1
0
mirror of https://github.com/VCMP-SqMod/SqMod.git synced 2024-11-09 01:07:16 +01:00
SqMod/vendor/POCO/NetSSL_OpenSSL/include/Poco/Net/Context.h
2021-08-22 18:07:06 +03:00

500 lines
18 KiB
C++

//
// Context.h
//
// Library: NetSSL_OpenSSL
// Package: SSLCore
// Module: Context
//
// Definition of the Context class.
//
// Copyright (c) 2006-2010, Applied Informatics Software Engineering GmbH.
// and Contributors.
//
// SPDX-License-Identifier: BSL-1.0
//
#ifndef NetSSL_Context_INCLUDED
#define NetSSL_Context_INCLUDED
#include "Poco/Net/NetSSL.h"
#include "Poco/Net/SocketDefs.h"
#include "Poco/Net/InvalidCertificateHandler.h"
#include "Poco/Crypto/X509Certificate.h"
#include "Poco/Crypto/EVPPKey.h"
#include "Poco/Crypto/RSAKey.h"
#include "Poco/RefCountedObject.h"
#include "Poco/SharedPtr.h"
#include "Poco/AutoPtr.h"
#include <openssl/ssl.h>
#include <cstdlib>
namespace Poco {
namespace Net {
class NetSSL_API Context: public Poco::RefCountedObject
/// This class encapsulates context information for
/// an SSL server or client, such as the certificate
/// verification mode and the location of certificates
/// and private key files, as well as the list of
/// supported ciphers.
///
/// The Context class is also used to control
/// SSL session caching on the server and client side.
///
/// A Note Regarding TLSv1.3 Support:
///
/// TLSv1.3 support requires at least OpenSSL version 1.1.1.
/// Make sure that the TLSv1.3 cipher suites are enabled:
///
/// - TLS_AES_256_GCM_SHA384
/// - TLS_CHACHA20_POLY1305_SHA256
/// - TLS_AES_128_GCM_SHA256
/// - TLS_AES_128_CCM_8_SHA256
/// - TLS_AES_128_CCM_SHA256
///
/// The first three of the above cipher suites should be enabled
/// by default in OpenSSL if you do not provide an explicit
/// cipher configuration (cipherList).
{
public:
using Ptr = Poco::AutoPtr<Context>;
enum Usage
{
TLS_CLIENT_USE, /// Context is used by a client for TLSv1 or higher. Use requireMinimumProtocol() or disableProtocols() to disable undesired older versions.
TLS_SERVER_USE, /// Context is used by a client for TLSv1 or higher. Use requireMinimumProtocol() or disableProtocols() to disable undesired older versions.
CLIENT_USE, /// DEPRECATED. Context is used by a client.
SERVER_USE, /// DEPRECATED. Context is used by a server.
TLSV1_CLIENT_USE, /// DEPRECATED. Context is used by a client requiring TLSv1.
TLSV1_SERVER_USE, /// DEPRECATED. Context is used by a server requiring TLSv1.
TLSV1_1_CLIENT_USE, /// DEPRECATED. Context is used by a client requiring TLSv1.1 (OpenSSL 1.0.0 or newer).
TLSV1_1_SERVER_USE, /// DEPRECATED. Context is used by a server requiring TLSv1.1 (OpenSSL 1.0.0 or newer).
TLSV1_2_CLIENT_USE, /// DEPRECATED. Context is used by a client requiring TLSv1.2 (OpenSSL 1.0.1 or newer).
TLSV1_2_SERVER_USE, /// DEPRECATED. Context is used by a server requiring TLSv1.2 (OpenSSL 1.0.1 or newer).
TLSV1_3_CLIENT_USE, /// DEPRECATED. Context is used by a client requiring TLSv1.3 (OpenSSL 1.1.1 or newer).
TLSV1_3_SERVER_USE /// DEPRECATED. Context is used by a server requiring TLSv1.3 (OpenSSL 1.1.1 or newer).
};
enum VerificationMode
{
VERIFY_NONE = SSL_VERIFY_NONE,
/// Server: The server will not send a client certificate
/// request to the client, so the client will not send a certificate.
///
/// Client: If not using an anonymous cipher (by default disabled),
/// the server will send a certificate which will be checked, but
/// the result of the check will be ignored.
VERIFY_RELAXED = SSL_VERIFY_PEER,
/// Server: The server sends a client certificate request to the
/// client. The certificate returned (if any) is checked.
/// If the verification process fails, the TLS/SSL handshake is
/// immediately terminated with an alert message containing the
/// reason for the verification failure.
///
/// Client: The server certificate is verified, if one is provided.
