diff options
author | vnugent <public@vaughnnugent.com> | 2024-07-12 22:14:00 -0400 |
---|---|---|
committer | vnugent <public@vaughnnugent.com> | 2024-07-12 22:14:00 -0400 |
commit | 5dfafbc5a9214587533ec8b1dae2a962118d3650 (patch) | |
tree | 03bee9bd074962a65924b63e66612b95fb9e2546 | |
parent | 8df8c5aed4ac626171b451b5422c3b207e88000b (diff) |
feat: add decryption functionality to public api
-rw-r--r-- | include/noscryptutil.h | 26 | ||||
-rw-r--r-- | src/nc-util.h | 14 | ||||
-rw-r--r-- | src/noscrypt.c | 6 | ||||
-rw-r--r-- | src/noscryptutil.c | 354 |
4 files changed, 357 insertions, 43 deletions
diff --git a/include/noscryptutil.h b/include/noscryptutil.h index 7db5738..20384c4 100644 --- a/include/noscryptutil.h +++ b/include/noscryptutil.h @@ -34,11 +34,16 @@ extern "C" { #include "noscrypt.h" -#define E_OUT_OF_MEMORY -10 +#define E_OUT_OF_MEMORY -10 + +#define E_CIPHER_INVALID_FORMAT -11 +#define E_CIPHER_BAD_NONCE -12 +#define E_CIPHER_MAC_INVALID -13 #define NC_UTIL_CIPHER_MODE_ENCRYPT 0x00ui32 #define NC_UTIL_CIPHER_MODE_DECRYPT 0x01ui32 #define NC_UTIL_CIPHER_ZERO_ON_FREE 0x02ui32 +#define NC_UTIL_CIPHER_MAC_NO_VERIFY 0x04ui32 /* * The encryption context structure. This structure is used to store the state @@ -76,11 +81,11 @@ NC_EXPORT NCResult NC_CC NCUtilGetEncryptionBufferSize(uint32_t encVersion, uint NC_EXPORT NCUtilCipherContext* NC_CC NCUtilCipherAlloc(uint32_t encVersion, uint32_t flags); /* -* Initializes the encryption context with the input data and size. This function will - internally allocate a the required output buffer for the ciper operation. You may only call +* Initializes the cipher context with the input data and size. This function will + internally allocate a the required output buffer for the cipher operation. You may only call this function once. * @param encCtx A valid pointer to an allocated encryption context -* @param inputData A pointer to the input data for the ciper +* @param inputData A pointer to the input data for the Cipher * @param inputSize The size of the input data * @return NC_SUCCESS if the operation was successful, otherwise an error code. Use NCParseErrorCode to the error code and positional argument that caused the error @@ -131,7 +136,7 @@ NC_EXPORT NCResult NC_CC NCUtilCipherReadOutput( * @return NC_SUCCESS if the operation was successful, otherwise an error code. Use NCParseErrorCode to * get the error code and positional argument that caused the error */ -NC_EXPORT NCResult NCUtilCipherSetProperty( +NC_EXPORT NCResult NC_CC NCUtilCipherSetProperty( NCUtilCipherContext* ctx, uint32_t property, uint8_t* value, @@ -139,7 +144,16 @@ NC_EXPORT NCResult NCUtilCipherSetProperty( ); /* -* Performs the desired ciper option once. This may either cause an encryption +* Gets the flags set on the encryption context during initialization. +* @param ctx A valid pointer to an encryption context +* @return The flags set on the encryption context cast to a NCResult, or +* an error code if the context is invalid. Use NCParseErrorCode to get the error code +* and positional argument that caused the error. +*/ +NC_EXPORT NCResult NC_CC NCUtilCipherGetFlags(const NCUtilCipherContext* ctx); + +/* +* Performs the desired Cipher option once. This may either cause an encryption * or decryption operation to be performed. Regardless of the operation, input data * is consumed and output data is produced. * @param encCtx A valid pointer to an initialized encryption context diff --git a/src/nc-util.h b/src/nc-util.h index e94a222..d0afe28 100644 --- a/src/nc-util.h +++ b/src/nc-util.h @@ -151,4 +151,18 @@ static _nc_fn_inline span_t ncSpanSlice(span_t span, uint32_t offset, uint32_t s return slice; } +static _nc_fn_inline cspan_t ncSpanSliceC(cspan_t span, uint32_t offset, uint32_t size) +{ + cspan_t slice; + + DEBUG_ASSERT2(span.data != NULL, "Expected span to be non-null"); + DEBUG_ASSERT2(offset + size <= span.size, "Expected offset + size to be less than span size") + + /* Initialize slice, offset input data by the specified offset */ + ncSpanInitC(&slice, span.data + offset, size); + + return slice; +} + + #endif /* !_NC_UTIL_H */
\ No newline at end of file diff --git a/src/noscrypt.c b/src/noscrypt.c index 01ec136..f3c28cb 100644 --- a/src/noscrypt.c +++ b/src/noscrypt.c @@ -843,8 +843,6 @@ NC_EXPORT NCResult NC_CC NCEncrypt( CHECK_INVALID_ARG(args->inputData, 3) CHECK_INVALID_ARG(args->outputData, 3) CHECK_INVALID_ARG(args->nonceData, 3) - CHECK_INVALID_ARG(args->keyData, 3) - CHECK_ARG_RANGE(args->dataSize, NIP44_MIN_ENC_MESSAGE_SIZE, NIP44_MAX_ENC_MESSAGE_SIZE, 3) result = E_OPERATION_FAILED; @@ -852,6 +850,10 @@ NC_EXPORT NCResult NC_CC NCEncrypt( { case NC_ENC_VERSION_NIP44: { + /* Mac key output is only needed for nip44 */ + CHECK_INVALID_ARG(args->keyData, 3) + CHECK_ARG_RANGE(args->dataSize, NIP44_MIN_ENC_MESSAGE_SIZE, NIP44_MAX_ENC_MESSAGE_SIZE, 3) + /* Compute the shared point */ if ((result = _computeSharedSecret(ctx, sk, pk, &sharedSecret)) != NC_SUCCESS) { diff --git a/src/noscryptutil.c b/src/noscryptutil.c index c0eb036..09b7c92 100644 --- a/src/noscryptutil.c +++ b/src/noscryptutil.c @@ -60,7 +60,12 @@ #define NIP44_VERSION_SIZE 0x01u #define NIP44_PT_LEN_SIZE sizeof(uint16_t) -#define NC_ENC_FLAG_MODE_MASK 0x01ui32 +/* +* minimum size for a valid nip44 payload +* 1 byte version + 32 byte nonce + 32 byte mac + 2 byte ptSize + 32bytes minimum length +*/ +#define NIP44_MIN_PAYLOAD_SIZE (NIP44_VERSION_SIZE + 0x20 + 0x02 + 0x20 + 0x02) + /* Currently were on nip44 version 2 */ @@ -171,7 +176,7 @@ static _nc_fn_inline uint32_t _calcNip44TotalOutSize(uint32_t inputSize) return bufferSize; } -static _nc_fn_inline span_t _nip44GetMacData(span_t payload) +static _nc_fn_inline cspan_t _nip44GetMacData(cspan_t payload) { DEBUG_ASSERT(payload.size > NIP44_VERSION_SIZE + NC_ENCRYPTION_MAC_SIZE); @@ -189,7 +194,7 @@ static _nc_fn_inline span_t _nip44GetMacData(span_t payload) * macData = ct.size - version.size + mac.size */ - return ncSpanSlice( + return ncSpanSliceC( payload, NIP44_VERSION_SIZE, payload.size - (NIP44_VERSION_SIZE + NC_ENCRYPTION_MAC_SIZE) @@ -210,6 +215,47 @@ static _nc_fn_inline span_t _nip44GetMacOutput(span_t payload) ); } +static _nc_fn_inline cspan_t _nip44ParseMac(cspan_t payload) +{ + DEBUG_ASSERT(payload.size > NC_ENCRYPTION_MAC_SIZE); + + /* + * Mac is the final 32 bytes of the ciphertext buffer + */ + return ncSpanSliceC( + payload, + payload.size - NC_ENCRYPTION_MAC_SIZE, + NC_ENCRYPTION_MAC_SIZE + ); +} + +static _nc_fn_inline cspan_t _nip44ParseCipherText(cspan_t payload) +{ + DEBUG_ASSERT(payload.size < NIP44_MIN_PAYLOAD_SIZE); + + /* slice after the nonce and before the mac segments */ + return ncSpanSliceC( + payload, + NIP44_VERSION_SIZE + NC_ENCRYPTION_NONCE_SIZE, + payload.size - NC_ENCRYPTION_MAC_SIZE + ); +} + +static _nc_fn_inline cspan_t _nip44ParseNonce(cspan_t payload) +{ + cspan_t nonceData; + + DEBUG_ASSERT(payload.size > NIP44_MIN_PAYLOAD_SIZE); + + /* slice after the version and before the mac segments */ + nonceData = ncSpanSliceC( + payload, + NIP44_VERSION_SIZE, + NC_ENCRYPTION_NONCE_SIZE + ); + + return nonceData; +} static NCResult _nip44EncryptCompleteCore( const NCContext* libContext, @@ -222,20 +268,23 @@ static NCResult _nip44EncryptCompleteCore( { NCResult result; - span_t macData, macOutput; + cspan_t macData, cPayload; + span_t macOutput; uint32_t outPos, paddedCtSize; - uint8_t ptSize[2]; + uint8_t ptSize[NIP44_PT_LEN_SIZE]; uint8_t hmacKeyOut[NC_ENCRYPTION_MAC_SIZE]; outPos = 0; DEBUG_ASSERT(encArgs.version == NC_ENC_VERSION_NIP44); + ncSpanInitC(&cPayload, payload.data, payload.size); + /* Padded size is required to know how large the CT buffer is for encryption */ paddedCtSize = _calcNip44PtPadding(plainText.size); /* Start by appending the version number */ - ncSpanAppend(payload, &outPos, Nip44VersionValue, 0x01); + ncSpanAppend(payload, &outPos, Nip44VersionValue, sizeof(Nip44VersionValue)); /* next is nonce data */ ncSpanAppend(payload, &outPos, encArgs.nonceData, NC_ENCRYPTION_NONCE_SIZE); @@ -320,7 +369,7 @@ static NCResult _nip44EncryptCompleteCore( this helper captures that data segment into a span */ - macData = _nip44GetMacData(payload); + macData = _nip44GetMacData(cPayload); macOutput = _nip44GetMacOutput(payload); result = NCComputeMac( @@ -347,6 +396,107 @@ static NCResult _nip44EncryptCompleteCore( return NC_SUCCESS; } +static NCResult _nip44DecryptCompleteCore( + const NCContext* libContext, + const NCSecretKey* recvKey, + const NCPublicKey* sendKey, + const NCUtilCipherContext* cipher +) +{ + NCResult result; + NCMacVerifyArgs macArgs; + NCEncryptionArgs encArgs; + cspan_t macData, macValue, cipherText, nonce; + + DEBUG_ASSERT(libContext && recvKey && sendKey && cipher); + DEBUG_ASSERT(cipher->encArgs.version == NC_ENC_VERSION_NIP44); + + /* ensure decryption mode */ + DEBUG_ASSERT(cipher->_flags & NC_UTIL_CIPHER_MODE_DECRYPT); + + /* store local stack copy for safe mutation */ + encArgs = cipher->encArgs; + + nonce = _nip44ParseNonce(cipher->cipherInput); + + /* Verify mac if the user allowed it */ + if ((cipher->_flags & NC_UTIL_CIPHER_MAC_NO_VERIFY) == 0) + { + /* + * The mac data to verify against is the nonce+ciphertext data + * from within the nip44 message payload + */ + + macData = _nip44GetMacData(cipher->cipherInput); + macValue = _nip44ParseMac(cipher->cipherInput); + + DEBUG_ASSERT(macValue.size == NC_ENCRYPTION_MAC_SIZE); + DEBUG_ASSERT(macData.size > NC_ENCRYPTION_NONCE_SIZE + 0x20); + + /* Assign the mac data to the mac verify args */ + macArgs.mac32 = macValue.data; + macArgs.nonce32 = nonce.data; + + /* payload for verifying a mac in nip44 is the nonce+ciphertext */ + macArgs.payload = macData.data; + macArgs.payloadSize = macData.size; + + /* Verify the mac */ + result = NCVerifyMac(libContext, recvKey, sendKey, &macArgs); + + /* When the mac is invlaid */ + if (result == E_OPERATION_FAILED) + { + return E_CIPHER_MAC_INVALID; + } + /* argument errors */ + else if (result != NC_SUCCESS) + { + return result; + } + } + + cipherText = _nip44ParseCipherText(cipher->cipherInput); + + DEBUG_ASSERT2(cipherText.size > 0x20, "Cipertext segment was parsed incorrectly. Too small"); + + /* manually sign nonce */ + encArgs.nonceData = nonce.data; + + /* + * Remember the decryption operation is symmetric, it reads the input bytes and writes + * directly to the output. + * + * The decryption is performed on