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#![ warn(rust_2018_idioms) ]
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#[ macro_use ]
extern crate slog ;
use slog ::Drain ;
use smithay ::{
backend ::drm ::{
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device_bind ,
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legacy ::{ error ::Error , LegacyDrmDevice , LegacyDrmSurface } ,
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Device , DeviceHandler , RawSurface , Surface ,
} ,
reexports ::{
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calloop ::EventLoop ,
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drm ::{
buffer ::PixelFormat ,
control ::{
connector ::{ self , State as ConnectorState } ,
crtc ,
dumbbuffer ::DumbBuffer ,
encoder , framebuffer , Device as ControlDevice , ResourceInfo ,
} ,
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} ,
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} ,
} ;
use std ::{
fs ::{ File , OpenOptions } ,
io ::Error as IoError ,
rc ::Rc ,
sync ::Mutex ,
} ;
fn main ( ) {
let log = slog ::Logger ::root ( Mutex ::new ( slog_term ::term_full ( ) . fuse ( ) ) . fuse ( ) , o! ( ) ) ;
/*
* Initialize the drm backend
* /
// "Find" a suitable drm device
let mut options = OpenOptions ::new ( ) ;
options . read ( true ) ;
options . write ( true ) ;
let mut device = LegacyDrmDevice ::new ( options . open ( " /dev/dri/card0 " ) . unwrap ( ) , log . clone ( ) ) . unwrap ( ) ;
// Get a set of all modesetting resource handles (excluding planes):
let res_handles = Device ::resource_handles ( & device ) . unwrap ( ) ;
// Use first connected connector
let connector_info = res_handles
. connectors ( )
. iter ( )
. map ( | conn | Device ::resource_info ::< connector ::Info > ( & device , * conn ) . unwrap ( ) )
. find ( | conn | conn . connection_state ( ) = = ConnectorState ::Connected )
. unwrap ( ) ;
// Use the first encoder
let encoder_info = Device ::resource_info ::< encoder ::Info > ( & device , connector_info . encoders ( ) [ 0 ] ) . unwrap ( ) ;
// use the connected crtc if any
let crtc = encoder_info
. current_crtc ( )
// or use the first one that is compatible with the encoder
. unwrap_or_else ( | | {
* res_handles
. filter_crtcs ( encoder_info . possible_crtcs ( ) )
. iter ( )
. next ( )
. unwrap ( )
} ) ;
// Assuming we found a good connector and loaded the info into `connector_info`
let mode = connector_info . modes ( ) [ 0 ] ; // Use first mode (usually highest resoltion, but in reality you should filter and sort and check and match with other connectors, if you use more then one.)
// Initialize the hardware backend
let surface = Rc ::new ( device . create_surface ( crtc ) . unwrap ( ) ) ;
surface . use_mode ( Some ( mode ) ) . unwrap ( ) ;
for conn in surface . current_connectors ( ) . into_iter ( ) {
if conn ! = connector_info . handle ( ) {
surface . remove_connector ( conn ) . unwrap ( ) ;
}
}
surface . add_connector ( connector_info . handle ( ) ) . unwrap ( ) ;
/*
* Lets create buffers and framebuffers .
* We use drm - rs DumbBuffers , because they always work and require little to no setup .
* But they are very slow , this is just for demonstration purposes .
* /
let ( w , h ) = mode . size ( ) ;
let front_buffer =
DumbBuffer ::create_from_device ( & device , ( w as u32 , h as u32 ) , PixelFormat ::XRGB8888 ) . unwrap ( ) ;
let front_framebuffer = device . create_framebuffer ( & front_buffer ) . unwrap ( ) ;
let back_buffer =
DumbBuffer ::create_from_device ( & device , ( w as u32 , h as u32 ) , PixelFormat ::XRGB8888 ) . unwrap ( ) ;
let back_framebuffer = device . create_framebuffer ( & back_buffer ) . unwrap ( ) ;
device . set_handler ( DrmHandlerImpl {
current : front_framebuffer . handle ( ) ,
front : ( front_buffer , front_framebuffer . clone ( ) ) ,
back : ( back_buffer , back_framebuffer ) ,
surface : surface . clone ( ) ,
} ) ;
/*
* Register the DrmDevice on the EventLoop
* /
let mut event_loop = EventLoop ::< ( ) > ::new ( ) . unwrap ( ) ;
let _source = device_bind ( & event_loop . handle ( ) , device )
. map_err ( | err | -> IoError { err . into ( ) } )
. unwrap ( ) ;
// Start rendering
if surface . commit_pending ( ) {
surface . commit ( front_framebuffer . handle ( ) ) . unwrap ( ) ;
}
surface . page_flip ( front_framebuffer . handle ( ) ) . unwrap ( ) ;
// Run
event_loop . run ( None , & mut ( ) , | _ | { } ) . unwrap ( ) ;
}
pub struct DrmHandlerImpl {
front : ( DumbBuffer , framebuffer ::Info ) ,
back : ( DumbBuffer , framebuffer ::Info ) ,
current : framebuffer ::Handle ,
surface : Rc < LegacyDrmSurface < File > > ,
}
impl DeviceHandler for DrmHandlerImpl {
type Device = LegacyDrmDevice < File > ;
fn vblank ( & mut self , _crtc : crtc ::Handle ) {
{
// Swap and map buffer
let mut mapping = if self . current = = self . front . 1. handle ( ) {
self . current = self . back . 1. handle ( ) ;
self . back . 0. map ( & * self . surface ) . unwrap ( )
} else {
self . current = self . front . 1. handle ( ) ;
self . front . 0. map ( & * self . surface ) . unwrap ( )
} ;
// now we could render to the mapping via software rendering.
// this example just sets some grey color
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for x in mapping . as_mut ( ) {
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* x = 128 ;
}
}
self . surface . page_flip ( self . current ) . unwrap ( ) ;
}
fn error ( & mut self , error : Error ) {
panic! ( " {:?} " , error ) ;
}
}