qemu/hw/qxl.c
Gerd Hoffmann 6f2b175a09 qxl: add optinal 64bit vram bar
This patch adds an 64bit pci bar for vram.  It is turned off by default.
It can be enabled by setting the size of the 64bit bar to be larger than
the 32bit bar.  Both 32bit and 64bit bar refer to the same memory.  Only
the first part of the memory is available via 32bit bar.

The intention is to allow large vram sizes for 64bit guests, by allowing
the vram bar being mapped above 4G, so we don't have to squeeze it into
the pci I/O window below 4G.

With vram_size_mb=16 and vram64_size_mb=256 it looks like this:

00:02.0 VGA compatible controller: Red Hat, Inc. Device 0100 (rev 02) (prog-if 00 [VGA controller])
        Subsystem: Red Hat, Inc Device 1100
        Physical Slot: 2
        Flags: fast devsel, IRQ 10
        Memory at f8000000 (32-bit, non-prefetchable) [size=64M]
        Memory at fc000000 (32-bit, non-prefetchable) [size=16M]
        Memory at fd020000 (32-bit, non-prefetchable) [size=8K]
        I/O ports at c5a0 [size=32]
        Memory at ffe0000000 (64-bit, prefetchable) [size=256M]
        Expansion ROM at fd000000 [disabled] [size=64K]

[ mapping above 4G needs patched seabios:
  http://www.kraxel.org/cgit/seabios/commit/?h=pci64 ]
2012-02-28 17:20:15 +01:00

2022 lines
64 KiB
C

/*
* Copyright (C) 2010 Red Hat, Inc.
*
* written by Yaniv Kamay, Izik Eidus, Gerd Hoffmann
* maintained by Gerd Hoffmann <kraxel@redhat.com>
*
* 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 or
* (at your option) version 3 of the License.
*
* 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 <http://www.gnu.org/licenses/>.
*/
#include "qemu-common.h"
#include "qemu-timer.h"
#include "qemu-queue.h"
#include "monitor.h"
#include "sysemu.h"
#include "qxl.h"
#undef SPICE_RING_PROD_ITEM
#define SPICE_RING_PROD_ITEM(r, ret) { \
typeof(r) start = r; \
typeof(r) end = r + 1; \
uint32_t prod = (r)->prod & SPICE_RING_INDEX_MASK(r); \
typeof(&(r)->items[prod]) m_item = &(r)->items[prod]; \
if (!((uint8_t*)m_item >= (uint8_t*)(start) && (uint8_t*)(m_item + 1) <= (uint8_t*)(end))) { \
abort(); \
} \
ret = &m_item->el; \
}
#undef SPICE_RING_CONS_ITEM
#define SPICE_RING_CONS_ITEM(r, ret) { \
typeof(r) start = r; \
typeof(r) end = r + 1; \
uint32_t cons = (r)->cons & SPICE_RING_INDEX_MASK(r); \
typeof(&(r)->items[cons]) m_item = &(r)->items[cons]; \
if (!((uint8_t*)m_item >= (uint8_t*)(start) && (uint8_t*)(m_item + 1) <= (uint8_t*)(end))) { \
abort(); \
} \
ret = &m_item->el; \
}
#undef ALIGN
#define ALIGN(a, b) (((a) + ((b) - 1)) & ~((b) - 1))
#define PIXEL_SIZE 0.2936875 //1280x1024 is 14.8" x 11.9"
#define QXL_MODE(_x, _y, _b, _o) \
{ .x_res = _x, \
.y_res = _y, \
.bits = _b, \
.stride = (_x) * (_b) / 8, \
.x_mili = PIXEL_SIZE * (_x), \
.y_mili = PIXEL_SIZE * (_y), \
.orientation = _o, \
}
#define QXL_MODE_16_32(x_res, y_res, orientation) \
QXL_MODE(x_res, y_res, 16, orientation), \
QXL_MODE(x_res, y_res, 32, orientation)
#define QXL_MODE_EX(x_res, y_res) \
QXL_MODE_16_32(x_res, y_res, 0), \
QXL_MODE_16_32(y_res, x_res, 1), \
QXL_MODE_16_32(x_res, y_res, 2), \
QXL_MODE_16_32(y_res, x_res, 3)
static QXLMode qxl_modes[] = {
QXL_MODE_EX(640, 480),
QXL_MODE_EX(800, 480),
QXL_MODE_EX(800, 600),
QXL_MODE_EX(832, 624),
QXL_MODE_EX(960, 640),
QXL_MODE_EX(1024, 600),
QXL_MODE_EX(1024, 768),
QXL_MODE_EX(1152, 864),
QXL_MODE_EX(1152, 870),
QXL_MODE_EX(1280, 720),
QXL_MODE_EX(1280, 760),
QXL_MODE_EX(1280, 768),
QXL_MODE_EX(1280, 800),
QXL_MODE_EX(1280, 960),
QXL_MODE_EX(1280, 1024),
QXL_MODE_EX(1360, 768),
QXL_MODE_EX(1366, 768),
QXL_MODE_EX(1400, 1050),
QXL_MODE_EX(1440, 900),
QXL_MODE_EX(1600, 900),
QXL_MODE_EX(1600, 1200),
QXL_MODE_EX(1680, 1050),
QXL_MODE_EX(1920, 1080),
#if VGA_RAM_SIZE >= (16 * 1024 * 1024)
/* these modes need more than 8 MB video memory */
QXL_MODE_EX(1920, 1200),
QXL_MODE_EX(1920, 1440),
QXL_MODE_EX(2048, 1536),
QXL_MODE_EX(2560, 1440),
QXL_MODE_EX(2560, 1600),
#endif
#if VGA_RAM_SIZE >= (32 * 1024 * 1024)
/* these modes need more than 16 MB video memory */
QXL_MODE_EX(2560, 2048),
QXL_MODE_EX(2800, 2100),
QXL_MODE_EX(3200, 2400),
#endif
};
static PCIQXLDevice *qxl0;
static void qxl_send_events(PCIQXLDevice *d, uint32_t events);
static int qxl_destroy_primary(PCIQXLDevice *d, qxl_async_io async);
static void qxl_reset_memslots(PCIQXLDevice *d);
static void qxl_reset_surfaces(PCIQXLDevice *d);
static void qxl_ring_set_dirty(PCIQXLDevice *qxl);
void qxl_guest_bug(PCIQXLDevice *qxl, const char *msg, ...)
{
qxl_send_events(qxl, QXL_INTERRUPT_ERROR);
if (qxl->guestdebug) {
va_list ap;
va_start(ap, msg);
fprintf(stderr, "qxl-%d: guest bug: ", qxl->id);
vfprintf(stderr, msg, ap);
fprintf(stderr, "\n");
va_end(ap);
}
}
void qxl_spice_update_area(PCIQXLDevice *qxl, uint32_t surface_id,
struct QXLRect *area, struct QXLRect *dirty_rects,
uint32_t num_dirty_rects,
uint32_t clear_dirty_region,
qxl_async_io async, struct QXLCookie *cookie)
{
if (async == QXL_SYNC) {
qxl->ssd.worker->update_area(qxl->ssd.worker, surface_id, area,
dirty_rects, num_dirty_rects, clear_dirty_region);
} else {
assert(cookie != NULL);
spice_qxl_update_area_async(&qxl->ssd.qxl, surface_id, area,
clear_dirty_region, (uint64_t)cookie);
}
}
static void qxl_spice_destroy_surface_wait_complete(PCIQXLDevice *qxl,
uint32_t id)
{
qemu_mutex_lock(&qxl->track_lock);
qxl->guest_surfaces.cmds[id] = 0;
qxl->guest_surfaces.count--;
qemu_mutex_unlock(&qxl->track_lock);
}
static void qxl_spice_destroy_surface_wait(PCIQXLDevice *qxl, uint32_t id,
qxl_async_io async)
{
QXLCookie *cookie;
if (async) {
cookie = qxl_cookie_new(QXL_COOKIE_TYPE_IO,
QXL_IO_DESTROY_SURFACE_ASYNC);
cookie->u.surface_id = id;
spice_qxl_destroy_surface_async(&qxl->ssd.qxl, id, (uint64_t)cookie);
} else {
qxl->ssd.worker->destroy_surface_wait(qxl->ssd.worker, id);
qxl_spice_destroy_surface_wait_complete(qxl, id);
}
}
static void qxl_spice_flush_surfaces_async(PCIQXLDevice *qxl)
{
spice_qxl_flush_surfaces_async(&qxl->ssd.qxl,
(uint64_t)qxl_cookie_new(QXL_COOKIE_TYPE_IO,
QXL_IO_FLUSH_SURFACES_ASYNC));
}
void qxl_spice_loadvm_commands(PCIQXLDevice *qxl, struct QXLCommandExt *ext,
uint32_t count)
{
qxl->ssd.worker->loadvm_commands(qxl->ssd.worker, ext, count);
}
void qxl_spice_oom(PCIQXLDevice *qxl)
{
qxl->ssd.worker->oom(qxl->ssd.worker);
}
void qxl_spice_reset_memslots(PCIQXLDevice *qxl)
{
qxl->ssd.worker->reset_memslots(qxl->ssd.worker);
}
static void qxl_spice_destroy_surfaces_complete(PCIQXLDevice *qxl)
{
qemu_mutex_lock(&qxl->track_lock);
memset(&qxl->guest_surfaces.cmds, 0, sizeof(qxl->guest_surfaces.cmds));
qxl->guest_surfaces.count = 0;
qemu_mutex_unlock(&qxl->track_lock);
}
static void qxl_spice_destroy_surfaces(PCIQXLDevice *qxl, qxl_async_io async)
{
if (async) {
spice_qxl_destroy_surfaces_async(&qxl->ssd.qxl,
(uint64_t)qxl_cookie_new(QXL_COOKIE_TYPE_IO,
QXL_IO_DESTROY_ALL_SURFACES_ASYNC));
} else {
qxl->ssd.worker->destroy_surfaces(qxl->ssd.worker);
qxl_spice_destroy_surfaces_complete(qxl);
}
}
void qxl_spice_reset_image_cache(PCIQXLDevice *qxl)
{
qxl->ssd.worker->reset_image_cache(qxl->ssd.worker);
}
void qxl_spice_reset_cursor(PCIQXLDevice *qxl)
{
qxl->ssd.worker->reset_cursor(qxl->ssd.worker);
qemu_mutex_lock(&qxl->track_lock);
qxl->guest_cursor = 0;
qemu_mutex_unlock(&qxl->track_lock);
}
static inline uint32_t msb_mask(uint32_t val)
{
uint32_t mask;
do {
mask = ~(val - 1) & val;
val &= ~mask;
} while (mask < val);
return mask;
}
