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spice/server/spicevmc.c
snir sheriber 903c91cd30 LZ4 compression is now available at the Spicevmc channel 
Compressed message type is CompressedData which contains compression
type (1 byte) followed by the uncompressed data size (4 bytes - exists
only if data was compressed) followed by the compressed data

If SPICE_USBREDIR_CAP_DATA_COMPRESS_LZ4 capability is available &&
data_size > COMPRESS_THRESHOLD && !AF_LOCAL data will be sent
compressed otherwise data will be sent uncompressed (also if
compression has failed)

Update the required protocol to 0.12.12

Signed-off-by: Snir Sheriber <ssheribe@redhat.com>
Signed-off-by: Frediano Ziglio <fziglio@redhat.com>
Acked-by: Frediano Ziglio <fziglio@redhat.com>
2016-06-13 23:12:59 +01:00

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/* spice-server spicevmc passthrough channel code
Copyright (C) 2011 Red Hat, Inc.
Red Hat Authors:
Hans de Goede <hdegoede@redhat.com>
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 <assert.h>
#include <errno.h>
#include <string.h>
#include <netinet/in.h> // IPPROTO_TCP
#include <netinet/tcp.h> // TCP_NODELAY
#include <common/generated_server_marshallers.h>
#include "char-device.h"
#include "red-channel.h"
#include "reds.h"
#include "migration-protocol.h"
#ifdef USE_LZ4
#include <lz4.h>
#endif
/* todo: add flow control. i.e.,
* (a) limit the tokens available for the client
* (b) limit the tokens available for the server
*/
/* 64K should be enough for all but the largest writes + 32 bytes hdr */
#define BUF_SIZE (64 * 1024 + 32)
#define COMPRESS_THRESHOLD 1000
typedef struct RedVmcPipeItem {
RedPipeItem base;
SpiceDataCompressionType type;
uint32_t uncompressed_data_size;
/* writes which don't fit this will get split, this is not a problem */
uint8_t buf[BUF_SIZE];
uint32_t buf_used;
} RedVmcPipeItem;
typedef struct SpiceVmcState {
RedChannel channel; /* Must be the first item */
RedChannelClient *rcc;
RedCharDevice *chardev;
SpiceCharDeviceInstance *chardev_sin;
RedVmcPipeItem *pipe_item;
RedCharDeviceWriteBuffer *recv_from_client_buf;
uint8_t port_opened;
} SpiceVmcState;
#define RED_TYPE_CHAR_DEVICE_SPICEVMC red_char_device_spicevmc_get_type()
#define RED_CHAR_DEVICE_SPICEVMC(obj) (G_TYPE_CHECK_INSTANCE_CAST((obj), RED_TYPE_CHAR_DEVICE_SPICEVMC, RedCharDeviceSpiceVmc))
#define RED_CHAR_DEVICE_SPICEVMC_CLASS(klass) (G_TYPE_CHECK_CLASS_CAST((klass), RED_TYPE_CHAR_DEVICE_SPICEVMC, RedCharDeviceSpiceVmcClass))
#define RED_IS_CHAR_DEVICE_SPICEVMC(obj) (G_TYPE_CHECK_INSTANCE_TYPE((obj), RED_TYPE_CHAR_DEVICE_SPICEVMC))
#define RED_IS_CHAR_DEVICE_SPICEVMC_CLASS(klass) (G_TYPE_CHECK_CLASS_TYPE((klass), RED_TYPE_CHAR_DEVICE_SPICEVMC))
#define RED_CHAR_DEVICE_SPICEVMC_GET_CLASS(obj) (G_TYPE_INSTANCE_GET_CLASS((obj), RED_TYPE_CHAR_DEVICE_SPICEVMC, RedCharDeviceSpiceVmcClass))
typedef struct RedCharDeviceSpiceVmc RedCharDeviceSpiceVmc;
typedef struct RedCharDeviceSpiceVmcClass RedCharDeviceSpiceVmcClass;
struct RedCharDeviceSpiceVmc {
RedCharDevice parent;
};
struct RedCharDeviceSpiceVmcClass
{
RedCharDeviceClass parent_class;
};
static GType red_char_device_spicevmc_get_type(void) G_GNUC_CONST;
static RedCharDevice *red_char_device_spicevmc_new(SpiceCharDeviceInstance *sin,
RedsState *reds,
void *opaque);
G_DEFINE_TYPE(RedCharDeviceSpiceVmc, red_char_device_spicevmc, RED_TYPE_CHAR_DEVICE)
typedef struct RedPortInitPipeItem {
RedPipeItem base;
char* name;
uint8_t opened;
} RedPortInitPipeItem;
typedef struct RedPortEventPipeItem {
RedPipeItem base;
uint8_t event;
} RedPortEventPipeItem;
enum {
RED_PIPE_ITEM_TYPE_SPICEVMC_DATA = RED_PIPE_ITEM_TYPE_CHANNEL_BASE,
RED_PIPE_ITEM_TYPE_SPICEVMC_MIGRATE_DATA,
RED_PIPE_ITEM_TYPE_PORT_INIT,
RED_PIPE_ITEM_TYPE_PORT_EVENT,
};
static void spicevmc_red_channel_release_msg_rcv_buf(RedChannelClient *rcc,
uint16_t type,
uint32_t size,
uint8_t *msg);
/* n is the data size (uncompressed)
* msg_item -- the current pipe item with the uncompressed data
* This function returns:
* - NULL upon failure.
