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path: root/client/red_channel.cpp
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/*
   Copyright (C) 2009 Red Hat, Inc.

   This program is free software; you can redistribute it and/or
   modify it under the terms of the GNU General Public License as
   published by the Free Software Foundation; either version 2 of
   the License, or (at your option) any later version.

   This program 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 General Public License for more details.

   You should have received a copy of the GNU General Public License
   along with this program.  If not, see <http://www.gnu.org/licenses/>.
*/

#include "common.h"
#include "red_channel.h"
#include "red_client.h"
#include "application.h"
#include "debug.h"
#include "utils.h"

#include "openssl/rsa.h"
#include "openssl/evp.h"
#include "openssl/x509.h"


RedChannelBase::RedChannelBase(uint8_t type, uint8_t id, const ChannelCaps& common_caps,
                               const ChannelCaps& caps)
    : RedPeer()
    , _type (type)
    , _id (id)
    , _common_caps (common_caps)
    , _caps (caps)
{
}

RedChannelBase::~RedChannelBase()
{
}

void RedChannelBase::link(uint32_t connection_id, const std::string& password)
{
    RedLinkHeader header;
    RedLinkMess link_mess;
    RedLinkReply* reply;
    uint32_t link_res;
    uint32_t i;

    EVP_PKEY *pubkey;
    int nRSASize;
    BIO *bioKey;
    RSA *rsa;

    header.magic = RED_MAGIC;
    header.size = sizeof(link_mess);
    header.major_version = RED_VERSION_MAJOR;
    header.minor_version = RED_VERSION_MINOR;
    link_mess.connection_id = connection_id;
    link_mess.channel_type = _type;
    link_mess.channel_id = _id;
    link_mess.num_common_caps = get_common_caps().size();
    link_mess.num_channel_caps = get_caps().size();
    link_mess.caps_offset = sizeof(link_mess);
    header.size += (link_mess.num_common_caps + link_mess.num_channel_caps) * sizeof(uint32_t);
    send((uint8_t*)&header, sizeof(header));
    send((uint8_t*)&link_mess, sizeof(link_mess));

    for (i = 0; i < _common_caps.size(); i++) {
        send((uint8_t*)&_common_caps[i], sizeof(uint32_t));
    }

    for (i = 0; i < _caps.size(); i++) {
        send((uint8_t*)&_caps[i], sizeof(uint32_t));
    }

    recive((uint8_t*)&header, sizeof(header));

    if (header.magic != RED_MAGIC) {
        THROW_ERR(SPICEC_ERROR_CODE_CONNECT_FAILED, "bad magic");
    }

    if (header.major_version != RED_VERSION_MAJOR) {
        THROW_ERR(SPICEC_ERROR_CODE_VERSION_MISMATCH,
                  "version mismatch: expect %u got %u",
                  RED_VERSION_MAJOR,
                  header.major_version);
    }

    AutoArray<uint8_t> reply_buf(new uint8_t[header.size]);
    recive(reply_buf.get(), header.size);

    reply = (RedLinkReply *)reply_buf.get();

    if (reply->error != RED_ERR_OK) {
        THROW_ERR(SPICEC_ERROR_CODE_CONNECT_FAILED, "connect error %u", reply->error);
    }

    uint32_t num_caps = reply->num_channel_caps + reply->num_common_caps;
    if ((uint8_t *)(reply + 1) > reply_buf.get() + header.size ||
        (uint8_t *)reply + reply->caps_offset + num_caps * sizeof(uint32_t) >
                                                                    reply_buf.get() + header.size) {
        THROW_ERR(SPICEC_ERROR_CODE_CONNECT_FAILED, "access violation");
    }

    uint32_t *caps = (uint32_t *)((uint8_t *)reply + reply->caps_offset);

    _remote_common_caps.clear();
    for (i = 0; i < reply->num_common_caps; i++, caps++) {
        _remote_common_caps.resize(i + 1);
        _remote_common_caps[i] = *caps;
    }

    _remote_caps.clear();
    for (i = 0; i < reply->num_channel_caps; i++, caps++) {
        _remote_caps.resize(i + 1);
        _remote_caps[i] = *caps;
    }

    bioKey = BIO_new(BIO_s_mem());
    if (bioKey != NULL) {
        BIO_write(bioKey, reply->pub_key, RED_TICKET_PUBKEY_BYTES);
        pubkey = d2i_PUBKEY_bio(bioKey, NULL);
        rsa = pubkey->pkey.rsa;
        nRSASize = RSA_size(rsa);
        AutoArray<unsigned char> bufEncrypted(new unsigned char[nRSASize]);