static ram_addr_t qxl_rom_size(void)
{
uint32_t rom_size = sizeof(QXLRom) + sizeof(QXLModes) + sizeof(qxl_modes);
rom_size = MAX(rom_size, TARGET_PAGE_SIZE);
rom_size = msb_mask(rom_size * 2 - 1);
return rom_size;
}
static void init_qxl_rom(PCIQXLDevice *d)
{
QXLRom *rom = memory_region_get_ram_ptr(&d->rom_bar);
QXLModes *modes = (QXLModes *)(rom + 1);
uint32_t ram_header_size;
uint32_t surface0_area_size;
uint32_t num_pages;
uint32_t fb, maxfb = 0;
int i;
memset(rom, 0, d->rom_size);
rom->magic = cpu_to_le32(QXL_ROM_MAGIC);
rom->id = cpu_to_le32(d->id);
rom->log_level = cpu_to_le32(d->guestdebug);
rom->modes_offset = cpu_to_le32(sizeof(QXLRom));
rom->slot_gen_bits = MEMSLOT_GENERATION_BITS;
rom->slot_id_bits = MEMSLOT_SLOT_BITS;
rom->slots_start = 1;
rom->slots_end = NUM_MEMSLOTS - 1;
rom->n_surfaces = cpu_to_le32(NUM_SURFACES);
modes->n_modes = cpu_to_le32(ARRAY_SIZE(qxl_modes));
for (i = 0; i < modes->n_modes; i++) {
fb = qxl_modes[i].y_res * qxl_modes[i].stride;
if (maxfb < fb) {
maxfb = fb;
}
modes->modes[i].id = cpu_to_le32(i);
modes->modes[i].x_res = cpu_to_le32(qxl_modes[i].x_res);
modes->modes[i].y_res = cpu_to_le32(qxl_modes[i].y_res);
modes->modes[i].bits = cpu_to_le32(qxl_modes[i].bits);
modes->modes[i].stride = cpu_to_le32(qxl_modes[i].stride);
modes->modes[i].x_mili = cpu_to_le32(qxl_modes[i].x_mili);
modes->modes[i].y_mili = cpu_to_le32(qxl_modes[i].y_mili);
modes->modes[i].orientation = cpu_to_le32(qxl_modes[i].orientation);
}
if (maxfb < VGA_RAM_SIZE && d->id == 0)
maxfb = VGA_RAM_SIZE;
ram_header_size = ALIGN(sizeof(QXLRam), 4096);
surface0_area_size = ALIGN(maxfb, 4096);
num_pages = d->vga.vram_size;
num_pages -= ram_header_size;
num_pages -= surface0_area_size;
num_pages = num_pages / TARGET_PAGE_SIZE;
rom->draw_area_offset = cpu_to_le32(0);
rom->surface0_area_size = cpu_to_le32(surface0_area_size);
rom->pages_offset = cpu_to_le32(surface0_area_size);
rom->num_pages = cpu_to_le32(num_pages);
rom->ram_header_offset = cpu_to_le32(d->vga.vram_size - ram_header_size);
d->shadow_rom = *rom;
d->rom = rom;
d->modes = modes;
}
static void init_qxl_ram(PCIQXLDevice *d)
{
uint8_t *buf;
uint64_t *item;
buf = d->vga.vram_ptr;
d->ram = (QXLRam *)(buf + le32_to_cpu(d->shadow_rom.ram_header_offset));
d->ram->magic = cpu_to_le32(QXL_RAM_MAGIC);
d->ram->int_pending = cpu_to_le32(0);
d->ram->int_mask = cpu_to_le32(0);
d->ram->update_surface = 0;
SPICE_RING_INIT(&d->ram->cmd_ring);
SPICE_RING_INIT(&d->ram->cursor_ring);
SPICE_RING_INIT(&d->ram->release_ring);
SPICE_RING_PROD_ITEM(&d->ram->release_ring, item);
*item = 0;
qxl_ring_set_dirty(d);
}
/* can be called from spice server thread context */
static void qxl_set_dirty(MemoryRegion *mr, ram_addr_t addr, ram_addr_t end)
{
memory_region_set_dirty(mr, addr, end - addr);
}
static void qxl_rom_set_dirty(PCIQXLDevice *qxl)
{
qxl_set_dirty(&qxl->rom_bar, 0, qxl->rom_size);
}
/* called from spice server thread context only */
static void qxl_ram_set_dirty(PCIQXLDevice *qxl, void *ptr)
{
void *base = qxl->vga.vram_ptr;
intptr_t offset;
offset = ptr - base;
offset &= ~(TARGET_PAGE_SIZE-1);
assert(offset < qxl->vga.vram_size);
qxl_set_dirty(&qxl->vga.vram, offset, offset + TARGET_PAGE_SIZE);
}
/* can be called from spice server thread context */
static void qxl_ring_set_dirty(PCIQXLDevice *qxl)
{
ram_addr_t addr = qxl->shadow_rom.ram_header_offset;
ram_addr_t end = qxl->vga.vram_size;
qxl_set_dirty(&qxl->vga.vram, addr, end);
}
/*
* keep track of some command state, for savevm/loadvm.
* called from spice server thread context only
*/
static void qxl_track_command(PCIQXLDevice *qxl, struct QXLCommandExt *ext)
{
switch (le32_to_cpu(ext->cmd.type)) {
case QXL_CMD_SURFACE:
{
QXLSurfaceCmd *cmd = qxl_phys2virt(qxl, ext->cmd.data, ext->group_id);
uint32_t id = le32_to_cpu(cmd->surface_id);
PANIC_ON(id >= NUM_SURFACES);
qemu_mutex_lock(&qxl->track_lock);
if (cmd->type == QXL_SURFACE_CMD_CREATE) {
qxl->guest_surfaces.cmds[id] = ext->cmd.data;
qxl->guest_surfaces.count++;
if (qxl->guest_surfaces.max < qxl->guest_surfaces.count)
qxl->guest_surfaces.max = qxl->guest_surfaces.count;
}
if (cmd->type == QXL_SURFACE_CMD_DESTROY) {
qxl->guest_surfaces.cmds[id] = 0;
qxl->guest_surfaces.count--;
}
qemu_mutex_unlock(&qxl->track_lock);
break;
}
case QXL_CMD_CURSOR:
{
QXLCursorCmd *cmd = qxl_phys2virt(qxl, ext->cmd.data, ext->group_id);
if (cmd->type == QXL_CURSOR_SET) {
qemu_mutex_lock(&qxl->track_lock);
qxl->guest_cursor = ext->cmd.data;
qemu_mutex_unlock(&qxl->track_lock);
}
break;
}
}
}
/* spice display interface callbacks */
static void interface_attach_worker(QXLInstance *sin, QXLWorker *qxl_worker)
{
PCIQXLDevice *qxl = container_of(sin, PCIQXLDevice, ssd.qxl);
dprint(qxl, 1, "%s:\n", __FUNCTION__);
qxl->ssd.worker = qxl_worker;
}
static void interface_set_compression_level(QXLInstance *sin, int level)
{
PCIQXLDevice *qxl = container_of(sin, PCIQXLDevice, ssd.qxl);
dprint(qxl, 1, "%s: %d\n", __FUNCTION__, level);
qxl->shadow_rom.compression_level = cpu_to_le32(level);
qxl->rom->compression_level = cpu_to_le32(level);
qxl_rom_set_dirty(qxl);
}
static void interface_set_mm_time(QXLInstance *sin, uint32_t mm_time)
{
PCIQXLDevice *qxl = container_of(sin, PCIQXLDevice, ssd.qxl);
qxl->shadow_rom.mm_clock = cpu_to_le32(mm_time);
qxl->rom->mm_clock = cpu_to_le32(mm_time);
qxl_rom_set_dirty(qxl);
}
static void interface_get_init_info(QXLInstance *sin, QXLDevInitInfo *info)
{
PCIQXLDevice *qxl = container_of(sin, PCIQXLDevice, ssd.qxl);
dprint(qxl, 1, "%s:\n", __FUNCTION__);
info->memslot_gen_bits = MEMSLOT_GENERATION_BITS;
info->memslot_id_bits = MEMSLOT_SLOT_BITS;
info->num_memslots = NUM_MEMSLOTS;
info->num_memslots_groups = NUM_MEMSLOTS_GROUPS;
info->internal_groupslot_id = 0;
info->qxl_ram_size = le32_to_cpu(qxl->shadow_rom.num_pages) << TARGET_PAGE_BITS;
info->n_surfaces = NUM_SURFACES;
}
static const char *qxl_mode_to_string(int mode)
{
switch (mode) {
case QXL_MODE_COMPAT:
return "compat";
case QXL_MODE_NATIVE:
return "native";
case QXL_MODE_UNDEFINED:
return "undefined";
case QXL_MODE_VGA:
return "vga";
}
return "INVALID";
}
static const char *io_port_to_string(uint32_t io_port)
{
if (io_port >= QXL_IO_RANGE_SIZE) {
return "out of range";
}
static const char *io_port_to_string[QXL_IO_RANGE_SIZE + 1] = {
[QXL_IO_NOTIFY_CMD] = "QXL_IO_NOTIFY_CMD",
[QXL_IO_NOTIFY_CURSOR] = "QXL_IO_NOTIFY_CURSOR",
[QXL_IO_UPDATE_AREA] = "QXL_IO_UPDATE_AREA",
[QXL_IO_UPDATE_IRQ] = "QXL_IO_UPDATE_IRQ",
[QXL_IO_NOTIFY_OOM] = "QXL_IO_NOTIFY_OOM",
[QXL_IO_RESET] = "QXL_IO_RESET",
[QXL_IO_SET_MODE] = "QXL_IO_SET_MODE",
[QXL_IO_LOG] = "QXL_IO_LOG",
[QXL_IO_MEMSLOT_ADD] = "QXL_IO_MEMSLOT_ADD",
[QXL_IO_MEMSLOT_DEL] = "QXL_IO_MEMSLOT_DEL",
[QXL_IO_DETACH_PRIMARY] = "QXL_IO_DETACH_PRIMARY",
[QXL_IO_ATTACH_PRIMARY] = "QXL_IO_ATTACH_PRIMARY",
[QXL_IO_CREATE_PRIMARY] = "QXL_IO_CREATE_PRIMARY",
[QXL_IO_DESTROY_PRIMARY] = "QXL_IO_DESTROY_PRIMARY",
[QXL_IO_DESTROY_SURFACE_WAIT] = "QXL_IO_DESTROY_SURFACE_WAIT",
[QXL_IO_DESTROY_ALL_SURFACES] = "QXL_IO_DESTROY_ALL_SURFACES",
[QXL_IO_UPDATE_AREA_ASYNC] = "QXL_IO_UPDATE_AREA_ASYNC",
[QXL_IO_MEMSLOT_ADD_ASYNC] = "QXL_IO_MEMSLOT_ADD_ASYNC",
[QXL_IO_CREATE_PRIMARY_ASYNC] = "QXL_IO_CREATE_PRIMARY_ASYNC",
[QXL_IO_DESTROY_PRIMARY_ASYNC] = "QXL_IO_DESTROY_PRIMARY_ASYNC",
[QXL_IO_DESTROY_SURFACE_ASYNC] = "QXL_IO_DESTROY_SURFACE_ASYNC",
[QXL_IO_DESTROY_ALL_SURFACES_ASYNC]
= "QXL_IO_DESTROY_ALL_SURFACES_ASYNC",
