/* * kmod-depmod - calculate modules.dep using libkmod. * * Copyright (C) 2011-2013 ProFUSION embedded systems * * This program 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 of the License, or * (at your option) any later version. * * This program 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, see . */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #undef ERR #undef DBG #include "kmod.h" #define DEFAULT_VERBOSE LOG_WARNING static int verbose = DEFAULT_VERBOSE; static const char CFG_BUILTIN_KEY[] = "built-in"; static const char CFG_EXTERNAL_KEY[] = "external"; static const char *default_cfg_paths[] = { SYSCONFDIR "/depmod.d", "/run/depmod.d", "/usr/local/lib/depmod.d", "/lib/depmod.d", NULL }; static const char cmdopts_s[] = "aAb:C:E:F:euqrvnP:wmVh"; static const struct option cmdopts[] = { { "all", no_argument, 0, 'a' }, { "quick", no_argument, 0, 'A' }, { "basedir", required_argument, 0, 'b' }, { "config", required_argument, 0, 'C' }, { "symvers", required_argument, 0, 'E' }, { "filesyms", required_argument, 0, 'F' }, { "errsyms", no_argument, 0, 'e' }, { "unresolved-error", no_argument, 0, 'u' }, /* deprecated */ { "quiet", no_argument, 0, 'q' }, /* deprecated */ { "root", no_argument, 0, 'r' }, /* deprecated */ { "verbose", no_argument, 0, 'v' }, { "show", no_argument, 0, 'n' }, { "dry-run", no_argument, 0, 'n' }, { "symbol-prefix", required_argument, 0, 'P' }, { "warn", no_argument, 0, 'w' }, { "map", no_argument, 0, 'm' }, /* deprecated */ { "version", no_argument, 0, 'V' }, { "help", no_argument, 0, 'h' }, { } }; static void help(void) { printf("Usage:\n" "\t%s -[aA] [options] [forced_version]\n" "\n" "If no arguments (except options) are given, \"depmod -a\" is assumed\n" "\n" "depmod will output a dependency list suitable for the modprobe utility.\n" "\n" "Options:\n" "\t-a, --all Probe all modules\n" "\t-A, --quick Only does the work if there's a new module\n" "\t-e, --errsyms Report not supplied symbols\n" "\t-n, --show Write the dependency file on stdout only\n" "\t-P, --symbol-prefix Architecture symbol prefix\n" "\t-C, --config=PATH Read configuration from PATH\n" "\t-v, --verbose Enable verbose mode\n" "\t-w, --warn Warn on duplicates\n" "\t-V, --version show version\n" "\t-h, --help show this help\n" "\n" "The following options are useful for people managing distributions:\n" "\t-b, --basedir=DIR Use an image of a module tree.\n" "\t-F, --filesyms=FILE Use the file instead of the\n" "\t current kernel symbols.\n" "\t-E, --symvers=FILE Use Module.symvers file to check\n" "\t symbol versions.\n", program_invocation_short_name); } _printf_format_(1, 2) static inline void _show(const char *fmt, ...) { va_list args; if (verbose <= DEFAULT_VERBOSE) return; va_start(args, fmt); vfprintf(stdout, fmt, args); fflush(stdout); va_end(args); } #define SHOW(...) _show(__VA_ARGS__) /* binary index write *************************************************/ #include /* BEGIN: code from module-init-tools/index.c just modified to compile here. * * Original copyright: * index.c: module index file shared functions for modprobe and depmod * Copyright (C) 2008 Alan Jenkins . * * These programs are 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 of the License, or * (at your option) any later version. * * This program 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 these programs. If not, see . */ /* see documentation in libkmod/libkmod-index.c */ #define INDEX_MAGIC 0xB007F457 #define INDEX_VERSION_MAJOR 0x0002 #define INDEX_VERSION_MINOR 0x0001 #define INDEX_VERSION ((INDEX_VERSION_MAJOR<<16)|INDEX_VERSION_MINOR) #define INDEX_CHILDMAX 128 struct index_value { struct index_value *next; unsigned int priority; char value[0]; }; /* In-memory index (depmod only) */ struct index_node { char *prefix; /* path compression */ struct index_value *values; unsigned char first; /* range of child nodes */ unsigned char last; struct index_node *children[INDEX_CHILDMAX]; /* indexed by character */ }; /* Format of node offsets within index file */ enum node_offset { INDEX_NODE_FLAGS = 0xF0000000, /* Flags in high nibble */ INDEX_NODE_PREFIX = 0x80000000, INDEX_NODE_VALUES = 0x40000000, INDEX_NODE_CHILDS = 0x20000000, INDEX_NODE_MASK = 0x0FFFFFFF, /* Offset value */ }; static struct index_node *index_create(void) { struct index_node *node; node = NOFAIL(calloc(sizeof(struct index_node), 1)); node->prefix = NOFAIL(strdup("")); node->first = INDEX_CHILDMAX; return node; } static void index_values_free(struct index_value *values) { while (values) { struct index_value *value = values; values = value->next; free(value); } } static void index_destroy(struct index_node *node) { int c; for (c = node->first; c <= node->last; c++) { struct index_node *child = node->children[c]; if (child) index_destroy(child); } index_values_free(node->values); free(node->prefix); free(node); } static void index__checkstring(const char *str) { int i; for (i = 0; str[i]; i++) { int ch = str[i]; if (ch >= INDEX_CHILDMAX) CRIT("Module index: bad character '%c'=0x%x - only 7-bit ASCII is supported:" "\n%s\n", (char) ch, (int) ch, str); } } static int index_add_value(struct index_value **values, const char *value, unsigned int priority) { struct index_value *v; int duplicate = 0; int len; /* report the presence of duplicate values */ for (v = *values; v; v = v->next) { if (streq(v->value, value)) duplicate = 1; } /* find position to insert value */ while (*values && (*values)->priority < priority) values = &(*values)->next; len = strlen(value); v = NOFAIL(calloc(sizeof(struct index_value) + len + 1, 1)); v->next = *values; v->priority = priority; memcpy(v->value, value, len + 1); *values = v; return duplicate; } static int index_insert(struct index_node *node, const char *key, const char *value, unsigned int priority) { int i = 0; /* index within str */ int ch; index__checkstring(key); index__checkstring(value); while(1) { int j; /* index within node->prefix */ /* Ensure node->prefix is a prefix of &str[i]. If it is not already, then we must split node. */ for (j = 0; node->prefix[j]; j++) { ch = node->prefix[j]; if (ch != key[i+j]) { char *prefix = node->prefix; struct index_node *n; /* New child is copy of node with prefix[j+1..N] */ n = NOFAIL(calloc(sizeof(struct index_node), 1)); memcpy(n, node, sizeof(struct index_node)); n->prefix = NOFAIL(strdup(&prefix[j+1])); /* Parent has prefix[0..j], child at prefix[j] */ memset(node, 0, sizeof(struct index_node)); prefix[j] = '\0'; node->prefix = prefix; node->first = ch; node->last = ch; node->children[ch] = n; break; } } /* j is now length of node->prefix */ i += j; ch = key[i]; if(ch == '\0') return index_add_value(&node->values, value, priority); if (!node->children[ch]) { struct index_node *child; if (ch < node->first) node->first = ch; if (ch > node->last) node->last = ch; node->children[ch] = NOFAIL(calloc(sizeof(struct index_node), 1)); child = node->children[ch]; child->prefix = NOFAIL(strdup(&key[i+1])); child->first = INDEX_CHILDMAX; index_add_value(&child->values, value, priority); return 0; } /* Descend into child node and continue */ node = node->children[ch]; i++; } } static int index__haschildren(const struct index_node *node) { return node->first < INDEX_CHILDMAX; } /* Recursive post-order traversal Pre-order would make for better read-side buffering / readahead / caching. (post-order means you go backwards in the file as you descend the tree). However, index reading is already fast enough. Pre-order is simpler for writing, and depmod is already slow. */ static uint32_t index_write__node(const struct index_node *node, FILE *out) { uint32_t *child_offs = NULL; int child_count = 0; long offset; if (!node) return 0; /* Write children and save their offsets */ if (index__haschildren(node)) { const struct index_node *child; int i; child_count = node->last - node->first + 1; child_offs = NOFAIL(malloc(child_count * sizeof(uint32_t))); for (i = 0; i < child_count; i++) { child = node->children[node->first + i]; child_offs[i] = htonl(index_write__node(child, out)); } } /* Now