pw_crypto/docs.rst - pigweed/pigweed - Git at Google

 .. _module-pw_crypto:

 pw_crypto
 =========
 A set of safe (read: easy to use, hard to misuse) crypto APIs.

 .. attention::

   This module is under construction.

 The following crypto services are provided by this module.

 1. Hashing a message with `SHA256`_.
 2. Verifying a digital signature signed with `ECDSA`_ over the NIST P256 curve.
 3. Many more to come ...

 SHA256
 ------

 1. Obtaining a oneshot digest.

 .. code-block:: cpp

   #include "pw_crypto/sha256.h"

   std::byte digest[32];
   Status status = pw::crypto::sha256::Hash(message, digest);

 2. Hashing a long, potentially non-contiguous message.

 .. code-block:: cpp

   #include "pw_crypto/sha256.h"

   std::byte digest[32];
   auto h = pw::crypto::sha256::Sha256();

   while (/* chunk ← Get next chunk of message */) {
     h.Update(chunk);
   }

   Status status = h.Final(digest);

 ECDSA
 -----

 1. Verifying a digital signature signed with ECDSA over the NIST P256 curve.

 .. code-block:: cpp

   #include "pw_crypto/sha256.h"

   std::byte digest[32];
   auto status = pw::crypto::sha256::Hash(message, digest);

   if (!status.ok()) {
     // handle errors.
   }

   bool valid = pw::crypto::ecdsa::VerifyP256Signature(public_key, digest, signature).ok();

 2. Verifying a digital signature signed with ECDSA over the NIST P256 curve, with a long and/or non-contiguous message.

 .. code-block:: cpp

   #include "pw_crypto/sha256.h"

   std::byte digest[32];
   auto h = pw::crypto::sha256::Sha256();

   while (/* chunk ← Get the next chunk of message */) {
     h.Update(chunk);
   }

   auto status = h.Final(digest);
   bool valid = status.ok() && pw::crypto::ecdsa::VerifyP256Signature(public_key, digest, signature).ok();

 Configuration
 -------------

 The crypto services offered by pw_crypto can be backed by different backend crypto libraries. For now only Mbed TLS is supported, others are under construction.

 Mbed TLS
 ^^^^^^^^

 To select the Mbed TLS backend, the MbedTLS library needs to be installed and configured.

 .. code-block:: sh

   # Install and configure MbedTLS
   pw package install mbedtls
   gn gen out --args='dir_pw_third_party_mbedtls="//.environment/packages/mbedtls" pw_crypto_SHA256_BACKEND="//pw_crypto:sha256_mbedtls" pw_crypto_ECDSA_BACKEND="//pw_crypto:ecdsa_mbedtls"'

   ninja -C out

 For optimal code size and/or performance, the Mbed TLS library needs to be configured per product. Mbed TLS configuration is achieved by turning on and off MBEDTLS_* options in a config.h file. See //third_party/mbedtls for how this is done.

 ``pw::crypto::sha256`` does not need any special configuration as it uses the mbedtls_sha256_* APIs directly. However you can optionally turn on ``MBEDTLS_SHA256_SMALLER`` to further reduce the code size to from 3KiB to ~1.8KiB at a ~30% slowdown cost (Cortex-M4).

 .. code-block:: c

    #define MBEDTLS_SHA256_SMALLER

 ``pw::crypto::ecdsa`` requires the following minimum configurations which yields a code size of ~12KiB.

 .. code-block:: c

    #define MBEDTLS_BIGNUM_C
    #define MBEDTLS_ECP_C
    #define MBEDTLS_ECDSA_C
    // The ASN1 options are needed only because mbedtls considers and verifies
    // them (in check_config.h) as dependencies of MBEDTLS_ECDSA_C.
    #define MBEDTLS_ASN1_WRITE_C
    #define MBEDTLS_ASN1_PARSE_C
    #define MBEDTLS_ECP_NO_INTERNAL_RNG
    #define MBEDTLS_ECP_DP_SECP256R1_ENABLED

 BoringSSL
 ^^^^^^^^^

 To select the BoringSSL backend, the BoringSSL library needs to be installed and configured.

 .. code-block:: sh

   # Install and configure BoringSSL
   pw package install boringssl
   gn gen out --args='dir_pw_third_party_boringssl="//.environment/packages/boringssl" pw_crypto_SHA256_BACKEND="//pw_crypto:sha256_boringssl"'

   ninja -C out

 Size Reports
 ------------

 Below are size reports for each crypto service. These vary across configurations.

