#include "Python.h" #include "structmember.h" #include "osdefs.h" #include "marshal.h" #include #define IS_SOURCE 0x0 #define IS_BYTECODE 0x1 #define IS_PACKAGE 0x2 struct st_zip_searchorder { char suffix[14]; int type; }; #ifdef ALTSEP _Py_IDENTIFIER(replace); #endif /* zip_searchorder defines how we search for a module in the Zip archive: we first search for a package __init__, then for non-package .pyc, and .py entries. The .pyc entries are swapped by initzipimport() if we run in optimized mode. Also, '/' is replaced by SEP there. */ static struct st_zip_searchorder zip_searchorder[] = { {"/__init__.pyc", IS_PACKAGE | IS_BYTECODE}, {"/__init__.py", IS_PACKAGE | IS_SOURCE}, {".pyc", IS_BYTECODE}, {".py", IS_SOURCE}, {"", 0} }; /* zipimporter object definition and support */ typedef struct _zipimporter ZipImporter; struct _zipimporter { PyObject_HEAD PyObject *archive; /* pathname of the Zip archive, decoded from the filesystem encoding */ PyObject *prefix; /* file prefix: "a/sub/directory/", encoded to the filesystem encoding */ PyObject *files; /* dict with file info {path: toc_entry} */ }; static PyObject *ZipImportError; /* read_directory() cache */ static PyObject *zip_directory_cache = NULL; /* forward decls */ static PyObject *read_directory(PyObject *archive); static PyObject *get_data(PyObject *archive, PyObject *toc_entry); static PyObject *get_module_code(ZipImporter *self, PyObject *fullname, int *p_ispackage, PyObject **p_modpath); #define ZipImporter_Check(op) PyObject_TypeCheck(op, &ZipImporter_Type) /* zipimporter.__init__ Split the "subdirectory" from the Zip archive path, lookup a matching entry in sys.path_importer_cache, fetch the file directory from there if found, or else read it from the archive. */ static int zipimporter_init(ZipImporter *self, PyObject *args, PyObject *kwds) { PyObject *path, *files, *tmp; PyObject *filename = NULL; Py_ssize_t len, flen; if (!_PyArg_NoKeywords("zipimporter()", kwds)) return -1; if (!PyArg_ParseTuple(args, "O&:zipimporter", PyUnicode_FSDecoder, &path)) return -1; if (PyUnicode_READY(path) == -1) return -1; len = PyUnicode_GET_LENGTH(path); if (len == 0) { PyErr_SetString(ZipImportError, "archive path is empty"); goto error; } #ifdef ALTSEP tmp = _PyObject_CallMethodId(path, &PyId_replace, "CC", ALTSEP, SEP); if (!tmp) goto error; Py_DECREF(path); path = tmp; #endif filename = path; Py_INCREF(filename); flen = len; for (;;) { struct stat statbuf; int rv; rv = _Py_stat(filename, &statbuf); if (rv == -2) goto error; if (rv == 0) { /* it exists */ if (!S_ISREG(statbuf.st_mode)) /* it's a not file */ Py_CLEAR(filename); break; } Py_CLEAR(filename); /* back up one path element */ flen = PyUnicode_FindChar(path, SEP, 0, flen, -1); if (flen == -1) break; filename = PyUnicode_Substring(path, 0, flen); if (filename == NULL) goto error; } if (filename == NULL) { PyErr_SetString(ZipImportError, "not a Zip file"); goto error; } if (PyUnicode_READY(filename) < 0) goto error; files = PyDict_GetItem(zip_directory_cache, filename); if (files == NULL) { files = read_directory(filename); if (files == NULL) goto error; if (PyDict_SetItem(zip_directory_cache, filename, files) != 0) goto error; } else Py_INCREF(files); self->files = files; /* Transfer reference */ self->archive = filename; filename = NULL; /* Check if there is a prefix directory following the filename. */ if (flen != len) { tmp = PyUnicode_Substring(path, flen+1, PyUnicode_GET_LENGTH(path)); if (tmp == NULL) goto error; self->prefix = tmp; if (PyUnicode_READ_CHAR(path, len-1) != SEP) { /* add trailing SEP */ tmp = PyUnicode_FromFormat("%U%c", self->prefix, SEP); if (tmp == NULL) goto error; Py_XSETREF(self->prefix, tmp); } } else self->prefix = PyUnicode_New(0, 0); Py_DECREF(path); return 0; error: Py_DECREF(path); Py_XDECREF(filename); return -1; } /* GC support. */ static int zipimporter_traverse(PyObject *obj, visitproc visit, void *arg) { ZipImporter *self = (ZipImporter *)obj; Py_VISIT(self->files); return 0; } static void zipimporter_dealloc(ZipImporter *self) { PyObject_GC_UnTrack(self); Py_XDECREF(self->archive); Py_XDECREF(self->prefix); Py_XDECREF(self->files); Py_TYPE(self)->tp_free((PyObject *)self); } static PyObject * zipimporter_repr(ZipImporter *self) { if (self->archive == NULL) return PyUnicode_FromString(""); else if (self->prefix != NULL && PyUnicode_GET_LENGTH(self->prefix) != 0) return PyUnicode_FromFormat("", self->archive, SEP, self->prefix); else return PyUnicode_FromFormat("", self->archive); } /* return fullname.split(".")