/* Unix SMB/CIFS implementation. SMB Signing Code Copyright (C) Jeremy Allison 2002. Copyright (C) Andrew Bartlett 2002-2003 Copyright (C) James J Myers 2003 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 . */ #include "includes.h" #include "libcli/raw/libcliraw.h" #include "libcli/raw/raw_proto.h" #include "../lib/crypto/crypto.h" /*********************************************************** SMB signing - Common code before we set a new signing implementation ************************************************************/ bool set_smb_signing_common(struct smb_signing_context *sign_info) { if (sign_info->doing_signing) { DEBUG(5, ("SMB Signing already in progress, so we don't start it again\n")); return false; } if (!sign_info->allow_smb_signing) { DEBUG(5, ("SMB Signing has been locally disabled\n")); return false; } return true; } /*********************************************************** SMB signing - Common code before we set a new signing implementation ************************************************************/ static bool smbcli_set_smb_signing_common(struct smbcli_transport *transport) { if (!set_smb_signing_common(&transport->negotiate.sign_info)) { return false; } if (!(transport->negotiate.sec_mode & (NEGOTIATE_SECURITY_SIGNATURES_REQUIRED|NEGOTIATE_SECURITY_SIGNATURES_ENABLED))) { DEBUG(5, ("SMB Signing is not negotiated by the peer\n")); return false; } /* These calls are INCOMPATIBLE with SMB signing */ transport->negotiate.readbraw_supported = false; transport->negotiate.writebraw_supported = false; return true; } void mark_packet_signed(struct smb_request_buffer *out) { uint16_t flags2; flags2 = SVAL(out->hdr, HDR_FLG2); flags2 |= FLAGS2_SMB_SECURITY_SIGNATURES; SSVAL(out->hdr, HDR_FLG2, flags2); } bool signing_good(struct smb_signing_context *sign_info, unsigned int seq, bool good) { if (good) { if (!sign_info->doing_signing) { DEBUG(5, ("Seen valid packet, so turning signing on\n")); sign_info->doing_signing = true; } if (!sign_info->seen_valid) { DEBUG(5, ("Seen valid packet, so marking signing as 'seen valid'\n")); sign_info->seen_valid = true; } } else { if (!sign_info->seen_valid) { /* If we have never seen a good packet, just turn it off */ DEBUG(5, ("signing_good: signing negotiated but not required and peer\n" "isn't sending correct signatures. Turning off.\n")); smbcli_set_signing_off(sign_info); return true; } else { /* bad packet after signing started - fail and disconnect. */ DEBUG(0, ("signing_good: BAD SIG: seq %u\n", seq)); return false; } } return true; } void sign_outgoing_message(struct smb_request_buffer *out, DATA_BLOB *mac_key, unsigned int seq_num) { uint8_t calc_md5_mac[16]; struct MD5Context md5_ctx; /* * Firstly put the sequence number into the first 4 bytes. * and zero out the next 4 bytes. */ SIVAL(out->hdr, HDR_SS_FIELD, seq_num); SIVAL(out->hdr, HDR_SS_FIELD + 4, 0); /* mark the packet as signed - BEFORE we sign it...*/ mark_packet_signed(out); /* Calculate the 16 byte MAC and place first 8 bytes into the field. */ MD5Init(&md5_ctx); MD5Update(&md5_ctx, mac_key->data, mac_key->length); MD5Update(&md5_ctx, out->buffer + NBT_HDR_SIZE, out->size - NBT_HDR_SIZE); MD5Final(calc_md5_mac, &md5_ctx); memcpy(&out->hdr[HDR_SS_FIELD], calc_md5_mac, 8); DEBUG(5, ("sign_outgoing_message: SENT SIG (seq: %d): sent SMB signature of\n", seq_num)); dump_data(5, calc_md5_mac, 8); /* req->out.hdr[HDR_SS_FIELD+2]=0; Uncomment this to test if the remote server actually verifies signitures...