lib/libaegis.h - third_party/github/h2o/picotls - Git at Google

 /*
  * Copyright (c) 2023 Frank Denis
  *
  * Permission is hereby granted, free of charge, to any person obtaining a copy
  * of this software and associated documentation files (the "Software"), to
  * deal in the Software without restriction, including without limitation the
  * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
  * sell copies of the Software, and to permit persons to whom the Software is
  * furnished to do so, subject to the following conditions:
  *
  * The above copyright notice and this permission notice shall be included in
  * all copies or substantial portions of the Software.
  *
  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
  * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
  * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
  * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
  * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
  * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
  * IN THE SOFTWARE.
  */
 #include <aegis.h>

 #include "picotls.h"

 // AEGIS-128L

 struct aegis128l_context_t {
     ptls_aead_context_t super;
     aegis128l_state st;
     uint8_t key[PTLS_AEGIS128L_KEY_SIZE];
     uint8_t static_iv[PTLS_AEGIS128L_IV_SIZE];
 };

 static void aegis128l_get_iv(ptls_aead_context_t *_ctx, void *iv)
 {
     struct aegis128l_context_t *ctx = (struct aegis128l_context_t *)_ctx;

     memcpy(iv, ctx->static_iv, sizeof(ctx->static_iv));
 }

 static void aegis128l_set_iv(ptls_aead_context_t *_ctx, const void *iv)
 {
     struct aegis128l_context_t *ctx = (struct aegis128l_context_t *)_ctx;

     memcpy(ctx->static_iv, iv, sizeof(ctx->static_iv));
 }

 static void aegis128l_init(ptls_aead_context_t *_ctx, uint64_t seq, const void *aad, size_t aadlen)
 {
     struct aegis128l_context_t *ctx = (struct aegis128l_context_t *)_ctx;
     uint8_t iv[PTLS_AEGIS128L_IV_SIZE];

     ptls_aead__build_iv(ctx->super.algo, iv, ctx->static_iv, seq);

     aegis128l_state_init(&ctx->st, (const uint8_t *)aad, aadlen, iv, ctx->key);

     return;
 }

 static size_t aegis128l_encrypt_update(ptls_aead_context_t *_ctx, void *output, const void *input, size_t inlen)
 {
     struct aegis128l_context_t *ctx = (struct aegis128l_context_t *)_ctx;
     size_t written;

     aegis128l_state_encrypt_update(&ctx->st, (uint8_t *)output, inlen + aegis128l_TAILBYTES_MAX, &written, (const uint8_t *)input,
                                    inlen);

     return written;
 }

 static size_t aegis128l_encrypt_final(ptls_aead_context_t *_ctx, void *output)
 {
     struct aegis128l_context_t *ctx = (struct aegis128l_context_t *)_ctx;
     size_t written;

     aegis128l_state_encrypt_final(&ctx->st, (uint8_t *)output, aegis128l_TAILBYTES_MAX + PTLS_AEGIS128L_TAG_SIZE, &written,
                                   PTLS_AEGIS128L_TAG_SIZE);

     return written;
 }

 static size_t aegis128l_decrypt_oneshot(ptls_aead_context_t *_ctx, void *output, const void *input, size_t inlen, uint64_t seq,
                                         const void *aad, size_t aadlen)
 {
     struct aegis128l_context_t *ctx = (struct aegis128l_context_t *)_ctx;
     uint8_t iv[PTLS_AEGIS128L_IV_SIZE] = {0};

     if (inlen < PTLS_AEGIS128L_TAG_SIZE) {
         return SIZE_MAX;
     }

     ptls_aead__build_iv(ctx->super.algo, iv, ctx->static_iv, seq);

     if (aegis128l_decrypt((uint8_t *)output, (const uint8_t *)input, inlen, PTLS_AEGIS128L_TAG_SIZE, (const uint8_t *)aad, aadlen,
                           iv, ctx->key) != 0) {
         return SIZE_MAX;
     }

     return inlen - PTLS_AEGIS128L_TAG_SIZE;
 }

 static void aegis128l_dispose_crypto(ptls_aead_context_t *_ctx)
 {
     struct aegis128l_context_t *ctx = (struct aegis128l_context_t *)_ctx;

