/* Unix SMB/CIFS implementation. Winbind status program. Copyright (C) Tim Potter 2000-2003 Copyright (C) Andrew Bartlett 2003-2004 Copyright (C) Francesco Chemolli 2000 Copyright (C) Robert O'Callahan 2006 (added cached credential code). Copyright (C) Kai Blin 2008 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 "popt_common.h" #include "utils/ntlm_auth.h" #include "../libcli/auth/libcli_auth.h" #include "../libcli/auth/spnego.h" #include "../libcli/auth/ntlmssp.h" #include "smb_krb5.h" #include #include "../lib/crypto/arcfour.h" #include "libads/kerberos_proto.h" #include "nsswitch/winbind_client.h" #include "librpc/gen_ndr/krb5pac.h" #ifndef PAM_WINBIND_CONFIG_FILE #define PAM_WINBIND_CONFIG_FILE "/etc/security/pam_winbind.conf" #endif #define WINBIND_KRB5_AUTH 0x00000080 #undef DBGC_CLASS #define DBGC_CLASS DBGC_WINBIND #define INITIAL_BUFFER_SIZE 300 #define MAX_BUFFER_SIZE 630000 enum stdio_helper_mode { SQUID_2_4_BASIC, SQUID_2_5_BASIC, SQUID_2_5_NTLMSSP, NTLMSSP_CLIENT_1, GSS_SPNEGO, GSS_SPNEGO_CLIENT, NTLM_SERVER_1, NTLM_CHANGE_PASSWORD_1, NUM_HELPER_MODES }; enum ntlm_auth_cli_state { CLIENT_INITIAL = 0, CLIENT_RESPONSE, CLIENT_FINISHED, CLIENT_ERROR }; enum ntlm_auth_svr_state { SERVER_INITIAL = 0, SERVER_CHALLENGE, SERVER_FINISHED, SERVER_ERROR }; struct ntlm_auth_state { TALLOC_CTX *mem_ctx; enum stdio_helper_mode helper_mode; enum ntlm_auth_cli_state cli_state; enum ntlm_auth_svr_state svr_state; struct ntlmssp_state *ntlmssp_state; uint32_t neg_flags; char *want_feature_list; char *spnego_mech; char *spnego_mech_oid; bool have_session_key; DATA_BLOB session_key; DATA_BLOB initial_message; }; typedef void (*stdio_helper_function)(struct ntlm_auth_state *state, char *buf, int length); static void manage_squid_basic_request (struct ntlm_auth_state *state, char *buf, int length); static void manage_squid_ntlmssp_request (struct ntlm_auth_state *state, char *buf, int length); static void manage_client_ntlmssp_request (struct ntlm_auth_state *state, char *buf, int length); static void manage_gss_spnego_request (struct ntlm_auth_state *state, char *buf, int length); static void manage_gss_spnego_client_request (struct ntlm_auth_state *state, char *buf, int length); static void manage_ntlm_server_1_request (struct ntlm_auth_state *state, char *buf, int length); static void manage_ntlm_change_password_1_request(struct ntlm_auth_state *state, char *buf, int length); static const struct { enum stdio_helper_mode mode; const char *name; stdio_helper_function fn; } stdio_helper_protocols[] = { { SQUID_2_4_BASIC, "squid-2.4-basic", manage_squid_basic_request}, { SQUID_2_5_BASIC, "squid-2.5-basic", manage_squid_basic_request}, { SQUID_2_5_NTLMSSP, "squid-2.5-ntlmssp", manage_squid_ntlmssp_request}, { NTLMSSP_CLIENT_1, "ntlmssp-client-1", manage_client_ntlmssp_request}, { GSS_SPNEGO, "gss-spnego", manage_gss_spnego_request}, { GSS_SPNEGO_CLIENT, "gss-spnego-client", manage_gss_spnego_client_request}, { NTLM_SERVER_1, "ntlm-server-1", manage_ntlm_server_1_request}, { NTLM_CHANGE_PASSWORD_1, "ntlm-change-password-1", manage_ntlm_change_password_1_request}, { NUM_HELPER_MODES, NULL, NULL} }; const char *opt_username; const char *opt_domain; const char *opt_workstation; const char *opt_password; static DATA_BLOB opt_challenge; static DATA_BLOB opt_lm_response; static DATA_BLOB opt_nt_response; static int request_lm_key; static int request_user_session_key; static int use_cached_creds; static const char *require_membership_of; static const char *require_membership_of_sid; static const char *opt_pam_winbind_conf; static char winbind_separator(void) { struct winbindd_response response; static bool got_sep; static char sep; if (got_sep) return sep; ZERO_STRUCT(response); /* Send off request */ if (winbindd_request_response(WINBINDD_INFO, NULL, &response) != NSS_STATUS_SUCCESS) { d_printf("could not obtain winbind separator!\n"); return *lp_winbind_separator(); } sep = response.data.info.winbind_separator; got_sep = True; if (!sep) { d_printf("winbind separator was NULL!\n"); return *lp_winbind_separator(); } return sep; } const char *get_winbind_domain(void) { struct winbindd_response response; static fstring winbind_domain; if (*winbind_domain) { return winbind_domain; } ZERO_STRUCT(response); /* Send off request */ if (winbindd_request_response(WINBINDD_DOMAIN_NAME, NULL, &response) != NSS_STATUS_SUCCESS) { DEBUG(0, ("could not obtain winbind domain name!\n")); return lp_workgroup(); } fstrcpy(winbind_domain, response.data.domain_name); return winbind_domain; } const char *get_winbind_netbios_name(void) { struct winbindd_response response; static fstring winbind_netbios_name; if (*winbind_netbios_name) { return winbind_netbios_name; } ZERO_STRUCT(response); /* Send off request */ if (winbindd_request_response(WINBINDD_NETBIOS_NAME, NULL, &response) != NSS_STATUS_SUCCESS) { DEBUG(0, ("could not obtain winbind netbios name!\n")); return global_myname(); } fstrcpy(winbind_netbios_name, response.data.netbios_name); return winbind_netbios_name; } DATA_BLOB get_challenge(void) { static DATA_BLOB chal; if (opt_challenge.length) return opt_challenge; chal = data_blob(NULL, 8); generate_random_buffer(chal.data, chal.length); return chal; } /* Copy of parse_domain_user from winbindd_util.c. Parse a string of the form DOMAIN/user into a domain and a user */ static bool parse_ntlm_auth_domain_user(const char *domuser, fstring domain, fstring user) { char *p = strchr(domuser,winbind_separator()); if (!p) { return False; } fstrcpy(user, p+1); fstrcpy(domain, domuser); domain[PTR_DIFF(p, domuser)] = 0; strupper_m(domain); return True; } static bool get_require_membership_sid(void) { struct winbindd_request request; struct winbindd_response response; if (!require_membership_of) { return True; } if (require_membership_of_sid) { return True; } /* Otherwise, ask winbindd for the name->sid request */ ZERO_STRUCT(request); ZERO_STRUCT(response); if (!parse_ntlm_auth_domain_user(require_membership_of, request.data.name.dom_name, request.data.name.name)) { DEBUG(0, ("Could not parse %s into seperate domain/name parts!\n", require_membership_of)); return False; } if (winbindd_request_response(WINBINDD_LOOKUPNAME, &request, &response) != NSS_STATUS_SUCCESS) { DEBUG(0, ("Winbindd lookupname failed to resolve %s into a SID!\n", require_membership_of)); return False; } require_membership_of_sid = SMB_STRDUP(response.data.sid.sid); if (require_membership_of_sid) return True; return False; } /* * Get some configuration from pam_winbind.conf to see if we * need to contact trusted domain */ int get_pam_winbind_config() { int ctrl = 0; dictionary *d = NULL; if (!opt_pam_winbind_conf || !*opt_pam_winbind_conf) { opt_pam_winbind_conf = PAM_WINBIND_CONFIG_FILE; } d = iniparser_load(CONST_DISCARD(char *, opt_pam_winbind_conf)); if (!d) { return 0; } if (iniparser_getboolean(d, CONST_DISCARD(char *, "global:krb5_auth"), false)) { ctrl |= WINBIND_KRB5_AUTH; } iniparser_freedict(d); return ctrl; } /* Authenticate a user with a plaintext password */ static bool check_plaintext_auth(const char *user, const char *pass, bool stdout_diagnostics) { struct winbindd_request request; struct winbindd_response response; NSS_STATUS result; if (!get_require_membership_sid()) { return False; } /* Send off request */ ZERO_STRUCT(request); ZERO_STRUCT(response); fstrcpy(request.data.auth.user, user); fstrcpy(request.data.auth.pass, pass); if (require_membership_of_sid) { strlcpy(request.data.auth.require_membership_of_sid, require_membership_of_sid, sizeof(request.data.auth.require_membership_of_sid)); } result = winbindd_request_response(WINBINDD_PAM_AUTH, &request, &response); /* Display response */ if (stdout_diagnostics) { if ((result != NSS_STATUS_SUCCESS) && (response.data.auth.nt_status == 0)) { d_printf("Reading winbind reply failed! (0x01)\n"); } d_printf("%s: %s (0x%x)\n", response.data.auth.nt_status_string, response.data.auth.error_string, response.data.auth.nt_status); } else { if ((result != NSS_STATUS_SUCCESS) && (response.data.auth.nt_status == 0)) { DEBUG(1, ("Reading winbind reply failed! (0x01)\n")); } DEBUG(3, ("%s: %s (0x%x)\n", response.data.auth.nt_status_string, response.data.auth.error_string, response.data.auth.nt_status)); } return (result == NSS_STATUS_SUCCESS); } /* authenticate a user with an encrypted username/password */ NTSTATUS contact_winbind_auth_crap(const char *username, const char *domain, const char *workstation, const