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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 <stdint.h>
#include <stdio.h>
#include <unistd.h>
#include <sys/socket.h>
#include <sys/uio.h>
#include <netinet/in.h>
#include <netinet/tcp.h>
#include <arpa/inet.h>
#include <netdb.h>
#include <limits.h>
#include <time.h>
#include <pthread.h>
#include <sys/mman.h>
#include <fcntl.h>
#include <errno.h>
#include <ctype.h>
#include <stdbool.h>
#include <openssl/err.h>
#if HAVE_SASL
#include <sasl/sasl.h>
#endif
#include <glib.h>
#include <spice/protocol.h>
#include <spice/vd_agent.h>
#include <spice/stats.h>
#include "common/generated_server_marshallers.h"
#include "common/ring.h"
#include "spice.h"
#include "spice-experimental.h"
#include "reds.h"
#include "agent-msg-filter.h"
#include "inputs_channel.h"
#include "main_channel.h"
#include "red_common.h"
#include "red_dispatcher.h"
#include "main_dispatcher.h"
#include "snd_worker.h"
#include "stat.h"
#include "demarshallers.h"
#include "char_device.h"
#include "migration_protocol.h"
#ifdef USE_SMARTCARD
#include "smartcard.h"
#endif
#include "reds_stream.h"
#include "reds-private.h"
SpiceCoreInterface *core = NULL;
static SpiceCharDeviceInstance *vdagent = NULL;
static SpiceMigrateInstance *migration_interface = NULL;
/* Debugging only variable: allow multiple client connections to the spice
* server */
#define SPICE_DEBUG_ALLOW_MC_ENV "SPICE_DEBUG_ALLOW_MC"
#define MIGRATION_NOTIFY_SPICE_KEY "spice_mig_ext"
#define REDS_MIG_VERSION 3
#define REDS_MIG_CONTINUE 1
#define REDS_MIG_ABORT 2
#define REDS_MIG_DIFF_VERSION 3
#define REDS_TOKENS_TO_SEND 5
#define REDS_VDI_PORT_NUM_RECEIVE_BUFFS 5
static TicketAuthentication taTicket;
static int spice_port = -1;
static int spice_secure_port = -1;
static int spice_listen_socket_fd = -1;
static char spice_addr[256];
static int spice_family = PF_UNSPEC;
static const char *default_renderer = "sw";
static int sasl_enabled = 0; // sasl disabled by default
#if HAVE_SASL
static char *sasl_appname = NULL; // default to "spice" if NULL
#endif
static char *spice_name = NULL;
static bool spice_uuid_is_set = FALSE;
static uint8_t spice_uuid[16] = { 0, };
static int ticketing_enabled = 1; //Ticketing is enabled by default
static pthread_mutex_t *lock_cs;
static long *lock_count;
uint32_t streaming_video = STREAM_VIDEO_FILTER;
spice_image_compression_t image_compression = SPICE_IMAGE_COMPRESS_AUTO_GLZ;
spice_wan_compression_t jpeg_state = SPICE_WAN_COMPRESSION_AUTO;
spice_wan_compression_t zlib_glz_state = SPICE_WAN_COMPRESSION_AUTO;
int agent_mouse = TRUE;
int agent_copypaste = TRUE;
int agent_file_xfer = TRUE;
static bool exit_on_disconnect = FALSE;
static RedsState *reds = NULL;
typedef struct RedLinkInfo {
RedsStream *stream;
AsyncRead async_read;
SpiceLinkHeader link_header;
SpiceLinkMess *link_mess;
int mess_pos;
TicketInfo tiTicketing;
SpiceLinkAuthMechanism auth_mechanism;
int skip_auth;
} RedLinkInfo;
typedef struct RedSSLParameters {
char keyfile_password[256];
char certs_file[256];
char private_key_file[256];
char ca_certificate_file[256];
char dh_key_file[256];
char ciphersuite[256];
} RedSSLParameters;
typedef struct ChannelSecurityOptions ChannelSecurityOptions;
struct ChannelSecurityOptions {
uint32_t channel_id;
uint32_t options;
ChannelSecurityOptions *next;
};
static void migrate_timeout(void *opaque);
static RedsMigTargetClient* reds_mig_target_client_find(RedClient *client);
static void reds_mig_target_client_free(RedsMigTargetClient *mig_client);
static void reds_mig_cleanup_wait_disconnect(void);
static void reds_mig_remove_wait_disconnect_client(RedClient *client);
static void reds_char_device_add_state(SpiceCharDeviceState *st);
static void reds_char_device_remove_state(SpiceCharDeviceState *st);
static void reds_send_mm_time(void);
static ChannelSecurityOptions *channels_security = NULL;
static int default_channel_security =
SPICE_CHANNEL_SECURITY_NONE | SPICE_CHANNEL_SECURITY_SSL;
static RedSSLParameters ssl_parameters;
static ChannelSecurityOptions *find_channel_security(int id)
{
ChannelSecurityOptions *now = channels_security;
while (now && now->channel_id != id) {
now = now->next;
}
return now;
}
void reds_handle_channel_event(int event, SpiceChannelEventInfo *info)
{
if (core->base.minor_version >= 3 && core->channel_event != NULL)
core->channel_event(event, info);
if (event == SPICE_CHANNEL_EVENT_DISCONNECTED) {
free(info);
}
}
static void reds_link_free(RedLinkInfo *link)
{
reds_stream_free(link->stream);
link->stream = NULL;
free(link->link_mess);
link->link_mess = NULL;
BN_free(link->tiTicketing.bn);
link->tiTicketing.bn = NULL;
if (link->tiTicketing.rsa) {
RSA_free(link->tiTicketing.rsa);
link->tiTicketing.rsa = NULL;
}
free(link);
}
#ifdef RED_STATISTICS
static void insert_stat_node(StatNodeRef parent, StatNodeRef ref)
{
SpiceStatNode *node = &reds->stat->nodes[ref];
uint32_t pos = INVALID_STAT_REF;
uint32_t node_index;
uint32_t *head;
SpiceStatNode *n;
node->first_child_index = INVALID_STAT_REF;
head = (parent == INVALID_STAT_REF ? &reds->stat->root_index :
&reds->stat->nodes[parent].first_child_index);
node_index = *head;
while (node_index != INVALID_STAT_REF && (n = &reds->stat->nodes[node_index]) &&
strcmp(node->name, n->name) > 0) {
pos = node_index;
node_index = n->next_sibling_index;
}
if (pos == INVALID_STAT_REF) {
node->next_sibling_index = *head;
*head = ref;
} else {
n = &reds->stat->nodes[pos];
node->next_sibling_index = n->next_sibling_index;
n->next_sibling_index = ref;
}
}
StatNodeRef stat_add_node(StatNodeRef parent, const char *name, int visible)
{
StatNodeRef ref;
SpiceStatNode *node;
spice_assert(name && strlen(name) > 0);
if (strlen(name) >= sizeof(node->name)) {
return INVALID_STAT_REF;
}
pthread_mutex_lock(&reds->stat_lock);
ref = (parent == INVALID_STAT_REF ? reds->stat->root_index :
reds->stat->nodes[parent].first_child_index);
while (ref != INVALID_STAT_REF) {
node = &reds->stat->nodes[ref];
if (strcmp(name, node->name)) {
ref = node->next_sibling_index;
} else {
pthread_mutex_unlock(&reds->stat_lock);
return ref;
}
}
if (reds->stat->num_of_nodes >= REDS_MAX_STAT_NODES || reds->stat == NULL) {
pthread_mutex_unlock(&reds->stat_lock);
return INVALID_STAT_REF;
}
reds->stat->generation++;
reds->stat->num_of_nodes++;
for (ref = 0; ref <= REDS_MAX_STAT_NODES; ref++) {
node = &reds->stat->nodes[ref];
if (!(node->flags & SPICE_STAT_NODE_FLAG_ENABLED)) {
break;
}
}
spice_assert(!(node->flags & SPICE_STAT_NODE_FLAG_ENABLED));
node->value = 0;
node->flags = SPICE_STAT_NODE_FLAG_ENABLED | (visible ? SPICE_STAT_NODE_FLAG_VISIBLE : 0);
g_strlcpy(node->name, name, sizeof(node->name));
insert_stat_node(parent, ref);
pthread_mutex_unlock(&reds->stat_lock);
return ref;
}
static void stat_remove(SpiceStatNode *node)
{
pthread_mutex_lock(&reds->stat_lock);
node->flags &= ~SPICE_STAT_NODE_FLAG_ENABLED;
reds->stat->generation++;
reds->stat->num_of_nodes--;
pthread_mutex_unlock(&reds->stat_lock);
}
void stat_remove_node(StatNodeRef ref)
{
stat_remove(&reds->stat->nodes[ref]);
}
uint64_t *stat_add_counter(StatNodeRef parent, const char *name, int visible)
{
StatNodeRef ref = stat_add_node(parent, name, visible);
SpiceStatNode *node;
if (ref == INVALID_STAT_REF) {
return NULL;
}
node = &reds->stat->nodes[ref];
node->flags |= SPICE_STAT_NODE_FLAG_VALUE;
return &node->value;
}
void stat_remove_counter(uint64_t *counter)
{
stat_remove((SpiceStatNode *)(counter - offsetof(SpiceStatNode, value)));
}
void reds_update_stat_value(uint32_t value)
{
RedsStatValue *stat_value = &reds->roundtrip_stat;
stat_value->value = value;
stat_value->min = (stat_value->count ? MIN(stat_value->min, value) : value);
stat_value->max = MAX(stat_value->max, value);
stat_value->average = (stat_value->average * stat_value->count + value) /
(stat_value->count + 1);
stat_value->count++;
}
#endif
void reds_register_channel(RedChannel *channel)
{
spice_assert(reds);
ring_add(&reds->channels, &channel->link);
reds->num_of_channels++;
}
void reds_unregister_channel(RedChannel *channel)
{
if (ring_item_is_linked(&channel->link)) {
ring_remove(&channel->link);
reds->num_of_channels--;
} else {
spice_warning("not found");
}
}
static RedChannel *reds_find_channel(uint32_t type, uint32_t id)
{
RingItem *now;
RING_FOREACH(now, &reds->channels) {
RedChannel *channel = SPICE_CONTAINEROF(now, RedChannel, link);
if (channel->type == type && channel->id == id) {
return channel;
}
}
return NULL;
}
static void reds_mig_cleanup(void)
{
if (reds->mig_inprogress) {
if (reds->mig_wait_connect || reds->mig_wait_disconnect) {
SpiceMigrateInterface *sif;
spice_assert(migration_interface);
sif = SPICE_CONTAINEROF(migration_interface->base.sif, SpiceMigrateInterface, base);
if (reds->mig_wait_connect) {
sif->migrate_connect_complete(migration_interface);
} else {
if (sif->migrate_end_complete) {
sif->migrate_end_complete(migration_interface);
}
}
}
reds->mig_inprogress = FALSE;
reds->mig_wait_connect = FALSE;
reds->mig_wait_disconnect = FALSE;
core->timer_cancel(reds->mig_timer);
reds_mig_cleanup_wait_disconnect();
}
}
static void reds_reset_vdp(void)
{
VDIPortState *state = &reds->agent_state;
SpiceCharDeviceInterface *sif;
state->read_state = VDI_PORT_READ_STATE_READ_HEADER;
state->receive_pos = (uint8_t *)&state->vdi_chunk_header;
state->receive_len = sizeof(state->vdi_chunk_header);
state->message_receive_len = 0;
if (state->current_read_buf) {
vdi_port_read_buf_unref(state->current_read_buf);
state->current_read_buf = NULL;
}
/* Reset read filter to start with clean state when the agent reconnects */
agent_msg_filter_init(&state->read_filter, agent_copypaste,
agent_file_xfer, TRUE);
/* Throw away pending chunks from the current (if any) and future
* messages written by the client.
* TODO: client should clear its agent messages queue when the agent
* is disconnect. Currently, when and agent gets disconnected and reconnected,
* messeges that were directed to the previous instance of the agent continues
* to be sent from the client. This TODO will require server, protocol, and client changes */
state->write_filter.result = AGENT_MSG_FILTER_DISCARD;
state->write_filter.discard_all = TRUE;
state->client_agent_started = FALSE;
/* reseting and not destroying the state as a workaround for a bad
* tokens management in the vdagent protocol:
* The client tokens' are set only once, when the main channel is initialized.
* Instead, it would have been more appropriate to reset them upon AGEN_CONNECT.
* The client tokens are tracked as part of the SpiceCharDeviceClientState. Thus,
* in order to be backward compatible with the client, we need to track the tokens
* even if the agent is detached. We don't destroy the char_device state, and
* instead we just reset it.
* In addition, there used to be a misshandling of AGENT_TOKENS message in spice-gtk: it
* overrides the amount of tokens, instead of adding the given amount.
*/
if (red_channel_test_remote_cap(&reds->main_channel->base,
SPICE_MAIN_CAP_AGENT_CONNECTED_TOKENS)) {
spice_char_device_state_destroy(state->base);
state->base = NULL;
} else {
spice_char_device_reset(state->base);
}
sif = SPICE_CONTAINEROF(vdagent->base.sif, SpiceCharDeviceInterface, base);
if (sif->state) {
sif->state(vdagent, 0);
}
}
static int reds_main_channel_connected(void)
{
return main_channel_is_connected(reds->main_channel);
}
void reds_client_disconnect(RedClient *client)
{
RedsMigTargetClient *mig_client;
if (exit_on_disconnect)
{
spice_info("Exiting server because of client disconnect.\n");
exit(0);
}
if (!client || client->disconnecting) {
spice_debug("client %p already during disconnection", client);
return;
}
spice_info(NULL);
/* disconnecting is set to prevent recursion because of the following:
* main_channel_client_on_disconnect->
* reds_client_disconnect->red_client_destroy->main_channel...
*/
client->disconnecting = TRUE;
// TODO: we need to handle agent properly for all clients!!!! (e.g., cut and paste, how?)
