int OpenLogging(KSI_CTX *ksi, char *fileName, FILE **logFile) { int res = KSI_UNKNOWN_ERROR; FILE *tmp = NULL; if (ksi == NULL || fileName == NULL || logFile == NULL) { res = KSI_INVALID_ARGUMENT; goto cleanup; } tmp = fopen(fileName, "w"); if (tmp == NULL) { fprintf(stderr, "Unable to open log file.\n"); res = KSI_IO_ERROR; goto cleanup; } res = KSI_CTX_setLoggerCallback(ksi, KSI_LOG_StreamLogger, tmp); if (res != KSI_OK) { fprintf(stderr, "Unable to set logger callback.\n"); goto cleanup; } res = KSI_CTX_setLogLevel(ksi, KSI_LOG_DEBUG); if (res != KSI_OK) { fprintf(stderr, "Unable to set log level.\n"); goto cleanup; } *logFile = tmp; cleanup: return res; }
int main(int argc, char **argv) { KSI_CTX *ksi = NULL; int res; FILE *out = NULL; KSI_Signature *sig = NULL; KSI_Signature *ext = NULL; KSI_HttpClient *net = NULL; unsigned char *raw = NULL; unsigned raw_len; unsigned count; FILE *logFile = NULL; if (argc != 5) { printf("Usage:\n" " %s <signature> <extended> <extender uri> <pub-file uri| ->\n", argv[0]); res = KSI_INVALID_ARGUMENT; goto cleanup; } /* Init KSI context */ res = KSI_CTX_new(&ksi); if (res != KSI_OK) { fprintf(stderr, "Unable to init KSI context.\n"); goto cleanup; } logFile = fopen("ksi_extend.log", "w"); if (logFile == NULL) { fprintf(stderr, "Unable to open log file.\n"); } KSI_CTX_setLoggerCallback(ksi, KSI_LOG_StreamLogger, logFile); KSI_CTX_setLogLevel(ksi, KSI_LOG_DEBUG); KSI_LOG_info(ksi, "Using KSI version: '%s'", KSI_getVersion()); res = KSI_HttpClient_new(ksi, &net); if (res != KSI_OK) { fprintf(stderr, "Unable to create new network provider.\n"); goto cleanup; } res = KSI_HttpClient_setExtender(net, argv[3], "anon", "anon"); if (res != KSI_OK) goto cleanup; if (strcmp(argv[4], "-")) { res = KSI_HttpClient_setPublicationUrl(net, argv[4]); if (res != KSI_OK) goto cleanup; } res = KSI_CTX_setNetworkProvider(ksi, (KSI_NetworkClient *)net); if (res != KSI_OK) { fprintf(stderr, "Unable to set new network provider.\n"); goto cleanup; } /* Read the signature. */ res = KSI_Signature_fromFile(ksi, argv[1], &sig); if (res != KSI_OK) { KSI_ERR_statusDump(ksi, stdout); fprintf(stderr, "Unable to read signature from '%s'\n", argv[1]); goto cleanup; } /* Make sure the signature is ok. */ res = KSI_verifySignature(ksi, sig); if (res != KSI_OK) { fprintf(stderr, "Unable to verify signature.\n"); KSI_ERR_statusDump(ksi, stderr); goto cleanup; } /* Extend the signature. */ res = KSI_extendSignature(ksi, sig, &ext); if (res != KSI_OK) { if (res == KSI_EXTEND_NO_SUITABLE_PUBLICATION) { printf("No suitable publication to extend to.\n"); goto cleanup; } fprintf(stderr, "Unable to extend signature.\n"); KSI_ERR_statusDump(ksi, stderr); goto cleanup; } /* To be extra sure, lets verify the extended signature. */ res = KSI_verifySignature(ksi, ext); if (res != KSI_OK) { fprintf(stderr, "Unable to verify the extended signature.\n"); KSI_ERR_statusDump(ksi, stderr); goto cleanup; } /* Serialize the extended signature. */ res = KSI_Signature_serialize(ext, &raw, &raw_len); if (res != KSI_OK) { fprintf(stderr, "Unable to serialize extended signature.\n"); goto cleanup; } /* Open output file. */ out = fopen(argv[2], "wb"); if (out == NULL) { fprintf(stderr, "Unable to open output file '%s'\n", argv[2]); res = KSI_IO_ERROR; goto cleanup; } count = (unsigned)fwrite(raw, 1, raw_len, out); if (count != raw_len) { fprintf(stderr, "Failed to write output file.\n"); res = KSI_IO_ERROR; goto cleanup; } printf("Signature extended."); cleanup: if (logFile != NULL) fclose(logFile); if (out != NULL) fclose(out); KSI_Signature_free(sig); KSI_Signature_free(ext); KSI_free(raw); KSI_CTX_free(ksi); return res; }
