THROUGH */
case BRANCH_EXIT:
case CASE_EXIT:
/* Abort recording the outer tree, extend the inner tree. */
js_AbortRecording(cx, "Inner tree is trying to grow, abort outer recording");
return AttemptToExtendTree(cx, lr, NULL, outer);
default:
debug_only_printf(LC_TMTracer, "exit_type=%s\n", getExitName(lr->exitType));
js_AbortRecording(cx, "Inner tree not suitable for calling");
return false;
}
}
static bool
IsEntryTypeCompatible(jsval* vp, JSTraceType* m)
{
unsigned tag = JSVAL_TAG(*vp);
debug_only_printf(LC_TMTracer, "%c/%c ", tagChar[tag], typeChar[*m]);
switch (*m) {
case TT_OBJECT:
if (tag == JSVAL_OBJECT && !JSVAL_IS_NULL(*vp) &&
!HAS_FUNCTION_CLASS(JSVAL_TO_OBJECT(*vp))) {
return true;
}
debug_only_printf(LC_TMTracer, "object != tag%u ", tag);
return false;
case TT_INT32:
jsint i;
if (JSVAL_IS_INT(*vp))
return true;
if (tag == JSVAL_DOUBLE && JSDOUBLE_IS_INT(*JSVAL_TO_DOUBLE(*vp), i))
return true;
debug_only_printf(LC_TMTracer, "int != tag%u(value=%lu) ", tag, (unsigned long)*vp);
return false;
case TT_DOUBLE:
if (JSVAL_IS_INT(*vp) || tag == JSVAL_DOUBLE)
return true;
debug_only_printf(LC_TMTracer, "double != tag%u ", tag);
return false;
case TT_JSVAL:
JS_NOT_REACHED("shouldn't see jsval type in entry");
return false;
case TT_STRING:
if (tag == JSVAL_STRING)
return true;
debug_only_printf(LC_TMTracer, "string != tag%u ", tag);
return false;
case TT_NULL:
if (JSVAL_IS_NULL(*vp))
return true;
debug_only_printf(LC_TMTracer, "null != tag%u ", tag);
return false;
case TT_PSEUDOBOOLEAN:
if (tag == JSVAL_SPECIAL)
return true;
debug_only_printf(LC_TMTracer, "bool != tag%u ", tag);
return false;
default:
JS_ASSERT(*m == TT_FUNCTION);
if (tag == JSVAL_OBJECT && !JSVAL_IS_NULL(*vp) &&
HAS_FUNCTION_CLASS(JSVAL_TO_OBJECT(*vp))) {
return true;
}
debug_only_printf(LC_TMTracer, "fun != tag%u ", tag);
return false;
}
}
class TypeCompatibilityVisitor : public SlotVisitorBase
{
TraceRecorder &mRecorder;
JSContext *mCx;
JSTraceType *mTypeMap;
unsigned mStackSlotNum;
bool mOk;
public:
TypeCompatibilityVisitor (TraceRecorder &recorder,
JSTraceType *typeMap) :
mRecorder(recorder),
mCx(mRecorder.cx),
mTypeMap(typeMap),
mStackSlotNum(0),
mOk(true)
{}
JS_REQUIRES_STACK JS_ALWAYS_INLINE void
visitGlobalSlot(jsval *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 == TT_INT32) {
oracle.markGlobalSlotUndemotable(mCx, slot);
mOk = false;
} else if (JSVAL_IS_INT(*vp) && *mTypeMap == TT_DOUBLE) {
oracle.markGlobalSlotUndemotable(mCx, slot);
}
mTypeMap++;
}
JS_REQUIRES_STACK JS_ALWAYS_INLINE bool
visitStackSlots(jsval *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 == TT_INT32) {
oracle.markStackSlotUndemotable(mCx, mStackSlotNum);
mOk = false;
} else if (JSVAL_IS_INT(*vp) && *mTypeMap == TT_DOUBLE) {
oracle.markStackSlotUndemotable(mCx, mStackSlotNum);
}
vp++;
mTypeMap++;
mStackSlotNum++;
}
return true;
}
bool isOk() {
return mOk;
}
};
JS_REQUIRES_STACK VMFragment*
TraceRecorder::findNestedCompatiblePeer(VMFragment* f)
{
JSTraceMonitor* tm;
tm = &JS_TRACE_MONITOR(cx);
unsigned int ngslots = treeInfo->globalSlots->length();
TreeInfo* ti;
for (; f != NULL; f = f->peer) {
if (!f->code())
continue;
ti = (TreeInfo*)f->vmprivate;
debug_only_printf(LC_TMTracer, "checking nested types %p: ", (void*)f);
if (ngslots > ti->nGlobalTypes())
SpecializeTreesToMissingGlobals(cx, globalObj, ti);
/*
* 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, ti->typeMap.data());
VisitSlots(visitor, cx, 0, *treeInfo->globalSlots);
debug_only_printf(LC_TMTracer, " %s\n", visitor.isOk() ? "match" : "");
if (visitor.isOk())
return f;
}
return NULL;
}
class CheckEntryTypeVisitor : public SlotVisitorBase
{
bool mOk;
JSTraceType *mTypeMap;
public:
CheckEntryTypeVisitor(JSTraceType *typeMap) :
mOk(true),
mTypeMap(typeMap)
{}
JS_ALWAYS_INLINE void checkSlot(jsval *vp, char const *name, int i) {
debug_only_printf(LC_TMTracer, "%s%d=", name, i);
JS_ASSERT(*(uint8_t*)mTypeMap != 0xCD);
mOk = IsEntryTypeCompatible(vp, mTypeMap++);
}
JS_REQUIRES_STACK JS_ALWAYS_INLINE void
visitGlobalSlot(jsval *vp, unsigned n, unsigned slot) {
if (mOk)
checkSlot(vp, "global", n);
}
JS_REQUIRES_STACK JS_ALWAYS_INLINE bool
visitStackSlots(jsval *vp, size_t count, JSStackFrame* fp) {
for (size_t i = 0; i < count; ++i) {
if (!mOk)
break;
checkSlot(vp++, stackSlotKind(), i);
}
return mOk;
}
bool isOk() {
return mOk;
}
};
/**
* Check if types are usable for trace execution.
*
* @param cx Context.
* @param ti Tree info 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, TreeInfo* ti)
{
unsigned int ngslots = ti->globalSlots->length();
JS_ASSERT(ti->nStackTypes == NativeStackSlots(cx, 0));
if (ngslots > ti->nGlobalTypes())
SpecializeTreesToMissingGlobals(cx, globalObj, ti);
JS_ASSERT(ti->typeMap.length() == NativeStackSlots(cx, 0) + ngslots);
JS_ASSERT(ti->typeMap.length() == ti->nStackTypes + ngslots);
JS_ASSERT(ti->nGlobalTypes() == ngslots);
CheckEntryTypeVisitor visitor(ti->typeMap.data());
VisitSlots(visitor, cx, 0, *ti->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 VMFragment*
FindVMCompatiblePeer(JSContext* cx, JSObject* globalObj, VMFragment* f, uintN& count)
{
count = 0;
for (; f != NULL; f = f->peer) {
if (f->vmprivate == NULL)
continue;
debug_only_printf(LC_TMTracer,
"checking vm types %p (ip: %p): ", (void*)f, f->ip);
if (CheckEntryTypes(cx, globalObj, (TreeInfo*)f->vmprivate))
return f;
++count;
}
return NULL;
}
static void
LeaveTree(InterpState&, VMSideExit* lr);
static JS_REQUIRES_STACK VMSideExit*
ExecuteTree(JSContext* cx, Fragment* f, uintN& inlineCallCount,
VMSideExit** innermostNestedGuardp)
{
#ifdef MOZ_TRACEVIS
TraceVisStateObj tvso(cx, S_EXECUTE);
#endif
JS_ASSERT(f->root == f && f->code() && f->vmprivate);
/*
* 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* parent;
JSObject* child = cx->fp->scopeChain;
while ((parent = OBJ_GET_PARENT(cx, child)) != NULL) {
if (!js_IsCacheableNonGlobalScope(child)) {
debug_only_print0(LC_TMTracer,"Blacklist: non-cacheable object on scope chain.\n");
Blacklist((jsbytecode*) f->root->ip);
return NULL;
}
child = parent;
}
JSObject* globalObj = child;
if (!(OBJ_GET_CLASS(cx, globalObj)->flags & JSCLASS_IS_GLOBAL)) {
debug_only_print0(LC_TMTracer, "Blacklist: non-global at root of scope chain.\n");
Blacklist((jsbytecode*) f->root->ip);
return NULL;
}
JSTraceMonitor* tm = &JS_TRACE_MONITOR(cx);
TreeInfo* ti = (TreeInfo*)f->vmprivate;
unsigned ngslots = ti->globalSlots->length();
uint16* gslots = ti->globalSlots->data();
unsigned globalFrameSize = STOBJ_NSLOTS(globalObj);
/* Make sure the global object is sane. */
JS_ASSERT_IF(ngslots != 0,
OBJ_SHAPE(JS_GetGlobalForObject(cx, cx->fp->scopeChain)) ==
((VMFragment*)f)->globalShape);
/* Make sure our caller replenished the double pool. */
JS_ASSERT(tm->reservedDoublePoolPtr >= tm->reservedDoublePool + MAX_NATIVE_STACK_SLOTS);
/* Reserve objects and stack space now, to make leaving the tree infallible. */
if (!js_ReserveObjects(cx, MAX_CALL_STACK_ENTRIES))
return NULL;
/* Set up the interpreter state block, which is followed by the native global frame. */
InterpState* state = (InterpState*)alloca(sizeof(InterpState) + (globalFrameSize+1)*sizeof(double));
state->cx = cx;
state->inlineCallCountp = &inlineCallCount;
state->innermostNestedGuardp = innermostNestedGuardp;
state->outermostTree = ti;
state->lastTreeExitGuard = NULL;
state->lastTreeCallGuard = NULL;
state->rpAtLastTreeCall = NULL;
state->nativeVp = NULL;
state->builtinStatus = 0;
/* Set up the native global frame. */
double* global = (double*)(state+1);
/* Set up the native stack frame. */
double stack_buffer[MAX_NATIVE_STACK_SLOTS];
state->stackBase = stack_buffer;
state->sp = stack_buffer + (ti->nativeStackBase/sizeof(double));
state->eos = stack_buffer + MAX_NATIVE_STACK_SLOTS;
/* Set up the native call stack frame. */
FrameInfo* callstack_buffer[MAX_CALL_STACK_ENTRIES];
state->callstackBase = callstack_buffer;
state->rp = callstack_buffer;
state->eor = callstack_buffer + MAX_CALL_STACK_ENTRIES;
void *reserve;
state->stackMark = JS_ARENA_MARK(&cx->stackPool);
JS_ARENA_ALLOCATE(reserve, &cx->stackPool, MAX_INTERP_STACK_BYTES);
if (!reserve)
return NULL;
#ifdef DEBUG
memset(stack_buffer, 0xCD, sizeof(stack_buffer));
memset(global, 0xCD, (globalFrameSize+1)*sizeof(double));
JS_ASSERT(globalFrameSize <= MAX_GLOBAL_SLOTS);
#endif
debug_only_stmt(*(uint64*)&global[globalFrameSize] = 0xdeadbeefdeadbeefLL;)
debug_only_printf(LC_TMTracer,
"entering trace at %s:%u@%u, native stack slots: %u code: %p\n",
cx->fp->script->filename,
js_FramePCToLineNumber(cx, cx->fp),
FramePCOffset(cx->fp),
ti->maxNativeStackSlots,
f->code());
JS_ASSERT(ti->nGlobalTypes() == ngslots);
BuildNativeFrame(cx, globalObj, 0 /* callDepth */, ngslots, gslots,
ti->typeMap.data(), global, stack_buffer);
union { NIns *code; GuardRecord* (FASTCALL *func)(InterpState*, Fragment*); } u;
u.code = f->code();
#ifdef EXECUTE_TREE_TIMER
state->startTime = rdtsc();
#endif
JS_ASSERT(!tm->tracecx);
tm->tracecx = cx;
state->prev = cx->interpState;
cx->interpState = state;
debug_only_stmt(fflush(NULL));
GuardRecord* rec;
// Note that the block scoping is crucial here for TraceVis; the
// TraceVisStateObj constructors and destructors must run at the right times.
{
#ifdef MOZ_TRACEVIS
TraceVisStateObj tvso_n(cx, S_NATIVE);
#endif
#if defined(JS_NO_FASTCALL) && defined(NANOJIT_IA32)
SIMULATE_FASTCALL(rec, state, NULL, u.func);
#else
rec = u.func(state, NULL);
#endif
}
JS_ASSERT(*(uint64*)&global[globalFrameSize] == 0xdeadbeefdeadbeefLL);
JS_ASSERT(!state->nativeVp);
VMSideExit* lr = (VMSideExit*)rec->exit;
AUDIT(traceTriggered);
cx->interpState = state->prev;
JS_ASSERT(!cx->bailExit);
JS_ASSERT(lr->exitType != LOOP_EXIT || !lr->calldepth);
tm->tracecx = NULL;
LeaveTree(*state, lr);
return state->innermost;
}
static JS_FORCES_STACK void
LeaveTree(InterpState& state, VMSideExit* lr)
{
VOUCH_DOES_NOT_REQUIRE_STACK();
JSContext* cx = state.cx;
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
* CallTree builtin 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 & JSBUILTIN_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.
*
* First, if we just returned from a slow native, pop its stack frame.
*/
if (!cx->fp->script) {
JSStackFrame *fp = cx->fp;
JS_ASSERT(FUN_SLOW_NATIVE(fp->fun));
JS_ASSERT(fp->regs == NULL);
JS_ASSERT(fp->down->regs != &((JSInlineFrame *) fp)->callerRegs);
cx->fp = fp->down;
JS_ARENA_RELEASE(&cx->stackPool, ((JSInlineFrame *) fp)->mark);
}
JS_ASSERT(cx->fp->script);
if (!(bs & JSBUILTIN_ERROR)) {
/*
* 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->fp->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_SETPROP || op == JSOP_SETNAME || op == JSOP_SETMETHOD ||
op == JSOP_SETELEM || op == JSOP_INITELEM ||
op == JSOP_INSTANCEOF);
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->imacpc,
cx->fp->slots + cx->fp->script->nfixed +
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.)
*/
JSTraceType* 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;
}
JS_ARENA_RELEASE(&cx->stackPool, state.stackMark);
while (callstack < rp) {
FrameInfo* fi = *callstack;
/* Peek at the callee native slot in the not-yet-synthesized down frame. */
JSObject* callee = *(JSObject**)&stack[fi->callerHeight];
/*
* Synthesize a stack frame and write out the values in it using the
* type map pointer on the native call stack.
*/
SynthesizeFrame(cx, *fi, callee);
int slots = FlushNativeStackFrame(cx, 1 /* callDepth */, (JSTraceType*)(fi + 1),
stack, cx->fp);
#ifdef DEBUG
JSStackFrame* fp = cx->fp;
debug_only_printf(LC_TMTracer,
"synthesized deep frame for %s:%u@%u, slots=%d\n",
fp->script->filename,
js_FramePCToLineNumber(cx, fp),
FramePCOffset(fp),
slots);
#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 calldepth_slots = 0;
unsigned calleeOffset = 0;
for (unsigned n = 0; n < calldepth; ++n) {
/* Peek at the callee native slot in the not-yet-synthesized down frame. */
calleeOffset += callstack[n]->callerHeight;
JSObject* callee = *(JSObject**)&stack[calleeOffset];
/* Reconstruct the frame. */
calldepth_slots += 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(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* fp = cx->fp;
fp->blockChain = 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.
*/
fp->regs->pc = innermost->pc;
fp->imacpc = innermost->imacpc;
fp->regs->sp = StackBase(fp) + (innermost->sp_adj / sizeof(double)) - calldepth_slots;
JS_ASSERT_IF(!fp->imacpc,
fp->slots + fp->script->nfixed +
js_ReconstructStackDepth(cx, fp->script, fp->regs->pc) == fp->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(fp),
js_CodeName[fp->imacpc ? *fp->imacpc : *fp->regs->pc],
(void*)lr,
getExitName(lr->exitType),
(long long int)(fp->regs->sp - StackBase(fp)),
calldepth,
(unsigned long long int)cycles);
/*
* 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.
*/
TreeInfo* outermostTree = state.outermostTree;
uint16* gslots = outermostTree->globalSlots->data();
unsigned ngslots = outermostTree->globalSlots->length();
JS_ASSERT(ngslots == outermostTree->nGlobalTypes());
JSTraceType* globalTypeMap;
/* Are there enough globals? */
Queue<JSTraceType> typeMap(0);
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()->getTreeInfo()->nGlobalTypes() == ngslots);
JS_ASSERT(innermost->root()->getTreeInfo()->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 the topmost native stack frame. */
#ifdef DEBUG
int slots =
#endif
FlushNativeStackFrame(cx, innermost->calldepth,
innermost->stackTypeMap(),
stack, NULL);
JS_ASSERT(unsigned(slots) == innermost->numStackSlots);
if (innermost->nativeCalleeWord)
SynthesizeSlowNativeFrame(state, cx, innermost);
/* Write back interned globals. */
double* global = (double*)(&state + 1);
FlushNativeGlobalFrame(cx, global,
ngslots, gslots, globalTypeMap);
#ifdef DEBUG
/* Verify that our state restoration worked. */
for (JSStackFrame* fp = cx->fp; fp; fp = fp->down) {
JS_ASSERT_IF(fp->argv, JSVAL_IS_OBJECT(fp->argv[-1]));
}
#endif
#ifdef JS_JIT_SPEW
if (innermost->exitType != TIMEOUT_EXIT)
AUDIT(sideExitIntoInterpreter);
else
AUDIT(timeoutIntoInterpreter);
#endif
state.innermost = innermost;
}
JS_REQUIRES_STACK bool
js_MonitorLoopEdge(JSContext* cx, uintN& inlineCallCount)
{
#ifdef MOZ_TRACEVIS
TraceVisStateObj tvso(cx, S_MONITOR);
#endif
JSTraceMonitor* tm = &JS_TRACE_MONITOR(cx);
/* Is the recorder currently active? */
if (tm->recorder) {
jsbytecode* innerLoopHeaderPC = cx->fp->regs->pc;
if (RecordLoopEdge(cx, tm->recorder, inlineCallCount))
return true;
/*
* 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 (innerLoopHeaderPC != cx->fp->regs->pc) {
#ifdef MOZ_TRACEVIS
tvso.r = R_INNER_SIDE_EXIT;
#endif
return false;
}
}
JS_ASSERT(!tm->recorder);
/* Check the pool of reserved doubles (this might trigger a GC). */
if (tm->reservedDoublePoolPtr < (tm->reservedDoublePool + MAX_NATIVE_STACK_SLOTS) &&
!ReplenishReservedPool(cx, tm)) {
#ifdef MOZ_TRACEVIS
tvso.r = R_DOUBLES;
#endif
return false; /* Out of memory, don't try to record now. */
}
/*
* Make sure the shape of the global object still matches (this might flush
* the JIT cache).
*/
JSObject* globalObj = JS_GetGlobalForObject(cx, cx->fp->scopeChain);
uint32 globalShape = -1;
SlotList* globalSlots = NULL;
if (!CheckGlobalObjectShape(cx, tm, globalObj, &globalShape, &globalSlots)) {
Backoff(cx, cx->fp->regs->pc);
return false;
}
/* Do not enter the JIT code with a pending operation callback. */
if (cx->operationCallbackFlag) {
#ifdef MOZ_TRACEVIS
tvso.r = R_CALLBACK_PENDING;
#endif
return false;
}
jsbytecode* pc = cx->fp->regs->pc;
uint32 argc = cx->fp->argc;
VMFragment* f = getLoop(tm, pc, globalObj, globalShape, argc);
if (!f)
f = getAnchor(tm, pc, globalObj, globalShape, argc);
if (!f) {
ResetJIT(cx, FR_OOM);
#ifdef MOZ_TRACEVIS
tvso.r = R_OOM_GETANCHOR;
#endif
return false;
}
/*
* 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 false;
}
/*
* 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, tm, f->first, NULL, 0, globalObj, globalShape,
globalSlots, argc);
#ifdef MOZ_TRACEVIS
if (!rv)
tvso.r = R_FAIL_RECORD_TREE;
#endif
return rv;
}
debug_only_printf(LC_TMTracer,
"Looking for compat peer %d@%d, from %p (ip: %p)\n",
js_FramePCToLineNumber(cx, cx->fp),
FramePCOffset(cx->fp), (void*)f, f->ip);
uintN count;
Fragment* 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 false;
}
VMSideExit* lr = NULL;
VMSideExit* innermostNestedGuard = NULL;
lr = ExecuteTree(cx, match, inlineCallCount, &innermostNestedGuard);
if (!lr) {
#ifdef MOZ_TRACEVIS
tvso.r = R_FAIL_EXECUTE_TREE;
#endif
return false;
}
/*
* 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, NULL);
#ifdef MOZ_TRACEVIS
if (!rv)
tvso.r = R_FAIL_STABILIZE;
#endif
return rv;
case OVERFLOW_EXIT:
oracle.markInstructionUndemotable(cx->fp->regs->pc);
/* FALL THROUGH */
case BRANCH_EXIT:
case CASE_EXIT:
return AttemptToExtendTree(cx, lr, NULL, NULL
#ifdef MOZ_TRACEVIS
, &tvso
#endif
);
case LOOP_EXIT:
if (innermostNestedGuard)
return AttemptToExtendTree(cx, innermostNestedGuard, lr, NULL
#ifdef MOZ_TRACEVIS
, &tvso
#endif
);
#ifdef MOZ_TRACEVIS
tvso.r = R_NO_EXTEND_OUTER;
#endif
return false;
#ifdef MOZ_TRACEVIS
case MISMATCH_EXIT: tvso.r = R_MISMATCH_EXIT; return false;
case OOM_EXIT: tvso.r = R_OOM_EXIT; return false;
case TIMEOUT_EXIT: tvso.r = R_TIMEOUT_EXIT; return false;
case DEEP_BAIL_EXIT: tvso.r = R_DEEP_BAIL_EXIT; return false;
case STATUS_EXIT: tvso.r = R_STATUS_EXIT; return false;
#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 false;
}
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::monitorRecording(JSContext* cx, TraceRecorder* tr, JSOp op)
{
Assembler *assm = JS_TRACE_MONITOR(cx).assembler;
/* Process needFlush and deepAbort() requests now. */
if (JS_TRACE_MONITOR(cx).needFlush) {
ResetJIT(cx, FR_DEEP_BAIL);
return JSRS_STOP;
}
if (tr->wasDeepAborted()) {
js_AbortRecording(cx, "deep abort requested");
return JSRS_STOP;
}
JS_ASSERT(!tr->fragment->lastIns);
/*
* Clear one-shot state used to communicate between record_JSOP_CALL and post-
* opcode-case-guts record hook (record_NativeCallComplete).
*/
tr->pendingSpecializedNative = NULL;
tr->newobj_ins = NULL;
/* Handle one-shot request from finishGetProp to snapshot post-op state and guard. */
if (tr->pendingGuardCondition) {
tr->guard(true, tr->pendingGuardCondition, STATUS_EXIT);
tr->pendingGuardCondition = NULL;
}
/* Handle one-shot request to unbox the result of a property get. */
if (tr->pendingUnboxSlot) {
LIns* val_ins = tr->get(tr->pendingUnboxSlot);
val_ins = tr->unbox_jsval(*tr->pendingUnboxSlot, val_ins, tr->snapshot(BRANCH_EXIT));
tr->set(tr->pendingUnboxSlot, val_ins);
tr->pendingUnboxSlot = 0;
}
debug_only_stmt(
if (js_LogController.lcbits & LC_TMRecorder) {
js_Disassemble1(cx, cx->fp->script, cx->fp->regs->pc,
cx->fp->imacpc
? 0 : cx->fp->regs->pc - cx->fp->script->code,
!cx->fp->imacpc, 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.
*/
JSRecordingStatus status;
#ifdef DEBUG
bool wasInImacro = (cx->fp->imacpc != NULL);
#endif
switch (op) {
default:
status = JSRS_ERROR;
goto stop_recording;
# define OPDEF(x,val,name,token,length,nuses,ndefs,prec,format) \
case x: \
status = tr->record_##x(); \
if (JSOP_IS_IMACOP(x)) \
goto imacro; \
break;
# include "jsopcode.tbl"
# undef OPDEF
}
JS_ASSERT(status != JSRS_IMACRO);
JS_ASSERT_IF(!wasInImacro, cx->fp->imacpc == NULL);
/* Process deepAbort() requests now. */
if (tr->wasDeepAborted()) {
js_AbortRecording(cx, "deep abort requested");
return JSRS_STOP;
}
if (assm->error()) {
js_AbortRecording(cx, "error during recording");
return JSRS_STOP;
}
if (tr->outOfMemory() || js_OverfullJITCache(&JS_TRACE_MONITOR(cx))) {
js_AbortRecording(cx, "no more memory");
ResetJIT(cx, FR_OOM);
return JSRS_STOP;
}
imacro:
if (!STATUS_ABORTS_RECORDING(status))
return status;
stop_recording:
/* If we recorded the end of the trace, destroy the recorder now. */
if (tr->fragment->lastIns) {
DeleteRecorder(cx);
return status;
}
/* Looks like we encountered an error condition. Abort recording. */
js_AbortRecording(cx, js_CodeName[op]);
return status;
}
JS_REQUIRES_STACK void
js_AbortRecording(JSContext* cx, const char* reason)
{
JSTraceMonitor* tm = &JS_TRACE_MONITOR(cx);
JS_ASSERT(tm->recorder != NULL);
/* Abort the trace and blacklist its starting point. */
Fragment* f = tm->recorder->getFragment();
/*
* If the recorder already had its fragment disposed, or we actually
* finished recording and this recorder merely is passing through the deep
* abort state to the next recorder on the stack, just destroy the
* recorder. There is nothing to abort.
*/
if (!f || f->lastIns) {
DeleteRecorder(cx);
return;
}
AUDIT(recorderAborted);
JS_ASSERT(!f->vmprivate);
#ifdef DEBUG
TreeInfo* ti = tm->recorder->getTreeInfo();
debug_only_printf(LC_TMAbort,
"Abort recording of tree %s:%d@%d at %s:%d@%d: %s.\n",
ti->treeFileName,
ti->treeLineNumber,
ti->treePCOffset,
cx->fp->script->filename,
js_FramePCToLineNumber(cx, cx->fp),
FramePCOffset(cx->fp),
reason);
#endif
Backoff(cx, (jsbytecode*) f->root->ip, f->root);
/* If DeleteRecorder flushed the code cache, we can't rely on f any more. */
if (!DeleteRecorder(cx))
return;
/*
* If this is the primary trace and we didn't succeed compiling, trash the
* TreeInfo object.
