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Merge pull request #739 from mahkoh/jorth/dma-queue

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metal: add additional methods to handle displays attached to secondary devices
This commit is contained in:
mahkoh 2026-02-18 15:48:09 +01:00 committed by GitHub
commit 6db1f84cb2
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21 changed files with 3831 additions and 644 deletions
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135
src/backends/metal.rs
View file

@ -1,3 +1,4 @@
mod allocator;
mod input;
mod monitor;
mod present;
@ -12,13 +13,15 @@ use {
InputDeviceClickMethod, InputDeviceGroupId, InputDeviceId, InputEvent, KeyState, Leds,
TransformMatrix, transaction::BackendConnectorTransactionError,
},
backends::metal::video::{
MetalDrmDeviceData, MetalLeaseData, MetalRenderContext, PendingDrmDevice,
PersistentDisplayData,
backends::metal::{
allocator::{RenderBufferError, ScanoutBufferError, ScanoutBufferErrors},
video::{
MetalDrmDeviceData, MetalLeaseData, MetalRenderContext, PendingDrmDevice,
PersistentDisplayData,
},
},
dbus::{DbusError, SignalHandler},
drm_feedback::DrmFeedback,
format::Format,
gfx_api::{GfxError, SyncFile},
ifs::{
wl_output::OutputId,
@ -49,15 +52,14 @@ use {
smallmap::SmallMap,
syncqueue::SyncQueue,
},
video::{Modifier, drm::DrmError, gbm::GbmError},
video::{drm::DrmError, gbm::GbmError},
},
bstr::ByteSlice,
indexmap::IndexSet,
std::{
cell::{Cell, RefCell},
error::Error,
ffi::{CStr, CString},
fmt::{Debug, Display, Formatter},
fmt::{Debug, Formatter},
future::pending,
rc::Rc,
},
@ -105,8 +107,6 @@ pub enum MetalError {
DeviceResumeSignalHandler(#[source] DbusError),
#[error("Could not render the frame")]
RenderFrame(#[source] GfxError),
#[error("Could not copy frame to output device")]
CopyToOutput(#[source] GfxError),
#[error("Could not perform atomic commit")]
Commit(#[source] DrmError),
#[error("The present configuration is out of date")]
@ -117,119 +117,14 @@ pub enum MetalError {
CalculateDrmState(#[source] BackendConnectorTransactionError),
#[error("Could not calculate DRM change set")]
CalculateDrmChange(#[source] BackendConnectorTransactionError),
#[error("Could not create plane buffer")]
#[error("Could not create non-prime plane buffer")]
AllocateScanoutBuffer(#[source] Box<ScanoutBufferError>),
}
#[derive(Debug, Error)]
pub enum ScanoutBufferErrorKind {
#[error("Scanout device: The format is not supported")]
SodUnsupportedFormat,
#[error(
"Scanout device: The intersection of the modifiers supported by the plane and modifiers writable by the gfx API is empty"
)]
SodNoWritableModifier,
#[error("Scanout device: Buffer allocation failed")]
SodBufferAllocation(#[source] GbmError),
#[error("Scanout device: addfb2 failed")]
SodAddfb2(#[source] DrmError),
#[error("Scanout device: Could not import SCANOUT buffer into the gfx API")]
SodImportSodImage(#[source] GfxError),
#[error("Scanout device: Could not turn imported SCANOUT buffer into gfx API FB")]
SodImportFb(#[source] GfxError),
#[error("Scanout device: Could not clear SCANOUT buffer")]
SodClear(#[source] GfxError),
#[error("Scanout device: Could not turn imported SCANOUT buffer into gfx API texture")]
SodImportSodTexture(#[source] GfxError),
#[error("Render device: The format is not supported")]
#[error("Could not create non-prime plane buffer")]
AllocateScanoutBufferPrime(#[source] ScanoutBufferErrors),
#[error("Could not copy frame to output device")]
CopyToDev(#[source] RenderBufferError),
#[error("The render device does not support the format")]
RenderUnsupportedFormat,
#[error(
"Render device: The intersection of the modifiers readable by the scanout device and modifiers writable by the gfx API is empty"
)]
RenderNoWritableModifier,
#[error("Render device: Buffer allocation failed")]
RenderBufferAllocation(#[source] GbmError),
#[error("Render device: Could not import RENDER buffer into the gfx API")]
RenderImportImage(#[source] GfxError),
#[error("Render device: Could not turn imported RENDER buffer into gfx API FB")]
RenderImportFb(#[source] GfxError),
#[error("Render device: Could not clear RENDER buffer")]
RenderClear(#[source] GfxError),
#[error("Render device: Could not turn imported RENDER buffer into gfx API texture")]
RenderImportRenderTexture(#[source] GfxError),
#[error("Scanout device: Could not import RENDER buffer into the gfx API")]
SodImportRenderImage(#[source] GfxError),
#[error("Scanout device: Could not turn imported RENDER buffer into gfx API texture")]
SodImportRenderTexture(#[source] GfxError),
}
#[derive(Debug)]
pub struct ScanoutBufferError {
dev: String,
format: &'static Format,
plane_modifiers: IndexSet<Modifier>,
width: i32,
height: i32,
cursor: bool,
dev_gfx_write_modifiers: Option<IndexSet<Modifier>>,
dev_gfx_read_modifiers: Option<IndexSet<Modifier>>,
dev_modifiers_possible: Option<IndexSet<Modifier>>,
dev_usage: Option<u32>,
dev_modifier: Option<Modifier>,
render_name: Option<String>,
render_gfx_write_modifiers: Option<IndexSet<Modifier>>,
render_modifiers_possible: Option<IndexSet<Modifier>>,
render_usage: Option<u32>,
render_modifier: Option<Modifier>,
kind: ScanoutBufferErrorKind,
}
impl Display for ScanoutBufferError {
fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result {
writeln!(f)?;
writeln!(f, "scanout device: {}", self.dev)?;
writeln!(f, "format: {}", self.format.name)?;
writeln!(f, "plane modifiers: {:x?}", self.plane_modifiers)?;
writeln!(f, "size: {}x{}", self.width, self.height)?;
writeln!(f, "cursor: {}", self.cursor)?;
if let Some(v) = &self.dev_gfx_write_modifiers {
writeln!(f, "scanout gfx writable modifiers: {:x?}", v)?;
}
if let Some(v) = &self.dev_modifiers_possible {
writeln!(f, "scanout dev possible modifiers: {:x?}", v)?;
}
if let Some(v) = &self.dev_usage {
writeln!(f, "scanout dev gbm usage: {:x}", v)?;
}
if let Some(v) = &self.dev_modifier {
writeln!(f, "scanout dev modifier: {:x}", v)?;
}
if let Some(v) = &self.render_name {
writeln!(f, "render device: {}", v)?;
}
if let Some(v) = &self.render_gfx_write_modifiers {
writeln!(f, "render gfx writable modifiers: {:x?}", v)?;
}
if let Some(v) = &self.dev_gfx_read_modifiers {
writeln!(f, "scanout gfx readable modifiers: {:x?}", v)?;
}
if let Some(v) = &self.render_modifiers_possible {
writeln!(f, "render dev possible modifiers: {:x?}", v)?;
}
if let Some(v) = &self.render_usage {
writeln!(f, "render dev gbm usage: {:x}", v)?;
}
if let Some(v) = &self.render_modifier {
writeln!(f, "render dev modifier: {:x}", v)?;
}
Ok(())
}
}
impl Error for ScanoutBufferError {
fn source(&self) -> Option<&(dyn Error + 'static)> {
Some(&self.kind)
}
}
pub struct MetalBackend {

