#define hydro_kx_AEAD_KEYBYTES hydro_hash_KEYBYTES #define hydro_kx_AEAD_MACBYTES 16 #define hydro_kx_CONTEXT "hydro_kx" static void hydro_kx_aead_init(uint8_t aead_state[gimli_BLOCKBYTES], uint8_t k[hydro_kx_AEAD_KEYBYTES], hydro_kx_state *state) { static const uint8_t prefix[] = { 6, 'k', 'x', 'x', '2', '5', '6', 0 }; hydro_hash_final(&state->h_st, k, hydro_kx_AEAD_KEYBYTES); mem_zero(aead_state + sizeof prefix, gimli_BLOCKBYTES - sizeof prefix); memcpy(aead_state, prefix, sizeof prefix); gimli_core_u8(aead_state, gimli_TAG_HEADER); COMPILER_ASSERT(hydro_kx_AEAD_KEYBYTES == 2 * gimli_RATE); mem_xor(aead_state, k, gimli_RATE); gimli_core_u8(aead_state, gimli_TAG_KEY); mem_xor(aead_state, k + gimli_RATE, gimli_RATE); gimli_core_u8(aead_state, gimli_TAG_KEY); } static void hydro_kx_aead_final(uint8_t *aead_state, const uint8_t key[hydro_kx_AEAD_KEYBYTES]) { COMPILER_ASSERT(hydro_kx_AEAD_KEYBYTES == gimli_CAPACITY); mem_xor(aead_state + gimli_RATE, key, hydro_kx_AEAD_KEYBYTES); gimli_core_u8(aead_state, gimli_TAG_FINAL); mem_xor(aead_state + gimli_RATE, key, hydro_kx_AEAD_KEYBYTES); gimli_core_u8(aead_state, gimli_TAG_FINAL); } static void hydro_kx_aead_xor_enc(uint8_t aead_state[gimli_BLOCKBYTES], uint8_t *out, const uint8_t *in, size_t inlen) { size_t i; size_t leftover; for (i = 0; i < inlen / gimli_RATE; i++) { mem_xor2(&out[i * gimli_RATE], &in[i * gimli_RATE], aead_state, gimli_RATE); memcpy(aead_state, &out[i * gimli_RATE], gimli_RATE); gimli_core_u8(aead_state, gimli_TAG_PAYLOAD); } leftover = inlen % gimli_RATE; if (leftover != 0) { mem_xor2(&out[i * gimli_RATE], &in[i * gimli_RATE], aead_state, leftover); mem_cpy(aead_state, &out[i * gimli_RATE], leftover); } gimli_pad_u8(aead_state, leftover, gimli_DOMAIN_AEAD); gimli_core_u8(aead_state, gimli_TAG_PAYLOAD); } static void hydro_kx_aead_xor_dec(uint8_t aead_state[gimli_BLOCKBYTES], uint8_t *out, const uint8_t *in, size_t inlen) { size_t i; size_t leftover; for (i = 0; i < inlen / gimli_RATE; i++) { mem_xor2(&out[i * gimli_RATE], &in[i * gimli_RATE], aead_state, gimli_RATE); memcpy(aead_state, &in[i * gimli_RATE], gimli_RATE); gimli_core_u8(aead_state, gimli_TAG_PAYLOAD); } leftover = inlen % gimli_RATE; if (leftover != 0) { mem_xor2(&out[i * gimli_RATE], &in[i * gimli_RATE], aead_state, leftover); mem_cpy(aead_state, &in[i * gimli_RATE], leftover); } gimli_pad_u8(aead_state, leftover, gimli_DOMAIN_AEAD); gimli_core_u8(aead_state, gimli_TAG_PAYLOAD); } static void hydro_kx_aead_encrypt(hydro_kx_state *state, uint8_t *c, const uint8_t *m, size_t mlen) { _hydro_attr_aligned_(16) uint8_t aead_state[gimli_BLOCKBYTES]; uint8_t k[hydro_kx_AEAD_KEYBYTES]; uint8_t * mac = &c[0]; uint8_t * ct = &c[hydro_kx_AEAD_MACBYTES]; hydro_kx_aead_init(aead_state, k, state); hydro_kx_aead_xor_enc(aead_state, ct, m, mlen); hydro_kx_aead_final(aead_state, k); COMPILER_ASSERT(hydro_kx_AEAD_MACBYTES <= gimli_CAPACITY); memcpy(mac, aead_state + gimli_RATE, hydro_kx_AEAD_MACBYTES); hydro_hash_update(&state->h_st, c, mlen + hydro_kx_AEAD_MACBYTES); } static int hydro_kx_aead_decrypt(hydro_kx_state *state, uint8_t *m, const uint8_t *c, size_t clen) _hydro_attr_warn_unused_result_; static int hydro_kx_aead_decrypt(hydro_kx_state *state, uint8_t *m, const uint8_t *c, size_t clen) { _hydro_attr_aligned_(16) uint32_t int_state[gimli_BLOCKBYTES / 4]; uint32_t pub_mac[hydro_kx_AEAD_MACBYTES / 4]; uint8_t k[hydro_kx_AEAD_KEYBYTES]; uint8_t * aead_state = (uint8_t *) (void *) int_state; const uint8_t * mac; const uint8_t * ct; size_t mlen; uint32_t cv; if (clen < hydro_kx_AEAD_MACBYTES) { return -1; } mac = &c[0]; ct = &c[hydro_kx_AEAD_MACBYTES]; mlen = clen - hydro_kx_AEAD_MACBYTES; memcpy(pub_mac, mac, sizeof pub_mac); hydro_kx_aead_init(aead_state, k, state); hydro_hash_update(&state->h_st, c, clen); hydro_kx_aead_xor_dec(aead_state, m, ct, mlen); hydro_kx_aead_final(aead_state, k); COMPILER_ASSERT(hydro_kx_AEAD_MACBYTES <= gimli_CAPACITY); COMPILER_ASSERT(gimli_RATE % 4 == 0); cv = hydro_mem_ct_cmp_u32(int_state + gimli_RATE / 4, pub_mac, hydro_kx_AEAD_MACBYTES / 4); hydro_mem_ct_zero_u32(int_state, gimli_BLOCKBYTES / 4); if (cv != 0) { mem_zero(m, mlen); return -1; } return 0; } /* -- */ void hydro_kx_keygen(hydro_kx_keypair *static_kp) { hydro_random_buf(static_kp->sk, hydro_kx_SECRETKEYBYTES); if (hydro_x25519_scalarmult_base(static_kp->pk, static_kp->sk) != 0) { abort(); } } void hydro_kx_keygen_deterministic(hydro_kx_keypair *static_kp, const uint8_t seed[hydro_kx_SEEDBYTES]) { COMPILER_ASSERT(hydro_kx_SEEDBYTES >= hydro_random_SEEDBYTES); hydro_random_buf_deterministic(static_kp->sk, hydro_kx_SECRETKEYBYTES, seed); if (hydro_x25519_scalarmult_base(static_kp->pk, static_kp->sk) != 0) { abort(); } } static void hydro_kx_init_state(hydro_kx_state *state, const char *name) { mem_zero(state, sizeof *state); hydro_hash_init(&state->h_st, hydro_kx_CONTEXT, NULL); hydro_hash_update(&state->h_st, name, strlen(name)); hydro_hash_final(&state->h_st, NULL, 0); } static void hydro_kx_final(hydro_kx_state *state, uint8_t session_k1[hydro_kx_SESSIONKEYBYTES], uint8_t session_k2[hydro_kx_SESSIONKEYBYTES]) { uint8_t kdf_key[hydro_kdf_KEYBYTES]; hydro_hash_final(&state->h_st, kdf_key, sizeof kdf_key); hydro_kdf_derive_from_key(session_k1, hydro_kx_SESSIONKEYBYTES, 0, hydro_kx_CONTEXT, kdf_key); hydro_kdf_derive_from_key(session_k2, hydro_kx_SESSIONKEYBYTES, 1, hydro_kx_CONTEXT, kdf_key); } static int hydro_kx_dh(hydro_kx_state *state, const uint8_t sk[hydro_x25519_SECRETKEYBYTES], const uint8_t pk[hydro_x25519_PUBLICKEYBYTES]) { uint8_t dh_result[hydro_x25519_BYTES]; if (hydro_x25519_scalarmult(dh_result, sk, pk, 