/* * Copyright (c) Edward Thomson. All rights reserved. * * This file is part of ntlmclient, distributed under the MIT license. * For full terms and copyright information, and for third-party * copyright information, see the included LICENSE.txt file. */ #include #include #include #include #include #include #include #include #include #include "ntlm.h" #include "unicode.h" #include "utf8.h" #include "crypt.h" #include "compat.h" #include "util.h" #define NTLM_ASSERT_ARG(expr) do { \ if (!(expr)) \ return NTLM_CLIENT_ERROR_INVALID_INPUT; \ } while(0) #define NTLM_ASSERT(ntlm, expr) do { \ if (!(expr)) { \ ntlm_client_set_errmsg(ntlm, "internal error: " #expr); \ return -1; \ } \ } while(0) unsigned char ntlm_client_signature[] = NTLM_SIGNATURE; static bool supports_unicode(ntlm_client *ntlm) { return (ntlm->flags & NTLM_CLIENT_DISABLE_UNICODE) ? false : true; } static inline bool increment_size(size_t *out, size_t incr) { if (SIZE_MAX - *out < incr) { *out = (size_t)-1; return false; } *out = *out + incr; return true; } ntlm_client *ntlm_client_init(ntlm_client_flags flags) { ntlm_client *ntlm = NULL; if ((ntlm = calloc(1, sizeof(ntlm_client))) == NULL) return NULL; ntlm->flags = flags; return ntlm; } #define ENSURE_INITIALIZED(ntlm) \ do { \ if (!(ntlm)->unicode_initialized) \ (ntlm)->unicode_initialized = ntlm_unicode_init((ntlm)); \ if (!(ntlm)->crypt_initialized) \ (ntlm)->crypt_initialized = ntlm_crypt_init((ntlm)); \ if (!(ntlm)->unicode_initialized || \ !(ntlm)->crypt_initialized) \ return -1; \ } while(0) void ntlm_client_set_errmsg(ntlm_client *ntlm, const char *errmsg) { ntlm->state = NTLM_STATE_ERROR; ntlm->errmsg = errmsg; } const char *ntlm_client_errmsg(ntlm_client *ntlm) { if (!ntlm) return "internal error"; return ntlm->errmsg ? ntlm->errmsg : "no error"; } int ntlm_client_set_version( ntlm_client *ntlm, uint8_t major, uint8_t minor, uint16_t build) { NTLM_ASSERT_ARG(ntlm); ntlm->host_version.major = major; ntlm->host_version.minor = minor; ntlm->host_version.build = build; ntlm->host_version.reserved = 0x0f000000; ntlm->flags |= NTLM_ENABLE_HOSTVERSION; return 0; } #define reset(ptr) do { free(ptr); ptr = NULL; } while(0) static void free_hostname(ntlm_client *ntlm) { reset(ntlm->hostname); reset(ntlm->hostdomain); reset(ntlm->hostname_utf16); ntlm->hostname_utf16_len = 0; } int ntlm_client_set_hostname( ntlm_client *ntlm, const char *hostname, const char *domain) { NTLM_ASSERT_ARG(ntlm); ENSURE_INITIALIZED(ntlm); free_hostname(ntlm); if (hostname && (ntlm->hostname = strdup(hostname)) == NULL) { ntlm_client_set_errmsg(ntlm, "out of memory"); return -1; } if (domain && (ntlm->hostdomain = strdup(domain)) == NULL) { ntlm_client_set_errmsg(ntlm, "out of memory"); return -1; } if (hostname && supports_unicode(ntlm) && !ntlm_unicode_utf8_to_16( &ntlm->hostname_utf16, &ntlm->hostname_utf16_len, ntlm, hostname, strlen(hostname))) return -1; return 0; } static void free_credentials(ntlm_client *ntlm) { if (ntlm->password) ntlm_memzero(ntlm->password, strlen(ntlm->password)); if (ntlm->password_utf16) ntlm_memzero(ntlm->password_utf16, ntlm->password_utf16_len); reset(ntlm->username); reset(ntlm->username_upper); reset(ntlm->userdomain); reset(ntlm->password); reset(ntlm->username_utf16); reset(ntlm->username_upper_utf16); reset(ntlm->userdomain_utf16); reset(ntlm->password_utf16); ntlm->username_utf16_len = 0; ntlm->username_upper_utf16_len = 0; ntlm->userdomain_utf16_len = 0; ntlm->password_utf16_len = 0; } int ntlm_client_set_credentials( ntlm_client *ntlm, const char *username, const char *domain, const char *password) { NTLM_ASSERT_ARG(ntlm); ENSURE_INITIALIZED(ntlm); free_credentials(ntlm); if ((username && (ntlm->username = strdup(username)) == NULL) || (domain && (ntlm->userdomain = strdup(domain)) == NULL) || (password && (ntlm->password = strdup(password)) == NULL)) { ntlm_client_set_errmsg(ntlm, "out of memory"); return -1; } if (username && supports_unicode(ntlm)) { if ((ntlm->username_upper = strdup(username)) == NULL) { ntlm_client_set_errmsg(ntlm, "out of memory"); return -1; } utf8upr(ntlm->username_upper); if (!ntlm_unicode_utf8_to_16( &ntlm->username_utf16, &ntlm->username_utf16_len, ntlm, ntlm->username, strlen(ntlm->username))) return -1; if (!ntlm_unicode_utf8_to_16( &ntlm->username_upper_utf16, &ntlm->username_upper_utf16_len, ntlm, ntlm->username_upper, strlen(ntlm->username_upper))) return -1; } if (domain && supports_unicode(ntlm) && !ntlm_unicode_utf8_to_16( &ntlm->userdomain_utf16, &ntlm->userdomain_utf16_len, ntlm, ntlm->userdomain, strlen(ntlm->userdomain))) return -1; return 0; } int ntlm_client_set_target(ntlm_client *ntlm, const char *target) { NTLM_ASSERT_ARG(ntlm); ENSURE_INITIALIZED(ntlm); free(ntlm->target); free(ntlm->target_utf16); ntlm->target = NULL; ntlm->target_utf16 = NULL; if (target) { if ((ntlm->target = strdup(target)) == NULL) { ntlm_client_set_errmsg(ntlm, "out of memory"); return -1; } if (supports_unicode(ntlm) && !ntlm_unicode_utf8_to_16( &ntlm->target_utf16, &ntlm->target_utf16_len, ntlm, ntlm->target, strlen(ntlm->target))) return -1; } return 0; } int ntlm_client_set_nonce(ntlm_client *ntlm, uint64_t nonce) { NTLM_ASSERT_ARG(ntlm); ntlm->nonce = nonce; return 0; } int ntlm_client_set_timestamp(ntlm_client *ntlm, uint64_t timestamp) { NTLM_ASSERT_ARG(ntlm); ntlm->timestamp = timestamp; return 0; } static inline bool write_buf( ntlm_client *ntlm, ntlm_buf *out, const unsigned char *buf, size_t len) { if (!len) return true; if (out->len - out->pos < len) { ntlm_client_set_errmsg(ntlm, "out of buffer space"); return false; } memcpy(&out->buf[out->pos], buf, len); out->pos += len; return true; } static inline bool write_byte( ntlm_client *ntlm, ntlm_buf *out, uint8_t value) { if (out->len - out->pos < 1) { ntlm_client_set_errmsg(ntlm, "out of buffer space"); return false; } out->buf[out->pos++] = value; return true; } static inline bool write_int16( ntlm_client *ntlm, ntlm_buf *out, uint16_t value) { if (out->len - out->pos < 2) { ntlm_client_set_errmsg(ntlm, "out of buffer space"); return false; } out->buf[out->pos++] = (value & 0x000000ff); out->buf[out->pos++] = (value & 0x0000ff00) >> 8; return true; } static inline bool write_int32( ntlm_client *ntlm, ntlm_buf *out, uint32_t value) { if (out->len - out->pos < 2) { ntlm_client_set_errmsg(ntlm, "out of buffer space"); return false; } out->buf[out->pos++] = (value & 0x000000ff); out->buf[out->pos++] = (value & 0x0000ff00) >> 8; out->buf[out->pos++] = (value & 0x00ff0000) >> 16; out->buf[out->pos++] = (value & 0xff000000) >> 24; return true; } static inline bool write_version( ntlm_client *ntlm, ntlm_buf *out, ntlm_version *version) { return write_byte(ntlm, out, version->major) && write_byte(ntlm, out, version->minor) && write_int16(ntlm, out, version->build) && write_int32(ntlm, out, version->reserved); } static inline bool write_bufinfo( ntlm_client *ntlm, ntlm_buf *out, size_t len, size_t offset) { if (len > UINT16_MAX) { ntlm_client_set_errmsg(ntlm, "invalid string, too long"); return false; } if (offset > UINT32_MAX) { ntlm_client_set_errmsg(ntlm, "invalid string, invalid offset"); return false; } return write_int16(ntlm, out, (uint16_t)len) && write_int16(ntlm, out, (uint16_t)len) && write_int32(ntlm, out, (uint32_t)offset); } static inline bool read_buf( unsigned char *out, ntlm_client *ntlm, ntlm_buf *message, size_t len) { if (message->len - message->pos < len) { ntlm_client_set_errmsg(ntlm, "truncated message"); return false; } memcpy(out, &message->buf[message->pos], len); message->pos += len; return true; } static inline bool read_byte( uint8_t *out, ntlm_client *ntlm, ntlm_buf *message) { if (message->len - message->pos < 1) { ntlm_client_set_errmsg(ntlm, "truncated message"); return false; } *out = message->buf[message->pos++]; return true; } static inline bool read_int16( uint16_t *out, ntlm_client *ntlm, ntlm_buf *message) { if (message->len - message->pos < 2) { ntlm_client_set_errmsg(ntlm, "truncated message"); return false; } *out = ((message->buf[message->pos] & 0xff)) | ((message->buf[message->pos+1] & 0xff) << 8); message->pos += 2; return true; } static inline bool read_int32( uint32_t *out, ntlm_client *ntlm, ntlm_buf *message) { if (message->len - message->pos < 4) { ntlm_client_set_errmsg(ntlm, "truncated message"); return false; } *out = ((message->buf[message->pos] & 0xff)) | ((message->buf[message->pos+1] & 0xff) << 8) | ((message->buf[message->pos+2] & 0xff) << 