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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/>.
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <common/ring.h>
#include "red-common.h"
#include "main-channel.h"
#include "reds.h"
int main_channel_is_connected(MainChannel *main_chan)
{
return red_channel_is_connected(&main_chan->base);
}
/*
* When the main channel is disconnected, disconnect the entire client.
*/
static void main_channel_client_on_disconnect(RedChannelClient *rcc)
{
RedsState *reds = red_channel_get_server(rcc->channel);
spice_printerr("rcc=%p", rcc);
main_dispatcher_client_disconnect(reds_get_main_dispatcher(reds), rcc->client);
}
RedClient *main_channel_get_client_by_link_id(MainChannel *main_chan, uint32_t connection_id)
{
GList *link, *next;
RedChannelClient *rcc;
FOREACH_CLIENT(main_chan, link, next, rcc) {
MainChannelClient *mcc = (MainChannelClient*) rcc;
if (main_channel_client_get_connection_id(mcc) == connection_id) {
return rcc->client;
}
}
return NULL;
}
static void main_channel_push_channels(MainChannelClient *mcc)
{
if (red_client_during_migrate_at_target((main_channel_client_get_base(mcc))->client)) {
spice_printerr("warning: ignoring unexpected SPICE_MSGC_MAIN_ATTACH_CHANNELS"
"during migration");
return;
}
red_channel_client_pipe_add_type(main_channel_client_get_base(mcc), RED_PIPE_ITEM_TYPE_MAIN_CHANNELS_LIST);
}
void main_channel_push_mouse_mode(MainChannel *main_chan, int current_mode,
int is_client_mouse_allowed)
{
MainMouseModeItemInfo info = {
.current_mode=current_mode,
.is_client_mouse_allowed=is_client_mouse_allowed,
};
red_channel_pipes_new_add_push(&main_chan->base,
main_mouse_mode_item_new, &info);
}
void main_channel_push_agent_connected(MainChannel *main_chan)
{
if (red_channel_test_remote_cap(&main_chan->base, SPICE_MAIN_CAP_AGENT_CONNECTED_TOKENS)) {
red_channel_pipes_add_type(&main_chan->base, RED_PIPE_ITEM_TYPE_MAIN_AGENT_CONNECTED_TOKENS);
} else {
red_channel_pipes_add_empty_msg(&main_chan->base, SPICE_MSG_MAIN_AGENT_CONNECTED);
}
}
void main_channel_push_agent_disconnected(MainChannel *main_chan)
{
red_channel_pipes_add_type(&main_chan->base, RED_PIPE_ITEM_TYPE_MAIN_AGENT_DISCONNECTED);
}
static void main_channel_push_migrate_data_item(MainChannel *main_chan)
{
red_channel_pipes_add_type(&main_chan->base, RED_PIPE_ITEM_TYPE_MAIN_MIGRATE_DATA);
}
static int main_channel_handle_migrate_data(RedChannelClient *rcc,
uint32_t size, void *message)
{
MainChannelClient *mcc = (MainChannelClient*)rcc;
SpiceMigrateDataHeader *header = (SpiceMigrateDataHeader *)message;
/* not supported with multi-clients */
spice_assert(g_list_length(rcc->channel->clients) == 1);
if (size < sizeof(SpiceMigrateDataHeader) + sizeof(SpiceMigrateDataMain)) {
spice_printerr("bad message size %u", size);
return FALSE;
}
if (!migration_protocol_validate_header(header,
SPICE_MIGRATE_DATA_MAIN_MAGIC,
SPICE_MIGRATE_DATA_MAIN_VERSION)) {
spice_error("bad header");
return FALSE;
}
return reds_handle_migrate_data(rcc->channel->reds, mcc, (SpiceMigrateDataMain *)(header + 1), size);
}
void main_channel_push_multi_media_time(MainChannel *main_chan, int time)
{
MainMultiMediaTimeItemInfo info = {
.time = time,
};
red_channel_pipes_new_add_push(&main_chan->base,
main_multi_media_time_item_new, &info);
}
static void main_channel_fill_mig_target(MainChannel *main_channel, RedsMigSpice *mig_target)
{
spice_assert(mig_target);
free(main_channel->mig_target.host);
main_channel->mig_target.host = spice_strdup(mig_target->host);
free(main_channel->mig_target.cert_subject);
if (mig_target->cert_subject) {
main_channel->mig_target.cert_subject = spice_strdup(mig_target->cert_subject);
} else {
main_channel->mig_target.cert_subject = NULL;
}
main_channel->mig_target.port = mig_target->port;
main_channel->mig_target.sport = mig_target->sport;
}
void main_channel_migrate_switch(MainChannel *main_chan, RedsMigSpice *mig_target)
{
main_channel_fill_mig_target(main_chan, mig_target);
