Mercurial > trustbridge
view ui/sslconnection.cpp @ 301:aec9008c3b30
Add note about libnss in build deps
author | Andre Heinecke <andre.heinecke@intevation.de> |
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date | Thu, 03 Apr 2014 14:26:43 +0200 |
parents | 0aacc291c04b |
children | 17e1c8f37d72 |
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/* TODO: Wrap ssl_session in a class for reuse. * see programs/ssl/ssl_client2.c for example of session reuse */ #include "sslconnection.h" #include <QFile> #include <QUuid> #include <QApplication> #define MAX_IO_TRIES 10 #define MAX_RESETS 10 #ifdef CONNECTION_DEBUG static void my_debug(void *ctx, int level, const char *str) { fprintf((FILE *) ctx, "%s", str); fflush((FILE *) ctx); } #endif QString getErrorMsg(int ret) { char errbuf[255]; polarssl_strerror(ret, errbuf, 255); errbuf[254] = '\0'; /* Just to be sure */ return QString::fromLatin1(errbuf); } SSLConnection::SSLConnection(const QString& url, const QByteArray& certificate): mUrl(url), mPinnedCert(certificate), mInitialized(false), mConnected(false), mServerFD(-1), mErrorState(NoError) { int ret = -1; memset(&mSSL, 0, sizeof(ssl_context)); memset(&mSavedSession, 0, sizeof( ssl_session ) ); if (certificate.isEmpty()) { QFile certResource(":certs/kolab.org"); certResource.open(QFile::ReadOnly); mPinnedCert = certResource.readAll(); certResource.close(); } ret = init(); if (ret == 0) { mInitialized = true; } else { qDebug() << "Initialization error: " + getErrorMsg(ret); } } int SSLConnection::init() { int ret = -1; QUuid uuid = QUuid::createUuid(); QString personalString = QApplication::applicationName() + uuid.toString(); QByteArray personalBa = personalString.toLocal8Bit(); x509_crt_init(&mX509PinnedCert); entropy_init(&mEntropy); ret = ssl_init(&mSSL); if (ret != 0) { /* The only documented error is malloc failed */ mErrorState = ErrUnknown; return ret; } /* * Initialize random generator. * Personalisation string, does not need to be random but * should be unique according to documentation. * * the ctr_drbg structure does not need to be freed explicitly. */ ret = ctr_drbg_init(&mCtr_drbg, entropy_func, &mEntropy, (const unsigned char*) personalBa.constData(), personalBa.size()); if (ret != 0) { ssl_free(&mSSL); mErrorState = ErrUnknown; return ret; } ret = x509_crt_parse(&mX509PinnedCert, (const unsigned char*) mPinnedCert.constData(), mPinnedCert.size()); if (ret != 0){ ssl_free(&mSSL); mErrorState = InvalidPinnedCertificate; return ret; } ssl_set_endpoint(&mSSL, SSL_IS_CLIENT); ssl_set_authmode(&mSSL, SSL_VERIFY_OPTIONAL); ssl_set_ca_chain(&mSSL, &mX509PinnedCert, NULL, NULL); ssl_set_renegotiation(&mSSL, SSL_RENEGOTIATION_DISABLED); ssl_set_rng(&mSSL, ctr_drbg_random, &mCtr_drbg); #ifdef RELEASE_BUILD ssl_set_min_version(&mSSL, SSL_MAJOR_VERSION_3, SSL_MINOR_VERSION_3); #endif #ifdef CONNECTION_DEBUG ssl_set_dbg(&mSSL, my_debug, stdout); #endif return 0; } SSLConnection::~SSLConnection() { disconnect(); x509_crt_free(&mX509PinnedCert); entropy_free(&mEntropy); if (mInitialized) { ssl_free(&mSSL); } } void SSLConnection::disconnect() { if (mConnected) { ssl_close_notify(&mSSL); if (mServerFD != -1) { net_close(mServerFD); mServerFD = -1; } ssl_session_free(&mSavedSession); mConnected = false; } } int SSLConnection::connect() { int ret = -1; if (!mInitialized) { mErrorState = ErrUnknown; return -1; } ret = net_connect(&mServerFD, mUrl.host().toLatin1().constData(), mUrl.port(443)); if (ret != 0) { qDebug() << "Connect failed: " << getErrorMsg(ret); mErrorState = NoConnection; return ret; } ssl_set_bio(&mSSL, net_recv, &mServerFD, net_send, &mServerFD); while ((ret = ssl_handshake(&mSSL)) != 0) { if (ret != POLARSSL_ERR_NET_WANT_READ && ret != POLARSSL_ERR_NET_WANT_WRITE) { qDebug() << "SSL Handshake failed: " << getErrorMsg(ret); mErrorState = SSLHandshakeFailed; return ret; } } ret = ssl_get_session(&mSSL, &mSavedSession); if (ret != 0) { qDebug() << "SSL get session failed: " << getErrorMsg(ret); mErrorState = NoConnection; return ret; } printf( " ok\n [ Ciphersuite is %s ]\n", ssl_get_ciphersuite( &mSSL) ); ret = validateCertificate(); if (ret == 0) { mConnected = true; } return ret; } int SSLConnection::validateCertificate() { int ret = -1; const x509_crt *peerCert = NULL; /* we might want to set the verify function * with ssl_set_verify before to archive the * certificate pinning. */ ret = ssl_get_verify_result(&mSSL); if (ret != 0 ) { if((ret & BADCERT_EXPIRED) != 0) qDebug() << "server certificate has expired"; if((ret & BADCERT_REVOKED) != 0) qDebug() << "server certificate has been revoked"; if((ret & BADCERT_CN_MISMATCH) != 0) qDebug() << "CN mismatch"; if((ret & BADCERT_NOT_TRUSTED) != 0) qDebug() << "self-signed or not signed by a trusted CA"; ret = -1; #ifdef RELEASE_BUILD mErrorState = InvalidCertificate; return -1; #endif } peerCert = ssl_get_peer_cert(&mSSL); if (!peerCert) { mErrorState = InvalidCertificate; qDebug() << "Failed to get peer cert"; return -1; } if (peerCert->raw.len == 0 || peerCert->raw.len != mX509PinnedCert.raw.len) { mErrorState = InvalidCertificate; qDebug() << "Certificate length mismatch"; return -1; } /* You can never be sure what those c++ operators do.. if (mPinnedCert != QByteArray::fromRawData( (const char*) peerCert->raw.p, peerCert->raw.len)) { qDebug() << "Certificate content mismatch"; } */ for (unsigned int i = 0; i < peerCert->raw.len; i++) { if (peerCert->raw.p[i] != mX509PinnedCert.raw.p[i]) { qDebug() << "Certificate content mismatch"; mErrorState = InvalidCertificate; return -1; } } return 0; } int SSLConnection::write (const QByteArray& request) { unsigned int tries = 0; int ret = -1; const unsigned char *buf = (const unsigned char *) request.constData(); size_t len = (size_t) request.size(); if (mNeedsReset) { ret = reset(); if (ret != 0) { qDebug() << "Reset failed: " << getErrorMsg(ret); return ret; } } qDebug() << "Sending request: " << request; /* According to doc for ssl_write: * * When this function returns POLARSSL_ERR_NET_WANT_WRITE, * it must be called later with the same arguments, * until it returns a positive value. */ do { ret = ssl_write(&mSSL, buf, len); if (ret >= 0) { if ((unsigned int) ret == len) { return 0; } else { qDebug() << "Write failed to write everything"; return -1; } } if (ret != POLARSSL_ERR_NET_WANT_WRITE && ret != POLARSSL_ERR_NET_WANT_READ) { return ret; } tries++; net_usleep(100000); /* sleep 100ms to give the socket a chance to clean up. */ } while (tries < MAX_IO_TRIES); return ret; } int SSLConnection::reset() { int ret = -1; ssl_close_notify(&mSSL); ret = ssl_session_reset(&mSSL); if (ret != 0) { qDebug() << "SSL Connection reset failed: " << getErrorMsg(ret); return ret; } ssl_set_session(&mSSL, &mSavedSession); ret = net_connect(&mServerFD, mUrl.host().toLatin1().constData(), mUrl.port(443)); if (ret != 0) { mErrorState = NoConnection; qDebug() << "Connection failed." << getErrorMsg(ret); return ret; } while ((ret = ssl_handshake(&mSSL)) != 0) { if (ret != POLARSSL_ERR_NET_WANT_READ && ret != POLARSSL_ERR_NET_WANT_WRITE) { qDebug() << "SSL Handshake failed: " << getErrorMsg(ret); mErrorState = SSLHandshakeFailed; return ret; } } qDebug() << "Reset connection. "; /* Validation should not be necessary as we reused a saved * session. But just to be sure. */ return validateCertificate(); } QByteArray SSLConnection::read(size_t len) { unsigned char buf[len]; QByteArray retval(""); int ret = -1; unsigned int tries = 0; mNeedsReset = true; do { memset (buf, 0, sizeof(buf)); ret = ssl_read(&mSSL, buf, len); if (ret == 0 || ret == POLARSSL_ERR_SSL_CONN_EOF || ret == POLARSSL_ERR_SSL_PEER_CLOSE_NOTIFY) { /* EOF */ return retval; } if (ret == POLARSSL_ERR_NET_WANT_WRITE || ret == POLARSSL_ERR_NET_WANT_READ) { net_usleep(100000); /* sleep 100ms to give the socket a chance to recover */ tries++; } if (ret <= 0) { qDebug() << "Read failed: " << getErrorMsg(ret); return QByteArray(); } if (len < (len - (unsigned int) ret)) { /* Should never happen if ssl_read behaves */ qDebug() << "integer overflow in polarSSLRead"; return QByteArray(); } len -= (unsigned int) ret; retval.append((const char *)buf, ret); } while (len > 0 && tries < MAX_IO_TRIES); return retval; }