DATA_BLOB *challenge, const DATA_BLOB *lm_response, const DATA_BLOB *nt_response, uint32 flags, uint8 lm_key[8], uint8 user_session_key[16], char **error_string, char **unix_name) { NTSTATUS nt_status; NSS_STATUS result; struct winbindd_request request; struct winbindd_response response; if (!get_require_membership_sid()) { return NT_STATUS_INVALID_PARAMETER; } ZERO_STRUCT(request); ZERO_STRUCT(response); request.flags = flags; request.data.auth_crap.logon_parameters = MSV1_0_ALLOW_WORKSTATION_TRUST_ACCOUNT | MSV1_0_ALLOW_SERVER_TRUST_ACCOUNT; if (require_membership_of_sid) fstrcpy(request.data.auth_crap.require_membership_of_sid, require_membership_of_sid); fstrcpy(request.data.auth_crap.user, username); fstrcpy(request.data.auth_crap.domain, domain); fstrcpy(request.data.auth_crap.workstation, workstation); memcpy(request.data.auth_crap.chal, challenge->data, MIN(challenge->length, 8)); if (lm_response && lm_response->length) { memcpy(request.data.auth_crap.lm_resp, lm_response->data, MIN(lm_response->length, sizeof(request.data.auth_crap.lm_resp))); request.data.auth_crap.lm_resp_len = lm_response->length; } if (nt_response && nt_response->length) { if (nt_response->length > sizeof(request.data.auth_crap.nt_resp)) { request.flags = request.flags | WBFLAG_BIG_NTLMV2_BLOB; request.extra_len = nt_response->length; request.extra_data.data = SMB_MALLOC_ARRAY(char, request.extra_len); if (request.extra_data.data == NULL) { return NT_STATUS_NO_MEMORY; } memcpy(request.extra_data.data, nt_response->data, nt_response->length); } else { memcpy(request.data.auth_crap.nt_resp, nt_response->data, nt_response->length); } request.data.auth_crap.nt_resp_len = nt_response->length; } result = winbindd_request_response(WINBINDD_PAM_AUTH_CRAP, &request, &response); SAFE_FREE(request.extra_data.data); /* Display response */ if ((result != NSS_STATUS_SUCCESS) && (response.data.auth.nt_status == 0)) { nt_status = NT_STATUS_UNSUCCESSFUL; if (error_string) *error_string = smb_xstrdup("Reading winbind reply failed!"); winbindd_free_response(&response); return nt_status; } nt_status = (NT_STATUS(response.data.auth.nt_status)); if (!NT_STATUS_IS_OK(nt_status)) { if (error_string) *error_string = smb_xstrdup(response.data.auth.error_string); winbindd_free_response(&response); return nt_status; } if ((flags & WBFLAG_PAM_LMKEY) && lm_key) { memcpy(lm_key, response.data.auth.first_8_lm_hash, sizeof(response.data.auth.first_8_lm_hash)); } if ((flags & WBFLAG_PAM_USER_SESSION_KEY) && user_session_key) { memcpy(user_session_key, response.data.auth.user_session_key, sizeof(response.data.auth.user_session_key)); } if (flags & WBFLAG_PAM_UNIX_NAME) { *unix_name = SMB_STRDUP(response.data.auth.unix_username); if (!*unix_name) { winbindd_free_response(&response); return NT_STATUS_NO_MEMORY; } } winbindd_free_response(&response); return nt_status; } /* contact server to change user password using auth crap */ static NTSTATUS contact_winbind_change_pswd_auth_crap(const char *username, const char *domain, const DATA_BLOB new_nt_pswd, const DATA_BLOB old_nt_hash_enc, const DATA_BLOB new_lm_pswd, const DATA_BLOB old_lm_hash_enc, char **error_string) { NTSTATUS nt_status; NSS_STATUS result; struct winbindd_request request; struct winbindd_response response; if (!get_require_membership_sid()) { if(error_string) *error_string = smb_xstrdup("Can't get membership sid."); return NT_STATUS_INVALID_PARAMETER; } ZERO_STRUCT(request); ZERO_STRUCT(response); if(username != NULL) fstrcpy(request.data.chng_pswd_auth_crap.user, username); if(domain != NULL) fstrcpy(request.data.chng_pswd_auth_crap.domain,domain); if(new_nt_pswd.length) { memcpy(request.data.chng_pswd_auth_crap.new_nt_pswd, new_nt_pswd.data, sizeof(request.data.chng_pswd_auth_crap.new_nt_pswd)); request.data.chng_pswd_auth_crap.new_nt_pswd_len = new_nt_pswd.length; } if(old_nt_hash_enc.length) { memcpy(request.data.chng_pswd_auth_crap.old_nt_hash_enc, old_nt_hash_enc.data, sizeof(request.data.chng_pswd_auth_crap.old_nt_hash_enc)); request.data.chng_pswd_auth_crap.old_nt_hash_enc_len = old_nt_hash_enc.length; } if(new_lm_pswd.length) { memcpy(request.data.chng_pswd_auth_crap.new_lm_pswd, new_lm_pswd.data, sizeof(request.data.chng_pswd_auth_crap.new_lm_pswd)); request.data.chng_pswd_auth_crap.new_lm_pswd_len = new_lm_pswd.length; } if(old_lm_hash_enc.length) { memcpy(request.data.chng_pswd_auth_crap.old_lm_hash_enc, old_lm_hash_enc.data, sizeof(request.data.chng_pswd_auth_crap.old_lm_hash_enc)); request.data.chng_pswd_auth_crap.old_lm_hash_enc_len = old_lm_hash_enc.length; } result = winbindd_request_response(WINBINDD_PAM_CHNG_PSWD_AUTH_CRAP, &request, &response); /* Display response */ if ((result != NSS_STATUS_SUCCESS) && (response.data.auth.nt_status == 0)) { nt_status = NT_STATUS_UNSUCCESSFUL; if (error_string) *error_string = smb_xstrdup("Reading winbind reply failed!"); winbindd_free_response(&response); return nt_status; } nt_status = (NT_STATUS(response.data.auth.nt_status)); if (!NT_STATUS_IS_OK(nt_status)) { if (error_string) *error_string = smb_xstrdup(response.data.auth.error_string); winbindd_free_response(&response); return nt_status; } winbindd_free_response(&response); return nt_status; } static NTSTATUS winbind_pw_check(struct ntlmssp_state *ntlmssp_state, TALLOC_CTX *mem_ctx, DATA_BLOB *user_session_key, DATA_BLOB *lm_session_key) { static const char zeros[16] = { 0, }; NTSTATUS nt_status; char *error_string = NULL; uint8 lm_key[8]; uint8 user_sess_key[16]; char *unix_name = NULL; nt_status = contact_winbind_auth_crap(ntlmssp_state->user, ntlmssp_state->domain, ntlmssp_state->client.netbios_name, &ntlmssp_state->chal, &ntlmssp_state->lm_resp, &ntlmssp_state->nt_resp, WBFLAG_PAM_LMKEY | WBFLAG_PAM_USER_SESSION_KEY | WBFLAG_PAM_UNIX_NAME, lm_key, user_sess_key, &error_string, &unix_name); if (NT_STATUS_IS_OK(nt_status)) { if (memcmp(lm_key, zeros, 8) != 0) { *lm_session_key = data_blob_talloc(mem_ctx, NULL, 16); memcpy(lm_session_key->data, lm_key, 8); memset(lm_session_key->data+8, '\0', 8); } if (memcmp(user_sess_key, zeros, 16) != 0) { *user_session_key = data_blob_talloc(mem_ctx, user_sess_key, 16); } ntlmssp_state->callback_private = talloc_strdup(ntlmssp_state, unix_name); } else { DEBUG(NT_STATUS_EQUAL(nt_status, NT_STATUS_ACCESS_DENIED) ? 0 : 3, ("Login for user [%s]\\[%s]@[%s] failed due to [%s]\n", ntlmssp_state->domain, ntlmssp_state->user, ntlmssp_state->client.netbios_name, error_string ? error_string : "unknown error (NULL)")); ntlmssp_state->callback_private = NULL; } SAFE_FREE(error_string); SAFE_FREE(unix_name); return nt_status; } static NTSTATUS local_pw_check(struct ntlmssp_state *ntlmssp_state, TALLOC_CTX *mem_ctx, DATA_BLOB *user_session_key, DATA_BLOB *lm_session_key) { NTSTATUS nt_status; struct samr_Password lm_pw, nt_pw; nt_lm_owf_gen (opt_password, nt_pw.hash, lm_pw.hash); nt_status = ntlm_password_check(mem_ctx, true, true, 0, &ntlmssp_state->chal, &ntlmssp_state->lm_resp, &ntlmssp_state->nt_resp, ntlmssp_state->user, ntlmssp_state->user, ntlmssp_state->domain, &lm_pw, &nt_pw, user_session_key, lm_session_key); if (NT_STATUS_IS_OK(nt_status)) { ntlmssp_state->callback_private = talloc_asprintf(ntlmssp_state, "%s%c%s", ntlmssp_state->domain, *lp_winbind_separator(), ntlmssp_state->user); } else { DEBUG(3, ("Login for user [%s]\\[%s]@[%s] failed due to [%s]\n", ntlmssp_state->domain, ntlmssp_state->user, ntlmssp_state->client.netbios_name, nt_errstr(nt_status))); ntlmssp_state->callback_private = NULL; } return nt_status; } static NTSTATUS ntlm_auth_start_ntlmssp_client(struct ntlmssp_state **client_ntlmssp_state) { NTSTATUS status; if ( (opt_username == NULL) || (opt_domain == NULL) ) { status = NT_STATUS_UNSUCCESSFUL; DEBUG(1, ("Need username and domain for NTLMSSP\n")); return NT_STATUS_INVALID_PARAMETER; } status = ntlmssp_client_start(NULL, global_myname(), lp_workgroup(), lp_client_ntlmv2_auth(), client_ntlmssp_state); if (!NT_STATUS_IS_OK(status)) { DEBUG(1, ("Could not start NTLMSSP client: %s\n", nt_errstr(status))); TALLOC_FREE(*client_ntlmssp_state); return status; } status = ntlmssp_set_username(*client_ntlmssp_state, opt_username); if (!NT_STATUS_IS_OK(status)) { DEBUG(1, ("Could not set username: %s\n", nt_errstr(status))); TALLOC_FREE(*client_ntlmssp_state); return status; } status = ntlmssp_set_domain(*client_ntlmssp_state, opt_domain); if (!NT_STATUS_IS_OK(status)) { DEBUG(1, ("Could not set domain: %s\n", nt_errstr(status))); TALLOC_FREE(*client_ntlmssp_state); return status; } if (opt_password) { status = ntlmssp_set_password(*client_ntlmssp_state, opt_password); if (!NT_STATUS_IS_OK(status)) { DEBUG(1, ("Could not set password: %s\n", nt_errstr(status))); TALLOC_FREE(*client_ntlmssp_state); return status; } } return NT_STATUS_OK; } static NTSTATUS ntlm_auth_start_ntlmssp_server(struct ntlmssp_state **ntlmssp_state) { NTSTATUS status; const char *netbios_name; const char *netbios_domain; const char *dns_name; char *dns_domain; bool is_standalone = false; if (opt_password) { netbios_name = global_myname(); netbios_domain = lp_workgroup(); } else { netbios_name = get_winbind_netbios_name(); netbios_domain = get_winbind_domain(); } /* This should be a 'netbios domain -> DNS domain' mapping */ dns_domain = get_mydnsdomname(talloc_tos()); if (dns_domain) { strlower_m(dns_domain); } dns_name = get_mydnsfullname(); status = ntlmssp_server_start(NULL, is_standalone, netbios_name, netbios_domain, dns_name, dns_domain, ntlmssp_state); if (!NT_STATUS_IS_OK(status)) { DEBUG(1, ("Could not start NTLMSSP server: %s\n", nt_errstr(status))); return status; } /* Have we been given a local password, or should we ask winbind? */ if (opt_password) { (*ntlmssp_state)->check_password = local_pw_check; } else { (*ntlmssp_state)->check_password = winbind_pw_check; } return NT_STATUS_OK; } /******************************************************************* Used by firefox to drive NTLM auth to IIS servers. *******************************************************************/ static NTSTATUS do_ccache_ntlm_auth(DATA_BLOB initial_msg, DATA_BLOB challenge_msg, DATA_BLOB *reply) { struct winbindd_request wb_request; struct winbindd_response wb_response; int ctrl = 0; NSS_STATUS result; /* get winbindd to do the ntlmssp step on our behalf */ ZERO_STRUCT(wb_request); ZERO_STRUCT(wb_response); /* * This is tricky here. If we set krb5_auth in pam_winbind.conf * creds for users in trusted domain will be stored the winbindd * child of the trusted domain. If we ask the primary domain for * ntlm_ccache_auth, it will fail. So, we have to ask the trusted * domain's child for ccache_ntlm_auth. that is to say, we have to * set WBFLAG_PAM_CONTACT_TRUSTDOM in request.flags. */ ctrl = get_pam_winbind_config(); if (ctrl | WINBIND_KRB5_AUTH) { wb_request.flags |= WBFLAG_PAM_CONTACT_TRUSTDOM; } fstr_sprintf(wb_request.data.ccache_ntlm_auth.user, "%s%c%s", opt_domain, winbind_separator(), opt_username); wb_request.data.ccache_ntlm_auth.uid = geteuid(); wb_request.data.ccache_ntlm_auth.initial_blob_len = initial_msg.length; wb_request.data.ccache_ntlm_auth.challenge_blob_len = challenge_msg.length; wb_request.extra_len = initial_msg.length + challenge_msg.length; if (wb_request.extra_len > 0) { wb_request.extra_data.data = SMB_MALLOC_ARRAY(char, wb_request.extra_len); if (wb_request.extra_data.data == NULL) { return NT_STATUS_NO_MEMORY; } memcpy(wb_request.extra_data.data, initial_msg.data, initial_msg.length); memcpy(wb_request.extra_data.data + initial_msg.length, challenge_msg.data, challenge_msg.length); } result = winbindd_request_response(WINBINDD_CCACHE_NTLMAUTH, &wb_request, &wb_response); SAFE_FREE(wb_request.extra_data.data); if (result != NSS_STATUS_SUCCESS) { winbindd_free_response(&wb_response); return NT_STATUS_UNSUCCESSFUL; } if (reply) { *reply = data_blob(wb_response.extra_data.data, wb_response.data.ccache_ntlm_auth.auth_blob_len); if (wb_response.data.ccache_ntlm_auth.auth_blob_len > 0 && reply->data == NULL) { winbindd_free_response(&wb_response); return NT_STATUS_NO_MEMORY; } } winbindd_free_response(&wb_response); return NT_STATUS_MORE_PROCESSING_REQUIRED; } static void manage_squid_ntlmssp_request_int(struct ntlm_auth_state *state, char *buf, int length, TALLOC_CTX *mem_ctx, char **response) { DATA_BLOB request, reply; NTSTATUS nt_status; if (strlen(buf) < 2) { DEBUG(1, ("NTLMSSP query [%s] invalid\n", buf)); *response = talloc_strdup(mem_ctx, "BH NTLMSSP query invalid"); return; } if (strlen(buf) > 3) { if(strncmp(buf, "SF ", 3) == 0){ DEBUG(10, ("Setting flags to negotioate\n")); TALLOC_FREE(state->want_feature_list); state->want_feature_list = talloc_strdup(state->mem_ctx, buf+3); *response = talloc_strdup(mem_ctx, "OK"); return; } request = base64_decode_data_blob(buf + 3); } else { request = data_blob_null; } if ((strncmp(buf, "PW ", 3) == 0)) { /* The calling application wants us to use a local password * (rather than winbindd) */ opt_password = SMB_STRNDUP((const char *)request.data, request.length); if (opt_password == NULL) { DEBUG(1, ("Out of memory\n")); *response = talloc_strdup(mem_ctx, "BH Out of memory"); data_blob_free(&request); return; } *response = talloc_strdup(mem_ctx, "OK"); data_blob_free(&request); return; } if (strncmp(buf, "YR", 2) == 0) { TALLOC_FREE(state->ntlmssp_state); state->svr_state = SERVER_INITIAL; } else if (strncmp(buf, "KK", 2) == 0) { /* No special preprocessing required */ } else if (strncmp(buf, "GF", 2) == 0) { DEBUG(10, ("Requested negotiated NTLMSSP flags\n")); if (state->svr_state == SERVER_FINISHED) { *response = talloc_asprintf(mem_ctx, "GF 0x%08x", state->neg_flags); } else { *response = talloc_strdup(mem_ctx, "BH\n"); } data_blob_free(&request); return; } else if (strncmp(buf, "GK", 2) == 0) { DEBUG(10, ("Requested NTLMSSP session key\n")); if(state->have_session_key) { char *key64 = base64_encode_data_blob(state->mem_ctx, state->session_key); *response = talloc_asprintf(mem_ctx, "GK %s", key64 ? key64 : ""); TALLOC_FREE(key64); } else { *response = talloc_strdup(mem_ctx, "BH"); } data_blob_free(&request); return; } else { DEBUG(1, ("NTLMSSP query [%s] invalid\n", buf)); *response = talloc_strdup(mem_ctx, "BH NTLMSSP query invalid"); return; } if (!state->ntlmssp_state) { nt_status = ntlm_auth_start_ntlmssp_server( &state->ntlmssp_state); if (!NT_STATUS_IS_OK(nt_status)) { *response = talloc_asprintf( mem_ctx, "BH %s", nt_errstr(nt_status)); return; } ntlmssp_want_feature_list(state->ntlmssp_state, state->want_feature_list); } DEBUG(10, ("got NTLMSSP packet:\n")); dump_data(10, request.data, request.length); nt_status = ntlmssp_update(state->ntlmssp_state, request, &reply); if (NT_STATUS_EQUAL(nt_status, NT_STATUS_MORE_PROCESSING_REQUIRED)) { char *reply_base64 = base64_encode_data_blob(state->mem_ctx, reply); *response = talloc_asprintf(mem_ctx, "TT %s", reply_base64); TALLOC_FREE(reply_base64); data_blob_free(&reply); state->svr_state = SERVER_CHALLENGE; DEBUG(10, ("NTLMSSP challenge\n")); } else if (NT_STATUS_EQUAL(nt_status, NT_STATUS_ACCESS_DENIED)) { *response = talloc_asprintf(mem_ctx, "BH %s", nt_errstr(nt_status)); DEBUG(0, ("NTLMSSP BH: %s\n", nt_errstr(nt_status))); TALLOC_FREE(state->ntlmssp_state); } else if (!NT_STATUS_IS_OK(nt_status)) { *response = talloc_asprintf(mem_ctx, "NA %s", nt_errstr(nt_status)); DEBUG(10, ("NTLMSSP %s\n", nt_errstr(nt_status))); } else { *response = talloc_asprintf( mem_ctx, "AF %s", (char *)state->ntlmssp_state->callback_private); DEBUG(10, ("NTLMSSP OK!\n")); if(state->have_session_key) data_blob_free(&state->session_key); state->session_key = data_blob( state->ntlmssp_state->session_key.data, state->ntlmssp_state->session_key.length); state->neg_flags = state->ntlmssp_state->neg_flags; state->have_session_key = true; state->svr_state = SERVER_FINISHED; } data_blob_free(&request); } static void manage_squid_ntlmssp_request(struct ntlm_auth_state *state, char *buf, int length) { char *response; manage_squid_ntlmssp_request_int(state, buf, length, talloc_tos(), &response); if (response == NULL) { x_fprintf(x_stdout, "BH Out of memory\n"); return; } x_fprintf(x_stdout, "%s\n", response); TALLOC_FREE(response); } static void manage_client_ntlmssp_request(struct ntlm_auth_state *state, char *buf, int length) { DATA_BLOB request, reply; NTSTATUS nt_status; if (!opt_username || !*opt_username) { x_fprintf(x_stderr, "username must be specified!