// We shouldn't initialize the agent when there are still clients connected
mig_client = reds_mig_target_client_find(client);
if (mig_client) {
reds_mig_target_client_free(mig_client);
}
if (reds->mig_wait_disconnect) {
reds_mig_remove_wait_disconnect_client(client);
}
if (reds->agent_state.base) {
/* note that vdagent might be NULL, if the vdagent was once
* up and than was removed */
if (spice_char_device_client_exists(reds->agent_state.base, client)) {
spice_char_device_client_remove(reds->agent_state.base, client);
}
}
ring_remove(&client->link);
reds->num_clients--;
red_client_destroy(client);
// TODO: we need to handle agent properly for all clients!!!! (e.g., cut and paste, how? Maybe throw away messages
// if we are in the middle of one from another client)
if (reds->num_clients == 0) {
/* Let the agent know the client is disconnected */
if (reds->agent_state.base) {
SpiceCharDeviceWriteBuffer *char_dev_buf;
VDInternalBuf *internal_buf;
uint32_t total_msg_size;
total_msg_size = sizeof(VDIChunkHeader) + sizeof(VDAgentMessage);
char_dev_buf = spice_char_device_write_buffer_get_server_no_token(
reds->agent_state.base, total_msg_size);
char_dev_buf->buf_used = total_msg_size;
internal_buf = (VDInternalBuf *)char_dev_buf->buf;
internal_buf->chunk_header.port = VDP_SERVER_PORT;
internal_buf->chunk_header.size = sizeof(VDAgentMessage);
internal_buf->header.protocol = VD_AGENT_PROTOCOL;
internal_buf->header.type = VD_AGENT_CLIENT_DISCONNECTED;
internal_buf->header.opaque = 0;
internal_buf->header.size = 0;
spice_char_device_write_buffer_add(reds->agent_state.base,
char_dev_buf);
}
/* Reset write filter to start with clean state on client reconnect */
agent_msg_filter_init(&reds->agent_state.write_filter, agent_copypaste,
agent_file_xfer, TRUE);
/* Throw away pending chunks from the current (if any) and future
* messages read from the agent */
reds->agent_state.read_filter.result = AGENT_MSG_FILTER_DISCARD;
reds->agent_state.read_filter.discard_all = TRUE;
free(reds->agent_state.mig_data);
reds->agent_state.mig_data = NULL;
reds_mig_cleanup();
}
}
// TODO: go over all usage of reds_disconnect, most/some of it should be converted to
// reds_client_disconnect
static void reds_disconnect(void)
{
RingItem *link, *next;
spice_info(NULL);
RING_FOREACH_SAFE(link, next, &reds->clients) {
reds_client_disconnect(SPICE_CONTAINEROF(link, RedClient, link));
}
reds_mig_cleanup();
}
static void reds_mig_disconnect(void)
{
if (reds_main_channel_connected()) {
reds_disconnect();
} else {
reds_mig_cleanup();
}
}
int reds_get_mouse_mode(void)
{
return reds->mouse_mode;
}
static void reds_set_mouse_mode(uint32_t mode)
{
if (reds->mouse_mode == mode) {
return;
}
reds->mouse_mode = mode;
red_dispatcher_set_mouse_mode(reds->mouse_mode);
main_channel_push_mouse_mode(reds->main_channel, reds->mouse_mode, reds->is_client_mouse_allowed);
}
int reds_get_agent_mouse(void)
{
return agent_mouse;
}
static void reds_update_mouse_mode(void)
{
int allowed = 0;
int qxl_count = red_dispatcher_qxl_count();
if ((agent_mouse && vdagent) || (inputs_has_tablet() && qxl_count == 1)) {
allowed = reds->dispatcher_allows_client_mouse;
}
if (allowed == reds->is_client_mouse_allowed) {
return;
}
reds->is_client_mouse_allowed = allowed;
if (reds->mouse_mode == SPICE_MOUSE_MODE_CLIENT && !allowed) {
reds_set_mouse_mode(SPICE_MOUSE_MODE_SERVER);
return;
}
if (reds->main_channel) {
main_channel_push_mouse_mode(reds->main_channel, reds->mouse_mode,
reds->is_client_mouse_allowed);
}
}
static void reds_agent_remove(void)
{
// TODO: agent is broken with multiple clients. also need to figure out what to do when
// part of the clients are during target migration.
reds_reset_vdp();
vdagent = NULL;
reds_update_mouse_mode();
if (reds_main_channel_connected() &&
!red_channel_waits_for_migrate_data(&reds->main_channel->base)) {
main_channel_push_agent_disconnected(reds->main_channel);
}
}
/*******************************
* Char device state callbacks *
* *****************************/
static void vdi_port_read_buf_release(uint8_t *data, void *opaque)
{
VDIReadBuf *buf = (VDIReadBuf *)opaque;
vdi_port_read_buf_unref(buf);
}
/* returns TRUE if the buffer can be forwarded */
static int vdi_port_read_buf_process(int port, VDIReadBuf *buf)
{
VDIPortState *state = &reds->agent_state;
int res;
switch (port) {
case VDP_CLIENT_PORT: {
res = agent_msg_filter_process_data(&state->read_filter,
buf->data, buf->len);
switch (res) {
case AGENT_MSG_FILTER_OK:
return TRUE;
case AGENT_MSG_FILTER_DISCARD:
return FALSE;
case AGENT_MSG_FILTER_PROTO_ERROR:
reds_agent_remove();
return FALSE;
}
}
case VDP_SERVER_PORT:
return FALSE;
default:
spice_warning("invalid port");
reds_agent_remove();
return FALSE;
}
}
static VDIReadBuf *vdi_port_read_buf_get(void)
{
VDIPortState *state = &reds->agent_state;
RingItem *item;
VDIReadBuf *buf;
if (!(item = ring_get_head(&state->read_bufs))) {
return NULL;
}
ring_remove(item);
buf = SPICE_CONTAINEROF(item, VDIReadBuf, link);
buf->refs = 1;
return buf;
}
static VDIReadBuf* vdi_port_read_buf_ref(VDIReadBuf *buf)
{
buf->refs++;
return buf;
}
static void vdi_port_read_buf_unref(VDIReadBuf *buf)
{
if (!--buf->refs) {
ring_add(&reds->agent_state.read_bufs, &buf->link);
/* read_one_msg_from_vdi_port may have never completed because the read_bufs
ring was empty. So we call it again so it can complete its work if
necessary. Note that since we can be called from spice_char_device_wakeup
this can cause recursion, but we have protection for that */
if (reds->agent_state.base) {
spice_char_device_wakeup(reds->agent_state.base);
}
}
}
/* reads from the device till completes reading a message that is addressed to the client,
* or otherwise, when reading from the device fails */
static SpiceCharDeviceMsgToClient *vdi_port_read_one_msg_from_device(SpiceCharDeviceInstance *sin,
void *opaque)
{
VDIPortState *state = &reds->agent_state;
SpiceCharDeviceInterface *sif;
VDIReadBuf *dispatch_buf;
int n;
if (!vdagent) {
return NULL;
}
spice_assert(vdagent == sin);
sif = SPICE_CONTAINEROF(vdagent->base.sif, SpiceCharDeviceInterface, base);
while (vdagent) {
switch (state->read_state) {
case VDI_PORT_READ_STATE_READ_HEADER:
n = sif->read(vdagent, state->receive_pos, state->receive_len);
if (!n) {
return NULL;
}
if ((state->receive_len -= n)) {
state->receive_pos += n;
return NULL;
}
state->message_receive_len = state->vdi_chunk_header.size;
state->read_state = VDI_PORT_READ_STATE_GET_BUFF;
case VDI_PORT_READ_STATE_GET_BUFF: {
if (!(state->current_read_buf = vdi_port_read_buf_get())) {
return NULL;
}
state->receive_pos = state->current_read_buf->data;
state->receive_len = MIN(state->message_receive_len,
sizeof(state->current_read_buf->data));
state->current_read_buf->len = state->receive_len;
state->message_receive_len -= state->receive_len;
state->read_state = VDI_PORT_READ_STATE_READ_DATA;
}
case VDI_PORT_READ_STATE_READ_DATA:
n = sif->read(vdagent, state->receive_pos, state->receive_len);
if (!n) {
return NULL;
}
if ((state->receive_len -= n)) {
state->receive_pos += n;
break;
}
dispatch_buf = state->current_read_buf;
state->current_read_buf = NULL;
state->receive_pos = NULL;
if (state->message_receive_len == 0) {
state->read_state = VDI_PORT_READ_STATE_READ_HEADER;
state->receive_pos = (uint8_t *)&state->vdi_chunk_header;
state->receive_len = sizeof(state->vdi_chunk_header);
} else {
state->read_state = VDI_PORT_READ_STATE_GET_BUFF;
}
if (vdi_port_read_buf_process(state->vdi_chunk_header.port, dispatch_buf)) {
return dispatch_buf;
} else {
vdi_port_read_buf_unref(dispatch_buf);
}
} /* END switch */
} /* END while */
return NULL;
}
static SpiceCharDeviceMsgToClient *vdi_port_ref_msg_to_client(SpiceCharDeviceMsgToClient *msg,
void *opaque)
{
return vdi_port_read_buf_ref(msg);
}
static void vdi_port_unref_msg_to_client(SpiceCharDeviceMsgToClient *msg,
void *opaque)
{
vdi_port_read_buf_unref(msg);
}
/* after calling this, we unref the message, and the ref is in the instance side */
static void vdi_port_send_msg_to_client(SpiceCharDeviceMsgToClient *msg,
RedClient *client,
void *opaque)
{
VDIReadBuf *agent_data_buf = msg;
main_channel_client_push_agent_data(red_client_get_main(client),
agent_data_buf->data,
agent_data_buf->len,
vdi_port_read_buf_release,
vdi_port_read_buf_ref(agent_data_buf));
}
static void vdi_port_send_tokens_to_client(RedClient *client, uint32_t tokens, void *opaque)
{
main_channel_client_push_agent_tokens(red_client_get_main(client),
tokens);
}
static void vdi_port_on_free_self_token(void *opaque)
{
if (inputs_inited() && reds->pending_mouse_event) {
spice_debug("pending mouse event");
reds_handle_agent_mouse_event(inputs_get_mouse_state());
}
}
static void vdi_port_remove_client(RedClient *client, void *opaque)
{
red_channel_client_shutdown(main_channel_client_get_base(
red_client_get_main(client)));
}
/****************************************************************************/
int reds_has_vdagent(void)
{
return !!vdagent;
}
void reds_handle_agent_mouse_event(const VDAgentMouseState *mouse_state)
{
SpiceCharDeviceWriteBuffer *char_dev_buf;
VDInternalBuf *internal_buf;
uint32_t total_msg_size;
if (!inputs_inited() || !reds->agent_state.base) {
return;
}
total_msg_size = sizeof(VDIChunkHeader) + sizeof(VDAgentMessage) +
sizeof(VDAgentMouseState);
char_dev_buf = spice_char_device_write_buffer_get(reds->agent_state.base,
NULL,
total_msg_size);
if (!char_dev_buf) {
reds->pending_mouse_event = TRUE;
return;
}
reds->pending_mouse_event = FALSE;
internal_buf = (VDInternalBuf *)char_dev_buf->buf;
internal_buf->chunk_header.port = VDP_SERVER_PORT;
internal_buf->chunk_header.size = sizeof(VDAgentMessage) + sizeof(VDAgentMouseState);
internal_buf->header.protocol = VD_AGENT_PROTOCOL;
internal_buf->header.type = VD_AGENT_MOUSE_STATE;
internal_buf->header.opaque = 0;
internal_buf->header.size = sizeof(VDAgentMouseState);
internal_buf->u.mouse_state = *mouse_state;
char_dev_buf->buf_used = total_msg_size;
spice_char_device_write_buffer_add(reds->agent_state.base, char_dev_buf);
}
int reds_num_of_channels(void)
{
return reds ? reds->num_of_channels : 0;
}
int reds_num_of_clients(void)
{
return reds ? reds->num_clients : 0;
}
SPICE_GNUC_VISIBLE int spice_server_get_num_clients(SpiceServer *s)
{
spice_assert(reds == s);
return reds_num_of_clients();
}
static int secondary_channels[] = {
SPICE_CHANNEL_MAIN, SPICE_CHANNEL_DISPLAY, SPICE_CHANNEL_CURSOR, SPICE_CHANNEL_INPUTS};
static int channel_is_secondary(RedChannel *channel)
{
int i;
for (i = 0 ; i < sizeof(secondary_channels)/sizeof(secondary_channels[0]); ++i) {
if (channel->type == secondary_channels[i]) {
return TRUE;
}
}
return FALSE;
}
void reds_fill_channels(SpiceMsgChannels *channels_info)
{
RingItem *now;
int used_channels = 0;
channels_info->num_of_channels = reds->num_of_channels;
RING_FOREACH(now, &reds->channels) {
RedChannel *channel = SPICE_CONTAINEROF(now, RedChannel, link);
if (reds->num_clients > 1 && !channel_is_secondary(channel)) {
continue;
}
channels_info->channels[used_channels].type = channel->type;
channels_info->channels[used_channels].id = channel->id;
used_channels++;
}
channels_info->num_of_channels = used_channels;
if (used_channels != reds->num_of_channels) {
spice_warning("sent %d out of %d", used_channels, reds->num_of_channels);
}
}
void reds_on_main_agent_start(MainChannelClient *mcc, uint32_t num_tokens)
{
SpiceCharDeviceState *dev_state = reds->agent_state.base;
RedChannelClient *rcc;
if (!vdagent) {
return;
}
spice_assert(vdagent->st && vdagent->st == dev_state);
rcc = main_channel_client_get_base(mcc);
reds->agent_state.client_agent_started = TRUE;
/*
* Note that in older releases, send_tokens were set to ~0 on both client
* and server. The server ignored the client given tokens.
* Thanks to that, when an old client is connected to a new server,
* and vice versa, the sending from the server to the client won't have
* flow control, but will have no other problem.
*/
if (!spice_char_device_client_exists(dev_state, rcc->client)) {
int client_added;
client_added = spice_char_device_client_add(dev_state,
rcc->client,
TRUE, /* flow control */
REDS_VDI_PORT_NUM_RECEIVE_BUFFS,
REDS_AGENT_WINDOW_SIZE,
num_tokens,
red_channel_client_waits_for_migrate_data(rcc));
if (!client_added) {
spice_warning("failed to add client to agent");
red_channel_client_shutdown(rcc);
return;
}
} else {
spice_char_device_send_to_client_tokens_set(dev_state,
rcc->client,
num_tokens);
}
reds->agent_state.write_filter.discard_all = FALSE;
}
void reds_on_main_agent_tokens(MainChannelClient *mcc, uint32_t num_tokens)
{
if (!vdagent) {
return;
}
spice_assert(vdagent->st);
spice_char_device_send_to_client_tokens_add(vdagent->st,
main_channel_client_get_base(mcc)->client,
num_tokens);
}
uint8_t *reds_get_agent_data_buffer(MainChannelClient *mcc, size_t size)
{
VDIPortState *dev_state = &reds->agent_state;
RedClient *client;
if (!dev_state->client_agent_started) {
/*
* agent got disconnected, and possibly got reconnected, but we still can receive
* msgs that are addressed to the agent's old instance, in case they were
* sent by the client before it received the AGENT_DISCONNECTED msg.
* In such case, we will receive and discard the msgs (reds_reset_vdp takes care
* of setting state->write_filter.result = AGENT_MSG_FILTER_DISCARD).
