aquamarine/src/backend/Wayland.cpp

765 lines
28 KiB
C++

#include <aquamarine/backend/Wayland.hpp>
#include <wayland.hpp>
#include <xdg-shell.hpp>
#include "Shared.hpp"
#include "FormatUtils.hpp"
#include <string.h>
#include <xf86drm.h>
#include <gbm.h>
#include <fcntl.h>
#include <sys/mman.h>
using namespace Aquamarine;
using namespace Hyprutils::Memory;
using namespace Hyprutils::Math;
#define SP CSharedPointer
static std::pair<int, std::string> openExclusiveShm() {
// Only absolute paths can be shared across different shm_open() calls
srand(time(nullptr));
std::string name = std::format("/aq{:x}", rand() % RAND_MAX);
for (size_t i = 0; i < 69; ++i) {
int fd = shm_open(name.c_str(), O_RDWR | O_CREAT | O_EXCL, 0600);
if (fd >= 0)
return {fd, name};
}
return {-1, ""};
}
static int allocateSHMFile(size_t len) {
auto [fd, name] = openExclusiveShm();
if (fd < 0)
return -1;
shm_unlink(name.c_str());
int ret;
do {
ret = ftruncate(fd, len);
} while (ret < 0 && errno == EINTR);
if (ret < 0) {
close(fd);
return -1;
}
return fd;
}
wl_shm_format shmFormatFromDRM(uint32_t drmFormat) {
switch (drmFormat) {
case DRM_FORMAT_XRGB8888: return WL_SHM_FORMAT_XRGB8888;
case DRM_FORMAT_ARGB8888: return WL_SHM_FORMAT_ARGB8888;
default: return (wl_shm_format)drmFormat;
}
return (wl_shm_format)drmFormat;
}
Aquamarine::CWaylandBackend::~CWaylandBackend() {
if (drmState.fd >= 0)
close(drmState.fd);
}
eBackendType Aquamarine::CWaylandBackend::type() {
return AQ_BACKEND_WAYLAND;
}
Aquamarine::CWaylandBackend::CWaylandBackend(SP<CBackend> backend_) : backend(backend_) {
;
}
bool Aquamarine::CWaylandBackend::start() {
backend->log(AQ_LOG_DEBUG, "Starting the Wayland backend!");
waylandState.display = wl_display_connect(nullptr);
if (!waylandState.display) {
backend->log(AQ_LOG_ERROR, "Wayland backend cannot start: wl_display_connect failed (is a wayland compositor running?)");
return false;
}
waylandState.registry = makeShared<CCWlRegistry>((wl_proxy*)wl_display_get_registry(waylandState.display));
backend->log(AQ_LOG_DEBUG, std::format("Got registry at 0x{:x}", (uintptr_t)waylandState.registry->resource()));
waylandState.registry->setGlobal([this](CCWlRegistry* r, uint32_t id, const char* name, uint32_t version) {
TRACE(backend->log(AQ_LOG_TRACE, std::format(" | received global: {} (version {}) with id {}", name, version, id)));
const std::string NAME = name;
if (NAME == "wl_seat") {
TRACE(backend->log(AQ_LOG_TRACE, std::format(" > binding to global: {} (version {}) with id {}", name, 9, id)));
waylandState.seat = makeShared<CCWlSeat>((wl_proxy*)wl_registry_bind((wl_registry*)waylandState.registry->resource(), id, &wl_seat_interface, 9));
initSeat();
} else if (NAME == "xdg_wm_base") {
TRACE(backend->log(AQ_LOG_TRACE, std::format(" > binding to global: {} (version {}) with id {}", name, 6, id)));
waylandState.xdg = makeShared<CCXdgWmBase>((wl_proxy*)wl_registry_bind((wl_registry*)waylandState.registry->resource(), id, &xdg_wm_base_interface, 6));