*/ } bool check_signed_incoming_message(struct smb_request_buffer *in, DATA_BLOB *mac_key, unsigned int seq_num) { bool good; uint8_t calc_md5_mac[16]; uint8_t *server_sent_mac; uint8_t sequence_buf[8]; struct MD5Context md5_ctx; const size_t offset_end_of_sig = (HDR_SS_FIELD + 8); int i; const int sign_range = 0; /* room enough for the signature? */ if (in->size < NBT_HDR_SIZE + HDR_SS_FIELD + 8) { return false; } if (!mac_key->length) { /* NO key yet */ return false; } /* its quite bogus to be guessing sequence numbers, but very useful when debugging signing implementations */ for (i = 0-sign_range; i <= 0+sign_range; i++) { /* * Firstly put the sequence number into the first 4 bytes. * and zero out the next 4 bytes. */ SIVAL(sequence_buf, 0, seq_num + i); SIVAL(sequence_buf, 4, 0); /* get a copy of the server-sent mac */ server_sent_mac = &in->hdr[HDR_SS_FIELD]; /* Calculate the 16 byte MAC and place first 8 bytes into the field. */ MD5Init(&md5_ctx); MD5Update(&md5_ctx, mac_key->data, mac_key->length); MD5Update(&md5_ctx, in->hdr, HDR_SS_FIELD); MD5Update(&md5_ctx, sequence_buf, sizeof(sequence_buf)); MD5Update(&md5_ctx, in->hdr + offset_end_of_sig, in->size - NBT_HDR_SIZE - (offset_end_of_sig)); MD5Final(calc_md5_mac, &md5_ctx); good = (memcmp(server_sent_mac, calc_md5_mac, 8) == 0); if (i == 0) { if (!good) { DEBUG(5, ("check_signed_incoming_message: BAD SIG (seq: %d): wanted SMB signature of\n", seq_num + i)); dump_data(5, calc_md5_mac, 8); DEBUG(5, ("check_signed_incoming_message: BAD SIG (seq: %d): got SMB signature of\n", seq_num + i)); dump_data(5, server_sent_mac, 8); } else { DEBUG(15, ("check_signed_incoming_message: GOOD SIG (seq: %d): got SMB signature of\n", seq_num + i)); dump_data(5, server_sent_mac, 8); } } if (good) break; } if (good && i != 0) { DEBUG(0,("SIGNING OFFSET %d (should be %d)\n", i, seq_num)); } return good; } static void smbcli_req_allocate_seq_num(struct smbcli_request *req) { req->seq_num = req->transport->negotiate.sign_info.next_seq_num; /* some requests (eg. NTcancel) are one way, and the sequence number should be increased by 1 not 2 */ if (req->sign_single_increment) { req->transport->negotiate.sign_info.next_seq_num += 1; } else { req->transport->negotiate.sign_info.next_seq_num += 2; } } /*********************************************************** SMB signing - Simple implementation - calculate a MAC to send. ************************************************************/ void smbcli_request_calculate_sign_mac(struct smbcli_request *req) { #if 0 /* enable this when packet signing is preventing you working out why valgrind says that data is uninitialised */ file_save("pkt.dat", req->out.buffer, req->out.size); #endif switch (req->transport->negotiate.sign_info.signing_state) { case SMB_SIGNING_ENGINE_OFF: break; case SMB_SIGNING_ENGINE_BSRSPYL: /* mark the packet as signed - BEFORE we sign it...*/ mark_packet_signed(&req->out); /* I wonder what BSRSPYL stands for - but this is what MS actually sends! */ memcpy((req->out.hdr + HDR_SS_FIELD), "BSRSPYL ", 8); break; case SMB_SIGNING_ENGINE_ON: smbcli_req_allocate_seq_num(req); sign_outgoing_message(&req->out, &req->transport->negotiate.sign_info.mac_key, req->seq_num); break; } return; } /** SMB signing - NULL implementation @note Used as an initialisation only - it will not correctly shut down a real signing mechanism */ bool smbcli_set_signing_off(struct smb_signing_context *sign_info) { DEBUG(5, ("Shutdown SMB signing\n")); sign_info->doing_signing = false; data_blob_free(&sign_info->mac_key); sign_info->signing_state = SMB_SIGNING_ENGINE_OFF; return true; } /** SMB signing - TEMP implementation - setup the MAC key. */ bool smbcli_temp_set_signing(struct