/* * Copyright (C) 2012 Tobias Brunner * Copyright (C) 2005 Jan Hutter, Martin Willi * 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "scep.h" /* * definition of some defaults */ /* some paths */ #define REQ_PATH IPSEC_CONFDIR "/ipsec.d/reqs" #define HOST_CERT_PATH IPSEC_CONFDIR "/ipsec.d/certs" #define CA_CERT_PATH IPSEC_CONFDIR "/ipsec.d/cacerts" #define PRIVATE_KEY_PATH IPSEC_CONFDIR "/ipsec.d/private" /* default name of DER-encoded PKCS#1 private key file */ #define DEFAULT_FILENAME_PKCS1 "myKey.der" /* default name of DER-encoded PKCS#10 certificate request file */ #define DEFAULT_FILENAME_PKCS10 "myReq.der" /* default name of DER-encoded PKCS#7 file */ #define DEFAULT_FILENAME_PKCS7 "pkcs7.der" /* default name of DER-encoded self-signed X.509 certificate file */ #define DEFAULT_FILENAME_CERT_SELF "selfCert.der" /* default name of DER-encoded X.509 certificate file */ #define DEFAULT_FILENAME_CERT "myCert.der" /* default name of DER-encoded CA cert file used for key encipherment */ #define DEFAULT_FILENAME_CACERT_ENC "caCert.der" /* default name of the der encoded CA cert file used for signature verification */ #define DEFAULT_FILENAME_CACERT_SIG "caCert.der" /* default prefix of the der encoded CA certificates received from the SCEP server */ #define DEFAULT_FILENAME_PREFIX_CACERT "caCert.der" /* default certificate validity */ #define DEFAULT_CERT_VALIDITY 5 * 3600 * 24 * 365 /* seconds */ /* default polling time interval in SCEP manual mode */ #define DEFAULT_POLL_INTERVAL 20 /* seconds */ /* default key length for self-generated RSA keys */ #define DEFAULT_RSA_KEY_LENGTH 2048 /* bits */ /* default distinguished name */ #define DEFAULT_DN "C=CH, O=Linux strongSwan, CN=" /* minimum RSA key size */ #define RSA_MIN_OCTETS (512 / BITS_PER_BYTE) /* challenge password buffer size */ #define MAX_PASSWORD_LENGTH 256 /* Max length of filename for tempfile */ #define MAX_TEMP_FILENAME_LENGTH 256 /* current scepclient version */ static const char *scepclient_version = "1.0"; /* by default the CRL policy is lenient */ bool strict_crl_policy = FALSE; /* by default pluto does not check crls dynamically */ long crl_check_interval = 0; /* by default pluto logs out after every smartcard use */ bool pkcs11_keep_state = FALSE; /* options read by optionsfrom */ options_t *options; /* * Global variables */ chunk_t pkcs1; chunk_t pkcs7; chunk_t challengePassword; chunk_t serialNumber; chunk_t transID; chunk_t fingerprint; chunk_t encoding; chunk_t pkcs10_encoding; chunk_t issuerAndSubject; chunk_t getCertInitial; chunk_t scep_response; linked_list_t *subjectAltNames; identification_t *subject = NULL; private_key_t *private_key = NULL; public_key_t *public_key = NULL; certificate_t *x509_signer = NULL; certificate_t *x509_ca_enc = NULL; certificate_t *x509_ca_sig = NULL; certificate_t *pkcs10_req = NULL; /* logging */ static bool log_to_stderr = TRUE; static bool log_to_syslog = TRUE; static level_t default_loglevel = 1; /** * logging function for scepclient */ static void scepclient_dbg(debug_t group, level_t level, char *fmt, ...) { char buffer[8192]; char *current = buffer, *next; va_list args; if (level <= default_loglevel) { if (log_to_stderr) { va_start(args, fmt); vfprintf(stderr, fmt, args); va_end(args); fprintf(stderr, "\n"); } if (log_to_syslog) { /* write in memory buffer first */ va_start(args, fmt); vsnprintf(buffer, sizeof(buffer), fmt, args); va_end(args); /* do a syslog with every line */ while (current) { next = strchr(current, '\n'); if (next) { *(next++) = '\0'; } syslog(LOG_INFO, "%s\n", current); current = next; } } } } /** * Initialize logging to stderr/syslog */ static void init_log(const char *program) { dbg = scepclient_dbg; if (log_to_stderr) { setbuf(stderr, NULL); } if (log_to_syslog) { openlog(program, LOG_CONS | LOG_NDELAY | LOG_PID, LOG_AUTHPRIV); } } /** * join two paths if filename is not absolute */ static void join_paths(char *target, size_t target_size, char *parent, char *filename) { if (*filename == '/' || *filename == '.') { snprintf(target, target_size, "%s", filename); } else { snprintf(target, target_size, "%s/%s", parent, filename); } } /** * add a suffix to a given filename, properly handling extensions like '.der' */ static void add_path_suffix(char *target, size_t target_size, char *filename, char *suffix) { char *start, *dot; start = strrchr(filename, '/'); start = start ?: filename; dot = strrchr(start, '.'); if (!dot || dot == start || dot[1] == '\0') { /* no extension add suffix at the end */ snprintf(target, target_size, "%s%s", filename, suffix); } else { /* add the suffix between the filename and the extension */ snprintf(target, target_size, "%.*s%s%s", (int)(dot - filename), filename, suffix, dot); } } /** * @brief exit scepclient * * @param status 0 = OK, 1 = general discomfort */ static void exit_scepclient(err_t message, ...) { int status = 0; DESTROY_IF(subject); DESTROY_IF(private_key); DESTROY_IF(public_key); DESTROY_IF(x509_signer); DESTROY_IF(x509_ca_enc); DESTROY_IF(x509_ca_sig); DESTROY_IF(pkcs10_req); subjectAltNames->destroy_offset(subjectAltNames, offsetof(identification_t, destroy)); free(pkcs1.ptr); free(pkcs7.ptr); free(serialNumber.ptr); free(transID.ptr); free(fingerprint.ptr); free(encoding.ptr); free(pkcs10_encoding.ptr); free(issuerAndSubject.ptr); free(getCertInitial.ptr); free(scep_response.ptr); options->destroy(options); /* print any error message to stderr */ if (message != NULL && *message != '\0') { va_list args; char m[8192]; va_start(args, message); vsnprintf(m, sizeof(m), message, args); va_end(args); fprintf(stderr, "error: %s\n", m); status = -1; } library_deinit(); exit(status); } /** * @brief prints the program version and exits * */ static void version(void) { printf("scepclient %s\n", scepclient_version); exit_scepclient(NULL); } /** * @brief prints the usage of the program to the stderr output * * If message is set, program is exitet with 1 (error) * @param message message in case of an error */ static void usage(const char *message) { fprintf(stderr, "Usage: scepclient\n" " --help (-h) show usage and exit\n" " --version (-v) show version and exit\n" " --quiet (-q) do not write log output to stderr\n" " --in (-i) [=] use of for input \n" " = pkcs1 | cacert-enc | cacert-sig\n" " - if no pkcs1 input is defined, a \n" " RSA key will be generated\n" " - if no filename is given, default is used\n" " --out (-o) [=] write output of to \n" " multiple outputs are allowed\n" " = pkcs1 | pkcs10 | pkcs7 | cert-self | cert | cacert\n" " - type cacert defines filename prefix of\n" " received CA certificate(s)\n" " - if no filename is given, default is used\n" " --optionsfrom (-+) reads additional options from given file\n" " --force (-f) force existing file(s)\n" "\n" "Options for key generation (pkcs1):\n" " --keylength (-k) key length for RSA key generation\n" " (default: 2048 bits)\n" "\n" "Options for validity:\n" " --days (-D) validity in days\n" " --startdate (-S) Z not valid before date\n" " --enddate (-E) Z not valid after date\n" "\n" "Options for request generation (pkcs10):\n" " --dn (-d) comma separated list of distinguished names\n" " --subjectAltName (-s) = include subjectAltName in certificate request\n" " = email | dns | ip \n" " --password (-p) challenge password\n" " - if pw is '%%prompt', password gets prompted for\n" " --algorithm (-a) use specified algorithm for PKCS#7 encryption\n" " = des | 3des (default) | aes128| aes192 | \n" " aes256 | camellia128 | camellia192 | camellia256\n" "\n" "Options for enrollment (cert):\n" " --url (-u) url of the SCEP server\n" " --method (-m) post | get http request type\n" " --interval (-t) manual mode poll interval in seconds (default 20s)\n" " --maxpolltime (-x) max poll time in seconds when in manual mode\n" " (default: unlimited)\n" "\n" "Debugging output:\n" " --debug (-l) changes the log level (-1..4, default: 1)\n" ); exit_scepclient(message); } /** * @brief main of scepclient * * @param argc number of arguments * @param argv pointer to the argument values */ int main(int argc, char **argv) { /* external values */ extern char * optarg; extern int optind; /* type of input and output files */ typedef enum { PKCS1 = 0x01, PKCS10 = 0x02, PKCS7 = 0x04, CERT_SELF = 0x08, CERT = 0x10, CACERT_ENC = 0x20, CACERT_SIG = 0x40 } scep_filetype_t; /* filetype to read from, defaults to "generate a key" */ scep_filetype_t filetype_in = 0; /* filetype to write to, no default here */ scep_filetype_t filetype_out = 0; /* input files */ char *file_in_pkcs1 = DEFAULT_FILENAME_PKCS1; char *file_in_cacert_enc = DEFAULT_FILENAME_CACERT_ENC; char *file_in_cacert_sig = DEFAULT_FILENAME_CACERT_SIG; /* output files */ char *file_out_pkcs1 = DEFAULT_FILENAME_PKCS1; char *file_out_pkcs10 = DEFAULT_FILENAME_PKCS10; char *file_out_pkcs7 = DEFAULT_FILENAME_PKCS7; char *file_out_cert_self = DEFAULT_FILENAME_CERT_SELF; char *file_out_cert = DEFAULT_FILENAME_CERT; char *file_out_ca_cert = DEFAULT_FILENAME_CACERT_ENC; /* by default user certificate is requested */ bool request_ca_certificate = FALSE; /* by default existing files are not overwritten */ bool force = FALSE; /* length of RSA key in bits */ u_int rsa_keylength = DEFAULT_RSA_KEY_LENGTH; /* validity of self-signed certificate */ time_t validity = DEFAULT_CERT_VALIDITY; time_t notBefore = 0; time_t notAfter = 0; /* distinguished name for requested certificate, ASCII format */ char *distinguishedName = NULL; /* challenge password */ char challenge_password_buffer[MAX_PASSWORD_LENGTH]; /* symmetric encryption algorithm used by pkcs7, default is 3DES */ encryption_algorithm_t pkcs7_symmetric_cipher = ENCR_3DES; size_t pkcs7_key_size = 0; /* digest algorithm used by pkcs7, default is SHA-1 */ hash_algorithm_t pkcs7_digest_alg = HASH_SHA1; /* signature algorithm used by pkcs10, default is SHA-1 */ hash_algorithm_t pkcs10_signature_alg = HASH_SHA1; /* URL of the SCEP-Server */ char *scep_url = NULL; /* http request method, default is GET */ bool http_get_request = TRUE; /* poll interval time in manual mode in seconds */ u_int poll_interval = DEFAULT_POLL_INTERVAL; /* maximum poll time */ u_int max_poll_time = 0; err_t ugh = NULL; /* initialize library */ if (!library_init(NULL)) { library_deinit(); exit(SS_RC_LIBSTRONGSWAN_INTEGRITY); } if (lib->integrity && !lib->integrity->check_file(lib->integrity, "scepclient", argv[0])) { fprintf(stderr, "integrity check of scepclient failed\n"); library_deinit(); exit(SS_RC_DAEMON_INTEGRITY); } /* initialize global variables */ pkcs1 = chunk_empty; pkcs7 = chunk_empty; serialNumber = chunk_empty; transID = chunk_empty; fingerprint = chunk_empty; encoding = chunk_empty; pkcs10_encoding = chunk_empty; issuerAndSubject = chunk_empty; challengePassword = chunk_empty; getCertInitial = chunk_empty; scep_response = chunk_empty; subjectAltNames = linked_list_create(); options = options_create(); for (;;) { static const struct option long_opts[] = { /* name, has_arg, flag, val */ { "help", no_argument, NULL, 'h' }, { "version", no_argument, NULL, 'v' }, { "optionsfrom", required_argument, NULL, '+' }, { "quiet", no_argument, NULL, 'q' }, { "debug", required_argument, NULL, 'l' }, { "in", required_argument, NULL, 'i' }, { "out", required_argument, NULL, 'o' }, { "force", no_argument, NULL, 'f' }, { "keylength", required_argument, NULL, 'k' }, { "dn", required_argument, NULL, 'd' }, { "days", required_argument, NULL, 'D' }, { "startdate", required_argument, NULL, 'S' }, { "enddate", required_argument, NULL, 'E' }, { "subjectAltName", required_argument, NULL, 's' }, { "password", required_argument, NULL, 'p' }, { "algorithm", required_argument, NULL, 'a' }, { "url", required_argument, NULL, 'u' }, { "method", required_argument, NULL, 'm' }, { "interval", required_argument, NULL, 't' }, { "maxpolltime", required_argument, NULL, 'x' }, { 0,0,0,0 } }; /* parse next option */ int c = getopt_long(argc, argv, "hv+:qi:o:fk:d:s:p:a:u:m:t:x:APRCMS", long_opts, NULL); switch (c) { case EOF: /* end of flags */ break; case 'h': /* --help */ usage(NULL); case 'v': /* --version */ version(); case 'q': /* --quiet */ log_to_stderr = FALSE; continue; case 'l': /* --debug */ default_loglevel = atoi(optarg); continue; case 'i': /* --in [= ] */ { char *filename = strstr(optarg, "="); if (filename) { /* replace '=' by '\0' */ *filename = '\0'; /* set pointer to start of filename */ filename++; } if (strcaseeq("pkcs1", optarg)) { filetype_in |= PKCS1; if (filename) file_in_pkcs1 = filename; } else if (strcaseeq("cacert-enc", optarg)) { filetype_in |= CACERT_ENC; if (filename) file_in_cacert_enc = filename; } else if (strcaseeq("cacert-sig", optarg)) { filetype_in |= CACERT_SIG; if (filename) file_in_cacert_sig = filename; } else { usage("invalid --in file type"); } continue; } case 'o': /* --out [= ] */ { char *filename = strstr(optarg, "="); if (filename) { /* replace '=' by '\0' */ *filename = '\0'; /* set pointer to start of filename */ filename++; } if (strcaseeq("pkcs1", optarg)) { filetype_out |= PKCS1; if (filename) file_out_pkcs1 = filename; } else if (strcaseeq("pkcs10", optarg)) { filetype_out |= PKCS10; if (filename) file_out_pkcs10 = filename; } else if (strcaseeq("pkcs7", optarg)) { filetype_out |= PKCS7; if (filename) file_out_pkcs7 = filename; } else if (strcaseeq("cert-self", optarg)) { filetype_out |= CERT_SELF; if (filename) file_out_cert_self = filename; } else if (strcaseeq("cert", optarg)) { filetype_out |= CERT; if (filename) file_out_cert = filename; } else if (strcaseeq("cacert", optarg)) { request_ca_certificate = TRUE; if (filename) file_out_ca_cert = filename; } else { usage("invalid --out file type"); } continue; } case 'f': /* --force */ force = TRUE; continue; case '+': /* --optionsfrom */ if (!options->from(options, optarg, &argc, &argv, optind)) { exit_scepclient("optionsfrom failed"); } continue; case 'k': /* --keylength */ { div_t q; rsa_keylength = atoi(optarg); if (rsa_keylength == 0) usage("invalid keylength"); /* check if key length is a multiple of 8 bits */ q = div(rsa_keylength, 2*BITS_PER_BYTE); if (q.rem != 0) { exit_scepclient("keylength is not a multiple of %d bits!" , 2*BITS_PER_BYTE); } continue; } case 