mirror of
https://github.com/AsahiLinux/m1n1
synced 2024-11-22 14:43:08 +00:00
16a6b41c98
Not much to see here, most of the juice is over at:
https://github.com/eiln/avd.git
The kernel driver (m1n1.fw.avd) only really pipes the instruction stream
into the respective hardware FIFOs and then hushes the interrupt lines.
Most of the work (bitstream syntax parsing and instruction generation)
is done in the avid repo above.
I'm hoping to keep this userland-kernel separation in the very imminent
actual driver.
experiments/avd.py: Decode on the command line. Read file for usage.
experiments/avd_e.py: Decode via emulated instruction stream.
experiments/avd_f.py: Decode via Cortex-M3 firmware (for debugging).
hv/trace_avd.py: Tracer. Read file for usage.
m1n1/fw/avd/__init__.py: Driver base class (power, tunables, etc).
m1n1/fw/avd/decoder.py: Codec-specific decode logic + mini media player.
Signed-off-by: Eileen Yoon <eyn@gmx.com>
79 lines
2.9 KiB
Python
Executable file
79 lines
2.9 KiB
Python
Executable file
#!/usr/bin/env python3
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# SPDX-License-Identifier: MIT
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import sys, pathlib, argparse, os
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sys.path.append(str(pathlib.Path(__file__).resolve().parents[1]))
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sys.path.append("/home/eileen/asahi/avd") # git clone https://github.com/eiln/avd.git
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# Decode via firmware-emulated AVD instruction stream
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from m1n1.setup import *
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from m1n1.utils import *
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from m1n1.fw.avd import *
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from avd_emu import AVDEmulator
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from tools.common import ffprobe
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if __name__ == "__main__":
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parser = argparse.ArgumentParser()
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parser.add_argument('-i', '--input', type=str, required=True, help="input bitstream")
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parser.add_argument('-d', '--dir', type=str, required=True, help="path to trace dir")
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parser.add_argument('-f', '--firmware', type=str, default="data/fw.bin", help="path to fw")
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parser.add_argument('-n', '--num', type=int, default=1, help="count")
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parser.add_argument('-a', '--all', action='store_true', help="run all")
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parser.add_argument('-x', '--stfu', action='store_true')
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parser.add_argument('-p', '--poll', action='store_true', help="poll iommu space")
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parser.add_argument('--save-raw', action='store_true', help="save raw yuv")
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args = parser.parse_args()
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mode = ffprobe(args.input)
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emu = AVDEmulator(args.firmware, stfu=True)
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emu.start()
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paths = os.listdir(os.path.join(args.dir))
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paths = sorted([os.path.join(args.dir, path) for path in paths if "frame" in path])
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assert(len(paths))
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num = len(paths) if args.all else args.num
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num = min(len(paths), num)
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if (mode == "h264"):
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from avid.h264.decoder import AVDH264Decoder
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dec = AVDH264Decoder()
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elif (mode == "h265"):
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from avid.h265.decoder import AVDH265Decoder
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dec = AVDH265Decoder()
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elif (mode == "vp09"):
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from avid.vp9.decoder import AVDVP9Decoder
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dec = AVDVP9Decoder()
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else:
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raise RuntimeError("unsupported codec")
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if (args.stfu):
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dec.stfu = True
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dec.hal.stfu = True
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units = dec.setup(args.input)
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avd = AVDDevice(u)
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if (mode == "h264"):
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avd.decoder = AVDH264Dec(avd)
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elif (mode == "h265"):
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avd.decoder = AVDH265Dec(avd)
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elif (mode == "vp09"):
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avd.decoder = AVDVP9Dec(avd)
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else:
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raise RuntimeError("unsupported codec")
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avd.decoder.winname = args.input
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if (args.stfu):
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avd.stfu = True
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avd.boot()
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avd.ioalloc_at(0x0, 0xf000000, stream=0)
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if (args.poll):
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avd.iomon.add(0x0, 0xf000000)
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for i,unit in enumerate(units[:num]):
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print(unit)
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inst = dec.decode(unit)
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path = paths[i]
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print(path)
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inst = emu.avd_cm3_cmd_decode(path)
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avd.decoder.decode(dec.ctx, unit, inst)
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if (args.save_raw):
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y_data = avd.ioread(dec.ctx.y_addr, dec.ctx.luma_size, stream=0)
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uv_data = avd.ioread(dec.ctx.uv_addr, dec.ctx.chroma_size, stream=0)
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open("data/raw-emu/%03d.bin" % (i), "wb").write(y_data + uv_data)
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