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-rwxr-xr-xpy/tests/sync.py226
1 files changed, 226 insertions, 0 deletions
diff --git a/py/tests/sync.py b/py/tests/sync.py
new file mode 100755
index 0000000..caa1d55
--- /dev/null
+++ b/py/tests/sync.py
@@ -0,0 +1,226 @@
+#!/usr/bin/python3
+
+import ctypes
+import fcntl
+import os
+import pykms
+import selectors
+import sys
+import time
+
+bar_width = 20
+bar_speed = 8
+
+class Timer(object):
+ timers = []
+
+ def __init__(self, timeout, callback, data):
+ self.timeout = time.clock_gettime(time.CLOCK_MONOTONIC) + timeout
+ self.callback = callback
+ self.data = data
+
+ print("adding timer %f" % self.timeout)
+ self.timers.append(self)
+ self.timers.sort(key=lambda timer: timer.timeout)
+
+ @classmethod
+ def fire(_class):
+ clk = time.clock_gettime(time.CLOCK_MONOTONIC)
+ while len(_class.timers) > 0:
+ timer = _class.timers[0]
+ if timer.timeout > clk:
+ break
+
+ del _class.timers[0]
+ print("fireing timer %f" % timer.timeout)
+ timer.callback(timer.data)
+
+ @classmethod
+ def next_timeout(_class):
+ clk = time.clock_gettime(time.CLOCK_MONOTONIC)
+ if len(_class.timers) == 0 or _class.timers[0].timeout < clk:
+ return None
+
+ return _class.timers[0].timeout - clk
+
+
+class Timeline(object):
+
+ class sw_sync_create_fence_data(ctypes.Structure):
+ _fields_ = [
+ ('value', ctypes.c_uint32),
+ ('name', ctypes.c_char * 32),
+ ('fence', ctypes.c_int32),
+ ]
+
+ SW_SYNC_IOC_CREATE_FENCE = (3 << 30) | (ctypes.sizeof(sw_sync_create_fence_data) << 16) | (ord('W') << 8) | (0 << 0)
+ SW_SYNC_IOC_INC = (1 << 30) | (ctypes.sizeof(ctypes.c_uint32) << 16) | (ord('W') << 8) | (1 << 0)
+
+ class SWSync(object):
+ def __init__(self, fd):
+ self.fd = fd
+ def __del__(self):
+ os.close(self.fd)
+
+ def __init__(self):
+ self.value = 0
+ try:
+ self.fd = os.open('/sys/kernel/debug/sync/sw_sync', 0);
+ except e:
+ raise RuntimeError('Failed to open sw_sync file')
+
+ def close(self):
+ os.close(self.fd)
+
+ def create_fence(self, value):
+ data = self.sw_sync_create_fence_data(value = value);
+ print("ioctl number %u" % self.SW_SYNC_IOC_CREATE_FENCE)
+ ret = fcntl.ioctl(self.fd, self.SW_SYNC_IOC_CREATE_FENCE, data);
+ if ret < 0:
+ raise RuntimeError('Failed to create fence')
+
+ return self.SWSync(data.fence)
+
+ def signal(self, value):
+ fcntl.ioctl(self.fd, self.SW_SYNC_IOC_INC, ctypes.c_uint32(value))
+ self.value += value
+
+
+class FlipHandler(pykms.PageFlipHandlerBase):
+ def __init__(self, crtc, width, height):
+ super().__init__()
+ self.crtc = crtc
+ self.timeline = Timeline()
+ self.bar_xpos = 0
+ self.front_buf = 0
+ self.fb1 = pykms.DumbFramebuffer(crtc.card, width, height, "XR24");
+ self.fb2 = pykms.DumbFramebuffer(crtc.card, width, height, "XR24");
+ self.flips = 0
+ self.flips_last = 0
+ self.frame_last = 0
+ self.time_last = 0
+
+ def handle_page_flip(self, frame, time):
+ if self.time_last == 0:
+ self.frame_last = frame
+ self.time_last = time
+
+ # Verify that the page flip hasn't completed before the timeline got
+ # signaled.
+ if self.timeline.value < 2 * self.flips - 1:
+ raise RuntimeError('Page flip %u for fence %u complete before timeline (%u)!' %
+ (self.flips, 2 * self.flips - 1, self.timeline.value))
+
+ self.flips += 1
+
+ # Print statistics every 5 seconds.
