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/*
* Copyright (c) 2024 Vaughn Nugent
*
* Library: noscrypt
* Package: noscrypt
* File: noscrypt.h
* 
* noscrypt is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published
* by the Free Software Foundation, either version 2 of the License,
* or (at your option) any later version.
*
* noscrypt is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with noscrypt. If not, see http://www.gnu.org/licenses/.
*/

/*
* noscrypt is a an open-source, strict C89 library that performs the basic 
* cryptographic operations found in the Nostr protocol. It is designed to be
* portable and easy to use in any C89 compatible environment. It is also designed
*/

#pragma once

#ifndef NOSCRYPT_H
#define NOSCRYPT_H

#include <stdint.h>
#include <stddef.h>

#if defined(_MSC_VER) || defined(WIN32) || defined(_WIN32)
	#define IS_WINDOWS
#endif

//Set api export calling convention (allow used to override)
#ifndef NC_CC
	#ifdef IS_WINDOWS
		//STD for importing to other languages such as .NET
		#define NC_CC __stdcall
	#else
		#define NC_CC 
	#endif
#endif // !NC_CC

#ifndef NC_EXPORT	//Allow users to disable the export/impoty macro if using source code directly
	#ifdef NOSCRYPT_EXPORTING
		#ifdef IS_WINDOWS
			#define NC_EXPORT __declspec(dllexport)
		#else
			#define NC_EXPORT __attribute__((visibility("default")))
		#endif // IS_WINDOWS
	#else
		#ifdef IS_WINDOWS
			#define NC_EXPORT __declspec(dllimport)
		#else
			#define NC_EXPORT
		#endif // IS_WINDOWS
	#endif // !NOSCRYPT_EXPORTING
#endif // !NC_EXPORT


#ifndef IS_WINDOWS
	#ifndef inline
		#define inline __inline__
	#endif // !inline
#endif // !IS_WINDOWS

//NULL
#ifndef NULL
	#define NULL ((void*)0)
#endif // !NULL

/*
* CONSTANTS
*/
#define BIP340_PUBKEY_HEADER_BYTE 0x02
#define NIP44_MESSAGE_KEY_SIZE 76
#define NC_ENCRYPTION_NONCE_SIZE 32
#define NC_SEC_KEY_SIZE 32
#define NC_PUBKEY_SIZE 32
#define NC_SHARED_SEC_SIZE 32
#define NC_CONV_KEY_SIZE 32
#define NC_MESSAGE_KEY_SIZE NIP44_MESSAGE_KEY_SIZE

/*
* From spec
* https://github.com/nostr-protocol/nips/blob/master/44.md#decryption
*/
#define NIP44_MIN_ENC_MESSAGE_SIZE 1
#define NIP44_MAX_ENC_MESSAGE_SIZE 65535
#define NIP44_MIN_DEC_MESSAGE_SIZE 99
#define NIP44_MAX_DEC_MESSAGE_SIZE 65603 

/*
* The Nip44 constant salt 
* https://github.com/nostr-protocol/nips/blob/master/44.md#encryption
*/
static const uint8_t Nip44ConstantSalt[8] = { 0x6e, 0x69, 0x70, 0x34, 0x34, 0x2d, 0x76, 0x32 };

/*
*	ERROR CODES
* 
* Error codes are 64bit integers. The lower 8 bits are reserved for 
* the error code, and the upper 8 bits are reserved for the argument 
* position.
* 
* NCResult type is 64bit to also allow for positive return values for
* operations that return a value count.
*/

#define ARG_POSITION_OFFSET 8
#define NC_ERROR_CODE_MASK 0xFF

#define NC_SUCCESS 0
#define E_NULL_PTR -1
#define E_INVALID_ARG -2
#define E_INVALID_CONTEXT -3
#define E_ARGUMENT_OUT_OF_RANGE -4

/*
* Validation macros
*/

#define CHECK_NULL_PTR(ptr) if(ptr == NULL) return E_NULL_PTR;
#define CHECK_INVALID_ARG(x) if(x == NULL) return E_INVALID_ARG;
#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);