*/
if (!f->code() && (f->root == f))
TrashTree(cx, f);
}
#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_thumb_op();
extern "C" int js_arm_try_armv6t2_op();
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 bool
js_arm_check_thumb() {
bool ret = false;
__try {
js_arm_try_thumb_op();
ret = true;
} __except(GetExceptionCode() == EXCEPTION_ILLEGAL_INSTRUCTION) {
ret = false;
}
return ret;
}
static bool
js_arm_check_thumb2() {
bool ret = false;
__try {
js_arm_try_armv6t2_op();
ret = true;
} __except(GetExceptionCode() == EXCEPTION_ILLEGAL_INSTRUCTION) {
ret = false;
}
return ret;
}
static unsigned int
js_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
js_arm_check_vfp() {
bool ret = false;
__try {
js_arm_try_vfp_op();
ret = true;
} __except(GetExceptionCode() == EXCEPTION_ILLEGAL_INSTRUCTION) {
ret = false;
}
return ret;
}
#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
js_disable_debugger_exceptions()
{
// 2 == TLSSLOT_KERNEL
DWORD kctrl = (DWORD) TlsGetValue(2);
// 0x12 = TLSKERN_NOFAULT | TLSKERN_NOFAULTMSG
kctrl |= 0x12;
TlsSetValue(2, (LPVOID) kctrl);
}
static void
js_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)
#include <stdlib.h>
#include <unistd.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/mman.h>
#include <fcntl.h>
#include <string.h>
#include <elf.h>
// Assume ARMv4 by default.
static unsigned int arm_arch = 4;
static bool arm_has_thumb = false;
static bool arm_has_vfp = false;
static bool arm_has_neon = false;
static bool arm_has_iwmmxt = false;
static bool arm_tests_initialized = false;
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);
// hardcode these values to avoid depending on specific versions
// of the hwcap header, e.g. HWCAP_NEON
arm_has_thumb = (hwcap & 4) != 0;
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");
// 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';
}
else
{
// For production code, ignore invalid (or unexpected) platform strings and
// fall back to the default. For debug code, use an assertion to catch this.
JS_ASSERT(false);
}
}
}
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;
}
static bool
js_arm_check_thumb() {
if (!arm_tests_initialized)
arm_read_auxv();
return arm_has_thumb;
}
static bool
js_arm_check_thumb2() {
if (!arm_tests_initialized)
arm_read_auxv();
// ARMv6T2 also supports Thumb2, but Linux doesn't provide an easy way to test for this as
// there is no associated bit in auxv. ARMv7 always supports Thumb2, and future architectures
// are assumed to be backwards-compatible.
return (arm_arch >= 7);
}
static unsigned int
js_arm_check_arch() {
if (!arm_tests_initialized)
arm_read_auxv();
return arm_arch;
}
static bool
js_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 bool
js_arm_check_thumb() { return false; }
static bool
js_arm_check_thumb2() { return false; }
static unsigned int
js_arm_check_arch() { return 4; }
static bool
js_arm_check_vfp() { return false; }
#endif
#ifndef HAVE_ENABLE_DISABLE_DEBUGGER_EXCEPTIONS
static void
js_enable_debugger_exceptions() { }
static void
js_disable_debugger_exceptions() { }
#endif
#endif /* NANOJIT_ARM */
#define K *1024
#define M K K
#define G K M
void
js_SetMaxCodeCacheBytes(JSContext* cx, uint32 bytes)
{
JSTraceMonitor* tm = &JS_THREAD_DATA(cx)->traceMonitor;
JS_ASSERT(tm->codeAlloc && tm->dataAlloc);
if (bytes > 1 G)
bytes = 1 G;
if (bytes < 128 K)
bytes = 128 K;
tm->maxCodeCacheBytes = bytes;
}
void
js_InitJIT(JSTraceMonitor *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 (js_LogController.lcbits & LC_FragProfile) {
tm->profAlloc = new VMAllocator();
tm->profTab = new (*tm->profAlloc) FragStatsMap(*tm->profAlloc);
}
tm->lastFragID = 0;
#else
memset(&js_LogController, 0, sizeof(js_LogController));
#endif
if (!did_we_check_processor_features) {
#if defined NANOJIT_IA32
avmplus::AvmCore::config.use_cmov =
avmplus::AvmCore::config.sse2 = CheckForSSE2();
#endif
#if defined NANOJIT_ARM
js_disable_debugger_exceptions();
bool arm_vfp = js_arm_check_vfp();
bool arm_thumb = js_arm_check_thumb();
bool arm_thumb2 = js_arm_check_thumb2();
unsigned int arm_arch = js_arm_check_arch();
js_enable_debugger_exceptions();
avmplus::AvmCore::config.vfp = arm_vfp;
avmplus::AvmCore::config.soft_float = !arm_vfp;
avmplus::AvmCore::config.thumb = arm_thumb;
avmplus::AvmCore::config.thumb2 = arm_thumb2;
avmplus::AvmCore::config.arch = arm_arch;
// Sanity-check the configuration detection.
// * We don't understand architectures prior to ARMv4.
JS_ASSERT(arm_arch >= 4);
// * All architectures support Thumb with the possible exception of ARMv4.
JS_ASSERT((arm_thumb) || (arm_arch == 4));
// * Only ARMv6T2 and ARMv7(+) support Thumb2, but ARMv6 does not.
JS_ASSERT((arm_thumb2) || (arm_arch <= 6));
// * All architectures that support Thumb2 also support Thumb.
JS_ASSERT((arm_thumb2 && arm_thumb) || (!arm_thumb2));
#endif
did_we_check_processor_features = true;
}
/* Set the default size for the code cache to 16MB. */
tm->maxCodeCacheBytes = 16 M;
if (!tm->recordAttempts.ops) {
JS_DHashTableInit(&tm->recordAttempts, JS_DHashGetStubOps(),
NULL, sizeof(PCHashEntry),
JS_DHASH_DEFAULT_CAPACITY(PC_HASH_COUNT));
}
JS_ASSERT(!tm->dataAlloc && !tm->codeAlloc);
tm->dataAlloc = new VMAllocator();
tm->codeAlloc = new CodeAlloc();
tm->flush();
verbose_only( tm->branches = NULL; )
JS_ASSERT(!tm->reservedDoublePool);
tm->reservedDoublePoolPtr = tm->reservedDoublePool = new jsval[MAX_NATIVE_STACK_SLOTS];
#if !defined XP_WIN
debug_only(memset(&jitstats, 0, sizeof(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
js_FinishJIT(JSTraceMonitor *tm)
{
#ifdef JS_JIT_SPEW
if (jitstats.recorderStarted) {
debug_only_printf(LC_TMStats,
"recorder: started(%llu), aborted(%llu), completed(%llu), different header(%llu), "
"trees trashed(%llu), slot promoted(%llu), unstable loop variable(%llu), "
"breaks(%llu), returns(%llu), unstableInnerCalls(%llu), blacklisted(%llu)\n",
(unsigned long long int)jitstats.recorderStarted,
(unsigned long long int)jitstats.recorderAborted,
(unsigned long long int)jitstats.traceCompleted,
(unsigned long long int)jitstats.returnToDifferentLoopHeader,
(unsigned long long int)jitstats.treesTrashed,
(unsigned long long int)jitstats.slotPromoted,
(unsigned long long int)jitstats.unstableLoopVariable,
(unsigned long long int)jitstats.breakLoopExits,
(unsigned long long int)jitstats.returnLoopExits,
(unsigned long long int)jitstats.noCompatInnerTrees,
(unsigned long long int)jitstats.blacklisted);
debug_only_printf(LC_TMStats,
"monitor: triggered(%llu), exits(%llu), type mismatch(%llu), "
"global mismatch(%llu), flushed(%llu)\n",
(unsigned long long int)jitstats.traceTriggered,
(unsigned long long int)jitstats.sideExitIntoInterpreter,
(unsigned long long int)jitstats.typeMapMismatchAtEntry,
(unsigned long long int)jitstats.globalShapeMismatchAtEntry,
(unsigned long long int)jitstats.cacheFlushed);
}
#endif
JS_ASSERT(tm->reservedDoublePool);
if (tm->recordAttempts.ops)
JS_DHashTableFinish(&tm->recordAttempts);
#ifdef DEBUG
// Recover profiling data from expiring Fragments, and display
// final results.
if (js_LogController.lcbits & LC_FragProfile) {
for (Seq<Fragment*>* f = tm->branches; f; f = f->tail) {
js_FragProfiling_FragFinalizer(f->head, tm);
}
for (size_t i = 0; i < FRAGMENT_TABLE_SIZE; ++i) {
for (VMFragment *f = tm->vmfragments[i]; f; f = f->next) {
JS_ASSERT(f->root == f);
for (VMFragment *p = f; p; p = p->peer)
js_FragProfiling_FragFinalizer(p, tm);
}
}
REHashMap::Iter iter(*(tm->reFragments));
while (iter.next()) {
nanojit::Fragment* frag = iter.value();
js_FragProfiling_FragFinalizer(frag, tm);
}
js_FragProfiling_showResults(tm);
delete tm->profAlloc;
} else {
NanoAssert(!tm->profTab);
NanoAssert(!tm->profAlloc);
}
#endif
memset(&tm->vmfragments[0], 0, FRAGMENT_TABLE_SIZE * sizeof(VMFragment*));
delete[] tm->reservedDoublePool;
tm->reservedDoublePool = tm->reservedDoublePoolPtr = NULL;
if (tm->codeAlloc) {
delete tm->codeAlloc;
tm->codeAlloc = NULL;
}
if (tm->dataAlloc) {
delete tm->dataAlloc;
tm->dataAlloc = NULL;
}
}
void
TraceRecorder::pushAbortStack()
{
JSTraceMonitor* tm = &JS_TRACE_MONITOR(cx);
JS_ASSERT(tm->abortStack != this);
nextRecorderToAbort = tm->abortStack;
tm->abortStack = this;
}
void
TraceRecorder::popAbortStack()
{
JSTraceMonitor* tm = &JS_TRACE_MONITOR(cx);
JS_ASSERT(tm->abortStack == this);
tm->abortStack = nextRecorderToAbort;
nextRecorderToAbort = NULL;
}
void
js_PurgeJITOracle()
{
oracle.clear();
}
static JSDHashOperator
PurgeScriptRecordingAttempts(JSDHashTable *table, JSDHashEntryHdr *hdr, uint32 number, void *arg)
{
PCHashEntry *e = (PCHashEntry *)hdr;
JSScript *script = (JSScript *)arg;
jsbytecode *pc = (jsbytecode *)e->key;
if (JS_UPTRDIFF(pc, script->code) < script->length)
return JS_DHASH_REMOVE;
return JS_DHASH_NEXT;
}
JS_REQUIRES_STACK void
js_PurgeScriptFragments(JSContext* cx, JSScript* script)
{
if (!TRACING_ENABLED(cx))
return;
debug_only_printf(LC_TMTracer,
"Purging fragments for JSScript %p.\n", (void*)script);
JSTraceMonitor* tm = &JS_TRACE_MONITOR(cx);
for (size_t i = 0; i < FRAGMENT_TABLE_SIZE; ++i) {
VMFragment** fragp = &tm->vmfragments[i];
while (VMFragment* frag = *fragp) {
if (JS_UPTRDIFF(frag->ip, script->code) < script->length) {
/* This fragment is associated with the script. */
debug_only_printf(LC_TMTracer,
"Disconnecting VMFragment %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( js_FragProfiling_FragFinalizer(frag, tm); )
TrashTree(cx, frag);
} while ((frag = frag->peer) != NULL);
continue;
}
fragp = &frag->next;
}
}
JS_DHashTableEnumerate(&tm->recordAttempts, PurgeScriptRecordingAttempts, script);
}
bool
js_OverfullJITCache(JSTraceMonitor* 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;
CodeAlloc *codeAlloc = tm->codeAlloc;
return (codeAlloc->size() + dataAlloc->size() > maxsz);
}
JS_FORCES_STACK JS_FRIEND_API(void)
js_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.)
*/
JSTraceMonitor *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(*tracecx->interpState, tracecx->bailExit);
tracecx->bailExit = NULL;
InterpState* state = tracecx->interpState;
state->builtinStatus |= JSBUILTIN_BAILED;
state->deepBailSp = state->sp;
}
JS_REQUIRES_STACK jsval&
TraceRecorder::argval(unsigned n) const
{
JS_ASSERT(n < cx->fp->fun->nargs);
return cx->fp->argv[n];
}
JS_REQUIRES_STACK jsval&
TraceRecorder::varval(unsigned n) const
{
JS_ASSERT(n < cx->fp->script->nslots);
return cx->fp->slots[n];
}
JS_REQUIRES_STACK jsval&
TraceRecorder::stackval(int n) const
{
jsval* sp = cx->fp->regs->sp;
return sp[n];
}
JS_REQUIRES_STACK LIns*
TraceRecorder::scopeChain() const
{
return lir->insLoad(LIR_ldp,
lir->insLoad(LIR_ldp, cx_ins, offsetof(JSContext, fp)),
offsetof(JSStackFrame, scopeChain));
}
/*
* 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->down))
break;
}
return NULL;
}
JS_DEFINE_CALLINFO_4(extern, UINT32, GetClosureVar, CONTEXT, OBJECT, CVIPTR, DOUBLEPTR, 0, 0)
JS_DEFINE_CALLINFO_4(extern, UINT32, GetClosureArg, CONTEXT, OBJECT, CVIPTR, DOUBLEPTR, 0, 0)
/*
* Search the scope chain for a property lookup operation at the current PC and
* generate LIR to access the given property. Return JSRS_CONTINUE on success,
* otherwise abort and return JSRS_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 JSRecordingStatus
TraceRecorder::scopeChainProp(JSObject* obj, jsval*& vp, LIns*& ins, NameResult& nr)
{
JS_ASSERT(obj != globalObj);
JSAtom* atom = atoms[GET_INDEX(cx->fp->regs->pc)];
JSObject* obj2;
JSProperty* prop;
if (!js_FindProperty(cx, ATOM_TO_JSID(atom), &obj, &obj2, &prop))
ABORT_TRACE_ERROR("error in js_FindProperty");
if (!prop)
ABORT_TRACE("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 if we are in a function.
if (cx->fp->argv) {
LIns* obj_ins;
JSObject* parent = STOBJ_GET_PARENT(JSVAL_TO_OBJECT(cx->fp->argv[-2]));
LIns* parent_ins = stobj_get_parent(get(&cx->fp->argv[-2]));
CHECK_STATUS(traverseScopeChain(parent, parent_ins, obj, obj_ins));
}
JSScopeProperty* sprop = (JSScopeProperty*) prop;
if (obj2 != obj) {
obj2->dropProperty(cx, prop);
ABORT_TRACE("prototype property");
}
if (!isValidSlot(OBJ_SCOPE(obj), sprop)) {
obj2->dropProperty(cx, prop);
return JSRS_STOP;
}
if (!lazilyImportGlobalSlot(sprop->slot)) {
obj2->dropProperty(cx, prop);
ABORT_TRACE("lazy import of global slot failed");
}
vp = &STOBJ_GET_SLOT(obj, sprop->slot);
ins = get(vp);
obj2->dropProperty(cx, prop);
nr.tracked = true;
return JSRS_CONTINUE;
}
if (wasDeepAborted())
ABORT_TRACE("deep abort from property lookup");
if (obj == obj2 && OBJ_GET_CLASS(cx, obj) == &js_CallClass)
return callProp(obj, prop, ATOM_TO_JSID(atom), vp, ins, nr);
obj2->dropProperty(cx, prop);
ABORT_TRACE("fp->scopeChain is not global or active call object");
}
/*
* Generate LIR to access a property of a Call object.
*/
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::callProp(JSObject* obj, JSProperty* prop, jsid id, jsval*& vp,
LIns*& ins, NameResult& nr)
{
JSScopeProperty *sprop = (JSScopeProperty*) prop;
JSOp op = JSOp(*cx->fp->regs->pc);
uint32 setflags = (js_CodeSpec[op].format & (JOF_SET | JOF_INCDEC | JOF_FOR));
if (setflags && (sprop->attrs & JSPROP_READONLY))
ABORT_TRACE("writing to a read-only property");
uintN slot = sprop->shortid;
vp = NULL;
uintN upvar_slot = SPROP_INVALID_SLOT;
JSStackFrame* cfp = (JSStackFrame*) obj->getPrivate();
if (cfp) {
if (sprop->getter == js_GetCallArg) {
JS_ASSERT(slot < cfp->fun->nargs);
vp = &cfp->argv[slot];
upvar_slot = slot;
nr.v = *vp;
} else if (sprop->getter == js_GetCallVar) {
JS_ASSERT(slot < cfp->script->nslots);
vp = &cfp->slots[slot];
upvar_slot = cx->fp->fun->nargs + slot;
nr.v = *vp;
} else {
ABORT_TRACE("dynamic property of Call object");
}
obj->dropProperty(cx, prop);
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 JSRS_CONTINUE;
}
} else {
// Call objects do not yet have sprop->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, sprop->id,
(op == JSOP_CALLNAME)
? JSGET_NO_METHOD_BARRIER
: JSGET_METHOD_BARRIER,
&nr.v);
JS_ASSERT(rv);
obj->dropProperty(cx, prop);
}
LIns* obj_ins;
JSObject* parent = STOBJ_GET_PARENT(JSVAL_TO_OBJECT(cx->fp->argv[-2]));
LIns* parent_ins = stobj_get_parent(get(&cx->fp->argv[-2]));
CHECK_STATUS(traverseScopeChain(parent, parent_ins, obj, obj_ins));
ClosureVarInfo* cv = new (traceMonitor->dataAlloc) ClosureVarInfo();
cv->id = id;
cv->slot = slot;
cv->callDepth = callDepth;
cv->resolveFlags = cx->resolveFlags == JSRESOLVE_INFER
? js_InferFlags(cx, 0)
: cx->resolveFlags;
LIns* outp = lir->insAlloc(sizeof(double));
LIns* args[] = {
outp,
INS_CONSTPTR(cv),
obj_ins,
cx_ins
};
const CallInfo* ci;
if (sprop->getter == js_GetCallArg)
ci = &GetClosureArg_ci;
else
ci = &GetClosureVar_ci;
LIns* call_ins = lir->insCall(ci, args);
JSTraceType type = getCoercedType(nr.v);
guard(true,
addName(lir->ins2(LIR_eq, call_ins, lir->insImm(type)),
"guard(type-stable name access)"),
BRANCH_EXIT);
ins = stackLoad(outp, type);
nr.tracked = false;
nr.obj = obj;
nr.obj_ins = obj_ins;
nr.sprop = sprop;
return JSRS_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, n >= 0);
}
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.isInstructionUndemotable(cx->fp->regs->pc) || !isPromoteInt(s0) || !isPromoteInt(s1)) {
out:
if (v == LIR_fmod) {
LIns* args[] = { s1, s0 };
return lir->insCall(&js_dmod_ci, args);
}
LIns* result = lir->ins2(v, s0, s1);
JS_ASSERT_IF(s0->isconstf() && s1->isconstf(), result->isconstf());
return result;
}
jsdouble r;
switch (v) {
case LIR_fadd:
r = v0 + v1;
break;
case LIR_fsub:
r = v0 - v1;
break;
case LIR_fmul:
r = v0 * v1;
if (r == 0.0)
goto out;
break;
#if defined NANOJIT_IA32 || defined NANOJIT_X64
case LIR_fdiv:
if (v1 == 0)
goto out;
r = v0 / v1;
break;
case LIR_fmod:
if (v0 < 0 || v1 == 0 || (s1->isconstf() && 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;
LIns* result;
switch (v) {
#if defined NANOJIT_IA32 || defined NANOJIT_X64
case LIR_fdiv:
if (d0->isconst() && d1->isconst())
return lir->ins1(LIR_i2f, lir->insImm(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->isconst()) {
LIns* gt = lir->insBranch(LIR_jt, lir->ins2i(LIR_gt, d1, 0), NULL);
guard(false, lir->ins_eq0(d1), exit);
guard(false, lir->ins2(LIR_and,
lir->ins2i(LIR_eq, d0, 0x80000000),
lir->ins2i(LIR_eq, d1, -1)), exit);
gt->setTarget(lir->ins0(LIR_label));
} else {
if (d1->imm32() == -1)
guard(false, lir->ins2i(LIR_eq, d0, 0x80000000), exit);
}
result = lir->ins2(v = LIR_div, d0, d1);
/* As long the modulus is zero, the result is an integer. */
guard(true, lir->ins_eq0(lir->ins1(LIR_mod, result)), exit);
/* Don't lose a -0. */
guard(false, lir->ins_eq0(result), exit);
break;
case LIR_fmod: {
if (d0->isconst() && d1->isconst())
return lir->ins1(LIR_i2f, lir->insImm(jsint(r)));
exit = snapshot(OVERFLOW_EXIT);
/* Make sure we don't trigger division by zero at runtime. */
if (!d1->isconst())
guard(false, lir->ins_eq0(d1), exit);
result = lir->ins1(v = LIR_mod, lir->ins2(LIR_div, d0, d1));
/* If the result is not 0, it is always within the integer domain. */
LIns* branch = lir->insBranch(LIR_jf, lir->ins_eq0(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->ins2i(LIR_lt, d1, 0), exit);
branch->setTarget(lir->ins0(LIR_label));
break;
}
#endif
default:
v = (LOpcode)((int)v & ~LIR64);
result = lir->ins2(v, d0, d1);
/*
* If the operands guarantee that the result will be an integer (i.e.
* 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.
*/
if (!result->isconst() && (!IsOverflowSafe(v, d0) || !IsOverflowSafe(v, d1))) {
exit = snapshot(OVERFLOW_EXIT);
guard(false, lir->ins1(LIR_ov, result), exit);
if (v == LIR_mul) // make sure we don't lose a -0
guard(false, lir->ins_eq0(result), exit);
}
break;
}
JS_ASSERT_IF(d0->isconst() && d1->isconst(),
result->isconst() && result->imm32() == jsint(r));
return lir->ins1(LIR_i2f, result);
}
LIns*
TraceRecorder::f2i(LIns* f)
{
return lir->insCall(&js_DoubleToInt32_ci, &f);
}
JS_REQUIRES_STACK LIns*
TraceRecorder::makeNumberInt32(LIns* f)
{
JS_ASSERT(f->isQuad());
LIns* x;
if (!isPromote(f)) {
x = f2i(f);
guard(true, lir->ins2(LIR_feq, f, lir->ins1(LIR_i2f, x)), MISMATCH_EXIT);
} else {
x = ::demote(lir, f);
}
return x;
}
JS_REQUIRES_STACK LIns*
TraceRecorder::stringify(jsval& v)
{
LIns* v_ins = get(&v);
if (JSVAL_IS_STRING(v))
return v_ins;
LIns* args[] = { v_ins, cx_ins };
const CallInfo* ci;
if (JSVAL_IS_NUMBER(v)) {
ci = &js_NumberToString_ci;
} else if (JSVAL_IS_SPECIAL(v)) {
ci = &js_BooleanOrUndefinedToString_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(JSVAL_IS_NULL(v));
return INS_ATOM(cx->runtime->atomState.nullAtom);
}
v_ins = lir->insCall(ci, args);
guard(false, lir->ins_peq0(v_ins), OOM_EXIT);
return v_ins;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::call_imacro(jsbytecode* imacro)
{
JSStackFrame* fp = cx->fp;
JSFrameRegs* regs = fp->regs;
/* We cannot nest imacros, only tail-call. */
if (fp->imacpc) {
/* Dereference is safe since imacros are JSOP_STOP-terminated. */
if (regs->pc[js_CodeSpec[*regs->pc].length] != JSOP_STOP)
return JSRS_STOP;
regs->pc = imacro;
return JSRS_IMACRO;
}
fp->imacpc = regs->pc;
regs->pc = imacro;
atoms = COMMON_ATOMS_START(&cx->runtime->atomState);
return JSRS_IMACRO;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::ifop()
{
jsval& v = stackval(-1);
LIns* v_ins = get(&v);
bool cond;
LIns* x;
if (JSVAL_IS_NULL(v)) {
cond = false;
x = lir->insImm(0);
} else if (!JSVAL_IS_PRIMITIVE(v)) {
cond = true;
x = lir->insImm(1);
} else if (JSVAL_IS_SPECIAL(v)) {
/* Test for boolean is true, negate later if we are testing for false. */
cond = JSVAL_TO_SPECIAL(v) == JS_TRUE;
x = lir->ins2i(LIR_eq, v_ins, 1);
} else if (isNumber(v)) {
jsdouble d = asNumber(v);
cond = !JSDOUBLE_IS_NaN(d) && d;
x = lir->ins2(LIR_and,
lir->ins2(LIR_feq, v_ins, v_ins),
lir->ins_eq0(lir->ins2(LIR_feq, v_ins, lir->insImmf(0))));
} else if (JSVAL_IS_STRING(v)) {
cond = JSVAL_TO_STRING(v)->length() != 0;
x = lir->ins2(LIR_piand,
lir->insLoad(LIR_ldp,
v_ins,
(int)offsetof(JSString, mLength)),
INS_CONSTWORD(JSString::LENGTH_MASK));
} else {
JS_NOT_REACHED("ifop");
return JSRS_STOP;
}
jsbytecode* pc = cx->fp->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 JSRecordingStatus
TraceRecorder::tableswitch()
{
jsval& v = stackval(-1);
/* No need to guard if the condition can't match any of the cases. */
if (!isNumber(v))
return JSRS_CONTINUE;
/* No need to guard if the condition is constant. */
LIns* v_ins = f2i(get(&v));
if (v_ins->isconst() || v_ins->isconstq())
return JSRS_CONTINUE;
jsbytecode* pc = cx->fp->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 JSRS_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);
}
/*
* Really large tables won't fit in a page. This is a conservative check.
* If it matters in practice we need to go off-page.
*/
if ((high + 1 - low) * sizeof(intptr_t*) + 128 > (unsigned) LARGEST_UNDERRUN_PROT)
return switchop();
/* Generate switch LIR. */
SwitchInfo* si = new (*traceMonitor->dataAlloc) SwitchInfo();
si->count = high + 1 - low;
si->table = 0;
si->index = (uint32) -1;
LIns* diff = lir->ins2(LIR_sub, v_ins, lir->insImm(low));
LIns* cmp = lir->ins2(LIR_ult, diff, lir->insImm(si->count));
lir->insGuard(LIR_xf, cmp, createGuardRecord(snapshot(DEFAULT_EXIT)));
lir->insStorei(diff, lir->insImmPtr(&si->index), 0);
VMSideExit* exit = snapshot(CASE_EXIT);
exit->switchInfo = si;
LIns* guardIns = lir->insGuard(LIR_xtbl, diff, createGuardRecord(exit));
fragment->lastIns = guardIns;
compile(&JS_TRACE_MONITOR(cx));
return JSRS_STOP;
}
#endif
static JS_ALWAYS_INLINE int32_t
UnboxBooleanOrUndefined(jsval v)
{
/* Although this says 'special', we really only expect 3 special values: */
JS_ASSERT(v == JSVAL_TRUE || v == JSVAL_FALSE || v == JSVAL_VOID);
return JSVAL_TO_SPECIAL(v);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::switchop()
{
jsval& v = stackval(-1);
LIns* v_ins = get(&v);
/* No need to guard if the condition is constant. */
if (v_ins->isconst() || v_ins->isconstq())
return JSRS_CONTINUE;
if (isNumber(v)) {
jsdouble d = asNumber(v);
guard(true,
addName(lir->ins2(LIR_feq, v_ins, lir->insImmf(d)),
"guard(switch on numeric)"),
BRANCH_EXIT);
} else if (JSVAL_IS_STRING(v)) {
LIns* args[] = { v_ins, INS_CONSTSTR(JSVAL_TO_STRING(v)) };
guard(true,
addName(lir->ins_eq0(lir->ins_eq0(lir->insCall(&js_EqualStrings_ci, args))),
"guard(switch on string)"),
BRANCH_EXIT);
} else if (JSVAL_IS_SPECIAL(v)) {
guard(true,
addName(lir->ins2(LIR_eq, v_ins, lir->insImm(UnboxBooleanOrUndefined(v))),
"guard(switch on boolean)"),
BRANCH_EXIT);
} else {
ABORT_TRACE("switch on object or null");
}
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::inc(jsval& v, jsint incr, bool pre)
{
LIns* v_ins = get(&v);
CHECK_STATUS(inc(v, v_ins, incr, pre));
set(&v, v_ins);
return JSRS_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 JSRecordingStatus
TraceRecorder::inc(jsval 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->fp->regs->pc];
JS_ASSERT(cs.ndefs == 1);
stack(-cs.nuses, pre ? v_after : v_ins);
v_ins = v_after;
return JSRS_CONTINUE;
}
/*
* Do an increment operation without storing anything to the stack.