     ptls_clear_memory(ctx->key, sizeof(ctx->key));

     return;
 }

 static int aegis128l_setup_crypto(ptls_aead_context_t *_ctx, int is_enc, const void *key, const void *iv)
 {
     struct aegis128l_context_t *ctx = (struct aegis128l_context_t *)_ctx;

     ctx->super.dispose_crypto = aegis128l_dispose_crypto;
     ctx->super.do_get_iv = aegis128l_get_iv;
     ctx->super.do_set_iv = aegis128l_set_iv;

     if (is_enc) {
         ctx->super.do_encrypt_init = aegis128l_init;
         ctx->super.do_encrypt_update = aegis128l_encrypt_update;
         ctx->super.do_encrypt_final = aegis128l_encrypt_final;
         ctx->super.do_encrypt = ptls_aead__do_encrypt;
         ctx->super.do_encrypt_v = ptls_aead__do_encrypt_v;
         ctx->super.do_decrypt = NULL;
     } else {
         ctx->super.do_encrypt_init = NULL;
         ctx->super.do_encrypt_update = NULL;
         ctx->super.do_encrypt_final = NULL;
         ctx->super.do_encrypt = NULL;
         ctx->super.do_encrypt_v = NULL;
         ctx->super.do_decrypt = aegis128l_decrypt_oneshot;
     }

     memcpy(ctx->key, key, sizeof(ctx->key));
     memcpy(ctx->static_iv, iv, sizeof(ctx->static_iv));

     return 0;
 }

 // AEGIS-256

 struct aegis256_context_t {
     ptls_aead_context_t super;
     aegis256_state st;
     uint8_t key[PTLS_AEGIS256_KEY_SIZE];
     uint8_t static_iv[PTLS_AEGIS256_IV_SIZE];
 };

 static void aegis256_get_iv(ptls_aead_context_t *_ctx, void *iv)
 {
     struct aegis256_context_t *ctx = (struct aegis256_context_t *)_ctx;

     memcpy(iv, ctx->static_iv, sizeof(ctx->static_iv));
 }

 static void aegis256_set_iv(ptls_aead_context_t *_ctx, const void *iv)
 {
     struct aegis256_context_t *ctx = (struct aegis256_context_t *)_ctx;

     memcpy(ctx->static_iv, iv, sizeof(ctx->static_iv));
 }

 static void aegis256_init(ptls_aead_context_t *_ctx, uint64_t seq, const void *aad, size_t aadlen)
 {
     struct aegis256_context_t *ctx = (struct aegis256_context_t *)_ctx;
     uint8_t iv[PTLS_AEGIS256_IV_SIZE] = {0};

     ptls_aead__build_iv(ctx->super.algo, iv, ctx->static_iv, seq);

     aegis256_state_init(&ctx->st, (const uint8_t *)aad, aadlen, iv, ctx->key);

     return;
 }

 static size_t aegis256_encrypt_update(ptls_aead_context_t *_ctx, void *output, const void *input, size_t inlen)
 {
     struct aegis256_context_t *ctx = (struct aegis256_context_t *)_ctx;
     size_t written;

     aegis256_state_encrypt_update(&ctx->st, (uint8_t *)output, inlen + aegis256_TAILBYTES_MAX, &written, (const uint8_t *)input,
                                   inlen);

     return written;
 }

 static size_t aegis256_encrypt_final(ptls_aead_context_t *_ctx, void *output)
 {
     struct aegis256_context_t *ctx = (struct aegis256_context_t *)_ctx;
     size_t written;

     aegis256_state_encrypt_final(&ctx->st, (uint8_t *)output, aegis256_TAILBYTES_MAX + PTLS_AEGIS256_TAG_SIZE, &written,
                                  PTLS_AEGIS256_TAG_SIZE);

     return written;
 }

 static size_t aegis256_decrypt_oneshot(ptls_aead_context_t *_ctx, void *output, const void *input, size_t inlen, uint64_t seq,
                                        const void *aad, size_t aadlen)
 {
     struct aegis256_context_t *ctx = (struct aegis256_context_t *)_ctx;
     uint8_t iv[PTLS_AEGIS256_IV_SIZE];