#ifdef DEBUG

//Must include assert.h for assertions
#include <assert.h>

#define DEBUG_ASSERT(x) assert(x);
#define DEBUG_ASSERT2(x, message) assert(x && message);
#else
#define DEBUG_ASSERT(x)
#define DEBUG_ASSERT2(x, message)
#endif

/* A compressed resul/return value, negative values 
are failure, 0 is success and positive values are 
defined by the operation. 
*/
typedef int64_t NCResult;

/*
 An secp256k1 secret key (aka 32byte private key buffer)
*/
typedef struct secret_key_struct {

	uint8_t key[NC_SEC_KEY_SIZE];

}NCSecretKey;

/*
  An x-only secp256k1 public key
*/
typedef struct xonly_pubkey_struct {

	uint8_t key[NC_PUBKEY_SIZE];

}NCPublicKey;

/*
	An opaque full library context object
*/
typedef struct ctx_struct {

	void* secpCtx;

}NCContext;

/*
* The encryption arguments structure. This structure is used to pass 
arguments to the encryption and decryption functions. It stores the
data buffers and required nonce used for the stream cipher.
*/
typedef struct nc_encryption_struct {

	/*
	* The nonce used for the stream cipher.
	*/
	uint8_t nonce[NC_ENCRYPTION_NONCE_SIZE];

	/* The input data buffer to encrypt/decrypt */
	const void* inputData;

	/* The output data buffer to write data to */
	void* outputData;

	/* The size of the data buffers. Buffers must 
	* be the same size or larger than this value
	*/
	uint32_t dataSize;

} NCCryptoData;

/*
	API FUNCTIONS
*/

static inline NCSecretKey* NCToSecKey(uint8_t key[NC_SEC_KEY_SIZE])
{
	return (NCSecretKey*)key;
}

static inline NCPublicKey* NCToPubKey(uint8_t key[NC_PUBKEY_SIZE])
{
	return (NCPublicKey*)key;
}

static inline NCResult NCResultWithArgPosition(NCResult err, uint8_t argPosition) 
{
	//Store the error code in the lower 8 bits and the argument position in the upper 24 bits
	return (err & NC_ERROR_CODE_MASK) | (((uint32_t)argPosition) << ARG_POSITION_OFFSET);
}

/*
* Parses an error code and returns the error code and the argument position 
that caused the error.
* @param result The error code to parse
* @param code A pointer to the error code to write to
* @param argPosition A pointer to the argument position to write to
*/
NC_EXPORT void NC_CC NCParseErrorCode(NCResult result, int* code, int* argPosition)
{
	//Get the error code from the lower 8 bits and the argument position from the upper 8 bits
	*code = result & NC_ERROR_CODE_MASK;
	*argPosition = (result >> ARG_POSITION_OFFSET) & 0xFF;
}

/*--------------------------------------
*		LIB CONTEXT API
*/

/*
* Runtime check for the size of the context struct to allow 
for dynamic allocation when context size structure is not known. 
* @return The size of the context struct in bytes
*/
NC_EXPORT uint32_t NC_CC NCGetContextStructSize(void);
/*
* Initializes a context struct with the given entropy
* @param ctx A pointer to the context structure to initialize
* @param entropy The 32byte entropy to initialize the context with
* @return NC_SUCCESS if the operation was successful, otherwise an error code
*/
NC_EXPORT NCResult NC_CC NCInitContext(
	NCContext* ctx, 
	const uint8_t entropy[32]
);
/*
* Reinitializes a context struct with the given 
* @param ctx A pointer to the context structure to initialize
* @param entropy The 32byte entropy to initialize the context with
* @return NC_SUCCESS if the operation was successful, otherwise an error code
*/
NC_EXPORT NCResult NC_CC NCReInitContext(
	NCContext* ctx, 
	const uint8_t entropy[32]
);

/*
* Destroys a context struct
* @param ctx A pointer to the existing context structure to destroy
* @return NC_SUCCESS if the operation was successful, otherwise an error code
*/
NC_EXPORT NCResult NC_CC NCDestroyContext(NCContext* ctx);



