/* +----------------------------------------------------------------------+ | PHP Version 5 | +----------------------------------------------------------------------+ | Copyright (c) 1997-2015 The PHP Group | +----------------------------------------------------------------------+ | This source file is subject to version 3.01 of the PHP license, | | that is bundled with this package in the file LICENSE, and is | | available through the world-wide-web at the following url: | | http://www.php.net/license/3_01.txt | | If you did not receive a copy of the PHP license and are unable to | | obtain it through the world-wide-web, please send a note to | | license@php.net so we can mail you a copy immediately. | +----------------------------------------------------------------------+ | Authors: Sascha Schumann | | Derick Rethans | +----------------------------------------------------------------------+ */ /* $Id$ */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include "php.h" #if HAVE_LIBMCRYPT #if PHP_WIN32 # include "win32/winutil.h" #endif #include "php_mcrypt.h" #include "fcntl.h" #define NON_FREE #define MCRYPT2 #include "mcrypt.h" #include "php_ini.h" #include "php_globals.h" #include "ext/standard/info.h" #include "ext/standard/php_rand.h" #include "php_mcrypt_filter.h" static int le_mcrypt; typedef struct _php_mcrypt { MCRYPT td; zend_bool init; } php_mcrypt; /* {{{ arginfo */ ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_module_open, 0, 0, 4) ZEND_ARG_INFO(0, cipher) ZEND_ARG_INFO(0, cipher_directory) ZEND_ARG_INFO(0, mode) ZEND_ARG_INFO(0, mode_directory) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_generic_init, 0, 0, 3) ZEND_ARG_INFO(0, td) ZEND_ARG_INFO(0, key) ZEND_ARG_INFO(0, iv) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_generic, 0, 0, 2) ZEND_ARG_INFO(0, td) ZEND_ARG_INFO(0, data) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mdecrypt_generic, 0, 0, 2) ZEND_ARG_INFO(0, td) ZEND_ARG_INFO(0, data) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_enc_get_supported_key_sizes, 0, 0, 1) ZEND_ARG_INFO(0, td) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_enc_self_test, 0, 0, 1) ZEND_ARG_INFO(0, td) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_module_close, 0, 0, 1) ZEND_ARG_INFO(0, td) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_generic_deinit, 0, 0, 1) ZEND_ARG_INFO(0, td) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_enc_is_block_algorithm_mode, 0, 0, 1) ZEND_ARG_INFO(0, td) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_enc_is_block_algorithm, 0, 0, 1) ZEND_ARG_INFO(0, td) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_enc_is_block_mode, 0, 0, 1) ZEND_ARG_INFO(0, td) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_enc_get_block_size, 0, 0, 1) ZEND_ARG_INFO(0, td) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_enc_get_key_size, 0, 0, 1) ZEND_ARG_INFO(0, td) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_enc_get_iv_size, 0, 0, 1) ZEND_ARG_INFO(0, td) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_enc_get_algorithms_name, 0, 0, 1) ZEND_ARG_INFO(0, td) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_enc_get_modes_name, 0, 0, 1) ZEND_ARG_INFO(0, td) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_module_self_test, 0, 0, 1) ZEND_ARG_INFO(0, algorithm) ZEND_ARG_INFO(0, lib_dir) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_module_is_block_algorithm_mode, 0, 0, 1) ZEND_ARG_INFO(0, mode) ZEND_ARG_INFO(0, lib_dir) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_module_is_block_algorithm, 0, 0, 1) ZEND_ARG_INFO(0, algorithm) ZEND_ARG_INFO(0, lib_dir) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_module_is_block_mode, 0, 0, 1) ZEND_ARG_INFO(0, mode) ZEND_ARG_INFO(0, lib_dir) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_module_get_algo_block_size, 0, 0, 1) ZEND_ARG_INFO(0, algorithm) ZEND_ARG_INFO(0, lib_dir) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_module_get_algo_key_size, 0, 0, 1) ZEND_ARG_INFO(0, algorithm) ZEND_ARG_INFO(0, lib_dir) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_module_get_supported_key_sizes, 0, 0, 1) ZEND_ARG_INFO(0, algorithm) ZEND_ARG_INFO(0, lib_dir) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_list_algorithms, 0, 0, 0) ZEND_ARG_INFO(0, lib_dir) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_list_modes, 0, 0, 0) ZEND_ARG_INFO(0, lib_dir) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_get_key_size, 0, 0, 2) ZEND_ARG_INFO(0, cipher) ZEND_ARG_INFO(0, module) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_get_block_size, 0, 0, 2) ZEND_ARG_INFO(0, cipher) ZEND_ARG_INFO(0, module) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_get_iv_size, 0, 0, 2) ZEND_ARG_INFO(0, cipher) ZEND_ARG_INFO(0, module) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_get_cipher_name, 0, 0, 