1595
src/backends/metal/allocator.rs Normal file
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File diff suppressed because it is too large Load diff

1
src/backends/metal/monitor.rs
View file

@ -131,6 +131,7 @@ impl MetalBackend {
}
fn handle_drm_device_removed(self: &Rc<Self>, dev: &Rc<MetalDrmDeviceData>) {
self.state.copy_device_registry.remove(dev.dev.devnum);
log::info!("Device removed: {}", dev.dev.devnode.to_bytes().as_bstr());
}

26
src/backends/metal/present.rs
View file

@ -3,11 +3,9 @@ use {
backend::Connector,
backends::metal::{
MetalError,
allocator::{RenderBuffer, RenderBufferCopy},
transaction::{DrmConnectorState, DrmPlaneState},
video::{
MetalConnector, MetalCrtc, MetalHardwareCursorChange, MetalPlane, RenderBuffer,
RenderBufferCopy,
},
video::{MetalConnector, MetalCrtc, MetalHardwareCursorChange, MetalPlane},
},
cmm::cmm_description::ColorDescription,
gfx_api::{
@ -557,7 +555,11 @@ impl MetalConnector {
let swap_buffers = c.cursor_swap_buffer.is_some();
self.cursor_swap_buffer.set(swap_buffers);
if let Some(sf) = c.cursor_swap_buffer.take() {
let sf = c.cursor_buffer.copy_to_dev(cd, sf)?.present_block;
let sf = c
.cursor_buffer
.copy_to_dev(cd, None, sf)
.map_err(MetalError::CopyToDev)?
.present_block;
self.cursor_sync_file.set(sf);
}
let mut cursor_changed = false;
@ -588,13 +590,12 @@ impl MetalConnector {
}
let buffer_idx = (front_buffer % buffers.len() as u64) as usize;
let buffer = &buffers[buffer_idx];
let (width, height) = buffer.dev_fb.physical_size();
CursorProgrammingType::Enable {
fb: buffer.drm.clone(),
x: self.cursor_x.get(),
y: self.cursor_y.get(),
width,
height,
width: buffer.width,
height: buffer.height,
swap,
}
} else {
@ -862,7 +863,8 @@ impl MetalConnector {
match &direct_scanout_data {
None => {
let sf = buffer
.render_fb()
.render
.fb
.perform_render_pass(
AcquireSync::Unnecessary,
ReleaseSync::Explicit,
@ -873,9 +875,11 @@ impl MetalConnector {
blend_cd,
)
.map_err(MetalError::RenderFrame)?;
copy = buffer.copy_to_dev(cd, sf)?;
copy = buffer
.copy_to_dev(cd, Some(&latched.damage), sf)
.map_err(MetalError::CopyToDev)?;
fb = buffer.drm.clone();
tex = buffer.render_tex.clone();
tex = buffer.render.tex.clone();
}
Some(dsd) => {
let sf = match &dsd.acquire_sync {

33
src/backends/metal/transaction.rs
View file

@ -8,9 +8,11 @@ use {
BackendConnectorTransactionError, BackendPreparedConnectorTransaction,
},
},
backends::metal::video::{
FrontState, MetalConnector, MetalCrtc, MetalDrmDeviceData, MetalPlane, PlaneType,
RenderBuffer,
backends::metal::{
allocator::RenderBuffer,
video::{
FrontState, MetalConnector, MetalCrtc, MetalDrmDeviceData, MetalPlane, PlaneType,
},
},
format::{ARGB8888, Format},
gfx_api::SyncFile,
@ -464,7 +466,7 @@ impl MetalDeviceTransaction {
if b[0].width != width || b[0].height != height || b[0].format != format {
discard!();
}
if !rc_eq(render_ctx, &b[0].render_ctx) {
if !rc_eq(render_ctx, &b[0].render.ctx) {
discard!();
}
if !rc_eq(&dev_ctx, &b[0].dev_ctx) {
@ -472,7 +474,7 @@ impl MetalDeviceTransaction {
}
let modifiers = &plane.obj.formats.get(&format.drm).unwrap().modifiers;
for b in &**b {
if !modifiers.contains(&b.dev_bo.dmabuf().modifier) {
if !modifiers.contains(&b.dev_bo().dmabuf().modifier) {
discard!();
}
}
@ -517,7 +519,20 @@ impl MetalDeviceTransaction {
*plane_id = DrmPlane::NONE;
continue;
}
let buffers = Rc::new(res?);
let res = res?;
if let Some(method) = res[0].prime.method() {
let plane = match plane.obj.ty {
PlaneType::Overlay => "overlay",
PlaneType::Primary => "primary",
PlaneType::Cursor => "cursor",
};
let dev = slf.dev.dev.devnode.as_bytes().as_bstr();
let connector = connector.obj.kernel_id();
log::info!(
"Using prime method {method} for {dev} {connector} ({plane})",
);
}
let buffers = Rc::new(res);
plane.new.buffers = Some(buffers.clone());
new_buffers = Some(buffers.clone());
buffers
@ -572,7 +587,7 @@ impl MetalDeviceTransaction {
match prev.copy_to_new(new_buffer, &cd) {
Ok(sf) => Ok(sf),
Err(e) => {
log::warn!("Could not copy from old buffer: {}", ErrorFmt(&*e));
log::warn!("Could not copy from old buffer: {}", ErrorFmt(e));
new_buffer.clear(&cd)
}
}
@ -582,7 +597,7 @@ impl MetalDeviceTransaction {
match res {
Ok(sf) => sync_files.extend(sf),
Err(e) => {
log::warn!("Could not clear new buffer: {}", ErrorFmt(&*e));
log::warn!("Could not clear new buffer: {}", ErrorFmt(e));
}
}
} else {
@ -623,7 +638,7 @@ impl MetalDeviceTransaction {
Err(e) => {
log::error!(
"Could not black out old buffer: {}",
ErrorFmt(&*e),
ErrorFmt(e),
);
}
}