16) | ((message->buf[message->pos+3] & 0xff) << 24); message->pos += 4; return true; } static inline bool read_int64( uint64_t *out, ntlm_client *ntlm, ntlm_buf *message) { if (message->len - message->pos < 8) { ntlm_client_set_errmsg(ntlm, "truncated message"); return false; } *out = ((uint64_t)(message->buf[message->pos] & 0xff)) | ((uint64_t)(message->buf[message->pos+1] & 0xff) << 8) | ((uint64_t)(message->buf[message->pos+2] & 0xff) << 16) | ((uint64_t)(message->buf[message->pos+3] & 0xff) << 24) | ((uint64_t)(message->buf[message->pos+4] & 0xff) << 32) | ((uint64_t)(message->buf[message->pos+5] & 0xff) << 40) | ((uint64_t)(message->buf[message->pos+6] & 0xff) << 48) | ((uint64_t)(message->buf[message->pos+7] & 0xff) << 56); message->pos += 8; return true; } static inline bool read_version( ntlm_version *out, ntlm_client *ntlm, ntlm_buf *message) { return read_byte(&out->major, ntlm, message) && read_byte(&out->minor, ntlm, message) && read_int16(&out->build, ntlm, message) && read_int32(&out->reserved, ntlm, message); } static inline bool read_bufinfo( uint16_t *out_len, uint32_t *out_offset, ntlm_client *ntlm, ntlm_buf *message) { uint16_t allocated; return read_int16(out_len, ntlm, message) && read_int16(&allocated, ntlm, message) && read_int32(out_offset, ntlm, message); } static inline bool read_string_unicode( char **out, ntlm_client *ntlm, ntlm_buf *message, uint8_t string_len) { size_t out_len; int ret = ntlm_unicode_utf16_to_8(out, &out_len, ntlm, (char *)&message->buf[message->pos], string_len); message->pos += string_len; return ret; } static inline bool read_string_ascii( char **out, ntlm_client *ntlm, ntlm_buf *message, uint8_t string_len) { char *str; if ((str = malloc(string_len + 1)) == NULL) { ntlm_client_set_errmsg(ntlm, "out of memory"); return false; } memcpy(str, &message->buf[message->pos], string_len); str[string_len] = '\0'; message->pos += string_len; *out = str; return true; } static inline bool read_string( char **out, ntlm_client *ntlm, ntlm_buf *message, uint8_t string_len, bool unicode) { if (unicode) return read_string_unicode(out, ntlm, message, string_len); else return read_string_ascii(out, ntlm, message, string_len); } static inline bool read_target_info( char **server_out, char **domain_out, char **server_dns_out, char **domain_dns_out, ntlm_client *ntlm, ntlm_buf *message, bool unicode) { uint16_t block_type, block_len; bool done = false; *server_out = NULL; *domain_out = NULL; *server_dns_out = NULL; *domain_dns_out = NULL; while (!done && (message->len - message->pos) >= 4) { if (!read_int16(&block_type, ntlm, message) || !read_int16(&block_len, ntlm, message)) { ntlm_client_set_errmsg(ntlm, "truncated target info block"); return false; } if (!block_type && block_len) { ntlm_client_set_errmsg(ntlm, "invalid target info block"); return -1; } switch (block_type) { case NTLM_TARGET_INFO_DOMAIN: if (!read_string(domain_out, ntlm, message, block_len, unicode)) return -1; break; case NTLM_TARGET_INFO_SERVER: if (!read_string(server_out, ntlm, message, block_len, unicode)) return -1; break; case NTLM_TARGET_INFO_DOMAIN_DNS: if (!read_string(domain_dns_out, ntlm, message, block_len, unicode)) return -1; break; case NTLM_TARGET_INFO_SERVER_DNS: if (!read_string(server_dns_out, ntlm, message, block_len, unicode)) return -1; break; case NTLM_TARGET_INFO_END: done = true; break; default: ntlm_client_set_errmsg(ntlm, "unknown target info block type"); return -1; } } if (message->len != message->pos) { ntlm_client_set_errmsg(ntlm, "invalid extra data in target info section"); return false; } return true; } int ntlm_client_negotiate( const unsigned char **out, size_t *out_len, ntlm_client *ntlm) { size_t hostname_len, domain_len; size_t domain_offset = 0; size_t hostname_offset = 0; uint32_t flags = 0; NTLM_ASSERT_ARG(out); NTLM_ASSERT_ARG(out_len); NTLM_ASSERT_ARG(ntlm); *out = NULL; *out_len = 0; if (ntlm->state != NTLM_STATE_NEGOTIATE) { ntlm_client_set_errmsg(ntlm, "ntlm handle in invalid state"); return -1; } flags |= NTLM_NEGOTIATE_OEM; if (supports_unicode(ntlm)) flags |= NTLM_NEGOTIATE_UNICODE; if (!(ntlm->flags & NTLM_CLIENT_DISABLE_NTLM2) || (ntlm->flags & NTLM_CLIENT_ENABLE_NTLM)) flags |= NTLM_NEGOTIATE_NTLM; if (!