/* */ #ifndef _D_MESSAGE_DIGEST_H_ #define _D_MESSAGE_DIGEST_H_ #include "common.h" #include "DlAbortEx.h" #include #ifdef HAVE_LIBSSL #include #endif // HAVE_LIBSSL #ifdef HAVE_LIBGCRYPT #include #endif // HAVE_LIBGCRYPT class MessageDigestContext { public: #ifdef HAVE_LIBSSL typedef const EVP_MD* DigestAlgo; #endif // HAVE_LIBSSL #ifdef HAVE_LIBGCRYPT typedef int32_t DigestAlgo; #endif // HAVE_LIBGCRYPT typedef map DigestAlgoMap; private: #ifdef HAVE_LIBSSL EVP_MD_CTX ctx; #endif // HAVE_LIBSSL #ifdef HAVE_LIBGCRYPT gcry_md_hd_t ctx; #endif // HAVE_LIBGCRYPT DigestAlgo algo; static DigestAlgoMap digestAlgos; public: MessageDigestContext():algo(getDigestAlgo("sha1")) {} ~MessageDigestContext() { digestFree(); } void trySetAlgo(const string& algostring) { algo = getDigestAlgo(algostring); } static bool supports(const string& algostring) { DigestAlgoMap::const_iterator itr = digestAlgos.find(algostring); if(itr == digestAlgos.end()) { return false; } else { return true; } } static DigestAlgo getDigestAlgo(const string& algostring) { DigestAlgoMap::const_iterator itr = digestAlgos.find(algostring); if(itr == digestAlgos.end()) { throw new DlAbortEx("Digest algorithm %s is not supported.", algostring.c_str()); } return (*itr).second; } static string getSupportedAlgoString() { string algos; for(DigestAlgoMap::const_iterator itr = digestAlgos.begin(); itr != digestAlgos.end(); ++itr) { algos += (*itr).first+" "; } return algos; } static int digestLength(const string& algostring) { return digestLength(getDigestAlgo(algostring)); } string digestFinal(); #if defined(HAVE_OLD_LIBSSL) void digestInit() {EVP_DigestInit(&ctx, algo);} void digestReset() {EVP_DigestInit(&ctx, algo);} void digestUpdate(const void* data, int32_t length) {EVP_DigestUpdate(&ctx, data, length);} void digestFinal(unsigned char* md) { unsigned int len; EVP_DigestFinal(&ctx, md, &len); } void digestFree() {/*empty*/} int32_t digestLength() const { return digestLength(algo); } static int32_t digestLength(DigestAlgo algo) { return EVP_MD_size(algo); } #elif defined(HAVE_LIBSSL) void digestInit() { EVP_MD_CTX_init(&ctx); digestReset(); } void digestReset() { EVP_DigestInit_ex(&ctx, algo, 0); } void digestUpdate(const void* data, int32_t length) { EVP_DigestUpdate(&ctx, data, length); } void digestFinal(unsigned char* md) { unsigned int len; EVP_DigestFinal_ex(&ctx, md, &len); } void digestFree() { EVP_MD_CTX_cleanup(&ctx); } int32_t digestLength() const { return digestLength(algo); } static int32_t digestLength(DigestAlgo algo) { return EVP_MD_size(algo); } #elif defined(HAVE_LIBGCRYPT) void digestInit() { gcry_md_open(&ctx, algo, 0); } void digestReset() { gcry_md_reset(ctx); } void digestUpdate(const void* data, int32_t length) { gcry_md_write(ctx, data, length); } void digestFinal(unsigned char* md) { gcry_md_final(ctx); memcpy(md, gcry_md_read(ctx, 0), gcry_md_get_algo_dlen(algo)); } void digestFree() { gcry_md_close(ctx); } int32_t digestLength() const { return digestLength(algo); } static int digestLength(DigestAlgo algo) { return gcry_md_get_algo_dlen(algo); } #endif // HAVE_LIBGCRYPT }; typedef SharedHandle MessageDigestContextHandle; #endif // _D_MESSAGE_DIGEST_H_