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sshccp.c
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sshccp.c
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/*
* ChaCha20-Poly1305 Implementation for SSH-2
*
* Protocol spec:
* http://cvsweb.openbsd.org/cgi-bin/cvsweb/src/usr.bin/ssh/PROTOCOL.chacha20poly1305?rev=1.2&content-type=text/x-cvsweb-markup
*
* ChaCha20 spec:
* http://cr.yp.to/chacha/chacha-20080128.pdf
*
* Salsa20 spec:
* http://cr.yp.to/snuffle/spec.pdf
*
* Poly1305-AES spec:
* http://cr.yp.to/mac/poly1305-20050329.pdf
*
* The nonce for the Poly1305 is the second part of the key output
* from the first round of ChaCha20. This removes the AES requirement.
* This is undocumented!
*
* This has an intricate link between the cipher and the MAC. The
* keying of both is done in by the cipher and setting of the IV is
* done by the MAC. One cannot operate without the other. The
* configuration of the ssh2_cipher structure ensures that the MAC is
* set (and others ignored) if this cipher is chosen.
*
* This cipher also encrypts the length using a different
* instantiation of the cipher using a different key and IV made from
* the sequence number which is passed in addition when calling
* encrypt/decrypt on it.
*/
#include "ssh.h"
#include "sshbn.h"
#ifndef INLINE
#define INLINE
#endif
/* ChaCha20 implementation, only supporting 256-bit keys */
/* State for each ChaCha20 instance */
struct chacha20 {
/* Current context, usually with the count incremented
* 0-3 are the static constant
* 4-11 are the key
* 12-13 are the counter
* 14-15 are the IV */
uint32 state[16];
/* The output of the state above ready to xor */
unsigned char current[64];
/* The index of the above currently used to allow a true streaming cipher */
int currentIndex;
};
static INLINE void chacha20_round(struct chacha20 *ctx)
{
int i;
uint32 copy[16];
/* Take a copy */
memcpy(copy, ctx->state, sizeof(copy));
/* A circular rotation for a 32bit number */
#define rotl(x, shift) x = ((x << shift) | (x >> (32 - shift)))
/* What to do for each quarter round operation */
#define qrop(a, b, c, d) \
copy[a] += copy[b]; \
copy[c] ^= copy[a]; \
rotl(copy[c], d)
/* A quarter round */
#define quarter(a, b, c, d) \
qrop(a, b, d, 16); \
qrop(c, d, b, 12); \
qrop(a, b, d, 8); \
qrop(c, d, b, 7)
/* Do 20 rounds, in pairs because every other is different */
for (i = 0; i < 20; i += 2) {
/* A round */
quarter(0, 4, 8, 12);
quarter(1, 5, 9, 13);
quarter(2, 6, 10, 14);
quarter(3, 7, 11, 15);
/* Another slightly different round */
quarter(0, 5, 10, 15);
quarter(1, 6, 11, 12);
quarter(2, 7, 8, 13);
quarter(3, 4, 9, 14);
}
/* Dump the macros, don't need them littering */
#undef rotl
#undef qrop
#undef quarter
/* Add the initial state */
for (i = 0; i < 16; ++i) {
copy[i] += ctx->state[i];
}
/* Update the content of the xor buffer */
for (i = 0; i < 16; ++i) {
ctx->current[i * 4 + 0] = copy[i] >> 0;
ctx->current[i * 4 + 1] = copy[i] >> 8;
ctx->current[i * 4 + 2] = copy[i] >> 16;
ctx->current[i * 4 + 3] = copy[i] >> 24;
}
/* State full, reset pointer to beginning */
ctx->currentIndex = 0;
smemclr(copy, sizeof(copy));
/* Increment round counter */
++ctx->state[12];
/* Check for overflow, not done in one line so the 32 bits are chopped by the type */
if (!(uint32)(ctx->state[12])) {
++ctx->state[13];
}
}
/* Initialise context with 256bit key */
static void chacha20_key(struct chacha20 *ctx, const unsigned char *key)
{
static const char constant[16] = "expand 32-byte k";