*/
return spice_malloc(size);
}
spice_assert(dev_state->recv_from_client_buf == NULL);
client = main_channel_client_get_base(mcc)->client;
dev_state->recv_from_client_buf = spice_char_device_write_buffer_get(dev_state->base,
client,
size + sizeof(VDIChunkHeader));
dev_state->recv_from_client_buf_pushed = FALSE;
return dev_state->recv_from_client_buf->buf + sizeof(VDIChunkHeader);
}
void reds_release_agent_data_buffer(uint8_t *buf)
{
VDIPortState *dev_state = &reds->agent_state;
if (!dev_state->recv_from_client_buf) {
free(buf);
return;
}
spice_assert(buf == dev_state->recv_from_client_buf->buf + sizeof(VDIChunkHeader));
if (!dev_state->recv_from_client_buf_pushed) {
spice_char_device_write_buffer_release(reds->agent_state.base,
dev_state->recv_from_client_buf);
}
dev_state->recv_from_client_buf = NULL;
dev_state->recv_from_client_buf_pushed = FALSE;
}
static void reds_client_monitors_config_cleanup(void)
{
RedsClientMonitorsConfig *cmc = &reds->client_monitors_config;
cmc->buffer_size = cmc->buffer_pos = 0;
free(cmc->buffer);
cmc->buffer = NULL;
cmc->mcc = NULL;
}
static void reds_on_main_agent_monitors_config(
MainChannelClient *mcc, void *message, size_t size)
{
VDAgentMessage *msg_header;
VDAgentMonitorsConfig *monitors_config;
RedsClientMonitorsConfig *cmc = &reds->client_monitors_config;
cmc->buffer_size += size;
cmc->buffer = realloc(cmc->buffer, cmc->buffer_size);
spice_assert(cmc->buffer);
cmc->mcc = mcc;
memcpy(cmc->buffer + cmc->buffer_pos, message, size);
cmc->buffer_pos += size;
msg_header = (VDAgentMessage *)cmc->buffer;
if (sizeof(VDAgentMessage) > cmc->buffer_size ||
msg_header->size > cmc->buffer_size - sizeof(VDAgentMessage)) {
spice_debug("not enough data yet. %d\n", cmc->buffer_size);
return;
}
monitors_config = (VDAgentMonitorsConfig *)(cmc->buffer + sizeof(*msg_header));
spice_debug("%s: %d\n", __func__, monitors_config->num_of_monitors);
red_dispatcher_client_monitors_config(monitors_config);
reds_client_monitors_config_cleanup();
}
void reds_on_main_agent_data(MainChannelClient *mcc, void *message, size_t size)
{
VDIPortState *dev_state = &reds->agent_state;
VDIChunkHeader *header;
int res;
res = agent_msg_filter_process_data(&reds->agent_state.write_filter,
message, size);
switch (res) {
case AGENT_MSG_FILTER_OK:
break;
case AGENT_MSG_FILTER_DISCARD:
return;
case AGENT_MSG_FILTER_MONITORS_CONFIG:
reds_on_main_agent_monitors_config(mcc, message, size);
return;
case AGENT_MSG_FILTER_PROTO_ERROR:
red_channel_client_shutdown(main_channel_client_get_base(mcc));
return;
}
spice_assert(reds->agent_state.recv_from_client_buf);
spice_assert(message == reds->agent_state.recv_from_client_buf->buf + sizeof(VDIChunkHeader));
// TODO - start tracking agent data per channel
header = (VDIChunkHeader *)dev_state->recv_from_client_buf->buf;
header->port = VDP_CLIENT_PORT;
header->size = size;
dev_state->recv_from_client_buf->buf_used = sizeof(VDIChunkHeader) + size;
dev_state->recv_from_client_buf_pushed = TRUE;
spice_char_device_write_buffer_add(reds->agent_state.base, dev_state->recv_from_client_buf);
}
void reds_on_main_migrate_connected(int seamless)
{
reds->src_do_seamless_migrate = seamless;
if (reds->mig_wait_connect) {
reds_mig_cleanup();
}
}
void reds_on_main_mouse_mode_request(void *message, size_t size)
{
switch (((SpiceMsgcMainMouseModeRequest *)message)->mode) {
case SPICE_MOUSE_MODE_CLIENT:
if (reds->is_client_mouse_allowed) {
reds_set_mouse_mode(SPICE_MOUSE_MODE_CLIENT);
} else {
spice_info("client mouse is disabled");
}
break;
case SPICE_MOUSE_MODE_SERVER:
reds_set_mouse_mode(SPICE_MOUSE_MODE_SERVER);
break;
default:
spice_warning("unsupported mouse mode");
}
}
/*
* Push partial agent data, even if not all the chunk was consumend,
* in order to avoid the roundtrip (src-server->client->dest-server)
*/
void reds_on_main_channel_migrate(MainChannelClient *mcc)
{
VDIPortState *agent_state = &reds->agent_state;
uint32_t read_data_len;
spice_assert(reds->num_clients == 1);
if (agent_state->read_state != VDI_PORT_READ_STATE_READ_DATA) {
return;
}
spice_assert(agent_state->current_read_buf->data &&
agent_state->receive_pos > agent_state->current_read_buf->data);
read_data_len = agent_state->receive_pos - agent_state->current_read_buf->data;
if (agent_state->read_filter.msg_data_to_read ||
read_data_len > sizeof(VDAgentMessage)) { /* msg header has been read */
VDIReadBuf *read_buf = agent_state->current_read_buf;
spice_debug("push partial read %u (msg first chunk? %d)", read_data_len,
!agent_state->read_filter.msg_data_to_read);
read_buf->len = read_data_len;
if (vdi_port_read_buf_process(agent_state->vdi_chunk_header.port, read_buf)) {
main_channel_client_push_agent_data(mcc,
read_buf->data,
read_buf->len,
vdi_port_read_buf_release,
read_buf);
} else {
vdi_port_read_buf_unref(read_buf);
}
spice_assert(agent_state->receive_len);
agent_state->message_receive_len += agent_state->receive_len;
agent_state->read_state = VDI_PORT_READ_STATE_GET_BUFF;
agent_state->current_read_buf = NULL;
agent_state->receive_pos = NULL;
}
}
void reds_marshall_migrate_data(SpiceMarshaller *m)
{
SpiceMigrateDataMain mig_data;
VDIPortState *agent_state = &reds->agent_state;
SpiceMarshaller *m2;
memset(&mig_data, 0, sizeof(mig_data));
spice_marshaller_add_uint32(m, SPICE_MIGRATE_DATA_MAIN_MAGIC);
spice_marshaller_add_uint32(m, SPICE_MIGRATE_DATA_MAIN_VERSION);
if (!vdagent) {
uint8_t *null_agent_mig_data;
spice_assert(!agent_state->base); /* MSG_AGENT_CONNECTED_TOKENS is supported by the client
(see spice_server_migrate_connect), so SpiceCharDeviceState
is destroyed when the agent is disconnected and
there is no need to track the client tokens
(see reds_reset_vdp) */
spice_char_device_state_migrate_data_marshall_empty(m);
null_agent_mig_data = spice_marshaller_reserve_space(m,
sizeof(SpiceMigrateDataMain) -
sizeof(SpiceMigrateDataCharDevice));
memset(null_agent_mig_data,
0,
sizeof(SpiceMigrateDataMain) - sizeof(SpiceMigrateDataCharDevice));
return;
}
spice_char_device_state_migrate_data_marshall(reds->agent_state.base, m);
spice_marshaller_add_uint8(m, reds->agent_state.client_agent_started);
mig_data.agent2client.chunk_header = agent_state->vdi_chunk_header;
/* agent to client partial msg */
if (agent_state->read_state == VDI_PORT_READ_STATE_READ_HEADER) {
mig_data.agent2client.chunk_header_size = agent_state->receive_pos -
(uint8_t *)&agent_state->vdi_chunk_header;
mig_data.agent2client.msg_header_done = FALSE;
mig_data.agent2client.msg_header_partial_len = 0;
spice_assert(!agent_state->read_filter.msg_data_to_read);
} else {
mig_data.agent2client.chunk_header_size = sizeof(VDIChunkHeader);
mig_data.agent2client.chunk_header.size = agent_state->message_receive_len;
if (agent_state->read_state == VDI_PORT_READ_STATE_READ_DATA) {
/* in the middle of reading the message header (see reds_on_main_channel_migrate) */
mig_data.agent2client.msg_header_done = FALSE;
mig_data.agent2client.msg_header_partial_len =
agent_state->receive_pos - agent_state->current_read_buf->data;
spice_assert(mig_data.agent2client.msg_header_partial_len < sizeof(VDAgentMessage));
spice_assert(!agent_state->read_filter.msg_data_to_read);
} else {
mig_data.agent2client.msg_header_done = TRUE;
mig_data.agent2client.msg_remaining = agent_state->read_filter.msg_data_to_read;
mig_data.agent2client.msg_filter_result = agent_state->read_filter.result;
}
}
spice_marshaller_add_uint32(m, mig_data.agent2client.chunk_header_size);
spice_marshaller_add(m,
(uint8_t *)&mig_data.agent2client.chunk_header,
sizeof(VDIChunkHeader));
spice_marshaller_add_uint8(m, mig_data.agent2client.msg_header_done);
spice_marshaller_add_uint32(m, mig_data.agent2client.msg_header_partial_len);
m2 = spice_marshaller_get_ptr_submarshaller(m, 0);
spice_marshaller_add(m2, agent_state->current_read_buf->data,
mig_data.agent2client.msg_header_partial_len);
spice_marshaller_add_uint32(m, mig_data.agent2client.msg_remaining);
spice_marshaller_add_uint8(m, mig_data.agent2client.msg_filter_result);
mig_data.client2agent.msg_remaining = agent_state->write_filter.msg_data_to_read;
mig_data.client2agent.msg_filter_result = agent_state->write_filter.result;
spice_marshaller_add_uint32(m, mig_data.client2agent.msg_remaining);
spice_marshaller_add_uint8(m, mig_data.client2agent.msg_filter_result);
spice_debug("from agent filter: discard all %d, wait_msg %u, msg_filter_result %d",
agent_state->read_filter.discard_all,
agent_state->read_filter.msg_data_to_read,
agent_state->read_filter.result);
spice_debug("to agent filter: discard all %d, wait_msg %u, msg_filter_result %d",
agent_state->write_filter.discard_all,
agent_state->write_filter.msg_data_to_read,
agent_state->write_filter.result);
}
static int reds_agent_state_restore(SpiceMigrateDataMain *mig_data)
{
VDIPortState *agent_state = &reds->agent_state;
uint32_t chunk_header_remaining;
agent_state->vdi_chunk_header = mig_data->agent2client.chunk_header;
spice_assert(mig_data->agent2client.chunk_header_size <= sizeof(VDIChunkHeader));
chunk_header_remaining = sizeof(VDIChunkHeader) - mig_data->agent2client.chunk_header_size;
if (chunk_header_remaining) {
agent_state->read_state = VDI_PORT_READ_STATE_READ_HEADER;
agent_state->receive_pos = (uint8_t *)&agent_state->vdi_chunk_header +
mig_data->agent2client.chunk_header_size;
agent_state->receive_len = chunk_header_remaining;
} else {
agent_state->message_receive_len = agent_state->vdi_chunk_header.size;
}
if (!mig_data->agent2client.msg_header_done) {
uint8_t *partial_msg_header;
if (!chunk_header_remaining) {
uint32_t cur_buf_size;
agent_state->read_state = VDI_PORT_READ_STATE_READ_DATA;
agent_state->current_read_buf = vdi_port_read_buf_get();
spice_assert(agent_state->current_read_buf);
partial_msg_header = (uint8_t *)mig_data + mig_data->agent2client.msg_header_ptr -
sizeof(SpiceMiniDataHeader);
memcpy(agent_state->current_read_buf->data,
partial_msg_header,
mig_data->agent2client.msg_header_partial_len);
agent_state->receive_pos = agent_state->current_read_buf->data +
mig_data->agent2client.msg_header_partial_len;
cur_buf_size = sizeof(agent_state->current_read_buf->data) -
mig_data->agent2client.msg_header_partial_len;
agent_state->receive_len = MIN(agent_state->message_receive_len, cur_buf_size);
agent_state->current_read_buf->len = agent_state->receive_len +
mig_data->agent2client.msg_header_partial_len;
agent_state->message_receive_len -= agent_state->receive_len;
} else {
spice_assert(mig_data->agent2client.msg_header_partial_len == 0);
}
} else {
agent_state->read_state = VDI_PORT_READ_STATE_GET_BUFF;
agent_state->current_read_buf = NULL;
agent_state->receive_pos = NULL;
agent_state->read_filter.msg_data_to_read = mig_data->agent2client.msg_remaining;
agent_state->read_filter.result = mig_data->agent2client.msg_filter_result;
}
agent_state->read_filter.discard_all = FALSE;
agent_state->write_filter.discard_all = !mig_data->client_agent_started;
agent_state->client_agent_started = mig_data->client_agent_started;
agent_state->write_filter.msg_data_to_read = mig_data->client2agent.msg_remaining;
agent_state->write_filter.result = mig_data->client2agent.msg_filter_result;
spice_debug("to agent filter: discard all %d, wait_msg %u, msg_filter_result %d",
agent_state->write_filter.discard_all,
agent_state->write_filter.msg_data_to_read,
agent_state->write_filter.result);
spice_debug("from agent filter: discard all %d, wait_msg %u, msg_filter_result %d",
agent_state->read_filter.discard_all,
agent_state->read_filter.msg_data_to_read,
agent_state->read_filter.result);
return spice_char_device_state_restore(agent_state->base, &mig_data->agent_base);
}
/*
* The agent device is not attached to the dest before migration is completed. It is
* attached only after the vm is started. It might be attached before or after
* the migration data has reached the server.
*/
int reds_handle_migrate_data(MainChannelClient *mcc, SpiceMigrateDataMain *mig_data, uint32_t size)
{
VDIPortState *agent_state = &reds->agent_state;
/*
* Now that the client has switched to the target server, if main_channel
* controls the mm-time, we update the client's mm-time.