initShell();
} else if (NAME == "wl_compositor") {
TRACE(backend->log(AQ_LOG_TRACE, std::format(" > binding to global: {} (version {}) with id {}", name, 6, id)));
waylandState.compositor = makeShared<CCWlCompositor>((wl_proxy*)wl_registry_bind((wl_registry*)waylandState.registry->resource(), id, &wl_compositor_interface, 6));
} else if (NAME == "wl_shm") {
TRACE(backend->log(AQ_LOG_TRACE, std::format(" > binding to global: {} (version {}) with id {}", name, 1, id)));
waylandState.shm = makeShared<CCWlShm>((wl_proxy*)wl_registry_bind((wl_registry*)waylandState.registry->resource(), id, &wl_shm_interface, 1));
} else if (NAME == "zwp_linux_dmabuf_v1") {
TRACE(backend->log(AQ_LOG_TRACE, std::format(" > binding to global: {} (version {}) with id {}", name, 5, id)));
waylandState.dmabuf =
makeShared<CCZwpLinuxDmabufV1>((wl_proxy*)wl_registry_bind((wl_registry*)waylandState.registry->resource(), id, &zwp_linux_dmabuf_v1_interface, 5));
if (!initDmabuf()) {
backend->log(AQ_LOG_ERROR, "Wayland backend cannot start: zwp_linux_dmabuf_v1 init failed");
waylandState.dmabufFailed = true;
}
}
});
waylandState.registry->setGlobalRemove([this](CCWlRegistry* r, uint32_t id) { backend->log(AQ_LOG_DEBUG, std::format("Global {} removed", id)); });
wl_display_roundtrip(waylandState.display);
if (!waylandState.xdg || !waylandState.compositor || !waylandState.seat || !waylandState.dmabuf || waylandState.dmabufFailed || !waylandState.shm) {
backend->log(AQ_LOG_ERROR, "Wayland backend cannot start: Missing protocols");
return false;
}
dispatchEvents();
createOutput();
return true;
}
int Aquamarine::CWaylandBackend::drmFD() {
return drmState.fd;
}
bool Aquamarine::CWaylandBackend::createOutput(const std::string& szName) {
auto o = outputs.emplace_back(SP<CWaylandOutput>(new CWaylandOutput(szName.empty() ? std::format("WAYLAND-{}", ++lastOutputID) : szName, self)));
o->self = o;
if (backend->ready)
o->swapchain = CSwapchain::create(backend->allocator, self.lock());
idleCallbacks.emplace_back([this, o]() { backend->events.newOutput.emit(SP<IOutput>(o)); });
return true;
}
std::vector<Hyprutils::Memory::CSharedPointer<SPollFD>> Aquamarine::CWaylandBackend::pollFDs() {
if (!waylandState.display)
return {};
return {makeShared<SPollFD>(wl_display_get_fd(waylandState.display), [this]() { dispatchEvents(); })};
}
bool Aquamarine::CWaylandBackend::dispatchEvents() {
wl_display_flush(waylandState.display);
if (wl_display_prepare_read(waylandState.display) == 0) {
wl_display_read_events(waylandState.display);
wl_display_dispatch_pending(waylandState.display);
} else
wl_display_dispatch(waylandState.display);
int ret = 0;
do {
ret = wl_display_dispatch_pending(waylandState.display);
wl_display_flush(waylandState.display);
} while (ret > 0);
// dispatch frames
if (backend->ready) {
for (auto& f : idleCallbacks) {
f();
}
idleCallbacks.clear();
}
return true;
}