[QXL_IO_FLUSH_SURFACES_ASYNC] = "QXL_IO_FLUSH_SURFACES_ASYNC",
[QXL_IO_FLUSH_RELEASE] = "QXL_IO_FLUSH_RELEASE",
};
return io_port_to_string[io_port];
}
/* called from spice server thread context only */
static int interface_get_command(QXLInstance *sin, struct QXLCommandExt *ext)
{
PCIQXLDevice *qxl = container_of(sin, PCIQXLDevice, ssd.qxl);
SimpleSpiceUpdate *update;
QXLCommandRing *ring;
QXLCommand *cmd;
int notify, ret;
switch (qxl->mode) {
case QXL_MODE_VGA:
dprint(qxl, 2, "%s: vga\n", __FUNCTION__);
ret = false;
qemu_mutex_lock(&qxl->ssd.lock);
if (qxl->ssd.update != NULL) {
update = qxl->ssd.update;
qxl->ssd.update = NULL;
*ext = update->ext;
ret = true;
}
qemu_mutex_unlock(&qxl->ssd.lock);
if (ret) {
dprint(qxl, 2, "%s %s\n", __FUNCTION__, qxl_mode_to_string(qxl->mode));
qxl_log_command(qxl, "vga", ext);
}
return ret;
case QXL_MODE_COMPAT:
case QXL_MODE_NATIVE:
case QXL_MODE_UNDEFINED:
dprint(qxl, 4, "%s: %s\n", __FUNCTION__, qxl_mode_to_string(qxl->mode));
ring = &qxl->ram->cmd_ring;
if (SPICE_RING_IS_EMPTY(ring)) {
return false;
}
dprint(qxl, 2, "%s: %s\n", __FUNCTION__, qxl_mode_to_string(qxl->mode));
SPICE_RING_CONS_ITEM(ring, cmd);
ext->cmd = *cmd;
ext->group_id = MEMSLOT_GROUP_GUEST;
ext->flags = qxl->cmdflags;
SPICE_RING_POP(ring, notify);
qxl_ring_set_dirty(qxl);
if (notify) {
qxl_send_events(qxl, QXL_INTERRUPT_DISPLAY);
}
qxl->guest_primary.commands++;
qxl_track_command(qxl, ext);
qxl_log_command(qxl, "cmd", ext);
return true;
default:
return false;
}
}
/* called from spice server thread context only */
static int interface_req_cmd_notification(QXLInstance *sin)
{
PCIQXLDevice *qxl = container_of(sin, PCIQXLDevice, ssd.qxl);
int wait = 1;
switch (qxl->mode) {
case QXL_MODE_COMPAT:
case QXL_MODE_NATIVE:
case QXL_MODE_UNDEFINED:
SPICE_RING_CONS_WAIT(&qxl->ram->cmd_ring, wait);
qxl_ring_set_dirty(qxl);
break;
default:
/* nothing */
break;
}
return wait;
}
/* called from spice server thread context only */
static inline void qxl_push_free_res(PCIQXLDevice *d, int flush)
{
QXLReleaseRing *ring = &d->ram->release_ring;
uint64_t *item;
int notify;
#define QXL_FREE_BUNCH_SIZE 32
if (ring->prod - ring->cons + 1 == ring->num_items) {
/* ring full -- can't push */
return;
}
if (!flush && d->oom_running) {
/* collect everything from oom handler before pushing */
return;
}
if (!flush && d->num_free_res < QXL_FREE_BUNCH_SIZE) {
/* collect a bit more before pushing */
return;
}
SPICE_RING_PUSH(ring, notify);
dprint(d, 2, "free: push %d items, notify %s, ring %d/%d [%d,%d]\n",
d->num_free_res, notify ? "yes" : "no",
ring->prod - ring->cons, ring->num_items,
ring->prod, ring->cons);
if (notify) {
qxl_send_events(d, QXL_INTERRUPT_DISPLAY);
}
SPICE_RING_PROD_ITEM(ring, item);
*item = 0;
d->num_free_res = 0;
d->last_release = NULL;
qxl_ring_set_dirty(d);
}
/* called from spice server thread context only */
static void interface_release_resource(QXLInstance *sin,
struct QXLReleaseInfoExt ext)
{
PCIQXLDevice *qxl = container_of(sin, PCIQXLDevice, ssd.qxl);
QXLReleaseRing *ring;
uint64_t *item, id;
if (ext.group_id == MEMSLOT_GROUP_HOST) {
/* host group -> vga mode update request */
qemu_spice_destroy_update(&qxl->ssd, (void *)(intptr_t)ext.info->id);
return;
}
/*
* ext->info points into guest-visible memory
* pci bar 0, $command.release_info
*/
ring = &qxl->ram->release_ring;
SPICE_RING_PROD_ITEM(ring, item);
if (*item == 0) {
/* stick head into the ring */
id = ext.info->id;
ext.info->next = 0;
qxl_ram_set_dirty(qxl, &ext.info->next);
*item = id;
qxl_ring_set_dirty(qxl);
} else {
/* append item to the list */
qxl->last_release->next = ext.info->id;
qxl_ram_set_dirty(qxl, &qxl->last_release->next);
ext.info->next = 0;
qxl_ram_set_dirty(qxl, &ext.info->next);
}
qxl->last_release = ext.info;
qxl->num_free_res++;
dprint(qxl, 3, "%4d\r", qxl->num_free_res);
qxl_push_free_res(qxl, 0);
}
/* called from spice server thread context only */
static int interface_get_cursor_command(QXLInstance *sin, struct QXLCommandExt *ext)
{
PCIQXLDevice *qxl = container_of(sin, PCIQXLDevice, ssd.qxl);
QXLCursorRing *ring;
QXLCommand *cmd;
int notify;
switch (qxl->mode) {
case QXL_MODE_COMPAT:
case QXL_MODE_NATIVE:
case QXL_MODE_UNDEFINED:
ring = &qxl->ram->cursor_ring;
if (SPICE_RING_IS_EMPTY(ring)) {
return false;
}
SPICE_RING_CONS_ITEM(ring, cmd);
ext->cmd = *cmd;
ext->group_id = MEMSLOT_GROUP_GUEST;
ext->flags = qxl->cmdflags;
SPICE_RING_POP(ring, notify);
qxl_ring_set_dirty(qxl);
if (notify) {
qxl_send_events(qxl, QXL_INTERRUPT_CURSOR);
}
qxl->guest_primary.commands++;
qxl_track_command(qxl, ext);
qxl_log_command(qxl, "csr", ext);
if (qxl->id == 0) {
qxl_render_cursor(qxl, ext);
}
return true;
default:
return false;
}
}
/* called from spice server thread context only */
static int interface_req_cursor_notification(QXLInstance *sin)
{
PCIQXLDevice *qxl = container_of(sin, PCIQXLDevice, ssd.qxl);
int wait = 1;
switch (qxl->mode) {
case QXL_MODE_COMPAT:
case QXL_MODE_NATIVE:
case QXL_MODE_UNDEFINED:
SPICE_RING_CONS_WAIT(&qxl->ram->cursor_ring, wait);
qxl_ring_set_dirty(qxl);
break;
default:
/* nothing */
break;
}
return wait;
}
/* called from spice server thread context */
static void interface_notify_update(QXLInstance *sin, uint32_t update_id)
{
fprintf(stderr, "%s: abort()\n", __FUNCTION__);
abort();
}
/* called from spice server thread context only */
static int interface_flush_resources(QXLInstance *sin)
{
PCIQXLDevice *qxl = container_of(sin, PCIQXLDevice, ssd.qxl);
int ret;
dprint(qxl, 1, "free: guest flush (have %d)\n", qxl->num_free_res);
ret = qxl->num_free_res;
if (ret) {
qxl_push_free_res(qxl, 1);
}
return ret;
}
static void qxl_create_guest_primary_complete(PCIQXLDevice *d);
/* called from spice server thread context only */
static void interface_async_complete_io(PCIQXLDevice *qxl, QXLCookie *cookie)
{
uint32_t current_async;
qemu_mutex_lock(&qxl->async_lock);
current_async = qxl->current_async;
qxl->current_async = QXL_UNDEFINED_IO;
qemu_mutex_unlock(&qxl->async_lock);
dprint(qxl, 2, "async_complete: %d (%p) done\n", current_async, cookie);
if (!cookie) {
fprintf(stderr, "qxl: %s: error, cookie is NULL\n", __func__);
return;
}
if (cookie && current_async != cookie->io) {
fprintf(stderr,
"qxl: %s: error: current_async = %d != %ld = cookie->io\n",
__func__, current_async, cookie->io);
}
switch (current_async) {
case QXL_IO_MEMSLOT_ADD_ASYNC:
case QXL_IO_DESTROY_PRIMARY_ASYNC:
case QXL_IO_UPDATE_AREA_ASYNC:
case QXL_IO_FLUSH_SURFACES_ASYNC:
break;
case QXL_IO_CREATE_PRIMARY_ASYNC:
qxl_create_guest_primary_complete(qxl);
break;
case QXL_IO_DESTROY_ALL_SURFACES_ASYNC:
qxl_spice_destroy_surfaces_complete(qxl);
break;
case QXL_IO_DESTROY_SURFACE_ASYNC:
qxl_spice_destroy_surface_wait_complete(qxl, cookie->u.surface_id);
break;
default:
fprintf(stderr, "qxl: %s: unexpected current_async %d\n", __func__,
current_async);
}
qxl_send_events(qxl, QXL_INTERRUPT_IO_CMD);
}
/* called from spice server thread context only */
static void interface_update_area_complete(QXLInstance *sin,
uint32_t surface_id,
QXLRect *dirty, uint32_t num_updated_rects)
{
PCIQXLDevice *qxl = container_of(sin, PCIQXLDevice, ssd.qxl);
int i;
int qxl_i;
qemu_mutex_lock(&qxl->ssd.lock);
if (surface_id != 0 || !qxl->render_update_cookie_num) {
qemu_mutex_unlock(&qxl->ssd.lock);
return;
}
if (qxl->num_dirty_rects + num_updated_rects > QXL_NUM_DIRTY_RECTS) {
/*
* overflow - treat this as a full update. Not expected to be common.