/* Add the fixed string to the start of the state */
ctx->state[0] = GET_32BIT_LSB_FIRST(constant + 0);
ctx->state[1] = GET_32BIT_LSB_FIRST(constant + 4);
ctx->state[2] = GET_32BIT_LSB_FIRST(constant + 8);
ctx->state[3] = GET_32BIT_LSB_FIRST(constant + 12);
/* Add the key */
ctx->state[4] = GET_32BIT_LSB_FIRST(key + 0);
ctx->state[5] = GET_32BIT_LSB_FIRST(key + 4);
ctx->state[6] = GET_32BIT_LSB_FIRST(key + 8);
ctx->state[7] = GET_32BIT_LSB_FIRST(key + 12);
ctx->state[8] = GET_32BIT_LSB_FIRST(key + 16);
ctx->state[9] = GET_32BIT_LSB_FIRST(key + 20);
ctx->state[10] = GET_32BIT_LSB_FIRST(key + 24);
ctx->state[11] = GET_32BIT_LSB_FIRST(key + 28);
/* New key, dump context */
ctx->currentIndex = 64;
}
static void chacha20_iv(struct chacha20 *ctx, const unsigned char *iv)
{
ctx->state[12] = 0;
ctx->state[13] = 0;
ctx->state[14] = GET_32BIT_MSB_FIRST(iv);
ctx->state[15] = GET_32BIT_MSB_FIRST(iv + 4);
/* New IV, dump context */
ctx->currentIndex = 64;
}
static void chacha20_encrypt(struct chacha20 *ctx, unsigned char *blk, int len)
{
while (len) {
/* If we don't have any state left, then cycle to the next */
if (ctx->currentIndex >= 64) {
chacha20_round(ctx);
}
/* Do the xor while there's some state left and some plaintext left */
while (ctx->currentIndex < 64 && len) {
*blk++ ^= ctx->current[ctx->currentIndex++];
--len;
}
}
}
/* Decrypt is encrypt... It's xor against a PRNG... */
static INLINE void chacha20_decrypt(struct chacha20 *ctx,
unsigned char *blk, int len)
{
chacha20_encrypt(ctx, blk, len);
}
/* Poly1305 implementation (no AES, nonce is not encrypted) */
#define NWORDS ((130 + BIGNUM_INT_BITS-1) / BIGNUM_INT_BITS)
typedef struct bigval {
BignumInt w[NWORDS];
} bigval;
static void bigval_clear(bigval *r)
{
int i;
for (i = 0; i < NWORDS; i++)
r->w[i] = 0;
}
static void bigval_import_le(bigval *r, const void *vdata, int len)
{
const unsigned char *data = (const unsigned char *)vdata;
int i;
bigval_clear(r);
for (i = 0; i < len; i++)
r->w[i / BIGNUM_INT_BYTES] |=
(BignumInt)data[i] << (8 * (i % BIGNUM_INT_BYTES));
}
static void bigval_export_le(const bigval *r, void *vdata, int len)
{
unsigned char *data = (unsigned char *)vdata;
int i;
for (i = 0; i < len; i++)
data[i] = r->w[i / BIGNUM_INT_BYTES] >> (8 * (i % BIGNUM_INT_BYTES));
}
/*
* Core functions to do arithmetic mod p = 2^130-5. The whole
* collection of these, up to and including the surrounding #if, are
* generated automatically for various sizes of BignumInt by
* contrib/make1305.py.
*/
#if BIGNUM_INT_BITS == 16
static void bigval_add(bigval *r, const bigval *a, const bigval *b)
{
BignumInt v0, v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14;
BignumInt v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25, v26;
BignumCarry carry;
v0 = a->w[0];
v1 = a->w[1];
v2 = a->w[2];
v3 = a->w[3];
v4 = a->w[4];
v5 = a->w[5];
v6 = a->w[6];
v7 = a->w[7];
v8 = a->w[8];
v9 = b->w[0];
v10 = b->w[1];
v11 = b->w[2];
v12 = b->w[3];
v13 = b->w[4];
v14 = b->w[5];
v15 = b->w[6];
v16 = b->w[7];
v17 = b->w[8];
BignumADC(v18, carry, v0, v9, 0);
BignumADC(v19, carry, v1, v10, carry);
BignumADC(v20, carry, v2, v11, carry);
BignumADC(v21, carry, v3, v12, carry);
BignumADC(v22, carry, v4, v13, carry);
BignumADC(v23, carry, v5, v14, carry);
BignumADC(v24, carry, v6, v15, carry);
BignumADC(v25, carry, v7, v16, carry);
v26 = v8 + v17 + carry;
r->w[0] = v18;
r->w[1] = v19;
r->w[2] = v20;
r->w[3] = v21;
r->w[4] = v22;
r->w[5] = v23;
r->w[6] = v24;
r->w[7] = v25;
r->w[8] = v26;
}
static void bigval_mul_mod_p(bigval *r, const bigval *a, const bigval *b)