[-1] */ static PyObject * get_subname(PyObject *fullname) { Py_ssize_t len, dot; if (PyUnicode_READY(fullname) < 0) return NULL; len = PyUnicode_GET_LENGTH(fullname); dot = PyUnicode_FindChar(fullname, '.', 0, len, -1); if (dot == -1) { Py_INCREF(fullname); return fullname; } else return PyUnicode_Substring(fullname, dot+1, len); } /* Given a (sub)modulename, write the potential file path in the archive (without extension) to the path buffer. Return the length of the resulting string. return self.prefix + name.replace('.', os.sep) */ static PyObject* make_filename(PyObject *prefix, PyObject *name) { PyObject *pathobj; Py_UCS4 *p, *buf; Py_ssize_t len; len = PyUnicode_GET_LENGTH(prefix) + PyUnicode_GET_LENGTH(name) + 1; p = buf = PyMem_New(Py_UCS4, len); if (buf == NULL) { PyErr_NoMemory(); return NULL; } if (!PyUnicode_AsUCS4(prefix, p, len, 0)) { PyMem_Free(buf); return NULL; } p += PyUnicode_GET_LENGTH(prefix); len -= PyUnicode_GET_LENGTH(prefix); if (!PyUnicode_AsUCS4(name, p, len, 1)) { PyMem_Free(buf); return NULL; } for (; *p; p++) { if (*p == '.') *p = SEP; } pathobj = PyUnicode_FromKindAndData(PyUnicode_4BYTE_KIND, buf, p-buf); PyMem_Free(buf); return pathobj; } enum zi_module_info { MI_ERROR, MI_NOT_FOUND, MI_MODULE, MI_PACKAGE }; /* Does this path represent a directory? on error, return < 0 if not a dir, return 0 if a dir, return 1 */ static int check_is_directory(ZipImporter *self, PyObject* prefix, PyObject *path) { PyObject *dirpath; int res; /* See if this is a "directory". If so, it's eligible to be part of a namespace package. We test by seeing if the name, with an appended path separator, exists. */ dirpath = PyUnicode_FromFormat("%U%U%c", prefix, path, SEP); if (dirpath == NULL) return -1; /* If dirpath is present in self->files, we have a directory. */ res = PyDict_Contains(self->files, dirpath); Py_DECREF(dirpath); return res; } /* Return some information about a module. */ static enum zi_module_info get_module_info(ZipImporter *self, PyObject *fullname) { PyObject *subname; PyObject *path, *fullpath, *item; struct st_zip_searchorder *zso; subname = get_subname(fullname); if (subname == NULL) return MI_ERROR; path = make_filename(self->prefix, subname); Py_DECREF(subname); if (path == NULL) return MI_ERROR; for (zso = zip_searchorder; *zso->suffix; zso++) { fullpath = PyUnicode_FromFormat("%U%s", path, zso->suffix); if (fullpath == NULL) { Py_DECREF(path); return MI_ERROR; } item = PyDict_GetItem(self->files, fullpath); Py_DECREF(fullpath); if (item != NULL) { Py_DECREF(path); if (zso->type & IS_PACKAGE) return MI_PACKAGE; else return MI_MODULE; } } Py_DECREF(path); return MI_NOT_FOUND; } typedef enum { FL_ERROR = -1, /* error */ FL_NOT_FOUND, /* no loader or namespace portions found */ FL_MODULE_FOUND, /* module/package found */ FL_NS_FOUND /* namespace portion found: */ /* *namespace_portion will point to the name */ } find_loader_result; /* The guts of "find_loader" and "find_module". */ static find_loader_result find_loader(ZipImporter *self, PyObject *fullname, PyObject **namespace_portion) { enum zi_module_info mi; *namespace_portion = NULL; mi = get_module_info(self, fullname); if (mi == MI_ERROR) return FL_ERROR; if (mi == MI_NOT_FOUND) { /* Not a module or regular package. See if this is a directory, and therefore possibly a portion of a namespace package. */ find_loader_result result = FL_NOT_FOUND; PyObject *subname; int is_dir; /* We're only interested in the last path component of fullname; earlier components are recorded in self->prefix. */ subname = get_subname(fullname); if (subname == NULL) { return FL_ERROR; } is_dir = check_is_directory(self, self->prefix, subname); if (is_dir < 0) result = FL_ERROR; else if (is_dir) { /* This is possibly a portion of a namespace package. Return the string representing its path, without a trailing separator. */ *namespace_portion = PyUnicode_FromFormat("%U%c%U%U", self->archive, SEP, self->prefix, subname); if (*namespace_portion == NULL) result = FL_ERROR; else result = FL_NS_FOUND; } Py_DECREF(subname); return result; } /* This is a module or package. */ return FL_MODULE_FOUND; } /* Check whether we can satisfy the import of the module named by 'fullname'. Return self if we can, None if we can't. */ static PyObject * zipimporter_find_module(PyObject *obj, PyObject *args) { ZipImporter *self = (ZipImporter *)obj; PyObject *path = NULL; PyObject *fullname; PyObject *namespace_portion = NULL; PyObject *result = NULL; if (!PyArg_ParseTuple(args, "U|O:zipimporter.find_module", &fullname, &path)) return NULL; switch (find_loader(self, fullname, &namespace_portion)) { case FL_ERROR: return NULL; case FL_NS_FOUND: /* A namespace portion is not allowed via find_module, so return None. */ Py_DECREF(namespace_portion); /* FALL THROUGH */ case FL_NOT_FOUND: result = Py_None; break; case FL_MODULE_FOUND: result = (PyObject *)self; break; default: PyErr_BadInternalCall(); return NULL; } Py_INCREF(result); return result; } /* Check whether we can satisfy the import of the module named by 'fullname', or whether it could be a portion of a namespace package. Return self if we can load it, a string containing the full path