/* ****************************************************************************** * * Copyright (C) 2009-2012, International Business Machines * Corporation and others. All Rights Reserved. * ****************************************************************************** * * FILE NAME : icuplug.c * * Date Name Description * 10/29/2009 sl New. ****************************************************************************** */ #include "unicode/icuplug.h" #include "icuplugimp.h" #include "cstring.h" #include "cmemory.h" #include "putilimp.h" #include "ucln.h" #include #ifdef __MVS__ /* defined by z/OS compiler */ #define _POSIX_SOURCE #include /* 12 Nov 2011 JAM iscics() function */ #endif #ifndef UPLUG_TRACE #define UPLUG_TRACE 0 #endif #if UPLUG_TRACE #include #define DBG(x) fprintf(stderr, "%s:%d: ",__FILE__,__LINE__); fprintf x #endif /** * Internal structure of an ICU plugin. */ struct UPlugData { UPlugEntrypoint *entrypoint; /**< plugin entrypoint */ uint32_t structSize; /**< initialized to the size of this structure */ uint32_t token; /**< must be U_PLUG_TOKEN */ void *lib; /**< plugin library, or NULL */ char libName[UPLUG_NAME_MAX]; /**< library name */ char sym[UPLUG_NAME_MAX]; /**< plugin symbol, or NULL */ char config[UPLUG_NAME_MAX]; /**< configuration data */ void *context; /**< user context data */ char name[UPLUG_NAME_MAX]; /**< name of plugin */ UPlugLevel level; /**< level of plugin */ UBool awaitingLoad; /**< TRUE if the plugin is awaiting a load call */ UBool dontUnload; /**< TRUE if plugin must stay resident (leak plugin and lib) */ UErrorCode pluginStatus; /**< status code of plugin */ }; #define UPLUG_LIBRARY_INITIAL_COUNT 8 #define UPLUG_PLUGIN_INITIAL_COUNT 12 /** * Remove an item * @param list the full list * @param listSize the number of entries in the list * @param memberSize the size of one member * @param itemToRemove the item number of the member * @return the new listsize */ static int32_t uplug_removeEntryAt(void *list, int32_t listSize, int32_t memberSize, int32_t itemToRemove) { uint8_t *bytePtr = (uint8_t *)list; /* get rid of some bad cases first */ if(listSize<1) { return listSize; } /* is there anything to move? */ if(listSize > itemToRemove+1) { memmove(bytePtr+(itemToRemove*memberSize), bytePtr+((itemToRemove+1)*memberSize), memberSize); } return listSize-1; } #if U_ENABLE_DYLOAD /** * Library management. Internal. * @internal */ struct UPlugLibrary; /** * Library management. Internal. * @internal */ typedef struct UPlugLibrary { void *lib; /**< library ptr */ char name[UPLUG_NAME_MAX]; /**< library name */ uint32_t ref; /**< reference count */ } UPlugLibrary; static UPlugLibrary staticLibraryList[UPLUG_LIBRARY_INITIAL_COUNT]; static UPlugLibrary * libraryList = staticLibraryList; static int32_t libraryCount = 0; static int32_t libraryMax = UPLUG_LIBRARY_INITIAL_COUNT; /** * Search for a library. Doesn't lock * @param libName libname to search for * @return the library's struct */ static int32_t searchForLibraryName(const char *libName) { int32_t i; for(i=0;i= libraryMax) { /* Ran out of library slots. Statically allocated because we can't depend on allocating memory.. */ *status = U_MEMORY_ALLOCATION_ERROR; #if UPLUG_TRACE DBG((stderr, "uplug_openLibrary() - out of library slots (max %d)\n", libraryMax)); #endif return NULL; } /* Some operating systems don't want DL operations from multiple threads. */ libraryList[libEntry].lib = uprv_dl_open(libName, status); #if UPLUG_TRACE