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|
/* -*- Mode: C; c-basic-offset: 4; indent-tabs-mode: nil -*- */
/*
Copyright (C) 2009 Red Hat, Inc.
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, see <http://www.gnu.org/licenses/>.
*/
#include "common.h"
#include <openssl/x509.h>
#include <openssl/x509v3.h>
#include <spice/protocol.h>
#include "red_peer.h"
#include "utils.h"
#include "debug.h"
#include "platform_utils.h"
typedef struct SslVerifyCbData {
RedPeer::HostAuthOptions info;
const char* host_name;
bool all_preverify_ok;
} SslVerifyCbData;
static void ssl_error()
{
unsigned long last_error = ERR_peek_last_error();
ERR_print_errors_fp(stderr);
THROW_ERR(SPICEC_ERROR_CODE_SSL_ERROR, "SSL Error:", ERR_error_string(last_error, NULL));
}
RedPeer::RedPeer()
: _peer (INVALID_SOCKET)
, _shut (false)
, _ctx (NULL)
, _ssl (NULL)
{
}
RedPeer::~RedPeer()
{
cleanup();
}
void RedPeer::cleanup()
{
if (_ssl) {
SSL_free(_ssl);
_ssl = NULL;
}
if (_ctx) {
SSL_CTX_free(_ctx);
_ctx = NULL;
}
if (_peer != INVALID_SOCKET) {
closesocket(_peer);
_peer = INVALID_SOCKET;
}
}
void RedPeer::connect_unsecure(const char* host, int portnr)
{
struct addrinfo ai, *result = NULL, *e;
char uaddr[INET6_ADDRSTRLEN+1];
char uport[33], port[33];
int err = 0, rc, no_delay = 1;
ASSERT(_ctx == NULL && _ssl == NULL && _peer == INVALID_SOCKET);
try {
memset(&ai,0, sizeof(ai));
ai.ai_flags = AI_CANONNAME;
#ifdef AI_ADDRCONFIG
ai.ai_flags |= AI_ADDRCONFIG;
#endif
ai.ai_family = PF_UNSPEC;
ai.ai_socktype = SOCK_STREAM;
snprintf(port, sizeof(port), "%d", portnr);
rc = getaddrinfo(host, port, &ai, &result);
if (rc != 0) {
THROW_ERR(SPICEC_ERROR_CODE_GETHOSTBYNAME_FAILED, "cannot resolve host address %s", host);
}
Lock lock(_lock);
_peer = -1;
for (e = result; e != NULL; e = e->ai_next) {
if ((_peer = socket(e->ai_family, e->ai_socktype, e->ai_protocol)) == INVALID_SOCKET) {
int err = sock_error();
THROW_ERR(SPICEC_ERROR_CODE_SOCKET_FAILED, "failed to create socket: %s (%d)",
sock_err_message(err), err);
}
if (setsockopt(_peer, IPPROTO_TCP, TCP_NODELAY, (const char*)&no_delay, sizeof(no_delay)) ==
SOCKET_ERROR) {
LOG_WARN("set TCP_NODELAY failed");
}
getnameinfo((struct sockaddr*)e->ai_addr, e->ai_addrlen,
uaddr,INET6_ADDRSTRLEN, uport,32,
NI_NUMERICHOST | NI_NUMERICSERV);
LOG_INFO("Trying %s %s", uaddr, uport);
if (::connect(_peer, e->ai_addr, e->ai_addrlen) == SOCKET_ERROR) {
err = sock_error();
LOG_INFO("Connect failed: %s (%d)",
sock_err_message(err), err);
closesocket(_peer);
_peer = -1;
continue;
}
LOG_INFO("Connected to %s %s", uaddr, uport);
break;
}
lock.unlock();
freeaddrinfo(result);
if (_peer == -1) {
THROW_ERR(SPICEC_ERROR_CODE_CONNECT_FAILED, "failed to connect: %s (%d)",
sock_err_message(err), err);
}
_serial = 0;
} catch (...) {
Lock lock(_lock);
cleanup();
throw;
}
}
bool RedPeer::verify_pubkey(X509* cert, const HostAuthOptions::PublicKey& key)
{
EVP_PKEY* cert_pubkey = NULL;
EVP_PKEY* orig_pubkey = NULL;
BIO* bio = NULL;
uint8_t* c_key = NULL;
int ret = 0;
if (key.empty()) {
return false;
}
ASSERT(cert);
try {
cert_pubkey = X509_get_pubkey(cert);
if (!cert_pubkey) {
THROW("reading public key from certificate failed");
}
c_key = new uint8_t[key.size()];
memcpy(c_key, &key[0], key.size());
bio = BIO_new_mem_buf((void*)c_key, key.size());
if (!bio) {
THROW("creating BIO failed");
}
orig_pubkey = d2i_PUBKEY_bio(bio, NULL);
if (!orig_pubkey) {
THROW("reading pubkey from bio failed");
}
ret = EVP_PKEY_cmp(orig_pubkey, cert_pubkey);
BIO_free(bio);
EVP_PKEY_free(orig_pubkey);
EVP_PKEY_free(cert_pubkey);
delete []c_key;
if (ret == 1) {
DBG(0, "public keys match");
return true;
} else if (ret == 0) {
DBG(0, "public keys mismatch");
return false;
} else {
DBG(0, "public keys types mismatch");
return false;
}
} catch (Exception& e) {
LOG_WARN("%s", e.what());
if (bio) {
BIO_free(bio);
}
if (orig_pubkey) {
EVP_PKEY_free(orig_pubkey);
}
if (cert_pubkey) {
EVP_PKEY_free(cert_pubkey);
}
delete []c_key;
return false;
}
}
/* From gnutls: compare host_name against certificate, taking account of wildcards.
