/* * Copyright (C) 2008-2017 Tobias Brunner * Copyright (C) 2008 Martin Willi * HSR Hochschule fuer Technik Rapperswil * * 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 2 of the License, or (at your * option) any later version. See . * * 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. */ #include #include #include #include #include #include #ifdef HAVE_GLOB_H #include #endif #include "stroke_cred.h" #include #include #include #include #include #include #include #include #include #include /* configuration directories and files */ #define CONFIG_DIR IPSEC_CONFDIR #define IPSEC_D_DIR CONFIG_DIR "/ipsec.d" #define PRIVATE_KEY_DIR IPSEC_D_DIR "/private" #define CERTIFICATE_DIR IPSEC_D_DIR "/certs" #define CA_CERTIFICATE_DIR IPSEC_D_DIR "/cacerts" #define AA_CERTIFICATE_DIR IPSEC_D_DIR "/aacerts" #define ATTR_CERTIFICATE_DIR IPSEC_D_DIR "/acerts" #define OCSP_CERTIFICATE_DIR IPSEC_D_DIR "/ocspcerts" #define CRL_DIR IPSEC_D_DIR "/crls" #define SECRETS_FILE CONFIG_DIR "/ipsec.secrets" #define MAX_SECRETS_RECURSION 10 typedef struct private_stroke_cred_t private_stroke_cred_t; /** * private data of stroke_cred */ struct private_stroke_cred_t { /** * public functions */ stroke_cred_t public; /** * secrets file with credential information */ char *secrets_file; /** * credentials: end entity certs, attribute certs, CRLs, etc. */ mem_cred_t *creds; /** * Attribute Authority certificates */ mem_cred_t *aacerts; /** * ignore missing CA basic constraint (i.e. treat all certificates in * ipsec.conf ca sections and ipsec.d/cacerts as CA certificates) */ bool force_ca_cert; /** * cache CRLs to disk? */ bool cachecrl; /** * CA certificate store */ stroke_ca_t *ca; }; /** Length of smartcard specifier parts (module, keyid) */ #define SC_PART_LEN 128 /** * Kind of smartcard specifier token */ typedef enum { SC_FORMAT_SLOT_MODULE_KEYID, SC_FORMAT_SLOT_KEYID, SC_FORMAT_KEYID, SC_FORMAT_INVALID, } smartcard_format_t; /** * Parse a smartcard specifier token */ static smartcard_format_t parse_smartcard(char *smartcard, u_int *slot, char *module, char *keyid) { /* The token has one of the following three formats: * - %smartcard@: * - %smartcard: * - %smartcard: */ char buf[2 * SC_PART_LEN], *pos; if (sscanf(smartcard, "%%smartcard%u@%255s", slot, buf) == 2) { pos = strchr(buf, ':'); if (!pos) { return SC_FORMAT_INVALID; } *pos++ = '\0'; snprintf(module, SC_PART_LEN, "%s", buf); snprintf(keyid, SC_PART_LEN, "%s", pos); return SC_FORMAT_SLOT_MODULE_KEYID; } if (sscanf(smartcard, "%%smartcard%u:%127s", slot, keyid) == 2) { return SC_FORMAT_SLOT_KEYID; } if (sscanf(smartcard, "%%smartcard:%127s", keyid) == 1) { return SC_FORMAT_KEYID; } return SC_FORMAT_INVALID; } /** * Load a credential from a smartcard */ static certificate_t *load_from_smartcard(smartcard_format_t format, u_int slot, char *module, char *keyid, credential_type_t type, int subtype) { chunk_t chunk; void *cred; chunk = chunk_from_hex(chunk_create(keyid, strlen(keyid)), NULL); switch (format) { case SC_FORMAT_SLOT_MODULE_KEYID: cred = lib->creds->create(lib->creds, type, subtype, BUILD_PKCS11_SLOT, slot, BUILD_PKCS11_MODULE, module, BUILD_PKCS11_KEYID, chunk, BUILD_END); break; case SC_FORMAT_SLOT_KEYID: cred = lib->creds->create(lib->creds, type, subtype, BUILD_PKCS11_SLOT, slot, BUILD_PKCS11_KEYID, chunk, BUILD_END); break; case SC_FORMAT_KEYID: cred = lib->creds->create(lib->creds, type, subtype, BUILD_PKCS11_KEYID, chunk, BUILD_END); break; default: cred = NULL; break; } free(chunk.ptr); return cred; } METHOD(stroke_cred_t, load_peer, certificate_t*, private_stroke_cred_t *this, char *filename) { certificate_t *cert = NULL; char path[PATH_MAX]; if (strpfx(filename, "%smartcard")) { smartcard_format_t format; char module[SC_PART_LEN], keyid[SC_PART_LEN]; u_int slot; format = parse_smartcard(filename, &slot, module, keyid); if (format != SC_FORMAT_INVALID) { cert = (certificate_t*)load_from_smartcard(format, slot, module, keyid, CRED_CERTIFICATE, CERT_X509); } } else { if (*filename == '/') { snprintf(path, sizeof(path), "%s", filename); } else { snprintf(path, sizeof(path), "%s/%s", CERTIFICATE_DIR, filename); } cert = lib->creds->create(lib->creds, CRED_CERTIFICATE, CERT_ANY, BUILD_FROM_FILE, path, BUILD_END); } if (cert) { cert = this->creds->add_cert_ref(this->creds, TRUE, cert); DBG1(DBG_CFG, " loaded certificate \"%Y\" from '%s'", cert->get_subject(cert), filename); return cert; } DBG1(DBG_CFG, " loading certificate from '%s' failed", filename); return NULL; } METHOD(stroke_cred_t, load_pubkey, certificate_t*, private_stroke_cred_t *this, char *filename, identification_t *identity) { certificate_t *cert; public_key_t *key; char path[PATH_MAX]; builder_part_t build_part; key_type_t type = KEY_ANY; if (streq(filename, "%dns")) { return NULL; } if (strncaseeq(filename, "dns:", 4)) { /* RFC 3110 format */ build_part = BUILD_BLOB_DNSKEY; /* not a complete RR, only RSA supported */ type = KEY_RSA; filename += 4; } else if (strncaseeq(filename, "ssh:", 4)) { /* SSH key */ build_part = BUILD_BLOB_SSHKEY; filename += 4; } else { /* try PKCS#1 by default */ build_part = BUILD_BLOB_ASN1_DER; } if (strncaseeq(filename, "0x", 2) || strncaseeq(filename, "0s", 2)) { chunk_t printable_key, raw_key; printable_key = chunk_create(filename + 2, strlen(filename) - 2); raw_key = strncaseeq(filename, "0x", 2) ? chunk_from_hex(printable_key, NULL) : chunk_from_base64(printable_key, NULL); key = lib->creds->create(lib->creds, CRED_PUBLIC_KEY, type, build_part, raw_key, BUILD_END); chunk_free(&raw_key); if (key) { cert = lib->creds->create(lib->creds, CRED_CERTIFICATE, CERT_TRUSTED_PUBKEY, BUILD_PUBLIC_KEY, key, BUILD_SUBJECT, identity, BUILD_END); type = key->get_type(key); key->destroy(key); if (cert) { cert = this->creds->add_cert_ref(this->creds, TRUE, cert); DBG1(DBG_CFG, " loaded %N public key for \"%Y\"", key_type_names, type, identity); return cert; } } DBG1(DBG_CFG, " loading public key for \"%Y\" failed", identity); } else { if (*filename == '/') { snprintf(path, sizeof(path), "%s", filename); } else { snprintf(path, sizeof(path), "%s/%s", CERTIFICATE_DIR, filename); } cert = lib->creds->create(lib->creds, CRED_CERTIFICATE, CERT_TRUSTED_PUBKEY, BUILD_FROM_FILE, path, BUILD_SUBJECT, identity, BUILD_END); if (cert) { cert = this->creds->add_cert_ref(this->creds, TRUE, cert); key = cert->get_public_key(cert); type = key->get_type(key); key->destroy(key); DBG1(DBG_CFG, " loaded %N public key for \"%Y\" from '%s'", key_type_names, type, identity, filename); return cert; } DBG1(DBG_CFG, " loading public key for \"%Y\" from '%s' failed", identity, filename); } return NULL; } /** * Load a CA certificate, optionally force it to be one */ static certificate_t *load_ca_cert(char *filename, bool force_ca_cert) { certificate_t *cert = NULL; char path[PATH_MAX]; if (strpfx(filename, "%smartcard")) { smartcard_format_t format; char module[SC_PART_LEN], keyid[SC_PART_LEN]; u_int slot; format = parse_smartcard(filename, &slot, module, keyid); if (format != SC_FORMAT_INVALID) { cert = (certificate_t*)load_from_smartcard(format, slot, module, keyid, CRED_CERTIFICATE, CERT_X509); } } else { if (*filename == '/') { snprintf(path, sizeof(path), "%s", filename); } else { snprintf(path, sizeof(path), "%s/%s", CA_CERTIFICATE_DIR, filename); } if (force_ca_cert) { /* we treat this certificate as a CA certificate even if it has no * CA basic constraint */ cert = lib->creds->create(lib->creds, CRED_CERTIFICATE, CERT_X509, BUILD_FROM_FILE, path, BUILD_X509_FLAG, X509_CA, BUILD_END); } else { cert = lib->creds->create(lib->creds, CRED_CERTIFICATE, CERT_X509, BUILD_FROM_FILE, path, BUILD_END); } } if (cert) { x509_t *x509 = (x509_t*)cert; if (!(x509->get_flags(x509) & X509_CA)) { DBG1(DBG_CFG, " ca certificate \"%Y\" lacks ca basic constraint, " "discarded", cert->get_subject(cert)); cert->destroy(cert); return NULL; } DBG1(DBG_CFG, " loaded ca certificate \"%Y\" from '%s'", cert->get_subject(cert), filename); return cert; } return NULL; } /** * Used by stroke_ca.c */ certificate_t *stroke_load_ca_cert(char *filename) { bool force_ca_cert; force_ca_cert = lib->settings->get_bool(lib->settings, "%s.plugins.stroke.ignore_missing_ca_basic_constraint", FALSE, lib->ns); return load_ca_cert(filename, force_ca_cert); } /** * Load a CA certificate from disk */ static void load_x509_ca(private_stroke_cred_t *this, char *file, mem_cred_t *creds) { certificate_t *cert; cert = load_ca_cert(file, this->force_ca_cert); if (cert) { cert = this->ca->get_cert_ref(this->ca, cert); creds->add_cert(creds, TRUE, cert); } else { DBG1(DBG_CFG, " loading ca certificate from '%s' failed", file); } } /** * Load AA certificate with flags from disk */ static void load_x509_aa(private_stroke_cred_t *this,char *file, mem_cred_t *creds) { certificate_t *cert; cert = lib->creds->create(lib->creds, CRED_CERTIFICATE, CERT_X509, BUILD_FROM_FILE, file, BUILD_X509_FLAG, X509_AA, BUILD_END); if (cert) { DBG1(DBG_CFG, " loaded AA certificate \"%Y\" from '%s'", cert->get_subject(cert), file); creds->add_cert(creds, TRUE, cert); } else { DBG1(DBG_CFG, " loading AA certificate from '%s' failed", file); } } /** * Load a certificate with flags from disk */ static void load_x509(private_stroke_cred_t *this, char *file, x509_flag_t flag, mem_cred_t *creds) { certificate_t *cert; /* for all other flags, we add them to the certificate. */ cert = lib->creds->create(lib->creds, CRED_CERTIFICATE, CERT_X509, BUILD_FROM_FILE, file, BUILD_X509_FLAG, flag, BUILD_END); if (cert) { DBG1(DBG_CFG, " loaded certificate \"%Y\" from '%s'", cert->get_subject(cert), file); creds->add_cert(creds, TRUE, cert); } else { DBG1(DBG_CFG, " loading certificate from '%s' failed", file); } } /** * Load a CRL from a file */ static void load_x509_crl(private_stroke_cred_t *this, char *file, mem_cred_t *creds) { certificate_t *cert; cert = lib->creds->create(lib->creds, CRED_CERTIFICATE, CERT_X509_CRL, BUILD_FROM_FILE, file, BUILD_END); if (cert) { DBG1(DBG_CFG, " loaded crl from '%s'", file); creds->add_crl(creds, (crl_t*)cert); } else { DBG1(DBG_CFG, " loading crl from '%s' failed", file); } } /** * Load an attribute certificate from a file */ static void load_x509_ac(private_stroke_cred_t *this, char *file, mem_cred_t *creds) { certificate_t *cert; cert = lib->creds->create(lib->creds, CRED_CERTIFICATE, CERT_X509_AC, BUILD_FROM_FILE, file, BUILD_END); if (cert) { DBG1(DBG_CFG, " loaded attribute certificate from '%s'", file); creds->add_cert(creds, FALSE, cert); } else { DBG1(DBG_CFG, " loading attribute certificate from '%s' failed", file); } } /** * load trusted certificates from a directory */ static void load_certdir(private_stroke_cred_t *this, char *path, certificate_type_t type, x509_flag_t flag, mem_cred_t *creds) { enumerator_t *enumerator; struct stat st; char *file; enumerator = enumerator_create_directory(path); if (enumerator) { while (enumerator->enumerate(enumerator, NULL, &file, &st)) { if (!S_ISREG(st.st_mode)) { /* skip special file */ continue; } switch (type) { case CERT_X509: if (flag & X509_CA) { load_x509_ca(this, file, creds); } else if (flag & X509_AA) { load_x509_aa(this, file, creds); } else { load_x509(this, file, flag, creds); } break; case CERT_X509_CRL: load_x509_crl(this, file, creds); break; case CERT_X509_AC: load_x509_ac(this, file, creds); break; default: break; } } enumerator->destroy(enumerator); } else { DBG1(DBG_CFG, " reading directory failed"); } } METHOD(credential_set_t, cache_cert, void, private_stroke_cred_t *this, certificate_t *cert) { if (cert->get_type(cert) == CERT_X509_CRL && this->cachecrl) { /* CRLs get written to /etc/ipsec.d/crls/.crl */ crl_t *crl = (crl_t*)cert; cert->get_ref(cert); if (this->creds->add_crl(this->creds, crl)) { char buf[BUF_LEN]; chunk_t chunk, hex; bool is_delta_crl; is_delta_crl = crl->is_delta_crl(crl, NULL); chunk = crl->get_authKeyIdentifier(crl); hex = chunk_to_hex(chunk, NULL, FALSE); snprintf(buf, sizeof(buf), "%s/%s%s.crl", CRL_DIR, hex.ptr, is_delta_crl ? "_delta" : ""); free(hex.ptr); if (cert->get_encoding(cert, CERT_ASN1_DER, &chunk)) { if (chunk_write(chunk, buf, 022, TRUE)) { DBG1(DBG_CFG, " written crl file '%s' (%d bytes)", buf, chunk.len); } else { DBG1(DBG_CFG, " writing crl file '%s' failed: %s", buf, strerror(errno)); } free(chunk.ptr); } } } } METHOD(stroke_cred_t, cachecrl, void, private_stroke_cred_t *this, bool enabled) { DBG1(DBG_CFG, "crl caching to %s %s", CRL_DIR, enabled ? "enabled" : "disabled"); this->cachecrl = enabled; } /** * Convert a string of characters into a binary secret * A string between single or double quotes is treated as ASCII characters * A string prepended by 0x is treated as HEX and