write this node */ offset = ftell(out); if (node->prefix[0]) { fputs(node->prefix, out); fputc('\0', out); offset |= INDEX_NODE_PREFIX; } if (child_count) { fputc(node->first, out); fputc(node->last, out); fwrite(child_offs, sizeof(uint32_t), child_count, out); offset |= INDEX_NODE_CHILDS; } free(child_offs); if (node->values) { const struct index_value *v; unsigned int value_count; uint32_t u; value_count = 0; for (v = node->values; v != NULL; v = v->next) value_count++; u = htonl(value_count); fwrite(&u, sizeof(u), 1, out); for (v = node->values; v != NULL; v = v->next) { u = htonl(v->priority); fwrite(&u, sizeof(u), 1, out); fputs(v->value, out); fputc('\0', out); } offset |= INDEX_NODE_VALUES; } return offset; } static void index_write(const struct index_node *node, FILE *out) { long initial_offset, final_offset; uint32_t u; u = htonl(INDEX_MAGIC); fwrite(&u, sizeof(u), 1, out); u = htonl(INDEX_VERSION); fwrite(&u, sizeof(u), 1, out); /* Second word is reserved for the offset of the root node */ initial_offset = ftell(out); assert(initial_offset >= 0); u = 0; fwrite(&u, sizeof(uint32_t), 1, out); /* Dump trie */ u = htonl(index_write__node(node, out)); /* Update first word */ final_offset = ftell(out); assert(final_offset >= 0); (void)fseek(out, initial_offset, SEEK_SET); fwrite(&u, sizeof(uint32_t), 1, out); (void)fseek(out, final_offset, SEEK_SET); } /* END: code from module-init-tools/index.c just modified to compile here. */ /* configuration parsing **********************************************/ struct cfg_override { struct cfg_override *next; size_t len; char path[]; }; enum search_type { SEARCH_PATH, SEARCH_BUILTIN, SEARCH_EXTERNAL }; struct cfg_search { struct cfg_search *next; enum search_type type; size_t len; char path[]; }; struct cfg_external { struct cfg_external *next; size_t len; char path[]; }; struct cfg_exclude { struct cfg_exclude *next; char exclude_dir[]; }; struct cfg { const char *kversion; char dirname[PATH_MAX]; size_t dirnamelen; char sym_prefix; uint8_t check_symvers; uint8_t print_unknown; uint8_t warn_dups; struct cfg_override *overrides; struct cfg_search *searches; struct cfg_external *externals; struct cfg_exclude *excludes; }; static enum search_type cfg_define_search_type(const char *path) { if (streq(path, CFG_BUILTIN_KEY)) return SEARCH_BUILTIN; if (streq(path, CFG_EXTERNAL_KEY)) return SEARCH_EXTERNAL; return SEARCH_PATH; } static int cfg_search_add(struct cfg *cfg, const char *path) { struct cfg_search *s; size_t len; enum search_type type; type = cfg_define_search_type(path); if (type != SEARCH_PATH) len = 0; else len = strlen(path) + 1; s = malloc(sizeof(struct cfg_search) + len); if (s == NULL) { ERR("search add: out of memory\n"); return -ENOMEM; } s->type = type; if (type != SEARCH_PATH) s->len = 0; else { s->len = len - 1; memcpy(s->path, path, len); } DBG("search add: %s, search type=%hhu\n", path, type); s->next = cfg->searches; cfg->searches = s; return 0; } static void cfg_search_free(struct cfg_search *s) { free(s); } static int cfg_override_add(struct cfg *cfg, const char *modname, const char *subdir) { struct cfg_override *o; size_t modnamelen = strlen(modname); size_t subdirlen = strlen(subdir); size_t i; o = malloc(sizeof(struct cfg_override) + subdirlen + 1 + modnamelen + 1); if (o == NULL) { ERR("override add: out of memory\n"); return -ENOMEM; } memcpy(o->path, subdir, subdirlen); i = subdirlen; o->path[i] = '/'; i++; memcpy(o->path + i, modname, modnamelen); i += modnamelen; o->path[i] = '\0'; /* no extension, so we can match .ko/.ko.gz */ o->len = i; DBG("override add: %s\n", o->path); o->next = cfg->overrides; cfg->overrides = o; return 0; } static void cfg_override_free(struct cfg_override *o) { free(o); } static int cfg_external_add(struct cfg *cfg, const char *path) { struct cfg_external *ext; size_t len = strlen(path); ext = malloc(sizeof(struct cfg_external) + len + 1); if (ext == NULL) { ERR("external add: out of memory\n"); return -ENOMEM; } strcpy(ext->path, path); ext->len = len; DBG("external add: %s\n", ext->path); ext->next = cfg->externals; cfg->externals = ext; return 0; } static void cfg_external_free(struct cfg_external *ext) { free(ext); } static int cfg_exclude_add(struct cfg *cfg, const char *path) { struct cfg_exclude *exc; size_t len = strlen(path); exc = malloc(sizeof(struct cfg_exclude) + len + 1); if (exc == NULL) { ERR("exclude add: out of memory\n"); return -ENOMEM; } memcpy(exc->exclude_dir, path, len + 1); DBG("exclude add: %s\n", path); exc->next = cfg->excludes; cfg->excludes = exc; return 0; } static void cfg_exclude_free(struct cfg_exclude *exc) { free(exc); } static int cfg_kernel_matches(const struct cfg *cfg, const char *pattern) { regex_t re; int status; /* old style */ if (streq(pattern, "*")) return 1; if (regcomp(&re, pattern, REG_EXTENDED|REG_NOSUB) != 0) return 0; status = regexec(&re, cfg->kversion, 0, NULL, 0); regfree(&re); return status == 0; } static int cfg_file_parse(struct cfg *cfg, const char *filename) { char *line; FILE *fp; unsigned int linenum = 0; int err; fp = fopen(filename, "r"); if (fp == NULL) { err = -errno; ERR("file parse %s: %m\n", filename); return err; } while ((line = freadline_wrapped(fp, &linenum)) != NULL) { char *cmd, *saveptr; if (line[0] == '\0' || line[0] == '#') goto done_next; cmd = strtok_r(line, "\t ", &saveptr); if (cmd == NULL) goto done_next; if (streq(cmd, "search")) { const char *sp; while ((sp = strtok_r(NULL, "\t ", &saveptr)) != NULL) { cfg_search_add(cfg, sp); } } else if (streq(cmd, "override")) { const char *modname = strtok_r(NULL, "\t ", &saveptr); const char *version = strtok_r(NULL, "\t ", &saveptr); const char *subdir = strtok_r(NULL, "\t ", &saveptr); if (modname == NULL || version == NULL || subdir == NULL) goto syntax_error; if (!cfg_kernel_matches(cfg, version)) { INF("%s:%u: override kernel did not match %s\n", filename, linenum, version); goto done_next; } cfg_override_add(cfg, modname, subdir); } else if (streq(cmd, "external")) { const char *version = strtok_r(NULL, "\t ", &saveptr); const char *dir = strtok_r(NULL, "\t ", &saveptr); if (version == NULL || dir == NULL) goto syntax_error; if (!cfg_kernel_matches(cfg, version)) { INF("%s:%u: external directory did not match %s\n", filename, linenum, version); goto done_next; } cfg_external_add(cfg, dir); } else if (streq(cmd, "exclude")) { const char *sp; while ((sp = strtok_r(NULL, "\t ", &saveptr)) != NULL) { cfg_exclude_add(cfg, sp); } } else if (streq(cmd, "include") || streq(cmd, "make_map_files")) { INF("%s:%u: command %s not implemented yet\n", filename, linenum, cmd); } else { syntax_error: ERR("%s:%u: ignoring bad line starting with '%s'\n", filename, linenum, cmd); } done_next: free(line); } fclose(fp); return 0; } static int cfg_files_filter_out(DIR *d, const char *dir, const char *name) { size_t len = strlen(name); struct stat st; if (name[0] == '.') return 1; if (len < 6 || !streq(name + len - 5, ".conf")) { INF("All cfg files need .conf: %s/%s\n", dir, name); return 1; } fstatat(dirfd(d), name, &st, 0); if (S_ISDIR(st.st_mode)) { ERR("Directories inside directories are not supported: %s/%s\n", dir, name); return 1; } return 0; } struct cfg_file { size_t dirlen; size_t namelen; const char *name; char path[]; }; static void cfg_file_free(struct cfg_file *f) { free(f); } static int cfg_files_insert_sorted(struct cfg_file ***p_files, size_t *p_n_files, const char *dir, const char *name) { struct cfg_file **files, *f; size_t i, n_files, namelen, dirlen; void *tmp; dirlen = strlen(dir); if (name != NULL) namelen = strlen(name); else { name = basename(dir); namelen = strlen(name); dirlen -= namelen + 1; } n_files = *p_n_files; files = *p_files; for (i = 0; i < n_files; i++) { int cmp = strcmp(name, files[i]->name); if (cmp == 0) { DBG("Ignoring duplicate config file: %.