'D': /* --days */ if (optarg == NULL || !isdigit(optarg[0])) { usage("missing number of days"); } else { char *endptr; long days = strtol(optarg, &endptr, 0); if (*endptr != '\0' || endptr == optarg || days <= 0) usage(" must be a positive number"); validity = 24*3600*days; } continue; case 'S': /* --startdate */ if (optarg == NULL || strlen(optarg) != 13 || optarg[12] != 'Z') { usage("date format must be YYMMDDHHMMSSZ"); } else { chunk_t date = { optarg, 13 }; notBefore = asn1_to_time(&date, ASN1_UTCTIME); } continue; case 'E': /* --enddate */ if (optarg == NULL || strlen(optarg) != 13 || optarg[12] != 'Z') { usage("date format must be YYMMDDHHMMSSZ"); } else { chunk_t date = { optarg, 13 }; notAfter = asn1_to_time(&date, ASN1_UTCTIME); } continue; case 'd': /* --dn */ if (distinguishedName) { usage("only one distinguished name allowed"); } distinguishedName = optarg; continue; case 's': /* --subjectAltName */ { char *value = strstr(optarg, "="); if (value) { /* replace '=' by '\0' */ *value = '\0'; /* set pointer to start of value */ value++; } if (strcaseeq("email", optarg) || strcaseeq("dns", optarg) || strcaseeq("ip", optarg)) { subjectAltNames->insert_last(subjectAltNames, identification_create_from_string(value)); continue; } else { usage("invalid --subjectAltName type"); continue; } } case 'p': /* --password */ if (challengePassword.len > 0) { usage("only one challenge password allowed"); } if (strcaseeq("%prompt", optarg)) { printf("Challenge password: "); if (fgets(challenge_password_buffer, sizeof(challenge_password_buffer) - 1, stdin)) { challengePassword.ptr = challenge_password_buffer; /* discard the terminating '\n' from the input */ challengePassword.len = strlen(challenge_password_buffer) - 1; } else { usage("challenge password could not be read"); } } else { challengePassword.ptr = optarg; challengePassword.len = strlen(optarg); } continue; case 'u': /* -- url */ if (scep_url) { usage("only one URL argument allowed"); } scep_url = optarg; continue; case 'm': /* --method */ if (strcaseeq("get", optarg)) { http_get_request = TRUE; } else if (strcaseeq("post", optarg)) { http_get_request = FALSE; } else { usage("invalid http request method specified"); } continue; case 't': /* --interval */ poll_interval = atoi(optarg); if (poll_interval <= 0) { usage("invalid interval specified"); } continue; case 'x': /* --maxpolltime */ max_poll_time = atoi(optarg); continue; case 'a': /*--algorithm */ { const proposal_token_t *token; token = proposal_get_token(optarg, strlen(optarg)); if (token == NULL || token->type != ENCRYPTION_ALGORITHM) { usage("invalid algorithm specified"); } pkcs7_symmetric_cipher = token->algorithm; pkcs7_key_size = token->keysize; if (encryption_algorithm_to_oid(token->algorithm, token->keysize) == OID_UNKNOWN) { usage("unsupported encryption algorithm specified"); } continue; } default: usage("unknown option"); } /* break from loop */ break; } init_log("scepclient"); /* load plugins, further infrastructure may need it */ if (!lib->plugins->load(lib->plugins, NULL, lib->settings->get_str(lib->settings, "scepclient.load", PLUGINS))) { exit_scepclient("plugin loading failed"); } DBG1(DBG_APP, " loaded plugins: %s", lib->plugins->loaded_plugins(lib->plugins)); if ((filetype_out == 0) && (!request_ca_certificate)) { usage("--out filetype required"); } if (request_ca_certificate && (filetype_out > 0 || filetype_in > 0)) { usage("in CA certificate request, no other --in or --out option allowed"); } /* check if url is given, if cert output defined */ if (((filetype_out & CERT) || request_ca_certificate) && !scep_url) { usage("URL of SCEP server required"); } /* check for sanity of --in/--out */ if (!filetype_in && (filetype_in > filetype_out)) { usage("cannot generate --out of given --in!"); } /* get CA cert */ if (request_ca_certificate) { char ca_path[PATH_MAX]; pkcs7_t *pkcs7; if (!scep_http_request(scep_url, chunk_empty, SCEP_GET_CA_CERT, http_get_request, &scep_response)) { exit_scepclient("did not receive a valid scep response"); } join_paths(ca_path, sizeof(ca_path), CA_CERT_PATH, file_out_ca_cert); pkcs7 = pkcs7_create_from_chunk(scep_response, 0); if (!pkcs7 || !pkcs7->parse_signedData(pkcs7, NULL)) { /* no PKCS#7 encoded CA+RA certificates, assume simple CA cert */ DESTROY_IF(pkcs7); if (!chunk_write(scep_response, ca_path, "ca cert", 0022, force)) { exit_scepclient("could not write ca cert file '%s'", ca_path); } } else { enumerator_t *enumerator; certificate_t *cert; int i = 1; enumerator = pkcs7->create_certificate_enumerator(pkcs7); while (enumerator->enumerate(enumerator, &cert)) { x509_t *x509 = (x509_t*)cert; bool ca_cert = x509->get_flags(x509) & X509_CA; char *path = ca_path; if (!ca_cert) { /* use CA name as base for RA certs */ char suffix[6], ra_path[PATH_MAX]; snprintf(suffix, sizeof(suffix), "-ra%0.2d", i++); add_path_suffix(ra_path, sizeof(ra_path), ca_path, suffix); path = ra_path; } if (!cert->get_encoding(cert, CERT_ASN1_DER, &encoding) || !chunk_write(encoding, path, ca_cert ? "ca cert" : "ra cert", 0022, force)) { exit_scepclient("could not write cert file '%s'", path); } chunk_free(&encoding); } enumerator->destroy(enumerator); pkcs7->destroy(pkcs7); } exit_scepclient(NULL); /* no further output required */ } /* * input of PKCS#1 file */ if (filetype_in & PKCS1) /* load an RSA key pair from file */ { char path[PATH_MAX]; join_paths(path, sizeof(path), PRIVATE_KEY_PATH, file_in_pkcs1); private_key = lib->creds->create(lib->creds, CRED_PRIVATE_KEY, KEY_RSA, BUILD_FROM_FILE, path, BUILD_END); } else /* generate an RSA key pair */ { private_key = lib->creds->create(lib->creds, CRED_PRIVATE_KEY, KEY_RSA, BUILD_KEY_SIZE, rsa_keylength, BUILD_END); } if (private_key == NULL) { exit_scepclient("no RSA private key available"); } public_key = private_key->get_public_key(private_key); /* check for minimum key length */ if (private_key->get_keysize(private_key) < RSA_MIN_OCTETS / BITS_PER_BYTE) { exit_scepclient("length of RSA key has to be at least %d bits", RSA_MIN_OCTETS * BITS_PER_BYTE); } /* * input of PKCS#10 file */ if (filetype_in & PKCS10) { /* user wants to load a pkcs10 request * operation is not yet supported * would require a PKCS#10 parsing function pkcs10 = pkcs10_read_from_file(file_in_pkcs10); */ } else { if (distinguishedName == NULL) { char buf[BUF_LEN]; int n = sprintf(buf, DEFAULT_DN); /* set the common name to the hostname */ if (gethostname(buf + n, BUF_LEN - n) || strlen(buf) == n) { exit_scepclient("no hostname defined, use " "--dn option"); } distinguishedName = buf; } DBG2(DBG_APP, "dn: '%s'", distinguishedName); subject = identification_create_from_string(distinguishedName); if (subject->get_type(subject) != ID_DER_ASN1_DN) { exit_scepclient("parsing of distinguished name failed"); } DBG2(DBG_APP, "building pkcs10 object:"); pkcs10_req = lib->creds->create(lib->creds, CRED_CERTIFICATE, CERT_PKCS10_REQUEST, BUILD_SIGNING_KEY, private_key, BUILD_SUBJECT, subject, BUILD_SUBJECT_ALTNAMES, subjectAltNames, BUILD_CHALLENGE_PWD, challengePassword, BUILD_DIGEST_ALG, pkcs10_signature_alg, BUILD_END); if (!pkcs10_req) { exit_scepclient("generating pkcs10 request failed"); } pkcs10_req->get_encoding(pkcs10_req, CERT_ASN1_DER, &pkcs10_encoding); fingerprint = scep_generate_pkcs10_fingerprint(pkcs10_encoding); DBG1(DBG_APP, " fingerprint: %s", fingerprint.ptr); } /* * output of PKCS#10 file */ if (filetype_out & PKCS10) { char path[PATH_MAX]; join_paths(path, sizeof(path), REQ_PATH, file_out_pkcs10); if (!chunk_write(pkcs10_encoding, path, "pkcs10", 0022, force)) { exit_scepclient("could not write pkcs10 file '%s'", path); } filetype_out &= ~PKCS10; /* delete PKCS10 flag */ } if (!filetype_out) { exit_scepclient(NULL); /* no further output required */ } /* * output of PKCS#1 file */ if (filetype_out & PKCS1) { char path[PATH_MAX]; join_paths(path, sizeof(path), PRIVATE_KEY_PATH, file_out_pkcs1); DBG2(DBG_APP, "building pkcs1 object:"); if (!private_key->get_encoding(private_key, PRIVKEY_ASN1_DER, &pkcs1) || !chunk_write(pkcs1, path, "pkcs1", 0066, force)) { exit_scepclient("could not write pkcs1 file '%s'", path); } filetype_out &= ~PKCS1; /* delete PKCS1 flag */ } if (!filetype_out) { exit_scepclient(NULL); /* no further output required */ } scep_generate_transaction_id(public_key, &transID, &serialNumber); DBG1(DBG_APP, " transaction ID: %.*s", (int)transID.len, transID.ptr); notBefore = notBefore ? notBefore : time(NULL); notAfter = notAfter ? notAfter : (notBefore + validity); /* generate a self-signed X.509 certificate */ x509_signer = lib->creds->create(lib->creds, CRED_CERTIFICATE, CERT_X509, BUILD_SIGNING_KEY, private_key, BUILD_PUBLIC_KEY, public_key, BUILD_SUBJECT, subject, BUILD_NOT_BEFORE_TIME, notBefore, BUILD_NOT_AFTER_TIME, notAfter, BUILD_SERIAL, serialNumber, BUILD_SUBJECT_ALTNAMES, subjectAltNames, BUILD_END); if (!x509_signer) { exit_scepclient("generating certificate failed"); } /* * output of self-signed X.509 certificate file */ if (filetype_out & CERT_SELF) { char path[PATH_MAX]; join_paths(path, sizeof(path), HOST_CERT_PATH, file_out_cert_self); if (!x509_signer->get_encoding(x509_signer, CERT_ASN1_DER, &encoding)) { exit_scepclient("encoding certificate failed"); } if (!chunk_write(encoding, path, "self-signed cert", 0022, force)) { exit_scepclient("could not write self-signed cert file '%s'", path); } chunk_free(&encoding); filetype_out &= ~CERT_SELF; /* delete CERT_SELF flag */ } if (!filetype_out) { exit_scepclient(NULL); /* no further output required */ } /* * load ca encryption certificate */ { char path[PATH_MAX]; join_paths(path, sizeof(path), CA_CERT_PATH, file_in_cacert_enc); x509_ca_enc = lib->creds->create(lib->creds, CRED_CERTIFICATE, CERT_X509, BUILD_FROM_FILE, path, BUILD_END); if (!x509_ca_enc) { exit_scepclient("could not load encryption cacert file '%s'", path); } } /* * input of PKCS#7 file */ if (filetype_in & PKCS7) { /* user wants to load a pkcs7 encrypted request * operation is not yet supported! * would require additional parsing of transaction-id pkcs7 = pkcs7_read_from_file(file_in_pkcs7); */ } else { DBG2(DBG_APP, "building pkcs7 request"); pkcs7 = scep_build_request(pkcs10_encoding, transID, SCEP_PKCSReq_MSG, x509_ca_enc, pkcs7_symmetric_cipher, pkcs7_key_size, x509_signer, pkcs7_digest_alg, private_key); if (!pkcs7.ptr) { exit_scepclient("failed to build pkcs7 request"); } } /* * output pkcs7 encrypted and signed certificate request */ if (filetype_out & PKCS7) { char path[PATH_MAX]; join_paths(path, sizeof(path), REQ_PATH, file_out_pkcs7); if (!chunk_write(pkcs7, path, "pkcs7 encrypted request", 0022, force)) { exit_scepclient("could