 .. include:: size_report
	.. _module-pw_crypto:

	pw_crypto
	=========
	A set of safe (read: easy to use, hard to misuse) crypto APIs.

	.. attention::

	This module is under construction.

	The following crypto services are provided by this module.

	1. Hashing a message with `SHA256`_.
	2. Verifying a digital signature signed with `ECDSA`_ over the NIST P256 curve.
	3. Many more to come ...

	SHA256
	------

	1. Obtaining a oneshot digest.

	.. code-block:: cpp

	#include "pw_crypto/sha256.h"

	std::byte digest[32];
	Status status = pw::crypto::sha256::Hash(message, digest);

	2. Hashing a long, potentially non-contiguous message.

	.. code-block:: cpp

	#include "pw_crypto/sha256.h"

	std::byte digest[32];
	auto h = pw::crypto::sha256::Sha256();

	while (/* chunk ← Get next chunk of message */) {
	h.Update(chunk);
	}

	Status status = h.Final(digest);

	ECDSA
	-----

	1. Verifying a digital signature signed with ECDSA over the NIST P256 curve.

	.. code-block:: cpp

	#include "pw_crypto/sha256.h"

	std::byte digest[32];
	auto status = pw::crypto::sha256::Hash(message, digest);

	if (!status.ok()) {
	// handle errors.
	}

	bool valid = pw::crypto::ecdsa::VerifyP256Signature(public_key, digest, signature).ok();

	2. Verifying a digital signature signed with ECDSA over the NIST P256 curve, with a long and/or non-contiguous message.

	.. code-block:: cpp

	#include "pw_crypto/sha256.h"

	std::byte digest[32];
	auto h = pw::crypto::sha256::Sha256();

	while (/* chunk ← Get the next chunk of message */) {
	h.Update(chunk);
	}

	auto status = h.Final(digest);
	bool valid = status.ok() && pw::crypto::ecdsa::VerifyP256Signature(public_key, digest, signature).ok();

	Configuration
	-------------

	The crypto services offered by pw_crypto can be backed by different backend crypto libraries. For now only Mbed TLS is supported, others are under construction.

	Mbed TLS
	^^^^^^^^

	To select the Mbed TLS backend, the MbedTLS library needs to be installed and configured.

	.. code-block:: sh

	# Install and configure MbedTLS
	pw package install mbedtls
	gn gen out --args='dir_pw_third_party_mbedtls="//.environment/packages/mbedtls" pw_crypto_SHA256_BACKEND="//pw_crypto:sha256_mbedtls" pw_crypto_ECDSA_BACKEND="//pw_crypto:ecdsa_mbedtls"'

	ninja -C out

	For optimal code size and/or performance, the Mbed TLS library needs to be configured per product. Mbed TLS configuration is achieved by turning on and off MBEDTLS_* options in a config.h file. See //third_party/mbedtls for how this is done.

	``pw::crypto::sha256`` does not need any special configuration as it uses the mbedtls_sha256_* APIs directly. However you can optionally turn on ``MBEDTLS_SHA256_SMALLER`` to further reduce the code size to from 3KiB to ~1.8KiB at a ~30% slowdown cost (Cortex-M4).

	.. code-block:: c

	#define MBEDTLS_SHA256_SMALLER

	``pw::crypto::ecdsa`` requires the following minimum configurations which yields a code size of ~12KiB.

	.. code-block:: c

	#define MBEDTLS_BIGNUM_C
	#define MBEDTLS_ECP_C
	#define MBEDTLS_ECDSA_C
	// The ASN1 options are needed only because mbedtls considers and verifies
	// them (in check_config.h) as dependencies of MBEDTLS_ECDSA_C.
	#define MBEDTLS_ASN1_WRITE_C
	#define MBEDTLS_ASN1_PARSE_C
	#define MBEDTLS_ECP_NO_INTERNAL_RNG
	#define MBEDTLS_ECP_DP_SECP256R1_ENABLED

	BoringSSL
	^^^^^^^^^

	To select the BoringSSL backend, the BoringSSL library needs to be installed and configured.

	.. code-block:: sh

	# Install and configure BoringSSL
	pw package install boringssl
	gn gen out --args='dir_pw_third_party_boringssl="//.environment/packages/boringssl" pw_crypto_SHA256_BACKEND="//pw_crypto:sha256_boringssl"'

	ninja -C out

	Size Reports
	------------

	Below are size reports for each crypto service. These vary across configurations.

	.. include:: size_report