/*--------------------------------------
*		HIGH LEVEL SIGNING API
*/

/*
* Gets a 32byte x-only compressed public key from the given secret key
* @param ctx A pointer to the existing library context
* @param sk A pointer to the secret key
* @param pk A pointer to the compressed public key buffer to write to
* @return NC_SUCCESS if the operation was successful, otherwise an error code
*/
NC_EXPORT NCResult NC_CC NCGetPublicKey(
	const NCContext* ctx, 
	const NCSecretKey* sk, 
	NCPublicKey* pk
);
/*
* Validates that a given secret key is valid according to the secp256k1 curve. This 
is functionally the same as calling secp256k1_ec_seckey_verify. 
* @param ctx A pointer to the existing library context
* @param sk A pointer to the secret key to verify 
* @return NC_SUCCESS if the secret key is in a valid format, otherwise an error code
*/
NC_EXPORT NCResult NC_CC NCValidateSecretKey(
	const NCContext* ctx, 
	const NCSecretKey* sk
);


/*
* Signs a raw message after computing the sha256 checksum using the
given secret key and writes the signature to the sig64 buffer.
* @param ctx A pointer to the existing library context
* @param sk A pointer to the secret key to sign with
* @param random32 A pointer to the 32byte random32 buffer to use for signing
* @param data A pointer to the raw data buffer to sign
* @param dataSize The size of the raw data buffer
* @param sig64 A pointer to the 64byte buffer to write the signature to
* @return NC_SUCCESS if the operation was successful, otherwise an error code
*/
NC_EXPORT NCResult NC_CC NCSignData(
	const NCContext* ctx,
	const NCSecretKey* sk,
	const uint8_t random32[32],
	const uint8_t* data,
	const size_t dataSize,
	uint8_t sig64[64]
);

/*
* Verifies a signature of a raw data buffer matches the output using the given public key.
* @param ctx A pointer to the existing library context
* @param sig64 The 64byte signature to verify
* @param data A pointer to the raw data buffer to verify
* @param dataSize The size of the raw data buffer
* @param pk A pointer to the the x-only compressed public key (x-only serialized public key)
* @return NC_SUCCESS if the signature could be verified, otherwise an error code
*/
NC_EXPORT NCResult NC_CC NCVerifyData(
	const NCContext* ctx,
	const NCPublicKey* pk,
	const uint8_t* data,
	const size_t dataSize,
	uint8_t sig64[64]
);

/*--------------------------------------
*		EXTENDED SIGNING API
*/

/*
* Signs a message using the given secret key and writes the signature to the sig64 buffer
* @param ctx A pointer to the existing library context
* @param sk A pointer to the secret key to sign with
* @param random32 A pointer to the 32byte random32 buffer to use for signing
* @param digest32 A pointer to 32byte sha256 digest32 to sign
* @param sig64 A pointer to the 64byte buffer to write the signature to
* @return NC_SUCCESS if the operation was successful, otherwise an error code
*/
NC_EXPORT NCResult NC_CC NCSignDigest(
	const NCContext* ctx,
	const NCSecretKey* sk,
	const uint8_t random32[32],
	const uint8_t digest32[32],
	uint8_t sig64[64]
);

/*
* Verifies a signature of a digest32 matches the output using the given public key.
Equivalent to calling secp256k1_schnorrsig_verify.
* @param ctx A pointer to the existing library context
* @param sig64 The 64byte signature to verify
* @param digest32 The 32byte digest32 to verify
* @param pk A pointer to the the x-only compressed public key (x-only serialized public key)
* @return NC_SUCCESS if the signature could be verified, otherwise an error code
*/
NC_EXPORT NCResult NC_CC NCVerifyDigest(
	const NCContext* ctx,
	const NCPublicKey* pk,
	const uint8_t digest32[32],
	const uint8_t sig64[64]
);



/*--------------------------------------
*		HIGH LEVEL ENCRYPTION API
*/

/*
*			NOTES
* 
*	NIP-44 requires that plaintext/ciphertext must be padded in powers of 2.
*	Since this library operates on data at the binary level, and does not do 
*	ANY runtime heap allocation, it is up to the user to ensure that the 
*	plaintext/ciphertext buffers are padded properly in The NCryptoData struct
*   before calling the encryption/decryption functions.
*/