(ntlm->flags & NTLM_CLIENT_DISABLE_REQUEST_TARGET)) flags |= NTLM_NEGOTIATE_REQUEST_TARGET; hostname_len = ntlm->hostname ? strlen(ntlm->hostname) : 0; domain_len = ntlm->hostdomain ? strlen(ntlm->hostdomain) : 0; /* Minimum header size */ ntlm->negotiate.len = 16; /* Include space for security buffer descriptors */ if (domain_len) increment_size(&ntlm->negotiate.len, 8); if (hostname_len) increment_size(&ntlm->negotiate.len, 8); if (ntlm->flags & NTLM_ENABLE_HOSTVERSION) increment_size(&ntlm->negotiate.len, 8); /* Location of security buffers */ if (hostname_len) { flags |= NTLM_NEGOTIATE_WORKSTATION_SUPPLIED; hostname_offset = ntlm->negotiate.len; increment_size(&ntlm->negotiate.len, hostname_len); } if (domain_len) { flags |= NTLM_NEGOTIATE_DOMAIN_SUPPLIED; domain_offset = ntlm->negotiate.len; increment_size(&ntlm->negotiate.len, domain_len); } if (ntlm->negotiate.len == (size_t)-1) { ntlm_client_set_errmsg(ntlm, "message too large"); return -1; } if ((ntlm->negotiate.buf = calloc(1, ntlm->negotiate.len)) == NULL) { ntlm_client_set_errmsg(ntlm, "out of memory"); return -1; } if (!write_buf(ntlm, &ntlm->negotiate, ntlm_client_signature, sizeof(ntlm_client_signature)) || !write_int32(ntlm, &ntlm->negotiate, 1) || !write_int32(ntlm, &ntlm->negotiate, flags)) return -1; /* Domain information */ if (domain_len > 0 && !write_bufinfo(ntlm, &ntlm->negotiate, domain_len, domain_offset)) return -1; /* Workstation information */ if (hostname_len > 0 && !write_bufinfo(ntlm, &ntlm->negotiate, hostname_len, hostname_offset)) return -1; /* Version number */ if (!!(ntlm->flags & NTLM_ENABLE_HOSTVERSION) && !write_version(ntlm, &ntlm->negotiate, &ntlm->host_version)) return -1; if (hostname_len > 0) { NTLM_ASSERT(ntlm, hostname_offset == ntlm->negotiate.pos); if (!write_buf(ntlm, &ntlm->negotiate, (const unsigned char *)ntlm->hostname, hostname_len)) return -1; } if (domain_len > 0) { NTLM_ASSERT(ntlm, domain_offset == ntlm->negotiate.pos); if (!write_buf(ntlm, &ntlm->negotiate, (const unsigned char *)ntlm->hostdomain, domain_len)) return -1; } NTLM_ASSERT(ntlm, ntlm->negotiate.pos == ntlm->negotiate.len); ntlm->state = NTLM_STATE_CHALLENGE; *out = ntlm->negotiate.buf; *out_len = ntlm->negotiate.len; return 0; } int ntlm_client_set_challenge( ntlm_client *ntlm, const unsigned char *challenge_msg, size_t challenge_msg_len) { unsigned char signature[8]; ntlm_buf challenge; uint32_t type_indicator, header_end; uint16_t name_len, info_len = 0; uint32_t name_offset, info_offset = 0; bool unicode, has_target_info = false; NTLM_ASSERT_ARG(ntlm); NTLM_ASSERT_ARG(challenge_msg || !challenge_msg_len); ENSURE_INITIALIZED(ntlm); if (ntlm->state != NTLM_STATE_NEGOTIATE && ntlm->state != NTLM_STATE_CHALLENGE) { ntlm_client_set_errmsg(ntlm, "ntlm handle in invalid state"); return -1; } challenge.buf = (unsigned char *)challenge_msg; challenge.len = challenge_msg_len; challenge.pos = 0; if (!read_buf(signature, ntlm, &challenge, 8) || !read_int32(&type_indicator, ntlm, &challenge) || !read_bufinfo(&name_len, &name_offset, ntlm, &challenge) || !read_int32(&ntlm->challenge.flags, ntlm, &challenge) || !read_int64(&ntlm->challenge.nonce, ntlm, &challenge)) return -1; if (memcmp(signature, ntlm_client_signature, sizeof(ntlm_client_signature)) != 0) { ntlm_client_set_errmsg(ntlm, "invalid message signature"); return -1; } if (type_indicator != 2) { ntlm_client_set_errmsg(ntlm, "invalid message indicator"); return -1; } /* * If there's additional space before the data section, that's the * target information description section. */ header_end = challenge.len; if (name_offset && name_offset < header_end) header_end = name_offset; if ((header_end - challenge.pos) >= 16) { has_target_info = true; } if (!has_target_info && (ntlm->challenge.flags & NTLM_NEGOTIATE_TARGET_INFO)) { ntlm_client_set_errmsg(ntlm, "truncated message; expected target info"); return -1; } /* * If there's a target info section then advanced over the reserved * space and read the target information. */ if (has_target_info) { uint64_t reserved; if (!read_int64(&reserved, ntlm, &challenge)) { ntlm_client_set_errmsg(ntlm, "truncated message; expected reserved space"); return -1; } if (reserved != 0) { ntlm_client_set_errmsg(ntlm, "invalid message; expected reserved space to be empty"); return -1; } if (!read_bufinfo(&info_len, &info_offset, ntlm, &challenge)) { ntlm_client_set_errmsg(ntlm, "truncated message; expected target info"); return -1; } } unicode = !!