rtc_base/message_digest.h - src - Git at Google

 /*
  *  Copyright 2004 The WebRTC Project Authors. All rights reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 #ifndef RTC_BASE_MESSAGE_DIGEST_H_
 #define RTC_BASE_MESSAGE_DIGEST_H_

 #include <stddef.h>

 #include <string>

 #include "absl/strings/string_view.h"

 namespace webrtc {

 // Definitions for the digest algorithms.
 extern const char DIGEST_MD5[];
 extern const char DIGEST_SHA_1[];
 extern const char DIGEST_SHA_224[];
 extern const char DIGEST_SHA_256[];
 extern const char DIGEST_SHA_384[];
 extern const char DIGEST_SHA_512[];

 // A general class for computing hashes.
 class MessageDigest {
  public:
   enum { kMaxSize = 64 };  // Maximum known size (SHA-512)
   virtual ~MessageDigest() {}
   // Returns the digest output size (e.g. 16 bytes for MD5).
   virtual size_t Size() const = 0;
   // Updates the digest with `len` bytes from `buf`.
   virtual void Update(const void* buf, size_t len) = 0;
   // Outputs the digest value to `buf` with length `len`.
   // Returns the number of bytes written, i.e., Size().
   virtual size_t Finish(void* buf, size_t len) = 0;
 };

 // A factory class for creating digest objects.
 class MessageDigestFactory {
  public:
   static MessageDigest* Create(absl::string_view alg);
 };

 // A check that an algorithm is in a list of approved digest algorithms
 // from RFC 4572 (FIPS 180).
 bool IsFips180DigestAlgorithm(absl::string_view alg);

 // Functions to create hashes.

 // Computes the hash of `in_len` bytes of `input`, using the `digest` hash
 // implementation, and outputs the hash to the buffer `output`, which is
 // `out_len` bytes long. Returns the number of bytes written to `output` if
 // successful, or 0 if `out_len` was too small.
 size_t ComputeDigest(MessageDigest* digest,
                      const void* input,
                      size_t in_len,
                      void* output,
                      size_t out_len);
 // Like the previous function, but creates a digest implementation based on
 // the desired digest name `alg`, e.g. DIGEST_SHA_1. Returns 0 if there is no
 // digest with the given name.
 size_t ComputeDigest(absl::string_view alg,
                      const void* input,
                      size_t in_len,
                      void* output,
                      size_t out_len);
 // Computes the hash of `input` using the `digest` hash implementation, and
 // returns it as a hex-encoded string.
 std::string ComputeDigest(MessageDigest* digest, absl::string_view input);
 // Like the previous function, but creates a digest implementation based on
 // the desired digest name `alg`, e.g. DIGEST_SHA_1. Returns empty string if
 // there is no digest with the given name.
 std::string ComputeDigest(absl::string_view alg, absl::string_view input);
 // Like the previous function, but returns an explicit result code.
 bool ComputeDigest(absl::string_view alg,
                    absl::string_view input,
                    std::string* output);

 // Shorthand way to compute a hex-encoded hash using MD5.
 inline std::string MD5(absl::string_view input) {
   return ComputeDigest(DIGEST_MD5, input);
 }

 // Functions to compute RFC 2104 HMACs.

 // Computes the HMAC of `in_len` bytes of `input`, using the `digest` hash
 // implementation and `key_len` bytes of `key` to key the HMAC, and outputs
 // the HMAC to the buffer `output`, which is `out_len` bytes long. Returns the
 // number of bytes written to `output` if successful, or 0 if `out_len` was too
 // small.
 size_t ComputeHmac(MessageDigest* digest,
                    const void* key,
                    size_t key_len,
                    const void* input,
                    size_t in_len,
                    void* output,
                    size_t out_len);
 // Like the previous function, but creates a digest implementation based on
 // the desired digest name `alg`, e.g. DIGEST_SHA_1. Returns 0 if there is no
 // digest with the given name.
 size_t ComputeHmac(absl::string_view alg,
                    const void* key,
                    size_t key_len,
                    const void* input,
                    size_t in_len,
                    void* output,
                    size_t out_len);
 // Computes the HMAC of `input` using the `digest` hash implementation and `key`
 // to key the HMAC, and returns it as a hex-encoded string.
 std::string ComputeHmac(MessageDigest* digest,
                         absl::string_view key,
                         absl::string_view input);
 // Like the previous function, but creates a digest implementation based on
 // the desired digest name `alg`, e.g. DIGEST_SHA_1. Returns empty string if
 // there is no digest with the given name.
 std::string ComputeHmac(absl::string_view alg,
                         absl::string_view key,
                         absl::string_view input);
 // Like the previous function, but returns an explicit result code.
 bool ComputeHmac(absl::string_view alg,
                  absl::string_view key,
                  absl::string_view input,
                  std::string* output);