*/
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::incHelper(jsval v, LIns* v_ins, LIns*& v_after, jsint incr)
{
if (!isNumber(v))
ABORT_TRACE("can only inc numbers");
v_after = alu(LIR_fadd, asNumber(v), incr, v_ins, lir->insImmf(incr));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::incProp(jsint incr, bool pre)
{
jsval& l = stackval(-1);
if (JSVAL_IS_PRIMITIVE(l))
ABORT_TRACE("incProp on primitive");
JSObject* obj = JSVAL_TO_OBJECT(l);
LIns* obj_ins = get(&l);
uint32 slot;
LIns* v_ins;
CHECK_STATUS(prop(obj, obj_ins, &slot, &v_ins, NULL));
if (slot == SPROP_INVALID_SLOT)
ABORT_TRACE("incProp on invalid slot");
jsval& v = STOBJ_GET_SLOT(obj, slot);
CHECK_STATUS(inc(v, v_ins, incr, pre));
LIns* dslots_ins = NULL;
stobj_set_slot(obj_ins, slot, dslots_ins, box_jsval(v, v_ins));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::incElem(jsint incr, bool pre)
{
jsval& r = stackval(-1);
jsval& l = stackval(-2);
jsval* vp;
LIns* v_ins;
LIns* addr_ins;
if (JSVAL_IS_PRIMITIVE(l) || !JSVAL_IS_INT(r) ||
!guardDenseArray(JSVAL_TO_OBJECT(l), get(&l))) {
return JSRS_STOP;
}
CHECK_STATUS(denseArrayElement(l, r, vp, v_ins, addr_ins));
if (!addr_ins) // if we read a hole, abort
return JSRS_STOP;
CHECK_STATUS(inc(*vp, v_ins, incr, pre));
lir->insStorei(box_jsval(*vp, v_ins), addr_ins, 0);
return JSRS_CONTINUE;
}
static bool
EvalCmp(LOpcode op, double l, double r)
{
bool cond;
switch (op) {
case LIR_feq:
cond = (l == r);
break;
case LIR_flt:
cond = l < r;
break;
case LIR_fgt:
cond = l > r;
break;
case LIR_fle:
cond = l <= r;
break;
case LIR_fge:
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_feq)
return js_EqualStrings(l, r);
return EvalCmp(op, js_CompareStrings(l, r), 0);
}
JS_REQUIRES_STACK void
TraceRecorder::strictEquality(bool equal, bool cmpCase)
{
jsval& r = stackval(-1);
jsval& l = stackval(-2);
LIns* l_ins = get(&l);
LIns* r_ins = get(&r);
LIns* x;
bool cond;
JSTraceType ltag = GetPromotedType(l);
if (ltag != GetPromotedType(r)) {
cond = !equal;
x = lir->insImm(cond);
} else if (ltag == TT_STRING) {
LIns* args[] = { r_ins, l_ins };
x = lir->ins2i(LIR_eq, lir->insCall(&js_EqualStrings_ci, args), equal);
cond = js_EqualStrings(JSVAL_TO_STRING(l), JSVAL_TO_STRING(r));
} else {
LOpcode op;
if (ltag == TT_DOUBLE)
op = LIR_feq;
else if (ltag == TT_NULL || ltag == TT_OBJECT || ltag == TT_FUNCTION)
op = LIR_peq;
else
op = LIR_eq;
x = lir->ins2(op, l_ins, r_ins);
if (!equal)
x = lir->ins_eq0(x);
cond = (ltag == TT_DOUBLE)
? asNumber(l) == asNumber(r)
: l == r;
}
cond = (cond == equal);
if (cmpCase) {
/* Only guard if the same path may not always be taken. */
if (!x->isconst())
guard(cond, x, BRANCH_EXIT);
return;
}
set(&l, x);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::equality(bool negate, bool tryBranchAfterCond)
{
jsval& rval = stackval(-1);
jsval& 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 JSRecordingStatus
TraceRecorder::equalityHelper(jsval l, jsval r, LIns* l_ins, LIns* r_ins,
bool negate, bool tryBranchAfterCond,
jsval& rval)
{
LOpcode op = LIR_eq;
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 (JSVAL_TAG(l) == JSVAL_OBJECT || JSVAL_IS_SPECIAL(l)) {
if (JSVAL_TAG(l) == JSVAL_OBJECT)
op = LIR_peq;
cond = (l == r);
} else if (JSVAL_IS_STRING(l)) {
args[0] = r_ins, args[1] = l_ins;
l_ins = lir->insCall(&js_EqualStrings_ci, args);
r_ins = lir->insImm(1);
cond = js_EqualStrings(JSVAL_TO_STRING(l), JSVAL_TO_STRING(r));
} else {
JS_ASSERT(isNumber(l) && isNumber(r));
cond = (asNumber(l) == asNumber(r));
op = LIR_feq;
}
} else if (JSVAL_IS_NULL(l) && JSVAL_IS_SPECIAL(r)) {
l_ins = lir->insImm(JSVAL_TO_SPECIAL(JSVAL_VOID));
cond = (r == JSVAL_VOID);
} else if (JSVAL_IS_SPECIAL(l) && JSVAL_IS_NULL(r)) {
r_ins = lir->insImm(JSVAL_TO_SPECIAL(JSVAL_VOID));
cond = (l == JSVAL_VOID);
} else if (isNumber(l) && JSVAL_IS_STRING(r)) {
args[0] = r_ins, args[1] = cx_ins;
r_ins = lir->insCall(&js_StringToNumber_ci, args);
cond = (asNumber(l) == js_StringToNumber(cx, JSVAL_TO_STRING(r)));
op = LIR_feq;
} else if (JSVAL_IS_STRING(l) && isNumber(r)) {
args[0] = l_ins, args[1] = cx_ins;
l_ins = lir->insCall(&js_StringToNumber_ci, args);
cond = (js_StringToNumber(cx, JSVAL_TO_STRING(l)) == asNumber(r));
op = LIR_feq;
} else {
if (JSVAL_IS_SPECIAL(l)) {
bool isVoid = JSVAL_IS_VOID(l);
guard(isVoid,
lir->ins2(LIR_eq, l_ins, INS_CONST(JSVAL_TO_SPECIAL(JSVAL_VOID))),
BRANCH_EXIT);
if (!isVoid) {
args[0] = l_ins, args[1] = cx_ins;
l_ins = lir->insCall(&js_BooleanOrUndefinedToNumber_ci, args);
l = (l == JSVAL_VOID)
? DOUBLE_TO_JSVAL(cx->runtime->jsNaN)
: INT_TO_JSVAL(l == JSVAL_TRUE);
return equalityHelper(l, r, l_ins, r_ins, negate,
tryBranchAfterCond, rval);
}
} else if (JSVAL_IS_SPECIAL(r)) {
bool isVoid = JSVAL_IS_VOID(r);
guard(isVoid,
lir->ins2(LIR_eq, r_ins, INS_CONST(JSVAL_TO_SPECIAL(JSVAL_VOID))),
BRANCH_EXIT);
if (!isVoid) {
args[0] = r_ins, args[1] = cx_ins;
r_ins = lir->insCall(&js_BooleanOrUndefinedToNumber_ci, args);
r = (r == JSVAL_VOID)
? DOUBLE_TO_JSVAL(cx->runtime->jsNaN)
: INT_TO_JSVAL(r == JSVAL_TRUE);
return equalityHelper(l, r, l_ins, r_ins, negate,
tryBranchAfterCond, rval);
}
} else {
if ((JSVAL_IS_STRING(l) || isNumber(l)) && !JSVAL_IS_PRIMITIVE(r)) {
ABORT_IF_XML(r);
return call_imacro(equality_imacros.any_obj);
}
if (!JSVAL_IS_PRIMITIVE(l) && (JSVAL_IS_STRING(r) || isNumber(r))) {
ABORT_IF_XML(l);
return call_imacro(equality_imacros.obj_any);
}
}
l_ins = lir->insImm(0);
r_ins = lir->insImm(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->ins_eq0(x);
cond = !cond;
}
jsbytecode* pc = cx->fp->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(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 JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::relational(LOpcode op, bool tryBranchAfterCond)
{
jsval& r = stackval(-1);
jsval& 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 (!JSVAL_IS_PRIMITIVE(l)) {
ABORT_IF_XML(l);
if (!JSVAL_IS_PRIMITIVE(r)) {
ABORT_IF_XML(r);
return call_imacro(binary_imacros.obj_obj);
}
return call_imacro(binary_imacros.obj_any);
}
if (!JSVAL_IS_PRIMITIVE(r)) {
ABORT_IF_XML(r);
return call_imacro(binary_imacros.any_obj);
}
/* 11.8.5 steps 3, 16-21. */
if (JSVAL_IS_STRING(l) && JSVAL_IS_STRING(r)) {
LIns* args[] = { r_ins, l_ins };
l_ins = lir->insCall(&js_CompareStrings_ci, args);
r_ins = lir->insImm(0);
cond = EvalCmp(op, JSVAL_TO_STRING(l), JSVAL_TO_STRING(r));
goto do_comparison;
}
/* 11.8.5 steps 4-5. */
if (!JSVAL_IS_NUMBER(l)) {
LIns* args[] = { l_ins, cx_ins };
switch (JSVAL_TAG(l)) {
case JSVAL_SPECIAL:
l_ins = lir->insCall(&js_BooleanOrUndefinedToNumber_ci, args);
break;
case JSVAL_STRING:
l_ins = lir->insCall(&js_StringToNumber_ci, args);
break;
case JSVAL_OBJECT:
if (JSVAL_IS_NULL(l)) {
l_ins = lir->insImmf(0.0);
break;
}
// FALL THROUGH
case JSVAL_INT:
case JSVAL_DOUBLE:
default:
JS_NOT_REACHED("JSVAL_IS_NUMBER if int/double, objects should "
"have been handled at start of method");
ABORT_TRACE("safety belt");
}
}
if (!JSVAL_IS_NUMBER(r)) {
LIns* args[] = { r_ins, cx_ins };
switch (JSVAL_TAG(r)) {
case JSVAL_SPECIAL:
r_ins = lir->insCall(&js_BooleanOrUndefinedToNumber_ci, args);
break;
case JSVAL_STRING:
r_ins = lir->insCall(&js_StringToNumber_ci, args);
break;
case JSVAL_OBJECT:
if (JSVAL_IS_NULL(r)) {
r_ins = lir->insImmf(0.0);
break;
}
// FALL THROUGH
case JSVAL_INT:
case JSVAL_DOUBLE:
default:
JS_NOT_REACHED("JSVAL_IS_NUMBER if int/double, objects should "
"have been handled at start of method");
ABORT_TRACE("safety belt");
}
}
{
jsval tmp = JSVAL_NULL;
JSAutoTempValueRooter tvr(cx, 1, &tmp);
tmp = l;
lnum = js_ValueToNumber(cx, &tmp);
tmp = r;
rnum = js_ValueToNumber(cx, &tmp);
}
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(op >= LIR_feq && op <= LIR_fge);
op = LOpcode(op + (LIR_eq - LIR_feq));
}
x = lir->ins2(op, l_ins, r_ins);
jsbytecode* pc = cx->fp->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(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 JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::unary(LOpcode op)
{
jsval& v = stackval(-1);
bool intop = !(op & LIR64);
if (isNumber(v)) {
LIns* a = get(&v);
if (intop)
a = f2i(a);
a = lir->ins1(op, a);
if (intop)
a = lir->ins1(LIR_i2f, a);
set(&v, a);
return JSRS_CONTINUE;
}
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::binary(LOpcode op)
{
jsval& r = stackval(-1);
jsval& l = stackval(-2);
if (!JSVAL_IS_PRIMITIVE(l)) {
ABORT_IF_XML(l);
if (!JSVAL_IS_PRIMITIVE(r)) {
ABORT_IF_XML(r);
return call_imacro(binary_imacros.obj_obj);
}
return call_imacro(binary_imacros.obj_any);
}
if (!JSVAL_IS_PRIMITIVE(r)) {
ABORT_IF_XML(r);
return call_imacro(binary_imacros.any_obj);
}
bool intop = !(op & LIR64);
LIns* a = get(&l);
LIns* b = get(&r);
bool leftIsNumber = isNumber(l);
jsdouble lnum = leftIsNumber ? asNumber(l) : 0;
bool rightIsNumber = isNumber(r);
jsdouble rnum = rightIsNumber ? asNumber(r) : 0;
if ((op >= LIR_sub && op <= LIR_ush) || // sub, mul, (callh), or, xor, (not,) lsh, rsh, ush
(op >= LIR_fsub && op <= LIR_fmod)) { // fsub, fmul, fdiv, fmod
LIns* args[2];
if (JSVAL_IS_STRING(l)) {
args[0] = a;
args[1] = cx_ins;
a = lir->insCall(&js_StringToNumber_ci, args);
lnum = js_StringToNumber(cx, JSVAL_TO_STRING(l));
leftIsNumber = true;
}
if (JSVAL_IS_STRING(r)) {
args[0] = b;
args[1] = cx_ins;
b = lir->insCall(&js_StringToNumber_ci, args);
rnum = js_StringToNumber(cx, JSVAL_TO_STRING(r));
rightIsNumber = true;
}
}
if (JSVAL_IS_SPECIAL(l)) {
LIns* args[] = { a, cx_ins };
a = lir->insCall(&js_BooleanOrUndefinedToNumber_ci, args);
lnum = js_BooleanOrUndefinedToNumber(cx, JSVAL_TO_SPECIAL(l));
leftIsNumber = true;
}
if (JSVAL_IS_SPECIAL(r)) {
LIns* args[] = { b, cx_ins };
b = lir->insCall(&js_BooleanOrUndefinedToNumber_ci, args);
rnum = js_BooleanOrUndefinedToNumber(cx, JSVAL_TO_SPECIAL(r));
rightIsNumber = true;
}
if (leftIsNumber && rightIsNumber) {
if (intop) {
LIns *args[] = { a };
a = lir->insCall(op == LIR_ush ? &js_DoubleToUint32_ci : &js_DoubleToInt32_ci, args);
b = f2i(b);
}
a = alu(op, lnum, rnum, a, b);
if (intop)
a = lir->ins1(op == LIR_ush ? LIR_u2f : LIR_i2f, a);
set(&l, a);
return JSRS_CONTINUE;
}
return JSRS_STOP;
}
void
TraceRecorder::guardShape(LIns* obj_ins, JSObject* obj, uint32 shape, const char* guardName,
LIns* map_ins, VMSideExit* exit)
{
LIns* shape_ins = addName(lir->insLoad(LIR_ld, map_ins, offsetof(JSScope, shape)), "shape");
guard(true,
addName(lir->ins2i(LIR_eq, shape_ins, shape), guardName),
exit);
}
JS_STATIC_ASSERT(offsetof(JSObjectOps, objectMap) == 0);
inline LIns*
TraceRecorder::map(LIns *obj_ins)
{
return addName(lir->insLoad(LIR_ldp, obj_ins, (int) offsetof(JSObject, map)), "map");
}
bool
TraceRecorder::map_is_native(JSObjectMap* map, LIns* map_ins, LIns*& ops_ins, size_t op_offset)
{
JS_ASSERT(op_offset < sizeof(JSObjectOps));
JS_ASSERT(op_offset % sizeof(void *) == 0);
#define OP(ops) (*(void **) ((uint8 *) (ops) + op_offset))
void* ptr = OP(map->ops);
if (ptr != OP(&js_ObjectOps))
return false;
#undef OP
ops_ins = addName(lir->insLoad(LIR_ldcp, map_ins, int(offsetof(JSObjectMap, ops))), "ops");
LIns* n = lir->insLoad(LIR_ldcp, ops_ins, op_offset);
guard(true,
addName(lir->ins2(LIR_peq, n, INS_CONSTPTR(ptr)), "guard(native-map)"),
BRANCH_EXIT);
return true;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::guardNativePropertyOp(JSObject* aobj, LIns* map_ins)
{
/*
* Interpreter calls to PROPERTY_CACHE_TEST guard on native object ops
* which is required to use native objects (those whose maps are scopes),
* or even more narrow conditions required because the cache miss case
* will call a particular object-op (js_GetProperty, js_SetProperty).
*
* We parameterize using offsetof and guard on match against the hook at
* the given offset in js_ObjectOps. TraceRecorder::record_JSOP_SETPROP
* guards the js_SetProperty case.
*/
uint32 format = js_CodeSpec[*cx->fp->regs->pc].format;
uint32 mode = JOF_MODE(format);
// No need to guard native-ness of global object.
JS_ASSERT(OBJ_IS_NATIVE(globalObj));
if (aobj != globalObj) {
size_t op_offset = offsetof(JSObjectOps, objectMap);
if (mode == JOF_PROP || mode == JOF_VARPROP) {
op_offset = (format & JOF_SET)
? offsetof(JSObjectOps, setProperty)
: offsetof(JSObjectOps, getProperty);
} else {
JS_ASSERT(mode == JOF_NAME);
}
LIns* ops_ins;
if (!map_is_native(aobj->map, map_ins, ops_ins, op_offset))
ABORT_TRACE("non-native map");
}
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::test_property_cache(JSObject* obj, LIns* obj_ins, JSObject*& obj2, jsuword& pcval)
{
jsbytecode* pc = cx->fp->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_IS_DENSE_ARRAY(cx, obj)) {
guardDenseArray(obj, obj_ins, BRANCH_EXIT);
aobj = OBJ_GET_PROTO(cx, obj);
obj_ins = stobj_get_proto(obj_ins);
}
LIns* map_ins = map(obj_ins);
CHECK_STATUS(guardNativePropertyOp(aobj, map_ins));
JSAtom* atom;
JSPropCacheEntry* entry;
PROPERTY_CACHE_TEST(cx, pc, aobj, obj2, entry, atom);
if (!atom) {
// Null atom means that obj2 is locked and must now be unlocked.
JS_UNLOCK_OBJ(cx, obj2);
} else {
// Miss: pre-fill the cache for the interpreter, as well as for our needs.
jsid id = ATOM_TO_JSID(atom);
JSProperty* prop;
if (JOF_OPMODE(*pc) == JOF_NAME) {
JS_ASSERT(aobj == obj);
entry = js_FindPropertyHelper(cx, id, true, &obj, &obj2, &prop);
if (!entry)
ABORT_TRACE_ERROR("error in js_FindPropertyHelper");
if (entry == JS_NO_PROP_CACHE_FILL)
ABORT_TRACE("cannot cache name");
} else {
int protoIndex = js_LookupPropertyWithFlags(cx, aobj, id,
cx->resolveFlags,
&obj2, &prop);
if (protoIndex < 0)
ABORT_TRACE_ERROR("error in js_LookupPropertyWithFlags");
if (prop) {
if (!OBJ_IS_NATIVE(obj2)) {
obj2->dropProperty(cx, prop);
ABORT_TRACE("property found on non-native object");
}
entry = js_FillPropertyCache(cx, aobj, 0, protoIndex, obj2,
(JSScopeProperty*) prop, false);
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 PCVAL_NULL to return "no such property" to our caller.
pcval = PCVAL_NULL;
return JSRS_CONTINUE;
}
obj2->dropProperty(cx, prop);
if (!entry)
ABORT_TRACE("failed to fill property cache");
}
if (wasDeepAborted())
ABORT_TRACE("deep abort from property lookup");
#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->requestDepth);
#endif
return guardPropertyCacheHit(obj_ins, map_ins, aobj, obj2, entry, pcval);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::guardPropertyCacheHit(LIns* obj_ins,
LIns* map_ins,
JSObject* aobj,
JSObject* obj2,
JSPropCacheEntry* entry,
jsuword& pcval)
{
VMSideExit* exit = snapshot(BRANCH_EXIT);
uint32 vshape = PCVCAP_SHAPE(entry->vcap);
// Check for first-level cache hit and guard on kshape if possible.
// Otherwise guard on key object exact match.
if (PCVCAP_TAG(entry->vcap) <= 1) {
if (aobj != globalObj)
guardShape(obj_ins, aobj, entry->kshape, "guard_kshape", map_ins, exit);
if (entry->adding()) {
if (aobj == globalObj)
ABORT_TRACE("adding a property to the global object");
LIns *vshape_ins = addName(
lir->insLoad(LIR_ld,
addName(lir->insLoad(LIR_ldcp, cx_ins, offsetof(JSContext, runtime)),
"runtime"),
offsetof(JSRuntime, protoHazardShape)),
"protoHazardShape");
guard(true,
addName(lir->ins2i(LIR_eq, vshape_ins, vshape), "guard_protoHazardShape"),
MISMATCH_EXIT);
}
} else {
#ifdef DEBUG
JSOp op = js_GetOpcode(cx, cx->fp->script, cx->fp->regs->pc);
JSAtom *pcatom;
if (op == JSOP_LENGTH) {
pcatom = cx->runtime->atomState.lengthAtom;
} else {
ptrdiff_t pcoff = (JOF_TYPE(js_CodeSpec[op].format) == JOF_SLOTATOM) ? SLOTNO_LEN : 0;
GET_ATOM_FROM_BYTECODE(cx->fp->script, cx->fp->regs->pc, pcoff, pcatom);
}
JS_ASSERT(entry->kpc == (jsbytecode *) pcatom);
JS_ASSERT(entry->kshape == jsuword(aobj));
#endif
if (aobj != globalObj && !obj_ins->isconstp()) {
guard(true,
addName(lir->ins2(LIR_peq, obj_ins, INS_CONSTWORD(entry->kshape)), "guard_kobj"),
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 (PCVCAP_TAG(entry->vcap) >= 1) {
JS_ASSERT(OBJ_SHAPE(obj2) == vshape);
LIns* obj2_ins;
if (PCVCAP_TAG(entry->vcap) == 1) {
// Duplicate the special case in PROPERTY_CACHE_TEST.
obj2_ins = addName(stobj_get_proto(obj_ins), "proto");
guard(false, lir->ins_peq0(obj2_ins), exit);
} else {
obj2_ins = INS_CONSTOBJ(obj2);
}
guardShape(obj2_ins, obj2, vshape, "guard_vshape", map(obj2_ins), exit);
}
pcval = entry->vword;
return JSRS_CONTINUE;
}
void
TraceRecorder::stobj_set_fslot(LIns *obj_ins, unsigned slot, LIns* v_ins)
{
lir->insStorei(v_ins, obj_ins, offsetof(JSObject, fslots) + slot * sizeof(jsval));
}
void
TraceRecorder::stobj_set_dslot(LIns *obj_ins, unsigned slot, LIns*& dslots_ins, LIns* v_ins)
{
if (!dslots_ins)
dslots_ins = lir->insLoad(LIR_ldp, obj_ins, offsetof(JSObject, dslots));
lir->insStorei(v_ins, dslots_ins, slot * sizeof(jsval));
}
void
TraceRecorder::stobj_set_slot(LIns* obj_ins, unsigned slot, LIns*& dslots_ins, LIns* v_ins)
{
if (slot < JS_INITIAL_NSLOTS) {
stobj_set_fslot(obj_ins, slot, v_ins);
} else {
stobj_set_dslot(obj_ins, slot - JS_INITIAL_NSLOTS, dslots_ins, v_ins);
}
}
LIns*
TraceRecorder::stobj_get_fslot(LIns* obj_ins, unsigned slot)
{
JS_ASSERT(slot < JS_INITIAL_NSLOTS);
return lir->insLoad(LIR_ldp, obj_ins, offsetof(JSObject, fslots) + slot * sizeof(jsval));
}
LIns*
TraceRecorder::stobj_get_dslot(LIns* obj_ins, unsigned index, LIns*& dslots_ins)
{
if (!dslots_ins)
dslots_ins = lir->insLoad(LIR_ldp, obj_ins, offsetof(JSObject, dslots));
return lir->insLoad(LIR_ldp, dslots_ins, index * sizeof(jsval));
}
LIns*
TraceRecorder::stobj_get_slot(LIns* obj_ins, unsigned slot, LIns*& dslots_ins)
{
if (slot < JS_INITIAL_NSLOTS)
return stobj_get_fslot(obj_ins, slot);
return stobj_get_dslot(obj_ins, slot - JS_INITIAL_NSLOTS, dslots_ins);
}
JS_REQUIRES_STACK LIns*
TraceRecorder::box_jsval(jsval v, LIns* v_ins)
{
if (isNumber(v)) {
LIns* args[] = { v_ins, cx_ins };
v_ins = lir->insCall(&js_BoxDouble_ci, args);
guard(false, lir->ins2(LIR_peq, v_ins, INS_CONSTWORD(JSVAL_ERROR_COOKIE)),
OOM_EXIT);
return v_ins;
}
switch (JSVAL_TAG(v)) {
case JSVAL_SPECIAL:
return lir->ins2(LIR_pior, lir->ins2i(LIR_pilsh, lir->ins_u2p(v_ins), JSVAL_TAGBITS),
INS_CONSTWORD(JSVAL_SPECIAL));
case JSVAL_OBJECT:
return v_ins;
default:
JS_ASSERT(JSVAL_TAG(v) == JSVAL_STRING);
return lir->ins2(LIR_pior, v_ins, INS_CONSTWORD(JSVAL_STRING));
}
}
JS_REQUIRES_STACK LIns*
TraceRecorder::unbox_jsval(jsval v, LIns* v_ins, VMSideExit* exit)
{
if (isNumber(v)) {
// JSVAL_IS_NUMBER(v)
guard(false,
lir->ins_eq0(lir->ins2(LIR_or,
p2i(lir->ins2(LIR_piand, v_ins, INS_CONSTWORD(JSVAL_INT))),
lir->ins2(LIR_peq,
lir->ins2(LIR_piand, v_ins,
INS_CONSTWORD(JSVAL_TAGMASK)),
INS_CONSTWORD(JSVAL_DOUBLE)))),
exit);
LIns* args[] = { v_ins };
return lir->insCall(&js_UnboxDouble_ci, args);
}
switch (JSVAL_TAG(v)) {
case JSVAL_SPECIAL:
guard(true,
lir->ins2(LIR_peq,
lir->ins2(LIR_piand, v_ins, INS_CONSTWORD(JSVAL_TAGMASK)),
INS_CONSTWORD(JSVAL_SPECIAL)),
exit);
return p2i(lir->ins2i(LIR_pursh, v_ins, JSVAL_TAGBITS));
case JSVAL_OBJECT:
if (JSVAL_IS_NULL(v)) {
// JSVAL_NULL maps to type TT_NULL, so insist that v_ins == 0 here.
guard(true, lir->ins_peq0(v_ins), exit);
} else {
guard(false, lir->ins_peq0(v_ins), exit);
guard(true,
lir->ins2(LIR_peq,
lir->ins2(LIR_piand, v_ins, INS_CONSTWORD(JSVAL_TAGMASK)),
INS_CONSTWORD(JSVAL_OBJECT)),
exit);
/*
* LIR_ldcp is ok to use here even though Array classword can
* change, because no object's classword can ever change from
* &js_ArrayClass to &js_FunctionClass.
