346 lines
9.6 KiB
Python
346 lines
9.6 KiB
Python
# SPDX-License-Identifier: AGPL-3.0-Only
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# Copyright (C) 2022 Sean Anderson <seanga2@gmail.com>
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import enum
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import random
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import zlib
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import cocotb
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from cocotb.binary import BinaryValue
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from cocotb.clock import Clock
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from cocotb.regression import TestFactory
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from cocotb.triggers import ClockCycles, Edge, FallingEdge, First, RisingEdge, Timer
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from cocotb.utils import get_sim_time, get_sim_steps
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from . import axis_replay_buffer
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from .pcs_rx import mii_recv_packet
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from .util import alist, lookahead, timeout
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import os
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skip_slow = not os.environ.get('RUN_SLOW', False)
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async def init(mac):
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mac.clk.value = BinaryValue('Z')
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mac.rst.value = 1
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mac.mii_col.value = 0
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mac.mii_crs.value = 0
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mac.axis_valid.value = 0
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mac.axis_err.value = 0
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mac.short_backoff.value = 1
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mac.half_duplex.value = 1
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await Timer(1)
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mac.rst.value = 0
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await cocotb.start(Clock(mac.clk, 8, units='ns').start())
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await FallingEdge(mac.clk)
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def send_packet(mac, packet, **kwargs):
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return axis_replay_buffer.send_packet({
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'clk': mac.clk,
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'data': mac.axis_data,
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'err': mac.axis_err,
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'valid': mac.axis_valid,
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'last': mac.axis_last,
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'ready': mac.axis_ready,
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}, packet, **kwargs)
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class MACError(Exception):
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pass
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class FrameCheckError(MACError):
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pass
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class AlignmentError(MACError):
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pass
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class PaddingError(MACError):
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pass
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async def nibbles_to_bytes(nibbles):
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while True:
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try:
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lo = await anext(nibbles)
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except StopAsyncIteration:
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return
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try:
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hi = await anext(nibbles)
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except StopAsyncIteration:
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raise AlignmentError
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yield hi << 4 | lo
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SFD = 0xd5
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async def skip_preamble(packet):
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saw_ssd = False
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async for byte in packet:
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if saw_ssd:
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yield byte
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elif byte == SFD:
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saw_ssd = True
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FCS_GOOD = zlib.crc32(b'\0\0\0\0')
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async def check_fcs(packet):
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packet = await alist(packet)
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fcs = zlib.crc32(bytes(packet))
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if fcs != FCS_GOOD:
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raise FrameCheckError
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elif len(packet) < 64:
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raise PaddingError
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return packet[:-4]
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def recv_packet(mac):
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return check_fcs(skip_preamble(nibbles_to_bytes(mii_recv_packet(mac, {
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'ce': mac.mii_tx_ce,
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'data': mac.mii_txd,
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'valid': mac.mii_tx_en,
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}))))
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async def expect_bad_fcs(mac):
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try:
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await recv_packet(mac)
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except FrameCheckError:
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pass
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else:
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raise AssertionError
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class Status(enum.Enum):
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OK = enum.auto()
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GAVE_UP = enum.auto()
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LATE_COLLISION = enum.auto()
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UNDERFLOW = enum.auto()
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async def get_status(mac):
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ok = 0
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gave_up = 0
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late = 0
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underflow = 0
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while not (ok or gave_up or late or underflow) or mac.mii_tx_en.value:
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ok += mac.transmit_ok.value
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gave_up += mac.gave_up.value
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late += mac.late_collision.value
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underflow += mac.underflow.value
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await FallingEdge(mac.clk)
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assert ok + gave_up + late + underflow == 1
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if ok:
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return Status.OK
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elif gave_up:
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return Status.GAVE_UP
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elif late:
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return Status.LATE_COLLISION
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elif underflow:
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return Status.UNDERFLOW
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async def start(mac, packet, **kwargs):
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send = await cocotb.start(send_packet(mac, packet, **kwargs))
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status = await cocotb.start(get_status(mac))
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return send, status
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BIT_TIME_NS = 10
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BYTE_TIME_NS = 8 * BIT_TIME_NS
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async def collide(mac, ns, duration=16):
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while not mac.mii_tx_en.value:
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await FallingEdge(mac.clk)
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if ns > 4:
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await Timer(ns - 4, 'ns')
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mac.mii_col.value = 1
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await Timer(duration, 'ns')
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mac.mii_col.value = 0
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def randtime(min_bytes, max_bytes):
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return random.randrange(min_bytes * BYTE_TIME_NS, max_bytes * BYTE_TIME_NS)
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async def restart(mac, ns):
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await cocotb.start(collide(mac, ns))
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await expect_bad_fcs(mac)
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def compare(actual, expected):
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if actual[:len(expected)] != expected:
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print(actual)
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print(expected)
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raise AssertionError
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async def ok(mac, packet, status, ns=None):
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if ns is not None:
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await cocotb.start(collide(mac, ns))
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compare(await recv_packet(mac), packet)
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assert await status.join() == Status.OK
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@timeout(50, 'us')
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async def test_send(mac, ratio):
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await init(mac)
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packets = (
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list(range(32)),
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list(range(56)),
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list(range(256)),
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)