* return true on success or false on error.
*
* note: cert_name_size is required as X509 certs can contain embedded NULs in
* the strings such as CN or subjectAltName
*/
bool RedPeer::x509_cert_host_name_compare(const char *cert_name, int cert_name_size,
const char *host_name)
{
/* find the first different character */
for (; *cert_name && *host_name && (toupper(*cert_name) == toupper(*host_name));
cert_name++, host_name++, cert_name_size--);
/* the strings are the same */
if (cert_name_size == 0 && *host_name == '\0')
return true;
if (*cert_name == '*')
{
/* a wildcard certificate */
cert_name++;
cert_name_size--;
while (true)
{
/* Use a recursive call to allow multiple wildcards */
if (RedPeer::x509_cert_host_name_compare(cert_name, cert_name_size, host_name)) {
return true;
}
/* wildcards are only allowed to match a single domain
component or component fragment */
if (*host_name == '\0' || *host_name == '.')
break;
host_name++;
}
return false;
}
return false;
}
/*
* From gnutls_x509_crt_check_hostname - compares the hostname with certificate's hostname
*
* This function will check if the given certificate's subject matches
* the hostname. This is a basic implementation of the matching
* described in RFC2818 (HTTPS), which takes into account wildcards,
* and the DNSName/IPAddress subject alternative name PKIX extension.
*
*/
bool RedPeer::verify_host_name(X509* cert, const char* host_name)
{
GENERAL_NAMES* subject_alt_names;
bool found_dns_name = false;
struct in_addr addr;
int addr_len = 0;
bool cn_match = false;
ASSERT(cert);
// only IpV4 supported
if (inet_aton(host_name, &addr)) {
addr_len = sizeof(struct in_addr);
}
/* try matching against:
* 1) a DNS name or IP address as an alternative name (subjectAltName) extension
* in the certificate
* 2) the common name (CN) in the certificate
*
* either of these may be of the form: *.domain.tld
*
* only try (2) if there is no subjectAltName extension of
* type dNSName
*/
subject_alt_names = (GENERAL_NAMES*)X509_get_ext_d2i(cert, NID_subject_alt_name, NULL, NULL);
if (subject_alt_names) {
int num_alts = sk_GENERAL_NAME_num(subject_alt_names);
for (int i = 0; i < num_alts; i++) {
const GENERAL_NAME* name = sk_GENERAL_NAME_value(subject_alt_names, i);
if (name->type == GEN_DNS) {
found_dns_name = true;
if (RedPeer::x509_cert_host_name_compare((char *)ASN1_STRING_data(name->d.dNSName),
ASN1_STRING_length(name->d.dNSName),
host_name)) {
DBG(0, "alt name match=%s", ASN1_STRING_data(name->d.dNSName));
GENERAL_NAMES_free(subject_alt_names);
return true;
}
} else if (name->type == GEN_IPADD) {
int alt_ip_len = ASN1_STRING_length(name->d.iPAddress);
found_dns_name = true;
if ((addr_len == alt_ip_len)&&
!memcmp(ASN1_STRING_data(name->d.iPAddress), &addr, addr_len)) {
DBG(0, "alt name IP match=%s",