smbcli_transport *transport) { if (!smbcli_set_smb_signing_common(transport)) { return false; } DEBUG(5, ("BSRSPYL SMB signing enabled\n")); smbcli_set_signing_off(&transport->negotiate.sign_info); transport->negotiate.sign_info.mac_key = data_blob(NULL, 0); transport->negotiate.sign_info.signing_state = SMB_SIGNING_ENGINE_BSRSPYL; return true; } /*********************************************************** SMB signing - Simple implementation - check a MAC sent by server. ************************************************************/ /** * Check a packet supplied by the server. * @return false if we had an established signing connection * which had a back checksum, true otherwise */ bool smbcli_request_check_sign_mac(struct smbcli_request *req) { bool good; if (!req->transport->negotiate.sign_info.doing_signing && req->sign_caller_checks) { return true; } req->sign_caller_checks = false; switch (req->transport->negotiate.sign_info.signing_state) { case SMB_SIGNING_ENGINE_OFF: return true; case SMB_SIGNING_ENGINE_BSRSPYL: return true; case SMB_SIGNING_ENGINE_ON: { if (req->in.size < (HDR_SS_FIELD + 8)) { return false; } else { good = check_signed_incoming_message(&req->in, &req->transport->negotiate.sign_info.mac_key, req->seq_num+1); return signing_good(&req->transport->negotiate.sign_info, req->seq_num+1, good); } } } return false; } /*********************************************************** SMB signing - Simple implementation - setup the MAC key. ************************************************************/ bool smbcli_simple_set_signing(TALLOC_CTX *mem_ctx, struct smb_signing_context *sign_info, const DATA_BLOB *user_session_key, const DATA_BLOB *response) { if (sign_info->mandatory_signing) { DEBUG(5, ("Mandatory SMB signing enabled!\n")); } DEBUG(5, ("SMB signing enabled!\n")); if (response && response->length) { sign_info->mac_key = data_blob_talloc(mem_ctx, NULL, response->length + user_session_key->length); } else { sign_info->mac_key = data_blob_talloc(mem_ctx, NULL, user_session_key->length); } memcpy(&sign_info->mac_key.data[0], user_session_key->data, user_session_key->length); if (response && response->length) { memcpy(&sign_info->mac_key.data[user_session_key->length],response->data, response->length); } dump_data_pw("Started Signing with key:\n", sign_info->mac_key.data, sign_info->mac_key.length); sign_info->signing_state = SMB_SIGNING_ENGINE_ON; sign_info->next_seq_num = 2; return true; } /*********************************************************** SMB signing - Simple implementation - setup the MAC key. ************************************************************/ bool smbcli_transport_simple_set_signing(struct smbcli_transport *transport, const DATA_BLOB user_session_key, const DATA_BLOB response) { if (!smbcli_set_smb_signing_common(transport)) { return false; } return smbcli_simple_set_signing(transport, &transport->negotiate.sign_info, &user_session_key, &response); } bool smbcli_init_signing(struct smbcli_transport *transport) { transport->negotiate.sign_info.next_seq_num = 0; transport->negotiate.sign_info.mac_key = data_blob(NULL, 0); if (!smbcli_set_signing_off(&transport->negotiate.sign_info)) { return false; } switch (transport->options.signing) { case SMB_SIGNING_OFF: transport->negotiate.sign_info.allow_smb_signing = false; break; case SMB_SIGNING_SUPPORTED: case SMB_SIGNING_AUTO: transport->negotiate.sign_info.allow_smb_signing = true; break; case SMB_SIGNING_REQUIRED: transport->negotiate.sign_info.allow_smb_signing = true; transport->negotiate.sign_info.mandatory_signing = true; break; } return true; }