/// If the verification process fails, the TLS/SSL handshake is
/// immediately terminated with an alert message containing the
/// reason for the verification failure.
VERIFY_STRICT = SSL_VERIFY_PEER | SSL_VERIFY_FAIL_IF_NO_PEER_CERT,
/// Server: If the client did not return a certificate, the TLS/SSL
/// handshake is immediately terminated with a handshake failure
/// alert.
///
/// Client: Same as VERIFY_RELAXED.
VERIFY_ONCE = SSL_VERIFY_PEER | SSL_VERIFY_CLIENT_ONCE
/// Server: Only request a client certificate on the initial
/// TLS/SSL handshake. Do not ask for a client certificate
/// again in case of a renegotiation.
///
/// Client: Same as VERIFY_RELAXED.
};
enum Protocols
{
PROTO_SSLV2 = 0x01,
PROTO_SSLV3 = 0x02,
PROTO_TLSV1 = 0x04,
PROTO_TLSV1_1 = 0x08,
PROTO_TLSV1_2 = 0x10,
PROTO_TLSV1_3 = 0x20
};
struct NetSSL_API Params
{
Params();
/// Initializes the struct with default values.
std::string privateKeyFile;
/// Path to the private key file used for encryption.
/// Can be empty if no private key file is used.
std::string certificateFile;
/// Path to the certificate file (in PEM format).
///
/// If the private key and the certificate are stored in the same file, this
/// can be empty if privateKeyFile is given.
std::string caLocation;
/// Path to the file or directory containing the CA/root certificates.
/// Can be empty if the OpenSSL builtin CA certificates
/// are used (see loadDefaultCAs).
VerificationMode verificationMode;
/// Specifies whether and how peer certificates are validated.
/// Defaults to VERIFY_RELAXED.
int verificationDepth;
/// Sets the upper limit for verification chain sizes. Verification
/// will fail if a certificate chain larger than this is encountered.
/// Defaults to 9.
bool loadDefaultCAs;
/// Specifies whether the builtin CA certificates from OpenSSL are used.
/// Defaults to false.
bool ocspStaplingVerification;
/// Specifies whether Client should verify OCSP Response
/// Defaults to false.
std::string cipherList;
/// Specifies the supported ciphers in OpenSSL notation.
/// Defaults to "ALL:!ADH:!LOW:!EXP:!MD5:@STRENGTH".
std::string dhParamsFile;
/// Specifies a file containing Diffie-Hellman parameters.
/// If empty, the default parameters are used.
bool dhUse2048Bits;
/// If set to true, will use 2048-bit MODP Group with 256-bit
/// prime order subgroup (RFC5114) instead of 1024-bit for DH.
std::string ecdhCurve;
/// OpenSSL 1.0.1 and earlier:
/// Specifies the name of the curve to use for ECDH, based
/// on the curve names specified in RFC 4492.
/// Defaults to "prime256v1".
/// OpenSSL 1.0.2 to 1.1.0:
/// Specifies the colon-separated list of curves
/// to be used for ECDH, based on the curve names
/// defined by OpenSSL, such as
/// "X448:X25519:P-521:P-384:P-256"
/// Defaults to the subset supported by the OpenSSL version
/// among the above.
/// OpenSSL 1.1.1 and above:
/// Specifies the colon-separated list of groups
/// (some of which can be curves) to be used for ECDH
/// and other TLSv1.3 ephemeral key negotiation, based
/// on the group names defined by OpenSSL. Defaults to
/// "X448:X25519:ffdhe4096:ffdhe3072:ffdhe2048:ffdhe6144:ffdhe8192:P-521:P-384:P-256"
};
using InvalidCertificateHandlerPtr = Poco::SharedPtr<InvalidCertificateHandler>;
Context(Usage usage, const Params& params);
/// Creates a Context using the given parameters.
///
/// * usage specifies whether the context is used by a client or server.
/// * params specifies the context parameters.
Context(
Usage usage,
const std::string& privateKeyFile,
const std::string& certificateFile,
const std::string& caLocation,
VerificationMode verificationMode = VERIFY_RELAXED,
int verificationDepth = 9,
bool loadDefaultCAs = false,
const std::string& cipherList = "ALL:!ADH:!LOW:!EXP:!MD5:@STRENGTH");
/// Creates a Context.
///
/// * usage specifies whether the context is used by a client or server.
/// * privateKeyFile contains the path to the private key file used for encryption.
/// Can be empty if no private key file is used.
/// * certificateFile contains the path to the certificate file (in PEM format).
/// If the private key and the certificate are stored in the same file, this
/// can be empty if privateKeyFile is given.