inet_ntoa(*((struct in_addr*)ASN1_STRING_data(name->d.dNSName))));
GENERAL_NAMES_free(subject_alt_names);
return true;
}
}
}
GENERAL_NAMES_free(subject_alt_names);
}
if (found_dns_name)
{
DBG(0, "SubjectAltName mismatch");
return false;
}
/* extracting commonNames */
X509_NAME* subject = X509_get_subject_name(cert);
if (subject) {
int pos = -1;
X509_NAME_ENTRY* cn_entry;
ASN1_STRING* cn_asn1;
while ((pos = X509_NAME_get_index_by_NID(subject, NID_commonName, pos)) != -1) {
cn_entry = X509_NAME_get_entry(subject, pos);
if (!cn_entry) {
continue;
}
cn_asn1 = X509_NAME_ENTRY_get_data(cn_entry);
if (!cn_asn1) {
continue;
}
if (RedPeer::x509_cert_host_name_compare((char*)ASN1_STRING_data(cn_asn1),
ASN1_STRING_length(cn_asn1),
host_name)) {
DBG(0, "common name match=%s", (char*)ASN1_STRING_data(cn_asn1));
cn_match = true;
break;
}
}
}
if (!cn_match) {
DBG(0, "common name mismatch");
}
return cn_match;
}
bool RedPeer::verify_subject(X509* cert, const HostAuthOptions::CertFieldValueList& subject)
{
X509_NAME* cert_subject = NULL;
HostAuthOptions::CertFieldValueList::const_iterator subject_iter;
X509_NAME* in_subject;
int ret;
ASSERT(cert);
cert_subject = X509_get_subject_name(cert);
if (!cert_subject) {
LOG_WARN("reading certificate subject failed");
return false;
}
if (X509_NAME_entry_count(cert_subject) != subject.size()) {
DBG(0, "subject mismatch: #entries cert=%d, input=%d",
X509_NAME_entry_count(cert_subject), subject.size());
return false;
}
in_subject = X509_NAME_new();
if (!in_subject) {
LOG_WARN("failed to allocate X509_NAME");
return false;
}
for (subject_iter = subject.begin(); subject_iter != subject.end(); subject_iter++) {
if (!X509_NAME_add_entry_by_txt(in_subject,
subject_iter->first.c_str(),
MBSTRING_UTF8,
(const unsigned char*)subject_iter->second.c_str(),
subject_iter->second.length(), -1, 0)) {
LOG_WARN("failed to add entry %s=%s to X509_NAME",
subject_iter->first.c_str(), subject_iter->second.c_str());
X509_NAME_free(in_subject);
return false;
}
}
ret = X509_NAME_cmp(cert_subject, in_subject);
X509_NAME_free(in_subject);
if (ret == 0) {
DBG(0, "subjects match");
return true;
} else {
DBG(0, "subjects mismatch");
return false;
}
}
int RedPeer::ssl_verify_callback(int preverify_ok, X509_STORE_CTX *ctx)
{
int depth;
SSL *ssl;
X509* cert;
SslVerifyCbData* verify_data;
int auth_flags;
depth = X509_STORE_CTX_get_error_depth(ctx);
ssl = (SSL*)X509_STORE_CTX_get_ex_data(ctx, SSL_get_ex_data_X509_STORE_CTX_idx());
if (!ssl) {
LOG_WARN("failed to get ssl connection");
return 0;
}
verify_data = (SslVerifyCbData*)SSL_get_app_data(ssl);
auth_flags = verify_data->info.type_flags;
if (depth > 0) {
// if certificate verification failed, we can still authorize the server
// if its public key matches the one we hold in the peer_connect_options.
