# This file is Copyright (c) 2015-2018 Florent Kermarrec # License: BSD import unittest from migen import * from litex.soc.interconnect import wishbone from litex.soc.interconnect.stream_sim import * from liteeth.common import * from liteeth.core import LiteEthUDPIPCore from liteeth.frontend.etherbone import LiteEthEtherbone from test.model import phy, mac, arp, ip, udp, etherbone from litex.gen.sim import * ip_address = 0x12345678 mac_address = 0x12345678abcd class DUT(Module): def __init__(self): self.submodules.phy_model = phy.PHY(8, debug=False) self.submodules.mac_model = mac.MAC(self.phy_model, debug=False, loopback=False) self.submodules.arp_model = arp.ARP(self.mac_model, mac_address, ip_address, debug=False) self.submodules.ip_model = ip.IP(self.mac_model, mac_address, ip_address, debug=False, loopback=False) self.submodules.udp_model = udp.UDP(self.ip_model, ip_address, debug=False, loopback=False) self.submodules.etherbone_model = etherbone.Etherbone(self.udp_model, debug=False) self.submodules.core = LiteEthUDPIPCore(self.phy_model, mac_address, ip_address, 100000) self.submodules.etherbone = LiteEthEtherbone(self.core.udp, 0x1234) self.submodules.sram = wishbone.SRAM(1024) self.submodules.interconnect = wishbone.InterconnectPointToPoint(self.etherbone.wishbone.bus, self.sram.bus) def main_generator(dut): test_probe = True test_writes = True test_reads = True # test probe if test_probe: packet = etherbone.EtherbonePacket() packet.pf = 1 dut.etherbone_model.send(packet) yield from dut.etherbone_model.receive() print("probe: " + str(bool(dut.etherbone_model.rx_packet.pr))) for i in range(2): # test writes if test_writes: writes_datas = [j for j in range(4)] writes = etherbone.EtherboneWrites(base_addr=0x1000, datas=writes_datas) record = etherbone.EtherboneRecord() record.writes = writes record.reads = None record.bca = 0 record.rca = 0 record.rff = 0 record.cyc = 0 record.wca = 0 record.wff = 0 record.byte_enable = 0xf record.wcount = len(writes_datas) record.rcount = 0 packet = etherbone.EtherbonePacket() packet.records = [record] dut.etherbone_model.send(packet) for i in range(256): yield # test reads if test_reads: reads_addrs = [0x1000 + 4*j for j in range(4)] reads = etherbone.EtherboneReads(base_ret_addr=0x1000, addrs=reads_addrs) record = etherbone.EtherboneRecord() record.writes = None record.reads = reads record.bca = 0 record.rca = 0 record.rff = 0 record.cyc = 0 record.wca = 0 record.wff = 0 record.byte_enable = 0xf record.wcount = 0 record.rcount = len(reads_addrs) packet = etherbone.EtherbonePacket() packet.records = [record] dut.etherbone_model.send(packet) yield from dut.etherbone_model.receive() loopback_writes_datas = [] loopback_writes_datas = dut.etherbone_model.rx_packet.records.pop().writes.get_datas() # check resultss s, l, e = check(writes_datas, loopback_writes_datas) print("shift " + str(s) + " / length " + str(l) + " / errors " + str(e)) class TestEtherbone(unittest.TestCase): def test_etherbone(self): dut = DUT() generators = { "sys" : [main_generator(dut)], "eth_tx": [dut.phy_model.phy_sink.generator(), dut.phy_model.generator()], "eth_rx": dut.phy_model.phy_source.generator() } clocks = {"sys": 10, "eth_rx": 10, "eth_tx": 10} run_simulation(dut, generators, clocks, vcd_name="sim.vcd")