{
BignumInt v0, v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14;
BignumInt v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25, v26, v27;
BignumInt v28, v29, v30, v31, v32, v33, v34, v35, v36, v37, v38, v39, v40;
BignumInt v41, v42, v43, v44, v45, v46, v47, v48, v49, v50, v51, v52, v53;
BignumInt v54, v55, v56, v57, v58, v59, v60, v61, v62, v63, v64, v65, v66;
BignumInt v67, v68, v69, v70, v71, v72, v73, v74, v75, v76, v77, v78, v79;
BignumInt v80, v81, v82, v83, v84, v85, v86, v87, v88, v89, v90, v91, v92;
BignumInt v93, v94, v95, v96, v97, v98, v99, v100, v101, v102, v103, v104;
BignumInt v105, v106, v107, v108, v109, v110, v111, v112, v113, v114;
BignumInt v115, v116, v117, v118, v119, v120, v121, v122, v123, v124;
BignumInt v125, v126, v127, v128, v129, v130, v131, v132, v133, v134;
BignumInt v135, v136, v137, v138, v139, v140, v141, v142, v143, v144;
BignumInt v145, v146, v147, v148, v149, v150, v151, v152, v153, v154;
BignumInt v155, v156, v157, v158, v159, v160, v161, v162, v163, v164;
BignumInt v165, v166, v167, v168, v169, v170, v171, v172, v173, v174;
BignumInt v175, v176, v177, v178, v180, v181, v182, v183, v184, v185;
BignumInt v186, v187, v188, v189, v190, v191, v192, v193, v194, v195;
BignumInt v196, v197, v198, v199, v200, v201, v202, v203, v204, v205;
BignumInt v206, v207, v208, v210, v212, v213, v214, v215, v216, v217;
BignumInt v218, v219, v220, v221, v222, v223, v224, v225, v226, v227;
BignumInt v228, v229;
BignumCarry carry;
v0 = a->w[0];
v1 = a->w[1];
v2 = a->w[2];
v3 = a->w[3];
v4 = a->w[4];
v5 = a->w[5];
v6 = a->w[6];
v7 = a->w[7];
v8 = a->w[8];
v9 = b->w[0];
v10 = b->w[1];
v11 = b->w[2];
v12 = b->w[3];
v13 = b->w[4];
v14 = b->w[5];
v15 = b->w[6];
v16 = b->w[7];
v17 = b->w[8];
BignumMUL(v19, v18, v0, v9);
BignumMULADD(v21, v20, v0, v10, v19);
BignumMULADD(v23, v22, v0, v11, v21);
BignumMULADD(v25, v24, v0, v12, v23);
BignumMULADD(v27, v26, v0, v13, v25);
BignumMULADD(v29, v28, v0, v14, v27);
BignumMULADD(v31, v30, v0, v15, v29);
BignumMULADD(v33, v32, v0, v16, v31);
BignumMULADD(v35, v34, v0, v17, v33);
BignumMULADD(v37, v36, v1, v9, v20);
BignumMULADD2(v39, v38, v1, v10, v22, v37);
BignumMULADD2(v41, v40, v1, v11, v24, v39);
BignumMULADD2(v43, v42, v1, v12, v26, v41);
BignumMULADD2(v45, v44, v1, v13, v28, v43);
BignumMULADD2(v47, v46, v1, v14, v30, v45);
BignumMULADD2(v49, v48, v1, v15, v32, v47);
BignumMULADD2(v51, v50, v1, v16, v34, v49);
BignumMULADD2(v53, v52, v1, v17, v35, v51);
BignumMULADD(v55, v54, v2, v9, v38);
BignumMULADD2(v57, v56, v2, v10, v40, v55);
BignumMULADD2(v59, v58, v2, v11, v42, v57);
BignumMULADD2(v61, v60, v2, v12, v44, v59);
BignumMULADD2(v63, v62, v2, v13, v46, v61);
BignumMULADD2(v65, v64, v2, v14, v48, v63);
BignumMULADD2(v67, v66, v2, v15, v50, v65);
BignumMULADD2(v69, v68, v2, v16, v52, v67);
BignumMULADD2(v71, v70, v2, v17, v53, v69);
BignumMULADD(v73, v72, v3, v9, v56);
BignumMULADD2(v75, v74, v3, v10, v58, v73);
BignumMULADD2(v77, v76, v3, v11, v60, v75);
BignumMULADD2(v79, v78, v3, v12, v62, v77);
BignumMULADD2(v81, v80, v3, v13, v64, v79);
BignumMULADD2(v83, v82, v3, v14, v66, v81);
BignumMULADD2(v85, v84, v3, v15, v68, v83);
BignumMULADD2(v87, v86, v3, v16, v70, v85);
BignumMULADD2(v89, v88, v3, v17, v71, v87);
BignumMULADD(v91, v90, v4, v9, v74);
BignumMULADD2(v93, v92, v4, v10, v76, v91);
BignumMULADD2(v95, v94, v4, v11, v78, v93);
BignumMULADD2(v97, v96, v4, v12, v80, v95);
BignumMULADD2(v99, v98, v4, v13, v82, v97);