        /*
                The use of RSA encryption limit the potential maximum password length.
                for RSA_PKCS1_OAEP_PADDING it is RSA_size(rsa) - 41.
        */
        if (RSA_public_encrypt(password.length() + 1, (unsigned char *)password.c_str(),
                               (uint8_t *)bufEncrypted.get(),
                               rsa, RSA_PKCS1_OAEP_PADDING) > 0) {
            send((uint8_t*)bufEncrypted.get(), nRSASize);
        } else {
            THROW("could not encrypt password");
        }

        memset(bufEncrypted.get(), 0, nRSASize);
    } else {
        THROW("Could not initiate BIO");
    }

    BIO_free(bioKey);

    recive((uint8_t*)&link_res, sizeof(link_res));
    if (link_res != RED_ERR_OK) {
        int error_code = (link_res == RED_ERR_PERMISSION_DENIED) ?
                                SPICEC_ERROR_CODE_CONNECT_FAILED : SPICEC_ERROR_CODE_CONNECT_FAILED;
        THROW_ERR(error_code, "connect failed %u", link_res);
    }
}

void RedChannelBase::connect(const ConnectionOptions& options, uint32_t connection_id,
                             uint32_t ip, std::string password)
{
    if (options.allow_unsecure()) {
        try {
            RedPeer::connect_unsecure(ip, options.unsecure_port);
            link(connection_id, password);
            return;
        } catch (...) {
            if (!options.allow_secure()) {
                throw;
            }
            RedPeer::close();
        }
    }
    ASSERT(options.allow_secure());
    RedPeer::connect_secure(options, ip);
    link(connection_id, password);
}

void RedChannelBase::connect(const ConnectionOptions& options, uint32_t connection_id,
                             const char* host, std::string password)
{
    connect(options, connection_id, host_by_name(host), password);
}

void RedChannelBase::set_capability(ChannelCaps& caps, uint32_t cap)
{
    uint32_t word_index = cap / 32;

    if (caps.size() < word_index + 1) {
        caps.resize(word_index + 1);
    }
    caps[word_index] |= 1 << (cap % 32);
}

void RedChannelBase::set_common_capability(uint32_t cap)
{
    set_capability(_common_caps, cap);
}

void RedChannelBase::set_capability(uint32_t cap)
{
    set_capability(_caps, cap);
}

bool RedChannelBase::test_capability(const ChannelCaps& caps, uint32_t cap)
{
    uint32_t word_index = cap / 32;

    if (caps.size() < word_index + 1) {
        return false;
    }

    return (caps[word_index] & (1 << (cap % 32))) != 0;
}

bool RedChannelBase::test_common_capability(uint32_t cap)
{
    return test_capability(_remote_common_caps, cap);
}

bool RedChannelBase::test_capability(uint32_t cap)
{
    return test_capability(_remote_caps, cap);
}

SendTrigger::SendTrigger(RedChannel& channel)
    : _channel (channel)
{
}

void SendTrigger::on_event()
{
    _channel.on_send_trigger();
}

void AbortTrigger::on_event()
{
    THROW("abort");
}

RedChannel::RedChannel(RedClient& client, uint8_t type, uint8_t id,
                       RedChannel::MessageHandler* handler,
                       Platform::ThreadPriority worker_priority)
    : RedChannelBase(type, id, ChannelCaps(), ChannelCaps())
    , _client (client)
    , _state (PASSIVE_STATE)
    , _action (WAIT_ACTION)
    , _error (SPICEC_ERROR_CODE_SUCCESS)
    , _wait_for_threads (true)
    , _socket_in_loop (false)
    , _worker (NULL)
    , _worker_priority (worker_priority)
    , _message_handler (handler)
    , _outgoing_message (NULL)
    , _incomming_header_pos (0)
    , _incomming_message (NULL)
    , _message_ack_count (0)
    , _message_ack_window (0)
    , _send_trigger (*this)
    , _disconnect_stamp (0)
    , _disconnect_reason (RED_ERR_OK)
{
    _loop.add_trigger(_send_trigger);
    _loop.add_trigger(_abort_trigger);
}

