src/crypto/rsa_private_key.h - cobalt - Git at Google

 // Copyright (c) 2012 The Chromium 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 CRYPTO_RSA_PRIVATE_KEY_H_
 #define CRYPTO_RSA_PRIVATE_KEY_H_

 #include "build/build_config.h"

 #if defined(USE_OPENSSL)
 // Forward declaration for openssl/*.h
 typedef struct evp_pkey_st EVP_PKEY;
 #elif defined(USE_NSS)
 // Forward declaration.
 struct SECKEYPrivateKeyStr;
 struct SECKEYPublicKeyStr;
 #elif defined(OS_IOS)
 #include <Security/Security.h>
 #elif defined(OS_MACOSX)
 #include <Security/cssm.h>
 #endif

 #include <list>
 #include <vector>

 #include "base/basictypes.h"
 #include "crypto/crypto_export.h"

 #if defined(OS_WIN)
 #include "crypto/scoped_capi_types.h"
 #endif
 #if defined(USE_NSS)
 #include "base/gtest_prod_util.h"
 #endif

 namespace crypto {

 // Used internally by RSAPrivateKey for serializing and deserializing
 // PKCS #8 PrivateKeyInfo and PublicKeyInfo.
 class PrivateKeyInfoCodec {
  public:

   // ASN.1 encoding of the AlgorithmIdentifier from PKCS #8.
   static const uint8 kRsaAlgorithmIdentifier[];

   // ASN.1 tags for some types we use.
   static const uint8 kBitStringTag = 0x03;
   static const uint8 kIntegerTag = 0x02;
   static const uint8 kNullTag = 0x05;
   static const uint8 kOctetStringTag = 0x04;
   static const uint8 kSequenceTag = 0x30;

   // |big_endian| here specifies the byte-significance of the integer components
   // that will be parsed & serialized (modulus(), etc...) during Import(),
   // Export() and ExportPublicKeyInfo() -- not the ASN.1 DER encoding of the
   // PrivateKeyInfo/PublicKeyInfo (which is always big-endian).
   explicit PrivateKeyInfoCodec(bool big_endian);

   ~PrivateKeyInfoCodec();

   // Exports the contents of the integer components to the ASN.1 DER encoding
   // of the PrivateKeyInfo structure to |output|.
   bool Export(std::vector<uint8>* output);

   // Exports the contents of the integer components to the ASN.1 DER encoding
   // of the PublicKeyInfo structure to |output|.
   bool ExportPublicKeyInfo(std::vector<uint8>* output);

   // Exports the contents of the integer components to the ASN.1 DER encoding
   // of the RSAPublicKey structure to |output|.
   bool ExportPublicKey(std::vector<uint8>* output);

   // Parses the ASN.1 DER encoding of the PrivateKeyInfo structure in |input|
   // and populates the integer components with |big_endian_| byte-significance.
   // IMPORTANT NOTE: This is currently *not* security-approved for importing
   // keys from unstrusted sources.
   bool Import(const std::vector<uint8>& input);

   // Accessors to the contents of the integer components of the PrivateKeyInfo
   // structure.
   std::vector<uint8>* modulus() { return &modulus_; };
   std::vector<uint8>* public_exponent() { return &public_exponent_; };
   std::vector<uint8>* private_exponent() { return &private_exponent_; };
   std::vector<uint8>* prime1() { return &prime1_; };
   std::vector<uint8>* prime2() { return &prime2_; };
   std::vector<uint8>* exponent1() { return &exponent1_; };
   std::vector<uint8>* exponent2() { return &exponent2_; };
   std::vector<uint8>* coefficient() { return &coefficient_; };

  private:
   // Utility wrappers for PrependIntegerImpl that use the class's |big_endian_|
   // value.
   void PrependInteger(const std::vector<uint8>& in, std::list<uint8>* out);
   void PrependInteger(uint8* val, int num_bytes, std::list<uint8>* data);

   // Prepends the integer stored in |val| - |val + num_bytes| with |big_endian|
   // byte-significance into |data| as an ASN.1 integer.
   void PrependIntegerImpl(uint8* val,
                           int num_bytes,
                           std::list<uint8>* data,
                           bool big_endian);

   // Utility wrappers for ReadIntegerImpl that use the class's |big_endian_|
   // value.
   bool ReadInteger(uint8** pos, uint8* end, std::vector<uint8>* out);
   bool ReadIntegerWithExpectedSize(uint8** pos,
                                    uint8* end,
                                    size_t expected_size,
                                    std::vector<uint8>* out);