*/
guard(HAS_FUNCTION_CLASS(JSVAL_TO_OBJECT(v)),
lir->ins2(LIR_peq,
lir->ins2(LIR_piand,
lir->insLoad(LIR_ldcp, v_ins, offsetof(JSObject, classword)),
INS_CONSTWORD(~JSSLOT_CLASS_MASK_BITS)),
INS_CONSTPTR(&js_FunctionClass)),
exit);
}
return v_ins;
default:
JS_ASSERT(JSVAL_TAG(v) == JSVAL_STRING);
guard(true,
lir->ins2(LIR_peq,
lir->ins2(LIR_piand, v_ins, INS_CONSTWORD(JSVAL_TAGMASK)),
INS_CONSTWORD(JSVAL_STRING)),
exit);
return lir->ins2(LIR_piand, v_ins, addName(lir->insImmWord(~JSVAL_TAGMASK),
"~JSVAL_TAGMASK"));
}
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::getThis(LIns*& this_ins)
{
/*
* js_ComputeThisForFrame updates cx->fp->argv[-1], so sample it into 'original' first.
*/
jsval original = JSVAL_NULL;
if (cx->fp->argv) {
original = cx->fp->argv[-1];
if (!JSVAL_IS_PRIMITIVE(original) &&
guardClass(JSVAL_TO_OBJECT(original), get(&cx->fp->argv[-1]), &js_WithClass, snapshot(MISMATCH_EXIT))) {
ABORT_TRACE("can't trace getThis on With object");
}
}
JSObject* thisObj = js_ComputeThisForFrame(cx, cx->fp);
if (!thisObj)
ABORT_TRACE_ERROR("js_ComputeThisForName failed");
/* In global code, bake in the global object as 'this' object. */
if (!cx->fp->callee()) {
JS_ASSERT(callDepth == 0);
this_ins = INS_CONSTOBJ(thisObj);
/*
* We don't have argv[-1] in global code, so we don't update the
* tracker here.
*/
return JSRS_CONTINUE;
}
jsval& thisv = cx->fp->argv[-1];
JS_ASSERT(JSVAL_IS_OBJECT(thisv));
/*
* Traces type-specialize between null and objects, so if we currently see
* a null value in argv[-1], this trace will only match if we see null at
* runtime as well. Bake in the global object as 'this' object, updating
* the tracker as well. We can only detect this condition prior to calling
* js_ComputeThisForFrame, since it updates the interpreter's copy of
* argv[-1].
*/
JSClass* clasp = NULL;;
if (JSVAL_IS_NULL(original) ||
(((clasp = STOBJ_GET_CLASS(JSVAL_TO_OBJECT(original))) == &js_CallClass) ||
(clasp == &js_BlockClass))) {
if (clasp)
guardClass(JSVAL_TO_OBJECT(original), get(&thisv), clasp, snapshot(BRANCH_EXIT));
JS_ASSERT(!JSVAL_IS_PRIMITIVE(thisv));
if (thisObj != globalObj)
ABORT_TRACE("global object was wrapped while recording");
this_ins = INS_CONSTOBJ(thisObj);
set(&thisv, this_ins);
return JSRS_CONTINUE;
}
this_ins = get(&thisv);
JSObject* wrappedGlobal = globalObj->thisObject(cx);
if (!wrappedGlobal)
ABORT_TRACE_ERROR("globalObj->thisObject hook threw in getThis");
/*
* The only unwrapped object that needs to be wrapped that we can get here
* is the global object obtained throught the scope chain.
*/
this_ins = lir->ins_choose(lir->ins_peq0(stobj_get_parent(this_ins)),
INS_CONSTOBJ(wrappedGlobal),
this_ins);
return JSRS_CONTINUE;
}
LIns*
TraceRecorder::getStringLength(LIns* str_ins)
{
LIns* len_ins = lir->insLoad(LIR_ldp, str_ins, (int)offsetof(JSString, mLength));
LIns* masked_len_ins = lir->ins2(LIR_piand,
len_ins,
INS_CONSTWORD(JSString::LENGTH_MASK));
LIns* real_len =
lir->ins_choose(lir->ins_peq0(lir->ins2(LIR_piand,
len_ins,
INS_CONSTWORD(JSString::DEPENDENT))),
masked_len_ins,
lir->ins_choose(lir->ins_peq0(lir->ins2(LIR_piand,
len_ins,
INS_CONSTWORD(JSString::PREFIX))),
lir->ins2(LIR_piand,
len_ins,
INS_CONSTWORD(JSString::DEPENDENT_LENGTH_MASK)),
masked_len_ins));
return p2i(real_len);
}
JS_REQUIRES_STACK bool
TraceRecorder::guardClass(JSObject* obj, LIns* obj_ins, JSClass* clasp, VMSideExit* exit)
{
bool cond = STOBJ_GET_CLASS(obj) == clasp;
LIns* class_ins = lir->insLoad(LIR_ldp, obj_ins, offsetof(JSObject, classword));
class_ins = lir->ins2(LIR_piand, class_ins, INS_CONSTWORD(~JSSLOT_CLASS_MASK_BITS));
char namebuf[32];
JS_snprintf(namebuf, sizeof namebuf, "guard(class is %s)", clasp->name);
guard(cond, addName(lir->ins2(LIR_peq, class_ins, INS_CONSTPTR(clasp)), namebuf), exit);
return cond;
}
JS_REQUIRES_STACK bool
TraceRecorder::guardDenseArray(JSObject* obj, LIns* obj_ins, ExitType exitType)
{
return guardClass(obj, obj_ins, &js_ArrayClass, snapshot(exitType));
}
JS_REQUIRES_STACK bool
TraceRecorder::guardDenseArray(JSObject* obj, LIns* obj_ins, VMSideExit* exit)
{
return guardClass(obj, obj_ins, &js_ArrayClass, exit);
}
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->ins_peq0(*pobj_ins), "guard(proto-not-null)"), exit);
return !cond;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::guardPrototypeHasNoIndexedProperties(JSObject* obj, LIns* obj_ins, ExitType exitType)
{
/*
* Guard that no object along the prototype chain has any indexed
* properties which might become visible through holes in the array.
*/
VMSideExit* exit = snapshot(exitType);
if (js_PrototypeHasIndexedProperties(cx, obj))
return JSRS_STOP;
while (guardHasPrototype(obj, obj_ins, &obj, &obj_ins, exit))
guardShape(obj_ins, obj, OBJ_SHAPE(obj), "guard(shape)", map(obj_ins), exit);
return JSRS_CONTINUE;
}
JSRecordingStatus
TraceRecorder::guardNotGlobalObject(JSObject* obj, LIns* obj_ins)
{
if (obj == globalObj)
ABORT_TRACE("reference aliases global object");
guard(false, lir->ins2(LIR_peq, obj_ins, INS_CONSTOBJ(globalObj)), MISMATCH_EXIT);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK void
TraceRecorder::clearFrameSlotsFromCache()
{
/*
* 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.
*/
JSStackFrame* fp = cx->fp;
jsval* vp;
jsval* vpstop;
/*
* 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->argv) {
vp = &fp->argv[-2];
vpstop = &fp->argv[argSlots(fp)];
while (vp < vpstop)
nativeFrameTracker.set(vp++, (LIns*)0);
nativeFrameTracker.set(&fp->argsobj, (LIns*)0);
}
vp = &fp->slots[0];
vpstop = &fp->slots[fp->script->nslots];
while (vp < vpstop)
nativeFrameTracker.set(vp++, (LIns*)0);
}
/*
* 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::putArguments()
{
if (cx->fp->argsobj && cx->fp->argc) {
LIns* argsobj_ins = get(&cx->fp->argsobj);
LIns* args_ins = lir->insAlloc(sizeof(jsval) * cx->fp->argc);
for (uintN i = 0; i < cx->fp->argc; ++i) {
LIns* arg_ins = box_jsval(cx->fp->argv[i], get(&cx->fp->argv[i]));
lir->insStorei(arg_ins, args_ins, i * sizeof(jsval));
}
LIns* args[] = { args_ins, argsobj_ins, cx_ins };
lir->insCall(&js_PutArguments_ci, args);
}
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_EnterFrame()
{
JSStackFrame* fp = cx->fp;
if (++callDepth >= MAX_CALLDEPTH)
ABORT_TRACE("exceeded maximum call depth");
// FIXME: Allow and attempt to inline a single level of recursion until we compile
// recursive calls as independent trees (459301).
if (fp->script == fp->down->script && fp->down->down && fp->down->down->script == fp->script)
ABORT_TRACE("recursive call");
debug_only_printf(LC_TMTracer, "EnterFrame %s, callDepth=%d\n",
js_AtomToPrintableString(cx, cx->fp->fun->atom),
callDepth);
debug_only_stmt(
if (js_LogController.lcbits & LC_TMRecorder) {
js_Disassemble(cx, cx->fp->script, JS_TRUE, stdout);
debug_only_print0(LC_TMTracer, "----\n");
}
)
LIns* void_ins = INS_VOID();
// Duplicate native stack layout computation: see VisitFrameSlots header comment.
// This doesn't do layout arithmetic, but it must initialize in the tracker all the
// slots defined as imported by VisitFrameSlots.
jsval* vp = &fp->argv[fp->argc];
jsval* vpstop = vp + ptrdiff_t(fp->fun->nargs) - ptrdiff_t(fp->argc);
while (vp < vpstop) {
if (vp >= fp->down->regs->sp)
nativeFrameTracker.set(vp, (LIns*)0);
set(vp++, void_ins, true);
}
vp = &fp->slots[0];
vpstop = vp + fp->script->nfixed;
while (vp < vpstop)
set(vp++, void_ins, true);
set(&fp->argsobj, INS_NULL(), true);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_LeaveFrame()
{
debug_only_stmt(
if (cx->fp->fun)
debug_only_printf(LC_TMTracer,
"LeaveFrame (back to %s), callDepth=%d\n",
js_AtomToPrintableString(cx, cx->fp->fun->atom),
callDepth);
);
if (callDepth-- <= 0)
ABORT_TRACE("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->down, and -1 not 0.
atoms = FrameAtomBase(cx, cx->fp);
set(&stackval(-1), rval_ins, true);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_PUSH()
{
stack(0, INS_CONST(JSVAL_TO_SPECIAL(JSVAL_VOID)));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_POPV()
{
jsval& rval = stackval(-1);
LIns *rval_ins = box_jsval(rval, get(&rval));
// 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 = lir->insLoad(LIR_ldp, cx_ins, offsetof(JSContext, fp));
lir->insStorei(rval_ins, fp_ins, offsetof(JSStackFrame, rval));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_ENTERWITH()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_LEAVEWITH()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_RETURN()
{
/* A return from callDepth 0 terminates the current loop. */
if (callDepth == 0) {
AUDIT(returnLoopExits);
endLoop();
return JSRS_STOP;
}
putArguments();
/* If we inlined this function call, make the return value available to the caller code. */
jsval& rval = stackval(-1);
JSStackFrame *fp = cx->fp;
if ((cx->fp->flags & JSFRAME_CONSTRUCTING) && JSVAL_IS_PRIMITIVE(rval)) {
JS_ASSERT(fp->thisv == fp->argv[-1]);
rval_ins = get(&fp->argv[-1]);
} else {
rval_ins = get(&rval);
}
debug_only_printf(LC_TMTracer,
"returning from %s\n",
js_AtomToPrintableString(cx, cx->fp->fun->atom));
clearFrameSlotsFromCache();
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
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->fp->regs->pc);
if (sn && (SN_TYPE(sn) == SRC_BREAK || SN_TYPE(sn) == SRC_CONT2LABEL)) {
AUDIT(breakLoopExits);
endLoop();
return JSRS_STOP;
}
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_IFEQ()
{
trackCfgMerges(cx->fp->regs->pc);
return ifop();
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_IFNE()
{
return ifop();
}
LIns*
TraceRecorder::newArguments()
{
LIns* global_ins = INS_CONSTOBJ(globalObj);
LIns* argc_ins = INS_CONST(cx->fp->argc);
LIns* callee_ins = get(&cx->fp->argv[-2]);
LIns* argv_ins = cx->fp->argc
? lir->ins2(LIR_piadd, lirbuf->sp,
lir->insImmWord(-treeInfo->nativeStackBase + nativeStackOffset(&cx->fp->argv[0])))
: INS_CONSTPTR((void *) 2);
js_ArgsPrivateNative *apn = js_ArgsPrivateNative::create(*traceMonitor->dataAlloc, cx->fp->argc);
for (uintN i = 0; i < cx->fp->argc; ++i) {
apn->typemap()[i] = determineSlotType(&cx->fp->argv[i]);
}
LIns* args[] = { INS_CONSTPTR(apn), argv_ins, callee_ins, argc_ins, global_ins, cx_ins };
LIns* call_ins = lir->insCall(&js_Arguments_ci, args);
guard(false, lir->ins_peq0(call_ins), OOM_EXIT);
return call_ins;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_ARGUMENTS()
{
if (cx->fp->flags & JSFRAME_OVERRIDE_ARGS)
ABORT_TRACE("Can't trace |arguments| if |arguments| is assigned to");
LIns* a_ins = get(&cx->fp->argsobj);
LIns* args_ins;
if (a_ins->opcode() == LIR_int) {
// |arguments| is set to 0 by EnterFrame on this trace, so call to create it.
args_ins = newArguments();
} else {
// Generate LIR to create arguments only if it has not already been created.
LIns* mem_ins = lir->insAlloc(sizeof(jsval));
LIns* br1 = lir->insBranch(LIR_jt, lir->ins_peq0(a_ins), NULL);
lir->insStorei(a_ins, mem_ins, 0);
LIns* br2 = lir->insBranch(LIR_j, NULL, NULL);
LIns* label1 = lir->ins0(LIR_label);
br1->setTarget(label1);
LIns* call_ins = newArguments();
lir->insStorei(call_ins, mem_ins, 0);
LIns* label2 = lir->ins0(LIR_label);
br2->setTarget(label2);
args_ins = lir->insLoad(LIR_ldp, mem_ins, 0);
}
stack(0, args_ins);
set(&cx->fp->argsobj, args_ins);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_DUP()
{
stack(0, get(&stackval(-1)));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_DUP2()
{
stack(0, get(&stackval(-2)));
stack(1, get(&stackval(-1)));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_SWAP()
{
jsval& l = stackval(-2);
jsval& r = stackval(-1);
LIns* l_ins = get(&l);
LIns* r_ins = get(&r);
set(&r, l_ins);
set(&l, r_ins);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_PICK()
{
jsval* sp = cx->fp->regs->sp;
jsint n = cx->fp->regs->pc[1];
JS_ASSERT(sp - (n+1) >= StackBase(cx->fp));
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 JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_SETCONST()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_BITOR()
{
return binary(LIR_or);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_BITXOR()
{
return binary(LIR_xor);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_BITAND()
{
return binary(LIR_and);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_EQ()
{
return equality(false, true);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_NE()
{
return equality(true, true);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_LT()
{
return relational(LIR_flt, true);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_LE()
{
return relational(LIR_fle, true);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_GT()
{
return relational(LIR_fgt, true);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_GE()
{
return relational(LIR_fge, true);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_LSH()
{
return binary(LIR_lsh);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_RSH()
{
return binary(LIR_rsh);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_URSH()
{
return binary(LIR_ush);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_ADD()
{
jsval& r = stackval(-1);
jsval& l = stackval(-2);
if (!JSVAL_IS_PRIMITIVE(l)) {
ABORT_IF_XML(l);
if (!JSVAL_IS_PRIMITIVE(r)) {
ABORT_IF_XML(r);
return call_imacro(add_imacros.obj_obj);
}
return call_imacro(add_imacros.obj_any);
}
if (!JSVAL_IS_PRIMITIVE(r)) {
ABORT_IF_XML(r);
return call_imacro(add_imacros.any_obj);
}
if (JSVAL_IS_STRING(l) || JSVAL_IS_STRING(r)) {
LIns* args[] = { stringify(r), stringify(l), cx_ins };
LIns* concat = lir->insCall(&js_ConcatStrings_ci, args);
guard(false, lir->ins_peq0(concat), OOM_EXIT);
set(&l, concat);
return JSRS_CONTINUE;
}
return binary(LIR_fadd);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_SUB()
{
return binary(LIR_fsub);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_MUL()
{
return binary(LIR_fmul);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_DIV()
{
return binary(LIR_fdiv);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_MOD()
{
return binary(LIR_fmod);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_NOT()
{
jsval& v = stackval(-1);
if (JSVAL_IS_SPECIAL(v)) {
set(&v, lir->ins_eq0(lir->ins2i(LIR_eq, get(&v), 1)));
return JSRS_CONTINUE;
}
if (isNumber(v)) {
LIns* v_ins = get(&v);
set(&v, lir->ins2(LIR_or, lir->ins2(LIR_feq, v_ins, lir->insImmf(0)),
lir->ins_eq0(lir->ins2(LIR_feq, v_ins, v_ins))));
return JSRS_CONTINUE;
}
if (JSVAL_TAG(v) == JSVAL_OBJECT) {
set(&v, lir->ins_peq0(get(&v)));
return JSRS_CONTINUE;
}
JS_ASSERT(JSVAL_IS_STRING(v));
set(&v, lir->ins_peq0(lir->ins2(LIR_piand,
lir->insLoad(LIR_ldp, get(&v), (int)offsetof(JSString, mLength)),
INS_CONSTWORD(JSString::LENGTH_MASK))));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_BITNOT()
{
return unary(LIR_not);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_NEG()
{
jsval& v = stackval(-1);
if (!JSVAL_IS_PRIMITIVE(v)) {
ABORT_IF_XML(v);
return call_imacro(unary_imacros.sign);
}
if (isNumber(v)) {
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.isInstructionUndemotable(cx->fp->regs->pc) &&
isPromoteInt(a) &&
(!JSVAL_IS_INT(v) || JSVAL_TO_INT(v) != 0) &&
(!JSVAL_IS_DOUBLE(v) || !JSDOUBLE_IS_NEGZERO(*JSVAL_TO_DOUBLE(v))) &&
-asNumber(v) == (int)-asNumber(v)) {
a = lir->ins1(LIR_neg, ::demote(lir, a));
if (!a->isconst()) {
VMSideExit* exit = snapshot(OVERFLOW_EXIT);
guard(false, lir->ins1(LIR_ov, a), exit);
guard(false, lir->ins2i(LIR_eq, a, 0), exit);
}
a = lir->ins1(LIR_i2f, a);
} else {
a = lir->ins1(LIR_fneg, a);
}
set(&v, a);
return JSRS_CONTINUE;
}
if (JSVAL_IS_NULL(v)) {
set(&v, lir->insImmf(-0.0));
return JSRS_CONTINUE;
}
JS_ASSERT(JSVAL_TAG(v) == JSVAL_STRING || JSVAL_IS_SPECIAL(v));
LIns* args[] = { get(&v), cx_ins };
set(&v, lir->ins1(LIR_fneg,
lir->insCall(JSVAL_IS_STRING(v)
? &js_StringToNumber_ci
: &js_BooleanOrUndefinedToNumber_ci,
args)));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_POS()
{
jsval& v = stackval(-1);
if (!JSVAL_IS_PRIMITIVE(v)) {
ABORT_IF_XML(v);
return call_imacro(unary_imacros.sign);
}
if (isNumber(v))
return JSRS_CONTINUE;
if (JSVAL_IS_NULL(v)) {
set(&v, lir->insImmf(0));
return JSRS_CONTINUE;
}
JS_ASSERT(JSVAL_TAG(v) == JSVAL_STRING || JSVAL_IS_SPECIAL(v));
LIns* args[] = { get(&v), cx_ins };
set(&v, lir->insCall(JSVAL_IS_STRING(v)
? &js_StringToNumber_ci
: &js_BooleanOrUndefinedToNumber_ci,
args));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
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 JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_OBJTOP()
{
jsval& v = stackval(-1);
ABORT_IF_XML(v);
return JSRS_CONTINUE;
}
JSRecordingStatus
TraceRecorder::getClassPrototype(JSObject* ctor, LIns*& proto_ins)
{
jsval pval;
if (!ctor->getProperty(cx, ATOM_TO_JSID(cx->runtime->atomState.classPrototypeAtom), &pval))
ABORT_TRACE_ERROR("error getting prototype from constructor");
if (JSVAL_TAG(pval) != JSVAL_OBJECT)
ABORT_TRACE("got primitive prototype from constructor");
#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
proto_ins = INS_CONSTOBJ(JSVAL_TO_OBJECT(pval));
return JSRS_CONTINUE;
}
JSRecordingStatus
TraceRecorder::getClassPrototype(JSProtoKey key, LIns*& proto_ins)
{
JSObject* proto;
if (!js_GetClassPrototype(cx, globalObj, INT_TO_JSID(key), &proto))
ABORT_TRACE_ERROR("error in js_GetClassPrototype");
proto_ins = INS_CONSTOBJ(proto);
return JSRS_CONTINUE;
}
#define IGNORE_NATIVE_CALL_COMPLETE_CALLBACK ((JSSpecializedNative*)1)
JSRecordingStatus
TraceRecorder::newString(JSObject* ctor, uint32 argc, jsval* argv, jsval* rval)
{
JS_ASSERT(argc == 1);
if (!JSVAL_IS_PRIMITIVE(argv[0])) {
ABORT_IF_XML(argv[0]);
return call_imacro(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->ins_peq0(obj_ins), OOM_EXIT);
set(rval, obj_ins);
pendingSpecializedNative = IGNORE_NATIVE_CALL_COMPLETE_CALLBACK;
return JSRS_CONTINUE;
}
JSRecordingStatus
TraceRecorder::newArray(JSObject* ctor, uint32 argc, jsval* argv, jsval* rval)
{
LIns *proto_ins;
CHECK_STATUS(getClassPrototype(ctor, proto_ins));
LIns *arr_ins;
if (argc == 0 || (argc == 1 && JSVAL_IS_NUMBER(argv[0]))) {
// arr_ins = js_NewEmptyArray(cx, Array.prototype)
LIns *args[] = { proto_ins, cx_ins };
arr_ins = lir->insCall(&js_NewEmptyArray_ci, args);
guard(false, lir->ins_peq0(arr_ins), OOM_EXIT);
if (argc == 1) {
// array_ins.fslots[JSSLOT_ARRAY_LENGTH] = length
lir->insStorei(f2i(get(argv)), // FIXME: is this 64-bit safe?
arr_ins,
offsetof(JSObject, fslots) + JSSLOT_ARRAY_LENGTH * sizeof(jsval));
}
} else {
// arr_ins = js_NewArrayWithSlots(cx, Array.prototype, argc)
LIns *args[] = { INS_CONST(argc), proto_ins, cx_ins };
arr_ins = lir->insCall(&js_NewArrayWithSlots_ci, args);
guard(false, lir->ins_peq0(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++) {
LIns *elt_ins = box_jsval(argv[i], get(&argv[i]));
stobj_set_dslot(arr_ins, i, dslots_ins, elt_ins);
}
if (argc > 0)
stobj_set_fslot(arr_ins, JSSLOT_ARRAY_COUNT, INS_CONST(argc));
}
set(rval, arr_ins);
pendingSpecializedNative = IGNORE_NATIVE_CALL_COMPLETE_CALLBACK;
return JSRS_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
* JSBUILTIN_ERROR bit of cx->builtinStatus.
*
* If the return value (ok_ins) is true, status' == status. Otherwise
* status' = status | JSBUILTIN_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 JSBUILTIN_ERROR.
*/
JS_STATIC_ASSERT(((JS_TRUE & 1) ^ 1) << 1 == 0);
JS_STATIC_ASSERT(((JS_FALSE & 1) ^ 1) << 1 == JSBUILTIN_ERROR);
status_ins = lir->ins2(LIR_or,
status_ins,
lir->ins2i(LIR_lsh,
lir->ins2i(LIR_xor,
lir->ins2i(LIR_and, ok_ins, 1),
1),
1));
lir->insStorei(status_ins, lirbuf->state, (int) offsetof(InterpState, builtinStatus));
}
JS_REQUIRES_STACK void
TraceRecorder::emitNativePropertyOp(JSScope* scope, JSScopeProperty* sprop, LIns* obj_ins,
bool setflag, LIns* boxed_ins)
{
JS_ASSERT(!(sprop->attrs & (setflag ? JSPROP_SETTER : JSPROP_GETTER)));
JS_ASSERT(setflag ? !SPROP_HAS_STUB_SETTER(sprop) : !SPROP_HAS_STUB_GETTER_OR_IS_METHOD(sprop));
enterDeepBailCall();
// It is unsafe to pass the address of an object slot as the out parameter,
// because the getter or setter could end up resizing the object's dslots.
// Instead, use a word of stack and root it in nativeVp.
LIns* vp_ins = lir->insAlloc(sizeof(jsval));
lir->insStorei(vp_ins, lirbuf->state, offsetof(InterpState, nativeVp));
lir->insStorei(INS_CONST(1), lirbuf->state, offsetof(InterpState, nativeVpLen));
if (setflag)
lir->insStorei(boxed_ins, vp_ins, 0);
CallInfo* ci = new (*traceMonitor->dataAlloc) CallInfo();
ci->_address = uintptr_t(setflag ? sprop->setter : sprop->getter);
ci->_argtypes = ARGSIZE_I << (0*ARGSIZE_SHIFT) |
ARGSIZE_P << (1*ARGSIZE_SHIFT) |
ARGSIZE_P << (2*ARGSIZE_SHIFT) |
ARGSIZE_P << (3*ARGSIZE_SHIFT) |
ARGSIZE_P << (4*ARGSIZE_SHIFT);
ci->_cse = ci->_fold = 0;
ci->_abi = ABI_CDECL;
#ifdef DEBUG
ci->_name = "JSPropertyOp";
#endif
LIns* args[] = { vp_ins, INS_CONSTWORD(SPROP_USERID(sprop)), obj_ins, cx_ins };
LIns* ok_ins = lir->insCall(ci, args);
// Cleanup. Immediately clear nativeVp before we might deep bail.
lir->insStorei(INS_NULL(), lirbuf->state, offsetof(InterpState, nativeVp));
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_ld,
lirbuf->state,
(int) offsetof(InterpState, builtinStatus));
propagateFailureToBuiltinStatus(ok_ins, status_ins);
guard(true, lir->ins_eq0(status_ins), STATUS_EXIT);
// Re-load the value--but this is currently unused, so commented out.
//boxed_ins = lir->insLoad(LIR_ldp, vp_ins, 0);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::emitNativeCall(JSSpecializedNative* sn, uintN argc, LIns* args[], bool rooted)
{
bool constructing = sn->flags & JSTN_CONSTRUCTOR;
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 js_DeepBail and store it in cx->bailExit.
// If we are calling a slow native, add information to the side exit
// for SynthesizeSlowNativeFrame.
VMSideExit* exit = enterDeepBailCall();
JSObject* funobj = JSVAL_TO_OBJECT(stackval(0 - (2 + argc)));
if (FUN_SLOW_NATIVE(GET_FUNCTION_PRIVATE(cx, funobj))) {
exit->setNativeCallee(funobj, constructing);
treeInfo->gcthings.addUnique(OBJECT_TO_JSVAL(funobj));
}
}
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->insStorei(INS_NULL(), lirbuf->state, offsetof(InterpState, nativeVp));
rval_ins = res_ins;
switch (JSTN_ERRTYPE(sn)) {
case FAIL_NULL:
guard(false, lir->ins_peq0(res_ins), OOM_EXIT);
break;
case FAIL_NEG:
res_ins = lir->ins1(LIR_i2f, res_ins);
guard(false, lir->ins2(LIR_flt, res_ins, lir->insImmf(0)), OOM_EXIT);
break;
case FAIL_VOID:
guard(false, lir->ins2i(LIR_eq, res_ins, JSVAL_TO_SPECIAL(JSVAL_VOID)), OOM_EXIT);
break;
case FAIL_COOKIE:
guard(false, lir->ins2(LIR_peq, res_ins, INS_CONSTWORD(JSVAL_ERROR_COOKIE)), 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 (like Array_p_pop).
