/* -*- c-basic-offset: 8 -*- rdesktop: A Remote Desktop Protocol client. CredSSP layer and kerberos support. Copyright 2012-2013 Henrik Andersson for Cendio AB 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 . */ /* * Oracle GPL Disclaimer: For the avoidance of doubt, except that if any license choice * other than GPL or LGPL is available it will apply instead, Oracle elects to use only * the General Public License version 2 (GPLv2) at this time for any software where * a choice of GPL license versions is made available with the language indicating * that GPLv2 or any later version may be used, or where a choice of which version * of the GPL is applied is otherwise unspecified. */ #include #include "rdesktop.h" extern RD_BOOL g_use_password_as_pin; extern char *g_sc_csp_name; extern char *g_sc_reader_name; extern char *g_sc_card_name; extern char *g_sc_container_name; static gss_OID_desc _gss_spnego_krb5_mechanism_oid_desc = { 9, (void *) "\x2a\x86\x48\x86\xf7\x12\x01\x02\x02" }; static void s_realloc(STREAM s, unsigned int size) { unsigned char *data; if (s->size >= size) return; data = s->data; s->size = size; s->data = xrealloc(data, size); s->p = s->data + (s->p - data); s->end = s->data + (s->end - data); s->iso_hdr = s->data + (s->iso_hdr - data); s->mcs_hdr = s->data + (s->mcs_hdr - data); s->sec_hdr = s->data + (s->sec_hdr - data); s->rdp_hdr = s->data + (s->rdp_hdr - data); s->channel_hdr = s->data + (s->channel_hdr - data); } static void s_free(STREAM s) { free(s->data); free(s); } static STREAM ber_wrap_hdr_data(int tagval, STREAM in) { STREAM out; int size = s_length(in) + 16; out = xmalloc(sizeof(struct stream)); memset(out, 0, sizeof(struct stream)); out->data = xmalloc(size); out->size = size; out->p = out->data; ber_out_header(out, tagval, s_length(in)); out_uint8p(out, in->data, s_length(in)); s_mark_end(out); return out; } static void cssp_gss_report_error(OM_uint32 code, char *str, OM_uint32 major_status, OM_uint32 minor_status) { OM_uint32 msgctx = 0, ms; gss_buffer_desc status_string; error("GSS error [%d:%d:%d]: %s\n", (major_status & 0xff000000) >> 24, // Calling error (major_status & 0xff0000) >> 16, // Routine error major_status & 0xffff, // Supplementary info bits str); do { ms = gss_display_status(&minor_status, major_status, code, GSS_C_NULL_OID, &msgctx, &status_string); if (ms != GSS_S_COMPLETE) continue; error(" - %s\n", status_string.value); } while (ms == GSS_S_COMPLETE && msgctx); } static RD_BOOL cssp_gss_mech_available(gss_OID mech) { int mech_found; OM_uint32 major_status, minor_status; gss_OID_set mech_set; mech_found = 0; if (mech == GSS_C_NO_OID) return True; major_status = gss_indicate_mechs(&minor_status, &mech_set); if (!mech_set) return False; if (GSS_ERROR(major_status)) { cssp_gss_report_error(GSS_C_GSS_CODE, "Failed to get available mechs on system", major_status, minor_status); return False; } gss_test_oid_set_member(&minor_status, mech, mech_set, &mech_found); if (GSS_ERROR(major_status)) { cssp_gss_report_error(GSS_C_GSS_CODE, "Failed to match mechanism