the ciphertext segment and we can write the output + * directly the output buffer. + * + * The leading 2 bytes will be the encoded plaintext size, followed by the plaintext data + * and padding. That's okay. The user will call NCUtilCipherGetOutputSize to get the + * actual size of the plaintext, which will exlcude the leading 2 bytes and padding. + */ + + DEBUG_ASSERT(cipher->cipherOutput.size >= cipherText.size); + + result = NCSetEncryptionData( + &encArgs, + cipherText.data, + cipher->cipherOutput.data, + cipherText.size + ); + + if (result != NC_SUCCESS) + { + return result; + } + + /* + * If decryption was successful, the data should be written + * directly to the output buffer + */ + result = NCDecrypt(libContext, recvKey, sendKey, &encArgs); + + return result; +} NC_EXPORT NCResult NC_CC NCUtilGetEncryptionPaddedSize(uint32_t encVersion, uint32_t plaintextSize) { @@ -436,23 +586,65 @@ NC_EXPORT NCResult NC_CC NCUtilCipherInit( CHECK_NULL_ARG(encCtx, 0); CHECK_NULL_ARG(inputData, 1); - /* - * The output state must not have alraedy been allocated - */ + /* The output state must not have alraedy been allocated */ CHECK_ARG_IS(encCtx->cipherOutput.data == NULL, 0); - /* - * Calculate the correct output size to store the encryption - * data for the given cipher version - */ - outputSize = NCUtilGetEncryptionBufferSize(encCtx->encArgs.version, inputSize); + if ((encCtx->_flags & NC_UTIL_CIPHER_MODE_DECRYPT) > 0) + { + /* + * Validate the input data for proper format for + * the current cipher version + */ + switch (encCtx->encArgs.version) + { + case NC_ENC_VERSION_NIP44: + { + if (inputSize < NIP44_MIN_PAYLOAD_SIZE) + { + return E_CIPHER_INVALID_FORMAT; + } + + if (inputSize > NIP44_MAX_ENC_MESSAGE_SIZE) + { + return E_CIPHER_INVALID_FORMAT; + } + + /* Ensure the first byte is a valid version */ + if (inputData[0] != Nip44VersionValue[0]) + { + return E_VERSION_NOT_SUPPORTED; + } + + break; + } + default: + return E_VERSION_NOT_SUPPORTED; + } + + /* + * Alloc a the output buffer to be the same size as the input + * data for decryption because the output will always be equal + * or smaller than the input data. This is an over-alloc but + * that should be fine + */ + + outputSize = inputSize; + } + else + { + /* + * Calculate the correct output size to store the encryption + * data for the given cipher version + */ + outputSize = NCUtilGetEncryptionBufferSize(encCtx->encArgs.version, inputSize); + } if (outputSize <= 0) { return outputSize; } - /*Alloc output buffer within the struct */ + /* Alloc output buffer within the struct */ encCtx->cipherOutput = _ncUtilAllocSpan((uint32_t)outputSize, sizeof(uint8_t)); if (!encCtx->cipherOutput.data) @@ -461,14 +653,60 @@ NC_EXPORT NCResult NC_CC NCUtilCipherInit( } ncSpanInitC(&encCtx->cipherInput, inputData, inputSize); - + return NC_SUCCESS; } +NC_EXPORT NCResult NC_CC NCUtilCipherGetFlags(const NCUtilCipherContext* ctx) +{ + CHECK_NULL_ARG(ctx, 0); + + return (NCResult)(ctx->_flags); +} + NC_EXPORT NCResult NC_CC NCUtilCipherGetOutputSize(const NCUtilCipherContext* encCtx) { + uint16_t nip44PtSize; + CHECK_NULL_ARG(encCtx, 0); + /* + * if nip44 decryption is desired, the output buffer will be + * overallocated. It will also contain some padding bytes + * so we need to parse the plaintext size from the buffer + * and return that as the output size. + */ + if (encCtx->encArgs.version == NC_ENC_VERSION_NIP44 + && (encCtx->_flags & NC_UTIL_CIPHER_MODE_DECRYPT) > 