/* * Copyright (C) 2001 Sistina Software (UK) Limited. * * This file is released under the LGPL. */ #include "config.h" #include "dev-cache.h" #include "hash.h" #include "dbg_malloc.h" #include "log.h" #include "filter-persistent.h" #include #include #include #include struct pfilter { char *file; struct hash_table *devices; struct dev_filter *real; }; /* * entries in the table can be in one of these * states. */ #define PF_BAD_DEVICE ((void *) 1) #define PF_GOOD_DEVICE ((void *) 2) static int _init_hash(struct pfilter *pf) { if (pf->devices) hash_destroy(pf->devices); pf->devices = hash_create(128); return pf->devices ? 1 : 0; } int persistent_filter_wipe(struct dev_filter *f) { struct pfilter *pf = (struct pfilter *) f->private; hash_wipe(pf->devices); return 1; } static int _read_array(struct pfilter *pf, struct config_file *cf, const char *path, void *data) { struct config_node *cn; struct config_value *cv; if (!(cn = find_config_node(cf->root, path, '/'))) { log_very_verbose("Couldn't find %s array in '%s'", path, pf->file); return 0; } /* * iterate through the array, adding * devices as we go. */ for (cv = cn->v; cv; cv = cv->next) { if (cv->type != CFG_STRING) { log_verbose("Devices array contains a value " "which is not a string ... ignoring"); continue; } if (!hash_insert(pf->devices, cv->v.str, data)) log_verbose("Couldn't add '%s' to filter ... ignoring", cv->v.str); } return 1; } int persistent_filter_load(struct dev_filter *f) { struct pfilter *pf = (struct pfilter *) f->private; int r = 0; struct config_file *cf; if (!(cf = create_config_file())) { stack; return 0; } if (!read_config(cf, pf->file)) { stack; goto out; } _read_array(pf, cf, "persistent_filter_cache/valid_devices", PF_GOOD_DEVICE); _read_array(pf, cf, "persistent_filter_cache/invalid_devices", PF_BAD_DEVICE); if (hash_get_num_entries(pf->devices)) r = 1; out: destroy_config_file(cf); return r; } static void _write_array(struct pfilter *pf, FILE *fp, const char *path, void *data) { void *d; int first = 1; struct hash_node *n; for (n = hash_get_first(pf->devices); n; n = hash_get_next(pf->devices, n)) { d = hash_get_data(pf->devices, n); if (d != data) continue; if (!first) fprintf(fp, ",\n"); else { fprintf(fp, "\t%s=[\n", path); first = 0; } fprintf(fp, "\t\t\"%s\"", hash_get_key(pf->devices, n)); } if (!first) fprintf(fp, "\n\t]\n"); return; } int persistent_filter_dump(struct dev_filter *f) { struct pfilter *pf = (struct pfilter *) f->private; FILE *fp; if (!hash_get_num_entries(pf->devices)) { log_very_verbose("Internal persistent device cache empty " "- not writing to %s", pf->file); return 0; } log_very_verbose("Dumping persistent device cache to %s", pf->file); fp = fopen(pf->file, "w"); if (!fp) { log_sys_error("fopen", pf->file); return 0; } fprintf(fp, "# This file is automatically maintained by lvm.\n\n"); fprintf(fp, "persistent_filter_cache {\n"); _write_array(pf, fp, "valid_devices", PF_GOOD_DEVICE); _write_array(pf, fp, "invalid_devices", PF_BAD_DEVICE); fprintf(fp, "}\n"); fclose(fp); return 1; } static int _lookup_p(struct dev_filter *f, struct device *dev) { struct pfilter *pf = (struct pfilter *) f->private; void *l = hash_lookup(pf->devices, dev_name(dev)); struct str_list *sl; struct list *ah; if (!l) { l = pf->real->passes_filter(pf->real, dev) ? PF_GOOD_DEVICE : PF_BAD_DEVICE; list_iterate(ah, &dev->aliases) { sl = list_item(ah, struct str_list); hash_insert(pf->devices, sl->str, l); } } return l == PF_GOOD_DEVICE; } static void _destroy(struct dev_filter *f) { struct pfilter *pf = (struct pfilter *) f->private; hash_destroy(pf->devices); dbg_free(pf->file); pf->real->destroy(pf->real); dbg_free(pf); dbg_free(f); } struct dev_filter *persistent_filter_create(struct dev_filter *real, const char *file) { struct pfilter *pf; struct dev_filter *f = NULL; if (!(pf = dbg_malloc(sizeof(*pf)))) { stack; return NULL; } memset(pf, 0, sizeof(*pf)); if (!(pf->file = dbg_malloc(strlen(file) + 1))) { stack; goto bad; } strcpy(pf->file, file); pf->real = real; if (!(_init_hash(pf))) { log_error("Couldn't create hash table for persistent filter."); goto bad; } if (!(f = dbg_malloc(sizeof(*f)))) { stack; goto bad; } f->passes_filter = _lookup_p; f->destroy = _destroy; f->private = pf; return f; bad: dbg_free(pf->file); if (pf->devices) hash_destroy(pf->devices); dbg_free(pf); dbg_free(f); return NULL; }