496
src/backends/metal/video.rs
View file

@ -1,6 +1,5 @@
use {
crate::{
allocator::BufferObject,
async_engine::{Phase, SpawnedFuture},
backend::{
BackendColorSpace, BackendConnectorState, BackendDrmDevice, BackendDrmLease,
@ -14,7 +13,8 @@ use {
},
},
backends::metal::{
MetalBackend, MetalError, ScanoutBufferError, ScanoutBufferErrorKind,
MetalBackend, MetalError,
allocator::RenderBuffer,
present::{
DEFAULT_POST_COMMIT_MARGIN, DEFAULT_PRE_COMMIT_MARGIN, DirectScanoutCache,
POST_COMMIT_MARGIN_DELTA, PresentFb,
@ -22,18 +22,15 @@ use {
transaction::{DrmConnectorState, DrmCrtcState, DrmPlaneState, MetalDeviceTransaction},
},
cmm::{cmm_description::ColorDescription, cmm_primaries::Primaries},
copy_device::{CopyDevice, CopyDeviceRegistry},
drm_feedback::DrmFeedback,
edid::{CtaDataBlock, Descriptor, EdidExtension},
format::{Format, XRGB8888},
gfx_api::{
AcquireSync, GfxBlendBuffer, GfxContext, GfxFramebuffer, GfxTexture, ReleaseSync,
SyncFile, needs_render_usage,
},
gfx_api::{GfxContext, GfxFramebuffer, SyncFile},
ifs::{
wl_output::OutputId,
wp_presentation_feedback::{KIND_HW_COMPLETION, KIND_VSYNC, KIND_ZERO_COPY},
},
rect::{DamageQueue, Rect},
state::State,
tree::OutputNode,
udev::UdevDevice,
@ -41,32 +38,29 @@ use {
asyncevent::AsyncEvent, binary_search_map::BinarySearchMap, bitflags::BitflagsExt,
cell_ext::CellExt, clonecell::CloneCell, copyhashmap::CopyHashMap, errorfmt::ErrorFmt,
geometric_decay::GeometricDecay, numcell::NumCell, on_change::OnChange,
opaque_cell::OpaqueCell, ordered_float::F64, oserror::OsError, rc_eq::rc_eq,
opaque_cell::OpaqueCell, ordered_float::F64, oserror::OsError,
},
video::{
INVALID_MODIFIER, Modifier,
dmabuf::DmaBufId,
drm::{
ConnectorStatus, ConnectorType, DRM_CLIENT_CAP_ATOMIC, DrmBlob, DrmConnector,
DrmCrtc, DrmEncoder, DrmError, DrmEvent, DrmFb, DrmFramebuffer, DrmLease,
DrmMaster, DrmModeInfo, DrmObject, DrmPlane, DrmProperty, DrmPropertyDefinition,
DrmPropertyType, DrmVersion, HDMI_EOTF_TRADITIONAL_GAMMA_SDR, drm_mode_modeinfo,
DrmCrtc, DrmEncoder, DrmError, DrmEvent, DrmFb, DrmLease, DrmMaster, DrmModeInfo,
DrmObject, DrmPlane, DrmProperty, DrmPropertyDefinition, DrmPropertyType,
DrmVersion, HDMI_EOTF_TRADITIONAL_GAMMA_SDR, drm_mode_modeinfo,
hdr_output_metadata,
},
gbm::{GBM_BO_USE_LINEAR, GBM_BO_USE_RENDERING, GBM_BO_USE_SCANOUT, GbmBo, GbmDevice},
gbm::GbmDevice,
},
},
ahash::{AHashMap, AHashSet},
arrayvec::ArrayVec,
bstr::{BString, ByteSlice},
indexmap::{IndexMap, IndexSet, indexset},
indexmap::{IndexSet, indexset},
isnt::std_1::collections::IsntHashMapExt,
jay_config::video::GfxApi,
run_on_drop::on_drop,
std::{
cell::{Cell, RefCell},
cell::{Cell, OnceCell, RefCell},
collections::hash_map::Entry,
error::Error,
ffi::CString,
fmt::{Debug, Formatter},
mem,
@ -91,6 +85,19 @@ pub struct MetalRenderContext {
pub gfx: Rc<dyn GfxContext>,
pub gbm: Rc<GbmDevice>,
pub devnode: CString,
pub copy_device: Rc<CopyDeviceHolder>,
}
pub struct CopyDeviceHolder {
pub registry: Rc<CopyDeviceRegistry>,
pub devnum: dev_t,
pub dev: OnceCell<Option<Rc<CopyDevice>>>,
}
impl Debug for CopyDeviceHolder {
fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result {
f.debug_struct("CopyDeviceHolder").finish_non_exhaustive()
}
}
pub struct MetalDrmDevice {
@ -112,6 +119,7 @@ pub struct MetalDrmDevice {
pub gbm: Rc<GbmDevice>,
pub handle_events: HandleEvents,
pub ctx: CloneCell<Rc<MetalRenderContext>>,
pub copy_device: Rc<CopyDeviceHolder>,
pub on_change: OnChange<crate::backend::DrmEvent>,
pub direct_scanout_enabled: Cell<Option<bool>>,
pub is_nvidia: bool,
@ -588,7 +596,7 @@ impl HardwareCursorUpdate for MetalHardwareCursorChange<'_> {
}
fn get_buffer(&self) -> Rc<dyn GfxFramebuffer> {
self.cursor_buffer.render_fb()
self.cursor_buffer.render.fb.clone()
}
fn set_position(&mut self, x: i32, y: i32) {
@ -1994,6 +2002,12 @@ impl MetalBackend {
Err(e) => return Err(MetalError::GbmDevice(e)),
};
let copy_device = Rc::new(CopyDeviceHolder {
registry: self.state.copy_device_registry.clone(),
devnum: pending.devnum,
dev: Default::default(),
});
let gfx = match self.state.create_gfx_context(master, None) {
Ok(r) => r,