\n\n"); exit(1); } if (strlen(buf) < 2) { DEBUG(1, ("NTLMSSP query [%s] invalid\n", buf)); x_fprintf(x_stdout, "BH NTLMSSP query invalid\n"); return; } if (strlen(buf) > 3) { if(strncmp(buf, "SF ", 3) == 0) { DEBUG(10, ("Looking for flags to negotiate\n")); talloc_free(state->want_feature_list); state->want_feature_list = talloc_strdup(state->mem_ctx, buf+3); x_fprintf(x_stdout, "OK\n"); return; } request = base64_decode_data_blob(buf + 3); } else { request = data_blob_null; } if (strncmp(buf, "PW ", 3) == 0) { /* We asked for a password and obviously got it :-) */ opt_password = SMB_STRNDUP((const char *)request.data, request.length); if (opt_password == NULL) { DEBUG(1, ("Out of memory\n")); x_fprintf(x_stdout, "BH Out of memory\n"); data_blob_free(&request); return; } x_fprintf(x_stdout, "OK\n"); data_blob_free(&request); return; } if (!state->ntlmssp_state && use_cached_creds) { /* check whether cached credentials are usable. */ DATA_BLOB empty_blob = data_blob_null; nt_status = do_ccache_ntlm_auth(empty_blob, empty_blob, NULL); if (!NT_STATUS_EQUAL(nt_status, NT_STATUS_MORE_PROCESSING_REQUIRED)) { /* failed to use cached creds */ use_cached_creds = False; } } if (opt_password == NULL && !use_cached_creds) { /* Request a password from the calling process. After sending it, the calling process should retry asking for the negotiate. */ DEBUG(10, ("Requesting password\n")); x_fprintf(x_stdout, "PW\n"); return; } if (strncmp(buf, "YR", 2) == 0) { TALLOC_FREE(state->ntlmssp_state); state->cli_state = CLIENT_INITIAL; } else if (strncmp(buf, "TT", 2) == 0) { /* No special preprocessing required */ } else if (strncmp(buf, "GF", 2) == 0) { DEBUG(10, ("Requested negotiated NTLMSSP flags\n")); if(state->cli_state == CLIENT_FINISHED) { x_fprintf(x_stdout, "GF 0x%08x\n", state->neg_flags); } else { x_fprintf(x_stdout, "BH\n"); } data_blob_free(&request); return; } else if (strncmp(buf, "GK", 2) == 0 ) { DEBUG(10, ("Requested session key\n")); if(state->cli_state == CLIENT_FINISHED) { char *key64 = base64_encode_data_blob(state->mem_ctx, state->session_key); x_fprintf(x_stdout, "GK %s\n", key64?key64:""); TALLOC_FREE(key64); } else { x_fprintf(x_stdout, "BH\n"); } data_blob_free(&request); return; } else { DEBUG(1, ("NTLMSSP query [%s] invalid\n", buf)); x_fprintf(x_stdout, "BH NTLMSSP query invalid\n"); return; } if (!state->ntlmssp_state) { nt_status = ntlm_auth_start_ntlmssp_client( &state->ntlmssp_state); if (!NT_STATUS_IS_OK(nt_status)) { x_fprintf(x_stdout, "BH %s\n", nt_errstr(nt_status)); return; } ntlmssp_want_feature_list(state->ntlmssp_state, state->want_feature_list); state->initial_message = data_blob_null; } DEBUG(10, ("got NTLMSSP packet:\n")); dump_data(10, request.data, request.length); if (use_cached_creds && !opt_password && (state->cli_state == CLIENT_RESPONSE)) { nt_status = do_ccache_ntlm_auth(state->initial_message, request, &reply); } else { nt_status = ntlmssp_update(state->ntlmssp_state, request, &reply); } if (NT_STATUS_EQUAL(nt_status, NT_STATUS_MORE_PROCESSING_REQUIRED)) { char *reply_base64 = base64_encode_data_blob(state->mem_ctx, reply); if (state->cli_state == CLIENT_INITIAL) { x_fprintf(x_stdout, "YR %s\n", reply_base64); state->initial_message = reply; state->cli_state = CLIENT_RESPONSE; } else { x_fprintf(x_stdout, "KK %s\n", reply_base64); data_blob_free(&reply); } TALLOC_FREE(reply_base64); DEBUG(10, ("NTLMSSP challenge\n")); } else if (NT_STATUS_IS_OK(nt_status)) { char *reply_base64 = base64_encode_data_blob(talloc_tos(), reply); x_fprintf(x_stdout, "AF %s\n", reply_base64); TALLOC_FREE(reply_base64); if(state->have_session_key) data_blob_free(&state->session_key); state->session_key = data_blob( state->ntlmssp_state->session_key.data, state->ntlmssp_state->session_key.length); state->neg_flags = state->ntlmssp_state->neg_flags; state->have_session_key = true; DEBUG(10, ("NTLMSSP OK!\n")); state->cli_state = CLIENT_FINISHED; TALLOC_FREE(state->ntlmssp_state); } else { x_fprintf(x_stdout, "BH %s\n", nt_errstr(nt_status)); DEBUG(0, ("NTLMSSP BH: %s\n", nt_errstr(nt_status))); state->cli_state = CLIENT_ERROR; TALLOC_FREE(state->ntlmssp_state); } data_blob_free(&request); } static void manage_squid_basic_request(struct ntlm_auth_state *state, char *buf, int length) { char *user, *pass; user=buf; pass=(char *)memchr(buf,' ',length); if (!pass) { DEBUG(2, ("Password not found. Denying access\n")); x_fprintf(x_stdout, "ERR\n"); return; } *pass='\0'; pass++; if (state->helper_mode == SQUID_2_5_BASIC) { rfc1738_unescape(user); rfc1738_unescape(pass); } if (check_plaintext_auth(user, pass, False)) { x_fprintf(x_stdout, "OK\n"); } else { x_fprintf(x_stdout, "ERR\n"); } } static void offer_gss_spnego_mechs(void) { DATA_BLOB token; struct spnego_data spnego; ssize_t len; char *reply_base64; TALLOC_CTX *ctx = talloc_tos(); char *principal; char *myname_lower; ZERO_STRUCT(spnego); myname_lower = talloc_strdup(ctx, global_myname()); if (!myname_lower) { return; } strlower_m(myname_lower); principal = talloc_asprintf(ctx, "%s$@%s", myname_lower, lp_realm()); if (!principal) { return; } /* Server negTokenInit (mech offerings) */ spnego.type = SPNEGO_NEG_TOKEN_INIT; spnego.negTokenInit.mechTypes = talloc_array(ctx, const char *, 4); #ifdef HAVE_KRB5 spnego.negTokenInit.mechTypes[0] = talloc_strdup(ctx, OID_KERBEROS5_OLD); spnego.negTokenInit.mechTypes[1] = talloc_strdup(ctx, OID_KERBEROS5); spnego.negTokenInit.mechTypes[2] = talloc_strdup(ctx, OID_NTLMSSP); spnego.negTokenInit.mechTypes[3] = NULL; #else spnego.negTokenInit.mechTypes[0] = talloc_strdup(ctx, OID_NTLMSSP); spnego.negTokenInit.mechTypes[1] = NULL; #endif spnego.negTokenInit.mechListMIC = data_blob_talloc(ctx, principal, strlen(principal)); len = spnego_write_data(ctx, &token, &spnego); spnego_free_data(&spnego); if (len == -1) { DEBUG(1, ("Could not write SPNEGO data blob\n")); x_fprintf(x_stdout, "BH Could not write SPNEGO data blob\n"); return; } reply_base64 = base64_encode_data_blob(talloc_tos(), token); x_fprintf(x_stdout, "TT %s *\n", reply_base64); TALLOC_FREE(reply_base64); data_blob_free(&token); DEBUG(10, ("sent SPNEGO negTokenInit\n")); return; } bool spnego_parse_krb5_wrap(TALLOC_CTX *ctx, DATA_BLOB blob, DATA_BLOB *ticket, uint8 tok_id[2]) { bool ret; ASN1_DATA *data; int data_remaining; data = asn1_init(talloc_tos()); if (data == NULL) { return false; } asn1_load(data, blob); asn1_start_tag(data, ASN1_APPLICATION(0)); asn1_check_OID(data, OID_KERBEROS5); data_remaining = asn1_tag_remaining(data); if (data_remaining < 3) { data->has_error = True; } else { asn1_read(data, tok_id, 2); data_remaining -= 2; *ticket = data_blob_talloc(ctx, NULL, data_remaining); asn1_read(data, ticket->data, ticket->length); } asn1_end_tag(data); ret = !data->has_error; if (data->has_error) { data_blob_free(ticket); } asn1_free(data); return ret; } static void manage_gss_spnego_request(struct ntlm_auth_state *state, char *buf, int length) { struct spnego_data request, response; DATA_BLOB token; DATA_BLOB raw_in_token = data_blob_null; DATA_BLOB raw_out_token = data_blob_null; NTSTATUS status; ssize_t len; TALLOC_CTX *ctx = talloc_tos(); char *user = NULL; char *domain = NULL; const char *reply_code; char *reply_base64; char *reply_argument = NULL; char *supportedMech = NULL; if (strlen(buf) < 2) { DEBUG(1, ("SPENGO query [%s] invalid\n", buf)); x_fprintf(x_stdout, "BH SPENGO query invalid\n"); return; } if (strncmp(buf, "YR", 2) == 0) { TALLOC_FREE(state->ntlmssp_state); TALLOC_FREE(state->spnego_mech); TALLOC_FREE(state->spnego_mech_oid); } else if (strncmp(buf, "KK", 2) == 0) { ; } else { DEBUG(1, ("SPENGO query [%s] invalid\n", buf)); x_fprintf(x_stdout, "BH SPENGO query invalid\n"); return; } if ( (strlen(buf) == 2)) { /* no client data, get the negTokenInit offering mechanisms */ offer_gss_spnego_mechs(); return; } /* All subsequent requests have a blob. This might be negTokenInit or negTokenTarg */ if (strlen(buf) <= 3) { DEBUG(1, ("GSS-SPNEGO query [%s] invalid\n", buf)); x_fprintf(x_stdout, "BH GSS-SPNEGO query invalid\n"); return; } token = base64_decode_data_blob(buf + 3); if ((token.length >= 7) && (strncmp((char *)token.data, "NTLMSSP", 7) == 0)) { char *reply; data_blob_free(&token); DEBUG(10, ("Could not parse GSS-SPNEGO, trying raw " "ntlmssp\n")); manage_squid_ntlmssp_request_int(state, buf, length, talloc_tos(), &reply); if (reply == NULL) { x_fprintf(x_stdout, "BH Out of memory\n"); return; } if (strncmp(reply, "AF ", 3) == 0) { x_fprintf(x_stdout, "AF * %s\n", reply+3); } else { x_fprintf(x_stdout, "%s *\n", reply); } TALLOC_FREE(reply); return; } ZERO_STRUCT(request); len = spnego_read_data(ctx, token, &request); data_blob_free(&token); if (len == -1) { DEBUG(1, ("GSS-SPNEGO query [%s] invalid\n", buf)); x_fprintf(x_stdout, "BH GSS-SPNEGO query invalid\n"); return; } if (request.type == SPNEGO_NEG_TOKEN_INIT) { #ifdef HAVE_KRB5 int krb5_idx = -1; #endif int ntlm_idx = -1; int used_idx = -1; int i; if (state->spnego_mech) { DEBUG(1, ("Client