DBG((stderr, "uplug_openLibrary(%s,%s) libEntry %d, lib %p\n", libName, u_errorName(*status), libEntry, lib)); #endif if(libraryList[libEntry].lib == NULL || U_FAILURE(*status)) { /* cleanup. */ libraryList[libEntry].lib = NULL; /* failure with open */ libraryList[libEntry].name[0] = 0; #if UPLUG_TRACE DBG((stderr, "uplug_openLibrary(%s,%s) libEntry %d, lib %p\n", libName, u_errorName(*status), libEntry, lib)); #endif /* no need to free - just won't increase the count. */ libraryCount--; } else { /* is it still there? */ /* link it in */ uprv_strncpy(libraryList[libEntry].name,libName,UPLUG_NAME_MAX); libraryList[libEntry].ref=1; lib = libraryList[libEntry].lib; } } else { lib = libraryList[libEntry].lib; libraryList[libEntry].ref++; } return lib; } U_INTERNAL void U_EXPORT2 uplug_closeLibrary(void *lib, UErrorCode *status) { int32_t i; #if UPLUG_TRACE DBG((stderr, "uplug_closeLibrary(%p,%s) list %p\n", lib, u_errorName(*status), (void*)libraryList)); #endif if(U_FAILURE(*status)) return; for(i=0;i=pastPlug) { return pluginCount; } else { return (d-pluginList)/sizeof(pluginList[0]); } } U_CAPI UPlugData * U_EXPORT2 uplug_nextPlug(UPlugData *prior) { if(prior==NULL) { return pluginList; } else { UPlugData *nextPlug = &prior[1]; UPlugData *pastPlug = &pluginList[pluginCount]; if(nextPlug>=pastPlug) { return NULL; } else { return nextPlug; } } } /** * Call the plugin with some params */ static void uplug_callPlug(UPlugData *plug, UPlugReason reason, UErrorCode *status) { UPlugTokenReturn token; if(plug==NULL||U_FAILURE(*status)) { return; } token = (*(plug->entrypoint))(plug, reason, status); if(token!=UPLUG_TOKEN) { *status = U_INTERNAL_PROGRAM_ERROR; } } static void uplug_unloadPlug(UPlugData *plug, UErrorCode *status) { if(plug->awaitingLoad) { /* shouldn't happen. Plugin hasn'tbeen loaded yet.*/ *status = U_INTERNAL_PROGRAM_ERROR; return; } if(U_SUCCESS(plug->pluginStatus)) { /* Don't unload a plug which has a failing load status - means it didn't actually load. */ uplug_callPlug(plug, UPLUG_REASON_UNLOAD, status); } } static void uplug_queryPlug(UPlugData *plug, UErrorCode *status) { if(!plug->awaitingLoad || !(plug->level == UPLUG_LEVEL_UNKNOWN) ) { /* shouldn't happen. Plugin hasn'tbeen loaded yet.*/ *status = U_INTERNAL_PROGRAM_ERROR; return; } plug->level = UPLUG_LEVEL_INVALID; uplug_callPlug(plug, UPLUG_REASON_QUERY, status); if(U_SUCCESS(*status)) { if(plug->level == UPLUG_LEVEL_INVALID) { plug->pluginStatus = U_PLUGIN_DIDNT_SET_LEVEL; plug->awaitingLoad = FALSE; } } else { plug->pluginStatus = U_INTERNAL_PROGRAM_ERROR; plug->awaitingLoad = FALSE; } } static void uplug_loadPlug(UPlugData *plug, UErrorCode *status) { if(!plug->awaitingLoad || (plug->level < UPLUG_LEVEL_LOW) ) { /* shouldn't happen. Plugin hasn'tbeen loaded yet.*/ *status = U_INTERNAL_PROGRAM_ERROR; return; } uplug_callPlug(plug, UPLUG_REASON_LOAD, status); plug->awaitingLoad = FALSE; if(!U_SUCCESS(*status)) { plug->pluginStatus = U_INTERNAL_PROGRAM_ERROR; } } static UPlugData *uplug_allocateEmptyPlug(UErrorCode *status) { UPlugData *plug = NULL; if(U_FAILURE(*status)) { return NULL; } if(pluginCount == UPLUG_PLUGIN_INITIAL_COUNT) { *status = U_MEMORY_ALLOCATION_ERROR; return NULL; } plug = &pluginList[pluginCount++]; plug->token = UPLUG_TOKEN; plug->structSize = sizeof(UPlugData); plug->name[0]=0; plug->level = UPLUG_LEVEL_UNKNOWN; /* initialize to null state */ plug->awaitingLoad = TRUE; plug->dontUnload = FALSE; plug->pluginStatus = U_ZERO_ERROR; plug->libName[0] = 0; plug->config[0]=0; plug->sym[0]=0; plug->lib=NULL; plug->entrypoint=NULL; return plug; } static UPlugData *uplug_allocatePlug(UPlugEntrypoint *entrypoint, const char *config, void *lib, const char *symName, UErrorCode *status) { UPlugData *plug; if(U_FAILURE(*status)) { return NULL; } plug = uplug_allocateEmptyPlug(status); if(config!