/* Samba Unix/Linux SMB client library Distributed SMB/CIFS Server Management Utility Copyright (C) Rafal Szczesniak 2002 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 3 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 <http://www.gnu.org/licenses/>. */ #include "includes.h" #include "net.h" /** * @file net_cache.c * @brief This is part of the net tool which is basically command * line wrapper for gencache.c functions (mainly for testing) * **/ /* * These routines are used via gencache_iterate() to display the cache's contents * (print_cache_entry) and to flush it (delete_cache_entry). * Both of them are defined by first arg of gencache_iterate() routine. */ static void print_cache_entry(const char* keystr, const char* datastr, const time_t timeout, void* dptr) { char *timeout_str; char *alloc_str = NULL; time_t now_t = time(NULL); struct tm timeout_tm, *now_tm; /* localtime returns statically allocated pointer, so timeout_tm has to be copied somewhere else */ now_tm = localtime(&timeout); if (!now_tm) { return; } memcpy(&timeout_tm, now_tm, sizeof(struct tm)); now_tm = localtime(&now_t); if (!now_tm) { return; } /* form up timeout string depending whether it's today's date or not */ if (timeout_tm.tm_year != now_tm->tm_year || timeout_tm.tm_mon != now_tm->tm_mon || timeout_tm.tm_mday != now_tm->tm_mday) { timeout_str = asctime(&timeout_tm); if (!timeout_str) { return; } timeout_str[strlen(timeout_str) - 1] = '\0'; /* remove tailing CR */ } else { asprintf(&alloc_str, "%.2d:%.2d:%.2d", timeout_tm.tm_hour, timeout_tm.tm_min, timeout_tm.tm_sec); if (!alloc_str) { return; } timeout_str = alloc_str; } d_printf("Key: %s\t Timeout: %s\t Value: %s %s\n", keystr, timeout_str, datastr, timeout > now_t ? "": "(expired)"); SAFE_FREE(alloc_str); } static void delete_cache_entry(const char* keystr, const char* datastr, const time_t timeout, void* dptr) { if (!gencache_del(keystr)) d_fprintf(stderr, "Couldn't delete entry! key = %s\n", keystr); } /** * Parse text representation of timeout value * * @param timeout_str string containing text representation of the timeout * @return numeric timeout of time_t type **/ static time_t parse_timeout(const char* timeout_str) { char sign = '\0', *number = NULL, unit = '\0'; int len, number_begin, number_end; time_t timeout; /* sign detection */ if (timeout_str[0] == '!' || timeout_str[0] == '+') { sign = timeout_str[0]; number_begin = 1; } else { number_begin = 0; } /* unit detection */ len = strlen(timeout_str); switch (timeout_str[len - 1]) { case 's': case 'm': case 'h': case 'd': case 'w': unit = timeout_str[len - 1]; } /* number detection */ len = (sign) ? strlen(&timeout_str[number_begin]) : len; number_end = (unit) ? len - 1 : len; number = SMB_STRNDUP(&timeout_str[number_begin], number_end); /* calculate actual timeout value */ timeout = (time_t)atoi(number); switch (unit) { case 'm': timeout *= 60; break; case 'h': timeout *= 60*60; break; case 'd': timeout *= 60*60*24; break; case 'w': timeout *= 60*60*24*7; break; /* that's fair enough, I think :) */ } switch (sign) { case '!': timeout = time(NULL) - timeout; break; case '+': default: timeout += time(NULL); break; } if (number) SAFE_FREE(number); return timeout; } /** * Add an entry to the cache. If it does exist, then set it. * * @param argv key, value and timeout are passed in command line * @return 0 on success, otherwise failure **/ static int net_cache_add(int argc, const char **argv) { const char *keystr, *datastr, *timeout_str; time_t timeout; if (argc < 3) { d_printf("\nUsage: net cache add <key string> <data string> <timeout>\n"); return -1; } keystr = argv[0]; datastr = argv[1]; timeout_str = argv[2]; /* parse timeout given in command line */ timeout = parse_timeout(timeout_str); if (!timeout) { d_fprintf(stderr, "Invalid timeout argument.\n"); return -1; } if (gencache_set(keystr, datastr, timeout)) { d_printf("New cache entry stored successfully.\n"); gencache_shutdown(); return 0; } d_fprintf(stderr, "Entry couldn't be added. Perhaps there's already such a key.\n"); gencache_shutdown(); return -1; } /** * Delete an entry in the cache * * @param argv key to delete an entry of * @return 0 on success, otherwise failure **/ static int net_cache_del(int argc, const char **argv) { const char *keystr = argv[0]; if (argc < 1) { d_printf("\nUsage: net cache del <key string>\n"); return -1; } if(gencache_del(keystr)) { d_printf("Entry deleted.\n"); return 0; } d_fprintf(stderr, "Couldn't delete specified entry\n"); return -1; } /** * Get and display an entry from the cache * * @param argv key to search an entry of * @return 0 on success, otherwise failure **/ static int net_cache_get(int argc, const char **argv) { const char* keystr = argv[0]; char* valuestr; time_t timeout; if (argc < 1) { d_printf("\nUsage: net cache get <key>\n"); return -1; } if (gencache_get(keystr, &valuestr, &timeout)) { print_cache_entry(keystr, valuestr, timeout, NULL); return 0; } d_fprintf(stderr, "Failed to find entry\n"); return -1; } /** * Search an entry/entries in the cache * * @param argv key pattern to match the entries to * @return 0 on success, otherwise failure **/ static int net_cache_search(int argc, const char **argv) { const char* pattern; if (argc < 1) { d_printf("Usage: net cache search <pattern>\n"); return -1; } pattern = argv[0]; gencache_iterate(print_cache_entry, NULL, pattern); return 0; } /** * List the contents of the cache * * @param argv ignored in this functionailty * @return always returns 0 **/ static int net_cache_list(int argc, const char **argv) { const char* pattern = "*"; gencache_iterate(print_cache_entry, NULL, pattern); gencache_shutdown(); return 0; } /** * Flush the whole cache * * @param argv ignored in this functionality * @return always returns 0 **/ static int net_cache_flush(int argc, const char **argv) { const char* pattern = "*"; gencache_iterate(delete_cache_entry, NULL, pattern); gencache_shutdown(); return 0; } /** * Short help * * @param argv ignored in this functionality * @return always returns -1 **/ static int net_cache_usage(int argc, const char **argv) { d_printf(" net cache add \t add add new cache entry\n"); d_printf(" net cache del \t delete existing cache entry by key\n"); d_printf(" net cache flush \t delete all entries existing in the cache\n"); d_printf(" net cache get \t get cache entry by key\n"); d_printf(" net cache search \t search for entries in the cache, by given pattern\n"); d_printf(" net cache list \t list all cache entries (just like search for \"*\")\n"); return -1; } /** * Entry point to 'net cache' subfunctionality * * @param argv arguments passed to further called functions * @return whatever further functions return **/ int net_cache(int argc, const char **argv) { struct functable func[] = { {"add", net_cache_add}, {"del", net_cache_del}, {"get", net_cache_get}, {"search", net_cache_search}, {"list", net_cache_list}, {"flush", net_cache_flush}, {NULL, NULL} }; return net_run_function(argc, argv, func, net_cache_usage); }