Err(e) => return Err(MetalError::CreateRenderContex(e)),
@ -2003,6 +2017,7 @@ impl MetalBackend {
gfx,
gbm: gbm.clone(),
devnode: pending.devnode.clone(),
copy_device: copy_device.clone(),
});
let mut is_nvidia = false;
@ -2044,6 +2059,7 @@ impl MetalBackend {
handle_events: Cell::new(None),
},
ctx: CloneCell::new(ctx),
copy_device,
on_change: Default::default(),
direct_scanout_enabled: Default::default(),
is_nvidia,
@ -2469,6 +2485,7 @@ impl MetalBackend {
gfx,
gbm: old_ctx.gbm.clone(),
devnode: old_ctx.devnode.clone(),
copy_device: old_ctx.copy_device.clone(),
}));
if dev.is_render_device() {
self.make_render_device(dev, true);
@ -2603,315 +2620,6 @@ impl MetalBackend {
Ok(())
}
pub fn create_scanout_buffers<const N: usize>(
&self,
dev: &Rc<MetalDrmDevice>,
format: &'static Format,
plane_modifiers: &IndexSet<Modifier>,
width: i32,
height: i32,
render_ctx: &Rc<MetalRenderContext>,
cursor: bool,
) -> Result<[RenderBuffer; N], MetalError> {
let mut blend_buffer = None;
if !cursor {
match render_ctx.gfx.acquire_blend_buffer(width, height) {
Ok(bb) => blend_buffer = Some(bb),
Err(e) => {
log::warn!("Could not create blend buffer: {}", ErrorFmt(e));
}
}
}
let mut damage_queue = ArrayVec::from(DamageQueue::new::<N>());
let mut create = || {
self.create_scanout_buffer(
dev,
format,
plane_modifiers,
width,
height,
render_ctx,
cursor,
damage_queue.pop().unwrap(),
blend_buffer.clone(),
)
};
let mut array = ArrayVec::<_, N>::new();
for _ in 0..N {
array.push(create()?);
}
if let Some(buffer) = array.first() {
buffer.damage_full();
}
Ok(array.into_inner().unwrap())
}
fn create_scanout_buffer(
&self,
dev: &Rc<MetalDrmDevice>,
format: &'static Format,
plane_modifiers: &IndexSet<Modifier>,
width: i32,
height: i32,
render_ctx: &Rc<MetalRenderContext>,
cursor: bool,
damage_queue: DamageQueue,
blend_buffer: Option<Rc<dyn GfxBlendBuffer>>,
) -> Result<RenderBuffer, MetalError> {
let mut dev_gfx_write_modifiers = None;
let mut dev_gfx_read_modifiers = None;
let mut dev_modifiers_possible = None;
let mut dev_usage = None;
let mut dev_modifier = None;
let mut render_name = None;
let mut render_gfx_write_modifiers = None;
let mut render_modifiers_possible = None;
let mut render_usage = None;
let mut render_modifier = None;
self.create_scanout_buffer_(
dev,
format,
plane_modifiers,
width,
height,
render_ctx,
cursor,
damage_queue,
blend_buffer,
&mut dev_gfx_write_modifiers,
&mut dev_gfx_read_modifiers,
&mut dev_modifiers_possible,
&mut dev_usage,
&mut dev_modifier,
&mut render_name,
&mut render_gfx_write_modifiers,
&mut render_modifiers_possible,
&mut render_usage,
&mut render_modifier,
)
.map_err(|kind| ScanoutBufferError {
dev: dev.devnode.as_bytes().as_bstr().to_string(),
format,
plane_modifiers: plane_modifiers.clone(),
width,
height,
cursor,
dev_gfx_write_modifiers,
dev_gfx_read_modifiers,
dev_modifiers_possible,
dev_usage,
dev_modifier,
render_name,
render_gfx_write_modifiers,
render_modifiers_possible,
render_usage,
render_modifier,
kind,
})
.map_err(Box::new)
.map_err(MetalError::AllocateScanoutBuffer)
}
fn create_scanout_buffer_(
&self,
dev: &Rc<MetalDrmDevice>,
format: &'static Format,
plane_modifiers: &IndexSet<Modifier>,
width: i32,
height: i32,
render_ctx: &Rc<MetalRenderContext>,
cursor: bool,
damage_queue: DamageQueue,
blend_buffer: Option<Rc<dyn GfxBlendBuffer>>,
dbg_dev_gfx_write_modifiers: &mut Option<IndexSet<Modifier>>,
dbg_dev_gfx_read_modifiers: &mut Option<IndexSet<Modifier>>,
dbg_dev_modifiers_possible: &mut Option<IndexSet<Modifier>>,
dbg_dev_usage: &mut Option<u32>,
dbg_dev_modifier: &mut Option<Modifier>,
dbg_render_name: &mut Option<String>,
dbg_render_gfx_write_modifiers: &mut Option<IndexSet<Modifier>>,
dbg_render_modifiers_possible: &mut Option<IndexSet<Modifier>>,
dbg_render_usage: &mut Option<u32>,
dbg_render_modifier: &mut Option<Modifier>,
) -> Result<RenderBuffer, ScanoutBufferErrorKind> {
let dev_ctx = dev.ctx.get();
let dev_gfx_formats = dev_ctx.gfx.formats();
let Some(dev_gfx_format) = dev_gfx_formats.get(&format.drm) else {
return Err(ScanoutBufferErrorKind::SodUnsupportedFormat);
};
let send_dev_gfx_write_modifiers = on_drop(|| {