/// * caLocation contains the path to the file or directory containing the
/// CA/root certificates. Can be empty if the OpenSSL builtin CA certificates
/// are used (see loadDefaultCAs).
/// * verificationMode specifies whether and how peer certificates are validated.
/// * verificationDepth sets the upper limit for verification chain sizes. Verification
/// will fail if a certificate chain larger than this is encountered.
/// * loadDefaultCAs specifies whether the builtin CA certificates from OpenSSL are used.
/// * cipherList specifies the supported ciphers in OpenSSL notation.
///
/// Note: If the private key is protected by a passphrase, a PrivateKeyPassphraseHandler
/// must have been setup with the SSLManager, or the SSLManager's PrivateKeyPassphraseRequired
/// event must be handled.
Context(
Usage usage,
const std::string& caLocation,
VerificationMode verificationMode = VERIFY_RELAXED,
int verificationDepth = 9,
bool loadDefaultCAs = false,
const std::string& cipherList = "ALL:!ADH:!LOW:!EXP:!MD5:@STRENGTH");
/// Creates a Context.
///
/// * usage specifies whether the context is used by a client or server.
/// * caLocation contains the path to the file or directory containing the
/// CA/root certificates. Can be empty if the OpenSSL builtin CA certificates
/// are used (see loadDefaultCAs).
/// * verificationMode specifies whether and how peer certificates are validated.
/// * verificationDepth sets the upper limit for verification chain sizes. Verification
/// will fail if a certificate chain larger than this is encountered.
/// * loadDefaultCAs specifies whether the builtin CA certificates from OpenSSL are used.
/// * cipherList specifies the supported ciphers in OpenSSL notation.
///
/// Note that a private key and/or certificate must be specified with
/// usePrivateKey()/useCertificate() before the Context can be used.
~Context();
/// Destroys the Context.
void useCertificate(const Poco::Crypto::X509Certificate& certificate);
/// Sets the certificate to be used by the Context.
///
/// To set-up a complete certificate chain, it might be
/// necessary to call addChainCertificate() to specify
/// additional certificates.
///
/// Note that useCertificate() must always be called before
/// usePrivateKey().
void addChainCertificate(const Poco::Crypto::X509Certificate& certificate);
/// Adds a certificate for certificate chain validation.
void addCertificateAuthority(const Poco::Crypto::X509Certificate& certificate);
/// Add one trusted certification authority to be used by the Context.
void usePrivateKey(const Poco::Crypto::RSAKey& key);
/// Sets the private key to be used by the Context.
///
/// Note that useCertificate() must always be called before
/// usePrivateKey().
///
/// Note: If the private key is protected by a passphrase, a PrivateKeyPassphraseHandler
/// must have been setup with the SSLManager, or the SSLManager's PrivateKeyPassphraseRequired
/// event must be handled.
void usePrivateKey(const Poco::Crypto::EVPPKey &pkey);
/// Sets the private key to be used by the Context.
///
/// Note that useCertificate() must always be called before
/// usePrivateKey().
///
/// Note: If the private key is protected by a passphrase, a PrivateKeyPassphraseHandler
/// must have been setup with the SSLManager, or the SSLManager's PrivateKeyPassphraseRequired
/// event must be handled.
SSL_CTX* sslContext() const;
/// Returns the underlying OpenSSL SSL Context object.
Usage usage() const;
/// Returns whether the context is for use by a client or by a server
/// and whether TLSv1 is required.
bool isForServerUse() const;
/// Returns true iff the context is for use by a server.
Context::VerificationMode verificationMode() const;
/// Returns the verification mode.
void enableSessionCache(bool flag = true);
/// Enable or disable SSL/TLS session caching.
/// For session caching to work, it must be enabled
/// on the server, as well as on the client side.
///
/// The default is disabled session caching.
///
/// To enable session caching on the server side, use the
/// two-argument version of this method to specify
/// a session ID context.
void enableSessionCache(bool flag, const std::string& sessionIdContext);
/// Enables or disables SSL/TLS session caching on the server.
/// For session caching to work, it must be enabled
/// on the server, as well as on the client side.
///
/// SessionIdContext contains the application's unique
/// session ID context, which becomes part of each
/// session identifier generated by the server within this
/// context. SessionIdContext can be an arbitrary sequence
/// of bytes with a maximum length of SSL_MAX_SSL_SESSION_ID_LENGTH.
///
/// A non-empty sessionIdContext should be specified even if
/// session caching is disabled to avoid problems with clients
/// requesting to reuse a session (e.g. Firefox 3.6).