BignumMULADD2(v101, v100, v4, v14, v84, v99);
BignumMULADD2(v103, v102, v4, v15, v86, v101);
BignumMULADD2(v105, v104, v4, v16, v88, v103);
BignumMULADD2(v107, v106, v4, v17, v89, v105);
BignumMULADD(v109, v108, v5, v9, v92);
BignumMULADD2(v111, v110, v5, v10, v94, v109);
BignumMULADD2(v113, v112, v5, v11, v96, v111);
BignumMULADD2(v115, v114, v5, v12, v98, v113);
BignumMULADD2(v117, v116, v5, v13, v100, v115);
BignumMULADD2(v119, v118, v5, v14, v102, v117);
BignumMULADD2(v121, v120, v5, v15, v104, v119);
BignumMULADD2(v123, v122, v5, v16, v106, v121);
BignumMULADD2(v125, v124, v5, v17, v107, v123);
BignumMULADD(v127, v126, v6, v9, v110);
BignumMULADD2(v129, v128, v6, v10, v112, v127);
BignumMULADD2(v131, v130, v6, v11, v114, v129);
BignumMULADD2(v133, v132, v6, v12, v116, v131);
BignumMULADD2(v135, v134, v6, v13, v118, v133);
BignumMULADD2(v137, v136, v6, v14, v120, v135);
BignumMULADD2(v139, v138, v6, v15, v122, v137);
BignumMULADD2(v141, v140, v6, v16, v124, v139);
BignumMULADD2(v143, v142, v6, v17, v125, v141);
BignumMULADD(v145, v144, v7, v9, v128);
BignumMULADD2(v147, v146, v7, v10, v130, v145);
BignumMULADD2(v149, v148, v7, v11, v132, v147);
BignumMULADD2(v151, v150, v7, v12, v134, v149);
BignumMULADD2(v153, v152, v7, v13, v136, v151);
BignumMULADD2(v155, v154, v7, v14, v138, v153);
BignumMULADD2(v157, v156, v7, v15, v140, v155);
BignumMULADD2(v159, v158, v7, v16, v142, v157);
BignumMULADD2(v161, v160, v7, v17, v143, v159);
BignumMULADD(v163, v162, v8, v9, v146);
BignumMULADD2(v165, v164, v8, v10, v148, v163);
BignumMULADD2(v167, v166, v8, v11, v150, v165);
BignumMULADD2(v169, v168, v8, v12, v152, v167);
BignumMULADD2(v171, v170, v8, v13, v154, v169);
BignumMULADD2(v173, v172, v8, v14, v156, v171);
BignumMULADD2(v175, v174, v8, v15, v158, v173);
BignumMULADD2(v177, v176, v8, v16, v160, v175);
v178 = v8 * v17 + v161 + v177;
v180 = (v162) & ((((BignumInt)1) << 2)-1);
v181 = ((v162) >> 2) | ((v164) << 14);
v182 = ((v164) >> 2) | ((v166) << 14);
v183 = ((v166) >> 2) | ((v168) << 14);
v184 = ((v168) >> 2) | ((v170) << 14);
v185 = ((v170) >> 2) | ((v172) << 14);
v186 = ((v172) >> 2) | ((v174) << 14);
v187 = ((v174) >> 2) | ((v176) << 14);
v188 = ((v176) >> 2) | ((v178) << 14);
v189 = (v178) >> 2;
v190 = (v189) & ((((BignumInt)1) << 2)-1);
v191 = (v178) >> 4;
BignumMUL(v193, v192, 5, v181);
BignumMULADD(v195, v194, 5, v182, v193);
BignumMULADD(v197, v196, 5, v183, v195);
BignumMULADD(v199, v198, 5, v184, v197);
BignumMULADD(v201, v200, 5, v185, v199);
BignumMULADD(v203, v202, 5, v186, v201);
BignumMULADD(v205, v204, 5, v187, v203);
BignumMULADD(v207, v206, 5, v188, v205);
v208 = 5 * v190 + v207;
v210 = 25 * v191;
BignumADC(v212, carry, v18, v192, 0);
BignumADC(v213, carry, v36, v194, carry);
BignumADC(v214, carry, v54, v196, carry);
BignumADC(v215, carry, v72, v198, carry);
BignumADC(v216, carry, v90, v200, carry);
BignumADC(v217, carry, v108, v202, carry);
BignumADC(v218, carry, v126, v204, carry);
BignumADC(v219, carry, v144, v206, carry);
v220 = v180 + v208 + carry;
BignumADC(v221, carry, v212, v210, 0);
BignumADC(v222, carry, v213, 0, carry);
BignumADC(v223, carry, v214, 0, carry);
BignumADC(v224, carry, v215, 0, carry);
BignumADC(v225, carry, v216, 0, carry);
BignumADC(v226, carry, v217, 0, carry);
BignumADC(v227, carry, v218, 0, carry);
BignumADC(v228, carry, v219, 0, carry);
v229 = v220 + 0 + carry;
r->w[0] = v221;
r->w[1] = v222;
r->w[2] = v223;
r->w[3] = v224;
r->w[4] = v225;
r->w[5] = v226;
r->w[6] = v227;
r->w[7] = v228;
r->w[8] = v229;