restarted SPNEGO with NegTokenInit " "while mech[%s] was already negotiated\n", state->spnego_mech)); x_fprintf(x_stdout, "BH Client send NegTokenInit twice\n"); return; } /* Second request from Client. This is where the client offers its mechanism to use. */ if ( (request.negTokenInit.mechTypes == NULL) || (request.negTokenInit.mechTypes[0] == NULL) ) { DEBUG(1, ("Client did not offer any mechanism\n")); x_fprintf(x_stdout, "BH Client did not offer any " "mechanism\n"); return; } status = NT_STATUS_UNSUCCESSFUL; for (i = 0; request.negTokenInit.mechTypes[i] != NULL; i++) { DEBUG(10,("got mech[%d][%s]\n", i, request.negTokenInit.mechTypes[i])); #ifdef HAVE_KRB5 if (strcmp(request.negTokenInit.mechTypes[i], OID_KERBEROS5_OLD) == 0) { krb5_idx = i; break; } if (strcmp(request.negTokenInit.mechTypes[i], OID_KERBEROS5) == 0) { krb5_idx = i; break; } #endif if (strcmp(request.negTokenInit.mechTypes[i], OID_NTLMSSP) == 0) { ntlm_idx = i; break; } } used_idx = ntlm_idx; #ifdef HAVE_KRB5 if (krb5_idx != -1) { ntlm_idx = -1; used_idx = krb5_idx; } #endif if (ntlm_idx > -1) { state->spnego_mech = talloc_strdup(state, "ntlmssp"); if (state->spnego_mech == NULL) { x_fprintf(x_stdout, "BH Out of memory\n"); return; } if (state->ntlmssp_state) { DEBUG(1, ("Client wants a new NTLMSSP challenge, but " "already got one\n")); x_fprintf(x_stdout, "BH Client wants a new " "NTLMSSP challenge, but " "already got one\n"); TALLOC_FREE(state->ntlmssp_state); return; } status = ntlm_auth_start_ntlmssp_server(&state->ntlmssp_state); if (!NT_STATUS_IS_OK(status)) { x_fprintf(x_stdout, "BH %s\n", nt_errstr(status)); return; } } #ifdef HAVE_KRB5 if (krb5_idx > -1) { state->spnego_mech = talloc_strdup(state, "krb5"); if (state->spnego_mech == NULL) { x_fprintf(x_stdout, "BH Out of memory\n"); return; } } #endif if (used_idx > -1) { state->spnego_mech_oid = talloc_strdup(state, request.negTokenInit.mechTypes[used_idx]); if (state->spnego_mech_oid == NULL) { x_fprintf(x_stdout, "BH Out of memory\n"); return; } supportedMech = talloc_strdup(ctx, state->spnego_mech_oid); if (supportedMech == NULL) { x_fprintf(x_stdout, "BH Out of memory\n"); return; } status = NT_STATUS_MORE_PROCESSING_REQUIRED; } else { status = NT_STATUS_NOT_SUPPORTED; } if (used_idx == 0) { status = NT_STATUS_OK; raw_in_token = request.negTokenInit.mechToken; } } else { if (state->spnego_mech == NULL) { DEBUG(1,("Got netTokenTarg without negTokenInit\n")); x_fprintf(x_stdout, "BH Got a negTokenTarg without " "negTokenInit\n"); return; } if ((request.negTokenTarg.supportedMech != NULL) && (strcmp(request.negTokenTarg.supportedMech, state->spnego_mech_oid) != 0 ) ) { DEBUG(1, ("Got a negTokenTarg with mech[%s] while [%s] was already negotiated\n", request.negTokenTarg.supportedMech, state->spnego_mech_oid)); x_fprintf(x_stdout, "BH Got a negTokenTarg with speficied mech\n"); return; } status = NT_STATUS_OK; raw_in_token = request.negTokenTarg.responseToken; } if (!NT_STATUS_IS_OK(status)) { /* error or more processing */ } else if (strcmp(state->spnego_mech, "ntlmssp") == 0) { DEBUG(10, ("got NTLMSSP packet:\n")); dump_data(10, raw_in_token.data, raw_in_token.length); status = ntlmssp_update(state->ntlmssp_state, raw_in_token, &raw_out_token); if (NT_STATUS_IS_OK(status)) { user = talloc_strdup(ctx, state->ntlmssp_state->user); domain = talloc_strdup(ctx, state->ntlmssp_state->domain); } if (!NT_STATUS_EQUAL(status, NT_STATUS_MORE_PROCESSING_REQUIRED)) { TALLOC_FREE(state->ntlmssp_state); } #ifdef HAVE_KRB5 } else if (strcmp(state->spnego_mech, "krb5") == 0) { char *principal; DATA_BLOB ap_rep; DATA_BLOB session_key; struct PAC_LOGON_INFO *logon_info = NULL; DATA_BLOB ticket; uint8_t tok_id[2]; if (!spnego_parse_krb5_wrap(ctx, raw_in_token, &ticket, tok_id)) { DEBUG(1, ("spnego_parse_krb5_wrap failed\n")); x_fprintf(x_stdout, "BH spnego_parse_krb5_wrap failed\n"); return; } status = ads_verify_ticket(ctx, lp_realm(), 0, &ticket, &principal, &logon_info, &ap_rep, &session_key, True); /* Now in "principal" we have the name we are authenticated as. */ if (NT_STATUS_IS_OK(status)) { domain = strchr_m(principal, '@'); if (domain == NULL) { DEBUG(1, ("Did not get a valid principal " "from ads_verify_ticket\n")); x_fprintf(x_stdout, "BH Did not get a " "valid principal from " "ads_verify_ticket\n"); return; } *domain++ = '\0'; domain = talloc_strdup(ctx, domain); user = talloc_strdup(ctx, principal); if (logon_info) { netsamlogon_cache_store( user, &logon_info->info3); } data_blob_free(&ap_rep); data_blob_free(&session_key); } data_blob_free(&ticket); #endif } spnego_free_data(&request); ZERO_STRUCT(response); response.type = SPNEGO_NEG_TOKEN_TARG; if (NT_STATUS_IS_OK(status)) { TALLOC_FREE(state->spnego_mech); TALLOC_FREE(state->spnego_mech_oid); response.negTokenTarg.negResult = SPNEGO_ACCEPT_COMPLETED; response.negTokenTarg.responseToken = raw_out_token; reply_code = "AF"; reply_argument = talloc_asprintf(ctx, "%s\\%s", domain, user); } else if (NT_STATUS_EQUAL(status, NT_STATUS_MORE_PROCESSING_REQUIRED)) { response.negTokenTarg.supportedMech = supportedMech; response.negTokenTarg.responseToken = raw_out_token; response.negTokenTarg.negResult = SPNEGO_ACCEPT_INCOMPLETE; reply_code = "TT"; reply_argument = talloc_strdup(ctx, "*"); } else { TALLOC_FREE(state->spnego_mech); TALLOC_FREE(state->spnego_mech_oid); data_blob_free(&raw_out_token); response.negTokenTarg.negResult = SPNEGO_REJECT; reply_code = "NA"; reply_argument = talloc_strdup(ctx, nt_errstr(status)); } if (!reply_argument) { DEBUG(1, ("Could not write SPNEGO data blob\n")); x_fprintf(x_stdout, "BH Could not write SPNEGO data blob\n"); spnego_free_data(&response); return; } len = spnego_write_data(ctx, &token, &response); spnego_free_data(&response); if (len == -1) { DEBUG(1, ("Could not write SPNEGO data blob\n")); x_fprintf(x_stdout, "BH Could not write SPNEGO data blob\n"); return; } reply_base64 = base64_encode_data_blob(talloc_tos(), token); x_fprintf(x_stdout, "%s %s %s\n", reply_code, reply_base64, reply_argument); TALLOC_FREE(reply_base64); data_blob_free(&token); return; } static struct ntlmssp_state *client_ntlmssp_state = NULL; static bool manage_client_ntlmssp_init(struct spnego_data spnego) { NTSTATUS status; DATA_BLOB null_blob = data_blob_null; DATA_BLOB to_server; char *to_server_base64; const char *my_mechs[] = {OID_NTLMSSP, NULL}; TALLOC_CTX *ctx = talloc_tos(); DEBUG(10, ("Got spnego negTokenInit with NTLMSSP\n")); if (client_ntlmssp_state != NULL) { DEBUG(1, ("Request for initial SPNEGO request where " "we already have a state\n")); return False; } if (!client_ntlmssp_state) { if (!NT_STATUS_IS_OK(status = ntlm_auth_start_ntlmssp_client(&client_ntlmssp_state))) { x_fprintf(x_stdout, "BH %s\n", nt_errstr(status)); return False; } } if (opt_password == NULL) { /* Request a password from the calling process. After sending it, the calling process should retry with the negTokenInit. */ DEBUG(10, ("Requesting password\n")); x_fprintf(x_stdout, "PW\n"); return True; } spnego.type = SPNEGO_NEG_TOKEN_INIT; spnego.negTokenInit.mechTypes = my_mechs; spnego.negTokenInit.reqFlags = data_blob_null; spnego.negTokenInit.reqFlagsPadding = 0; spnego.negTokenInit.mechListMIC = null_blob; status = ntlmssp_update(client_ntlmssp_state, null_blob, &spnego.negTokenInit.mechToken); if ( !