*dbg_dev_gfx_write_modifiers =
Some(dev_gfx_format.write_modifiers.keys().copied().collect())
});
let possible_modifiers: IndexMap<_, _> = dev_gfx_format
.write_modifiers
.iter()
.filter(|(m, _)| plane_modifiers.contains(*m))
.map(|(m, v)| (*m, v))
.collect();
let send_dev_modifiers_possible = on_drop(|| {
*dbg_dev_modifiers_possible = Some(possible_modifiers.keys().copied().collect())
});
if possible_modifiers.is_empty() {
return Err(ScanoutBufferErrorKind::SodNoWritableModifier);
}
let mut usage = GBM_BO_USE_RENDERING | GBM_BO_USE_SCANOUT;
if !needs_render_usage(possible_modifiers.values().copied()) {
usage &= !GBM_BO_USE_RENDERING;
}
if cursor {
usage |= GBM_BO_USE_LINEAR;
};
*dbg_dev_usage = Some(usage);
let dev_bo = dev.gbm.create_bo(
&self.state.dma_buf_ids,
width,
height,
format,
possible_modifiers.keys(),
usage,
);
let dev_bo = match dev_bo {
Ok(b) => b,
Err(e) => return Err(ScanoutBufferErrorKind::SodBufferAllocation(e)),
};
*dbg_dev_modifier = Some(dev_bo.dmabuf().modifier);
let drm_fb = match dev.master.add_fb(dev_bo.dmabuf(), None) {
Ok(fb) => Rc::new(fb),
Err(e) => return Err(ScanoutBufferErrorKind::SodAddfb2(e)),
};
let dev_img = match dev_ctx.gfx.clone().dmabuf_img(dev_bo.dmabuf()) {
Ok(img) => img,
Err(e) => return Err(ScanoutBufferErrorKind::SodImportSodImage(e)),
};
let dev_fb = match dev_img.clone().to_framebuffer() {
Ok(fb) => fb,
Err(e) => return Err(ScanoutBufferErrorKind::SodImportFb(e)),
};
dev_fb
.clear(
AcquireSync::Unnecessary,
ReleaseSync::None,
self.state.color_manager.srgb_gamma22(),
)
.map_err(ScanoutBufferErrorKind::SodClear)?;
let render_gfx_formats;
let render_possible_modifiers: IndexMap<_, _>;
let mut send_render_dev_name = None;
let mut send_render_gfx_write_modifiers = None;
let mut send_dev_gfx_read_modifiers = None;
let mut send_render_possible_modifiers = None;
let (dev_tex, render_tex, render_fb, render_bo) = if dev.id == render_ctx.dev_id {
let render_tex = match dev_img.to_texture() {
Ok(fb) => fb,
Err(e) => return Err(ScanoutBufferErrorKind::SodImportSodTexture(e)),
};
(None, render_tex, None, None)
} else {
send_render_dev_name = Some(on_drop(|| {
*dbg_render_name = Some(render_ctx.devnode.as_bytes().as_bstr().to_string());
}));
// Create a _bridge_ BO in the render device
render_gfx_formats = render_ctx.gfx.formats();
let render_gfx_format = match render_gfx_formats.get(&format.drm) {
None => return Err(ScanoutBufferErrorKind::RenderUnsupportedFormat),
Some(f) => f,
};
send_render_gfx_write_modifiers = Some(on_drop(|| {
*dbg_render_gfx_write_modifiers =
Some(render_gfx_format.write_modifiers.keys().copied().collect())
}));
send_dev_gfx_read_modifiers = Some(on_drop(|| {
*dbg_dev_gfx_read_modifiers = Some(dev_gfx_format.read_modifiers.clone());
}));
render_possible_modifiers = render_gfx_format
.write_modifiers
.iter()
.filter(|(m, _)| dev_gfx_format.read_modifiers.contains(*m))
.map(|(m, v)| (*m, v))
.collect();
send_render_possible_modifiers = Some(on_drop(|| {
*dbg_render_modifiers_possible =
Some(render_possible_modifiers.keys().copied().collect())
}));
if render_possible_modifiers.is_empty() {
return Err(ScanoutBufferErrorKind::RenderNoWritableModifier);
}
usage = GBM_BO_USE_RENDERING | GBM_BO_USE_LINEAR;
if !needs_render_usage(render_possible_modifiers.values().copied()) {
usage &= !GBM_BO_USE_RENDERING;
}
*dbg_render_usage = Some(usage);
let render_bo = render_ctx.gbm.create_bo(
&self.state.dma_buf_ids,
width,
height,
format,
render_possible_modifiers.keys(),
usage,
);
let render_bo = match render_bo {
Ok(b) => b,
Err(e) => return Err(ScanoutBufferErrorKind::RenderBufferAllocation(e)),
};
*dbg_render_modifier = Some(render_bo.dmabuf().modifier);
let render_img = match render_ctx.gfx.clone().dmabuf_img(render_bo.dmabuf()) {
Ok(img) => img,
Err(e) => return Err(ScanoutBufferErrorKind::RenderImportImage(e)),
};
let render_fb = match render_img.clone().to_framebuffer() {
Ok(fb) => fb,
Err(e) => return Err(ScanoutBufferErrorKind::RenderImportFb(e)),
};
render_fb
.clear(
AcquireSync::Unnecessary,
ReleaseSync::None,
self.state.color_manager.srgb_gamma22(),
)
.map_err(ScanoutBufferErrorKind::RenderClear)?;