int main(int argc, char **argv) { KSI_CTX *ksi = NULL; int res = KSI_UNKNOWN_ERROR; FILE *in = NULL; FILE *out = NULL; KSI_DataHasher *hsr = NULL; KSI_DataHash *hsh = NULL; KSI_Signature *sign = NULL; unsigned char *raw = NULL; unsigned raw_len; unsigned char buf[1024]; unsigned buf_len; char *signerIdentity = NULL; FILE *logFile = NULL; /* Handle command line parameters */ /* Handle command line parameters */ if (argc != 7) { fprintf(stderr, "Usage:\n" " %s <in-data-file> <out-sign-file> <aggregator-uri> <user> <pass> <pub-file url | -> \n", argv[0]); res = KSI_INVALID_ARGUMENT; goto cleanup; } /* Input file */ in = fopen(argv[1], "rb"); if (in == NULL) { fprintf(stderr, "Unable to open input file '%s'\n", argv[1]); res = KSI_IO_ERROR; goto cleanup; } /* Create new KSI context for this thread. */ res = KSI_CTX_new(&ksi); if (res != KSI_OK) { fprintf(stderr, "Unable to create context.\n"); goto cleanup; } logFile = fopen("ksi_sign.log", "w"); if (logFile == NULL) { fprintf(stderr, "Unable to open log file.\n"); } KSI_CTX_setLoggerCallback(ksi, KSI_LOG_StreamLogger, logFile); KSI_CTX_setLogLevel(ksi, KSI_LOG_DEBUG); KSI_LOG_info(ksi, "Using KSI version: '%s'", KSI_getVersion()); res = KSI_CTX_setAggregator(ksi, argv[3], argv[4], argv[5]); if (res != KSI_OK) goto cleanup; /* Check publications file url. */ if (strncmp("-", argv[6], 1)) { res = KSI_CTX_setPublicationUrl(ksi, argv[6]); if (res != KSI_OK) { fprintf(stderr, "Unable to set publications file url.\n"); goto cleanup; } } /* Create a data hasher using default algorithm. */ res = KSI_DataHasher_open(ksi, KSI_getHashAlgorithmByName("default"), &hsr); if (res != KSI_OK) { fprintf(stderr, "Unable to create hasher.\n"); goto cleanup; } /* Read the input file and calculate the hash of its contents. */ while (!feof(in)) { buf_len = (unsigned)fread(buf, 1, sizeof(buf), in); /* Add next block to the calculation. */ res = KSI_DataHasher_add(hsr, buf, buf_len); if (res != KSI_OK) { fprintf(stderr, "Unable to add data to hasher.\n"); goto cleanup; } } /* Close the data hasher and retreive the data hash. */ res = KSI_DataHasher_close(hsr, &hsh); if (res != KSI_OK) { fprintf(stderr, "Unable to create hash.\n"); goto cleanup; } /* Sign the data hash. */ res = KSI_createSignature(ksi, hsh, &sign); if (res != KSI_OK) { fprintf(stderr, "Unable to sign %d.\n", res); goto cleanup; } res = KSI_Signature_verify(sign, ksi); if (res != KSI_OK) { fprintf(stderr, "Failed to verify signature.\n"); goto cleanup; } /* Output the signer id */ res = KSI_Signature_getSignerIdentity(sign, &signerIdentity); if (res == KSI_OK) { printf("Signer id: %s\n", signerIdentity); } else { fprintf(stderr, "Unable to extract signer identity.\n"); } /* Serialize the signature. */ res = KSI_Signature_serialize(sign, &raw, &raw_len); if (res != KSI_OK) { fprintf(stderr, "Unable to serialize signature."); goto cleanup; } /* Output file */ out = fopen(argv[2], "wb"); if (out == NULL) { fprintf(stderr, "Unable to open input file '%s'\n", argv[2]); res = KSI_IO_ERROR; goto cleanup; } /* Write the signature file. */ if (!fwrite(raw, 1, raw_len, out)) { fprintf(stderr, "Unable to write output file.