/*
- * Copyright (C) 1996-2016 The Squid Software Foundation and contributors
+ * Copyright (C) 1996-2018 The Squid Software Foundation and contributors
*
* Squid software is distributed under GPLv2+ license and includes
* contributions from numerous individuals and organizations.
/// call before generating any SSL context
void Initialize();
-typedef CbDataList<Security::ErrorCode> Errors;
-
class ErrorDetail;
class CertValidationResponse;
typedef RefCount<CertValidationResponse> CertValidationResponsePointer;
-/// Creates SSL Client connection structure and initializes SSL I/O (Comm and BIO).
-/// On errors, emits DBG_IMPORTANT with details and returns false.
-bool CreateClient(Security::ContextPtr sslContext, const Comm::ConnectionPointer &, const char *squidCtx);
-
-/// Creates SSL Server connection structure and initializes SSL I/O (Comm and BIO).
-/// On errors, emits DBG_IMPORTANT with details and returns false.
-bool CreateServer(Security::ContextPtr sslContext, const Comm::ConnectionPointer &, const char *squidCtx);
-
-/// An SSL certificate-related error.
-/// Pairs an error code with the certificate experiencing the error.
-class CertError
-{
-public:
- Security::ErrorCode code; ///< certificate error code
- Security::CertPointer cert; ///< certificate with the above error code
- /**
- * Absolute cert position in the final certificate chain that may include
- * intermediate certificates. Chain positions start with zero and increase
- * towards the root certificate. Negative if unknown.
- */
- int depth;
- CertError(Security::ErrorCode anErr, X509 *aCert, int depth = -1);
- bool operator == (const CertError &ce) const {
- // We expect to be used in contexts where identical certificates have
- // identical pointers.
- return code == ce.code && depth == ce.depth && cert.get() == ce.cert.get();
- }
- bool operator != (const CertError &ce) const {
- return !(*this == ce);
- }
-};
-
-/// Holds a list of certificate SSL errors
-typedef CbDataList<Ssl::CertError> CertErrors;
-
-void SetSessionCallbacks(Security::ContextPtr);
-extern Ipc::MemMap *SessionCache;
-extern const char *SessionCacheName;
-
/// initialize a TLS server context with OpenSSL specific settings
-bool InitServerContext(const Security::ContextPointer &, AnyP::PortCfg &);
+bool InitServerContext(Security::ContextPointer &, AnyP::PortCfg &);
/// initialize a TLS client context with OpenSSL specific settings
-bool InitClientContext(Security::ContextPtr &, Security::PeerOptions &, long options, long flags);
+bool InitClientContext(Security::ContextPointer &, Security::PeerOptions &, long flags);
-} //namespace Ssl
+/// set the certificate verify callback for a context
+void SetupVerifyCallback(Security::ContextPointer &);
-/// \ingroup ServerProtocolSSLAPI
-int ssl_read_method(int, char *, int);
+/// if required, setup callback for generating ephemeral RSA keys
+void MaybeSetupRsaCallback(Security::ContextPointer &);
-/// \ingroup ServerProtocolSSLAPI
-int ssl_write_method(int, const char *, int);
-
-/// \ingroup ServerProtocolSSLAPI
-void ssl_shutdown_method(SSL *ssl);
+} //namespace Ssl
/// \ingroup ServerProtocolSSLAPI
const char *sslGetUserEmail(SSL *ssl);
\ingroup ServerProtocolSSLAPI
* Short names for ssl-bump modes
*/
-extern const char *BumpModeStr[];
+extern std::vector<const char *>BumpModeStr;
/**
\ingroup ServerProtocolSSLAPI
*/
inline const char *bumpMode(int bm)
{
- return (0 <= bm && bm < Ssl::bumpEnd) ? Ssl::BumpModeStr[bm] : NULL;
+ return (0 <= bm && bm < Ssl::bumpEnd) ? Ssl::BumpModeStr.at(bm) : NULL;
}
/// certificates indexed by issuer name
* Searches in serverCertificates list for the cert issuer and if not found
* and Authority Info Access of cert provides a URI return it.
*/
-const char *uriOfIssuerIfMissing(X509 *cert, Security::CertList const &serverCertificates);
+const char *uriOfIssuerIfMissing(X509 *cert, Security::CertList const &serverCertificates, const Security::ContextPointer &context);
/**
* Fill URIs queue with the uris of missing certificates from serverCertificate chain
* if this information provided by Authority Info Access.
