/* * conf.c * * Copyright (c) 2006-2018 Pacman Development Team * Copyright (c) 2002-2006 by Judd Vinet * * 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 /* setlocale */ #include /* open */ #include #include #include #include /* strdup */ #include #include #include /* uname */ #include /* pacman */ #include "conf.h" #include "ini.h" #include "util.h" #include "callback.h" /* global config variable */ config_t *config = NULL; #define NOCOLOR "\033[0m" #define BOLD "\033[0;1m" #define BLACK "\033[0;30m" #define RED "\033[0;31m" #define GREEN "\033[0;32m" #define YELLOW "\033[0;33m" #define BLUE "\033[0;34m" #define MAGENTA "\033[0;35m" #define CYAN "\033[0;36m" #define WHITE "\033[0;37m" #define BOLDBLACK "\033[1;30m" #define BOLDRED "\033[1;31m" #define BOLDGREEN "\033[1;32m" #define BOLDYELLOW "\033[1;33m" #define BOLDBLUE "\033[1;34m" #define BOLDMAGENTA "\033[1;35m" #define BOLDCYAN "\033[1;36m" #define BOLDWHITE "\033[1;37m" void enable_colors(int colors) { colstr_t *colstr = &config->colstr; if(colors == PM_COLOR_ON) { colstr->colon = BOLDBLUE "::" BOLD " "; colstr->title = BOLD; colstr->repo = BOLDMAGENTA; colstr->version = BOLDGREEN; colstr->groups = BOLDBLUE; colstr->meta = BOLDCYAN; colstr->warn = BOLDYELLOW; colstr->err = BOLDRED; colstr->nocolor = NOCOLOR; } else { colstr->colon = ":: "; colstr->title = ""; colstr->repo = ""; colstr->version = ""; colstr->groups = ""; colstr->meta = ""; colstr->warn = ""; colstr->err = ""; colstr->nocolor = ""; } } config_t *config_new(void) { config_t *newconfig = calloc(1, sizeof(config_t)); if(!newconfig) { pm_printf(ALPM_LOG_ERROR, _n("malloc failure: could not allocate %zu byte\n", "malloc failure: could not allocate %zu bytes\n", sizeof(config_t)), sizeof(config_t)); return NULL; } /* defaults which may get overridden later */ newconfig->op = PM_OP_MAIN; newconfig->logmask = ALPM_LOG_ERROR | ALPM_LOG_WARNING; newconfig->configfile = strdup(CONFFILE); if(alpm_capabilities() & ALPM_CAPABILITY_SIGNATURES) { newconfig->siglevel = ALPM_SIG_PACKAGE | ALPM_SIG_PACKAGE_OPTIONAL | ALPM_SIG_DATABASE | ALPM_SIG_DATABASE_OPTIONAL; newconfig->localfilesiglevel = ALPM_SIG_USE_DEFAULT; newconfig->remotefilesiglevel = ALPM_SIG_USE_DEFAULT; } newconfig->colstr.colon = ":: "; newconfig->colstr.title = ""; newconfig->colstr.repo = ""; newconfig->colstr.version = ""; newconfig->colstr.groups = ""; newconfig->colstr.meta = ""; newconfig->colstr.warn = ""; newconfig->colstr.err = ""; newconfig->colstr.nocolor = ""; return newconfig; } int config_free(config_t *oldconfig) { if(oldconfig == NULL) { return -1; } alpm_list_free(oldconfig->explicit_adds); alpm_list_free(oldconfig->explicit_removes); alpm_list_free_inner(config->repos, (alpm_list_fn_free) config_repo_free); alpm_list_free(config->repos); FREELIST(oldconfig->holdpkg); FREELIST(oldconfig->ignorepkg); FREELIST(oldconfig->ignoregrp); FREELIST(oldconfig->assumeinstalled); FREELIST(oldconfig->noupgrade); FREELIST(oldconfig->noextract); FREELIST(oldconfig->overwrite_files); free(oldconfig->configfile); free(oldconfig->rootdir); free(oldconfig->dbpath); free(oldconfig->logfile); free(oldconfig->gpgdir); FREELIST(oldconfig->hookdirs); FREELIST(oldconfig->cachedirs); free(oldconfig->xfercommand); free(oldconfig->print_format); free(oldconfig->arch); free(oldconfig); return 0; } void config_repo_free(config_repo_t *repo) { if(repo == NULL) { return; } free(repo->name); FREELIST(repo->servers); free(repo); } /** Helper function for download_with_xfercommand() */ static char *get_filename(const char *url) { char *filename = strrchr(url, '/'); if(filename != NULL) { filename++; } return filename; } /** Helper function for download_with_xfercommand() */ static char *get_destfile(const char *path, const char *filename) { char *destfile; /* len = localpath len + filename len + null */ size_t len = strlen(path) + strlen(filename) + 1; destfile = calloc(len, sizeof(char)); snprintf(destfile, len, "%s%s", path, filename); return destfile; } /** Helper function for download_with_xfercommand() */ static char *get_tempfile(const char *path, const char *filename) { char *tempfile; /* len = localpath len + filename len + '.part' len + null */ size_t len = strlen(path) + strlen(filename) + 6; tempfile = calloc(len, sizeof(char)); snprintf(tempfile, len, "%s%s.part", path, filename); return tempfile; } /** External fetch callback */ static int download_with_xfercommand(const char *url, const char *localpath, int force) { int ret = 0, retval; int usepart = 0; int cwdfd; struct stat st; char *parsedcmd, *tempcmd; char *destfile, *tempfile, *filename; if(!config->xfercommand) { return -1; } filename = get_filename(url); if(!filename) { return -1; } destfile = get_destfile(localpath, filename); tempfile = get_tempfile(localpath, filename); if(force && stat(tempfile, &st) == 0) { unlink(tempfile); } if(force && stat(destfile, &st) == 0) { unlink(destfile); } tempcmd = strdup(config->xfercommand); /* replace all occurrences of %o with fn.part */ if(strstr(tempcmd, "%o")) { usepart = 1; parsedcmd = strreplace(tempcmd, "%o", tempfile); free(tempcmd); tempcmd = parsedcmd; } /* replace all occurrences of %u with the download URL */ parsedcmd = strreplace(tempcmd, "%u", url); free(tempcmd); /* save the cwd so we can restore it later */ do { cwdfd = open(".", O_RDONLY); } while(cwdfd == -1 && errno == EINTR); if(cwdfd < 0) { pm_printf(ALPM_LOG_ERROR, _("could not get current working directory\n")); } /* cwd to the download directory */ if(chdir(localpath)) { pm_printf(ALPM_LOG_WARNING, _("could not chdir to download directory %s\n"), localpath); ret = -1; goto cleanup; } /* execute the parsed command via /bin/sh -c */ pm_printf(ALPM_LOG_DEBUG, "running command: %s\n", parsedcmd); retval = system(parsedcmd); if(retval == -1) { pm_printf(ALPM_LOG_WARNING, _("running XferCommand: fork failed!\n")); ret = -1; } else if(retval != 0) { /* download failed */ pm_printf(ALPM_LOG_DEBUG, "XferCommand command returned non-zero status " "code (%d)\n", retval); ret = -1; } else { /* download was successful */ ret = 0; if(usepart) { if(rename(tempfile, destfile)) { pm_printf(ALPM_LOG_ERROR, _("could not rename %s to %s (%s)\n"), tempfile, destfile, strerror(errno)); ret = -1; } } } cleanup: /* restore the old cwd if we have it */ if(cwdfd >= 0) { if(fchdir(cwdfd) != 0) { pm_printf(ALPM_LOG_ERROR, _("could not restore working directory (%s)\n"), strerror(errno)); } close(cwdfd); } if(ret == -1) { /* hack to let an user the time to cancel a download */ sleep(2); } free(destfile); free(tempfile); free(parsedcmd); return ret; } int config_set_arch(const char *arch) { if(strcmp(arch, "auto") == 0) { struct utsname un; uname(&un); config->arch = strdup(un.machine); if(strcmp(config->arch, "i686") == 0) { __builtin_cpu_init(); if (__builtin_cpu_supports("sse2")) config->arch = strdup("pentium4"); } } else { config->arch = strdup(arch); } pm_printf(ALPM_LOG_DEBUG, "config: arch: %s\n", config->arch); return 0; } /** * Parse a signature verification level line. * @param values the list of parsed option values * @param storage location to store the derived signature level; any existing * value here is used as a starting point * @param file path to the config file * @param linenum current line number in file * @return 0 on success, 1 on any parsing error */ static int process_siglevel(alpm_list_t *values, int *storage, int *storage_mask, const char *file, int linenum) { int level = *storage, mask = *storage_mask; alpm_list_t *i; int ret = 0; #define SLSET(sl) do { level |= (sl); mask |= (sl); } while(0) #define SLUNSET(sl) do { level &= ~(sl); mask |= (sl); } while(0) /* Collapse the option names into a single bitmasked value */ for(i = values; i; i = alpm_list_next(i)) { const char *original = i->data, *value; int package = 0, database = 0; if(strncmp(original, "Package", strlen("Package")) == 0) { /* only packages are affected, don't flip flags for databases */ value = original + strlen("Package"); package = 1; } else if(strncmp(original, "Database", strlen("Database")) == 0) { /* only databases are affected, don't flip flags for packages */ value = original + strlen("Database"); database = 1; } else { /* no prefix, so anything found will affect both packages and dbs */ value = original; package = database = 1; } /* now parse out and store actual flag if it is valid */ if(strcmp(value, "Never") == 0) { if(package) { SLUNSET(ALPM_SIG_PACKAGE); } if(database) { SLUNSET(ALPM_SIG_DATABASE); } } else if(strcmp(value, "Optional") == 0) { if(package) { SLSET(ALPM_SIG_PACKAGE | ALPM_SIG_PACKAGE_OPTIONAL); } if(database) { SLSET(ALPM_SIG_DATABASE | ALPM_SIG_DATABASE_OPTIONAL); } } else if(strcmp(value, "Required") == 0) { if(package) { SLSET(ALPM_SIG_PACKAGE); SLUNSET(ALPM_SIG_PACKAGE_OPTIONAL); } if(database) { SLSET(ALPM_SIG_DATABASE); SLUNSET(ALPM_SIG_DATABASE_OPTIONAL); } } else if(strcmp(value, "TrustedOnly") == 0) { if(package) { SLUNSET(ALPM_SIG_PACKAGE_MARGINAL_OK | ALPM_SIG_PACKAGE_UNKNOWN_OK); } if(database) { SLUNSET(ALPM_SIG_DATABASE_MARGINAL_OK | ALPM_SIG_DATABASE_UNKNOWN_OK); } } else if(strcmp(value, "TrustAll") == 0) { if(package) { SLSET(ALPM_SIG_PACKAGE_MARGINAL_OK | ALPM_SIG_PACKAGE_UNKNOWN_OK); } if(database) { SLSET(ALPM_SIG_DATABASE_MARGINAL_OK | ALPM_SIG_DATABASE_UNKNOWN_OK); } } else { pm_printf(ALPM_LOG_ERROR, _("config file %s, line %d: invalid value for '%s' : '%s'\n"), file, linenum, "SigLevel", original); ret = 1; } level &= ~ALPM_SIG_USE_DEFAULT; } #undef SLSET #undef SLUNSET /* ensure we have sig checking ability and are actually turning it on */ if(!(alpm_capabilities() & ALPM_CAPABILITY_SIGNATURES) && level & (ALPM_SIG_PACKAGE | ALPM_SIG_DATABASE)) { pm_printf(ALPM_LOG_ERROR, _("config file %s, line %d: '%s' option invalid, no signature support\n"), file, linenum, "SigLevel"); ret = 1; } if(!ret) { *storage = level; *storage_mask = mask; } return ret; } /** * Merge the package entries of two signature verification levels. * @param base initial siglevel * @param over overriding siglevel * @return merged siglevel */ static int merge_siglevel(int base, int over, int mask) { return mask ? (over & mask) | (base & ~mask) : over; } static int process_cleanmethods(alpm_list_t *values, const char *file, int