cpython/Modules/_hacl/Hacl_Streaming_SHA2.h

/* MIT License
 *
 * Copyright (c) 2016-2022 INRIA, CMU and Microsoft Corporation
 * Copyright (c) 2022-2023 HACL* Contributors
 *
 * 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.
 */


#ifndef __Hacl_Streaming_SHA2_H
#define __Hacl_Streaming_SHA2_H

#if defined(__cplusplus)
extern "C" {
#endif

#include <string.h>
#include "python_hacl_namespaces.h"
#include "krml/types.h"
#include "krml/lowstar_endianness.h"
#include "krml/internal/target.h"


typedef struct Hacl_Streaming_SHA2_state_sha2_224_s
{
  uint32_t *block_state;
  uint8_t *buf;
  uint64_t total_len;
}
Hacl_Streaming_SHA2_state_sha2_224;

typedef Hacl_Streaming_SHA2_state_sha2_224 Hacl_Streaming_SHA2_state_sha2_256;

typedef struct Hacl_Streaming_SHA2_state_sha2_384_s
{
  uint64_t *block_state;
  uint8_t *buf;
  uint64_t total_len;
}
Hacl_Streaming_SHA2_state_sha2_384;

typedef Hacl_Streaming_SHA2_state_sha2_384 Hacl_Streaming_SHA2_state_sha2_512;

/**
Allocate initial state for the SHA2_256 hash. The state is to be freed by
calling `free_256`.
*/
Hacl_Streaming_SHA2_state_sha2_224 *Hacl_Streaming_SHA2_create_in_256(void);

/**
Copies the state passed as argument into a newly allocated state (deep copy).
The state is to be freed by calling `free_256`. Cloning the state this way is
useful, for instance, if your control-flow diverges and you need to feed
more (different) data into the hash in each branch.
*/
Hacl_Streaming_SHA2_state_sha2_224
*Hacl_Streaming_SHA2_copy_256(Hacl_Streaming_SHA2_state_sha2_224 *s0);

/**
Reset an existing state to the initial hash state with empty data.
*/
void Hacl_Streaming_SHA2_init_256(Hacl_Streaming_SHA2_state_sha2_224 *s);

/**
Feed an arbitrary amount of data into the hash. This function returns 0 for
success, or 1 if the combined length of all of the data passed to `update_256`
(since the last call to `init_256`) exceeds 2^61-1 bytes.

This function is identical to the update function for SHA2_224.
*/
uint32_t
Hacl_Streaming_SHA2_update_256(
  Hacl_Streaming_SHA2_state_sha2_224 *p,
  uint8_t *input,
  uint32_t input_len
);

/**
Write the resulting hash into `dst`, an array of 32 bytes. The state remains
valid after a call to `finish_256`, meaning the user may feed more data into
the hash via `update_256`. (The finish_256 function operates on an internal copy of
the state and therefore does not invalidate the client-held state `p`.)
*/
void Hacl_Streaming_SHA2_finish_256(Hacl_Streaming_SHA2_state_sha2_224 *p, uint8_t *dst);

/**
Free a state allocated with `create_in_256`.

This function is identical to the free function for SHA2_224.
*/
void Hacl_Streaming_SHA2_free_256(Hacl_Streaming_SHA2_state_sha2_224 *s);

/**
Hash `input`, of len `input_len`, into `dst`, an array of 32 bytes.
*/
void Hacl_Streaming_SHA2_sha256(uint8_t *input, uint32_t input_len, uint8_t *dst);

Hacl_Streaming_SHA2_state_sha2_224 *Hacl_Streaming_SHA2_create_in_224(void);

void Hacl_Streaming_SHA2_init_224(Hacl_Streaming_SHA2_state_sha2_224 *s);

uint32_t
Hacl_Streaming_SHA2_update_224(
  Hacl_Streaming_SHA2_state_sha2_224 *p,
  uint8_t *input,
  uint32_t input_len
);

/**
Write the resulting hash into `dst`, an array of 28 bytes. The state remains
valid after a call to `finish_224`, meaning the user may feed more data into
the hash via `update_224`.
*/
void Hacl_Streaming_SHA2_finish_224(Hacl_Streaming_SHA2_state_sha2_224 *p, uint8_t *dst);

void Hacl_Streaming_SHA2_free_224(Hacl_Streaming_SHA2_state_sha2_224 *p);

/**
Hash `input`, of len `input_len`, into `dst`, an array of 28 bytes.
*/
void Hacl_Streaming_SHA2_sha224(uint8_t *input, uint32_t input_len, uint8_t *dst);