* - a new pipe item with the compressed data in it upon success
*/
static RedVmcPipeItem* try_compress_lz4(SpiceVmcState *state, int n, RedVmcPipeItem *msg_item)
{
RedVmcPipeItem *msg_item_compressed;
int compressed_data_count;
if (reds_stream_get_family(state->rcc->stream) == AF_UNIX) {
/* AF_LOCAL - data will not be compressed */
return NULL;
}
if (n <= COMPRESS_THRESHOLD) {
/* n <= threshold - data will not be compressed */
return NULL;
}
if (!red_channel_test_remote_cap(&state->channel, SPICE_SPICEVMC_CAP_DATA_COMPRESS_LZ4)) {
/* Client doesn't have compression cap - data will not be compressed */
return NULL;
}
msg_item_compressed = spice_new0(RedVmcPipeItem, 1);
red_pipe_item_init(&msg_item_compressed->base, RED_PIPE_ITEM_TYPE_SPICEVMC_DATA);
compressed_data_count = LZ4_compress_default((char*)&msg_item->buf,
(char*)&msg_item_compressed->buf,
n,
BUF_SIZE);
if (compressed_data_count > 0 && compressed_data_count < n) {
msg_item_compressed->type = SPICE_DATA_COMPRESSION_TYPE_LZ4;
msg_item_compressed->uncompressed_data_size = n;
msg_item_compressed->buf_used = compressed_data_count;
free(msg_item);
return msg_item_compressed;
}
/* LZ4 compression failed or did non compress, fallback a non-compressed data is to be sent */
free(msg_item_compressed);
return NULL;
}
static RedPipeItem *spicevmc_chardev_read_msg_from_dev(SpiceCharDeviceInstance *sin,
void *opaque)
{
SpiceVmcState *state = opaque;
SpiceCharDeviceInterface *sif;
RedVmcPipeItem *msg_item;
int n;
sif = spice_char_device_get_interface(sin);
if (!state->rcc) {
return NULL;
}
if (!state->pipe_item) {
msg_item = spice_new0(RedVmcPipeItem, 1);
msg_item->type = SPICE_DATA_COMPRESSION_TYPE_NONE;
red_pipe_item_init(&msg_item->base, RED_PIPE_ITEM_TYPE_SPICEVMC_DATA);
} else {
spice_assert(state->pipe_item->buf_used == 0);
msg_item = state->pipe_item;
state->pipe_item = NULL;
}
n = sif->read(sin, msg_item->buf,
sizeof(msg_item->buf));
if (n > 0) {
spice_debug("read from dev %d", n);
#ifdef USE_LZ4
RedVmcPipeItem *msg_item_compressed;
msg_item_compressed = try_compress_lz4(state, n, msg_item);
if (msg_item_compressed != NULL) {
return &msg_item_compressed->base;
}
#endif
msg_item->uncompressed_data_size = n;
msg_item->buf_used = n;
return &msg_item->base;
} else {
state->pipe_item = msg_item;
return NULL;
}
}
static void spicevmc_chardev_send_msg_to_client(RedPipeItem *msg,
RedClient *client,
void *opaque)
{
SpiceVmcState *state = opaque;
spice_assert(state->rcc->client == client);
red_pipe_item_ref(msg);
red_channel_client_pipe_add_push(state->rcc, msg);
}
static SpiceVmcState *spicevmc_red_channel_client_get_state(RedChannelClient *rcc)
{
return SPICE_CONTAINEROF(rcc->channel, SpiceVmcState, channel);
}
static void spicevmc_port_send_init(RedChannelClient *rcc)
{
SpiceVmcState *state = spicevmc_red_channel_client_get_state(rcc);
SpiceCharDeviceInstance *sin = state->chardev_sin;
RedPortInitPipeItem *item = spice_malloc(sizeof(RedPortInitPipeItem));
red_pipe_item_init(&item->base, RED_PIPE_ITEM_TYPE_PORT_INIT);
item->name = strdup(sin->portname);
item->opened = state->port_opened;
red_channel_client_pipe_add_push(rcc, &item->base);
}
static void spicevmc_port_send_event(RedChannelClient *rcc, uint8_t event)
{
RedPortEventPipeItem *item = spice_malloc(sizeof(RedPortEventPipeItem));
red_pipe_item_init(&item->base, RED_PIPE_ITEM_TYPE_PORT_EVENT);