* (MSG_MAIN_INIT is not sent for a migrating connection)
*/
if (reds->mm_timer_enabled) {
reds_send_mm_time();
}
if (mig_data->agent_base.connected) {
if (agent_state->base) { // agent was attached before migration data has arrived
if (!vdagent) {
spice_assert(agent_state->plug_generation > 0);
main_channel_push_agent_disconnected(reds->main_channel);
spice_debug("agent is no longer connected");
} else {
if (agent_state->plug_generation > 1) {
/* spice_char_device_state_reset takes care of not making the device wait for migration data */
spice_debug("agent has been detached and reattached before receiving migration data");
main_channel_push_agent_disconnected(reds->main_channel);
main_channel_push_agent_connected(reds->main_channel);
} else {
return reds_agent_state_restore(mig_data);
}
}
} else {
/* restore agent starte when the agent gets attached */
spice_assert(agent_state->plug_generation == 0);
agent_state->mig_data = spice_memdup(mig_data, size);
}
} else {
if (vdagent) {
/* spice_char_device_client_remove disables waiting for migration data */
spice_char_device_client_remove(agent_state->base,
main_channel_client_get_base(mcc)->client);
main_channel_push_agent_connected(reds->main_channel);
}
}
return TRUE;
}
static void reds_channel_init_auth_caps(RedLinkInfo *link, RedChannel *channel)
{
if (sasl_enabled && !link->skip_auth) {
red_channel_set_common_cap(channel, SPICE_COMMON_CAP_AUTH_SASL);
} else {
red_channel_set_common_cap(channel, SPICE_COMMON_CAP_AUTH_SPICE);
}
red_channel_set_common_cap(channel, SPICE_COMMON_CAP_PROTOCOL_AUTH_SELECTION);
}
static int reds_send_link_ack(RedLinkInfo *link)
{
SpiceLinkHeader header;
SpiceLinkReply ack;
RedChannel *channel;
RedChannelCapabilities *channel_caps;
BUF_MEM *bmBuf;
BIO *bio;
int ret = FALSE;
header.magic = SPICE_MAGIC;
header.size = sizeof(ack);
header.major_version = SPICE_VERSION_MAJOR;
header.minor_version = SPICE_VERSION_MINOR;
ack.error = SPICE_LINK_ERR_OK;
channel = reds_find_channel(link->link_mess->channel_type, 0);
if (!channel) {
spice_assert(link->link_mess->channel_type == SPICE_CHANNEL_MAIN);
spice_assert(reds->main_channel);
channel = &reds->main_channel->base;
}
reds_channel_init_auth_caps(link, channel); /* make sure common caps are set */
channel_caps = &channel->local_caps;
ack.num_common_caps = channel_caps->num_common_caps;
ack.num_channel_caps = channel_caps->num_caps;
header.size += (ack.num_common_caps + ack.num_channel_caps) * sizeof(uint32_t);
ack.caps_offset = sizeof(SpiceLinkReply);
if (!(link->tiTicketing.rsa = RSA_new())) {
spice_warning("RSA nes failed");
return FALSE;
}
if (!(bio = BIO_new(BIO_s_mem()))) {
spice_warning("BIO new failed");
return FALSE;
}
RSA_generate_key_ex(link->tiTicketing.rsa, SPICE_TICKET_KEY_PAIR_LENGTH, link->tiTicketing.bn,
NULL);
link->tiTicketing.rsa_size = RSA_size(link->tiTicketing.rsa);
i2d_RSA_PUBKEY_bio(bio, link->tiTicketing.rsa);
BIO_get_mem_ptr(bio, &bmBuf);
memcpy(ack.pub_key, bmBuf->data, sizeof(ack.pub_key));
if (!reds_stream_write_all(link->stream, &header, sizeof(header)))
goto end;
if (!reds_stream_write_all(link->stream, &ack, sizeof(ack)))
goto end;
if (!reds_stream_write_all(link->stream, channel_caps->common_caps, channel_caps->num_common_caps * sizeof(uint32_t)))
goto end;
if (!reds_stream_write_all(link->stream, channel_caps->caps, channel_caps->num_caps * sizeof(uint32_t)))
goto end;
ret = TRUE;
end:
BIO_free(bio);
return ret;
}
static bool reds_send_link_error(RedLinkInfo *link, uint32_t error)
{
SpiceLinkHeader header;
SpiceLinkReply reply;
header.magic = SPICE_MAGIC;
header.size = sizeof(reply);
header.major_version = SPICE_VERSION_MAJOR;
header.minor_version = SPICE_VERSION_MINOR;
memset(&reply, 0, sizeof(reply));
reply.error = error;
return reds_stream_write_all(link->stream, &header, sizeof(header)) && reds_stream_write_all(link->stream, &reply,
sizeof(reply));
}
static void reds_info_new_channel(RedLinkInfo *link, int connection_id)
{
spice_info("channel %d:%d, connected successfully, over %s link",
link->link_mess->channel_type,
link->link_mess->channel_id,
reds_stream_is_ssl(link->stream) ? "Secure" : "Non Secure");
/* add info + send event */
if (reds_stream_is_ssl(link->stream)) {
reds_stream_set_info_flag(link->stream, SPICE_CHANNEL_EVENT_FLAG_TLS);
}
link->stream->info->connection_id = connection_id;
link->stream->info->type = link->link_mess->channel_type;
link->stream->info->id = link->link_mess->channel_id;
reds_stream_push_channel_event(link->stream, SPICE_CHANNEL_EVENT_INITIALIZED);
}
static void reds_send_link_result(RedLinkInfo *link, uint32_t error)
{
reds_stream_write_all(link->stream, &error, sizeof(error));
}
int reds_expects_link_id(uint32_t connection_id)
{
spice_info("TODO: keep a list of connection_id's from migration, compare to them");
return 1;
}
static void reds_mig_target_client_add(RedClient *client)
{
RedsMigTargetClient *mig_client;
spice_assert(reds);
spice_info(NULL);
mig_client = spice_malloc0(sizeof(RedsMigTargetClient));
mig_client->client = client;
ring_init(&mig_client->pending_links);
ring_add(&reds->mig_target_clients, &mig_client->link);
reds->num_mig_target_clients++;
}
static RedsMigTargetClient* reds_mig_target_client_find(RedClient *client)
{
RingItem *item;
RING_FOREACH(item, &reds->mig_target_clients) {
RedsMigTargetClient *mig_client;
mig_client = SPICE_CONTAINEROF(item, RedsMigTargetClient, link);
if (mig_client->client == client) {
return mig_client;
}
}
return NULL;
}
static void reds_mig_target_client_add_pending_link(RedsMigTargetClient *client,
SpiceLinkMess *link_msg,
RedsStream *stream)
{
RedsMigPendingLink *mig_link;
spice_assert(reds);
spice_assert(client);
mig_link = spice_malloc0(sizeof(RedsMigPendingLink));
mig_link->link_msg = link_msg;
mig_link->stream = stream;
ring_add(&client->pending_links, &mig_link->ring_link);
}
static void reds_mig_target_client_free(RedsMigTargetClient *mig_client)
{
RingItem *now, *next;
ring_remove(&mig_client->link);
reds->num_mig_target_clients--;
RING_FOREACH_SAFE(now, next, &mig_client->pending_links) {
RedsMigPendingLink *mig_link = SPICE_CONTAINEROF(now, RedsMigPendingLink, ring_link);
ring_remove(now);
free(mig_link);
}
free(mig_client);
}
static void reds_mig_target_client_disconnect_all(void)
{
RingItem *now, *next;
RING_FOREACH_SAFE(now, next, &reds->mig_target_clients) {
RedsMigTargetClient *mig_client = SPICE_CONTAINEROF(now, RedsMigTargetClient, link);
reds_client_disconnect(mig_client->client);
}
}
static int reds_find_client(RedClient *client)
{
RingItem *item;
RING_FOREACH(item, &reds->clients) {
RedClient *list_client;
list_client = SPICE_CONTAINEROF(item, RedClient, link);
if (list_client == client) {
return TRUE;
}
}
return FALSE;
}
/* should be used only when there is one client */
static RedClient *reds_get_client(void)
{
spice_assert(reds->num_clients <= 1);
if (reds->num_clients == 0) {
return NULL;
}
return SPICE_CONTAINEROF(ring_get_head(&reds->clients), RedClient, link);
}
// TODO: now that main is a separate channel this should
// actually be joined with reds_handle_other_links, become reds_handle_link
static void reds_handle_main_link(RedLinkInfo *link)
{
RedClient *client;
RedsStream *stream;
SpiceLinkMess *link_mess;
uint32_t *caps;
uint32_t connection_id;
MainChannelClient *mcc;
int mig_target = FALSE;
spice_info(NULL);
spice_assert(reds->main_channel);
link_mess = link->link_mess;
if (!reds->allow_multiple_clients) {
reds_disconnect();
}
if (link_mess->connection_id == 0) {
reds_send_link_result(link, SPICE_LINK_ERR_OK);
while((connection_id = rand()) == 0);
mig_target = FALSE;
} else {
// TODO: make sure link_mess->connection_id is the same
// connection id the migration src had (use vmstate to store the connection id)
reds_send_link_result(link, SPICE_LINK_ERR_OK);
connection_id = link_mess->connection_id;
mig_target = TRUE;
}
reds->mig_inprogress = FALSE;
reds->mig_wait_connect = FALSE;
reds->mig_wait_disconnect = FALSE;
reds_info_new_channel(link, connection_id);
stream = link->stream;
reds_stream_remove_watch(stream);
link->stream = NULL;
link->link_mess = NULL;
reds_link_free(link);
caps = (uint32_t *)((uint8_t *)link_mess + link_mess->caps_offset);
client = red_client_new(mig_target);
ring_add(&reds->clients, &client->link);
reds->num_clients++;
mcc = main_channel_link(reds->main_channel, client,
stream, connection_id, mig_target,
link_mess->num_common_caps,
link_mess->num_common_caps ? caps : NULL, link_mess->num_channel_caps,
link_mess->num_channel_caps ? caps + link_mess->num_common_caps : NULL);
spice_info("NEW Client %p mcc %p connect-id %d", client, mcc, connection_id);
free(link_mess);
red_client_set_main(client, mcc);
if (vdagent) {
if (mig_target) {
spice_warning("unexpected: vdagent attached to destination during migration");
}
reds->agent_state.read_filter.discard_all = FALSE;
reds->agent_state.plug_generation++;
}
if (!mig_target) {
main_channel_push_init(mcc, red_dispatcher_count(),
reds->mouse_mode, reds->is_client_mouse_allowed,
reds_get_mm_time() - MM_TIME_DELTA,
red_dispatcher_qxl_ram_size());
if (spice_name)
main_channel_push_name(mcc, spice_name);
if (spice_uuid_is_set)
main_channel_push_uuid(mcc, spice_uuid);
} else {
reds_mig_target_client_add(client);
}
main_channel_client_start_net_test(mcc, !mig_target);
}
#define RED_MOUSE_STATE_TO_LOCAL(state) \
((state & SPICE_MOUSE_BUTTON_MASK_LEFT) | \
((state & SPICE_MOUSE_BUTTON_MASK_MIDDLE) << 1) | \
((state & SPICE_MOUSE_BUTTON_MASK_RIGHT) >> 1))
#define RED_MOUSE_BUTTON_STATE_TO_AGENT(state) \
(((state & SPICE_MOUSE_BUTTON_MASK_LEFT) ? VD_AGENT_LBUTTON_MASK : 0) | \
((state & SPICE_MOUSE_BUTTON_MASK_MIDDLE) ? VD_AGENT_MBUTTON_MASK : 0) | \
((state & SPICE_MOUSE_BUTTON_MASK_RIGHT) ? VD_AGENT_RBUTTON_MASK : 0))
void reds_set_client_mouse_allowed(int is_client_mouse_allowed, int x_res, int y_res)
{
reds->monitor_mode.x_res = x_res;
reds->monitor_mode.y_res = y_res;
reds->dispatcher_allows_client_mouse = is_client_mouse_allowed;
reds_update_mouse_mode();
if (reds->is_client_mouse_allowed && inputs_has_tablet()) {
inputs_set_tablet_logical_size(reds->monitor_mode.x_res, reds->monitor_mode.y_res);
}
}
static void openssl_init(RedLinkInfo *link)
{
unsigned long f4 = RSA_F4;
link->tiTicketing.bn = BN_new();
if (!link->tiTicketing.bn) {
spice_error("OpenSSL BIGNUMS alloc failed");
}
BN_set_word(link->tiTicketing.bn, f4);
}
static void reds_channel_do_link(RedChannel *channel, RedClient *client,
SpiceLinkMess *link_msg,
RedsStream *stream)
{
uint32_t *caps;
spice_assert(channel);
spice_assert(link_msg);
spice_assert(stream);
caps = (uint32_t *)((uint8_t *)link_msg + link_msg->caps_offset);
channel->client_cbs.connect(channel, client, stream,
red_client_during_migrate_at_target(client),
link_msg->num_common_caps,
link_msg->num_common_caps ? caps : NULL,
link_msg->num_channel_caps,
link_msg->num_channel_caps ?
caps + link_msg->num_common_caps : NULL);
}
/*
* migration target side:
* In semi-seamless migration, we activate the channels only
* after migration is completed.
* In seamless migration, in order to keep the continuousness, and
* not lose any data, we activate the target channels before
* migration completes, as soon as we receive SPICE_MSGC_MAIN_MIGRATE_DST_DO_SEAMLESS
*/
static int reds_link_mig_target_channels(RedClient *client)
{
RedsMigTargetClient *mig_client;
RingItem *item;
spice_info("%p", client);
mig_client = reds_mig_target_client_find(client);
if (!mig_client) {
spice_info("Error: mig target client was not found");
return FALSE;
}
/* Each channel should check if we are during migration, and
* act accordingly. */
RING_FOREACH(item, &mig_client->pending_links) {
RedsMigPendingLink *mig_link;
RedChannel *channel;
mig_link = SPICE_CONTAINEROF(item, RedsMigPendingLink, ring_link);
channel = reds_find_channel(mig_link->link_msg->channel_type,
mig_link->link_msg->channel_id);
if (!channel) {
spice_warning("client %p channel (%d, %d) (type, id) wasn't found",
client,
mig_link->link_msg->channel_type,
mig_link->link_msg->channel_id);
continue;
}
reds_channel_do_link(channel, client, mig_link->link_msg, mig_link->stream);
}
reds_mig_target_client_free(mig_client);
return TRUE;
}
int reds_on_migrate_dst_set_seamless(MainChannelClient *mcc, uint32_t src_version)
{
/* seamless migration is not supported with multiple clients*/
if (reds->allow_multiple_clients || src_version > SPICE_MIGRATION_PROTOCOL_VERSION) {
reds->dst_do_seamless_migrate = FALSE;
} else {
RedChannelClient *rcc = main_channel_client_get_base(mcc);
red_client_set_migration_seamless(rcc->client);
/* linking all the channels that have been connected before migration handshake */
reds->dst_do_seamless_migrate = reds_link_mig_target_channels(rcc->client);
}
return reds->dst_do_seamless_migrate;
}
void reds_on_client_seamless_migrate_complete(RedClient *client)
{
spice_debug(NULL);
if (!reds_find_client(client)) {
spice_info("client no longer exists");
return;
}
main_channel_migrate_dst_complete(red_client_get_main(client));
}
void reds_on_client_semi_seamless_migrate_complete(RedClient *client)
{
MainChannelClient *mcc;
spice_info("%p", client);
mcc = red_client_get_main(client);
// TODO: not doing net test. consider doing it on client_migrate_info
main_channel_push_init(mcc, red_dispatcher_count(),
reds->mouse_mode, reds->is_client_mouse_allowed,
reds_get_mm_time() - MM_TIME_DELTA,
red_dispatcher_qxl_ram_size());
reds_link_mig_target_channels(client);
main_channel_migrate_dst_complete(mcc);
}
static void reds_handle_other_links(RedLinkInfo *link)
{
RedChannel *channel;
RedClient *client = NULL;
SpiceLinkMess *link_mess;
RedsMigTargetClient *mig_client;
link_mess = link->link_mess;
if (reds->main_channel) {
client = main_channel_get_client_by_link_id(reds->main_channel,
link_mess->connection_id);
}
// TODO: MC: broke migration (at least for the dont-drop-connection kind).
// On migration we should get a connection_id to expect (must be a security measure)
// where do we store it? on reds, but should be a list (MC).
if (!client) {
reds_send_link_result(link, SPICE_LINK_ERR_BAD_CONNECTION_ID);
reds_link_free(link);
return;
}
// TODO: MC: be less lenient. Tally connections from same connection_id (by same client).
if (!(channel = reds_find_channel(link_mess->channel_type,
link_mess->channel_id))) {
reds_send_link_result(link, SPICE_LINK_ERR_CHANNEL_NOT_AVAILABLE);
reds_link_free(link);
return;
}
reds_send_link_result(link, SPICE_LINK_ERR_OK);
reds_info_new_channel(link, link_mess->connection_id);
reds_stream_remove_watch(link->stream);
mig_client = reds_mig_target_client_find(client);
/*
* In semi-seamless migration, we activate the channels only
* after migration is completed. Since, the session starts almost from
* scratch we don't mind if we skip some messages in between the src session end and
* dst session start.
* In seamless migration, in order to keep the continuousness of the session, and
* in order not to lose any data, we activate the target channels before
* migration completes, as soon as we receive SPICE_MSGC_MAIN_MIGRATE_DST_DO_SEAMLESS.