Hacl_Streaming_SHA2_state_sha2_384 *Hacl_Streaming_SHA2_create_in_512(void);

/**
Copies the state passed as argument into a newly allocated state (deep copy).
The state is to be freed by calling `free_512`. Cloning the state this way is
useful, for instance, if your control-flow diverges and you need to feed
more (different) data into the hash in each branch.
*/
Hacl_Streaming_SHA2_state_sha2_384
*Hacl_Streaming_SHA2_copy_512(Hacl_Streaming_SHA2_state_sha2_384 *s0);

void Hacl_Streaming_SHA2_init_512(Hacl_Streaming_SHA2_state_sha2_384 *s);

/**
Feed an arbitrary amount of data into the hash. This function returns 0 for
success, or 1 if the combined length of all of the data passed to `update_512`
(since the last call to `init_512`) exceeds 2^125-1 bytes.

This function is identical to the update function for SHA2_384.
*/
uint32_t
Hacl_Streaming_SHA2_update_512(
  Hacl_Streaming_SHA2_state_sha2_384 *p,
  uint8_t *input,
  uint32_t input_len
);

/**
Write the resulting hash into `dst`, an array of 64 bytes. The state remains
valid after a call to `finish_512`, meaning the user may feed more data into
the hash via `update_512`. (The finish_512 function operates on an internal copy of
the state and therefore does not invalidate the client-held state `p`.)
*/
void Hacl_Streaming_SHA2_finish_512(Hacl_Streaming_SHA2_state_sha2_384 *p, uint8_t *dst);

/**
Free a state allocated with `create_in_512`.

This function is identical to the free function for SHA2_384.
*/
void Hacl_Streaming_SHA2_free_512(Hacl_Streaming_SHA2_state_sha2_384 *s);

/**
Hash `input`, of len `input_len`, into `dst`, an array of 64 bytes.
*/
void Hacl_Streaming_SHA2_sha512(uint8_t *input, uint32_t input_len, uint8_t *dst);

Hacl_Streaming_SHA2_state_sha2_384 *Hacl_Streaming_SHA2_create_in_384(void);

void Hacl_Streaming_SHA2_init_384(Hacl_Streaming_SHA2_state_sha2_384 *s);

uint32_t
Hacl_Streaming_SHA2_update_384(
  Hacl_Streaming_SHA2_state_sha2_384 *p,
  uint8_t *input,
  uint32_t input_len
);

/**
Write the resulting hash into `dst`, an array of 48 bytes. The state remains
valid after a call to `finish_384`, meaning the user may feed more data into
the hash via `update_384`.
*/
void Hacl_Streaming_SHA2_finish_384(Hacl_Streaming_SHA2_state_sha2_384 *p, uint8_t *dst);

void Hacl_Streaming_SHA2_free_384(Hacl_Streaming_SHA2_state_sha2_384 *p);

/**
Hash `input`, of len `input_len`, into `dst`, an array of 48 bytes.
*/
void Hacl_Streaming_SHA2_sha384(uint8_t *input, uint32_t input_len, uint8_t *dst);

#if defined(__cplusplus)
}
#endif

#define __Hacl_Streaming_SHA2_H_DEFINED
#endif
gh-99108: Replace SHA2-224 & 256 with verified code from HACL* (#99109) replacing hashlib primitives (for the non-OpenSSL case) with verified implementations from HACL. This is the first PR in the series, and focuses specifically on SHA2-256 and SHA2-224. This PR imports Hacl_Streaming_SHA2 into the Python tree. This is the HACL implementation of SHA2, which combines a core implementation of SHA2 along with a layer of buffer management that allows updating the digest with any number of bytes. This supersedes the previous implementation in the tree. @franziskuskiefer was kind enough to benchmark the changes: in addition to being verified (thus providing significant safety and security improvements), this implementation also provides a sizeable performance boost! ``` --------------------------------------------------------------- Benchmark Time CPU Iterations --------------------------------------------------------------- Sha2_256_Streaming 3163 ns 3160 ns 219353 // this PR LibTomCrypt_Sha2_256 5057 ns 5056 ns 136234 // library used by Python currently ``` The changes in this PR are as follows: - import the subset of HACL* that covers SHA2-256/224 into `Modules/_hacl` - rewire sha256module.c to use the HACL* implementation Co-authored-by: Gregory P. Smith [Google LLC] <greg@krypto.org> Co-authored-by: Erlend E. Aasland <erlend.aasland@protonmail.com> 2023-02-06 22:11:01 -04:00			`/* MIT License`
			`*`
			`* Copyright (c) 2016-2022 INRIA, CMU and Microsoft Corporation`
			`* Copyright (c) 2022-2023 HACL* Contributors`
			`*`
			`* 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.`
			`*/`