*s/%s\n", (int)dirlen, dir, name); return -EEXIST; } else if (cmp < 0) break; } f = malloc(sizeof(struct cfg_file) + dirlen + namelen + 2); if (f == NULL) { ERR("files insert sorted: out of memory\n"); return -ENOMEM; } tmp = realloc(files, sizeof(struct cfg_file *) * (n_files + 1)); if (tmp == NULL) { ERR("files insert sorted: out of memory\n"); free(f); return -ENOMEM; } *p_files = files = tmp; if (i < n_files) { memmove(files + i + 1, files + i, sizeof(struct cfg_file *) * (n_files - i)); } files[i] = f; f->dirlen = dirlen; f->namelen = namelen; f->name = f->path + dirlen + 1; memcpy(f->path, dir, dirlen); f->path[dirlen] = '/'; memcpy(f->path + dirlen + 1, name, namelen); f->path[dirlen + 1 + namelen] = '\0'; *p_n_files = n_files + 1; return 0; } /* * Insert configuration files ignoring duplicates */ static int cfg_files_list(struct cfg_file ***p_files, size_t *p_n_files, const char *path) { struct dirent *dent; DIR *d; int err = 0; struct stat st; if (stat(path, &st) != 0) { err = -errno; DBG("could not stat '%s': %m\n", path); return err; } if (!S_ISDIR(st.st_mode)) { cfg_files_insert_sorted(p_files, p_n_files, path, NULL); return 0; } d = opendir(path); if (d == NULL) { ERR("files list %s: %m\n", path); return -EINVAL; } for (dent = readdir(d); dent != NULL; dent = readdir(d)) { if (cfg_files_filter_out(d, path, dent->d_name)) continue; cfg_files_insert_sorted(p_files, p_n_files, path, dent->d_name); } closedir(d); DBG("parsed configuration files from %s\n", path); return err; } static int cfg_load(struct cfg *cfg, const char * const *cfg_paths) { size_t i, n_files = 0; struct cfg_file **files = NULL; if (cfg_paths == NULL) cfg_paths = default_cfg_paths; for (i = 0; cfg_paths[i] != NULL; i++) cfg_files_list(&files, &n_files, cfg_paths[i]); for (i = 0; i < n_files; i++) { struct cfg_file *f = files[i]; cfg_file_parse(cfg, f->path); cfg_file_free(f); } free(files); /* For backward compatibility add "updates" to the head of the search * list here. But only if there was no "search" option specified. */ if (cfg->searches == NULL) cfg_search_add(cfg, "updates"); return 0; } static void cfg_free(struct cfg *cfg) { while (cfg->overrides) { struct cfg_override *tmp = cfg->overrides; cfg->overrides = cfg->overrides->next; cfg_override_free(tmp); } while (cfg->searches) { struct cfg_search *tmp = cfg->searches; cfg->searches = cfg->searches->next; cfg_search_free(tmp); } while (cfg->externals) { struct cfg_external *tmp = cfg->externals; cfg->externals = cfg->externals->next; cfg_external_free(tmp); } while (cfg->excludes) { struct cfg_exclude *tmp = cfg->excludes; cfg->excludes = cfg->excludes->next; cfg_exclude_free(tmp); } } /* depmod calculations ***********************************************/ struct vertex; struct mod { struct kmod_module *kmod; char *path; const char *relpath; /* path relative to '$ROOT/lib/modules/$VER/' */ char *uncrelpath; /* same as relpath but ending in .ko */ struct kmod_list *info_list; struct kmod_list *dep_sym_list; struct array deps; /* struct symbol */ size_t baselen; /* points to start of basename/filename */ size_t modnamesz; int sort_idx; /* sort index using modules.order */ int dep_sort_idx; /* topological sort index */ uint16_t idx; /* index in depmod->modules.array */ uint16_t users; /* how many modules depend on this one */ bool visited; /* helper field to report cycles */ struct vertex *vertex; /* helper field to report cycles */ char modname[]; }; struct symbol { struct mod *owner; uint64_t crc; char name[]; }; struct depmod { const struct cfg *cfg; struct kmod_ctx *ctx; struct array modules; struct hash *modules_by_uncrelpath; struct hash *modules_by_name; struct hash *symbols; }; static void mod_free(struct mod *mod) { DBG("free %p kmod=%p, path=%s\n", mod, mod->kmod, mod->path); array_free_array(&mod->deps); kmod_module_unref(mod->kmod); kmod_module_info_free_list(mod->info_list); kmod_module_dependency_symbols_free_list(mod->dep_sym_list); free(mod->uncrelpath); free(mod->path); free(mod); } static int mod_add_dependency(struct mod *mod, struct symbol *sym) { int err; DBG("%s depends on %s %s\n", mod->path, sym->name, sym->owner != NULL ? sym->owner->path : "(unknown)"); if (sym->owner == NULL) return 0; err = array_append_unique(&mod->deps, sym->owner); if (err == -EEXIST) return 0; if (err < 0) return err; sym->owner->users++; SHOW("%s needs \"%s\": %s\n", mod->path, sym->name, sym->owner->path); return 0; } static void symbol_free(struct symbol *sym) { DBG("free %p sym=%s, owner=%p %s\n", sym, sym->name, sym->owner, sym->owner != NULL ? sym->owner->path : ""); free(sym); } static int depmod_init(struct depmod *depmod, struct cfg *cfg, struct kmod_ctx *ctx) { int err = 0; depmod->cfg = cfg; depmod->ctx = ctx; array_init(&depmod->modules, 128); depmod->modules_by_uncrelpath = hash_new(512, NULL); if (depmod->modules_by_uncrelpath == NULL) { err = -errno; goto modules_by_uncrelpath_failed; } depmod->modules_by_name = hash_new(512, NULL); if (depmod->modules_by_name == NULL) { err = -errno; goto modules_by_name_failed; } depmod->symbols = hash_new(2048, (void (*)(void *))symbol_free); if (depmod->symbols == NULL) { err = -errno; goto symbols_failed; } return 0; symbols_failed: hash_free(depmod->modules_by_name); modules_by_name_failed: hash_free(depmod->modules_by_uncrelpath); modules_by_uncrelpath_failed: return err; } static void depmod_shutdown(struct depmod *depmod) { size_t i; hash_free(depmod->symbols); hash_free(depmod->modules_by_uncrelpath); hash_free(depmod->modules_by_name); for (i = 0; i < depmod->modules.count; i++) mod_free(depmod->modules.array[i]); array_free_array(&depmod->modules); kmod_unref(depmod->ctx); } static int depmod_module_add(struct depmod *depmod, struct kmod_module *kmod) { const struct cfg *cfg = depmod->cfg; const char *modname, *lastslash; size_t modnamesz; struct mod *mod; int err; modname = kmod_module_get_name(kmod); modnamesz = strlen(modname) + 1; mod = calloc(1, sizeof(struct mod) + modnamesz); if (mod == NULL) return -ENOMEM; mod->kmod = kmod; mod->sort_idx = depmod->modules.count + 1; mod->dep_sort_idx = INT32_MAX; memcpy(mod->modname, modname, modnamesz); mod->modnamesz = modnamesz; array_init(&mod->deps, 4); mod->path = strdup(kmod_module_get_path(kmod)); lastslash = strrchr(mod->path, '/'); mod->baselen = lastslash - mod->path; if (strncmp(mod->path, cfg->dirname, cfg->dirnamelen) == 0 && mod->path[cfg->dirnamelen] == '/') mod->relpath = mod->path + cfg->dirnamelen + 1; else mod->relpath = NULL; err = hash_add_unique(depmod->modules_by_name, mod->modname, mod); if (err < 0) { ERR("hash_add_unique %s: %s\n", mod->modname, strerror(-err)); goto fail; } if (mod->relpath != NULL) { size_t uncrelpathlen = lastslash - mod->relpath + modnamesz + strlen(KMOD_EXTENSION_UNCOMPRESSED); mod->uncrelpath = memdup(mod->relpath, uncrelpathlen + 1); mod->uncrelpath[uncrelpathlen] = '\0'; err = hash_add_unique(depmod->modules_by_uncrelpath, mod->uncrelpath, mod); if (err < 0) { ERR("hash_add_unique %s: %s\n", mod->uncrelpath, strerror(-err)); hash_del(depmod->modules_by_name, mod->modname); goto fail; } } DBG("add %p kmod=%p, path=%s\n", mod, kmod, mod->path); return 0; fail: free(mod->uncrelpath); free(mod); return err; } static int depmod_module_del(struct depmod *depmod, struct mod *mod) { DBG("del %p kmod=%p, path=%s\n", mod, mod->kmod, mod->path); if (mod->uncrelpath != NULL) hash_del(depmod->modules_by_uncrelpath, mod->uncrelpath); hash_del(depmod->modules_by_name, mod->modname); mod_free(mod); return 0; } static const char *search_to_string(const struct cfg_search *s) { switch(s->type) { case SEARCH_EXTERNAL: return "external"; case SEARCH_BUILTIN: return "built-in"; default: return s->path; } } static bool depmod_is_path_starts_with(const char *path, size_t pathlen, const char *prefix, size_t prefix_len) { if (pathlen <= prefix_len) return false; if (path[prefix_len] != '/') return false; if (memcmp(path, prefix, prefix_len) != 0) return false; return true; } /* returns if existing module @mod is higher priority than newpath. * note this is the inverse of module-init-tools is_higher_priority() */ static int depmod_module_is_higher_priority(const struct depmod *depmod, const struct mod *mod, size_t baselen, size_t namelen, size_t modnamelen, const char *newpath) { const struct cfg *cfg = depmod->cfg; const struct cfg_override *ov; const struct cfg_search *se; const struct cfg_external *ext; /* baselen includes the last '/' and mod->baselen doesn't. So it's * actually correct to use modnamelen in the first and modnamesz in * the latter */ size_t newlen = baselen + modnamelen; size_t oldlen = mod->baselen + mod->modnamesz; const char *oldpath = mod->path; int i, bprio = -1, oldprio = -1, newprio = -1; size_t relnewlen = 0; size_t reloldlen = 0; const char *relnewpath = NULL; const char *reloldpath = NULL; DBG("comparing priorities of %s and %s\n", oldpath, newpath); if (strncmp(newpath, cfg->dirname, cfg->dirnamelen) == 0) { relnewpath = newpath + cfg->dirnamelen + 1; relnewlen = newlen - (cfg->dirnamelen + 1); } if (strncmp(oldpath, cfg->dirname, cfg->dirnamelen) == 0) { reloldpath = oldpath + cfg->dirnamelen + 1; reloldlen = oldlen - (cfg->dirnamelen + 1); } for (ov = cfg->overrides; ov != NULL; ov = ov->next) { DBG("override %s\n", ov->path); if (relnewlen == ov->len && memcmp(ov->path, relnewpath, relnewlen) == 0) return 0; if (reloldlen == ov->len && memcmp(ov->path, reloldpath, reloldlen) == 0) return 1; } for (i = 0, se = cfg->searches; se != NULL; se = se->next, i++) { DBG("search %s\n", search_to_string(se)); if (se->type == SEARCH_BUILTIN) bprio = i; else if (se->type == SEARCH_EXTERNAL) { for (ext = cfg->externals; ext != NULL; ext = ext->next, i++) { if (depmod_is_path_starts_with(newpath, newlen, ext->path, ext->len)) newprio = i; if (depmod_is_path_starts_with(oldpath, oldlen, ext->path, ext->len)) oldprio = i; } } else if (relnewlen > se->len && relnewpath[se->len] == '/' && memcmp(se->path, relnewpath, se->len) == 0) newprio = i; else if (reloldlen > se->len && reloldpath[se->len] == '/' && memcmp(se->path, reloldpath, se->len) == 0) oldprio = i; } if (newprio < 0) newprio = bprio; if (oldprio < 0) oldprio = bprio; DBG("priorities: built-in: %d, old: %d, new: %d\n", bprio, oldprio, newprio); return newprio <= oldprio; } static int depmod_modules_search_file(struct depmod *depmod, size_t baselen, size_t namelen, const char *path) { struct kmod_module *kmod; struct mod *mod; const char *relpath; char modname[PATH_MAX]; size_t modnamelen; int err; if (!path_ends_with_kmod_ext(path + baselen, namelen)) return 0; if (path_to_modname(path, modname, &modnamelen) == NULL) { ERR("could not get modname from path %s\n", path); return -EINVAL; } relpath = path + depmod->cfg->dirnamelen + 1; DBG("try %s (%s)\n", relpath, modname); mod = hash_find(depmod->modules_by_name, modname); if (mod == NULL) goto add; if (depmod_module_is_higher_priority(depmod, mod, baselen, namelen, modnamelen, path)) { DBG("Ignored lower priority: %s, higher: %s\n", path, mod->path); return 0; } DBG("Replace lower priority %s with new module %s\n", mod->relpath, relpath); err = depmod_module_del(depmod, mod); if (err < 0) { ERR("could not del module %s: %s\n", mod->path, strerror(-err)); return err; } add: err = kmod_module_new_from_path(depmod->ctx, path, &kmod); if (err < 0) { ERR("could not create module %s: %s\n", path, strerror(-err)); return err; } err = depmod_module_add(depmod, kmod); if (err < 0) { ERR("could not add module %s: %s\n", path, strerror(-err)); kmod_module_unref(kmod); return err; } return 0; } static bool should_exclude_dir(const struct cfg *cfg, const char *name) { struct cfg_exclude *exc; if (name[0] == '.' && (name[1] == '\0' || (name[1] == '.' && name[2] == '\0'))) return true; if (streq(name, "build") || streq(name, "source")) return true; for (exc = cfg->excludes; exc != NULL; exc = exc->next) { if (streq(name, exc->exclude_dir)) return true; } return false; } static int depmod_modules_search_dir(struct depmod *depmod, DIR *d, size_t baselen, struct scratchbuf *s_path) { struct dirent *de; int err = 0, dfd = dirfd(d); char *path; while ((de = readdir(d)) != NULL) { const char *name = de->d_name; size_t namelen; uint8_t is_dir; if (should_exclude_dir(depmod->cfg, name)) continue; namelen = strlen(name); if (scratchbuf_alloc(s_path, baselen + namelen + 2) < 0) { err = -ENOMEM; ERR("No memory\n"); continue; } path = scratchbuf_str(s_path); memcpy(path + baselen, name, namelen + 1); if (de->d_type == DT_REG) is_dir = 0; else if (de->d_type == DT_DIR) is_dir = 1; else { struct stat st; if (fstatat(dfd, name, &st, 0) < 0) { ERR("fstatat(%d, %s): %m\n", dfd, name); continue; } else if (S_ISREG(st.st_mode)) is_dir = 0; else if (S_ISDIR(st.st_mode)) is_dir = 1; else { ERR("unsupported file type %s: %o\n", path, st.st_mode & S_IFMT); continue; } } if (is_dir) { int fd; DIR *subdir; fd = openat(dfd, name, O_RDONLY); if (fd < 0) { ERR("openat(%d, %s, O_RDONLY): %m\n", dfd, name); continue; } subdir = fdopendir(fd); if (subdir == NULL) { ERR("fdopendir(%d): %m\n", fd); close(fd); continue; } path[baselen + namelen] = '/'; path[baselen + namelen + 1] = '\0'; err = depmod_modules_search_dir(depmod, subdir, baselen + namelen + 1, s_path); closedir(subdir); } else { err = depmod_modules_search_file(depmod, baselen, namelen, path); } if (err < 0) { path[baselen + namelen] = '\0'; ERR("failed %s: %s\n", path, strerror(-err)); err = 0; /* ignore errors */ } } return err; } static int depmod_modules_search_path(struct depmod *depmod, const char *path) { char buf[256]; _cleanup_(scratchbuf_release) struct scratchbuf s_path_buf = SCRATCHBUF_INITIALIZER(buf); char *path_buf; DIR *d; size_t baselen; int err; d = opendir(path); if (d == NULL) { err = -errno; ERR("could not open directory %s: %m\n", path); return err; } baselen = strlen(path); if (scratchbuf_alloc(&s_path_buf, baselen + 2) < 0) { err = -ENOMEM; goto out; } path_buf = scratchbuf_str(&s_path_buf); memcpy(path_buf, path, baselen); path_buf[baselen] = '/'; baselen++; path_buf[baselen] = '\0'; err = depmod_modules_search_dir(depmod, d, baselen, &s_path_buf); out: closedir(d); return err; } static int depmod_modules_search(struct depmod *depmod) { int err; struct cfg_external *ext; err = depmod_modules_search_path(depmod, depmod->cfg->dirname); if (err < 0) return err; for (ext = depmod->cfg->externals; ext != NULL; ext = ext->next) { err = depmod_modules_search_path(depmod, ext->path); if (err < 0 && err == -ENOENT) /* ignore external dir absense */ continue; } return 0; } static int mod_cmp(const void *pa, const void *pb) { const struct mod *a = *(const struct mod **)pa; const struct mod *b = *(const struct mod **)pb; return a->sort_idx - b->sort_idx; } static int depmod_modules_build_array(struct depmod *depmod) { struct hash_iter module_iter; const void *v; int err; hash_iter_init(depmod->modules_by_name, &module_iter); while (hash_iter_next(&module_iter, NULL, &v)) { struct mod *mod = (struct mod *) v; mod->idx = depmod->modules.count; err = array_append(&depmod->modules, mod); if (err < 0) return err; } return 0; } static FILE *dfdopen(const char *dname, const char *filename, int flags, const char *mode) { int fd, dfd; FILE *ret; dfd = open(dname, O_RDONLY); if (dfd < 0) { WRN("could not open directory %s: %m\n", dname); return NULL; } fd = openat(dfd, filename, flags); if (fd < 0) { WRN("could not open %s at %s: %m\n", filename, dname); ret = NULL; } else { ret = fdopen(fd, mode); if (!ret) { WRN("could not associate stream with %s: %m\n", filename); close(fd); } } close(dfd); return ret; } static void depmod_modules_sort(struct depmod *depmod) { char line[PATH_MAX]; const char *order_file = "modules.order"; FILE *fp; unsigned idx = 0, total = 0; fp = dfdopen(depmod->cfg->dirname, order_file, O_RDONLY, "r"); if (fp == NULL) return; while (fgets(line, sizeof(line), fp) != NULL) { size_t len = strlen(line); idx++; if (len == 0) continue; if (line[len - 1] != '\n') { ERR("%s/%s:%u corrupted line misses '\\n'\n", depmod->cfg->dirname, order_file, idx); goto corrupted; } } total = idx + 1; idx = 0; fseek(fp, 0, SEEK_SET); while (fgets(line, sizeof(line), fp) != NULL) { size_t len = strlen(line); struct mod *mod; idx++; if (len == 0) continue; line[len - 1] = '\0'; mod = hash_find(depmod->modules_by_uncrelpath, line); if (mod == NULL) continue; mod->sort_idx = idx - total; } array_sort(&depmod->modules, mod_cmp); for (idx = 0; idx < depmod->modules.count; idx++) { struct mod *m = depmod->modules.array[idx]; m->idx = idx; } corrupted: fclose(fp); } static int depmod_symbol_add(struct depmod *depmod, const char *name, bool prefix_skipped, uint64_t crc, const struct mod *owner) { size_t namelen; int err; struct symbol *sym; if (!prefix_skipped && (name[0] == depmod->cfg->sym_prefix)) name++; namelen = strlen(name) + 1; sym = malloc(sizeof(struct symbol) + namelen); if (sym == NULL) return -ENOMEM; sym->owner = (struct mod *)owner; sym->crc = crc; memcpy(sym->name, name, namelen); err = hash_add(depmod->symbols, sym->name, sym); if (err < 0) { free(sym); return err; } DBG("add %p sym=%s, owner=%p %s\n", sym, sym->name, owner, owner != NULL ? owner->path : ""); return 0; } static struct symbol *depmod_symbol_find(const struct depmod *depmod, const char *name) { if (name[0] == '.') /* PPC64 needs this: .foo == foo */ name++; if (name[0] == depmod->cfg->sym_prefix) name++; return hash_find(depmod->symbols, name); } static int depmod_load_modules(struct depmod *depmod) { struct mod **itr, **itr_end; DBG("load symbols (%zd modules)\n", depmod->modules.count); itr = (struct mod **)depmod->modules.array; itr_end = itr + depmod->modules.count; for (; itr < itr_end; itr++) { struct mod *mod = *itr; struct kmod_list *l, *list = NULL; int err = kmod_module_get_symbols(mod->kmod, &list); if (err < 0) { if (err == -ENOENT) DBG("ignoring %s: no symbols\n", mod->path); else ERR("failed to load symbols from %s: %s\n", mod->path, strerror(-err)); goto load_info; } kmod_list_foreach(l, list) { const char *name = kmod_module_symbol_get_symbol(l); uint64_t crc = kmod_module_symbol_get_crc(l); depmod_symbol_add(depmod, name, false, crc, mod); } kmod_module_symbols_free_list(list); load_info: kmod_module_get_info(mod->kmod, &mod->info_list); kmod_module_get_dependency_symbols(mod->kmod, &mod->dep_sym_list); kmod_module_unref(mod->kmod); mod->kmod = NULL; } DBG("loaded symbols (%zd modules, %u symbols)\n", depmod->modules.count, hash_get_count(depmod->symbols)); return 0; } static int depmod_load_module_dependencies(struct depmod *depmod, struct mod *mod) { const struct cfg *cfg = depmod->cfg; struct kmod_list *l; DBG("do dependencies of %s\n", mod->path); kmod_list_foreach(l, mod->dep_sym_list) { const char *name = kmod_module_dependency_symbol_get_symbol(l); uint64_t crc = kmod_module_dependency_symbol_get_crc(l); int bindtype = kmod_module_dependency_symbol_get_bind(l); struct symbol *sym = depmod_symbol_find(depmod, name); uint8_t is_weak = bindtype == KMOD_SYMBOL_WEAK; if (sym == NULL) { DBG("%s needs (%c) unknown symbol %s\n", mod->path, bindtype, name); if (cfg->print_unknown && !is_weak) WRN("%s needs unknown symbol %s\n", mod->path, name); continue; } if (cfg->check_symvers && sym->crc != crc && !is_weak) { DBG("symbol %s (%#"PRIx64") module %s (%#"PRIx64")\n", sym->name, sym->crc, mod->path, crc); if (cfg->print_unknown) WRN("%s disagrees about version of symbol %s\n", mod->path, name); } mod_add_dependency(mod, sym); } return 0; } static int depmod_load_dependencies(struct depmod *depmod) { struct mod **itr, **itr_end; DBG("load dependencies (%zd modules, %u symbols)\n", depmod->modules.count, hash_get_count(depmod->symbols)); itr = (struct mod **)depmod->modules.array; itr_end = itr + depmod->modules.count; for (; itr < itr_end; itr++) { struct mod *mod = *itr; if (mod->dep_sym_list == NULL) { DBG("ignoring %s: no dependency symbols\n", mod->path); continue; } depmod_load_module_dependencies(depmod, mod); } DBG("loaded dependencies (%zd modules, %u symbols)\n", depmod->modules.count, hash_get_count(depmod->symbols)); return 0; } static int dep_cmp(const void *pa, const void *pb) { const struct mod *a = *(const struct mod **)pa; const struct mod *b = *(const struct mod **)pb; return a->dep_sort_idx - b->dep_sort_idx; } static void depmod_sort_dependencies(struct depmod *depmod) { struct mod **itr, **itr_end; itr = (struct mod **)depmod->modules.array; itr_end = itr + depmod->modules.count; for (; itr < itr_end; itr++) { struct mod *m = *itr; if (m->deps.count > 1) array_sort(&m->deps, dep_cmp); } } struct vertex { struct vertex *parent; struct mod *mod; }; static struct vertex *vertex_new(struct mod *mod, struct vertex *parent) { struct vertex *v; v = malloc(sizeof(*v)); if (v == NULL) return NULL; v->parent = parent; v->mod = mod; return v; } static void depmod_list_remove_data(struct kmod_list **list, void *data) { struct kmod_list *l; l = kmod_list_remove_data(*list, data); *list = l; } static int depmod_report_one_cycle(struct depmod *depmod, struct vertex *vertex, struct kmod_list **roots, struct hash *loop_set) { const char sep[] = " -> "; size_t sz; char *buf; struct array reverse; int i; int n; struct vertex *v; int rc; array_init(&reverse, 3); sz = 0; for (v = vertex->parent, n = 0; v != NULL; v = v->parent, n++) { sz += v->mod->modnamesz - 1; array_append(&reverse, v); rc = hash_add(loop_set, v->mod->modname, NULL); if (rc != 0) return rc; /* the hash will be freed where created */ } sz += vertex->mod->modnamesz - 1; buf = malloc(sz + n * strlen(sep) + 1); sz = 0; for (i = reverse.count - 1; i >= 0; i--) { size_t len; v = reverse.array[i]; len = v->mod->modnamesz - 1; memcpy(buf + sz, v->mod->modname, len); sz += len; strcpy(buf + sz, sep); sz += strlen(sep); depmod_list_remove_data(roots, v->mod); } strcpy(buf + sz, vertex->mod->modname); ERR("Cycle detected: %s\n", buf); free(buf); array_free_array(&reverse); return 0; } static int depmod_report_cycles_from_root(struct depmod *depmod, struct mod *root_mod, struct kmod_list **roots, void **stack, size_t stack_size, struct hash *loop_set) { struct kmod_list *free_list = NULL; /* struct vertex */ struct kmod_list *l; struct vertex *root; struct vertex *vertex; struct vertex *v; struct mod *m; struct mod **itr, **itr_end; size_t is; int ret = -ENOMEM; root = vertex_new(root_mod, NULL); if (root == NULL) { ERR("No memory to report cycles\n"); goto out; } l = kmod_list_append(free_list, root); if (l == NULL) { ERR("No memory to report cycles\n"); goto out; } free_list = l; is = 0; stack[is++] = (void *)root; while (is > 0) { vertex = stack[--is]; m = vertex->mod; /* * because of the topological sort we can start only * from part of a loop or from a branch after a loop */ if (m->visited && m == root->mod) { int rc; rc = depmod_report_one_cycle(depmod, vertex, roots, loop_set); if (rc != 0) { ret = rc; goto out; } continue; } m->visited = true; if (m->deps.count == 0) { /* * boundary condition: if there is more than one * single node branch (not a loop), it is * recognized as a loop by the code above: * m->visited because more then one, * m == root->mod since it is a single node. * So, prevent deeping into the branch second * time. */ depmod_list_remove_data(roots, m); continue; } itr = (struct mod **) m->deps.array; itr_end = itr + m->deps.count; for (; itr < itr_end; itr++) { struct mod *dep = *itr; v = vertex_new(dep, vertex); if (v == NULL) { ERR("No memory to report cycles\n"); goto out; } assert(is < stack_size); stack[is++] = v; l = kmod_list_append(free_list, v); if (l == NULL) { ERR("No memory to report cycles\n"); goto out; } free_list = l; } } ret = 0; out: while (free_list) { v = free_list->data; l = kmod_list_remove(free_list); free_list = l; free(v); } return ret; } static void depmod_report_cycles(struct depmod *depmod, uint16_t n_mods, uint16_t *users) { int num_cyclic = 0; struct kmod_list *roots = NULL; /* struct mod */ struct kmod_list *l; size_t n_r; /* local n_roots */ int i; int err; _cleanup_free_ void **stack = NULL; struct mod *m; struct mod *root; struct hash *loop_set; for (i = 0, n_r = 0; i < n_mods; i++) { if (users[i] <= 0) continue; m = depmod->modules.array[i]; l = kmod_list_append(roots, m); if (l == NULL) { ERR("No memory to report cycles\n"); goto out_list; } roots = l; n_r++; } stack = malloc(n_r * sizeof(void *)); if (stack == NULL) { ERR("No memory to report cycles\n"); goto out_list; } loop_set = hash_new(16, NULL); if (loop_set == NULL) { ERR("No memory to report cycles\n"); goto out_list; } while (roots != NULL) { root = roots->data; l = kmod_list_remove(roots); roots = l; err = depmod_report_cycles_from_root(depmod, root, &roots, stack, n_r, loop_set); if (err < 0) goto out_hash; } num_cyclic = hash_get_count(loop_set); ERR("Found %d modules in dependency cycles!