* If a channel connects before receiving SPICE_MSGC_MAIN_MIGRATE_DST_DO_SEAMLESS,
* reds_on_migrate_dst_set_seamless will take care of activating it */
if (red_client_during_migrate_at_target(client) && !reds->dst_do_seamless_migrate) {
spice_assert(mig_client);
reds_mig_target_client_add_pending_link(mig_client, link_mess, link->stream);
} else {
spice_assert(!mig_client);
reds_channel_do_link(channel, client, link_mess, link->stream);
free(link_mess);
}
link->stream = NULL;
link->link_mess = NULL;
reds_link_free(link);
}
static void reds_handle_link(RedLinkInfo *link)
{
if (link->link_mess->channel_type == SPICE_CHANNEL_MAIN) {
reds_handle_main_link(link);
} else {
reds_handle_other_links(link);
}
}
static void reds_handle_ticket(void *opaque)
{
RedLinkInfo *link = (RedLinkInfo *)opaque;
char *password;
time_t ltime;
int password_size;
//todo: use monotonic time
time(<ime);
if (RSA_size(link->tiTicketing.rsa) < SPICE_MAX_PASSWORD_LENGTH) {
spice_warning("RSA modulus size is smaller than SPICE_MAX_PASSWORD_LENGTH (%d < %d), "
"SPICE ticket sent from client may be truncated",
RSA_size(link->tiTicketing.rsa), SPICE_MAX_PASSWORD_LENGTH);
}
password = g_malloc0(RSA_size(link->tiTicketing.rsa) + 1);
password_size = RSA_private_decrypt(link->tiTicketing.rsa_size,
link->tiTicketing.encrypted_ticket.encrypted_data,
(unsigned char *)password,
link->tiTicketing.rsa,
RSA_PKCS1_OAEP_PADDING);
if (password_size == -1) {
spice_warning("failed to decrypt RSA encrypted password: %s",
ERR_error_string(ERR_get_error(), NULL));
goto error;
}
password[password_size] = '\0';
if (ticketing_enabled && !link->skip_auth) {
int expired = taTicket.expiration_time < ltime;
if (strlen(taTicket.password) == 0) {
spice_warning("Ticketing is enabled, but no password is set. "
"please set a ticket first");
goto error;
}
if (expired || strcmp(password, taTicket.password) != 0) {
if (expired) {
spice_warning("Ticket has expired");
} else {
spice_warning("Invalid password");
}
goto error;
}
}
reds_handle_link(link);
goto end;
error:
reds_send_link_result(link, SPICE_LINK_ERR_PERMISSION_DENIED);
reds_link_free(link);
end:
g_free(password);
}
static void reds_get_spice_ticket(RedLinkInfo *link)
{
AsyncRead *obj = &link->async_read;
obj->now = (uint8_t *)&link->tiTicketing.encrypted_ticket.encrypted_data;
obj->end = obj->now + link->tiTicketing.rsa_size;
obj->done = reds_handle_ticket;
async_read_handler(0, 0, &link->async_read);
}
#if HAVE_SASL
/*
* Step Msg
*
* Input from client:
*
* u32 clientin-length
* u8-array clientin-string
*
* Output to client:
*
* u32 serverout-length
* u8-array serverout-strin
* u8 continue
*/
#define SASL_DATA_MAX_LEN (1024 * 1024)
static void reds_handle_auth_sasl_steplen(void *opaque);
static void reds_handle_auth_sasl_step(void *opaque)
{
RedLinkInfo *link = (RedLinkInfo *)opaque;
RedsSaslError status;
status = reds_sasl_handle_auth_start(link->stream, reds_handle_auth_sasl_steplen, link);
if (status == REDS_SASL_ERROR_OK) {
reds_handle_link(link);
} else if (status != REDS_SASL_ERROR_CONTINUE) {
reds_link_free(link);
}
}
static void reds_handle_auth_sasl_steplen(void *opaque)
{
RedLinkInfo *link = (RedLinkInfo *)opaque;
RedsSaslError status;
status = reds_sasl_handle_auth_steplen(link->stream, reds_handle_auth_sasl_step, link);
if (status != REDS_SASL_ERROR_OK) {
reds_link_free(link);
}
}
/*
* Start Msg
*
* Input from client:
*
* u32 clientin-length
* u8-array clientin-string
*
* Output to client:
*
* u32 serverout-length
* u8-array serverout-strin
* u8 continue
*/
static void reds_handle_auth_sasl_start(void *opaque)
{
RedLinkInfo *link = (RedLinkInfo *)opaque;
RedsSaslError status;
status = reds_sasl_handle_auth_start(link->stream, reds_handle_auth_sasl_steplen, link);
if (status == REDS_SASL_ERROR_OK) {
reds_handle_link(link);
} else if (status != REDS_SASL_ERROR_CONTINUE) {
reds_link_free(link);
}
}
static void reds_handle_auth_startlen(void *opaque)
{
RedLinkInfo *link = (RedLinkInfo *)opaque;
RedsSaslError status;
status = reds_sasl_handle_auth_startlen(link->stream, reds_handle_auth_sasl_start, link);
switch (status) {
case REDS_SASL_ERROR_OK:
break;
case REDS_SASL_ERROR_RETRY:
reds_handle_auth_sasl_start(opaque);
break;
case REDS_SASL_ERROR_GENERIC:
case REDS_SASL_ERROR_INVALID_DATA:
reds_send_link_error(link, SPICE_LINK_ERR_INVALID_DATA);
reds_link_free(link);
break;
default:
g_warn_if_reached();
reds_send_link_error(link, SPICE_LINK_ERR_INVALID_DATA);
reds_link_free(link);
break;
}
}
static void reds_handle_auth_mechname(void *opaque)
{
RedLinkInfo *link = (RedLinkInfo *)opaque;
if (!reds_sasl_handle_auth_mechname(link->stream, reds_handle_auth_startlen, link)) {
reds_send_link_error(link, SPICE_LINK_ERR_INVALID_DATA);
}
}
static void reds_handle_auth_mechlen(void *opaque)
{
RedLinkInfo *link = (RedLinkInfo *)opaque;
if (!reds_sasl_handle_auth_mechlen(link->stream, reds_handle_auth_mechname, link)) {
reds_link_free(link);
}
}
static void reds_start_auth_sasl(RedLinkInfo *link)
{
if (!reds_sasl_start_auth(link->stream, reds_handle_auth_mechlen, link)) {
reds_link_free(link);
}
}
#endif
static void reds_handle_auth_mechanism(void *opaque)
{
RedLinkInfo *link = (RedLinkInfo *)opaque;
spice_info("Auth method: %d", link->auth_mechanism.auth_mechanism);
if (link->auth_mechanism.auth_mechanism == SPICE_COMMON_CAP_AUTH_SPICE
&& !sasl_enabled
) {
reds_get_spice_ticket(link);
#if HAVE_SASL
} else if (link->auth_mechanism.auth_mechanism == SPICE_COMMON_CAP_AUTH_SASL) {
spice_info("Starting SASL");
reds_start_auth_sasl(link);
#endif
} else {
spice_warning("Unknown auth method, disconnecting");
if (sasl_enabled) {
spice_warning("Your client doesn't handle SASL?");
}
reds_send_link_error(link, SPICE_LINK_ERR_INVALID_DATA);
reds_link_free(link);
}
}
static int reds_security_check(RedLinkInfo *link)
{
ChannelSecurityOptions *security_option = find_channel_security(link->link_mess->channel_type);
uint32_t security = security_option ? security_option->options : default_channel_security;
return (reds_stream_is_ssl(link->stream) && (security & SPICE_CHANNEL_SECURITY_SSL)) ||
(!reds_stream_is_ssl(link->stream) && (security & SPICE_CHANNEL_SECURITY_NONE));
}
static void reds_handle_read_link_done(void *opaque)
{
RedLinkInfo *link = (RedLinkInfo *)opaque;
SpiceLinkMess *link_mess = link->link_mess;
AsyncRead *obj = &link->async_read;
uint32_t num_caps = link_mess->num_common_caps + link_mess->num_channel_caps;
uint32_t *caps = (uint32_t *)((uint8_t *)link_mess + link_mess->caps_offset);
int auth_selection;
if (num_caps && (num_caps * sizeof(uint32_t) + link_mess->caps_offset >
link->link_header.size ||
link_mess->caps_offset < sizeof(*link_mess))) {
reds_send_link_error(link, SPICE_LINK_ERR_INVALID_DATA);
reds_link_free(link);
return;
}
auth_selection = test_capabilty(caps, link_mess->num_common_caps,
SPICE_COMMON_CAP_PROTOCOL_AUTH_SELECTION);
if (!reds_security_check(link)) {
if (reds_stream_is_ssl(link->stream)) {
spice_warning("spice channels %d should not be encrypted", link_mess->channel_type);
reds_send_link_error(link, SPICE_LINK_ERR_NEED_UNSECURED);
} else {
spice_warning("spice channels %d should be encrypted", link_mess->channel_type);
reds_send_link_error(link, SPICE_LINK_ERR_NEED_SECURED);
}
reds_link_free(link);
return;
}
if (!reds_send_link_ack(link)) {
reds_link_free(link);
return;
}
if (!auth_selection) {
if (sasl_enabled && !link->skip_auth) {
spice_warning("SASL enabled, but peer supports only spice authentication");
reds_send_link_error(link, SPICE_LINK_ERR_VERSION_MISMATCH);
return;
}
spice_warning("Peer doesn't support AUTH selection");
reds_get_spice_ticket(link);
} else {
obj->now = (uint8_t *)&link->auth_mechanism;
obj->end = obj->now + sizeof(SpiceLinkAuthMechanism);
obj->done = reds_handle_auth_mechanism;
async_read_handler(0, 0, &link->async_read);
}
}
static void reds_handle_link_error(void *opaque, int err)
{
RedLinkInfo *link = (RedLinkInfo *)opaque;
switch (err) {
case 0:
case EPIPE:
break;
default:
spice_warning("%s", strerror(errno));
break;
}
reds_link_free(link);
}
static void reds_handle_read_header_done(void *opaque)
{
RedLinkInfo *link = (RedLinkInfo *)opaque;
SpiceLinkHeader *header = &link->link_header;
AsyncRead *obj = &link->async_read;
if (header->magic != SPICE_MAGIC) {
reds_send_link_error(link, SPICE_LINK_ERR_INVALID_MAGIC);
reds_link_free(link);
return;
}
if (header->major_version != SPICE_VERSION_MAJOR) {
if (header->major_version > 0) {
reds_send_link_error(link, SPICE_LINK_ERR_VERSION_MISMATCH);
}
spice_warning("version mismatch");
reds_link_free(link);
return;
}
reds->peer_minor_version = header->minor_version;
if (header->size < sizeof(SpiceLinkMess)) {
reds_send_link_error(link, SPICE_LINK_ERR_INVALID_DATA);
spice_warning("bad size %u", header->size);
reds_link_free(link);
return;
}
link->link_mess = spice_malloc(header->size);
obj->now = (uint8_t *)link->link_mess;
obj->end = obj->now + header->size;
obj->done = reds_handle_read_link_done;
async_read_handler(0, 0, &link->async_read);
}
static void reds_handle_new_link(RedLinkInfo *link)
{
AsyncRead *obj = &link->async_read;
obj->opaque = link;
obj->stream = link->stream;
obj->now = (uint8_t *)&link->link_header;
obj->end = (uint8_t *)((SpiceLinkHeader *)&link->link_header + 1);
obj->done = reds_handle_read_header_done;
obj->error = reds_handle_link_error;
async_read_handler(0, 0, &link->async_read);
}
static void reds_handle_ssl_accept(int fd, int event, void *data)
{
RedLinkInfo *link = (RedLinkInfo *)data;
int return_code = reds_stream_ssl_accept(link->stream);
switch (return_code) {
case REDS_STREAM_SSL_STATUS_ERROR:
reds_link_free(link);
return;
case REDS_STREAM_SSL_STATUS_WAIT_FOR_READ:
core->watch_update_mask(link->stream->watch, SPICE_WATCH_EVENT_READ);
return;
case REDS_STREAM_SSL_STATUS_WAIT_FOR_WRITE:
core->watch_update_mask(link->stream->watch, SPICE_WATCH_EVENT_WRITE);
return;
case REDS_STREAM_SSL_STATUS_OK:
reds_stream_remove_watch(link->stream);
reds_handle_new_link(link);
}
}
static RedLinkInfo *reds_init_client_connection(int socket)
{
RedLinkInfo *link;
int delay_val = 1;
int flags;
if ((flags = fcntl(socket, F_GETFL)) == -1) {
spice_warning("accept failed, %s", strerror(errno));
goto error;
}
if (fcntl(socket, F_SETFL, flags | O_NONBLOCK) == -1) {
spice_warning("accept failed, %s", strerror(errno));
goto error;
}
if (setsockopt(socket, IPPROTO_TCP, TCP_NODELAY, &delay_val, sizeof(delay_val)) == -1) {
if (errno != ENOTSUP) {
spice_warning("setsockopt failed, %s", strerror(errno));
}
}
link = spice_new0(RedLinkInfo, 1);
link->stream = reds_stream_new(socket);
/* gather info + send event */
reds_stream_push_channel_event(link->stream, SPICE_CHANNEL_EVENT_CONNECTED);
openssl_init(link);
return link;
error:
return NULL;
}
static RedLinkInfo *reds_init_client_ssl_connection(int socket)
{
RedLinkInfo *link;
int ssl_status;
link = reds_init_client_connection(socket);
if (link == NULL)
goto error;
ssl_status = reds_stream_enable_ssl(link->stream, reds->ctx);
switch (ssl_status) {
case REDS_STREAM_SSL_STATUS_OK:
reds_handle_new_link(link);
return link;
case REDS_STREAM_SSL_STATUS_ERROR:
goto error;
case REDS_STREAM_SSL_STATUS_WAIT_FOR_READ:
link->stream->watch = core->watch_add(link->stream->socket, SPICE_WATCH_EVENT_READ,
reds_handle_ssl_accept, link);
break;
case REDS_STREAM_SSL_STATUS_WAIT_FOR_WRITE:
link->stream->watch = core->watch_add(link->stream->socket, SPICE_WATCH_EVENT_WRITE,
reds_handle_ssl_accept, link);
break;
}
return link;
error:
free(link->stream);
BN_free(link->tiTicketing.bn);
free(link);
return NULL;
}
static void reds_accept_ssl_connection(int fd, int event, void *data)
{
RedLinkInfo *link;
int socket;
if ((socket = accept(reds->secure_listen_socket, NULL, 0)) == -1) {
spice_warning("accept failed, %s", strerror(errno));
return;
}
if (!(link = reds_init_client_ssl_connection(socket))) {
close(socket);
return;
}
}
static void reds_accept(int fd, int event, void *data)
{
int socket;
if ((socket = accept(reds->listen_socket, NULL, 0)) == -1) {
spice_warning("accept failed, %s", strerror(errno));
return;
}
if (spice_server_add_client(reds, socket, 0) < 0)
close(socket);
}
SPICE_GNUC_VISIBLE int spice_server_add_client(SpiceServer *s, int socket, int skip_auth)
{
RedLinkInfo *link;
spice_assert(reds == s);
if (!(link = reds_init_client_connection(socket))) {
spice_warning("accept failed");
return -1;
}
link->skip_auth = skip_auth;
reds_handle_new_link(link);
return 0;
}
SPICE_GNUC_VISIBLE int spice_server_add_ssl_client(SpiceServer *s, int socket, int skip_auth)
