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author | Paul Duncan <pabs@pablotron.org> | 2024-03-02 18:49:34 -0500 |
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committer | Paul Duncan <pabs@pablotron.org> | 2024-03-02 18:49:34 -0500 |
commit | 6ebba8424e2f4e4f662ef86cecf22b572c700018 (patch) | |
tree | 80919aba9e11e5c8c74983d9e4bd25ef1b2d9964 | |
parent | 7dc1029c2c79f65a716ff9e44f3ab7e402d426ce (diff) | |
download | sha3-6ebba8424e2f4e4f662ef86cecf22b572c700018.tar.bz2 sha3-6ebba8424e2f4e4f662ef86cecf22b572c700018.zip |
sha3.c: rename HASH_RATE() to RATE(), document RATE() and use it everywhere, improve comments
-rw-r--r-- | sha3.c | 105 |
1 files changed, 71 insertions, 34 deletions
@@ -513,39 +513,61 @@ static inline size_t absorb(sha3_state_t * const a, size_t num_bytes, const size return num_bytes; } -// get hash rate +// Get rate (number of bytes that can be absorbed before the internal +// state is permuted). // -// note: in hash functions, the capacity is always 2 times the -// destination length, and the rate is the total state size minus the -// capacity. -#define HASH_RATE(len) (200 - 2 * (len)) +// For hash functions, the capacity is always 2 times the output length +// of the hash, and the rate is the total state size (200 bytes) minus +// the capacity (FIPS 202, Section 5.2). +// +// XOFs do not have fixed-length output, but the capacity is 2 times the +// named strength, and the rate is the total state size (200 bytes) +// minus the capacity. +// +// The table below shows the output size, capacity, and rate for each +// FIPS 202 function. All values are in bytes. +// +// --------------------------------------- +// | Function | Output | Capacity | Rate | +// |----------|--------|----------|------| +// | SHA3-224 | 28 | 56 | 144 | +// | SHA3-256 | 32 | 64 | 136 | +// | SHA3-384 | 48 | 96 | 104 | +// | SHA3-512 | 64 | 136 | 72 | +// | SHAKE128 | n/a | 32 | 168 | +// | SHAKE256 | n/a | 64 | 136 | +// --------------------------------------- +// +#define RATE(len) (200 - 2 * (len)) // one-shot sha3 hash. static inline void hash_once(const uint8_t *m, size_t m_len, uint8_t * const dst, const size_t dst_len) { // init state sha3_state_t a = { .u64 = { 0 } }; - // absorb message - const size_t len = absorb(&a, 0, HASH_RATE(dst_len), SHA3_NUM_ROUNDS, m, m_len); + // absorb message, get new internal length + const size_t len = absorb(&a, 0, RATE(dst_len), SHA3_NUM_ROUNDS, m, m_len); // append suffix and padding // (note: suffix and padding are ambiguous in spec) a.u8[len] ^= 0x06; - a.u8[HASH_RATE(dst_len)-1] ^= 0x80; + a.u8[RATE(dst_len)-1] ^= 0x80; - // permute + // final permutation permute(a.u64, SHA3_NUM_ROUNDS); // copy to destination memcpy(dst, a.u8, dst_len); } -// Initialize iterative sha3 hash context. +// Initialize iterative hash context. static inline void hash_init(sha3_t * const hash) { memset(hash, 0, sizeof(sha3_t)); } -// Absorb input data into iterative SHA-3 hash context. +// Absorb data into iterative hash context. +// +// Returns `false` if the has context has already been finalized. static inline bool hash_absorb(sha3_t * const hash, const size_t rate, const uint8_t *src, size_t len) { if (hash->finalized) { // hash already finalized, return false @@ -557,7 +579,9 @@ static inline bool hash_absorb(sha3_t * const hash, const size_t rate, const uin return true; } -// Finalize iterative SHA-3 hash context. +// Finalize iterative hash context. +// +// May be called more than once without affecting the final hash value. static inline void hash_final(sha3_t * const hash, const size_t rate, uint8_t * dst, const size_t dst_len) { if (!hash->finalized) { // mark context as final @@ -590,15 +614,15 @@ static inline void hash_final(sha3_t * const hash, const size_t rate, uint8_t * \ /* Absorb data into SHA3 iterative hash context. */ \ _Bool sha3_ ## BITS ## _absorb(sha3_t * const hash, const uint8_t *src, const size_t len) { \ - return hash_absorb(hash, HASH_RATE(OUT_LEN), src, len); \ + return hash_absorb(hash, RATE(OUT_LEN), src, len); \ } \ \ /* Finalize SHA3 iterative hash context. */ \ void sha3_ ## BITS ## _final(sha3_t * const hash, uint8_t