/**
* @file netssltransport.cc
*
* @brief SSL driver for NetTransport
* NetSslTransport - a TCP with SSL subclass of NetTcpTransport
*
* Threading: underlying SSL library contains threading
*
* @invariants:
*
* Copyright (c) 2011 Perforce Software
* Confidential. All Rights Reserved.
* @author Wendy Heffner
*
* Creation Date: August 19, 2011
*/
/**
* NOTE:
* The following file only defined if USE_SSL true.
* The setting of this definition is controlled by
* the Jamrules file. If the jam build is specified
* with -sSSL=yes this class will be defined.
*/
# ifdef USE_SSL
# define NEED_ERRNO
# define NEED_SIGNAL
# ifdef OS_NT
# define NEED_FILE
# endif
# define NEED_FCNTL
# define NEED_IOCTL
# define NEED_TYPES
# define NEED_SOCKET_IO
# define NEED_SLEEP
# ifdef OS_MPEIX
# define _SOCKET_SOURCE /* for sys/types.h */
# endif
# define GET_MJR_SSL_VERSION(x) \
(((x) >> 12) & 0xfffffL)
# include <stdhdrs.h>
# ifndef OS_NT
# include <pthread.h>
# endif // not OS_NT
# include <error.h>
# include <strbuf.h>
# include <md5.h>
# include "netaddrinfo.h"
# include <errorlog.h>
# include <debug.h>
# include <bitarray.h>
# include <tunable.h>
# include <error.h>
# include <enviro.h>
# include <msgrpc.h>
# include <timer.h>
# include "datetime.h"
# include "filesys.h"
# include "pathsys.h"
# include <keepalive.h>
# include "netsupport.h"
# include "netport.h"
# include "netportparser.h"
# include "netconnect.h"
# include "nettcpendpoint.h"
# include "nettcptransport.h"
# include "netselect.h"
# include "netdebug.h"
extern "C"
{
// OpenSSL
# include "openssl/bio.h"
# include "openssl/ssl.h"
# include "openssl/err.h"
# if !( defined( OPENSSL_VERSION_TEXT ) && defined( OPENSSL_VERSION_NUMBER ))
# include "openssl/opensslv.h"
# endif
// For strerror
# include <stdio.h>
}
# include "netsslcredentials.h"
# include "netsslendpoint.h"
# include "netssltransport.h"
# include "netsslmacros.h"
////////////////////////////////////////////////////////////////////////////
// Defines and Globals //
////////////////////////////////////////////////////////////////////////////
/*
* Current Cypher Suite Configuration:
* Primary: AES256-SHA SSLv3 Kx=RSA Au=RSA Enc=AES(256) Mac=SHA1
* Secondary: CAMELLIA256-SHA SSLv3 Kx=RSA Au=RSA Enc=Camellia(256) Mac=SHA1
*/
# define SSL_PRIMARY_CIPHER_SUITE "AES256-SHA"
# define SSL_SECONDARY_CIPHER_SUITE "CAMELLIA256-SHA"
const char *P4SslVersionString = OPENSSL_VERSION_TEXT;
unsigned long sCompileVersion = OPENSSL_VERSION_NUMBER;
unsigned long sVersion1_0_0 = 0x1000000f;
const char *sVerStr1_0_0 = "1.0.0";
# ifdef OS_NT
static HANDLE *mutexArray = NULL;
# else
static pthread_mutex_t *mutexArray = NULL;
# endif
typedef struct {
int value;
const char *name;
} SslErrorNames;
SslErrorNames sslErrorNames[] = {
{SSL_ERROR_NONE, " (None)"}, // 0
{SSL_ERROR_SSL, " (SSL)"}, // 1
{SSL_ERROR_WANT_READ, " (Want_Read)"}, // 2
{SSL_ERROR_WANT_WRITE, " (Want_Write)"}, // 3
{SSL_ERROR_WANT_X509_LOOKUP, " (Want_X509_Lookup)"}, // 4
{SSL_ERROR_SYSCALL, " (Syscall)"}, // 5
{SSL_ERROR_ZERO_RETURN, " (Zero_Return)"}, // 6
{SSL_ERROR_WANT_CONNECT, " (Want_Connect)"}, // 7
{SSL_ERROR_WANT_ACCEPT, " (Want_Accept)"} // 8
};
const char *
GetSslErrorName(int err)
{
if( err < SSL_ERROR_NONE || err > SSL_ERROR_WANT_ACCEPT )
return "";
return sslErrorNames[err].name;
}
////////////////////////////////////////////////////////////////////////////
// MutexLocker //
////////////////////////////////////////////////////////////////////////////
# ifdef OS_NT
# define ONE_SECOND 1000
class MutexLocker
{
public:
MutexLocker( HANDLE &mutex );
~MutexLocker();
private:
DWORD retval;
HANDLE &mutex;
};
MutexLocker::MutexLocker( HANDLE &theLock )
: mutex(theLock)
{
retval = WaitForSingleObject( mutex, ONE_SECOND );
if( retval != WAIT_OBJECT_0 )
DEBUGPRINT( SSLDEBUG_ERROR,
"Unable to acquire lock on windows." );
}
MutexLocker::~MutexLocker()
{
if( retval == WAIT_OBJECT_0 )
ReleaseMutex( mutex );
}
# endif // OS_NT
////////////////////////////////////////////////////////////////////////////
// Global //
////////////////////////////////////////////////////////////////////////////
# ifdef OS_NT
HANDLE sClientMutex = CreateMutex (NULL, FALSE, NULL);
HANDLE sServerMutex = CreateMutex (NULL, FALSE, NULL);
# endif // OS_NT
/**
* MillisecondDifference
*
* @brief Utility to find the difference between two DateTimeHighPrecision
* Note: Assumes that the difference is bounded by at most one second
* since this is used to measure passage of time in a select with a 1/2 sec
* timeout.