linenum) { alpm_list_t *i; for(i = values; i; i = alpm_list_next(i)) { const char *value = i->data; if(strcmp(value, "KeepInstalled") == 0) { config->cleanmethod |= PM_CLEAN_KEEPINST; } else if(strcmp(value, "KeepCurrent") == 0) { config->cleanmethod |= PM_CLEAN_KEEPCUR; } else { pm_printf(ALPM_LOG_ERROR, _("config file %s, line %d: invalid value for '%s' : '%s'\n"), file, linenum, "CleanMethod", value); return 1; } } return 0; } /** Add repeating options such as NoExtract, NoUpgrade, etc to libalpm * settings. Refactored out of the parseconfig code since all of them did * the exact same thing and duplicated code. * @param ptr a pointer to the start of the multiple options * @param option the string (friendly) name of the option, used for messages * @param list the list to add the option to */ static void setrepeatingoption(char *ptr, const char *option, alpm_list_t **list) { char *val, *saveptr = NULL; val = strtok_r(ptr, " ", &saveptr); while(val) { *list = alpm_list_add(*list, strdup(val)); pm_printf(ALPM_LOG_DEBUG, "config: %s: %s\n", option, val); val = strtok_r(NULL, " ", &saveptr); } } static int _parse_options(const char *key, char *value, const char *file, int linenum) { if(value == NULL) { /* options without settings */ if(strcmp(key, "UseSyslog") == 0) { config->usesyslog = 1; pm_printf(ALPM_LOG_DEBUG, "config: usesyslog\n"); } else if(strcmp(key, "ILoveCandy") == 0) { config->chomp = 1; pm_printf(ALPM_LOG_DEBUG, "config: chomp\n"); } else if(strcmp(key, "VerbosePkgLists") == 0) { config->verbosepkglists = 1; pm_printf(ALPM_LOG_DEBUG, "config: verbosepkglists\n"); } else if(strcmp(key, "TotalDownload") == 0) { config->totaldownload = 1; pm_printf(ALPM_LOG_DEBUG, "config: totaldownload\n"); } else if(strcmp(key, "CheckSpace") == 0) { config->checkspace = 1; } else if(strcmp(key, "Color") == 0) { if(config->color == PM_COLOR_UNSET) { config->color = isatty(fileno(stdout)) ? PM_COLOR_ON : PM_COLOR_OFF; enable_colors(config->color); } } else if(strcmp(key, "DisableDownloadTimeout") == 0) { config->disable_dl_timeout = 1; } else { pm_printf(ALPM_LOG_WARNING, _("config file %s, line %d: directive '%s' in section '%s' not recognized.\n"), file, linenum, key, "options"); } } else { /* options with settings */ if(strcmp(key, "NoUpgrade") == 0) { setrepeatingoption(value, "NoUpgrade", &(config->noupgrade)); } else if(strcmp(key, "NoExtract") == 0) { setrepeatingoption(value, "NoExtract", &(config->noextract)); } else if(strcmp(key, "IgnorePkg") == 0) { setrepeatingoption(value, "IgnorePkg", &(config->ignorepkg)); } else if(strcmp(key, "IgnoreGroup") == 0) { setrepeatingoption(value, "IgnoreGroup", &(config->ignoregrp)); } else if(strcmp(key, "HoldPkg") == 0) { setrepeatingoption(value, "HoldPkg", &(config->holdpkg)); } else if(strcmp(key, "CacheDir") == 0) { setrepeatingoption(value, "CacheDir", &(config->cachedirs)); } else if(strcmp(key, "HookDir") == 0) { setrepeatingoption(value, "HookDir", &(config->hookdirs)); } else if(strcmp(key, "Architecture") == 0) { if(!config->arch) { config_set_arch(value); } } else if(strcmp(key, "DBPath") == 0) { /* don't overwrite a path specified on the command line */ if(!config->dbpath) { config->dbpath = strdup(value); pm_printf(ALPM_LOG_DEBUG, "config: dbpath: %s\n", value); } } else if(strcmp(key, "RootDir") == 0) { /* don't overwrite a path specified on the command line */ if(!config->rootdir) { config->rootdir = strdup(value); pm_printf(ALPM_LOG_DEBUG, "config: rootdir: %s\n", value); } } else if(strcmp(key, "GPGDir") == 0) { if(!config->gpgdir) { config->gpgdir = strdup(value); pm_printf(ALPM_LOG_DEBUG, "config: gpgdir: %s\n", value); } } else if(strcmp(key, "LogFile") == 0) { if(!config->logfile) { config->logfile = strdup(value); pm_printf(ALPM_LOG_DEBUG, "config: logfile: %s\n", value); } } else if(strcmp(key, "XferCommand") == 0) { config->xfercommand = strdup(value); pm_printf(ALPM_LOG_DEBUG, "config: xfercommand: %s\n", value); } else if(strcmp(key, "CleanMethod") == 0) { alpm_list_t *methods = NULL; setrepeatingoption(value, "CleanMethod", &methods); if(process_cleanmethods(methods, file, linenum)) { FREELIST(methods); return 1; } FREELIST(methods); } else if(strcmp(key, "SigLevel") == 0) { alpm_list_t *values = NULL; setrepeatingoption(value, "SigLevel", &values); if(process_siglevel(values, &config->siglevel, &config->siglevel_mask, file, linenum)) { FREELIST(values); return 1; } FREELIST(values); } else if(strcmp(key, "LocalFileSigLevel") == 0) { alpm_list_t *values = NULL; setrepeatingoption(value, "LocalFileSigLevel", &values); if(process_siglevel(values, &config->localfilesiglevel, &config->localfilesiglevel_mask, file, linenum)) { FREELIST(values); return 1; } FREELIST(values); } else if(strcmp(key, "RemoteFileSigLevel") == 0) { alpm_list_t *values = NULL; setrepeatingoption(value, "RemoteFileSigLevel", &values); if(process_siglevel(values, &config->remotefilesiglevel, &config->remotefilesiglevel_mask, file, linenum)) { FREELIST(values); return 1; } FREELIST(values); } else { pm_printf(ALPM_LOG_WARNING, _("config file %s, line %d: directive '%s' in section '%s' not recognized.\n"), file, linenum, key, "options"); } } return 0; } static char *replace_server_vars(config_t *c, config_repo_t *r, const char *s) { if(c->arch == NULL && strstr(s, "$arch")) { pm_printf(ALPM_LOG_ERROR, _("mirror '%s' contains the '%s' variable, but no '%s' is defined.\n"), s, "$arch", "Architecture"); return NULL; } if(c->arch) { char *temp, *replaced; replaced = strreplace(s, "$arch", c->arch); temp = replaced; replaced = strreplace(temp, "$repo", r->name); free(temp); return replaced; } else { return strreplace(s, "$repo", r->name); } } static int _add_mirror(alpm_db_t *db, char *value) { if(alpm_db_add_server(db, value) != 0) { /* pm_errno is set by alpm_db_setserver */ pm_printf(ALPM_LOG_ERROR, _("could not add server URL to database '%s': %s (%s)\n"), alpm_db_get_name(db), value, alpm_strerror(alpm_errno(config->handle))); return 1; } return 0; } static int register_repo(config_repo_t *repo) { alpm_list_t *i; alpm_db_t *db; db = alpm_register_syncdb(config->handle, repo->name, repo->siglevel); if(db == NULL) { pm_printf(ALPM_LOG_ERROR, _("could not register '%s' database (%s)\n"), repo->name, alpm_strerror(alpm_errno(config->handle))); return 1; } pm_printf(ALPM_LOG_DEBUG, "setting usage of %d for %s repository\n", repo->usage, repo->name); alpm_db_set_usage(db, repo->usage); for(i = repo->servers; i; i = alpm_list_next(i)) { if(_add_mirror(db, i->data) != 0) { return 1; } } return 0; } /** Sets up libalpm global stuff in one go. Called after the command line * and initial config file parsing. Once this is complete, we can see if any * paths were defined. If a rootdir was defined and nothing else, we want all * of our paths to live under the rootdir that was specified. Safe to