dst[static OUT_LEN]) { \ - hash_final(hash, HASH_RATE(OUT_LEN), dst, OUT_LEN); \ + hash_final(hash, RATE(OUT_LEN), dst, OUT_LEN); \ } -// define hashes +// declare hash functions DEF_HASH(224, 28) // sha3-224 DEF_HASH(256, 32) // sha3-256 DEF_HASH(384, 48) // sha3-384 @@ -609,17 +633,19 @@ static inline void xof_init(sha3_xof_t * const xof) { memset(xof, 0, sizeof(sha3_xof_t)); } -// absorb message into xof context without checking to see if the +// Absorb data into XOF context without checking to see if the // context has already been squeezed. // -// called by `xof_absorb()` and `xof_once()`. +// Called by `xof_absorb()` and `xof_once()`. static inline void xof_absorb_raw(sha3_xof_t * const xof, const size_t rate, const size_t num_rounds, const uint8_t *m, size_t m_len) { xof->num_bytes = absorb(&(xof->a), xof->num_bytes, rate, num_rounds, m, m_len); } -// check state, absorb bytes +// Absorb data into XOF context. +// +// Returns `false` if this context has already been squeezed. static inline _Bool xof_absorb(sha3_xof_t * const xof, const size_t rate, const size_t num_rounds, const uint8_t * const m, size_t m_len) { - // check state + // check context state if (xof->squeezing) { // xof has already been squeezed, return error return false; @@ -630,7 +656,7 @@ static inline _Bool xof_absorb(sha3_xof_t * const xof, const size_t rate, const return true; } -// finalize absorb +// Finalize absorb, switch mode of XOF context to squeezing. static inline void xof_absorb_done(sha3_xof_t * const xof, const size_t rate, const size_t num_rounds, const uint8_t pad) { // append suffix (s6.2) and padding // (note: suffix and padding are ambiguous in spec) @@ -645,7 +671,7 @@ static inline void xof_absorb_done(sha3_xof_t * const xof, const size_t rate, co xof->squeezing = true; } -// squeeze data without checking state (used by xof_once()) +// Squeeze data without checking mode (used by `xof_once()`). static inline void xof_squeeze_raw(sha3_xof_t * const xof, const size_t rate, const size_t num_rounds, uint8_t *dst, size_t dst_len) { if (!xof->num_bytes) { // num_bytes is zero, so we are reading from the start of the @@ -735,10 +761,10 @@ static inline void xof_once(const size_t rate, const size_t num_rounds, const ui // shake padding byte and rates #define SHAKE_PAD 0x1f -#define SHAKE128_RATE (200 - 2 * 16) // shake128 input rate, in bytes -#define SHAKE256_RATE (200 - 2 * 32) // shake256 input rate, in bytes +#define SHAKE128_RATE RATE(16) // shake128 input rate, in bytes +#define SHAKE256_RATE RATE(32) // shake256 input rate, in bytes -// define shake xofs +// declare shake functions DEF_SHAKE(128) // shake128_{init,absorb,squeeze}() DEF_SHAKE(256) // shake256_{init,absorb,squeeze}() @@ -750,7 +776,7 @@ DEF_SHAKE(256) // shake256_{init,absorb,squeeze}() hmac->finalized = false; \ \ /* init key buffer */ \ - uint8_t k_buf[HASH_RATE(OUT_LEN)] = { 0 }; \ + uint8_t k_buf[RATE(OUT_LEN)] = { 0 }; \ if (k_len <= sizeof(k_buf)) { \ memcpy(k_buf, k, k_len); \ } else { \ @@ -758,7 +784,7 @@ DEF_SHAKE(256) // shake256_{init,absorb,squeeze}() } \ \ /* apply opad */ \ - for (size_t i = 0; i < HASH_RATE(OUT_LEN); i++) { \ + for (size_t i = 0; i < RATE(OUT_LEN); i++) { \ k_buf[i] ^= 0x5c; \ } \ \ @@ -767,7 +793,7 @@ DEF_SHAKE(256) // shake256_{init,absorb,squeeze}() sha3_ ## BITS ## _absorb(&(hmac->outer), k_buf, sizeof(k_buf)); \ \ /* remove opad, apply ipad */ \ - for (size_t i = 0; i < HASH_RATE(OUT_LEN); i++) { \ + for (size_t i = 0; i < RATE(OUT_LEN); i++) { \ k_buf[i] ^= (0x5c ^ 0x36); \ } \ \ @@ -807,7 +833,7 @@ DEF_SHAKE(256) // shake256_{init,absorb,squeeze}() hmac_sha3_## BITS ##_final(&hmac, dst); \ } -// define hmacs +// declare hmac-sha3 functions DEF_HMAC(224, 28) // hmac-sha3-224 DEF_HMAC(256, 32) // hmac-sha3-224 DEF_HMAC(384, 48) // hmac-sha3-224 @@ -1125,6 +1151,7 @@ static inline bytepad_t bytepad(const size_t data_len, const size_t width) { cshake ## BITS ## _xof_squeeze(&xof, dst, dst_len); \ } +// declare cshake functions DEF_CSHAKE(128) // cshake128 DEF_CSHAKE(256) // cshake256 @@ -1249,10 +1276,11 @@ DEF_CSHAKE(256) // cshake256 kmac ## BITS ## _xof_squeeze(&xof, dst, dst_len); \ } -// define