*
* @param lop left operator in subtraction
* @param rop right operator in subtraction
* @return count of milliseconds difference
*/
int
MillisecondDifference(const DateTimeHighPrecision &lop,
const DateTimeHighPrecision &rop)
{
int sec = lop.Seconds() - rop.Seconds();
int leftMs = (sec * 1000) + (lop.Nanos() / 1000000);
int rightMs = (rop.Nanos() / 1000000);
return (leftMs - rightMs);
}
////////////////////////////////////////////////////////////////////////////
// NetSslTransport - STATIC MEMBERS //
////////////////////////////////////////////////////////////////////////////
SSL_CTX *NetSslTransport::sServerCtx = NULL;
SSL_CTX *NetSslTransport::sClientCtx = NULL;
/**
* NetSslTransport::constructor
*
* @brief constructor
* @invariant assures that bio and ssl are NULL prior to use
*
* @param int socket
* @param bool flag indicating if server or client side
*/
NetSslTransport::NetSslTransport( int t, bool fromClient )
: NetTcpTransport( t, fromClient )
{
this->bio = NULL;
this->ssl = NULL;
this->clientNotSsl = false;
cipherSuite.Set("encrypted");
}
NetSslTransport::NetSslTransport( int t, bool fromClient,
NetSslCredentials &cred )
: NetTcpTransport( t, fromClient ), credentials(cred)
{
this->bio = NULL;
this->ssl = NULL;
this->clientNotSsl = false;
cipherSuite.Set("encrypted");
}
NetSslTransport::~NetSslTransport()
{
Close();
}
// MS Visual Studio didn't implement snprintf until VS 2015. Sigh.
# ifdef _MSC_VER
#define SNPRINTF1(buf, len, msg, arg1) sprintf(buf, msg, arg1)
#define SNPRINTF2(buf, len, msg, arg1, arg2) sprintf(buf, msg, arg1, arg2)
# else
#define SNPRINTF1(buf, len, msg, arg1) snprintf(buf, len, msg, arg1)
#define SNPRINTF2(buf, len, msg, arg1, arg2) snprintf(buf, len, msg, arg1, arg2)
# endif
SSL_CTX *
NetSslTransport::CreateAndInitializeSslContext(const char *conntypename)
{
char msgbuf[128];
size_t bufsize = sizeof(msgbuf) - 1;
SNPRINTF1( msgbuf, bufsize,
"NetSslTransport::Ssl%sInit - Initializing CTX structure.",
conntypename );
TRANSPORT_PRINT_VAR( SSLDEBUG_FUNCTION, msgbuf );
/*
* In OpenSSL v1.1.0 we can use
* TLS_method()
* SSL_CTX_set_min_proto_version()
* SSL_CTX_set_max_proto_version()
* instead of the deprecated
* SSLv23_method()
* and the not-recommended
* SSL_CTX_set_options( SSL_OP_NO_xxx )
* but we still build with OpenSSL v1.0.x, so for now we'll stay
* with the old way of doing things.
*
* See https://www.openssl.org/docs/man1.1.0/ssl/SSLv23_method.html
* Note:
* "Clients should avoid creating "holes" in the set of protocols they support.
* When disabling a protocol, make sure that you also disable either all
* previous or all subsequent protocol versions. In clients, when a protocol
* version is disabled without disabling all previous protocol versions,
* the effect is to also disable all subsequent protocol versions."
*/
/*
* Start by allowing all protocol versions
*/
SSL_CTX *ctxp = SSL_CTX_new( SSLv23_method() );
SNPRINTF1( msgbuf, bufsize, "NetSslTransport::Ssl%sInit SSL_CTX_new", conntypename );
TRANSPORT_PRINT_VAR( SSLDEBUG_FUNCTION, msgbuf );
SSL_CTX_set_mode(
ctxp,
SSL_MODE_ENABLE_PARTIAL_WRITE | SSL_MODE_ACCEPT_MOVING_WRITE_BUFFER );
SNPRINTF1( msgbuf, bufsize, "NetSslTransport::Ssl%sInit SSL_CTX_set_mode", conntypename );
SSLLOGFUNCTION( msgbuf );
/*
* Now disable SSLv2 and SSLv3 (but still allow TLSv1.0 and later)
*/
SSL_CTX_set_options( ctxp, SSL_OP_NO_SSLv2 );
SNPRINTF1( msgbuf, bufsize, "NetSslTransport::Ssl%sInit SSL_CTX_set_options(NO_SSLv2)", conntypename );
SSLLOGFUNCTION( msgbuf );
SSL_CTX_set_options( ctxp, SSL_OP_NO_SSLv3 );
SNPRINTF1( msgbuf, bufsize, "NetSslTransport::Ssl%sInit SSL_CTX_set_options(NO_SSLv3)", conntypename );
SSLLOGFUNCTION( msgbuf );
/*
* Let the customer disable any protocols they don't want.
* Allow only TLS versions in the (closed) range [tlsmin, tlsmax].
*/
int tlsmin = p4tunable.Get( P4TUNE_SSL_TLS_VERSION_MIN );
int tlsmax = p4tunable.Get( P4TUNE_SSL_TLS_VERSION_MAX );
struct TlsVersion {
int value; // tunable value
int proto; // OpenSSL protocol version value
const char *name; // OpenSSL protocol version name
};
/*
* Expand this table if and when new TLS protocol versions are available.
* This table *must* be ordered by the "value" field
* and terminated by a "value" of 0.
*/
static TlsVersion tlsVersions[] = {
{ 10, SSL_OP_NO_TLSv1, "NO_TLSv1.0" },
{ 11, SSL_OP_NO_TLSv1_1, "NO_TLSv1.1" },
{ 12, SSL_OP_NO_TLSv1_2, "NO_TLSv1.2" },
{ 0, 0, NULL}
};
/*
* Pin the value to the legal range.
* Update this code if new values are added to tlsVersions[].
*/
if( tlsmin < 10 )
tlsmin = 10;
if( tlsmin > 12 )
tlsmin = 12;
if( tlsmax < 10 )
tlsmax = 10;
if( tlsmax > 12 )
tlsmax = 12;
if( SSLDEBUG_FUNCTION )
{
p4debug.printf( "NetSslTransport::Ssl%sInit tlsmin=%d, tlsmax=%d\n",
conntypename, tlsmin, tlsmax );
}
// disallow protocols below the requested minimum
for( TlsVersion *vp = tlsVersions; vp->value; vp++ )
{
if( vp->value < tlsmin )
{
SSL_CTX_set_options( ctxp, vp->proto );
SNPRINTF2( msgbuf, bufsize,
"NetSslTransport::Ssl%sInit SSL_CTX_set_options(%s)",
conntypename, vp->name );
SSLLOGFUNCTION( msgbuf );
}
}
// disallow protocols above the requested maximum
for( TlsVersion *vp = tlsVersions; vp->value; vp++ )
{
if( vp->value > tlsmax )
{
SSL_CTX_set_options( ctxp, vp->proto );
SNPRINTF2( msgbuf, bufsize,
"NetSslTransport::Ssl%sInit SSL_CTX_set_options(%s)",
conntypename, vp->name );
SSLLOGFUNCTION( msgbuf );
}
}
return ctxp;
fail:
delete ctxp;
return NULL;
}
/**
* NetSslTransport::SslClientInit
*
* @brief static method to initialize the SSL client-side CTX structure
*
* @param error structure
* @return none
*/
void
NetSslTransport::SslClientInit(Error *e)
{
if( sClientCtx )
return;
# ifdef OS_NT
/*
* Windows multi-threaded so must synchronize
* CTX creation, since we only want one.
