/*********************************************************** Copyright 1991-1995 by Stichting Mathematisch Centrum, Amsterdam, The Netherlands. All Rights Reserved Permission to use, copy, modify, and distribute this software and its documentation for any purpose and without fee is hereby granted, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation, and that the names of Stichting Mathematisch Centrum or CWI not be used in advertising or publicity pertaining to distribution of the software without specific, written prior permission. STICHTING MATHEMATISCH CENTRUM DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL STICHTING MATHEMATISCH CENTRUM BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ******************************************************************/ /* Support for dynamic loading of extension modules */ /* If no dynamic linking is supported, this file still generates some code! */ #include "allobjects.h" #include "osdefs.h" #include "importdl.h" extern int verbose; /* Defined in pythonrun.c */ /* Explanation of some of the the various #defines used by dynamic linking... symbol -- defined for: DYNAMIC_LINK -- any kind of dynamic linking USE_RLD -- NeXT dynamic linking USE_DL -- Jack's dl for IRIX 4 or GNU dld with emulation for Jack's dl USE_SHLIB -- SunOS or IRIX 5 (SVR4?) shared libraries _AIX -- AIX style dynamic linking NT -- NT style dynamic linking (using DLLs) _DL_FUNCPTR_DEFINED -- if the typedef dl_funcptr has been defined USE_MAC_DYNAMIC_LOADING -- Mac CFM shared libraries SHORT_EXT -- short extension for dynamic module, e.g. ".so" LONG_EXT -- long extension, e.g. "module.so" hpux -- HP-UX Dynamic Linking - defined by the compiler __NetBSD__ -- NetBSD shared libraries (not quite SVR4 compatible) (The other WITH_* symbols are used only once, to set the appropriate symbols.) */ /* Configure dynamic linking */ #ifdef hpux #define DYNAMIC_LINK #include typedef void (*dl_funcptr)(); #define _DL_FUNCPTR_DEFINED 1 #define SHORT_EXT ".sl" #define LONG_EXT "module.sl" #endif #ifdef __NetBSD__ #define DYNAMIC_LINK #define USE_SHLIB #define dlerror() "error in dynamic linking" #endif #ifdef __WIN32__ #define NT #endif #ifdef NT #define DYNAMIC_LINK #include typedef FARPROC dl_funcptr; #define _DL_FUNCPTR_DEFINED #define SHORT_EXT ".pyd" #define LONG_EXT "module.pyd" #endif #ifdef NeXT #define DYNAMIC_LINK #define USE_RLD #endif #ifdef WITH_SGI_DL #define DYNAMIC_LINK #define USE_DL #endif #ifdef WITH_DL_DLD #define DYNAMIC_LINK #define USE_DL #endif #ifdef __CFM68K__ #define USE_MAC_DYNAMIC_LOADING #endif #ifdef USE_MAC_DYNAMIC_LOADING #define DYNAMIC_LINK #define SHORT_EXT ".slb" #define LONG_EXT "module.slb" #ifndef _DL_FUNCPTR_DEFINED typedef void (*dl_funcptr)(); #endif #endif #if !defined(DYNAMIC_LINK) && defined(HAVE_DLFCN_H) && defined(HAVE_DLOPEN) #define DYNAMIC_LINK #define USE_SHLIB #endif #ifdef _AIX #define DYNAMIC_LINK #include typedef void (*dl_funcptr)(); #define _DL_FUNCPTR_DEFINED static void aix_loaderror(char *name); #endif #ifdef DYNAMIC_LINK #ifdef USE_SHLIB #include #include #ifdef __NetBSD__ #include #include #else #include #endif #ifndef _DL_FUNCPTR_DEFINED typedef void (*dl_funcptr)(); #endif #ifndef RTLD_LAZY #define RTLD_LAZY 1 #endif #define SHORT_EXT ".so" #define LONG_EXT "module.so" #endif /* USE_SHLIB */ #if defined(USE_DL) || defined(hpux) #include "dl.h" #endif #ifdef USE_MAC_DYNAMIC_LOADING #include #ifdef SYMANTEC__CFM68K__ /* Really just an older version of Universal Headers */ #define CFragConnectionID ConnectionID #define kLoadCFrag 0x01 #endif #include #include "macdefs.h" #include "macglue.h" #endif #ifdef USE_RLD #include #define FUNCNAME_PATTERN "_init%.200s" #ifndef _DL_FUNCPTR_DEFINED typedef void (*dl_funcptr)(); #endif #endif /* USE_RLD */ extern char *getprogramname(); #ifndef FUNCNAME_PATTERN #if defined(__hp9000s300) || defined(__NetBSD__) || defined(__BORLANDC__) #define FUNCNAME_PATTERN "_init%.200s" #else #define FUNCNAME_PATTERN "init%.200s" #endif #endif #if !defined(SHORT_EXT) && !defined(LONG_EXT) #define SHORT_EXT ".o" #define LONG_EXT "module.o" #endif /* !SHORT_EXT && !LONG_EXT */ #endif /* DYNAMIC_LINK */ /* Max length of module suffix searched for -- accommodates "module.slb" */ #ifndef MAXSUFFIXSIZE #define MAXSUFFIXSIZE 12 #endif /* Pass it on to import.c */ int import_maxsuffixsize = MAXSUFFIXSIZE; struct filedescr import_filetab[] = { #ifdef SHORT_EXT {SHORT_EXT, "rb", C_EXTENSION}, #endif /* !SHORT_EXT */ #ifdef LONG_EXT {LONG_EXT, "rb", C_EXTENSION}, #endif /* !LONG_EXT */ {".py", "r", PY_SOURCE}, {".pyc", "rb", PY_COMPILED}, {0, 0} }; object * load_dynamic_module(name, pathname, fp) char *name; char *pathname; FILE *fp; { #ifndef DYNAMIC_LINK err_setstr(ImportError, "dynamically linked modules not supported"); return NULL; #else object *m; char funcname[258]; dl_funcptr p = NULL; #ifdef USE_SHLIB static struct { dev_t dev; ino_t ino; void *handle; } handles[128]; static int nhandles = 0; #endif sprintf(funcname, FUNCNAME_PATTERN, name); #ifdef USE_SHLIB if (fp != NULL) { int i; struct stat statb; fstat(fileno(fp), &statb); for (i = 0; i < nhandles; i++) { if (statb.st_dev == handles[i].dev && statb.st_ino == handles[i].ino) { p = (dl_funcptr) dlsym(handles[i].handle, funcname); goto got_it; } } if (nhandles < 128) { handles[nhandles].dev = statb.st_dev; handles[nhandles].ino = statb.st_ino; } } #endif /* USE_SHLIB */ #ifdef USE_MAC_DYNAMIC_LOADING /* ** Dynamic loading of CFM shared libraries on the Mac. ** The code has become more convoluted than it was, because we want to be able ** to put multiple modules in a single file. For this reason, we have to determine ** the fragment name, and we cannot use the library entry point but we have to locate ** the correct init routine "by hand". */ { FSSpec libspec; CFragConnectionID connID; Ptr mainAddr; Str255 errMessage; OSErr err; Boolean isfolder, didsomething; char buf[512]; Str63 fragname; Ptr symAddr; CFragSymbolClass class; /* First resolve any aliases to find the real file */ (void)FSMakeFSSpec(0, 0, Pstring(pathname), &libspec); #if !(defined(__MWERKS__) && defined(__CFM68K__)) /* Bug: not in library */ err = ResolveAliasFile(&libspec, 1, &isfolder, &didsomething); #endif if ( err ) { sprintf(buf, "%s: %s", pathname, PyMac_StrError(err)); err_setstr(ImportError, buf); return NULL; } /* Next, determine the fragment name, by stripping '.slb' and 'module' */ memcpy(fragname+1, libspec.name+1, libspec.name[0]); fragname[0] = libspec.name[0]; if( strncmp((char *)(fragname+1+fragname[0]-4), ".slb", 4) == 0 ) fragname[0] -= 4; if ( strncmp((char *)(fragname+1+fragname[0]-6), "module", 6) == 0 ) fragname[0] -= 6; /* Load the fragment (or return the connID if it is already loaded */ err = GetDiskFragment(&libspec, 0, 0, fragname, kLoadCFrag, &connID, &mainAddr, errMessage); if ( err ) { sprintf(buf, "%.*s: %s", errMessage[0], errMessage+1, PyMac_StrError(err)); err_setstr(ImportError, buf); return NULL; } /* Locate the address of the correct init function */ err = FindSymbol(connID, Pstring(funcname), &symAddr, &class); if ( err ) { sprintf(buf, "%s: %s", funcname, PyMac_StrError(err)); err_setstr(ImportError, buf); return NULL; } p = (dl_funcptr)symAddr; } #endif /* USE_MAC_DYNAMIC_LOADING */ #ifdef USE_SHLIB { #ifdef RTLD_NOW /* RTLD_NOW: resolve externals now (i.e. core dump now if some are missing) */ void *handle = dlopen(pathname, RTLD_NOW); #else void *handle; if (verbose) printf("dlopen(\"%s\", %d);\n", pathname, RTLD_LAZY); handle = dlopen(pathname, RTLD_LAZY); #endif /* RTLD_NOW */ if (handle == NULL) { err_setstr(ImportError, dlerror()); return NULL; } if (fp != NULL && nhandles < 128) handles[nhandles++].handle = handle; p = (dl_funcptr) dlsym(handle, funcname); } #endif /* USE_SHLIB */ #ifdef _AIX p = (dl_funcptr) load(pathname, 1, 0); if (p == NULL) { aix_loaderror(pathname); return NULL; } #endif /* _AIX */ #ifdef NT { HINSTANCE hDLL; hDLL = LoadLibrary(pathname); if (hDLL==NULL){ char errBuf[256]; unsigned int errorCode; /* Get an error string from Win32 error code */ char theInfo[256]; /* Pointer to error text from system */ int theLength; /* Length of error text */ errorCode = GetLastError(); theLength = FormatMessage(FORMAT_MESSAGE_FROM_SYSTEM, /* flags */ NULL, /* message source */ errorCode, /* the message (error) ID */ 0, /* default language environment */ (LPTSTR) theInfo, /* the buffer */ sizeof(theInfo), /* the buffer size */ NULL); /* no additional format args. */ /* Problem: could not get the error message. This should not happen if called correctly. */ if (theLength == 0) { sprintf(errBuf, "DLL load failed with error code %d", errorCode); } else { int len; /* For some reason a \r\n is appended to the text */ if (theLength >= 2 && theInfo[theLength-2] == '\r' && theInfo[theLength-1] == '\n') { theLength -= 2; theInfo[theLength] = '\0'; } strcpy(errBuf, "DLL load failed: "); len = strlen(errBuf); strncpy(errBuf+len, theInfo, sizeof(errBuf)-len); errBuf[sizeof(errBuf)-1] = '\0'; } err_setstr(ImportError, errBuf); return NULL; } p = GetProcAddress(hDLL, funcname); } #endif /* NT */ #ifdef USE_DL p = dl_loadmod(getprogramname(), pathname, funcname); #endif /* USE_DL */ #ifdef USE_RLD { NXStream *errorStream; struct mach_header *new_header; const char *filenames[2]; long ret; unsigned long ptr; errorStream = NXOpenMemory(NULL, 0, NX_WRITEONLY); filenames[0] = pathname; filenames[1] = NULL; ret = rld_load(errorStream, &new_header, filenames, NULL); /* extract the error messages for the exception */ if(!ret) { char *streamBuf; int len, maxLen; NXPutc(errorStream, (char)0); NXGetMemoryBuffer(errorStream, &streamBuf, &len, &maxLen); err_setstr(ImportError, streamBuf); } if(ret && rld_lookup(errorStream, funcname, &ptr)) p = (dl_funcptr) ptr; NXCloseMemory(errorStream, NX_FREEBUFFER); if(!ret) return NULL; } #endif /* USE_RLD */ #ifdef hpux { shl_t lib; int flags; flags = BIND_DEFERRED; if (verbose) { flags = BIND_IMMEDIATE | BIND_NONFATAL | BIND_VERBOSE; printf("shl_load %s\n",pathname); } lib = shl_load(pathname, flags, 0); if (lib == NULL) { char buf[256]; if (verbose) perror(pathname); sprintf(buf, "Failed to load %.200s", pathname); err_setstr(ImportError, buf); return NULL; } if (verbose) printf("shl_findsym %s\n", funcname); shl_findsym(&lib, funcname, TYPE_UNDEFINED, (void *) &p); if (p == NULL && verbose) perror(funcname); } #endif /* hpux */ got_it: if (p == NULL) { err_setstr(ImportError, "dynamic module does not define init function"); return NULL; } (*p)(); m = dictlookup(import_modules, name); if (m == NULL) { if (err_occurred() == NULL) err_setstr(SystemError, "dynamic module not initialized properly"); return NULL; } if (verbose) fprintf(stderr, "import %s # dynamically loaded from %s\n", name, pathname); INCREF(m); return m; #endif /* DYNAMIC_LINK */ } #ifdef _AIX #include /* for isdigit() */ #include /* for global errno */ #include /* for strerror() */ void aix_loaderror(char *pathname) { char *message[8], errbuf[1024]; int i,j; struct errtab { int errno; char *errstr; } load_errtab[] = { {L_ERROR_TOOMANY, "too many errors, rest skipped."}, {L_ERROR_NOLIB, "can't load library:"}, {L_ERROR_UNDEF, "can't find symbol in library:"}, {L_ERROR_RLDBAD, "RLD index out of range or bad relocation type:"}, {L_ERROR_FORMAT, "not a valid, executable xcoff file:"}, {L_ERROR_MEMBER, "file not an archive or does not contain requested member:"}, {L_ERROR_TYPE, "symbol table mismatch:"}, {L_ERROR_ALIGN, "text allignment in file is wrong."}, {L_ERROR_SYSTEM, "System error:"}, {L_ERROR_ERRNO, NULL} }; #define LOAD_ERRTAB_LEN (sizeof(load_errtab)/sizeof(load_errtab[0])) #define ERRBUF_APPEND(s) strncat(errbuf, s, sizeof(errbuf)-strlen(errbuf)-1) sprintf(errbuf, " from module %.200s ", pathname); if (!loadquery(1, &message[0], sizeof(message))) ERRBUF_APPEND(strerror(errno)); for(i = 0; message[i] && *message[i]; i++) { int nerr = atoi(message[i]); for (j=0; j