#include "CryptoHelper.h" #include #include namespace tgcalls { AesKeyIv PrepareAesKeyIv(const uint8_t *key, const uint8_t *msgKey, int x) { auto result = AesKeyIv(); const auto sha256a = ConcatSHA256( MemorySpan{ msgKey, 16 }, MemorySpan{ key + x, 36 }); const auto sha256b = ConcatSHA256( MemorySpan{ key + 40 + x, 36 }, MemorySpan{ msgKey, 16 }); const auto aesKey = result.key.data(); const auto aesIv = result.iv.data(); memcpy(aesKey, sha256a.data(), 8); memcpy(aesKey + 8, sha256b.data() + 8, 16); memcpy(aesKey + 8 + 16, sha256a.data() + 24, 8); memcpy(aesIv, sha256b.data(), 4); memcpy(aesIv + 4, sha256a.data() + 8, 8); memcpy(aesIv + 4 + 8, sha256b.data() + 24, 4); return result; } void AesProcessCtr(MemorySpan from, void *to, AesKeyIv &&aesKeyIv) { auto aes = AES_KEY(); AES_set_encrypt_key( reinterpret_cast(aesKeyIv.key.data()), aesKeyIv.key.size() * CHAR_BIT, &aes); unsigned char ecountBuf[16] = { 0 }; unsigned int offsetInBlock = 0; #ifdef OPENSSL_IS_BORINGSSL AES_ctr128_encrypt( reinterpret_cast(from.data), reinterpret_cast(to), from.size, &aes, reinterpret_cast(aesKeyIv.iv.data()), ecountBuf, &offsetInBlock); #else CRYPTO_ctr128_encrypt( reinterpret_cast(from.data), reinterpret_cast(to), from.size, &aes, reinterpret_cast(aesKeyIv.iv.data()), ecountBuf, &offsetInBlock, block128_f(AES_encrypt)); #endif } } // namespace tgcalls