let render_tex = match render_img.to_texture() {
Ok(fb) => fb,
Err(e) => return Err(ScanoutBufferErrorKind::RenderImportRenderTexture(e)),
};
// Import the bridge BO into the current device
let dev_img = match dev_ctx.gfx.clone().dmabuf_img(render_bo.dmabuf()) {
Ok(img) => img,
Err(e) => return Err(ScanoutBufferErrorKind::SodImportRenderImage(e)),
};
let dev_tex = match dev_img.to_texture() {
Ok(fb) => fb,
Err(e) => return Err(ScanoutBufferErrorKind::SodImportRenderTexture(e)),
};
(Some(dev_tex), render_tex, Some(render_fb), Some(render_bo))
};
send_dev_gfx_write_modifiers.forget();
send_dev_modifiers_possible.forget();
send_render_dev_name.map(|o| o.forget());
send_render_gfx_write_modifiers.map(|o| o.forget());
send_dev_gfx_read_modifiers.map(|o| o.forget());
send_render_possible_modifiers.map(|o| o.forget());
Ok(RenderBuffer {
width,
height,
locked: Cell::new(true),
format,
dev_ctx,
render_ctx: render_ctx.clone(),
drm: drm_fb,
damage_queue,
dev_bo,
_render_bo: render_bo,
blend_buffer,
dev_fb,
dev_tex,
render_tex,
render_fb,
})
}
fn start_connector(&self, connector: &Rc<MetalConnector>, log_mode: bool) {
let dd = &*connector.display.borrow();
self.send_connected(connector, dd);
@ -2939,126 +2647,22 @@ impl MetalBackend {
}
}
#[derive(Debug)]
pub struct RenderBuffer {
pub width: i32,
pub height: i32,
pub locked: Cell<bool>,
pub format: &'static Format,
pub dev_ctx: Rc<MetalRenderContext>,
pub render_ctx: Rc<MetalRenderContext>,
pub drm: Rc<DrmFramebuffer>,
pub damage_queue: DamageQueue,
pub dev_bo: GbmBo,
pub _render_bo: Option<GbmBo>,
pub blend_buffer: Option<Rc<dyn GfxBlendBuffer>>,
// ctx = dev
// buffer location = dev
pub dev_fb: Rc<dyn GfxFramebuffer>,
// ctx = dev
// buffer location = render
pub dev_tex: Option<Rc<dyn GfxTexture>>,
// ctx = render
// buffer location = render
pub render_tex: Rc<dyn GfxTexture>,
// ctx = render
// buffer location = render
pub render_fb: Option<Rc<dyn GfxFramebuffer>>,
}
#[derive(Default)]
pub struct RenderBufferCopy {
pub render_block: Option<SyncFile>,
pub present_block: Option<SyncFile>,
}
impl RenderBufferCopy {
pub fn for_both(sf: Option<SyncFile>) -> Self {
Self {
render_block: sf.clone(),
present_block: sf,
}
}
}
impl RenderBuffer {
pub fn render_fb(&self) -> Rc<dyn GfxFramebuffer> {
self.render_fb
.clone()
.unwrap_or_else(|| self.dev_fb.clone())
}
pub fn copy_to_dev(
&self,
cd: &Rc<ColorDescription>,
sync_file: Option<SyncFile>,
) -> Result<RenderBufferCopy, MetalError> {
let Some(tex) = &self.dev_tex else {
return Ok(RenderBufferCopy {
render_block: None,
present_block: sync_file,
});
};
self.dev_fb
.copy_texture(
AcquireSync::Unnecessary,
ReleaseSync::Explicit,
cd,
tex,
cd,
None,
AcquireSync::from_sync_file(sync_file),
ReleaseSync::None,
0,
0,
impl CopyDeviceHolder {
pub fn get(&self) -> Option<Rc<CopyDevice>> {
self.dev
.get_or_init(
|| match self.registry.get(self.devnum)?.create_device().map(Some) {
Ok(d) => d,
Err(e) => {
log::error!(
"Could not get copy device for {}: {}",
self.devnum,
ErrorFmt(e),
);
None
}
},
)
.map_err(MetalError::CopyToOutput)
.map(RenderBufferCopy::for_both)
}
pub fn damage_full(&self) {
let dmabuf = self.dev_bo.dmabuf();
let rect = Rect::new_sized_saturating(0, 0, dmabuf.width, dmabuf.height);
self.damage_queue.clear_all();
self.damage_queue.damage(&[rect]);
}
pub fn clear(&self, cd: &Rc<ColorDescription>) -> Result<Option<SyncFile>, Box<dyn Error>> {
self.dev_fb
.clear(AcquireSync::Unnecessary, ReleaseSync::Explicit, cd)
.map_err(Into::into)
}
pub fn copy_to_new(
&self,
new: &Self,
cd: &Rc<ColorDescription>,
) -> Result<Option<SyncFile>, Box<dyn Error>> {
let old = self;
let copy_texture = |new: &Rc<dyn GfxFramebuffer>, old: &Rc<dyn GfxTexture>| {
new.copy_texture(
AcquireSync::Unnecessary,
ReleaseSync::Explicit,
cd,
old,
cd,
None,
AcquireSync::Unnecessary,
ReleaseSync::Explicit,
0,
0,
)
.map_err(Into::into)
};
if rc_eq(&old.dev_ctx, &new.dev_ctx) {
return copy_texture(&new.dev_fb, old.dev_tex.as_ref().unwrap_or(&old.render_tex));
}
let tex = new
.dev_ctx
.gfx
.clone()
.dmabuf_img(old.dev_bo.dmabuf())?
.to_texture()?;
copy_texture(&new.dev_fb, &tex)
}
}