uint32_t Aquamarine::CWaylandBackend::capabilities() {
return AQ_BACKEND_CAPABILITY_POINTER;
}
bool Aquamarine::CWaylandBackend::setCursor(Hyprutils::Memory::CSharedPointer<IBuffer> buffer, const Hyprutils::Math::Vector2D& hotspot) {
// TODO:
return true;
}
void Aquamarine::CWaylandBackend::onReady() {
for (auto& o : outputs) {
o->swapchain = CSwapchain::create(backend->allocator, self.lock());
if (!o->swapchain) {
backend->log(AQ_LOG_ERROR, std::format("Output {} failed: swapchain creation failed", o->name));
continue;
}
}
}
Aquamarine::CWaylandKeyboard::CWaylandKeyboard(SP<CCWlKeyboard> keyboard_, Hyprutils::Memory::CWeakPointer<CWaylandBackend> backend_) : keyboard(keyboard_), backend(backend_) {
if (!keyboard->resource())
return;
backend->backend->log(AQ_LOG_DEBUG, "New wayland keyboard wl_keyboard");
keyboard->setKey([this](CCWlKeyboard* r, uint32_t serial, uint32_t timeMs, uint32_t key, wl_keyboard_key_state state) {
events.key.emit(SKeyEvent{
.timeMs = timeMs,
.key = key,
.pressed = state == WL_KEYBOARD_KEY_STATE_PRESSED,
});
});
keyboard->setModifiers([this](CCWlKeyboard* r, uint32_t serial, uint32_t depressed, uint32_t latched, uint32_t locked, uint32_t group) {
events.modifiers.emit(SModifiersEvent{
.depressed = depressed,
.latched = latched,
.locked = locked,
.group = group,
});
});
}
Aquamarine::CWaylandKeyboard::~CWaylandKeyboard() {
;
}
const std::string& Aquamarine::CWaylandKeyboard::getName() {
return name;
}
Aquamarine::CWaylandPointer::CWaylandPointer(SP<CCWlPointer> pointer_, Hyprutils::Memory::CWeakPointer<CWaylandBackend> backend_) : pointer(pointer_), backend(backend_) {
if (!pointer->resource())
return;
backend->backend->log(AQ_LOG_DEBUG, "New wayland pointer wl_pointer");
pointer->setMotion([this](CCWlPointer* r, uint32_t serial, wl_fixed_t x, wl_fixed_t y) {
const auto STATE = backend->focusedOutput->state->state();
if (!backend->focusedOutput || (!STATE.mode && !STATE.customMode))
return;
const Vector2D size = STATE.customMode ? STATE.customMode->pixelSize : STATE.mode->pixelSize;
Vector2D local = {wl_fixed_to_double(x), wl_fixed_to_double(y)};
local = local / size;
timespec now;
clock_gettime(CLOCK_MONOTONIC, &now);
events.warp.emit(SWarpEvent{
.timeMs = (uint32_t)(now.tv_sec * 1000 + now.tv_nsec / 1000000),
.absolute = local,
});
});
pointer->setEnter([this](CCWlPointer* r, uint32_t serial, wl_proxy* surface, wl_fixed_t x, wl_fixed_t y) {
backend->lastEnterSerial = serial;
for (auto& o : backend->outputs) {
if (o->waylandState.surface->resource() != surface)
continue;
backend->focusedOutput = o;
backend->backend->log(AQ_LOG_DEBUG, std::format("[wayland] focus changed: {}", o->name));
o->onEnter(pointer, serial);
break;
}
});
pointer->setLeave([this](CCWlPointer* r, uint32_t serial, wl_proxy* surface) {
for (auto& o : backend->outputs) {
if (o->waylandState.surface->resource() != surface)
continue;
o->cursorState.serial = 0;
}
});