     if (inlen < PTLS_AEGIS256_TAG_SIZE) {
         return SIZE_MAX;
     }

     ptls_aead__build_iv(ctx->super.algo, iv, ctx->static_iv, seq);

     if (aegis256_decrypt((uint8_t *)output, (const uint8_t *)input, inlen, PTLS_AEGIS256_TAG_SIZE, (const uint8_t *)aad, aadlen, iv,
                          ctx->key) != 0) {
         return SIZE_MAX;
     }

     return inlen - PTLS_AEGIS256_TAG_SIZE;
 }

 static void aegis256_dispose_crypto(ptls_aead_context_t *_ctx)
 {
     struct aegis256_context_t *ctx = (struct aegis256_context_t *)_ctx;

     ptls_clear_memory(ctx->key, sizeof(ctx->key));

     return;
 }

 static int aegis256_setup_crypto(ptls_aead_context_t *_ctx, int is_enc, const void *key, const void *iv)
 {
     struct aegis256_context_t *ctx = (struct aegis256_context_t *)_ctx;

     ctx->super.dispose_crypto = aegis256_dispose_crypto;
     ctx->super.do_get_iv = aegis256_get_iv;
     ctx->super.do_set_iv = aegis256_set_iv;

     if (is_enc) {
         ctx->super.do_encrypt_init = aegis256_init;
         ctx->super.do_encrypt_update = aegis256_encrypt_update;
         ctx->super.do_encrypt_final = aegis256_encrypt_final;
         ctx->super.do_encrypt = ptls_aead__do_encrypt;
         ctx->super.do_encrypt_v = ptls_aead__do_encrypt_v;
         ctx->super.do_decrypt = NULL;
     } else {
         ctx->super.do_encrypt_init = NULL;
         ctx->super.do_encrypt_update = NULL;
         ctx->super.do_encrypt_final = NULL;
         ctx->super.do_encrypt = NULL;
         ctx->super.do_encrypt_v = NULL;
         ctx->super.do_decrypt = aegis256_decrypt_oneshot;
     }

     memcpy(ctx->key, key, sizeof(ctx->key));
     memcpy(ctx->static_iv, iv, sizeof(ctx->static_iv));

     return 0;
 }
	/*
	* Copyright (c) 2023 Frank Denis
	*
	* Permission is hereby granted, free of charge, to any person obtaining a copy
	* of this software and associated documentation files (the "Software"), to
	* deal in the Software without restriction, including without limitation the
	* rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
	* sell copies of the Software, and to permit persons to whom the Software is
	* furnished to do so, subject to the following conditions:
	*
	* The above copyright notice and this permission notice shall be included in
	* all copies or substantial portions of the Software.
	*
	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
	* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
	* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
	* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
	* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
	* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
	* IN THE SOFTWARE.
	*/
	#include <aegis.h>

	#include "picotls.h"

	// AEGIS-128L

	struct aegis128l_context_t {
	ptls_aead_context_t super;
	aegis128l_state st;
	uint8_t key[PTLS_AEGIS128L_KEY_SIZE];
	uint8_t static_iv[PTLS_AEGIS128L_IV_SIZE];
	};

	static void aegis128l_get_iv(ptls_aead_context_t _ctx, void iv)
	{
	struct aegis128l_context_t ctx = (struct aegis128l_context_t )_ctx;

	memcpy(iv, ctx->static_iv, sizeof(ctx->static_iv));
	}

	static void aegis128l_set_iv(ptls_aead_context_t _ctx, const void iv)
	{
	struct aegis128l_context_t ctx = (struct aegis128l_context_t )_ctx;

	memcpy(ctx->static_iv, iv, sizeof(ctx->static_iv));
	}

	static void aegis128l_init(ptls_aead_context_t _ctx, uint64_t seq, const void aad, size_t aadlen)
	{
	struct aegis128l_context_t ctx = (struct aegis128l_context_t )_ctx;
	uint8_t iv[PTLS_AEGIS128L_IV_SIZE];

	ptls_aead__build_iv(ctx->super.algo, iv, ctx->static_iv, seq);

	aegis128l_state_init(&ctx->st, (const uint8_t *)aad, aadlen, iv, ctx->key);