not write pkcs7 file '%s'", path); } filetype_out &= ~PKCS7; /* delete PKCS7 flag */ } if (!filetype_out) { exit_scepclient(NULL); /* no further output required */ } /* * output certificate fetch from SCEP server */ if (filetype_out & CERT) { bool stored = FALSE; certificate_t *cert; enumerator_t *enumerator; char path[PATH_MAX]; time_t poll_start = 0; pkcs7_t *data = NULL; scep_attributes_t attrs = empty_scep_attributes; join_paths(path, sizeof(path), CA_CERT_PATH, file_in_cacert_sig); x509_ca_sig = lib->creds->create(lib->creds, CRED_CERTIFICATE, CERT_X509, BUILD_FROM_FILE, path, BUILD_END); if (!x509_ca_sig) { exit_scepclient("could not load signature cacert file '%s'", path); } if (!scep_http_request(scep_url, pkcs7, SCEP_PKI_OPERATION, http_get_request, &scep_response)) { exit_scepclient("did not receive a valid scep response"); } ugh = scep_parse_response(scep_response, transID, &data, &attrs, x509_ca_sig); if (ugh != NULL) { exit_scepclient(ugh); } /* in case of manual mode, we are going into a polling loop */ if (attrs.pkiStatus == SCEP_PENDING) { identification_t *issuer = x509_ca_sig->get_subject(x509_ca_sig); DBG1(DBG_APP, " scep request pending, polling every %d seconds", poll_interval); poll_start = time_monotonic(NULL); issuerAndSubject = asn1_wrap(ASN1_SEQUENCE, "cc", issuer->get_encoding(issuer), subject); } while (attrs.pkiStatus == SCEP_PENDING) { if (max_poll_time > 0 && (time_monotonic(NULL) - poll_start >= max_poll_time)) { exit_scepclient("maximum poll time reached: %d seconds" , max_poll_time); } DBG2(DBG_APP, "going to sleep for %d seconds", poll_interval); sleep(poll_interval); free(scep_response.ptr); data->destroy(data); DBG2(DBG_APP, "fingerprint: %.*s", (int)fingerprint.len, fingerprint.ptr); DBG2(DBG_APP, "transaction ID: %.*s", (int)transID.len, transID.ptr); chunk_free(&getCertInitial); getCertInitial = scep_build_request(issuerAndSubject, transID, SCEP_GetCertInitial_MSG, x509_ca_enc, pkcs7_symmetric_cipher, pkcs7_key_size, x509_signer, pkcs7_digest_alg, private_key); if (!getCertInitial.ptr) { exit_scepclient("failed to build scep request"); } if (!scep_http_request(scep_url, getCertInitial, SCEP_PKI_OPERATION, http_get_request, &scep_response)) { exit_scepclient("did not receive a valid scep response"); } ugh = scep_parse_response(scep_response, transID, &data, &attrs, x509_ca_sig); if (ugh != NULL) { exit_scepclient(ugh); } } if (attrs.pkiStatus != SCEP_SUCCESS) { data->destroy(data); exit_scepclient("reply status is not 'SUCCESS'"); } if (!data->parse_envelopedData(data, serialNumber, private_key)) { data->destroy(data); exit_scepclient("could not decrypt envelopedData"); } if (!data->parse_signedData(data, NULL)) { data->destroy(data); exit_scepclient("error parsing the scep response"); } /* store the end entity certificate */ join_paths(path, sizeof(path), HOST_CERT_PATH, file_out_cert); enumerator = data->create_certificate_enumerator(data); while (enumerator->enumerate(enumerator, &cert)) { x509_t *x509 = (x509_t*)cert; if (!(x509->get_flags(x509) & X509_CA)) { if (stored) { exit_scepclient("multiple certs received, only first stored"); } if (!cert->get_encoding(cert, CERT_ASN1_DER, &encoding) || !chunk_write(encoding, path, "requested cert", 0022, force)) { exit_scepclient("could not write cert file '%s'", path); } chunk_free(&encoding); stored = TRUE; } } enumerator->destroy(enumerator); data->destroy(data); filetype_out &= ~CERT; /* delete CERT flag */ } exit_scepclient(NULL); return -1; /* should never be reached */ }