pointer->setButton([this](CCWlPointer* r, uint32_t serial, uint32_t timeMs, uint32_t button, wl_pointer_button_state state) {
events.button.emit(SButtonEvent{
.timeMs = timeMs,
.button = button,
.pressed = state == WL_POINTER_BUTTON_STATE_PRESSED,
});
});
pointer->setAxis([this](CCWlPointer* r, uint32_t timeMs, wl_pointer_axis axis, wl_fixed_t value) {
events.axis.emit(SAxisEvent{
.timeMs = timeMs,
.axis = axis == WL_POINTER_AXIS_HORIZONTAL_SCROLL ? AQ_POINTER_AXIS_HORIZONTAL : AQ_POINTER_AXIS_VERTICAL,
.delta = wl_fixed_to_double(value),
});
});
pointer->setFrame([this](CCWlPointer* r) { events.frame.emit(); });
}
Aquamarine::CWaylandPointer::~CWaylandPointer() {
;
}
const std::string& Aquamarine::CWaylandPointer::getName() {
return name;
}
void Aquamarine::CWaylandBackend::initSeat() {
waylandState.seat->setCapabilities([this](CCWlSeat* r, wl_seat_capability cap) {
const bool HAS_KEYBOARD = ((uint32_t)cap) & WL_SEAT_CAPABILITY_KEYBOARD;
const bool HAS_POINTER = ((uint32_t)cap) & WL_SEAT_CAPABILITY_POINTER;
if (HAS_KEYBOARD && keyboards.empty()) {
auto k = keyboards.emplace_back(makeShared<CWaylandKeyboard>(makeShared<CCWlKeyboard>(waylandState.seat->sendGetKeyboard()), self));
idleCallbacks.emplace_back([this, k]() { backend->events.newKeyboard.emit(SP<IKeyboard>(k)); });
} else if (!HAS_KEYBOARD && !keyboards.empty())
keyboards.clear();
if (HAS_POINTER && pointers.empty()) {
auto p = pointers.emplace_back(makeShared<CWaylandPointer>(makeShared<CCWlPointer>(waylandState.seat->sendGetPointer()), self));
idleCallbacks.emplace_back([this, p]() { backend->events.newPointer.emit(SP<IPointer>(p)); });
} else if (!HAS_POINTER && !pointers.empty())
pointers.clear();
});
}
void Aquamarine::CWaylandBackend::initShell() {
waylandState.xdg->setPing([](CCXdgWmBase* r, uint32_t serial) { r->sendPong(serial); });
}
bool Aquamarine::CWaylandBackend::initDmabuf() {
waylandState.dmabufFeedback = makeShared<CCZwpLinuxDmabufFeedbackV1>(waylandState.dmabuf->sendGetDefaultFeedback());
if (!waylandState.dmabufFeedback) {
backend->log(AQ_LOG_ERROR, "initDmabuf: failed to get default feedback");
return false;
}
waylandState.dmabufFeedback->setDone([this](CCZwpLinuxDmabufFeedbackV1* r) {
// no-op
backend->log(AQ_LOG_DEBUG, "zwp_linux_dmabuf_v1: Got done");
});
waylandState.dmabufFeedback->setMainDevice([this](CCZwpLinuxDmabufFeedbackV1* r, wl_array* deviceArr) {
backend->log(AQ_LOG_DEBUG, "zwp_linux_dmabuf_v1: Got main device");
dev_t device;
ASSERT(deviceArr->size == sizeof(device));
memcpy(&device, deviceArr->data, sizeof(device));
drmDevice* drmDev;
if (drmGetDeviceFromDevId(device, /* flags */ 0, &drmDev) != 0) {
backend->log(AQ_LOG_ERROR, "zwp_linux_dmabuf_v1: drmGetDeviceFromDevId failed");
return;
}
const char* name = nullptr;
if (drmDev->available_nodes & (1 << DRM_NODE_RENDER))
name = drmDev->nodes[DRM_NODE_RENDER];
else {
// Likely a split display/render setup. Pick the primary node and hope
// Mesa will open the right render node under-the-hood.
