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Diffstat (limited to 'src/noscrypt.c')
-rw-r--r--src/noscrypt.c274
1 files changed, 164 insertions, 110 deletions
diff --git a/src/noscrypt.c b/src/noscrypt.c
index 4254ee2..fededaf 100644
--- a/src/noscrypt.c
+++ b/src/noscrypt.c
@@ -32,10 +32,6 @@
*/
#define ZERO_FILL(x, size) ncCryptoSecureZero(x, size)
-/* Include string for memmove */
-#include <string.h>
-#define MEMMOV(dst, src, size) memmove(dst, src, size)
-
/*
* Validation macros
*/
@@ -44,7 +40,6 @@
#define CHECK_INVALID_ARG(x, argPos) if(x == NULL) return NCResultWithArgPosition(E_INVALID_ARG, argPos);
#define CHECK_NULL_ARG(x, argPos) if(x == NULL) return NCResultWithArgPosition(E_NULL_PTR, argPos);
#define CHECK_ARG_RANGE(x, min, max, argPos) if(x < min || x > max) return NCResultWithArgPosition(E_ARGUMENT_OUT_OF_RANGE, argPos);
- #define CHECK_CONTEXT_STATE(ctx, argPos) CHECK_INVALID_ARG(ctx->secpCtx, argPos)
#else
/* empty macros */
#define CHECK_INVALID_ARG(x)
@@ -52,6 +47,8 @@
#define CHECK_ARG_RANGE(x, min, max, argPos)
#endif /* !NC_DISABLE_INPUT_VALIDATION */
+#define CHECK_CONTEXT_STATE(ctx, argPos) CHECK_INVALID_ARG(ctx->secpCtx, argPos)
+
/*
* Actual, private defintion of the NCContext structure
* to allow for future development and ABI backords
@@ -247,7 +244,9 @@ static _nc_fn_inline NCResult _computeConversationKey(
ncSpanInitC(&saltSpan, Nip44ConstantSalt, sizeof(Nip44ConstantSalt));
ncSpanInitC(&ikmSpan, sharedSecret->value, NC_SHARED_SEC_SIZE);
- return ncCryptoSha256HkdfExtract(&saltSpan, &ikmSpan, ck->value) == CSTATUS_OK ? NC_SUCCESS : E_OPERATION_FAILED;
+ return ncCryptoSha256HkdfExtract(saltSpan, ikmSpan, ck->value) == CSTATUS_OK
+ ? NC_SUCCESS
+ : E_OPERATION_FAILED;
}
@@ -275,14 +274,13 @@ static cstatus_t _chachaEncipher(const struct nc_expand_keys* keys, NCEncryption
static _nc_fn_inline cstatus_t _getMessageKey(
const struct conversation_key* converstationKey,
- const cspan_t* nonce,
+ cspan_t nonce,
struct message_key* messageKey
)
{
cspan_t prkSpan;
span_t okmSpan;
- DEBUG_ASSERT2(nonce != NULL, "Expected valid nonce buffer")
DEBUG_ASSERT2(converstationKey != NULL, "Expected valid conversation key")
DEBUG_ASSERT2(messageKey != NULL, "Expected valid message key buffer")
@@ -290,7 +288,7 @@ static _nc_fn_inline cstatus_t _getMessageKey(
ncSpanInit(&okmSpan, messageKey->value, sizeof(struct message_key)); /* Output produces a message key (write it directly to struct memory) */
/* Nonce is the info */
- return ncCryptoSha256HkdfExpand(&prkSpan, nonce, &okmSpan);
+ return ncCryptoSha256HkdfExpand(prkSpan, nonce, okmSpan);
}
static _nc_fn_inline NCResult _encryptNip44Ex(
@@ -312,10 +310,10 @@ static _nc_fn_inline NCResult _encryptNip44Ex(
result = NC_SUCCESS;
- ncSpanInitC(&nonceSpan, args->nonceData, NC_ENCRYPTION_NONCE_SIZE);
+ ncSpanInitC(&nonceSpan, args->nonceData, NC_NIP44_IV_SIZE);
/* Message key will be derrived on every encryption call */