0) + { + + /* ensure the output has been allocated correctly */ + if (encCtx->cipherOutput.size < NIP44_PT_LEN_SIZE) + { + return E_INVALID_CONTEXT; + } + + /* + * If a decryption operation was performed the leading 2 bytes will + * be the big-endian encoded plaintext size. This function should + * return the size of the plaintext data, not the entire buffer. + */ + + nip44PtSize = (encCtx->cipherOutput.data[0] << 8) | encCtx->cipherOutput.data[1]; + + /* + * If improperly decryption/formatted, the pt size may be some really large + * number when decoded, so make sure it doesn't point to a location outside + * the buffer, that would be invalid + */ + if (nip44PtSize > (encCtx->cipherOutput.size - NIP44_PT_LEN_SIZE)) + { + return E_CIPHER_INVALID_FORMAT; + } + + return (NCResult)nip44PtSize; + } + return (NCResult)(encCtx->cipherOutput.size); } @@ -478,21 +716,55 @@ NC_EXPORT NCResult NC_CC NCUtilCipherReadOutput( uint32_t outputSize ) { + NCResult result; + CHECK_NULL_ARG(encCtx, 0) CHECK_NULL_ARG(output, 1) - if (outputSize < encCtx->cipherOutput.size) + /* + * Again if in nip44 decrypt mode we only want the + * actual plaintext data + */ + + if (encCtx->encArgs.version == NC_ENC_VERSION_NIP44 + && (encCtx->_flags & NC_UTIL_CIPHER_MODE_DECRYPT) > 0) { - return E_OPERATION_FAILED; + result = NCUtilCipherGetOutputSize(encCtx); + + if (result < 0) + { + return result; + } + + DEBUG_ASSERT((result + NIP44_PT_LEN_SIZE) < encCtx->cipherOutput.size); + + /* Make sure the output buffer is large enough */ + CHECK_ARG_RANGE(outputSize, result, UINT32_MAX, 2); + + /* + * Plaintext data sits directly after the length bytes + * and up to the length of the plaintext size + */ + MEMMOV( + output, + encCtx->cipherOutput.data + NIP44_PT_LEN_SIZE, + (uint32_t)result + ); + + return result; } + else + { + CHECK_ARG_RANGE(outputSize, encCtx->cipherOutput.size, UINT32_MAX, 2); - MEMMOV( - output, - encCtx->cipherOutput.data, - encCtx->cipherOutput.size - ); + MEMMOV( + output, + encCtx->cipherOutput.data, + encCtx->cipherOutput.size + ); - return (NCResult)encCtx->cipherOutput.size; + return (NCResult)encCtx->cipherOutput.size; + } } NC_EXPORT NCResult NCUtilCipherSetProperty( @@ -501,8 +773,7 @@ NC_EXPORT NCResult NCUtilCipherSetProperty( uint8_t* value, uint32_t valueLen ) -{ - +{ CHECK_NULL_ARG(ctx, 0) /* All other arguments are verified */ @@ -521,20 +792,37 @@ NC_EXPORT NCResult NC_CC NCUtilCipherUpdate( const NCPublicKey* pk ) { - uint32_t mode; - CHECK_NULL_ARG(encCtx, 0); CHECK_NULL_ARG(libContext, 1); CHECK_NULL_ARG(sk, 2); CHECK_NULL_ARG(pk, 3); - mode = encCtx->_flags & NC_ENC_FLAG_MODE_MASK; + /* Make sure input & output buffers have been assigned/allocated */ + if (encCtx->cipherOutput.data == NULL) + { + return E_INVALID_CONTEXT; + } + if (encCtx->cipherInput.data == NULL) + { + return E_INVALID_CONTEXT; + } switch (encCtx->encArgs.version) { case NC_ENC_VERSION_NIP44: - if (mode == NC_UTIL_CIPHER_MODE_ENCRYPT) + + if ((encCtx->_flags & NC_UTIL_CIPHER_MODE_DECRYPT) > 0) { + return _nip44DecryptCompleteCore(libContext, sk, pk, encCtx); + } + else + { + /* Ensure the user manually specified a nonce buffer for encryption mode */ + if (!encCtx->encArgs.nonceData) + { + return E_CIPHER_BAD_NONCE; + } + return _nip44EncryptCompleteCore( libContext, sk, @@ -544,10 +832,6 @@ NC_EXPORT NCResult NC_CC NCUtilCipherUpdate( encCtx->cipherOutput ); } - else - { - return E_VERSION_NOT_SUPPORTED; - } default: return E_VERSION_NOT_SUPPORTED; |