   // Reads an ASN.1 integer from |pos|, and stores the result into |out| with
   // |big_endian| byte-significance.
   bool ReadIntegerImpl(uint8** pos,
                        uint8* end,
                        std::vector<uint8>* out,
                        bool big_endian);

   // Prepends the integer stored in |val|, starting a index |start|, for
   // |num_bytes| bytes onto |data|.
   void PrependBytes(uint8* val,
                     int start,
                     int num_bytes,
                     std::list<uint8>* data);

   // Helper to prepend an ASN.1 length field.
   void PrependLength(size_t size, std::list<uint8>* data);

   // Helper to prepend an ASN.1 type header.
   void PrependTypeHeaderAndLength(uint8 type,
                                   uint32 length,
                                   std::list<uint8>* output);

   // Helper to prepend an ASN.1 bit string
   void PrependBitString(uint8* val, int num_bytes, std::list<uint8>* output);

   // Read an ASN.1 length field. This also checks that the length does not
   // extend beyond |end|.
   bool ReadLength(uint8** pos, uint8* end, uint32* result);

   // Read an ASN.1 type header and its length.
   bool ReadTypeHeaderAndLength(uint8** pos,
                                uint8* end,
                                uint8 expected_tag,
                                uint32* length);

   // Read an ASN.1 sequence declaration. This consumes the type header and
   // length field, but not the contents of the sequence.
   bool ReadSequence(uint8** pos, uint8* end);

   // Read the RSA AlgorithmIdentifier.
   bool ReadAlgorithmIdentifier(uint8** pos, uint8* end);

   // Read one of the two version fields in PrivateKeyInfo.
   bool ReadVersion(uint8** pos, uint8* end);

   // The byte-significance of the stored components (modulus, etc..).
   bool big_endian_;

   // Component integers of the PrivateKeyInfo
   std::vector<uint8> modulus_;
   std::vector<uint8> public_exponent_;
   std::vector<uint8> private_exponent_;
   std::vector<uint8> prime1_;
   std::vector<uint8> prime2_;
   std::vector<uint8> exponent1_;
   std::vector<uint8> exponent2_;
   std::vector<uint8> coefficient_;

   DISALLOW_COPY_AND_ASSIGN(PrivateKeyInfoCodec);
 };

 // Encapsulates an RSA private key. Can be used to generate new keys, export
 // keys to other formats, or to extract a public key.
 // TODO(hclam): This class should be ref-counted so it can be reused easily.
 class CRYPTO_EXPORT RSAPrivateKey {
  public:
   ~RSAPrivateKey();

   // Create a new random instance. Can return NULL if initialization fails.
   static RSAPrivateKey* Create(uint16 num_bits);

   // Create a new random instance. Can return NULL if initialization fails.
   // The created key is permanent and is not exportable in plaintext form.
   //
   // NOTE: Currently only available if USE_NSS is defined.
   static RSAPrivateKey* CreateSensitive(uint16 num_bits);

   // Create a new instance by importing an existing private key. The format is
   // an ASN.1-encoded PrivateKeyInfo block from PKCS #8. This can return NULL if
   // initialization fails.
   static RSAPrivateKey* CreateFromPrivateKeyInfo(
       const std::vector<uint8>& input);

   // Create a new instance by importing an existing private key. The format is
   // an ASN.1-encoded PrivateKeyInfo block from PKCS #8. This can return NULL if
   // initialization fails.
   // The created key is permanent and is not exportable in plaintext form.
   //
   // NOTE: Currently only available if USE_NSS is defined.
   static RSAPrivateKey* CreateSensitiveFromPrivateKeyInfo(
       const std::vector<uint8>& input);

   // Import an existing public key, and then search for the private
   // half in the key database. The format of the public key blob is is
   // an X509 SubjectPublicKeyInfo block. This can return NULL if
   // initialization fails or the private key cannot be found.  The
   // caller takes ownership of the returned object, but nothing new is
   // created in the key database.
   //
   // NOTE: Currently only available if USE_NSS is defined.
   static RSAPrivateKey* FindFromPublicKeyInfo(
       const std::vector<uint8>& input);

 #if defined(USE_OPENSSL)
   EVP_PKEY* key() { return key_; }
 #elif defined(USE_NSS)
   SECKEYPrivateKeyStr* key() { return key_; }
   SECKEYPublicKeyStr* public_key() { return public_key_; }
 #elif defined(OS_WIN)
   HCRYPTPROV provider() { return provider_; }
   HCRYPTKEY key() { return key_; }
 #elif defined(OS_IOS)
   SecKeyRef key() { return key_; }
   SecKeyRef public_key() { return public_key_; }
 #elif defined(OS_MACOSX)
   CSSM_KEY_PTR key() { return &key_; }
   CSSM_KEY_PTR public_key() { return &public_key_; }
 #endif