			`#ifndef __Hacl_Streaming_SHA2_H`
			`#define __Hacl_Streaming_SHA2_H`

			`#if defined(__cplusplus)`
			`extern "C" {`
			`#endif`

			`#include <string.h>`
			`#include "python_hacl_namespaces.h"`
gh-99108: Import SHA2-384/512 from HACL* (#101707) Replace the builtin hashlib implementations of SHA2-384 and SHA2-512 originally from LibTomCrypt with formally verified, side-channel resistant code from the [HACL*](https://github.com/hacl-star/hacl-star/) project. The builtins remain a fallback only used when OpenSSL does not provide them. 2023-02-14 05:25:16 -04:00			`#include "krml/types.h"`
gh-99108: Replace SHA2-224 & 256 with verified code from HACL* (#99109) replacing hashlib primitives (for the non-OpenSSL case) with verified implementations from HACL. This is the first PR in the series, and focuses specifically on SHA2-256 and SHA2-224. This PR imports Hacl_Streaming_SHA2 into the Python tree. This is the HACL implementation of SHA2, which combines a core implementation of SHA2 along with a layer of buffer management that allows updating the digest with any number of bytes. This supersedes the previous implementation in the tree. @franziskuskiefer was kind enough to benchmark the changes: in addition to being verified (thus providing significant safety and security improvements), this implementation also provides a sizeable performance boost! ``` --------------------------------------------------------------- Benchmark Time CPU Iterations --------------------------------------------------------------- Sha2_256_Streaming 3163 ns 3160 ns 219353 // this PR LibTomCrypt_Sha2_256 5057 ns 5056 ns 136234 // library used by Python currently ``` The changes in this PR are as follows: - import the subset of HACL* that covers SHA2-256/224 into `Modules/_hacl` - rewire sha256module.c to use the HACL* implementation Co-authored-by: Gregory P. Smith [Google LLC] <greg@krypto.org> Co-authored-by: Erlend E. Aasland <erlend.aasland@protonmail.com> 2023-02-06 22:11:01 -04:00			`#include "krml/lowstar_endianness.h"`
			`#include "krml/internal/target.h"`



			`typedef struct Hacl_Streaming_SHA2_state_sha2_224_s`
			`{`
			`uint32_t *block_state;`
			`uint8_t *buf;`
			`uint64_t total_len;`
			`}`
			`Hacl_Streaming_SHA2_state_sha2_224;`

			`typedef Hacl_Streaming_SHA2_state_sha2_224 Hacl_Streaming_SHA2_state_sha2_256;`

gh-99108: Import SHA2-384/512 from HACL* (#101707) Replace the builtin hashlib implementations of SHA2-384 and SHA2-512 originally from LibTomCrypt with formally verified, side-channel resistant code from the [HACL*](https://github.com/hacl-star/hacl-star/) project. The builtins remain a fallback only used when OpenSSL does not provide them. 2023-02-14 05:25:16 -04:00			`typedef struct Hacl_Streaming_SHA2_state_sha2_384_s`
			`{`
			`uint64_t *block_state;`
			`uint8_t *buf;`
			`uint64_t total_len;`
			`}`
			`Hacl_Streaming_SHA2_state_sha2_384;`

			`typedef Hacl_Streaming_SHA2_state_sha2_384 Hacl_Streaming_SHA2_state_sha2_512;`

gh-99108: Replace SHA2-224 & 256 with verified code from HACL* (#99109) replacing hashlib primitives (for the non-OpenSSL case) with verified implementations from HACL. This is the first PR in the series, and focuses specifically on SHA2-256 and SHA2-224. This PR imports Hacl_Streaming_SHA2 into the Python tree. This is the HACL implementation of SHA2, which combines a core implementation of SHA2 along with a layer of buffer management that allows updating the digest with any number of bytes. This supersedes the previous implementation in the tree. @franziskuskiefer was kind enough to benchmark the changes: in addition to being verified (thus providing significant safety and security improvements), this implementation also provides a sizeable performance boost! ``` --------------------------------------------------------------- Benchmark Time CPU Iterations --------------------------------------------------------------- Sha2_256_Streaming 3163 ns 3160 ns 219353 // this PR LibTomCrypt_Sha2_256 5057 ns 5056 ns 136234 // library used by Python currently ``` The changes in this PR are as follows: - import the subset of HACL* that covers SHA2-256/224 into `Modules/_hacl` - rewire sha256module.c to use the HACL* implementation Co-authored-by: Gregory P. Smith [Google LLC] <greg@krypto.org> Co-authored-by: Erlend E. Aasland <erlend.aasland@protonmail.com> 2023-02-06 22:11:01 -04:00			`/**`
			`Allocate initial state for the SHA2_256 hash. The state is to be freed by`
			calling `free_256`.
			`*/`
			`Hacl_Streaming_SHA2_state_sha2_224 *Hacl_Streaming_SHA2_create_in_256(void);`