/*
* High level api for encrypting nostr messages using a secret key and a public key. Use
the NCEncryptEx functions for extended encryption functionality
* @param ctx The library context
* @param sk The secret key (the local private key)
* @param pk The 32byte compressed public key (x-only serialized public key) the other user's public key
* @param args The encryption arguments
* @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
*/
NC_EXPORT NCResult NC_CC NCEncrypt(
	const NCContext* ctx, 
	const NCSecretKey* sk, 
	const NCPublicKey* pk, 
	NCCryptoData* args
);

/*
* High level api for decrypting nostr messages using a secret key and a public key. Use
the NCDecryptEx functions for extended decryption functionality.
* @param ctx The library context
* @param sk The secret key (the local private key)
* @param pk The 32byte compressed public key (x-only serialized public key) the other user's public key
* @param args The decryption arguments
* @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
*/
NC_EXPORT NCResult NC_CC NCDecrypt(
	const NCContext* ctx, 
	const NCSecretKey* sk, 
	const NCPublicKey* pk, 
	NCCryptoData* args
);


/*--------------------------------------
*		EXTENDED ENCRYPTION API
*/

/*
* Computes a NIP-44 shared secret from a secret key and a public key and 
stores it in the sharedPoint buffer.
* @param ctx A pointer to the existing library context
* @param sk The secret key
* @param pk The 32byte compressed public key (x-only serialized public key)
* @param sharedPoint The 32byte buffer to store write the secret data to
* @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
*/
NC_EXPORT NCResult NC_CC NCGetSharedSecret(
	const NCContext* ctx, 
	const NCSecretKey* sk, 
	const NCPublicKey* pk, 
	uint8_t sharedPoint[NC_SHARED_SEC_SIZE]
);

/*
* Computes a NIP-44 conversation key from the local secret key and the remote 
public key, and stores it in the conversationKey buffer.
* @param ctx A pointer to the existing library context
* @param sk A pointer to the 32byte the secret key
* @param pk A pointer to the 32byte compressed public key (x-only serialized public key)
* @param conversationKey The 32byte buffer to store write the conversation key to
* @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
*/
NC_EXPORT NCResult NC_CC NCGetConversationKey(
	const NCContext* ctx, 
	const NCSecretKey* sk, 
	const NCPublicKey* pk, 
	uint8_t conversationKey[NC_CONV_KEY_SIZE]
);
/*
* Computes a NIP-44 conversation key a shared secret/point, and stores it in the 
conversationKey buffer.
* @param ctx A pointer to the existing library context
* @param sharedPoint A pointer to the 32byte shared secret/point
* @param conversationKey The 32byte buffer to store write the conversation key to
* @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
*/
NC_EXPORT NCResult NC_CC NCGetConversationKeyEx(
	const NCContext* ctx, 
	const uint8_t sharedPoint[NC_SHARED_SEC_SIZE], 
	uint8_t conversationKey[NC_CONV_KEY_SIZE]
);

/*
* Encrypts a message using the given conversation key and writes the encrypted message to the
* output buffer. The output buffer must be at least 99 bytes in size.
* @param ctx A pointer to the existing library context
* @param conversationKey A pointer to the 32byte conversation key
* @param args A pointer to the encryption arguments structure
* @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.
*/
NC_EXPORT NCResult NC_CC NCEncryptEx(
	const NCContext* ctx, 
	const uint8_t conversationKey[NC_CONV_KEY_SIZE],
	NCCryptoData* args
);

/*
* Decrypts a message using the given conversation key and writes the decrypted message to the
* output buffer. 
* @param ctx A pointer to the existing library context
* @param conversationKey A pointer to the 32byte conversation key
* @param args A pointer to the decryption arguments structure
* @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.
*/
NC_EXPORT NCResult NC_CC NCDecryptEx(
	const NCContext* ctx, 
	const uint8_t conversationKey[NC_CONV_KEY_SIZE], 
	NCCryptoData* args
);

#endif // !NOSCRYPT_H