/*
Copyright (C) 2009 Red Hat, Inc.
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License as
published by the Free Software Foundation; either version 2 of
the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see .
*/
#include
#include
#include
#include
#include
#include
#include
#include
#include "qxl_dev.h"
#include "vd_interface.h"
#include "red_worker.h"
#include "quic.h"
#include "cairo_canvas.h"
#include "gl_canvas.h"
#include "reds.h"
#include "red_dispatcher.h"
static int num_active_workers = 0;
//volatile
typedef struct RedDispatcher RedDispatcher;
struct RedDispatcher {
QXLWorker base;
QXLInterface *qxl_interface;
int channel;
pthread_t worker_thread;
uint32_t pending;
int active;
int x_res;
int y_res;
int use_hardware_cursor;
RedDispatcher *next;
};
typedef struct RedWorkeState {
uint8_t *io_base;
unsigned long phys_delta;
uint32_t x_res;
uint32_t y_res;
uint32_t bits;
uint32_t stride;
} RedWorkeState;
extern uint32_t streaming_video;
extern image_compression_t image_compression;
static RedDispatcher *dispatchers = NULL;
static void red_dispatcher_set_peer(Channel *channel, RedsStreamContext *peer, int migration,
int num_common_caps, uint32_t *common_caps, int num_caps,
uint32_t *caps)
{
RedDispatcher *dispatcher;
red_printf("");
dispatcher = (RedDispatcher *)channel->data;
RedWorkeMessage message = RED_WORKER_MESSAGE_DISPLAY_CONNECT;
write_message(dispatcher->channel, &message);
send_data(dispatcher->channel, &peer, sizeof(RedsStreamContext *));
send_data(dispatcher->channel, &migration, sizeof(int));
}
static void red_dispatcher_shutdown_peer(Channel *channel)
{
RedDispatcher *dispatcher = (RedDispatcher *)channel->data;
red_printf("");
RedWorkeMessage message = RED_WORKER_MESSAGE_DISPLAY_DISCONNECT;
write_message(dispatcher->channel, &message);
}
static void red_dispatcher_migrate(Channel *channel)
{
RedDispatcher *dispatcher = (RedDispatcher *)channel->data;
red_printf("channel type %u id %u", channel->type, channel->id);
RedWorkeMessage message = RED_WORKER_MESSAGE_DISPLAY_MIGRATE;
write_message(dispatcher->channel, &message);
}
static void red_dispatcher_set_cursor_peer(Channel *channel, RedsStreamContext *peer,
int migration, int num_common_caps,
uint32_t *common_caps, int num_caps,
uint32_t *caps)
{
RedDispatcher *dispatcher = (RedDispatcher *)channel->data;
red_printf("");
RedWorkeMessage message = RED_WORKER_MESSAGE_CURSOR_CONNECT;
write_message(dispatcher->channel, &message);
send_data(dispatcher->channel, &peer, sizeof(RedsStreamContext *));
send_data(dispatcher->channel, &migration, sizeof(int));
}
static void red_dispatcher_shutdown_cursor_peer(Channel *channel)
{
RedDispatcher *dispatcher = (RedDispatcher *)channel->data;
red_printf("");
RedWorkeMessage message = RED_WORKER_MESSAGE_CURSOR_DISCONNECT;
write_message(dispatcher->channel, &message);
}
static void red_dispatcher_cursor_migrate(Channel *channel)
{
RedDispatcher *dispatcher = (RedDispatcher *)channel->data;
red_printf("channel type %u id %u", channel->type, channel->id);
RedWorkeMessage message = RED_WORKER_MESSAGE_CURSOR_MIGRATE;
write_message(dispatcher->channel, &message);
}
typedef struct RendererInfo {
int id;
