/* * Copyright 2014-2022 The GmSSL Project. All Rights Reserved. * * Licensed under the Apache License, Version 2.0 (the License); you may * not use this file except in compliance with the License. * * http://www.apache.org/licenses/LICENSE-2.0 */ #include #include #include #include #include #include #include "sdf_int.h" #include "sdf_sansec.h" #define SDFerr(a,b) typedef struct { ULONG id; char *name; } table_item_t; static table_item_t sdf_cipher_caps[] = { { SGD_SM1_ECB, "sm1-ecb" }, { SGD_SM1_CBC, "sm1-cbc" }, { SGD_SM1_CFB, "sm1-cfb" }, { SGD_SM1_OFB, "sm1-ofb128" }, { SGD_SM1_MAC, "cbcmac-sm1" }, { SGD_SSF33_ECB, "ssf33-ecb" }, { SGD_SSF33_CBC, "ssf33-cbc" }, { SGD_SSF33_CFB, "ssf33-cfb" }, { SGD_SSF33_OFB, "ssf33-ofb128" }, { SGD_SSF33_MAC, "cbcmac-ssf33" }, { SGD_SM4_ECB, "sms4-ecb" }, { SGD_SM4_CBC, "sms4-cbc" }, { SGD_SM4_CFB, "sms4-cfb" }, { SGD_SM4_OFB, "sms4-ofb128" }, { SGD_SM4_MAC, "cbcmac-sms4" }, { SGD_ZUC_EEA3, "zuc_128eea3" }, { SGD_ZUC_EIA3, "zuc_128eia3" } }; static table_item_t sdf_digest_caps[] = { { SGD_SM3, "sm3" }, { SGD_SHA1, "sha1" }, { SGD_SHA256, "sha256" }, }; static table_item_t sdf_pkey_caps[] = { { SGD_RSA_SIGN, "rsa" }, { SGD_RSA_ENC, "rsaEncryption" }, { SGD_SM2_1, "sm2sign" }, { SGD_SM2_2, "sm2exchange" }, { SGD_SM2_3, "sm2encrypt" } }; int SDF_PrintDeviceInfo(FILE *fp, const DEVICEINFO *pstDeviceInfo) { size_t i, n; DEVICEINFO buf; DEVICEINFO *devInfo = &buf; int fmt = 0, ind = 4; memcpy(devInfo, pstDeviceInfo, sizeof(DEVICEINFO)); devInfo->IssuerName[39] = 0; devInfo->DeviceName[15] = 0; devInfo->DeviceSerial[15] = 0; format_print(fp, fmt, ind, "%-18s: %s\n", "Device Name", devInfo->DeviceName); format_print(fp, fmt, ind, "%-18s: %s\n", "Serial Number", devInfo->DeviceSerial); format_print(fp, fmt, ind, "%-18s: %s\n", "Issuer", devInfo->IssuerName); format_print(fp, fmt, ind, "%-18s: %u\n", "Hardware Version", devInfo->DeviceVersion); format_print(fp, fmt, ind, "%-18s: %u\n", "Standard Version", devInfo->StandardVersion); format_print(fp, fmt, ind, "%-18s: ", "Public Key Algors"); for (i = n = 0; i < sizeof(sdf_pkey_caps)/sizeof(sdf_pkey_caps[0]); i++) { if ((devInfo->AsymAlgAbility[0] & sdf_pkey_caps[i].id) == sdf_pkey_caps[i].id) { format_print(fp, fmt, 0, "%s%s", n ? "," : "", sdf_pkey_caps[i].name); n++; } } format_print(fp, fmt, 0, "\n"); format_print(fp, fmt, ind, "%-18s: ", "Ciphers"); for (i = n = 0; i < sizeof(sdf_cipher_caps)/sizeof(sdf_cipher_caps[0]); i++) { if ((devInfo->SymAlgAbility & sdf_cipher_caps[i].id) == sdf_cipher_caps[i].id) { format_print(fp, fmt, 0, "%s%s", n ? "," : "", sdf_cipher_caps[i].name); n++; } } format_print(fp, fmt, 0, "\n"); format_print(fp, fmt, ind, "%-18s: ", "Digests"); for (i = n = 0; i < sizeof(sdf_digest_caps)/sizeof(sdf_digest_caps[0]); i++) { if ((devInfo->HashAlgAbility & sdf_digest_caps[i].id) == sdf_digest_caps[i].id) { format_print(fp, fmt, 0, "%s%s", n ? "," : "", sdf_digest_caps[i].name); n++; } } format_print(fp, fmt, 0, "\n"); return SDR_OK; } int SDF_PrintRSAPublicKey(FILE *fp, const RSArefPublicKey *blob) { int fmt = 0, ind = 4; (void)format_print(fp, fmt, ind, "bits: %d\n", blob->bits); (void)format_bytes(fp, fmt, ind, "m", blob->m, sizeof(blob->m)); (void)format_bytes(fp, fmt, ind, "e", blob->e, sizeof(blob->e)); return SDR_OK; } int SDF_PrintRSAPrivateKey(FILE *fp, const RSArefPrivateKey *blob) { int fmt = 0, ind = 4; (void)format_print(fp, fmt, ind, "bits: %d", blob->bits); (void)format_bytes(fp, fmt, ind, "m", blob->m, sizeof(blob->m)); (void)format_bytes(fp, fmt, ind, "e", blob->e, sizeof(blob->e)); (void)format_bytes(fp, fmt, ind, "d", blob->d, sizeof(blob->d)); (void)format_bytes(fp, fmt, ind, "prime[0]", blob->prime[0], sizeof(blob->prime[0])); (void)format_bytes(fp, fmt, ind, "prime[1]", blob->prime[1], sizeof(blob->prime[1])); (void)format_bytes(fp, fmt, ind, "pexp[0]", blob->pexp[0], sizeof(blob->pexp[0])); (void)format_bytes(fp, fmt, ind, "pexp[1]", blob->pexp[1], sizeof(blob->pexp[1])); (void)format_bytes(fp, fmt, ind, "coef", blob->coef, sizeof(blob->coef)); return SDR_OK; } int SDF_PrintECCPublicKey(FILE *fp, const ECCrefPublicKey *blob) { int fmt = 0, ind = 4; (void)format_print(fp, fmt, ind, "bits: %d", blob->bits); (void)format_bytes(fp, fmt, ind, "x", blob->x, sizeof(blob->x)); (void)format_bytes(fp, fmt, ind, "y", blob->y, sizeof(blob->y)); return SDR_OK; } int SDF_PrintECCPrivateKey(FILE *fp, const ECCrefPrivateKey *blob) { int fmt = 0, ind = 4; (void)format_print(fp, fmt, ind, "bits: %d", blob->bits); (void)format_bytes(fp, fmt, ind, "K", blob->K, sizeof(blob->K)); return SDR_OK; } int SDF_PrintECCCipher(FILE *fp, const ECCCipher *blob) { int fmt = 0, ind = 4; (void)format_bytes(fp, fmt, ind, "x", blob->x, sizeof(blob->x)); (void)format_bytes(fp, fmt, ind, "y", blob->y, sizeof(blob->y)); (void)format_bytes(fp, fmt, ind, "M", blob->M, sizeof(blob->M)); (void)format_print(fp, fmt, ind, "L: %d", blob->L); (void)format_bytes(fp, fmt, ind, "C", blob->C, sizeof(blob->C)); return SDR_OK; } int SDF_PrintECCSignature(FILE *fp, const ECCSignature *blob) { int fmt = 0, ind = 