RedChannel::~RedChannel()
{
    ASSERT(_state == TERMINATED_STATE || _state == PASSIVE_STATE);
    delete _worker;
}

void* RedChannel::worker_main(void *data)
{
    try {
        RedChannel* channel = static_cast<RedChannel*>(data);
        channel->set_state(DISCONNECTED_STATE);
        Platform::set_thread_priority(NULL, channel->get_worker_priority());
        channel->run();
    } catch (Exception& e) {
        LOG_ERROR("unhandle exception: %s", e.what());
    } catch (std::exception& e) {
        LOG_ERROR("unhandle exception: %s", e.what());
    } catch (...) {
        LOG_ERROR("unhandled exception");
    }
    return NULL;
}

void RedChannel::post_message(RedChannel::OutMessage* message)
{
    Lock lock(_outgoing_lock);
    _outgoing_messages.push_back(message);
    lock.unlock();
    _send_trigger.trigger();
}

RedPeer::CompundInMessage *RedChannel::recive()
{
    CompundInMessage *message = RedChannelBase::recive();
    on_message_recived();
    return message;
}

RedChannel::OutMessage* RedChannel::get_outgoing_message()
{
    if (_state != CONNECTED_STATE || _outgoing_messages.empty()) {
        return NULL;
    }
    RedChannel::OutMessage* message = _outgoing_messages.front();
    _outgoing_messages.pop_front();
    return message;
}

class AutoMessage {
public:
    AutoMessage(RedChannel::OutMessage* message) : _message (message) {}
    ~AutoMessage() {if (_message) _message->release();}
    void set(RedChannel::OutMessage* message) { _message = message;}
    RedChannel::OutMessage* get() { return _message;}
    RedChannel::OutMessage* release();

private:
    RedChannel::OutMessage* _message;
};

RedChannel::OutMessage* AutoMessage::release()
{
    RedChannel::OutMessage* ret = _message;
    _message = NULL;
    return ret;
}

void RedChannel::start()
{
    ASSERT(!_worker);
    _worker = new Thread(RedChannel::worker_main, this);
    Lock lock(_state_lock);
    while (_state == PASSIVE_STATE) {
        _state_cond.wait(lock);
    }
}

void RedChannel::set_state(int state)
{
    Lock lock(_state_lock);
    _state = state;
    _state_cond.notify_all();
}

void RedChannel::connect()
{
    Lock lock(_action_lock);

    if (_state != DISCONNECTED_STATE && _state != PASSIVE_STATE) {
        return;
    }
    _action = CONNECT_ACTION;
    _action_cond.notify_one();
}

void RedChannel::disconnect()
{
    clear_outgoing_messages();

    Lock lock(_action_lock);
    if (_state != CONNECTING_STATE && _state != CONNECTED_STATE) {
        return;
    }
    _action = DISCONNECT_ACTION;
    RedPeer::disconnect();
    _action_cond.notify_one();
}

void RedChannel::clear_outgoing_messages()
{
    Lock lock(_outgoing_lock);
    while (!_outgoing_messages.empty()) {
        RedChannel::OutMessage* message = _outgoing_messages.front();
        _outgoing_messages.pop_front();
        message->release();
    }
}

void RedChannel::run()
{
    for (;;) {
        Lock lock(_action_lock);
        if (_action == WAIT_ACTION) {
            _action_cond.wait(lock);
        }
        int action = _action;
        _action = WAIT_ACTION;
        lock.unlock();
        switch (action) {
        case CONNECT_ACTION:
            try {
                get_client().get_sync_info(get_type(), get_id(), _sync_info);
                on_connecting();
                set_state(CONNECTING_STATE);
                ConnectionOptions con_options(_client.get_connection_options(get_type()),
                                              _client.get_port(),
                                              _client.get_sport());
                RedChannelBase::connect(con_options, _client.get_connection_id(),
                                        _client.get_host(), _client.get_password());
                on_connect();
                set_state(CONNECTED_STATE);
                _loop.add_socket(*this);
                _socket_in_loop = true;
                on_event();
                _loop.run();
            } catch (RedPeer::DisconnectedException&) {
                _error = SPICEC_ERROR_CODE_SUCCESS;
            } catch (Exception& e) {
                LOG_WARN("%s", e.what());
                _error = e.get_error_code();
            } catch (std::exception& e) {
                LOG_WARN("%s", e.what());
                _error = SPICEC_ERROR_CODE_ERROR;
            }
            if (_socket_in_loop) {
                _socket_in_loop = false;
                _loop.remove_socket(*this);
            }
            if (_outgoing_message) {
                _outgoing_message->release();
                _outgoing_message = NULL;
            }
            _incomming_header_pos = 0;
            if (_incomming_message) {
                _incomming_message->unref();
                _incomming_message = NULL;
            }
        case DISCONNECT_ACTION:
            close();
            on_disconnect();
            set_state(DISCONNECTED_STATE);
            _client.on_channel_disconnected(*this);
            continue;
        case QUIT_ACTION:
            set_state(TERMINATED_STATE);
            return;
        }
    }
}

bool RedChannel::abort()
{
    clear_outgoing_messages();
    Lock lock(_action_lock);
    if (_state == TERMINATED_STATE) {
        if (_wait_for_threads) {
            _wait_for_threads = false;
            _worker->join();
        }
        return true;
    }

