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spice/server/spicevmc.c
Yonit Halperin 0bf518cd3d server: set & test channel capabilities in red_channel 
The code for setting and testing channel capabilities was
unnecessarily duplicated. Now it is in red_channel.
RedsChannel was dropped from Reds; It was used only for holding
the channels common capabilities, which are now held in RedChannel.
2011-11-02 11:19:48 +02:00

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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 "server/char_device.h"
#include "server/red_channel.h"
#include "server/reds.h"
/* 64K should be enough for all but the largest writes + 32 bytes hdr */
#define BUF_SIZE (64 * 1024 + 32)
typedef struct SpiceVmcPipeItem {
PipeItem base;
/* writes which don't fit this will get split, this is not a problem */
uint8_t buf[BUF_SIZE];
uint32_t buf_used;
} SpiceVmcPipeItem;
typedef struct SpiceVmcState {
RedChannel channel; /* Must be the first item */
RedChannelClient *rcc;
SpiceCharDeviceState chardev_st;
SpiceCharDeviceInstance *chardev_sin;
SpiceVmcPipeItem *pipe_item;
uint8_t *rcv_buf;
uint32_t rcv_buf_size;
int rcv_buf_in_use;
} SpiceVmcState;
static void spicevmc_chardev_wakeup(SpiceCharDeviceInstance *sin)
{
SpiceVmcState *state;
SpiceCharDeviceInterface *sif;
int n;
state = SPICE_CONTAINEROF(sin->st, SpiceVmcState, chardev_st);
sif = SPICE_CONTAINEROF(sin->base.sif, SpiceCharDeviceInterface, base);
if (!state->rcc) {
return;
}
do {
if (!state->pipe_item) {
state->pipe_item = spice_malloc(sizeof(SpiceVmcPipeItem));
red_channel_pipe_item_init(&state->channel,
&state->pipe_item->base, 0);
}
n = sif->read(sin, state->pipe_item->buf,
sizeof(state->pipe_item->buf));
if (n > 0) {
state->pipe_item->buf_used = n;
red_channel_client_pipe_add_push(state->rcc,
&state->pipe_item->base);
state->pipe_item = NULL;
}
} while (n > 0);
}
static int spicevmc_red_channel_client_config_socket(RedChannelClient *rcc)
{
return TRUE;
}
static void spicevmc_red_channel_client_on_disconnect(RedChannelClient *rcc)
{
SpiceVmcState *state;
SpiceCharDeviceInstance *sin;
SpiceCharDeviceInterface *sif;
if (!rcc) {
return;
}
state = SPICE_CONTAINEROF(rcc->channel, SpiceVmcState, channel);
sin = state->chardev_sin;
sif = SPICE_CONTAINEROF(sin->base.sif, SpiceCharDeviceInterface, base);
red_channel_client_destroy(rcc);
state->rcc = NULL;
if (sif->state) {
sif->state(sin, 0);
}
}
static int spicevmc_red_channel_client_handle_message(RedChannelClient *rcc,
SpiceDataHeader *header, uint8_t *msg)
{
SpiceVmcState *state;
SpiceCharDeviceInstance *sin;
SpiceCharDeviceInterface *sif;
state = SPICE_CONTAINEROF(rcc->channel, SpiceVmcState, channel);
sin = state->chardev_sin;
sif = SPICE_CONTAINEROF(sin->base.sif, SpiceCharDeviceInterface, base);
if (header->type != SPICE_MSGC_SPICEVMC_DATA) {
return red_channel_client_handle_message(rcc, header->size,
header->type, msg);
}
/*
* qemu spicevmc will consume everything we give it, no need for
* flow control checks (or to use a pipe).
*/
sif->write(sin, msg, header->size);
return TRUE;
}
static uint8_t *spicevmc_red_channel_alloc_msg_rcv_buf(RedChannelClient *rcc,
SpiceDataHeader *msg_header)
{
SpiceVmcState *state;
state = SPICE_CONTAINEROF(rcc->channel, SpiceVmcState, channel);
assert(!state->rcv_buf_in_use);
if (msg_header->size > state->rcv_buf_size) {
state->rcv_buf = spice_realloc(state->rcv_buf, msg_header->size);
state->rcv_buf_size = msg_header->size;
}
state->rcv_buf_in_use = 1;
return state->rcv_buf;
}
static void spicevmc_red_channel_release_msg_rcv_buf(RedChannelClient *rcc,
SpiceDataHeader *msg_header, uint8_t *msg)
{
SpiceVmcState *state;
state = SPICE_CONTAINEROF(rcc->channel, SpiceVmcState, channel);
/* NOOP, we re-use the buffer every time and only free it on destruction */
state->rcv_buf_in_use = 0;
}
static void spicevmc_red_channel_hold_pipe_item(RedChannelClient *rcc,
PipeItem *item)
{
/* NOOP */
}
static void spicevmc_red_channel_send_item(RedChannelClient *rcc,
PipeItem *item)
{
SpiceVmcPipeItem *i = SPICE_CONTAINEROF(item, SpiceVmcPipeItem, base);
SpiceMarshaller *m = red_channel_client_get_marshaller(rcc);
red_channel_client_init_send_data(rcc, SPICE_MSG_SPICEVMC_DATA, item);
spice_marshaller_add_ref(m, i->buf, i->buf_used);
red_channel_client_begin_send_message(rcc);
}
static void spicevmc_red_channel_release_pipe_item(RedChannelClient *rcc,
PipeItem *item, int item_pushed)
{
free(item);
}
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;
sif = SPICE_CONTAINEROF(sin->base.sif, SpiceCharDeviceInterface, base);
if (state->rcc) {
WARN("channel client %d:%d (%p) already connected, refusing second connection\n",
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,
num_common_caps, common_caps,
num_caps, caps);
if (!rcc) {
return;
}
state->rcc = rcc;
red_channel_client_ack_zero_messages_window(rcc);
if (sif->state) {
sif->state(sin, 1);
}
}
static void spicevmc_migrate(RedChannelClient *rcc)
{
/* NOOP */
}
void spicevmc_device_connect(SpiceCharDeviceInstance *sin,
uint8_t channel_type)
{
static uint8_t id[256] = { 0, };
SpiceVmcState *state;
ChannelCbs channel_cbs = {0,};
ClientCbs client_cbs = {0,};
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.hold_item = spicevmc_red_channel_hold_pipe_item;
channel_cbs.release_item = spicevmc_red_channel_release_pipe_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;
state = (SpiceVmcState*)red_channel_create(sizeof(SpiceVmcState),
core, channel_type, id[channel_type]++,
FALSE /* migration - TODO? */,
FALSE /* handle_acks */,
spicevmc_red_channel_client_handle_message,
&channel_cbs);
red_channel_init_outgoing_messages_window(&state->channel);
state->chardev_st.wakeup = spicevmc_chardev_wakeup;
state->chardev_sin = sin;
state->rcv_buf = spice_malloc(BUF_SIZE);
state->rcv_buf_size = BUF_SIZE;
client_cbs.connect = spicevmc_connect;
client_cbs.migrate = spicevmc_migrate;
red_channel_register_client_cbs(&state->channel, &client_cbs);
sin->st = &state->chardev_st;
reds_register_channel(&state->channel);
}
/* Must be called from RedClient handling thread. */
void spicevmc_device_disconnect(SpiceCharDeviceInstance *sin)
{
SpiceVmcState *state;
state = SPICE_CONTAINEROF(sin->st, SpiceVmcState, chardev_st);
reds_unregister_channel(&state->channel);
free(state->pipe_item);
free(state->rcv_buf);
red_channel_destroy(&state->channel);
}
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