(ntlm->challenge.flags & NTLM_NEGOTIATE_UNICODE); /* * If there's still additional space before the data section, * that's the server's version information. */ if (info_offset && info_offset < header_end) header_end = info_offset; if (ntlm->challenge.flags & NTLM_NEGOTIATE_VERSION) { if ((header_end - challenge.pos) != sizeof(ntlm_version) || !read_version(&ntlm->challenge.target_version, ntlm, &challenge)) { ntlm_client_set_errmsg(ntlm, "truncated message; expected version"); return -1; } } /* validate data section */ if ((name_offset && name_offset < challenge.pos) || challenge.len < name_len || (challenge.len - name_len) < name_offset) { ntlm_client_set_errmsg(ntlm, "invalid message; invalid target name buffer"); return -1; } if ((info_offset && info_offset < challenge.pos) || challenge.len < info_len || (challenge.len - info_len) < info_offset) { ntlm_client_set_errmsg(ntlm, "invalid message; invalid target info buffer"); return -1; } /* advance to the data section */ if (name_len && name_offset) { challenge.pos = name_offset; if (!read_string(&ntlm->challenge.target, ntlm, &challenge, name_len, unicode)) { ntlm_client_set_errmsg(ntlm, "truncated message; truncated target name"); return -1; } } if (info_len && info_offset) { ntlm_buf info_buf; challenge.pos = info_offset; /* create a copy of the target info; we need the literal data */ if ((ntlm->challenge.target_info = malloc(info_len)) == NULL) { ntlm_client_set_errmsg(ntlm, "out of memory"); return -1; } if (!read_buf(ntlm->challenge.target_info, ntlm, &challenge, info_len)) { ntlm_client_set_errmsg(ntlm, "truncated message; truncated target info"); return -1; } info_buf.buf = ntlm->challenge.target_info; info_buf.pos = 0; info_buf.len = info_len; /* then set up the target info and parse it */ if (!read_target_info(&ntlm->challenge.target_server, &ntlm->challenge.target_domain, &ntlm->challenge.target_server_dns, &ntlm->challenge.target_domain_dns, ntlm, &info_buf, unicode)) return -1; ntlm->challenge.target_info_len = info_len; } ntlm->state = NTLM_STATE_RESPONSE; return 0; } uint64_t ntlm_client_challenge_nonce(ntlm_client *ntlm) { return ntlm->challenge.nonce; } const char *ntlm_client_target(ntlm_client *ntlm) { return ntlm->challenge.target; } const char *ntlm_client_target_server(ntlm_client *ntlm) { return ntlm->challenge.target_server; } const char *ntlm_client_target_domain(ntlm_client *ntlm) { return ntlm->challenge.target_domain; } const char *ntlm_client_target_server_dns(ntlm_client *ntlm) { return ntlm->challenge.target_server_dns; } const char *ntlm_client_target_domain_dns(ntlm_client *ntlm) { return ntlm->challenge.target_domain_dns; } #define EVEN_PARITY(a) \ (!!((a) & 0x01ll) ^ !!((a) & 0x02ll) ^ \ !!((a) & 0x04ll) ^ !!((a) & 0x08ll) ^ \ !!((a) & 0x10ll) ^ !!((a) & 0x20ll) ^ \ !!((a) & 0x40ll) ^ !!((a) & 0x80ll)) static void generate_odd_parity(ntlm_des_block *block) { size_t i; for (i = 0; i < sizeof(ntlm_des_block); i++) (*block)[i] |= (1 ^ EVEN_PARITY((*block)[i])); } static void des_key_from_password( ntlm_des_block *out, const unsigned char *plaintext, size_t plaintext_len) { size_t i; plaintext_len = MIN(plaintext_len, 7); memset(*out, 0, sizeof(ntlm_des_block)); for (i = 0; i < plaintext_len; i++) { size_t j = (7 - i); uint8_t mask = (0xff >> j); (*out)[i] |= ((plaintext[i] & (0xff - mask)) >> i); (*out)[i+1] |= ((plaintext[i] & mask) << j); } generate_odd_parity(out); } static inline bool generate_lm_hash( ntlm_des_block out[2], ntlm_client *ntlm, const char *password) { /* LM encrypts this known plaintext using the password as a key */ ntlm_des_block plaintext = NTLM_LM_PLAINTEXT; ntlm_des_block keystr1, keystr2; size_t keystr1_len, keystr2_len; ntlm_des_block key1, key2; size_t password_len, i; /* Copy the first 14 characters of the password, uppercased */ memset(&keystr1, 0, sizeof(keystr1)); memset(&keystr2, 0, sizeof(keystr2)); password_len = password ? strlen(password) : 0; /* Split the password into two 7 byte chunks */ keystr1_len = MIN(7, password_len); keystr2_len = (password_len > 7) ? MIN(14, password_len) - 7 : 0; for (i = 0; i < keystr1_len; i++) keystr1[i] = (unsigned char)toupper(password[i]); for (i = 0; i < keystr2_len; i++) keystr2[i] = (unsigned char)toupper(password[i+7]); /* DES encrypt the LM constant using the password as the key */ des_key_from_password(&key1, keystr1, keystr1_len); des_key_from_password(&key2, keystr2, keystr2_len); return ntlm_des_encrypt(&out[0], ntlm, &plaintext, &key1) && ntlm_des_encrypt(&out[1], ntlm, &plaintext, &key2); } static void des_keys_from_lm_hash(ntlm_des_block out[3], ntlm_des_block lm_hash[2]) { ntlm_des_block split[3]; memcpy(&split[0][0], &lm_hash[0][0], 7); memcpy(&split[1][0], &lm_hash[0][7], 1); memcpy(&split[1][1], &lm_hash[1][0], 6); memcpy(&split[2][0], &lm_hash[1][6], 2); des_key_from_password(&out[0], split[0], 7); des_key_from_password(&out[1], split[1], 7); des_key_from_password(&out[2], split[2], 2); } static bool generate_lm_response(ntlm_client *ntlm) { ntlm_des_block lm_hash[2], key[3], lm_response[3]; ntlm_des_block *challenge = (ntlm_des_block *)&ntlm->challenge.nonce; /* Generate the LM hash from the password */ if (!generate_lm_hash(lm_hash, ntlm, ntlm->password)) return false; /* Convert that LM hash to three DES keys */ des_keys_from_lm_hash(key, lm_hash); /* Finally, encrypt the challenge with each of these keys */ if (!ntlm_des_encrypt(&lm_response[0], ntlm, challenge, &key[0]) || !ntlm_des_encrypt(&lm_response[1], ntlm, challenge, &key[1]) || !ntlm_des_encrypt(&lm_response[2], ntlm, challenge, &key[2])) return false; memcpy(&ntlm->lm_response[0], lm_response[0], 8); memcpy(&ntlm->lm_response[8], lm_response[1], 8); memcpy(&ntlm->lm_response[16], lm_response[2], 8); ntlm->lm_response_len = sizeof(ntlm->lm_response); return true; } static bool generate_ntlm_hash( unsigned char out[NTLM_NTLM_HASH_LEN], ntlm_client *ntlm) { /* Generate the LM hash from the (Unicode) password */ if (ntlm->password && !ntlm_unicode_utf8_to_16( &ntlm->password_utf16, &ntlm->password_utf16_len, ntlm, ntlm->password, strlen(ntlm->password))) return false; return ntlm_md4_digest(out, ntlm, (const unsigned char *)ntlm->password_utf16, ntlm->password_utf16_len); } static bool generate_ntlm_response(ntlm_client *ntlm) { unsigned char ntlm_hash[NTLM_NTLM_HASH_LEN] = {0}; ntlm_des_block key[3], ntlm_response[3]; ntlm_des_block *challenge = (ntlm_des_block *)&ntlm->challenge.nonce; if (!generate_ntlm_hash(ntlm_hash, ntlm)) return false; /* Convert that LM hash to three DES keys */ des_key_from_password(&key[0], &ntlm_hash[0], 7); des_key_from_password(&key[1], &ntlm_hash[7], 7); des_key_from_password(&key[2], &ntlm_hash[14], 2); /* Finally, encrypt the challenge with each of these keys */ if (!ntlm_des_encrypt(&ntlm_response[0], ntlm, challenge, &key[0]) || !ntlm_des_encrypt(&ntlm_response[1], ntlm, challenge, &key[1]) || !ntlm_des_encrypt(&ntlm_response[2], ntlm, challenge, &key[2])) return false; memcpy(&ntlm->ntlm_response[0], ntlm_response[0], 8); memcpy(&ntlm->ntlm_response[8], ntlm_response[1], 8); memcpy(&ntlm->ntlm_response[16], ntlm_response[2], 8); ntlm->ntlm_response_len = sizeof(ntlm->ntlm_response); return true; } static bool generate_ntlm2_hash( unsigned char out[NTLM_NTLM2_HASH_LEN], ntlm_client *ntlm) { unsigned char ntlm_hash[NTLM_NTLM_HASH_LEN] = {0}; const unsigned char *username = NULL, *target = NULL; size_t username_len = 0, target_len = 0, out_len = NTLM_NTLM2_HASH_LEN; if (!generate_ntlm_hash(ntlm_hash, ntlm)) return false; if (ntlm->username_upper_utf16) { username = (const unsigned char *)ntlm->username_upper_utf16; username_len = ntlm->username_upper_utf16_len; } if (ntlm->target_utf16) { target = (const unsigned char *)ntlm->target_utf16; target_len = ntlm->target_utf16_len; } if (!ntlm_hmac_md5_init(ntlm, ntlm_hash, sizeof(ntlm_hash)) || !ntlm_hmac_md5_update(ntlm, username, username_len) || !ntlm_hmac_md5_update(ntlm, target, target_len) || !ntlm_hmac_md5_final(out, &out_len, ntlm)) { ntlm_client_set_errmsg(ntlm, "failed to create HMAC-MD5"); return false; } NTLM_ASSERT(ntlm, out_len == NTLM_NTLM2_HASH_LEN); return true; } static bool generate_ntlm2_challengehash( unsigned char out[16], ntlm_client *ntlm, unsigned