1) != 0) { return -1; } hydro_hash_update(&state->h_st, dh_result, hydro_x25519_BYTES); return 0; } static void hydro_kx_eph_keygen(hydro_kx_state *state, hydro_kx_keypair *kp) { hydro_kx_keygen(kp); hydro_hash_update(&state->h_st, kp->pk, sizeof kp->pk); } /* NOISE_N */ int hydro_kx_n_1(hydro_kx_session_keypair *kp, uint8_t packet1[hydro_kx_N_PACKET1BYTES], const uint8_t psk[hydro_kx_PSKBYTES], const uint8_t peer_static_pk[hydro_kx_PUBLICKEYBYTES]) { hydro_kx_state state; uint8_t * packet1_eph_pk = &packet1[0]; uint8_t * packet1_mac = &packet1[hydro_kx_PUBLICKEYBYTES]; if (psk == NULL) { psk = zero; } hydro_kx_init_state(&state, "Noise_Npsk0_hydro1"); hydro_hash_update(&state.h_st, peer_static_pk, hydro_x25519_PUBLICKEYBYTES); hydro_hash_update(&state.h_st, psk, hydro_kx_PSKBYTES); hydro_kx_eph_keygen(&state, &state.eph_kp); if (hydro_kx_dh(&state, state.eph_kp.sk, peer_static_pk) != 0) { return -1; } hydro_kx_aead_encrypt(&state, packet1_mac, NULL, 0); memcpy(packet1_eph_pk, state.eph_kp.pk, sizeof state.eph_kp.pk); hydro_kx_final(&state, kp->rx, kp->tx); return 0; } int hydro_kx_n_2(hydro_kx_session_keypair *kp, const uint8_t packet1[hydro_kx_N_PACKET1BYTES], const uint8_t psk[hydro_kx_PSKBYTES], const hydro_kx_keypair *static_kp) { hydro_kx_state state; const uint8_t *peer_eph_pk = &packet1[0]; const uint8_t *packet1_mac = &packet1[hydro_kx_PUBLICKEYBYTES]; if (psk == NULL) { psk = zero; } hydro_kx_init_state(&state, "Noise_Npsk0_hydro1"); hydro_hash_update(&state.h_st, static_kp->pk, hydro_kx_PUBLICKEYBYTES); hydro_hash_update(&state.h_st, psk, hydro_kx_PSKBYTES); hydro_hash_update(&state.h_st, peer_eph_pk, hydro_x25519_PUBLICKEYBYTES); if (hydro_kx_dh(&state, static_kp->sk, peer_eph_pk) != 0 || hydro_kx_aead_decrypt(&state, NULL, packet1_mac, hydro_kx_AEAD_MACBYTES) != 0) { return -1; } hydro_kx_final(&state, kp->tx, kp->rx); return 0; } /* NOISE_KK */ int hydro_kx_kk_1(hydro_kx_state *state, uint8_t packet1[hydro_kx_KK_PACKET1BYTES], const uint8_t peer_static_pk[hydro_kx_PUBLICKEYBYTES], const hydro_kx_keypair *static_kp) { uint8_t *packet1_eph_pk = &packet1[0]; uint8_t *packet1_mac = &packet1[hydro_kx_PUBLICKEYBYTES]; hydro_kx_init_state(state, "Noise_KK_hydro1"); hydro_hash_update(&state->h_st, static_kp->pk, hydro_kx_PUBLICKEYBYTES); hydro_hash_update(&state->h_st, peer_static_pk, hydro_kx_PUBLICKEYBYTES); hydro_kx_eph_keygen(state, &state->eph_kp); if (hydro_kx_dh(state, state->eph_kp.sk, peer_static_pk) != 0 || hydro_kx_dh(state, static_kp->sk, peer_static_pk) != 0) { return -1; } hydro_kx_aead_encrypt(state, packet1_mac, NULL, 0); memcpy(packet1_eph_pk, state->eph_kp.pk, sizeof state->eph_kp.pk); return 0; } int hydro_kx_kk_2(hydro_kx_session_keypair *kp, uint8_t packet2[hydro_kx_KK_PACKET2BYTES], const uint8_t packet1[hydro_kx_KK_PACKET1BYTES], const