if it's a possible namespace portion, None if we can't load it. */ static PyObject * zipimporter_find_loader(PyObject *obj, PyObject *args) { ZipImporter *self = (ZipImporter *)obj; PyObject *path = NULL; PyObject *fullname; PyObject *result = NULL; PyObject *namespace_portion = NULL; if (!PyArg_ParseTuple(args, "U|O:zipimporter.find_module", &fullname, &path)) return NULL; switch (find_loader(self, fullname, &namespace_portion)) { case FL_ERROR: return NULL; case FL_NOT_FOUND: /* Not found, return (None, []) */ result = Py_BuildValue("O[]", Py_None); break; case FL_MODULE_FOUND: /* Return (self, []) */ result = Py_BuildValue("O[]", self); break; case FL_NS_FOUND: /* Return (None, [namespace_portion]) */ result = Py_BuildValue("O[O]", Py_None, namespace_portion); Py_DECREF(namespace_portion); return result; default: PyErr_BadInternalCall(); return NULL; } return result; } /* Load and return the module named by 'fullname'. */ static PyObject * zipimporter_load_module(PyObject *obj, PyObject *args) { ZipImporter *self = (ZipImporter *)obj; PyObject *code = NULL, *mod, *dict; PyObject *fullname; PyObject *modpath = NULL; int ispackage; if (!PyArg_ParseTuple(args, "U:zipimporter.load_module", &fullname)) return NULL; if (PyUnicode_READY(fullname) == -1) return NULL; code = get_module_code(self, fullname, &ispackage, &modpath); if (code == NULL) goto error; mod = PyImport_AddModuleObject(fullname); if (mod == NULL) goto error; dict = PyModule_GetDict(mod); /* mod.__loader__ = self */ if (PyDict_SetItemString(dict, "__loader__", (PyObject *)self) != 0) goto error; if (ispackage) { /* add __path__ to the module *before* the code gets executed */ PyObject *pkgpath, *fullpath, *subname; int err; subname = get_subname(fullname); if (subname == NULL) goto error; fullpath = PyUnicode_FromFormat("%U%c%U%U", self->archive, SEP, self->prefix, subname); Py_DECREF(subname); if (fullpath == NULL) goto error; pkgpath = Py_BuildValue("[N]", fullpath); if (pkgpath == NULL) goto error; err = PyDict_SetItemString(dict, "__path__", pkgpath); Py_DECREF(pkgpath); if (err != 0) goto error; } mod = PyImport_ExecCodeModuleObject(fullname, code, modpath, NULL); Py_CLEAR(code); if (mod == NULL) goto error; if (Py_VerboseFlag) PySys_FormatStderr("import %U # loaded from Zip %U\n", fullname, modpath); Py_DECREF(modpath); return mod; error: Py_XDECREF(code); Py_XDECREF(modpath); return NULL; } /* Return a string matching __file__ for the named module */ static PyObject * zipimporter_get_filename(PyObject *obj, PyObject *args) { ZipImporter *self = (ZipImporter *)obj; PyObject *fullname, *code, *modpath; int ispackage; if (!PyArg_ParseTuple(args, "U:zipimporter.get_filename", &fullname)) return NULL; /* Deciding the filename requires working out where the code would come from if the module was actually loaded */ code = get_module_code(self, fullname, &ispackage, &modpath); if (code == NULL) return NULL; Py_DECREF(code); /* Only need the path info */ return modpath; } /* Return a bool signifying whether the module is a package or not. */ static PyObject * zipimporter_is_package(PyObject *obj, PyObject *args) { ZipImporter *self = (ZipImporter *)obj; PyObject *fullname; enum zi_module_info mi; if (!PyArg_ParseTuple(args, "U:zipimporter.is_package", &fullname)) return NULL; mi = get_module_info(self, fullname); if (mi == MI_ERROR) return NULL; if (mi == MI_NOT_FOUND) { PyErr_Format(ZipImportError, "can't find module %R", fullname); return NULL; } return PyBool_FromLong(mi == MI_PACKAGE); } static PyObject * zipimporter_get_data(PyObject *obj, PyObject *args) { ZipImporter *self = (ZipImporter *)obj; PyObject *path, *key; PyObject *toc_entry; Py_ssize_t path_start, path_len, len; if (!PyArg_ParseTuple(args, "U:zipimporter.get_data", &path)) return NULL; #ifdef ALTSEP path = _PyObject_CallMethodId(path, &PyId_replace, "CC", ALTSEP, SEP); if (!path) return NULL; #else Py_INCREF(path); #endif if (PyUnicode_READY(path) == -1) goto error; path_len = PyUnicode_GET_LENGTH(path); len = PyUnicode_GET_LENGTH(self->archive); path_start = 0; if (PyUnicode_Tailmatch(path, self->archive, 0, len, -1) && PyUnicode_READ_CHAR(path, len) == SEP) { path_start = len + 1; } key = PyUnicode_Substring(path, path_start, path_len); if (key == NULL) goto error; toc_entry = PyDict_GetItem(self->files, key); if (toc_entry == NULL) { PyErr_SetFromErrnoWithFilenameObject(PyExc_IOError, key); Py_DECREF(key); goto error; } Py_DECREF(key); Py_DECREF(path); return get_data(self->archive, toc_entry); error: Py_DECREF(path); return NULL; } static PyObject * zipimporter_get_code(PyObject *obj, PyObject *args) { ZipImporter *self = (ZipImporter *)obj; PyObject *fullname; if (!PyArg_ParseTuple(args, "U:zipimporter.get_code", &fullname)) return NULL; return get_module_code(self, fullname, NULL, NULL); } static PyObject * zipimporter_get_source(PyObject *obj, PyObject *args) { ZipImporter *self = (ZipImporter *)obj; PyObject *toc_entry; PyObject *fullname, *subname, *path, *fullpath; enum zi_module_info mi; if (!PyArg_ParseTuple(args, "U:zipimporter.get_source", &fullname)) return NULL; mi = get_module_info(self, fullname); if (mi == MI_ERROR) return NULL; if (mi == MI_NOT_FOUND) { PyErr_Format(ZipImportError, "can't find module %R", fullname); return NULL; } subname = get_subname(fullname); if (subname == NULL) return NULL; path = make_filename(self->prefix, subname); Py_DECREF(subname); if (path == NULL) return NULL; if (mi == MI_PACKAGE) fullpath = PyUnicode_FromFormat("%U%c__init__.py", path, SEP); else fullpath = PyUnicode_FromFormat("%U.py", path); Py_DECREF(path); if (fullpath == NULL) return NULL; toc_entry = PyDict_GetItem(self->files, fullpath); Py_DECREF(fullpath); if (toc_entry != NULL) { PyObject *res, *bytes; bytes = get_data(self->archive, toc_entry); if (bytes == NULL) return NULL; res = PyUnicode_FromStringAndSize(PyBytes_AS_STRING(bytes), PyBytes_GET_SIZE(bytes)); Py_DECREF(bytes); return res; } /* we have the module, but no source */ Py_INCREF(Py_None); return Py_None; } PyDoc_STRVAR(doc_find_module, "find_module(fullname, path=None) -> self or None.\n\ \n\ Search for a module specified by 'fullname'. 'fullname' must be the\n\ fully qualified (dotted) module name. It returns the zipimporter\n\ instance itself if the module was found, or None if it wasn't.\n\ The optional 'path' argument is ignored -- it's there for compatibility\n\ with the importer protocol."); PyDoc_STRVAR(doc_find_loader, "find_loader(fullname, path=None) -> self, str or None.\n\ \n\ Search for a module specified by 'fullname'. 'fullname' must be the\n\ fully qualified (dotted) module name. It returns the zipimporter\n\ instance itself if the module was found, a string containing the\n\ full path name if it's possibly a portion of a namespace package,\n\ or None otherwise. The optional 'path' argument is ignored -- it's\n\ there for compatibility with the importer protocol."); PyDoc_STRVAR(doc_load_module, "load_module(fullname) -> module.\n\ \n\ Load the module specified by 'fullname'. 'fullname' must be the\n\ fully qualified (dotted) module name. It returns the imported\n\ module, or raises ZipImportError if it wasn't found."); PyDoc_STRVAR(doc_get_data, "get_data(pathname) -> string with file data.\n\ \n\ Return the data associated with 'pathname'. Raise IOError if\n\ the file wasn't found."); PyDoc_STRVAR(doc_is_package, "is_package(fullname) -> bool.\n\ \n\ Return True if the module specified by fullname is a package.\n\ Raise ZipImportError if the module couldn't be found."); PyDoc_STRVAR(doc_get_code, "get_code(fullname) -> code object.\n\ \n\ Return the code object for the specified module. Raise ZipImportError\n\ if the module couldn't be found."); PyDoc_STRVAR(doc_get_source, "get_source(fullname) -> source string.\n\ \n\ Return the source code for the specified module. Raise ZipImportError\n\ if the module couldn't be found, return None if the archive does\n\ contain the module, but has no source for it."); PyDoc_STRVAR(doc_get_filename, "get_filename(fullname) -> filename string.\n\ \n\ Return the filename for the specified module."); static PyMethodDef zipimporter_methods[] = { {"find_module", zipimporter_find_module, METH_VARARGS, doc_find_module}, {"find_loader", zipimporter_find_loader, METH_VARARGS, doc_find_loader}, {"load_module", zipimporter_load_module, METH_VARARGS, doc_load_module}, {"get_data", zipimporter_get_data, METH_VARARGS, doc_get_data}, {"get_code", zipimporter_get_code, METH_VARARGS, doc_get_code}, {"get_source", zipimporter_get_source, METH_VARARGS, doc_get_source}, {"get_filename", zipimporter_get_filename, METH_VARARGS, doc_get_filename}, {"is_package", zipimporter_is_package, METH_VARARGS, doc_is_package}, {NULL, NULL} /* sentinel */ }; static PyMemberDef zipimporter_members[] = { {"archive", T_OBJECT, offsetof(ZipImporter, archive), READONLY}, {"prefix", T_OBJECT, offsetof(ZipImporter, prefix), READONLY}, {"_files", T_OBJECT, offsetof(ZipImporter, files), READONLY}, {NULL} }; PyDoc_STRVAR(zipimporter_doc, "zipimporter(archivepath) -> zipimporter object\n\ \n\ Create a new zipimporter instance. 'archivepath' must be a path to\n\ a zipfile, or to a specific path inside a zipfile. For example, it can be\n\ '/tmp/myimport.zip', or '/tmp/myimport.zip/mydirectory', if mydirectory is a\n\ valid directory inside the archive.\n\ \n\ 'ZipImportError is raised if 'archivepath' doesn't point to a valid Zip\n\ archive.