///
/// This method may only be called on SERVER_USE Context objects.
bool sessionCacheEnabled() const;
/// Returns true iff the session cache is enabled.
void setSessionCacheSize(std::size_t size);
/// Sets the maximum size of the server session cache, in number of
/// sessions. The default size (according to OpenSSL documentation)
/// is 1024*20, which may be too large for many applications,
/// especially on embedded platforms with limited memory.
///
/// Specifying a size of 0 will set an unlimited cache size.
///
/// This method may only be called on SERVER_USE Context objects.
std::size_t getSessionCacheSize() const;
/// Returns the current maximum size of the server session cache.
///
/// This method may only be called on SERVER_USE Context objects.
void setSessionTimeout(long seconds);
/// Sets the timeout (in seconds) of cached sessions on the server.
/// A cached session will be removed from the cache if it has
/// not been used for the given number of seconds.
///
/// This method may only be called on SERVER_USE Context objects.
long getSessionTimeout() const;
/// Returns the timeout (in seconds) of cached sessions on the server.
///
/// This method may only be called on SERVER_USE Context objects.
void flushSessionCache();
/// Flushes the SSL session cache on the server.
///
/// This method may only be called on SERVER_USE Context objects.
void enableExtendedCertificateVerification(bool flag = true);
/// Enable or disable the automatic post-connection
/// extended certificate verification.
///
/// See X509Certificate::verify() for more information.
bool extendedCertificateVerificationEnabled() const;
/// Returns true iff automatic extended certificate
/// verification is enabled.
void disableStatelessSessionResumption();
/// Newer versions of OpenSSL support RFC 4507 tickets for stateless
/// session resumption.
///
/// The feature can be disabled by calling this method.
void disableProtocols(int protocols);
/// Disables the given protocols.
///
/// The protocols to be disabled are specified by OR-ing
/// values from the Protocols enumeration, e.g.:
///
/// context.disableProtocols(PROTO_SSLV2 | PROTO_SSLV3);
void requireMinimumProtocol(Protocols protocol);
/// Disables all protocol version lower than the given one.
/// To require at least TLS 1.2 or later:
///
/// context.requireMinimumProtocol(PROTO_TLSV1_2);
void preferServerCiphers();
/// When choosing a cipher, use the server's preferences instead of the client
/// preferences. When not called, the SSL server will always follow the clients
/// preferences. When called, the SSL/TLS server will choose following its own
/// preferences.
bool ocspStaplingResponseVerificationEnabled() const;
/// Returns true if automatic OCSP response
/// reception and verification is enabled for client connections
void setInvalidCertificateHandler(InvalidCertificateHandlerPtr pInvalidCertificageHandler);
/// Sets a Context-specific InvalidCertificateHandler.
///
/// If specified, this InvalidCertificateHandler will be used instead of the
/// one globally set in the SSLManager.
InvalidCertificateHandlerPtr getInvalidCertificateHandler() const;
/// Returns the InvalidCertificateHandler set for this Context,
/// or a null pointer if none has been set.
private:
void init(const Params& params);
/// Initializes the Context with the given parameters.
void initDH(bool use2048Bits, const std::string& dhFile);
/// Initializes the Context with Diffie-Hellman parameters.
void initECDH(const std::string& curve);
/// Initializes the Context with Elliptic-Curve Diffie-Hellman key
/// exchange curve parameters.
void createSSLContext();
/// Create a SSL_CTX object according to Context configuration.
Usage _usage;
VerificationMode _mode;
SSL_CTX* _pSSLContext;
bool _extendedCertificateVerification;
bool _ocspStaplingResponseVerification;
InvalidCertificateHandlerPtr _pInvalidCertificateHandler;
};
//
// inlines
//
inline Context::Usage Context::usage() const
{
return _usage;
}
inline bool Context::isForServerUse() const
{
return _usage == SERVER_USE
|| _usage == TLS_SERVER_USE
|| _usage == TLSV1_SERVER_USE
|| _usage == TLSV1_1_SERVER_USE
|| _usage == TLSV1_2_SERVER_USE
|| _usage == TLSV1_3_SERVER_USE;
}
inline Context::VerificationMode Context::verificationMode() const
{
return _mode;
}
inline SSL_CTX* Context::sslContext() const
{
return _pSSLContext;
}
inline bool Context::extendedCertificateVerificationEnabled() const
{
return _extendedCertificateVerification;
}
inline bool Context::ocspStaplingResponseVerificationEnabled() const
{
return _ocspStaplingResponseVerification;
}
inline Context::InvalidCertificateHandlerPtr Context::getInvalidCertificateHandler() const
{
return _pInvalidCertificateHandler;
}
} } // namespace Poco::Net
#endif // NetSSL_Context_INCLUDED