- if (_getMessageKey(ck, &nonceSpan, &messageKey) != CSTATUS_OK)
+ if (_getMessageKey(ck, nonceSpan, &messageKey) != CSTATUS_OK)
{
result = E_OPERATION_FAILED;
goto Cleanup;
@@ -346,15 +344,16 @@ static _nc_fn_inline NCResult _decryptNip44Ex(const NCContext* ctx, const struct
struct message_key messageKey;
const struct nc_expand_keys* cipherKeys;
- DEBUG_ASSERT2(ctx != NULL, "Expected valid context")
- DEBUG_ASSERT2(ck != NULL, "Expected valid conversation key")
- DEBUG_ASSERT2(args != NULL, "Expected valid encryption args")
+ DEBUG_ASSERT2(ctx != NULL, "Expected valid context");
+ DEBUG_ASSERT2(ck != NULL, "Expected valid conversation key");
+ DEBUG_ASSERT2(args != NULL, "Expected valid encryption args");
+ DEBUG_ASSERT(args->version == NC_ENC_VERSION_NIP44);
result = NC_SUCCESS;
- ncSpanInitC(&nonceSpan, args->nonceData, NC_ENCRYPTION_NONCE_SIZE);
+ ncSpanInitC(&nonceSpan, args->nonceData, NC_NIP44_IV_SIZE);
- if (_getMessageKey(ck, &nonceSpan, &messageKey) != CSTATUS_OK)
+ if (_getMessageKey(ck, nonceSpan, &messageKey) != CSTATUS_OK)
{
result = E_OPERATION_FAILED;
goto Cleanup;
@@ -375,17 +374,16 @@ Cleanup:
return result;
}
-static _nc_fn_inline cstatus_t _computeHmac(const uint8_t key[NC_HMAC_KEY_SIZE], const cspan_t* payload, sha256_t hmacOut)
+static _nc_fn_inline cstatus_t _computeHmac(const uint8_t key[NC_HMAC_KEY_SIZE], cspan_t payload, sha256_t hmacOut)
{
cspan_t keySpan;
DEBUG_ASSERT2(key != NULL, "Expected valid hmac key")
- DEBUG_ASSERT2(payload != NULL, "Expected valid mac verification args")
DEBUG_ASSERT2(hmacOut != NULL, "Expected valid hmac output buffer")
ncSpanInitC(&keySpan, key, NC_HMAC_KEY_SIZE);
- return ncCryptoHmacSha256(&keySpan, payload, hmacOut);
+ return ncCryptoHmacSha256(keySpan, payload, hmacOut);
}
static NCResult _verifyMacEx(
@@ -404,14 +402,14 @@ static NCResult _verifyMacEx(
DEBUG_ASSERT2(conversationKey != NULL, "Expected valid conversation key")
DEBUG_ASSERT2(args != NULL, "Expected valid mac verification args")
- ncSpanInitC(&nonceSpan, args->nonce32, NC_ENCRYPTION_NONCE_SIZE);
+ ncSpanInitC(&nonceSpan, args->nonce32, NC_NIP44_IV_SIZE);
ncSpanInitC(&payloadSpan, args->payload, args->payloadSize);
/*
* Message key is again required for the hmac verification
*/
- if (_getMessageKey((struct conversation_key*)conversationKey, &nonceSpan, &messageKey) != CSTATUS_OK)
+ if (_getMessageKey((struct conversation_key*)conversationKey, nonceSpan, &messageKey) != CSTATUS_OK)
{
result = E_OPERATION_FAILED;
goto Cleanup;
@@ -423,7 +421,7 @@ static NCResult _verifyMacEx(
/*
* Compute the hmac of the data using the computed hmac key
*/
- if (_computeHmac(keys->hmac_key, &payloadSpan, hmacOut) != CSTATUS_OK)
+ if (_computeHmac(keys->hmac_key, payloadSpan, hmacOut) != CSTATUS_OK)
{
result = E_OPERATION_FAILED;
goto Cleanup;
@@ -442,6 +440,40 @@ Cleanup:
/*
* EXTERNAL API FUNCTIONS
*/
+
+
+NC_EXPORT NCResult NC_CC NCResultWithArgPosition(NCResult err, uint8_t argPosition)
+{