			`/**`
			`Copies the state passed as argument into a newly allocated state (deep copy).`
			The state is to be freed by calling `free_256`. Cloning the state this way is
			`useful, for instance, if your control-flow diverges and you need to feed`
			`more (different) data into the hash in each branch.`
			`*/`
			`Hacl_Streaming_SHA2_state_sha2_224`
			`Hacl_Streaming_SHA2_copy_256(Hacl_Streaming_SHA2_state_sha2_224 s0);`

			`/**`
			`Reset an existing state to the initial hash state with empty data.`
			`*/`
			`void Hacl_Streaming_SHA2_init_256(Hacl_Streaming_SHA2_state_sha2_224 *s);`

			`/**`
			`Feed an arbitrary amount of data into the hash. This function returns 0 for`
			success, or 1 if the combined length of all of the data passed to `update_256`
			(since the last call to `init_256`) exceeds 2^61-1 bytes.

			`This function is identical to the update function for SHA2_224.`
			`*/`
			`uint32_t`
			`Hacl_Streaming_SHA2_update_256(`
			`Hacl_Streaming_SHA2_state_sha2_224 *p,`
			`uint8_t *input,`
			`uint32_t input_len`
			`);`

			`/**`
			Write the resulting hash into `dst`, an array of 32 bytes. The state remains
			valid after a call to `finish_256`, meaning the user may feed more data into
			the hash via `update_256`. (The finish_256 function operates on an internal copy of
			the state and therefore does not invalidate the client-held state `p`.)
			`*/`
			`void Hacl_Streaming_SHA2_finish_256(Hacl_Streaming_SHA2_state_sha2_224 p, uint8_t dst);`

			`/**`
			Free a state allocated with `create_in_256`.

			`This function is identical to the free function for SHA2_224.`
			`*/`
			`void Hacl_Streaming_SHA2_free_256(Hacl_Streaming_SHA2_state_sha2_224 *s);`

			`/**`
			Hash `input`, of len `input_len`, into `dst`, an array of 32 bytes.
			`*/`
			`void Hacl_Streaming_SHA2_sha256(uint8_t input, uint32_t input_len, uint8_t dst);`

			`Hacl_Streaming_SHA2_state_sha2_224 *Hacl_Streaming_SHA2_create_in_224(void);`

			`void Hacl_Streaming_SHA2_init_224(Hacl_Streaming_SHA2_state_sha2_224 *s);`

			`uint32_t`
			`Hacl_Streaming_SHA2_update_224(`
			`Hacl_Streaming_SHA2_state_sha2_224 *p,`
			`uint8_t *input,`
			`uint32_t input_len`
			`);`

			`/**`
			Write the resulting hash into `dst`, an array of 28 bytes. The state remains
			valid after a call to `finish_224`, meaning the user may feed more data into
			the hash via `update_224`.
			`*/`
			`void Hacl_Streaming_SHA2_finish_224(Hacl_Streaming_SHA2_state_sha2_224 p, uint8_t dst);`

			`void Hacl_Streaming_SHA2_free_224(Hacl_Streaming_SHA2_state_sha2_224 *p);`

			`/**`
			Hash `input`, of len `input_len`, into `dst`, an array of 28 bytes.
			`*/`
			`void Hacl_Streaming_SHA2_sha224(uint8_t input, uint32_t input_len, uint8_t dst);`

gh-99108: Import SHA2-384/512 from HACL* (#101707) Replace the builtin hashlib implementations of SHA2-384 and SHA2-512 originally from LibTomCrypt with formally verified, side-channel resistant code from the [HACL*](https://github.com/hacl-star/hacl-star/) project. The builtins remain a fallback only used when OpenSSL does not provide them. 2023-02-14 05:25:16 -04:00			`Hacl_Streaming_SHA2_state_sha2_384 *Hacl_Streaming_SHA2_create_in_512(void);`

			`/**`
			`Copies the state passed as argument into a newly allocated state (deep copy).`
			The state is to be freed by calling `free_512`. Cloning the state this way is
			`useful, for instance, if your control-flow diverges and you need to feed`
			`more (different) data into the hash in each branch.`
			`*/`
			`Hacl_Streaming_SHA2_state_sha2_384`
			`Hacl_Streaming_SHA2_copy_512(Hacl_Streaming_SHA2_state_sha2_384 s0);`

			`void Hacl_Streaming_SHA2_init_512(Hacl_Streaming_SHA2_state_sha2_384 *s);`

			`/**`
			`Feed an arbitrary amount of data into the hash. This function returns 0 for`
			success, or 1 if the combined length of all of the data passed to `update_512`
			(since the last call to `init_512`) exceeds 2^125-1 bytes.