uint8_t peer_static_pk[hydro_kx_PUBLICKEYBYTES], const hydro_kx_keypair *static_kp) { hydro_kx_state state; const uint8_t *peer_eph_pk = &packet1[0]; const uint8_t *packet1_mac = &packet1[hydro_kx_PUBLICKEYBYTES]; uint8_t * packet2_eph_pk = &packet2[0]; uint8_t * packet2_mac = &packet2[hydro_kx_PUBLICKEYBYTES]; hydro_kx_init_state(&state, "Noise_KK_hydro1"); hydro_hash_update(&state.h_st, peer_static_pk, hydro_kx_PUBLICKEYBYTES); hydro_hash_update(&state.h_st, static_kp->pk, hydro_kx_PUBLICKEYBYTES); hydro_hash_update(&state.h_st, peer_eph_pk, hydro_kx_PUBLICKEYBYTES); if (hydro_kx_dh(&state, static_kp->sk, peer_eph_pk) != 0 || hydro_kx_dh(&state, static_kp->sk, peer_static_pk) != 0 || hydro_kx_aead_decrypt(&state, NULL, packet1_mac, hydro_kx_AEAD_MACBYTES) != 0) { return -1; } hydro_kx_eph_keygen(&state, &state.eph_kp); if (hydro_kx_dh(&state, state.eph_kp.sk, peer_eph_pk) != 0 || hydro_kx_dh(&state, state.eph_kp.sk, peer_static_pk) != 0) { return -1; } hydro_kx_aead_encrypt(&state, packet2_mac, NULL, 0); hydro_kx_final(&state, kp->tx, kp->rx); memcpy(packet2_eph_pk, state.eph_kp.pk, sizeof state.eph_kp.pk); return 0; } int hydro_kx_kk_3(hydro_kx_state *state, hydro_kx_session_keypair *kp, const uint8_t packet2[hydro_kx_KK_PACKET2BYTES], const hydro_kx_keypair *static_kp) { const uint8_t *peer_eph_pk = packet2; const uint8_t *packet2_mac = &packet2[hydro_kx_PUBLICKEYBYTES]; hydro_hash_update(&state->h_st, peer_eph_pk, hydro_kx_PUBLICKEYBYTES); if (hydro_kx_dh(state, state->eph_kp.sk, peer_eph_pk) != 0 || hydro_kx_dh(state, static_kp->sk, peer_eph_pk) != 0) { return -1; } if (hydro_kx_aead_decrypt(state, NULL, packet2_mac, hydro_kx_AEAD_MACBYTES) != 0) { return -1; } hydro_kx_final(state, kp->rx, kp->tx); return 0; } /* NOISE_XX */ int hydro_kx_xx_1(hydro_kx_state *state, uint8_t packet1[hydro_kx_XX_PACKET1BYTES], const uint8_t psk[hydro_kx_PSKBYTES]) { uint8_t *packet1_eph_pk = &packet1[0]; uint8_t *packet1_mac = &packet1[hydro_kx_PUBLICKEYBYTES]; if (psk == NULL) { psk = zero; } hydro_kx_init_state(state, "Noise_XXpsk0+psk3_hydro1"); hydro_kx_eph_keygen(state, &state->eph_kp); hydro_hash_update(&state->h_st, psk, hydro_kx_PSKBYTES); memcpy(packet1_eph_pk, state->eph_kp.pk, sizeof state->eph_kp.pk); hydro_kx_aead_encrypt(state, packet1_mac, NULL, 0); return 0; } int hydro_kx_xx_2(hydro_kx_state *state, uint8_t packet2[hydro_kx_XX_PACKET2BYTES], const uint8_t packet1[hydro_kx_XX_PACKET1BYTES], const uint8_t psk[hydro_kx_PSKBYTES], const hydro_kx_keypair *static_kp) { const uint8_t *peer_eph_pk = &packet1[0]; const uint8_t *packet1_mac = &packet1[hydro_kx_PUBLICKEYBYTES]; uint8_t * packet2_eph_pk = &packet2[0]; uint8_t * packet2_enc_static_pk = &packet2[hydro_kx_PUBLICKEYBYTES]; uint8_t * packet2_mac = &packet2[hydro_kx_PUBLICKEYBYTES + hydro_kx_PUBLICKEYBYTES + hydro_kx_AEAD_MACBYTES]; if (psk == NULL) { psk = zero; } hydro_kx_init_state(state, "Noise_XXpsk0+psk3_hydro1"); hydro_hash_update(&state->h_st, peer_eph_pk, hydro_kx_PUBLICKEYBYTES); hydro_hash_update(&state->h_st, psk, hydro_kx_PSKBYTES); if (hydro_kx_aead_decrypt(state, NULL, packet1_mac, hydro_kx_AEAD_MACBYTES) != 0) { return -1; } hydro_kx_eph_keygen(state, &state->eph_kp); if (hydro_kx_dh(state, state->eph_kp.sk, peer_eph_pk) != 0) { return -1; } hydro_kx_aead_encrypt(state, packet2_enc_static_pk, static_kp->pk, sizeof static_kp->pk); if (hydro_kx_dh(state, static_kp->sk, peer_eph_pk) != 0) { return -1; } hydro_kx_aead_encrypt(state, packet2_mac, NULL, 0); memcpy(packet2_eph_pk, state->eph_kp.pk, sizeof state->eph_kp.pk); return 0; } int hydro_kx_xx_3(hydro_kx_state *state, hydro_kx_session_keypair *kp, uint8_t packet3[hydro_kx_XX_PACKET3BYTES], uint8_t peer_static_pk[hydro_kx_PUBLICKEYBYTES], const uint8_t packet2[hydro_kx_XX_PACKET2BYTES], const uint8_t psk[hydro_kx_PSKBYTES], const hydro_kx_keypair *static_kp) { uint8_t peer_static_pk_[hydro_kx_PUBLICKEYBYTES]; const uint8_t *peer_eph_pk = &packet2[0]; const uint8_t *peer_enc_static_pk = &packet2[hydro_kx_PUBLICKEYBYTES]; const uint8_t *packet2_mac = &packet2[hydro_kx_PUBLICKEYBYTES + hydro_kx_PUBLICKEYBYTES + hydro_kx_AEAD_MACBYTES]; uint8_t *packet3_enc_static_pk = &packet3[0]; uint8_t *packet3_mac = &packet3[hydro_kx_PUBLICKEYBYTES + hydro_kx_AEAD_MACBYTES]; if (psk == NULL) { psk = zero; } if (peer_static_pk == NULL) { peer_static_pk = peer_static_pk_; } hydro_hash_update(&state->h_st, peer_eph_pk, hydro_kx_PUBLICKEYBYTES); if (hydro_kx_dh(state, state->eph_kp.sk, peer_eph_pk) != 0 || hydro_kx_aead_decrypt(state, peer_static_pk, peer_enc_static_pk, hydro_kx_PUBLICKEYBYTES + hydro_kx_AEAD_MACBYTES) != 0 || hydro_kx_dh(state, state->eph_kp.sk, peer_static_pk) != 0 || hydro_kx_aead_decrypt(state, NULL, packet2_mac, hydro_kx_AEAD_MACBYTES) != 0) { return -1; } hydro_kx_aead_encrypt(state, packet3_enc_static_pk, static_kp->pk, sizeof static_kp->pk); if (hydro_kx_dh(state, static_kp->sk, peer_eph_pk) != 0) { return -1; } hydro_hash_update(&state->h_st, psk, hydro_kx_PSKBYTES); hydro_kx_aead_encrypt(state, packet3_mac, NULL, 0); hydro_kx_final(state, kp->rx, kp->tx); return 0; } int hydro_kx_xx_4(hydro_kx_state *state, hydro_kx_session_keypair *kp, uint8_t peer_static_pk[hydro_kx_PUBLICKEYBYTES], const uint8_t packet3[hydro_kx_XX_PACKET3BYTES], const uint8_t psk[hydro_kx_PSKBYTES]) { uint8_t peer_static_pk_[hydro_kx_PUBLICKEYBYTES]; const uint8_t *peer_enc_static_pk = &packet3[0]; const uint8_t *packet3_mac = &packet3[hydro_kx_PUBLICKEYBYTES + hydro_kx_AEAD_MACBYTES]; if (psk == NULL) { psk = zero; } if (peer_static_pk == NULL) { peer_static_pk = peer_static_pk_; } if (hydro_kx_aead_decrypt(state, peer_static_pk, peer_enc_static_pk, hydro_kx_PUBLICKEYBYTES + hydro_kx_AEAD_MACBYTES) != 0 || hydro_kx_dh(state, state->eph_kp.sk, peer_static_pk) != 0) { return -1; } hydro_hash_update(&state->h_st, psk, hydro_kx_PSKBYTES); if (hydro_kx_aead_decrypt(state, NULL, packet3_mac, hydro_kx_AEAD_MACBYTES) != 0) { return -1; } hydro_kx_final(state, kp->tx, kp->rx); return 0; } /* NOISE_NK */ int hydro_kx_nk_1(hydro_kx_state *state, uint8_t packet1[hydro_kx_NK_PACKET1BYTES], const uint8_t psk[hydro_kx_PSKBYTES], const uint8_t peer_static_pk[hydro_kx_PUBLICKEYBYTES]) { uint8_t *packet1_eph_pk = &packet1[0]; uint8_t *packet1_mac = &packet1[hydro_kx_PUBLICKEYBYTES]; if (psk == NULL) { psk = zero; } hydro_kx_init_state(state, "Noise_NKpsk0_hydro1"); hydro_hash_update(&state->h_st, peer_static_pk, hydro_x25519_PUBLICKEYBYTES); hydro_hash_update(&state->h_st, psk, hydro_kx_PSKBYTES); hydro_kx_eph_keygen(state, &state->eph_kp); if (hydro_kx_dh(state, state->eph_kp.sk, peer_static_pk) != 0) { return -1; } hydro_kx_aead_encrypt(state, packet1_mac, NULL, 0); memcpy(packet1_eph_pk, state->eph_kp.pk, sizeof state->eph_kp.pk); return 0; } int hydro_kx_nk_2(hydro_kx_session_keypair *kp, uint8_t packet2[hydro_kx_NK_PACKET2BYTES], const uint8_t packet1[hydro_kx_NK_PACKET1BYTES], const uint8_t psk[hydro_kx_PSKBYTES], const hydro_kx_keypair *static_kp) { hydro_kx_state state; const uint8_t *peer_eph_pk = &packet1[0]; const uint8_t *packet1_mac = &packet1[hydro_kx_PUBLICKEYBYTES]; uint8_t * packet2_eph_pk = &packet2[0]; uint8_t * packet2_mac = &packet2[hydro_kx_PUBLICKEYBYTES]; if (psk == NULL) { psk = zero; } hydro_kx_init_state(&state, "Noise_NKpsk0_hydro1"); hydro_hash_update(&state.h_st, static_kp->pk, hydro_kx_PUBLICKEYBYTES); hydro_hash_update(&state.h_st, psk, hydro_kx_PSKBYTES); hydro_hash_update(&state.h_st, peer_eph_pk, hydro_x25519_PUBLICKEYBYTES); if (hydro_kx_dh(&state, static_kp->sk, peer_eph_pk) != 0 || hydro_kx_aead_decrypt(&state, NULL, packet1_mac, hydro_kx_AEAD_MACBYTES) != 0) { return -1; } hydro_kx_eph_keygen(&state, &state.eph_kp); if (hydro_kx_dh(&state, state.eph_kp.sk, peer_eph_pk) != 0) { return -1; } hydro_kx_aead_encrypt(&state, packet2_mac, NULL, 0); hydro_kx_final(&state, kp->tx, kp->rx); memcpy(packet2_eph_pk, state.eph_kp.pk, sizeof state.eph_kp.pk); return 0; } int hydro_kx_nk_3(hydro_kx_state *state, hydro_kx_session_keypair *kp, const uint8_t packet2[hydro_kx_NK_PACKET2BYTES]) { const uint8_t *peer_eph_pk = &packet2[0]; const uint8_t *packet2_mac = &packet2[hydro_kx_PUBLICKEYBYTES]; hydro_hash_update(&state->h_st, peer_eph_pk, hydro_x25519_PUBLICKEYBYTES); if (hydro_kx_dh(state, state->eph_kp.sk, peer_eph_pk) != 0 || hydro_kx_aead_decrypt(state, NULL, packet2_mac, hydro_kx_AEAD_MACBYTES) != 0) { return -1; } hydro_kx_final(state, kp->rx, kp->tx); return 0; }