+ return -(((NCResult)argPosition << NC_ARG_POSITION_OFFSET) | -err);
+}
+
+NC_EXPORT int NC_CC NCParseErrorCode(NCResult result, uint8_t* argPositionOut)
+{
+ NCResult asPositive;
+ int code;
+
+ /* convert result to a positive value*/
+ asPositive = -result;
+
+ /* Get the error code from the lower 8 bits and the argument position from the upper 8 bits*/
+ code = -(asPositive & NC_ERROR_CODE_MASK);
+
+ /* Allow argument position assignment to be null */
+ if (argPositionOut)
+ {
+ *argPositionOut = (asPositive >> NC_ARG_POSITION_OFFSET) & 0xFF;
+ }
+
+ return code;
+}
+
+/* =============================
+*
+* Context functions
+*
+* =============================
+*/
+
NC_EXPORT uint32_t NC_CC NCGetContextStructSize(void)
{
return sizeof(NCContext);
@@ -499,7 +531,13 @@ NC_EXPORT NCResult NC_CC NCDestroyContext(NCContext* ctx)
return NC_SUCCESS;
}
-/* KEY Functions */
+/* =============================
+*
+* ECDSA functions
+*
+* =============================
+*/
+
NC_EXPORT NCResult NC_CC NCGetPublicKey(
const NCContext* ctx,
const NCSecretKey* sk,
@@ -615,7 +653,7 @@ NC_EXPORT NCResult NC_CC NCSignData(
ncSpanInitC(&dataSpan, data, dataSize);
/* Compute sha256 of the data before signing */
- if(ncCryptoDigestSha256(&dataSpan, digest) != CSTATUS_OK)
+ if(ncCryptoDigestSha256(dataSpan, digest) != CSTATUS_OK)
{
return E_INVALID_ARG;
}
@@ -673,7 +711,7 @@ NC_EXPORT NCResult NC_CC NCVerifyData(
ncSpanInitC(&dataSpan, data, dataSize);
/* Compute sha256 of the data before verifying */
- if (ncCryptoDigestSha256(&dataSpan, digest) != CSTATUS_OK)
+ if (ncCryptoDigestSha256(dataSpan, digest) != CSTATUS_OK)
{
return E_INVALID_ARG;
}
@@ -681,7 +719,12 @@ NC_EXPORT NCResult NC_CC NCVerifyData(
return NCVerifyDigest(ctx, pk, digest, sig64);
}
-/* ECDH Functions */
+/* =============================
+*
+* ECDH functions
+*
+* =============================
+*/
NC_EXPORT NCResult NC_CC NCGetSharedSecret(
const NCContext* ctx,
@@ -774,7 +817,12 @@ NC_EXPORT NCResult NC_CC NCEncryptEx(
return E_VERSION_NOT_SUPPORTED;
case NC_ENC_VERSION_NIP44:
- return _encryptNip44Ex(ctx, (struct conversation_key*)conversationKey, args->keyData, args);
+ return _encryptNip44Ex(
+ ctx,
+ (struct conversation_key*)conversationKey,
+ args->keyData,
+ args
+ );
default:
return E_VERSION_NOT_SUPPORTED;
@@ -803,8 +851,6 @@ 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;
@@ -812,6 +858,10 @@ 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)
{
@@ -846,8 +896,8 @@ Cleanup:
}
NC_EXPORT NCResult NC_CC NCDecryptEx(
- const NCContext* ctx,
- const uint8_t conversationKey[NC_CONV_KEY_SIZE],
+ const NCContext* ctx,
+ const uint8_t conversationKey[NC_CONV_KEY_SIZE],
NCEncryptionArgs* args
)
{
@@ -864,12 +914,12 @@ NC_EXPORT NCResult NC_CC NCDecryptEx(
switch (args->version)
{
- case NC_ENC_VERSION_NIP44:
- return _decryptNip44Ex(ctx, (struct conversation_key*)conversationKey, args);
+ case NC_ENC_VERSION_NIP44:
+ return _decryptNip44Ex(ctx, (struct conversation_key*)conversationKey, args);