red_channel_pipes_add_type(&main_chan->base, RED_PIPE_ITEM_TYPE_MAIN_MIGRATE_SWITCH_HOST);
}
static int main_channel_handle_parsed(RedChannelClient *rcc, uint32_t size, uint16_t type,
void *message)
{
MainChannel *main_chan = SPICE_CONTAINEROF(rcc->channel, MainChannel, base);
MainChannelClient *mcc = (MainChannelClient*)rcc;
switch (type) {
case SPICE_MSGC_MAIN_AGENT_START: {
SpiceMsgcMainAgentStart *tokens;
spice_printerr("agent start");
if (!main_chan) {
return FALSE;
}
tokens = (SpiceMsgcMainAgentStart *)message;
reds_on_main_agent_start(rcc->channel->reds, mcc, tokens->num_tokens);
break;
}
case SPICE_MSGC_MAIN_AGENT_DATA: {
reds_on_main_agent_data(rcc->channel->reds, mcc, message, size);
break;
}
case SPICE_MSGC_MAIN_AGENT_TOKEN: {
SpiceMsgcMainAgentTokens *tokens;
tokens = (SpiceMsgcMainAgentTokens *)message;
reds_on_main_agent_tokens(rcc->channel->reds, mcc, tokens->num_tokens);
break;
}
case SPICE_MSGC_MAIN_ATTACH_CHANNELS:
main_channel_push_channels(mcc);
break;
case SPICE_MSGC_MAIN_MIGRATE_CONNECTED:
main_channel_client_handle_migrate_connected(mcc,
TRUE /* success */,
FALSE /* seamless */);
break;
case SPICE_MSGC_MAIN_MIGRATE_CONNECTED_SEAMLESS:
main_channel_client_handle_migrate_connected(mcc,
TRUE /* success */,
TRUE /* seamless */);
break;
case SPICE_MSGC_MAIN_MIGRATE_CONNECT_ERROR:
main_channel_client_handle_migrate_connected(mcc, FALSE, FALSE);
break;
case SPICE_MSGC_MAIN_MIGRATE_DST_DO_SEAMLESS:
main_channel_client_handle_migrate_dst_do_seamless(mcc,
((SpiceMsgcMainMigrateDstDoSeamless *)message)->src_version);
break;
case SPICE_MSGC_MAIN_MOUSE_MODE_REQUEST:
reds_on_main_mouse_mode_request(rcc->channel->reds, message, size);
break;
case SPICE_MSGC_PONG: {
main_channel_client_handle_pong(mcc, (SpiceMsgPing *)message, size);
break;
}
case SPICE_MSGC_DISCONNECTING:
break;
case SPICE_MSGC_MAIN_MIGRATE_END:
main_channel_client_handle_migrate_end(mcc);
break;
default:
return red_channel_client_handle_message(rcc, size, type, message);
}
return TRUE;
}
static uint8_t *main_channel_alloc_msg_rcv_buf(RedChannelClient *rcc,
uint16_t type,
uint32_t size)
{
MainChannel *main_chan = SPICE_CONTAINEROF(rcc->channel, MainChannel, base);
MainChannelClient *mcc = (MainChannelClient*)rcc;
if (type == SPICE_MSGC_MAIN_AGENT_DATA) {
return reds_get_agent_data_buffer(rcc->channel->reds, mcc, size);
} else {
return main_chan->recv_buf;
}
}
static void main_channel_release_msg_rcv_buf(RedChannelClient *rcc,
uint16_t type,
uint32_t size,
uint8_t *msg)
{
if (type == SPICE_MSGC_MAIN_AGENT_DATA) {
reds_release_agent_data_buffer(rcc->channel->reds, msg);
}
}
static int main_channel_config_socket(RedChannelClient *rcc)
{
return TRUE;
}
static int main_channel_handle_migrate_flush_mark(RedChannelClient *rcc)
{
spice_debug(NULL);
main_channel_push_migrate_data_item(SPICE_CONTAINEROF(rcc->channel,
MainChannel, base));
return TRUE;
}
MainChannelClient *main_channel_link(MainChannel *channel, RedClient *client,
RedsStream *stream, uint32_t connection_id, int migration,
int num_common_caps, uint32_t *common_caps, int num_caps,
uint32_t *caps)
{
MainChannelClient *mcc;
spice_assert(channel);
// TODO - migration - I removed it from channel creation, now put it
// into usage somewhere (not an issue until we return migration to it's
// former glory)
spice_printerr("add main channel client");
mcc = main_channel_client_create(channel, client, stream, connection_id,
num_common_caps, common_caps,
num_caps, caps);
return mcc;
}
int main_channel_getsockname(MainChannel *main_chan, struct sockaddr *sa, socklen_t *salen)
{
return main_chan ? getsockname(red_channel_get_first_socket(&main_chan->base), sa, salen) : -1;
}
int main_channel_getpeername(MainChannel *main_chan, struct sockaddr *sa, socklen_t *salen)
{
return main_chan ? getpeername(red_channel_get_first_socket(&main_chan->base), sa, salen) : -1;
}
// TODO: ? shouldn't it disonnect all clients? or shutdown all main_channels?