in set", major_status, minor_status); return False; } if (!mech_found) return False; return True; } static RD_BOOL cssp_gss_get_service_name(char *server, gss_name_t * name) { gss_buffer_desc output; OM_uint32 major_status, minor_status; const char service_name[] = "TERMSRV"; gss_OID type = (gss_OID) GSS_C_NT_HOSTBASED_SERVICE; int size = (strlen(service_name) + 1 + strlen(server) + 1); output.value = malloc(size); snprintf(output.value, size, "%s@%s", service_name, server); output.length = strlen(output.value) + 1; major_status = gss_import_name(&minor_status, &output, type, name); if (GSS_ERROR(major_status)) { cssp_gss_report_error(GSS_C_GSS_CODE, "Failed to create service principal name", major_status, minor_status); return False; } gss_release_buffer(&minor_status, &output); return True; } static RD_BOOL cssp_gss_wrap(gss_ctx_id_t * ctx, STREAM in, STREAM out) { int conf_state; OM_uint32 major_status; OM_uint32 minor_status; gss_buffer_desc inbuf, outbuf; inbuf.value = in->data; inbuf.length = s_length(in); major_status = gss_wrap(&minor_status, ctx, True, GSS_C_QOP_DEFAULT, &inbuf, &conf_state, &outbuf); if (major_status != GSS_S_COMPLETE) { cssp_gss_report_error(GSS_C_GSS_CODE, "Failed to encrypt and sign message", major_status, minor_status); return False; } if (!conf_state) { error("GSS Confidentiality failed, no encryption of message performed."); return False; } // write enc data to out stream out->data = out->p = xmalloc(outbuf.length); out->size = outbuf.length; out_uint8p(out, outbuf.value, outbuf.length); s_mark_end(out); gss_release_buffer(&minor_status, &outbuf); return True; } static RD_BOOL cssp_gss_unwrap(gss_ctx_id_t * ctx, STREAM in, STREAM out) { OM_uint32 major_status; OM_uint32 minor_status; gss_qop_t qop_state; gss_buffer_desc inbuf, outbuf; int conf_state; inbuf.value = in->data; inbuf.length = s_length(in); major_status = gss_unwrap(&minor_status, ctx, &inbuf, &outbuf, &conf_state, &qop_state); if (major_status != GSS_S_COMPLETE) { cssp_gss_report_error(GSS_C_GSS_CODE, "Failed to decrypt message", major_status, minor_status); return False; } out->data = out->p = xmalloc(outbuf.length); out->size = outbuf.length; out_uint8p(out, outbuf.value, outbuf.length); s_mark_end(out); gss_release_buffer(&minor_status, &outbuf); return True; } #ifdef WITH_DEBUG_CREDSSP void streamsave(STREAM s, char *fn) { FILE *f = fopen(fn, "wb"); fwrite(s->data, s_length(s), 1, f); fclose(f); } #endif static STREAM cssp_encode_tspasswordcreds(char *username, char *password, char *domain) { STREAM out, h1, h2; struct stream tmp = { 0 }; struct stream message = { 0 }; memset(&tmp, 0, sizeof(tmp)); memset(&message, 0, sizeof(message)); // domainName [0] s_realloc(&tmp, 4 + strlen(domain) * sizeof(uint16)); s_reset(&tmp); rdp_out_unistr(&tmp, domain, strlen(domain) * sizeof(uint16)); s_mark_end(&tmp); h2 = ber_wrap_hdr_data(BER_TAG_OCTET_STRING, &tmp); h1 = ber_wrap_hdr_data(BER_TAG_CTXT_SPECIFIC | BER_TAG_CONSTRUCTED | 0, h2); s_realloc(&message, s_length(&message) + s_length(h1)); out_uint8p(&message, h1->data, s_length(h1)); s_mark_end(&message); s_free(h2); s_free(h1); // userName [1] s_realloc(&tmp, 4 + strlen(username) * sizeof(uint16)); s_reset(&tmp); rdp_out_unistr(&tmp, username, strlen(username) * sizeof(uint16)); s_mark_end(&tmp); h2 = ber_wrap_hdr_data(BER_TAG_OCTET_STRING, &tmp); h1 = ber_wrap_hdr_data(BER_TAG_CTXT_SPECIFIC | BER_TAG_CONSTRUCTED | 1, h2); s_realloc(&message, s_length(&message) + s_length(h1)); out_uint8p(&message, h1->data, s_length(h1)); s_mark_end(&message); s_free(h2); s_free(h1); // password [2] s_realloc(&tmp, 4 + strlen(password) * sizeof(uint16)); s_reset(&tmp); rdp_out_unistr(&tmp, password, strlen(password) * sizeof(uint16)); s_mark_end(&tmp); h2 = ber_wrap_hdr_data(BER_TAG_OCTET_STRING, &tmp); h1 = ber_wrap_hdr_data(BER_TAG_CTXT_SPECIFIC | BER_TAG_CONSTRUCTED | 2, h2); s_realloc(&message, s_length(&message) + s_length(h1)); out_uint8p(&message, h1->data, s_length(h1)); s_mark_end(&message); s_free(h2); s_free(h1); // build message out = ber_wrap_hdr_data(BER_TAG_SEQUENCE | BER_TAG_CONSTRUCTED, &message); // cleanup xfree(tmp.data); xfree(message.data); return out; } /* KeySpecs from wincrypt.h */ #define AT_KEYEXCHANGE 1 #define AT_SIGNATURE 2 static STREAM cssp_encode_tscspdatadetail(unsigned char keyspec, char *card, char *reader, char *container, char *csp) { STREAM out; STREAM h1, h2; struct stream tmp = { 0 }; struct stream message = { 0 }; // keySpec [0] s_realloc(&tmp, sizeof(uint8)); s_reset(&tmp); out_uint8(&tmp, keyspec); s_mark_end(&tmp); h2 = ber_wrap_hdr_data(BER_TAG_INTEGER, &tmp); h1 = ber_wrap_hdr_data(BER_TAG_CTXT_SPECIFIC | BER_TAG_CONSTRUCTED | 0, h2); s_realloc(&message, s_length(&message) + s_length(h1)); out_uint8p(&message, h1->data, s_length(h1)); s_mark_end(&message); s_free(h2); s_free(h1); // cardName [1] if (card) { s_realloc(&tmp, 4 + strlen(card) * sizeof(uint16)); s_reset(&tmp); rdp_out_unistr(&tmp, card, strlen(card) * sizeof(uint16)); s_mark_end(&tmp); h2 = ber_wrap_hdr_data(BER_TAG_OCTET_STRING, &tmp); h1 = ber_wrap_hdr_data(BER_TAG_CTXT_SPECIFIC | BER_TAG_CONSTRUCTED | 1, h2); s_realloc(&message, s_length(&message) + s_length(h1)); out_uint8p(&message, h1->data, s_length(h1)); s_mark_end(&message); s_free(h2); s_free(h1); } // readerName [2] if (reader) { s_realloc(&tmp, 4 + strlen(reader) * sizeof(uint16)); s_reset(&tmp); rdp_out_unistr(&tmp, reader, strlen(reader) * sizeof(uint16)); s_mark_end(&tmp); h2 = ber_wrap_hdr_data(BER_TAG_OCTET_STRING, &tmp); h1 = ber_wrap_hdr_data(BER_TAG_CTXT_SPECIFIC | BER_TAG_CONSTRUCTED | 2, h2); s_realloc(&message, s_length(&message) + s_length(h1)); out_uint8p(&message, h1->data, s_length(h1)); s_mark_end(&message); s_free(h2); s_free(h1); } // containerName [3] if (container) { s_realloc(&tmp, 4 + strlen(container) * sizeof(uint16)); s_reset(&tmp); rdp_out_unistr(&tmp, container, strlen(container) * sizeof(uint16)); s_mark_end(&tmp); h2 = ber_wrap_hdr_data(BER_TAG_OCTET_STRING, &tmp); h1 = ber_wrap_hdr_data(BER_TAG_CTXT_SPECIFIC | BER_TAG_CONSTRUCTED | 