{
RedLinkInfo *link;
spice_assert(reds == s);
if (!(link = reds_init_client_ssl_connection(socket))) {
return -1;
}
link->skip_auth = skip_auth;
return 0;
}
static int reds_init_socket(const char *addr, int portnr, int family)
{
static const int on=1, off=0;
struct addrinfo ai,*res,*e;
char port[33];
int slisten,rc;
memset(&ai,0, sizeof(ai));
ai.ai_flags = AI_PASSIVE | AI_ADDRCONFIG;
ai.ai_socktype = SOCK_STREAM;
ai.ai_family = family;
snprintf(port, sizeof(port), "%d", portnr);
rc = getaddrinfo(strlen(addr) ? addr : NULL, port, &ai, &res);
if (rc != 0) {
spice_warning("getaddrinfo(%s,%s): %s", addr, port,
gai_strerror(rc));
return -1;
}
for (e = res; e != NULL; e = e->ai_next) {
slisten = socket(e->ai_family, e->ai_socktype, e->ai_protocol);
if (slisten < 0) {
continue;
}
setsockopt(slisten,SOL_SOCKET,SO_REUSEADDR,(void*)&on,sizeof(on));
#ifdef IPV6_V6ONLY
if (e->ai_family == PF_INET6) {
/* listen on both ipv4 and ipv6 */
setsockopt(slisten,IPPROTO_IPV6,IPV6_V6ONLY,(void*)&off,
sizeof(off));
}
#endif
if (bind(slisten, e->ai_addr, e->ai_addrlen) == 0) {
char uaddr[INET6_ADDRSTRLEN+1];
char uport[33];
rc = getnameinfo((struct sockaddr*)e->ai_addr,e->ai_addrlen,
uaddr,INET6_ADDRSTRLEN, uport,32,
NI_NUMERICHOST | NI_NUMERICSERV);
if (rc == 0) {
spice_info("bound to %s:%s", uaddr, uport);
} else {
spice_info("cannot resolve address spice-server is bound to");
}
goto listen;
}
close(slisten);
}
spice_warning("%s: binding socket to %s:%d failed", __FUNCTION__,
addr, portnr);
freeaddrinfo(res);
return -1;
listen:
freeaddrinfo(res);
if (listen(slisten,1) != 0) {
spice_warning("listen: %s", strerror(errno));
close(slisten);
return -1;
}
return slisten;
}
static void reds_send_mm_time(void)
{
if (!reds_main_channel_connected()) {
return;
}
spice_debug(NULL);
main_channel_push_multi_media_time(reds->main_channel,
reds_get_mm_time() - reds->mm_time_latency);
}
void reds_set_client_mm_time_latency(RedClient *client, uint32_t latency)
{
// TODO: multi-client support for mm_time
if (reds->mm_timer_enabled) {
// TODO: consider network latency
if (latency > reds->mm_time_latency) {
reds->mm_time_latency = latency;
reds_send_mm_time();
} else {
spice_debug("new latency %u is smaller than existing %u",
latency, reds->mm_time_latency);
}
} else {
snd_set_playback_latency(client, latency);
}
}
static int reds_init_net(void)
{
if (spice_port != -1) {
reds->listen_socket = reds_init_socket(spice_addr, spice_port, spice_family);
if (-1 == reds->listen_socket) {
return -1;
}
reds->listen_watch = core->watch_add(reds->listen_socket,
SPICE_WATCH_EVENT_READ,
reds_accept, NULL);
if (reds->listen_watch == NULL) {
spice_warning("set fd handle failed");
return -1;
}
}
if (spice_secure_port != -1) {
reds->secure_listen_socket = reds_init_socket(spice_addr, spice_secure_port,
spice_family);
if (-1 == reds->secure_listen_socket) {
return -1;
}
reds->secure_listen_watch = core->watch_add(reds->secure_listen_socket,
SPICE_WATCH_EVENT_READ,
reds_accept_ssl_connection, NULL);
if (reds->secure_listen_watch == NULL) {
spice_warning("set fd handle failed");
return -1;
}
}
if (spice_listen_socket_fd != -1 ) {
reds->listen_socket = spice_listen_socket_fd;
reds->listen_watch = core->watch_add(reds->listen_socket,
SPICE_WATCH_EVENT_READ,
reds_accept, NULL);
if (reds->listen_watch == NULL) {
spice_warning("set fd handle failed");
return -1;
}
}
return 0;
}
static int load_dh_params(SSL_CTX *ctx, char *file)
{
DH *ret = 0;
BIO *bio;
if ((bio = BIO_new_file(file, "r")) == NULL) {
spice_warning("Could not open DH file");
return -1;
}
ret = PEM_read_bio_DHparams(bio, NULL, NULL, NULL);
BIO_free(bio);
if (ret == 0) {
spice_warning("Could not read DH params");
return -1;
}
if (SSL_CTX_set_tmp_dh(ctx, ret) < 0) {
spice_warning("Could not set DH params");
return -1;
}
return 0;
}
/*The password code is not thread safe*/
static int ssl_password_cb(char *buf, int size, int flags, void *userdata)
{
char *pass = ssl_parameters.keyfile_password;
if (size < strlen(pass) + 1) {
return (0);
}
strcpy(buf, pass);
return (strlen(pass));
}
static unsigned long pthreads_thread_id(void)
{
unsigned long ret;
ret = (unsigned long)pthread_self();
return (ret);
}
static void pthreads_locking_callback(int mode, int type, const char *file, int line)
{
if (mode & CRYPTO_LOCK) {
pthread_mutex_lock(&(lock_cs[type]));
lock_count[type]++;
} else {
pthread_mutex_unlock(&(lock_cs[type]));
}
}
static void openssl_thread_setup(void)
{
int i;
lock_cs = OPENSSL_malloc(CRYPTO_num_locks() * sizeof(pthread_mutex_t));
lock_count = OPENSSL_malloc(CRYPTO_num_locks() * sizeof(long));
for (i = 0; i < CRYPTO_num_locks(); i++) {
lock_count[i] = 0;
pthread_mutex_init(&(lock_cs[i]), NULL);
}
CRYPTO_set_id_callback(pthreads_thread_id);
CRYPTO_set_locking_callback(pthreads_locking_callback);
}
static int reds_init_ssl(void)
{
#if OPENSSL_VERSION_NUMBER >= 0x10000000L
const SSL_METHOD *ssl_method;
#else
SSL_METHOD *ssl_method;
#endif
int return_code;
/* When some other SSL/TLS version becomes obsolete, add it to this
* variable. */
long ssl_options = SSL_OP_NO_SSLv2 | SSL_OP_NO_SSLv3;
/* Global system initialization*/
SSL_library_init();
SSL_load_error_strings();
/* Create our context*/
/* SSLv23_method() handles TLSv1.x in addition to SSLv2/v3 */
ssl_method = SSLv23_method();
reds->ctx = SSL_CTX_new(ssl_method);
if (!reds->ctx) {
spice_warning("Could not allocate new SSL context");
return -1;
}
/* Limit connection to TLSv1 only */
#ifdef SSL_OP_NO_COMPRESSION
ssl_options |= SSL_OP_NO_COMPRESSION;
#endif
SSL_CTX_set_options(reds->ctx, ssl_options);
/* Load our keys and certificates*/
return_code = SSL_CTX_use_certificate_chain_file(reds->ctx, ssl_parameters.certs_file);
if (return_code == 1) {
spice_info("Loaded certificates from %s", ssl_parameters.certs_file);
} else {
spice_warning("Could not load certificates from %s", ssl_parameters.certs_file);
return -1;
}
SSL_CTX_set_default_passwd_cb(reds->ctx, ssl_password_cb);
return_code = SSL_CTX_use_PrivateKey_file(reds->ctx, ssl_parameters.private_key_file,
SSL_FILETYPE_PEM);
if (return_code == 1) {
spice_info("Using private key from %s", ssl_parameters.private_key_file);
} else {
spice_warning("Could not use private key file");
return -1;
}
/* Load the CAs we trust*/
return_code = SSL_CTX_load_verify_locations(reds->ctx, ssl_parameters.ca_certificate_file, 0);
if (return_code == 1) {
spice_info("Loaded CA certificates from %s", ssl_parameters.ca_certificate_file);
} else {
spice_warning("Could not use CA file %s", ssl_parameters.ca_certificate_file);
return -1;
}
#if (OPENSSL_VERSION_NUMBER < 0x00905100L)
SSL_CTX_set_verify_depth(reds->ctx, 1);
#endif
if (strlen(ssl_parameters.dh_key_file) > 0) {
if (load_dh_params(reds->ctx, ssl_parameters.dh_key_file) < 0) {
return -1;
}
}
SSL_CTX_set_session_id_context(reds->ctx, (const unsigned char *)"SPICE", 5);
if (strlen(ssl_parameters.ciphersuite) > 0) {
if (!SSL_CTX_set_cipher_list(reds->ctx, ssl_parameters.ciphersuite)) {
return -1;
}
}
openssl_thread_setup();
#ifndef SSL_OP_NO_COMPRESSION
STACK *cmp_stack = SSL_COMP_get_compression_methods();
sk_zero(cmp_stack);
#endif
return 0;
}
static void reds_exit(void)
{
if (reds->main_channel) {
main_channel_close(reds->main_channel);
}
#ifdef RED_STATISTICS
shm_unlink(reds->stat_shm_name);
free(reds->stat_shm_name);
#endif
}
static inline void on_activating_ticketing(void)
{
if (!ticketing_enabled && reds_main_channel_connected()) {
spice_warning("disconnecting");
reds_disconnect();
}
}
static void set_image_compression(spice_image_compression_t val)
{
if (val == image_compression) {
return;
}
image_compression = val;
red_dispatcher_on_ic_change();
}
static void set_one_channel_security(int id, uint32_t security)
{
ChannelSecurityOptions *security_options;
if ((security_options = find_channel_security(id))) {
security_options->options = security;
return;
}
security_options = spice_new(ChannelSecurityOptions, 1);
security_options->channel_id = id;
security_options->options = security;
security_options->next = channels_security;
channels_security = security_options;
}
#define REDS_SAVE_VERSION 1
typedef struct RedsMigSpiceMessage {
uint32_t connection_id;
} RedsMigSpiceMessage;
typedef struct RedsMigCertPubKeyInfo {
uint16_t type;
uint32_t len;
} RedsMigCertPubKeyInfo;
static void reds_mig_release(void)
{
if (reds->mig_spice) {
free(reds->mig_spice->cert_subject);
free(reds->mig_spice->host);
free(reds->mig_spice);
reds->mig_spice = NULL;
}
}
static void reds_mig_started(void)
{
spice_info(NULL);
spice_assert(reds->mig_spice);
reds->mig_inprogress = TRUE;
reds->mig_wait_connect = TRUE;
core->timer_start(reds->mig_timer, MIGRATE_TIMEOUT);
}
static void reds_mig_fill_wait_disconnect(void)
{
RingItem *client_item;
spice_assert(reds->num_clients > 0);
/* tracking the clients, in order to ignore disconnection
* of clients that got connected to the src after migration completion.*/
RING_FOREACH(client_item, &reds->clients) {
RedClient *client = SPICE_CONTAINEROF(client_item, RedClient, link);
RedsMigWaitDisconnectClient *wait_client;
wait_client = spice_new0(RedsMigWaitDisconnectClient, 1);
wait_client->client = client;
ring_add(&reds->mig_wait_disconnect_clients, &wait_client->link);
}
reds->mig_wait_disconnect = TRUE;
core->timer_start(reds->mig_timer, MIGRATE_TIMEOUT);
}
static void reds_mig_cleanup_wait_disconnect(void)
{
RingItem *wait_client_item;
while ((wait_client_item = ring_get_tail(&reds->mig_wait_disconnect_clients))) {
RedsMigWaitDisconnectClient *wait_client;
wait_client = SPICE_CONTAINEROF(wait_client_item, RedsMigWaitDisconnectClient, link);
ring_remove(wait_client_item);
free(wait_client);
}
reds->mig_wait_disconnect = FALSE;
}
static void reds_mig_remove_wait_disconnect_client(RedClient *client)
{
RingItem *wait_client_item;
RING_FOREACH(wait_client_item, &reds->mig_wait_disconnect_clients) {
RedsMigWaitDisconnectClient *wait_client;
wait_client = SPICE_CONTAINEROF(wait_client_item, RedsMigWaitDisconnectClient, link);
if (wait_client->client == client) {
ring_remove(wait_client_item);
free(wait_client);
if (ring_is_empty(&reds->mig_wait_disconnect_clients)) {
reds_mig_cleanup();
}
return;
}
}
spice_warning("client not found %p", client);
}
static void reds_migrate_channels_seamless(void)
{
RedClient *client;
/* seamless migration is supported for only one client for now */
client = reds_get_client();
red_client_migrate(client);
}
static void reds_mig_finished(int completed)
{
spice_info(NULL);
reds->mig_inprogress = TRUE;
if (reds->src_do_seamless_migrate && completed) {
reds_migrate_channels_seamless();
} else {
main_channel_migrate_src_complete(reds->main_channel, completed);
}
if (completed) {
reds_mig_fill_wait_disconnect();
} else {
reds_mig_cleanup();
}
reds_mig_release();
}
static void reds_mig_switch(void)
{
if (!reds->mig_spice) {
spice_warning("reds_mig_switch called without migrate_info set");
return;
}
main_channel_migrate_switch(reds->main_channel, reds->mig_spice);
reds_mig_release();
}
static void migrate_timeout(void *opaque)
{
spice_info(NULL);
spice_assert(reds->mig_wait_connect || reds->mig_wait_disconnect);
if (reds->mig_wait_connect) {
/* we will fall back to the switch host scheme when migration completes */
main_channel_migrate_cancel_wait(reds->main_channel);
/* in case part of the client haven't yet completed the previous migration, disconnect them */
reds_mig_target_client_disconnect_all();
reds_mig_cleanup();
} else {
reds_mig_disconnect();
}
}
uint32_t reds_get_mm_time(void)
{
struct timespec time_space;
clock_gettime(CLOCK_MONOTONIC, &time_space);
return time_space.tv_sec * 1000 + time_space.tv_nsec / 1000 / 1000;
}
void reds_update_mm_timer(uint32_t mm_time)
{
red_dispatcher_set_mm_time(mm_time);
}
void reds_enable_mm_timer(void)
{
core->timer_start(reds->mm_timer, MM_TIMER_GRANULARITY_MS);
reds->mm_timer_enabled = TRUE;
reds->mm_time_latency = MM_TIME_DELTA;
reds_send_mm_time();
}
void reds_disable_mm_timer(void)
{
core->timer_cancel(reds->mm_timer);
reds->mm_timer_enabled = FALSE;
}
static void mm_timer_proc(void *opaque)
{
red_dispatcher_set_mm_time(reds_get_mm_time());
core->timer_start(reds->mm_timer, MM_TIMER_GRANULARITY_MS);
}
static SpiceCharDeviceState *attach_to_red_agent(SpiceCharDeviceInstance *sin)
{
VDIPortState *state = &reds->agent_state;
SpiceCharDeviceInterface *sif;
SpiceCharDeviceCallbacks char_dev_state_cbs;
if (!state->base) {
char_dev_state_cbs.read_one_msg_from_device = vdi_port_read_one_msg_from_device;