*/
pendingSpecializedNative = sn;
return JSRS_CONTINUE;
}
/*
* Check whether we have a specialized implementation for this native
* invocation.
*/
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::callSpecializedNative(JSNativeTraceInfo *trcinfo, uintN argc,
bool constructing)
{
JSStackFrame* fp = cx->fp;
jsbytecode *pc = fp->regs->pc;
jsval& fval = stackval(0 - (2 + argc));
jsval& 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 (JSVAL_IS_PRIMITIVE(tval))
goto next_specialization;
*argp = this_ins;
} else if (argtype == 'S') { /* this, as a string */
if (!JSVAL_IS_STRING(tval))
goto next_specialization;
*argp = this_ins;
} else if (argtype == 'f') {
*argp = INS_CONSTOBJ(JSVAL_TO_OBJECT(fval));
} else if (argtype == 'p') {
CHECK_STATUS(getClassPrototype(JSVAL_TO_OBJECT(fval), *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->imacpc && *fp->imacpc == JSOP_GETELEM)
*argp = INS_CONSTPTR(fp->imacpc);
else
*argp = INS_CONSTPTR(pc);
} else if (argtype == 'D') { /* this, as a number */
if (!isNumber(tval))
goto next_specialization;
*argp = this_ins;
} else {
JS_NOT_REACHED("unknown prefix arg type");
}
argp--;
}
for (i = knownargc; i--; ) {
jsval& arg = stackval(0 - (i + 1));
*argp = get(&arg);
argtype = sn->argtypes[i];
if (argtype == 'd' || argtype == 'i') {
if (!isNumber(arg))
goto next_specialization;
if (argtype == 'i')
*argp = f2i(*argp);
} else if (argtype == 'o') {
if (JSVAL_IS_PRIMITIVE(arg))
goto next_specialization;
} else if (argtype == 's') {
if (!JSVAL_IS_STRING(arg))
goto next_specialization;
} else if (argtype == 'r') {
if (!VALUE_IS_REGEXP(cx, arg))
goto next_specialization;
} else if (argtype == 'f') {
if (!VALUE_IS_FUNCTION(cx, arg))
goto next_specialization;
} else if (argtype == 'v') {
*argp = box_jsval(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 JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::callNative(uintN argc, JSOp mode)
{
LIns* args[5];
JS_ASSERT(mode == JSOP_CALL || mode == JSOP_NEW || mode == JSOP_APPLY);
jsval* vp = &stackval(0 - (2 + argc));
JSObject* funobj = JSVAL_TO_OBJECT(vp[0]);
JSFunction* fun = GET_FUNCTION_PRIVATE(cx, funobj);
JSFastNative native = (JSFastNative)fun->u.n.native;
switch (argc) {
case 1:
if (isNumber(vp[2]) &&
(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 JSRS_CONTINUE;
}
}
break;
case 2:
if (isNumber(vp[2]) && isNumber(vp[3]) &&
(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_i2f,
lir->ins_choose(lir->ins2((native == js_math_min)
? LIR_lt
: LIR_gt, a, b),
a, b)));
pendingSpecializedNative = IGNORE_NATIVE_CALL_COMPLETE_CALLBACK;
return JSRS_CONTINUE;
}
}
break;
}
if (fun->flags & JSFUN_TRCINFO) {
JSNativeTraceInfo *trcinfo = FUN_TRCINFO(fun);
JS_ASSERT(trcinfo && (JSFastNative)fun->u.n.native == trcinfo->native);
/* Try to call a type specialized version of the native. */
if (trcinfo->specializations) {
JSRecordingStatus status = callSpecializedNative(trcinfo, argc, mode == JSOP_NEW);
if (status != JSRS_STOP)
return status;
}
}
if (native == js_fun_apply || native == js_fun_call)
ABORT_TRACE("trying to call native apply or call");
// Allocate the vp vector and emit code to root it.
uintN vplen = 2 + JS_MAX(argc, FUN_MINARGS(fun)) + fun->u.n.extra;
if (!(fun->flags & JSFUN_FAST_NATIVE))
vplen++; // slow native return value slot
LIns* invokevp_ins = lir->insAlloc(vplen * sizeof(jsval));
// vp[0] is the callee.
lir->insStorei(INS_CONSTWORD(OBJECT_TO_JSVAL(funobj)), invokevp_ins, 0);
// Calculate |this|.
LIns* this_ins;
if (mode == JSOP_NEW) {
JSClass* 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)
ABORT_TRACE("new Function");
if (clasp->getObjectOps)
ABORT_TRACE("new with non-native ops");
args[0] = INS_CONSTOBJ(funobj);
args[1] = INS_CONSTPTR(clasp);
args[2] = cx_ins;
newobj_ins = lir->insCall(&js_NewInstance_ci, args);
guard(false, lir->ins_peq0(newobj_ins), OOM_EXIT);
this_ins = newobj_ins; /* boxing an object is a no-op */
} else if (JSFUN_BOUND_METHOD_TEST(fun->flags)) {
this_ins = INS_CONSTWORD(OBJECT_TO_JSVAL(OBJ_GET_PARENT(cx, funobj)));
} else {
this_ins = get(&vp[1]);
/*
* For fast natives, 'null' or primitives are fine as as 'this' value.
* For slow natives we have to ensure the object is substituted for the
* appropriate global object or boxed object value. JSOP_NEW allocates its
* own object so it's guaranteed to have a valid 'this' value.
*/
if (!(fun->flags & JSFUN_FAST_NATIVE)) {
if (JSVAL_IS_NULL(vp[1])) {
JSObject* thisObj = js_ComputeThis(cx, JS_FALSE, vp + 2);
if (!thisObj)
ABORT_TRACE_ERROR("error in js_ComputeGlobalThis");
this_ins = INS_CONSTOBJ(thisObj);
} else if (!JSVAL_IS_OBJECT(vp[1])) {
ABORT_TRACE("slow native(primitive, args)");
} else {
if (guardClass(JSVAL_TO_OBJECT(vp[1]), this_ins, &js_WithClass, snapshot(MISMATCH_EXIT)))
ABORT_TRACE("can't trace slow native invocation on With object");
this_ins = lir->ins_choose(lir->ins_peq0(stobj_get_parent(this_ins)),
INS_CONSTOBJ(globalObj),
this_ins);
}
}
this_ins = box_jsval(vp[1], this_ins);
}
lir->insStorei(this_ins, invokevp_ins, 1 * sizeof(jsval));
// Populate argv.
for (uintN n = 2; n < 2 + argc; n++) {
LIns* i = box_jsval(vp[n], get(&vp[n]));
lir->insStorei(i, invokevp_ins, n * sizeof(jsval));
// For a very long argument list we might run out of LIR space, so
// check inside the loop.
if (outOfMemory())
ABORT_TRACE("out of memory in argument list");
}
// Populate extra slots, including the return value slot for a slow native.
if (2 + argc < vplen) {
LIns* undef_ins = INS_CONSTWORD(JSVAL_VOID);
for (uintN n = 2 + argc; n < vplen; n++) {
lir->insStorei(undef_ins, invokevp_ins, n * sizeof(jsval));
if (outOfMemory())
ABORT_TRACE("out of memory in extra slots");
}
}
// Set up arguments for the JSNative or JSFastNative.
uint32 types;
if (fun->flags & JSFUN_FAST_NATIVE) {
if (mode == JSOP_NEW)
ABORT_TRACE("untraceable fast native constructor");
native_rval_ins = invokevp_ins;
args[0] = invokevp_ins;
args[1] = lir->insImm(argc);
args[2] = cx_ins;
types = ARGSIZE_I << (0*ARGSIZE_SHIFT) |
ARGSIZE_P << (1*ARGSIZE_SHIFT) |
ARGSIZE_I << (2*ARGSIZE_SHIFT) |
ARGSIZE_P << (3*ARGSIZE_SHIFT);
} else {
int32_t offset = (vplen - 1) * sizeof(jsval);
native_rval_ins = lir->ins2(LIR_piadd, invokevp_ins, INS_CONSTWORD(offset));
args[0] = native_rval_ins;
args[1] = lir->ins2(LIR_piadd, invokevp_ins, INS_CONSTWORD(2 * sizeof(jsval)));
args[2] = lir->insImm(argc);
args[3] = this_ins;
args[4] = cx_ins;
types = ARGSIZE_I << (0*ARGSIZE_SHIFT) |
ARGSIZE_P << (1*ARGSIZE_SHIFT) |
ARGSIZE_P << (2*ARGSIZE_SHIFT) |
ARGSIZE_I << (3*ARGSIZE_SHIFT) |
ARGSIZE_P << (4*ARGSIZE_SHIFT) |
ARGSIZE_P << (5*ARGSIZE_SHIFT);
}
// 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 (*traceMonitor->dataAlloc) CallInfo();
ci->_address = uintptr_t(fun->u.n.native);
ci->_cse = ci->_fold = 0;
ci->_abi = ABI_CDECL;
ci->_argtypes = types;
#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->insStorei(INS_CONST(vplen), lirbuf->state, offsetof(InterpState, nativeVpLen));
lir->insStorei(invokevp_ins, lirbuf->state, offsetof(InterpState, nativeVp));
// 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 JSRecordingStatus
TraceRecorder::functionCall(uintN argc, JSOp mode)
{
jsval& fval = stackval(0 - (2 + argc));
JS_ASSERT(&fval >= StackBase(cx->fp));
if (!VALUE_IS_FUNCTION(cx, fval))
ABORT_TRACE("callee is not a function");
jsval& 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)->isconstp())
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, JSVAL_TO_OBJECT(fval));
if (FUN_INTERPRETED(fun)) {
if (mode == JSOP_NEW) {
LIns* args[] = { get(&fval), INS_CONSTPTR(&js_ObjectClass), cx_ins };
LIns* tv_ins = lir->insCall(&js_NewInstance_ci, args);
guard(false, lir->ins_peq0(tv_ins), OOM_EXIT);
set(&tval, tv_ins);
}
return interpretedFunctionCall(fval, fun, argc, mode == JSOP_NEW);
}
if (FUN_SLOW_NATIVE(fun)) {
JSNative native = fun->u.n.native;
jsval* argv = &tval + 1;
if (native == js_Array)
return newArray(JSVAL_TO_OBJECT(fval), argc, argv, &fval);
if (native == js_String && argc == 1) {
if (mode == JSOP_NEW)
return newString(JSVAL_TO_OBJECT(fval), 1, argv, &fval);
if (!JSVAL_IS_PRIMITIVE(argv[0])) {
ABORT_IF_XML(argv[0]);
return call_imacro(call_imacros.String);
}
set(&fval, stringify(argv[0]));
pendingSpecializedNative = IGNORE_NATIVE_CALL_COMPLETE_CALLBACK;
return JSRS_CONTINUE;
}
}
return callNative(argc, mode);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_NEW()
{
uintN argc = GET_ARGC(cx->fp->regs->pc);
cx->fp->assertValidStackDepth(argc + 2);
return functionCall(argc, JSOP_NEW);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_DELNAME()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_DELPROP()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_DELELEM()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_TYPEOF()
{
jsval& r = stackval(-1);
LIns* type;
if (JSVAL_IS_STRING(r)) {
type = INS_ATOM(cx->runtime->atomState.typeAtoms[JSTYPE_STRING]);
} else if (isNumber(r)) {
type = INS_ATOM(cx->runtime->atomState.typeAtoms[JSTYPE_NUMBER]);
} else if (VALUE_IS_FUNCTION(cx, r)) {
type = INS_ATOM(cx->runtime->atomState.typeAtoms[JSTYPE_FUNCTION]);
} else {
LIns* args[] = { get(&r), cx_ins };
if (JSVAL_IS_SPECIAL(r)) {
// We specialize identically for boolean and undefined. We must not have a hole here.
// Pass the unboxed type here, since TypeOfBoolean knows how to handle it.
JS_ASSERT(r == JSVAL_TRUE || r == JSVAL_FALSE || r == JSVAL_VOID);
type = lir->insCall(&js_TypeOfBoolean_ci, args);
} else {
JS_ASSERT(JSVAL_TAG(r) == JSVAL_OBJECT);
type = lir->insCall(&js_TypeOfObject_ci, args);
}
}
set(&r, type);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_VOID()
{
stack(-1, INS_CONST(JSVAL_TO_SPECIAL(JSVAL_VOID)));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_INCNAME()
{
return incName(1);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_INCPROP()
{
return incProp(1);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_INCELEM()
{
return incElem(1);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_DECNAME()
{
return incName(-1);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_DECPROP()
{
return incProp(-1);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_DECELEM()
{
return incElem(-1);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::incName(jsint incr, bool pre)
{
jsval* vp;
LIns* v_ins;
LIns* v_after;
NameResult nr;
CHECK_STATUS(name(vp, v_ins, nr));
jsval v = nr.tracked ? *vp : nr.v;
CHECK_STATUS(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 JSRS_CONTINUE;
}
if (OBJ_GET_CLASS(cx, nr.obj) != &js_CallClass)
ABORT_TRACE("incName on unsupported object class");
CHECK_STATUS(setCallProp(nr.obj, nr.obj_ins, nr.sprop, v_after, v));
stack(0, v_result);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_NAMEINC()
{
return incName(1, false);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_PROPINC()
{
return incProp(1, false);
}
// XXX consolidate with record_JSOP_GETELEM code...
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_ELEMINC()
{
return incElem(1, false);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_NAMEDEC()
{
return incName(-1, false);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_PROPDEC()
{
return incProp(-1, false);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_ELEMDEC()
{
return incElem(-1, false);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_GETPROP()
{
return getProp(stackval(-1));
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_SETPROP()
{
jsval& l = stackval(-2);
if (JSVAL_IS_PRIMITIVE(l))
ABORT_TRACE("primitive this for SETPROP");
JSObject* obj = JSVAL_TO_OBJECT(l);
if (obj->map->ops->setProperty != js_SetProperty)
ABORT_TRACE("non-native JSObjectOps::setProperty");
return JSRS_CONTINUE;
}
/* Emit a specialized, inlined copy of js_NativeSet. */
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::nativeSet(JSObject* obj, LIns* obj_ins, JSScopeProperty* sprop,
jsval v, LIns* v_ins)
{
JSScope* scope = OBJ_SCOPE(obj);
uint32 slot = sprop->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(SPROP_HAS_STUB_SETTER(sprop) || slot == SPROP_INVALID_SLOT);
// Box the value to be stored, if necessary.
LIns* boxed_ins = NULL;
if (!SPROP_HAS_STUB_SETTER(sprop) || (slot != SPROP_INVALID_SLOT && obj != globalObj))
boxed_ins = box_jsval(v, v_ins);
// Call the setter, if any.
if (!SPROP_HAS_STUB_SETTER(sprop))
emitNativePropertyOp(scope, sprop, obj_ins, true, boxed_ins);
// Store the value, if this property has a slot.
if (slot != SPROP_INVALID_SLOT) {
JS_ASSERT(SPROP_HAS_VALID_SLOT(sprop, scope));
JS_ASSERT(!(sprop->attrs & JSPROP_SHARED));
if (obj == globalObj) {
if (!lazilyImportGlobalSlot(slot))
ABORT_TRACE("lazy import of global slot failed");
set(&STOBJ_GET_SLOT(obj, slot), v_ins);
} else {
LIns* dslots_ins = NULL;
stobj_set_slot(obj_ins, slot, dslots_ins, boxed_ins);
}
}
return JSRS_CONTINUE;
}
static JSBool FASTCALL
MethodWriteBarrier(JSContext* cx, JSObject* obj, JSScopeProperty* sprop, JSObject* funobj)
{
JSAutoTempValueRooter tvr(cx, funobj);
return OBJ_SCOPE(obj)->methodWriteBarrier(cx, sprop, tvr.value());
}
JS_DEFINE_CALLINFO_4(static, BOOL_FAIL, MethodWriteBarrier, CONTEXT, OBJECT, SCOPEPROP, OBJECT,
0, 0)
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::setProp(jsval &l, JSPropCacheEntry* entry, JSScopeProperty* sprop,
jsval &v, LIns*& v_ins)
{
if (entry == JS_NO_PROP_CACHE_FILL)
ABORT_TRACE("can't trace uncacheable property set");
JS_ASSERT_IF(PCVCAP_TAG(entry->vcap) >= 1, sprop->attrs & JSPROP_SHARED);
if (!SPROP_HAS_STUB_SETTER(sprop) && sprop->slot != SPROP_INVALID_SLOT)
ABORT_TRACE("can't trace set of property with setter and slot");
if (sprop->attrs & JSPROP_SETTER)
ABORT_TRACE("can't trace JavaScript function setter");
// These two cases are errors and can't be traced.
if (sprop->attrs & JSPROP_GETTER)
ABORT_TRACE("can't assign to property with script getter but no setter");
if (sprop->attrs & JSPROP_READONLY)
ABORT_TRACE("can't assign to readonly property");
JS_ASSERT(!JSVAL_IS_PRIMITIVE(l));
JSObject* obj = JSVAL_TO_OBJECT(l);
LIns* obj_ins = get(&l);
JSScope* scope = OBJ_SCOPE(obj);
JS_ASSERT_IF(entry->vcap == PCVCAP_MAKE(entry->kshape, 0, 0), scope->has(sprop));
// Fast path for CallClass. This is about 20% faster than the general case.
v_ins = get(&v);
if (OBJ_GET_CLASS(cx, obj) == &js_CallClass)
return setCallProp(obj, obj_ins, sprop, v_ins, v);
/*
* 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 (scope->branded() && VALUE_IS_FUNCTION(cx, v) && entry->directHit()) {
if (obj == globalObj)
ABORT_TRACE("can't trace function-valued property set in branded global scope");
LIns* args[] = { v_ins, INS_CONSTSPROP(sprop), obj_ins, cx_ins };
LIns* ok_ins = lir->insCall(&MethodWriteBarrier_ci, args);
guard(false, lir->ins_eq0(ok_ins), OOM_EXIT);
}
// Find obj2. If entry->adding(), the TAG bits are all 0.
JSObject* obj2 = obj;
for (jsuword i = PCVCAP_TAG(entry->vcap) >> PCVCAP_PROTOBITS; i; i--)
obj2 = OBJ_GET_PARENT(cx, obj2);
for (jsuword j = PCVCAP_TAG(entry->vcap) & PCVCAP_PROTOMASK; j; j--)
obj2 = OBJ_GET_PROTO(cx, obj2);
scope = OBJ_SCOPE(obj2);
JS_ASSERT_IF(entry->adding(), obj2 == obj);
// Guard before anything else.
LIns* map_ins = map(obj_ins);
CHECK_STATUS(guardNativePropertyOp(obj, map_ins));
jsuword pcval;
CHECK_STATUS(guardPropertyCacheHit(obj_ins, map_ins, obj, obj2, entry, pcval));
JS_ASSERT(scope->object == obj2);
JS_ASSERT(scope->has(sprop));
JS_ASSERT_IF(obj2 != obj, sprop->attrs & JSPROP_SHARED);
// Add a property to the object if necessary.
if (entry->adding()) {
JS_ASSERT(!(sprop->attrs & JSPROP_SHARED));
if (obj == globalObj)
ABORT_TRACE("adding a property to the global object");
LIns* args[] = { INS_CONSTSPROP(sprop), obj_ins, cx_ins };
LIns* ok_ins = lir->insCall(&js_AddProperty_ci, args);
guard(false, lir->ins_eq0(ok_ins), OOM_EXIT);
}
return nativeSet(obj, obj_ins, sprop, v, v_ins);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::setCallProp(JSObject *callobj, LIns *callobj_ins, JSScopeProperty *sprop,
LIns *v_ins, jsval v)
{
// Set variables in on-trace-stack call objects by updating the tracker.
JSStackFrame *fp = frameIfInRange(callobj);
if (fp) {
jsint slot = JSVAL_TO_INT(SPROP_USERID(sprop));
if (sprop->setter == SetCallArg) {
jsval *vp2 = &fp->argv[slot];
set(vp2, v_ins);
return JSRS_CONTINUE;
}
if (sprop->setter == SetCallVar) {
jsval *vp2 = &fp->slots[slot];
set(vp2, v_ins);
return JSRS_CONTINUE;
}
ABORT_TRACE("can't trace special CallClass setter");
}
// Set variables in off-trace-stack call objects by calling standard builtins.
const CallInfo* ci = NULL;
if (sprop->setter == SetCallArg)
ci = &js_SetCallArg_ci;
else if (sprop->setter == SetCallVar)
ci = &js_SetCallVar_ci;
else
ABORT_TRACE("can't trace special CallClass setter");
LIns* args[] = {
box_jsval(v, v_ins),
INS_CONST(SPROP_USERID(sprop)),
callobj_ins,
cx_ins
};
LIns* call_ins = lir->insCall(ci, args);
guard(false, addName(lir->ins_eq0(call_ins), "guard(set upvar)"), STATUS_EXIT);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_SetPropHit(JSPropCacheEntry* entry, JSScopeProperty* sprop)
{
jsval& r = stackval(-1);
jsval& l = stackval(-2);
LIns* v_ins;
CHECK_STATUS(setProp(l, entry, sprop, r, v_ins));
jsbytecode* pc = cx->fp->regs->pc;
switch (*pc) {
case JSOP_SETPROP:
case JSOP_SETNAME:
case JSOP_SETMETHOD:
if (pc[JSOP_SETPROP_LENGTH] != JSOP_POP)
set(&l, v_ins);
break;
default:;
}
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK VMSideExit*
TraceRecorder::enterDeepBailCall()
{
// Take snapshot for js_DeepBail and store it in cx->bailExit.
VMSideExit* exit = snapshot(DEEP_BAIL_EXIT);
lir->insStorei(INS_CONSTPTR(exit), cx_ins, offsetof(JSContext, bailExit));
// Tell nanojit not to discard or defer stack writes before this call.
GuardRecord* guardRec = createGuardRecord(exit);
lir->insGuard(LIR_xbarrier, NULL, guardRec);
return exit;
}
JS_REQUIRES_STACK void
TraceRecorder::leaveDeepBailCall()
{
// Keep cx->bailExit null when it's invalid.
lir->insStorei(INS_NULL(), cx_ins, offsetof(JSContext, bailExit));
}
JS_REQUIRES_STACK void
TraceRecorder::finishGetProp(LIns* obj_ins, LIns* vp_ins, LIns* ok_ins, jsval* 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.
LIns* result_ins = lir->insLoad(LIR_ldp, vp_ins, 0);
set(outp, result_ins, true);
if (js_CodeSpec[*cx->fp->regs->pc].format & JOF_CALLOP)
set(outp + 1, obj_ins, true);
// 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 = ATOM_TO_JSID((JSAtom*) STRING_TO_JSVAL(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 JSBool FASTCALL
GetPropertyByName(JSContext* cx, JSObject* obj, JSString** namep, jsval* vp)
{
js_LeaveTraceIfGlobalObject(cx, obj);
jsid id;
if (!RootedStringToId(cx, namep, &id) || !obj->getProperty(cx, id, vp)) {
js_SetBuiltinError(cx);
return false;
}
return cx->interpState->builtinStatus == 0;
}
JS_DEFINE_CALLINFO_4(static, BOOL_FAIL, GetPropertyByName, CONTEXT, OBJECT, STRINGPTR, JSVALPTR,
0, 0)
// 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 JSRecordingStatus
TraceRecorder::primitiveToStringInPlace(jsval* vp)
{
jsval v = *vp;
JS_ASSERT(JSVAL_IS_PRIMITIVE(v));
if (!JSVAL_IS_STRING(v)) {
// 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);
if (!str)
ABORT_TRACE_ERROR("failed to stringify element id");
v = STRING_TO_JSVAL(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 JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::getPropertyByName(LIns* obj_ins, jsval* idvalp, jsval* 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(jsval)), "vp");
LIns* idvalp_ins = addName(addr(idvalp), "idvalp");
LIns* args[] = {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.)
tracker.set(idvalp, lir->insLoad(LIR_ldp, idvalp_ins, 0));
finishGetProp(obj_ins, vp_ins, ok_ins, outp);
leaveDeepBailCall();
return JSRS_CONTINUE;
}
static JSBool FASTCALL
GetPropertyByIndex(JSContext* cx, JSObject* obj, int32 index, jsval* vp)
{
js_LeaveTraceIfGlobalObject(cx, obj);
JSAutoTempIdRooter idr(cx);
if (!js_Int32ToId(cx, index, idr.addr()) || !obj->getProperty(cx, idr.id(), vp)) {
js_SetBuiltinError(cx);
return JS_FALSE;
}
return cx->interpState->builtinStatus == 0;
}
JS_DEFINE_CALLINFO_4(static, BOOL_FAIL, GetPropertyByIndex, CONTEXT, OBJECT, INT32, JSVALPTR, 0, 0)
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::getPropertyByIndex(LIns* obj_ins, LIns* index_ins, jsval* outp)
{
index_ins = makeNumberInt32(index_ins);
// See note in getPropertyByName about vp.
enterDeepBailCall();
LIns* vp_ins = addName(lir->insAlloc(sizeof(jsval)), "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 JSRS_CONTINUE;
}
static JSBool FASTCALL
GetPropertyById(JSContext* cx, JSObject* obj, jsid id, jsval* vp)
{
js_LeaveTraceIfGlobalObject(cx, obj);
if (!obj->getProperty(cx, id, vp)) {
js_SetBuiltinError(cx);
return JS_FALSE;
}
return cx->interpState->builtinStatus == 0;
}
JS_DEFINE_CALLINFO_4(static, BOOL_FAIL, GetPropertyById,
CONTEXT, OBJECT, JSVAL, JSVALPTR, 0, 0)
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::getPropertyById(LIns* obj_ins, jsval* outp)
{
// Find the atom.