3, h2); s_realloc(&message, s_length(&message) + s_length(h1)); out_uint8p(&message, h1->data, s_length(h1)); s_mark_end(&message); s_free(h2); s_free(h1); } // cspName [4] if (csp) { s_realloc(&tmp, 4 + strlen(csp) * sizeof(uint16)); s_reset(&tmp); rdp_out_unistr(&tmp, csp, strlen(csp) * sizeof(uint16)); s_mark_end(&tmp); h2 = ber_wrap_hdr_data(BER_TAG_OCTET_STRING, &tmp); h1 = ber_wrap_hdr_data(BER_TAG_CTXT_SPECIFIC | BER_TAG_CONSTRUCTED | 4, h2); s_realloc(&message, s_length(&message) + s_length(h1)); out_uint8p(&message, h1->data, s_length(h1)); s_mark_end(&message); s_free(h2); s_free(h1); } s_mark_end(&message); // build message out = ber_wrap_hdr_data(BER_TAG_SEQUENCE | BER_TAG_CONSTRUCTED, &message); // cleanup free(tmp.data); free(message.data); return out; } static STREAM cssp_encode_tssmartcardcreds(char *username, char *password, char *domain) { STREAM out, h1, h2; struct stream tmp = { 0 }; struct stream message = { 0 }; // pin [0] s_realloc(&tmp, strlen(password) * sizeof(uint16)); s_reset(&tmp); rdp_out_unistr(&tmp, password, strlen(password) * sizeof(uint16)); s_mark_end(&tmp); h2 = ber_wrap_hdr_data(BER_TAG_OCTET_STRING, &tmp); h1 = ber_wrap_hdr_data(BER_TAG_CTXT_SPECIFIC | BER_TAG_CONSTRUCTED | 0, h2); s_realloc(&message, s_length(&message) + s_length(h1)); out_uint8p(&message, h1->data, s_length(h1)); s_mark_end(&message); s_free(h2); s_free(h1); // cspData[1] h2 = cssp_encode_tscspdatadetail(AT_KEYEXCHANGE, g_sc_card_name, g_sc_reader_name, g_sc_container_name, g_sc_csp_name); h1 = ber_wrap_hdr_data(BER_TAG_CTXT_SPECIFIC | BER_TAG_CONSTRUCTED | 1, h2); s_realloc(&message, s_length(&message) + s_length(h1)); out_uint8p(&message, h1->data, s_length(h1)); s_mark_end(&message); s_free(h2); s_free(h1); // userHint [2] if (username && strlen(username)) { s_realloc(&tmp, strlen(username) * sizeof(uint16)); s_reset(&tmp); rdp_out_unistr(&tmp, username, strlen(username) * sizeof(uint16)); s_mark_end(&tmp); h2 = ber_wrap_hdr_data(BER_TAG_OCTET_STRING, &tmp); h1 = ber_wrap_hdr_data(BER_TAG_CTXT_SPECIFIC | BER_TAG_CONSTRUCTED | 2, h2); s_realloc(&message, s_length(&message) + s_length(h1)); out_uint8p(&message, h1->data, s_length(h1)); s_mark_end(&message); s_free(h2); s_free(h1); } // domainHint [3] if (domain && strlen(domain)) { s_realloc(&tmp, strlen(domain) * sizeof(uint16)); s_reset(&tmp); rdp_out_unistr(&tmp, domain, strlen(domain) * sizeof(uint16)); s_mark_end(&tmp); h2 = ber_wrap_hdr_data(BER_TAG_OCTET_STRING, &tmp); h1 = ber_wrap_hdr_data(BER_TAG_CTXT_SPECIFIC | BER_TAG_CONSTRUCTED | 3, h2); s_realloc(&message, s_length(&message) + s_length(h1)); out_uint8p(&message, h1->data, s_length(h1)); s_mark_end(&message); s_free(h2); s_free(h1); } s_mark_end(&message); // build message out = ber_wrap_hdr_data(BER_TAG_SEQUENCE | BER_TAG_CONSTRUCTED, &message); // cleanup free(tmp.data); free(message.data); return out; } STREAM cssp_encode_tscredentials(char *username, char *password, char *domain) { STREAM out; STREAM h1, h2, h3; struct stream tmp = { 0 }; struct stream message = { 0 }; // credType [0] s_realloc(&tmp, sizeof(uint8)); s_reset(&tmp); if (g_use_password_as_pin == False) { out_uint8(&tmp, 1); // TSPasswordCreds } else { out_uint8(&tmp, 2); // TSSmartCardCreds } s_mark_end(&tmp); h2 = ber_wrap_hdr_data(BER_TAG_INTEGER, &tmp); h1 = ber_wrap_hdr_data(BER_TAG_CTXT_SPECIFIC | BER_TAG_CONSTRUCTED | 0, h2); s_realloc(&message, s_length(&message) + s_length(h1)); out_uint8p(&message, h1->data, s_length(h1)); s_mark_end(&message); s_free(h2); s_free(h1); // credentials [1] if (g_use_password_as_pin == False) { h3 = cssp_encode_tspasswordcreds(username, password, domain); } else { h3 = cssp_encode_tssmartcardcreds(username, password, domain); } h2 = ber_wrap_hdr_data(BER_TAG_OCTET_STRING, h3); h1 = ber_wrap_hdr_data(BER_TAG_CTXT_SPECIFIC | BER_TAG_CONSTRUCTED | 1, h2); s_realloc(&message, s_length(&message) + s_length(h1)); out_uint8p(&message, h1->data, s_length(h1)); s_mark_end(&message); s_free(h3); s_free(h2); s_free(h1); // Construct ASN.1 message out = ber_wrap_hdr_data(BER_TAG_SEQUENCE | BER_TAG_CONSTRUCTED, &message); #if WITH_DEBUG_CREDSSP streamsave(out, "tscredentials.raw"); printf("Out TSCredentials %ld bytes\n", s_length(out)); hexdump(out->data, s_length(out)); #endif // cleanup xfree(message.data); xfree(tmp.data); return out; } RD_BOOL cssp_send_tsrequest(STREAM token, STREAM auth, STREAM pubkey) { STREAM s; STREAM h1, h2, h3, h4, h5; struct stream tmp = { 0 }; struct stream message = { 0 }; memset(&message, 0, sizeof(message)); memset(&tmp, 0, sizeof(tmp)); // version [0] s_realloc(&tmp, sizeof(uint8)); s_reset(&tmp); out_uint8(&tmp, 2); s_mark_end(&tmp); h2 = ber_wrap_hdr_data(BER_TAG_INTEGER, &tmp); h1 = ber_wrap_hdr_data(BER_TAG_CTXT_SPECIFIC | BER_TAG_CONSTRUCTED | 0, h2); s_realloc(&message, s_length(&message) + s_length(h1)); out_uint8p(&message, h1->data, s_length(h1)); s_mark_end(&message); s_free(h2); s_free(h1); // negoToken [1] if (token && s_length(token)) { h5 = ber_wrap_hdr_data(BER_TAG_OCTET_STRING, token); h4 = ber_wrap_hdr_data(BER_TAG_CTXT_SPECIFIC | BER_TAG_CONSTRUCTED | 0, h5); h3 = ber_wrap_hdr_data(BER_TAG_SEQUENCE | BER_TAG_CONSTRUCTED, h4); h2 = ber_wrap_hdr_data(BER_TAG_SEQUENCE | BER_TAG_CONSTRUCTED, h3); h1 = ber_wrap_hdr_data(BER_TAG_CTXT_SPECIFIC | BER_TAG_CONSTRUCTED | 1, h2); s_realloc(&message, s_length(&message) + s_length(h1)); out_uint8p(&message, h1->data, s_length(h1)); s_mark_end(&message); s_free(h5); s_free(h4); s_free(h3); s_free(h2); s_free(h1); } // authInfo [2] if (auth && s_length(auth)) { h2 = ber_wrap_hdr_data(BER_TAG_OCTET_STRING, auth); h1 = ber_wrap_hdr_data(BER_TAG_CTXT_SPECIFIC | BER_TAG_CONSTRUCTED | 2, h2); s_realloc(&message, s_length(&message) + s_length(h1)); out_uint8p(&message, h1->data, s_length(h1)); s_free(h2); s_free(h1); } // pubKeyAuth [3] if (pubkey && s_length(pubkey)) { h2 = ber_wrap_hdr_data(BER_TAG_OCTET_STRING, pubkey); h1 = ber_wrap_hdr_data(BER_TAG_CTXT_SPECIFIC | BER_TAG_CONSTRUCTED | 3, h2); s_realloc(&message, s_length(&message) + s_length(h1)); out_uint8p(&message, h1->data, s_length(h1)); s_mark_end(&message); s_free(h2); s_free(h1); } s_mark_end(&message); // Construct