char_dev_state_cbs.ref_msg_to_client = vdi_port_ref_msg_to_client;
char_dev_state_cbs.unref_msg_to_client = vdi_port_unref_msg_to_client;
char_dev_state_cbs.send_msg_to_client = vdi_port_send_msg_to_client;
char_dev_state_cbs.send_tokens_to_client = vdi_port_send_tokens_to_client;
char_dev_state_cbs.remove_client = vdi_port_remove_client;
char_dev_state_cbs.on_free_self_token = vdi_port_on_free_self_token;
state->base = spice_char_device_state_create(sin,
REDS_TOKENS_TO_SEND,
REDS_NUM_INTERNAL_AGENT_MESSAGES,
&char_dev_state_cbs,
NULL);
} else {
spice_char_device_state_reset_dev_instance(state->base, sin);
}
vdagent = sin;
reds_update_mouse_mode();
sif = SPICE_CONTAINEROF(vdagent->base.sif, SpiceCharDeviceInterface, base);
if (sif->state) {
sif->state(vdagent, 1);
}
if (!reds_main_channel_connected()) {
return state->base;
}
state->read_filter.discard_all = FALSE;
reds->agent_state.plug_generation++;
if (reds->agent_state.mig_data) {
spice_assert(reds->agent_state.plug_generation == 1);
reds_agent_state_restore(reds->agent_state.mig_data);
free(reds->agent_state.mig_data);
reds->agent_state.mig_data = NULL;
} else if (!red_channel_waits_for_migrate_data(&reds->main_channel->base)) {
/* we will assoicate the client with the char device, upon reds_on_main_agent_start,
* in response to MSGC_AGENT_START */
main_channel_push_agent_connected(reds->main_channel);
} else {
spice_debug("waiting for migration data");
if (!spice_char_device_client_exists(reds->agent_state.base, reds_get_client())) {
int client_added;
client_added = spice_char_device_client_add(reds->agent_state.base,
reds_get_client(),
TRUE, /* flow control */
REDS_VDI_PORT_NUM_RECEIVE_BUFFS,
REDS_AGENT_WINDOW_SIZE,
~0,
TRUE);
if (!client_added) {
spice_warning("failed to add client to agent");
reds_disconnect();
}
}
}
return state->base;
}
SPICE_GNUC_VISIBLE void spice_server_char_device_wakeup(SpiceCharDeviceInstance* sin)
{
if (!sin->st) {
spice_warning("no SpiceCharDeviceState attached to instance %p", sin);
return;
}
spice_char_device_wakeup(sin->st);
}
#define SUBTYPE_VDAGENT "vdagent"
#define SUBTYPE_SMARTCARD "smartcard"
#define SUBTYPE_USBREDIR "usbredir"
#define SUBTYPE_PORT "port"
const char *spice_server_char_device_recognized_subtypes_list[] = {
SUBTYPE_VDAGENT,
#ifdef USE_SMARTCARD
SUBTYPE_SMARTCARD,
#endif
SUBTYPE_USBREDIR,
NULL,
};
SPICE_GNUC_VISIBLE const char** spice_server_char_device_recognized_subtypes(void)
{
return spice_server_char_device_recognized_subtypes_list;
}
static void reds_char_device_add_state(SpiceCharDeviceState *st)
{
SpiceCharDeviceStateItem *item = spice_new0(SpiceCharDeviceStateItem, 1);
item->st = st;
ring_add(&reds->char_devs_states, &item->link);
}
static void reds_char_device_remove_state(SpiceCharDeviceState *st)
{
RingItem *item;
RING_FOREACH(item, &reds->char_devs_states) {
SpiceCharDeviceStateItem *st_item;
st_item = SPICE_CONTAINEROF(item, SpiceCharDeviceStateItem, link);
if (st_item->st == st) {
ring_remove(item);
free(st_item);
return;
}
}
spice_error("char dev state not found %p", st);
}
void reds_on_char_device_state_destroy(SpiceCharDeviceState *dev)
{
reds_char_device_remove_state(dev);
}
static int spice_server_char_device_add_interface(SpiceServer *s,
SpiceBaseInstance *sin)
{
SpiceCharDeviceInstance* char_device =
SPICE_CONTAINEROF(sin, SpiceCharDeviceInstance, base);
SpiceCharDeviceState *dev_state = NULL;
spice_assert(s == reds);
spice_info("CHAR_DEVICE %s", char_device->subtype);
if (strcmp(char_device->subtype, SUBTYPE_VDAGENT) == 0) {
if (vdagent) {
spice_warning("vdagent already attached");
return -1;
}
dev_state = attach_to_red_agent(char_device);
}
#ifdef USE_SMARTCARD
else if (strcmp(char_device->subtype, SUBTYPE_SMARTCARD) == 0) {
if (!(dev_state = smartcard_device_connect(char_device))) {
return -1;
}
}
#endif
else if (strcmp(char_device->subtype, SUBTYPE_USBREDIR) == 0) {
dev_state = spicevmc_device_connect(char_device, SPICE_CHANNEL_USBREDIR);
}
else if (strcmp(char_device->subtype, SUBTYPE_PORT) == 0) {
dev_state = spicevmc_device_connect(char_device, SPICE_CHANNEL_PORT);
}
if (dev_state) {
spice_assert(char_device->st);
/* setting the char_device state to "started" for backward compatibily with
* qemu releases that don't call spice api for start/stop (not implemented yet) */
if (reds->vm_running) {
spice_char_device_start(char_device->st);
}
reds_char_device_add_state(char_device->st);
} else {
spice_warning("failed to create device state for %s", char_device->subtype);
return -1;
}
return 0;
}
static void spice_server_char_device_remove_interface(SpiceBaseInstance *sin)
{
SpiceCharDeviceInstance* char_device =
SPICE_CONTAINEROF(sin, SpiceCharDeviceInstance, base);
spice_info("remove CHAR_DEVICE %s", char_device->subtype);
if (strcmp(char_device->subtype, SUBTYPE_VDAGENT) == 0) {
if (vdagent) {
reds_agent_remove();
}
}
#ifdef USE_SMARTCARD
else if (strcmp(char_device->subtype, SUBTYPE_SMARTCARD) == 0) {
smartcard_device_disconnect(char_device);
}
#endif
else if (strcmp(char_device->subtype, SUBTYPE_USBREDIR) == 0 ||
strcmp(char_device->subtype, SUBTYPE_PORT) == 0) {
spicevmc_device_disconnect(char_device);
} else {
spice_warning("failed to remove char device %s", char_device->subtype);
}
char_device->st = NULL;
}
SPICE_GNUC_VISIBLE int spice_server_add_interface(SpiceServer *s,
SpiceBaseInstance *sin)
{
const SpiceBaseInterface *interface = sin->sif;
spice_assert(reds == s);
if (strcmp(interface->type, SPICE_INTERFACE_KEYBOARD) == 0) {
spice_info("SPICE_INTERFACE_KEYBOARD");
if (interface->major_version != SPICE_INTERFACE_KEYBOARD_MAJOR ||
interface->minor_version > SPICE_INTERFACE_KEYBOARD_MINOR) {
spice_warning("unsupported keyboard interface");
return -1;
}
if (inputs_set_keyboard(SPICE_CONTAINEROF(sin, SpiceKbdInstance, base)) != 0) {
return -1;
}
} else if (strcmp(interface->type, SPICE_INTERFACE_MOUSE) == 0) {
spice_info("SPICE_INTERFACE_MOUSE");
if (interface->major_version != SPICE_INTERFACE_MOUSE_MAJOR ||
interface->minor_version > SPICE_INTERFACE_MOUSE_MINOR) {
spice_warning("unsupported mouse interface");
return -1;
}
if (inputs_set_mouse(SPICE_CONTAINEROF(sin, SpiceMouseInstance, base)) != 0) {
return -1;
}
} else if (strcmp(interface->type, SPICE_INTERFACE_QXL) == 0) {
QXLInstance *qxl;
spice_info("SPICE_INTERFACE_QXL");
if (interface->major_version != SPICE_INTERFACE_QXL_MAJOR ||
interface->minor_version > SPICE_INTERFACE_QXL_MINOR) {
spice_warning("unsupported qxl interface");
return -1;
}
qxl = SPICE_CONTAINEROF(sin, QXLInstance, base);
qxl->st = spice_new0(QXLState, 1);
qxl->st->qif = SPICE_CONTAINEROF(interface, QXLInterface, base);
red_dispatcher_init(qxl);
} else if (strcmp(interface->type, SPICE_INTERFACE_TABLET) == 0) {
spice_info("SPICE_INTERFACE_TABLET");
if (interface->major_version != SPICE_INTERFACE_TABLET_MAJOR ||
interface->minor_version > SPICE_INTERFACE_TABLET_MINOR) {
spice_warning("unsupported tablet interface");
return -1;
}
if (inputs_set_tablet(SPICE_CONTAINEROF(sin, SpiceTabletInstance, base)) != 0) {
return -1;
}
reds_update_mouse_mode();
if (reds->is_client_mouse_allowed) {
inputs_set_tablet_logical_size(reds->monitor_mode.x_res, reds->monitor_mode.y_res);
}
} else if (strcmp(interface->type, SPICE_INTERFACE_PLAYBACK) == 0) {
spice_info("SPICE_INTERFACE_PLAYBACK");
if (interface->major_version != SPICE_INTERFACE_PLAYBACK_MAJOR ||
interface->minor_version > SPICE_INTERFACE_PLAYBACK_MINOR) {
spice_warning("unsupported playback interface");
return -1;
}
snd_attach_playback(SPICE_CONTAINEROF(sin, SpicePlaybackInstance, base));
} else if (strcmp(interface->type, SPICE_INTERFACE_RECORD) == 0) {
spice_info("SPICE_INTERFACE_RECORD");
if (interface->major_version != SPICE_INTERFACE_RECORD_MAJOR ||
interface->minor_version > SPICE_INTERFACE_RECORD_MINOR) {
spice_warning("unsupported record interface");
return -1;
}
snd_attach_record(SPICE_CONTAINEROF(sin, SpiceRecordInstance, base));
} else if (strcmp(interface->type, SPICE_INTERFACE_CHAR_DEVICE) == 0) {
if (interface->major_version != SPICE_INTERFACE_CHAR_DEVICE_MAJOR ||
interface->minor_version > SPICE_INTERFACE_CHAR_DEVICE_MINOR) {
spice_warning("unsupported char device interface");
return -1;
}
spice_server_char_device_add_interface(s, sin);
} else if (strcmp(interface->type, SPICE_INTERFACE_NET_WIRE) == 0) {
spice_warning("unsupported net wire interface");
return -1;
} else if (strcmp(interface->type, SPICE_INTERFACE_MIGRATION) == 0) {
spice_info("SPICE_INTERFACE_MIGRATION");
if (migration_interface) {
spice_warning("already have migration");
return -1;
}
if (interface->major_version != SPICE_INTERFACE_MIGRATION_MAJOR ||
interface->minor_version > SPICE_INTERFACE_MIGRATION_MINOR) {
spice_warning("unsupported migration interface");
return -1;
}
migration_interface = SPICE_CONTAINEROF(sin, SpiceMigrateInstance, base);
migration_interface->st = spice_new0(SpiceMigrateState, 1);
}
return 0;
}
SPICE_GNUC_VISIBLE int spice_server_remove_interface(SpiceBaseInstance *sin)
{
const SpiceBaseInterface *interface = sin->sif;
if (strcmp(interface->type, SPICE_INTERFACE_TABLET) == 0) {
spice_info("remove SPICE_INTERFACE_TABLET");
inputs_detach_tablet(SPICE_CONTAINEROF(sin, SpiceTabletInstance, base));
reds_update_mouse_mode();
} else if (strcmp(interface->type, SPICE_INTERFACE_PLAYBACK) == 0) {
spice_info("remove SPICE_INTERFACE_PLAYBACK");
snd_detach_playback(SPICE_CONTAINEROF(sin, SpicePlaybackInstance, base));
} else if (strcmp(interface->type, SPICE_INTERFACE_RECORD) == 0) {
spice_info("remove SPICE_INTERFACE_RECORD");
snd_detach_record(SPICE_CONTAINEROF(sin, SpiceRecordInstance, base));
} else if (strcmp(interface->type, SPICE_INTERFACE_CHAR_DEVICE) == 0) {
spice_server_char_device_remove_interface(sin);
} else {
spice_warning("VD_INTERFACE_REMOVING unsupported");
return -1;
}
return 0;
}
static void init_vd_agent_resources(void)
{
VDIPortState *state = &reds->agent_state;
int i;
ring_init(&state->read_bufs);
agent_msg_filter_init(&state->write_filter, agent_copypaste,
agent_file_xfer, TRUE);
agent_msg_filter_init(&state->read_filter, agent_copypaste,
agent_file_xfer, TRUE);
state->read_state = VDI_PORT_READ_STATE_READ_HEADER;
state->receive_pos = (uint8_t *)&state->vdi_chunk_header;
state->receive_len = sizeof(state->vdi_chunk_header);
for (i = 0; i < REDS_VDI_PORT_NUM_RECEIVE_BUFFS; i++) {
VDIReadBuf *buf = spice_new0(VDIReadBuf, 1);
ring_item_init(&buf->link);
ring_add(&reds->agent_state.read_bufs, &buf->link);
}
}
const char *version_string = VERSION;
static int do_spice_init(SpiceCoreInterface *core_interface)
{
spice_info("starting %s", version_string);
if (core_interface->base.major_version != SPICE_INTERFACE_CORE_MAJOR) {
spice_warning("bad core interface version");
goto err;
}
core = core_interface;
reds->listen_socket = -1;
reds->secure_listen_socket = -1;
init_vd_agent_resources();
ring_init(&reds->clients);
reds->num_clients = 0;
main_dispatcher_init(core);
ring_init(&reds->channels);
ring_init(&reds->mig_target_clients);
ring_init(&reds->char_devs_states);
ring_init(&reds->mig_wait_disconnect_clients);
reds->vm_running = TRUE; /* for backward compatibility */
if (!(reds->mig_timer = core->timer_add(migrate_timeout, NULL))) {
spice_error("migration timer create failed");
}
#ifdef RED_STATISTICS
int shm_name_len;
int fd;
shm_name_len = strlen(SPICE_STAT_SHM_NAME) + 20;
reds->stat_shm_name = (char *)spice_malloc(shm_name_len);
snprintf(reds->stat_shm_name, shm_name_len, SPICE_STAT_SHM_NAME, getpid());
if ((fd = shm_open(reds->stat_shm_name, O_CREAT | O_RDWR, 0444)) == -1) {
spice_error("statistics shm_open failed, %s", strerror(errno));
}
if (ftruncate(fd, REDS_STAT_SHM_SIZE) == -1) {
spice_error("statistics ftruncate failed, %s", strerror(errno));
}
reds->stat = (SpiceStat *)mmap(NULL, REDS_STAT_SHM_SIZE, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0);
if (reds->stat == (SpiceStat *)MAP_FAILED) {
spice_error("statistics mmap failed, %s", strerror(errno));
}
memset(reds->stat, 0, REDS_STAT_SHM_SIZE);
reds->stat->magic = SPICE_STAT_MAGIC;
reds->stat->version = SPICE_STAT_VERSION;
reds->stat->root_index = INVALID_STAT_REF;
if (pthread_mutex_init(&reds->stat_lock, NULL)) {
spice_error("mutex init failed");
}
#endif
if (!(reds->mm_timer = core->timer_add(mm_timer_proc, NULL))) {
spice_error("mm timer create failed");
}
reds_enable_mm_timer();
if (reds_init_net() < 0) {
goto err;
}
if (reds->secure_listen_socket != -1) {
if (reds_init_ssl() < 0) {
goto err;
}
}
#if HAVE_SASL
int saslerr;
if ((saslerr = sasl_server_init(NULL, sasl_appname ?