*/
MutexLocker locker( sClientMutex );
/*
* Now that we have the lock see if any
* thread created the CTX while we were
* waiting.
*/
# endif // OS_NT
if( !sClientCtx )
{
#ifdef OS_NT
InitLockCallbacks( e );
if( e->Test())
return;
#endif // OS_NT
ValidateRuntimeVsCompiletimeSSLVersion( e );
if( e->Test() )
{
TRANSPORT_PRINT( SSLDEBUG_ERROR,
"Version mismatch between compile OpenSSL version and runtime OpenSSL version." );
return;
}
/*
* Added due to job084753: Swarm is a web app that reuses processes.
* For some reason in this environment the SSL error stack is not removed
* when the process is reused so we need to explicitly remove any previous
* state prior to setting up a new SSL Context.
*/
ERR_remove_thread_state(NULL);
// probably cannot check for error return from this call :-)
SSL_load_error_strings();
SSLCHECKERROR( e,
"NetSslTransport::SslClientInit SSL_load_error_strings",
MsgRpc::SslInit,
fail );
ERR_load_BIO_strings();
SSLCHECKERROR( e, "NetSslTransport::SslClientInit ERR_load_BIO_strings",
MsgRpc::SslInit,
fail );
if ( !SSL_library_init() )
{
// executable not compiled supporting SSL
// need to link with open SSL libraries
e->Set(MsgRpc::SslNoSsl);
return;
}
SSLCHECKERROR( e, "NetSslTransport::SslClientInit SSL_library_init",
MsgRpc::SslInit,
fail );
// WSAstartup code in NetTcpEndPoint constructor
/*
* Allow TLSv1.0 and later but disable SSLv2 and SSLv3
* - Allow customers to further filter TLS protocol versions
*/
if( (sClientCtx = CreateAndInitializeSslContext("Client")) == NULL )
goto fail;
}
return;
fail:
e->Set( MsgRpc::SslCtx ) << "the connecting client";
return;
}
void
NetSslTransport::GetPeerFingerprint(StrBuf &value)
{
if( !isAccepted && credentials.GetFingerprint() &&
credentials.GetFingerprint()->Length() )
value.Set( credentials.GetFingerprint()->Text() );
else
value.Clear();
}
/**
* NetSslTransport::SslServerInit
*
* @brief One time initialization for server side of connection for SSL.
* @invariant Assures that the server-side SSL CTX structure has been initialized.
*
* @param error structure
* @return nothing
*/
void
NetSslTransport::SslServerInit(StrPtr *hostname, Error *e)
{
if( sServerCtx )
return;
# ifdef OS_NT
/*
* Windows multi-threaded so must synchronize
* CTX creation, since we only want one.
*/
MutexLocker locker(sServerMutex);
/*
* Now that we have the lock see if any
* thread created the CTX while we were
* waiting.
*/
# endif // OS_NT
if( !sServerCtx )
{
#ifdef OS_NT
InitLockCallbacks( e );
if( e->Test())
return;
#endif // OS_NT
/*
* Added due to job084753: Swarm is a web app that reuses client processes.
* See the SslClientInit code for more info.
*
* Adding the fix to the SslClientInit here on the server side to be
* symmetric and to make sure that later we do not see a similar problem
* here. (Currently, we have not seen this issue on the server side.)
*/
ERR_remove_thread_state(NULL);
// probably cannot check for error return from this call :-)
SSL_load_error_strings();
SSLCHECKERROR( e,
"NetSslTransport::SslServerInit SSL_load_error_strings",
MsgRpc::SslInit,
fail );
ERR_load_BIO_strings();
SSLCHECKERROR( e, "NetSslTransport::SslServerInit ERR_load_BIO_strings",
MsgRpc::SslInit,
fail );
if ( !SSL_library_init() )
{
// executable not compiled supporting SSL
// need to link with open SSL libraries
e->Set(MsgRpc::SslNoSsl);
return;
}
SSLCHECKERROR( e, "NetSslTransport::SslServerInit SSL_library_init",
MsgRpc::SslInit,
fail );
/* Set up cert and key:
* Note that we have already verified in RpcService::Listen
* that sslKey and sslCert exist in P4SSLDIR and are valid.
* Since we are doing lazy init of the SslCtx the
* files could have been deleted before hitting this code. We will do
* another verify check here when we finally load the credentials
* for the first read/write.
*/
credentials.ReadCredentials(e);
P4CHECKERROR( e, "NetSslTransport::SslServerInit ReadCredentials", fail );
/*
* Allow TLSv1.0 and later but disable SSLv2 and SSLv3
* - Allow customers to further filter TLS protocol versions
*/
if( (sServerCtx = CreateAndInitializeSslContext("Server")) == NULL )
goto fail;
SSL_CTX_use_PrivateKey( sServerCtx, credentials.GetPrivateKey() );
SSLLOGFUNCTION(
"NetSslTransport::SslServerInit SSL_CTX_use_PrivateKey" );
credentials.SetOwnKey(false);
/*
* Note: if want key passphrase protected then need to implement
* a callback function to supply the passphrase:
* int passwd_cb(char *buf, int size, int flag, void *userdata);
*
* Alternatively strip the passphrase protection off the key via
* cp server.key server.key.org
* openssl [rsa|dsa] -in server.key.org -out server.key
*/
SSL_CTX_use_certificate( sServerCtx, credentials.GetCertificate() );
SSLLOGFUNCTION(
"NetSslTransport::SslServerInit SSL_CTX_use_certificate" );
credentials.SetOwnCert(false);
/*
* Set context to not verify certificate authentication with CA.
*/
SSL_CTX_set_verify( sServerCtx, SSL_VERIFY_NONE, NULL /* no callback */);
SSLLOGFUNCTION(
"NetSslTransport::SslServerInit SSL_CTX_set_verify server ctx" );
/*
* NOTE: The way this code is written there is no CA check on the cert.