const char *name;
} RendererInfo;
static RendererInfo renderers_info[] = {
{RED_RENDERER_CAIRO, "cairo"},
{RED_RENDERER_OGL_PBUF, "oglpbuf"},
{RED_RENDERER_OGL_PIXMAP, "oglpixmap"},
{RED_RENDERER_INVALID, NULL},
};
static uint32_t renderers[RED_MAX_RENDERERS];
static uint32_t num_renderers = 0;
static RendererInfo *find_renderer(const char *name)
{
RendererInfo *inf = renderers_info;
while (inf->name) {
if (strcmp(name, inf->name) == 0) {
return inf;
}
inf++;
}
return NULL;
}
int red_dispatcher_add_renderer(const char *name)
{
RendererInfo *inf;
if (num_renderers == RED_MAX_RENDERERS || !(inf = find_renderer(name))) {
return FALSE;
}
renderers[num_renderers++] = inf->id;
return TRUE;
}
int red_dispatcher_qxl_count()
{
return num_active_workers;
}
static void update_client_mouse_allowed()
{
static int allowed = FALSE;
int allow_now = FALSE;
int x_res = 0;
int y_res = 0;
if (num_active_workers > 0) {
allow_now = TRUE;
RedDispatcher *now = dispatchers;
while (now && allow_now) {
if (now->active) {
allow_now = now->use_hardware_cursor;
if (num_active_workers == 1) {
if (allow_now) {
x_res = now->x_res;
y_res = now->y_res;
}
break;
}
}
now = now->next;
}
}
if (allow_now || allow_now != allowed) {
allowed = allow_now;
reds_set_client_mouse_allowed(allowed, x_res, y_res);
}
}
static void qxl_worker_attach(QXLWorker *qxl_worker)
{
RedDispatcher *dispatcher = (RedDispatcher *)qxl_worker;
RedWorkeMessage message = RED_WORKER_MESSAGE_ATTACH;
QXLDevInfo info;
dispatcher->qxl_interface->get_info(dispatcher->qxl_interface, &info);
dispatcher->x_res = info.x_res;
dispatcher->y_res = info.y_res;
dispatcher->use_hardware_cursor = info.use_hardware_cursor;
dispatcher->active = TRUE;
write_message(dispatcher->channel, &message);
send_data(dispatcher->channel, &info, sizeof(QXLDevInfo));
read_message(dispatcher->channel, &message);
ASSERT(message == RED_WORKER_MESSAGE_READY);
num_active_workers++;
update_client_mouse_allowed();
}
static void qxl_worker_detach(QXLWorker *qxl_worker)
{
RedDispatcher *dispatcher = (RedDispatcher *)qxl_worker;
RedWorkeMessage message = RED_WORKER_MESSAGE_DETACH;
write_message(dispatcher->channel, &message);
read_message(dispatcher->channel, &message);
ASSERT(message == RED_WORKER_MESSAGE_READY);
dispatcher->x_res = 0;
dispatcher->y_res = 0;
dispatcher->use_hardware_cursor = FALSE;
dispatcher->active = FALSE;
num_active_workers--;
update_client_mouse_allowed();
}
static void qxl_worker_update_area(QXLWorker *qxl_worker)
{
RedDispatcher *dispatcher = (RedDispatcher *)qxl_worker;
RedWorkeMessage message = RED_WORKER_MESSAGE_UPDATE;
write_message(dispatcher->channel, &message);
read_message(dispatcher->channel, &message);
ASSERT(message == RED_WORKER_MESSAGE_READY);
}
static void qxl_worker_wakeup(QXLWorker *qxl_worker)
{
RedDispatcher *dispatcher = (RedDispatcher *)qxl_worker;
if (!test_bit(RED_WORKER_PENDING_WAKEUP, dispatcher->pending)) {
RedWorkeMessage message = RED_WORKER_MESSAGE_WAKEUP;
set_bit(RED_WORKER_PENDING_WAKEUP, &dispatcher->pending);
write_message(dispatcher->channel, &message);
}
}
static void qxl_worker_oom(QXLWorker *qxl_worker)
{
RedDispatcher *dispatcher = (RedDispatcher *)qxl_worker;