(NT_STATUS_EQUAL(status, NT_STATUS_MORE_PROCESSING_REQUIRED) || NT_STATUS_IS_OK(status)) ) { DEBUG(1, ("Expected OK or MORE_PROCESSING_REQUIRED, got: %s\n", nt_errstr(status))); TALLOC_FREE(client_ntlmssp_state); return False; } spnego_write_data(ctx, &to_server, &spnego); data_blob_free(&spnego.negTokenInit.mechToken); to_server_base64 = base64_encode_data_blob(talloc_tos(), to_server); data_blob_free(&to_server); x_fprintf(x_stdout, "KK %s\n", to_server_base64); TALLOC_FREE(to_server_base64); return True; } static void manage_client_ntlmssp_targ(struct spnego_data spnego) { NTSTATUS status; DATA_BLOB null_blob = data_blob_null; DATA_BLOB request; DATA_BLOB to_server; char *to_server_base64; TALLOC_CTX *ctx = talloc_tos(); DEBUG(10, ("Got spnego negTokenTarg with NTLMSSP\n")); if (client_ntlmssp_state == NULL) { DEBUG(1, ("Got NTLMSSP tArg without a client state\n")); x_fprintf(x_stdout, "BH Got NTLMSSP tArg without a client state\n"); return; } if (spnego.negTokenTarg.negResult == SPNEGO_REJECT) { x_fprintf(x_stdout, "NA\n"); TALLOC_FREE(client_ntlmssp_state); return; } if (spnego.negTokenTarg.negResult == SPNEGO_ACCEPT_COMPLETED) { x_fprintf(x_stdout, "AF\n"); TALLOC_FREE(client_ntlmssp_state); return; } status = ntlmssp_update(client_ntlmssp_state, spnego.negTokenTarg.responseToken, &request); if (!NT_STATUS_EQUAL(status, NT_STATUS_MORE_PROCESSING_REQUIRED)) { DEBUG(1, ("Expected MORE_PROCESSING_REQUIRED from " "ntlmssp_client_update, got: %s\n", nt_errstr(status))); x_fprintf(x_stdout, "BH Expected MORE_PROCESSING_REQUIRED from " "ntlmssp_client_update\n"); data_blob_free(&request); TALLOC_FREE(client_ntlmssp_state); return; } spnego.type = SPNEGO_NEG_TOKEN_TARG; spnego.negTokenTarg.negResult = SPNEGO_ACCEPT_INCOMPLETE; spnego.negTokenTarg.supportedMech = (char *)OID_NTLMSSP; spnego.negTokenTarg.responseToken = request; spnego.negTokenTarg.mechListMIC = null_blob; spnego_write_data(ctx, &to_server, &spnego); data_blob_free(&request); to_server_base64 = base64_encode_data_blob(talloc_tos(), to_server); data_blob_free(&to_server); x_fprintf(x_stdout, "KK %s\n", to_server_base64); TALLOC_FREE(to_server_base64); return; } #ifdef HAVE_KRB5 static bool manage_client_krb5_init(struct spnego_data spnego) { char *principal; DATA_BLOB tkt, to_server; DATA_BLOB session_key_krb5 = data_blob_null; struct spnego_data reply; char *reply_base64; int retval; const char *my_mechs[] = {OID_KERBEROS5_OLD, NULL}; ssize_t len; TALLOC_CTX *ctx = talloc_tos(); if ( (spnego.negTokenInit.mechListMIC.data == NULL) || (spnego.negTokenInit.mechListMIC.length == 0) ) { DEBUG(1, ("Did not get a principal for krb5\n")); return False; } principal = (char *)SMB_MALLOC( spnego.negTokenInit.mechListMIC.length+1); if (principal == NULL) { DEBUG(1, ("Could not malloc principal\n")); return False; } memcpy(principal, spnego.negTokenInit.mechListMIC.data, spnego.negTokenInit.mechListMIC.length); principal[spnego.negTokenInit.mechListMIC.length] = '\0'; retval = cli_krb5_get_ticket(ctx, principal, 0, &tkt, &session_key_krb5, 0, NULL, NULL, NULL); if (retval) { char *user = NULL; /* Let's try to first get the TGT, for that we need a password. */ if (opt_password == NULL) { DEBUG(10, ("Requesting password\n")); x_fprintf(x_stdout, "PW\n"); return True; } user = talloc_asprintf(talloc_tos(), "%s@%s", opt_username, opt_domain); if (!user) { return false; } if ((retval = kerberos_kinit_password(user, opt_password, 0, NULL))) { DEBUG(10, ("Requesting TGT failed: %s\n", error_message(retval))); return False; } retval = cli_krb5_get_ticket(ctx, principal, 0, &tkt, &session_key_krb5, 0, NULL, NULL, NULL); if (retval) { DEBUG(10, ("Kinit suceeded, but getting a ticket failed: %s\n", error_message(retval))); return False; } } data_blob_free(&session_key_krb5); ZERO_STRUCT(reply); reply.type = SPNEGO_NEG_TOKEN_INIT; reply.negTokenInit.mechTypes = my_mechs; reply.negTokenInit.reqFlags = data_blob_null; reply.negTokenInit.reqFlagsPadding = 0; reply.negTokenInit.mechToken = tkt; reply.negTokenInit.mechListMIC = data_blob_null; len = spnego_write_data(ctx, &to_server, &reply); data_blob_free(&tkt); if (len == -1) { DEBUG(1, ("Could not write SPNEGO data blob\n")); return False; } reply_base64 = base64_encode_data_blob(talloc_tos(), to_server); x_fprintf(x_stdout, "KK %s *\n", reply_base64); TALLOC_FREE(reply_base64); data_blob_free(&to_server); DEBUG(10, ("sent GSS-SPNEGO KERBEROS5 negTokenInit\n")); return True; } static void manage_client_krb5_targ(struct spnego_data spnego) { switch (spnego.negTokenTarg.negResult) { case SPNEGO_ACCEPT_INCOMPLETE: DEBUG(1, ("Got a Kerberos negTokenTarg with ACCEPT_INCOMPLETE\n")); x_fprintf(x_stdout, "BH Got a Kerberos negTokenTarg with " "ACCEPT_INCOMPLETE\n"); break; case SPNEGO_ACCEPT_COMPLETED: DEBUG(10, ("Accept completed\n")); x_fprintf(x_stdout, "AF\n"); break; case SPNEGO_REJECT: DEBUG(10, ("Rejected\n")); x_fprintf(x_stdout, "NA\n"); break; default: DEBUG(1, ("Got an invalid negTokenTarg\n")); x_fprintf(x_stdout, "AF\n"); } } #endif static void manage_gss_spnego_client_request(struct ntlm_auth_state *state, char *buf, int length) { DATA_BLOB request; struct spnego_data spnego; ssize_t len; TALLOC_CTX *ctx = talloc_tos(); if (!opt_username || !*opt_username) { x_fprintf(x_stderr, "username must be specified!\n\n"); exit(1); } if (strlen(buf) <= 3) { DEBUG(1, ("SPNEGO query [%s] too short\n", buf)); x_fprintf(x_stdout, "BH SPNEGO query too short\n"); return; } request = base64_decode_data_blob(buf+3); if (strncmp(buf, "PW ", 3) == 0) { /* We asked for a password and obviously got it :-) */ opt_password = SMB_STRNDUP((const char *)request.data, request.length); if (opt_password == NULL) { DEBUG(1, ("Out of memory\n")); x_fprintf(x_stdout, "BH Out of memory\n"); data_blob_free(&request); return; } x_fprintf(x_stdout, "OK\n"); data_blob_free(&request); return; } if ( (strncmp(buf, "TT ", 3) != 0) && (strncmp(buf, "AF ", 3) != 0) && (strncmp(buf, "NA ", 3) != 0) ) { DEBUG(1, ("SPNEGO request [%s] invalid\n", buf)); x_fprintf(x_stdout, "BH SPNEGO request invalid\n"); data_blob_free(&request); return; } /* So we got a server challenge to generate a SPNEGO client-to-server request... */ len = spnego_read_data(ctx, request, &spnego); data_blob_free(&request); if (len == -1) { DEBUG(1, ("Could not read SPNEGO data for [%s]\n", buf)); x_fprintf(x_stdout, "BH Could not read SPNEGO data\n"); return; } if (spnego.type == SPNEGO_NEG_TOKEN_INIT) { /* The server offers a list of mechanisms */ const char **mechType = (const char **)spnego.negTokenInit.mechTypes; while (*mechType != NULL) { #ifdef HAVE_KRB5 if ( (strcmp(*mechType, OID_KERBEROS5_OLD) == 0) || (strcmp(*mechType, OID_KERBEROS5) == 0) ) { if (manage_client_krb5_init(spnego)) goto out; } #endif if (strcmp(*mechType, OID_NTLMSSP) == 0) { if (manage_client_ntlmssp_init(spnego)) goto out; } mechType++; } DEBUG(1, ("Server offered no compatible mechanism\n")); x_fprintf(x_stdout, "BH Server offered no compatible mechanism\n"); return; } if (spnego.type == SPNEGO_NEG_TOKEN_TARG) { if (spnego.negTokenTarg.supportedMech == NULL) { /* On accept/reject Windows does not send the mechanism anymore. Handle that here and shut down the mechanisms. */ switch (spnego.negTokenTarg.negResult) { case SPNEGO_ACCEPT_COMPLETED: x_fprintf(x_stdout, "AF\n"); break; case SPNEGO_REJECT: x_fprintf(x_stdout, "NA\n"); break; default: DEBUG(1, ("Got a negTokenTarg with no mech and an " "unknown negResult: %d\n", spnego.negTokenTarg.negResult)); x_fprintf(x_stdout, "BH Got a negTokenTarg with" " no mech and an unknown " "negResult\n"); } TALLOC_FREE(client_ntlmssp_state); goto out; } if (strcmp(spnego.negTokenTarg.supportedMech, OID_NTLMSSP) == 0) { manage_client_ntlmssp_targ(spnego); goto out; } #if HAVE_KRB5 if (strcmp(spnego.negTokenTarg.supportedMech, OID_KERBEROS5_OLD) == 0) { manage_client_krb5_targ(spnego); goto out; } #endif } DEBUG(1, ("Got an SPNEGO token I could not handle [%s]!\n", buf)); x_fprintf(x_stdout, "BH Got an SPNEGO token I could not handle\n"); return; out: spnego_free_data(&spnego); return; } static void manage_ntlm_server_1_request(struct ntlm_auth_state *state, char *buf, int length) { char *request, *parameter; static DATA_BLOB challenge; static DATA_BLOB lm_response; static DATA_BLOB nt_response; static char *full_username; static char *username; static char *domain; static char *plaintext_password; static bool ntlm_server_1_user_session_key; static bool ntlm_server_1_lm_session_key; if (strequal(buf, ".")) { if (!full_username && !username) { x_fprintf(x_stdout, "Error: No username supplied!\n"); } else if (plaintext_password) { /* handle this request as plaintext */ if (!full_username) { if (asprintf(&full_username, "%s%c%s", domain, winbind_separator(), username) == -1) { x_fprintf(x_stdout, "Error: Out of memory in asprintf!\n.\n"); return; } } if (check_plaintext_auth(full_username, plaintext_password, False)) { x_fprintf(x_stdout, "Authenticated: Yes\n"); } else { x_fprintf(x_stdout, "Authenticated: No\n"); } } else if (!lm_response.data && !nt_response.data) { x_fprintf(x_stdout, "Error: No password supplied!\n"); } else if (!challenge.data) { x_fprintf(x_stdout, "Error: No lanman-challenge supplied!