/*********************************************************** Copyright 1991, 1992, 1993 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. ******************************************************************/ /* Module definition and import implementation */ #include "allobjects.h" #include "node.h" #include "token.h" #include "graminit.h" #include "import.h" #include "errcode.h" #include "sysmodule.h" #include "pythonrun.h" #include "marshal.h" #include "compile.h" #include "eval.h" #include "osdefs.h" extern int verbose; /* Defined in pythonmain.c */ #ifdef DEBUG #define D(x) x #else #define D(x) #endif #ifdef USE_DL #include "dl.h" extern char *argv0; #endif /* Magic word to reject pre-0.9.9 .pyc files */ #define MAGIC 0x99BE2AL static object *modules; /* Forward */ static int init_builtin PROTO((char *)); /* Initialization */ void initimport() { if ((modules = newdictobject()) == NULL) fatal("no mem for dictionary of modules"); } object * get_modules() { return modules; } object * add_module(name) char *name; { object *m; if ((m = dictlookup(modules, name)) != NULL && is_moduleobject(m)) return m; m = newmoduleobject(name); if (m == NULL) return NULL; if (dictinsert(modules, name, m) != 0) { DECREF(m); return NULL; } DECREF(m); /* Yes, it still exists, in modules! */ return m; } /* Suffixes used by open_module: */ #define PY_SUFFIX ".py" #ifdef USE_DL #define O_SUFFIX "module.o" #endif /* Find and open a module file, using sys.path. Return a NULL pointer if no module file is found. When dynamic loading is enabled, the contents of namebuf is important when NULL is returned: if namebuf[0] != '\0' a dl-able object file was found and namebuf is its pathname. */ static FILE * open_module(name, namebuf) char *name; char *namebuf; /* XXX No buffer overflow checks! */ { object *path; FILE *fp; path = sysget("path"); if (path == NULL || !is_listobject(path)) { /* No path -- at least try current directory */ #ifdef USE_DL strcpy(namebuf, name); strcat(namebuf, O_SUFFIX); if (getmtime(namebuf) > 0) return NULL; #endif strcpy(namebuf, name); strcat(namebuf, PY_SUFFIX); fp = fopen(namebuf, "r"); } else { int npath = getlistsize(path); int i; fp = NULL; for (i = 0; i < npath; i++) { object *v = getlistitem(path, i); int len; if (!is_stringobject(v)) continue; strcpy(namebuf, getstringvalue(v)); len = getstringsize(v); if (len > 0 && namebuf[len-1] != SEP) namebuf[len++] = SEP; #ifdef USE_DL strcpy(namebuf+len, name); strcat(namebuf, O_SUFFIX); if (getmtime(namebuf) > 0) return NULL; #endif strcpy(namebuf+len, name); strcat(namebuf, PY_SUFFIX); fp = fopen(namebuf, "r"); if (fp != NULL) break; } } if (fp == NULL) namebuf[0] = '\0'; return fp; } static object * get_module(m, name, m_ret) /*module*/object *m; char *name; object **m_ret; { codeobject *co = NULL; object *v, *d; FILE *fp, *fpc; node *n; int err; char namebuf[MAXPATHLEN+1]; int namelen; long mtime; extern long getmtime(); fp = open_module(name, namebuf); if (fp == NULL) { #ifdef USE_DL if (namebuf[0] != '\0') { char funcname[258]; dl_funcptr p; D(fprintf(stderr, "Found %s\n", namebuf)); sprintf(funcname, "init%s", name); p = dl_loadmod(argv0, namebuf, funcname); if (p == NULL) { D(fprintf(stderr, "dl_loadmod failed\n")); } else { if (verbose) fprintf(stderr, "import %s # dynamically loaded from \"%s\"\n", name, namebuf); (*p)(); *m_ret = m = dictlookup(modules, name); if (m == NULL) { err_setstr(SystemError, "dynamic module missing"); return NULL; } else { D(fprintf(stderr, "module %s loaded!