src/net/ssl/ssl_config.h - cobalt - Git at Google

 // Copyright 2014 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 NET_SSL_SSL_CONFIG_H_
 #define NET_SSL_SSL_CONFIG_H_

 #include "base/memory/ref_counted.h"
 #include "net/base/net_export.h"
 #include "net/cert/x509_certificate.h"
 #include "net/socket/next_proto.h"
 #include "net/ssl/ssl_private_key.h"
 #include "starboard/types.h"

 namespace net {

 // Various TLS/SSL ProtocolVersion values encoded as uint16_t
 //      struct {
 //          uint8_t major;
 //          uint8_t minor;
 //      } ProtocolVersion;
 // The most significant byte is |major|, and the least significant byte
 // is |minor|.
 enum {
   SSL_PROTOCOL_VERSION_TLS1 = 0x0301,
   SSL_PROTOCOL_VERSION_TLS1_1 = 0x0302,
   SSL_PROTOCOL_VERSION_TLS1_2 = 0x0303,
   SSL_PROTOCOL_VERSION_TLS1_3 = 0x0304,
 };

 enum TLS13Variant {
   kTLS13VariantDraft23,
   kTLS13VariantFinal,
 };

 // Default minimum protocol version.
 NET_EXPORT extern const uint16_t kDefaultSSLVersionMin;

 // Default maximum protocol version.
 NET_EXPORT extern const uint16_t kDefaultSSLVersionMax;

 // Default TLS 1.3 variant.
 NET_EXPORT extern const TLS13Variant kDefaultTLS13Variant;

 // A collection of SSL-related configuration settings.
 struct NET_EXPORT SSLConfig {
   // Default to revocation checking.
   SSLConfig();
   SSLConfig(const SSLConfig& other);
   ~SSLConfig();

   // Returns true if |cert| is one of the certs in |allowed_bad_certs|.
   // The expected cert status is written to |cert_status|. |*cert_status| can
   // be NULL if user doesn't care about the cert status.
   bool IsAllowedBadCert(X509Certificate* cert, CertStatus* cert_status) const;

   // Returns the set of flags to use for certificate verification, which is a
   // bitwise OR of CertVerifier::VerifyFlags that represent this SSLConfig's
   // configuration.
   int GetCertVerifyFlags() const;

   // The minimum and maximum protocol versions that are enabled.
   // (Use the SSL_PROTOCOL_VERSION_xxx enumerators defined above.)
   // SSL 2.0 and SSL 3.0 are not supported. If version_max < version_min, it
   // means no protocol versions are enabled.
   uint16_t version_min;
   uint16_t version_max;

   // The TLS 1.3 variant that is enabled. This only takes affect if TLS 1.3 is
   // also enabled via version_min and version_max.
   TLS13Variant tls13_variant;

   // Whether early data is enabled on this connection. Note that early data has
   // weaker security properties than normal data and changes the
   // SSLClientSocket's behavior. The caller must only send replayable data prior
   // to handshake confirmation. See StreamSocket::ConfirmHandshake for details.
   //
   // Additionally, early data may be rejected by the server, resulting in some
   // socket operation failing with ERR_EARLY_DATA_REJECTED or
   // ERR_WRONG_VERSION_ON_EARLY_DATA before any data is returned from the
   // server. The caller must handle these cases, typically by retrying the
   // high-level operation.
   //
   // If unsure, do not enable this option.
   bool early_data_enabled;

   // Presorted list of cipher suites which should be explicitly prevented from
   // being used in addition to those disabled by the net built-in policy.
   //
   // Though cipher suites are sent in TLS as "uint8_t CipherSuite[2]", in
   // big-endian form, they should be declared in host byte order, with the
   // first uint8_t occupying the most significant byte.
   // Ex: To disable TLS_RSA_WITH_RC4_128_MD5, specify 0x0004, while to
   // disable TLS_ECDH_ECDSA_WITH_RC4_128_SHA, specify 0xC002.
   std::vector<uint16_t> disabled_cipher_suites;

   // Enables the version interference probing mode. While TLS 1.3 has avoided
   // most endpoint intolerance, middlebox interference with TLS 1.3 is
   // rampant. This causes the connection to be discarded on success with
   // ERR_SSL_VERSION_INTERFERENCE.
   bool version_interference_probe;

   bool channel_id_enabled;   // True if TLS channel ID extension is enabled.

   bool false_start_enabled;  // True if we'll use TLS False Start.