    _action = QUIT_ACTION;
    _action_cond.notify_one();
    lock.unlock();
    RedPeer::disconnect();
    _abort_trigger.trigger();

    for (;;) {
        Lock state_lock(_state_lock);
        if (_state == TERMINATED_STATE) {
            break;
        }
        uint64_t timout = 1000 * 1000 * 100; // 100ms
        if (!_state_cond.timed_wait(state_lock, timout)) {
            return false;
        }
    }
    if (_wait_for_threads) {
        _wait_for_threads = false;
        _worker->join();
    }
    return true;
}

void RedChannel::send_messages()
{
    if (_outgoing_message) {
        return;
    }

    for (;;) {
        Lock lock(_outgoing_lock);
        AutoMessage message(get_outgoing_message());
        if (!message.get()) {
            return;
        }
        RedPeer::OutMessage& peer_message = message.get()->peer_message();
        uint32_t n = send(peer_message);
        if (n != peer_message.message_size()) {
            _outgoing_message = message.release();
            _outgoing_pos = n;
            return;
        }
    }
}

void RedChannel::on_send_trigger()
{
    send_messages();
}

void RedChannel::on_message_recived()
{
    if (_message_ack_count && !--_message_ack_count) {
        post_message(new Message(REDC_ACK, 0));
        _message_ack_count = _message_ack_window;
    }
}

void RedChannel::on_message_complition(uint64_t serial)
{
    Lock lock(*_sync_info.lock);
    *_sync_info.message_serial = serial;
    _sync_info.condition->notify_all();
}

void RedChannel::recive_messages()
{
    for (;;) {
        uint32_t n = RedPeer::recive((uint8_t*)&_incomming_header, sizeof(RedDataHeader));
        if (n != sizeof(RedDataHeader)) {
            _incomming_header_pos = n;
            return;
        }
        AutoRef<CompundInMessage> message(new CompundInMessage(_incomming_header.serial,
                                                               _incomming_header.type,
                                                               _incomming_header.size,
                                                               _incomming_header.sub_list));
        n = RedPeer::recive((*message)->data(), (*message)->compund_size());
        if (n != (*message)->compund_size()) {
            _incomming_message = message.release();
            _incomming_message_pos = n;
            return;
        }
        on_message_recived();
        _message_handler->handle_message(*(*message));
        on_message_complition((*message)->serial());
    }
}

void RedChannel::on_event()
{
    if (_outgoing_message) {
        RedPeer::OutMessage& peer_message = _outgoing_message->peer_message();
        _outgoing_pos += send(peer_message.base() + _outgoing_pos,
                              peer_message.message_size() - _outgoing_pos);
        if (_outgoing_pos == peer_message.message_size()) {
            _outgoing_message->release();
            _outgoing_message = NULL;
        }
    }
    send_messages();

    if (_incomming_header_pos) {
        _incomming_header_pos += RedPeer::recive(((uint8_t*)&_incomming_header) +
                                                 _incomming_header_pos,
                                                 sizeof(RedDataHeader) - _incomming_header_pos);
        if (_incomming_header_pos != sizeof(RedDataHeader)) {
            return;
        }
        _incomming_header_pos = 0;
        _incomming_message = new CompundInMessage(_incomming_header.serial,
                                                  _incomming_header.type,
                                                  _incomming_header.size,
                                                  _incomming_header.sub_list);
        _incomming_message_pos = 0;
    }

    if (_incomming_message) {
        _incomming_message_pos += RedPeer::recive(_incomming_message->data() +
                                                  _incomming_message_pos,
                                                  _incomming_message->compund_size() -
                                                  _incomming_message_pos);
        if (_incomming_message_pos != _incomming_message->compund_size()) {
            return;
        }
        AutoRef<CompundInMessage> message(_incomming_message);
        _incomming_message = NULL;
        on_message_recived();
        _message_handler->handle_message(*(*message));
        on_message_complition((*message)->serial());
    }
    recive_messages();
}