JSAtom* atom;
jsbytecode* pc = cx->fp->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)];
}
// Call GetPropertyById. See note in getPropertyByName about vp.
enterDeepBailCall();
jsid id = ATOM_TO_JSID(atom);
LIns* vp_ins = addName(lir->insAlloc(sizeof(jsval)), "vp");
LIns* args[] = {vp_ins, INS_CONSTWORD(id), obj_ins, cx_ins};
LIns* ok_ins = lir->insCall(&GetPropertyById_ci, args);
finishGetProp(obj_ins, vp_ins, ok_ins, outp);
leaveDeepBailCall();
return JSRS_CONTINUE;
}
/* Manually inlined, specialized copy of js_NativeGet. */
static JSBool FASTCALL
GetPropertyWithNativeGetter(JSContext* cx, JSObject* obj, JSScopeProperty* sprop, jsval* vp)
{
js_LeaveTraceIfGlobalObject(cx, obj);
#ifdef DEBUG
JSProperty* prop;
JSObject* pobj;
JS_ASSERT(obj->lookupProperty(cx, sprop->id, &pobj, &prop));
JS_ASSERT(prop == (JSProperty*) sprop);
obj->dropProperty(cx, prop);
#endif
// JSScopeProperty::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(STOBJ_GET_CLASS(obj) != &js_WithClass);
*vp = JSVAL_VOID;
if (!sprop->getter(cx, obj, SPROP_USERID(sprop), vp)) {
js_SetBuiltinError(cx);
return JS_FALSE;
}
return cx->interpState->builtinStatus == 0;
}
JS_DEFINE_CALLINFO_4(static, BOOL_FAIL, GetPropertyWithNativeGetter,
CONTEXT, OBJECT, SCOPEPROP, JSVALPTR, 0, 0)
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::getPropertyWithNativeGetter(LIns* obj_ins, JSScopeProperty* sprop, jsval* outp)
{
JS_ASSERT(!(sprop->attrs & JSPROP_GETTER));
JS_ASSERT(sprop->slot == SPROP_INVALID_SLOT);
JS_ASSERT(!SPROP_HAS_STUB_GETTER_OR_IS_METHOD(sprop));
// 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(jsval)), "vp");
LIns* args[] = {vp_ins, INS_CONSTPTR(sprop), obj_ins, cx_ins};
LIns* ok_ins = lir->insCall(&GetPropertyWithNativeGetter_ci, args);
finishGetProp(obj_ins, vp_ins, ok_ins, outp);
leaveDeepBailCall();
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_GETELEM()
{
bool call = *cx->fp->regs->pc == JSOP_CALLELEM;
jsval& idx = stackval(-1);
jsval& lval = stackval(-2);
LIns* obj_ins = get(&lval);
LIns* idx_ins = get(&idx);
// Special case for array-like access of strings.
if (JSVAL_IS_STRING(lval) && isInt32(idx)) {
if (call)
ABORT_TRACE("JSOP_CALLELEM on a string");
int i = asInt32(idx);
if (size_t(i) >= JSVAL_TO_STRING(lval)->length())
ABORT_TRACE("Invalid string index in JSOP_GETELEM");
idx_ins = makeNumberInt32(idx_ins);
LIns* args[] = { idx_ins, obj_ins, cx_ins };
LIns* unitstr_ins = lir->insCall(&js_String_getelem_ci, args);
guard(false, lir->ins_peq0(unitstr_ins), MISMATCH_EXIT);
set(&lval, unitstr_ins);
return JSRS_CONTINUE;
}
if (JSVAL_IS_PRIMITIVE(lval))
ABORT_TRACE("JSOP_GETLEM on a primitive");
ABORT_IF_XML(lval);
JSObject* obj = JSVAL_TO_OBJECT(lval);
if (obj == globalObj)
ABORT_TRACE("JSOP_GETELEM on global");
LIns* v_ins;
/* Property access using a string name or something we have to stringify. */
if (!JSVAL_IS_INT(idx)) {
if (!JSVAL_IS_PRIMITIVE(idx))
ABORT_TRACE("object used as index");
return getPropertyByName(obj_ins, &idx, &lval);
}
if (STOBJ_GET_CLASS(obj) == &js_ArgumentsClass) {
unsigned depth;
JSStackFrame *afp = guardArguments(obj, obj_ins, &depth);
if (afp) {
uintN int_idx = JSVAL_TO_INT(idx);
jsval* vp = &afp->argv[int_idx];
if (idx_ins->isconstf()) {
if (int_idx >= 0 && int_idx < afp->argc)
v_ins = get(vp);
else
v_ins = INS_VOID();
} 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);
if (int_idx >= 0 && int_idx < afp->argc) {
JSTraceType type = getCoercedType(*vp);
// Guard that the argument has the same type on trace as during recording.
LIns* typemap_ins;
if (callDepth == depth) {
// 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 */);
if (stackSlots * sizeof(JSTraceType) > LirBuffer::MAX_SKIP_PAYLOAD_SZB)
ABORT_TRACE("|arguments| requires saving too much stack");
JSTraceType* typemap = new (*traceMonitor->dataAlloc) JSTraceType[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*));
typemap_ins = lir->ins2(LIR_add, fip_ins, INS_CONST(sizeof(FrameInfo) + 2/*callee,this*/ * sizeof(JSTraceType)));
}
LIns* typep_ins = lir->ins2(LIR_piadd, typemap_ins,
lir->ins_u2p(lir->ins2(LIR_mul,
idx_ins,
INS_CONST(sizeof(JSTraceType)))));
LIns* type_ins = lir->insLoad(LIR_ldcb, typep_ins, 0);
guard(true,
addName(lir->ins2(LIR_eq, type_ins, lir->insImm(type)),
"guard(type-stable upvar)"),
BRANCH_EXIT);
// Read the value out of the native stack area.
guard(true, lir->ins2(LIR_ult, idx_ins, INS_CONST(afp->argc)),
snapshot(BRANCH_EXIT));
size_t stackOffset = -treeInfo->nativeStackBase + nativeStackOffset(&afp->argv[0]);
LIns* args_addr_ins = lir->ins2(LIR_piadd, lirbuf->sp, INS_CONSTWORD(stackOffset));
LIns* argi_addr_ins = lir->ins2(LIR_piadd,
args_addr_ins,
lir->ins_u2p(lir->ins2(LIR_mul,
idx_ins,
INS_CONST(sizeof(double)))));
v_ins = stackLoad(argi_addr_ins, type);
} else {
guard(false, lir->ins2(LIR_ult, idx_ins, INS_CONST(afp->argc)),
snapshot(BRANCH_EXIT));
v_ins = INS_VOID();
}
}
JS_ASSERT(v_ins);
set(&lval, v_ins);
return JSRS_CONTINUE;
}
ABORT_TRACE("can't reach arguments object's frame");
}
if (js_IsDenseArray(obj)) {
// Fast path for dense arrays accessed with a integer index.
jsval* vp;
LIns* addr_ins;
guardDenseArray(obj, obj_ins, BRANCH_EXIT);
CHECK_STATUS(denseArrayElement(lval, idx, vp, v_ins, addr_ins));
set(&lval, v_ins);
if (call)
set(&idx, obj_ins);
return JSRS_CONTINUE;
}
return getPropertyByIndex(obj_ins, idx_ins, &lval);
}
/* Functions used by JSOP_SETELEM */
static JSBool FASTCALL
SetPropertyByName(JSContext* cx, JSObject* obj, JSString** namep, jsval* vp)
{
js_LeaveTraceIfGlobalObject(cx, obj);
jsid id;
if (!RootedStringToId(cx, namep, &id) || !obj->setProperty(cx, id, vp)) {
js_SetBuiltinError(cx);
return JS_FALSE;
}
return cx->interpState->builtinStatus == 0;
}
JS_DEFINE_CALLINFO_4(static, BOOL_FAIL, SetPropertyByName, CONTEXT, OBJECT, STRINGPTR, JSVALPTR,
0, 0)
static JSBool FASTCALL
InitPropertyByName(JSContext* cx, JSObject* obj, JSString** namep, jsval val)
{
js_LeaveTraceIfGlobalObject(cx, obj);
jsid id;
if (!RootedStringToId(cx, namep, &id) ||
!obj->defineProperty(cx, id, val, NULL, NULL, JSPROP_ENUMERATE)) {
js_SetBuiltinError(cx);
return JS_FALSE;
}
return cx->interpState->builtinStatus == 0;
}
JS_DEFINE_CALLINFO_4(static, BOOL_FAIL, InitPropertyByName, CONTEXT, OBJECT, STRINGPTR, JSVAL,
0, 0)
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::initOrSetPropertyByName(LIns* obj_ins, jsval* idvalp, jsval* rvalp, bool init)
{
CHECK_STATUS(primitiveToStringInPlace(idvalp));
LIns* rval_ins = box_jsval(*rvalp, get(rvalp));
enterDeepBailCall();
LIns* ok_ins;
LIns* idvalp_ins = addName(addr(idvalp), "idvalp");
if (init) {
LIns* args[] = {rval_ins, idvalp_ins, obj_ins, cx_ins};
ok_ins = lir->insCall(&InitPropertyByName_ci, args);
} else {
// See note in getPropertyByName about vp.
LIns* vp_ins = addName(lir->insAlloc(sizeof(jsval)), "vp");
lir->insStorei(rval_ins, vp_ins, 0);
LIns* args[] = {vp_ins, idvalp_ins, obj_ins, cx_ins};
ok_ins = lir->insCall(&SetPropertyByName_ci, args);
}
guard(true, ok_ins, STATUS_EXIT);
leaveDeepBailCall();
return JSRS_CONTINUE;
}
static JSBool FASTCALL
SetPropertyByIndex(JSContext* cx, JSObject* obj, int32 index, jsval* vp)
{
js_LeaveTraceIfGlobalObject(cx, obj);
JSAutoTempIdRooter idr(cx);
if (!js_Int32ToId(cx, index, idr.addr()) || !obj->setProperty(cx, idr.id(), vp)) {
js_SetBuiltinError(cx);
return JS_FALSE;
}
return cx->interpState->builtinStatus == 0;
}
JS_DEFINE_CALLINFO_4(static, BOOL_FAIL, SetPropertyByIndex, CONTEXT, OBJECT, INT32, JSVALPTR, 0, 0)
static JSBool FASTCALL
InitPropertyByIndex(JSContext* cx, JSObject* obj, int32 index, jsval val)
{
js_LeaveTraceIfGlobalObject(cx, obj);
JSAutoTempIdRooter idr(cx);
if (!js_Int32ToId(cx, index, idr.addr()) ||
!obj->defineProperty(cx, idr.id(), val, NULL, NULL, JSPROP_ENUMERATE)) {
js_SetBuiltinError(cx);
return JS_FALSE;
}
return cx->interpState->builtinStatus == 0;
}
JS_DEFINE_CALLINFO_4(static, BOOL_FAIL, InitPropertyByIndex, CONTEXT, OBJECT, INT32, JSVAL, 0, 0)
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::initOrSetPropertyByIndex(LIns* obj_ins, LIns* index_ins, jsval* rvalp, bool init)
{
index_ins = makeNumberInt32(index_ins);
LIns* rval_ins = box_jsval(*rvalp, get(rvalp));
enterDeepBailCall();
LIns* ok_ins;
if (init) {
LIns* args[] = {rval_ins, index_ins, obj_ins, cx_ins};
ok_ins = lir->insCall(&InitPropertyByIndex_ci, args);
} else {
// See note in getPropertyByName about vp.
LIns* vp_ins = addName(lir->insAlloc(sizeof(jsval)), "vp");
lir->insStorei(rval_ins, vp_ins, 0);
LIns* args[] = {vp_ins, index_ins, obj_ins, cx_ins};
ok_ins = lir->insCall(&SetPropertyByIndex_ci, args);
}
guard(true, ok_ins, STATUS_EXIT);
leaveDeepBailCall();
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_SETELEM()
{
jsval& v = stackval(-1);
jsval& idx = stackval(-2);
jsval& lval = stackval(-3);
if (JSVAL_IS_PRIMITIVE(lval))
ABORT_TRACE("left JSOP_SETELEM operand is not an object");
ABORT_IF_XML(lval);
JSObject* obj = JSVAL_TO_OBJECT(lval);
LIns* obj_ins = get(&lval);
LIns* idx_ins = get(&idx);
LIns* v_ins = get(&v);
if (!JSVAL_IS_INT(idx)) {
if (!JSVAL_IS_PRIMITIVE(idx))
ABORT_TRACE("non-primitive index");
CHECK_STATUS(initOrSetPropertyByName(obj_ins, &idx, &v,
*cx->fp->regs->pc == JSOP_INITELEM));
} else if (JSVAL_TO_INT(idx) < 0 || !OBJ_IS_DENSE_ARRAY(cx, obj)) {
CHECK_STATUS(initOrSetPropertyByIndex(obj_ins, idx_ins, &v,
*cx->fp->regs->pc == JSOP_INITELEM));
} else {
// Fast path: assigning to element of dense array.
// Make sure the array is actually dense.
if (!guardDenseArray(obj, obj_ins, BRANCH_EXIT))
return JSRS_STOP;
// The index was on the stack and is therefore a LIR float. Force it to
// be an integer.
idx_ins = makeNumberInt32(idx_ins);
// Box the value so we can use one builtin instead of having to add one
// builtin for every storage type. Special case for integers though,
// since they are so common.
LIns* res_ins;
LIns* args[] = { NULL, idx_ins, obj_ins, cx_ins };
if (isNumber(v)) {
if (isPromoteInt(v_ins)) {
args[0] = ::demote(lir, v_ins);
res_ins = lir->insCall(&js_Array_dense_setelem_int_ci, args);
} else {
args[0] = v_ins;
res_ins = lir->insCall(&js_Array_dense_setelem_double_ci, args);
}
} else {
LIns* args[] = { box_jsval(v, v_ins), idx_ins, obj_ins, cx_ins };
res_ins = lir->insCall(&js_Array_dense_setelem_ci, args);
}
guard(false, lir->ins_eq0(res_ins), MISMATCH_EXIT);
}
jsbytecode* pc = cx->fp->regs->pc;
if (*pc == JSOP_SETELEM && pc[JSOP_SETELEM_LENGTH] != JSOP_POP)
set(&lval, v_ins);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_CALLNAME()
{
JSObject* obj = cx->fp->scopeChain;
if (obj != globalObj) {
jsval* vp;
LIns* ins;
NameResult nr;
CHECK_STATUS(scopeChainProp(obj, vp, ins, nr));
stack(0, ins);
stack(1, INS_CONSTOBJ(globalObj));
return JSRS_CONTINUE;
}
LIns* obj_ins = scopeChain();
JSObject* obj2;
jsuword pcval;
CHECK_STATUS(test_property_cache(obj, obj_ins, obj2, pcval));
if (PCVAL_IS_NULL(pcval) || !PCVAL_IS_OBJECT(pcval))
ABORT_TRACE("callee is not an object");
JS_ASSERT(HAS_FUNCTION_CLASS(PCVAL_TO_OBJECT(pcval)));
stack(0, INS_CONSTOBJ(PCVAL_TO_OBJECT(pcval)));
stack(1, obj_ins);
return JSRS_CONTINUE;
}
JS_DEFINE_CALLINFO_5(extern, UINT32, GetUpvarArgOnTrace, CONTEXT, UINT32, INT32, UINT32,
DOUBLEPTR, 0, 0)
JS_DEFINE_CALLINFO_5(extern, UINT32, GetUpvarVarOnTrace, CONTEXT, UINT32, INT32, UINT32,
DOUBLEPTR, 0, 0)
JS_DEFINE_CALLINFO_5(extern, UINT32, GetUpvarStackOnTrace, CONTEXT, UINT32, INT32, UINT32,
DOUBLEPTR, 0, 0)
/*
* 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, jsval& 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.
*/
uint32 cookie = uva->vector[index];
jsval& vr = js_GetUpvar(cx, script->staticLevel, cookie);
v = vr;
if (known(&vr))
return get(&vr);
/*
* The upvar is not in the current trace, so get the upvar value exactly as
* the interpreter does and unbox.
*/
uint32 level = script->staticLevel - UPVAR_FRAME_SKIP(cookie);
uint32 cookieSlot = UPVAR_FRAME_SLOT(cookie);
JSStackFrame* fp = cx->display[level];
const CallInfo* ci;
int32 slot;
if (!fp->fun) {
ci = &GetUpvarStackOnTrace_ci;
slot = cookieSlot;
} else if (cookieSlot < fp->fun->nargs) {
ci = &GetUpvarArgOnTrace_ci;
slot = cookieSlot;
} else if (cookieSlot == CALLEE_UPVAR_SLOT) {
ci = &GetUpvarArgOnTrace_ci;
slot = -2;
} else {
ci = &GetUpvarVarOnTrace_ci;
slot = cookieSlot - fp->fun->nargs;
}
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);
JSTraceType type = getCoercedType(v);
guard(true,
addName(lir->ins2(LIR_eq, call_ins, lir->insImm(type)),
"guard(type-stable upvar)"),
BRANCH_EXIT);
return stackLoad(outp, 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, uint8 type)
{
LOpcode loadOp;
switch (type) {
case TT_DOUBLE:
loadOp = LIR_ldq;
break;
case TT_OBJECT:
case TT_STRING:
case TT_FUNCTION:
case TT_NULL:
loadOp = LIR_ldp;
break;
case TT_INT32:
case TT_PSEUDOBOOLEAN:
loadOp = LIR_ld;
break;
case TT_JSVAL:
default:
JS_NOT_REACHED("found jsval type in an upvar type map entry");
return NULL;
}
LIns* result = lir->insLoad(loadOp, base, 0);
if (type == TT_INT32)
result = lir->ins1(LIR_i2f, result);
return result;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_GETUPVAR()
{
uintN index = GET_UINT16(cx->fp->regs->pc);
JSScript *script = cx->fp->script;
JSUpvarArray* uva = script->upvars();
JS_ASSERT(index < uva->length);
jsval v;
LIns* upvar_ins = upvar(script, uva, index, v);
if (!upvar_ins)
return JSRS_STOP;
stack(0, upvar_ins);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_CALLUPVAR()
{
CHECK_STATUS(record_JSOP_GETUPVAR());
stack(1, INS_NULL());
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_GETDSLOT()
{
JSObject* callee = JSVAL_TO_OBJECT(cx->fp->argv[-2]);
LIns* callee_ins = get(&cx->fp->argv[-2]);
unsigned index = GET_UINT16(cx->fp->regs->pc);
LIns* dslots_ins = NULL;
LIns* v_ins = stobj_get_dslot(callee_ins, index, dslots_ins);
stack(0, unbox_jsval(callee->dslots[index], v_ins, snapshot(BRANCH_EXIT)));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_CALLDSLOT()
{
CHECK_STATUS(record_JSOP_GETDSLOT());
stack(1, INS_NULL());
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::guardCallee(jsval& callee)
{
JS_ASSERT(VALUE_IS_FUNCTION(cx, callee));
VMSideExit* branchExit = snapshot(BRANCH_EXIT);
JSObject* callee_obj = JSVAL_TO_OBJECT(callee);
LIns* callee_ins = get(&callee);
treeInfo->gcthings.addUnique(callee);
guard(true,
lir->ins2(LIR_peq,
stobj_get_private(callee_ins),
INS_CONSTPTR(callee_obj->getPrivate())),
branchExit);
guard(true,
lir->ins2(LIR_peq,
stobj_get_parent(callee_ins),
INS_CONSTOBJ(OBJ_GET_PARENT(cx, callee_obj))),
branchExit);
return JSRS_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(STOBJ_GET_CLASS(obj) == &js_ArgumentsClass);
JSStackFrame *afp = frameIfInRange(obj, depthp);
if (!afp)
return NULL;
VMSideExit *exit = snapshot(MISMATCH_EXIT);
guardClass(obj, obj_ins, &js_ArgumentsClass, exit);
LIns* args_ins = get(&afp->argsobj);
LIns* cmp = lir->ins2(LIR_peq, args_ins, obj_ins);
lir->insGuard(LIR_xf, cmp, createGuardRecord(exit));
return afp;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::interpretedFunctionCall(jsval& fval, JSFunction* fun, uintN argc, bool constructing)
{
if (JS_GetGlobalForObject(cx, JSVAL_TO_OBJECT(fval)) != globalObj)
ABORT_TRACE("JSOP_CALL or JSOP_NEW crosses global scopes");
JSStackFrame* fp = cx->fp;
// TODO: track the copying via the tracker...
if (argc < fun->nargs &&
jsuword(fp->regs->sp + (fun->nargs - argc)) > cx->stackPool.current->limit) {
ABORT_TRACE("can't trace calls with too few args requiring argv move");
}
// Generate a type map for the outgoing frame and stash it in the LIR
unsigned stackSlots = NativeStackSlots(cx, 0 /* callDepth */);
if (sizeof(FrameInfo) + stackSlots * sizeof(JSTraceType) > LirBuffer::MAX_SKIP_PAYLOAD_SZB)
ABORT_TRACE("interpreted function call requires saving too much stack");
FrameInfo* fi = (FrameInfo*)
traceMonitor->dataAlloc->alloc(sizeof(FrameInfo) +
stackSlots * sizeof(JSTraceType));
JSTraceType* typemap = reinterpret_cast<JSTraceType *>(fi + 1);
DetermineTypesVisitor detVisitor(*this, typemap);
VisitStackSlots(detVisitor, cx, 0);
JS_ASSERT(argc < FrameInfo::CONSTRUCTING_FLAG);
treeInfo->gcthings.addUnique(fval);
fi->block = fp->blockChain;
if (fp->blockChain)
treeInfo->gcthings.addUnique(OBJECT_TO_JSVAL(fp->blockChain));
fi->pc = fp->regs->pc;
fi->imacpc = fp->imacpc;
fi->spdist = fp->regs->sp - fp->slots;
fi->set_argc(argc, constructing);
fi->callerHeight = NativeStackSlots(cx, 0) - (2 + argc);
fi->callerArgc = fp->argc;
unsigned callDepth = getCallDepth();
if (callDepth >= treeInfo->maxCallDepth)
treeInfo->maxCallDepth = callDepth + 1;
lir->insStorei(INS_CONSTPTR(fi), lirbuf->rp, callDepth * sizeof(FrameInfo*));
atoms = fun->u.i.script->atomMap.vector;
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_CALL()
{
uintN argc = GET_ARGC(cx->fp->regs->pc);
cx->fp->assertValidStackDepth(argc + 2);
return functionCall(argc,
(cx->fp->imacpc && *cx->fp->imacpc == 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 JSRecordingStatus
TraceRecorder::record_JSOP_APPLY()
{
JSStackFrame* fp = cx->fp;
jsbytecode *pc = fp->regs->pc;
uintN argc = GET_ARGC(pc);
cx->fp->assertValidStackDepth(argc + 2);
jsval* vp = fp->regs->sp - (argc + 2);
jsuint length = 0;
JSObject* aobj = NULL;
LIns* aobj_ins = NULL;
JS_ASSERT(!fp->imacpc);
if (!VALUE_IS_FUNCTION(cx, vp[0]))
return record_JSOP_CALL();
ABORT_IF_XML(vp[0]);
JSObject* obj = JSVAL_TO_OBJECT(vp[0]);
JSFunction* fun = GET_FUNCTION_PRIVATE(cx, obj);
if (FUN_INTERPRETED(fun))
return record_JSOP_CALL();
bool apply = (JSFastNative)fun->u.n.native == js_fun_apply;
if (!apply && (JSFastNative)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 && JSVAL_IS_PRIMITIVE(vp[2]))
return record_JSOP_CALL();
/*
* Guard on the identity of this, which is the function we are applying.
*/
if (!VALUE_IS_FUNCTION(cx, vp[1]))
ABORT_TRACE("callee is not a function");
CHECK_STATUS(guardCallee(vp[1]));
if (apply && argc >= 2) {
if (argc != 2)
ABORT_TRACE("apply with excess arguments");
if (JSVAL_IS_PRIMITIVE(vp[3]))
ABORT_TRACE("arguments parameter of apply is primitive");
aobj = JSVAL_TO_OBJECT(vp[3]);
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 (OBJ_IS_DENSE_ARRAY(cx, aobj)) {
guardDenseArray(aobj, aobj_ins);
length = jsuint(aobj->fslots[JSSLOT_ARRAY_LENGTH]);
guard(true,
lir->ins2i(LIR_eq,
p2i(stobj_get_fslot(aobj_ins, JSSLOT_ARRAY_LENGTH)),
length),
BRANCH_EXIT);
} else if (OBJ_GET_CLASS(cx, aobj) == &js_ArgumentsClass) {
unsigned depth;
JSStackFrame *afp = guardArguments(aobj, aobj_ins, &depth);
if (!afp)
ABORT_TRACE("can't reach arguments object's frame");
length = afp->argc;
} else {
ABORT_TRACE("arguments parameter of apply is not a dense array or argments object");
}
if (length >= JS_ARRAY_LENGTH(apply_imacro_table))
ABORT_TRACE("too many arguments to apply");
return call_imacro(apply_imacro_table[length]);
}
if (argc >= JS_ARRAY_LENGTH(call_imacro_table))
ABORT_TRACE("too many arguments to call");
return call_imacro(call_imacro_table[argc]);
}
static JSBool FASTCALL
CatchStopIteration_tn(JSContext* cx, JSBool ok, jsval* vp)
{
if (!ok && cx->throwing && js_ValueIsStopIteration(cx->exception)) {
cx->throwing = JS_FALSE;
cx->exception = JSVAL_VOID;
*vp = JSVAL_HOLE;
return JS_TRUE;
}
return ok;
}
JS_DEFINE_TRCINFO_1(CatchStopIteration_tn,
(3, (static, BOOL, CatchStopIteration_tn, CONTEXT, BOOL, JSVALPTR, 0, 0)))
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_NativeCallComplete()
{
if (pendingSpecializedNative == IGNORE_NATIVE_CALL_COMPLETE_CALLBACK)
return JSRS_CONTINUE;
jsbytecode* pc = cx->fp->regs->pc;
JS_ASSERT(pendingSpecializedNative);
JS_ASSERT(*pc == JSOP_CALL || *pc == JSOP_APPLY || *pc == JSOP_NEW || *pc == JSOP_SETPROP);
jsval& 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_jsval() fails.
*/
if (JSTN_ERRTYPE(pendingSpecializedNative) == FAIL_STATUS) {
/* Keep cx->bailExit null when it's invalid. */
lir->insStorei(INS_NULL(), cx_ins, (int) offsetof(JSContext, bailExit));
LIns* status = lir->insLoad(LIR_ld, lirbuf->state, (int) offsetof(InterpState, builtinStatus));
if (pendingSpecializedNative == &generatedSpecializedNative) {
LIns* ok_ins = v_ins;
/*
* Custom implementations of Iterator.next() throw a StopIteration exception.
* Catch and clear it and set the return value to JSVAL_HOLE in this case.
*/
if (uintptr_t(pc - nextiter_imacros.custom_iter_next) <
sizeof(nextiter_imacros.custom_iter_next)) {
LIns* args[] = { native_rval_ins, ok_ins, cx_ins }; /* reverse order */
ok_ins = lir->insCall(&CatchStopIteration_tn_ci, args);
}
/*
* 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.
*/
v_ins = lir->insLoad(LIR_ldp, native_rval_ins, 0);
if (*pc == JSOP_NEW) {
LIns* x = lir->ins_peq0(lir->ins2(LIR_piand, v_ins, INS_CONSTWORD(JSVAL_TAGMASK)));
x = lir->ins_choose(x, v_ins, INS_CONSTWORD(0));
v_ins = lir->ins_choose(lir->ins_peq0(x), newobj_ins, x);
}
set(&v, v_ins);
propagateFailureToBuiltinStatus(ok_ins, status);
}
guard(true, lir->ins_eq0(status), STATUS_EXIT);
}
JSRecordingStatus ok = JSRS_CONTINUE;
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->fp->regs->sp[-1] && get(&v) == v_ins);
set(&v, unbox_jsval(v, v_ins, snapshot(BRANCH_EXIT)));
} else if (JSTN_ERRTYPE(pendingSpecializedNative) == FAIL_NEG) {
/* Already added i2f in functionCall. */
JS_ASSERT(JSVAL_IS_NUMBER(v));
} else {
/* Convert the result to double if the builtin returns int32. */
if (JSVAL_IS_NUMBER(v) &&
(pendingSpecializedNative->builtin->_argtypes & ARGSIZE_MASK_ANY) == ARGSIZE_I) {
set(&v, lir->ins1(LIR_i2f, 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 ok;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::name(jsval*& vp, LIns*& ins, NameResult& nr)
{
JSObject* obj = cx->fp->scopeChain;
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 = scopeChain();
uint32 slot;
JSObject* obj2;
jsuword pcval;
/*
* Property cache ensures that we are dealing with an existing property,
* and guards the shape for us.
