/* Support for opening `typed' stores Copyright (C) 1997,1998,2001,2002,2003,2004 Free Software Foundation, Inc. Written by Miles Bader This file is part of the GNU Hurd. The GNU Hurd is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. The GNU Hurd is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111, USA. */ #include "store.h" #include #include #include const struct store_class * store_find_class (const char *name, const char *clname_end, const struct store_class *const *classes) { const struct store_class *const *cl; if (! clname_end) clname_end = strchr (name, '\0'); if (classes != 0) { /* The caller gave a class list, so that's is all we'll use. */ for (cl = classes; *cl != 0; ++cl) if (strlen ((*cl)->name) == (clname_end - name) && !memcmp (name, (*cl)->name, (clname_end - name))) break; return *cl; } /* Check the statically-linked set of classes found in the "store_std_classes" section. For static linking, this is the section in the program executable itself and it has been populated by the set of -lstore_TYPE pseudo-libraries included in the link. For dynamic linking with just -lstore, these symbols will be found in libstore.so and have the set statically included when the shared object was built. If a dynamically-linked program has its own "store_std_classes" section, e.g. by -lstore_TYPE objects included in the link, this will be just that section and libstore.so itself is covered below. */ for (cl = __start_store_std_classes; cl < __stop_store_std_classes; ++cl) if (strlen ((*cl)->name) == (clname_end - name) && strncmp (name, (*cl)->name, (clname_end - name)) == 0) return *cl; /* Now we will iterate through all of the dynamic objects loaded and examine each one's "store_std_classes" section. */ # pragma weak _r_debug # pragma weak dlsym # pragma weak dlopen # pragma weak dlclose # pragma weak dlerror if (dlsym) { struct link_map *map; for (map = _r_debug.r_map; map != 0; map = map->l_next) { const struct store_class *const *start, *const *stop; /* We cannot just use MAP directly because it may not have been opened by dlopen such that its data structures are fully set up for dlsym. */ void *module = dlopen (map->l_name, RTLD_NOLOAD); if (module == 0) { (void) dlerror (); /* Required to avoid a leak! */ continue; } start = dlsym (map, "__start_store_std_classes"); if (start == 0) (void) dlerror (); /* Required to avoid a leak! */ else if (start != __start_store_std_classes) /* */ { stop = dlsym (map, "__stop_store_std_classes"); if (stop == 0) (void) dlerror (); /* Required to avoid a leak! */ else for (cl = start; cl < stop; ++cl) if (strlen ((*cl)->name) == (clname_end - name) && strncmp (name, (*cl)->name, (clname_end - name)) == 0) { dlclose (module); return *cl; } } dlclose (module); } } return 0; } /* Open the store indicated by NAME, which should consist of a store type name followed by a ':' and any type-specific name, returning the new store in STORE. If NAME doesn't contain a `:', then it will be interpreted as either a class name, if such a class occurs in CLASSES, or a filename, which is opened by calling store_open on NAME; a `:' at the end or the beginning of NAME unambiguously causes the remainder to be treated as a class-name or a filename, respectively. CLASSES is used to select classes specified by the type name; if it is 0, STORE_STD_CLASSES is used. */ error_t store_typed_open (const char *name, int flags, const struct store_class *const *classes, struct store **store) { const struct store_class *cl; const char *clname_end = strchrnul (name, ':'); if (clname_end == name && *clname_end) /* Open NAME with store_open. */ return store_open (name + 1, flags, classes, store); /* Try to find an existing class by the given name. */ cl = store_find_class (name, clname_end, classes); if (cl != 0) { if (! cl->open) /* CL cannot be opened. */ return EOPNOTSUPP; if (*clname_end) /* Skip the ':' separating the class-name from the device name. */ clname_end++; if (! *clname_end) /* The class-specific portion of the name is empty, so make it *really* empty. */ clname_end = 0; return (*cl->open) (clname_end, flags, classes, store); } /* Try to open a store by loading a module to define the class, if we have the module-loading support linked in. We don't just use store_module_find_class, because store_module_open will unload the new module if the open doesn't succeed and we have no other way to unload it. We always leave modules loaded once a store from the module has been successfully opened and so can leave unbounded numbers of old modules loaded after closing all the stores using them. But at least we can avoid having modules loaded for stores we never even opened. */ # pragma weak store_module_open if (store_module_open) { error_t err = store_module_open (name, flags, classes, store); if (err != ENOENT) return err; } /* No class with the given name found. */ if (*clname_end) /* NAME really should be a class name, which doesn't exist. */ return EINVAL; else /* Try opening NAME by querying it as a file instead. */ return store_open (name, flags, classes, store); } const struct store_class store_typed_open_class = { -1, "typed", open: store_typed_open }; STORE_STD_CLASS (typed_open);