prepended by 0s as Base64 */ static err_t extract_secret(chunk_t *secret, chunk_t *line) { chunk_t raw_secret; char delimiter = ' '; bool quotes = FALSE; if (!eat_whitespace(line)) { return "missing secret"; } if (*line->ptr == '\'' || *line->ptr == '"') { quotes = TRUE; delimiter = *line->ptr; line->ptr++; line->len--; } if (!extract_token(&raw_secret, delimiter, line)) { if (delimiter == ' ') { raw_secret = *line; } else { return "missing second delimiter"; } } if (quotes) { /* treat as an ASCII string */ *secret = chunk_clone(raw_secret); return NULL; } /* treat 0x as hex, 0s as base64 */ if (raw_secret.len > 2) { if (strncasecmp("0x", raw_secret.ptr, 2) == 0) { *secret = chunk_from_hex(chunk_skip(raw_secret, 2), NULL); return NULL; } if (strncasecmp("0s", raw_secret.ptr, 2) == 0) { *secret = chunk_from_base64(chunk_skip(raw_secret, 2), NULL); return NULL; } } *secret = chunk_clone(raw_secret); return NULL; } /** * Data for passphrase callback */ typedef struct { /** cached passphrases */ mem_cred_t *cache; /** socket we use for prompting */ FILE *prompt; /** type of secret to unlock */ int type; /** private key file */ char *path; /** number of tries */ int try; } passphrase_cb_data_t; /** * Callback function to receive passphrases */ static shared_key_t* passphrase_cb(passphrase_cb_data_t *data, shared_key_type_t type, identification_t *me, identification_t *other, id_match_t *match_me, id_match_t *match_other) { static const int max_tries = 3; shared_key_t *shared; chunk_t secret; char buf[256]; if (type != SHARED_ANY && type != SHARED_PRIVATE_KEY_PASS) { return NULL; } data->try++; if (data->try > max_tries + 1) { /* another builder might call this after we gave up, fail silently */ return NULL; } if (data->try > max_tries) { fprintf(data->prompt, "Passphrase invalid, giving up.\n"); return NULL; } if (data->try > 1) { fprintf(data->prompt, "Passphrase invalid!\n"); } fprintf(data->prompt, "%s '%s' is encrypted.\n", data->type == CRED_PRIVATE_KEY ? "Private key" : "PKCS#12 file", data->path); fprintf(data->prompt, "Passphrase:\n"); if (fgets(buf, sizeof(buf), data->prompt)) { secret = chunk_create(buf, strlen(buf)); if (secret.len > 1) { /* trim appended \n */ secret.len--; if (match_me) { *match_me = ID_MATCH_PERFECT; } if (match_other) { *match_other = ID_MATCH_NONE; } shared = shared_key_create(SHARED_PRIVATE_KEY_PASS, chunk_clone(secret)); data->cache->add_shared(data->cache, shared->get_ref(shared), NULL); return shared; } } return NULL; } /** * Data for PIN callback */ typedef struct { /** socket we use for prompting */ FILE *prompt; /** card label */ char *card; /** card keyid */ chunk_t keyid; /** number of tries */ int try; /** provided PIN */ shared_key_t *shared; } pin_cb_data_t; /** * Callback function to receive PINs */ static shared_key_t* pin_cb(pin_cb_data_t *data, shared_key_type_t type, identification_t *me, identification_t *other, id_match_t *match_me, id_match_t *match_other) { chunk_t secret; char buf[256]; if (type != SHARED_ANY && type != SHARED_PIN) { return NULL; } if (!me || !chunk_equals(me->get_encoding(me), data->keyid)) { return NULL; } data->try++; if (data->try > 1) { fprintf(data->prompt, "PIN invalid, aborting.\n"); return NULL; } fprintf(data->prompt, "Login to '%s' required\n", data->card); fprintf(data->prompt, "PIN:\n"); if (fgets(buf, sizeof(buf), data->prompt)) { secret = chunk_create(buf, strlen(buf)); if (secret.len > 1) { /* trim appended \n */ secret.len--; if (match_me) { *match_me = ID_MATCH_PERFECT; } if (match_other) { *match_other = ID_MATCH_NONE; } DESTROY_IF(data->shared); data->shared = shared_key_create(SHARED_PIN, chunk_clone(secret)); return data->shared->get_ref(data->shared); } } return NULL; } /** * Load a smartcard with a PIN */ static bool load_pin(mem_cred_t *secrets, chunk_t line, int line_nr, FILE *prompt) { chunk_t sc = chunk_empty, secret = chunk_empty; char smartcard[BUF_LEN], keyid[SC_PART_LEN], module[SC_PART_LEN]; private_key_t *key = NULL; u_int slot; chunk_t chunk; shared_key_t *shared = NULL; identification_t *id; mem_cred_t *mem = NULL; callback_cred_t *cb = NULL; pin_cb_data_t pin_data; smartcard_format_t format; err_t ugh = extract_value(&sc, &line); if (ugh != NULL) { DBG1(DBG_CFG, "line %d: %s", line_nr, ugh); return FALSE; } if (sc.len == 0) { DBG1(DBG_CFG, "line %d: expected %%smartcard specifier", line_nr); return FALSE; } snprintf(smartcard, sizeof(smartcard), "%.