ASSERT(drmDev->available_nodes & (1 << DRM_NODE_PRIMARY));
name = drmDev->nodes[DRM_NODE_PRIMARY];
backend->log(AQ_LOG_WARNING, "zwp_linux_dmabuf_v1: DRM device has no render node, using primary.");
}
if (!name) {
backend->log(AQ_LOG_ERROR, "zwp_linux_dmabuf_v1: no node name");
return;
}
drmState.nodeName = name;
drmFreeDevice(&drmDev);
backend->log(AQ_LOG_DEBUG, std::format("zwp_linux_dmabuf_v1: Got node {}", drmState.nodeName));
});
waylandState.dmabufFeedback->setFormatTable([this](CCZwpLinuxDmabufFeedbackV1* r, int32_t fd, uint32_t size) {
#pragma pack(push, 1)
struct wlDrmFormatMarshalled {
uint32_t drmFormat;
char pad[4];
uint64_t modifier;
};
#pragma pack(pop)
static_assert(sizeof(wlDrmFormatMarshalled) == 16);
auto formatTable = mmap(nullptr, size, PROT_READ, MAP_PRIVATE, fd, 0);
if (formatTable == MAP_FAILED) {
backend->log(AQ_LOG_ERROR, std::format("zwp_linux_dmabuf_v1: Failed to mmap the format table"));
return;
}
const auto FORMATS = (wlDrmFormatMarshalled*)formatTable;
for (size_t i = 0; i < size / 16; ++i) {
auto& fmt = FORMATS[i];
auto modName = drmGetFormatModifierName(fmt.modifier);
backend->log(AQ_LOG_DEBUG, std::format("zwp_linux_dmabuf_v1: Got format {} with modifier {}", fourccToName(fmt.drmFormat), modName ? modName : "UNKNOWN"));
free(modName);
auto it = std::find_if(dmabufFormats.begin(), dmabufFormats.end(), [&fmt](const auto& e) { return e.drmFormat == fmt.drmFormat; });
if (it == dmabufFormats.end()) {
dmabufFormats.emplace_back(SDRMFormat{.drmFormat = fmt.drmFormat, .modifiers = {fmt.modifier}});
continue;
}
it->modifiers.emplace_back(fmt.modifier);
}
munmap(formatTable, size);
});
wl_display_roundtrip(waylandState.display);
if (!drmState.nodeName.empty()) {
drmState.fd = open(drmState.nodeName.c_str(), O_RDWR | O_NONBLOCK | O_CLOEXEC);
if (drmState.fd < 0) {
backend->log(AQ_LOG_ERROR, std::format("zwp_linux_dmabuf_v1: Failed to open node {}", drmState.nodeName));
return false;
}
backend->log(AQ_LOG_DEBUG, std::format("zwp_linux_dmabuf_v1: opened node {} with fd {}", drmState.nodeName, drmState.fd));
}
return true;
}
std::vector<SDRMFormat> Aquamarine::CWaylandBackend::getRenderFormats() {
return dmabufFormats;
}
std::vector<SDRMFormat> Aquamarine::CWaylandBackend::getCursorFormats() {
return dmabufFormats;
}
Aquamarine::CWaylandOutput::CWaylandOutput(const std::string& name_, Hyprutils::Memory::CWeakPointer<CWaylandBackend> backend_) : backend(backend_) {
name = name_;
waylandState.surface = makeShared<CCWlSurface>(backend->waylandState.compositor->sendCreateSurface());
if (!waylandState.surface->resource()) {
backend->backend->log(AQ_LOG_ERROR, std::format("Output {} failed: no surface given. Errno: {}", name, errno));
return;
}
waylandState.xdgSurface = makeShared<CCXdgSurface>(backend->waylandState.xdg->sendGetXdgSurface(waylandState.surface->resource()));
if (!waylandState.xdgSurface->resource()) {
backend->backend->log(AQ_LOG_ERROR, std::format("Output {} failed: no xdgSurface given. Errno: {}", name, errno));
return;
}
waylandState.xdgSurface->setConfigure([this](CCXdgSurface* r, uint32_t serial) {