+ time_delta = time - self.time_last
+ if time_delta >= 5:
+ frame_delta = frame - self.frame_last
+ flips_delta = self.flips - self.flips_last
+ print("Frame rate: %f (%u/%u frames in %f s)" %
+ (frame_delta / time_delta, flips_delta, frame_delta, time_delta))
+
+ self.frame_last = frame
+ self.flips_last = self.flips
+ self.time_last = time
+
+ # Draw the color bar on the back buffer.
+ if self.front_buf == 0:
+ fb = self.fb2
+ else:
+ fb = self.fb1
+
+ self.front_buf = self.front_buf ^ 1
+
+ current_xpos = self.bar_xpos;
+ old_xpos = (current_xpos + (fb.width - bar_width - bar_speed)) % (fb.width - bar_width);
+ new_xpos = (current_xpos + bar_speed) % (fb.width - bar_width);
+
+ self.bar_xpos = new_xpos
+
+ pykms.draw_color_bar(fb, old_xpos, new_xpos, bar_width)
+
+ # Flip the buffers with an in fence located in the future. The atomic
+ # commit is asynchronous and returns immediately, but the flip should
+ # not complete before the fence gets signaled.
+ print("flipping with fence @%u, timeline is @%u" % (2 * self.flips - 1, self.timeline.value))
+ fence = self.timeline.create_fence(2 * self.flips - 1)
+ req = pykms.AtomicReq(self.crtc.card)
+ req.add(self.crtc.primary_plane, { 'FB_ID': fb.id, 'IN_FENCE_FD': fence.fd })
+ req.commit(self)
+ del fence
+
+ # Arm a timer to signal the fence in 0.5s.
+ def timeline_signal(timeline):
+ print("signaling timeline @%u" % timeline.value)
+ timeline.signal(2)
+
+ Timer(0.5, timeline_signal, self.timeline)
+
+
+def main(argv):
+ if len(argv) > 1:
+ conn_name = argv[1]
+ else:
+ conn_name = ''
+
+ card = pykms.Card()
+ if not card.has_atomic:
+ raise RuntimeError('This test requires atomic update support')
+
+ res = pykms.ResourceManager(card)
+ conn = res.reserve_connector(conn_name)
+ crtc = res.reserve_crtc(conn)
+ mode = conn.get_default_mode()
+
+ flip_handler = FlipHandler(crtc, mode.hdisplay, mode.vdisplay)
+
+ fb = flip_handler.fb1
+ pykms.draw_color_bar(fb, fb.width - bar_width - bar_speed, bar_speed, bar_width)
+ mode_blob = mode.blob(card)
+
+ req = pykms.AtomicReq(card)
+ req.add(conn, 'CRTC_ID', crtc.id)
+ req.add(crtc, { 'ACTIVE': 1, 'MODE_ID': mode_blob.id })
+ req.add(crtc.primary_plane, {
+ 'FB_ID': fb.id,
+ 'CRTC_ID': crtc.id,
+ 'SRC_X': 0 << 16,
+ 'SRC_Y': 0 << 16,
+ 'SRC_W': fb.width << 16,
+ 'SRC_H': fb.height << 16,
+ 'CRTC_X': 0,
+ 'CRTC_Y': 0,
+ 'CRTC_W': fb.width,
+ 'CRTC_H': fb.height,
+ })
+ ret = req.commit(flip_handler, allow_modeset = True)
+ if ret < 0:
+ raise RuntimeError('Atomic mode set failed with %d' % ret)
+
+ def readdrm(fileobj, mask):
+ card.call_page_flip_handlers()
+
+ def readkey(fileobj, mask):
+ # Signal the timeline to complete all pending page flips
+ flip_handler.timeline. signal(100)
+ sys.stdin.readline()
+ exit(0)
+
+ sel = selectors.DefaultSelector()
+ sel.register(card.fd, selectors.EVENT_READ, readdrm)
+ sel.register(sys.stdin, selectors.EVENT_READ, readkey)
+
+ while True:
+ timeout = Timer.next_timeout()
+ print("--> timeout %s" % repr(timeout))
+ events = sel.select(timeout)
+ for key, mask in events:
+ callback = key.data
+ callback(key.fileobj, mask)
+
+ Timer.fire()
+
+if __name__ == '__main__':
+ main(sys.argv)