\n", name)); INCREF(None); return None; } } } #endif if (m == NULL) { sprintf(namebuf, "no module named %.200s", name); err_setstr(ImportError, namebuf); } else { sprintf(namebuf, "no source for module %.200s", name); err_setstr(ImportError, namebuf); } return NULL; } /* Get mtime -- always useful */ mtime = getmtime(namebuf); /* Check ".pyc" file first */ namelen = strlen(namebuf); namebuf[namelen] = 'c'; namebuf[namelen+1] = '\0'; fpc = fopen(namebuf, "rb"); if (fpc != NULL) { long pyc_mtime; long magic; magic = rd_long(fpc); pyc_mtime = rd_long(fpc); if (magic == MAGIC && pyc_mtime == mtime && mtime != 0 && mtime != -1) { v = rd_object(fpc); if (v == NULL || err_occurred() || !is_codeobject(v)) { err_clear(); XDECREF(v); } else co = (codeobject *)v; } fclose(fpc); if (verbose) { if (co != NULL) fprintf(stderr, "import %s # precompiled from \"%s\"\n", name, namebuf); else fprintf(stderr, "# invalid precompiled file \"%s\"\n", namebuf); } } namebuf[namelen] = '\0'; if (co == NULL) { if (verbose) fprintf(stderr, "import %s # from \"%s\"\n", name, namebuf); err = parse_file(fp, namebuf, file_input, &n); } else err = E_DONE; fclose(fp); if (err != E_DONE) { err_input(err); return NULL; } if (m == NULL) { m = add_module(name); if (m == NULL) { freetree(n); return NULL; } *m_ret = m; } d = getmoduledict(m); if (co == NULL) { co = compile(n, namebuf); freetree(n); if (co == NULL) return NULL; /* Now write the code object to the ".pyc" file */ namebuf[namelen] = 'c'; namebuf[namelen+1] = '\0'; fpc = fopen(namebuf, "wb"); if (fpc != NULL) { wr_long(MAGIC, fpc); /* First write a 0 for mtime */ wr_long(0L, fpc); wr_object((object *)co, fpc); if (ferror(fpc)) { /* Don't keep partial file */ fclose(fpc); (void) unlink(namebuf); } else { /* Now write the true mtime */ fseek(fpc, 4L, 0); wr_long(mtime, fpc); fflush(fpc); fclose(fpc); } } } v = eval_code(co, d, d, (object *)NULL); DECREF(co); return v; } static object * load_module(name) char *name; { object *m, *v; v = get_module((object *)NULL, name, &m); if (v == NULL) return NULL; DECREF(v); return m; } object * import_module(name) char *name; { object *m; if ((m = dictlookup(modules, name)) == NULL) { if (init_builtin(name)) { if ((m = dictlookup(modules, name)) == NULL) err_setstr(SystemError, "builtin module missing"); } else { m = load_module(name); } } return m; } object * reload_module(m) object *m; { if (m == NULL || !is_moduleobject(m)) { err_setstr(TypeError, "reload() argument must be module"); return NULL; } /* XXX Ought to check for builtin modules -- can't reload these... */ return get_module(m, getmodulename(m), (object **)NULL); } static void cleardict(d) object *d; { int i; for (i = getdictsize(d); --i >= 0; ) { char *k; k = getdictkey(d, i); if (k != NULL) (void) dictremove(d, k); } } void doneimport() { if (modules != NULL) { int i; /* Explicitly erase all modules; this is the safest way to get rid of at least *some* circular dependencies */ for (i = getdictsize(modules); --i >= 0; ) { object *k; k = getdict2key(modules, i); if (k != NULL) { object *m; m = dict2lookup(modules, k); if (m == NULL) err_clear(); else if (is_moduleobject(m)) { object *d; d = getmoduledict(m); if (d != NULL && is_dictobject(d)) { cleardict(d); } } } } cleardict(modules); } DECREF(modules); } /* Initialize built-in modules when first imported */ static int init_builtin(name) char *name; { int i; for (i = 0; inittab[i].name != NULL; i++) { if (strcmp(name, inittab[i].name) == 0) { if (verbose) fprintf(stderr, "import %s # builtin\n", name); (*inittab[i].initfunc)(); return 1; } } return 0; }