* If want to do this then SSL_CTX_load_verify_locations(sServerCtx, NULL, sslCACert);
* The certificate authority certificate directory must be hashed:
* c_rehash /path/to/certfolder
*/
}
return;
fail:
e->Set( MsgRpc::SslCtx ) << "the accepting server";
return;
}
/**
* NetSslTransport::DoHandshake
*
* @brief transport level method to invoke SSL handshake and provide debugging output
* @invariant if SSL and CTX structures are non-null handshake has completed successfully
*
* @param error structure
* @return none
*/
void
NetSslTransport::DoHandshake( Error *e )
{
int sslRetval;
if(ssl)
return;
/*
* Lazy initialization: If no SSL context has been created for
* this type of connection (server side or client side) then do it
* now, then use it to create an SSL structure for this connection.
*/
if( this->isAccepted )
{
ssl = SSL_new( sServerCtx );
SSLNULLHANDLER( ssl, e, "NetSslTransport::DoHandshake SSL_new", fail );
if ( p4tunable.Get( P4TUNE_SSL_SECONDARY_SUITE ) )
{
SSL_set_cipher_list( ssl, SSL_SECONDARY_CIPHER_SUITE );
SSLLOGFUNCTION( "NetSslTransport::DoHandshake SSL_set_cipher_list secondary" );
} else
{
SSL_set_cipher_list( ssl, SSL_PRIMARY_CIPHER_SUITE );
SSLLOGFUNCTION( "NetSslTransport::DoHandshake SSL_set_cipher_list primary" );
}
}
else
{
ssl = SSL_new( sClientCtx );
SSLNULLHANDLER( ssl, e, "NetSslTransport::DoHandshake SSL_new", fail );
}
/*
* If debugging output configured, dump prioritized list of
* supported cipher-suites.
*/
if( SSLDEBUG_TRANS )
{
int priority = 0;
bool shouldContinue = true;
p4debug.printf( "List of Cipher Suites supported:\n" );
while( shouldContinue )
{
const char *cipherStr = SSL_get_cipher_list( ssl, priority );
priority++;
shouldContinue = (cipherStr) ? true : false;
if( shouldContinue )
{
p4debug.printf( " Priority %d: %s\n", priority, cipherStr );
}
}
}
/* Create a bio for this new socket */
bio = BIO_new_socket( t, BIO_NOCLOSE );
SSLNULLHANDLER( bio, e, "NetSslTransport::DoHandshake BIO_new_socket",
fail );
/**
* Hooks the BIO up with the SSL *. Note once this is called then the
* SSL * owns the BIOs and will cleanup their allocation in an SSL_free
* if the reference count becomes zero.
*/
SSL_set_bio( ssl, bio, bio );
SSLLOGFUNCTION( "NetSslTransport::DoHandshake SSL_set_bio" );
if( !SslHandshake(e) )
goto fail;
if( !isAccepted )
{
X509 *serverCert = SSL_get_peer_certificate( ssl );
credentials.SetCertificate( serverCert, e );
if ( e->Test() )
{
X509_free( serverCert );
goto failNoRead;
}
else
{
SSLLOGFUNCTION( credentials.GetFingerprint()->Text() );
}
if( SSLDEBUG_TRANS )
{
char *str = NULL;
// print out CERT info from server
p4debug.printf( "Server certificate:" );
str = X509_NAME_oneline( X509_get_subject_name( serverCert ), 0,
0 );
SSLNULLHANDLER( str, e, "connect X509_get_subject_name", fail );
p4debug.printf( "\t subject: %s\n", str );
free( str );
str = X509_NAME_oneline( X509_get_issuer_name( serverCert ), 0,
0 );
SSLNULLHANDLER( str, e, "connect X509_get_issuer_name", fail );
p4debug.printf( "\t issuer: %s\n", str );
free( str );
}
X509_free( serverCert );
SSLLOGFUNCTION( "X509_free" );
}
return;
/* Error Handling */
fail:
lastRead = 1;
failNoRead:
TRANSPORT_PRINT( SSLDEBUG_ERROR,
"NetSslTransport::DoHandshake In fail error code." );
if(ssl)
{
SSL_free(ssl);
SSLLOGFUNCTION( "NetSslTransport::DoHandshake SSL_free" );
bio = NULL;
ssl = NULL;
}
// NET_CLOSE_SOCKET(t);
if( isAccepted )
{
TRANSPORT_PRINT( SSLDEBUG_ERROR,
"NetSslTransport::DoHandshake failed on server side.");
if( !e->Test() )
e->Set( MsgRpc::SslAccept ) << "";
}
else
{
TRANSPORT_PRINT( SSLDEBUG_ERROR,
"NetSslTransport::DoHandshake failed on client side.");
if( !e->Test() )
e->Set( MsgRpc::SslConnect ) << GetPortParser().String() << "";
}
}
/**
* NetSslTransport::SslHandshake
*
* @brief low level method to invoke ssl handshake and handle asynchronous behavior of
* the BIO structure.
*
* @param error structure
* @return bool true = success, false = fail
*/
bool
NetSslTransport::SslHandshake( Error *e )
{
bool done = false;
int readable = isAccepted? 1 : 0;
int writable = isAccepted? 0 : 1;
int counter = 0;
/* select timeout */
const int tv = HALF_SECOND;
int sslClientTimeoutMs
= p4tunable.Get( P4TUNE_SSL_CLIENT_TIMEOUT ) * 1000;
DateTimeHighPrecision dtBeforeSelect, dtAfterSelect;
int maxwait = p4tunable.Get( P4TUNE_NET_MAXWAIT ) * 1000;
if( maxwait &&
( sslClientTimeoutMs == 0 || maxwait < sslClientTimeoutMs ) )
sslClientTimeoutMs = maxwait;
while ( !done )
{
// Perform an SSL handshake.
int ret = 0;
int errorRet = 0;
if( isAccepted )
ret = SSL_accept(ssl);
else
ret = SSL_connect( ssl );
switch( errorRet = SSL_get_error( ssl, ret ) )
{
case SSL_ERROR_NONE:
done = true;
TRANSPORT_PRINTF( SSLDEBUG_CONNECT,
"NetSslTransport::SslHandshake protocol=%s", SSL_get_version(ssl) );
break;
case SSL_ERROR_WANT_READ:
{
readable = 1;
writable = 0;
# ifdef WSAEWOULDBLOCK
int error = WSAGetLastError();
# else
int error = errno;
# endif
dtBeforeSelect.Now();
int selectRet =
selector->Select( readable, writable, tv );
dtAfterSelect.Now();
counter += MillisecondDifference(dtAfterSelect, dtBeforeSelect);
if( selectRet < 0 )
{
e->Sys( "select", "socket" );
return false;
}
/*
* Changed to prevent a bad guy forming a DOS attack on
* Linux by running nc against a p4d. Previous code
* executed a tight loop calling SSL_accept and erroring
* out with a WANT_WRITE and a EAGAIN error. We stop this
* by sleeping for a millisecond before trying again.