2
src/compositor.rs
View file

@ -14,6 +14,7 @@ use {
clientmem::{self, ClientMemError},
cmm::{cmm_manager::ColorManager, cmm_primaries::Primaries},
config::ConfigProxy,
copy_device::CopyDeviceRegistry,
cpu_worker::{CpuWorker, CpuWorkerError},
criteria::{
CritMatcherIds,
@ -363,6 +364,7 @@ fn start_compositor2(
outputs_without_hc: Default::default(),
udmabuf: Default::default(),
gfx_ctx_changed: Default::default(),
copy_device_registry: Rc::new(CopyDeviceRegistry::new(&ring, &engine)),
});
state.tracker.register(ClientId::from_raw(0));
create_dummy_output(&state);

2039
src/copy_device.rs Normal file
View file

File diff suppressed because it is too large Load diff

2
src/drm_feedback.rs
View file

@ -103,7 +103,7 @@ fn create_fd_data(ctx: &dyn GfxContext) -> (Vec<u8>, AHashMap<(u32, Modifier), u
let mut vec = vec![];
let mut map = AHashMap::new();
let mut pos = 0;
for (format, info) in &*ctx.formats() {
for (format, info) in &**ctx.formats() {
for modifier in &info.read_modifiers {
vec.write_u32::<NativeEndian>(*format).unwrap();
vec.write_u32::<NativeEndian>(0).unwrap();

4
src/gfx_api.rs
View file

@ -221,7 +221,7 @@ pub struct CopyTexture {
pub cd: Rc<ColorDescription>,
}
#[derive(Clone, Debug)]
#[derive(Clone, Debug, PartialEq)]
pub struct SyncFile(pub Rc<OwnedFd>);
impl Deref for SyncFile {
@ -747,7 +747,7 @@ pub trait GfxContext: Debug {
fn render_node(&self) -> Option<Rc<CString>>;
fn formats(&self) -> Rc<AHashMap<u32, GfxFormat>>;
fn formats(&self) -> &Rc<AHashMap<u32, GfxFormat>>;
fn fast_ram_access(&self) -> bool;

6
src/gfx_apis/gl/renderer/context.rs
View file

@ -187,8 +187,8 @@ impl GlRenderContext {
self.render_node.clone()
}
pub fn formats(&self) -> Rc<AHashMap<u32, GfxFormat>> {
self.ctx.formats.clone()
pub fn formats(&self) -> &Rc<AHashMap<u32, GfxFormat>> {
&self.ctx.formats
}
fn dmabuf_fb(self: &Rc<Self>, buf: &DmaBuf) -> Result<Rc<Framebuffer>, RenderError> {
@ -253,7 +253,7 @@ impl GfxContext for GlRenderContext {
Some(self.render_node())
}
fn formats(&self) -> Rc<AHashMap<u32, GfxFormat>> {
fn formats(&self) -> &Rc<AHashMap<u32, GfxFormat>> {
self.formats()
}

4
src/gfx_apis/vulkan.rs
View file

@ -263,8 +263,8 @@ impl GfxContext for Context {
Some(self.0.device.render_node.clone())
}
fn formats(&self) -> Rc<AHashMap<u32, GfxFormat>> {
self.0.formats.clone()
fn formats(&self) -> &Rc<AHashMap<u32, GfxFormat>> {
&self.0.formats
}
fn fast_ram_access(&self) -> bool {

10
src/gfx_apis/vulkan/device.rs
View file

@ -13,7 +13,9 @@ use {
drm::{Drm, sync_obj::SyncObjCtx},
gbm::{GBM_BO_USE_RENDERING, GbmDevice},
},
vulkan_core::{API_VERSION, ApiVersionDisplay, Extensions, map_extension_properties},
vulkan_core::{
ApiVersionDisplay, Extensions, VULKAN_API_VERSION, map_extension_properties,
},
},
ahash::AHashMap,
arrayvec::ArrayVec,
@ -145,7 +147,7 @@ impl VulkanInstance {
let mut devices = vec![];
for phy_dev in phy_devs {
let props = unsafe { self.instance.get_physical_device_properties(phy_dev) };
if props.api_version < API_VERSION {
if props.api_version < VULKAN_API_VERSION {
devices.push((props, None, None));
continue;
}
@ -218,7 +220,7 @@ impl VulkanInstance {
};
for phy_dev in phy_devs {
let props = unsafe { self.instance.get_physical_device_properties(phy_dev) };
if props.api_version < API_VERSION {
if props.api_version < VULKAN_API_VERSION {
continue;
}
if props.device_type == PhysicalDeviceType::CPU {
@ -618,7 +620,7 @@ fn log_device(
Ustr::from_ptr(props.device_name.as_ptr()).display()
);
}
if props.api_version < API_VERSION {
if props.api_version < VULKAN_API_VERSION {
log::warn!(" device does not support vulkan 1.3");
}
if let Some(extensions) = extensions {

2
src/ifs/zwp_linux_buffer_params_v1.rs
View file

@ -74,7 +74,7 @@ impl ZwpLinuxBufferParamsV1 {
Some(ctx) => ctx,
None => return Err(ZwpLinuxBufferParamsV1Error::NoRenderContext),
};
let formats = ctx.formats();
let formats = ctx.formats().clone();
let format = match formats.get(&format) {
Some(f) => f,
None => return Err(ZwpLinuxBufferParamsV1Error::InvalidFormat(format)),

4
src/it/test_gfx_api.rs
View file

@ -103,8 +103,8 @@ impl GfxContext for TestGfxCtx {
None
}
fn formats(&self) -> Rc<AHashMap<u32, GfxFormat>> {
self.formats.clone()
fn formats(&self) -> &Rc<AHashMap<u32, GfxFormat>> {
&self.formats
}
fn fast_ram_access(&self) -> bool {

1
src/main.rs
View file

@ -58,6 +58,7 @@ mod clientmem;
mod cmm;
mod compositor;
mod config;
mod copy_device;
mod cpu_worker;
mod criteria;
mod cursor;

4
src/portal/ptl_display.rs
View file

@ -211,9 +211,9 @@ impl UsrJayRenderCtxOwner for PortalDisplay {
if let Some(ctx) = render_ctx {
let client_formats = ctx.ctx.formats();
let usable_formats = match &server_formats {
None => client_formats,
None => client_formats.clone(),
Some(server_formats) => {
Rc::new(cross_intersect_formats(&client_formats, server_formats))
Rc::new(cross_intersect_formats(client_formats, server_formats))
}
};
self.render_ctx.set(Some(Rc::new(PortalServerRenderCtx {