void main_channel_close(MainChannel *main_chan)
{
int socketfd;
if (main_chan && (socketfd = red_channel_get_first_socket(&main_chan->base)) != -1) {
close(socketfd);
}
}
MainChannel* main_channel_new(RedsState *reds)
{
RedChannel *channel;
ChannelCbs channel_cbs = { NULL, };
ClientCbs client_cbs = {NULL, };
channel_cbs.config_socket = main_channel_config_socket;
channel_cbs.on_disconnect = main_channel_client_on_disconnect;
channel_cbs.send_item = main_channel_client_send_item;
channel_cbs.alloc_recv_buf = main_channel_alloc_msg_rcv_buf;
channel_cbs.release_recv_buf = main_channel_release_msg_rcv_buf;
channel_cbs.handle_migrate_flush_mark = main_channel_handle_migrate_flush_mark;
channel_cbs.handle_migrate_data = main_channel_handle_migrate_data;
// TODO: set the migration flag of the channel
channel = red_channel_create_parser(sizeof(MainChannel), reds,
reds_get_core_interface(reds),
SPICE_CHANNEL_MAIN, 0,
FALSE, /* handle_acks */
spice_get_client_channel_parser(SPICE_CHANNEL_MAIN, NULL),
main_channel_handle_parsed,
&channel_cbs,
SPICE_MIGRATE_NEED_FLUSH | SPICE_MIGRATE_NEED_DATA_TRANSFER);
spice_assert(channel);
red_channel_set_cap(channel, SPICE_MAIN_CAP_SEMI_SEAMLESS_MIGRATE);
red_channel_set_cap(channel, SPICE_MAIN_CAP_SEAMLESS_MIGRATE);
client_cbs.migrate = main_channel_client_migrate;
red_channel_register_client_cbs(channel, &client_cbs, NULL);
return (MainChannel *)channel;
}
static int main_channel_connect_semi_seamless(MainChannel *main_channel)
{
GList *link, *next;
RedChannelClient *rcc;
FOREACH_CLIENT(main_channel, link, next, rcc) {
MainChannelClient *mcc = (MainChannelClient*)rcc;
if (main_channel_client_connect_semi_seamless(mcc))
main_channel->num_clients_mig_wait++;
}
return main_channel->num_clients_mig_wait;
}
static int main_channel_connect_seamless(MainChannel *main_channel)
{
GList *link, *next;
RedChannelClient *rcc;
spice_assert(g_list_length(main_channel->base.clients) == 1);
FOREACH_CLIENT(main_channel, link, next, rcc) {
MainChannelClient *mcc = (MainChannelClient*)rcc;
main_channel_client_connect_seamless(mcc);
main_channel->num_clients_mig_wait++;
}
return main_channel->num_clients_mig_wait;
}
int main_channel_migrate_connect(MainChannel *main_channel, RedsMigSpice *mig_target,
int try_seamless)
{
main_channel_fill_mig_target(main_channel, mig_target);
main_channel->num_clients_mig_wait = 0;
if (!main_channel_is_connected(main_channel)) {
return 0;
}
if (!try_seamless) {
return main_channel_connect_semi_seamless(main_channel);
} else {
RedChannelClient *rcc;
rcc = g_list_nth_data(main_channel->base.clients, 0);
if (!red_channel_client_test_remote_cap(rcc,
SPICE_MAIN_CAP_SEAMLESS_MIGRATE)) {
return main_channel_connect_semi_seamless(main_channel);
} else {
return main_channel_connect_seamless(main_channel);
}
}
}
void main_channel_migrate_cancel_wait(MainChannel *main_chan)
{
GList *link, *next;
RedChannelClient *rcc;
FOREACH_CLIENT(main_chan, link, next, rcc) {
MainChannelClient *mcc = (MainChannelClient*)rcc;
main_channel_client_migrate_cancel_wait(mcc);
}
main_chan->num_clients_mig_wait = 0;
}
int main_channel_migrate_src_complete(MainChannel *main_chan, int success)
{
GList *link, *next;
int semi_seamless_count = 0;
RedChannelClient *rcc;
spice_printerr("");
if (!main_chan->base.clients) {
spice_printerr("no peer connected");
return 0;
}
FOREACH_CLIENT(main_chan, link, next, rcc) {
MainChannelClient *mcc = (MainChannelClient*)rcc;
if (main_channel_client_migrate_src_complete(mcc, success))
semi_seamless_count++;
}
return semi_seamless_count;
}
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