*s", (int)sc.len, sc.ptr); smartcard[sizeof(smartcard) - 1] = '\0'; format = parse_smartcard(smartcard, &slot, module, keyid); if (format == SC_FORMAT_INVALID) { DBG1(DBG_CFG, "line %d: the given %%smartcard specifier is not" " supported or invalid", line_nr); return FALSE; } if (!eat_whitespace(&line)) { DBG1(DBG_CFG, "line %d: expected PIN", line_nr); return FALSE; } ugh = extract_secret(&secret, &line); if (ugh != NULL) { DBG1(DBG_CFG, "line %d: malformed PIN: %s", line_nr, ugh); return FALSE; } chunk = chunk_from_hex(chunk_create(keyid, strlen(keyid)), NULL); if (secret.len == 7 && strpfx(secret.ptr, "%prompt")) { free(secret.ptr); if (!prompt) { /* no IO channel to prompt, skip */ chunk_clear(&chunk); return TRUE; } /* use callback credential set to prompt for the pin */ pin_data = (pin_cb_data_t){ .prompt = prompt, .card = smartcard, .keyid = chunk, }; cb = callback_cred_create_shared((void*)pin_cb, &pin_data); lib->credmgr->add_local_set(lib->credmgr, &cb->set, FALSE); } else { /* provide our pin in a temporary credential set */ shared = shared_key_create(SHARED_PIN, secret); id = identification_create_from_encoding(ID_KEY_ID, chunk); mem = mem_cred_create(); mem->add_shared(mem, shared->get_ref(shared), id, NULL); lib->credmgr->add_local_set(lib->credmgr, &mem->set, FALSE); } /* unlock: smartcard needs the pin and potentially calls public set */ key = (private_key_t*)load_from_smartcard(format, slot, module, keyid, CRED_PRIVATE_KEY, KEY_ANY); if (key) { DBG1(DBG_CFG, " loaded private key from %.*s", (int)sc.len, sc.ptr); secrets->add_key(secrets, key); } if (mem) { if (!key) { shared->destroy(shared); shared = NULL; } lib->credmgr->remove_local_set(lib->credmgr, &mem->set); mem->destroy(mem); } if (cb) { if (key) { shared = pin_data.shared; } else { DESTROY_IF(pin_data.shared); } lib->credmgr->remove_local_set(lib->credmgr, &cb->set); cb->destroy(cb); } if (shared) { id = identification_create_from_encoding(ID_KEY_ID, chunk); secrets->add_shared(secrets, shared, id, NULL); } chunk_clear(&chunk); return TRUE; } /** * Load a private key or PKCS#12 container from a file */ static bool load_from_file(chunk_t line, int line_nr, FILE *prompt, char *path, int type, int subtype, void **result) { chunk_t filename; chunk_t secret = chunk_empty; err_t ugh = extract_value(&filename, &line); if (ugh != NULL) { DBG1(DBG_CFG, "line %d: %s", line_nr, ugh); return FALSE; } if (filename.len == 0) { DBG1(DBG_CFG, "line %d: empty filename", line_nr); return FALSE; } if (*filename.ptr == '/') { /* absolute path name */ snprintf(path, PATH_MAX, "%.*s", (int)filename.len, filename.ptr); } else { /* relative path name */ snprintf(path, PATH_MAX, "%s/%.*s", PRIVATE_KEY_DIR, (int)filename.len, filename.ptr); } /* check for optional passphrase */ if (eat_whitespace(&line)) { ugh = extract_secret(&secret, &line); if (ugh != NULL) { DBG1(DBG_CFG, "line %d: malformed passphrase: %s", line_nr, ugh); return FALSE; } } if (secret.len == 7 && strpfx(secret.ptr, "%prompt")) { callback_cred_t *cb; passphrase_cb_data_t pp_data = { .prompt = prompt, .type = type, .path = path, .try = 0, }; free(secret.ptr); if (!prompt) { *result = NULL; return TRUE; } /* add cache first so if valid passphrases are needed multiple times * the callback is not called anymore */ pp_data.cache = mem_cred_create(); lib->credmgr->add_local_set(lib->credmgr, &pp_data.cache->set, FALSE); /* use callback credential set to prompt for the passphrase */ cb = callback_cred_create_shared((void*)passphrase_cb, &pp_data); lib->credmgr->add_local_set(lib->credmgr, &cb->set, FALSE); *result = lib->creds->create(lib->creds, type, subtype, BUILD_FROM_FILE, path, BUILD_END); lib->credmgr->remove_local_set(lib->credmgr, &cb->set); cb->destroy(cb); lib->credmgr->remove_local_set(lib->credmgr, &pp_data.cache->set); pp_data.cache->destroy(pp_data.cache); } else { mem_cred_t *mem = NULL; shared_key_t *shared; /* provide our pin in a temporary credential set */ shared = shared_key_create(SHARED_PRIVATE_KEY_PASS, secret); mem = mem_cred_create(); mem->add_shared(mem, shared, NULL); if (eat_whitespace(&line)) { /* if there is a second passphrase add that too, could be needed for * PKCS#12 files using different passwords for MAC and encryption */ ugh = extract_secret(&secret, &line); if (ugh != NULL) { DBG1(DBG_CFG, "line %d: malformed passphrase: %s", line_nr, ugh); mem->destroy(mem); return FALSE; } shared = shared_key_create(SHARED_PRIVATE_KEY_PASS, secret); mem->add_shared(mem, shared, NULL); } lib->credmgr->add_local_set(lib->credmgr, &mem->set, FALSE); *result = lib->creds->create(lib->creds, type, subtype, BUILD_FROM_FILE, path, BUILD_END); lib->credmgr->remove_local_set(lib->credmgr, &mem->set); mem->destroy(mem); } return TRUE; } /** * Load a private key */ #ifdef NETAPP static bool load_private(mem_cred_t *secrets, chunk_t line, int line_nr, FILE *prompt, key_type_t key_type, uint32_t vserverid) #else /* !NETAPP */ static bool load_private(mem_cred_t *secrets, chunk_t line, int line_nr, FILE *prompt, key_type_t key_type) #endif /* NETAPP */ { char path[PATH_MAX]; private_key_t *key; if (!load_from_file(line, line_nr, prompt, path, CRED_PRIVATE_KEY, key_type, (void**)&key)) { return FALSE; } if (key) { DBG1(DBG_CFG, " loaded %N private key from '%s'", key_type_names, key->get_type(key), path); secrets->add_key(secrets, key); } else { DBG1(DBG_CFG, " loading private key from '%s' failed", path); } return TRUE; } /** * Load a PKCS#12 container */ static bool load_pkcs12(private_stroke_cred_t *this, mem_cred_t *secrets, chunk_t line, int line_nr, FILE *prompt) { enumerator_t *enumerator; char path[PATH_MAX]; certificate_t *cert; private_key_t *key; pkcs12_t *pkcs12; if (!load_from_file(line, line_nr, prompt, path, CRED_CONTAINER, CONTAINER_PKCS12, (void**)&pkcs12)) { return FALSE; } if (!pkcs12) { DBG1(DBG_CFG, " loading credentials from '%s' failed", path); return TRUE; } enumerator = pkcs12->create_cert_enumerator(pkcs12); while (enumerator->enumerate(enumerator, &cert)) { x509_t *x509 = (x509_t*)cert; if (x509->get_flags(x509) & X509_CA) { DBG1(DBG_CFG, " loaded ca certificate \"%Y\" from '%s'", cert->get_subject(cert), path); } else { DBG1(DBG_CFG, " loaded certificate \"%Y\" from '%s'", cert->get_subject(cert), path); } this->creds->add_cert(this->creds, TRUE, cert->get_ref(cert)); } enumerator->destroy(enumerator); enumerator = pkcs12->create_key_enumerator(pkcs12); while (enumerator->enumerate(enumerator, &key)) { DBG1(DBG_CFG, " loaded %N private key from '%s'", key_type_names, key->get_type(key), path); secrets->add_key(secrets, key->get_ref(key)); } enumerator->destroy(enumerator); pkcs12->container.destroy(&pkcs12->container); return TRUE; } /** * Load a shared key */ #ifdef NETAPP static bool load_shared(mem_cred_t *secrets, chunk_t line, int line_nr, shared_key_type_t type, chunk_t ids, uint32_t vserverid) #else /* !NETAPP */ static bool load_shared(mem_cred_t *secrets, chunk_t line, int line_nr, shared_key_type_t type, chunk_t ids) #endif /* NETAPP */ { shared_key_t *shared_key; linked_list_t *owners; chunk_t secret = chunk_empty; err_t ugh = extract_secret(&secret, &line); if (ugh != NULL) { DBG1(DBG_CFG, "line %d: malformed secret: %s", line_nr, ugh); return FALSE; } shared_key = shared_key_create(type, secret); #ifdef NETAPP DBG1(DBG_CFG, " loaded %N secret for %s for vserver %d", shared_key_type_names, type, ids.len > 0 ? (char*)ids.ptr : "%any", vserverid); #else /* !NETAPP */ DBG1(DBG_CFG, " loaded %N secret for %s", shared_key_type_names, type, ids.len > 0 ? (char*)ids.ptr : "%any"); #endif /* NETAPP */ DBG4(DBG_CFG, " secret: %#B", &secret); owners = linked_list_create(); while (ids.len > 0) { chunk_t id; ugh = extract_value(&id, &ids); if (ugh != NULL) { DBG1(DBG_CFG, "line %d: %s", line_nr, ugh); shared_key->destroy(shared_key); owners->destroy_offset(owners, offsetof(identification_t, destroy)); return FALSE; } if (id.len == 0) { continue; } /* NULL terminate the ID string */ *(id.ptr + id.len) = '\0'; owners->insert_last(owners, identification_create_from_string(id.ptr)); } if (!owners->get_count(owners)) { owners->insert_last(owners, identification_create_from_encoding(ID_ANY, chunk_empty)); } #ifdef NETAPP