item->event = event;
red_channel_client_pipe_add_push(rcc, &item->base);
}
static void spicevmc_char_dev_send_tokens_to_client(RedClient *client,
uint32_t tokens,
void *opaque)
{
spice_printerr("Not implemented!");
}
static void spicevmc_char_dev_remove_client(RedClient *client, void *opaque)
{
SpiceVmcState *state = opaque;
spice_printerr("vmc state %p, client %p", state, client);
spice_assert(state->rcc && state->rcc->client == client);
red_channel_client_shutdown(state->rcc);
}
static int spicevmc_red_channel_client_config_socket(RedChannelClient *rcc)
{
int delay_val = 1;
RedsStream *stream = red_channel_client_get_stream(rcc);
if (rcc->channel->type == SPICE_CHANNEL_USBREDIR) {
if (setsockopt(stream->socket, IPPROTO_TCP, TCP_NODELAY,
&delay_val, sizeof(delay_val)) != 0) {
if (errno != ENOTSUP && errno != ENOPROTOOPT) {
spice_printerr("setsockopt failed, %s", strerror(errno));
return FALSE;
}
}
}
return TRUE;
}
static void spicevmc_red_channel_client_on_disconnect(RedChannelClient *rcc)
{
SpiceVmcState *state;
SpiceCharDeviceInterface *sif;
if (!rcc) {
return;
}
state = spicevmc_red_channel_client_get_state(rcc);
/* partial message which wasn't pushed to device */
red_char_device_write_buffer_release(state->chardev, &state->recv_from_client_buf);
if (state->chardev) {
if (red_char_device_client_exists(state->chardev, rcc->client)) {
red_char_device_client_remove(state->chardev, rcc->client);
} else {
spice_printerr("client %p have already been removed from char dev %p",
rcc->client, state->chardev);
}
}
/* Don't destroy the rcc if it is already being destroyed, as then
red_client_destroy/red_channel_client_destroy will already do this! */
if (!rcc->destroying)
red_channel_client_destroy(rcc);
state->rcc = NULL;
sif = spice_char_device_get_interface(state->chardev_sin);
if (sif->state) {
sif->state(state->chardev_sin, 0);
}
}
static int spicevmc_channel_client_handle_migrate_flush_mark(RedChannelClient *rcc)
{
red_channel_client_pipe_add_type(rcc, RED_PIPE_ITEM_TYPE_SPICEVMC_MIGRATE_DATA);
return TRUE;
}
static int spicevmc_channel_client_handle_migrate_data(RedChannelClient *rcc,
uint32_t size, void *message)
{
SpiceMigrateDataHeader *header;
SpiceMigrateDataSpiceVmc *mig_data;
SpiceVmcState *state;
state = spicevmc_red_channel_client_get_state(rcc);
header = (SpiceMigrateDataHeader *)message;
mig_data = (SpiceMigrateDataSpiceVmc *)(header + 1);
spice_assert(size >= sizeof(SpiceMigrateDataHeader) + sizeof(SpiceMigrateDataSpiceVmc));
if (!migration_protocol_validate_header(header,
SPICE_MIGRATE_DATA_SPICEVMC_MAGIC,
SPICE_MIGRATE_DATA_SPICEVMC_VERSION)) {
spice_error("bad header");
return FALSE;
}
return red_char_device_restore(state->chardev, &mig_data->base);
}
static int handle_compressed_msg(SpiceVmcState *state, RedChannelClient *rcc,
SpiceMsgCompressedData *compressed_data_msg)
{
/* NOTE: *decompressed is free by the char-device */
int decompressed_size;
uint8_t *decompressed;
RedCharDeviceWriteBuffer *write_buf;
write_buf = red_char_device_write_buffer_get(state->chardev, rcc->client,
compressed_data_msg->uncompressed_size);
if (!write_buf) {
return FALSE;
}
decompressed = write_buf->buf;
switch (compressed_data_msg->type) {
#ifdef USE_LZ4
case SPICE_DATA_COMPRESSION_TYPE_LZ4:
decompressed_size = LZ4_decompress_safe ((char *)compressed_data_msg->compressed_data,