ASN.1 Message // Todo: can h1 be send directly instead of tcp_init() approach h1 = ber_wrap_hdr_data(BER_TAG_SEQUENCE | BER_TAG_CONSTRUCTED, &message); s = tcp_init(s_length(h1)); out_uint8p(s, h1->data, s_length(h1)); s_mark_end(s); s_free(h1); #if WITH_DEBUG_CREDSSP streamsave(s, "tsrequest_out.raw"); printf("Out TSRequest %ld bytes\n", s_length(s)); hexdump(s->data, s_length(s)); #endif tcp_send(s); // cleanup xfree(message.data); xfree(tmp.data); return True; } RD_BOOL cssp_read_tsrequest(STREAM token, STREAM pubkey) { STREAM s; int length; int tagval; s = tcp_recv(NULL, 4); if (s == NULL) return False; // verify ASN.1 header if (s->p[0] != (BER_TAG_SEQUENCE | BER_TAG_CONSTRUCTED)) { error("Expected BER_TAG_SEQUENCE|BER_TAG_CONSTRUCTED, got %x", s->p[0]); return False; } // peek at first 4 bytes to get full message length if (s->p[1] < 0x80) length = s->p[1] - 2; else if (s->p[1] == 0x81) length = s->p[2] - 1; else if (s->p[1] == 0x82) length = (s->p[2] << 8) | s->p[3]; else return False; // receive the remainings of message s = tcp_recv(s, length); #if WITH_DEBUG_CREDSSP streamsave(s, "tsrequest_in.raw"); printf("In TSRequest token %ld bytes\n", s_length(s)); hexdump(s->data, s_length(s)); #endif // parse the response and into nego token if (!ber_in_header(s, &tagval, &length) || tagval != (BER_TAG_SEQUENCE | BER_TAG_CONSTRUCTED)) return False; // version [0] if (!ber_in_header(s, &tagval, &length) || tagval != (BER_TAG_CTXT_SPECIFIC | BER_TAG_CONSTRUCTED | 0)) return False; in_uint8s(s, length); // negoToken [1] if (token) { if (!ber_in_header(s, &tagval, &length) || tagval != (BER_TAG_CTXT_SPECIFIC | BER_TAG_CONSTRUCTED | 1)) return False; if (!ber_in_header(s, &tagval, &length) || tagval != (BER_TAG_SEQUENCE | BER_TAG_CONSTRUCTED)) return False; if (!ber_in_header(s, &tagval, &length) || tagval != (BER_TAG_SEQUENCE | BER_TAG_CONSTRUCTED)) return False; if (!ber_in_header(s, &tagval, &length) || tagval != (BER_TAG_CTXT_SPECIFIC | BER_TAG_CONSTRUCTED | 0)) return False; if (!ber_in_header(s, &tagval, &length) || tagval != BER_TAG_OCTET_STRING) return False; token->end = token->p = token->data; out_uint8p(token, s->p, length); s_mark_end(token); } // pubKey [3] if (pubkey) { if (!ber_in_header(s, &tagval, &length) || tagval != (BER_TAG_CTXT_SPECIFIC | BER_TAG_CONSTRUCTED | 3)) return False; if (!ber_in_header(s, &tagval, &length) || tagval != BER_TAG_OCTET_STRING) return False; pubkey->data = pubkey->p = s->p; pubkey->end = pubkey->data + length; pubkey->size = length; } return True; } RD_BOOL cssp_connect(char *server, char *user, char *domain, char *password, STREAM s) { OM_uint32 actual_time; gss_cred_id_t cred; gss_buffer_desc input_tok, output_tok; gss_name_t target_name; OM_uint32 major_status, minor_status; int context_established = 0; gss_ctx_id_t gss_ctx; gss_OID desired_mech = &_gss_spnego_krb5_mechanism_oid_desc; STREAM ts_creds; struct stream token = { 0 }; struct stream pubkey = { 0 }; struct stream pubkey_cmp = { 0 }; // Verify that system gss support spnego if (!cssp_gss_mech_available(desired_mech)) { warning("CredSSP: System doesn't have support for desired authentication mechanism.