secrets->add_shared_list(secrets, shared_key, owners, vserverid); #else /* !NETAPP */ secrets->add_shared_list(secrets, shared_key, owners); #endif /* NETAPP */ return TRUE; } /** * reload ipsec.secrets */ static void load_secrets(private_stroke_cred_t *this, mem_cred_t *secrets, char *file, int level, FILE *prompt) { int line_nr = 0; chunk_t *src, line; DBG1(DBG_CFG, "loading secrets from '%s'", file); src = chunk_map(file, FALSE); if (!src) { DBG1(DBG_CFG, "opening secrets file '%s' failed: %s", file, strerror(errno)); return; } if (!secrets) { secrets = mem_cred_create(); } while (fetchline(src, &line)) { chunk_t ids, token; key_type_t key_type; shared_key_type_t type; #ifdef NETAPP chunk_t vsidchunk; uint32_t vserverid = 0; #endif /* NETAPP */ line_nr++; if (!eat_whitespace(&line)) { continue; } if (line.len > strlen("include ") && strpfx(line.ptr, "include ")) { char **expanded, *dir, pattern[PATH_MAX]; u_char *pos; if (level > MAX_SECRETS_RECURSION) { DBG1(DBG_CFG, "maximum level of %d includes reached, ignored", MAX_SECRETS_RECURSION); continue; } /* terminate filename by space */ line = chunk_skip(line, strlen("include ")); pos = memchr(line.ptr, ' ', line.len); if (pos) { line.len = pos - line.ptr; } if (line.len && line.ptr[0] == '/') { if (line.len + 1 > sizeof(pattern)) { DBG1(DBG_CFG, "include pattern too long, ignored"); continue; } snprintf(pattern, sizeof(pattern), "%.*s", (int)line.len, line.ptr); } else { /* use directory of current file if relative */ dir = path_dirname(file); if (line.len + 1 + strlen(dir) + 1 > sizeof(pattern)) { DBG1(DBG_CFG, "include pattern too long, ignored"); free(dir); continue; } snprintf(pattern, sizeof(pattern), "%s/%.*s", dir, (int)line.len, line.ptr); free(dir); } #ifdef HAVE_GLOB_H { glob_t buf; if (glob(pattern, GLOB_ERR, NULL, &buf) != 0) { DBG1(DBG_CFG, "expanding file expression '%s' failed", pattern); } else { for (expanded = buf.gl_pathv; *expanded != NULL; expanded++) { load_secrets(this, secrets, *expanded, level + 1, prompt); } } globfree(&buf); } #else /* HAVE_GLOB_H */ /* if glob(3) is not available, try to load pattern directly */ load_secrets(this, secrets, pattern, level + 1, prompt); #endif /* HAVE_GLOB_H */ continue; } if (line.len > 2 && strpfx(line.ptr, ": ")) { /* no ids, skip the ':' */ ids = chunk_empty; line.ptr++; line.len--; } else if (extract_token_str(&ids, " : ", &line)) { /* NULL terminate the extracted id string */ *(ids.ptr + ids.len) = '\0'; } else { DBG1(DBG_CFG, "line %d: missing ' : ' separator", line_nr); break; } #ifdef NETAPP /* Now separate vserverid from the IDs */ if (extract_token_str(&vsidchunk, " ", &ids)) { vserverid = atoi(vsidchunk.ptr); } #endif /* NETAPP */ if (!eat_whitespace(&line) || !extract_token(&token, ' ', &line)) { DBG1(DBG_CFG, "line %d: missing token", line_nr); break; } if (match("RSA", &token) || match("ECDSA", &token) || match("BLISS", &token) || match("PKCS8", &token)) { if (match("RSA", &token)) { key_type = KEY_RSA; } else if (match("ECDSA", &token)) { key_type = KEY_ECDSA; } else if (match("BLISS", &token)) { key_type = KEY_BLISS; } else { key_type = KEY_ANY; } #ifdef NETAPP if (!load_private(secrets, line, line_nr, prompt, key_type, vserverid)) #else /* !NETAPP */ if (!load_private(secrets, line, line_nr, prompt, key_type)) #endif /* NETAPP */ { break; } } else if (match("P12", &token)) { if (!load_pkcs12(this, secrets, line, line_nr, prompt)) { break; } } else if (match("PIN", &token)) { if (!load_pin(secrets, line, line_nr, prompt)) { break; } } else if ((match("PSK", &token) && (type = SHARED_IKE)) || (match("EAP", &token) && (type = SHARED_EAP)) || (match("NTLM", &token) && (type = SHARED_NT_HASH)) || (match("XAUTH", &token) && (type = SHARED_EAP))) { #ifdef NETAPP if (!load_shared(secrets, line, line_nr, type, ids, vserverid)) #else /* !NETAPP */ if (!load_shared(secrets, line, line_nr, type, ids)) #endif /* NETAPP */ { break; } } else { DBG1(DBG_CFG, "line %d: token must be either RSA, ECDSA, BLISS, " "PKCS8 P12, PIN, PSK, EAP, XAUTH or NTLM", line_nr); break; } } chunk_unmap(src); if (level == 0) { /* replace secrets in active credential set */ this->creds->replace_secrets(this->creds, secrets, FALSE); secrets->destroy(secrets); } } /** * load all certificates