			`This function is identical to the update function for SHA2_384.`
			`*/`
			`uint32_t`
			`Hacl_Streaming_SHA2_update_512(`
			`Hacl_Streaming_SHA2_state_sha2_384 *p,`
			`uint8_t *input,`
			`uint32_t input_len`
			`);`

			`/**`
			Write the resulting hash into `dst`, an array of 64 bytes. The state remains
			valid after a call to `finish_512`, meaning the user may feed more data into
			the hash via `update_512`. (The finish_512 function operates on an internal copy of
			the state and therefore does not invalidate the client-held state `p`.)
			`*/`
			`void Hacl_Streaming_SHA2_finish_512(Hacl_Streaming_SHA2_state_sha2_384 p, uint8_t dst);`

			`/**`
			Free a state allocated with `create_in_512`.

			`This function is identical to the free function for SHA2_384.`
			`*/`
			`void Hacl_Streaming_SHA2_free_512(Hacl_Streaming_SHA2_state_sha2_384 *s);`

			`/**`
			Hash `input`, of len `input_len`, into `dst`, an array of 64 bytes.
			`*/`
			`void Hacl_Streaming_SHA2_sha512(uint8_t input, uint32_t input_len, uint8_t dst);`

			`Hacl_Streaming_SHA2_state_sha2_384 *Hacl_Streaming_SHA2_create_in_384(void);`

			`void Hacl_Streaming_SHA2_init_384(Hacl_Streaming_SHA2_state_sha2_384 *s);`

			`uint32_t`
			`Hacl_Streaming_SHA2_update_384(`
			`Hacl_Streaming_SHA2_state_sha2_384 *p,`
			`uint8_t *input,`
			`uint32_t input_len`
			`);`

			`/**`
			Write the resulting hash into `dst`, an array of 48 bytes. The state remains
			valid after a call to `finish_384`, meaning the user may feed more data into
			the hash via `update_384`.
			`*/`
			`void Hacl_Streaming_SHA2_finish_384(Hacl_Streaming_SHA2_state_sha2_384 p, uint8_t dst);`

			`void Hacl_Streaming_SHA2_free_384(Hacl_Streaming_SHA2_state_sha2_384 *p);`

			`/**`
			Hash `input`, of len `input_len`, into `dst`, an array of 48 bytes.
			`*/`
			`void Hacl_Streaming_SHA2_sha384(uint8_t input, uint32_t input_len, uint8_t dst);`

gh-99108: Replace SHA2-224 & 256 with verified code from HACL* (#99109) replacing hashlib primitives (for the non-OpenSSL case) with verified implementations from HACL. This is the first PR in the series, and focuses specifically on SHA2-256 and SHA2-224. This PR imports Hacl_Streaming_SHA2 into the Python tree. This is the HACL implementation of SHA2, which combines a core implementation of SHA2 along with a layer of buffer management that allows updating the digest with any number of bytes. This supersedes the previous implementation in the tree. @franziskuskiefer was kind enough to benchmark the changes: in addition to being verified (thus providing significant safety and security improvements), this implementation also provides a sizeable performance boost! ``` --------------------------------------------------------------- Benchmark Time CPU Iterations --------------------------------------------------------------- Sha2_256_Streaming 3163 ns 3160 ns 219353 // this PR LibTomCrypt_Sha2_256 5057 ns 5056 ns 136234 // library used by Python currently ``` The changes in this PR are as follows: - import the subset of HACL* that covers SHA2-256/224 into `Modules/_hacl` - rewire sha256module.c to use the HACL* implementation Co-authored-by: Gregory P. Smith [Google LLC] <greg@krypto.org> Co-authored-by: Erlend E. Aasland <erlend.aasland@protonmail.com> 2023-02-06 22:11:01 -04:00			`#if defined(__cplusplus)`
			`}`
			`#endif`

			`#define __Hacl_Streaming_SHA2_H_DEFINED`
			`#endif`