=NULL) { uprv_strncpy(plug->config, config, UPLUG_NAME_MAX); } else { plug->config[0] = 0; } if(symName!=NULL) { uprv_strncpy(plug->sym, symName, UPLUG_NAME_MAX); } else { plug->sym[0] = 0; } plug->entrypoint = entrypoint; plug->lib = lib; uplug_queryPlug(plug, status); return plug; } static void uplug_deallocatePlug(UPlugData *plug, UErrorCode *status) { UErrorCode subStatus = U_ZERO_ERROR; if(!plug->dontUnload) { #if U_ENABLE_DYLOAD uplug_closeLibrary(plug->lib, &subStatus); #endif } plug->lib = NULL; if(U_SUCCESS(*status) && U_FAILURE(subStatus)) { *status = subStatus; } /* shift plugins up and decrement count. */ if(U_SUCCESS(*status)) { /* all ok- remove. */ pluginCount = uplug_removeEntryAt(pluginList, pluginCount, sizeof(plug[0]), uplug_pluginNumber(plug)); } else { /* not ok- leave as a message. */ plug->awaitingLoad=FALSE; plug->entrypoint=0; plug->dontUnload=TRUE; } } static void uplug_doUnloadPlug(UPlugData *plugToRemove, UErrorCode *status) { if(plugToRemove != NULL) { uplug_unloadPlug(plugToRemove, status); uplug_deallocatePlug(plugToRemove, status); } } U_CAPI void U_EXPORT2 uplug_removePlug(UPlugData *plug, UErrorCode *status) { UPlugData *cursor = NULL; UPlugData *plugToRemove = NULL; if(U_FAILURE(*status)) return; for(cursor=pluginList;cursor!=NULL;) { if(cursor==plug) { plugToRemove = plug; cursor=NULL; } else { cursor = uplug_nextPlug(cursor); } } uplug_doUnloadPlug(plugToRemove, status); } U_CAPI void U_EXPORT2 uplug_setPlugNoUnload(UPlugData *data, UBool dontUnload) { data->dontUnload = dontUnload; } U_CAPI void U_EXPORT2 uplug_setPlugLevel(UPlugData *data, UPlugLevel level) { data->level = level; } U_CAPI UPlugLevel U_EXPORT2 uplug_getPlugLevel(UPlugData *data) { return data->level; } U_CAPI void U_EXPORT2 uplug_setPlugName(UPlugData *data, const char *name) { uprv_strncpy(data->name, name, UPLUG_NAME_MAX); } U_CAPI const char * U_EXPORT2 uplug_getPlugName(UPlugData *data) { return data->name; } U_CAPI const char * U_EXPORT2 uplug_getSymbolName(UPlugData *data) { return data->sym; } U_CAPI const char * U_EXPORT2 uplug_getLibraryName(UPlugData *data, UErrorCode *status) { if(data->libName[0]) { return data->libName; } else { #if U_ENABLE_DYLOAD return uplug_findLibrary(data->lib, status); #else return NULL; #endif } } U_CAPI void * U_EXPORT2 uplug_getLibrary(UPlugData *data) { return data->lib; } U_CAPI void * U_EXPORT2 uplug_getContext(UPlugData *data) { return data->context; } U_CAPI void U_EXPORT2 uplug_setContext(UPlugData *data, void *context) { data->context = context; } U_CAPI const char* U_EXPORT2 uplug_getConfiguration(UPlugData *data) { return data->config; } U_INTERNAL UPlugData* U_EXPORT2 uplug_getPlugInternal(int32_t n) { if(n <0 || n >= pluginCount) { return NULL; } else { return &(pluginList[n]); } } U_CAPI UErrorCode U_EXPORT2 uplug_getPlugLoadStatus(UPlugData *plug) { return plug->pluginStatus; } /** * Initialize a plugin fron an entrypoint and library - but don't load it. */ static UPlugData* uplug_initPlugFromEntrypointAndLibrary(UPlugEntrypoint *entrypoint, const char *config, void *lib, const char *sym, UErrorCode *status) { UPlugData *plug = NULL; plug = uplug_allocatePlug(entrypoint, config, lib, sym, status); if(U_SUCCESS(*status)) { return plug; } else { uplug_deallocatePlug(plug, status); return NULL; } } U_CAPI UPlugData* U_EXPORT2 uplug_loadPlugFromEntrypoint(UPlugEntrypoint *entrypoint, const char *config, UErrorCode *status) { UPlugData* plug = uplug_initPlugFromEntrypointAndLibrary(entrypoint, config, NULL, NULL, status); uplug_loadPlug(plug, status); return plug; } #if U_ENABLE_DYLOAD static UPlugData* uplug_initErrorPlug(const char *libName, const char *sym, const char *config, const char *nameOrError, UErrorCode loadStatus, UErrorCode *status) { UPlugData *plug = uplug_allocateEmptyPlug(status); if(U_FAILURE(*status)) return NULL; plug->pluginStatus = loadStatus; plug->awaitingLoad = FALSE; /* Won't load. */ plug->dontUnload = TRUE; /* cannot unload. */ if(sym!=NULL) { uprv_strncpy(plug->sym, sym, UPLUG_NAME_MAX); } if(libName!=NULL) { uprv_strncpy(plug->libName, libName, UPLUG_NAME_MAX); } if(nameOrError!=NULL) { uprv_strncpy(plug->name, nameOrError, UPLUG_NAME_MAX); } if(config!=NULL) { uprv_strncpy(plug->config, config, UPLUG_NAME_MAX); } return plug; } /** * Fetch a plugin from DLL, and then initialize it from a library- but don't load it. */ static UPlugData* uplug_initPlugFromLibrary(const char *libName, const char *sym, const char *config, UErrorCode *status) { void *lib = NULL; UPlugData *plug = NULL; if(U_FAILURE(*status)) { return NULL; } lib = uplug_openLibrary(libName, status); if(lib!=NULL && U_SUCCESS(*status)) { UPlugEntrypoint *entrypoint = NULL; entrypoint = (UPlugEntrypoint*)uprv_dlsym_func(lib, sym, status); if(entrypoint!=NULL&&U_SUCCESS(*status)) { plug = uplug_initPlugFromEntrypointAndLibrary(entrypoint, config, lib, sym, status); if(plug!=NULL&&U_SUCCESS(*status)) { plug->lib = lib; /* plug takes ownership of library */ lib = NULL; /* library is now owned by plugin. */ } } else { UErrorCode subStatus = U_ZERO_ERROR; plug = uplug_initErrorPlug(libName,sym,config,"ERROR: Could not load entrypoint",(lib==NULL)?U_MISSING_RESOURCE_ERROR:*status,&subStatus); } if(lib!=NULL) { /* still need to close the lib */ UErrorCode subStatus = U_ZERO_ERROR; uplug_closeLibrary(lib, &subStatus); /* don't care here */ } } else { UErrorCode subStatus = U_ZERO_ERROR; plug = uplug_initErrorPlug(libName,sym,config,"ERROR: could not load library",(lib==NULL)?U_MISSING_RESOURCE_ERROR:*status,&subStatus); } return plug; } U_CAPI UPlugData* U_EXPORT2 uplug_loadPlugFromLibrary(const char *libName, const char *sym, const char *config, UErrorCode *status) { UPlugData *plug = NULL; if(U_FAILURE(*status)) { return NULL; } plug = uplug_initPlugFromLibrary(libName, sym, config, status); uplug_loadPlug(plug, status); return plug; } #endif U_CAPI UPlugLevel U_EXPORT2 uplug_getCurrentLevel() { if(cmemory_inUse()) { return UPLUG_LEVEL_HIGH; } else { return UPLUG_LEVEL_LOW; } } static UBool U_CALLCONV uplug_cleanup(void) { int32_t i; UPlugData *pluginToRemove; /* cleanup plugs */ for(i=0;iawaitingLoad) { if(pluginToLoad->level == UPLUG_LEVEL_LOW) { if(currentLevel > UPLUG_LEVEL_LOW) { pluginToLoad->pluginStatus = U_PLUGIN_TOO_HIGH; } else { UPlugLevel newLevel; uplug_loadPlug(pluginToLoad, &subStatus); newLevel = uplug_getCurrentLevel(); if(newLevel > currentLevel) { pluginToLoad->pluginStatus = U_PLUGIN_CHANGED_LEVEL_WARNING; currentLevel = newLevel; } } pluginToLoad->awaitingLoad = FALSE; } } } for(i=0;iawaitingLoad) { if(pluginToLoad->level == UPLUG_LEVEL_INVALID) { pluginToLoad->pluginStatus = U_PLUGIN_DIDNT_SET_LEVEL; } else if(pluginToLoad->level == UPLUG_LEVEL_UNKNOWN) { pluginToLoad->pluginStatus = U_INTERNAL_PROGRAM_ERROR; } else { uplug_loadPlug(pluginToLoad, &subStatus); } pluginToLoad->awaitingLoad = FALSE; } } #if UPLUG_TRACE DBG((stderr, " Done Loading Plugs. Level: %d\n", (int32_t)uplug_getCurrentLevel())); #endif } /* Name of the plugin config file */ static char plugin_file[2048] = ""; #endif U_INTERNAL const char* U_EXPORT2 uplug_getPluginFile() { #if U_ENABLE_DYLOAD return plugin_file; #else return NULL; #endif } U_CAPI void U_EXPORT2 uplug_init(UErrorCode *status) { #if !U_ENABLE_DYLOAD (void)status; /* unused */ #else const char *plugin_dir; if(U_FAILURE(*status)) return; plugin_dir = getenv("ICU_PLUGINS"); #if defined(DEFAULT_ICU_PLUGINS) if(plugin_dir == NULL || !*plugin_dir) { plugin_dir = DEFAULT_ICU_PLUGINS; } #endif #if UPLUG_TRACE DBG((stderr, "ICU_PLUGINS=%s\n", plugin_dir)); #endif if(plugin_dir != NULL && *plugin_dir) { FILE *f; #ifdef OS390BATCH /* There are potentially a lot of ways to implement a plugin directory on OS390/zOS */ /* Keeping in mind that unauthorized file access is logged, monitored, and enforced */ /* I've chosen to open a DDNAME if BATCH and leave it alone for (presumably) UNIX */ /* System Services. Alternative techniques might be allocating a member in */ /* SYS1.PARMLIB or setting an environment variable "ICU_PLUGIN_PATH" (?). The */ /* DDNAME can be connected to a file in the HFS if need be. */ uprv_strncpy(plugin_file,"//DD:ICUPLUG", 2047); /* JAM 20 Oct 2011 */ #else uprv_strncpy(plugin_file, plugin_dir, 2047); uprv_strncat(plugin_file, U_FILE_SEP_STRING,2047); uprv_strncat(plugin_file, "icuplugins",2047); uprv_strncat(plugin_file, U_ICU_VERSION_SHORT ,2047); uprv_strncat(plugin_file, ".txt" ,2047); #endif #if UPLUG_TRACE DBG((stderr, "pluginfile= %s\n", plugin_file)); #endif #ifdef __MVS__ if (iscics()) /* 12 Nov 2011 JAM */ { f = NULL; } else #endif { f = fopen(plugin_file, "r"); } if(f != NULL) { char linebuf[1024]; char *p, *libName=NULL, *symName=NULL, *config=NULL; int32_t line = 0; while(fgets(linebuf,1023,f)) { line++; if(!*linebuf || *linebuf=='#') { continue; } else { p = linebuf; while(*p&&isspace((int)*p)) p++; if(!*p || *p=='#') continue; libName = p; while(*p&&!isspace((int)*p)) { p++; } if(!*p || *p=='#') continue; /* no tab after libname */ *p=0; /* end of libname */ p++; while(*p&&isspace((int)*p)) { p++; } if(!*p||*p=='#') continue; /* no symname after libname +tab */ symName = p; while(*p&&!isspace((int)*p)) { p++; } if(*p) { /* has config */ *p=0; ++p; while(*p&&isspace((int)*p)) { p++; } if(*p) { config = p; } } /* chop whitespace at the end of the config */ if(config!=NULL&&*config!=0) { p = config+strlen(config); while(p>config&&isspace((int)*(--p))) { *p=0; } } /* OK, we're good. */ { UErrorCode subStatus = U_ZERO_ERROR; UPlugData *plug = uplug_initPlugFromLibrary(libName, symName, config, &subStatus); if(U_FAILURE(subStatus) && U_SUCCESS(*status)) { *status = subStatus; } #if UPLUG_TRACE DBG((stderr, "PLUGIN libName=[%s], sym=[%s], config=[%s]\n", libName, symName, config)); DBG((stderr, " -> %p, %s\n", (void*)plug, u_errorName(subStatus))); #else (void)plug; /* unused */ #endif } } } fclose(f); } else { #if UPLUG_TRACE DBG((stderr, "Can't open plugin file %s\n", plugin_file)); #endif } } uplug_loadWaitingPlugs(status); #endif /* U_ENABLE_DYLOAD */ ucln_registerCleanup(UCLN_UPLUG, uplug_cleanup); }