if (!test_bit(RED_WORKER_PENDING_OOM, dispatcher->pending)) {
RedWorkeMessage message = RED_WORKER_MESSAGE_OOM;
set_bit(RED_WORKER_PENDING_OOM, &dispatcher->pending);
write_message(dispatcher->channel, &message);
}
}
static void qxl_worker_save(QXLWorker *qxl_worker)
{
RedDispatcher *dispatcher = (RedDispatcher *)qxl_worker;
RedWorkeMessage message = RED_WORKER_MESSAGE_SAVE;
write_message(dispatcher->channel, &message);
read_message(dispatcher->channel, &message);
ASSERT(message == RED_WORKER_MESSAGE_READY);
}
static void qxl_worker_load(QXLWorker *qxl_worker)
{
RedDispatcher *dispatcher = (RedDispatcher *)qxl_worker;
RedWorkeMessage message = RED_WORKER_MESSAGE_LOAD;
write_message(dispatcher->channel, &message);
read_message(dispatcher->channel, &message);
ASSERT(message == RED_WORKER_MESSAGE_READY);
}
static void qxl_worker_start(QXLWorker *qxl_worker)
{
RedDispatcher *dispatcher = (RedDispatcher *)qxl_worker;
RedWorkeMessage message = RED_WORKER_MESSAGE_START;
write_message(dispatcher->channel, &message);
}
static void qxl_worker_stop(QXLWorker *qxl_worker)
{
RedDispatcher *dispatcher = (RedDispatcher *)qxl_worker;
RedWorkeMessage message = RED_WORKER_MESSAGE_STOP;
write_message(dispatcher->channel, &message);
read_message(dispatcher->channel, &message);
ASSERT(message == RED_WORKER_MESSAGE_READY);
}
void red_dispatcher_set_mm_time(uint32_t mm_time)
{
RedDispatcher *now = dispatchers;
while (now) {
now->qxl_interface->set_mm_time(now->qxl_interface, mm_time);
now = now->next;
}
}
static inline int calc_compression_level()
{
if (streaming_video || (image_compression != IMAGE_COMPRESS_QUIC)) {
return 0;
} else {
return 1;
}
}
void red_dispatcher_on_ic_change()
{
int compression_level = calc_compression_level();
RedDispatcher *now = dispatchers;
while (now) {
RedWorkeMessage message = RED_WORKER_MESSAGE_SET_COMPRESSION;
now->qxl_interface->set_compression_level(now->qxl_interface, compression_level);
write_message(now->channel, &message);
send_data(now->channel, &image_compression, sizeof(image_compression_t));
now = now->next;
}
}
void red_dispatcher_on_sv_change()
{
int compression_level = calc_compression_level();
RedDispatcher *now = dispatchers;
while (now) {
RedWorkeMessage message = RED_WORKER_MESSAGE_SET_STREAMING_VIDEO;
now->qxl_interface->set_compression_level(now->qxl_interface, compression_level);
write_message(now->channel, &message);
send_data(now->channel, &streaming_video, sizeof(uint32_t));
now = now->next;
}
}
void red_dispatcher_set_mouse_mode(uint32_t mode)
{
RedDispatcher *now = dispatchers;
while (now) {
RedWorkeMessage message = RED_WORKER_MESSAGE_SET_MOUSE_MODE;
write_message(now->channel, &message);
send_data(now->channel, &mode, sizeof(uint32_t));
now = now->next;
}
}
int red_dispatcher_count()
{
RedDispatcher *now = dispatchers;
int ret = 0;
while (now) {
ret++;
now = now->next;
}
return ret;
}
uint32_t red_dispatcher_qxl_ram_size()
{
QXLDevInfo qxl_info;
dispatchers->qxl_interface->get_info(dispatchers->qxl_interface, &qxl_info);
return qxl_info.ram_size;
}
RedDispatcher *red_dispatcher_init(QXLInterface *qxl_interface)
{
RedDispatcher *dispatcher;
int channels[2];
RedWorkeMessage message;
