/* * Written by Solar Designer and placed in the public domain. * See crypt_blowfish.c for more information. * * contrib/pgcrypto/crypt-gensalt.c * * This file contains salt generation functions for the traditional and * other common crypt(3) algorithms, except for bcrypt which is defined * entirely in crypt_blowfish.c. * * Put bcrypt generator also here as crypt-blowfish.c * may not be compiled always. -- marko */ #include "postgres.h" #include "px-crypt.h" typedef unsigned int BF_word; static unsigned char _crypt_itoa64[64 + 1] = "./0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz"; char * _crypt_gensalt_traditional_rn(unsigned long count, const char *input, int size, char *output, int output_size) { if (size < 2 || output_size < 2 + 1 || (count && count != 25)) { if (output_size > 0) output[0] = '\0'; return NULL; } output[0] = _crypt_itoa64[(unsigned int) input[0] & 0x3f]; output[1] = _crypt_itoa64[(unsigned int) input[1] & 0x3f]; output[2] = '\0'; return output; } char * _crypt_gensalt_extended_rn(unsigned long count, const char *input, int size, char *output, int output_size) { unsigned long value; /* Even iteration counts make it easier to detect weak DES keys from a look * at the hash, so they should be avoided */ if (size < 3 || output_size < 1 + 4 + 4 + 1 || (count && (count > 0xffffff || !(count & 1)))) { if (output_size > 0) output[0] = '\0'; return NULL; } if (!count) count = 725; output[0] = '_'; output[1] = _crypt_itoa64[count & 0x3f]; output[2] = _crypt_itoa64[(count >> 6) & 0x3f]; output[3] = _crypt_itoa64[(count >> 12) & 0x3f]; output[4] = _crypt_itoa64[(count >> 18) & 0x3f]; value = (unsigned long) (unsigned char) input[0] | ((unsigned long) (unsigned char) input[1] << 8) | ((unsigned long) (unsigned char) input[2] << 16); output[5] = _crypt_itoa64[value & 0x3f]; output[6] = _crypt_itoa64[(value >> 6) & 0x3f]; output[7] = _crypt_itoa64[(value >> 12) & 0x3f]; output[8] = _crypt_itoa64[(value >> 18) & 0x3f]; output[9] = '\0'; return output; } char * _crypt_gensalt_md5_rn(unsigned long count, const char *input, int size, char *output, int output_size) { unsigned long value; if (size < 3 || output_size < 3 + 4 + 1 || (count && count != 1000)) { if (output_size > 0) output[0] = '\0'; return NULL; } output[0] = '$'; output[1] = '1'; output[2] = '$'; value = (unsigned long) (unsigned char) input[0] | ((unsigned long) (unsigned char) input[1] << 8) | ((unsigned long) (unsigned char) input[2] << 16); output[3] = _crypt_itoa64[value & 0x3f]; output[4] = _crypt_itoa64[(value >> 6) & 0x3f]; output[5] = _crypt_itoa64[(value >> 12) & 0x3f]; output[6] = _crypt_itoa64[(value >> 18) & 0x3f]; output[7] = '\0'; if (size >= 6 && output_size >= 3 + 4 + 4 + 1) { value = (unsigned long) (unsigned char) input[3] | ((unsigned long) (unsigned char) input[4] << 8) | ((unsigned long) (unsigned char) input[5] << 16); output[7] = _crypt_itoa64[value & 0x3f]; output[8] = _crypt_itoa64[(value >> 6) & 0x3f]; output[9] = _crypt_itoa64[(value >> 12) & 0x3f]; output[10] = _crypt_itoa64[(value >> 18) & 0x3f]; output[11] = '\0'; } return output; } static unsigned char BF_itoa64[64 + 1] = "./ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789"; static void BF_encode(char *dst, const BF_word *src, int size) { const unsigned char *sptr = (const unsigned char *) src; const unsigned char *end = sptr + size; unsigned char *dptr = (unsigned char *) dst; unsigned int c1, c2; do { c1 = *sptr++; *dptr++ = BF_itoa64[c1 >> 2]; c1 = (c1 & 0x03) << 4; if (sptr >= end) { *dptr++ = BF_itoa64[c1]; break; } c2 = *sptr++; c1 |= c2 >> 4; *dptr++ = BF_itoa64[c1]; c1 = (c2 & 0x0f) << 2; if (sptr >= end) { *dptr++ = BF_itoa64[c1]; break; } c2 = *sptr++; c1 |= c2 >> 6; *dptr++ = BF_itoa64[c1]; *dptr++ = BF_itoa64[c2 & 0x3f]; } while (sptr < end); } char * _crypt_gensalt_blowfish_rn(unsigned long count, const char *input, int size, char *output, int output_size) { if (size < 16 || output_size < 7 + 22 + 1 || (count && (count < 4 || count > 31))) { if (output_size > 0) output[0] = '\0'; return NULL; } if (!count) count = 5; output[0] = '$'; output[1] = '2'; output[2] = 'a'; output[3] = '$'; output[4] = '0' + count / 10; output[5] = '0' + count % 10; output[6] = '$'; BF_encode(&output[7], (const BF_word *) input, 16); output[7 + 22] = '\0'; return output; }