import subprocess from migen.fhdl.std import * from lib.sata.std import * from lib.sata.transport.std import * from lib.sata.test.common import * class PHYDword: def __init__(self, dat=0): self.dat = dat self.start = 1 self.done = 0 class PHYSource(Module): def __init__(self): self.source = Source(phy_layout(32)) ### self.dword = PHYDword() def send(self, dword): self.dword = dword def do_simulation(self, selfp): selfp.source.stb = 1 selfp.source.charisk = 0b0000 for k, v in primitives.items(): if v == self.dword.dat: selfp.source.charisk = 0b0001 selfp.source.data = self.dword.dat class PHYSink(Module): def __init__(self): self.sink = Sink(phy_layout(32)) ### self.dword = PHYDword() def receive(self): self.dword.done = 0 while self.dword.done == 0: yield def do_simulation(self, selfp): self.dword.done = 0 selfp.sink.ack = 1 if selfp.sink.stb == 1: self.dword.done = 1 self.dword.dat = selfp.sink.data class PHYLayer(Module): def __init__(self, debug=False): self.debug = debug self.submodules.rx = PHYSink() self.submodules.tx = PHYSource() self.source = self.tx.source self.sink = self.rx.sink def send(self, dword): packet = PHYDword(dword) self.tx.send(packet) def receive(self): if self.debug: print(self) yield from self.rx.receive() def __repr__(self): receiving = "%08x " %self.rx.dword.dat receiving += decode_primitive(self.rx.dword.dat) receiving += " "*(16-len(receiving)) sending = "%08x " %self.tx.dword.dat sending += decode_primitive(self.tx.dword.dat) sending += " "*(16-len(sending)) return receiving + sending def import_scrambler_datas(): with subprocess.Popen(["./scrambler"], stdin=subprocess.PIPE, stdout=subprocess.PIPE) as process: process.stdin.write("0x10000".encode("ASCII")) out, err = process.communicate() return [int(e, 16) for e in out.decode("utf-8").split("\n")[:-1]] class LinkPacket(list): def __init__(self, init=[]): self.ongoing = False self.done = False self.scrambled_datas = import_scrambler_datas() for dword in init: self.append(dword) class LinkRXPacket(LinkPacket): def decode(self): self.descramble() return self.check_crc() def descramble(self): for i in range(len(self)): self[i] = self[i] ^ self.scrambled_datas[i] def check_crc(self): stdin = "" for v in self[:-1]: stdin += "0x%08x " %v stdin += "exit" with subprocess.Popen("./crc", stdin=subprocess.PIPE, stdout=subprocess.PIPE) as process: process.stdin.write(stdin.encode("ASCII")) out, err = process.communicate() crc = int(out.decode("ASCII"), 16) r = (self[-1] == crc) self.pop() return r class LinkTXPacket(LinkPacket): def encode(self): self.insert_crc() self.scramble() def scramble(self): for i in range(len(self)): self[i] = self[i] ^ self.scrambled_datas[i] def insert_crc(self): stdin = "" for v in self: stdin += "0x%08x " %v stdin += "exit" with subprocess.Popen("./crc", stdin=subprocess.PIPE, stdout=subprocess.PIPE) as process: process.stdin.write(stdin.encode("ASCII")) out, err = process.communicate() crc = int(out.decode("ASCII"), 16) self.append(crc) class LinkLayer(Module): def __init__(self, phy, debug=False, random_level=0): self.phy = phy self.debug = debug self.random_level = random_level self.tx_packets = [] self.tx_packet = LinkTXPacket() self.rx_packet = LinkRXPacket() self.rx_cont = False self.rx_last = 0 self.tx_cont = False self.tx_cont_nb = -1 self.tx_lasts = [0, 0, 0] self.scrambled_datas = import_scrambler_datas() self.transport_callback = None self.send_state = "" self.send_states = ["RDY", "SOF", "DATA", "EOF", "WTRM"] def set_transport_callback(self, callback): self.transport_callback = callback def remove_cont(self, dword): if dword == primitives["HOLD"]: if self.rx_cont: self.tx_lasts = [0, 0, 0] if dword == primitives["CONT"]: self.rx_cont = True elif is_primitive(dword): self.rx_last = dword self.rx_cont = False if self.rx_cont: dword = self.rx_last return dword def callback(self, dword): if dword == primitives["X_RDY"]: self.phy.send(primitives["R_RDY"]) elif dword == primitives["WTRM"]: self.phy.send(primitives["R_OK"]) if self.rx_packet.ongoing: self.rx_packet.decode() if self.transport_callback is not None: self.transport_callback(self.rx_packet) self.rx_packet.ongoing = False elif dword == primitives["HOLD"]: self.phy.send(primitives["HOLDA"]) elif dword == primitives["EOF"]: pass elif self.rx_packet.ongoing: if dword != primitives["HOLD"]: n = randn(100) if n < self.random_level: self.phy.send(primitives["HOLD"]) else: self.phy.send(primitives["R_IP"]) if not is_primitive(dword): self.rx_packet.append(dword) elif dword == primitives["SOF"]: self.rx_packet = LinkRXPacket() self.rx_packet.ongoing = True def send(self, dword): if self.send_state == "RDY": self.phy.send(primitives["X_RDY"]) if dword == primitives["R_RDY"]: self.send_state = "SOF" elif self.send_state == "SOF": self.phy.send(primitives["SOF"]) self.send_state = "DATA" elif self.send_state == "DATA": if dword == primitives["HOLD"]: self.phy.send(primitives["HOLDA"]) else: self.phy.send(self.tx_packet.pop(0)) if len(self.tx_packet) == 0: self.send_state = "EOF" elif self.send_state == "EOF": self.phy.send(primitives["EOF"]) self.send_state = "WTRM" elif self.send_state == "WTRM": self.phy.send(primitives["WTRM"]) if dword == primitives["R_OK"]: self.tx_packet.done = True elif dword == primitives["R_ERR"]: self.tx_packet.done = True def insert_cont(self): self.tx_lasts.pop(0) self.tx_lasts.append(self.phy.tx.dword.dat) self.tx_cont = True for i in range(3): if not is_primitive(self.tx_lasts[i]): self.tx_cont = False if self.tx_lasts[i] != self.tx_lasts[0]: self.tx_cont = False if self.tx_cont: if self.tx_cont_nb == 0: self.phy.send(primitives["CONT"]) else: self.phy.send(self.scrambled_datas[self.tx_cont_nb]) self.tx_cont_nb += 1 else: self.tx_cont_nb = 0 def gen_simulation(self, selfp): self.tx_packet.done = True self.phy.send(primitives["SYNC"]) while True: yield from self.phy.receive() self.phy.send(primitives["SYNC"]) rx_dword = self.phy.rx.dword.dat rx_dword = self.remove_cont(rx_dword) if len(self.tx_packets) != 0: if self.tx_packet.done: self.tx_packet = self.tx_packets.pop(0) self.tx_packet.encode() self.send_state = "RDY" if not self.tx_packet.done: self.send(rx_dword) else: self.callback(rx_dword) self.insert_cont() def get_field_data(field, packet): return (packet[field.dword] >> field.offset) & (2**field.width-1) class FIS: def __init__(self, packet, layout): self.packet = packet self.layout = layout self.decode() def decode(self): for k, v in self.layout.items(): setattr(self, k, get_field_data(v, self.packet)) def encode(self): for k, v in self.layout.items(): self.packet[v.dword] |= (getattr(self, k) << v.offset) def __repr__(self): r = "--------\n" for k in sorted(self.layout.keys()): r += k + " : 0x%x" %getattr(self,k) + "\n" return r class FIS_REG_H2D(FIS): def __init__(self, packet=[0]*fis_reg_h2d_cmd_len): FIS.__init__(self, packet,fis_reg_h2d_layout) def __repr__(self): r = "FIS_REG_H2D\n" r += FIS.__repr__(self) return r class FIS_REG_D2H(FIS): def __init__(self, packet=[0]*fis_reg_d2h_cmd_len): FIS.__init__(self, packet,fis_reg_d2h_layout) def __repr__(self): r = "FIS_REG_D2H\n" r += FIS.__repr__(self) return r class FIS_DMA_ACTIVATE_D2H(FIS): def __init__(self, packet=[0]*fis_dma_activate_d2h_cmd_len): FIS.__init__(self, packet,fis_dma_activate_d2h_layout) def __repr__(self): r = "FIS_DMA_ACTIVATE_D2H\n" r += FIS.__repr__(self) return r class FIS_DATA(FIS): def __init__(self, packet=[0]): FIS.__init__(self, packet,fis_data_layout) def __repr__(self): r = "FIS_DATA\n" r += FIS.__repr__(self) for data in self.packet[1:]: r += "%08x\n" %data return r class FIS_UNKNOWN(FIS): def __init__(self, packet=[0]): FIS.__init__(self, packet, {}) def __repr__(self): r = "UNKNOWN\n" r += "--------\n" for dword in self.packet: r += "%08x\n" %dword return r class TransportLayer(Module): def __init__(self, link, debug=False, loopback=False): self.link = link self.debug = debug self.loopback = loopback self.link.set_transport_callback(self.callback) def callback(self, packet): fis_type = packet[0] if fis_type == fis_types["REG_H2D"]: fis = FIS_REG_H2D(packet) elif fis_type == fis_types["REG_D2H"]: fis = FIS_REG_D2H(packet) elif fis_type == fis_types["DMA_ACTIVATE_D2H"]: fis = FIS_DMA_ACTIVATE_D2H(packet) elif fis_type == fis_types["DATA"]: fis = FIS_DATA(packet) else: fis = FIS_UNKNOWN(packet) if self.debug: print(fis) if self.loopback: packet = LinkTXPacket(fis.packet) self.link.tx_packets.append(packet) class BFM(Module): def __init__(self, phy_debug=False, link_debug=False, link_random_level=0, transport_debug=False, transport_loopback=False ): ### self.submodules.phy = PHYLayer(phy_debug) self.submodules.link = LinkLayer(self.phy, link_debug, link_random_level) self.submodules.transport = TransportLayer(self.link, transport_debug, transport_loopback)