	return;
	}

	static size_t aegis128l_encrypt_update(ptls_aead_context_t _ctx, void output, const void *input, size_t inlen)
	{
	struct aegis128l_context_t ctx = (struct aegis128l_context_t )_ctx;
	size_t written;

	aegis128l_state_encrypt_update(&ctx->st, (uint8_t )output, inlen + aegis128l_TAILBYTES_MAX, &written, (const uint8_t )input,
	inlen);

	return written;
	}

	static size_t aegis128l_encrypt_final(ptls_aead_context_t _ctx, void output)
	{
	struct aegis128l_context_t ctx = (struct aegis128l_context_t )_ctx;
	size_t written;

	aegis128l_state_encrypt_final(&ctx->st, (uint8_t *)output, aegis128l_TAILBYTES_MAX + PTLS_AEGIS128L_TAG_SIZE, &written,
	PTLS_AEGIS128L_TAG_SIZE);

	return written;
	}

	static size_t aegis128l_decrypt_oneshot(ptls_aead_context_t _ctx, void output, const void *input, size_t inlen, uint64_t seq,
	const void *aad, size_t aadlen)
	{
	struct aegis128l_context_t ctx = (struct aegis128l_context_t )_ctx;
	uint8_t iv[PTLS_AEGIS128L_IV_SIZE] = {0};

	if (inlen < PTLS_AEGIS128L_TAG_SIZE) {
	return SIZE_MAX;
	}

	ptls_aead__build_iv(ctx->super.algo, iv, ctx->static_iv, seq);

	if (aegis128l_decrypt((uint8_t )output, (const uint8_t )input, inlen, PTLS_AEGIS128L_TAG_SIZE, (const uint8_t *)aad, aadlen,
	iv, ctx->key) != 0) {
	return SIZE_MAX;
	}

	return inlen - PTLS_AEGIS128L_TAG_SIZE;
	}

	static void aegis128l_dispose_crypto(ptls_aead_context_t *_ctx)
	{
	struct aegis128l_context_t ctx = (struct aegis128l_context_t )_ctx;

	ptls_clear_memory(ctx->key, sizeof(ctx->key));

	return;
	}

	static int aegis128l_setup_crypto(ptls_aead_context_t _ctx, int is_enc, const void key, const void *iv)
	{
	struct aegis128l_context_t ctx = (struct aegis128l_context_t )_ctx;

	ctx->super.dispose_crypto = aegis128l_dispose_crypto;
	ctx->super.do_get_iv = aegis128l_get_iv;
	ctx->super.do_set_iv = aegis128l_set_iv;

	if (is_enc) {
	ctx->super.do_encrypt_init = aegis128l_init;
	ctx->super.do_encrypt_update = aegis128l_encrypt_update;
	ctx->super.do_encrypt_final = aegis128l_encrypt_final;
	ctx->super.do_encrypt = ptls_aead__do_encrypt;
	ctx->super.do_encrypt_v = ptls_aead__do_encrypt_v;
	ctx->super.do_decrypt = NULL;
	} else {
	ctx->super.do_encrypt_init = NULL;
	ctx->super.do_encrypt_update = NULL;
	ctx->super.do_encrypt_final = NULL;
	ctx->super.do_encrypt = NULL;
	ctx->super.do_encrypt_v = NULL;
	ctx->super.do_decrypt = aegis128l_decrypt_oneshot;
	}

	memcpy(ctx->key, key, sizeof(ctx->key));
	memcpy(ctx->static_iv, iv, sizeof(ctx->static_iv));

	return 0;
	}

	// AEGIS-256

	struct aegis256_context_t {
	ptls_aead_context_t super;
	aegis256_state st;
	uint8_t key[PTLS_AEGIS256_KEY_SIZE];
	uint8_t static_iv[PTLS_AEGIS256_IV_SIZE];
	};

	static void aegis256_get_iv(ptls_aead_context_t _ctx, void iv)
	{
	struct aegis256_context_t ctx = (struct aegis256_context_t )_ctx;

	memcpy(iv, ctx->static_iv, sizeof(ctx->static_iv));
	}

	static void aegis256_set_iv(ptls_aead_context_t _ctx, const void iv)
	{
	struct aegis256_context_t ctx = (struct aegis256_context_t )_ctx;