call * multiple times (will only do anything the first time). */ static int setup_libalpm(void) { int ret = 0; alpm_errno_t err; alpm_handle_t *handle; alpm_list_t *i; pm_printf(ALPM_LOG_DEBUG, "setup_libalpm called\n"); /* initialize library */ handle = alpm_initialize(config->rootdir, config->dbpath, &err); if(!handle) { pm_printf(ALPM_LOG_ERROR, _("failed to initialize alpm library\n(%s: %s)\n"), alpm_strerror(err), config->dbpath); if(err == ALPM_ERR_DB_VERSION) { fprintf(stderr, _("try running pacman-db-upgrade\n")); } return -1; } config->handle = handle; alpm_option_set_logcb(handle, cb_log); alpm_option_set_dlcb(handle, cb_dl_progress); alpm_option_set_eventcb(handle, cb_event); alpm_option_set_questioncb(handle, cb_question); alpm_option_set_progresscb(handle, cb_progress); if(config->op == PM_OP_FILES) { alpm_option_set_dbext(handle, ".files"); } ret = alpm_option_set_logfile(handle, config->logfile); if(ret != 0) { pm_printf(ALPM_LOG_ERROR, _("problem setting logfile '%s' (%s)\n"), config->logfile, alpm_strerror(alpm_errno(handle))); return ret; } /* Set GnuPG's home directory. This is not relative to rootdir, even if * rootdir is defined. Reasoning: gpgdir contains configuration data. */ ret = alpm_option_set_gpgdir(handle, config->gpgdir); if(ret != 0) { pm_printf(ALPM_LOG_ERROR, _("problem setting gpgdir '%s' (%s)\n"), config->gpgdir, alpm_strerror(alpm_errno(handle))); return ret; } /* Set user hook directory. This is not relative to rootdir, even if * rootdir is defined. Reasoning: hookdir contains configuration data. */ /* add hook directories 1-by-1 to avoid overwriting the system directory */ for(i = config->hookdirs; i; i = alpm_list_next(i)) { if((ret = alpm_option_add_hookdir(handle, i->data)) != 0) { pm_printf(ALPM_LOG_ERROR, _("problem adding hookdir '%s' (%s)\n"), (char *) i->data, alpm_strerror(alpm_errno(handle))); return ret; } } alpm_option_set_cachedirs(handle, config->cachedirs); alpm_option_set_overwrite_files(handle, config->overwrite_files); alpm_option_set_default_siglevel(handle, config->siglevel); alpm_option_set_local_file_siglevel(handle, config->localfilesiglevel); alpm_option_set_remote_file_siglevel(handle, config->remotefilesiglevel); for(i = config->repos; i; i = alpm_list_next(i)) { register_repo(i->data); } if(config->xfercommand) { alpm_option_set_fetchcb(handle, download_with_xfercommand); } else if(!(alpm_capabilities() & ALPM_CAPABILITY_DOWNLOADER)) { pm_printf(ALPM_LOG_WARNING, _("no '%s' configured\n"), "XferCommand"); } if(config->totaldownload) { alpm_option_set_totaldlcb(handle, cb_dl_total); } alpm_option_set_arch(handle, config->arch); alpm_option_set_checkspace(handle, config->checkspace); alpm_option_set_usesyslog(handle, config->usesyslog); alpm_option_set_ignorepkgs(handle, config->ignorepkg); alpm_option_set_ignoregroups(handle, config->ignoregrp); alpm_option_set_noupgrades(handle, config->noupgrade); alpm_option_set_noextracts(handle, config->noextract); alpm_option_set_disable_dl_timeout(handle, config->disable_dl_timeout); for(i = config->assumeinstalled; i; i = i->next) { char *entry = i->data; alpm_depend_t *dep = alpm_dep_from_string(entry); if(!dep) { return 1; } pm_printf(ALPM_LOG_DEBUG, "parsed assume installed: %s %s\n", dep->name, dep->version); ret = alpm_option_add_assumeinstalled(handle, dep); alpm_dep_free(dep); if(ret) { pm_printf(ALPM_LOG_ERROR, _("Failed to pass %s entry to