from ipsec.d */ static void load_certs(private_stroke_cred_t *this) { mem_cred_t *creds; DBG1(DBG_CFG, "loading ca certificates from '%s'", CA_CERTIFICATE_DIR); creds = mem_cred_create(); load_certdir(this, CA_CERTIFICATE_DIR, CERT_X509, X509_CA, creds); this->ca->replace_certs(this->ca, creds); creds->destroy(creds); DBG1(DBG_CFG, "loading aa certificates from '%s'", AA_CERTIFICATE_DIR); load_certdir(this, AA_CERTIFICATE_DIR, CERT_X509, X509_AA, this->aacerts); DBG1(DBG_CFG, "loading ocsp signer certificates from '%s'", OCSP_CERTIFICATE_DIR); load_certdir(this, OCSP_CERTIFICATE_DIR, CERT_X509, X509_OCSP_SIGNER, this->creds); DBG1(DBG_CFG, "loading attribute certificates from '%s'", ATTR_CERTIFICATE_DIR); load_certdir(this, ATTR_CERTIFICATE_DIR, CERT_X509_AC, 0, this->creds); DBG1(DBG_CFG, "loading crls from '%s'", CRL_DIR); load_certdir(this, CRL_DIR, CERT_X509_CRL, 0, this->creds); } METHOD(stroke_cred_t, reread, void, private_stroke_cred_t *this, stroke_msg_t *msg, FILE *prompt) { mem_cred_t *creds; if (msg->reread.flags & REREAD_SECRETS) { DBG1(DBG_CFG, "rereading secrets"); load_secrets(this, NULL, this->secrets_file, 0, prompt); } if (msg->reread.flags & REREAD_CACERTS) { /* first reload certificates in ca sections, so we can refer to them */ this->ca->reload_certs(this->ca); DBG1(DBG_CFG, "rereading ca certificates from '%s'", CA_CERTIFICATE_DIR); creds = mem_cred_create(); load_certdir(this, CA_CERTIFICATE_DIR, CERT_X509, X509_CA, creds); this->ca->replace_certs(this->ca, creds); creds->destroy(creds); } if (msg->reread.flags & REREAD_AACERTS) { DBG1(DBG_CFG, "rereading aa certificates from '%s'", AA_CERTIFICATE_DIR); creds = mem_cred_create(); load_certdir(this, AA_CERTIFICATE_DIR, CERT_X509, X509_AA, creds); this->aacerts->replace_certs(this->aacerts, creds, FALSE); creds->destroy(creds); lib->credmgr->flush_cache(lib->credmgr, CERT_X509); } if (msg->reread.flags & REREAD_OCSPCERTS) { DBG1(DBG_CFG, "rereading ocsp signer certificates from '%s'", OCSP_CERTIFICATE_DIR); load_certdir(this, OCSP_CERTIFICATE_DIR, CERT_X509, X509_OCSP_SIGNER, this->creds); } if (msg->reread.flags & REREAD_ACERTS) { DBG1(DBG_CFG, "rereading attribute certificates from '%s'", ATTR_CERTIFICATE_DIR); load_certdir(this, ATTR_CERTIFICATE_DIR, CERT_X509_AC, 0, this->creds); } if (msg->reread.flags & REREAD_CRLS) { DBG1(DBG_CFG, "rereading crls from '%s'", CRL_DIR); load_certdir(this, CRL_DIR, CERT_X509_CRL, 0, this->creds); } } METHOD(stroke_cred_t, add_shared, void, private_stroke_cred_t *this, shared_key_t *shared, linked_list_t *owners) { #ifdef NETAPP DBG1(DBG_CFG, "stroke_cred.c:add_shared() is called unexpectedly"); this->creds->add_shared_list(this->creds, shared, owners, -1); #else /* !NETAPP */ this->creds->add_shared_list(this->creds, shared, owners); #endif /* NETAPP */ } METHOD(stroke_cred_t, destroy, void, private_stroke_cred_t *this) { lib->credmgr->remove_set(lib->credmgr, &this->aacerts->set); lib->credmgr->remove_set(lib->credmgr, &this->creds->set); this->aacerts->destroy(this->aacerts); this->creds->destroy(this->creds); free(this); } /* * see header file */ stroke_cred_t *stroke_cred_create(stroke_ca_t *ca) { private_stroke_cred_t *this; INIT(this, .public = { .set = { .create_private_enumerator = (void*)return_null, .create_cert_enumerator = (void*)return_null, .create_shared_enumerator = (void*)return_null, .create_cdp_enumerator = (void*)return_null, .cache_cert = (void*)_cache_cert, }, .reread = _reread, .load_peer = _load_peer, .load_pubkey = _load_pubkey, .add_shared = _add_shared, .cachecrl = _cachecrl, .destroy = _destroy, }, .secrets_file = lib->settings->get_str(lib->settings, "%s.plugins.stroke.secrets_file", SECRETS_FILE, lib->ns), .creds = mem_cred_create(), .aacerts = mem_cred_create(), .ca = ca, ); if (lib->settings->get_bool(lib->settings, "%s.cache_crls", FALSE, lib->ns)) { cachecrl(this, TRUE); } lib->credmgr->add_set(lib->credmgr, &this->creds->set); lib->credmgr->add_set(lib->credmgr, &this->aacerts->set); this->force_ca_cert = lib->settings->get_bool(lib->settings, "%s.plugins.stroke.ignore_missing_ca_basic_constraint", FALSE, lib->ns); load_certs(this); load_secrets(this, NULL, this->secrets_file, 0, NULL); return &this->public; }