	memcpy(ctx->static_iv, iv, sizeof(ctx->static_iv));
	}

	static void aegis256_init(ptls_aead_context_t _ctx, uint64_t seq, const void aad, size_t aadlen)
	{
	struct aegis256_context_t ctx = (struct aegis256_context_t )_ctx;
	uint8_t iv[PTLS_AEGIS256_IV_SIZE] = {0};

	ptls_aead__build_iv(ctx->super.algo, iv, ctx->static_iv, seq);

	aegis256_state_init(&ctx->st, (const uint8_t *)aad, aadlen, iv, ctx->key);

	return;
	}

	static size_t aegis256_encrypt_update(ptls_aead_context_t _ctx, void output, const void *input, size_t inlen)
	{
	struct aegis256_context_t ctx = (struct aegis256_context_t )_ctx;
	size_t written;

	aegis256_state_encrypt_update(&ctx->st, (uint8_t )output, inlen + aegis256_TAILBYTES_MAX, &written, (const uint8_t )input,
	inlen);

	return written;
	}

	static size_t aegis256_encrypt_final(ptls_aead_context_t _ctx, void output)
	{
	struct aegis256_context_t ctx = (struct aegis256_context_t )_ctx;
	size_t written;

	aegis256_state_encrypt_final(&ctx->st, (uint8_t *)output, aegis256_TAILBYTES_MAX + PTLS_AEGIS256_TAG_SIZE, &written,
	PTLS_AEGIS256_TAG_SIZE);

	return written;
	}

	static size_t aegis256_decrypt_oneshot(ptls_aead_context_t _ctx, void output, const void *input, size_t inlen, uint64_t seq,
	const void *aad, size_t aadlen)
	{
	struct aegis256_context_t ctx = (struct aegis256_context_t )_ctx;
	uint8_t iv[PTLS_AEGIS256_IV_SIZE];

	if (inlen < PTLS_AEGIS256_TAG_SIZE) {
	return SIZE_MAX;
	}

	ptls_aead__build_iv(ctx->super.algo, iv, ctx->static_iv, seq);

	if (aegis256_decrypt((uint8_t )output, (const uint8_t )input, inlen, PTLS_AEGIS256_TAG_SIZE, (const uint8_t *)aad, aadlen, iv,
	ctx->key) != 0) {
	return SIZE_MAX;
	}

	return inlen - PTLS_AEGIS256_TAG_SIZE;
	}

	static void aegis256_dispose_crypto(ptls_aead_context_t *_ctx)
	{
	struct aegis256_context_t ctx = (struct aegis256_context_t )_ctx;

	ptls_clear_memory(ctx->key, sizeof(ctx->key));

	return;
	}

	static int aegis256_setup_crypto(ptls_aead_context_t _ctx, int is_enc, const void key, const void *iv)
	{
	struct aegis256_context_t ctx = (struct aegis256_context_t )_ctx;

	ctx->super.dispose_crypto = aegis256_dispose_crypto;
	ctx->super.do_get_iv = aegis256_get_iv;
	ctx->super.do_set_iv = aegis256_set_iv;

	if (is_enc) {
	ctx->super.do_encrypt_init = aegis256_init;
	ctx->super.do_encrypt_update = aegis256_encrypt_update;
	ctx->super.do_encrypt_final = aegis256_encrypt_final;
	ctx->super.do_encrypt = ptls_aead__do_encrypt;
	ctx->super.do_encrypt_v = ptls_aead__do_encrypt_v;
	ctx->super.do_decrypt = NULL;
	} else {
	ctx->super.do_encrypt_init = NULL;
	ctx->super.do_encrypt_update = NULL;
	ctx->super.do_encrypt_final = NULL;
	ctx->super.do_encrypt = NULL;
	ctx->super.do_encrypt_v = NULL;
	ctx->super.do_decrypt = aegis256_decrypt_oneshot;
	}

	memcpy(ctx->key, key, sizeof(ctx->key));
	memcpy(ctx->static_iv, iv, sizeof(ctx->static_iv));

	return 0;
	}