sasl_appname : "spice")) != SASL_OK) {
spice_error("Failed to initialize SASL auth %s",
sasl_errstring(saslerr, NULL, NULL));
goto err;
}
#endif
reds->main_channel = main_channel_init();
inputs_init();
reds->mouse_mode = SPICE_MOUSE_MODE_SERVER;
reds_client_monitors_config_cleanup();
reds->allow_multiple_clients = getenv(SPICE_DEBUG_ALLOW_MC_ENV) != NULL;
if (reds->allow_multiple_clients) {
spice_warning("spice: allowing multiple client connections (crashy)");
}
atexit(reds_exit);
return 0;
err:
return -1;
}
/* new interface */
SPICE_GNUC_VISIBLE SpiceServer *spice_server_new(void)
{
/* we can't handle multiple instances (yet) */
spice_assert(reds == NULL);
reds = spice_new0(RedsState, 1);
return reds;
}
SPICE_GNUC_VISIBLE int spice_server_init(SpiceServer *s, SpiceCoreInterface *core)
{
int ret;
spice_assert(reds == s);
ret = do_spice_init(core);
if (default_renderer) {
red_dispatcher_add_renderer(default_renderer);
}
return ret;
}
SPICE_GNUC_VISIBLE void spice_server_destroy(SpiceServer *s)
{
spice_assert(reds == s);
reds_exit();
}
SPICE_GNUC_VISIBLE spice_compat_version_t spice_get_current_compat_version(void)
{
return SPICE_COMPAT_VERSION_CURRENT;
}
SPICE_GNUC_VISIBLE int spice_server_set_compat_version(SpiceServer *s,
spice_compat_version_t version)
{
if (version < SPICE_COMPAT_VERSION_0_6) {
/* We don't support 0.4 compat mode atm */
return -1;
}
if (version > SPICE_COMPAT_VERSION_CURRENT) {
/* Not compatible with future versions */
return -1;
}
return 0;
}
SPICE_GNUC_VISIBLE int spice_server_set_port(SpiceServer *s, int port)
{
spice_assert(reds == s);
if (port < 0 || port > 0xffff) {
return -1;
}
spice_port = port;
return 0;
}
SPICE_GNUC_VISIBLE void spice_server_set_addr(SpiceServer *s, const char *addr, int flags)
{
spice_assert(reds == s);
g_strlcpy(spice_addr, addr, sizeof(spice_addr));
if (flags & SPICE_ADDR_FLAG_IPV4_ONLY) {
spice_family = PF_INET;
}
if (flags & SPICE_ADDR_FLAG_IPV6_ONLY) {
spice_family = PF_INET6;
}
}
SPICE_GNUC_VISIBLE int spice_server_set_listen_socket_fd(SpiceServer *s, int listen_fd)
{
spice_assert(reds == s);
spice_listen_socket_fd = listen_fd;
return 0;
}
SPICE_GNUC_VISIBLE int spice_server_set_exit_on_disconnect(SpiceServer *s, int flag)
{
spice_assert(reds == s);
exit_on_disconnect = !!flag;
return 0;
}
SPICE_GNUC_VISIBLE int spice_server_set_noauth(SpiceServer *s)
{
spice_assert(reds == s);
memset(taTicket.password, 0, sizeof(taTicket.password));
ticketing_enabled = 0;
return 0;
}
SPICE_GNUC_VISIBLE int spice_server_set_sasl(SpiceServer *s, int enabled)
{
spice_assert(reds == s);
#if HAVE_SASL
sasl_enabled = enabled;
return 0;
#else
return -1;
#endif
}
SPICE_GNUC_VISIBLE int spice_server_set_sasl_appname(SpiceServer *s, const char *appname)
{
spice_assert(reds == s);
#if HAVE_SASL
free(sasl_appname);
sasl_appname = spice_strdup(appname);
return 0;
#else
return -1;
#endif
}
SPICE_GNUC_VISIBLE void spice_server_set_name(SpiceServer *s, const char *name)
{
free(spice_name);
spice_name = spice_strdup(name);
}
SPICE_GNUC_VISIBLE void spice_server_set_uuid(SpiceServer *s, const uint8_t uuid[16])
{
memcpy(spice_uuid, uuid, sizeof(spice_uuid));
spice_uuid_is_set = TRUE;
}
SPICE_GNUC_VISIBLE int spice_server_set_ticket(SpiceServer *s,
const char *passwd, int lifetime,
int fail_if_connected,
int disconnect_if_connected)
{
spice_assert(reds == s);
if (reds_main_channel_connected()) {
if (fail_if_connected) {
return -1;
}
if (disconnect_if_connected) {
reds_disconnect();
}
}
on_activating_ticketing();
ticketing_enabled = 1;
if (lifetime == 0) {
taTicket.expiration_time = INT_MAX;
} else {
time_t now = time(NULL);
taTicket.expiration_time = now + lifetime;
}
if (passwd != NULL) {
g_strlcpy(taTicket.password, passwd, sizeof(taTicket.password));
} else {
memset(taTicket.password, 0, sizeof(taTicket.password));
taTicket.expiration_time = 0;
}
return 0;
}
SPICE_GNUC_VISIBLE int spice_server_set_tls(SpiceServer *s, int port,
const char *ca_cert_file, const char *certs_file,
const char *private_key_file, const char *key_passwd,
const char *dh_key_file, const char *ciphersuite)
{
spice_assert(reds == s);
if (port == 0 || ca_cert_file == NULL || certs_file == NULL ||
private_key_file == NULL) {
return -1;
}
if (port < 0 || port > 0xffff) {
return -1;
}
memset(&ssl_parameters, 0, sizeof(ssl_parameters));
spice_secure_port = port;
g_strlcpy(ssl_parameters.ca_certificate_file, ca_cert_file,
sizeof(ssl_parameters.ca_certificate_file));
g_strlcpy(ssl_parameters.certs_file, certs_file,
sizeof(ssl_parameters.certs_file));
g_strlcpy(ssl_parameters.private_key_file, private_key_file,
sizeof(ssl_parameters.private_key_file));
if (key_passwd) {
g_strlcpy(ssl_parameters.keyfile_password, key_passwd,
sizeof(ssl_parameters.keyfile_password));
}
if (ciphersuite) {
g_strlcpy(ssl_parameters.ciphersuite, ciphersuite,
sizeof(ssl_parameters.ciphersuite));
}
if (dh_key_file) {
g_strlcpy(ssl_parameters.dh_key_file, dh_key_file,
sizeof(ssl_parameters.dh_key_file));
}
return 0;
}
SPICE_GNUC_VISIBLE int spice_server_set_image_compression(SpiceServer *s,
spice_image_compression_t comp)
{
spice_assert(reds == s);
set_image_compression(comp);
return 0;
}
SPICE_GNUC_VISIBLE spice_image_compression_t spice_server_get_image_compression(SpiceServer *s)
{
spice_assert(reds == s);
return image_compression;
}
SPICE_GNUC_VISIBLE int spice_server_set_jpeg_compression(SpiceServer *s, spice_wan_compression_t comp)
{
spice_assert(reds == s);
if (comp == SPICE_WAN_COMPRESSION_INVALID) {
spice_error("invalid jpeg state");
return -1;
}
// todo: support dynamically changing the state
jpeg_state = comp;
return 0;
}
SPICE_GNUC_VISIBLE int spice_server_set_zlib_glz_compression(SpiceServer *s, spice_wan_compression_t comp)
{
spice_assert(reds == s);
if (comp == SPICE_WAN_COMPRESSION_INVALID) {
spice_error("invalid zlib_glz state");
return -1;
}
// todo: support dynamically changing the state
zlib_glz_state = comp;
return 0;
}
SPICE_GNUC_VISIBLE int spice_server_set_channel_security(SpiceServer *s, const char *channel, int security)
{
static const char *names[] = {
[ SPICE_CHANNEL_MAIN ] = "main",
[ SPICE_CHANNEL_DISPLAY ] = "display",
[ SPICE_CHANNEL_INPUTS ] = "inputs",
[ SPICE_CHANNEL_CURSOR ] = "cursor",
[ SPICE_CHANNEL_PLAYBACK ] = "playback",
[ SPICE_CHANNEL_RECORD ] = "record",
#ifdef USE_SMARTCARD
[ SPICE_CHANNEL_SMARTCARD] = "smartcard",
#endif
[ SPICE_CHANNEL_USBREDIR ] = "usbredir",
};
int i;
spice_assert(reds == s);
if (channel == NULL) {
default_channel_security = security;
return 0;
}
for (i = 0; i < SPICE_N_ELEMENTS(names); i++) {
if (names[i] && strcmp(names[i], channel) == 0) {
set_one_channel_security(i, security);
return 0;
}
}
return -1;
}
SPICE_GNUC_VISIBLE int spice_server_get_sock_info(SpiceServer *s, struct sockaddr *sa, socklen_t *salen)
{
spice_assert(reds == s);
if (main_channel_getsockname(reds->main_channel, sa, salen) < 0) {
return -1;
}
return 0;
}
SPICE_GNUC_VISIBLE int spice_server_get_peer_info(SpiceServer *s, struct sockaddr *sa, socklen_t *salen)
{
spice_assert(reds == s);
if (main_channel_getpeername(reds->main_channel, sa, salen) < 0) {
return -1;
}
return 0;
}
SPICE_GNUC_VISIBLE int spice_server_is_server_mouse(SpiceServer *s)
{
spice_assert(reds == s);
return reds->mouse_mode == SPICE_MOUSE_MODE_SERVER;
}
SPICE_GNUC_VISIBLE int spice_server_add_renderer(SpiceServer *s, const char *name)
{
spice_assert(reds == s);
if (!red_dispatcher_add_renderer(name)) {
return -1;
}
default_renderer = NULL;
return 0;
}
SPICE_GNUC_VISIBLE int spice_server_kbd_leds(SpiceKbdInstance *sin, int leds)
{
inputs_on_keyboard_leds_change(NULL, leds);
return 0;
}
SPICE_GNUC_VISIBLE int spice_server_set_streaming_video(SpiceServer *s, int value)
{
spice_assert(reds == s);
if (value != SPICE_STREAM_VIDEO_OFF &&
value != SPICE_STREAM_VIDEO_ALL &&
value != SPICE_STREAM_VIDEO_FILTER)
return -1;
streaming_video = value;
red_dispatcher_on_sv_change();
return 0;
}
SPICE_GNUC_VISIBLE int spice_server_set_playback_compression(SpiceServer *s, int enable)
{
spice_assert(reds == s);
snd_set_playback_compression(enable);
return 0;
}
SPICE_GNUC_VISIBLE int spice_server_set_agent_mouse(SpiceServer *s, int enable)
{
spice_assert(reds == s);
agent_mouse = enable;
reds_update_mouse_mode();
return 0;
}
SPICE_GNUC_VISIBLE int spice_server_set_agent_copypaste(SpiceServer *s, int enable)
{
spice_assert(reds == s);
agent_copypaste = enable;
reds->agent_state.write_filter.copy_paste_enabled = agent_copypaste;
reds->agent_state.read_filter.copy_paste_enabled = agent_copypaste;
return 0;
}
SPICE_GNUC_VISIBLE int spice_server_set_agent_file_xfer(SpiceServer *s, int enable)
{
spice_assert(reds == s);
agent_file_xfer = enable;
reds->agent_state.write_filter.file_xfer_enabled = agent_file_xfer;
reds->agent_state.read_filter.file_xfer_enabled = agent_file_xfer;
return 0;
}
/* returns FALSE if info is invalid */
static int reds_set_migration_dest_info(const char* dest,
int port, int secure_port,
const char* cert_subject)
{
RedsMigSpice *spice_migration = NULL;
reds_mig_release();
if ((port == -1 && secure_port == -1) || !dest) {
return FALSE;
}
spice_migration = spice_new0(RedsMigSpice, 1);
spice_migration->port = port;
spice_migration->sport = secure_port;
spice_migration->host = spice_strdup(dest);
if (cert_subject) {
spice_migration->cert_subject = spice_strdup(cert_subject);
}
reds->mig_spice = spice_migration;
return TRUE;
}
/* semi-seamless client migration */
SPICE_GNUC_VISIBLE int spice_server_migrate_connect(SpiceServer *s, const char* dest,
int port, int secure_port,
const char* cert_subject)
{
SpiceMigrateInterface *sif;
int try_seamless;
spice_info(NULL);
spice_assert(migration_interface);
spice_assert(reds == s);
if (reds->expect_migrate) {
spice_info("consecutive calls without migration. Canceling previous call");
main_channel_migrate_src_complete(reds->main_channel, FALSE);
}
sif = SPICE_CONTAINEROF(migration_interface->base.sif, SpiceMigrateInterface, base);
if (!reds_set_migration_dest_info(dest, port, secure_port, cert_subject)) {
sif->migrate_connect_complete(migration_interface);
return -1;
}
reds->expect_migrate = TRUE;
/*
* seamless migration support was added to the client after the support in
* agent_connect_tokens, so there shouldn't be contradicition - if
* the client is capable of seamless migration, it is capbable of agent_connected_tokens.
* The demand for agent_connected_tokens support is in order to assure that if migration
* occured when the agent was not connected, the tokens state after migration will still
* be valid (see reds_reset_vdp for more details).
*/
try_seamless = reds->seamless_migration_enabled &&
red_channel_test_remote_cap(&reds->main_channel->base,
SPICE_MAIN_CAP_AGENT_CONNECTED_TOKENS);
/* main channel will take care of clients that are still during migration (at target)*/
if (main_channel_migrate_connect(reds->main_channel, reds->mig_spice,
try_seamless)) {
reds_mig_started();
} else {
if (reds->num_clients == 0) {
reds_mig_release();
spice_info("no client connected");
}
sif->migrate_connect_complete(migration_interface);
}
return 0;
}
SPICE_GNUC_VISIBLE int spice_server_migrate_info(SpiceServer *s, const char* dest,
int port, int secure_port,
const char* cert_subject)
{
spice_info(NULL);
spice_assert(!migration_interface);
spice_assert(reds == s);
if (!reds_set_migration_dest_info(dest, port, secure_port, cert_subject)) {
return -1;
}
return 0;
}
SPICE_GNUC_VISIBLE int spice_server_migrate_start(SpiceServer *s)
{
spice_assert(reds == s);
spice_info(NULL);
if (!reds->mig_spice) {
return -1;
}
return 0;
}
SPICE_GNUC_VISIBLE int spice_server_migrate_client_state(SpiceServer *s)
{
spice_assert(reds == s);
if (!reds_main_channel_connected()) {
return SPICE_MIGRATE_CLIENT_NONE;
} else if (reds->mig_wait_connect) {
return SPICE_MIGRATE_CLIENT_WAITING;
} else {
return SPICE_MIGRATE_CLIENT_READY;
}
return 0;
}
SPICE_GNUC_VISIBLE int spice_server_migrate_end(SpiceServer *s, int completed)
{
SpiceMigrateInterface *sif;
int ret = 0;
spice_info(NULL);
spice_assert(migration_interface);
spice_assert(reds == s);
sif = SPICE_CONTAINEROF(migration_interface->base.sif, SpiceMigrateInterface, base);
if (completed && !reds->expect_migrate && reds->num_clients) {
spice_warning("spice_server_migrate_info was not called, disconnecting clients");
reds_disconnect();
ret = -1;
goto complete;
}
reds->expect_migrate = FALSE;
if (!reds_main_channel_connected()) {
spice_info("no peer connected");
goto complete;
}
reds_mig_finished(completed);
return 0;
complete:
if (sif->migrate_end_complete) {
sif->migrate_end_complete(migration_interface);
}
return ret;
}
/* interface for switch-host migration */
SPICE_GNUC_VISIBLE int spice_server_migrate_switch(SpiceServer *s)
{
spice_assert(reds == s);
spice_info(NULL);
if (!reds->num_clients) {
return 0;
}
reds->expect_migrate = FALSE;
reds_mig_switch();
return 0;
}
SPICE_GNUC_VISIBLE void spice_server_vm_start(SpiceServer *s)
{
RingItem *item;
spice_assert(s == reds);
reds->vm_running = TRUE;
RING_FOREACH(item, &reds->char_devs_states) {
SpiceCharDeviceStateItem *st_item;
st_item = SPICE_CONTAINEROF(item, SpiceCharDeviceStateItem, link);
spice_char_device_start(st_item->st);
}
red_dispatcher_on_vm_start();
}
SPICE_GNUC_VISIBLE void spice_server_vm_stop(SpiceServer *s)
{
RingItem *item;
spice_assert(s == reds);
reds->vm_running = FALSE;
RING_FOREACH(item, &reds->char_devs_states) {
SpiceCharDeviceStateItem *st_item;
st_item = SPICE_CONTAINEROF(item, SpiceCharDeviceStateItem, link);
spice_char_device_stop(st_item->st);
}
red_dispatcher_on_vm_stop();
}
SPICE_GNUC_VISIBLE void spice_server_set_seamless_migration(SpiceServer *s, int enable)
{
spice_assert(s == reds);
/* seamless migration is not supported with multiple clients */
reds->seamless_migration_enabled = enable && !reds->allow_multiple_clients;
spice_debug("seamless migration enabled=%d", enable);
}
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