4; (void)format_bytes(fp, fmt, ind, "r", blob->r, sizeof(blob->r)); (void)format_bytes(fp, fmt, ind, "s", blob->s, sizeof(blob->s)); return SDR_OK; } int SDF_ImportKey( void *hSessionHandle, unsigned char *pucKey, unsigned int uiKeyLength, void **phKeyHandle) { (void)hSessionHandle; (void)pucKey; (void)uiKeyLength; (void)phKeyHandle; SDFerr(SDF_F_SDF_IMPORTKEY, SDF_R_NOT_IMPLEMENTED); return SDR_NOTSUPPORT; } int SDF_NewECCCipher(ECCCipher **cipher, size_t ulDataLen) { ECCCipher *ecc_cipher = NULL; size_t len; if (!cipher) { SDFerr(SDF_F_SDF_NEWECCCIPHER, ERR_R_PASSED_NULL_PARAMETER); return SDR_INARGERR; } if (!ulDataLen || ulDataLen > INT_MAX) { SDFerr(SDF_F_SDF_NEWECCCIPHER, SDF_R_INVALID_SM2_CIPHERTEXT_LENGTH); return SDR_INARGERR; } len = sizeof(ECCCipher) - 1 + ulDataLen; if (len < sizeof(SANSEC_ECCCipher)) { len = sizeof(SANSEC_ECCCipher); } if (!(ecc_cipher = malloc(len))) { SDFerr(SDF_F_SDF_NEWECCCIPHER, ERR_R_MALLOC_FAILURE); return SDR_NOBUFFER; } memset(ecc_cipher, 0, sizeof(*ecc_cipher)); ecc_cipher->L = (unsigned int)ulDataLen; *cipher = ecc_cipher; return SDR_OK; } int SDF_FreeECCCipher(ECCCipher *cipher) { free(cipher); return SDR_OK; } const char *SDF_GetErrorReason(int err) { switch (err) { case SDR_OK: return "SDR_OK"; case SDR_BASE: return "SDR_BASE"; case SDR_UNKNOWERR: return "SDR_UNKNOWERR"; case SDR_NOTSUPPORT: return "SDR_NOTSUPPORT"; case SDR_COMMFAIL: return "SDR_COMMFAIL"; case SDR_HARDFAIL: return "SDR_HARDFAIL"; case SDR_OPENDEVICE: return "SDR_OPENDEVICE"; case SDR_OPENSESSION: return "SDR_OPENSESSION"; case SDR_PARDENY: return "SDR_PARDENY"; case SDR_KEYNOTEXIST: return "SDR_KEYNOTEXIST"; case SDR_ALGNOTSUPPORT: return "SDR_ALGNOTSUPPORT"; case SDR_ALGMODNOTSUPPORT: return "SDR_ALGMODNOTSUPPORT"; case SDR_PKOPERR: return "SDR_PKOPERR"; case SDR_SKOPERR: return "SDR_SKOPERR"; case SDR_SIGNERR: return "SDR_SIGNERR"; case SDR_VERIFYERR: return "SDR_VERIFYERR"; case SDR_SYMOPERR: return "SDR_SYMOPERR"; case SDR_STEPERR: return "SDR_STEPERR"; case SDR_FILESIZEERR: return "SDR_FILESIZEERR"; case SDR_FILENOEXIST: return "SDR_FILENOEXIST"; case SDR_FILEOFSERR: return "SDR_FILEOFSERR"; case SDR_KEYTYPEERR: return "SDR_KEYTYPEERR"; case SDR_KEYERR: return "SDR_KEYERR"; case SDR_ENCDATAERR: return "SDR_ENCDATAERR"; case SDR_RANDERR: return "SDR_RANDERR"; case SDR_PRKRERR: return "SDR_PRKRERR"; case SDR_MACERR: return "SDR_MACERR"; case SDR_FILEEXSITS: return "SDR_FILEEXSITS"; case SDR_FILEWERR: return "SDR_FILEWERR"; case SDR_NOBUFFER: return "SDR_NOBUFFER"; case SDR_INARGERR: return "SDR_INARGERR"; case SDR_OUTARGERR: return "SDR_OUTARGERR"; } return "(unknown)"; }