* Some OSs return EWOULDBLOCK under this same condition.
*
* Note POSIX 2008 spec prevents the select call in this
* case statement from returning prematurely with EAGAIN,
* but Ubuntu seems to follow an earlier version of the
* spec. It appears that Mac OS X is complient since this
* problem does not exist on that platform.
*/
# ifdef WSAEWOULDBLOCK
if ( WSAEWOULDBLOCK == error)
# else
if(( EAGAIN == error ) || ( EWOULDBLOCK == error) )
# endif
{
if( counter > 10 )
{
// Timeout code for new client using SSL going against old server.
if(!isAccepted && (counter > sslClientTimeoutMs)) {
TRANSPORT_PRINTF( SSLDEBUG_ERROR,"NetSslTransport::SslHandshake failed on client side: %d", errorRet);
e->Set( MsgRpc::SslConnect) << GetPortParser().String();
Close();
return false;
}
msleep(1);
counter++;
}
else
{
TRANSPORT_PRINT( SSLDEBUG_FUNCTION,
"NetSslTransport::SslHandshake WANT_READ with EAGAIN or EWOULDBLOCK");
}
}
}
break;
case SSL_ERROR_WANT_WRITE:
readable = 0;
writable = 1;
if( selector->Select( readable, writable, tv ) < 0 )
{
e->Sys( "select", "socket" );
return false;
}
TRANSPORT_PRINTF( SSLDEBUG_FUNCTION,"NetSslTransport::SslHandshake WANT_WRITE ret=%d", ret);
break;
case SSL_ERROR_SSL:
/* underlying protocol error dump error to
* debug output
*/
// buffer for ssl protocol errors
char sslErrorBuf[256];
ERR_error_string( ERR_get_error(), sslErrorBuf );
TRANSPORT_PRINTF( SSLDEBUG_ERROR, "Handshake Failed: %s", sslErrorBuf );
e->Set( MsgRpc::SslProtocolError ) << sslErrorBuf;
return false;
break;
default:
StrBuf errBuf;
if( Error::IsNetError() )
{
StrBuf tmp;
Error::StrNetError( tmp );
errBuf.Set( " (" );
errBuf.Append( &tmp );
errBuf.Append( ")" );
}
else
{
StrBuf tmp;
Error::StrError( tmp );
errBuf.Set( " (" );
errBuf.Append( &tmp );
errBuf.Append( ")" );
}
if( isAccepted )
{
TRANSPORT_PRINTF( SSLDEBUG_ERROR,
"NetSslTransport::SslHandshake failed on server side: %d%s",
errorRet, GetSslErrorName(errorRet) );
e->Set( MsgRpc::SslAccept) << errBuf;
}
else
{
TRANSPORT_PRINTF( SSLDEBUG_ERROR,
"NetSslTransport::SslHandshake failed on client side: %d%s",
errorRet, GetSslErrorName(errorRet) );
e->Set( MsgRpc::SslConnect) << GetPortParser().String() << errBuf;
}
return false;
} // end switch - last SSL error
} // end while - keep going until the handshake is done.
return true;
}
/*
* NetSslTransport::SendOrReceive() - send or receive data as ready
*
* If data to write and no room to read, block writing.
* If room to read and no data to write, block reading.
* If both data to write and room to read, block until one is ready.
*
* If neither data to write nor room to read, don't call this!
*
* Brain-dead version of NetSslSelector::Select() indicates both
* read/write are ready. To avoid blocking on read, we only do so
* if not instructed to write.
*
* Returns 1 if either data read or written.
* Returns 0 if neither, meaning EOF or error.
*/
int
NetSslTransport::SendOrReceive( NetIoPtrs &io, Error *se, Error *re )
{
// Hacky solution to allow us to send out a cleartext error
// message to the client if they are attempting a cleartext
// connection to our SSL server.
if( clientNotSsl )
{
int retval = NetTcpTransport::SendOrReceive( io, se, re );
Close();
return retval;
}
if( t < 0 )
{
TRANSPORT_PRINT( SSLDEBUG_ERROR,"NetSslTransport::SendOrReceive connection "
"closed, returning w/o doing anything." );
// Socket has been closed don't try to use
return 0;
}
StrBuf buf;
int doRead = 0;
int doWrite = 0;
int dataReady;
int maxwait = p4tunable.Get( P4TUNE_NET_MAXWAIT );
Timer waitTime;
if( maxwait )
{
maxwait *= 1000;
waitTime.Start();
}
int readable = 0;
int writable = 0;
/* flags set by check_availability( ) that poll for I/O status */
bool can_read = false;
bool can_write = false;
/* flags to mark all the combinations of why we're blocking */
bool read_waiton_write = false;
bool read_waiton_read = false;
bool write_waiton_write = false;
bool write_waiton_read = false;
/* select timeout */
int tv;
/* ssl status */
int sslError;
int sslPending;
long errErrorNum;
char errErrorStr[256];
// Lazy call of handshake code.
if( !ssl )
{
DoHandshake( se );
if( se->Test() )
{
re = se;
goto end;
}
}
for ( ;; )
{
doRead = io.recvPtr != io.recvEnd && !re->Test();
doWrite = io.sendPtr != io.sendEnd && !se->Test();
sslPending = 0;
if( !doRead && !doWrite )
{
// cannot read or write
return 0;
}
/*
* If we enter this loop and are supposed to read AND
* there is something already in the SSL read buffers
* then don't wait in the select call for something
* to appear in the kernel buffers.
*/
sslPending = SSL_pending( ssl );
/*
* Complex logic to check OS level buffers for
* read or write:
* For Write:
* - if entered this function to write then always check
* - if entered to read but handshake is blocking operation
* then write before continue writing
* DO NOT check write otherwise since will cause tight loop
* burning CPU on interactive commands.