   // Creates a copy of the object.
   RSAPrivateKey* Copy() const;

   // Exports the private key to a PKCS #1 PrivateKey block.
   bool ExportPrivateKey(std::vector<uint8>* output) const;

   // Exports the public key to an X509 SubjectPublicKeyInfo block.
   bool ExportPublicKey(std::vector<uint8>* output) const;

  private:
 #if defined(USE_NSS)
   FRIEND_TEST_ALL_PREFIXES(RSAPrivateKeyNSSTest, FindFromPublicKey);
   FRIEND_TEST_ALL_PREFIXES(RSAPrivateKeyNSSTest, FailedFindFromPublicKey);
 #endif

   // Constructor is private. Use one of the Create*() or Find*()
   // methods above instead.
   RSAPrivateKey();

   // Shared helper for Create() and CreateSensitive().
   // TODO(cmasone): consider replacing |permanent| and |sensitive| with a
   //                flags arg created by ORing together some enumerated values.
   static RSAPrivateKey* CreateWithParams(uint16 num_bits,
                                          bool permanent,
                                          bool sensitive);

   // Shared helper for CreateFromPrivateKeyInfo() and
   // CreateSensitiveFromPrivateKeyInfo().
   static RSAPrivateKey* CreateFromPrivateKeyInfoWithParams(
       const std::vector<uint8>& input, bool permanent, bool sensitive);

 #if defined(USE_OPENSSL)
   EVP_PKEY* key_;
 #elif defined(USE_NSS)
   SECKEYPrivateKeyStr* key_;
   SECKEYPublicKeyStr* public_key_;
 #elif defined(OS_WIN)
   bool InitProvider();

   ScopedHCRYPTPROV provider_;
   ScopedHCRYPTKEY key_;
 #elif defined(OS_IOS)
   SecKeyRef key_;
   SecKeyRef public_key_;
 #elif defined(OS_MACOSX)
   CSSM_KEY key_;
   CSSM_KEY public_key_;
 #endif

   DISALLOW_COPY_AND_ASSIGN(RSAPrivateKey);
 };

 }  // namespace crypto

 #endif  // CRYPTO_RSA_PRIVATE_KEY_H_
	// Copyright (c) 2012 The Chromium 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 CRYPTO_RSA_PRIVATE_KEY_H_
	#define CRYPTO_RSA_PRIVATE_KEY_H_

	#include "build/build_config.h"

	#if defined(USE_OPENSSL)
	// Forward declaration for openssl/*.h
	typedef struct evp_pkey_st EVP_PKEY;
	#elif defined(USE_NSS)
	// Forward declaration.
	struct SECKEYPrivateKeyStr;
	struct SECKEYPublicKeyStr;
	#elif defined(OS_IOS)
	#include <Security/Security.h>
	#elif defined(OS_MACOSX)
	#include <Security/cssm.h>
	#endif

	#include <list>
	#include <vector>

	#include "base/basictypes.h"
	#include "crypto/crypto_export.h"

	#if defined(OS_WIN)
	#include "crypto/scoped_capi_types.h"
	#endif
	#if defined(USE_NSS)
	#include "base/gtest_prod_util.h"
	#endif

	namespace crypto {

	// Used internally by RSAPrivateKey for serializing and deserializing
	// PKCS #8 PrivateKeyInfo and PublicKeyInfo.
	class PrivateKeyInfoCodec {
	public:

	// ASN.1 encoding of the AlgorithmIdentifier from PKCS #8.
	static const uint8 kRsaAlgorithmIdentifier[];

	// ASN.1 tags for some types we use.
	static const uint8 kBitStringTag = 0x03;
	static const uint8 kIntegerTag = 0x02;
	static const uint8 kNullTag = 0x05;
	static const uint8 kOctetStringTag = 0x04;
	static const uint8 kSequenceTag = 0x30;

	// \|big_endian\| here specifies the byte-significance of the integer components
	// that will be parsed & serialized (modulus(), etc...) during Import(),
	// Export() and ExportPublicKeyInfo() -- not the ASN.1 DER encoding of the
	// PrivateKeyInfo/PublicKeyInfo (which is always big-endian).
	explicit PrivateKeyInfoCodec(bool big_endian);

	~PrivateKeyInfoCodec();

	// Exports the contents of the integer components to the ASN.1 DER encoding
	// of the PrivateKeyInfo structure to \|output\|.
	bool Export(std::vector<uint8>* output);