kmacs +// declare kmac functions DEF_KMAC(128) // kmac128 DEF_KMAC(256) // kmac256 +// define tuplehash and tuplehash-xof functions #define DEF_TUPLEHASH(BITS) \ /* init tuplehash context */ \ static inline void tuplehash ## BITS ## _init(sha3_xof_t * const xof, const tuplehash_params_t params, const size_t dst_len) { \ @@ -1321,10 +1349,13 @@ DEF_KMAC(256) // kmac256 cshake ## BITS ## _xof_squeeze(&xof, dst, dst_len); \ } +// declare tuplehash functions DEF_TUPLEHASH(128) // tuplehash128, tuplehash128-xof DEF_TUPLEHASH(256) // tuplehash256, tuplehash256-xof +// define parallelhash and parallelhash-xof functions #define DEF_PARALLELHASH(BITS) \ + /* emit block for current xof into root xof */ \ static inline void parallelhash ## BITS ## _emit_block(parallelhash_t * const hash) { \ /* squeeze curr xof, absorb into root xof */ \ uint8_t buf[BITS / 4]; /* ph128: 32, ph256: 64 */ \ @@ -1335,16 +1366,18 @@ DEF_TUPLEHASH(256) // tuplehash256, tuplehash256-xof hash->num_blocks++; \ } \ \ + /* reset context for current internal xof */ \ static inline void parallelhash ## BITS ## _reset_curr_xof(parallelhash_t *hash) { \ /* init curr xof */ \ shake ## BITS ## _init(&(hash->curr_xof)); \ hash->ofs = 0; \ } \ \ + /* init parallelhash context */ \ static inline void parallelhash ## BITS ## _init(parallelhash_t *hash, const parallelhash_params_t params) { \ static const uint8_t NAME[] = { 'P', 'a', 'r', 'a', 'l', 'l', 'e', 'l', 'H', 'a', 's', 'h' }; \ \ - /* build root xof cshake ## BITS ## params */ \ + /* build root xof cshake params */ \ const cshake_params_t root_cshake_params = { \ .name = NAME, \ .name_len = sizeof(NAME), \ @@ -1371,6 +1404,7 @@ DEF_TUPLEHASH(256) // tuplehash256, tuplehash256-xof parallelhash ## BITS ## _reset_curr_xof(hash); \ } \ \ + /* absorb data into parallelhash context */ \ static inline void parallelhash ## BITS ## _absorb(parallelhash_t * const hash, const uint8_t *msg, size_t msg_len) { \ while (msg_len > 0) { \ const size_t len = MIN(msg_len, hash->block_len - hash->ofs); \ @@ -1387,6 +1421,7 @@ DEF_TUPLEHASH(256) // tuplehash256, tuplehash256-xof } \ } \ \ + /* squeeze data from parallelhash context */ \ static inline void parallelhash ## BITS ## _squeeze(parallelhash_t * const hash, uint8_t * const dst, const size_t dst_len) { \ if (!hash->squeezing) { \ /* mark as squeezing */ \ @@ -1434,17 +1469,17 @@ DEF_TUPLEHASH(256) // tuplehash256, tuplehash256-xof parallelhash ## BITS ## _squeeze(&hash, dst, dst_len); \ } \ \ - /* init parallelhash xof context */ \ + /* init parallelhash-xof context */ \ void parallelhash ## BITS ## _xof_init(parallelhash_t *hash, const parallelhash_params_t params) { \ parallelhash ## BITS ## _init(hash, params); \ } \ \ - /* absorb data into parallelhash xof context */ \ + /* absorb data into parallelhash-xof context */ \ void parallelhash ## BITS ## _xof_absorb(parallelhash_t *hash, const uint8_t *msg, const size_t msg_len) { \ parallelhash ## BITS ## _absorb(hash, msg, msg_len); \ } \ \ - /* squeeze data from parallelhash xof context */ \ + /* squeeze data from parallelhash-xof context */ \ void parallelhash ## BITS ## _xof_squeeze(parallelhash_t *hash, uint8_t *dst, const size_t dst_len) { \ if (!hash->squeezing) { \ /* emit zero length */ \ @@ -1467,6 +1502,7 @@ DEF_TUPLEHASH(256) // tuplehash256, tuplehash256-xof parallelhash ## BITS ## _xof_squeeze(&hash, dst, dst_len); \ } +// declare parallelhash functions DEF_PARALLELHASH(128) // parallelhash128, parallehash128-xof DEF_PARALLELHASH(256) // parallelhash256, parallehash256-xof @@ -1493,6 +1529,7 @@ static inline _Bool turboshake_init(turboshake_t * const ts, const uint8_t pad) return true; } +// define turboshake functions #define DEF_TURBOSHAKE(BITS) \ /* init turboshake context with custom pad byte. returns false if the */ \ /* pad byte is out of range. */ \ @@ -1525,7 +1562,7 @@ static inline _Bool turboshake_init(turboshake_t * const ts, const uint8_t pad) xof_once(SHAKE ## BITS ## _RATE, TURBOSHAKE_NUM_ROUNDS, pad, src, src_len, dst, dst_len); \ } -// define turboshakes +// declare turboshake functions DEF_TURBOSHAKE(128) // turboshake128 DEF_TURBOSHAKE(256) // turboshake128 |