*/
CHECK_STATUS(test_property_cache(obj, obj_ins, obj2, pcval));
/* Abort if property doesn't exist (interpreter will report an error.) */
if (PCVAL_IS_NULL(pcval))
ABORT_TRACE("named property not found");
/* Insist on obj being the directly addressed object. */
if (obj2 != obj)
ABORT_TRACE("name() hit prototype chain");
/* Don't trace getter or setter calls, our caller wants a direct slot. */
if (PCVAL_IS_SPROP(pcval)) {
JSScopeProperty* sprop = PCVAL_TO_SPROP(pcval);
if (!isValidSlot(OBJ_SCOPE(obj), sprop))
ABORT_TRACE("name() not accessing a valid slot");
slot = sprop->slot;
} else {
if (!PCVAL_IS_SLOT(pcval))
ABORT_TRACE("PCE is not a slot");
slot = PCVAL_TO_SLOT(pcval);
}
if (!lazilyImportGlobalSlot(slot))
ABORT_TRACE("lazy import of global slot failed");
vp = &STOBJ_GET_SLOT(obj, slot);
ins = get(vp);
nr.tracked = true;
return JSRS_CONTINUE;
}
static JSObject* FASTCALL
MethodReadBarrier(JSContext* cx, JSObject* obj, JSScopeProperty* sprop, JSObject* funobj)
{
JSAutoTempValueRooter tvr(cx, funobj);
if (!OBJ_SCOPE(obj)->methodReadBarrier(cx, sprop, tvr.addr()))
return NULL;
JS_ASSERT(VALUE_IS_FUNCTION(cx, tvr.value()));
return JSVAL_TO_OBJECT(tvr.value());
}
JS_DEFINE_CALLINFO_4(static, OBJECT_FAIL, MethodReadBarrier, CONTEXT, OBJECT, SCOPEPROP, OBJECT,
0, 0)
/*
* 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 JSRecordingStatus
TraceRecorder::prop(JSObject* obj, LIns* obj_ins, uint32 *slotp, LIns** v_insp, jsval *outp)
{
JS_ASSERT((slotp && v_insp && !outp) || (!slotp && !v_insp && outp));
/*
* Can't specialize to assert obj != global, must guard to avoid aliasing
* stale homes of stacked global variables.
*/
CHECK_STATUS(guardNotGlobalObject(obj, obj_ins));
/*
* Property cache ensures that we are dealing with an existing property,
* and guards the shape for us.
*/
JSObject* obj2;
jsuword pcval;
CHECK_STATUS(test_property_cache(obj, obj_ins, obj2, pcval));
/* Check for non-existent property reference, which results in undefined. */
const JSCodeSpec& cs = js_CodeSpec[*cx->fp->regs->pc];
if (PCVAL_IS_NULL(pcval)) {
if (slotp)
ABORT_TRACE("property not found");
/*
* We could specialize to guard on just JSClass.getProperty, but a mere
* class guard is simpler and slightly faster.
*/
if (OBJ_GET_CLASS(cx, obj)->getProperty != JS_PropertyStub) {
ABORT_TRACE("can't trace through access to undefined property if "
"JSClass.getProperty hook isn't stubbed");
}
guardClass(obj, obj_ins, OBJ_GET_CLASS(cx, obj), snapshot(MISMATCH_EXIT));
/*
* 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 {
LIns* map_ins = map(obj_ins);
LIns* ops_ins;
if (map_is_native(obj->map, map_ins, ops_ins)) {
guardShape(obj_ins, obj, OBJ_SHAPE(obj), "guard(shape)", map_ins, exit);
} else if (!guardDenseArray(obj, obj_ins, exit)) {
ABORT_TRACE("non-native object involved in undefined property access");
}
} while (guardHasPrototype(obj, obj_ins, &obj, &obj_ins, exit));
set(outp, INS_CONST(JSVAL_TO_SPECIAL(JSVAL_VOID)), true);
return JSRS_CONTINUE;
}
uint32 setflags = (cs.format & (JOF_INCDEC | JOF_FOR));
JS_ASSERT(!(cs.format & JOF_SET));
JSScopeProperty* sprop;
uint32 slot;
bool isMethod;
if (PCVAL_IS_SPROP(pcval)) {
sprop = PCVAL_TO_SPROP(pcval);
JS_ASSERT(OBJ_SCOPE(obj2)->has(sprop));
if (setflags && !SPROP_HAS_STUB_SETTER(sprop))
ABORT_TRACE("non-stub setter");
if (setflags && (sprop->attrs & JSPROP_READONLY))
ABORT_TRACE("writing to a readonly property");
if (!SPROP_HAS_STUB_GETTER_OR_IS_METHOD(sprop)) {
if (slotp)
ABORT_TRACE("can't trace non-stub getter for this opcode");
if (sprop->attrs & JSPROP_GETTER)
ABORT_TRACE("script getter");
if (sprop->slot == SPROP_INVALID_SLOT)
return getPropertyWithNativeGetter(obj_ins, sprop, outp);
return getPropertyById(obj_ins, outp);
}
if (!SPROP_HAS_VALID_SLOT(sprop, OBJ_SCOPE(obj2)))
ABORT_TRACE("no valid slot");
slot = sprop->slot;
isMethod = sprop->isMethod();
JS_ASSERT_IF(isMethod, OBJ_SCOPE(obj2)->hasMethodBarrier());
} else {
if (!PCVAL_IS_SLOT(pcval))
ABORT_TRACE("PCE is not a slot");
slot = PCVAL_TO_SLOT(pcval);
sprop = NULL;
isMethod = false;
}
/* We have a slot. Check whether it is direct or in a prototype. */
if (obj2 != obj) {
if (setflags)
ABORT_TRACE("JOF_INCDEC|JOF_FOR opcode hit prototype chain");
/*
* We're getting a proto-property. Walk up the prototype chain emitting
* proto slot loads, updating obj as we go, leaving obj set to obj2 with
* obj_ins the last proto-load.
*/
do {
obj_ins = stobj_get_proto(obj_ins);
obj = STOBJ_GET_PROTO(obj);
} while (obj != obj2);
}
LIns* dslots_ins = NULL;
LIns* v_ins = unbox_jsval(STOBJ_GET_SLOT(obj, slot),
stobj_get_slot(obj_ins, slot, dslots_ins),
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->imacpc) {
LIns* args[] = { v_ins, INS_CONSTSPROP(sprop), obj_ins, cx_ins };
v_ins = lir->insCall(&MethodReadBarrier_ci, args);
}
if (slotp) {
*slotp = slot;
*v_insp = v_ins;
}
if (outp)
set(outp, v_ins, true);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::denseArrayElement(jsval& oval, jsval& ival, jsval*& vp, LIns*& v_ins,
LIns*& addr_ins)
{
JS_ASSERT(JSVAL_IS_OBJECT(oval) && JSVAL_IS_INT(ival));
JSObject* obj = JSVAL_TO_OBJECT(oval);
LIns* obj_ins = get(&oval);
jsint idx = JSVAL_TO_INT(ival);
LIns* idx_ins = makeNumberInt32(get(&ival));
LIns* pidx_ins = lir->ins_u2p(idx_ins);
VMSideExit* exit = snapshot(BRANCH_EXIT);
/* check that the index is within bounds */
LIns* dslots_ins = lir->insLoad(LIR_ldp, obj_ins, offsetof(JSObject, dslots));
jsuint capacity = js_DenseArrayCapacity(obj);
bool within = (jsuint(idx) < jsuint(obj->fslots[JSSLOT_ARRAY_LENGTH]) && jsuint(idx) < capacity);
if (!within) {
/* If idx < 0, stay on trace (and read value as undefined, since this is a dense array). */
LIns* br1 = NULL;
if (MAX_DSLOTS_LENGTH > MAX_DSLOTS_LENGTH32 && !idx_ins->isconst()) {
/* Only 64-bit machines support large enough arrays for this. */
JS_ASSERT(sizeof(jsval) == 8);
br1 = lir->insBranch(LIR_jt,
lir->ins2i(LIR_lt, idx_ins, 0),
NULL);
}
/* If not idx < length, stay on trace (and read value as undefined). */
LIns* br2 = lir->insBranch(LIR_jf,
lir->ins2(LIR_pult,
pidx_ins,
stobj_get_fslot(obj_ins, JSSLOT_ARRAY_LENGTH)),
NULL);
/* If dslots is NULL, stay on trace (and read value as undefined). */
LIns* br3 = lir->insBranch(LIR_jt, lir->ins_peq0(dslots_ins), NULL);
/* If not idx < capacity, stay on trace (and read value as undefined). */
LIns* br4 = lir->insBranch(LIR_jf,
lir->ins2(LIR_pult,
pidx_ins,
lir->insLoad(LIR_ldp,
dslots_ins,
-(int)sizeof(jsval))),
NULL);
lir->insGuard(LIR_x, NULL, createGuardRecord(exit));
LIns* label = lir->ins0(LIR_label);
if (br1)
br1->setTarget(label);
br2->setTarget(label);
br3->setTarget(label);
br4->setTarget(label);
CHECK_STATUS(guardPrototypeHasNoIndexedProperties(obj, obj_ins, MISMATCH_EXIT));
// Return undefined and indicate that we didn't actually read this (addr_ins).
v_ins = lir->insImm(JSVAL_TO_SPECIAL(JSVAL_VOID));
addr_ins = NULL;
return JSRS_CONTINUE;
}
/* Guard against negative index */
if (MAX_DSLOTS_LENGTH > MAX_DSLOTS_LENGTH32 && !idx_ins->isconst()) {
/* Only 64-bit machines support large enough arrays for this. */
JS_ASSERT(sizeof(jsval) == 8);
guard(false,
lir->ins2i(LIR_lt, idx_ins, 0),
exit);
}
/* Guard array length */
guard(true,
lir->ins2(LIR_pult, pidx_ins, stobj_get_fslot(obj_ins, JSSLOT_ARRAY_LENGTH)),
exit);
/* dslots must not be NULL */
guard(false,
lir->ins_peq0(dslots_ins),
exit);
/* Guard array capacity */
guard(true,
lir->ins2(LIR_pult,
pidx_ins,
lir->insLoad(LIR_ldp, dslots_ins, 0 - (int)sizeof(jsval))),
exit);
/* Load the value and guard on its type to unbox it. */
vp = &obj->dslots[jsuint(idx)];
addr_ins = lir->ins2(LIR_piadd, dslots_ins,
lir->ins2i(LIR_pilsh, pidx_ins, (sizeof(jsval) == 4) ? 2 : 3));
v_ins = unbox_jsval(*vp, lir->insLoad(LIR_ldp, addr_ins, 0), exit);
if (JSVAL_IS_SPECIAL(*vp)) {
/*
* If we read a hole from the array, convert it to undefined and guard
* that there are no indexed properties along the prototype chain.
*/
LIns* br = lir->insBranch(LIR_jf,
lir->ins2i(LIR_eq, v_ins, JSVAL_TO_SPECIAL(JSVAL_HOLE)),
NULL);
CHECK_STATUS(guardPrototypeHasNoIndexedProperties(obj, obj_ins, MISMATCH_EXIT));
br->setTarget(lir->ins0(LIR_label));
/* Don't let the hole value escape. Turn it into an undefined. */
v_ins = lir->ins2i(LIR_and, v_ins, ~(JSVAL_HOLE_FLAG >> JSVAL_TAGBITS));
}
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::getProp(JSObject* obj, LIns* obj_ins)
{
const JSCodeSpec& cs = js_CodeSpec[*cx->fp->regs->pc];
JS_ASSERT(cs.ndefs == 1);
return prop(obj, obj_ins, NULL, NULL, &stackval(-cs.nuses));
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::getProp(jsval& v)
{
if (JSVAL_IS_PRIMITIVE(v))
ABORT_TRACE("primitive lhs");
return getProp(JSVAL_TO_OBJECT(v), get(&v));
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_NAME()
{
jsval* vp;
LIns* v_ins;
NameResult nr;
CHECK_STATUS(name(vp, v_ins, nr));
stack(0, v_ins);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_DOUBLE()
{
jsval v = jsval(atoms[GET_INDEX(cx->fp->regs->pc)]);
stack(0, lir->insImmf(*JSVAL_TO_DOUBLE(v)));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_STRING()
{
JSAtom* atom = atoms[GET_INDEX(cx->fp->regs->pc)];
JS_ASSERT(ATOM_IS_STRING(atom));
stack(0, INS_ATOM(atom));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_ZERO()
{
stack(0, lir->insImmf(0));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_ONE()
{
stack(0, lir->insImmf(1));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_NULL()
{
stack(0, INS_NULL());
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_THIS()
{
LIns* this_ins;
CHECK_STATUS(getThis(this_ins));
stack(0, this_ins);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_FALSE()
{
stack(0, lir->insImm(0));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_TRUE()
{
stack(0, lir->insImm(1));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_OR()
{
return ifop();
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_AND()
{
return ifop();
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_TABLESWITCH()
{
#ifdef NANOJIT_IA32
/* Handle tableswitches specially -- prepare a jump table if needed. */
return tableswitch();
#else
return switchop();
#endif
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_LOOKUPSWITCH()
{
return switchop();
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_STRICTEQ()
{
strictEquality(true, false);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_STRICTNE()
{
strictEquality(false, false);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_OBJECT()
{
JSStackFrame* fp = cx->fp;
JSScript* script = fp->script;
unsigned index = atoms - script->atomMap.vector + GET_INDEX(fp->regs->pc);
JSObject* obj;
obj = script->getObject(index);
stack(0, INS_CONSTOBJ(obj));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_POP()
{
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_TRAP()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_GETARG()
{
stack(0, arg(GET_ARGNO(cx->fp->regs->pc)));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_SETARG()
{
arg(GET_ARGNO(cx->fp->regs->pc), stack(-1));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_GETLOCAL()
{
stack(0, var(GET_SLOTNO(cx->fp->regs->pc)));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_SETLOCAL()
{
var(GET_SLOTNO(cx->fp->regs->pc), stack(-1));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_UINT16()
{
stack(0, lir->insImmf(GET_UINT16(cx->fp->regs->pc)));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_NEWINIT()
{
JSProtoKey key = JSProtoKey(GET_INT8(cx->fp->regs->pc));
LIns* proto_ins;
CHECK_STATUS(getClassPrototype(key, proto_ins));
LIns* args[] = { proto_ins, cx_ins };
const CallInfo *ci = (key == JSProto_Array) ? &js_NewEmptyArray_ci : &js_Object_tn_ci;
LIns* v_ins = lir->insCall(ci, args);
guard(false, lir->ins_peq0(v_ins), OOM_EXIT);
stack(0, v_ins);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_ENDINIT()
{
#ifdef DEBUG
jsval& v = stackval(-1);
JS_ASSERT(!JSVAL_IS_PRIMITIVE(v));
#endif
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_INITPROP()
{
// All the action is in record_SetPropHit.
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_INITELEM()
{
return record_JSOP_SETELEM();
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_DEFSHARP()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_USESHARP()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_INCARG()
{
return inc(argval(GET_ARGNO(cx->fp->regs->pc)), 1);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_INCLOCAL()
{
return inc(varval(GET_SLOTNO(cx->fp->regs->pc)), 1);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_DECARG()
{
return inc(argval(GET_ARGNO(cx->fp->regs->pc)), -1);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_DECLOCAL()
{
return inc(varval(GET_SLOTNO(cx->fp->regs->pc)), -1);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_ARGINC()
{
return inc(argval(GET_ARGNO(cx->fp->regs->pc)), 1, false);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_LOCALINC()
{
return inc(varval(GET_SLOTNO(cx->fp->regs->pc)), 1, false);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_ARGDEC()
{
return inc(argval(GET_ARGNO(cx->fp->regs->pc)), -1, false);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_LOCALDEC()
{
return inc(varval(GET_SLOTNO(cx->fp->regs->pc)), -1, false);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_IMACOP()
{
JS_ASSERT(cx->fp->imacpc);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_ITER()
{
jsval& v = stackval(-1);
if (JSVAL_IS_PRIMITIVE(v))
ABORT_TRACE("for-in on a primitive value");
ABORT_IF_XML(v);
jsuint flags = cx->fp->regs->pc[1];
if (hasIteratorMethod(JSVAL_TO_OBJECT(v))) {
if (flags == JSITER_ENUMERATE)
return call_imacro(iter_imacros.for_in);
if (flags == (JSITER_ENUMERATE | JSITER_FOREACH))
return call_imacro(iter_imacros.for_each);
} else {
if (flags == JSITER_ENUMERATE)
return call_imacro(iter_imacros.for_in_native);
if (flags == (JSITER_ENUMERATE | JSITER_FOREACH))
return call_imacro(iter_imacros.for_each_native);
}
ABORT_TRACE("unimplemented JSITER_* flags");
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_NEXTITER()
{
jsval& iterobj_val = stackval(-2);
if (JSVAL_IS_PRIMITIVE(iterobj_val))
ABORT_TRACE("for-in on a primitive value");
ABORT_IF_XML(iterobj_val);
JSObject* iterobj = JSVAL_TO_OBJECT(iterobj_val);
JSClass* clasp = STOBJ_GET_CLASS(iterobj);
LIns* iterobj_ins = get(&iterobj_val);
if (clasp == &js_IteratorClass || clasp == &js_GeneratorClass) {
guardClass(iterobj, iterobj_ins, clasp, snapshot(BRANCH_EXIT));
return call_imacro(nextiter_imacros.native_iter_next);
}
return call_imacro(nextiter_imacros.custom_iter_next);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_ENDITER()
{
LIns* args[] = { stack(-2), cx_ins };
LIns* ok_ins = lir->insCall(&js_CloseIterator_ci, args);
guard(false, lir->ins_eq0(ok_ins), MISMATCH_EXIT);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_FORNAME()
{
jsval* vp;
LIns* x_ins;
NameResult nr;
CHECK_STATUS(name(vp, x_ins, nr));
if (!nr.tracked)
ABORT_TRACE("forname on non-tracked value not supported");
set(vp, stack(-1));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_FORPROP()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_FORELEM()
{
return record_JSOP_DUP();
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_FORARG()
{
return record_JSOP_SETARG();
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_FORLOCAL()
{
return record_JSOP_SETLOCAL();
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_POPN()
{
return JSRS_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
* obj2 end object for traversal
* obj2_ins [out] LIR instruction representing obj2
*/
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::traverseScopeChain(JSObject *obj, LIns *obj_ins, JSObject *obj2, LIns *&obj2_ins)
{
VMSideExit* exit = NULL;
for (;;) {
if (obj != globalObj) {
if (!js_IsCacheableNonGlobalScope(obj))
ABORT_TRACE("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 (STOBJ_GET_CLASS(obj) == &js_CallClass &&
JSFUN_HEAVYWEIGHT_TEST(js_GetCallObjectFunction(obj)->flags)) {
LIns* map_ins = map(obj_ins);
LIns* shape_ins = addName(lir->insLoad(LIR_ld, map_ins, offsetof(JSScope, shape)),
"obj_shape");
if (!exit)
exit = snapshot(BRANCH_EXIT);
guard(true,
addName(lir->ins2i(LIR_eq, shape_ins, OBJ_SHAPE(obj)), "guard_shape"),
exit);
}
}
if (obj == obj2)
break;
obj = STOBJ_GET_PARENT(obj);
if (!obj)
ABORT_TRACE("target object not reached on scope chain");
obj_ins = stobj_get_parent(obj_ins);
}
obj2_ins = obj_ins;
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_BINDNAME()
{
JSStackFrame *fp = cx->fp;
JSObject *obj;
if (!fp->fun) {
obj = fp->scopeChain;
// 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_GET_CLASS(cx, obj) == &js_BlockClass) {
// The block's values are still on the stack.
JS_ASSERT(obj->getPrivate() == fp);
obj = OBJ_GET_PARENT(cx, obj);
// Blocks always have parents.
JS_ASSERT(obj);
}
if (obj != globalObj)
ABORT_TRACE("BINDNAME in global code resolved to non-global object");
/*
* 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 JSRS_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))
ABORT_TRACE("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).
jsval *callee = &cx->fp->argv[-2];
obj = STOBJ_GET_PARENT(JSVAL_TO_OBJECT(*callee));
if (obj == globalObj) {
stack(0, INS_CONSTOBJ(obj));
return JSRS_CONTINUE;
}
LIns *obj_ins = stobj_get_parent(get(callee));
// Find the target object.
JSAtom *atom = atoms[GET_INDEX(cx->fp->regs->pc)];
jsid id = ATOM_TO_JSID(atom);
JSObject *obj2 = js_FindIdentifierBase(cx, fp->scopeChain, id);
if (obj2 != globalObj && STOBJ_GET_CLASS(obj2) != &js_CallClass)
ABORT_TRACE("BINDNAME on non-global, non-call object");
// Generate LIR to get to the target object from the start object.
LIns *obj2_ins;
CHECK_STATUS(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 JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_SETNAME()
{
jsval& l = stackval(-2);
JS_ASSERT(!JSVAL_IS_PRIMITIVE(l));
/*
* Trace only cases that are global code, in lightweight functions
* scoped by the global object only, or in call objects.
*/
JSObject* obj = JSVAL_TO_OBJECT(l);
if (OBJ_GET_CLASS(cx, obj) == &js_CallClass)
return JSRS_CONTINUE;
if (obj != cx->fp->scopeChain || obj != globalObj)
ABORT_TRACE("JSOP_SETNAME left operand is not the global object");
// The rest of the work is in record_SetPropHit.
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_THROW()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_IN()
{
jsval& rval = stackval(-1);
jsval& lval = stackval(-2);
if (JSVAL_IS_PRIMITIVE(rval))
ABORT_TRACE("JSOP_IN on non-object right operand");
JSObject* obj = JSVAL_TO_OBJECT(rval);
LIns* obj_ins = get(&rval);
jsid id;
LIns* x;
if (JSVAL_IS_INT(lval)) {
id = INT_JSVAL_TO_JSID(lval);
LIns* args[] = { makeNumberInt32(get(&lval)), obj_ins, cx_ins };
x = lir->insCall(&js_HasNamedPropertyInt32_ci, args);
} else if (JSVAL_IS_STRING(lval)) {
if (!js_ValueToStringId(cx, lval, &id))
ABORT_TRACE_ERROR("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 {
ABORT_TRACE("string or integer expected");
}
guard(false, lir->ins2i(LIR_eq, x, JSVAL_TO_SPECIAL(JSVAL_VOID)), OOM_EXIT);
x = lir->ins2i(LIR_eq, x, 1);
JSObject* obj2;
JSProperty* prop;
if (!obj->lookupProperty(cx, id, &obj2, &prop))
ABORT_TRACE_ERROR("obj->lookupProperty failed in JSOP_IN");
bool cond = prop != NULL;
if (prop)
obj2->dropProperty(cx, prop);
if (wasDeepAborted())
ABORT_TRACE("deep abort from property lookup");
/*
* The interpreter fuses comparisons and the following branch, so we have
* to do that here as well.
*/
fuseIf(cx->fp->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 JSRS_CONTINUE;
}
static JSBool FASTCALL
HasInstance(JSContext* cx, JSObject* ctor, jsval val)
{
JSBool result = JS_FALSE;
if (!ctor->map->ops->hasInstance(cx, ctor, val, &result))
js_SetBuiltinError(cx);
return result;
}
JS_DEFINE_CALLINFO_3(static, BOOL_FAIL, HasInstance, CONTEXT, OBJECT, JSVAL, 0, 0)
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_INSTANCEOF()
{
// If the rhs isn't an object, we are headed for a TypeError.
jsval& ctor = stackval(-1);
if (JSVAL_IS_PRIMITIVE(ctor))
ABORT_TRACE("non-object on rhs of instanceof");
jsval& val = stackval(-2);
LIns* val_ins = box_jsval(val, get(&val));
enterDeepBailCall();
LIns* args[] = {val_ins, get(&ctor), cx_ins};
stack(-2, lir->insCall(&HasInstance_ci, args));
LIns* status_ins = lir->insLoad(LIR_ld,
lirbuf->state,
(int) offsetof(InterpState, builtinStatus));
guard(true, lir->ins_eq0(status_ins), STATUS_EXIT);
leaveDeepBailCall();
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_DEBUGGER()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_GOSUB()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_RETSUB()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_EXCEPTION()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_LINENO()
{
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_CONDSWITCH()
{
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_CASE()
{
strictEquality(true, true);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_DEFAULT()
{
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_EVAL()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_ENUMELEM()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_GETTER()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_SETTER()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_DEFFUN()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_DEFFUN_FC()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_DEFCONST()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_DEFVAR()
{
return JSRS_STOP;
}
jsatomid
TraceRecorder::getFullIndex(ptrdiff_t pcoff)
{
jsatomid index = GET_INDEX(cx->fp->regs->pc + pcoff);
index += atoms - cx->fp->script->atomMap.vector;
return index;
}
JS_REQUIRES_STACK JSRecordingStatus
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.
*/
if (FUN_NULL_CLOSURE(fun) && OBJ_GET_PARENT(cx, FUN_OBJECT(fun)) == globalObj) {
JSOp op2 = JSOp(cx->fp->regs->pc[JSOP_LAMBDA_LENGTH]);
if (op2 == JSOP_SETMETHOD || op2 == JSOP_INITMETHOD) {
stack(0, INS_CONSTOBJ(FUN_OBJECT(fun)));
return JSRS_CONTINUE;
}
LIns *proto_ins;
CHECK_STATUS(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 JSRS_CONTINUE;
}
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_LAMBDA_FC()
{
JSFunction* fun;
fun = cx->fp->script->getFunction(getFullIndex());
LIns* scopeChain_ins = get(&cx->fp->argv[-2]);
JS_ASSERT(scopeChain_ins);
LIns* args[] = {
scopeChain_ins,
INS_CONSTFUN(fun),
cx_ins
};
LIns* call_ins = lir->insCall(&js_AllocFlatClosure_ci, args);
guard(false,
addName(lir->ins2(LIR_peq, call_ins, INS_NULL()),
"guard(js_AllocFlatClosure)"),
OOM_EXIT);
if (fun->u.i.nupvars) {
JSUpvarArray *uva = fun->u.i.script->upvars();
for (uint32 i = 0, n = uva->length; i < n; i++) {
jsval v;
LIns* upvar_ins = upvar(fun->u.i.script, uva, i, v);
if (!upvar_ins)
return JSRS_STOP;
LIns* dslots_ins = NULL;
stobj_set_dslot(call_ins, i, dslots_ins, box_jsval(v, upvar_ins));
}
}
stack(0, call_ins);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_CALLEE()
{
stack(0, get(&cx->fp->argv[-2]));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_SETLOCALPOP()
{
var(GET_SLOTNO(cx->fp->regs->pc), stack(-1));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_IFPRIMTOP()
{
// Traces are type-specialized, including null vs. object, so we need do
// nothing here. The upstream unbox_jsval called after valueOf or toString
// from an imacro (e.g.) will fork the trace for us, allowing us to just
// follow along mindlessly :-).
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_SETCALL()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_TRY()
{
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_FINALLY()
{
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_NOP()
{
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_ARGSUB()
{
JSStackFrame* fp = cx->fp;
if (!(fp->fun->flags & JSFUN_HEAVYWEIGHT)) {
uintN slot = GET_ARGNO(fp->regs->pc);
if (slot < fp->argc)
stack(0, get(&cx->fp->argv[slot]));
else
stack(0, INS_VOID());
return JSRS_CONTINUE;
}
ABORT_TRACE("can't trace JSOP_ARGSUB hard case");
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_ARGCNT()
{
if (cx->fp->fun->flags & JSFUN_HEAVYWEIGHT)
ABORT_TRACE("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 (cx->fp->argsobj && js_IsOverriddenArgsLength(JSVAL_TO_OBJECT(cx->fp->argsobj)))
ABORT_TRACE("can't trace JSOP_ARGCNT if arguments.length has been modified");
LIns *a_ins = get(&cx->fp->argsobj);
if (callDepth == 0) {
LIns *br = lir->insBranch(LIR_jt, lir->ins_peq0(a_ins), NULL);
// The following implements js_IsOverriddenArgsLength on trace.