	// Exports the contents of the integer components to the ASN.1 DER encoding
	// of the PublicKeyInfo structure to \|output\|.
	bool ExportPublicKeyInfo(std::vector<uint8>* output);

	// Exports the contents of the integer components to the ASN.1 DER encoding
	// of the RSAPublicKey structure to \|output\|.
	bool ExportPublicKey(std::vector<uint8>* output);

	// Parses the ASN.1 DER encoding of the PrivateKeyInfo structure in \|input\|
	// and populates the integer components with \|big_endian_\| byte-significance.
	// IMPORTANT NOTE: This is currently not security-approved for importing
	// keys from unstrusted sources.
	bool Import(const std::vector<uint8>& input);

	// Accessors to the contents of the integer components of the PrivateKeyInfo
	// structure.
	std::vector<uint8>* modulus() { return &modulus_; };
	std::vector<uint8>* public_exponent() { return &public_exponent_; };
	std::vector<uint8>* private_exponent() { return &private_exponent_; };
	std::vector<uint8>* prime1() { return &prime1_; };
	std::vector<uint8>* prime2() { return &prime2_; };
	std::vector<uint8>* exponent1() { return &exponent1_; };
	std::vector<uint8>* exponent2() { return &exponent2_; };
	std::vector<uint8>* coefficient() { return &coefficient_; };

	private:
	// Utility wrappers for PrependIntegerImpl that use the class's \|big_endian_\|
	// value.
	void PrependInteger(const std::vector<uint8>& in, std::list<uint8>* out);
	void PrependInteger(uint8* val, int num_bytes, std::list<uint8>* data);

	// Prepends the integer stored in \|val\| - \|val + num_bytes\| with \|big_endian\|
	// byte-significance into \|data\| as an ASN.1 integer.
	void PrependIntegerImpl(uint8* val,
	int num_bytes,
	std::list<uint8>* data,
	bool big_endian);

	// Utility wrappers for ReadIntegerImpl that use the class's \|big_endian_\|
	// value.
	bool ReadInteger(uint8** pos, uint8* end, std::vector<uint8>* out);
	bool ReadIntegerWithExpectedSize(uint8** pos,
	uint8* end,
	size_t expected_size,
	std::vector<uint8>* out);

	// Reads an ASN.1 integer from \|pos\|, and stores the result into \|out\| with
	// \|big_endian\| byte-significance.
	bool ReadIntegerImpl(uint8** pos,
	uint8* end,
	std::vector<uint8>* out,
	bool big_endian);

	// Prepends the integer stored in \|val\|, starting a index \|start\|, for
	// \|num_bytes\| bytes onto \|data\|.
	void PrependBytes(uint8* val,
	int start,
	int num_bytes,
	std::list<uint8>* data);

	// Helper to prepend an ASN.1 length field.
	void PrependLength(size_t size, std::list<uint8>* data);

	// Helper to prepend an ASN.1 type header.
	void PrependTypeHeaderAndLength(uint8 type,
	uint32 length,
	std::list<uint8>* output);

	// Helper to prepend an ASN.1 bit string
	void PrependBitString(uint8* val, int num_bytes, std::list<uint8>* output);

	// Read an ASN.1 length field. This also checks that the length does not
	// extend beyond \|end\|.
	bool ReadLength(uint8** pos, uint8* end, uint32* result);

	// Read an ASN.1 type header and its length.
	bool ReadTypeHeaderAndLength(uint8** pos,
	uint8* end,
	uint8 expected_tag,
	uint32* length);

	// Read an ASN.1 sequence declaration. This consumes the type header and
	// length field, but not the contents of the sequence.
	bool ReadSequence(uint8** pos, uint8* end);

	// Read the RSA AlgorithmIdentifier.
	bool ReadAlgorithmIdentifier(uint8** pos, uint8* end);

	// Read one of the two version fields in PrivateKeyInfo.
	bool ReadVersion(uint8** pos, uint8* end);

	// The byte-significance of the stored components (modulus, etc..).
	bool big_endian_;

	// Component integers of the PrivateKeyInfo
	std::vector<uint8> modulus_;
	std::vector<uint8> public_exponent_;
	std::vector<uint8> private_exponent_;
	std::vector<uint8> prime1_;
	std::vector<uint8> prime2_;
	std::vector<uint8> exponent1_;
	std::vector<uint8> exponent2_;
	std::vector<uint8> coefficient_;

	DISALLOW_COPY_AND_ASSIGN(PrivateKeyInfoCodec);
	};