1) ZEND_ARG_INFO(0, cipher) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_encrypt, 0, 0, 5) ZEND_ARG_INFO(0, cipher) ZEND_ARG_INFO(0, key) ZEND_ARG_INFO(0, data) ZEND_ARG_INFO(0, mode) ZEND_ARG_INFO(0, iv) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_decrypt, 0, 0, 5) ZEND_ARG_INFO(0, cipher) ZEND_ARG_INFO(0, key) ZEND_ARG_INFO(0, data) ZEND_ARG_INFO(0, mode) ZEND_ARG_INFO(0, iv) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_ecb, 0, 0, 5) ZEND_ARG_INFO(0, cipher) ZEND_ARG_INFO(0, key) ZEND_ARG_INFO(0, data) ZEND_ARG_INFO(0, mode) ZEND_ARG_INFO(0, iv) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_cbc, 0, 0, 5) ZEND_ARG_INFO(0, cipher) ZEND_ARG_INFO(0, key) ZEND_ARG_INFO(0, data) ZEND_ARG_INFO(0, mode) ZEND_ARG_INFO(0, iv) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_cfb, 0, 0, 5) ZEND_ARG_INFO(0, cipher) ZEND_ARG_INFO(0, key) ZEND_ARG_INFO(0, data) ZEND_ARG_INFO(0, mode) ZEND_ARG_INFO(0, iv) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_ofb, 0, 0, 5) ZEND_ARG_INFO(0, cipher) ZEND_ARG_INFO(0, key) ZEND_ARG_INFO(0, data) ZEND_ARG_INFO(0, mode) ZEND_ARG_INFO(0, iv) ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_INFO_EX(arginfo_mcrypt_create_iv, 0, 0, 2) ZEND_ARG_INFO(0, size) ZEND_ARG_INFO(0, source) ZEND_END_ARG_INFO() /* }}} */ const zend_function_entry mcrypt_functions[] = { /* {{{ */ PHP_DEP_FE(mcrypt_ecb, arginfo_mcrypt_ecb) PHP_DEP_FE(mcrypt_cbc, arginfo_mcrypt_cbc) PHP_DEP_FE(mcrypt_cfb, arginfo_mcrypt_cfb) PHP_DEP_FE(mcrypt_ofb, arginfo_mcrypt_ofb) PHP_FE(mcrypt_get_key_size, arginfo_mcrypt_get_key_size) PHP_FE(mcrypt_get_block_size, arginfo_mcrypt_get_block_size) PHP_FE(mcrypt_get_cipher_name, arginfo_mcrypt_get_cipher_name) PHP_FE(mcrypt_create_iv, arginfo_mcrypt_create_iv) PHP_FE(mcrypt_list_algorithms, arginfo_mcrypt_list_algorithms) PHP_FE(mcrypt_list_modes, arginfo_mcrypt_list_modes) PHP_FE(mcrypt_get_iv_size, arginfo_mcrypt_get_iv_size) PHP_FE(mcrypt_encrypt, arginfo_mcrypt_encrypt) PHP_FE(mcrypt_decrypt, arginfo_mcrypt_decrypt) PHP_FE(mcrypt_module_open, arginfo_mcrypt_module_open) PHP_FE(mcrypt_generic_init, arginfo_mcrypt_generic_init) PHP_FE(mcrypt_generic, arginfo_mcrypt_generic) PHP_FE(mdecrypt_generic, arginfo_mdecrypt_generic) PHP_DEP_FALIAS(mcrypt_generic_end, mcrypt_generic_deinit, arginfo_mcrypt_generic_deinit) PHP_FE(mcrypt_generic_deinit, arginfo_mcrypt_generic_deinit) PHP_FE(mcrypt_enc_self_test, arginfo_mcrypt_enc_self_test) PHP_FE(mcrypt_enc_is_block_algorithm_mode, arginfo_mcrypt_enc_is_block_algorithm_mode) PHP_FE(mcrypt_enc_is_block_algorithm, arginfo_mcrypt_enc_is_block_algorithm) PHP_FE(mcrypt_enc_is_block_mode, arginfo_mcrypt_enc_is_block_mode) PHP_FE(mcrypt_enc_get_block_size, arginfo_mcrypt_enc_get_block_size) PHP_FE(mcrypt_enc_get_key_size, arginfo_mcrypt_enc_get_key_size) PHP_FE(mcrypt_enc_get_supported_key_sizes, arginfo_mcrypt_enc_get_supported_key_sizes) PHP_FE(mcrypt_enc_get_iv_size, arginfo_mcrypt_enc_get_iv_size) PHP_FE(mcrypt_enc_get_algorithms_name, arginfo_mcrypt_enc_get_algorithms_name) PHP_FE(mcrypt_enc_get_modes_name, arginfo_mcrypt_enc_get_modes_name) PHP_FE(mcrypt_module_self_test, arginfo_mcrypt_module_self_test) PHP_FE(mcrypt_module_is_block_algorithm_mode, arginfo_mcrypt_module_is_block_algorithm_mode) PHP_FE(mcrypt_module_is_block_algorithm, arginfo_mcrypt_module_is_block_algorithm) PHP_FE(mcrypt_module_is_block_mode, arginfo_mcrypt_module_is_block_mode) PHP_FE(mcrypt_module_get_algo_block_size, arginfo_mcrypt_module_get_algo_block_size) PHP_FE(mcrypt_module_get_algo_key_size, arginfo_mcrypt_module_get_algo_key_size) PHP_FE(mcrypt_module_get_supported_key_sizes, arginfo_mcrypt_module_get_supported_key_sizes) PHP_FE(mcrypt_module_close, arginfo_mcrypt_module_close) PHP_FE_END }; /* }}} */ static PHP_MINFO_FUNCTION(mcrypt); static PHP_MINIT_FUNCTION(mcrypt); static PHP_MSHUTDOWN_FUNCTION(mcrypt); ZEND_DECLARE_MODULE_GLOBALS(mcrypt) zend_module_entry mcrypt_module_entry = { STANDARD_MODULE_HEADER, "mcrypt", mcrypt_functions, PHP_MINIT(mcrypt), PHP_MSHUTDOWN(mcrypt), NULL, NULL, PHP_MINFO(mcrypt), NO_VERSION_YET, PHP_MODULE_GLOBALS(mcrypt), NULL, NULL, NULL, STANDARD_MODULE_PROPERTIES_EX }; #ifdef COMPILE_DL_MCRYPT ZEND_GET_MODULE(mcrypt) #endif #define MCRYPT_ARGS2 \ zval **cipher, **data, **key, **mode; \ int td; \ char *ndata; \ size_t bsize; \ size_t nr; \ size_t nsize #define MCRYPT_ARGS \ MCRYPT_ARGS2; \ zval **iv #define MCRYPT_SIZE \ bsize = mcrypt_get_block_size(Z_LVAL_PP(cipher)); \ nr = (Z_STRLEN_PP(data) + bsize - 1) / bsize; \ nsize = nr * bsize #define MCRYPT_CHECK_TD_CPY \ if (td < 0) { \ php_error_docref(NULL TSRMLS_CC, E_WARNING, MCRYPT_FAILED); \ RETURN_FALSE; \ } \ ndata = ecalloc(nr, bsize); \ memcpy(ndata, Z_STRVAL_PP(data), Z_STRLEN_PP(data)) #define MCRYPT_CHECK_IV \ convert_to_string_ex(iv); \ if (Z_STRLEN_PP(iv) != bsize) { \ php_error_docref(NULL TSRMLS_CC, E_WARNING, MCRYPT_IV_WRONG_SIZE); \ RETURN_FALSE; \ } #define MCRYPT_ACTION(x) \ if (Z_LVAL_PP(mode) == 0) { \ mcrypt_##x(td, ndata, nsize); \ } else { \ mdecrypt_##x(td, ndata, nsize); \ } \ end_mcrypt_##x(td) #define MCRYPT_IV_WRONG_SIZE "The IV parameter must be as long as the blocksize" #define MCRYPT_ENCRYPT 0 #define MCRYPT_DECRYPT 1 #define MCRYPT_GET_INI \ cipher_dir_string = MCG(algorithms_dir); \ module_dir_string = MCG(modes_dir); /* * #warning is not ANSI C * #warning Invalidate resource if the param count is wrong, or other problems * #warning occurred during functions. */ #define MCRYPT_GET_CRYPT_ARGS \ if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "sssZ|s", \ &cipher, &cipher_len, &key, &key_len, &data, &data_len, &mode, &iv, &iv_len) == FAILURE) { \ return; \ } #define MCRYPT_GET_TD_ARG \ zval *mcryptind; \ php_mcrypt *pm; \ if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "r", &mcryptind) == FAILURE) { \ return; \ } \ ZEND_FETCH_RESOURCE (pm, php_mcrypt *, &mcryptind, -1, "MCrypt", le_mcrypt); #define MCRYPT_GET_MODE_DIR_ARGS(DIRECTORY) \ char *dir = NULL; \ int dir_len; \ char *module; \ int module_len; \ if (zend_parse_parameters (ZEND_NUM_ARGS() TSRMLS_CC, \ "s|s", &module, &module_len, &dir, &dir_len) == FAILURE) { \ return; \ } #define MCRYPT_OPEN_MODULE_FAILED "Module initialization failed" #define MCRYPT_ENTRY2_2_4(a,b) REGISTER_STRING_CONSTANT("MCRYPT_" #a, b, CONST_PERSISTENT) #define MCRYPT_ENTRY2_4(a) MCRYPT_ENTRY_NAMED(a, a) #define PHP_MCRYPT_INIT_CHECK \ if (!pm->init) { \ php_error_docref(NULL TSRMLS_CC, E_WARNING, "Operation disallowed prior to mcrypt_generic_init()."); \ RETURN_FALSE; \ } \ PHP_INI_BEGIN() STD_PHP_INI_ENTRY("mcrypt.algorithms_dir", NULL, PHP_INI_ALL, OnUpdateString, algorithms_dir, zend_mcrypt_globals, mcrypt_globals) STD_PHP_INI_ENTRY("mcrypt.modes_dir", NULL, PHP_INI_ALL, OnUpdateString, modes_dir, zend_mcrypt_globals, mcrypt_globals) PHP_INI_END() static void php_mcrypt_module_dtor(zend_rsrc_list_entry *rsrc TSRMLS_DC) /* {{{ */ { php_mcrypt *pm = (php_mcrypt *) rsrc->ptr; if (pm) { mcrypt_generic_deinit(pm->td); mcrypt_module_close(pm->td); efree(pm); pm = NULL; } } /* }}} */ typedef enum { RANDOM = 0, URANDOM, RAND } iv_source; static PHP_MINIT_FUNCTION(mcrypt) /* {{{ */ { le_mcrypt = zend_register_list_destructors_ex(php_mcrypt_module_dtor, NULL, "mcrypt", module_number); /* modes for mcrypt_??? routines */ REGISTER_LONG_CONSTANT("MCRYPT_ENCRYPT", 0, CONST_PERSISTENT); REGISTER_LONG_CONSTANT("MCRYPT_DECRYPT", 1, CONST_PERSISTENT); /* sources for mcrypt_create_iv */ REGISTER_LONG_CONSTANT("MCRYPT_DEV_RANDOM", 0, CONST_PERSISTENT); REGISTER_LONG_CONSTANT("MCRYPT_DEV_URANDOM", 1, CONST_PERSISTENT); REGISTER_LONG_CONSTANT("MCRYPT_RAND", 2, CONST_PERSISTENT); /* ciphers */ MCRYPT_ENTRY2_2_4(3DES, "tripledes"); MCRYPT_ENTRY2_2_4(ARCFOUR_IV, "arcfour-iv"); MCRYPT_ENTRY2_2_4(ARCFOUR, "arcfour"); MCRYPT_ENTRY2_2_4(BLOWFISH, "blowfish"); MCRYPT_ENTRY2_2_4(BLOWFISH_COMPAT, "blowfish-compat"); MCRYPT_ENTRY2_2_4(CAST_128, "cast-128"); MCRYPT_ENTRY2_2_4(CAST_256, "cast-256"); MCRYPT_ENTRY2_2_4(CRYPT, "crypt"); MCRYPT_ENTRY2_2_4(DES, "des"); MCRYPT_ENTRY2_2_4(ENIGNA, "crypt"); MCRYPT_ENTRY2_2_4(GOST, "gost"); MCRYPT_ENTRY2_2_4(LOKI97, "loki97"); MCRYPT_ENTRY2_2_4(PANAMA, "panama"); MCRYPT_ENTRY2_2_4(RC2, "rc2"); MCRYPT_ENTRY2_2_4(RIJNDAEL_128, "rijndael-128"); MCRYPT_ENTRY2_2_4(RIJNDAEL_192, "rijndael-192"); MCRYPT_ENTRY2_2_4(RIJNDAEL_256, "rijndael-256"); MCRYPT_ENTRY2_2_4(SAFER64, "safer-sk64"); MCRYPT_ENTRY2_2_4(SAFER128, "safer-sk128"); MCRYPT_ENTRY2_2_4(SAFERPLUS, "saferplus"); MCRYPT_ENTRY2_2_4(SERPENT, "serpent"); MCRYPT_ENTRY2_2_4(THREEWAY, "threeway"); MCRYPT_ENTRY2_2_4(TRIPLEDES, "tripledes"); MCRYPT_ENTRY2_2_4(TWOFISH, "twofish"); MCRYPT_ENTRY2_2_4(WAKE, "wake"); MCRYPT_ENTRY2_2_4(XTEA, "xtea"); MCRYPT_ENTRY2_2_4(IDEA, "idea"); MCRYPT_ENTRY2_2_4(MARS, "mars"); MCRYPT_ENTRY2_2_4(RC6, "rc6"); MCRYPT_ENTRY2_2_4(SKIPJACK, "skipjack"); /* modes */ MCRYPT_ENTRY2_2_4(MODE_CBC, "cbc"); MCRYPT_ENTRY2_2_4(MODE_CFB, "cfb"); MCRYPT_ENTRY2_2_4(MODE_ECB, "ecb"); MCRYPT_ENTRY2_2_4(MODE_NOFB, "nofb"); MCRYPT_ENTRY2_2_4(MODE_OFB, "ofb"); MCRYPT_ENTRY2_2_4(MODE_STREAM, "stream"); REGISTER_INI_ENTRIES(); php_stream_filter_register_factory("mcrypt.*", &php_mcrypt_filter_factory TSRMLS_CC); php_stream_filter_register_factory("mdecrypt.*", &php_mcrypt_filter_factory TSRMLS_CC); MCG(fd[RANDOM]) = -1; MCG(fd[URANDOM]) = -1; return SUCCESS; } /* }}} */ static PHP_MSHUTDOWN_FUNCTION(mcrypt) /* {{{ */ { php_stream_filter_unregister_factory("mcrypt.*" TSRMLS_CC); php_stream_filter_unregister_factory("mdecrypt.