*
* For Read:
* - if entered this function to read then always check
* - if entered to write but handshake is blocking operation
* then read before continue writing
*/
readable =
( doRead || write_waiton_read || read_waiton_read ) ? 1 : 0;
writable =
( doWrite || write_waiton_write || read_waiton_write ) ? 1 : 0;
if (readable && sslPending)
tv = 0;
else if( (readable && breakCallback) || maxwait )
{
tv = HALF_SECOND;
if( breakCallback )
{
int p = breakCallback->PollMs();
if( p >= 1 )
tv = p;
}
}
else
tv = -1;
if( ( dataReady = selector->Select( readable, writable, tv ) < 0 ) )
{
re->Sys( "select", "socket" );
return 0;
}
if( !dataReady && maxwait && waitTime.Time() >= maxwait )
{
lastRead = 0;
TRANSPORT_PRINT( SSLDEBUG_ERROR, "SSL SendOrReceive maxwait expired." );
if( doRead )
re->Set( MsgRpc::MaxWait ) << "receive" << ( maxwait / 1000 );
else
se->Set( MsgRpc::MaxWait ) << "send" << ( maxwait / 1000 );
return 0;
}
// Before checking for data do the callback isalive test.
// If the user defined IsAlive() call returns a zero
// value then the user wants this request to terminate.
if( doRead && breakCallback && !breakCallback->IsAlive() )
{
lastRead = 0;
re->Set( MsgRpc::Break );
return 0;
}
if( SSLDEBUG_BUFFER )
{
DateTimeHighPrecision dt;
char buftime[ DTHighPrecisionBufSize ];
dt.Now();
dt.Fmt( buftime );
p4debug.printf(
"State status: time: %s\n"
"\tsslPending %d - is something in the SSL read buffer?\n"
"\treadable %d - is something in the OS read buffer?\n"
"\twritable %d - is there available room OS write buffer?\n"
"\tdoRead %d - we have room in P4rpc read buffer\n"
"\tdoWrite %d - we have stuff to write in P4rpc write buffer\n"
"\twrite_waiton_write %d - ssl write buffer not available, try again when net net write buffer ready\n"
"\twrite_waiton_read %d - ssl write buffer not available due to handshake, try again when net read buffer ready\n"
"\tread_waiton_write %d - ssl read buffer not available due to handshake, try again when net write buffer ready\n"
"\tread_waiton_read %d - ssl read buffer not available, try again when net read buffer ready\n",
buftime, sslPending, readable, writable, doRead, doWrite,
write_waiton_write, write_waiton_read, read_waiton_write,
read_waiton_read );
}
/* This "if" statement reads data. It will only be entered if
* the following conditions are all true:
* 1. we're not in the middle of a write
* 2. there's space left in the recv buffer
* 3. the kernel write buffer is available signaling that a handshake
* write has completed (this write had been blocking our read, and
* now we are free to continue it), or either SSL or OS says we can
* read regardless of whether we're blocking for availability to read.
*/
if( !( write_waiton_read || write_waiton_write ) && doRead
&& ( sslPending || readable || ( writable && read_waiton_write )) )
{
/* clear the flags since we'll set them based on the I/O call's
* return
*/
read_waiton_read = false;
read_waiton_write = false;
/* read into the buffer after the current position */
int l = SSL_read( ssl, io.recvPtr, io.recvEnd - io.recvPtr );
SSLLOGFUNCTION( "NetSslTransport::SendOrReceive SSL_read" );
switch ( sslError = SSL_get_error( ssl, l ) )
{
case SSL_ERROR_NONE:
/*
* no errors occurred. update the new buffer size and signal
* that "have data" by returning 1.
*/
if( l > 0 )
TRANSPORT_PRINTF( SSLDEBUG_TRANS,
"NetSslTransport::SendOrReceive recv %d bytes",
l );
lastRead = 1;
io.recvPtr += l;
return 1;
break;
case SSL_ERROR_ZERO_RETURN:
/* connection closed */
TRANSPORT_PRINT( SSLDEBUG_ERROR, "SSL_read returned SSL_ERROR_ZERO_RETURN" );
goto end;
break;
case SSL_ERROR_WANT_READ:
/*
* we need to retry the read after kernel buffer available for
* reading
*/
TRANSPORT_PRINT( SSLDEBUG_ERROR, "SSL_read returned SSL_ERROR_WANT_READ" );
read_waiton_read = true;
break;
case SSL_ERROR_WANT_WRITE:
/*
* we need to retry the read after kernel buffer is available for
* writing
*/
TRANSPORT_PRINT( SSLDEBUG_ERROR, "SSL_read returned SSL_ERROR_WANT_WRITE" );
read_waiton_write = true;
break;
case SSL_ERROR_SYSCALL:
/*
* an I/O error occurred check underlying SSL ERR for info
* if none then report errno
*/
errErrorNum = ERR_get_error();
if ( errErrorNum == 0 )
{
if( l == 0)
{
TRANSPORT_PRINT( SSLDEBUG_ERROR, "SSL_read encountered an EOF." );
re->Net( "read", "SSL_read encountered an EOF." );
}
else if ( l < 0 )
{
Error::StrError(buf, errno);
TRANSPORT_PRINTF( SSLDEBUG_ERROR, "SSL_read encountered a system error: %s", buf.Text() );
re->Net( "read", buf.Text() );
}
else
{
TRANSPORT_PRINT( SSLDEBUG_FUNCTION,
"SSL_read claims SSL_ERROR_SYSCALL but returns data." );
if( l > 0 )
TRANSPORT_PRINTF( SSLDEBUG_TRANS,
"NetSslTransport::SendOrReceive recv %d bytes\n",
l );
lastRead = 1;
io.recvPtr += l;
return 1;
}
}
else
{
ERR_error_string( errErrorNum, errErrorStr );
TRANSPORT_PRINTF( SSLDEBUG_ERROR,
"SSL_read encountered a syscall ERR: %s", errErrorStr );
re->Net( "read", errErrorStr );
}
re->Set( MsgRpc::SslRecv );
goto end;
break;
default:
if( l == 0 )
{
TRANSPORT_PRINT( SSLDEBUG_FUNCTION,
"SSL_read attempted on closed connection." );
if( doWrite )
{
// Error: connection was closed but we had stuff to write
re->Net( "read", "socket" );
re->Set( MsgRpc::SslRecv );
}
/*
* Connection closed but did not shutdown SSL cleanly.
* The p4 proxy will do this if the command issued by
* its client does not require forwarding to the p4d server.
*/
goto end;
}
/* ERROR */
TRANSPORT_PRINTF( SSLDEBUG_ERROR,
"SSL_read returned unknown error: %d",
sslError );
re->Net( "read", "socket" );
re->Set( MsgRpc::SslRecv );
goto end;
}
}
/* This "if" statement writes data. It will only be entered if
* the following conditions are all true:
* 1. we're not in the middle of a read
* 2. there's room in the buffer
* 3. the kernel read buffer is available signaling that a handshake
* read has completed (this rad had been blocking our write, and
* now we are free to continue it), or OS says we can write regardless
* of whether we're blocking for availability to write.