\n\ \n\ The 'archive' attribute of zipimporter objects contains the name of the\n\ zipfile targeted."); #define DEFERRED_ADDRESS(ADDR) 0 static PyTypeObject ZipImporter_Type = { PyVarObject_HEAD_INIT(DEFERRED_ADDRESS(&PyType_Type), 0) "zipimport.zipimporter", sizeof(ZipImporter), 0, /* tp_itemsize */ (destructor)zipimporter_dealloc, /* tp_dealloc */ 0, /* tp_print */ 0, /* tp_getattr */ 0, /* tp_setattr */ 0, /* tp_reserved */ (reprfunc)zipimporter_repr, /* tp_repr */ 0, /* tp_as_number */ 0, /* tp_as_sequence */ 0, /* tp_as_mapping */ 0, /* tp_hash */ 0, /* tp_call */ 0, /* tp_str */ PyObject_GenericGetAttr, /* tp_getattro */ 0, /* tp_setattro */ 0, /* tp_as_buffer */ Py_TPFLAGS_DEFAULT | Py_TPFLAGS_BASETYPE | Py_TPFLAGS_HAVE_GC, /* tp_flags */ zipimporter_doc, /* tp_doc */ zipimporter_traverse, /* tp_traverse */ 0, /* tp_clear */ 0, /* tp_richcompare */ 0, /* tp_weaklistoffset */ 0, /* tp_iter */ 0, /* tp_iternext */ zipimporter_methods, /* tp_methods */ zipimporter_members, /* tp_members */ 0, /* tp_getset */ 0, /* tp_base */ 0, /* tp_dict */ 0, /* tp_descr_get */ 0, /* tp_descr_set */ 0, /* tp_dictoffset */ (initproc)zipimporter_init, /* tp_init */ PyType_GenericAlloc, /* tp_alloc */ PyType_GenericNew, /* tp_new */ PyObject_GC_Del, /* tp_free */ }; /* implementation */ /* Given a buffer, return the unsigned int that is represented by the first 4 bytes, encoded as little endian. This partially reimplements marshal.c:r_long() */ static unsigned int get_uint32(const unsigned char *buf) { unsigned int x; x = buf[0]; x |= (unsigned int)buf[1] << 8; x |= (unsigned int)buf[2] << 16; x |= (unsigned int)buf[3] << 24; return x; } /* Given a buffer, return the unsigned int that is represented by the first 2 bytes, encoded as little endian. This partially reimplements marshal.c:r_short() */ static unsigned short get_uint16(const unsigned char *buf) { unsigned short x; x = buf[0]; x |= (unsigned short)buf[1] << 8; return x; } static void set_file_error(PyObject *archive, int eof) { if (eof) { PyErr_SetString(PyExc_EOFError, "EOF read where not expected"); } else { PyErr_SetFromErrnoWithFilenameObject(PyExc_OSError, archive); } } /* read_directory(archive) -> files dict (new reference) Given a path to a Zip archive, build a dict, mapping file names (local to the archive, using SEP as a separator) to toc entries. A toc_entry is a tuple: (__file__, # value to use for __file__, available for all files, # encoded to the filesystem encoding compress, # compression kind; 0 for uncompressed data_size, # size of compressed data on disk file_size, # size of decompressed data file_offset, # offset of file header from start of archive time, # mod time of file (in dos format) date, # mod data of file (in dos format) crc, # crc checksum of the data ) Directories can be recognized by the trailing SEP in the name, data_size and file_offset are 0. */ static PyObject * read_directory(PyObject *archive) { PyObject *files = NULL; FILE *fp; unsigned short flags, compress, time, date, name_size; unsigned int crc, data_size, file_size, header_size, header_offset; unsigned long file_offset, header_position; unsigned long arc_offset; /* Absolute offset to start of the zip-archive. */ unsigned int count, i; unsigned char buffer[46]; char name[MAXPATHLEN + 5]; PyObject *nameobj = NULL; PyObject *path; const char *charset; int bootstrap; const char *errmsg = NULL; fp = _Py_fopen_obj(archive, "rb"); if (fp == NULL) { if (PyErr_ExceptionMatches(PyExc_OSError)) { PyObject *exc, *val, *tb; PyErr_Fetch(&exc, &val, &tb); PyErr_Format(ZipImportError, "can't open Zip file: %R", archive); _PyErr_ChainExceptions(exc, val, tb); } return NULL; } if (fseek(fp, -22, SEEK_END) == -1) { goto file_error; } header_position = (unsigned long)ftell(fp); if (header_position == (unsigned long)-1) { goto file_error; } assert(header_position <= (unsigned long)LONG_MAX); if (fread(buffer, 1, 22, fp) != 22) { goto file_error; } if (get_uint32(buffer) != 0x06054B50u) { /* Bad: End of Central Dir signature */ errmsg = "not a Zip file"; goto invalid_header; } header_size = get_uint32(buffer + 12); header_offset = get_uint32(buffer + 16); if (header_position < header_size) { errmsg = "bad central directory size"; goto invalid_header; } if (header_position < header_offset) { errmsg = "bad central directory offset"; goto invalid_header; } if (header_position - header_size < header_offset) { errmsg = "bad central directory size or offset"; goto invalid_header; } header_position -= header_size; arc_offset = header_position - header_offset; files = PyDict_New(); if (files == NULL) { goto error; } /* Start of Central Directory */ count = 0; if (fseek(fp, (long)header_position, 0) == -1) { goto file_error; } for (;;) { PyObject *t; size_t n; int err; n = fread(buffer, 1, 46, fp); if (n < 4) { goto eof_error; } /* Start of file header */ if (get_uint32(buffer) != 0x02014B50u) { break; /* Bad: Central Dir File Header */ } if (n != 46) { goto eof_error; } flags = get_uint16(buffer + 8); compress = get_uint16(buffer + 10); time = get_uint16(buffer + 12); date = get_uint16(buffer + 14); crc = get_uint32(buffer + 