(char *)decompressed,
compressed_data_msg->compressed_size,
compressed_data_msg->uncompressed_size);
break;
#endif
default:
spice_warning("Invalid Compression Type");
red_char_device_write_buffer_release(state->chardev, &write_buf);
return FALSE;
}
if (decompressed_size != compressed_data_msg->uncompressed_size) {
spice_warning("Decompression Error");
red_char_device_write_buffer_release(state->chardev, &write_buf);
return FALSE;
}
write_buf->buf_used = decompressed_size;
red_char_device_write_buffer_add(state->chardev, write_buf);
return TRUE;
}
static int spicevmc_red_channel_client_handle_message_parsed(RedChannelClient *rcc,
uint32_t size,
uint16_t type,
void *msg)
{
/* NOTE: *msg free by free() (when cb to spicevmc_red_channel_release_msg_rcv_buf
* with the compressed msg type) */
SpiceVmcState *state;
SpiceCharDeviceInterface *sif;
state = spicevmc_red_channel_client_get_state(rcc);
sif = spice_char_device_get_interface(state->chardev_sin);
switch (type) {
case SPICE_MSGC_SPICEVMC_DATA:
spice_assert(state->recv_from_client_buf->buf == msg);
state->recv_from_client_buf->buf_used = size;
red_char_device_write_buffer_add(state->chardev, state->recv_from_client_buf);
state->recv_from_client_buf = NULL;
break;
case SPICE_MSGC_SPICEVMC_COMPRESSED_DATA:
return handle_compressed_msg(state, rcc, (SpiceMsgCompressedData*)msg);
break;
case SPICE_MSGC_PORT_EVENT:
if (size != sizeof(uint8_t)) {
spice_warning("bad port event message size");
return FALSE;
}
if (sif->base.minor_version >= 2 && sif->event != NULL)
sif->event(state->chardev_sin, *(uint8_t*)msg);
break;
default:
return red_channel_client_handle_message(rcc, size, type, (uint8_t*)msg);
}
return TRUE;
}
static uint8_t *spicevmc_red_channel_alloc_msg_rcv_buf(RedChannelClient *rcc,
uint16_t type,
uint32_t size)
{
SpiceVmcState *state;
state = spicevmc_red_channel_client_get_state(rcc);
switch (type) {
case SPICE_MSGC_SPICEVMC_DATA:
assert(!state->recv_from_client_buf);
state->recv_from_client_buf = red_char_device_write_buffer_get(state->chardev,
rcc->client,
size);
if (!state->recv_from_client_buf) {
spice_error("failed to allocate write buffer");
return NULL;
}
return state->recv_from_client_buf->buf;
default:
return spice_malloc(size);
}
}
static void spicevmc_red_channel_release_msg_rcv_buf(RedChannelClient *rcc,
uint16_t type,
uint32_t size,
uint8_t *msg)
{
SpiceVmcState *state;
state = spicevmc_red_channel_client_get_state(rcc);
switch (type) {
case SPICE_MSGC_SPICEVMC_DATA:
/* buffer wasn't pushed to device */
red_char_device_write_buffer_release(state->chardev, &state->recv_from_client_buf);
break;
default:
free(msg);
}
}
static void spicevmc_red_channel_send_data(RedChannelClient *rcc,
SpiceMarshaller *m,
RedPipeItem *item)
{
RedVmcPipeItem *i = SPICE_UPCAST(RedVmcPipeItem, item);
/* for compatibility send using not compressed data message */
if (i->type == SPICE_DATA_COMPRESSION_TYPE_NONE) {
red_channel_client_init_send_data(rcc, SPICE_MSG_SPICEVMC_DATA, item);
} else {
/* send as compressed */
red_channel_client_init_send_data(rcc, SPICE_MSG_SPICEVMC_COMPRESSED_DATA, item);
SpiceMsgCompressedData compressed_msg = {
.type = i->type,
.uncompressed_size = i->uncompressed_data_size
};
spice_marshall_SpiceMsgCompressedData(m, &compressed_msg);
}
spice_marshaller_add_ref(m, i->buf, i->buf_used);