*/
dprint(qxl, 1, "%s: overflow of dirty rects\n", __func__);
qxl->guest_primary.resized = 1;
}
if (qxl->guest_primary.resized) {
/*
* Don't bother copying or scheduling the bh since we will flip
* the whole area anyway on completion of the update_area async call
*/
qemu_mutex_unlock(&qxl->ssd.lock);
return;
}
qxl_i = qxl->num_dirty_rects;
for (i = 0; i < num_updated_rects; i++) {
qxl->dirty[qxl_i++] = dirty[i];
}
qxl->num_dirty_rects += num_updated_rects;
dprint(qxl, 1, "%s: scheduling update_area_bh, #dirty %d\n",
__func__, qxl->num_dirty_rects);
qemu_bh_schedule(qxl->update_area_bh);
qemu_mutex_unlock(&qxl->ssd.lock);
}
/* called from spice server thread context only */
static void interface_async_complete(QXLInstance *sin, uint64_t cookie_token)
{
PCIQXLDevice *qxl = container_of(sin, PCIQXLDevice, ssd.qxl);
QXLCookie *cookie = (QXLCookie *)cookie_token;
switch (cookie->type) {
case QXL_COOKIE_TYPE_IO:
interface_async_complete_io(qxl, cookie);
g_free(cookie);
break;
case QXL_COOKIE_TYPE_RENDER_UPDATE_AREA:
qxl_render_update_area_done(qxl, cookie);
break;
default:
fprintf(stderr, "qxl: %s: unexpected cookie type %d\n",
__func__, cookie->type);
g_free(cookie);
}
}
static const QXLInterface qxl_interface = {
.base.type = SPICE_INTERFACE_QXL,
.base.description = "qxl gpu",
.base.major_version = SPICE_INTERFACE_QXL_MAJOR,
.base.minor_version = SPICE_INTERFACE_QXL_MINOR,
.attache_worker = interface_attach_worker,
.set_compression_level = interface_set_compression_level,
.set_mm_time = interface_set_mm_time,
.get_init_info = interface_get_init_info,
/* the callbacks below are called from spice server thread context */
.get_command = interface_get_command,
.req_cmd_notification = interface_req_cmd_notification,
.release_resource = interface_release_resource,
.get_cursor_command = interface_get_cursor_command,
.req_cursor_notification = interface_req_cursor_notification,
.notify_update = interface_notify_update,
.flush_resources = interface_flush_resources,
.async_complete = interface_async_complete,
.update_area_complete = interface_update_area_complete,
};
static void qxl_enter_vga_mode(PCIQXLDevice *d)
{
if (d->mode == QXL_MODE_VGA) {
return;
}
dprint(d, 1, "%s\n", __FUNCTION__);
qemu_spice_create_host_primary(&d->ssd);
d->mode = QXL_MODE_VGA;
memset(&d->ssd.dirty, 0, sizeof(d->ssd.dirty));
}
static void qxl_exit_vga_mode(PCIQXLDevice *d)
{
if (d->mode != QXL_MODE_VGA) {
return;
}
dprint(d, 1, "%s\n", __FUNCTION__);
qxl_destroy_primary(d, QXL_SYNC);
}
static void qxl_update_irq(PCIQXLDevice *d)
{
uint32_t pending = le32_to_cpu(d->ram->int_pending);
uint32_t mask = le32_to_cpu(d->ram->int_mask);
int level = !!(pending & mask);
qemu_set_irq(d->pci.irq[0], level);
qxl_ring_set_dirty(d);
}
static void qxl_check_state(PCIQXLDevice *d)
{
QXLRam *ram = d->ram;
assert(!d->ssd.running || SPICE_RING_IS_EMPTY(&ram->cmd_ring));
assert(!d->ssd.running || SPICE_RING_IS_EMPTY(&ram->cursor_ring));
}
static void qxl_reset_state(PCIQXLDevice *d)
{
QXLRom *rom = d->rom;
qxl_check_state(d);
d->shadow_rom.update_id = cpu_to_le32(0);
*rom = d->shadow_rom;
qxl_rom_set_dirty(d);
init_qxl_ram(d);
d->num_free_res = 0;
d->last_release = NULL;
memset(&d->ssd.dirty, 0, sizeof(d->ssd.dirty));
}
static void qxl_soft_reset(PCIQXLDevice *d)
{
dprint(d, 1, "%s:\n", __FUNCTION__);
qxl_check_state(d);
if (d->id == 0) {
qxl_enter_vga_mode(d);
} else {
d->mode = QXL_MODE_UNDEFINED;
}
}
static void qxl_hard_reset(PCIQXLDevice *d, int loadvm)
{
dprint(d, 1, "%s: start%s\n", __FUNCTION__,
loadvm ? " (loadvm)" : "");
qxl_spice_reset_cursor(d);
qxl_spice_reset_image_cache(d);
qxl_reset_surfaces(d);
qxl_reset_memslots(d);
/* pre loadvm reset must not touch QXLRam. This lives in
* device memory, is migrated together with RAM and thus
* already loaded at this point */
if (!loadvm) {
qxl_reset_state(d);
}
qemu_spice_create_host_memslot(&d->ssd);
qxl_soft_reset(d);
dprint(d, 1, "%s: done\n", __FUNCTION__);
}
static void qxl_reset_handler(DeviceState *dev)
{
PCIQXLDevice *d = DO_UPCAST(PCIQXLDevice, pci.qdev, dev);
qxl_hard_reset(d, 0);
}
static void qxl_vga_ioport_write(void *opaque, uint32_t addr, uint32_t val)
{
VGACommonState *vga = opaque;
PCIQXLDevice *qxl = container_of(vga, PCIQXLDevice, vga);
if (qxl->mode != QXL_MODE_VGA) {
dprint(qxl, 1, "%s\n", __FUNCTION__);
qxl_destroy_primary(qxl, QXL_SYNC);
qxl_soft_reset(qxl);
}
vga_ioport_write(opaque, addr, val);
}
static const MemoryRegionPortio qxl_vga_portio_list[] = {
{ 0x04, 2, 1, .read = vga_ioport_read,
.write = qxl_vga_ioport_write }, /* 3b4 */
{ 0x0a, 1, 1, .read = vga_ioport_read,
.write = qxl_vga_ioport_write }, /* 3ba */
{ 0x10, 16, 1, .read = vga_ioport_read,
.write = qxl_vga_ioport_write }, /* 3c0 */
{ 0x24, 2, 1, .read = vga_ioport_read,
.write = qxl_vga_ioport_write }, /* 3d4 */
{ 0x2a, 1, 1, .read = vga_ioport_read,
.write = qxl_vga_ioport_write }, /* 3da */
PORTIO_END_OF_LIST(),
};
static void qxl_add_memslot(PCIQXLDevice *d, uint32_t slot_id, uint64_t delta,
qxl_async_io async)
{
static const int regions[] = {
QXL_RAM_RANGE_INDEX,
QXL_VRAM_RANGE_INDEX,
QXL_VRAM64_RANGE_INDEX,
};
uint64_t guest_start;
uint64_t guest_end;
int pci_region;
pcibus_t pci_start;
pcibus_t pci_end;
intptr_t virt_start;
QXLDevMemSlot memslot;
int i;
guest_start = le64_to_cpu(d->guest_slots[slot_id].slot.mem_start);
guest_end = le64_to_cpu(d->guest_slots[slot_id].slot.mem_end);
dprint(d, 1, "%s: slot %d: guest phys 0x%" PRIx64 " - 0x%" PRIx64 "\n",
__FUNCTION__, slot_id,
guest_start, guest_end);
PANIC_ON(slot_id >= NUM_MEMSLOTS);
PANIC_ON(guest_start > guest_end);
for (i = 0; i < ARRAY_SIZE(regions); i++) {
pci_region = regions[i];
pci_start = d->pci.io_regions[pci_region].addr;
pci_end = pci_start + d->pci.io_regions[pci_region].size;
/* mapped? */
if (pci_start == -1) {
continue;
}
/* start address in range ? */
if (guest_start < pci_start || guest_start > pci_end) {
continue;
}