void RedChannel::send_migrate_flush_mark()
{
    if (_outgoing_message) {
        RedPeer::OutMessage& peer_message = _outgoing_message->peer_message();
        send(peer_message.base() + _outgoing_pos, peer_message.message_size() - _outgoing_pos);
        _outgoing_message->release();
        _outgoing_message = NULL;
    }
    Lock lock(_outgoing_lock);
    for (;;) {
        AutoMessage message(get_outgoing_message());
        if (!message.get()) {
            break;
        }
        send(message.get()->peer_message());
    }
    lock.unlock();
    std::auto_ptr<RedPeer::OutMessage> message(new RedPeer::OutMessage(REDC_MIGRATE_FLUSH_MARK, 0));
    send(*message);
}

void RedChannel::handle_migrate(RedPeer::InMessage* message)
{
    DBG(0, "channel type %u id %u", get_type(), get_id());
    _socket_in_loop = false;
    _loop.remove_socket(*this);
    RedMigrate* migrate = (RedMigrate*)message->data();
    if (migrate->flags & RED_MIGRATE_NEED_FLUSH) {
        send_migrate_flush_mark();
    }
    AutoRef<CompundInMessage> data_message;
    if (migrate->flags & RED_MIGRATE_NEED_DATA_TRANSFER) {
        data_message.reset(recive());
    }
    _client.migrate_channel(*this);
    if (migrate->flags & RED_MIGRATE_NEED_DATA_TRANSFER) {
        if ((*data_message)->type() != RED_MIGRATE_DATA) {
            THROW("expect RED_MIGRATE_DATA");
        }
        std::auto_ptr<RedPeer::OutMessage> message(new RedPeer::OutMessage(REDC_MIGRATE_DATA,
                                                                          (*data_message)->size()));
        memcpy(message->data(), (*data_message)->data(), (*data_message)->size());
        send(*message);
    }
    _loop.add_socket(*this);
    _socket_in_loop = true;
    on_migrate();
    set_state(CONNECTED_STATE);
    on_event();
}

void RedChannel::handle_set_ack(RedPeer::InMessage* message)
{
    RedSetAck* ack = (RedSetAck*)message->data();
    _message_ack_window = _message_ack_count = ack->window;
    Message *responce = new Message(REDC_ACK_SYNC, sizeof(uint32_t));
    *(uint32_t *)responce->data() = ack->generation;
    post_message(responce);
}

void RedChannel::handle_ping(RedPeer::InMessage* message)
{
    RedPing *ping = (RedPing *)message->data();
    Message *pong = new Message(REDC_PONG, sizeof(RedPing));
    *(RedPing *)pong->data() = *ping;
    post_message(pong);
}

void RedChannel::handle_disconnect(RedPeer::InMessage* message)
{
    RedDisconnect *disconnect = (RedDisconnect *)message->data();
    _disconnect_stamp = disconnect->time_stamp;
    _disconnect_reason = disconnect->reason;
}

void RedChannel::handle_notify(RedPeer::InMessage* message)
{
    RedNotify *notify = (RedNotify *)message->data();
    const char *sevirity;
    const char *visibility;
    const char *message_str = "";
    const char *message_prefix = "";

    static const char* sevirity_strings[] = {"info", "warn", "error"};
    static const char* visibility_strings[] = {"!", "!!", "!!!"};


    if (notify->severty > RED_NOTIFY_SEVERITY_ERROR) {
        THROW("bad sevirity");
    }
    sevirity = sevirity_strings[notify->severty];

    if (notify->visibilty > RED_NOTIFY_VISIBILITY_HIGH) {
        THROW("bad visibilty");
    }
    visibility = visibility_strings[notify->visibilty];


    if (notify->message_len) {
        if ((message->size() - sizeof(*notify) < notify->message_len + 1)) {
            THROW("access violation");
        }
        message_str = (char *)(notify + 1);
        if (message_str[notify->message_len] != 0) {
            THROW("invalid message");
        }
        message_prefix = ": ";
    }


    LOG_INFO("remote channel %u:%u %s%s #%u%s%s",
             get_type(), get_id(),
             sevirity, visibility,
             notify->what,
             message_prefix, message_str);
}

void RedChannel::handle_wait_for_channels(RedPeer::InMessage* message)
{
    RedWaitForChannels *wait = (RedWaitForChannels *)message->data();
    if (message->size() < sizeof(*wait) + wait->wait_count * sizeof(wait->wait_list[0])) {
        THROW("access violation");
    }
    _client.wait_for_channels(wait->wait_count, wait->wait_list);
}