char ntlm2_hash[NTLM_NTLM2_HASH_LEN], const unsigned char *blob, size_t blob_len) { size_t out_len = 16; if (!ntlm_hmac_md5_init(ntlm, ntlm2_hash, NTLM_NTLM2_HASH_LEN) || !ntlm_hmac_md5_update(ntlm, (const unsigned char *)&ntlm->challenge.nonce, 8) || !ntlm_hmac_md5_update(ntlm, blob, blob_len) || !ntlm_hmac_md5_final(out, &out_len, ntlm)) { ntlm_client_set_errmsg(ntlm, "failed to create HMAC-MD5"); return false; } NTLM_ASSERT(ntlm, out_len == 16); return true; } static bool generate_lm2_response(ntlm_client *ntlm, unsigned char ntlm2_hash[NTLM_NTLM2_HASH_LEN]) { unsigned char lm2_challengehash[16] = {0}; size_t lm2_len = 16; uint64_t local_nonce; local_nonce = ntlm_htonll(ntlm->nonce); if (!ntlm_hmac_md5_init(ntlm, ntlm2_hash, NTLM_NTLM2_HASH_LEN) || !ntlm_hmac_md5_update(ntlm, (const unsigned char *)&ntlm->challenge.nonce, 8) || !ntlm_hmac_md5_update(ntlm, (const unsigned char *)&local_nonce, 8) || !ntlm_hmac_md5_final(lm2_challengehash, &lm2_len, ntlm)) { ntlm_client_set_errmsg(ntlm, "failed to create HMAC-MD5"); return false; } NTLM_ASSERT(ntlm, lm2_len == 16); memcpy(&ntlm->lm_response[0], lm2_challengehash, 16); memcpy(&ntlm->lm_response[16], &local_nonce, 8); ntlm->lm_response_len = 24; return true; } static bool generate_timestamp(ntlm_client *ntlm) { if (!ntlm->timestamp) ntlm->timestamp = (time(NULL) + 11644473600) * 10000000; return true; } static bool generate_nonce(ntlm_client *ntlm) { unsigned char buf[8]; if (ntlm->nonce) return true; if (!ntlm_random_bytes(buf, ntlm, 8)) return false; memcpy(&ntlm->nonce, buf, sizeof(uint64_t)); return true; } static bool generate_ntlm2_response(ntlm_client *ntlm) { size_t blob_len, ntlm2_response_len; uint32_t signature; uint64_t timestamp, nonce; unsigned char ntlm2_hash[NTLM_NTLM2_HASH_LEN]; unsigned char challengehash[16] = {0}; unsigned char *blob; if (!generate_timestamp(ntlm) || !generate_nonce(ntlm) || !generate_ntlm2_hash(ntlm2_hash, ntlm)) return false; blob_len = ntlm->challenge.target_info_len + 32; ntlm2_response_len = blob_len + 16; if ((ntlm->ntlm2_response = malloc(ntlm2_response_len)) == NULL) { ntlm_client_set_errmsg(ntlm, "out of memory"); return false; } /* position the blob in the response; we'll use it then return it */ blob = ntlm->ntlm2_response + 16; /* the blob's integer values are in network byte order */ signature = htonl(0x01010000); timestamp = ntlm_htonll(ntlm->timestamp); nonce = ntlm_htonll(ntlm->nonce); /* construct the blob */ memcpy(&blob[0], &signature, 4); memset(&blob[4], 0, 4); memcpy(&blob[8], ×tamp, 8); memcpy(&blob[16], &nonce, 8); memset(&blob[24], 0, 4); memcpy(&blob[28], ntlm->challenge.target_info, ntlm->challenge.target_info_len); memset(&blob[28 + ntlm->challenge.target_info_len], 0, 4); if (!generate_ntlm2_challengehash(challengehash, ntlm, ntlm2_hash, blob, blob_len)) return false; memcpy(ntlm->ntlm2_response, challengehash, 16); ntlm->ntlm2_response_len = ntlm2_response_len; if (!generate_lm2_response(ntlm, ntlm2_hash)) return false; return true; } int ntlm_client_response( const unsigned char **out, size_t *out_len, ntlm_client *ntlm) { unsigned char *domain, *username, *hostname, *ntlm_rep, *session; size_t lm_rep_len, lm_rep_offset, ntlm_rep_len, ntlm_rep_offset, domain_len, domain_offset, username_len, username_offset, hostname_len, hostname_offset, session_len, session_offset; uint32_t flags = 0; bool unicode; NTLM_ASSERT_ARG(out); NTLM_ASSERT_ARG(out_len); NTLM_ASSERT_ARG(ntlm); ENSURE_INITIALIZED(ntlm); *out = NULL; *out_len = 0; if (ntlm->state != NTLM_STATE_RESPONSE) { ntlm_client_set_errmsg(ntlm, "ntlm handle in invalid state"); return -1; } /* * Minimum message size is 64 bytes: * 8 byte signature, * 4 byte message indicator, * 6x8 byte security buffers * 4 byte flags */ ntlm->response.len = 64; unicode = supports_unicode(ntlm) && (ntlm->challenge.flags & NTLM_NEGOTIATE_UNICODE); if (unicode) flags |= NTLM_NEGOTIATE_UNICODE; else flags |= NTLM_NEGOTIATE_OEM; if (unicode) { domain = (unsigned char *)ntlm->userdomain_utf16; domain_len = ntlm->userdomain_utf16_len; username = (unsigned char *)ntlm->username_utf16; username_len = ntlm->username_utf16_len; hostname = (unsigned char *)ntlm->hostname_utf16; hostname_len = ntlm->hostname_utf16_len; } else { domain = (unsigned char *)ntlm->userdomain; domain_len = ntlm->userdomain ? strlen(ntlm->userdomain) : 0; username = (unsigned char *)ntlm->username; username_len = ntlm->username ? strlen(ntlm->username) : 0; hostname = (unsigned char *)ntlm->hostname; hostname_len = ntlm->hostname ? strlen(ntlm->hostname) : 0; } /* Negotiate our requested authentication type with the server's */ if (!