\n"); return False; } // Get service name if (!cssp_gss_get_service_name(server, &target_name)) { warning("CredSSP: Failed to get target service name.\n"); return False; } // Establish tls connection to server if (!tcp_tls_connect()) { warning("CredSSP: Failed to establish TLS connection.\n"); return False; } tcp_tls_get_server_pubkey(&pubkey); #ifdef WITH_DEBUG_CREDSSP streamsave(&pubkey, "PubKey.raw"); #endif // Enter the spnego loop OM_uint32 actual_services; gss_OID actual_mech; struct stream blob = { 0 }; gss_ctx = GSS_C_NO_CONTEXT; cred = GSS_C_NO_CREDENTIAL; input_tok.length = 0; output_tok.length = 0; minor_status = 0; int i = 0; do { major_status = gss_init_sec_context(&minor_status, cred, &gss_ctx, target_name, desired_mech, GSS_C_MUTUAL_FLAG | GSS_C_DELEG_FLAG, GSS_C_INDEFINITE, GSS_C_NO_CHANNEL_BINDINGS, &input_tok, &actual_mech, &output_tok, &actual_services, &actual_time); if (GSS_ERROR(major_status)) { if (i == 0) error("CredSSP: Initialize failed, do you have correct kerberos tgt initialized ?\n"); else error("CredSSP: Negotiation failed.\n"); #ifdef WITH_DEBUG_CREDSSP cssp_gss_report_error(GSS_C_GSS_CODE, "CredSSP: SPNEGO negotiation failed.", major_status, minor_status); #endif goto bail_out; } // validate required services if (!(actual_services & GSS_C_CONF_FLAG)) { error("CredSSP: Confidiality service required but is not available.\n"); goto bail_out; } // Send token to server if (output_tok.length != 0) { if (output_tok.length > token.size) s_realloc(&token, output_tok.length); s_reset(&token); out_uint8p(&token, output_tok.value, output_tok.length); s_mark_end(&token); if (!cssp_send_tsrequest(&token, NULL, NULL)) goto bail_out; (void) gss_release_buffer(&minor_status, &output_tok); } // Read token from server if (major_status & GSS_S_CONTINUE_NEEDED) { (void) gss_release_buffer(&minor_status, &input_tok); if (!cssp_read_tsrequest(&token, NULL)) goto bail_out; input_tok.value = token.data; input_tok.length = s_length(&token); } else { // Send encrypted pubkey for verification to server context_established = 1; if (!cssp_gss_wrap(gss_ctx, &pubkey, &blob)) goto bail_out; if (!cssp_send_tsrequest(NULL, NULL, &blob)) goto bail_out; context_established = 1; } i++; } while (!context_established); // read tsrequest response and decrypt for public key validation if (!cssp_read_tsrequest(NULL, &blob)) goto bail_out; if (!cssp_gss_unwrap(gss_ctx, &blob, &pubkey_cmp)) goto bail_out; pubkey_cmp.data[0] -= 1; // validate public key if (memcmp(pubkey.data, pubkey_cmp.data, s_length(&pubkey)) != 0) { error("CredSSP: Cannot guarantee integrity of server connection, MITM ? " "(public key data mismatch)\n"); goto bail_out; } // Send TSCredentials ts_creds = cssp_encode_tscredentials(user, password, domain); if (!cssp_gss_wrap(gss_ctx, ts_creds, &blob)) goto bail_out; s_free(ts_creds); if (!cssp_send_tsrequest(NULL, &blob, NULL)) goto bail_out; return True; bail_out: xfree(token.data); return False; }