if (!preverify_ok) {
DBG(0, "openssl verify failed at depth=%d", depth);
verify_data->all_preverify_ok = false;
if (auth_flags & HostAuthOptions::HOST_AUTH_OP_PUBKEY) {
return 1;
} else {
return 0;
}
} else {
return preverify_ok;
}
}
/* depth == 0 */
cert = X509_STORE_CTX_get_current_cert(ctx);
if (!cert) {
LOG_WARN("failed to get server certificate");
return 0;
}
if (auth_flags & HostAuthOptions::HOST_AUTH_OP_PUBKEY) {
if (verify_pubkey(cert, verify_data->info.host_pubkey)) {
return 1;
}
}
if (!verify_data->all_preverify_ok || !preverify_ok) {
return 0;
}
if (auth_flags & HostAuthOptions::HOST_AUTH_OP_NAME) {
if (verify_host_name(cert, verify_data->host_name)) {
return 1;
}
}
if (auth_flags & HostAuthOptions::HOST_AUTH_OP_SUBJECT) {
if (verify_subject(cert, verify_data->info.host_subject)) {
return 1;
}
}
return 0;
}
void RedPeer::connect_secure(const ConnectionOptions& options, const char* host)
{
int return_code;
int auth_flags;
SslVerifyCbData auth_data;
connect_unsecure(host, options.secure_port);
ASSERT(_ctx == NULL && _ssl == NULL && _peer != INVALID_SOCKET);
try {
#if OPENSSL_VERSION_NUMBER >= 0x10000000L
const SSL_METHOD *ssl_method = TLSv1_method();
#else
SSL_METHOD *ssl_method = TLSv1_method();
#endif
auth_data.info = options.host_auth;
auth_data.host_name = host;
auth_data.all_preverify_ok = true;
_ctx = SSL_CTX_new(ssl_method);
if (_ctx == NULL) {
ssl_error();
}
auth_flags = auth_data.info.type_flags;
if ((auth_flags & RedPeer::HostAuthOptions::HOST_AUTH_OP_NAME) ||
(auth_flags & RedPeer::HostAuthOptions::HOST_AUTH_OP_SUBJECT)) {
std::string CA_file = auth_data.info.CA_file;
ASSERT(!CA_file.empty());
return_code = SSL_CTX_load_verify_locations(_ctx, CA_file.c_str(), NULL);
if (return_code != 1) {
if (auth_flags & RedPeer::HostAuthOptions::HOST_AUTH_OP_PUBKEY) {
LOG_WARN("SSL_CTX_load_verify_locations failed, CA_file=%s. "
"only pubkey authentication is active", CA_file.c_str());
auth_data.info.type_flags = RedPeer::HostAuthOptions::HOST_AUTH_OP_PUBKEY;
}
else {
LOG_WARN("SSL_CTX_load_verify_locations failed CA_file=%s", CA_file.c_str());
ssl_error();
}
}
}
if (auth_flags) {
SSL_CTX_set_verify(_ctx, SSL_VERIFY_PEER, ssl_verify_callback);
}
return_code = SSL_CTX_set_cipher_list(_ctx, options.ciphers.c_str());
if (return_code != 1) {
LOG_WARN("SSL_CTX_set_cipher_list failed, ciphers=%s", options.ciphers.c_str());
ssl_error();
}
_ssl = SSL_new(_ctx);
if (!_ssl) {
THROW("create ssl failed");
}
BIO* sbio = BIO_new_socket(_peer, BIO_NOCLOSE);
if (!sbio) {
THROW("alloc new socket bio failed");
}
SSL_set_bio(_ssl, sbio, sbio);
SSL_set_app_data(_ssl, &auth_data);
return_code = SSL_connect(_ssl);
if (return_code <= 0) {
int ssl_error_code = SSL_get_error(_ssl, return_code);
LOG_WARN("failed to connect w/SSL, ssl_error %s",
ERR_error_string(ssl_error_code, NULL));
ssl_error();
}
} catch (...) {
Lock lock(_lock);
cleanup();
throw;
}
}
void RedPeer::shutdown()
{
if (_peer != INVALID_SOCKET) {
if (_ssl) {
SSL_shutdown(_ssl);
}
::shutdown(_peer, SHUT_RDWR);
}
_shut = true;
}
void RedPeer::disconnect()
{
Lock lock(_lock);
shutdown();
}
void RedPeer::close()
{
Lock lock(_lock);
if (_peer != INVALID_SOCKET) {
if (_ctx) {
SSL_free(_ssl);
_ssl = NULL;
SSL_CTX_free(_ctx);
_ctx = NULL;
}
closesocket(_peer);
_peer = INVALID_SOCKET;
}
}
void RedPeer::swap(RedPeer* other)
{
Lock lock(_lock);
SOCKET temp_peer = _peer;
SSL_CTX *temp_ctx = _ctx;
SSL *temp_ssl = _ssl;
_peer = other->_peer;
other->_peer = temp_peer;
if (_ctx) {
_ctx = other->_ctx;
_ssl = other->_ssl;
other->_ctx = temp_ctx;
other->_ssl = temp_ssl;
}
if (_shut) {
shutdown();
}
}
uint32_t RedPeer::recive(uint8_t *buf, uint32_t size)
{
uint8_t *pos = buf;
while (size) {
int now;
if (_ctx == NULL) {
if ((now = recv(_peer, (char *)pos, size, 0)) <= 0) {