   // If true, causes only ECDHE cipher suites to be enabled.
   bool require_ecdhe;

   // TODO(wtc): move the following members to a new SSLParams structure.  They
   // are not SSL configuration settings.

   struct NET_EXPORT CertAndStatus {
     CertAndStatus();
     CertAndStatus(scoped_refptr<X509Certificate> cert, CertStatus status);
     CertAndStatus(const CertAndStatus&);
     ~CertAndStatus();

     scoped_refptr<X509Certificate> cert;
     CertStatus cert_status = 0;
   };

   // Add any known-bad SSL certificate (with its cert status) to
   // |allowed_bad_certs| that should not trigger an ERR_CERT_* error when
   // calling SSLClientSocket::Connect.  This would normally be done in
   // response to the user explicitly accepting the bad certificate.
   std::vector<CertAndStatus> allowed_bad_certs;

   // True if, for a single connection, any dependent network fetches should
   // be disabled. This can be used to avoid triggering re-entrancy in the
   // network layer. For example, fetching a PAC script over HTTPS may cause
   // AIA, OCSP, or CRL fetches to block on retrieving the PAC script, while
   // the PAC script fetch is waiting for those dependent fetches, creating a
   // deadlock.
   bool disable_cert_verification_network_fetches;

   // True if we should send client_cert to the server.
   bool send_client_cert;

   // The list of application level protocols supported with ALPN (Application
   // Layer Protocol Negotation), in decreasing order of preference.  Protocols
   // will be advertised in this order during TLS handshake.
   NextProtoVector alpn_protos;

   // True if renegotiation should be allowed for the default application-level
   // protocol when the peer negotiates neither ALPN nor NPN.
   bool renego_allowed_default;

   // The list of application-level protocols to enable renegotiation for.
   NextProtoVector renego_allowed_for_protos;

   scoped_refptr<X509Certificate> client_cert;
   scoped_refptr<SSLPrivateKey> client_private_key;
 };

 }  // namespace net

 #endif  // NET_SSL_SSL_CONFIG_H_
	// Copyright 2014 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 NET_SSL_SSL_CONFIG_H_
	#define NET_SSL_SSL_CONFIG_H_

	#include "base/memory/ref_counted.h"
	#include "net/base/net_export.h"
	#include "net/cert/x509_certificate.h"
	#include "net/socket/next_proto.h"
	#include "net/ssl/ssl_private_key.h"
	#include "starboard/types.h"

	namespace net {

	// Various TLS/SSL ProtocolVersion values encoded as uint16_t
	// struct {
	// uint8_t major;
	// uint8_t minor;
	// } ProtocolVersion;
	// The most significant byte is \|major\|, and the least significant byte
	// is \|minor\|.
	enum {
	SSL_PROTOCOL_VERSION_TLS1 = 0x0301,
	SSL_PROTOCOL_VERSION_TLS1_1 = 0x0302,
	SSL_PROTOCOL_VERSION_TLS1_2 = 0x0303,
	SSL_PROTOCOL_VERSION_TLS1_3 = 0x0304,
	};

	enum TLS13Variant {
	kTLS13VariantDraft23,
	kTLS13VariantFinal,
	};

	// Default minimum protocol version.
	NET_EXPORT extern const uint16_t kDefaultSSLVersionMin;

	// Default maximum protocol version.
	NET_EXPORT extern const uint16_t kDefaultSSLVersionMax;

	// Default TLS 1.3 variant.
	NET_EXPORT extern const TLS13Variant kDefaultTLS13Variant;

	// A collection of SSL-related configuration settings.
	struct NET_EXPORT SSLConfig {
	// Default to revocation checking.
	SSLConfig();
	SSLConfig(const SSLConfig& other);
	~SSLConfig();

	// Returns true if \|cert\| is one of the certs in \|allowed_bad_certs\|.
	// The expected cert status is written to \|cert_status\|. \|*cert_status\| can
	// be NULL if user doesn't care about the cert status.
	bool IsAllowedBadCert(X509Certificate* cert, CertStatus* cert_status) const;