/* end address in range ? */
if (guest_end > pci_end) {
continue;
}
/* passed */
break;
}
PANIC_ON(i == ARRAY_SIZE(regions)); /* finished loop without match */
switch (pci_region) {
case QXL_RAM_RANGE_INDEX:
virt_start = (intptr_t)memory_region_get_ram_ptr(&d->vga.vram);
break;
case QXL_VRAM_RANGE_INDEX:
case 4 /* vram 64bit */:
virt_start = (intptr_t)memory_region_get_ram_ptr(&d->vram_bar);
break;
default:
/* should not happen */
abort();
}
memslot.slot_id = slot_id;
memslot.slot_group_id = MEMSLOT_GROUP_GUEST; /* guest group */
memslot.virt_start = virt_start + (guest_start - pci_start);
memslot.virt_end = virt_start + (guest_end - pci_start);
memslot.addr_delta = memslot.virt_start - delta;
memslot.generation = d->rom->slot_generation = 0;
qxl_rom_set_dirty(d);
dprint(d, 1, "%s: slot %d: host virt 0x%lx - 0x%lx\n",
__FUNCTION__, memslot.slot_id,
memslot.virt_start, memslot.virt_end);
qemu_spice_add_memslot(&d->ssd, &memslot, async);
d->guest_slots[slot_id].ptr = (void*)memslot.virt_start;
d->guest_slots[slot_id].size = memslot.virt_end - memslot.virt_start;
d->guest_slots[slot_id].delta = delta;
d->guest_slots[slot_id].active = 1;
}
static void qxl_del_memslot(PCIQXLDevice *d, uint32_t slot_id)
{
dprint(d, 1, "%s: slot %d\n", __FUNCTION__, slot_id);
qemu_spice_del_memslot(&d->ssd, MEMSLOT_GROUP_HOST, slot_id);
d->guest_slots[slot_id].active = 0;
}
static void qxl_reset_memslots(PCIQXLDevice *d)
{
dprint(d, 1, "%s:\n", __FUNCTION__);
qxl_spice_reset_memslots(d);
memset(&d->guest_slots, 0, sizeof(d->guest_slots));
}
static void qxl_reset_surfaces(PCIQXLDevice *d)
{
dprint(d, 1, "%s:\n", __FUNCTION__);
d->mode = QXL_MODE_UNDEFINED;
qxl_spice_destroy_surfaces(d, QXL_SYNC);
}
/* can be also called from spice server thread context */
void *qxl_phys2virt(PCIQXLDevice *qxl, QXLPHYSICAL pqxl, int group_id)
{
uint64_t phys = le64_to_cpu(pqxl);
uint32_t slot = (phys >> (64 - 8)) & 0xff;
uint64_t offset = phys & 0xffffffffffff;
switch (group_id) {
case MEMSLOT_GROUP_HOST:
return (void *)(intptr_t)offset;
case MEMSLOT_GROUP_GUEST:
PANIC_ON(slot >= NUM_MEMSLOTS);
PANIC_ON(!qxl->guest_slots[slot].active);
PANIC_ON(offset < qxl->guest_slots[slot].delta);
offset -= qxl->guest_slots[slot].delta;
PANIC_ON(offset > qxl->guest_slots[slot].size)
return qxl->guest_slots[slot].ptr + offset;
default:
PANIC_ON(1);
}
}
static void qxl_create_guest_primary_complete(PCIQXLDevice *qxl)
{
/* for local rendering */
qxl_render_resize(qxl);
}
static void qxl_create_guest_primary(PCIQXLDevice *qxl, int loadvm,
qxl_async_io async)
{
QXLDevSurfaceCreate surface;
QXLSurfaceCreate *sc = &qxl->guest_primary.surface;
assert(qxl->mode != QXL_MODE_NATIVE);
qxl_exit_vga_mode(qxl);
dprint(qxl, 1, "%s: %dx%d\n", __FUNCTION__,
le32_to_cpu(sc->width), le32_to_cpu(sc->height));
surface.format = le32_to_cpu(sc->format);
surface.height = le32_to_cpu(sc->height);
surface.mem = le64_to_cpu(sc->mem);
surface.position = le32_to_cpu(sc->position);
surface.stride = le32_to_cpu(sc->stride);
surface.width = le32_to_cpu(sc->width);
surface.type = le32_to_cpu(sc->type);
surface.flags = le32_to_cpu(sc->flags);
surface.mouse_mode = true;
surface.group_id = MEMSLOT_GROUP_GUEST;
if (loadvm) {
surface.flags |= QXL_SURF_FLAG_KEEP_DATA;
}
qxl->mode = QXL_MODE_NATIVE;
qxl->cmdflags = 0;
qemu_spice_create_primary_surface(&qxl->ssd, 0, &surface, async);
if (async == QXL_SYNC) {
qxl_create_guest_primary_complete(qxl);
}
}
/* return 1 if surface destoy was initiated (in QXL_ASYNC case) or
* done (in QXL_SYNC case), 0 otherwise. */
static int qxl_destroy_primary(PCIQXLDevice *d, qxl_async_io async)
{
if (d->mode == QXL_MODE_UNDEFINED) {
return 0;
}
dprint(d, 1, "%s\n", __FUNCTION__);
d->mode = QXL_MODE_UNDEFINED;
qemu_spice_destroy_primary_surface(&d->ssd, 0, async);
qxl_spice_reset_cursor(d);
return 1;
}
static void qxl_set_mode(PCIQXLDevice *d, int modenr, int loadvm)
{
pcibus_t start = d->pci.io_regions[QXL_RAM_RANGE_INDEX].addr;
pcibus_t end = d->pci.io_regions[QXL_RAM_RANGE_INDEX].size + start;
QXLMode *mode = d->modes->modes + modenr;
uint64_t devmem = d->pci.io_regions[QXL_RAM_RANGE_INDEX].addr;
QXLMemSlot slot = {
.mem_start = start,
.mem_end = end
};
QXLSurfaceCreate surface = {
.width = mode->x_res,
.height = mode->y_res,
.stride = -mode->x_res * 4,
.format = SPICE_SURFACE_FMT_32_xRGB,
.flags = loadvm ? QXL_SURF_FLAG_KEEP_DATA : 0,
.mouse_mode = true,
.mem = devmem + d->shadow_rom.draw_area_offset,
};
dprint(d, 1, "%s: mode %d [ %d x %d @ %d bpp devmem 0x%" PRIx64 " ]\n",
__func__, modenr, mode->x_res, mode->y_res, mode->bits, devmem);
if (!loadvm) {
qxl_hard_reset(d, 0);
}
d->guest_slots[0].slot = slot;
qxl_add_memslot(d, 0, devmem, QXL_SYNC);
d->guest_primary.surface = surface;
qxl_create_guest_primary(d, 0, QXL_SYNC);
d->mode = QXL_MODE_COMPAT;
d->cmdflags = QXL_COMMAND_FLAG_COMPAT;
#ifdef QXL_COMMAND_FLAG_COMPAT_16BPP /* new in spice 0.6.1 */
if (mode->bits == 16) {
d->cmdflags |= QXL_COMMAND_FLAG_COMPAT_16BPP;
}
#endif
d->shadow_rom.mode = cpu_to_le32(modenr);
d->rom->mode = cpu_to_le32(modenr);
qxl_rom_set_dirty(d);
}
static void ioport_write(void *opaque, target_phys_addr_t addr,
uint64_t val, unsigned size)
{
PCIQXLDevice *d = opaque;
uint32_t io_port = addr;
qxl_async_io async = QXL_SYNC;
uint32_t orig_io_port = io_port;
switch (io_port) {
case QXL_IO_RESET:
case QXL_IO_SET_MODE:
case QXL_IO_MEMSLOT_ADD:
case QXL_IO_MEMSLOT_DEL:
case QXL_IO_CREATE_PRIMARY:
case QXL_IO_UPDATE_IRQ:
case QXL_IO_LOG:
case QXL_IO_MEMSLOT_ADD_ASYNC:
case QXL_IO_CREATE_PRIMARY_ASYNC:
break;
default:
if (d->mode != QXL_MODE_VGA) {
break;
}
dprint(d, 1, "%s: unexpected port 0x%x (%s) in vga mode\n",
__func__, io_port, io_port_to_string(io_port));
/* be nice to buggy guest drivers */
if (io_port >= QXL_IO_UPDATE_AREA_ASYNC &&
io_port <= QXL_IO_DESTROY_ALL_SURFACES_ASYNC) {
qxl_send_events(d, QXL_INTERRUPT_IO_CMD);
}
return;
}
/* we change the io_port to avoid ifdeffery in the main switch */