- case NC_ENC_VERSION_NIP04:
- default:
- return E_VERSION_NOT_SUPPORTED;
+ case NC_ENC_VERSION_NIP04:
+ default:
+ return E_VERSION_NOT_SUPPORTED;
}
}
@@ -900,26 +950,26 @@ NC_EXPORT NCResult NC_CC NCDecrypt(
switch (args->version)
{
- case NC_ENC_VERSION_NIP44:
+ case NC_ENC_VERSION_NIP44:
+ {
+ if ((result = _computeSharedSecret(ctx, sk, pk, &sharedSecret)) != NC_SUCCESS)
{
- if ((result = _computeSharedSecret(ctx, sk, pk, &sharedSecret)) != NC_SUCCESS)
- {
- goto Cleanup;
- }
-
- if ((result = _computeConversationKey(ctx, &sharedSecret, &conversationKey)) != NC_SUCCESS)
- {
- goto Cleanup;
- }
+ goto Cleanup;
+ }
- result = _decryptNip44Ex(ctx, &conversationKey, args);
+ if ((result = _computeConversationKey(ctx, &sharedSecret, &conversationKey)) != NC_SUCCESS)
+ {
+ goto Cleanup;
}
- break;
- case NC_ENC_VERSION_NIP04:
- default:
- result = E_VERSION_NOT_SUPPORTED;
- break;
+ result = _decryptNip44Ex(ctx, &conversationKey, args);
+ }
+ break;
+
+ case NC_ENC_VERSION_NIP04:
+ default:
+ result = E_VERSION_NOT_SUPPORTED;
+ break;
}
Cleanup:
@@ -930,7 +980,7 @@ Cleanup:
return result;
}
-NC_EXPORT NCResult NCComputeMac(
+NC_EXPORT NCResult NC_CC NCComputeMac(
const NCContext* ctx,
const uint8_t hmacKey[NC_HMAC_KEY_SIZE],
const uint8_t* payload,
@@ -952,7 +1002,7 @@ NC_EXPORT NCResult NCComputeMac(
/*
* Compute the hmac of the data using the supplied hmac key
*/
- return _computeHmac(hmacKey, &payloadSpan, hmacOut) == CSTATUS_OK ? NC_SUCCESS : E_OPERATION_FAILED;
+ return _computeHmac(hmacKey, payloadSpan, hmacOut) == CSTATUS_OK ? NC_SUCCESS : E_OPERATION_FAILED;
}
@@ -1020,99 +1070,88 @@ Cleanup:
#define ENSURE_ENC_MODE(args, mode) if(args->version != mode) return E_VERSION_NOT_SUPPORTED;
-NC_EXPORT NCResult NCSetEncryptionPropertyEx(
+NC_EXPORT NCResult NC_CC NCEncryptionSetPropertyEx(
NCEncryptionArgs* args,
uint32_t property,
uint8_t* value,
uint32_t valueLen
)
{
+ uint32_t ivSize;
CHECK_NULL_ARG(args, 0)
CHECK_NULL_ARG(value, 2)
switch (property)
{
- case NC_ENC_SET_VERSION:
-
- /* Ensure version is proper length */
- CHECK_ARG_RANGE(valueLen, sizeof(uint32_t), sizeof(uint32_t), 2)
-
- args->version = *((uint32_t*)value);
-
- return NC_SUCCESS;
+ case NC_ENC_SET_VERSION:
- case NC_ENC_SET_NIP04_IV:
- /*
- * The safest way to store the nip04 IV is in the nonce
- * field. An IV is essentially a nonce. A secure random
- * number used to encrypt the first block of a CBC chain.
- */
-
- CHECK_ARG_RANGE(valueLen, AES_IV_SIZE, UINT32_MAX, 3)
+ /* Ensure version is proper length */
+ CHECK_ARG_RANGE(valueLen, sizeof(uint32_t), sizeof(uint32_t), 2)
- ENSURE_ENC_MODE(args, NC_ENC_VERSION_NIP04)
+ args->version = *((uint32_t*)value);
- args->nonceData = value;
+ return NC_SUCCESS;
- return NC_SUCCESS;
-
+ case NC_ENC_SET_NIP04_KEY:
+ /*
+ * The AES key is stored in the hmac key field, since
+ * it won't be used for the operating and should be the same size
+ * as the hmac key.