*/
-void missingChainCertificatesUrls(std::queue<SBuf> &URIs, Security::CertList const &serverCertificates);
+void missingChainCertificatesUrls(std::queue<SBuf> &URIs, Security::CertList const &serverCertificates, const Security::ContextPointer &context);
/**
\ingroup ServerProtocolSSLAPI
* Generate a certificate to be used as untrusted signing certificate, based on a trusted CA
*/
-bool generateUntrustedCert(Security::CertPointer & untrustedCert, EVP_PKEY_Pointer & untrustedPkey, Security::CertPointer const & cert, EVP_PKEY_Pointer const & pkey);
+bool generateUntrustedCert(Security::CertPointer & untrustedCert, Security::PrivateKeyPointer & untrustedPkey, Security::CertPointer const & cert, Security::PrivateKeyPointer const & pkey);
/// certificates indexed by issuer name
typedef std::multimap<SBuf, X509 *> CertsIndexedList;
\ingroup ServerProtocolSSLAPI
* Decide on the kind of certificate and generate a CA- or self-signed one
*/
-Security::ContextPtr generateSslContext(CertificateProperties const &properties, AnyP::PortCfg &port);
+Security::ContextPointer GenerateSslContext(CertificateProperties const &, Security::ServerOptions &, bool trusted);
/**
\ingroup ServerProtocolSSLAPI
\param properties Check if the context certificate matches the given properties
\return true if the contexts certificate is valid, false otherwise
*/
-bool verifySslCertificate(Security::ContextPtr sslContext, CertificateProperties const &properties);
+bool verifySslCertificate(Security::ContextPointer &, CertificateProperties const &);
/**
\ingroup ServerProtocolSSLAPI
* Read private key and certificate from memory and generate SSL context
* using their.
*/
-Security::ContextPtr generateSslContextUsingPkeyAndCertFromMemory(const char * data, AnyP::PortCfg &port);
+Security::ContextPointer GenerateSslContextUsingPkeyAndCertFromMemory(const char * data, Security::ServerOptions &, bool trusted);
/**
\ingroup ServerProtocolSSLAPI
* Create an SSL context using the provided certificate and key
*/
-Security::ContextPtr createSSLContext(Security::CertPointer & x509, Ssl::EVP_PKEY_Pointer & pkey, AnyP::PortCfg &port);
+Security::ContextPointer createSSLContext(Security::CertPointer & x509, Security::PrivateKeyPointer & pkey, Security::ServerOptions &);
/**
\ingroup ServerProtocolSSLAPI
* Chain signing certificate and chained certificates to an SSL Context
*/
-void chainCertificatesToSSLContext(SSL_CTX *sslContext, AnyP::PortCfg &port);
+void chainCertificatesToSSLContext(Security::ContextPointer &, Security::ServerOptions &);
/**
\ingroup ServerProtocolSSLAPI
* Configure a previously unconfigured SSL context object.
*/
-void configureUnconfiguredSslContext(SSL_CTX *sslContext, Ssl::CertSignAlgorithm signAlgorithm,AnyP::PortCfg &port);
+void configureUnconfiguredSslContext(Security::ContextPointer &, Ssl::CertSignAlgorithm signAlgorithm, AnyP::PortCfg &);
/**
\ingroup ServerProtocolSSLAPI
\ingroup ServerProtocolSSLAPI
* Adds the certificates in certList to the certificate chain of the SSL context
*/
-void addChainToSslContext(Security::ContextPtr sslContext, STACK_OF(X509) *certList);
+void addChainToSslContext(Security::ContextPointer &, Security::CertList &);
/**
\ingroup ServerProtocolSSLAPI
* \param certFilename name of file with certificate and certificates which must be chainned.
* \param keyFilename name of file with private key.
*/
-void readCertChainAndPrivateKeyFromFiles(Security::CertPointer & cert, EVP_PKEY_Pointer & pkey, X509_STACK_Pointer & chain, char const * certFilename, char const * keyFilename);
+void readCertChainAndPrivateKeyFromFiles(Security::CertPointer & cert, Security::PrivateKeyPointer & pkey, Security::CertList &chain, char const * certFilename, char const * keyFilename);
/**
\ingroup ServerProtocolSSLAPI
*/
bool setClientSNI(SSL *ssl, const char *fqdn);
+/**
+ \ingroup ServerProtocolSSLAPI
+ * Generates a unique key based on CertificateProperties object and store it to key
+ */
+void InRamCertificateDbKey(const Ssl::CertificateProperties &certProperties, SBuf &key);
+
+/**
+ \ingroup ServerProtocolSSLAPI
+ Creates and returns an OpenSSL BIO object for writing to `buf` (or throws).
+ TODO: Add support for reading from `buf`.
+ */
+BIO *BIO_new_SBuf(SBuf *buf);
} //namespace Ssl
#if _SQUID_WINDOWS_