}
static void bigval_final_reduce(bigval *n)
{
BignumInt v0, v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v12, v13, v14, v15;
BignumInt v16, v17, v18, v19, v20, v21, v22, v24, v25, v26, v27, v28, v29;
BignumInt v30, v31, v32, v33;
BignumCarry carry;
v0 = n->w[0];
v1 = n->w[1];
v2 = n->w[2];
v3 = n->w[3];
v4 = n->w[4];
v5 = n->w[5];
v6 = n->w[6];
v7 = n->w[7];
v8 = n->w[8];
v9 = (v8) >> 2;
v10 = 5 * v9;
BignumADC(v12, carry, v0, v10, 0);
(void)v12;
BignumADC(v13, carry, v1, 0, carry);
(void)v13;
BignumADC(v14, carry, v2, 0, carry);
(void)v14;
BignumADC(v15, carry, v3, 0, carry);
(void)v15;
BignumADC(v16, carry, v4, 0, carry);
(void)v16;
BignumADC(v17, carry, v5, 0, carry);
(void)v17;
BignumADC(v18, carry, v6, 0, carry);
(void)v18;
BignumADC(v19, carry, v7, 0, carry);
(void)v19;
v20 = v8 + 0 + carry;
v21 = (v20) >> 2;
v22 = 5 * v21;
BignumADC(v24, carry, v0, v22, 0);
BignumADC(v25, carry, v1, 0, carry);
BignumADC(v26, carry, v2, 0, carry);
BignumADC(v27, carry, v3, 0, carry);
BignumADC(v28, carry, v4, 0, carry);
BignumADC(v29, carry, v5, 0, carry);
BignumADC(v30, carry, v6, 0, carry);
BignumADC(v31, carry, v7, 0, carry);
v32 = v8 + 0 + carry;
v33 = (v32) & ((((BignumInt)1) << 2)-1);
n->w[0] = v24;
n->w[1] = v25;
n->w[2] = v26;
n->w[3] = v27;
n->w[4] = v28;
n->w[5] = v29;
n->w[6] = v30;
n->w[7] = v31;
n->w[8] = v33;
}
#elif BIGNUM_INT_BITS == 32
static void bigval_add(bigval *r, const bigval *a, const bigval *b)
{
BignumInt v0, v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14;
BignumCarry carry;
v0 = a->w[0];
v1 = a->w[1];
v2 = a->w[2];
v3 = a->w[3];
v4 = a->w[4];
v5 = b->w[0];
v6 = b->w[1];
v7 = b->w[2];
v8 = b->w[3];
v9 = b->w[4];
BignumADC(v10, carry, v0, v5, 0);
BignumADC(v11, carry, v1, v6, carry);
BignumADC(v12, carry, v2, v7, carry);
BignumADC(v13, carry, v3, v8, carry);
v14 = v4 + v9 + carry;
r->w[0] = v10;
r->w[1] = v11;
r->w[2] = v12;
r->w[3] = v13;
r->w[4] = v14;
}
static void bigval_mul_mod_p(bigval *r, const bigval *a, const bigval *b)
{
BignumInt v0, v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14;
BignumInt v15, v16, v17, v18, v19, v20, v21, v22, v23, v24, v25, v26, v27;
BignumInt v28, v29, v30, v31, v32, v33, v34, v35, v36, v37, v38, v39, v40;
BignumInt v41, v42, v43, v44, v45, v46, v47, v48, v49, v50, v51, v52, v53;
BignumInt v54, v55, v56, v57, v58, v60, v61, v62, v63, v64, v65, v66, v67;
BignumInt v68, v69, v70, v71, v72, v73, v74, v75, v76, v78, v80, v81, v82;
BignumInt v83, v84, v85, v86, v87, v88, v89;
BignumCarry carry;
v0 = a->w[0];
v1 = a->w[1];
v2 = a->w[2];
v3 = a->w[3];
v4 = a->w[4];
v5 = b->w[0];
v6 = b->w[1];
v7 = b->w[2];
v8 = b->w[3];
v9 = b->w[4];
BignumMUL(v11, v10, v0, v5);
BignumMULADD(v13, v12, v0, v6, v11);
BignumMULADD(v15, v14, v0, v7, v13);
BignumMULADD(v17, v16, v0, v8, v15);
BignumMULADD(v19, v18, v0, v9, v17);
BignumMULADD(v21, v20, v1, v5, v12);
BignumMULADD2(v23, v22, v1, v6, v14, v21);
BignumMULADD2(v25, v24, v1, v7, v16, v23);
BignumMULADD2(v27, v26, v1, v8, v18, v25);
BignumMULADD2(v29, v28, v1, v9, v19, v27);
BignumMULADD(v31, v30, v2, v5, v22);
BignumMULADD2(v33, v32, v2, v6, v24, v31);
BignumMULADD2(v35, v34, v2, v7, v26, v33);
BignumMULADD2(v37, v36, v2, v8, v28, v35);
BignumMULADD2(v39, v38, v2, v9, v29, v37);
BignumMULADD(v41, v40, v3, v5, v32);
BignumMULADD2(v43, v42, v3, v6, v34, v41);
BignumMULADD2(v45, v44, v3, v7, v36, v43);
BignumMULADD2(v47, v46, v3, v8, v38, v45);
BignumMULADD2(v49, v48, v3, v9, v39, v47);
BignumMULADD(v51, v50, v4, v5, v42);