orig_io_port = io_port;
switch (io_port) {
case QXL_IO_UPDATE_AREA_ASYNC:
io_port = QXL_IO_UPDATE_AREA;
goto async_common;
case QXL_IO_MEMSLOT_ADD_ASYNC:
io_port = QXL_IO_MEMSLOT_ADD;
goto async_common;
case QXL_IO_CREATE_PRIMARY_ASYNC:
io_port = QXL_IO_CREATE_PRIMARY;
goto async_common;
case QXL_IO_DESTROY_PRIMARY_ASYNC:
io_port = QXL_IO_DESTROY_PRIMARY;
goto async_common;
case QXL_IO_DESTROY_SURFACE_ASYNC:
io_port = QXL_IO_DESTROY_SURFACE_WAIT;
goto async_common;
case QXL_IO_DESTROY_ALL_SURFACES_ASYNC:
io_port = QXL_IO_DESTROY_ALL_SURFACES;
goto async_common;
case QXL_IO_FLUSH_SURFACES_ASYNC:
async_common:
async = QXL_ASYNC;
qemu_mutex_lock(&d->async_lock);
if (d->current_async != QXL_UNDEFINED_IO) {
qxl_guest_bug(d, "%d async started before last (%d) complete",
io_port, d->current_async);
qemu_mutex_unlock(&d->async_lock);
return;
}
d->current_async = orig_io_port;
qemu_mutex_unlock(&d->async_lock);
dprint(d, 2, "start async %d (%"PRId64")\n", io_port, val);
break;
default:
break;
}
switch (io_port) {
case QXL_IO_UPDATE_AREA:
{
QXLCookie *cookie = NULL;
QXLRect update = d->ram->update_area;
if (async == QXL_ASYNC) {
cookie = qxl_cookie_new(QXL_COOKIE_TYPE_IO,
QXL_IO_UPDATE_AREA_ASYNC);
cookie->u.area = update;
}
qxl_spice_update_area(d, d->ram->update_surface,
cookie ? &cookie->u.area : &update,
NULL, 0, 0, async, cookie);
break;
}
case QXL_IO_NOTIFY_CMD:
qemu_spice_wakeup(&d->ssd);
break;
case QXL_IO_NOTIFY_CURSOR:
qemu_spice_wakeup(&d->ssd);
break;
case QXL_IO_UPDATE_IRQ:
qxl_update_irq(d);
break;
case QXL_IO_NOTIFY_OOM:
if (!SPICE_RING_IS_EMPTY(&d->ram->release_ring)) {
break;
}
d->oom_running = 1;
qxl_spice_oom(d);
d->oom_running = 0;
break;
case QXL_IO_SET_MODE:
dprint(d, 1, "QXL_SET_MODE %d\n", (int)val);
qxl_set_mode(d, val, 0);
break;
case QXL_IO_LOG:
if (d->guestdebug) {
fprintf(stderr, "qxl/guest-%d: %" PRId64 ": %s", d->id,
qemu_get_clock_ns(vm_clock), d->ram->log_buf);
}
break;
case QXL_IO_RESET:
dprint(d, 1, "QXL_IO_RESET\n");
qxl_hard_reset(d, 0);
break;
case QXL_IO_MEMSLOT_ADD:
if (val >= NUM_MEMSLOTS) {
qxl_guest_bug(d, "QXL_IO_MEMSLOT_ADD: val out of range");
break;
}
if (d->guest_slots[val].active) {
qxl_guest_bug(d, "QXL_IO_MEMSLOT_ADD: memory slot already active");
break;
}
d->guest_slots[val].slot = d->ram->mem_slot;
qxl_add_memslot(d, val, 0, async);
break;
case QXL_IO_MEMSLOT_DEL:
if (val >= NUM_MEMSLOTS) {
qxl_guest_bug(d, "QXL_IO_MEMSLOT_DEL: val out of range");
break;
}
qxl_del_memslot(d, val);
break;
case QXL_IO_CREATE_PRIMARY:
if (val != 0) {
qxl_guest_bug(d, "QXL_IO_CREATE_PRIMARY (async=%d): val != 0",
async);
goto cancel_async;
}
dprint(d, 1, "QXL_IO_CREATE_PRIMARY async=%d\n", async);
d->guest_primary.surface = d->ram->create_surface;
qxl_create_guest_primary(d, 0, async);
break;
case QXL_IO_DESTROY_PRIMARY:
if (val != 0) {
qxl_guest_bug(d, "QXL_IO_DESTROY_PRIMARY (async=%d): val != 0",
async);
goto cancel_async;
}
dprint(d, 1, "QXL_IO_DESTROY_PRIMARY (async=%d) (%s)\n", async,
qxl_mode_to_string(d->mode));
if (!qxl_destroy_primary(d, async)) {
dprint(d, 1, "QXL_IO_DESTROY_PRIMARY_ASYNC in %s, ignored\n",
qxl_mode_to_string(d->mode));
goto cancel_async;
}
break;
case QXL_IO_DESTROY_SURFACE_WAIT:
if (val >= NUM_SURFACES) {
qxl_guest_bug(d, "QXL_IO_DESTROY_SURFACE (async=%d):"
"%d >= NUM_SURFACES", async, val);
goto cancel_async;
}
qxl_spice_destroy_surface_wait(d, val, async);
break;
case QXL_IO_FLUSH_RELEASE: {
QXLReleaseRing *ring = &d->ram->release_ring;
if (ring->prod - ring->cons + 1 == ring->num_items) {
fprintf(stderr,
"ERROR: no flush, full release ring [p%d,%dc]\n",
ring->prod, ring->cons);
}
qxl_push_free_res(d, 1 /* flush */);
dprint(d, 1, "QXL_IO_FLUSH_RELEASE exit (%s, s#=%d, res#=%d,%p)\n",
qxl_mode_to_string(d->mode), d->guest_surfaces.count,
d->num_free_res, d->last_release);
break;
}
case QXL_IO_FLUSH_SURFACES_ASYNC:
dprint(d, 1, "QXL_IO_FLUSH_SURFACES_ASYNC"
" (%"PRId64") (%s, s#=%d, res#=%d)\n",
val, qxl_mode_to_string(d->mode), d->guest_surfaces.count,
d->num_free_res);
qxl_spice_flush_surfaces_async(d);
break;
case QXL_IO_DESTROY_ALL_SURFACES:
d->mode = QXL_MODE_UNDEFINED;
qxl_spice_destroy_surfaces(d, async);
break;
default:
fprintf(stderr, "%s: ioport=0x%x, abort()\n", __FUNCTION__, io_port);
abort();
}
return;
cancel_async:
if (async) {
qxl_send_events(d, QXL_INTERRUPT_IO_CMD);
qemu_mutex_lock(&d->async_lock);
d->current_async = QXL_UNDEFINED_IO;
qemu_mutex_unlock(&d->async_lock);
}
}
static uint64_t ioport_read(void *opaque, target_phys_addr_t addr,
unsigned size)
{
PCIQXLDevice *d = opaque;
dprint(d, 1, "%s: unexpected\n", __FUNCTION__);
return 0xff;
}
static const MemoryRegionOps qxl_io_ops = {
.read = ioport_read,
.write = ioport_write,
.valid = {
.min_access_size = 1,
.max_access_size = 1,
},
};
static void pipe_read(void *opaque)
{
PCIQXLDevice *d = opaque;
char dummy;
int len;
do {
len = read(d->pipe[0], &dummy, sizeof(dummy));
} while (len == sizeof(dummy));
qxl_update_irq(d);
}
static void qxl_send_events(PCIQXLDevice *d, uint32_t events)
{
uint32_t old_pending;
uint32_t le_events = cpu_to_le32(events);
assert(d->ssd.running);
old_pending = __sync_fetch_and_or(&d->ram->int_pending, le_events);
if ((old_pending & le_events) == le_events) {
return;
}
if (qemu_thread_is_self(&d->main)) {
qxl_update_irq(d);
} else {
if (write(d->pipe[1], d, 1) != 1) {
dprint(d, 1, "%s: write to pipe failed\n", __FUNCTION__);
}
}
}
static void init_pipe_signaling(PCIQXLDevice *d)
{
if (pipe(d->pipe) < 0) {
dprint(d, 1, "%s: pipe creation failed\n", __FUNCTION__);
return;
}
fcntl(d->pipe[0], F_SETFL, O_NONBLOCK);
fcntl(d->pipe[1], F_SETFL, O_NONBLOCK);
fcntl(d->pipe[0], F_SETOWN, getpid());
qemu_thread_get_self(&d->main);
qemu_set_fd_handler(d->pipe[0], pipe_read, NULL, d);
}
/* graphics console */
static void qxl_hw_update(void *opaque)
{
PCIQXLDevice *qxl = opaque;
VGACommonState *vga = &qxl->vga;