}
static void spicevmc_red_channel_send_migrate_data(RedChannelClient *rcc,
SpiceMarshaller *m,
RedPipeItem *item)
{
SpiceVmcState *state;
state = spicevmc_red_channel_client_get_state(rcc);
red_channel_client_init_send_data(rcc, SPICE_MSG_MIGRATE_DATA, item);
spice_marshaller_add_uint32(m, SPICE_MIGRATE_DATA_SPICEVMC_MAGIC);
spice_marshaller_add_uint32(m, SPICE_MIGRATE_DATA_SPICEVMC_VERSION);
red_char_device_migrate_data_marshall(state->chardev, m);
}
static void spicevmc_red_channel_send_port_init(RedChannelClient *rcc,
SpiceMarshaller *m,
RedPipeItem *item)
{
RedPortInitPipeItem *i = SPICE_UPCAST(RedPortInitPipeItem, item);
SpiceMsgPortInit init;
red_channel_client_init_send_data(rcc, SPICE_MSG_PORT_INIT, item);
init.name = (uint8_t *)i->name;
init.name_size = strlen(i->name) + 1;
init.opened = i->opened;
spice_marshall_msg_port_init(m, &init);
}
static void spicevmc_red_channel_send_port_event(RedChannelClient *rcc,
SpiceMarshaller *m,
RedPipeItem *item)
{
RedPortEventPipeItem *i = SPICE_UPCAST(RedPortEventPipeItem, item);
SpiceMsgPortEvent event;
red_channel_client_init_send_data(rcc, SPICE_MSG_PORT_EVENT, item);
event.event = i->event;
spice_marshall_msg_port_event(m, &event);
}
static void spicevmc_red_channel_send_item(RedChannelClient *rcc,
RedPipeItem *item)
{
SpiceMarshaller *m = red_channel_client_get_marshaller(rcc);
switch (item->type) {
case RED_PIPE_ITEM_TYPE_SPICEVMC_DATA:
spicevmc_red_channel_send_data(rcc, m, item);
break;
case RED_PIPE_ITEM_TYPE_SPICEVMC_MIGRATE_DATA:
spicevmc_red_channel_send_migrate_data(rcc, m, item);
break;
case RED_PIPE_ITEM_TYPE_PORT_INIT:
spicevmc_red_channel_send_port_init(rcc, m, item);
break;
case RED_PIPE_ITEM_TYPE_PORT_EVENT:
spicevmc_red_channel_send_port_event(rcc, m, item);
break;
default:
spice_error("bad pipe item %d", item->type);
return;
}
red_channel_client_begin_send_message(rcc);
}
static void spicevmc_connect(RedChannel *channel, RedClient *client,
RedsStream *stream, int migration, int num_common_caps,
uint32_t *common_caps, int num_caps, uint32_t *caps)
{
RedChannelClient *rcc;
SpiceVmcState *state;
SpiceCharDeviceInstance *sin;
SpiceCharDeviceInterface *sif;
state = SPICE_CONTAINEROF(channel, SpiceVmcState, channel);
sin = state->chardev_sin;
if (state->rcc) {
spice_printerr("channel client %d:%d (%p) already connected, refusing second connection",
channel->type, channel->id, state->rcc);
// TODO: notify client in advance about the in use channel using
// SPICE_MSG_MAIN_CHANNEL_IN_USE (for example)
reds_stream_free(stream);
return;
}
rcc = red_channel_client_create(sizeof(RedChannelClient), channel, client, stream,
FALSE,
num_common_caps, common_caps,
num_caps, caps);
if (!rcc) {
return;
}
state->rcc = rcc;
red_channel_client_ack_zero_messages_window(rcc);
if (strcmp(sin->subtype, "port") == 0) {
spicevmc_port_send_init(rcc);
}
if (!red_char_device_client_add(state->chardev, client, FALSE, 0, ~0, ~0,
red_channel_client_is_waiting_for_migrate_data(rcc))) {
spice_warning("failed to add client to spicevmc");
red_channel_client_disconnect(rcc);
return;
}
sif = spice_char_device_get_interface(state->chardev_sin);
if (sif->state) {
sif->state(sin, 1);
}
}
RedCharDevice *spicevmc_device_connect(RedsState *reds,
SpiceCharDeviceInstance *sin,
uint8_t channel_type)
{
static uint8_t id[256] = { 0, };