\n"); res = KSI_IO_ERROR; goto cleanup; } /* Only print message when signature output is not stdout. */ if (out != NULL) { printf("Signature saved.\n"); } res = KSI_OK; cleanup: if (logFile != NULL) fclose(logFile); if (res != KSI_OK && ksi != NULL) { KSI_ERR_statusDump(ksi, stderr); } if (in != NULL) fclose(in); if (out != NULL) fclose(out); KSI_free(signerIdentity); KSI_Signature_free(sign); KSI_DataHash_free(hsh); KSI_DataHasher_free(hsr); KSI_free(raw); KSI_CTX_free(ksi); return res; }
int KSI_CTX_new(KSI_CTX **context) { int res = KSI_UNKNOWN_ERROR; KSI_CTX *ctx = NULL; KSI_NetworkClient *client = NULL; ctx = KSI_new(KSI_CTX); if (ctx == NULL) { res = KSI_OUT_OF_MEMORY; goto cleanup; } /* Init error stack */ ctx->errors_size = KSI_ERR_STACK_LEN; ctx->errors = KSI_malloc(sizeof(KSI_ERR) * ctx->errors_size); if (ctx->errors == NULL) { res = KSI_OUT_OF_MEMORY; goto cleanup; } ctx->errors_count = 0; ctx->publicationsFile = NULL; ctx->pkiTruststore = NULL; ctx->netProvider = NULL; ctx->publicationCertEmail_DEPRECATED = NULL; ctx->loggerCB = NULL; ctx->requestHeaderCB = NULL; ctx->flags[KSI_CTX_FLAG_AGGR_PDU_VER] = KSI_AGGREGATION_PDU_VERSION; ctx->flags[KSI_CTX_FLAG_EXT_PDU_VER] = KSI_EXTENDING_PDU_VERSION; ctx->loggerCtx = NULL; ctx->certConstraints = NULL; ctx->freeCertConstraintsArray = freeCertConstraintsArray; ctx->lastFailedSignature = NULL; KSI_ERR_clearErrors(ctx); /* Create global cleanup list as the first thing. */ res = KSI_List_new(NULL, &ctx->cleanupFnList); if (res != KSI_OK) goto cleanup; /* Create and set the logger. */ res = KSI_CTX_setLoggerCallback(ctx, KSI_LOG_StreamLogger, stdout); if (res != KSI_OK) goto cleanup; res = KSI_CTX_setLogLevel(ctx, KSI_LOG_NONE); if (res != KSI_OK) goto cleanup; res = KSI_UriClient_new(ctx, &client); if (res != KSI_OK) goto cleanup; res = KSI_CTX_setNetworkProvider(ctx, client); if (res != KSI_OK) goto cleanup; ctx->isCustomNetProvider = 0; client = NULL; /* Initialize truststore. */ res = KSI_PKITruststore_registerGlobals(ctx); if (res != KSI_OK) goto cleanup; /* Return the context. */ *context = ctx; ctx = NULL; res = KSI_OK; cleanup: KSI_NetworkClient_free(client); KSI_CTX_free(ctx); return res; }
int main(int argc, char **argv) { int res = KSI_UNKNOWN_ERROR; /* Signature read from the file. */ KSI_Signature *sig = NULL; /* Signature extended to the publication. */ KSI_Signature *ext = NULL; /* Hash of the data file. */ KSI_DataHash *hsh = NULL; /* Hash value extracted from the signature. */ KSI_DataHash *signHsh = NULL; /* Data file hasher. */ KSI_DataHasher *hsr = NULL; /* Input file descriptor. */ FILE *in = NULL; /* Buffer for reading the input. */ unsigned char buf[1024]; /* Length of the buffer content. */ size_t buf_len; /* Verification info object. */ const KSI_VerificationResult *info = NULL; /* File descriptor for logging. */ FILE *logFile = NULL; const KSI_CertConstraint pubFileCertConstr[] = { { KSI_CERT_EMAIL, "*****@*****.**"}, { NULL, NULL } }; /* Init context. */ res = KSI_CTX_new(&ksi); if (res != KSI_OK) { fprintf(stderr, "Unable to init KSI context.\n"); goto cleanup; } logFile = fopen("ksi_verify.log", "w"); if (logFile == NULL) { fprintf(stderr, "Unable to open log file.