from liteeth.common import * from liteeth.generic.depacketizer import LiteEthDepacketizer from liteeth.generic.packetizer import LiteEthPacketizer _arp_table_layout = [ ("reply", 1), ("request", 1), ("ip_address", 32), ("mac_address", 48) ] class LiteEthARPDepacketizer(LiteEthDepacketizer): def __init__(self): LiteEthDepacketizer.__init__(self, eth_mac_description(8), eth_arp_description(8), arp_header, arp_header_len) class LiteEthARPPacketizer(LiteEthPacketizer): def __init__(self): LiteEthPacketizer.__init__(self, eth_arp_description(8), eth_mac_description(8), arp_header, arp_header_len) class LiteEthARPTX(Module): def __init__(self, mac_address, ip_address): self.sink = sink = Sink(_arp_table_layout) self.source = Source(eth_mac_description(8)) ### packetizer = LiteEthARPPacketizer() self.submodules += packetizer source = packetizer.sink counter = Counter(max=arp_header_len) self.submodules += counter self.submodules.fsm = fsm = FSM(reset_state="IDLE") fsm.act("IDLE", sink.ack.eq(1), counter.reset.eq(1), If(sink.stb, sink.ack.eq(0), NextState("SEND") ) ) self.comb += [ source.hwtype.eq(arp_hwtype_ethernet), source.proto.eq(arp_proto_ip), source.hwsize.eq(6), source.protosize.eq(4), source.sender_mac.eq(mac_address), source.sender_ip.eq(ip_address), If(sink.reply, source.opcode.eq(arp_opcode_reply), source.target_mac.eq(sink.mac_address), source.target_ip.eq(sink.ip_address) ).Elif(sink.request, source.opcode.eq(arp_opcode_request), source.target_mac.eq(0xffffffffffff), source.target_ip.eq(sink.ip_address) ) ] fsm.act("SEND", source.stb.eq(1), source.sop.eq(counter.value == 0), source.eop.eq(counter.value == arp_header_len-1), Record.connect(packetizer.source, self.source), self.source.target_mac.eq(source.target_mac), self.source.sender_mac.eq(mac_address), self.source.ethernet_type.eq(ethernet_type_arp), If(self.source.stb & self.source.ack, sink.ack.eq(source.eop), counter.ce.eq(1), If(self.source.eop, NextState("IDLE") ) ) ) class LiteEthARPRX(Module): def __init__(self, mac_address, ip_address): self.sink = Sink(eth_mac_description(8)) self.source = source = Source(_arp_table_layout) ### depacketizer = LiteEthARPDepacketizer() self.submodules += depacketizer self.comb += Record.connect(self.sink, depacketizer.sink) sink = depacketizer.source self.submodules.fsm = fsm = FSM(reset_state="IDLE") fsm.act("IDLE", sink.ack.eq(1), If(sink.stb & sink.sop, sink.ack.eq(0), NextState("CHECK") ) ) valid = Signal() self.comb += valid.eq( sink.stb & (sink.hwtype == arp_hwtype_ethernet) & (sink.proto == arp_proto_ip) & (sink.hwsize == 6) & (sink.protosize == 4) & (sink.target_ip == ip_address) ) reply = Signal() request = Signal() self.comb += Case(sink.opcode, { arp_opcode_request : [request.eq(1)], arp_opcode_reply : [reply.eq(1)], "default" : [] }) self.comb += [ source.ip_address.eq(sink.sender_ip), source.mac_address.eq(sink.sender_mac) ] fsm.act("CHECK", If(valid, source.stb.eq(1), source.reply.eq(reply), source.request.eq(request) ), NextState("TERMINATE") ), fsm.act("TERMINATE", sink.ack.eq(1), If(sink.stb & sink.eop, NextState("IDLE") ) ) class LiteEthARPTable(Module): def __init__(self): self.sink = sink = Sink(_arp_table_layout) # from arp_rx self.source = source = Source(_arp_table_layout) # to arp_tx # Request/Response interface self.request = request = Sink(arp_table_request_layout) self.response = response = Source(arp_table_response_layout) ### request_timeout = Timeout(166000000//10) # XXX use clk_freq request_pending = FlipFlop() request_ip_address = FlipFlop(32, reset=0xffffffff) # XXX add cached_valid? self.submodules += request_timeout, request_pending, request_ip_address self.comb += [ request_timeout.ce.eq(request_pending.q), request_pending.d.eq(1), request_ip_address.d.eq(request.ip_address) ] # Note: Store only one ip/mac couple, replace this with # a real ARP table update = Signal() cached_valid = Signal() cached_ip_address = Signal(32) cached_mac_address = Signal(48) self.submodules.fsm = fsm = FSM(reset_state="IDLE") fsm.act("IDLE", # Note: for simplicicy, if APR table is busy response from arp_rx # is lost. This is compensated by the protocol (retrys) If(sink.stb & sink.request, NextState("SEND_REPLY") ).Elif(sink.stb & sink.reply & request_pending.q, NextState("UPDATE_TABLE"), ).Elif(request.stb | (request_pending.q & request_timeout.reached), NextState("CHECK_TABLE") ) ) fsm.act("SEND_REPLY", source.stb.eq(1), source.reply.eq(1), source.ip_address.eq(sink.ip_address), If(source.ack, NextState("IDLE") ) ) fsm.act("UPDATE_TABLE", request_pending.reset.eq(1), update.eq(1), NextState("CHECK_TABLE") ) self.sync += [ If(update, cached_valid.eq(1), cached_ip_address.eq(sink.ip_address), cached_mac_address.eq(sink.mac_address) ) ] found = Signal() fsm.act("CHECK_TABLE", # XXX: add a live time for cached_mac_address If(cached_valid, If(request_ip_address.q == cached_ip_address, request_ip_address.reset.eq(1), NextState("PRESENT_RESPONSE"), ).Elif(request.ip_address == cached_ip_address, request.ack.eq(request.stb), NextState("PRESENT_RESPONSE"), ).Else( request_ip_address.ce.eq(request.stb), NextState("SEND_REQUEST") ) ).Else( request_ip_address.ce.eq(request.stb), NextState("SEND_REQUEST") ) ) fsm.act("SEND_REQUEST", source.stb.eq(1), source.request.eq(1), source.ip_address.eq(request_ip_address.q), If(source.ack, request_timeout.reset.eq(1), request_pending.ce.eq(1), request.ack.eq(1), NextState("IDLE") ) ) fsm.act("PRESENT_RESPONSE", response.stb.eq(1), response.failed.eq(0), # XXX add timeout to trigger failed response.mac_address.eq(cached_mac_address), If(response.ack, NextState("IDLE") ) ) class LiteEthARP(Module): def __init__(self, mac, mac_address, ip_address): self.submodules.tx = LiteEthARPTX(mac_address, ip_address) self.submodules.rx = LiteEthARPRX(mac_address, ip_address) self.submodules.table = LiteEthARPTable() self.comb += [ Record.connect(self.rx.source, self.table.sink), Record.connect(self.table.source, self.tx.sink) ] mac_port = mac.crossbar.get_port(ethernet_type_arp) self.comb += [ Record.connect(self.tx.source, mac_port.sink), Record.connect(mac_port.source, self.rx.sink) ]