int err = sock_error();
if (now == SOCKET_ERROR && err == WOULDBLOCK_ERR) {
break;
}
if (now == 0 || err == SHUTDOWN_ERR) {
throw RedPeer::DisconnectedException();
}
if (err == INTERRUPTED_ERR) {
continue;
}
THROW_ERR(SPICEC_ERROR_CODE_RECV_FAILED, "%s (%d)", sock_err_message(err), err);
}
size -= now;
pos += now;
} else {
if ((now = SSL_read(_ssl, pos, size)) <= 0) {
int ssl_error = SSL_get_error(_ssl, now);
if (ssl_error == SSL_ERROR_WANT_READ) {
break;
}
if (ssl_error == SSL_ERROR_SYSCALL) {
int err = sock_error();
if (now == -1) {
if (err == WOULDBLOCK_ERR) {
break;
}
if (err == INTERRUPTED_ERR) {
continue;
}
}
if (now == 0 || (now == -1 && err == SHUTDOWN_ERR)) {
throw RedPeer::DisconnectedException();
}
THROW_ERR(SPICEC_ERROR_CODE_SEND_FAILED, "%s (%d)", sock_err_message(err), err);
} else if (ssl_error == SSL_ERROR_ZERO_RETURN) {
throw RedPeer::DisconnectedException();
}
THROW_ERR(SPICEC_ERROR_CODE_RECV_FAILED, "ssl error %d", ssl_error);
}
size -= now;
pos += now;
}
}
return pos - buf;
}
RedPeer::CompoundInMessage* RedPeer::recive()
{
SpiceDataHeader header;
AutoRef<CompoundInMessage> message;
recive((uint8_t*)&header, sizeof(SpiceDataHeader));
message.reset(new CompoundInMessage(header.serial, header.type, header.size, header.sub_list));
recive((*message)->data(), (*message)->compound_size());
return message.release();
}
uint32_t RedPeer::send(uint8_t *buf, uint32_t size)
{
uint8_t *pos = buf;
while (size) {
int now;
if (_ctx == NULL) {
if ((now = ::send(_peer, (char *)pos, size, 0)) == SOCKET_ERROR) {
int err = sock_error();
if (err == WOULDBLOCK_ERR) {
break;
}
if (err == SHUTDOWN_ERR) {
throw RedPeer::DisconnectedException();
}
if (err == INTERRUPTED_ERR) {
continue;
}
THROW_ERR(SPICEC_ERROR_CODE_SEND_FAILED, "%s (%d)", sock_err_message(err), err);
}
size -= now;
pos += now;
} else {
if ((now = SSL_write(_ssl, pos, size)) <= 0) {
int ssl_error = SSL_get_error(_ssl, now);
if (ssl_error == SSL_ERROR_WANT_WRITE) {
break;
}
if (ssl_error == SSL_ERROR_SYSCALL) {
int err = sock_error();
if (now == -1) {
if (err == WOULDBLOCK_ERR) {
break;
}
if (err == INTERRUPTED_ERR) {
continue;
}
}
if (now == 0 || (now == -1 && err == SHUTDOWN_ERR)) {
throw RedPeer::DisconnectedException();
}
THROW_ERR(SPICEC_ERROR_CODE_SEND_FAILED, "%s (%d)", sock_err_message(err), err);
} else if (ssl_error == SSL_ERROR_ZERO_RETURN) {
throw RedPeer::DisconnectedException();
}
THROW_ERR(SPICEC_ERROR_CODE_SEND_FAILED, "ssl error %d", ssl_error);
}
size -= now;
pos += now;
}
}
return pos - buf;
}
uint32_t RedPeer::do_send(RedPeer::OutMessage& message, uint32_t skip_bytes)
{
uint8_t *data;
int free_data;
size_t len;
uint32_t res;
data = spice_marshaller_linearize(message.marshaller(), skip_bytes,
&len, &free_data);
res = send(data, len);
if (free_data) {
free(data);
}
return res;
}
uint32_t RedPeer::send(RedPeer::OutMessage& message)
{
message.header().serial = ++_serial;
message.header().size = message.message_size() - sizeof(SpiceDataHeader);
return do_send(message, 0);
}
RedPeer::OutMessage::OutMessage(uint32_t type)
: _marshaller (spice_marshaller_new())
{
SpiceDataHeader *header;
header = (SpiceDataHeader *)
spice_marshaller_reserve_space(_marshaller, sizeof(SpiceDataHeader));
spice_marshaller_set_base(_marshaller, sizeof(SpiceDataHeader));
header->type = type;
header->sub_list = 0;
}
void RedPeer::OutMessage::reset(uint32_t type)
{
spice_marshaller_reset(_marshaller);
SpiceDataHeader *header;
header = (SpiceDataHeader *)
spice_marshaller_reserve_space(_marshaller, sizeof(SpiceDataHeader));
spice_marshaller_set_base(_marshaller, sizeof(SpiceDataHeader));
header->type = type;
header->sub_list = 0;
}
RedPeer::OutMessage::~OutMessage()
{
spice_marshaller_destroy(_marshaller);
}
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