\n"); } res = KSI_CTX_setDefaultPubFileCertConstraints(ksi, pubFileCertConstr); if (res != KSI_OK) { fprintf(stderr, "Unable to configure publications file cert constraints.\n"); goto cleanup; } /* Configure the logger. */ KSI_CTX_setLoggerCallback(ksi, KSI_LOG_StreamLogger, logFile); KSI_CTX_setLogLevel(ksi, KSI_LOG_DEBUG); KSI_LOG_info(ksi, "Using KSI version: '%s'", KSI_getVersion()); /* Check parameters. */ if (argc != 6) { fprintf(stderr, "Usage\n" " %s <data file | -> <signature> <publication-str> <extender url> <pub-file url>\n", argv[0]); goto cleanup; } /* Configure extender. */ res = KSI_CTX_setExtender(ksi, argv[4], "anon", "anon"); if (res != KSI_OK) { fprintf(stderr, "Unable to set extender parameters.\n"); goto cleanup; } /* Set the publications file url. */ res = KSI_CTX_setPublicationUrl(ksi, argv[4]); if (res != KSI_OK) { fprintf(stderr, "Unable to set publications file url.\n"); goto cleanup; } printf("Reading signature... "); /* Read the signature. */ res = KSI_Signature_fromFile(ksi, argv[2], &sig); if (res != KSI_OK) { printf("failed (%s)\n", KSI_getErrorString(res)); goto cleanup; } printf("ok\n"); printf("Verifying the signature with the publication... "); res = extendToPublication(sig, argv[3], &ext); switch (res) { case KSI_OK: printf("ok\n"); break; case KSI_VERIFICATION_FAILURE: printf("failed\n"); break; default: printf("failed (%s)\n", KSI_getErrorString(res)); goto cleanup; } /* Create hasher. */ res = KSI_Signature_createDataHasher(ext, &hsr); if (res != KSI_OK) { fprintf(stderr, "Unable to create data hasher.\n"); goto cleanup; } if (strcmp(argv[1], "-")) { in = fopen(argv[1], "rb"); if (in == NULL) { fprintf(stderr, "Unable to open data file '%s'.\n", argv[1]); goto cleanup; } /* Calculate the hash of the document. */ while (!feof(in)) { buf_len = fread(buf, 1, sizeof(buf), in); res = KSI_DataHasher_add(hsr, buf, buf_len); if (res != KSI_OK) { fprintf(stderr, "Unable hash the document.\n"); goto cleanup; } } /* Finalize the hash computation. */ res = KSI_DataHasher_close(hsr, &hsh); if (res != KSI_OK) { fprintf(stderr, "Failed to close the hashing process.\n"); goto cleanup; } res = KSI_Signature_getDocumentHash(sig, &signHsh); if (res != KSI_OK) goto cleanup; printf("Verifying document hash... "); if (!KSI_DataHash_equals(hsh, signHsh)) { printf("Wrong document!\n"); goto cleanup; } printf("ok\n"); } res = KSI_Signature_getVerificationResult(ext, &info); if (res != KSI_OK) goto cleanup; if (info != NULL) { size_t i; printf("Verification info:\n"); for (i = 0; i < KSI_VerificationResult_getStepResultCount(info); i++) { const KSI_VerificationStepResult *result = NULL; const char *desc = NULL; res = KSI_VerificationResult_getStepResult(info, i, &result); if (res != KSI_OK) goto cleanup; printf("\t0x%02x:\t%s", KSI_VerificationStepResult_getStep(result), KSI_VerificationStepResult_isSuccess(result) ? "OK" : "FAIL"); desc = KSI_VerificationStepResult_getDescription(result); if (desc && *desc) { printf(" (%s)", desc); } printf("\n"); } } res = KSI_OK; cleanup: if (logFile != NULL) fclose(logFile); if (res != KSI_OK && ksi != NULL) { KSI_ERR_statusDump(ksi, stderr); } if (in != NULL) fclose(in); KSI_Signature_free(sig); KSI_Signature_free(ext); KSI_DataHasher_free(hsr); KSI_DataHash_free(hsh); KSI_CTX_free(ksi); return res; }