BignumMULADD2(v53, v52, v4, v6, v44, v51);
BignumMULADD2(v55, v54, v4, v7, v46, v53);
BignumMULADD2(v57, v56, v4, v8, v48, v55);
v58 = v4 * v9 + v49 + v57;
v60 = (v50) & ((((BignumInt)1) << 2)-1);
v61 = ((v50) >> 2) | ((v52) << 30);
v62 = ((v52) >> 2) | ((v54) << 30);
v63 = ((v54) >> 2) | ((v56) << 30);
v64 = ((v56) >> 2) | ((v58) << 30);
v65 = (v58) >> 2;
v66 = (v65) & ((((BignumInt)1) << 2)-1);
v67 = (v58) >> 4;
BignumMUL(v69, v68, 5, v61);
BignumMULADD(v71, v70, 5, v62, v69);
BignumMULADD(v73, v72, 5, v63, v71);
BignumMULADD(v75, v74, 5, v64, v73);
v76 = 5 * v66 + v75;
v78 = 25 * v67;
BignumADC(v80, carry, v10, v68, 0);
BignumADC(v81, carry, v20, v70, carry);
BignumADC(v82, carry, v30, v72, carry);
BignumADC(v83, carry, v40, v74, carry);
v84 = v60 + v76 + carry;
BignumADC(v85, carry, v80, v78, 0);
BignumADC(v86, carry, v81, 0, carry);
BignumADC(v87, carry, v82, 0, carry);
BignumADC(v88, carry, v83, 0, carry);
v89 = v84 + 0 + carry;
r->w[0] = v85;
r->w[1] = v86;
r->w[2] = v87;
r->w[3] = v88;
r->w[4] = v89;
}
static void bigval_final_reduce(bigval *n)
{
BignumInt v0, v1, v2, v3, v4, v5, v6, v8, v9, v10, v11, v12, v13, v14;
BignumInt v16, v17, v18, v19, v20, v21;
BignumCarry carry;
v0 = n->w[0];
v1 = n->w[1];
v2 = n->w[2];
v3 = n->w[3];
v4 = n->w[4];
v5 = (v4) >> 2;
v6 = 5 * v5;
BignumADC(v8, carry, v0, v6, 0);
(void)v8;
BignumADC(v9, carry, v1, 0, carry);
(void)v9;
BignumADC(v10, carry, v2, 0, carry);
(void)v10;
BignumADC(v11, carry, v3, 0, carry);
(void)v11;
v12 = v4 + 0 + carry;
v13 = (v12) >> 2;
v14 = 5 * v13;
BignumADC(v16, carry, v0, v14, 0);
BignumADC(v17, carry, v1, 0, carry);
BignumADC(v18, carry, v2, 0, carry);
BignumADC(v19, carry, v3, 0, carry);
v20 = v4 + 0 + carry;
v21 = (v20) & ((((BignumInt)1) << 2)-1);
n->w[0] = v16;
n->w[1] = v17;
n->w[2] = v18;
n->w[3] = v19;
n->w[4] = v21;
}
#elif BIGNUM_INT_BITS == 64
static void bigval_add(bigval *r, const bigval *a, const bigval *b)
{
BignumInt v0, v1, v2, v3, v4, v5, v6, v7, v8;
BignumCarry carry;
v0 = a->w[0];
v1 = a->w[1];
v2 = a->w[2];
v3 = b->w[0];
v4 = b->w[1];
v5 = b->w[2];
BignumADC(v6, carry, v0, v3, 0);
BignumADC(v7, carry, v1, v4, carry);
v8 = v2 + v5 + carry;
r->w[0] = v6;
r->w[1] = v7;
r->w[2] = v8;
}
static void bigval_mul_mod_p(bigval *r, const bigval *a, const bigval *b)
{
BignumInt v0, v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, v14;
BignumInt v15, v16, v17, v18, v19, v20, v21, v22, v24, v25, v26, v27, v28;
BignumInt v29, v30, v31, v32, v33, v34, v36, v38, v39, v40, v41, v42, v43;
BignumCarry carry;
v0 = a->w[0];
v1 = a->w[1];
v2 = a->w[2];
v3 = b->w[0];
v4 = b->w[1];
v5 = b->w[2];
BignumMUL(v7, v6, v0, v3);
BignumMULADD(v9, v8, v0, v4, v7);
BignumMULADD(v11, v10, v0, v5, v9);
BignumMULADD(v13, v12, v1, v3, v8);
BignumMULADD2(v15, v14, v1, v4, v10, v13);
BignumMULADD2(v17, v16, v1, v5, v11, v15);
BignumMULADD(v19, v18, v2, v3, v14);
BignumMULADD2(v21, v20, v2, v4, v16, v19);
v22 = v2 * v5 + v17 + v21;
v24 = (v18) & ((((BignumInt)1) << 2)-1);
v25 = ((v18) >> 2) | ((v20) << 62);
v26 = ((v20) >> 2) | ((v22) << 62);
v27 = (v22) >> 2;
v28 = (v27) & ((((BignumInt)1) << 2)-1);
v29 = (v22) >> 4;
BignumMUL(v31, v30, 5, v25);
BignumMULADD(v33, v32, 5, v26, v31);
v34 = 5 * v28 + v33;
v36 = 25 * v29;
BignumADC(v38, carry, v6, v30, 0);
BignumADC(v39, carry, v12, v32, carry);
v40 = v24 + v34 + carry;
BignumADC(v41, carry, v38, v36, 0);
BignumADC(v42, carry, v39, 0, carry);
v43 = v40 + 0 + carry;
r->w[0] = v41;
r->w[1] = v42;
r->w[2] = v43;
}
static void bigval_final_reduce(bigval *n)