backend->backend->log(AQ_LOG_DEBUG, std::format("Output {}: configure surface with {}", name, serial));
r->sendAckConfigure(serial);
});
waylandState.xdgToplevel = makeShared<CCXdgToplevel>(waylandState.xdgSurface->sendGetToplevel());
if (!waylandState.xdgToplevel->resource()) {
backend->backend->log(AQ_LOG_ERROR, std::format("Output {} failed: no xdgToplevel given. Errno: {}", name, errno));
return;
}
waylandState.xdgToplevel->setWmCapabilities(
[this](CCXdgToplevel* r, wl_array* arr) { backend->backend->log(AQ_LOG_DEBUG, std::format("Output {}: wm_capabilities received", name)); });
waylandState.xdgToplevel->setConfigure([this](CCXdgToplevel* r, int32_t w, int32_t h, wl_array* arr) {
backend->backend->log(AQ_LOG_DEBUG, std::format("Output {}: configure toplevel with {}x{}", name, w, h));
events.state.emit(SStateEvent{.size = {w, h}});
sendFrameAndSetCallback();
});
waylandState.xdgToplevel->setClose([this](CCXdgToplevel* r) { destroy(); });
auto inputRegion = makeShared<CCWlRegion>(backend->waylandState.compositor->sendCreateRegion());
inputRegion->sendAdd(0, 0, INT32_MAX, INT32_MAX);
waylandState.surface->sendSetInputRegion(inputRegion.get());
waylandState.surface->sendAttach(nullptr, 0, 0);
waylandState.surface->sendCommit();
inputRegion->sendDestroy();
backend->backend->log(AQ_LOG_DEBUG, std::format("Output {}: initialized", name));
}
Aquamarine::CWaylandOutput::~CWaylandOutput() {
backend->idleCallbacks.clear(); // FIXME: mega hack to avoid a UAF in frame events
if (waylandState.xdgToplevel)
waylandState.xdgToplevel->sendDestroy();
if (waylandState.xdgSurface)
waylandState.xdgSurface->sendDestroy();
if (waylandState.surface)
waylandState.surface->sendDestroy();
}
bool Aquamarine::CWaylandOutput::destroy() {
events.destroy.emit();
waylandState.surface->sendAttach(nullptr, 0, 0);
waylandState.surface->sendCommit();
waylandState.frameCallback.reset();
std::erase(backend->outputs, self.lock());
return true;
}
bool Aquamarine::CWaylandOutput::test() {
return true; // TODO:
}
bool Aquamarine::CWaylandOutput::commit() {
Vector2D pixelSize = {};
uint32_t refreshRate = 0;
if (state->internalState.customMode)
pixelSize = state->internalState.customMode->pixelSize;
else if (state->internalState.mode)
pixelSize = state->internalState.mode->pixelSize;
else {
backend->backend->log(AQ_LOG_ERROR, std::format("Output {}: pending state rejected: invalid mode", name));
return false;
}
uint32_t format = state->internalState.drmFormat;
if (format == DRM_FORMAT_INVALID) {
backend->backend->log(AQ_LOG_ERROR, std::format("Output {}: pending state rejected: invalid format", name));
return false;
}
if (!swapchain) {
backend->backend->log(AQ_LOG_ERROR, std::format("Output {}: no swapchain, lying because it will soon be here", name));
return true;
}
if (!swapchain->reconfigure(SSwapchainOptions{.length = 2, .size = pixelSize, .format = format})) {
backend->backend->log(AQ_LOG_ERROR, std::format("Output {}: pending state rejected: swapchain failed reconfiguring", name));
return false;
}
if (!state->internalState.buffer) {
// if the consumer explicitly committed a null buffer, that's a violation.