libalpm"), "assume-installed"); return ret; } } return 0; } /** * Allows parsing in advance of an entire config section before we start * calling library methods. */ struct section_t { const char *name; config_repo_t *repo; int depth; }; static int process_usage(alpm_list_t *values, int *usage, const char *file, int linenum) { alpm_list_t *i; int level = *usage; int ret = 0; for(i = values; i; i = i->next) { char *key = i->data; if(strcmp(key, "Sync") == 0) { level |= ALPM_DB_USAGE_SYNC; } else if(strcmp(key, "Search") == 0) { level |= ALPM_DB_USAGE_SEARCH; } else if(strcmp(key, "Install") == 0) { level |= ALPM_DB_USAGE_INSTALL; } else if(strcmp(key, "Upgrade") == 0) { level |= ALPM_DB_USAGE_UPGRADE; } else if(strcmp(key, "All") == 0) { level |= ALPM_DB_USAGE_ALL; } else { pm_printf(ALPM_LOG_ERROR, _("config file %s, line %d: '%s' option '%s' not recognized\n"), file, linenum, "Usage", key); ret = 1; } } *usage = level; return ret; } static int _parse_repo(const char *key, char *value, const char *file, int line, struct section_t *section) { int ret = 0; config_repo_t *repo = section->repo; #define CHECK_VALUE(val) do { \ if(!val) { \ pm_printf(ALPM_LOG_ERROR, _("config file %s, line %d: directive '%s' needs a value\n"), \ file, line, key); \ return 1; \ } \ } while(0) if(strcmp(key, "Server") == 0) { CHECK_VALUE(value); repo->servers = alpm_list_add(repo->servers, strdup(value)); } else if(strcmp(key, "SigLevel") == 0) { CHECK_VALUE(value); alpm_list_t *values = NULL; setrepeatingoption(value, "SigLevel", &values); if(values) { ret = process_siglevel(values, &repo->siglevel, &repo->siglevel_mask, file, line); FREELIST(values); } } else if(strcmp(key, "Usage") == 0) { CHECK_VALUE(value); alpm_list_t *values = NULL; setrepeatingoption(value, "Usage", &values); if(values) { if(process_usage(values, &repo->usage, file, line)) { FREELIST(values); return 1; } FREELIST(values); } } else { pm_printf(ALPM_LOG_WARNING, _("config file %s, line %d: directive '%s' in section '%s' not recognized.\n"), file, line, key, repo->name); } #undef CHECK_VALUE return ret; } static int _parse_directive(const char *file, int linenum, const char *name, char *key, char *value, void *data); static int process_include(const char *value, void *data, const char *file, int linenum) { glob_t globbuf; int globret, ret = 0; size_t gindex; struct section_t *section = data; static const int config_max_recursion = 10; if(value == NULL) { pm_printf(ALPM_LOG_ERROR, _("config file %s, line %d: directive '%s' needs a value\n"), file, linenum, "Include"); return 1; } if(section->depth >= config_max_recursion) { pm_printf(ALPM_LOG_ERROR, _("config parsing exceeded max recursion depth of %d.\n"), config_max_recursion); return 1; } section->depth++; /* Ignore include failures... assume non-critical */ globret = glob(value, GLOB_NOCHECK, NULL, &globbuf); switch(globret) { case GLOB_NOSPACE: pm_printf(ALPM_LOG_DEBUG, "config file %s, line %d: include globbing out of space\n", file, linenum); break; case GLOB_ABORTED: pm_printf(ALPM_LOG_DEBUG, "config file %s, line %d: include globbing read error for %s\n", file, linenum, value); break; case GLOB_NOMATCH: pm_printf(ALPM_LOG_DEBUG, "config file %s, line %d: no include found for %s\n", file, linenum, value); break; default: for(gindex = 0; gindex < globbuf.gl_pathc; gindex++) { pm_printf(ALPM_LOG_DEBUG, "config file %s, line %d: including %s\n", file, linenum, globbuf.gl_pathv[gindex]); ret = parse_ini(globbuf.gl_pathv[gindex], _parse_directive, data); if(ret) { goto cleanup; } } break; } cleanup: section->depth--; globfree(&globbuf); return ret; } static int _parse_directive(const char *file, int linenum, const char *name, char *key, char *value, void *data) { struct section_t *section = data; if(!name && !key && !value) { pm_printf(ALPM_LOG_ERROR, _("config file %s could not be read: %s\n"), file, strerror(errno)); return 1; } else if(!key && !value) { section->name = name; pm_printf(ALPM_LOG_DEBUG, "config: new section '%s'\n", name); if(strcmp(name, "options") == 0) { section->repo = NULL; } else { section->repo = calloc(sizeof(config_repo_t), 1); section->repo->name = strdup(name); section->repo->siglevel = ALPM_SIG_USE_DEFAULT; section->repo->usage = 0; config->repos = alpm_list_add(config->repos, section->repo); } return 0; } if(strcmp(key, "Include") == 0) { return process_include(value, data, file, linenum); } if(section->name == NULL) { pm_printf(ALPM_LOG_ERROR, _("config file %s, line %d: All directives must belong to a section.\n"), file, linenum); return 1; } if(!section->repo) { /* we are either in options ... */ return _parse_options(key, value, file, linenum); } else { /* ... or in a repo section */ return _parse_repo(key, value, file, linenum, section); } } int setdefaults(config_t *c) { alpm_list_t *i; #define SETDEFAULT(opt, val) if(!opt) { opt = val; if(!opt) { return -1; } } if(c->rootdir) { char path[PATH_MAX]; if(!c->dbpath) { snprintf(path, PATH_MAX, "%s/%s", c->rootdir, &DBPATH[1]); SETDEFAULT(c->dbpath, strdup(path)); } if(!c->logfile) { snprintf(path, PATH_MAX, "%s/%s", c->rootdir, &LOGFILE[1]); SETDEFAULT(c->logfile, strdup(path)); } } else { SETDEFAULT(c->rootdir, strdup(ROOTDIR)); SETDEFAULT(c->dbpath, strdup(DBPATH)); } SETDEFAULT(c->logfile, strdup(LOGFILE)); SETDEFAULT(c->gpgdir, strdup(GPGDIR)); SETDEFAULT(c->cachedirs, alpm_list_add(NULL, strdup(CACHEDIR))); SETDEFAULT(c->hookdirs, alpm_list_add(NULL, strdup(HOOKDIR))); SETDEFAULT(c->cleanmethod, PM_CLEAN_KEEPINST); c->localfilesiglevel = merge_siglevel(c->siglevel, c->localfilesiglevel, c->localfilesiglevel_mask); c->remotefilesiglevel = merge_siglevel(c->siglevel, c->remotefilesiglevel, c->remotefilesiglevel_mask); for(i = c->repos; i; i = i->next) { config_repo_t *r = i->data; alpm_list_t *j; SETDEFAULT(r->usage, ALPM_DB_USAGE_ALL); r->siglevel = merge_siglevel(c->siglevel, r->siglevel, r->siglevel_mask); for(j = r->servers; j; j = j->next) { char *newurl = replace_server_vars(c, r, j->data); if(newurl == NULL) { return -1; } else { free(j->data); j->data = newurl; } } } #undef SETDEFAULT return 0; } int parseconfigfile(const char *file) { struct section_t section; memset(§ion, 0, sizeof(struct section_t)); pm_printf(ALPM_LOG_DEBUG, "config: attempting to read file %s\n", file); return parse_ini(file, _parse_directive, §ion); } /** Parse a configuration file. * @param file path to the config file * @return 0 on success, non-zero on error */ int parseconfig(const char *file) { int ret; if((ret = parseconfigfile(file))) { return ret; } if((ret = setdefaults(config))) { return ret; } pm_printf(ALPM_LOG_DEBUG, "config: finished parsing %s\n", file); if((ret = setup_libalpm())) { return ret; } alpm_list_free_inner(config->repos, (alpm_list_fn_free) config_repo_free); alpm_list_free(config->repos); config->repos = NULL; return ret; }