	// Encapsulates an RSA private key. Can be used to generate new keys, export
	// keys to other formats, or to extract a public key.
	// TODO(hclam): This class should be ref-counted so it can be reused easily.
	class CRYPTO_EXPORT RSAPrivateKey {
	public:
	~RSAPrivateKey();

	// Create a new random instance. Can return NULL if initialization fails.
	static RSAPrivateKey* Create(uint16 num_bits);

	// Create a new random instance. Can return NULL if initialization fails.
	// The created key is permanent and is not exportable in plaintext form.
	//
	// NOTE: Currently only available if USE_NSS is defined.
	static RSAPrivateKey* CreateSensitive(uint16 num_bits);

	// Create a new instance by importing an existing private key. The format is
	// an ASN.1-encoded PrivateKeyInfo block from PKCS #8. This can return NULL if
	// initialization fails.
	static RSAPrivateKey* CreateFromPrivateKeyInfo(
	const std::vector<uint8>& input);

	// Create a new instance by importing an existing private key. The format is
	// an ASN.1-encoded PrivateKeyInfo block from PKCS #8. This can return NULL if
	// initialization fails.
	// The created key is permanent and is not exportable in plaintext form.
	//
	// NOTE: Currently only available if USE_NSS is defined.
	static RSAPrivateKey* CreateSensitiveFromPrivateKeyInfo(
	const std::vector<uint8>& input);

	// Import an existing public key, and then search for the private
	// half in the key database. The format of the public key blob is is
	// an X509 SubjectPublicKeyInfo block. This can return NULL if
	// initialization fails or the private key cannot be found. The
	// caller takes ownership of the returned object, but nothing new is
	// created in the key database.
	//
	// NOTE: Currently only available if USE_NSS is defined.
	static RSAPrivateKey* FindFromPublicKeyInfo(
	const std::vector<uint8>& input);

	#if defined(USE_OPENSSL)
	EVP_PKEY* key() { return key_; }
	#elif defined(USE_NSS)
	SECKEYPrivateKeyStr* key() { return key_; }
	SECKEYPublicKeyStr* public_key() { return public_key_; }
	#elif defined(OS_WIN)
	HCRYPTPROV provider() { return provider_; }
	HCRYPTKEY key() { return key_; }
	#elif defined(OS_IOS)
	SecKeyRef key() { return key_; }
	SecKeyRef public_key() { return public_key_; }
	#elif defined(OS_MACOSX)
	CSSM_KEY_PTR key() { return &key_; }
	CSSM_KEY_PTR public_key() { return &public_key_; }
	#endif

	// Creates a copy of the object.
	RSAPrivateKey* Copy() const;

	// Exports the private key to a PKCS #1 PrivateKey block.
	bool ExportPrivateKey(std::vector<uint8>* output) const;

	// Exports the public key to an X509 SubjectPublicKeyInfo block.
	bool ExportPublicKey(std::vector<uint8>* output) const;

	private:
	#if defined(USE_NSS)
	FRIEND_TEST_ALL_PREFIXES(RSAPrivateKeyNSSTest, FindFromPublicKey);
	FRIEND_TEST_ALL_PREFIXES(RSAPrivateKeyNSSTest, FailedFindFromPublicKey);
	#endif

	// Constructor is private. Use one of the Create() or Find()
	// methods above instead.
	RSAPrivateKey();

	// Shared helper for Create() and CreateSensitive().
	// TODO(cmasone): consider replacing \|permanent\| and \|sensitive\| with a
	// flags arg created by ORing together some enumerated values.
	static RSAPrivateKey* CreateWithParams(uint16 num_bits,
	bool permanent,
	bool sensitive);

	// Shared helper for CreateFromPrivateKeyInfo() and
	// CreateSensitiveFromPrivateKeyInfo().
	static RSAPrivateKey* CreateFromPrivateKeyInfoWithParams(
	const std::vector<uint8>& input, bool permanent, bool sensitive);

	#if defined(USE_OPENSSL)
	EVP_PKEY* key_;
	#elif defined(USE_NSS)
	SECKEYPrivateKeyStr* key_;
	SECKEYPublicKeyStr* public_key_;
	#elif defined(OS_WIN)
	bool InitProvider();

	ScopedHCRYPTPROV provider_;
	ScopedHCRYPTKEY key_;
	#elif defined(OS_IOS)
	SecKeyRef key_;
	SecKeyRef public_key_;
	#elif defined(OS_MACOSX)
	CSSM_KEY key_;
	CSSM_KEY public_key_;
	#endif

	DISALLOW_COPY_AND_ASSIGN(RSAPrivateKey);
	};

	} // namespace crypto

	#endif // CRYPTO_RSA_PRIVATE_KEY_H_