{
BignumInt v0, v1, v2, v3, v4, v6, v7, v8, v9, v10, v12, v13, v14, v15;
BignumCarry carry;
v0 = n->w[0];
v1 = n->w[1];
v2 = n->w[2];
v3 = (v2) >> 2;
v4 = 5 * v3;
BignumADC(v6, carry, v0, v4, 0);
(void)v6;
BignumADC(v7, carry, v1, 0, carry);
(void)v7;
v8 = v2 + 0 + carry;
v9 = (v8) >> 2;
v10 = 5 * v9;
BignumADC(v12, carry, v0, v10, 0);
BignumADC(v13, carry, v1, 0, carry);
v14 = v2 + 0 + carry;
v15 = (v14) & ((((BignumInt)1) << 2)-1);
n->w[0] = v12;
n->w[1] = v13;
n->w[2] = v15;
}
#else
#error Add another bit count to contrib/make1305.py and rerun it
#endif
struct poly1305 {
unsigned char nonce[16];
bigval r;
bigval h;
/* Buffer in case we get less that a multiple of 16 bytes */
unsigned char buffer[16];
int bufferIndex;
};
static void poly1305_init(struct poly1305 *ctx)
{
memset(ctx->nonce, 0, 16);
ctx->bufferIndex = 0;
bigval_clear(&ctx->h);
}
/* Takes a 256 bit key */
static void poly1305_key(struct poly1305 *ctx, const unsigned char *key)
{
unsigned char key_copy[16];
memcpy(key_copy, key, 16);
/* Key the MAC itself
* bytes 4, 8, 12 and 16 are required to have their top four bits clear */
key_copy[3] &= 0x0f;
key_copy[7] &= 0x0f;
key_copy[11] &= 0x0f;
key_copy[15] &= 0x0f;
/* bytes 5, 9 and 13 are required to have their bottom two bits clear */
key_copy[4] &= 0xfc;
key_copy[8] &= 0xfc;
key_copy[12] &= 0xfc;
bigval_import_le(&ctx->r, key_copy, 16);
smemclr(key_copy, sizeof(key_copy));
/* Use second 128 bits are the nonce */
memcpy(ctx->nonce, key+16, 16);
}
/* Feed up to 16 bytes (should only be less for the last chunk) */
static void poly1305_feed_chunk(struct poly1305 *ctx,
const unsigned char *chunk, int len)
{
bigval c;
bigval_import_le(&c, chunk, len);
c.w[len / BIGNUM_INT_BYTES] |=
(BignumInt)1 << (8 * (len % BIGNUM_INT_BYTES));
bigval_add(&c, &c, &ctx->h);
bigval_mul_mod_p(&ctx->h, &c, &ctx->r);
}
static void poly1305_feed(struct poly1305 *ctx,
const unsigned char *buf, int len)
{
/* Check for stuff left in the buffer from last time */
if (ctx->bufferIndex) {
/* Try to fill up to 16 */
while (ctx->bufferIndex < 16 && len) {
ctx->buffer[ctx->bufferIndex++] = *buf++;
--len;
}
if (ctx->bufferIndex == 16) {
poly1305_feed_chunk(ctx, ctx->buffer, 16);
ctx->bufferIndex = 0;
}
}
/* Process 16 byte whole chunks */
while (len >= 16) {
poly1305_feed_chunk(ctx, buf, 16);
len -= 16;
buf += 16;
}
/* Cache stuff that's left over */
if (len) {
memcpy(ctx->buffer, buf, len);
ctx->bufferIndex = len;
}
}
/* Finalise and populate buffer with 16 byte with MAC */
static void poly1305_finalise(struct poly1305 *ctx, unsigned char *mac)
{
bigval tmp;
if (ctx->bufferIndex) {
poly1305_feed_chunk(ctx, ctx->buffer, ctx->bufferIndex);
}
bigval_import_le(&tmp, ctx->nonce, 16);
bigval_final_reduce(&ctx->h);
bigval_add(&tmp, &tmp, &ctx->h);
bigval_export_le(&tmp, mac, 16);
}
/* SSH-2 wrapper */
struct ccp_context {
struct chacha20 a_cipher; /* Used for length */
struct chacha20 b_cipher; /* Used for content */
/* Cache of the first 4 bytes because they are the sequence number */
/* Kept in 8 bytes with the top as zero to allow easy passing to setiv */
int mac_initialised; /* Where we have got to in filling mac_iv */
unsigned char mac_iv[8];
struct poly1305 mac;
};
static void *poly_make_context(void *ctx)
{
return ctx;
}
static void poly_free_context(void *ctx)
{
/* Not allocated, just forwarded, no need to free */
}
static void poly_setkey(void *ctx, unsigned char *key)
{
/* Uses the same context as ChaCha20, so ignore */
}
static void poly_start(void *handle)
