src/lib/digest/digest.h - fuchsia - Git at Google

 // Copyright 2017 The Fuchsia Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef SRC_LIB_DIGEST_DIGEST_H_
 #define SRC_LIB_DIGEST_DIGEST_H_

 #include <stddef.h>
 #include <stdint.h>
 #include <zircon/compiler.h>
 #include <zircon/types.h>

 #include <memory>
 #include <ostream>

 #include <fbl/string.h>

 namespace digest {

 // The length (in bytes) of a SHA256 hash.
 constexpr size_t kSha256Length = 32;

 // The length (in characters) of a stringified SHA256 hash. Does not include room for a
 // null-terminator character.
 constexpr size_t kSha256HexLength = (kSha256Length * 2);

 // This class represents a digest produced by a hash algorithm.
 // This class is not thread safe.
 class Digest final {
  public:
   Digest();
   explicit Digest(const uint8_t (&bytes)[kSha256Length]);
   Digest(Digest&& other);
   Digest& operator=(const uint8_t (&bytes)[kSha256Length]);
   Digest& operator=(Digest&& other);
   ~Digest();

   const uint8_t* get() const { return bytes_; }
   constexpr size_t len() const { return sizeof(bytes_); }

   // Initializes the hash algorithm context.  It must be called before Update,
   // and after Final when reusing the Digest object.
   void Init();

   // Adds data to be hashed.  This may be called multiple times between calls
   // to |Init| and |Final|.  If A and B are byte sequences of length A_len and
   // B_len, respectively, and AB is the concatenation of A and B, then
   // "Update(A, A_len); Update(B, B_len);" and "Update(AB, A_len + B_len)"
   // yield the same internal state and will produce the same digest when
   // |Final| is called.
   void Update(const void* data, size_t len);

   // Completes the hash algorithm and returns the digest.  This must only be
   // called after a call to |Init|; intervening calls to |Update| are
   // optional.
   const uint8_t* Final();

   // This convenience method performs the hash algorithm in "one shot": It
   // calls |Init| and |Update(data, len)| before returning the result of
   // calling |Final|.
   const uint8_t* Hash(const void* data, size_t len);

   // Converts a null-terminated |hex| string to binary and stores it in this
   // object. |hex| must represent |kLength| bytes, that is, it must have
   // |kLength| * 2 characters.
   zx_status_t Parse(const char* hex, size_t len);
   zx_status_t Parse(const char* hex) { return Parse(hex, strlen(hex)); }
   zx_status_t Parse(const fbl::String& hex) { return Parse(hex.c_str(), hex.length()); }

   // Returns the current digest as a hex string.
   fbl::String ToString() const;

   // Writes digest to |out|.
   void CopyTo(uint8_t (&out)[kSha256Length]) const { CopyTo(out, kSha256Length); }

   // Write digest to |out|. |len| must be at least |kSha256Length|; if it is
   // greater, the remainder of |out| is filled with zeros.
   void CopyTo(uint8_t* out, size_t len) const;

   // Like |CopyTo(out, len)|, but only writes the first |len| bytes of the digest to |out| if |len|
   // is less than |kSha256Length|.
   void CopyTruncatedTo(uint8_t* out, size_t len) const;

   // Equality operators.  Those that take |const uint8_t *| arguments will
   // read |kLength| bytes; callers MUST ensure there are sufficient bytes
   // present.
   bool Equals(const uint8_t* rhs, size_t rhs_len) const;
   bool operator==(const Digest& rhs) const { return Equals(rhs.bytes_, kSha256Length); }
   bool operator!=(const Digest& rhs) const { return !Equals(rhs.bytes_, kSha256Length); }
   bool operator==(const uint8_t (&rhs)[kSha256Length]) const { return Equals(rhs, kSha256Length); }
   bool operator!=(const uint8_t (&rhs)[kSha256Length]) const { return !Equals(rhs, kSha256Length); }

  private:
   // Opaque crypto implementation context.
   struct Context;

   friend std::ostream& operator<<(std::ostream&, const Digest&);

   // Opaque pointer to the crypto implementation context.
   std::unique_ptr<Context> ctx_;
   // The raw bytes of the current digest.  This is filled in either by the
   // assignment operators or the Parse and Final methods.
   uint8_t bytes_[kSha256Length];
 };

 std::ostream& operator<<(std::ostream&, const Digest&);