// The '2' bit is set if length was overridden.
LIns *len_ins = stobj_get_fslot(a_ins, JSSLOT_ARGS_LENGTH);
LIns *ovr_ins = lir->ins2(LIR_piand, len_ins, INS_CONSTWORD(2));
guard(true, lir->ins_peq0(ovr_ins), snapshot(BRANCH_EXIT));
LIns *label = lir->ins0(LIR_label);
br->setTarget(label);
}
stack(0, lir->insImmf(cx->fp->argc));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_DefLocalFunSetSlot(uint32 slot, JSObject* obj)
{
JSFunction* fun = GET_FUNCTION_PRIVATE(cx, obj);
if (FUN_NULL_CLOSURE(fun) && OBJ_GET_PARENT(cx, FUN_OBJECT(fun)) == globalObj) {
LIns *proto_ins;
CHECK_STATUS(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 JSRS_CONTINUE;
}
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_DEFLOCALFUN()
{
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_DEFLOCALFUN_FC()
{
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_GOTOX()
{
return record_JSOP_GOTO();
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_IFEQX()
{
return record_JSOP_IFEQ();
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_IFNEX()
{
return record_JSOP_IFNE();
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_ORX()
{
return record_JSOP_OR();
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_ANDX()
{
return record_JSOP_AND();
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_GOSUBX()
{
return record_JSOP_GOSUB();
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_CASEX()
{
strictEquality(true, true);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_DEFAULTX()
{
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_TABLESWITCHX()
{
return record_JSOP_TABLESWITCH();
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_LOOKUPSWITCHX()
{
return switchop();
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_BACKPATCH()
{
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_BACKPATCH_POP()
{
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_THROWING()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_SETRVAL()
{
// If we implement this, we need to update JSOP_STOP.
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_RETRVAL()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_GETGVAR()
{
jsval slotval = cx->fp->slots[GET_SLOTNO(cx->fp->regs->pc)];
if (JSVAL_IS_NULL(slotval))
return JSRS_CONTINUE; // We will see JSOP_NAME from the interpreter's jump, so no-op here.
uint32 slot = JSVAL_TO_INT(slotval);
if (!lazilyImportGlobalSlot(slot))
ABORT_TRACE("lazy import of global slot failed");
stack(0, get(&STOBJ_GET_SLOT(globalObj, slot)));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_SETGVAR()
{
jsval slotval = cx->fp->slots[GET_SLOTNO(cx->fp->regs->pc)];
if (JSVAL_IS_NULL(slotval))
return JSRS_CONTINUE; // We will see JSOP_NAME from the interpreter's jump, so no-op here.
uint32 slot = JSVAL_TO_INT(slotval);
if (!lazilyImportGlobalSlot(slot))
ABORT_TRACE("lazy import of global slot failed");
set(&STOBJ_GET_SLOT(globalObj, slot), stack(-1));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_INCGVAR()
{
jsval slotval = cx->fp->slots[GET_SLOTNO(cx->fp->regs->pc)];
if (JSVAL_IS_NULL(slotval))
// We will see JSOP_INCNAME from the interpreter's jump, so no-op here.
return JSRS_CONTINUE;
uint32 slot = JSVAL_TO_INT(slotval);
if (!lazilyImportGlobalSlot(slot))
ABORT_TRACE("lazy import of global slot failed");
return inc(STOBJ_GET_SLOT(globalObj, slot), 1);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_DECGVAR()
{
jsval slotval = cx->fp->slots[GET_SLOTNO(cx->fp->regs->pc)];
if (JSVAL_IS_NULL(slotval))
// We will see JSOP_INCNAME from the interpreter's jump, so no-op here.
return JSRS_CONTINUE;
uint32 slot = JSVAL_TO_INT(slotval);
if (!lazilyImportGlobalSlot(slot))
ABORT_TRACE("lazy import of global slot failed");
return inc(STOBJ_GET_SLOT(globalObj, slot), -1);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_GVARINC()
{
jsval slotval = cx->fp->slots[GET_SLOTNO(cx->fp->regs->pc)];
if (JSVAL_IS_NULL(slotval))
// We will see JSOP_INCNAME from the interpreter's jump, so no-op here.
return JSRS_CONTINUE;
uint32 slot = JSVAL_TO_INT(slotval);
if (!lazilyImportGlobalSlot(slot))
ABORT_TRACE("lazy import of global slot failed");
return inc(STOBJ_GET_SLOT(globalObj, slot), 1, false);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_GVARDEC()
{
jsval slotval = cx->fp->slots[GET_SLOTNO(cx->fp->regs->pc)];
if (JSVAL_IS_NULL(slotval))
// We will see JSOP_INCNAME from the interpreter's jump, so no-op here.
return JSRS_CONTINUE;
uint32 slot = JSVAL_TO_INT(slotval);
if (!lazilyImportGlobalSlot(slot))
ABORT_TRACE("lazy import of global slot failed");
return inc(STOBJ_GET_SLOT(globalObj, slot), -1, false);
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_REGEXP()
{
return JSRS_STOP;
}
// begin JS_HAS_XML_SUPPORT
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_DEFXMLNS()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_ANYNAME()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_QNAMEPART()
{
return record_JSOP_STRING();
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_QNAMECONST()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_QNAME()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_TOATTRNAME()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_TOATTRVAL()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_ADDATTRNAME()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_ADDATTRVAL()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_BINDXMLNAME()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_SETXMLNAME()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_XMLNAME()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_DESCENDANTS()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_FILTER()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_ENDFILTER()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_TOXML()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_TOXMLLIST()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_XMLTAGEXPR()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_XMLELTEXPR()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_XMLOBJECT()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_XMLCDATA()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_XMLCOMMENT()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_XMLPI()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_GETFUNNS()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_STARTXML()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_STARTXMLEXPR()
{
return JSRS_STOP;
}
// end JS_HAS_XML_SUPPORT
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_CALLPROP()
{
jsval& l = stackval(-1);
JSObject* obj;
LIns* obj_ins;
LIns* this_ins;
if (!JSVAL_IS_PRIMITIVE(l)) {
obj = JSVAL_TO_OBJECT(l);
obj_ins = get(&l);
this_ins = obj_ins; // |this| for subsequent call
} else {
jsint i;
debug_only_stmt(const char* protoname = NULL;)
if (JSVAL_IS_STRING(l)) {
i = JSProto_String;
debug_only_stmt(protoname = "String.prototype";)
} else if (JSVAL_IS_NUMBER(l)) {
i = JSProto_Number;
debug_only_stmt(protoname = "Number.prototype";)
} else if (JSVAL_IS_SPECIAL(l)) {
if (l == JSVAL_VOID)
ABORT_TRACE("callprop on void");
guard(false, lir->ins2i(LIR_eq, get(&l), JSVAL_TO_SPECIAL(JSVAL_VOID)), MISMATCH_EXIT);
i = JSProto_Boolean;
debug_only_stmt(protoname = "Boolean.prototype";)
} else {
JS_ASSERT(JSVAL_IS_NULL(l) || JSVAL_IS_VOID(l));
ABORT_TRACE("callprop on null or void");
}
if (!js_GetClassPrototype(cx, NULL, INT_TO_JSID(i), &obj))
ABORT_TRACE_ERROR("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;
jsuword pcval;
CHECK_STATUS(test_property_cache(obj, obj_ins, obj2, pcval));
if (PCVAL_IS_NULL(pcval) || !PCVAL_IS_OBJECT(pcval))
ABORT_TRACE("callee is not an object");
JS_ASSERT(HAS_FUNCTION_CLASS(PCVAL_TO_OBJECT(pcval)));
if (JSVAL_IS_PRIMITIVE(l)) {
JSFunction* fun = GET_FUNCTION_PRIVATE(cx, PCVAL_TO_OBJECT(pcval));
if (!PRIMITIVE_THIS_TEST(fun, l))
ABORT_TRACE("callee does not accept primitive |this|");
}
stack(0, this_ins);
stack(-1, INS_CONSTOBJ(PCVAL_TO_OBJECT(pcval)));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_DELDESC()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_UINT24()
{
stack(0, lir->insImmf(GET_UINT24(cx->fp->regs->pc)));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_INDEXBASE()
{
atoms += GET_INDEXBASE(cx->fp->regs->pc);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_RESETBASE()
{
atoms = cx->fp->script->atomMap.vector;
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_RESETBASE0()
{
atoms = cx->fp->script->atomMap.vector;
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_CALLELEM()
{
return record_JSOP_GETELEM();
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_STOP()
{
JSStackFrame *fp = cx->fp;
if (fp->imacpc) {
/*
* 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.
*/
atoms = fp->script->atomMap.vector;
return JSRS_CONTINUE;
}
putArguments();
/*
* 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->flags & JSFRAME_CONSTRUCTING) {
JS_ASSERT(fp->thisv == fp->argv[-1]);
rval_ins = get(&fp->argv[-1]);
} else {
rval_ins = INS_CONST(JSVAL_TO_SPECIAL(JSVAL_VOID));
}
clearFrameSlotsFromCache();
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_GETXPROP()
{
jsval& l = stackval(-1);
if (JSVAL_IS_PRIMITIVE(l))
ABORT_TRACE("primitive-this for GETXPROP?");
jsval* vp;
LIns* v_ins;
NameResult nr;
CHECK_STATUS(name(vp, v_ins, nr));
stack(-1, v_ins);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_CALLXMLNAME()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_TYPEOFEXPR()
{
return record_JSOP_TYPEOF();
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_ENTERBLOCK()
{
JSObject* obj;
obj = cx->fp->script->getObject(getFullIndex(0));
LIns* void_ins = INS_CONST(JSVAL_TO_SPECIAL(JSVAL_VOID));
for (int i = 0, n = OBJ_BLOCK_COUNT(cx, obj); i < n; i++)
stack(i, void_ins);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_LEAVEBLOCK()
{
/* We mustn't exit the lexical block we began recording in. */
if (cx->fp->blockChain != lexicalBlock)
return JSRS_CONTINUE;
else
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_GENERATOR()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_YIELD()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_ARRAYPUSH()
{
uint32_t slot = GET_UINT16(cx->fp->regs->pc);
JS_ASSERT(cx->fp->script->nfixed <= slot);
JS_ASSERT(cx->fp->slots + slot < cx->fp->regs->sp - 1);
jsval &arrayval = cx->fp->slots[slot];
JS_ASSERT(JSVAL_IS_OBJECT(arrayval));
JS_ASSERT(OBJ_IS_DENSE_ARRAY(cx, JSVAL_TO_OBJECT(arrayval)));
LIns *array_ins = get(&arrayval);
jsval &elt = stackval(-1);
LIns *elt_ins = box_jsval(elt, get(&elt));
LIns *args[] = { elt_ins, array_ins, cx_ins };
LIns *ok_ins = lir->insCall(&js_ArrayCompPush_ci, args);
guard(false, lir->ins_eq0(ok_ins), OOM_EXIT);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_ENUMCONSTELEM()
{
return JSRS_STOP;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_LEAVEBLOCKEXPR()
{
LIns* v_ins = stack(-1);
int n = -1 - GET_UINT16(cx->fp->regs->pc);
stack(n, v_ins);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_GETTHISPROP()
{
LIns* this_ins;
CHECK_STATUS(getThis(this_ins));
/*
* It's safe to just use cx->fp->thisv here because getThis() returns
* JSRS_STOP if thisv is not available.
*/
JS_ASSERT(cx->fp->flags & JSFRAME_COMPUTED_THIS);
CHECK_STATUS(getProp(JSVAL_TO_OBJECT(cx->fp->thisv), this_ins));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_GETARGPROP()
{
return getProp(argval(GET_ARGNO(cx->fp->regs->pc)));
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_GETLOCALPROP()
{
return getProp(varval(GET_SLOTNO(cx->fp->regs->pc)));
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_INDEXBASE1()
{
atoms += 1 << 16;
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_INDEXBASE2()
{
atoms += 2 << 16;
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_INDEXBASE3()
{
atoms += 3 << 16;
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_CALLGVAR()
{
jsval slotval = cx->fp->slots[GET_SLOTNO(cx->fp->regs->pc)];
if (JSVAL_IS_NULL(slotval))
// We will see JSOP_CALLNAME from the interpreter's jump, so no-op here.
return JSRS_CONTINUE;
uint32 slot = JSVAL_TO_INT(slotval);
if (!lazilyImportGlobalSlot(slot))
ABORT_TRACE("lazy import of global slot failed");
jsval& v = STOBJ_GET_SLOT(globalObj, slot);
stack(0, get(&v));
stack(1, INS_NULL());
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_CALLLOCAL()
{
uintN slot = GET_SLOTNO(cx->fp->regs->pc);
stack(0, var(slot));
stack(1, INS_NULL());
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_CALLARG()
{
uintN slot = GET_ARGNO(cx->fp->regs->pc);
stack(0, arg(slot));
stack(1, INS_NULL());
return JSRS_CONTINUE;
}
/* Functions for use with JSOP_CALLBUILTIN. */
static JSBool
ObjectToIterator(JSContext *cx, uintN argc, jsval *vp)
{
jsval *argv = JS_ARGV(cx, vp);
JS_ASSERT(JSVAL_IS_INT(argv[0]));
JS_SET_RVAL(cx, vp, JS_THIS(cx, vp));
return js_ValueToIterator(cx, JSVAL_TO_INT(argv[0]), &JS_RVAL(cx, vp));
}
static JSObject* FASTCALL
ObjectToIterator_tn(JSContext* cx, jsbytecode* pc, JSObject *obj, int32 flags)
{
jsval v = OBJECT_TO_JSVAL(obj);
JSBool ok = js_ValueToIterator(cx, flags, &v);
if (!ok) {
js_SetBuiltinError(cx);
return NULL;
}
return JSVAL_TO_OBJECT(v);
}
static JSBool
CallIteratorNext(JSContext *cx, uintN argc, jsval *vp)
{
return js_CallIteratorNext(cx, JS_THIS_OBJECT(cx, vp), &JS_RVAL(cx, vp));
}
static jsval FASTCALL
CallIteratorNext_tn(JSContext* cx, jsbytecode* pc, JSObject* iterobj)
{
JSAutoTempValueRooter tvr(cx);
JSBool ok = js_CallIteratorNext(cx, iterobj, tvr.addr());
if (!ok) {
js_SetBuiltinError(cx);
return JSVAL_ERROR_COOKIE;
}
return tvr.value();
}
JS_DEFINE_TRCINFO_1(ObjectToIterator,
(4, (static, OBJECT_FAIL, ObjectToIterator_tn, CONTEXT, PC, THIS, INT32, 0, 0)))
JS_DEFINE_TRCINFO_1(CallIteratorNext,
(3, (static, JSVAL_FAIL, CallIteratorNext_tn, CONTEXT, PC, THIS, 0, 0)))
static const struct BuiltinFunctionInfo {
JSNativeTraceInfo *ti;
int nargs;
} builtinFunctionInfo[JSBUILTIN_LIMIT] = {
{&ObjectToIterator_trcinfo, 1},
{&CallIteratorNext_trcinfo, 0},
};
JSObject *
js_GetBuiltinFunction(JSContext *cx, uintN index)
{
JSRuntime *rt = cx->runtime;
JSObject *funobj = rt->builtinFunctions[index];
if (!funobj) {
/* Use NULL parent and atom. Builtin functions never escape to scripts. */
JS_ASSERT(index < JS_ARRAY_LENGTH(builtinFunctionInfo));
const BuiltinFunctionInfo *bfi = &builtinFunctionInfo[index];
JSFunction *fun = js_NewFunction(cx,
NULL,
JS_DATA_TO_FUNC_PTR(JSNative, bfi->ti),
bfi->nargs,
JSFUN_FAST_NATIVE | JSFUN_TRCINFO,
NULL,
NULL);
if (fun) {
funobj = FUN_OBJECT(fun);
STOBJ_CLEAR_PROTO(funobj);
STOBJ_CLEAR_PARENT(funobj);
JS_LOCK_GC(rt);
if (!rt->builtinFunctions[index]) /* retest now that the lock is held */
rt->builtinFunctions[index] = funobj;
else
funobj = rt->builtinFunctions[index];
JS_UNLOCK_GC(rt);
}
}
return funobj;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_CALLBUILTIN()
{
JSObject *obj = js_GetBuiltinFunction(cx, GET_INDEX(cx->fp->regs->pc));
if (!obj)
ABORT_TRACE_ERROR("error in js_GetBuiltinFunction");
stack(0, get(&stackval(-1)));
stack(-1, INS_CONSTOBJ(obj));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_INT8()
{
stack(0, lir->insImmf(GET_INT8(cx->fp->regs->pc)));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_INT32()
{
stack(0, lir->insImmf(GET_INT32(cx->fp->regs->pc)));
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_LENGTH()
{
jsval& l = stackval(-1);
if (JSVAL_IS_PRIMITIVE(l)) {
if (!JSVAL_IS_STRING(l))
ABORT_TRACE("non-string primitive JSOP_LENGTH unsupported");
set(&l, lir->ins1(LIR_i2f, getStringLength(get(&l))));
return JSRS_CONTINUE;
}
JSObject* obj = JSVAL_TO_OBJECT(l);
LIns* obj_ins = get(&l);
if (STOBJ_GET_CLASS(obj) == &js_ArgumentsClass) {
unsigned depth;
JSStackFrame *afp = guardArguments(obj, obj_ins, &depth);
if (!afp)
ABORT_TRACE("can't reach arguments object's frame");
LIns* v_ins = lir->ins1(LIR_i2f, INS_CONST(afp->argc));
set(&l, v_ins);
return JSRS_CONTINUE;
}
LIns* v_ins;
if (OBJ_IS_ARRAY(cx, obj)) {
if (OBJ_IS_DENSE_ARRAY(cx, obj)) {
if (!guardDenseArray(obj, obj_ins, BRANCH_EXIT)) {
JS_NOT_REACHED("OBJ_IS_DENSE_ARRAY but not?!?");
return JSRS_STOP;
}
} else {
if (!guardClass(obj, obj_ins, &js_SlowArrayClass, snapshot(BRANCH_EXIT)))
ABORT_TRACE("can't trace length property access on non-array");
}
v_ins = lir->ins1(LIR_i2f, p2i(stobj_get_fslot(obj_ins, JSSLOT_ARRAY_LENGTH)));
} else {
if (!OBJ_IS_NATIVE(obj))
ABORT_TRACE("can't trace length property access on non-array, non-native object");
return getProp(obj, obj_ins);
}
set(&l, v_ins);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_NEWARRAY()
{
LIns *proto_ins;
CHECK_STATUS(getClassPrototype(JSProto_Array, proto_ins));
uint32 len = GET_UINT16(cx->fp->regs->pc);
cx->fp->assertValidStackDepth(len);
LIns* args[] = { lir->insImm(len), proto_ins, cx_ins };
LIns* v_ins = lir->insCall(&js_NewArrayWithSlots_ci, args);
guard(false, lir->ins_peq0(v_ins), OOM_EXIT);
LIns* dslots_ins = NULL;
uint32 count = 0;
for (uint32 i = 0; i < len; i++) {
jsval& v = stackval(int(i) - int(len));
if (v != JSVAL_HOLE)
count++;
LIns* elt_ins = box_jsval(v, get(&v));
stobj_set_dslot(v_ins, i, dslots_ins, elt_ins);
}
if (count > 0)
stobj_set_fslot(v_ins, JSSLOT_ARRAY_COUNT, INS_CONST(count));
stack(-int(len), v_ins);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_HOLE()
{
stack(0, INS_CONST(JSVAL_TO_SPECIAL(JSVAL_HOLE)));
return JSRS_CONTINUE;
}
JSRecordingStatus
TraceRecorder::record_JSOP_TRACE()
{
return JSRS_CONTINUE;
}
static const uint32 sMaxConcatNSize = 32;
/*
* Copy the result of defvalue.string back into concatn's arguments, clean the
* stack, and return a pointer to the argument that was just overwritten.
*/
JS_REQUIRES_STACK jsval *
js_ConcatPostImacroStackCleanup(uint32 argc, JSFrameRegs &regs,
TraceRecorder *recorder)
{
JS_ASSERT(*regs.pc == JSOP_IMACOP);
/* Pop the argument offset and imacro return value. */
jsint offset = JSVAL_TO_INT(*--regs.sp);
jsval *imacroResult = --regs.sp;
/* Replace non-primitive argument with new primitive argument. */
jsval *vp = regs.sp - offset;
JS_ASSERT(regs.sp - argc <= vp && vp < regs.sp);
if (recorder)
recorder->set(vp, recorder->get(imacroResult));
*vp = *imacroResult;
return vp;
}
/*
* Initially, concatn takes N arguments on the stack, where N is immediate
* operand. To convert these arguments to primitives, we must repeatedly call
* the defvalue.string imacro. To achieve this iteration, defvalue.string ends
* with imacop. Hence, this function is called multiple times, each time with
* one less non-primitive. To keep track of where we are in the loop, we must
* push an additional index value on the stack. Hence, on all subsequent
* entries, the stack is organized as follows (bottom to top):
*
* prim[1]
* ...
* prim[i-1]
* nonprim[i] argument to imacro
* arg[i+1]
* ...
* arg[N]
* primarg[i] nonprim[i] converted to primitive
* i
*
* Hence, the stack setup on entry to this function (and JSOP_CONCATN in the
* interpreter, on trace abort) is dependent on whether an imacro is in
* progress. When all of concatn's arguments are primitive, it emits a builtin
* call and allows the actual JSOP_CONCATN to be executed by the interpreter.
*/
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_CONCATN()
{
JSStackFrame *fp = cx->fp;
JSFrameRegs &regs = *fp->regs;
/*
* If we are in an imacro, we must have just finished a call to
* defvalue.string. Continue where we left off last time.
*/
uint32 argc;
jsval *loopStart;
if (fp->imacpc) {
JS_ASSERT(*fp->imacpc == JSOP_CONCATN);
argc = GET_ARGC(fp->imacpc);
loopStart = js_ConcatPostImacroStackCleanup(argc, regs, this) + 1;
} else {
argc = GET_ARGC(regs.pc);
JS_ASSERT(argc > 0);
loopStart = regs.sp - argc;
/* Prevent code/alloca explosion. */
if (argc > sMaxConcatNSize)
return JSRS_STOP;
}
/* Convert non-primitives to primitives using defvalue.string. */
for (jsval *vp = loopStart; vp != regs.sp; ++vp) {
if (!JSVAL_IS_PRIMITIVE(*vp)) {
/*
* In addition to the jsval we want the imacro to convert to
* primitive, pass through the offset of the argument on the stack.
*/
jsint offset = regs.sp - vp;
/* Push the non-primitive to convert. */
set(regs.sp, get(vp), true);
*regs.sp++ = *vp;
/* Push the argument index. */
set(regs.sp, lir->insImm(offset), true);
*regs.sp++ = INT_TO_JSVAL(offset);
/* Nested imacro call OK because this is a tail call. */
return call_imacro(defvalue_imacros.string);
}
}
/* Build an array of the stringified primitives. */
int32_t bufSize = argc * sizeof(JSString *);
LIns *buf_ins = lir->insAlloc(bufSize);
int32_t d = 0;
for (jsval *vp = regs.sp - argc; vp != regs.sp; ++vp, d += sizeof(void *))
lir->insStorei(stringify(*vp), buf_ins, d);
/* Perform concatenation using a builtin. */
LIns *args[] = { lir->insImm(argc), buf_ins, cx_ins };
LIns *concat = lir->insCall(&js_ConcatN_ci, args);
guard(false, lir->ins_peq0(concat), OOM_EXIT);
/* Update tracker with result. */
jsval *afterPop = regs.sp - (argc - 1);
set(afterPop - 1, concat);
return JSRS_CONTINUE;
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_SETMETHOD()
{
return record_JSOP_SETPROP();
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_INITMETHOD()
{
return record_JSOP_INITPROP();
}
JS_REQUIRES_STACK JSRecordingStatus
TraceRecorder::record_JSOP_SHARPINIT()
{
return JSRS_STOP;
}
#define DBG_STUB(OP) \
JS_REQUIRES_STACK JSRecordingStatus \
TraceRecorder::record_##OP() \
{ \
ABORT_TRACE("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(JSTraceMonitor* tm, const void* ip, JSObject* globalObj, uint32 globalShape,
uint32 argc)
{
VMFragment* f;
TreeInfo* ti;
bool looped = false;
unsigned length = 0;
for (f = getLoop(tm, ip, globalObj, globalShape, argc); f != NULL; f = f->peer) {
if (!f->vmprivate)
continue;
debug_only_printf(LC_TMRecorder, "Stability of fragment %p:\nENTRY STACK=", (void*)f);
ti = (TreeInfo*)f->vmprivate;
if (looped)
JS_ASSERT(ti->nStackTypes == length);
for (unsigned i = 0; i < ti->nStackTypes; i++)
debug_only_printf(LC_TMRecorder, "%c", typeChar[ti->stackTypeMap()[i]]);
debug_only_print0(LC_TMRecorder, " GLOBALS=");
for (unsigned i = 0; i < ti->nGlobalTypes(); i++)
debug_only_printf(LC_TMRecorder, "%c", typeChar[ti->globalTypeMap()[i]]);
debug_only_print0(LC_TMRecorder, "\n");
UnstableExit* uexit = ti->unstableExits;
while (uexit != NULL) {
debug_only_print0(LC_TMRecorder, "EXIT ");
JSTraceType* 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", typeChar[m[i]]);
debug_only_print0(LC_TMRecorder, " GLOBALS=");
for (unsigned i = 0; i < uexit->exit->numGlobalSlots; i++) {
debug_only_printf(LC_TMRecorder, "%c",
typeChar[m[uexit->exit->numStackSlots + i]]);
}
debug_only_print0(LC_TMRecorder, "\n");
uexit = uexit->next;
}
length = ti->nStackTypes;
looped = true;
}
}
#endif
#ifdef MOZ_TRACEVIS
FILE* traceVisLogFile = NULL;
JSHashTable *traceVisScriptTable = NULL;
JS_FRIEND_API(bool)
JS_StartTraceVis(const char* filename = "tracevis.dat")
{
if (traceVisLogFile) {
// If we're currently recording, first we must stop.
JS_StopTraceVis();
}
traceVisLogFile = fopen(filename, "wb");
if (!traceVisLogFile)
return false;
return true;
}
JS_FRIEND_API(JSBool)
js_StartTraceVis(JSContext *cx, JSObject *obj,
uintN argc, jsval *argv, jsval *rval)
{
JSBool ok;
if (argc > 0 && JSVAL_IS_STRING(argv[0])) {
JSString *str = JSVAL_TO_STRING(argv[0]);
char *filename = js_DeflateString(cx, str->chars(), str->length());
if (!filename)
goto error;
ok = JS_StartTraceVis(filename);
cx->free(filename);
} else {
ok = JS_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)
JS_StopTraceVis()
{
if (!traceVisLogFile)
return false;
fclose(traceVisLogFile); // not worth checking the result
traceVisLogFile = NULL;
return true;
}
JS_FRIEND_API(JSBool)
js_StopTraceVis(JSContext *cx, JSObject *obj,
uintN argc, jsval *argv, jsval *rval)
{
JSBool ok = JS_StopTraceVis();
if (ok)
fprintf(stderr, "stopped TraceVis recording\n");
else
JS_ReportError(cx, "TraceVis isn't running");
return ok;
}
#endif /* MOZ_TRACEVIS */
#define UNUSED(n) \
JS_REQUIRES_STACK JSRecordingStatus \
TraceRecorder::record_JSOP_UNUSED##n() { \
JS_NOT_REACHED("JSOP_UNUSED" #n); \
return JSRS_STOP; \
}
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