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encrypt.c 5.05 KB
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knot
b95155c4
 
Wentao Zhang committed
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#include"auxFormat.h"

#define aead_RATE (96 / 8)

#define PR0_ROUNDS 76
#define PR_ROUNDS 40
#define PRF_ROUNDS 44
/*

#define PR0_ROUNDS 76
#define PR_ROUNDS 56
#define PRF_ROUNDS 60

#define PR0_ROUNDS 76
#define PR_ROUNDS 40
#define PRF_ROUNDS 44
 * */
void Initialize(u32 *s, const unsigned char *npub, const unsigned char *k) {
	packU96FormatToThreePacket(s, npub);
	packU96FormatToThreePacket(s + 3, npub + 12);
	packU96FormatToThreePacket(s + 6, k);
	packU96FormatToThreePacket(s + 9, k + 12);
	P384(s, constant7Format, PR0_ROUNDS);
}

void ProcessAssocData(u32 *s, const u8* ad, unsigned long long adlen) {

	u32 dataFormat[3] = { 0 };
	u8 tempData[12] = { 0 };
	if (adlen) {
		while (adlen >= aead_RATE) {
			packU96FormatToThreePacket(dataFormat, ad);
			s[0] ^= dataFormat[0];
			s[1] ^= dataFormat[1];
			s[2] ^= dataFormat[2];
			P384(s, constant7Format, PR_ROUNDS);
			adlen -= aead_RATE;
			ad += aead_RATE;
		}
		memset(tempData, 0, sizeof(tempData));
		memcpy(tempData, ad, adlen * sizeof(unsigned char));
		tempData[adlen] = 0x01;
		packU96FormatToThreePacket(dataFormat, tempData);
		s[0] ^= dataFormat[0];
		s[1] ^= dataFormat[1];
		s[2] ^= dataFormat[2];
		P384(s, constant7Format, PR_ROUNDS);
	}
	s[9] ^= 0x80000000;

}
void ProcessPlaintext(u32 *s, const u8* m, unsigned long long mlen, unsigned char *c) {

	u32 dataFormat[3] = { 0 };
	u8 tempData[12] = { 0 };
	if (mlen) {
		while (mlen >= aead_RATE) {
			packU96FormatToThreePacket(dataFormat, m);
			s[0] ^= dataFormat[0];
			s[1] ^= dataFormat[1];
			s[2] ^= dataFormat[2];
			unpackU96FormatToThreePacket(c, s);
			P384(s, constant7Format, PR_ROUNDS);
			mlen -= aead_RATE;
			m += aead_RATE;
			c += aead_RATE;
		}
		memset(tempData, 0, sizeof(tempData));
		memcpy(tempData, m, mlen * sizeof(unsigned char));
		tempData[mlen] = 0x01;
		packU96FormatToThreePacket(dataFormat, tempData);
		s[0] ^= dataFormat[0];
		s[1] ^= dataFormat[1];
		s[2] ^= dataFormat[2];
		unpackU96FormatToThreePacket(tempData, s);
		memcpy(c, tempData, mlen * sizeof(unsigned char));
		c += mlen;
	}
}

void Finalize_GenerateTag(u32 *s, unsigned char *c) {
	u8 tempU8[32] = { 0 };
	P384(s, constant7Format, PRF_ROUNDS);
	// return tag
	unpackU96FormatToThreePacket(tempU8, s);
	unpackU96FormatToThreePacket((tempU8 + 12), (s + 3));
	memcpy(c, tempU8, CRYPTO_ABYTES * sizeof(unsigned char));

}
int Finalize_VerifyTag(u32 *s, const unsigned char *c, unsigned char *m, unsigned long long *mlen) {
	u8 tempU8[32] = { 0 };
	P384(s, constant7Format, PRF_ROUNDS);
	// return tag	
	unpackU96FormatToThreePacket(tempU8, s);
	unpackU96FormatToThreePacket(tempU8 + 12, s + 3);
	if (memcmp((void*)tempU8, (void*)(c), CRYPTO_ABYTES)) {
		memset(m, 0, sizeof(unsigned char) * (*mlen));
		*mlen = 0;
		return -1;
	}
	return 0;
}
void ProcessCiphertext(u32 *s, unsigned char *m, const unsigned char *c, unsigned long long clen)
{
	u32 dataFormat[6] = { 0 };
	u32 dataFormat_1[3] = { 0 };
	u8 tempData[48] = { 0 },tempU8[48] = { 0 };
	if (clen) {
		while (clen >= aead_RATE) {
			packU96FormatToThreePacket(dataFormat, c);
			dataFormat_1[0] = s[0] ^ dataFormat[0];
			dataFormat_1[1] = s[1] ^ dataFormat[1];
			dataFormat_1[2] = s[2] ^ dataFormat[2];
			unpackU96FormatToThreePacket(m, dataFormat_1);
			s[0] = dataFormat[0];
			s[1] = dataFormat[1];
			s[2] = dataFormat[2];
			P384(s, constant7Format, PR_ROUNDS);
			clen -= aead_RATE;
			m += aead_RATE;
			c += aead_RATE;
		}
		unpackU96FormatToThreePacket(tempU8, s);
		  memset(tempData, 0, sizeof(tempData));
		  memcpy(tempData, c, clen * sizeof(unsigned char));
		  tempData[clen] = 0x01;
		  U32BIG(((u32*)tempU8)[0]) ^= U32BIG(((u32* )tempData)[0]);
		  U32BIG(((u32*)tempU8)[1]) ^= U32BIG(((u32* )tempData)[1]);
		  U32BIG(((u32*)tempU8)[2]) ^= U32BIG(((u32* )tempData)[2]);
		  memcpy(m, tempU8, clen * sizeof(unsigned char));
		  memcpy(tempU8, tempData, clen * sizeof(unsigned char));
		  c += clen;
		packU96FormatToThreePacket(s, tempU8);
	}

}
int crypto_aead_encrypt(unsigned char *c, unsigned long long *clen,
	const unsigned char *m, unsigned long long mlen,
	const unsigned char *ad, unsigned long long adlen,
	const unsigned char *nsec, const unsigned char *npub,
	const unsigned char *k) {
	u32 s[12] = { 0 };
	*clen = mlen + CRYPTO_ABYTES;
	// initialization
	Initialize(s, npub, k);
	// process associated data
	ProcessAssocData(s, ad, adlen);
	ProcessPlaintext(s, m, mlen, c);
	Finalize_GenerateTag(s, c + mlen);
	return 0;
}

int crypto_aead_decrypt(unsigned char *m, unsigned long long *mlen,
	unsigned char *nsec, const unsigned char *c, unsigned long long clen,
	const unsigned char *ad, unsigned long long adlen,
	const unsigned char *npub, const unsigned char *k) {
	u32 s[12] = { 0 };
	*mlen = clen - CRYPTO_ABYTES;
	if (clen < CRYPTO_ABYTES)
		return -1;
	Initialize(s, npub, k);
	// process associated data
	ProcessAssocData(s, ad, adlen);
	ProcessCiphertext(s, m, c, clen - CRYPTO_ABYTES);
	// finalization	
	return Finalize_VerifyTag(s, c + clen - CRYPTO_KEYBYTES, m, mlen);
}