*/
if( !( read_waiton_write || read_waiton_read ) && doWrite
&& ( writable || ( readable && write_waiton_read )) )
{
/* clear the flags */
write_waiton_read = false;
write_waiton_write = false;
/* perform the write from the start of the buffer */
int l = SSL_write( ssl, io.sendPtr, io.sendEnd - io.sendPtr );
SSLLOGFUNCTION( "NetSslTransport::SendOrReceive SSL_write" );
switch ( sslError = SSL_get_error( ssl, l ) )
{
case SSL_ERROR_NONE:
/*
* no errors occurred. update the new buffer size and signal
* that "have data" by returning 1.
*/
if( l > 0 )
TRANSPORT_PRINTF( SSLDEBUG_TRANS,
"NetSslTransport send %d bytes\n", l );
lastRead = 0;
io.sendPtr += l;
return 1;
break;
case SSL_ERROR_ZERO_RETURN:
/* connection closed */
TRANSPORT_PRINT( SSLDEBUG_ERROR,
"SSL_write returned SSL_ERROR_ZERO_RETURN" );
goto end;
case SSL_ERROR_WANT_READ:
/*
* we need to retry the write after A is available for
* reading
*/
TRANSPORT_PRINT( SSLDEBUG_ERROR,
"SSL_write returned SSL_ERROR_WANT_READ" );
write_waiton_read = true;
break;
case SSL_ERROR_WANT_WRITE:
/*
* we need to retry the write after A is available for
* writing
*/
TRANSPORT_PRINT( SSLDEBUG_ERROR,
"SSL_write returned SSL_ERROR_WANT_WRITE" );
write_waiton_write = true;
break;
case SSL_ERROR_SYSCALL:
/*
* an I/O error occurred check underlying SSL ERR for info
* if none then report errno
*/
errErrorNum = ERR_get_error();
if ( errErrorNum == 0 )
{
if( l == 0)
{
TRANSPORT_PRINT( SSLDEBUG_ERROR, "SSL_write encountered an EOF." );
se->Net( "write", "SSL_write encountered an EOF." );
}
else if ( l < 0 )
{
Error::StrError(buf, errno);
TRANSPORT_PRINTF( SSLDEBUG_ERROR,
"SSL_write encountered a system error: %s", buf.Text() );
se->Net( "write", buf.Text() );
}
else
{
TRANSPORT_PRINT( SSLDEBUG_ERROR,
"SSL_write claims SSL_ERROR_SYSCALL but returns data." );
if( l > 0 )
TRANSPORT_PRINTF( SSLDEBUG_TRANS, "NetSslTransport send %d bytes", l );
lastRead = 0;
io.sendPtr += l;
return 1;
}
}
else
{
ERR_error_string( errErrorNum, errErrorStr );
TRANSPORT_PRINTF( SSLDEBUG_ERROR,
"SSL_write encountered a syscall ERR: %s", errErrorStr );
se->Net( "write", errErrorStr );
}
se->Set( MsgRpc::SslSend );
goto end;
break;
default:
if( l == 0 )
{
/*
* Connection closed but did not shutdown SSL cleanly.
* The p4 proxy will do this if the command issued by
* its client does not require forwarding to the p4d server.
*/
TRANSPORT_PRINT( SSLDEBUG_FUNCTION,
"SSL_write attempted on closed connection." );
goto end;
}
/* ERROR */
TRANSPORT_PRINTF( SSLDEBUG_ERROR,
"SSL_write returned unknown error: %d",
sslError );
se->Net( "write", "socket" );
se->Set( MsgRpc::SslSend );
goto end;
}
}
}
end:
Close();
return 0;
}
/**
* NetSslTransport::Close
*
* @brief handles teardown of the SSL connection and deletion of the
* of the SSL and BIO structures, closes socket
* @invariant SSL and BIO are NULL if the connection is closed
*
* @return none
*/
void
NetSslTransport::Close( void )
{
int ret;
if( t < 0 )
return;
TRANSPORT_PRINTF( SSLDEBUG_CONNECT, "NetSslTransport %s closing %s",
GetAddress( RAF_PORT )->Text(),
GetPeerAddress( RAF_PORT )->Text() );
// Avoid TIME_WAIT on the server by reading the EOF after
// the last message sent by the client. Getting the EOF
// means we've received the TH_FIN packet, which means we
// don't have to send our own on close(). He who sends
// a TH_FIN goes into the 2 minute TIME_WAIT imposed by TCP.
TRANSPORT_PRINTF( SSLDEBUG_TRANS, "NetSslTransport lastRead=%d", lastRead );
if( lastRead )
{
int r = 1;
int w = 0;
char buf[1];
if( selector->Select( r, w, -1 ) >= 0 && r )
read( t, buf, 1 );
}
if (ssl)
{
if( SSL_get_shutdown( ssl ) & SSL_RECEIVED_SHUTDOWN )
{
// clean shutdown
SSL_shutdown( ssl );
SSLLOGFUNCTION( "NetSslTransport::Close SSL_shutdown" );
}
else
{
/*
* An error is causing this shutdown, so we remove session
* from cache.
*/
SSL_clear( ssl );
SSLLOGFUNCTION( "NetSslTransport::Close SSL_clear" );
}
BIO_pop( bio );
SSLLOGFUNCTION( "NetSslTransport::Close BIO_pop" );
SSL_free( ssl );
SSLLOGFUNCTION( "NetSslTransport::Close SSL_free" );
}
bio = NULL;
ssl = NULL;
if( lastRead )
{
int r = 1;
int w = 0;
char buf[1];
if( selector->Select( r, w, -1 ) >= 0 && r )
read( t, buf, 1 );
}
NET_CLOSE_SOCKET(t);
}
void
NetSslTransport::ClientMismatch( Error *e )
{
if ( CheckForHandshake(t) == PeekCleartext )
{
TRANSPORT_PRINT( SSLDEBUG_ERROR,
"Handshake peek appears not to be for SSL.");
// this is a non-ssl connection
e->Set( MsgRpc::SslCleartext );
clientNotSsl = true;
}
}
void
NetSslTransport::ValidateRuntimeVsCompiletimeSSLVersion( Error *e )
{
StrBuf sb;
GetVersionString( sb, SSLeay() );
TRANSPORT_PRINTF( SSLDEBUG_ERROR,
"OpenSSL runtime version %s", sb.Text() );
sb.Clear();
GetVersionString( sb, OPENSSL_VERSION_NUMBER );
TRANSPORT_PRINTF( SSLDEBUG_ERROR,
"OpenSSL compile version %s", sb.Text() );
if ( GET_MJR_SSL_VERSION(SSLeay()) < GET_MJR_SSL_VERSION(sVersion1_0_0) )
{
e->Set(MsgRpc::SslLibMismatch) << sVerStr1_0_0;
}
}
void
NetSslTransport::GetVersionString( StrBuf &sb, unsigned long version )
{
/* Version numbering explanation from OpenSSL openssl/opensslv.h file:
*
* Numeric release version identifier:
* MNNFFPPS: major minor fix patch status
* The status nibble has one of the values 0 for development, 1 to e for betas
* 1 to 14, and f for release. The patch level is exactly that.