switch (qxl->mode) {
case QXL_MODE_VGA:
vga->update(vga);
break;
case QXL_MODE_COMPAT:
case QXL_MODE_NATIVE:
qxl_render_update(qxl);
break;
default:
break;
}
}
static void qxl_hw_invalidate(void *opaque)
{
PCIQXLDevice *qxl = opaque;
VGACommonState *vga = &qxl->vga;
vga->invalidate(vga);
}
static void qxl_hw_screen_dump(void *opaque, const char *filename, bool cswitch)
{
PCIQXLDevice *qxl = opaque;
VGACommonState *vga = &qxl->vga;
switch (qxl->mode) {
case QXL_MODE_COMPAT:
case QXL_MODE_NATIVE:
qxl_render_update(qxl);
ppm_save(filename, qxl->ssd.ds->surface);
break;
case QXL_MODE_VGA:
vga->screen_dump(vga, filename, cswitch);
break;
default:
break;
}
}
static void qxl_hw_text_update(void *opaque, console_ch_t *chardata)
{
PCIQXLDevice *qxl = opaque;
VGACommonState *vga = &qxl->vga;
if (qxl->mode == QXL_MODE_VGA) {
vga->text_update(vga, chardata);
return;
}
}
static void qxl_dirty_surfaces(PCIQXLDevice *qxl)
{
intptr_t vram_start;
int i;
if (qxl->mode != QXL_MODE_NATIVE && qxl->mode != QXL_MODE_COMPAT) {
return;
}
/* dirty the primary surface */
qxl_set_dirty(&qxl->vga.vram, qxl->shadow_rom.draw_area_offset,
qxl->shadow_rom.surface0_area_size);
vram_start = (intptr_t)memory_region_get_ram_ptr(&qxl->vram_bar);
/* dirty the off-screen surfaces */
for (i = 0; i < NUM_SURFACES; i++) {
QXLSurfaceCmd *cmd;
intptr_t surface_offset;
int surface_size;
if (qxl->guest_surfaces.cmds[i] == 0) {
continue;
}
cmd = qxl_phys2virt(qxl, qxl->guest_surfaces.cmds[i],
MEMSLOT_GROUP_GUEST);
assert(cmd->type == QXL_SURFACE_CMD_CREATE);
surface_offset = (intptr_t)qxl_phys2virt(qxl,
cmd->u.surface_create.data,
MEMSLOT_GROUP_GUEST);
surface_offset -= vram_start;
surface_size = cmd->u.surface_create.height *
abs(cmd->u.surface_create.stride);
dprint(qxl, 3, "%s: dirty surface %d, offset %d, size %d\n", __func__,
i, (int)surface_offset, surface_size);
qxl_set_dirty(&qxl->vram_bar, surface_offset, surface_size);
}
}
static void qxl_vm_change_state_handler(void *opaque, int running,
RunState state)
{
PCIQXLDevice *qxl = opaque;
qemu_spice_vm_change_state_handler(&qxl->ssd, running, state);
if (running) {
/*
* if qxl_send_events was called from spice server context before
* migration ended, qxl_update_irq for these events might not have been
* called
*/
qxl_update_irq(qxl);
} else {
/* make sure surfaces are saved before migration */
qxl_dirty_surfaces(qxl);
}
}
/* display change listener */
static void display_update(struct DisplayState *ds, int x, int y, int w, int h)
{
if (qxl0->mode == QXL_MODE_VGA) {
qemu_spice_display_update(&qxl0->ssd, x, y, w, h);
}
}
static void display_resize(struct DisplayState *ds)
{
if (qxl0->mode == QXL_MODE_VGA) {
qemu_spice_display_resize(&qxl0->ssd);
}
}
static void display_refresh(struct DisplayState *ds)
{
if (qxl0->mode == QXL_MODE_VGA) {
qemu_spice_display_refresh(&qxl0->ssd);
} else {
qemu_mutex_lock(&qxl0->ssd.lock);
qemu_spice_cursor_refresh_unlocked(&qxl0->ssd);
qemu_mutex_unlock(&qxl0->ssd.lock);
}
}
static DisplayChangeListener display_listener = {
.dpy_update = display_update,
.dpy_resize = display_resize,
.dpy_refresh = display_refresh,
};
static void qxl_init_ramsize(PCIQXLDevice *qxl, uint32_t ram_min_mb)
{
/* vga ram (bar 0) */
if (qxl->ram_size_mb != -1) {
qxl->vga.vram_size = qxl->ram_size_mb * 1024 * 1024;
}
if (qxl->vga.vram_size < ram_min_mb * 1024 * 1024) {
qxl->vga.vram_size = ram_min_mb * 1024 * 1024;
}
/* vram32 (surfaces, 32bit, bar 1) */
if (qxl->vram32_size_mb != -1) {
qxl->vram32_size = qxl->vram32_size_mb * 1024 * 1024;
}
if (qxl->vram32_size < 4096) {
qxl->vram32_size = 4096;
}
/* vram (surfaces, 64bit, bar 4+5) */
if (qxl->vram_size_mb != -1) {
qxl->vram_size = qxl->vram_size_mb * 1024 * 1024;
}
if (qxl->vram_size < qxl->vram32_size) {
qxl->vram_size = qxl->vram32_size;
}
if (qxl->revision == 1) {
qxl->vram32_size = 4096;
qxl->vram_size = 4096;
}
qxl->vga.vram_size = msb_mask(qxl->vga.vram_size * 2 - 1);
qxl->vram32_size = msb_mask(qxl->vram32_size * 2 - 1);
qxl->vram_size = msb_mask(qxl->vram_size * 2 - 1);
}
static int qxl_init_common(PCIQXLDevice *qxl)
{
uint8_t* config = qxl->pci.config;
uint32_t pci_device_rev;
uint32_t io_size;
qxl->mode = QXL_MODE_UNDEFINED;
qxl->generation = 1;
qxl->num_memslots = NUM_MEMSLOTS;
qxl->num_surfaces = NUM_SURFACES;
qemu_mutex_init(&qxl->track_lock);
qemu_mutex_init(&qxl->async_lock);
qxl->current_async = QXL_UNDEFINED_IO;
switch (qxl->revision) {
case 1: /* spice 0.4 -- qxl-1 */
pci_device_rev = QXL_REVISION_STABLE_V04;
break;
case 2: /* spice 0.6 -- qxl-2 */
pci_device_rev = QXL_REVISION_STABLE_V06;
break;
case 3: /* qxl-3 */
default:
pci_device_rev = QXL_DEFAULT_REVISION;
break;
}
pci_set_byte(&config[PCI_REVISION_ID], pci_device_rev);
pci_set_byte(&config[PCI_INTERRUPT_PIN], 1);
qxl->rom_size = qxl_rom_size();
memory_region_init_ram(&qxl->rom_bar, "qxl.vrom", qxl->rom_size);
vmstate_register_ram(&qxl->rom_bar, &qxl->pci.qdev);
init_qxl_rom(qxl);
init_qxl_ram(qxl);
memory_region_init_ram(&qxl->vram_bar, "qxl.vram", qxl->vram_size);
vmstate_register_ram(&qxl->vram_bar, &qxl->pci.qdev);
memory_region_init_alias(&qxl->vram32_bar, "qxl.vram32", &qxl->vram_bar,
0, qxl->vram32_size);
io_size = msb_mask(QXL_IO_RANGE_SIZE * 2 - 1);
if (qxl->revision == 1) {
io_size = 8;
}
memory_region_init_io(&qxl->io_bar, &qxl_io_ops, qxl,
"qxl-ioports", io_size);
if (qxl->id == 0) {
vga_dirty_log_start(&qxl->vga);
}
pci_register_bar(&qxl->pci, QXL_IO_RANGE_INDEX,
PCI_BASE_ADDRESS_SPACE_IO, &qxl->io_bar);
pci_register_bar(&qxl->pci, QXL_ROM_RANGE_INDEX,
PCI_BASE_ADDRESS_SPACE_MEMORY, &qxl->rom_bar);
pci_register_bar(&qxl->pci, QXL_RAM_RANGE_INDEX,
PCI_BASE_ADDRESS_SPACE_MEMORY, &qxl->vga.vram);
pci_register_bar(&qxl->pci, QXL_VRAM_RANGE_INDEX,
PCI_BASE_ADDRESS_SPACE_MEMORY, &qxl->vram32_bar);
if (qxl->vram32_size < qxl->vram_size) {
/*
* Make the 64bit vram bar show up only in case it is
* configured to be larger than the 32bit vram bar.