SpiceVmcState *state;
ChannelCbs channel_cbs = { NULL, };
ClientCbs client_cbs = { NULL, };
channel_cbs.config_socket = spicevmc_red_channel_client_config_socket;
channel_cbs.on_disconnect = spicevmc_red_channel_client_on_disconnect;
channel_cbs.send_item = spicevmc_red_channel_send_item;
channel_cbs.alloc_recv_buf = spicevmc_red_channel_alloc_msg_rcv_buf;
channel_cbs.release_recv_buf = spicevmc_red_channel_release_msg_rcv_buf;
channel_cbs.handle_migrate_flush_mark = spicevmc_channel_client_handle_migrate_flush_mark;
channel_cbs.handle_migrate_data = spicevmc_channel_client_handle_migrate_data;
state = (SpiceVmcState*)red_channel_create_parser(sizeof(SpiceVmcState), reds,
reds_get_core_interface(reds), channel_type, id[channel_type]++,
FALSE /* handle_acks */,
spice_get_client_channel_parser(SPICE_CHANNEL_USBREDIR, NULL),
spicevmc_red_channel_client_handle_message_parsed,
&channel_cbs,
SPICE_MIGRATE_NEED_FLUSH | SPICE_MIGRATE_NEED_DATA_TRANSFER);
red_channel_init_outgoing_messages_window(&state->channel);
client_cbs.connect = spicevmc_connect;
red_channel_register_client_cbs(&state->channel, &client_cbs, NULL);
#ifdef USE_LZ4
red_channel_set_cap(&state->channel, SPICE_SPICEVMC_CAP_DATA_COMPRESS_LZ4);
#endif
state->chardev = red_char_device_spicevmc_new(sin, reds, state);
state->chardev_sin = sin;
reds_register_channel(reds, &state->channel);
return state->chardev;
}
/* Must be called from RedClient handling thread. */
void spicevmc_device_disconnect(RedsState *reds, SpiceCharDeviceInstance *sin)
{
SpiceVmcState *state;
/* FIXME */
state = (SpiceVmcState *)red_char_device_opaque_get((RedCharDevice*)sin->st);
red_char_device_write_buffer_release(state->chardev, &state->recv_from_client_buf);
/* FIXME */
red_char_device_destroy((RedCharDevice*)sin->st);
state->chardev = NULL;
sin->st = NULL;
reds_unregister_channel(reds, &state->channel);
free(state->pipe_item);
red_channel_destroy(&state->channel);
}
SPICE_GNUC_VISIBLE void spice_server_port_event(SpiceCharDeviceInstance *sin, uint8_t event)
{
SpiceVmcState *state;
if (sin->st == NULL) {
spice_warning("no SpiceCharDeviceState attached to instance %p", sin);
return;
}
/* FIXME */
state = (SpiceVmcState *)red_char_device_opaque_get((RedCharDevice*)sin->st);
if (event == SPICE_PORT_EVENT_OPENED) {
state->port_opened = TRUE;
} else if (event == SPICE_PORT_EVENT_CLOSED) {
state->port_opened = FALSE;
}
if (state->rcc == NULL) {
return;
}
spicevmc_port_send_event(state->rcc, event);
}
static void
red_char_device_spicevmc_class_init(RedCharDeviceSpiceVmcClass *klass)
{
RedCharDeviceClass *char_dev_class = RED_CHAR_DEVICE_CLASS(klass);
char_dev_class->read_one_msg_from_device = spicevmc_chardev_read_msg_from_dev;
char_dev_class->send_msg_to_client = spicevmc_chardev_send_msg_to_client;
char_dev_class->send_tokens_to_client = spicevmc_char_dev_send_tokens_to_client;
char_dev_class->remove_client = spicevmc_char_dev_remove_client;
}
static void
red_char_device_spicevmc_init(RedCharDeviceSpiceVmc *self)
{
}
static RedCharDevice *
red_char_device_spicevmc_new(SpiceCharDeviceInstance *sin,
RedsState *reds,
void *opaque)
{
return g_object_new(RED_TYPE_CHAR_DEVICE_SPICEVMC,
"sin", sin,
"spice-server", reds,
"client-tokens-interval", 0ULL,
"self-tokens", ~0ULL,
"opaque", opaque,
NULL);
}
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