16); data_size = get_uint32(buffer + 20); file_size = get_uint32(buffer + 24); name_size = get_uint16(buffer + 28); header_size = (unsigned int)name_size + get_uint16(buffer + 30) /* extra field */ + get_uint16(buffer + 32) /* comment */; file_offset = get_uint32(buffer + 42); if (file_offset > header_offset) { errmsg = "bad local header offset"; goto invalid_header; } file_offset += arc_offset; if (name_size > MAXPATHLEN) { name_size = MAXPATHLEN; } if (fread(name, 1, name_size, fp) != name_size) { goto file_error; } name[name_size] = '\0'; /* Add terminating null byte */ if (SEP != '/') { for (i = 0; i < name_size; i++) { if (name[i] == '/') { name[i] = SEP; } } } /* Skip the rest of the header. * On Windows, calling fseek to skip over the fields we don't use is * slower than reading the data because fseek flushes stdio's * internal buffers. See issue #8745. */ assert(header_size <= 3*0xFFFFu); for (i = name_size; i < header_size; i++) { if (getc(fp) == EOF) { goto file_error; } } bootstrap = 0; if (flags & 0x0800) { charset = "utf-8"; } else if (!PyThreadState_GET()->interp->codecs_initialized) { /* During bootstrap, we may need to load the encodings package from a ZIP file. But the cp437 encoding is implemented in Python in the encodings package. Break out of this dependency by assuming that the path to the encodings module is ASCII-only. */ charset = "ascii"; bootstrap = 1; } else { charset = "cp437"; } nameobj = PyUnicode_Decode(name, name_size, charset, NULL); if (nameobj == NULL) { if (bootstrap) { PyErr_Format(PyExc_NotImplementedError, "bootstrap issue: python%i%i.zip contains non-ASCII " "filenames without the unicode flag", PY_MAJOR_VERSION, PY_MINOR_VERSION); } goto error; } if (PyUnicode_READY(nameobj) == -1) { goto error; } path = PyUnicode_FromFormat("%U%c%U", archive, SEP, nameobj); if (path == NULL) { goto error; } t = Py_BuildValue("NHIIkHHI", path, compress, data_size, file_size, file_offset, time, date, crc); if (t == NULL) { goto error; } err = PyDict_SetItem(files, nameobj, t); Py_CLEAR(nameobj); Py_DECREF(t); if (err != 0) { goto error; } count++; } fclose(fp); if (Py_VerboseFlag) { PySys_FormatStderr("# zipimport: found %u names in %R\n", count, archive); } return files; eof_error: set_file_error(archive, !ferror(fp)); goto error; file_error: PyErr_Format(ZipImportError, "can't read Zip file: %R", archive); goto error; invalid_header: assert(errmsg != NULL); PyErr_Format(ZipImportError, "%s: %R", errmsg, archive); goto error; error: fclose(fp); Py_XDECREF(files); Py_XDECREF(nameobj); return NULL; } /* Return the zlib.decompress function object, or NULL if zlib couldn't be imported. The function is cached when found, so subsequent calls don't import zlib again. */ static PyObject * get_decompress_func(void) { static int importing_zlib = 0; PyObject *zlib; PyObject *decompress; _Py_IDENTIFIER(decompress); if (importing_zlib != 0) /* Someone has a zlib.py[co] in their Zip file; let's avoid a stack overflow. */ return NULL; importing_zlib = 1; zlib = PyImport_ImportModuleNoBlock("zlib"); importing_zlib = 0; if (zlib != NULL) { decompress = _PyObject_GetAttrId(zlib, &PyId_decompress); Py_DECREF(zlib); } else { PyErr_Clear(); decompress = NULL; } if (Py_VerboseFlag) PySys_WriteStderr("# zipimport: zlib %s\n", zlib != NULL ? "available": "UNAVAILABLE"); return decompress; } /* Given a path to a Zip file and a toc_entry, return the (uncompressed) data as a new reference. */ static PyObject * get_data(PyObject *archive, PyObject *toc_entry) { PyObject *raw_data = NULL, *data, *decompress; char *buf; FILE *fp; PyObject *datapath; unsigned short compress, time, date; unsigned int crc; Py_ssize_t data_size, file_size, bytes_size; long file_offset, header_size; unsigned char buffer[30]; const char *errmsg = NULL; if (!PyArg_ParseTuple(toc_entry, "OHnnlHHI", &datapath, &compress, &data_size, &file_size, &file_offset, &time, &date, &crc)) { return NULL; } if (data_size < 0) { PyErr_Format(ZipImportError, "negative data size"); return NULL; } fp = _Py_fopen_obj(archive, "rb"); if (!fp) { return NULL; } /* Check to make sure the local file header is correct */ if (fseek(fp, file_offset, 0) == -1) { goto file_error; } if (fread(buffer, 1, 30, fp) != 30) { goto eof_error; } if (get_uint32(buffer) != 0x04034B50u) { /* Bad: Local File Header */ errmsg = "bad local file header"; goto invalid_header; } header_size = (unsigned int)30 + get_uint16(buffer + 26) /* file name */ + get_uint16(buffer + 28) /* extra field */; if (file_offset > LONG_MAX - header_size) { errmsg = "bad local file header size"; goto invalid_header; } file_offset += header_size; /* Start of file data */ if (data_size > LONG_MAX - 1) { fclose(fp); PyErr_NoMemory(); return NULL; } bytes_size = compress == 0 ? data_size : data_size + 1; if (bytes_size == 0) { bytes_size++; } raw_data = PyBytes_FromStringAndSize((char *)NULL, bytes_size); if (raw_data == NULL) { goto error; } buf = PyBytes_AsString(raw_data); if (fseek(fp, file_offset, 0) == -1) { goto file_error; } if (fread(buf, 1, data_size, fp) != (size_t)data_size) { PyErr_SetString(PyExc_IOError, "zipimport: can't read data"); goto error; } fclose(fp); fp = NULL; if (compress != 0) { buf[data_size] = 'Z'; /* saw this in zipfile.py */ data_size++; } buf[data_size] = '\0'; if (compress == 0) { /* data is not compressed */ data = PyBytes_FromStringAndSize(buf, data_size); Py_DECREF(raw_data); return data; } /* Decompress with zlib */ decompress = get_decompress_func(); if (decompress == NULL) { PyErr_SetString(ZipImportError, "can't decompress data; " "zlib not available"); goto error; } data = PyObject_CallFunction(decompress, "Oi", raw_data, -15); Py_DECREF(decompress); Py_DECREF(raw_data); return data; eof_error: set_file_error(archive, !ferror(fp)); goto error; file_error: PyErr_Format(ZipImportError, "can't read Zip file: %R", archive); goto error; invalid_header: assert(errmsg != NULL); PyErr_Format(ZipImportError, "%s: %R", errmsg, archive); goto error; error: if (fp != NULL) { fclose(fp); } Py_XDECREF(raw_data); return NULL; } /* Lenient date/time comparison function. The precision of the mtime in the archive is lower than the mtime stored in a .pyc: we must allow a difference of at most one second. */ static int eq_mtime(time_t t1, time_t t2) { time_t d = t1 - t2; if (d < 0) d = -d; /* dostime only stores even seconds, so be lenient */ return d <= 1; } /* Given the contents of a .py[co] file in a buffer, unmarshal the data and return the code object. Return None if it the magic word doesn't match (we do this instead of raising an exception as we fall back to .py if available and we don't want to mask other errors). Returns a new reference. */ static PyObject * unmarshal_code(PyObject *pathname, PyObject *data, time_t mtime) { PyObject *code; unsigned char *buf = (unsigned char *)PyBytes_AsString(data); Py_ssize_t size = PyBytes_Size(data); if (size < 12) { PyErr_SetString(ZipImportError, "bad pyc data"); return NULL; } if (get_uint32(buf) != (unsigned int)PyImport_GetMagicNumber()) { if (Py_VerboseFlag) { PySys_FormatStderr("# %R has bad magic\n", pathname); } Py_INCREF(Py_None); return Py_None; /* signal caller to try alternative */ } if (mtime != 0 && !eq_mtime(get_uint32(buf + 4), mtime)) { if (Py_VerboseFlag) { PySys_FormatStderr("# %R has bad mtime\n", pathname); } Py_INCREF(Py_None); return Py_None; /* signal caller to try alternative */ } /* XXX the pyc's size field is ignored; timestamp collisions are probably unimportant with zip files. */ code = PyMarshal_ReadObjectFromString((char *)buf + 12, size - 12); if (code == NULL) { return NULL; } if (!PyCode_Check(code)) { Py_DECREF(code); PyErr_Format(PyExc_TypeError, "compiled module %R is not a code object", pathname); return NULL; } return code; } /* Replace any occurances of "\r\n?" in the input string with "\n". This converts DOS and Mac line endings to Unix line endings. Also append a trailing "\n" to be compatible with PyParser_SimpleParseFile(). Returns a new reference. */ static PyObject * normalize_line_endings(PyObject *source) { char *buf, *q, *p; PyObject *fixed_source; int len = 0; p = PyBytes_AsString(source); if (p == NULL) { return PyBytes_FromStringAndSize("\n\0", 2); } /* one char extra for trailing \n and one for terminating \0 */ buf = (char *)PyMem_Malloc(PyBytes_Size(source) + 2); if (buf == NULL) { PyErr_SetString(PyExc_MemoryError, "zipimport: no memory to allocate " "source buffer"); return NULL; } /* replace "\r\n?" by "\n" */ for (q = buf; *p != '\0'; p++) { if (*p == '\r') { *q++ = '\n'; if (*(p + 1) == '\n') p++; } else *q++ = *p; len++; } *q++ = '\n'; /* add trailing \n */ *q = '\0'; fixed_source = PyBytes_FromStringAndSize(buf, len + 2); PyMem_Free(buf); return fixed_source; } /* Given a string buffer containing Python source code, compile it and return a code object as a new reference. */ static PyObject * compile_source(PyObject *pathname, PyObject *source) { PyObject *code, *fixed_source, *pathbytes; pathbytes = PyUnicode_EncodeFSDefault(pathname); if (pathbytes == NULL) return NULL; fixed_source = normalize_line_endings(source); if (fixed_source == NULL) { Py_DECREF(pathbytes); return NULL; } code = Py_CompileString(PyBytes_AsString(fixed_source), PyBytes_AsString(pathbytes), Py_file_input); Py_DECREF(pathbytes); Py_DECREF(fixed_source); return code; } /* Convert the date/time values found in the Zip archive to a value that's compatible with the time stamp stored in .pyc files. */ static time_t parse_dostime(int dostime, int dosdate) { struct tm stm; memset((void *) &stm, '\0', sizeof(stm)); stm.tm_sec = (dostime & 0x1f) * 2; stm.tm_min = (dostime >> 5) & 0x3f; stm.tm_hour = (dostime >> 11) & 0x1f; stm.tm_mday = dosdate & 0x1f; stm.tm_mon = ((dosdate >> 5) & 0x0f) - 1; stm.tm_year = ((dosdate >> 9) & 0x7f) + 80; stm.tm_isdst = -1; /* wday/yday is ignored */ return mktime(&stm); } /* Given a path to a .pyc file in the archive, return the modification time of the matching .py file, or 0 if no source is available. */ static time_t get_mtime_of_source(ZipImporter *self, PyObject *path) { PyObject *toc_entry, *stripped; time_t mtime; /* strip 'c' or 'o' from *.py[co] */ if (PyUnicode_READY(path) == -1) return (time_t)-1; stripped = PyUnicode_FromKindAndData(PyUnicode_KIND(path), PyUnicode_DATA(path), PyUnicode_GET_LENGTH(path) - 1); if (stripped == NULL) return (time_t)-1; toc_entry = PyDict_GetItem(self->files, stripped); Py_DECREF(stripped); if (toc_entry != NULL && PyTuple_Check(toc_entry) && PyTuple_Size(toc_entry) == 8) { /* fetch the time stamp of the .py file for comparison with an embedded pyc time stamp */ int time, date; time = PyLong_AsLong(PyTuple_GetItem(toc_entry, 5)); date = PyLong_AsLong(PyTuple_GetItem(toc_entry, 6)); mtime = parse_dostime(time, date); } else mtime = 0; return mtime; } /* Return the code object for the module named by 'fullname' from the Zip archive as a new reference. */ static PyObject * get_code_from_data(ZipImporter *self, int ispackage, int isbytecode, time_t mtime, PyObject *toc_entry) { PyObject *data, *modpath, *code; data = get_data(self->archive, toc_entry); if (data == NULL) return NULL; modpath = PyTuple_GetItem(toc_entry, 0); if (isbytecode) code = unmarshal_code(modpath, data, mtime); else code = compile_source(modpath, data); Py_DECREF(data); return code; } /* Get the code object associated with the module specified by 'fullname'. */ static PyObject * get_module_code(ZipImporter *self, PyObject *fullname, int *p_ispackage, PyObject **p_modpath) { PyObject *code = NULL, *toc_entry, *subname; PyObject *path, *fullpath = NULL; struct st_zip_searchorder *zso; subname = get_subname(fullname); if (subname == NULL) return NULL; path = make_filename(self->prefix, subname); Py_DECREF(subname); if (path == NULL) return NULL; for (zso = zip_searchorder; *zso->suffix; zso++) { code = NULL; fullpath = PyUnicode_FromFormat("%U%s", path, zso->suffix); if (fullpath == NULL) goto exit; if (Py_VerboseFlag > 1) PySys_FormatStderr("# trying %U%c%U\n", self->archive, (int)SEP, fullpath); toc_entry = PyDict_GetItem(self->files, fullpath); if (toc_entry != NULL) { time_t mtime = 0; int ispackage = zso->type & IS_PACKAGE; int isbytecode = zso->type & IS_BYTECODE; if (isbytecode) { mtime = get_mtime_of_source(self, fullpath); if (mtime == (time_t)-1 && PyErr_Occurred()) { goto exit; } } Py_CLEAR(fullpath); if (p_ispackage != NULL) *p_ispackage = ispackage; code = get_code_from_data(self, ispackage, isbytecode, mtime, toc_entry); if (code == Py_None) { /* bad magic number or non-matching mtime in byte code, try next */ Py_DECREF(code); continue; } if (code != NULL && p_modpath != NULL) { *p_modpath = PyTuple_GetItem(toc_entry, 0); Py_INCREF(*p_modpath); } goto exit; } else Py_CLEAR(fullpath); } PyErr_Format(ZipImportError, "can't find module %R", fullname); exit: Py_DECREF(path); Py_XDECREF(fullpath); return code; } /* Module init */ PyDoc_STRVAR(zipimport_doc, "zipimport provides support for importing Python modules from Zip archives.\n\ \n\ This module exports three objects:\n\ - zipimporter: a class; its constructor takes a path to a Zip archive.\n\ - ZipImportError: exception raised by zipimporter objects. It's a\n\ subclass of ImportError, so it can be caught as ImportError, too.\n\ - _zip_directory_cache: a dict, mapping archive paths to zip directory\n\ info dicts, as used in zipimporter._files.\n\ \n\ It is usually not needed to use the zipimport module explicitly; it is\n\ used by the builtin import mechanism for sys.path items that are paths\n\ to Zip archives."); static struct PyModuleDef zipimportmodule = { PyModuleDef_HEAD_INIT, "zipimport", zipimport_doc, -1, NULL, NULL, NULL, NULL, NULL }; PyMODINIT_FUNC PyInit_zipimport(void) { PyObject *mod; if (PyType_Ready(&ZipImporter_Type) < 0) return NULL; /* Correct directory separator */ zip_searchorder[0].suffix[0] = SEP; zip_searchorder[1].suffix[0] = SEP; mod = PyModule_Create(&zipimportmodule); if (mod == NULL) return NULL; ZipImportError = PyErr_NewException("zipimport.ZipImportError", PyExc_ImportError, NULL); if (ZipImportError == NULL) return NULL; Py_INCREF(ZipImportError); if (PyModule_AddObject(mod, "ZipImportError", ZipImportError) < 0) return NULL; Py_INCREF(&ZipImporter_Type); if (PyModule_AddObject(mod, "zipimporter", (PyObject *)&ZipImporter_Type) < 0) return NULL; zip_directory_cache = PyDict_New(); if (zip_directory_cache == NULL) return NULL; Py_INCREF(zip_directory_cache); if (PyModule_AddObject(mod, "_zip_directory_cache", zip_directory_cache) < 0) return NULL; return mod; }