*/
pci_register_bar(&qxl->pci, QXL_VRAM64_RANGE_INDEX,
PCI_BASE_ADDRESS_SPACE_MEMORY |
PCI_BASE_ADDRESS_MEM_TYPE_64 |
PCI_BASE_ADDRESS_MEM_PREFETCH,
&qxl->vram_bar);
}
/* print pci bar details */
dprint(qxl, 1, "ram/%s: %d MB [region 0]\n",
qxl->id == 0 ? "pri" : "sec",
qxl->vga.vram_size / (1024*1024));
dprint(qxl, 1, "vram/32: %d MB [region 1]\n",
qxl->vram32_size / (1024*1024));
dprint(qxl, 1, "vram/64: %d MB %s\n",
qxl->vram_size / (1024*1024),
qxl->vram32_size < qxl->vram_size ? "[region 4]" : "[unmapped]");
qxl->ssd.qxl.base.sif = &qxl_interface.base;
qxl->ssd.qxl.id = qxl->id;
qemu_spice_add_interface(&qxl->ssd.qxl.base);
qemu_add_vm_change_state_handler(qxl_vm_change_state_handler, qxl);
init_pipe_signaling(qxl);
qxl_reset_state(qxl);
qxl->update_area_bh = qemu_bh_new(qxl_render_update_area_bh, qxl);
return 0;
}
static int qxl_init_primary(PCIDevice *dev)
{
PCIQXLDevice *qxl = DO_UPCAST(PCIQXLDevice, pci, dev);
VGACommonState *vga = &qxl->vga;
PortioList *qxl_vga_port_list = g_new(PortioList, 1);
qxl->id = 0;
qxl_init_ramsize(qxl, 32);
vga_common_init(vga, qxl->vga.vram_size);
vga_init(vga, pci_address_space(dev), pci_address_space_io(dev), false);
portio_list_init(qxl_vga_port_list, qxl_vga_portio_list, vga, "vga");
portio_list_add(qxl_vga_port_list, pci_address_space_io(dev), 0x3b0);
vga->ds = graphic_console_init(qxl_hw_update, qxl_hw_invalidate,
qxl_hw_screen_dump, qxl_hw_text_update, qxl);
qemu_spice_display_init_common(&qxl->ssd, vga->ds);
qxl0 = qxl;
register_displaychangelistener(vga->ds, &display_listener);
return qxl_init_common(qxl);
}
static int qxl_init_secondary(PCIDevice *dev)
{
static int device_id = 1;
PCIQXLDevice *qxl = DO_UPCAST(PCIQXLDevice, pci, dev);
qxl->id = device_id++;
qxl_init_ramsize(qxl, 16);
memory_region_init_ram(&qxl->vga.vram, "qxl.vgavram", qxl->vga.vram_size);
vmstate_register_ram(&qxl->vga.vram, &qxl->pci.qdev);
qxl->vga.vram_ptr = memory_region_get_ram_ptr(&qxl->vga.vram);
return qxl_init_common(qxl);
}
static void qxl_pre_save(void *opaque)
{
PCIQXLDevice* d = opaque;
uint8_t *ram_start = d->vga.vram_ptr;
dprint(d, 1, "%s:\n", __FUNCTION__);
if (d->last_release == NULL) {
d->last_release_offset = 0;
} else {
d->last_release_offset = (uint8_t *)d->last_release - ram_start;
}
assert(d->last_release_offset < d->vga.vram_size);
}
static int qxl_pre_load(void *opaque)
{
PCIQXLDevice* d = opaque;
dprint(d, 1, "%s: start\n", __FUNCTION__);
qxl_hard_reset(d, 1);
qxl_exit_vga_mode(d);
dprint(d, 1, "%s: done\n", __FUNCTION__);
return 0;
}
static void qxl_create_memslots(PCIQXLDevice *d)
{
int i;
for (i = 0; i < NUM_MEMSLOTS; i++) {
if (!d->guest_slots[i].active) {
continue;
}
dprint(d, 1, "%s: restoring guest slot %d\n", __func__, i);
qxl_add_memslot(d, i, 0, QXL_SYNC);
}
}
static int qxl_post_load(void *opaque, int version)
{
PCIQXLDevice* d = opaque;
uint8_t *ram_start = d->vga.vram_ptr;
QXLCommandExt *cmds;
int in, out, newmode;
dprint(d, 1, "%s: start\n", __FUNCTION__);
assert(d->last_release_offset < d->vga.vram_size);
if (d->last_release_offset == 0) {
d->last_release = NULL;
} else {
d->last_release = (QXLReleaseInfo *)(ram_start + d->last_release_offset);
}
d->modes = (QXLModes*)((uint8_t*)d->rom + d->rom->modes_offset);
dprint(d, 1, "%s: restore mode (%s)\n", __FUNCTION__,
qxl_mode_to_string(d->mode));
newmode = d->mode;
d->mode = QXL_MODE_UNDEFINED;
switch (newmode) {
case QXL_MODE_UNDEFINED:
break;
case QXL_MODE_VGA:
qxl_create_memslots(d);
qxl_enter_vga_mode(d);
break;
case QXL_MODE_NATIVE:
qxl_create_memslots(d);
qxl_create_guest_primary(d, 1, QXL_SYNC);
/* replay surface-create and cursor-set commands */
cmds = g_malloc0(sizeof(QXLCommandExt) * (NUM_SURFACES + 1));
for (in = 0, out = 0; in < NUM_SURFACES; in++) {
if (d->guest_surfaces.cmds[in] == 0) {
continue;
}
cmds[out].cmd.data = d->guest_surfaces.cmds[in];
cmds[out].cmd.type = QXL_CMD_SURFACE;
cmds[out].group_id = MEMSLOT_GROUP_GUEST;
out++;
}
if (d->guest_cursor) {
cmds[out].cmd.data = d->guest_cursor;
cmds[out].cmd.type = QXL_CMD_CURSOR;
cmds[out].group_id = MEMSLOT_GROUP_GUEST;
out++;
}
qxl_spice_loadvm_commands(d, cmds, out);
g_free(cmds);
break;
case QXL_MODE_COMPAT:
/* note: no need to call qxl_create_memslots, qxl_set_mode
* creates the mem slot. */
qxl_set_mode(d, d->shadow_rom.mode, 1);
break;
}
dprint(d, 1, "%s: done\n", __FUNCTION__);
return 0;
}
#define QXL_SAVE_VERSION 21
static VMStateDescription qxl_memslot = {
.name = "qxl-memslot",
.version_id = QXL_SAVE_VERSION,
.minimum_version_id = QXL_SAVE_VERSION,
.fields = (VMStateField[]) {
VMSTATE_UINT64(slot.mem_start, struct guest_slots),
VMSTATE_UINT64(slot.mem_end, struct guest_slots),
VMSTATE_UINT32(active, struct guest_slots),
VMSTATE_END_OF_LIST()
}
};
static VMStateDescription qxl_surface = {
.name = "qxl-surface",
.version_id = QXL_SAVE_VERSION,
.minimum_version_id = QXL_SAVE_VERSION,
.fields = (VMStateField[]) {
VMSTATE_UINT32(width, QXLSurfaceCreate),
VMSTATE_UINT32(height, QXLSurfaceCreate),
VMSTATE_INT32(stride, QXLSurfaceCreate),
VMSTATE_UINT32(format, QXLSurfaceCreate),
VMSTATE_UINT32(position, QXLSurfaceCreate),
VMSTATE_UINT32(mouse_mode, QXLSurfaceCreate),
VMSTATE_UINT32(flags, QXLSurfaceCreate),
VMSTATE_UINT32(type, QXLSurfaceCreate),
VMSTATE_UINT64(mem, QXLSurfaceCreate),
VMSTATE_END_OF_LIST()
}
};
static VMStateDescription qxl_vmstate = {
.name = "qxl",
.version_id = QXL_SAVE_VERSION,
.minimum_version_id = QXL_SAVE_VERSION,
.pre_save = qxl_pre_save,
.pre_load = qxl_pre_load,
.post_load = qxl_post_load,
.fields = (VMStateField []) {
VMSTATE_PCI_DEVICE(pci, PCIQXLDevice),
VMSTATE_STRUCT(vga, PCIQXLDevice, 0, vmstate_vga_common, VGACommonState),
VMSTATE_UINT32(shadow_rom.mode, PCIQXLDevice),
VMSTATE_UINT32(num_free_res, PCIQXLDevice),
VMSTATE_UINT32(last_release_offset, PCIQXLDevice),
VMSTATE_UINT32(mode, PCIQXLDevice),
VMSTATE_UINT32(ssd.unique, PCIQXLDevice),
VMSTATE_INT32_EQUAL(num_memslots, PCIQXLDevice),
VMSTATE_STRUCT_ARRAY(guest_slots, PCIQXLDevice, NUM_MEMSLOTS, 0,
qxl_memslot, struct guest_slots),
VMSTATE_STRUCT(guest_primary.surface, PCIQXLDevice, 0,
qxl_surface, QXLSurfaceCreate),
VMSTATE_INT32_EQUAL(num_surfaces, PCIQXLDevice),
VMSTATE_ARRAY(guest_surfaces.cmds, PCIQXLDevice, NUM_SURFACES, 0,
vmstate_info_uint64, uint64_t),
VMSTATE_UINT64(guest_cursor, PCIQXLDevice),
VMSTATE_END_OF_LIST()
},
};
static Property qxl_properties[] = {
DEFINE_PROP_UINT32("ram_size", PCIQXLDevice, vga.vram_size,
64 * 1024 * 1024),
DEFINE_PROP_UINT32("vram_size", PCIQXLDevice, vram32_size,
64 * 1024 * 1024),
DEFINE_PROP_UINT32("revision", PCIQXLDevice, revision,
QXL_DEFAULT_REVISION),
DEFINE_PROP_UINT32("debug", PCIQXLDevice, debug, 0),
DEFINE_PROP_UINT32("guestdebug", PCIQXLDevice, guestdebug, 0),
DEFINE_PROP_UINT32("cmdlog", PCIQXLDevice, cmdlog, 0),
DEFINE_PROP_UINT32("ram_size_mb", PCIQXLDevice, ram_size_mb, -1),
DEFINE_PROP_UINT32("vram_size_mb", PCIQXLDevice, vram32_size_mb, 0),
DEFINE_PROP_UINT32("vram64_size_mb", PCIQXLDevice, vram_size_mb, 0),
DEFINE_PROP_END_OF_LIST(),
};
static void qxl_primary_class_init(ObjectClass *klass, void *data)
{
DeviceClass *dc = DEVICE_CLASS(klass);
PCIDeviceClass *k = PCI_DEVICE_CLASS(klass);
k->no_hotplug = 1;
k->init = qxl_init_primary;
k->romfile = "vgabios-qxl.bin";
k->vendor_id = REDHAT_PCI_VENDOR_ID;
k->device_id = QXL_DEVICE_ID_STABLE;
k->class_id = PCI_CLASS_DISPLAY_VGA;
dc->desc = "Spice QXL GPU (primary, vga compatible)";
dc->reset = qxl_reset_handler;
dc->vmsd = &qxl_vmstate;
dc->props = qxl_properties;
}
static TypeInfo qxl_primary_info = {
.name = "qxl-vga",
.parent = TYPE_PCI_DEVICE,
.instance_size = sizeof(PCIQXLDevice),
.class_init = qxl_primary_class_init,
};
static void qxl_secondary_class_init(ObjectClass *klass, void *data)
{
DeviceClass *dc = DEVICE_CLASS(klass);
PCIDeviceClass *k = PCI_DEVICE_CLASS(klass);
k->init = qxl_init_secondary;
k->vendor_id = REDHAT_PCI_VENDOR_ID;
k->device_id = QXL_DEVICE_ID_STABLE;
k->class_id = PCI_CLASS_DISPLAY_OTHER;
dc->desc = "Spice QXL GPU (secondary)";
dc->reset = qxl_reset_handler;
dc->vmsd = &qxl_vmstate;
dc->props = qxl_properties;
}
static TypeInfo qxl_secondary_info = {
.name = "qxl",
.parent = TYPE_PCI_DEVICE,
.instance_size = sizeof(PCIQXLDevice),
.class_init = qxl_secondary_class_init,
};
static void qxl_register_types(void)
{
type_register_static(&qxl_primary_info);
type_register_static(&qxl_secondary_info);
}
type_init(qxl_register_types)