2
src/state.rs
View file

@ -15,6 +15,7 @@ use {
cmm::{cmm_description::ColorDescription, cmm_manager::ColorManager},
compositor::LIBEI_SOCKET,
config::ConfigProxy,
copy_device::CopyDeviceRegistry,
cpu_worker::CpuWorker,
criteria::{clm::ClMatcherManager, tlm::TlMatcherManager},
cursor::{Cursor, ServerCursors},
@ -292,6 +293,7 @@ pub struct State {
pub outputs_without_hc: NumCell<usize>,
pub udmabuf: Rc<UdmabufHolder>,
pub gfx_ctx_changed: EventSource<WlBuffer>,
pub copy_device_registry: Rc<CopyDeviceRegistry>,
}
// impl Drop for State {

102
src/udmabuf.rs
View file

@ -7,7 +7,7 @@ use {
oserror::OsError, page_size::page_size,
},
video::{
LINEAR_MODIFIER, Modifier,
LINEAR_MODIFIER, LINEAR_STRIDE_ALIGN, Modifier,
dmabuf::{DmaBuf, DmaBufIds, DmaBufPlane, PlaneVec},
drm::Drm,
},
@ -115,6 +115,63 @@ impl Udmabuf {
};
Ok(dmabuf)
}
pub fn create_dmabuf(
&self,
dma_buf_ids: &DmaBufIds,
width: i32,
height: i32,
format: &'static Format,
) -> Result<DmaBuf, UdmabufError> {
Ok(self.create_bo(dma_buf_ids, width, height, format)?.buf)
}
fn create_bo(
&self,
dma_buf_ids: &DmaBufIds,
width: i32,
height: i32,
format: &'static Format,
) -> Result<UdmabufBo, UdmabufError> {
let height = height as u64;
let width = width as u64;
if height > 1 << 16 || width > 1 << 16 {
return Err(UdmabufError::Overflow);
}
let stride = (width * format.bpp as u64).next_multiple_of(LINEAR_STRIDE_ALIGN);
let size_mask = page_size() as u64 - 1;
let size = (height * stride + size_mask) & !size_mask;
let memfd = match uapi::memfd_create("udmabuf", MFD_ALLOW_SEALING) {
Ok(f) => f,
Err(e) => return Err(UdmabufError::Memfd(e.into())),
};
if let Err(e) = uapi::ftruncate(memfd.raw(), size as _) {
return Err(UdmabufError::Truncate(e.into()));
}
if let Err(e) = uapi::fcntl_add_seals(memfd.raw(), F_SEAL_SHRINK) {
return Err(UdmabufError::Seal(e.into()));
}
let dmabuf = self.create_dmabuf_from_memfd(&memfd, 0, size as _)?;
let mut planes = PlaneVec::new();
planes.push(DmaBufPlane {
offset: 0,
stride: stride as _,
fd: Rc::new(dmabuf),
});
let dmabuf = DmaBuf {
id: dma_buf_ids.next(),
width: width as _,
height: height as _,
format,
modifier: LINEAR_MODIFIER,
planes,
is_disjoint: Default::default(),
};
Ok(UdmabufBo {
buf: dmabuf,
size: size as _,
})
}
}
impl Allocator for Udmabuf {
@ -134,45 +191,12 @@ impl Allocator for Udmabuf {
if !modifiers.contains(&LINEAR_MODIFIER) {
return Err(UdmabufError::Modifier.into());
}
let height = height as u64;
let width = width as u64;
if height > 1 << 16 || width > 1 << 16 {
return Err(UdmabufError::Overflow.into());
}
let stride_mask = 255;
let stride = (width * format.bpp as u64 + stride_mask) & !stride_mask;
let size_mask = page_size() as u64 - 1;
let size = (height * stride + size_mask) & !size_mask;
let memfd = match uapi::memfd_create("udmabuf", MFD_ALLOW_SEALING) {
Ok(f) => f,
Err(e) => return Err(UdmabufError::Memfd(e.into()).into()),
};
if let Err(e) = uapi::ftruncate(memfd.raw(), size as _) {
return Err(UdmabufError::Truncate(e.into()).into());
}
if let Err(e) = uapi::fcntl_add_seals(memfd.raw(), F_SEAL_SHRINK) {
return Err(UdmabufError::Seal(e.into()).into());
}
let dmabuf = self.create_dmabuf_from_memfd(&memfd, 0, size as _)?;
let mut planes = PlaneVec::new();
planes.push(DmaBufPlane {
offset: 0,
stride: stride as _,
fd: Rc::new(dmabuf),
});
let dmabuf = DmaBuf {
id: dma_buf_ids.next(),
width: width as _,
height: height as _,
Ok(Rc::new(self.create_bo(
dma_buf_ids,
width,
height,
format,
modifier: LINEAR_MODIFIER,
planes,
is_disjoint: Default::default(),
};
Ok(Rc::new(UdmabufBo {
buf: dmabuf,
size: size as _,
}))
)?))
}
fn import_dmabuf(

3
src/video.rs
View file

@ -6,3 +6,6 @@ pub type Modifier = u64;
pub const INVALID_MODIFIER: Modifier = 0x00ff_ffff_ffff_ffff;
pub const LINEAR_MODIFIER: Modifier = 0;
// This is required by AMD and therefore everyone else uses this too.
pub const LINEAR_STRIDE_ALIGN: u64 = 256;

4
src/vulkan_core.rs
View file

@ -72,7 +72,7 @@ impl VulkanCoreInstance {
.map(|c| c.as_ptr())
.collect();
let app_info = ApplicationInfo::default()
.api_version(API_VERSION)
.api_version(VULKAN_API_VERSION)
.application_name(c"jay")
.application_version(1);
let mut severity = DebugUtilsMessageSeverityFlagsEXT::empty()
@ -240,4 +240,4 @@ impl Display for ApiVersionDisplay {
}
}
pub const API_VERSION: u32 = API_VERSION_1_3;
pub const VULKAN_API_VERSION: u32 = API_VERSION_1_3;