\n"); } else { char *error_string = NULL; uchar lm_key[8]; uchar user_session_key[16]; uint32 flags = 0; if (full_username && !username) { fstring fstr_user; fstring fstr_domain; if (!parse_ntlm_auth_domain_user(full_username, fstr_user, fstr_domain)) { /* username might be 'tainted', don't print into our new-line deleimianted stream */ x_fprintf(x_stdout, "Error: Could not parse into domain and username\n"); } SAFE_FREE(username); SAFE_FREE(domain); username = smb_xstrdup(fstr_user); domain = smb_xstrdup(fstr_domain); } if (!domain) { domain = smb_xstrdup(get_winbind_domain()); } if (ntlm_server_1_lm_session_key) flags |= WBFLAG_PAM_LMKEY; if (ntlm_server_1_user_session_key) flags |= WBFLAG_PAM_USER_SESSION_KEY; if (!NT_STATUS_IS_OK( contact_winbind_auth_crap(username, domain, global_myname(), &challenge, &lm_response, &nt_response, flags, lm_key, user_session_key, &error_string, NULL))) { x_fprintf(x_stdout, "Authenticated: No\n"); x_fprintf(x_stdout, "Authentication-Error: %s\n.\n", error_string); } else { static char zeros[16]; char *hex_lm_key; char *hex_user_session_key; x_fprintf(x_stdout, "Authenticated: Yes\n"); if (ntlm_server_1_lm_session_key && (memcmp(zeros, lm_key, sizeof(lm_key)) != 0)) { hex_lm_key = hex_encode_talloc(NULL, (const unsigned char *)lm_key, sizeof(lm_key)); x_fprintf(x_stdout, "LANMAN-Session-Key: %s\n", hex_lm_key); TALLOC_FREE(hex_lm_key); } if (ntlm_server_1_user_session_key && (memcmp(zeros, user_session_key, sizeof(user_session_key)) != 0)) { hex_user_session_key = hex_encode_talloc(NULL, (const unsigned char *)user_session_key, sizeof(user_session_key)); x_fprintf(x_stdout, "User-Session-Key: %s\n", hex_user_session_key); TALLOC_FREE(hex_user_session_key); } } SAFE_FREE(error_string); } /* clear out the state */ challenge = data_blob_null; nt_response = data_blob_null; lm_response = data_blob_null; SAFE_FREE(full_username); SAFE_FREE(username); SAFE_FREE(domain); SAFE_FREE(plaintext_password); ntlm_server_1_user_session_key = False; ntlm_server_1_lm_session_key = False; x_fprintf(x_stdout, ".\n"); return; } request = buf; /* Indicates a base64 encoded structure */ parameter = strstr_m(request, ":: "); if (!parameter) { parameter = strstr_m(request, ": "); if (!parameter) { DEBUG(0, ("Parameter not found!\n")); x_fprintf(x_stdout, "Error: Parameter not found!\n.\n"); return; } parameter[0] ='\0'; parameter++; parameter[0] ='\0'; parameter++; } else { parameter[0] ='\0'; parameter++; parameter[0] ='\0'; parameter++; parameter[0] ='\0'; parameter++; base64_decode_inplace(parameter); } if (strequal(request, "LANMAN-Challenge")) { challenge = strhex_to_data_blob(NULL, parameter); if (challenge.length != 8) { x_fprintf(x_stdout, "Error: hex decode of %s failed! (got %d bytes, expected 8)\n.\n", parameter, (int)challenge.length); challenge = data_blob_null; } } else if (strequal(request, "NT-Response")) { nt_response = strhex_to_data_blob(NULL, parameter); if (nt_response.length < 24) { x_fprintf(x_stdout, "Error: hex decode of %s failed! (only got %d bytes, needed at least 24)\n.\n", parameter, (int)nt_response.length); nt_response = data_blob_null; } } else if (strequal(request, "LANMAN-Response")) { lm_response = strhex_to_data_blob(NULL, parameter); if (lm_response.length != 24) { x_fprintf(x_stdout, "Error: hex decode of %s failed! (got %d bytes, expected 24)\n.\n", parameter, (int)lm_response.length); lm_response = data_blob_null; } } else if (strequal(request, "Password")) { plaintext_password = smb_xstrdup(parameter); } else if (strequal(request, "NT-Domain")) { domain = smb_xstrdup(parameter); } else if (strequal(request, "Username")) { username = smb_xstrdup(parameter); } else if (strequal(request, "Full-Username")) { full_username = smb_xstrdup(parameter); } else if (strequal(request, "Request-User-Session-Key")) { ntlm_server_1_user_session_key = strequal(parameter, "Yes"); } else if (strequal(request, "Request-LanMan-Session-Key")) { ntlm_server_1_lm_session_key = strequal(parameter, "Yes"); } else { x_fprintf(x_stdout, "Error: Unknown request %s\n.\n", request); } } static void manage_ntlm_change_password_1_request(struct ntlm_auth_state *state, char *buf, int length) { char *request, *parameter; static DATA_BLOB new_nt_pswd; static DATA_BLOB old_nt_hash_enc; static DATA_BLOB new_lm_pswd; static DATA_BLOB old_lm_hash_enc; static char *full_username = NULL; static char *username = NULL; static char *domain = NULL; static char *newpswd = NULL; static char *oldpswd = NULL; if (strequal(buf, ".")) { if(newpswd && oldpswd) { uchar old_nt_hash[16]; uchar old_lm_hash[16]; uchar new_nt_hash[16]; uchar new_lm_hash[16]; new_nt_pswd = data_blob(NULL, 516); old_nt_hash_enc = data_blob(NULL, 16); /* Calculate the MD4 hash (NT compatible) of the * password */ E_md4hash(oldpswd, old_nt_hash); E_md4hash(newpswd, new_nt_hash); /* E_deshash returns false for 'long' passwords (> 14 DOS chars). Therefore, don't send a buffer encrypted with the truncated hash (it could allow an even easier attack on the password) Likewise, obey the admin's restriction */ if (lp_client_lanman_auth() && E_deshash(newpswd, new_lm_hash) && E_deshash(oldpswd, old_lm_hash)) { new_lm_pswd = data_blob(NULL, 516); old_lm_hash_enc = data_blob(NULL, 16); encode_pw_buffer(new_lm_pswd.data, newpswd, STR_UNICODE); arcfour_crypt(new_lm_pswd.data, old_nt_hash, 516); E_old_pw_hash(new_nt_hash, old_lm_hash, old_lm_hash_enc.data); } else { new_lm_pswd.data = NULL; new_lm_pswd.length = 0; old_lm_hash_enc.data = NULL; old_lm_hash_enc.length = 0; } encode_pw_buffer(new_nt_pswd.data, newpswd, STR_UNICODE); arcfour_crypt(new_nt_pswd.data, old_nt_hash, 516); E_old_pw_hash(new_nt_hash, old_nt_hash, old_nt_hash_enc.data); } if (!full_username && !username) { x_fprintf(x_stdout, "Error: No username supplied!\n"); } else if ((!new_nt_pswd.data || !old_nt_hash_enc.data) && (!new_lm_pswd.data || old_lm_hash_enc.data) ) { x_fprintf(x_stdout, "Error: No NT or LM password " "blobs supplied!\n"); } else { char *error_string = NULL; if (full_username && !username) { fstring fstr_user; fstring fstr_domain; if (!parse_ntlm_auth_domain_user(full_username, fstr_user, fstr_domain)) { /* username might be 'tainted', don't * print into our new-line * deleimianted stream */ x_fprintf(x_stdout, "Error: Could not " "parse into domain and " "username\n"); SAFE_FREE(username); username = smb_xstrdup(full_username); } else { SAFE_FREE(username); SAFE_FREE(domain); username = smb_xstrdup(fstr_user); domain = smb_xstrdup(fstr_domain); } } if(!NT_STATUS_IS_OK(contact_winbind_change_pswd_auth_crap( username, domain, new_nt_pswd, old_nt_hash_enc, new_lm_pswd, old_lm_hash_enc, &error_string))) { x_fprintf(x_stdout, "Password-Change: No\n"); x_fprintf(x_stdout, "Password-Change-Error: " "%s\n.\n", error_string); } else { x_fprintf(x_stdout, "Password-Change: Yes\n"); } SAFE_FREE(error_string); } /* clear out the state */ new_nt_pswd = data_blob_null; old_nt_hash_enc = data_blob_null; new_lm_pswd = data_blob_null; old_nt_hash_enc = data_blob_null; SAFE_FREE(full_username); SAFE_FREE(username); SAFE_FREE(domain); SAFE_FREE(newpswd); SAFE_FREE(oldpswd); x_fprintf(x_stdout, ".\n"); return; } request = buf; /* Indicates a base64 encoded structure */ parameter = strstr_m(request, ":: "); if (!parameter) { parameter = strstr_m(request, ": "); if (!parameter) { DEBUG(0, ("Parameter not found!\n")); x_fprintf(x_stdout, "Error: Parameter not found!\n.\n"); return; } parameter[0] ='\0'; parameter++; parameter[0] ='\0'; parameter++; } else { parameter[0] ='\0'; parameter++; parameter[0] ='\0'; parameter++; parameter[0] ='\0'; parameter++; base64_decode_inplace(parameter); } if (strequal(request, "new-nt-password-blob")) { new_nt_pswd = strhex_to_data_blob(NULL, parameter); if (new_nt_pswd.length != 516) { x_fprintf(x_stdout, "Error: hex decode of %s failed! " "(got %d bytes, expected 516)\n.\n", parameter, (int)new_nt_pswd.length); new_nt_pswd = data_blob_null; } } else if (strequal(request, "old-nt-hash-blob")) { old_nt_hash_enc = strhex_to_data_blob(NULL, parameter); if (old_nt_hash_enc.length != 16) { x_fprintf(x_stdout, "Error: hex decode of %s failed! " "(got %d bytes, expected 16)\n.\n", parameter, (int)old_nt_hash_enc.length); old_nt_hash_enc = data_blob_null; } } else if (strequal(request, "new-lm-password-blob")) { new_lm_pswd = strhex_to_data_blob(NULL, parameter); if (new_lm_pswd.length != 516) { x_fprintf(x_stdout, "Error: hex decode of %s failed! " "(got %d bytes, expected 516)\n.\n", parameter, (int)new_lm_pswd.length); new_lm_pswd = data_blob_null; } } else if (strequal(request, "old-lm-hash-blob")) { old_lm_hash_enc = strhex_to_data_blob(NULL, parameter); if (old_lm_hash_enc.length != 16) { x_fprintf(x_stdout, "Error: hex decode of %s failed! " "(got %d bytes, expected 16)\n.