	// Returns the set of flags to use for certificate verification, which is a
	// bitwise OR of CertVerifier::VerifyFlags that represent this SSLConfig's
	// configuration.
	int GetCertVerifyFlags() const;

	// The minimum and maximum protocol versions that are enabled.
	// (Use the SSL_PROTOCOL_VERSION_xxx enumerators defined above.)
	// SSL 2.0 and SSL 3.0 are not supported. If version_max < version_min, it
	// means no protocol versions are enabled.
	uint16_t version_min;
	uint16_t version_max;

	// The TLS 1.3 variant that is enabled. This only takes affect if TLS 1.3 is
	// also enabled via version_min and version_max.
	TLS13Variant tls13_variant;

	// Whether early data is enabled on this connection. Note that early data has
	// weaker security properties than normal data and changes the
	// SSLClientSocket's behavior. The caller must only send replayable data prior
	// to handshake confirmation. See StreamSocket::ConfirmHandshake for details.
	//
	// Additionally, early data may be rejected by the server, resulting in some
	// socket operation failing with ERR_EARLY_DATA_REJECTED or
	// ERR_WRONG_VERSION_ON_EARLY_DATA before any data is returned from the
	// server. The caller must handle these cases, typically by retrying the
	// high-level operation.
	//
	// If unsure, do not enable this option.
	bool early_data_enabled;

	// Presorted list of cipher suites which should be explicitly prevented from
	// being used in addition to those disabled by the net built-in policy.
	//
	// Though cipher suites are sent in TLS as "uint8_t CipherSuite[2]", in
	// big-endian form, they should be declared in host byte order, with the
	// first uint8_t occupying the most significant byte.
	// Ex: To disable TLS_RSA_WITH_RC4_128_MD5, specify 0x0004, while to
	// disable TLS_ECDH_ECDSA_WITH_RC4_128_SHA, specify 0xC002.
	std::vector<uint16_t> disabled_cipher_suites;

	// Enables the version interference probing mode. While TLS 1.3 has avoided
	// most endpoint intolerance, middlebox interference with TLS 1.3 is
	// rampant. This causes the connection to be discarded on success with
	// ERR_SSL_VERSION_INTERFERENCE.
	bool version_interference_probe;

	bool channel_id_enabled; // True if TLS channel ID extension is enabled.

	bool false_start_enabled; // True if we'll use TLS False Start.

	// If true, causes only ECDHE cipher suites to be enabled.
	bool require_ecdhe;

	// TODO(wtc): move the following members to a new SSLParams structure. They
	// are not SSL configuration settings.

	struct NET_EXPORT CertAndStatus {
	CertAndStatus();
	CertAndStatus(scoped_refptr<X509Certificate> cert, CertStatus status);
	CertAndStatus(const CertAndStatus&);
	~CertAndStatus();

	scoped_refptr<X509Certificate> cert;
	CertStatus cert_status = 0;
	};

	// Add any known-bad SSL certificate (with its cert status) to
	// \|allowed_bad_certs\| that should not trigger an ERR_CERT_* error when
	// calling SSLClientSocket::Connect. This would normally be done in
	// response to the user explicitly accepting the bad certificate.
	std::vector<CertAndStatus> allowed_bad_certs;

	// True if, for a single connection, any dependent network fetches should
	// be disabled. This can be used to avoid triggering re-entrancy in the
	// network layer. For example, fetching a PAC script over HTTPS may cause
	// AIA, OCSP, or CRL fetches to block on retrieving the PAC script, while
	// the PAC script fetch is waiting for those dependent fetches, creating a
	// deadlock.
	bool disable_cert_verification_network_fetches;

	// True if we should send client_cert to the server.
	bool send_client_cert;

	// The list of application level protocols supported with ALPN (Application
	// Layer Protocol Negotation), in decreasing order of preference. Protocols
	// will be advertised in this order during TLS handshake.
	NextProtoVector alpn_protos;

	// True if renegotiation should be allowed for the default application-level
	// protocol when the peer negotiates neither ALPN nor NPN.
	bool renego_allowed_default;

	// The list of application-level protocols to enable renegotiation for.
	NextProtoVector renego_allowed_for_protos;

	scoped_refptr<X509Certificate> client_cert;
	scoped_refptr<SSLPrivateKey> client_private_key;
	};

	} // namespace net

	#endif // NET_SSL_SSL_CONFIG_H_