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#!/usr/bin/python3
# SPDX-License-Identifier: GPL-2.0-or-later
# SPDX-FileCopyrightText: 2017-2019 Renesas Electronics Corporation
import copy
import crcmod
import kmstest
import pykms
import tempfile
class Composer(object):
# Manage the composition of planes on the screen by computing the source
# and destination rectangles of each plane.
#
# Stack the plane, starting at START_POINT, with a fixed INCREMENT.
#
START_POINT = kmstest.Point(0, 0)
INCREMENT = kmstest.Dist(50, 50)
# The CRC initial value is XORed with the final XOR value, so we need to
# pass 0 to get the desired 0xffffffff initial value.
CRC = crcmod.Crc(0x104c11db7, 0x00000000, True, 0xffffffff)
def __init__(self, mode, crtc, planes, fb):
self.__screen_size = kmstest.Size(mode.hdisplay, mode.vdisplay)
self.__fb_size = kmstest.Size(fb.width, fb.height)
self.__planes_positions = {}
self.__crcs = {}
# Dump the contents of the frame buffer to compute the CRCs.
file = tempfile.TemporaryFile()
pykms.dump_framebuffer(fb, file.fileno())
file.seek(0)
image = file.read()
file.close()
position = copy.copy(Composer.START_POINT)
for plane in planes:
self.__planes_positions[plane] = copy.copy(position)
self.__crcs[plane] = self.__plane_crc(plane, image)
position.move(Composer.INCREMENT)
self.__crcs[crtc] = self.__crtc_crc(planes, image)
def source(self, plane):
pos = self.__planes_positions[plane]
return kmstest.Rect(0, 0,
max(0, self.__fb_size.width - pos.x),
max(0, self.__fb_size.height - pos.y))
def destination(self, plane):
pos = self.__planes_positions[plane]
return kmstest.Rect(pos.x, pos.y,
max(0, self.__fb_size.width - pos.x),
max(0, self.__fb_size.height - pos.y))
def crc(self, obj):
return self.__crcs[obj]
def __plane_crc(self, plane, image):
# Compute the reference CRC for a plane. Only the visible part of the
# plane is used by the hardware.
crcg = Composer.CRC.new()
src = self.source(plane)
if src.isEmpty():
return 0
for y in range(src.height):
src_offset = ((src.top + y) * self.__fb_size.width + src.left) * 4
crcg.update(image[src_offset:src_offset+src.width*4])
return crcg.crcValue
def __crtc_crc(self, planes, image):
# Compute the reference CRC for the composed display output. Start with
# a black background and compose the planes.
crcg = Composer.CRC.new()
# The background is set to black, with and alpha value of 255 (opaque)
# to match the BRx configuration.
output = [0, 0, 0, 255] * (self.__screen_size.width * self.__screen_size.height)
# Compose planes on top.
for plane in planes:
src = self.source(plane)
dst = self.destination(plane)
for y in range(src.height):
src_offset = ((src.top + y) * self.__fb_size.width + src.left) * 4
dst_offset = ((dst.top + y) * self.__screen_size.width + dst.left) * 4
output[dst_offset:dst_offset+src.width*4] = image[src_offset:src_offset+src.width*4]
crcg.update(bytes(output))
return crcg.crcValue
class CRCTest(kmstest.KMSTest):
"""Test CRC calculation on pipeline output."""
def handle_page_flip(self, frame, time):
self.logger.log('Page flip complete')
def main(self):
# Create the connectors to CRTCs map
connectors = {}
for connector in self.output_connectors():
# Skip disconnected connectors
if not connector.connected():
continue
# Add the connector to the map
for crtc in connector.get_possible_crtcs():
if crtc not in connectors:
connectors[crtc] = connector
for crtc in self.card.crtcs:
self.start(f'CRC calculation on CRTC {crtc.id}')
# Get the connector and default mode
try:
connector = connectors[crtc];
mode = connector.get_default_mode()
except KeyError:
self.skip('no connector or mode available')
continue
# List planes available for the CRTC
planes = []
for plane in self.card.planes:
if plane.supports_crtc(crtc):
planes.append(plane)
if len(planes) == 0:
self.skip('no plane available for CRTC')
continue
self.logger.log(f'Testing connector {connector.fullname}, CRTC {crtc.id}, '
f'mode {mode.name} with {len(planes)} planes')
# Create a frame buffer and draw a test pattern.
fb = pykms.DumbFramebuffer(self.card, mode.hdisplay, mode.vdisplay, 'XR24')
pykms.draw_test_pattern(fb)
# Create a composer. This will compute the reference CRCs.
composer = Composer(mode, crtc, planes, fb)
# Set the mode and add all planes
ret = self.atomic_crtc_mode_set(crtc, connector, mode, sync=True)
if ret < 0:
self.fail(f'atomic mode set failed with {ret}')
continue
req = kmstest.AtomicRequest(self)
for plane in planes:
source = composer.source(plane)
destination = composer.destination(plane)
req.add(plane, {
'FB_ID': fb.id,
'CRTC_ID': crtc.id,
'SRC_X': int(source.left * 65536),
'SRC_Y': int(source.top * 65536),
'SRC_W': int(source.width * 65536),
'SRC_H': int(source.height * 65536),
'CRTC_X': destination.left,
'CRTC_Y': destination.top,
'CRTC_W': destination.width,
'CRTC_H': destination.height,
})
ret = req.commit(0)
if ret < 0:
self.fail(f'atomic plane set failed with {ret}')
continue
# Wait for one second and make sure the page flip has completed.
self.run(1)
if self.flips == 0:
self.fail('No page flip registered')
continue
sources = [crtc] + planes
for source in sources:
if source == crtc:
crc_source = 'auto'
else:
crc_source = f'plane{source.id}'
self.logger.log(f'Computing CRC from source {crc_source}')
# Set the CRC source and acquire 10 CRC values. Discard the
# first value, as the device is running and the new source
# needs one frame to take effect.
crc_reader = kmstest.CRCReader(crtc)
crc_reader.start(crc_source)
crcs = crc_reader.read(10)
crc_reader.stop()
crcs = [c.crcs[0] for c in crcs[1:]]
self.logger.log(f'CRC value[0] 0x{crcs[0]:08x}')
failures = 0
ref_crc = composer.crc(source)
for i in range(len(crcs)):
crc = crcs[i]
if crc != ref_crc:
self.logger.log(f'CRC value[{i}] 0x{crc:08x} does not match reference 0x{ref_crc:08x}')
failures += 1
if failures:
self.fail(f'Incorrect CRC values on source {crc_source}')
break
else:
self.success()
self.atomic_crtc_disable(crtc)
CRCTest().execute()
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