\n", parameter, (int)old_lm_hash_enc.length); old_lm_hash_enc = data_blob_null; } } else if (strequal(request, "nt-domain")) { domain = smb_xstrdup(parameter); } else if(strequal(request, "username")) { username = smb_xstrdup(parameter); } else if(strequal(request, "full-username")) { username = smb_xstrdup(parameter); } else if(strequal(request, "new-password")) { newpswd = smb_xstrdup(parameter); } else if (strequal(request, "old-password")) { oldpswd = smb_xstrdup(parameter); } else { x_fprintf(x_stdout, "Error: Unknown request %s\n.\n", request); } } static void manage_squid_request(struct ntlm_auth_state *state, stdio_helper_function fn) { char *buf; char tmp[INITIAL_BUFFER_SIZE+1]; int length, buf_size = 0; char *c; buf = talloc_strdup(state->mem_ctx, ""); if (!buf) { DEBUG(0, ("Failed to allocate input buffer.\n")); x_fprintf(x_stderr, "ERR\n"); exit(1); } do { /* this is not a typo - x_fgets doesn't work too well under * squid */ if (fgets(tmp, sizeof(tmp)-1, stdin) == NULL) { if (ferror(stdin)) { DEBUG(1, ("fgets() failed! dying..... errno=%d " "(%s)\n", ferror(stdin), strerror(ferror(stdin)))); exit(1); } exit(0); } buf = talloc_strdup_append_buffer(buf, tmp); buf_size += INITIAL_BUFFER_SIZE; if (buf_size > MAX_BUFFER_SIZE) { DEBUG(2, ("Oversized message\n")); x_fprintf(x_stderr, "ERR\n"); talloc_free(buf); return; } c = strchr(buf, '\n'); } while (c == NULL); *c = '\0'; length = c-buf; DEBUG(10, ("Got '%s' from squid (length: %d).\n",buf,length)); if (buf[0] == '\0') { DEBUG(2, ("Invalid Request\n")); x_fprintf(x_stderr, "ERR\n"); talloc_free(buf); return; } fn(state, buf, length); talloc_free(buf); } static void squid_stream(enum stdio_helper_mode stdio_mode, stdio_helper_function fn) { TALLOC_CTX *mem_ctx; struct ntlm_auth_state *state; /* initialize FDescs */ x_setbuf(x_stdout, NULL); x_setbuf(x_stderr, NULL); mem_ctx = talloc_init("ntlm_auth"); if (!mem_ctx) { DEBUG(0, ("squid_stream: Failed to create talloc context\n")); x_fprintf(x_stderr, "ERR\n"); exit(1); } state = talloc_zero(mem_ctx, struct ntlm_auth_state); if (!state) { DEBUG(0, ("squid_stream: Failed to talloc ntlm_auth_state\n")); x_fprintf(x_stderr, "ERR\n"); exit(1); } state->mem_ctx = mem_ctx; state->helper_mode = stdio_mode; while(1) { TALLOC_CTX *frame = talloc_stackframe(); manage_squid_request(state, fn); TALLOC_FREE(frame); } } /* Authenticate a user with a challenge/response */ static bool check_auth_crap(void) { NTSTATUS nt_status; uint32 flags = 0; char lm_key[8]; char user_session_key[16]; char *hex_lm_key; char *hex_user_session_key; char *error_string; static uint8 zeros[16]; x_setbuf(x_stdout, NULL); if (request_lm_key) flags |= WBFLAG_PAM_LMKEY; if (request_user_session_key) flags |= WBFLAG_PAM_USER_SESSION_KEY; flags |= WBFLAG_PAM_NT_STATUS_SQUASH; nt_status = contact_winbind_auth_crap(opt_username, opt_domain, opt_workstation, &opt_challenge, &opt_lm_response, &opt_nt_response, flags, (unsigned char *)lm_key, (unsigned char *)user_session_key, &error_string, NULL); if (!NT_STATUS_IS_OK(nt_status)) { x_fprintf(x_stdout, "%s (0x%x)\n", error_string, NT_STATUS_V(nt_status)); SAFE_FREE(error_string); return False; } if (request_lm_key && (memcmp(zeros, lm_key, sizeof(lm_key)) != 0)) { hex_lm_key = hex_encode_talloc(talloc_tos(), (const unsigned char *)lm_key, sizeof(lm_key)); x_fprintf(x_stdout, "LM_KEY: %s\n", hex_lm_key); TALLOC_FREE(hex_lm_key); } if (request_user_session_key && (memcmp(zeros, user_session_key, sizeof(user_session_key)) != 0)) { hex_user_session_key = hex_encode_talloc(talloc_tos(), (const unsigned char *)user_session_key, sizeof(user_session_key)); x_fprintf(x_stdout, "NT_KEY: %s\n", hex_user_session_key); TALLOC_FREE(hex_user_session_key); } return True; } /* Main program */ enum { OPT_USERNAME = 1000, OPT_DOMAIN, OPT_WORKSTATION, OPT_CHALLENGE, OPT_RESPONSE, OPT_LM, OPT_NT, OPT_PASSWORD, OPT_LM_KEY, OPT_USER_SESSION_KEY, OPT_DIAGNOSTICS, OPT_REQUIRE_MEMBERSHIP, OPT_USE_CACHED_CREDS, OPT_PAM_WINBIND_CONF }; int main(int argc, const char **argv) { TALLOC_CTX *frame = talloc_stackframe(); int opt; static const char *helper_protocol; static int diagnostics; static const char *hex_challenge; static const char *hex_lm_response; static const char *hex_nt_response; poptContext pc; /* NOTE: DO NOT change this interface without considering the implications! This is an external interface, which other programs will use to interact with this helper. */ /* We do not use single-letter command abbreviations, because they harm future interface stability. */ struct poptOption long_options[] = { POPT_AUTOHELP { "helper-protocol", 0, POPT_ARG_STRING, &helper_protocol, OPT_DOMAIN, "operate as a stdio-based helper", "helper protocol to use"}, { "username", 0, POPT_ARG_STRING, &opt_username, OPT_USERNAME, "username"}, { "domain", 0, POPT_ARG_STRING, &opt_domain, OPT_DOMAIN, "domain name"}, { "workstation", 0, POPT_ARG_STRING, &opt_workstation, OPT_WORKSTATION, "workstation"}, { "challenge", 0, POPT_ARG_STRING, &hex_challenge, OPT_CHALLENGE, "challenge (HEX encoded)"}, { "lm-response", 0, POPT_ARG_STRING, &hex_lm_response, OPT_LM, "LM Response to the challenge (HEX encoded)"}, { "nt-response", 0, POPT_ARG_STRING, &hex_nt_response, OPT_NT, "NT or NTLMv2 Response to the challenge (HEX encoded)"}, { "password", 0, POPT_ARG_STRING, &opt_password, OPT_PASSWORD, "User's plaintext password"}, { "request-lm-key", 0, POPT_ARG_NONE, &request_lm_key, OPT_LM_KEY, "Retrieve LM session key"}, { "request-nt-key", 0, POPT_ARG_NONE, &request_user_session_key, OPT_USER_SESSION_KEY, "Retrieve User (NT) session key"}, { "use-cached-creds", 0, POPT_ARG_NONE, &use_cached_creds, OPT_USE_CACHED_CREDS, "Use cached credentials if no password is given"}, { "diagnostics", 0, POPT_ARG_NONE, &diagnostics, OPT_DIAGNOSTICS, "Perform diagnostics on the authentication chain"}, { "require-membership-of", 0, POPT_ARG_STRING, &require_membership_of, OPT_REQUIRE_MEMBERSHIP, "Require that a user be a member of this group (either name or SID) for authentication to succeed" }, { "pam-winbind-conf", 0, POPT_ARG_STRING, &opt_pam_winbind_conf, OPT_PAM_WINBIND_CONF, "Require that request must set WBFLAG_PAM_CONTACT_TRUSTDOM when krb5 auth is required" }, POPT_COMMON_CONFIGFILE POPT_COMMON_VERSION POPT_TABLEEND }; /* Samba client initialisation */ load_case_tables(); setup_logging("ntlm_auth", DEBUG_STDERR); /* Parse options */ pc = poptGetContext("ntlm_auth", argc, argv, long_options, 0); /* Parse command line options */ if (argc == 1) { poptPrintHelp(pc, stderr, 0); return 1; } while((opt = poptGetNextOpt(pc)) != -1) { /* Get generic config options like --configfile */ } poptFreeContext(pc); if (!lp_load(get_dyn_CONFIGFILE(), True, False, False, True)) { d_fprintf(stderr, "ntlm_auth: error opening config file %s. Error was %s\n", get_dyn_CONFIGFILE(), strerror(errno)); exit(1); } pc = poptGetContext(NULL, argc, (const char **)argv, long_options, POPT_CONTEXT_KEEP_FIRST); while((opt = poptGetNextOpt(pc)) != -1) { switch (opt) { case OPT_CHALLENGE: opt_challenge = strhex_to_data_blob(NULL, hex_challenge); if (opt_challenge.length != 8) { x_fprintf(x_stderr, "hex decode of %s failed! (only got %d bytes)\n", hex_challenge, (int)opt_challenge.length); exit(1); } break; case OPT_LM: opt_lm_response = strhex_to_data_blob(NULL, hex_lm_response); if (opt_lm_response.length != 24) { x_fprintf(x_stderr, "hex decode of %s failed! (only got %d bytes)\n", hex_lm_response, (int)opt_lm_response.length); exit(1); } break; case OPT_NT: opt_nt_response = strhex_to_data_blob(NULL, hex_nt_response); if (opt_nt_response.length < 24) { x_fprintf(x_stderr, "hex decode of %s failed! (only got %d bytes)\n", hex_nt_response, (int)opt_nt_response.length); exit(1); } break; case OPT_REQUIRE_MEMBERSHIP: if (StrnCaseCmp("S-", require_membership_of, 2) == 0) { require_membership_of_sid = require_membership_of; } break; } } if (opt_username) { char *domain = SMB_STRDUP(opt_username); char *p = strchr_m(domain, *lp_winbind_separator()); if (p) { opt_username = p+1; *p = '\0'; if (opt_domain && !strequal(opt_domain, domain)) { x_fprintf(x_stderr, "Domain specified in username (%s) " "doesn't match specified domain (%s)!\n\n", domain, opt_domain); poptPrintHelp(pc, stderr, 0); exit(1); } opt_domain = domain; } else { SAFE_FREE(domain); } } /* Note: if opt_domain is "" then send no domain */ if (opt_domain == NULL) { opt_domain = get_winbind_domain(); } if (opt_workstation == NULL) { opt_workstation = ""; } if (helper_protocol) { int i; for (i=0; i