*" TSRMLS_CC); if (MCG(fd[RANDOM]) > 0) { close(MCG(fd[RANDOM])); } if (MCG(fd[URANDOM]) > 0) { close(MCG(fd[URANDOM])); } UNREGISTER_INI_ENTRIES(); return SUCCESS; } /* }}} */ #include "ext/standard/php_smart_str.h" PHP_MINFO_FUNCTION(mcrypt) /* {{{ */ { char **modules; char mcrypt_api_no[16]; int i, count; smart_str tmp1 = {0}; smart_str tmp2 = {0}; modules = mcrypt_list_algorithms(MCG(algorithms_dir), &count); if (count == 0) { smart_str_appends(&tmp1, "none"); } for (i = 0; i < count; i++) { smart_str_appends(&tmp1, modules[i]); smart_str_appendc(&tmp1, ' '); } smart_str_0(&tmp1); mcrypt_free_p(modules, count); modules = mcrypt_list_modes(MCG(modes_dir), &count); if (count == 0) { smart_str_appends(&tmp2, "none"); } for (i = 0; i < count; i++) { smart_str_appends(&tmp2, modules[i]); smart_str_appendc(&tmp2, ' '); } smart_str_0 (&tmp2); mcrypt_free_p (modules, count); snprintf (mcrypt_api_no, 16, "%d", MCRYPT_API_VERSION); php_info_print_table_start(); php_info_print_table_header(2, "mcrypt support", "enabled"); php_info_print_table_header(2, "mcrypt_filter support", "enabled"); php_info_print_table_row(2, "Version", LIBMCRYPT_VERSION); php_info_print_table_row(2, "Api No", mcrypt_api_no); php_info_print_table_row(2, "Supported ciphers", tmp1.c); php_info_print_table_row(2, "Supported modes", tmp2.c); smart_str_free(&tmp1); smart_str_free(&tmp2); php_info_print_table_end(); DISPLAY_INI_ENTRIES(); } /* }}} */ /* {{{ proto resource mcrypt_module_open(string cipher, string cipher_directory, string mode, string mode_directory) Opens the module of the algorithm and the mode to be used */ PHP_FUNCTION(mcrypt_module_open) { char *cipher, *cipher_dir; char *mode, *mode_dir; int cipher_len, cipher_dir_len; int mode_len, mode_dir_len; MCRYPT td; php_mcrypt *pm; if (zend_parse_parameters (ZEND_NUM_ARGS() TSRMLS_CC, "ssss", &cipher, &cipher_len, &cipher_dir, &cipher_dir_len, &mode, &mode_len, &mode_dir, &mode_dir_len)) { return; } td = mcrypt_module_open ( cipher, cipher_dir_len > 0 ? cipher_dir : MCG(algorithms_dir), mode, mode_dir_len > 0 ? mode_dir : MCG(modes_dir) ); if (td == MCRYPT_FAILED) { php_error_docref(NULL TSRMLS_CC, E_WARNING, "Could not open encryption module"); RETURN_FALSE; } else { pm = emalloc(sizeof(php_mcrypt)); pm->td = td; pm->init = 0; ZEND_REGISTER_RESOURCE(return_value, pm, le_mcrypt); } } /* }}} */ /* {{{ proto int mcrypt_generic_init(resource td, string key, string iv) This function initializes all buffers for the specific module */ PHP_FUNCTION(mcrypt_generic_init) { char *key, *iv; int key_len, iv_len; zval *mcryptind; unsigned char *key_s, *iv_s; int max_key_size, key_size, iv_size; php_mcrypt *pm; int result = 0; if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "rss", &mcryptind, &key, &key_len, &iv, &iv_len) == FAILURE) { return; } ZEND_FETCH_RESOURCE(pm, php_mcrypt *, &mcryptind, -1, "MCrypt", le_mcrypt); max_key_size = mcrypt_enc_get_key_size(pm->td); iv_size = mcrypt_enc_get_iv_size(pm->td); if (key_len == 0) { php_error_docref(NULL TSRMLS_CC, E_WARNING, "Key size is 0"); } key_s = emalloc(key_len); memset(key_s, 0, key_len); iv_s = emalloc(iv_size + 1); memset(iv_s, 0, iv_size + 1); if (key_len > max_key_size) { php_error_docref(NULL TSRMLS_CC, E_WARNING, "Key size too large; supplied length: %d, max: %d", key_len, max_key_size); key_size = max_key_size; } else { key_size = key_len; } memcpy(key_s, key, key_len); if (iv_len != iv_size) { php_error_docref(NULL TSRMLS_CC, E_WARNING, "Iv size incorrect; supplied length: %d, needed: %d", iv_len, iv_size); if (iv_len > iv_size) { iv_len = iv_size; } } memcpy(iv_s, iv, iv_len); mcrypt_generic_deinit(pm->td); result = mcrypt_generic_init(pm->td, key_s, key_size, iv_s); /* If this function fails, close the mcrypt module to prevent crashes * when further functions want to access this resource */ if (result < 0) { zend_list_delete(Z_LVAL_P(mcryptind)); switch (result) { case -3: php_error_docref(NULL TSRMLS_CC, E_WARNING, "Key length incorrect"); break; case -4: php_error_docref(NULL TSRMLS_CC, E_WARNING, "Memory allocation error"); break; case -1: default: php_error_docref(NULL TSRMLS_CC, E_WARNING, "Unknown error"); break; } } else { pm->init = 1; } RETVAL_LONG(result); efree(iv_s); efree(key_s); } /* }}} */ /* {{{ proto string mcrypt_generic(resource td, string data) This function encrypts the plaintext */ PHP_FUNCTION(mcrypt_generic) { zval *mcryptind; char *data; int data_len; php_mcrypt *pm; unsigned char* data_s; int block_size, data_size; if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "rs", &mcryptind, &data, &data_len) == FAILURE) { return; } ZEND_FETCH_RESOURCE(pm, php_mcrypt *, &mcryptind, -1, "MCrypt", le_mcrypt); PHP_MCRYPT_INIT_CHECK if (data_len == 0) { php_error_docref(NULL TSRMLS_CC, E_WARNING, "An empty string was passed"); RETURN_FALSE } /* Check blocksize */ if (mcrypt_enc_is_block_mode(pm->td) == 1) { /* It's a block algorithm */ block_size = mcrypt_enc_get_block_size(pm->td); data_size = (((data_len - 1) / block_size) + 1) * block_size; if (data_size <= 0) { php_error_docref(NULL TSRMLS_CC, E_WARNING, "Integer overflow in data size"); RETURN_FALSE; } data_s = emalloc(data_size + 1); memset(data_s, 0, data_size); memcpy(data_s, data, data_len); } else { /* It's not a block algorithm */ data_size = data_len; data_s = emalloc(data_size + 1); memset(data_s, 0, data_size); memcpy(data_s, data, data_len); } mcrypt_generic(pm->td, data_s, data_size); data_s[data_size] = '\0'; RETVAL_STRINGL(data_s, data_size, 1); efree(data_s); } /* }}} */ /* {{{ proto string mdecrypt_generic(resource td, string data) This function decrypts the plaintext */ PHP_FUNCTION(mdecrypt_generic) { zval *mcryptind; char *data; int data_len; php_mcrypt *pm; char* data_s; int block_size, data_size; if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "rs", &mcryptind, &data, &data_len) == FAILURE) { return; } ZEND_FETCH_RESOURCE(pm, php_mcrypt * , &mcryptind, -1, "MCrypt", le_mcrypt); PHP_MCRYPT_INIT_CHECK if (data_len == 0) { php_error_docref(NULL TSRMLS_CC, E_WARNING, "An empty string was passed"); RETURN_FALSE } /* Check blocksize */ if (mcrypt_enc_is_block_mode(pm->td) == 1) { /* It's a block algorithm */ block_size = mcrypt_enc_get_block_size(pm->td); data_size = (((data_len - 1) / block_size) + 1) * block_size; if (data_size <= 0) { php_error_docref(NULL TSRMLS_CC, E_WARNING, "Integer overflow in data size"); RETURN_FALSE; } data_s = emalloc(data_size + 1); memset(data_s, 0, data_size); memcpy(data_s, data, data_len); } else { /* It's not a block algorithm */ data_size = data_len; data_s = emalloc(data_size + 1); memset(data_s, 0, data_size); memcpy(data_s, data, data_len); } mdecrypt_generic(pm->td, data_s, data_size); RETVAL_STRINGL(data_s, data_size, 1); efree(data_s); } /* }}} */ /* {{{ proto array mcrypt_enc_get_supported_key_sizes(resource td) This function decrypts the crypttext */ PHP_FUNCTION(mcrypt_enc_get_supported_key_sizes) { int i, count = 0; int *key_sizes; MCRYPT_GET_TD_ARG array_init(return_value); key_sizes = mcrypt_enc_get_supported_key_sizes(pm->td, &count); for (i = 0; i < count; i++) { add_index_long(return_value, i, key_sizes[i]); } mcrypt_free(key_sizes); } /* }}} */ /* {{{ proto int mcrypt_enc_self_test(resource td) This function runs the self test on the algorithm specified by the descriptor td */ PHP_FUNCTION(mcrypt_enc_self_test) { MCRYPT_GET_TD_ARG RETURN_LONG(mcrypt_enc_self_test(pm->td)); } /* }}} */ /* {{{ proto bool mcrypt_module_close(resource td) Free the descriptor td */ PHP_FUNCTION(mcrypt_module_close) { MCRYPT_GET_TD_ARG zend_list_delete(Z_LVAL_P(mcryptind)); RETURN_TRUE; } /* }}} */ /* {{{ proto bool mcrypt_generic_deinit(resource td) This function terminates encrypt specified by the descriptor td */ PHP_FUNCTION(mcrypt_generic_deinit) { MCRYPT_GET_TD_ARG if (mcrypt_generic_deinit(pm->td) < 0) { php_error_docref(NULL TSRMLS_CC, E_WARNING, "Could not terminate encryption specifier"); RETURN_FALSE } pm->init = 0; RETURN_TRUE } /* }}} */ /* {{{ proto bool mcrypt_enc_is_block_algorithm_mode(resource td) Returns TRUE if the mode is for use with block algorithms */ PHP_FUNCTION(mcrypt_enc_is_block_algorithm_mode) { MCRYPT_GET_TD_ARG if (mcrypt_enc_is_block_algorithm_mode(pm->td) == 1) { RETURN_TRUE } else { RETURN_FALSE } } /* }}} */ /* {{{ proto bool mcrypt_enc_is_block_algorithm(resource td) Returns TRUE if the alrogithm is a block algorithms */ PHP_FUNCTION(mcrypt_enc_is_block_algorithm) { MCRYPT_GET_TD_ARG if (mcrypt_enc_is_block_algorithm(pm->td) == 1) { RETURN_TRUE } else { RETURN_FALSE } } /* }}} */ /* {{{ proto bool mcrypt_enc_is_block_mode(resource td) Returns TRUE if the mode outputs blocks */ PHP_FUNCTION(mcrypt_enc_is_block_mode) { MCRYPT_GET_TD_ARG if (mcrypt_enc_is_block_mode(pm->td) == 1) { RETURN_TRUE } else { RETURN_FALSE } } /* }}} */ /* {{{ proto int mcrypt_enc_get_block_size(resource td) Returns the block size of the cipher specified by the descriptor td */ PHP_FUNCTION(mcrypt_enc_get_block_size) { MCRYPT_GET_TD_ARG RETURN_LONG(mcrypt_enc_get_block_size(pm->td)); } /* }}} */ /* {{{ proto int mcrypt_enc_get_key_size(resource td) Returns the maximum supported key size in bytes of the algorithm specified by the descriptor td */ PHP_FUNCTION(mcrypt_enc_get_key_size) { MCRYPT_GET_TD_ARG RETURN_LONG(mcrypt_enc_get_key_size(pm->td)); } /* }}} */ /* {{{ proto int mcrypt_enc_get_iv_size(resource td) Returns the size of the IV in bytes of the algorithm specified by the descriptor td */ PHP_FUNCTION(mcrypt_enc_get_iv_size) { MCRYPT_GET_TD_ARG RETURN_LONG(mcrypt_enc_get_iv_size(pm->td)); } /* }}} */ /* {{{ proto string mcrypt_enc_get_algorithms_name(resource td) Returns the name of the algorithm specified by the descriptor td */ PHP_FUNCTION(mcrypt_enc_get_algorithms_name) { char *name; MCRYPT_GET_TD_ARG name = mcrypt_enc_get_algorithms_name(pm->td); RETVAL_STRING(name, 1); mcrypt_free(name); } /* }}} */ /* {{{ proto string mcrypt_enc_get_modes_name(resource td) Returns the name of the mode specified by the descriptor td */ PHP_FUNCTION(mcrypt_enc_get_modes_name) { char *name; MCRYPT_GET_TD_ARG name = mcrypt_enc_get_modes_name(pm->td); RETVAL_STRING(name, 1); mcrypt_free(name); } /* }}} */ /* {{{ proto bool mcrypt_module_self_test(string algorithm [, string lib_dir]) Does a self test of the module "module" */ PHP_FUNCTION(mcrypt_module_self_test) { MCRYPT_GET_MODE_DIR_ARGS(algorithms_dir); if (mcrypt_module_self_test(module, dir) == 0) { RETURN_TRUE; } else { RETURN_FALSE; } } /* }}} */ /* {{{ proto bool mcrypt_module_is_block_algorithm_mode(string mode [, string lib_dir]) Returns TRUE if the mode is for use with block algorithms */ PHP_FUNCTION(mcrypt_module_is_block_algorithm_mode) { MCRYPT_GET_MODE_DIR_ARGS(modes_dir) if (mcrypt_module_is_block_algorithm_mode(module, dir) == 1) { RETURN_TRUE; } else { RETURN_FALSE; } } /* }}} */ /* {{{ proto bool mcrypt_module_is_block_algorithm(string algorithm [, string lib_dir]) Returns TRUE if the algorithm is a block algorithm */ PHP_FUNCTION(mcrypt_module_is_block_algorithm) { MCRYPT_GET_MODE_DIR_ARGS(algorithms_dir) if (mcrypt_module_is_block_algorithm(module, dir) == 1) { RETURN_TRUE; } else { RETURN_FALSE; } } /* }}} */ /* {{{ proto bool mcrypt_module_is_block_mode(string mode [, string lib_dir]) Returns TRUE if the mode outputs blocks of bytes */ PHP_FUNCTION(mcrypt_module_is_block_mode) { MCRYPT_GET_MODE_DIR_ARGS(modes_dir) if (mcrypt_module_is_block_mode(module, dir) == 1) { RETURN_TRUE; } else { RETURN_FALSE; } } /* }}} */ /* {{{ proto int mcrypt_module_get_algo_block_size(string algorithm [, string lib_dir]) Returns the block size of the algorithm */ PHP_FUNCTION(mcrypt_module_get_algo_block_size) { MCRYPT_GET_MODE_DIR_ARGS(algorithms_dir) RETURN_LONG(mcrypt_module_get_algo_block_size(module, dir)); } /* }}} */ /* {{{ proto int mcrypt_module_get_algo_key_size(string algorithm [, string lib_dir]) Returns the maximum supported key size of the algorithm */ PHP_FUNCTION(mcrypt_module_get_algo_key_size) { MCRYPT_GET_MODE_DIR_ARGS(algorithms_dir); RETURN_LONG(mcrypt_module_get_algo_key_size(module, dir)); } /* }}} */ /* {{{ proto array mcrypt_module_get_supported_key_sizes(string algorithm [, string lib_dir]) This function decrypts the crypttext */ PHP_FUNCTION(mcrypt_module_get_supported_key_sizes) { int i, count = 0; int *key_sizes; MCRYPT_GET_MODE_DIR_ARGS(algorithms_dir) array_init(return_value); key_sizes = mcrypt_module_get_algo_supported_key_sizes(module, dir, &count); for (i = 0; i < count; i++) { add_index_long(return_value, i, key_sizes[i]); } mcrypt_free(key_sizes); } /* }}} */ /* {{{ proto array mcrypt_list_algorithms([string lib_dir]) List all algorithms in "module_dir" */ PHP_FUNCTION(mcrypt_list_algorithms) { char **modules; char *lib_dir = MCG(algorithms_dir); int lib_dir_len; int i, count; if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "|s", &lib_dir, &lib_dir_len) == FAILURE) { return; } array_init(return_value); modules = mcrypt_list_algorithms(lib_dir, &count); if (count == 0) { php_error_docref(NULL TSRMLS_CC, E_WARNING, "No algorithms found in module dir"); } for (i = 0; i < count; i++) { add_index_string(return_value, i, modules[i], 1); } mcrypt_free_p(modules, count); } /* }}} */ /* {{{ proto array mcrypt_list_modes([string lib_dir]) List all modes "module_dir" */ PHP_FUNCTION(mcrypt_list_modes) { char **modules; char *lib_dir = MCG(modes_dir); int lib_dir_len; int i, count; if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "|s", &lib_dir, &lib_dir_len) == FAILURE) { return; } array_init(return_value); modules = mcrypt_list_modes(lib_dir, &count); if (count == 0) { php_error_docref(NULL TSRMLS_CC, E_WARNING, "No modes found in module dir"); } for (i = 0; i < count; i++) { add_index_string(return_value, i, modules[i], 1); } mcrypt_free_p(modules, count); } /* }}} */ /* {{{ proto int mcrypt_get_key_size(string cipher, string module) Get the key size of cipher */ PHP_FUNCTION(mcrypt_get_key_size) { char *cipher; char *module; int cipher_len, module_len; char *cipher_dir_string; char *module_dir_string; MCRYPT td; MCRYPT_GET_INI if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "ss", &cipher, &cipher_len, &module, &module_len) == FAILURE) { return; } td = mcrypt_module_open(cipher, cipher_dir_string, module, module_dir_string); if (td != MCRYPT_FAILED) { RETVAL_LONG(mcrypt_enc_get_key_size(td)); mcrypt_module_close(td); } else { php_error_docref(NULL TSRMLS_CC, E_WARNING, MCRYPT_OPEN_MODULE_FAILED); RETURN_FALSE; } } /* }}} */ /* {{{ proto int mcrypt_get_block_size(string cipher, string module) Get the key size of cipher */ PHP_FUNCTION(mcrypt_get_block_size) { char *cipher; char *module; int cipher_len, module_len; char *cipher_dir_string; char *module_dir_string; MCRYPT td; MCRYPT_GET_INI if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "ss", &cipher, &cipher_len, &module, &module_len) == FAILURE) { return; } td = mcrypt_module_open(cipher, cipher_dir_string, module, module_dir_string); if (td != MCRYPT_FAILED) { RETVAL_LONG(mcrypt_enc_get_block_size(td)); mcrypt_module_close(td); } else { php_error_docref(NULL TSRMLS_CC, E_WARNING, MCRYPT_OPEN_MODULE_FAILED); RETURN_FALSE; } } /* }}} */ /* {{{ proto int mcrypt_get_iv_size(string cipher, string module) Get the IV size of cipher (Usually the same as the blocksize) */ PHP_FUNCTION(mcrypt_get_iv_size) { char *cipher; char *module; int cipher_len, module_len; char *cipher_dir_string; char *module_dir_string; MCRYPT td; MCRYPT_GET_INI if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "ss", &cipher, &cipher_len, &module, &module_len) == FAILURE) { return; } td = mcrypt_module_open(cipher, cipher_dir_string, module, module_dir_string); if (td != MCRYPT_FAILED) { RETVAL_LONG(mcrypt_enc_get_iv_size(td)); mcrypt_module_close(td); } else { php_error_docref(NULL TSRMLS_CC, E_WARNING, MCRYPT_OPEN_MODULE_FAILED); RETURN_FALSE; } } /* }}} */ /* {{{ proto string mcrypt_get_cipher_name(string cipher) Get the key size of cipher */ PHP_FUNCTION(mcrypt_get_cipher_name) { char *cipher_dir_string; char *module_dir_string; char *cipher_name; char *cipher; int cipher_len; MCRYPT td; MCRYPT_GET_INI if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "s", &cipher, &cipher_len) == FAILURE) { return; } /* The code below is actually not very nice, but I didn't see a better * method */ td = mcrypt_module_open(cipher, cipher_dir_string, "ecb", module_dir_string); if (td != MCRYPT_FAILED) { cipher_name = mcrypt_enc_get_algorithms_name(td); mcrypt_module_close(td); RETVAL_STRING(cipher_name,1); mcrypt_free(cipher_name); } else { td = mcrypt_module_open(cipher, cipher_dir_string, "stream", module_dir_string); if (td != MCRYPT_FAILED) { cipher_name = mcrypt_enc_get_algorithms_name(td); mcrypt_module_close(td); RETVAL_STRING(cipher_name,1); mcrypt_free(cipher_name); } else { php_error_docref(NULL TSRMLS_CC, E_WARNING, MCRYPT_OPEN_MODULE_FAILED); RETURN_FALSE; } } } /* }}} */ static void php_mcrypt_do_crypt(char* cipher, const char *key, int key_len, const char *data, int data_len, char *mode, const char *iv, int iv_len, int argc, int dencrypt, zval* return_value TSRMLS_DC) /* {{{ */ { char *cipher_dir_string; char *module_dir_string; int block_size, max_key_length, use_key_length, i, count, iv_size; unsigned long int data_size; int *key_length_sizes; char *key_s = NULL, *iv_s; char *data_s; MCRYPT td; MCRYPT_GET_INI td = mcrypt_module_open(cipher, cipher_dir_string, mode, module_dir_string); if (td == MCRYPT_FAILED) { php_error_docref(NULL TSRMLS_CC, E_WARNING, MCRYPT_OPEN_MODULE_FAILED); RETURN_FALSE; } /* Checking for key-length */ max_key_length = mcrypt_enc_get_key_size(td); if (key_len > max_key_length) { php_error_docref(NULL TSRMLS_CC, E_WARNING, "Size of key is too large for this algorithm"); } key_length_sizes = mcrypt_enc_get_supported_key_sizes(td, &count); if (count == 0 && key_length_sizes == NULL) { /* all lengths 1 - k_l_s = OK */ use_key_length = key_len; key_s = emalloc(use_key_length); memset(key_s, 0, use_key_length); memcpy(key_s, key, use_key_length); } else if (count == 1) { /* only m_k_l = OK */ key_s = emalloc(key_length_sizes[0]); memset(key_s, 0, key_length_sizes[0]); memcpy(key_s, key, MIN(key_len, key_length_sizes[0])); use_key_length = key_length_sizes[0]; } else { /* dertermine smallest supported key > length of requested key */ use_key_length = max_key_length; /* start with max key length */ for (i = 0; i < count; i++) { if (key_length_sizes[i] >= key_len && key_length_sizes[i] < use_key_length) { use_key_length = key_length_sizes[i]; } } key_s = emalloc(use_key_length); memset(key_s, 0, use_key_length); memcpy(key_s, key, MIN(key_len, use_key_length)); } mcrypt_free (key_length_sizes); /* Check IV */ iv_s = NULL; iv_size = mcrypt_enc_get_iv_size (td); /* IV is required */ if (mcrypt_enc_mode_has_iv(td) == 1) { if (argc == 5) { if (iv_size != iv_len) { php_error_docref(NULL TSRMLS_CC, E_WARNING, MCRYPT_IV_WRONG_SIZE); } else { iv_s = emalloc(iv_size + 1); memcpy(iv_s, iv, iv_size); } } else if (argc == 4) { php_error_docref(NULL TSRMLS_CC, E_WARNING, "Attempt to use an empty IV, which is NOT recommend"); iv_s = emalloc(iv_size + 1); memset(iv_s, 0, iv_size + 1); } } /* Check blocksize */ if (mcrypt_enc_is_block_mode(td) == 1) { /* It's a block algorithm */ block_size = mcrypt_enc_get_block_size(td); data_size = (((data_len - 1) / block_size) + 1) * block_size; data_s = emalloc(data_size); memset(data_s, 0, data_size); memcpy(data_s, data, data_len); } else { /* It's not a block algorithm */ data_size = data_len; data_s = emalloc(data_size); memset(data_s, 0, data_size); memcpy(data_s, data, data_len); } if (mcrypt_generic_init(td, key_s, use_key_length, iv_s) < 0) { php_error_docref(NULL TSRMLS_CC, E_RECOVERABLE_ERROR, "Mcrypt initialisation failed"); RETURN_FALSE; } if (dencrypt == MCRYPT_ENCRYPT) { mcrypt_generic(td, data_s, data_size); } else { mdecrypt_generic(td, data_s, data_size); } RETVAL_STRINGL(data_s, data_size, 1); /* freeing vars */ mcrypt_generic_end(td); if (key_s != NULL) { efree (key_s); } if (iv_s != NULL) { efree (iv_s); } efree (data_s); } /* }}} */ /* {{{ proto string mcrypt_encrypt(string cipher, string key, string data, string mode, string iv) OFB crypt/decrypt data using key key with cipher cipher starting with iv */ PHP_FUNCTION(mcrypt_encrypt) { zval **mode; char *cipher, *key, *data, *iv = NULL; int cipher_len, key_len, data_len, iv_len = 0; MCRYPT_GET_CRYPT_ARGS convert_to_string_ex(mode); php_mcrypt_do_crypt(cipher, key, key_len, data, data_len, Z_STRVAL_PP(mode), iv, iv_len, ZEND_NUM_ARGS(), MCRYPT_ENCRYPT, return_value TSRMLS_CC); } /* }}} */ /* {{{ proto string mcrypt_decrypt(string cipher, string key, string data, string mode, string iv) OFB crypt/decrypt data using key key with cipher cipher starting with iv */ PHP_FUNCTION(mcrypt_decrypt) { zval **mode; char *cipher, *key, *data, *iv = NULL; int cipher_len, key_len, data_len, iv_len = 0; MCRYPT_GET_CRYPT_ARGS convert_to_string_ex(mode); php_mcrypt_do_crypt(cipher, key, key_len, data, data_len, Z_STRVAL_PP(mode), iv, iv_len, ZEND_NUM_ARGS(), MCRYPT_DECRYPT, return_value TSRMLS_CC); } /* }}} */ /* {{{ proto string mcrypt_ecb(int cipher, string key, string data, int mode, string iv) ECB crypt/decrypt data using key key with cipher cipher starting with iv */ PHP_FUNCTION(mcrypt_ecb) { zval **mode; char *cipher, *key, *data, *iv = NULL; int cipher_len, key_len, data_len, iv_len = 0; MCRYPT_GET_CRYPT_ARGS convert_to_long_ex(mode); php_mcrypt_do_crypt(cipher, key, key_len, data, data_len, "ecb", iv, iv_len, ZEND_NUM_ARGS(), Z_LVAL_PP(mode), return_value TSRMLS_CC); } /* }}} */ /* {{{ proto string mcrypt_cbc(int cipher, string key, string data, int mode, string iv) CBC crypt/decrypt data using key key with cipher cipher starting with iv */ PHP_FUNCTION(mcrypt_cbc) { zval **mode; char *cipher, *key, *data, *iv = NULL; int cipher_len, key_len, data_len, iv_len = 0; MCRYPT_GET_CRYPT_ARGS convert_to_long_ex(mode); php_mcrypt_do_crypt(cipher, key, key_len, data, data_len, "cbc", iv, iv_len, ZEND_NUM_ARGS(), Z_LVAL_PP(mode), return_value TSRMLS_CC); } /* }}} */ /* {{{ proto string mcrypt_cfb(int cipher, string key, string data, int mode, string iv) CFB crypt/decrypt data using key key with cipher cipher starting with iv */ PHP_FUNCTION(mcrypt_cfb) { zval **mode; char *cipher, *key, *data, *iv = NULL; int cipher_len, key_len, data_len, iv_len = 0; MCRYPT_GET_CRYPT_ARGS convert_to_long_ex(mode); php_mcrypt_do_crypt(cipher, key, key_len, data, data_len, "cfb", iv, iv_len, ZEND_NUM_ARGS(), Z_LVAL_PP(mode), return_value TSRMLS_CC); } /* }}} */ /* {{{ proto string mcrypt_ofb(int cipher, string key, string data, int mode, string iv) OFB crypt/decrypt data using key key with cipher cipher starting with iv */ PHP_FUNCTION(mcrypt_ofb) { zval **mode; char *cipher, *key, *data, *iv = NULL; int cipher_len, key_len, data_len, iv_len = 0; MCRYPT_GET_CRYPT_ARGS convert_to_long_ex(mode); php_mcrypt_do_crypt(cipher, key, key_len, data, data_len, "ofb", iv, iv_len, ZEND_NUM_ARGS(), Z_LVAL_PP(mode), return_value TSRMLS_CC); } /* }}} */ /* {{{ proto string mcrypt_create_iv(int size, int source) Create an initialization vector (IV) */ PHP_FUNCTION(mcrypt_create_iv) { char *iv; long source = RANDOM; long size; int n = 0; if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "l|l", &size, &source) == FAILURE) { return; } if (size <= 0 || size >= INT_MAX) { php_error_docref(NULL TSRMLS_CC, E_WARNING, "Cannot create an IV with a size of less than 1 or greater than %d", INT_MAX); RETURN_FALSE; } iv = ecalloc(size + 1, 1); if (source == RANDOM || source == URANDOM) { #if PHP_WIN32 /* random/urandom equivalent on Windows */ BYTE *iv_b = (BYTE *) iv; if (php_win32_get_random_bytes(iv_b, (size_t) size) == FAILURE){ efree(iv); php_error_docref(NULL TSRMLS_CC, E_WARNING, "Could not gather sufficient random data"); RETURN_FALSE; } n = size; #else int *fd = &MCG(fd[source]); size_t read_bytes = 0; if (*fd < 0) { *fd = open(source == RANDOM ? "/dev/random" : "/dev/urandom", O_RDONLY); if (*fd < 0) { efree(iv); php_error_docref(NULL TSRMLS_CC, E_WARNING, "Cannot open source device"); RETURN_FALSE; } } while (read_bytes < size) { n = read(*fd, iv + read_bytes, size - read_bytes); if (n < 0) { break; } read_bytes += n; } n = read_bytes; if (n < size) { efree(iv); php_error_docref(NULL TSRMLS_CC, E_WARNING, "Could not gather sufficient random data"); RETURN_FALSE; } #endif } else { n = size; while (size) { iv[--size] = (char) (255.0 * php_rand(TSRMLS_C) / RAND_MAX); } } RETURN_STRINGL(iv, n, 0); } /* }}} */ #endif /* * Local variables: * tab-width: 4 * c-basic-offset: 4 * End: * vim600: sw=4 ts=4 fdm=marker * vim<600: sw=4 ts=4 */