(ntlm->flags & NTLM_CLIENT_DISABLE_NTLM2) && (ntlm->challenge.flags & NTLM_NEGOTIATE_NTLM)) { flags |= NTLM_NEGOTIATE_NTLM; if (!generate_ntlm2_response(ntlm)) return -1; } else if ((ntlm->flags & NTLM_CLIENT_ENABLE_NTLM) && (ntlm->challenge.flags & NTLM_NEGOTIATE_NTLM)) { flags |= NTLM_NEGOTIATE_NTLM; if (!generate_ntlm_response(ntlm) || !generate_lm_response(ntlm)) return -1; } else if (ntlm->flags & NTLM_CLIENT_ENABLE_LM) { if (!generate_lm_response(ntlm)) return -1; } else { ntlm_client_set_errmsg(ntlm, "no encryption options could be negotiated"); return -1; } domain_offset = ntlm->response.len; increment_size(&ntlm->response.len, domain_len); username_offset = ntlm->response.len; increment_size(&ntlm->response.len, username_len); hostname_offset = ntlm->response.len; increment_size(&ntlm->response.len, hostname_len); lm_rep_len = ntlm->lm_response_len; lm_rep_offset = ntlm->response.len; increment_size(&ntlm->response.len, lm_rep_len); ntlm_rep = ntlm->ntlm2_response_len ? ntlm->ntlm2_response : ntlm->ntlm_response; ntlm_rep_len = ntlm->ntlm2_response_len ? ntlm->ntlm2_response_len : ntlm->ntlm_response_len; ntlm_rep_offset = ntlm->response.len; increment_size(&ntlm->response.len, ntlm_rep_len); session = NULL; session_len = 0; session_offset = ntlm->response.len; increment_size(&ntlm->response.len, session_len); if (ntlm->response.len == (size_t)-1) { ntlm_client_set_errmsg(ntlm, "message too large"); return -1; } if ((ntlm->response.buf = calloc(1, ntlm->response.len)) == NULL) { ntlm_client_set_errmsg(ntlm, "out of memory"); return -1; } if (!write_buf(ntlm, &ntlm->response, ntlm_client_signature, sizeof(ntlm_client_signature)) || !write_int32(ntlm, &ntlm->response, 3) || !write_bufinfo(ntlm, &ntlm->response, lm_rep_len, lm_rep_offset) || !write_bufinfo(ntlm, &ntlm->response, ntlm_rep_len, ntlm_rep_offset) || !write_bufinfo(ntlm, &ntlm->response, domain_len, domain_offset) || !write_bufinfo(ntlm, &ntlm->response, username_len, username_offset) || !write_bufinfo(ntlm, &ntlm->response, hostname_len, hostname_offset) || !write_bufinfo(ntlm, &ntlm->response, session_len, session_offset) || !write_int32(ntlm, &ntlm->response, flags) || !write_buf(ntlm, &ntlm->response, domain, domain_len) || !write_buf(ntlm, &ntlm->response, username, username_len) || !write_buf(ntlm, &ntlm->response, hostname, hostname_len) || !write_buf(ntlm, &ntlm->response, ntlm->lm_response, lm_rep_len) || !write_buf(ntlm, &ntlm->response, ntlm_rep, ntlm_rep_len) || !write_buf(ntlm, &ntlm->response, session, session_len)) return -1; NTLM_ASSERT(ntlm, ntlm->response.pos == ntlm->response.len); ntlm->state = NTLM_STATE_COMPLETE; *out = ntlm->response.buf; *out_len = ntlm->response.len; return 0; } void ntlm_client_reset(ntlm_client *ntlm) { if (!ntlm) return; ntlm->state = NTLM_STATE_NEGOTIATE; free_hostname(ntlm); memset(&ntlm->host_version, 0, sizeof(ntlm_version)); reset(ntlm->target); reset(ntlm->target_utf16); ntlm->target_utf16_len = 0; free_credentials(ntlm); ntlm->nonce = 0; ntlm->timestamp = 0; memset(ntlm->lm_response, 0, NTLM_LM_RESPONSE_LEN); ntlm->lm_response_len = 0; memset(ntlm->ntlm_response, 0, NTLM_NTLM_RESPONSE_LEN); ntlm->ntlm_response_len = 0; reset(ntlm->ntlm2_response); ntlm->ntlm2_response_len = 0; reset(ntlm->negotiate.buf); ntlm->negotiate.pos = 0; ntlm->negotiate.len = 0; reset(ntlm->response.buf); ntlm->response.pos = 0; ntlm->response.len = 0; free(ntlm->challenge.target_info); free(ntlm->challenge.target); free(ntlm->challenge.target_domain); free(ntlm->challenge.target_domain_dns); free(ntlm->challenge.target_server); free(ntlm->challenge.target_server_dns); memset(&ntlm->challenge, 0, sizeof(ntlm_challenge)); } void ntlm_client_free(ntlm_client *ntlm) { if (!ntlm) return; ntlm_crypt_shutdown(ntlm); ntlm_unicode_shutdown(ntlm); ntlm_client_reset(ntlm); free(ntlm); }