* For example:
* 0.9.3-dev 0x00903000
* 0.9.3-beta1 0x00903001
* 0.9.3-beta2-dev 0x00903002
* 0.9.3-beta2 0x00903002 (same as ...beta2-dev)
* 0.9.3 0x0090300f
* 0.9.3a 0x0090301f
* 0.9.4 0x0090400f
* 1.2.3z 0x102031af
*/
unsigned long M = (version >> 28) & ~0xfffffff0L;
unsigned long N = (version >> 20) & ~0xffffff00L;
unsigned long P = (version >> 12) & ~0xffffff00L;
sb << M << "." << N << "." << P;
}
////////////////////////////////////////////////////////////////////////////
// OpenSSL Dynamic Locking Callback Functions //
////////////////////////////////////////////////////////////////////////////
// Dynamic locking code only being used on NT in 2012.1, will be used on
// other platforms in 2012.2 (by that time I will include pthreads to the
// HPUX build). In 2012.1 HPUX has many compile errors for pthreads.
#ifndef OS_HPUX
static void LockingFunction( int mode, int n, const char *file, int line )
{
# ifdef OS_NT
if (mode & CRYPTO_LOCK)
{
WaitForSingleObject( mutexArray[n], INFINITE );
}
else
{
ReleaseMutex( mutexArray[n] );
}
# else
if( mode & CRYPTO_LOCK )
{
pthread_mutex_lock( &mutexArray[n] );
}
else
{
pthread_mutex_unlock( &mutexArray[n] );
}
# endif // OS_NT
}
/**
* OpenSSL uniq id function.
*
* @return thread id
*/
static unsigned long IdFunction( void )
{
# ifdef OS_NT
return ((unsigned long) GetCurrentThreadId());
# else
return ((unsigned long) pthread_self());
# endif
}
/**
* OpenSSL allocate and initialize dynamic crypto lock.
*
* @param file source file name
* @param line source file line number
*/
static struct CRYPTO_dynlock_value *
DynCreateFunction( const char *file, int line )
{
struct CRYPTO_dynlock_value *value;
value = (struct CRYPTO_dynlock_value *) malloc(
sizeof(struct CRYPTO_dynlock_value) );
if( !value )
{
goto err;
}
# ifdef OS_NT
value->mutex = CreateMutex( NULL, FALSE, NULL );
# else
pthread_mutex_init( &value->mutex, NULL );
# endif // OS_NT
return value;
err: return (NULL);
}
/**
* OpenSSL dynamic locking function.
*
* @param mode lock mode
* @param l lock structure pointer
* @param file source file name
* @param line source file line number
* @return none
*/
static void DynLockFunction(
int mode,
struct CRYPTO_dynlock_value *l,
const char *file,
int line )
{
# ifdef OS_NT
if (mode & CRYPTO_LOCK)
{
WaitForSingleObject( l->mutex, INFINITE );
}
else
{
ReleaseMutex( l->mutex );
}
# else
if( mode & CRYPTO_LOCK )
{
pthread_mutex_lock( &l->mutex );
}
else
{
pthread_mutex_unlock( &l->mutex );
}
# endif // OS_NT
}
/**
* OpenSSL destroy dynamic crypto lock.
*
* @param l lock structure pointer
* @param file source file name
* @param line source file line number
* @return none
*/
static void DynDestroyFunction(
struct CRYPTO_dynlock_value *l,
const char *file,
int line )
{
# ifdef OS_NT
CloseHandle(l->mutex);
# else
pthread_mutex_destroy( &l->mutex );
# endif // OS_NT
free( l );
}
static int InitLockCallbacks( Error *e )
{
int i;
int numlocks = CRYPTO_num_locks();
/* static locks area */
# ifdef OS_NT
mutexArray = (HANDLE *) malloc( CRYPTO_num_locks() * sizeof(HANDLE) );
# else
mutexArray = (pthread_mutex_t *) malloc( CRYPTO_num_locks() * sizeof(pthread_mutex_t) );
# endif // OS_NT
if( mutexArray == NULL )
{
e->Set(MsgRpc::Operat) << "malloc";
return -1;
}
for ( i = 0; i < numlocks; i++ )
{
# ifdef OS_NT
mutexArray[i] = CreateMutex( NULL, FALSE, NULL );
# else
pthread_mutex_init( &mutexArray[i], NULL );
# endif // OS_NT
}
/* static locks callbacks */
CRYPTO_set_locking_callback( LockingFunction );
CRYPTO_set_id_callback( IdFunction );
/* dynamic locks callbacks */
CRYPTO_set_dynlock_create_callback( DynCreateFunction );
CRYPTO_set_dynlock_lock_callback( DynLockFunction );
CRYPTO_set_dynlock_destroy_callback( DynDestroyFunction );
return (0);
}
/**
* Cleanup TLS library.
*
* @return 0
*/
static int ShudownLockCallbacks( void )
{
int i;
int numlocks = CRYPTO_num_locks();
if( mutexArray == NULL )
{
return (0);
}
CRYPTO_set_dynlock_create_callback( NULL );
CRYPTO_set_dynlock_lock_callback( NULL );
CRYPTO_set_dynlock_destroy_callback( NULL );
CRYPTO_set_locking_callback( NULL );
CRYPTO_set_id_callback( NULL );
for ( i = 0; i < numlocks; i++ )
{
# ifdef OS_NT
CloseHandle( mutexArray[i] );
# else
pthread_mutex_destroy( &mutexArray[i] );
# endif // OS_NT
}
return (0);
}
# endif // !OS_HPUX
# endif //USE_SSL