if (state->internalState.committed & COutputState::AQ_OUTPUT_STATE_BUFFER) {
backend->backend->log(AQ_LOG_ERROR, std::format("Output {}: pending state rejected: no buffer", name));
return false;
}
events.commit.emit();
state->onCommit();
return true;
}
auto wlBuffer = wlBufferFromBuffer(state->internalState.buffer);
if (!wlBuffer) {
backend->backend->log(AQ_LOG_ERROR, std::format("Output {}: pending state rejected: no wlBuffer??", name));
return false;
}
if (wlBuffer->pendingRelease)
backend->backend->log(AQ_LOG_WARNING, std::format("Output {}: pending state has a non-released buffer??", name));
wlBuffer->pendingRelease = true;
waylandState.surface->sendAttach(wlBuffer->waylandState.buffer.get(), 0, 0);
waylandState.surface->sendDamageBuffer(0, 0, INT32_MAX, INT32_MAX);
waylandState.surface->sendCommit();
readyForFrameCallback = true;
events.commit.emit();
state->onCommit();
needsFrame = false;
return true;
}
SP<IBackendImplementation> Aquamarine::CWaylandOutput::getBackend() {
return SP<IBackendImplementation>(backend.lock());
}
SP<CWaylandBuffer> Aquamarine::CWaylandOutput::wlBufferFromBuffer(SP<IBuffer> buffer) {
std::erase_if(backendState.buffers, [this](const auto& el) { return el.first.expired() || !swapchain->contains(el.first.lock()); });
for (auto& [k, v] : backendState.buffers) {
if (k != buffer)
continue;
return v;
}
// create a new one
auto wlBuffer = makeShared<CWaylandBuffer>(buffer, backend);
if (!wlBuffer->good())
return nullptr;
backendState.buffers.emplace_back(std::make_pair<>(buffer, wlBuffer));
return wlBuffer;
}
void Aquamarine::CWaylandOutput::sendFrameAndSetCallback() {
events.frame.emit();
frameScheduled = false;
if (waylandState.frameCallback || !readyForFrameCallback)
return;
waylandState.frameCallback = makeShared<CCWlCallback>(waylandState.surface->sendFrame());
waylandState.frameCallback->setDone([this](CCWlCallback* r, uint32_t ms) { onFrameDone(); });
}
void Aquamarine::CWaylandOutput::onFrameDone() {
waylandState.frameCallback.reset();
readyForFrameCallback = false;
if (frameScheduledWhileWaiting)
sendFrameAndSetCallback();
else
events.frame.emit();
frameScheduledWhileWaiting = false;
}
bool Aquamarine::CWaylandOutput::setCursor(Hyprutils::Memory::CSharedPointer<IBuffer> buffer, const Hyprutils::Math::Vector2D& hotspot) {
if (!cursorState.cursorSurface)
cursorState.cursorSurface = makeShared<CCWlSurface>(backend->waylandState.compositor->sendCreateSurface());
if (!cursorState.cursorSurface) {
backend->backend->log(AQ_LOG_ERROR, std::format("Output {}: Failed to create a wl_surface for the cursor", name));
return false;
}
if (!buffer) {
cursorState.cursorBuffer.reset();
cursorState.cursorWlBuffer.reset();
backend->pointers.at(0)->pointer->sendSetCursor(cursorState.serial, nullptr, cursorState.hotspot.x, cursorState.hotspot.y);
return true;
}
cursorState.cursorBuffer = buffer;
cursorState.hotspot = hotspot;
if (buffer->shm().success) {
auto attrs = buffer->shm();
auto [pixelData, fmt, bufLen] = buffer->beginDataPtr(0);
int fd = allocateSHMFile(bufLen);
if (fd < 0) {
backend->backend->log(AQ_LOG_ERROR, std::format("Output {}: Failed to allocate a shm file", name));
return false;
}
void* data = mmap(nullptr, bufLen, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0);
if (data == MAP_FAILED) {
backend->backend->log(AQ_LOG_ERROR, std::format("Output {}: Failed to mmap the cursor pixel data", name));
close(fd);
return false;
}
memcpy(data, pixelData, bufLen);
munmap(data, bufLen);
auto pool = makeShared<CCWlShmPool>(backend->waylandState.shm->sendCreatePool(fd, bufLen));