 }  // namespace digest

 #endif  // SRC_LIB_DIGEST_DIGEST_H_
	// Copyright 2017 The Fuchsia Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef SRC_LIB_DIGEST_DIGEST_H_
	#define SRC_LIB_DIGEST_DIGEST_H_

	#include <stddef.h>
	#include <stdint.h>
	#include <zircon/compiler.h>
	#include <zircon/types.h>

	#include <memory>
	#include <ostream>

	#include <fbl/string.h>

	namespace digest {

	// The length (in bytes) of a SHA256 hash.
	constexpr size_t kSha256Length = 32;

	// The length (in characters) of a stringified SHA256 hash. Does not include room for a
	// null-terminator character.
	constexpr size_t kSha256HexLength = (kSha256Length * 2);

	// This class represents a digest produced by a hash algorithm.
	// This class is not thread safe.
	class Digest final {
	public:
	Digest();
	explicit Digest(const uint8_t (&bytes)[kSha256Length]);
	Digest(Digest&& other);
	Digest& operator=(const uint8_t (&bytes)[kSha256Length]);
	Digest& operator=(Digest&& other);
	~Digest();

	const uint8_t* get() const { return bytes_; }
	constexpr size_t len() const { return sizeof(bytes_); }

	// Initializes the hash algorithm context. It must be called before Update,
	// and after Final when reusing the Digest object.
	void Init();

	// Adds data to be hashed. This may be called multiple times between calls
	// to \|Init\| and \|Final\|. If A and B are byte sequences of length A_len and
	// B_len, respectively, and AB is the concatenation of A and B, then
	// "Update(A, A_len); Update(B, B_len);" and "Update(AB, A_len + B_len)"
	// yield the same internal state and will produce the same digest when
	// \|Final\| is called.
	void Update(const void* data, size_t len);

	// Completes the hash algorithm and returns the digest. This must only be
	// called after a call to \|Init\|; intervening calls to \|Update\| are
	// optional.
	const uint8_t* Final();

	// This convenience method performs the hash algorithm in "one shot": It
	// calls \|Init\| and \|Update(data, len)\| before returning the result of
	// calling \|Final\|.
	const uint8_t* Hash(const void* data, size_t len);

	// Converts a null-terminated \|hex\| string to binary and stores it in this
	// object. \|hex\| must represent \|kLength\| bytes, that is, it must have
	// \|kLength\| * 2 characters.
	zx_status_t Parse(const char* hex, size_t len);
	zx_status_t Parse(const char* hex) { return Parse(hex, strlen(hex)); }
	zx_status_t Parse(const fbl::String& hex) { return Parse(hex.c_str(), hex.length()); }

	// Returns the current digest as a hex string.
	fbl::String ToString() const;

	// Writes digest to \|out\|.
	void CopyTo(uint8_t (&out)[kSha256Length]) const { CopyTo(out, kSha256Length); }

	// Write digest to \|out\|. \|len\| must be at least \|kSha256Length\|; if it is
	// greater, the remainder of \|out\| is filled with zeros.
	void CopyTo(uint8_t* out, size_t len) const;

	// Like \|CopyTo(out, len)\|, but only writes the first \|len\| bytes of the digest to \|out\| if \|len\|
	// is less than \|kSha256Length\|.
	void CopyTruncatedTo(uint8_t* out, size_t len) const;

	// Equality operators. Those that take \|const uint8_t *\| arguments will
	// read \|kLength\| bytes; callers MUST ensure there are sufficient bytes
	// present.
	bool Equals(const uint8_t* rhs, size_t rhs_len) const;
	bool operator==(const Digest& rhs) const { return Equals(rhs.bytes_, kSha256Length); }
	bool operator!=(const Digest& rhs) const { return !Equals(rhs.bytes_, kSha256Length); }
	bool operator==(const uint8_t (&rhs)[kSha256Length]) const { return Equals(rhs, kSha256Length); }
	bool operator!=(const uint8_t (&rhs)[kSha256Length]) const { return !Equals(rhs, kSha256Length); }

	private:
	// Opaque crypto implementation context.
	struct Context;

	friend std::ostream& operator<<(std::ostream&, const Digest&);

	// Opaque pointer to the crypto implementation context.
	std::unique_ptr<Context> ctx_;
	// The raw bytes of the current digest. This is filled in either by the
	// assignment operators or the Parse and Final methods.
	uint8_t bytes_[kSha256Length];
	};

	std::ostream& operator<<(std::ostream&, const Digest&);

	} // namespace digest

	#endif // SRC_LIB_DIGEST_DIGEST_H_