 }  //  namespace webrtc


 #endif  // RTC_BASE_MESSAGE_DIGEST_H_
	/*
	* Copyright 2004 The WebRTC Project Authors. All rights reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	#ifndef RTC_BASE_MESSAGE_DIGEST_H_
	#define RTC_BASE_MESSAGE_DIGEST_H_

	#include <stddef.h>

	#include <string>

	#include "absl/strings/string_view.h"

	namespace webrtc {

	// Definitions for the digest algorithms.
	extern const char DIGEST_MD5[];
	extern const char DIGEST_SHA_1[];
	extern const char DIGEST_SHA_224[];
	extern const char DIGEST_SHA_256[];
	extern const char DIGEST_SHA_384[];
	extern const char DIGEST_SHA_512[];

	// A general class for computing hashes.
	class MessageDigest {
	public:
	enum { kMaxSize = 64 }; // Maximum known size (SHA-512)
	virtual ~MessageDigest() {}
	// Returns the digest output size (e.g. 16 bytes for MD5).
	virtual size_t Size() const = 0;
	// Updates the digest with `len` bytes from `buf`.
	virtual void Update(const void* buf, size_t len) = 0;
	// Outputs the digest value to `buf` with length `len`.
	// Returns the number of bytes written, i.e., Size().
	virtual size_t Finish(void* buf, size_t len) = 0;
	};

	// A factory class for creating digest objects.
	class MessageDigestFactory {
	public:
	static MessageDigest* Create(absl::string_view alg);
	};

	// A check that an algorithm is in a list of approved digest algorithms
	// from RFC 4572 (FIPS 180).
	bool IsFips180DigestAlgorithm(absl::string_view alg);

	// Functions to create hashes.

	// Computes the hash of `in_len` bytes of `input`, using the `digest` hash
	// implementation, and outputs the hash to the buffer `output`, which is
	// `out_len` bytes long. Returns the number of bytes written to `output` if
	// successful, or 0 if `out_len` was too small.
	size_t ComputeDigest(MessageDigest* digest,
	const void* input,
	size_t in_len,
	void* output,
	size_t out_len);
	// Like the previous function, but creates a digest implementation based on
	// the desired digest name `alg`, e.g. DIGEST_SHA_1. Returns 0 if there is no
	// digest with the given name.
	size_t ComputeDigest(absl::string_view alg,
	const void* input,
	size_t in_len,
	void* output,
	size_t out_len);
	// Computes the hash of `input` using the `digest` hash implementation, and
	// returns it as a hex-encoded string.
	std::string ComputeDigest(MessageDigest* digest, absl::string_view input);
	// Like the previous function, but creates a digest implementation based on
	// the desired digest name `alg`, e.g. DIGEST_SHA_1. Returns empty string if
	// there is no digest with the given name.
	std::string ComputeDigest(absl::string_view alg, absl::string_view input);
	// Like the previous function, but returns an explicit result code.
	bool ComputeDigest(absl::string_view alg,
	absl::string_view input,
	std::string* output);

	// Shorthand way to compute a hex-encoded hash using MD5.
	inline std::string MD5(absl::string_view input) {
	return ComputeDigest(DIGEST_MD5, input);
	}

	// Functions to compute RFC 2104 HMACs.

	// Computes the HMAC of `in_len` bytes of `input`, using the `digest` hash
	// implementation and `key_len` bytes of `key` to key the HMAC, and outputs
	// the HMAC to the buffer `output`, which is `out_len` bytes long. Returns the
	// number of bytes written to `output` if successful, or 0 if `out_len` was too
	// small.
	size_t ComputeHmac(MessageDigest* digest,
	const void* key,
	size_t key_len,
	const void* input,
	size_t in_len,
	void* output,
	size_t out_len);
	// Like the previous function, but creates a digest implementation based on
	// the desired digest name `alg`, e.g. DIGEST_SHA_1. Returns 0 if there is no
	// digest with the given name.
	size_t ComputeHmac(absl::string_view alg,
	const void* key,
	size_t key_len,
	const void* input,
	size_t in_len,
	void* output,
	size_t out_len);
	// Computes the HMAC of `input` using the `digest` hash implementation and `key`
	// to key the HMAC, and returns it as a hex-encoded string.
	std::string ComputeHmac(MessageDigest* digest,
	absl::string_view key,
	absl::string_view input);
	// Like the previous function, but creates a digest implementation based on
	// the desired digest name `alg`, e.g. DIGEST_SHA_1. Returns empty string if
	// there is no digest with the given name.
	std::string ComputeHmac(absl::string_view alg,
	absl::string_view key,
	absl::string_view input);
	// Like the previous function, but returns an explicit result code.
	bool ComputeHmac(absl::string_view alg,
	absl::string_view key,
	absl::string_view input,
	std::string* output);

	} // namespace webrtc


	#endif // RTC_BASE_MESSAGE_DIGEST_H_