\n", num_cyclic); out_hash: hash_free(loop_set); out_list: while (roots != NULL) { /* no need to free data, come from outside */ roots = kmod_list_remove(roots); } } static int depmod_calculate_dependencies(struct depmod *depmod) { const struct mod **itrm; uint16_t *users, *roots, *sorted; uint16_t i, n_roots = 0, n_sorted = 0, n_mods = depmod->modules.count; int ret = 0; users = malloc(sizeof(uint16_t) * n_mods * 3); if (users == NULL) return -ENOMEM; roots = users + n_mods; sorted = roots + n_mods; DBG("calculate dependencies and ordering (%hu modules)\n", n_mods); assert(depmod->modules.count < UINT16_MAX); /* populate modules users (how many modules uses it) */ itrm = (const struct mod **)depmod->modules.array; for (i = 0; i < n_mods; i++, itrm++) { const struct mod *m = *itrm; users[i] = m->users; if (users[i] == 0) { roots[n_roots] = i; n_roots++; } } /* topological sort (outputs modules without users first) */ while (n_roots > 0) { const struct mod **itr_dst, **itr_dst_end; struct mod *src; uint16_t src_idx = roots[--n_roots]; src = depmod->modules.array[src_idx]; src->dep_sort_idx = n_sorted; sorted[n_sorted] = src_idx; n_sorted++; itr_dst = (const struct mod **)src->deps.array; itr_dst_end = itr_dst + src->deps.count; for (; itr_dst < itr_dst_end; itr_dst++) { const struct mod *dst = *itr_dst; uint16_t dst_idx = dst->idx; assert(users[dst_idx] > 0); users[dst_idx]--; if (users[dst_idx] == 0) { roots[n_roots] = dst_idx; n_roots++; } } } if (n_sorted < n_mods) { depmod_report_cycles(depmod, n_mods, users); ret = -EINVAL; goto exit; } depmod_sort_dependencies(depmod); DBG("calculated dependencies and ordering (%hu modules)\n", n_mods); exit: free(users); return ret; } static int depmod_load(struct depmod *depmod) { int err; err = depmod_load_modules(depmod); if (err < 0) return err; err = depmod_load_dependencies(depmod); if (err < 0) return err; err = depmod_calculate_dependencies(depmod); if (err < 0) return err; return 0; } static size_t mod_count_all_dependencies(const struct mod *mod) { size_t i, count = 0; for (i = 0; i < mod->deps.count; i++) { const struct mod *d = mod->deps.array[i]; count += 1 + mod_count_all_dependencies(d); } return count; } static int mod_fill_all_unique_dependencies(const struct mod *mod, const struct mod **deps, size_t n_deps, size_t *last) { size_t i; int err = 0; for (i = 0; i < mod->deps.count; i++) { const struct mod *d = mod->deps.array[i]; size_t j; uint8_t exists = 0; for (j = 0; j < *last; j++) { if (deps[j] == d) { exists = 1; break; } } if (exists) continue; if (*last >= n_deps) return -ENOSPC; deps[*last] = d; (*last)++; err = mod_fill_all_unique_dependencies(d, deps, n_deps, last); if (err < 0) break; } return err; } static const struct mod **mod_get_all_sorted_dependencies(const struct mod *mod, size_t *n_deps) { const struct mod **deps; size_t last = 0; *n_deps = mod_count_all_dependencies(mod); if (*n_deps == 0) return NULL; deps = malloc(sizeof(struct mod *) * (*n_deps)); if (deps == NULL) return NULL; if (mod_fill_all_unique_dependencies(mod, deps, *n_deps, &last) < 0) { free(deps); return NULL; } qsort(deps, last, sizeof(struct mod *), dep_cmp); *n_deps = last; return deps; } static inline const char *mod_get_compressed_path(const struct mod *mod) { if (mod->relpath != NULL) return mod->relpath; return mod->path; } static int output_deps(struct depmod *depmod, FILE *out) { size_t i; for (i = 0; i < depmod->modules.count; i++) { const struct mod **deps, *mod = depmod->modules.array[i]; const char *p = mod_get_compressed_path(mod); size_t j, n_deps; fprintf(out, "%s:", p); if (mod->deps.count == 0) goto end; deps = mod_get_all_sorted_dependencies(mod, &n_deps); if (deps == NULL) { ERR("could not get all sorted dependencies of %s\n", p); goto end; } for (j = 0; j < n_deps; j++) { const struct mod *d = deps[j]; fprintf(out, " %s", mod_get_compressed_path(d)); } free(deps); end: putc('\n', out); } return 0; } static int output_deps_bin(struct depmod *depmod, FILE *out) { struct index_node *idx; size_t i; if (out == stdout) return 0; idx = index_create(); if (idx == NULL) return -ENOMEM; for (i = 0; i < depmod->modules.count; i++) { const struct mod **deps, *mod = depmod->modules.array[i]; const char *p = mod_get_compressed_path(mod); char *line; size_t j, n_deps, linepos, linelen, slen; int duplicate; deps = mod_get_all_sorted_dependencies(mod, &n_deps); if (deps == NULL && n_deps > 0) { ERR("could not get all sorted dependencies of %s\n", p); continue; } linelen = strlen(p) + 1; for (j = 0; j < n_deps; j++) { const struct mod *d = deps[j]; linelen += 1 + strlen(mod_get_compressed_path(d)); } line = malloc(linelen + 1); if (line == NULL) { free(deps); ERR("modules.deps.bin: out of memory\n"); continue; } linepos = 0; slen = strlen(p); memcpy(line + linepos, p, slen); linepos += slen; line[linepos] = ':'; linepos++; for (j = 0; j < n_deps; j++) { const struct mod *d = deps[j]; const char *dp; line[linepos] = ' '; linepos++; dp = mod_get_compressed_path(d); slen = strlen(dp); memcpy(line + linepos, dp, slen); linepos += slen; } line[linepos] = '\0'; duplicate = index_insert(idx, mod->modname, line, mod->idx); if (duplicate && depmod->cfg->warn_dups) WRN("duplicate module deps:\n%s\n", line); free(line); free(deps); } index_write(idx, out); index_destroy(idx); return 0; } static int output_aliases(struct depmod *depmod, FILE *out) { size_t i; fputs("# Aliases extracted from modules themselves.\n", out); for (i = 0; i < depmod->modules.count; i++) { const struct mod *mod = depmod->modules.array[i]; struct kmod_list *l; kmod_list_foreach(l, mod->info_list) { const char *key = kmod_module_info_get_key(l); const char *value = kmod_module_info_get_value(l); if (!streq(key, "alias")) continue; fprintf(out, "alias %s %s\n", value, mod->modname); } } return 0; } static int output_aliases_bin(struct depmod *depmod, FILE *out) { struct index_node *idx; size_t i; if (out == stdout) return 0; idx = index_create(); if (idx == NULL) return -ENOMEM; for (i = 0; i < depmod->modules.count; i++) { const struct mod *mod = depmod->modules.array[i]; struct kmod_list *l; kmod_list_foreach(l, mod->info_list) { const char *key = kmod_module_info_get_key(l); const char *value = kmod_module_info_get_value(l); char buf[PATH_MAX]; const char *alias; int duplicate; if (!streq(key, "alias")) continue; if (alias_normalize(value, buf, NULL) < 0) { WRN("Unmatched bracket in %s\n", value); continue; } alias = buf; duplicate = index_insert(idx, alias, mod->modname, mod->idx); if (duplicate && depmod->cfg->warn_dups) WRN("duplicate module alias:\n%s %s\n", alias, mod->modname); } } index_write(idx, out); index_destroy(idx); return 0; } static int output_softdeps(struct depmod *depmod, FILE *out) { size_t i; fputs("# Soft dependencies extracted from modules themselves.\n", out); for (i = 0; i < depmod->modules.count; i++) { const struct mod *mod = depmod->modules.array[i]; struct kmod_list *l; kmod_list_foreach(l, mod->info_list) { const char *key = kmod_module_info_get_key(l); const char *value = kmod_module_info_get_value(l); if (!streq(key, "softdep")) continue; fprintf(out, "softdep %s %s\n", mod->modname, value); } } return 0; } static int output_symbols(struct depmod *depmod, FILE *out) { struct hash_iter iter; const void *v; fputs("# Aliases for symbols, used by symbol_request().