if (!pool) {
backend->backend->log(AQ_LOG_ERROR, std::format("Output {}: Failed to submit a wl_shm pool", name));
close(fd);
return false;
}
cursorState.cursorWlBuffer = makeShared<CCWlBuffer>(pool->sendCreateBuffer(0, attrs.size.x, attrs.size.y, attrs.stride, shmFormatFromDRM(attrs.format)));
pool.reset();
close(fd);
} else if (auto attrs = buffer->dmabuf(); attrs.success) {
auto params = makeShared<CCZwpLinuxBufferParamsV1>(backend->waylandState.dmabuf->sendCreateParams());
for (int i = 0; i < attrs.planes; ++i) {
params->sendAdd(attrs.fds.at(i), i, attrs.offsets.at(i), attrs.strides.at(i), attrs.modifier >> 32, attrs.modifier & 0xFFFFFFFF);
}
cursorState.cursorWlBuffer = makeShared<CCWlBuffer>(params->sendCreateImmed(attrs.size.x, attrs.size.y, attrs.format, (zwpLinuxBufferParamsV1Flags)0));
} else {
backend->backend->log(AQ_LOG_ERROR, std::format("Output {}: Failed to create a buffer for cursor: No known attrs (tried dmabuf / shm)", name));
return false;
}
if (!cursorState.cursorWlBuffer) {
backend->backend->log(AQ_LOG_ERROR, std::format("Output {}: Failed to create a buffer for cursor", name));
return false;
}
cursorState.cursorSurface->sendSetBufferScale(1);
cursorState.cursorSurface->sendSetBufferTransform(WL_OUTPUT_TRANSFORM_NORMAL);
cursorState.cursorSurface->sendAttach(cursorState.cursorWlBuffer.get(), 0, 0);
cursorState.cursorSurface->sendDamage(0, 0, INT32_MAX, INT32_MAX);
cursorState.cursorSurface->sendCommit();
// this may fail if we are not in focus
if (!backend->pointers.empty() && cursorState.serial)
backend->pointers.at(0)->pointer->sendSetCursor(cursorState.serial, cursorState.cursorSurface.get(), cursorState.hotspot.x, cursorState.hotspot.y);
return true;
}
void Aquamarine::CWaylandOutput::moveCursor(const Hyprutils::Math::Vector2D& coord) {
return;
}
void Aquamarine::CWaylandOutput::onEnter(SP<CCWlPointer> pointer, uint32_t serial) {
cursorState.serial = serial;
if (!cursorState.cursorSurface)
return;
pointer->sendSetCursor(serial, cursorState.cursorSurface.get(), cursorState.hotspot.x, cursorState.hotspot.y);
}
Hyprutils::Math::Vector2D Aquamarine::CWaylandOutput::cursorPlaneSize() {
return {-1, -1}; // no limit
}
void Aquamarine::CWaylandOutput::scheduleFrame() {
if (frameScheduled)
return;
frameScheduled = true;
if (waylandState.frameCallback)
frameScheduledWhileWaiting = true;
else
backend->idleCallbacks.emplace_back([this]() { sendFrameAndSetCallback(); });
}
Aquamarine::CWaylandBuffer::CWaylandBuffer(SP<IBuffer> buffer_, Hyprutils::Memory::CWeakPointer<CWaylandBackend> backend_) : buffer(buffer_), backend(backend_) {
auto params = makeShared<CCZwpLinuxBufferParamsV1>(backend->waylandState.dmabuf->sendCreateParams());
if (!params) {
backend->backend->log(AQ_LOG_ERROR, "WaylandBuffer: failed to query params");
return;
}
auto attrs = buffer->dmabuf();
for (size_t i = 0; i < attrs.planes; ++i) {
params->sendAdd(attrs.fds.at(i), i, attrs.offsets.at(i), attrs.strides.at(i), attrs.modifier >> 32, attrs.modifier & 0xFFFFFFFF);
}
waylandState.buffer = makeShared<CCWlBuffer>(params->sendCreateImmed(attrs.size.x, attrs.size.y, attrs.format, (zwpLinuxBufferParamsV1Flags)0));
waylandState.buffer->setRelease([this](CCWlBuffer* r) { pendingRelease = false; });
params->sendDestroy();
}
Aquamarine::CWaylandBuffer::~CWaylandBuffer() {
if (waylandState.buffer && waylandState.buffer->resource())
waylandState.buffer->sendDestroy();
}
bool Aquamarine::CWaylandBuffer::good() {
return waylandState.buffer && waylandState.buffer->resource();
}