#!/usr/bin/env python """ Copyright (c) 2021 Alex Forencich Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. """ import itertools import logging import os import random import subprocess import cocotb_test.simulator import pytest import cocotb from cocotb.clock import Clock from cocotb.triggers import RisingEdge, Event from cocotb.regression import TestFactory from cocotbext.axi import AxiStreamBus, AxiStreamFrame, AxiStreamSource, AxiStreamSink class TB(object): def __init__(self, dut): self.dut = dut s_count = len(dut.axis_switch_inst.s_axis_tvalid) m_count = len(dut.axis_switch_inst.m_axis_tvalid) self.log = logging.getLogger("cocotb.tb") self.log.setLevel(logging.DEBUG) cocotb.fork(Clock(dut.clk, 10, units="ns").start()) self.source = [AxiStreamSource(AxiStreamBus.from_prefix(dut, f"s{k:02d}_axis"), dut.clk, dut.rst) for k in range(s_count)] self.sink = [AxiStreamSink(AxiStreamBus.from_prefix(dut, f"m{k:02d}_axis"), dut.clk, dut.rst) for k in range(m_count)] def set_idle_generator(self, generator=None): if generator: for source in self.source: source.set_pause_generator(generator()) def set_backpressure_generator(self, generator=None): if generator: for sink in self.sink: sink.set_pause_generator(generator()) async def reset(self): self.dut.rst.setimmediatevalue(0) await RisingEdge(self.dut.clk) await RisingEdge(self.dut.clk) self.dut.rst <= 1 await RisingEdge(self.dut.clk) await RisingEdge(self.dut.clk) self.dut.rst <= 0 await RisingEdge(self.dut.clk) await RisingEdge(self.dut.clk) async def run_test(dut, payload_lengths=None, payload_data=None, idle_inserter=None, backpressure_inserter=None, s=0, m=0): tb = TB(dut) id_count = 2**len(tb.source[s].bus.tid) cur_id = 1 await tb.reset() tb.set_idle_generator(idle_inserter) tb.set_backpressure_generator(backpressure_inserter) test_frames = [] for test_data in [payload_data(x) for x in payload_lengths()]: test_frame = AxiStreamFrame(test_data) test_frame.tid = cur_id test_frame.tdest = m test_frames.append(test_frame) await tb.source[s].send(test_frame) cur_id = (cur_id + 1) % id_count for test_frame in test_frames: rx_frame = await tb.sink[m].recv() assert rx_frame.tdata == test_frame.tdata assert rx_frame.tid == test_frame.tid assert rx_frame.tdest == test_frame.tdest assert not rx_frame.tuser assert all(s.empty() for s in tb.sink) await RisingEdge(dut.clk) await RisingEdge(dut.clk) async def run_test_tuser_assert(dut, s=0, m=0): tb = TB(dut) await tb.reset() test_data = bytearray(itertools.islice(itertools.cycle(range(256)), 32)) test_frame = AxiStreamFrame(test_data, tuser=1, tdest=m) await tb.source[s].send(test_frame) rx_frame = await tb.sink[m].recv() assert rx_frame.tdata == test_data assert rx_frame.tuser assert all(s.empty() for s in tb.sink) await RisingEdge(dut.clk) await RisingEdge(dut.clk) async def run_arb_test(dut): tb = TB(dut) byte_lanes = tb.source[0].byte_lanes id_count = 2**len(tb.source[0].bus.tid) cur_id = 1 await tb.reset() test_frames = [] length = byte_lanes*16 test_data = bytearray(itertools.islice(itertools.cycle(range(256)), length)) for k in range(5): test_frame = AxiStreamFrame(test_data, tx_complete=Event()) test_frame.tid = cur_id test_frame.tdest = 0 src_ind = 0 if k == 0: src_ind = 0 elif k == 4: await test_frames[1].tx_complete.wait() for j in range(8): await RisingEdge(dut.clk) src_ind = 0 else: src_ind = 1 test_frames.append(test_frame) await tb.source[src_ind].send(test_frame) cur_id = (cur_id + 1) % id_count for k in [0, 1, 2, 4, 3]: test_frame = test_frames[k] rx_frame = await tb.sink[0].recv() assert rx_frame.tdata == test_frame.tdata assert rx_frame.tid == test_frame.tid assert rx_frame.tdest == test_frame.tdest assert not rx_frame.tuser assert all(s.empty() for s in tb.sink) await RisingEdge(dut.clk) await RisingEdge(dut.clk) async def run_stress_test(dut, idle_inserter=None, backpressure_inserter=None): tb = TB(dut) byte_lanes = tb.source[0].byte_lanes id_count = 2**len(tb.source[0].bus.tid) cur_id = 1 await tb.reset() tb.set_idle_generator(idle_inserter) tb.set_backpressure_generator(backpressure_inserter) test_frames = [[list() for y in tb.sink] for x in tb.source] for p in range(len(tb.source)): for k in range(128): length = random.randint(1, byte_lanes*16) test_data = bytearray(itertools.islice(itertools.cycle(range(256)), length)) test_frame = AxiStreamFrame(test_data) test_frame.tid = cur_id test_frame.tdest = random.randrange(len(tb.sink)) test_frames[p][test_frame.tdest].append(test_frame) await tb.source[p].send(test_frame) cur_id = (cur_id + 1) % id_count for lst in test_frames: while any(lst): rx_frame = await tb.sink[[x for x in lst if x][0][0].tdest].recv() test_frame = None for lst_a in test_frames: for lst_b in lst_a: if lst_b and lst_b[0].tid == rx_frame.tid: test_frame = lst_b.pop(0) break assert test_frame is not None assert rx_frame.tdata == test_frame.tdata assert rx_frame.tid == test_frame.tid assert rx_frame.tdest == test_frame.tdest assert not rx_frame.tuser assert all(s.empty() for s in tb.sink) await RisingEdge(dut.clk) await RisingEdge(dut.clk) def cycle_pause(): return itertools.cycle([1, 1, 1, 0]) def size_list(): data_width = len(cocotb.top.s00_axis_tdata) byte_width = data_width // 8 return list(range(1, byte_width*4+1))+[512]+[1]*64 def incrementing_payload(length): return bytearray(itertools.islice(itertools.cycle(range(256)), length)) if cocotb.SIM_NAME: s_count = len(cocotb.top.axis_switch_inst.s_axis_tvalid) m_count = len(cocotb.top.axis_switch_inst.m_axis_tvalid) factory = TestFactory(run_test) factory.add_option("payload_lengths", [size_list]) factory.add_option("payload_data", [incrementing_payload]) factory.add_option("idle_inserter", [None, cycle_pause]) factory.add_option("backpressure_inserter", [None, cycle_pause]) factory.add_option("s", range(min(s_count, 2))) factory.add_option("m", range(min(m_count, 2))) factory.generate_tests() for test in [run_test_tuser_assert]: factory = TestFactory(test) factory.add_option("s", range(min(s_count, 2))) factory.add_option("m", range(min(m_count, 2))) factory.generate_tests() if s_count > 1: factory = TestFactory(run_arb_test) factory.generate_tests() factory = TestFactory(run_stress_test) factory.add_option("idle_inserter", [None, cycle_pause]) factory.add_option("backpressure_inserter", [None, cycle_pause]) factory.generate_tests() # cocotb-test tests_dir = os.path.dirname(__file__) rtl_dir = os.path.abspath(os.path.join(tests_dir, '..', '..', 'rtl')) @pytest.mark.parametrize("data_width", [8, 16, 32]) @pytest.mark.parametrize("m_count", [1, 4]) @pytest.mark.parametrize("s_count", [1, 4]) def test_axis_switch(request, s_count, m_count, data_width): dut = "axis_switch" wrapper = f"{dut}_wrap_{s_count}x{m_count}" module = os.path.splitext(os.path.basename(__file__))[0] toplevel = wrapper # generate wrapper wrapper_file = os.path.join(tests_dir, f"{wrapper}.v") if not os.path.exists(wrapper_file): subprocess.Popen( [os.path.join(rtl_dir, f"{dut}_wrap.py"), "-p", f"{s_count}", f"{m_count}"], cwd=tests_dir ).wait() verilog_sources = [ wrapper_file, os.path.join(rtl_dir, f"{dut}.v"), os.path.join(rtl_dir, "axis_register.v"), os.path.join(rtl_dir, "arbiter.v"), os.path.join(rtl_dir, "priority_encoder.v"), ] parameters = {} parameters['S_COUNT'] = s_count parameters['M_COUNT'] = m_count parameters['DATA_WIDTH'] = data_width parameters['KEEP_ENABLE'] = int(parameters['DATA_WIDTH'] > 8) parameters['KEEP_WIDTH'] = parameters['DATA_WIDTH'] // 8 parameters['ID_ENABLE'] = 1 parameters['ID_WIDTH'] = 16 parameters['DEST_WIDTH'] = 8 parameters['USER_ENABLE'] = 1 parameters['USER_WIDTH'] = 1 parameters['S_REG_TYPE'] = 0 parameters['M_REG_TYPE'] = 2 parameters['ARB_TYPE_ROUND_ROBIN'] = 1 parameters['ARB_LSB_HIGH_PRIORITY'] = 1 extra_env = {f'PARAM_{k}': str(v) for k, v in parameters.items()} sim_build = os.path.join(tests_dir, "sim_build", request.node.name.replace('[', '-').replace(']', '')) cocotb_test.simulator.run( python_search=[tests_dir], verilog_sources=verilog_sources, toplevel=toplevel, module=module, parameters=parameters, sim_build=sim_build, extra_env=extra_env, )