\n", out); hash_iter_init(depmod->symbols, &iter); while (hash_iter_next(&iter, NULL, &v)) { const struct symbol *sym = v; if (sym->owner == NULL) continue; fprintf(out, "alias symbol:%s %s\n", sym->name, sym->owner->modname); } return 0; } static int output_symbols_bin(struct depmod *depmod, FILE *out) { struct index_node *idx; char alias[1024]; _cleanup_(scratchbuf_release) struct scratchbuf salias = SCRATCHBUF_INITIALIZER(alias); size_t baselen = sizeof("symbol:") - 1; struct hash_iter iter; const void *v; int ret = 0; if (out == stdout) return 0; idx = index_create(); if (idx == NULL) return -ENOMEM; memcpy(alias, "symbol:", baselen); hash_iter_init(depmod->symbols, &iter); while (hash_iter_next(&iter, NULL, &v)) { int duplicate; const struct symbol *sym = v; size_t len; if (sym->owner == NULL) continue; len = strlen(sym->name); if (scratchbuf_alloc(&salias, baselen + len + 1) < 0) { ret = -ENOMEM; goto err_scratchbuf; } memcpy(scratchbuf_str(&salias) + baselen, sym->name, len + 1); duplicate = index_insert(idx, alias, sym->owner->modname, sym->owner->idx); if (duplicate && depmod->cfg->warn_dups) WRN("duplicate module syms:\n%s %s\n", alias, sym->owner->modname); } index_write(idx, out); err_scratchbuf: index_destroy(idx); if (ret < 0) ERR("output symbols: %s\n", strerror(-ret)); return ret; } static int output_builtin_bin(struct depmod *depmod, FILE *out) { FILE *in; struct index_node *idx; char line[PATH_MAX], modname[PATH_MAX]; if (out == stdout) return 0; in = dfdopen(depmod->cfg->dirname, "modules.builtin", O_RDONLY, "r"); if (in == NULL) return 0; idx = index_create(); if (idx == NULL) { fclose(in); return -ENOMEM; } while (fgets(line, sizeof(line), in) != NULL) { if (!isalpha(line[0])) { ERR("Invalid modules.builtin line: %s\n", line); continue; } path_to_modname(line, modname, NULL); index_insert(idx, modname, "", 0); } index_write(idx, out); index_destroy(idx); fclose(in); return 0; } static int flush_stream(FILE *in, int endchar) { size_t i = 0; int c; for (c = fgetc(in); c != EOF && c != endchar && c != '\0'; c = fgetc(in)) ; return c == endchar ? i : 0; } static int flush_stream_to(FILE *in, int endchar, char *dst, size_t dst_sz) { size_t i = 0; int c; for (c = fgetc(in); c != EOF && c != endchar && c != '\0' && i < dst_sz; c = fgetc(in)) dst[i++] = c; if (i == dst_sz) { WRN("Could not flush stream: %d. Partial content: %.*s\n", ENOSPC, (int) dst_sz, dst); i--; } return c == endchar ? i : 0; } static int output_builtin_alias_bin(struct depmod *depmod, FILE *out) { FILE *in; struct index_node *idx; int ret; if (out == stdout) return 0; in = dfdopen(depmod->cfg->dirname, "modules.builtin.modinfo", O_RDONLY, "r"); if (in == NULL) return 0; idx = index_create(); if (idx == NULL) { fclose(in); return -ENOMEM; } /* format: modname.key=value\0 */ while (!feof(in) && !ferror(in)) { char alias[PATH_MAX]; char modname[PATH_MAX]; char value[PATH_MAX]; size_t len; len = flush_stream_to(in, '.', modname, sizeof(modname)); modname[len] = '\0'; if (!len) continue; len = flush_stream_to(in, '=', value, sizeof(value)); value[len] = '\0'; if (!streq(value, "alias")) { flush_stream(in, '\0'); continue; } len = flush_stream_to(in, '\0', value, sizeof(value)); value[len] = '\0'; if (!len) continue; alias[0] = '\0'; if (alias_normalize(value, alias, NULL) < 0) { WRN("Unmatched bracket in %s\n", value); continue; } index_insert(idx, alias, modname, 0); } if (ferror(in)) { ret = -EINVAL; } else { index_write(idx, out); ret = 0; } index_destroy(idx); fclose(in); return ret; } static int output_devname(struct depmod *depmod, FILE *out) { size_t i; bool empty = true; for (i = 0; i < depmod->modules.count; i++) { const struct mod *mod = depmod->modules.array[i]; struct kmod_list *l; const char *devname = NULL; char type = '\0'; unsigned int major = 0, minor = 0; kmod_list_foreach(l, mod->info_list) { const char *key = kmod_module_info_get_key(l); const char *value = kmod_module_info_get_value(l); unsigned int maj, min; if (!streq(key, "alias")) continue; if (strstartswith(value, "devname:")) devname = value + sizeof("devname:") - 1; else if (sscanf(value, "char-major-%u-%u", &maj, &min) == 2) { type = 'c'; major = maj; minor = min; } else if (sscanf(value, "block-major-%u-%u", &maj, &min) == 2) { type = 'b'; major = maj; minor = min; } if (type != '\0' && devname != NULL) break; } if (devname != NULL) { if (type != '\0') { if (empty) { fputs("# Device nodes to trigger on-demand module loading.\n", out); empty = false; } fprintf(out, "%s %s %c%u:%u\n", mod->modname, devname, type, major, minor); } else ERR("Module '%s' has devname (%s) but " "lacks major and minor information. " "Ignoring.\n", mod->modname, devname); } } return 0; } static int depmod_output(struct depmod *depmod, FILE *out) { static const struct depfile { const char *name; int (*cb)(struct depmod *depmod, FILE *out); } *itr, depfiles[] = { { "modules.dep", output_deps }, { "modules.dep.bin", output_deps_bin }, { "modules.alias", output_aliases }, { "modules.alias.bin", output_aliases_bin }, { "modules.softdep", output_softdeps }, { "modules.symbols", output_symbols }, { "modules.symbols.bin", output_symbols_bin }, { "modules.builtin.bin", output_builtin_bin }, { "modules.builtin.alias.bin", output_builtin_alias_bin }, { "modules.devname", output_devname }, { } }; const char *dname = depmod->cfg->dirname; int dfd, err = 0; struct timeval tv; gettimeofday(&tv, NULL); if (out != NULL) dfd = -1; else { dfd = open(dname, O_RDONLY); if (dfd < 0) { err = -errno; CRIT("could not open directory %s: %m\n", dname); return err; } } for (itr = depfiles; itr->name != NULL; itr++) { FILE *fp = out; char tmp[NAME_MAX] = ""; int r, ferr; if (fp == NULL) { int flags = O_CREAT | O_EXCL | O_WRONLY; int mode = 0644; int fd; snprintf(tmp, sizeof(tmp), "%s.%i.%li.%li", itr->name, getpid(), tv.tv_usec, tv.tv_sec); fd = openat(dfd, tmp, flags, mode); if (fd < 0) { ERR("openat(%s, %s, %o, %o): %m\n", dname, tmp, flags, mode); continue; } fp = fdopen(fd, "wb"); if (fp == NULL) { ERR("fdopen(%d=%s/%s): %m\n", fd, dname, tmp); close(fd); continue; } } r = itr->cb(depmod, fp); if (fp == out) continue; ferr = ferror(fp) | fclose(fp); if (r < 0) { if (unlinkat(dfd, tmp, 0) != 0) ERR("unlinkat(%s, %s): %m\n", dname, tmp); ERR("Could not write index '%s': %s\n", itr->name, strerror(-r)); err = -errno; break; } if (renameat(dfd, tmp, dfd, itr->name) != 0) { err = -errno; CRIT("renameat(%s, %s, %s, %s): %m\n", dname, tmp, dname, itr->name); break; } if (ferr) { err = -ENOSPC; ERR("Could not create index '%s'. Output is truncated: %s\n", itr->name, strerror(-err)); break; } } if (dfd >= 0) close(dfd); return err; } static void depmod_add_fake_syms(struct depmod *depmod) { /* __this_module is magic inserted by kernel loader. */ depmod_symbol_add(depmod, "__this_module", true, 0, NULL); /* On S390, this is faked up too */ depmod_symbol_add(depmod, "_GLOBAL_OFFSET_TABLE_", true, 0, NULL); /* On PowerPC64 ABIv2, .TOC. is more or less _GLOBAL_OFFSET_TABLE_ */ if (!depmod_symbol_find(depmod, "TOC.")) depmod_symbol_add(depmod, "TOC.", true, 0, NULL); } static int depmod_load_symvers(struct depmod *depmod, const char *filename) { char line[10240]; FILE *fp; unsigned int linenum = 0; fp = fopen(filename, "r"); if (fp == NULL) { int err = -errno; DBG("load symvers: %s: %m\n", filename); return err; } DBG("load symvers: %s\n", filename); /* eg. "0xb352177e\tfind_first_bit\tvmlinux\tEXPORT_SYMBOL" */ while (fgets(line, sizeof(line), fp) != NULL) { const char *ver, *sym, *where; char *verend; uint64_t crc; linenum++; ver = strtok(line, " \t"); sym = strtok(NULL, " \t"); where = strtok(NULL, " \t"); if (!ver || !sym || !where) continue; if (!streq(where, "vmlinux")) continue; crc = strtoull(ver, &verend, 16); if (verend[0] != '\0') { ERR("%s:%u Invalid symbol version %s: %m\n", filename, linenum, ver); continue; } depmod_symbol_add(depmod, sym, false, crc, NULL); } depmod_add_fake_syms(depmod); DBG("loaded symvers: %s\n", filename); fclose(fp); return 0; } static int depmod_load_system_map(struct depmod *depmod, const char *filename) { const char ksymstr[] = "__ksymtab_"; const size_t ksymstr_len = sizeof(ksymstr) - 1; char line[10240]; FILE *fp; unsigned int linenum = 0; fp = fopen(filename, "r"); if (fp == NULL) { int err = -errno; DBG("load System.map: %s: %m\n", filename); return err; } DBG("load System.map: %s\n", filename); /* eg. c0294200 R __ksymtab_devfs_alloc_devnum */ while (fgets(line, sizeof(line), fp) != NULL) { char *p, *end; linenum++; p = strchr(line, ' '); if (p == NULL) goto invalid_syntax; p++; p = strchr(p, ' '); if (p == NULL) goto invalid_syntax; p++; /* skip prefix */ if (p[0] == depmod->cfg->sym_prefix) p++; /* Covers gpl-only and normal symbols. */ if (strncmp(p, ksymstr, ksymstr_len) != 0) continue; end = strchr(p, '\n'); if (end != NULL) *end = '\0'; depmod_symbol_add(depmod, p + ksymstr_len, true, 0, NULL); continue; invalid_syntax: ERR("%s:%u: invalid line: %s\n", filename, linenum, line); } depmod_add_fake_syms(depmod); DBG("loaded System.map: %s\n", filename); fclose(fp); return 0; } static int depfile_up_to_date_dir(DIR *d, time_t mtime, size_t baselen, char *path) { struct dirent *de; int err = 1, dfd = dirfd(d); while ((de = readdir(d)) != NULL) { const char *name = de->d_name; size_t namelen; struct stat st; if (name[0] == '.' && (name[1] == '\0' || (name[1] == '.' && name[2] == '\0'))) continue; if (streq(name, "build") || streq(name, "source")) continue; namelen = strlen(name); if (baselen + namelen + 2 >= PATH_MAX) { path[baselen] = '\0'; ERR("path is too long %s%s\n", path, name); continue; } if (fstatat(dfd, name, &st, 0) < 0) { ERR("fstatat(%d, %s): %m\n", dfd, name); continue; } if (S_ISDIR(st.st_mode)) { int fd; DIR *subdir; memcpy(path + baselen, name, namelen + 1); if (baselen + namelen + 2 + NAME_MAX >= PATH_MAX) { ERR("directory path is too long %s\n", path); continue; } fd = openat(dfd, name, O_RDONLY); if (fd < 0) { ERR("openat(%d, %s, O_RDONLY): %m\n", dfd, name); continue; } subdir = fdopendir(fd); if (subdir == NULL) { ERR("fdopendir(%d): %m\n", fd); close(fd); continue; } path[baselen + namelen] = '/'; path[baselen + namelen + 1] = '\0'; err = depfile_up_to_date_dir(subdir, mtime, baselen + namelen + 1, path); closedir(subdir); } else if (S_ISREG(st.st_mode)) { if (!path_ends_with_kmod_ext(name, namelen)) continue; memcpy(path + baselen, name, namelen + 1); err = st.st_mtime <= mtime; if (err == 0) { DBG("%s %"PRIu64" is newer than %"PRIu64"\n", path, (uint64_t)st.st_mtime, (uint64_t)mtime); } } else { ERR("unsupported file type %s: %o\n", path, st.st_mode & S_IFMT); continue; } if (err == 0) break; /* outdated! */ else if (err < 0) { path[baselen + namelen] = '\0'; ERR("failed %s: %s\n", path, strerror(-err)); err = 1; /* ignore errors */ } } return err; } /* uptodate: 1, outdated: 0, errors < 0 */ static int depfile_up_to_date(const char *dirname) { char path[PATH_MAX]; DIR *d = opendir(dirname); struct stat st; size_t baselen; int err; if (d == NULL) { err = -errno; ERR("could not open directory %s: %m\n", dirname); return err; } if (fstatat(dirfd(d), "modules.dep", &st, 0) != 0) { err = -errno; ERR("could not fstatat(%s, modules.dep): %m\n", dirname); closedir(d); return err; } baselen = strlen(dirname); memcpy(path, dirname, baselen); path[baselen] = '/'; baselen++; path[baselen] = '\0'; err = depfile_up_to_date_dir(d, st.st_mtime, baselen, path); closedir(d); return err; } static int is_version_number(const char *version) { unsigned int d1, d2; return (sscanf(version, "%u.%u", &d1, &d2) == 2); } static int do_depmod(int argc, char *argv[]) { FILE *out = NULL; int err = 0, all = 0, maybe_all = 0, n_config_paths = 0; _cleanup_free_ char *root = NULL; _cleanup_free_ const char **config_paths = NULL; const char *system_map = NULL; const char *module_symvers = NULL; const char *null_kmod_config = NULL; struct utsname un; struct kmod_ctx *ctx = NULL; struct cfg cfg; struct depmod depmod; memset(&cfg, 0, sizeof(cfg)); memset(&depmod, 0, sizeof(depmod)); for (;;) { int c, idx = 0; c = getopt_long(argc, argv, cmdopts_s, cmdopts, &idx); if (c == -1) break; switch (c) { case 'a': all = 1; break; case 'A': maybe_all = 1; break; case 'b': if (root) free(root); root = path_make_absolute_cwd(optarg); break; case 'C': { size_t bytes = sizeof(char *) * (n_config_paths + 2); void *tmp = realloc(config_paths, bytes); if (!tmp) { fputs("Error: out-of-memory\n", stderr); goto cmdline_failed; } config_paths = tmp; config_paths[n_config_paths] = optarg; n_config_paths++; config_paths[n_config_paths] = NULL; break; } case 'E': module_symvers = optarg; cfg.check_symvers = 1; break; case 'F': system_map = optarg; break; case 'e': cfg.print_unknown = 1; break; case 'v': verbose++; break; case 'n': out = stdout; break; case 'P': if (optarg[1] != '\0') { CRIT("-P only takes a single char\n"); goto cmdline_failed; } cfg.sym_prefix = optarg[0]; break; case 'w': cfg.warn_dups = 1; break; case 'u': case 'q': case 'r': case 'm': if (idx > 0) WRN("Ignored deprecated option --%s\n", cmdopts[idx].name); else WRN("Ignored deprecated option -%c\n", c); break; case 'h': help(); return EXIT_SUCCESS; case 'V': puts(PACKAGE " version " VERSION); puts(KMOD_FEATURES); return EXIT_SUCCESS; case '?': goto cmdline_failed; default: ERR("unexpected getopt_long() value '%c'.\n", c); goto cmdline_failed; } } if (optind < argc) { if (!is_version_number(argv[optind])) { ERR("Bad version passed %s\n", argv[optind]); goto cmdline_failed; } cfg.kversion = argv[optind]; optind++; } else { if (uname(&un) < 0) { CRIT("uname() failed: %s\n", strerror(errno)); goto cmdline_failed; } cfg.kversion = un.release; } cfg.dirnamelen = snprintf(cfg.dirname, PATH_MAX, "%s/lib/modules/%s", root == NULL ? "" : root, cfg.kversion); if (optind == argc) all = 1; if (maybe_all) { if (out == stdout) goto done; /* ignore up-to-date errors (< 0) */ if (depfile_up_to_date(cfg.dirname) == 1) goto done; all = 1; } ctx = kmod_new(cfg.dirname, &null_kmod_config); if (ctx == NULL) { CRIT("kmod_new(\"%s\", {NULL}) failed: %m\n", cfg.dirname); goto cmdline_failed; } log_setup_kmod_log(ctx, verbose); err = depmod_init(&depmod, &cfg, ctx); if (err < 0) { CRIT("depmod_init: %s\n", strerror(-err)); goto depmod_init_failed; } ctx = NULL; /* owned by depmod */ if (module_symvers != NULL) { err = depmod_load_symvers(&depmod, module_symvers); if (err < 0) { CRIT("could not load %s: %s\n", module_symvers, strerror(-err)); goto cmdline_failed; } } else if (system_map != NULL) { err = depmod_load_system_map(&depmod, system_map); if (err < 0) { CRIT("could not load %s: %s\n", system_map, strerror(-err)); goto cmdline_failed; } } else if (cfg.print_unknown) { WRN("-e needs -E or -F\n"); cfg.print_unknown = 0; } if (all) { err = cfg_load(&cfg, config_paths); if (err < 0) { CRIT("could not load configuration files\n"); goto cmdline_modules_failed; } err = depmod_modules_search(&depmod); if (err < 0) { CRIT("could not search modules: %s\n", strerror(-err)); goto cmdline_modules_failed; } } else { int i; for (i = optind; i < argc; i++) { const char *path = argv[i]; struct kmod_module *mod; if (path[0] != '/') { CRIT("%s: not absolute path.\n", path); goto cmdline_modules_failed; } err = kmod_module_new_from_path(depmod.ctx, path, &mod); if (err < 0) { CRIT("could not create module %s: %s\n", path, strerror(-err)); goto cmdline_modules_failed; } err = depmod_module_add(&depmod, mod); if (err < 0) { CRIT("could not add module %s: %s\n", path, strerror(-err)); kmod_module_unref(mod); goto cmdline_modules_failed; } } } err = depmod_modules_build_array(&depmod); if (err < 0) { CRIT("could not build module array: %s\n", strerror(-err)); goto cmdline_modules_failed; } depmod_modules_sort(&depmod); err = depmod_load(&depmod); if (err < 0) goto cmdline_modules_failed; err = depmod_output(&depmod, out); done: depmod_shutdown(&depmod); cfg_free(&cfg); return err >= 0 ? EXIT_SUCCESS : EXIT_FAILURE; cmdline_modules_failed: depmod_shutdown(&depmod); depmod_init_failed: if (ctx != NULL) kmod_unref(ctx); cmdline_failed: cfg_free(&cfg); return EXIT_FAILURE; } const struct kmod_cmd kmod_cmd_compat_depmod = { .name = "depmod", .cmd = do_depmod, .help = "compat depmod command", };