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async def send_packets():
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for packet in packets:
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await send_packet(mac, packet, ratio=ratio)
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await cocotb.start(send_packets())
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for i, packet in enumerate(packets):
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status = await cocotb.start(get_status(mac))
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recv = await cocotb.start(recv_packet(mac))
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# Measure the IPG to ensure throughput
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start = get_sim_time('step')
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while not mac.mii_tx_en.value:
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await RisingEdge(mac.clk)
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# The first IPG may not be exact
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if i:
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assert get_sim_time('step') - start == get_sim_steps(12 * 80 - 4, 'ns')
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compare(await recv.join(), packet)
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assert await status.join() == Status.OK
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send_tests = TestFactory(test_send)
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send_tests.add_option('ratio', (1, BIT_TIME_NS))
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send_tests.generate_tests()
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@cocotb.test(timeout_time=100, timeout_unit='us')
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async def test_underflow(mac):
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await init(mac)
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async def underflow(mac, send, status):
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await expect_bad_fcs(mac)
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await send.join()
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assert await status.join() == Status.UNDERFLOW
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send, status = await start(mac, range(32), ratio=30)
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await underflow(mac, send, status)
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#from math import floor
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# Solution to (IPG + PREAMBLE + x) * BIT_TIME = ratio * x
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# end = floor(200 / (ratio - 10))
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for x in (56, 58, 60):
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# Error on last byte
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send, status = await start(mac, [*range(x), None])
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await underflow(mac, send, status)
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# Error on last byte valid for one cycle
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send, status = await start(mac, [*range(x), None],
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last_extra=(12 + 8 + x) * 10 - x + 5)
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await underflow(mac, send, status)
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# Error with more to come
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send, status = await start(mac, [*range(x), None, 1])
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await underflow(mac, send, status)
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# Underflow with collision
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send, status = await start(mac, [*range(x), None], last_extra=(12 + 8 + x) * 10)
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await restart(mac, (8 + x) * BYTE_TIME_NS - 1)
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if x <= 56:
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await underflow(mac, send, status)
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else:
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await send.join()
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assert await status.join() == Status.LATE_COLLISION
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@cocotb.test(timeout_time=1250, timeout_unit='us', skip=skip_slow)
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async def test_backoff(mac):
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await init(mac)
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packet = list(range(32))
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for collisions in (15, 16):
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send, status = await start(mac, packet)
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then = None
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for n in range(collisions):
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await restart(mac, 0)
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now = get_sim_time('step')
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if then is not None:
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assert now - then <= \
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get_sim_steps((8 + 4 + 12 + 2 ** min(n, 10)) * BYTE_TIME_NS, 'ns')
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then = now
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if collisions == 16:
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assert await status.join() == Status.GAVE_UP
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else:
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await ok(mac, packet, status)
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@cocotb.test(timeout_time=10, timeout_unit='us')
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async def test_defer(mac):
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await init(mac)
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# Skip to the end of IPG_LATE
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mac.mii_crs.value = 1
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await Timer(13 * BYTE_TIME_NS, 'ns')
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packet = list(range(32))
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send, status = await start(mac, packet)
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# Ensure IPG_EARLY works
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await Timer(13 * BYTE_TIME_NS, 'ns')
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assert not mac.mii_tx_en.value
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# Test the early 2/3s; not exact since the last 1/3 takes the slack
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mac.mii_crs.value = 0
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await Timer(7 * BYTE_TIME_NS, 'ns')
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mac.mii_crs.value = 1
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await Timer(6 * BYTE_TIME_NS, 'ns')
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assert not mac.mii_tx_en.value
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# And the late
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mac.mii_crs.value = 0
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await Timer(8 * BYTE_TIME_NS, 'ns')
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mac.mii_crs.value = 1
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await Timer(5 * BYTE_TIME_NS, 'ns')
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assert mac.mii_tx_en.value
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assert await status.join() == Status.OK
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@cocotb.test(timeout_time=150, timeout_unit='us')
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async def test_collision(mac):
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await init(mac)
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async def late(mac, packet, ns):
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send, status = await start(mac, packet)
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await restart(mac, ns)
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await send.join()
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assert await status.join() == Status.LATE_COLLISION
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packet = list(range(32))
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send, status = await start(mac, packet)
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await restart(mac, randtime(0, 8))
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await restart(mac, randtime(8, 40))
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await restart(mac, randtime(40, 64))
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await restart(mac, 64 * BYTE_TIME_NS - 1)
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await ok(mac, packet, status, 72 * BYTE_TIME_NS)
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await late(mac, packet, 64 * BYTE_TIME_NS)
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await late(mac, packet, randtime(64, 72))
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await late(mac, packet, (8 + 64) * BYTE_TIME_NS - 1)
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packet = list(range(256))
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send, status = await start(mac, packet)
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await restart(mac, randtime(8, 40))
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await restart(mac, randtime(40, 64))
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await restart(mac, 64 * BYTE_TIME_NS - 1)
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await ok(mac, packet, status, (8 + 256 + 4) * BYTE_TIME_NS)
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await late(mac, packet, 64 * BYTE_TIME_NS)
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await late(mac, packet, randtime(64, 256))
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await late(mac, packet, 72 * BYTE_TIME_NS - 1)
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@cocotb.test(timeout_time=10, timeout_unit='us')
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async def test_full_duplex(mac):
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await init(mac)
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mac.half_duplex.value = 0
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# Skip to the end of IPG_LATE
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await Timer(13 * BYTE_TIME_NS, 'ns')
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mac.mii_crs.value = 1
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packet = list(range(32))
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send, status = await start(mac, packet)
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recv = await cocotb.start(ok(mac, packet, status, 16 * BYTE_TIME_NS))
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# No deferral
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await Timer(13 * BYTE_TIME_NS, 'ns')
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assert mac.mii_tx_en.value
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# No collision
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await recv
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