/* vi: set sw=4 ts=4: */ /* * depmod - generate modules.dep * Copyright (c) 2008 Bernhard Reutner-Fischer * Copyrihgt (c) 2008 Timo Teras * Copyright (c) 2008 Vladimir Dronnikov * * Licensed under GPLv2 or later, see file LICENSE in this tarball for details. */ #undef _GNU_SOURCE #define _GNU_SOURCE #include #include /* uname() */ #include "modutils.h" /* * Theory of operation: * - iterate over all modules and record their full path * - iterate over all modules looking for "depends=" entries * for each depends, look through our list of full paths and emit if found */ typedef struct module_info { struct module_info *next; char *name, *modname; llist_t *dependencies; llist_t *aliases; llist_t *symbols; struct module_info *dnext, *dprev; } module_info; enum { ARG_a = (1<<0), /* All modules, ignore mods in argv */ ARG_A = (1<<1), /* Only emit .ko that are newer than modules.dep file */ ARG_b = (1<<2), /* base directory when modules are in staging area */ ARG_e = (1<<3), /* with -F, print unresolved symbols */ ARG_F = (1<<4), /* System.map that contains the symbols */ ARG_n = (1<<5) /* dry-run, print to stdout only */ }; static int FAST_FUNC parse_module(const char *fname, struct stat *sb, void *data, int UNUSED_PARAM depth) { module_info **first = (module_info **) data; char *image, *ptr; module_info *info; size_t len = sb->st_size; if (strrstr(fname, ".ko") == NULL) return TRUE; image = xmalloc_open_zipped_read_close(fname, &len); info = xzalloc(sizeof(module_info)); info->next = *first; *first = info; info->dnext = info->dprev = info; info->name = xasprintf("/%s", fname); info->modname = filename2modname(fname, NULL); for (ptr = image; ptr < image + len - 10; ptr++) { if (strncmp(ptr, "depends=", 8) == 0) { char *u; ptr += 8; for (u = ptr; *u; u++) if (*u == '-') *u = '_'; ptr += string_to_llist(ptr, &info->dependencies, ","); } else if (ENABLE_FEATURE_MODUTILS_ALIAS && strncmp(ptr, "alias=", 6) == 0) { llist_add_to(&info->aliases, xstrdup(ptr + 6)); ptr += strlen(ptr); } else if (ENABLE_FEATURE_MODUTILS_SYMBOLS && strncmp(ptr, "__ksymtab_", 10) == 0) { ptr += 10; if (strncmp(ptr, "gpl", 3) == 0 || strcmp(ptr, "strings") == 0) continue; llist_add_to(&info->symbols, xstrdup(ptr)); ptr += strlen(ptr); } } free(image); return TRUE; } static module_info *find_module(module_info *modules, const char *modname) { module_info *m; for (m = modules; m != NULL; m = m->next) if (strcmp(m->modname, modname) == 0) return m; return NULL; } static void order_dep_list(module_info *modules, module_info *start, llist_t *add) { module_info *m; llist_t *n; for (n = add; n != NULL; n = n->link) { m = find_module(modules, n->data); if (m == NULL) continue; /* unlink current entry */ m->dnext->dprev = m->dprev; m->dprev->dnext = m->dnext; /* and add it to tail */ m->dnext = start; m->dprev = start->dprev; start->dprev->dnext = m; start->dprev = m; /* recurse */ order_dep_list(modules, start, m->dependencies); } } static void xfreopen_write(const char *file, FILE *f) { if (freopen(file, "w", f) == NULL) bb_perror_msg_and_die("can't open '%s'", file); } int depmod_main(int argc, char **argv) MAIN_EXTERNALLY_VISIBLE; int depmod_main(int argc UNUSED_PARAM, char **argv) { module_info *modules = NULL, *m, *dep; const char *moddir_base = "/"; char *moddir, *version; struct utsname uts; int tmp; getopt32(argv, "aAb:eF:n", &moddir_base, NULL); argv += optind; /* goto modules location */ xchdir(moddir_base); /* If a version is provided, then that kernel version's module directory * is used, rather than the current kernel version (as returned by * "uname -r"). */ if (*argv && sscanf(*argv, "%d.%d.%d", &tmp, &tmp, &tmp) == 3) { version = *argv++; } else { uname(&uts); version = uts.release; } moddir = concat_path_file(&CONFIG_DEFAULT_MODULES_DIR[1], version); /* Scan modules */ if (*argv) { char *modfile; struct stat sb; do { modfile = concat_path_file(moddir, *argv); xstat(modfile, &sb); parse_module(modfile, &sb, &modules, 0); free(modfile); } while (*(++argv)); } else { recursive_action(moddir, ACTION_RECURSE, parse_module, NULL, &modules, 0); } /* Prepare for writing out the dep files */ xchdir(moddir); if (ENABLE_FEATURE_CLEAN_UP) free(moddir); /* Generate dependency and alias files */ if (!(option_mask32 & ARG_n)) xfreopen_write(CONFIG_DEFAULT_DEPMOD_FILE, stdout); for (m = modules; m != NULL; m = m->next) { printf("%s:", m->name); order_dep_list(modules, m, m->dependencies); while (m->dnext != m) { dep = m->dnext; printf(" %s", dep->name); /* unlink current entry */ dep->dnext->dprev = dep->dprev; dep->dprev->dnext = dep->dnext; dep->dnext = dep->dprev = dep; } bb_putchar('\n'); } #if ENABLE_FEATURE_MODUTILS_ALIAS if (!(option_mask32 & ARG_n)) xfreopen_write("modules.alias", stdout); for (m = modules; m != NULL; m = m->next) { while (m->aliases) { printf("alias %s %s\n", (char*)llist_pop(&m->aliases), m->modname); } } #endif #if ENABLE_FEATURE_MODUTILS_SYMBOLS if (!(option_mask32 & ARG_n)) xfreopen_write("modules.symbols", stdout); for (m = modules; m != NULL; m = m->next) { while (m->symbols) { printf("alias symbol:%s %s\n", (char*)llist_pop(&m->symbols), m->modname); } } #endif if (ENABLE_FEATURE_CLEAN_UP) { while (modules) { module_info *old = modules; modules = modules->next; free(old->name); free(old->modname); free(old); } } return EXIT_SUCCESS; }