{
struct ccp_context *ctx = (struct ccp_context *)handle;
ctx->mac_initialised = 0;
memset(ctx->mac_iv, 0, 8);
poly1305_init(&ctx->mac);
}
static void poly_bytes(void *handle, unsigned char const *blk, int len)
{
struct ccp_context *ctx = (struct ccp_context *)handle;
/* First 4 bytes are the IV */
while (ctx->mac_initialised < 4 && len) {
ctx->mac_iv[7 - ctx->mac_initialised] = *blk++;
++ctx->mac_initialised;
--len;
}
/* Initialise the IV if needed */
if (ctx->mac_initialised == 4) {
chacha20_iv(&ctx->b_cipher, ctx->mac_iv);
++ctx->mac_initialised; /* Don't do it again */
/* Do first rotation */
chacha20_round(&ctx->b_cipher);
/* Set the poly key */
poly1305_key(&ctx->mac, ctx->b_cipher.current);
/* Set the first round as used */
ctx->b_cipher.currentIndex = 64;
}
/* Update the MAC with anything left */
if (len) {
poly1305_feed(&ctx->mac, blk, len);
}
}
static void poly_genresult(void *handle, unsigned char *blk)
{
struct ccp_context *ctx = (struct ccp_context *)handle;
poly1305_finalise(&ctx->mac, blk);
}
static int poly_verresult(void *handle, unsigned char const *blk)
{
struct ccp_context *ctx = (struct ccp_context *)handle;
int res;
unsigned char mac[16];
poly1305_finalise(&ctx->mac, mac);
res = smemeq(blk, mac, 16);
return res;
}
/* The generic poly operation used before generate and verify */
static void poly_op(void *handle, unsigned char *blk, int len, unsigned long seq)
{
unsigned char iv[4];
poly_start(handle);
PUT_32BIT_MSB_FIRST(iv, seq);
/* poly_bytes expects the first 4 bytes to be the IV */
poly_bytes(handle, iv, 4);
smemclr(iv, sizeof(iv));
poly_bytes(handle, blk, len);
}
static void poly_generate(void *handle, unsigned char *blk, int len, unsigned long seq)
{
poly_op(handle, blk, len, seq);
poly_genresult(handle, blk+len);
}
static int poly_verify(void *handle, unsigned char *blk, int len, unsigned long seq)
{
poly_op(handle, blk, len, seq);
return poly_verresult(handle, blk+len);
}
static const struct ssh_mac ssh2_poly1305 = {
poly_make_context, poly_free_context,
poly_setkey,
/* whole-packet operations */
poly_generate, poly_verify,
/* partial-packet operations */
poly_start, poly_bytes, poly_genresult, poly_verresult,
"", "", /* Not selectable individually, just part of ChaCha20-Poly1305 */
16, 0, "Poly1305"
};
static void *ccp_make_context(void)
{
struct ccp_context *ctx = snew(struct ccp_context);
if (ctx) {
poly1305_init(&ctx->mac);
}
return ctx;
}
static void ccp_free_context(void *vctx)
{
struct ccp_context *ctx = (struct ccp_context *)vctx;
smemclr(&ctx->a_cipher, sizeof(ctx->a_cipher));
smemclr(&ctx->b_cipher, sizeof(ctx->b_cipher));
smemclr(&ctx->mac, sizeof(ctx->mac));
sfree(ctx);
}
static void ccp_iv(void *vctx, unsigned char *iv)
{
/* struct ccp_context *ctx = (struct ccp_context *)vctx; */
/* IV is set based on the sequence number */
}
static void ccp_key(void *vctx, unsigned char *key)
{
struct ccp_context *ctx = (struct ccp_context *)vctx;
/* Initialise the a_cipher (for decrypting lengths) with the first 256 bits */
chacha20_key(&ctx->a_cipher, key + 32);
/* Initialise the b_cipher (for content and MAC) with the second 256 bits */
chacha20_key(&ctx->b_cipher, key);
}
static void ccp_encrypt(void *vctx, unsigned char *blk, int len)
{
struct ccp_context *ctx = (struct ccp_context *)vctx;
chacha20_encrypt(&ctx->b_cipher, blk, len);
}
static void ccp_decrypt(void *vctx, unsigned char *blk, int len)
{
struct ccp_context *ctx = (struct ccp_context *)vctx;
chacha20_decrypt(&ctx->b_cipher, blk, len);
}