+ */
- case NC_ENC_SET_NIP04_KEY:
- /*
- * The AES key is stored in the hmac key field, since
- * it won't be used for the operating and should be the same size
- * as the hmac key.
- */
-
- CHECK_ARG_RANGE(valueLen, AES_KEY_SIZE, UINT32_MAX, 3)
+ CHECK_ARG_RANGE(valueLen, AES_KEY_SIZE, UINT32_MAX, 3)
- ENSURE_ENC_MODE(args, NC_ENC_VERSION_NIP04)
+ ENSURE_ENC_MODE(args, NC_ENC_VERSION_NIP04)
- args->keyData = value;
+ args->keyData = value;
- return NC_SUCCESS;
+ return NC_SUCCESS;
- case NC_ENC_SET_NIP44_NONCE:
+ case NC_ENC_SET_IV:
- /* Nonce buffer must be at least the size, max doesnt matter */
- CHECK_ARG_RANGE(valueLen, NC_ENCRYPTION_NONCE_SIZE, UINT32_MAX, 3)
+ ivSize = NCEncryptionGetIvSize(args->version);
+
+ /* Gaurd invalid version */
+ if (ivSize == 0)
+ {
+ return E_VERSION_NOT_SUPPORTED;
+ }
- /* Nonce is only used in nip44 mode */
- ENSURE_ENC_MODE(args, NC_ENC_VERSION_NIP44)
+ CHECK_ARG_RANGE(valueLen, ivSize, ivSize, 3)
- args->nonceData = value;
+ args->nonceData = value;
- return NC_SUCCESS;
+ return NC_SUCCESS;
- case NC_ENC_SET_NIP44_MAC_KEY:
-
- /* The maximum size of the buffer doesn't matter as long as its larger than the key size */
- CHECK_ARG_RANGE(valueLen, NC_HMAC_KEY_SIZE, UINT32_MAX, 3)
+ case NC_ENC_SET_NIP44_MAC_KEY:
- /* Mac key is only used in nip44 mode */
- ENSURE_ENC_MODE(args, NC_ENC_VERSION_NIP44)
+ /* The maximum size of the buffer doesn't matter as long as its larger than the key size */
+ CHECK_ARG_RANGE(valueLen, NC_HMAC_KEY_SIZE, UINT32_MAX, 3)
- /*
- * During encryption the key data buffer is used
- * to write the hmac hey used for MAC computation
- * operations.
- */
- args->keyData = value;
+ /* Mac key is only used in nip44 mode */
+ ENSURE_ENC_MODE(args, NC_ENC_VERSION_NIP44)
- return NC_SUCCESS;
+ /*
+ * During encryption the key data buffer is used
+ * to write the hmac hey used for MAC computation
+ * operations.
+ */
+ args->keyData = value;
+
+ return NC_SUCCESS;
}
return E_INVALID_ARG;
}
-NC_EXPORT NCResult NCSetEncryptionProperty(
+NC_EXPORT NCResult NC_CC NCEncryptionSetProperty(
NCEncryptionArgs* args,
uint32_t property,
uint32_t value
)
{
- return NCSetEncryptionPropertyEx(
+ return NCEncryptionSetPropertyEx(
args,
property,
(uint8_t*)&value,
@@ -1120,7 +1159,7 @@ NC_EXPORT NCResult NCSetEncryptionProperty(
);
}
-NC_EXPORT NCResult NCSetEncryptionData(
+NC_EXPORT NCResult NC_CC NCEncryptionSetData(
NCEncryptionArgs* args,
const uint8_t* input,
uint8_t* output,
@@ -1137,4 +1176,19 @@ NC_EXPORT NCResult NCSetEncryptionData(
args->dataSize = dataSize;
return NC_SUCCESS;
-} \ No newline at end of file
+}
+
+NC_EXPORT uint32_t NC_CC NCEncryptionGetIvSize(uint32_t version)
+{
+ switch (version)
+ {
+ case NC_ENC_VERSION_NIP04:
+ return NC_NIP04_IV_SIZE;
+
+ case NC_ENC_VERSION_NIP44:
+ return NC_NIP44_IV_SIZE;
+
+ default:
+ return 0;
+ }
+}