liteeth/test/udp_tb.py

from migen import *

from litex.soc.interconnect import wishbone

from liteeth.common import *
from liteeth.core import LiteEthUDPIPCore

from test.common import *
from test.model import phy, mac, arp, ip, udp

ip_address = 0x12345678
mac_address = 0x12345678abcd


class TB(Module):
    def __init__(self, dw=8):
        self.dw = dw
        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=True)

        self.submodules.core = LiteEthUDPIPCore(self.phy_model, mac_address, ip_address, 100000)
        udp_port = self.core.udp.crossbar.get_port(0x5678, dw)
        self.submodules.streamer = PacketStreamer(eth_udp_user_description(dw))
        self.submodules.logger = PacketLogger(eth_udp_user_description(dw))
        self.comb += [
            Record.connect(self.streamer.source, udp_port.sink),
            udp_port.sink.ip_address.eq(0x12345678),
            udp_port.sink.src_port.eq(0x1234),
            udp_port.sink.dst_port.eq(0x5678),
            udp_port.sink.length.eq(64//(dw//8)),
            Record.connect(udp_port.source, self.logger.sink)
        ]

def main_generator(dut):
    packet = Packet([i for i in range(64//(dut.dw//8))])
    dut.streamer.send(packet)
    yield from dut.logger.receive()

    # check results
    s, l, e = check(packet, dut.logger.packet)
    print("shift " + str(s) + " / length " + str(l) + " / errors " + str(e))

    # XXX: find a way to exit properly
    import sys
    sys.exit()

if __name__ == "__main__":
    tb = TB(8)
    generators = {
        "sys" :   [main_generator(tb),
                   tb.streamer.generator(),
                   tb.logger.generator()],
        "eth_tx": [tb.phy_model.phy_sink.generator(),
                   tb.phy_model.generator()],
        "eth_rx":  tb.phy_model.phy_source.generator()
    }
    clocks = {"sys":    10,
              "eth_rx": 10,
              "eth_tx": 10}
    run_simulation(tb, generators, clocks, vcd_name="sim.vcd")
start adapting simulations to new migen (still some issues with Migen simulator) Simulator issues: - MultiReg not simulated correctly (I've used direct instantiation of MultiRegImpl to get simulation working) - MemoryArray with granularity != 1 raise NotImplementedError 2015-11-12 17:09:37 -05:00			`from migen import *`

			`from litex.soc.interconnect import wishbone`
init repo 2015-09-07 07:28:02 -04:00
fix imports 2015-09-08 03:50:45 -04:00			`from liteeth.common import *`
			`from liteeth.core import LiteEthUDPIPCore`
init repo 2015-09-07 07:28:02 -04:00
fix simulations (adapt to new organization) and and all target in Makefile to for regression testing 2015-09-12 14:53:14 -04:00			`from test.common import *`
			`from test.model import phy, mac, arp, ip, udp`
init repo 2015-09-07 07:28:02 -04:00
			`ip_address = 0x12345678`
			`mac_address = 0x12345678abcd`


			`class TB(Module):`
			`def __init__(self, dw=8):`
			`self.dw = dw`
			`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=True)`

			`self.submodules.core = LiteEthUDPIPCore(self.phy_model, mac_address, ip_address, 100000)`
			`udp_port = self.core.udp.crossbar.get_port(0x5678, dw)`
			`self.submodules.streamer = PacketStreamer(eth_udp_user_description(dw))`
			`self.submodules.logger = PacketLogger(eth_udp_user_description(dw))`
			`self.comb += [`
			`Record.connect(self.streamer.source, udp_port.sink),`
			`udp_port.sink.ip_address.eq(0x12345678),`
			`udp_port.sink.src_port.eq(0x1234),`
			`udp_port.sink.dst_port.eq(0x5678),`
			`udp_port.sink.length.eq(64//(dw//8)),`
			`Record.connect(udp_port.source, self.logger.sink)`
			`]`

start adapting simulations to new migen (still some issues with Migen simulator) Simulator issues: - MultiReg not simulated correctly (I've used direct instantiation of MultiRegImpl to get simulation working) - MemoryArray with granularity != 1 raise NotImplementedError 2015-11-12 17:09:37 -05:00			`def main_generator(dut):`
			`packet = Packet([i for i in range(64//(dut.dw//8))])`
			`dut.streamer.send(packet)`
			`yield from dut.logger.receive()`
init repo 2015-09-07 07:28:02 -04:00
start adapting simulations to new migen (still some issues with Migen simulator) Simulator issues: - MultiReg not simulated correctly (I've used direct instantiation of MultiRegImpl to get simulation working) - MemoryArray with granularity != 1 raise NotImplementedError 2015-11-12 17:09:37 -05:00			`# check results`
			`s, l, e = check(packet, dut.logger.packet)`
			`print("shift " + str(s) + " / length " + str(l) + " / errors " + str(e))`
init repo 2015-09-07 07:28:02 -04:00
start adapting simulations to new migen (still some issues with Migen simulator) Simulator issues: - MultiReg not simulated correctly (I've used direct instantiation of MultiRegImpl to get simulation working) - MemoryArray with granularity != 1 raise NotImplementedError 2015-11-12 17:09:37 -05:00			`# XXX: find a way to exit properly`
			`import sys`
			`sys.exit()`
init repo 2015-09-07 07:28:02 -04:00
			`if __name__ == "__main__":`
start adapting simulations to new migen (still some issues with Migen simulator) Simulator issues: - MultiReg not simulated correctly (I've used direct instantiation of MultiRegImpl to get simulation working) - MemoryArray with granularity != 1 raise NotImplementedError 2015-11-12 17:09:37 -05:00			`tb = TB(8)`
			`generators = {`
			`"sys" : [main_generator(tb),`
			`tb.streamer.generator(),`
			`tb.logger.generator()],`
			`"eth_tx": [tb.phy_model.phy_sink.generator(),`
			`tb.phy_model.generator()],`
			`"eth_rx": tb.phy_model.phy_source.generator()`
			`}`
			`clocks = {"sys": 10,`
			`"eth_rx": 10,`
			`"eth_tx": 10}`
			`run_simulation(tb, generators, clocks, vcd_name="sim.vcd")`