WorkerInitData init_data;
int r;
Channel *reds_channel;
Channel *cursor_channel;
sigset_t thread_sig_mask;
sigset_t curr_sig_mask;
if (qxl_interface->pci_vendor != REDHAT_PCI_VENDOR_ID ||
qxl_interface->pci_id != QXL_DEVICE_ID ||
qxl_interface->pci_revision != QXL_REVISION) {
red_printf("pci mismatch");
return NULL;
}
quic_init();
cairo_canvas_init();
gl_canvas_init();
if (socketpair(AF_LOCAL, SOCK_STREAM, 0, channels) == -1) {
red_error("socketpair failed %s", strerror(errno));
}
if (!(dispatcher = malloc(sizeof(RedDispatcher)))) {
red_error("malloc failed");
}
memset(dispatcher, 0, sizeof(RedDispatcher));
dispatcher->channel = channels[0];
init_data.qxl_interface = dispatcher->qxl_interface = qxl_interface;
init_data.id = qxl_interface->base.id;
init_data.channel = channels[1];
init_data.pending = &dispatcher->pending;
init_data.num_renderers = num_renderers;
memcpy(init_data.renderers, renderers, sizeof(init_data.renderers));
init_data.image_compression = image_compression;
init_data.streaming_video = streaming_video;
dispatcher->base.major_version = VD_INTERFACE_QXL_MAJOR;
dispatcher->base.major_version = VD_INTERFACE_QXL_MINOR;
dispatcher->base.attach = qxl_worker_attach;
dispatcher->base.detach = qxl_worker_detach;
dispatcher->base.wakeup = qxl_worker_wakeup;
dispatcher->base.oom = qxl_worker_oom;
dispatcher->base.save = qxl_worker_save;
dispatcher->base.load = qxl_worker_load;
dispatcher->base.start = qxl_worker_start;
dispatcher->base.stop = qxl_worker_stop;
dispatcher->base.update_area = qxl_worker_update_area;
sigfillset(&thread_sig_mask);
sigdelset(&thread_sig_mask, SIGILL);
sigdelset(&thread_sig_mask, SIGFPE);
sigdelset(&thread_sig_mask, SIGSEGV);
pthread_sigmask(SIG_SETMASK, &thread_sig_mask, &curr_sig_mask);
if ((r = pthread_create(&dispatcher->worker_thread, NULL, red_worker_main, &init_data))) {
red_error("create thread failed %d", r);
}
pthread_sigmask(SIG_SETMASK, &curr_sig_mask, NULL);
read_message(dispatcher->channel, &message);
ASSERT(message == RED_WORKER_MESSAGE_READY);
if (!(reds_channel = malloc(sizeof(Channel)))) {
red_error("reds channel malloc failed");
}
memset(reds_channel, 0, sizeof(Channel));
reds_channel->type = RED_CHANNEL_DISPLAY;
reds_channel->id = qxl_interface->base.id;
reds_channel->link = red_dispatcher_set_peer;
reds_channel->shutdown = red_dispatcher_shutdown_peer;
reds_channel->migrate = red_dispatcher_migrate;
reds_channel->data = dispatcher;
reds_register_channel(reds_channel);
if (!(cursor_channel = malloc(sizeof(Channel)))) {
red_error("reds channel malloc failed");
}
memset(cursor_channel, 0, sizeof(Channel));
cursor_channel->type = RED_CHANNEL_CURSOR;
cursor_channel->id = qxl_interface->base.id;
cursor_channel->link = red_dispatcher_set_cursor_peer;
cursor_channel->shutdown = red_dispatcher_shutdown_cursor_peer;
cursor_channel->migrate = red_dispatcher_cursor_migrate;
cursor_channel->data = dispatcher;
reds_register_channel(cursor_channel);
qxl_interface->attache_worker(qxl_interface, &dispatcher->base);
qxl_interface->set_compression_level(qxl_interface, calc_compression_level());
dispatcher->next = dispatchers;
dispatchers = dispatcher;
return dispatcher;
}