""" Copyright (c) 2020 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 logging import struct import zlib import cocotb from cocotb.queue import Queue, QueueFull from cocotb.triggers import RisingEdge, Timer, First, Event from cocotb.utils import get_sim_time, get_sim_steps from .version import __version__ from .constants import EthPre, ETH_PREAMBLE from .reset import Reset class GmiiFrame: def __init__(self, data=None, error=None, tx_complete=None): self.data = bytearray() self.error = None self.sim_time_start = None self.sim_time_sfd = None self.sim_time_end = None self.tx_complete = None if type(data) is GmiiFrame: self.data = bytearray(data.data) self.error = data.error self.sim_time_start = data.sim_time_start self.sim_time_sfd = data.sim_time_sfd self.sim_time_end = data.sim_time_end self.tx_complete = data.tx_complete else: self.data = bytearray(data) self.error = error if tx_complete is not None: self.tx_complete = tx_complete @classmethod def from_payload(cls, payload, min_len=60, tx_complete=None): payload = bytearray(payload) if len(payload) < min_len: payload.extend(bytearray(min_len-len(payload))) payload.extend(struct.pack(' 0 and self.queue_occupancy_bytes > self.queue_occupancy_limit_bytes: return True elif self.queue_occupancy_limit_frames > 0 and self.queue_occupancy_frames > self.queue_occupancy_limit_frames: return True else: return False def idle(self): return self.empty() and not self.active def clear(self): while not self.queue.empty(): frame = self.queue.get_nowait() frame.sim_time_end = None frame.handle_tx_complete() self.dequeue_event.set() self.idle_event.set() self.queue_occupancy_bytes = 0 self.queue_occupancy_frames = 0 async def wait(self): await self.idle_event.wait() def _handle_reset(self, state): if state: self.log.info("Reset asserted") if self._run_cr is not None: self._run_cr.kill() self._run_cr = None self.active = False self.data.value = 0 if self.er is not None: self.er.value = 0 self.dv.value = 0 if self.current_frame: self.log.warning("Flushed transmit frame during reset: %s", self.current_frame) self.current_frame.handle_tx_complete() self.current_frame = None if self.queue.empty(): self.idle_event.set() else: self.log.info("Reset de-asserted") if self._run_cr is None: self._run_cr = cocotb.fork(self._run()) async def _run(self): frame = None frame_offset = 0 frame_data = None frame_error = None ifg_cnt = 0 self.active = False while True: await RisingEdge(self.clock) if self.enable is None or self.enable.value: if ifg_cnt > 0: # in IFG ifg_cnt -= 1 elif frame is None and not self.queue.empty(): # send frame frame = self.queue.get_nowait() self.dequeue_event.set() self.queue_occupancy_bytes -= len(frame) self.queue_occupancy_frames -= 1 self.current_frame = frame frame.sim_time_start = get_sim_time() frame.sim_time_sfd = None frame.sim_time_end = None self.log.info("TX frame: %s", frame) frame.normalize() if self.mii_select is not None: self.mii_mode = bool(self.mii_select.value.integer) if self.mii_mode: # convert to MII frame_data = [] frame_error = [] for b, e in zip(frame.data, frame.error): frame_data.append(b & 0x0F) frame_data.append(b >> 4) frame_error.append(e) frame_error.append(e) else: frame_data = frame.data frame_error = frame.error self.active = True frame_offset = 0 if frame is not None: d = frame_data[frame_offset] if frame.sim_time_sfd is None and d in (EthPre.SFD, 0xD): frame.sim_time_sfd = get_sim_time() self.data.value = d if self.er is not None: self.er.value = frame_error[frame_offset] self.dv.value = 1 frame_offset += 1 if frame_offset >= len(frame_data): ifg_cnt = max(self.ifg, 1) frame.sim_time_end = get_sim_time() frame.handle_tx_complete() frame = None self.current_frame = None else: self.data.value = 0 if self.er is not None: self.er.value = 0 self.dv.value = 0 self.active = False self.idle_event.set() class GmiiSink(Reset): def __init__(self, data, er, dv, clock, reset=None, enable=None, mii_select=None, reset_active_level=True, *args, **kwargs): self.log = logging.getLogger(f"cocotb.{data._path}") self.data = data self.er = er self.dv = dv self.clock = clock self.reset = reset self.enable = enable self.mii_select = mii_select self.log.info("GMII sink") self.log.info("cocotbext-eth version %s", __version__) self.log.info("Copyright (c) 2020 Alex Forencich") self.log.info("https://github.com/alexforencich/cocotbext-eth") super().__init__(*args, **kwargs) self.active = False self.queue = Queue() self.active_event = Event() self.mii_mode = False self.queue_occupancy_bytes = 0 self.queue_occupancy_frames = 0 self.width = 8 self.byte_width = 1 assert len(self.data) == 8 if self.er is not None: assert len(self.er) == 1 if self.dv is not None: assert len(self.dv) == 1 self._run_cr = None self._init_reset(reset, reset_active_level) def _recv(self, frame, compact=True): if self.queue.empty(): self.active_event.clear() self.queue_occupancy_bytes -= len(frame) self.queue_occupancy_frames -= 1 if compact: frame.compact() return frame async def recv(self, compact=True): frame = await self.queue.get() return self._recv(frame, compact) def recv_nowait(self, compact=True): frame = self.queue.get_nowait() return self._recv(frame, compact) def count(self): return self.queue.qsize() def empty(self): return self.queue.empty() def idle(self): return not self.active def clear(self): while not self.queue.empty(): self.queue.get_nowait() self.active_event.clear() self.queue_occupancy_bytes = 0 self.queue_occupancy_frames = 0 async def wait(self, timeout=0, timeout_unit=None): if not self.empty(): return if timeout: await First(self.active_event.wait(), Timer(timeout, timeout_unit)) else: await self.active_event.wait() def _handle_reset(self, state): if state: self.log.info("Reset asserted") if self._run_cr is not None: self._run_cr.kill() self._run_cr = None self.active = False else: self.log.info("Reset de-asserted") if self._run_cr is None: self._run_cr = cocotb.fork(self._run()) async def _run(self): frame = None self.active = False while True: await RisingEdge(self.clock) if self.enable is None or self.enable.value: d_val = self.data.value.integer dv_val = self.dv.value.integer er_val = 0 if self.er is None else self.er.value.integer if frame is None: if dv_val: # start of frame frame = GmiiFrame(bytearray(), []) frame.sim_time_start = get_sim_time() else: if not dv_val: # end of frame if self.mii_select is not None: self.mii_mode = bool(self.mii_select.value.integer) if self.mii_mode: odd = True sync = False b = 0 be = 0 data = bytearray() error = [] for n, e in zip(frame.data, frame.error): odd = not odd b = (n & 0x0F) << 4 | b >> 4 be |= e if not sync and b == EthPre.SFD: odd = True sync = True if odd: data.append(b) error.append(be) be = 0 frame.data = data frame.error = error frame.compact() frame.sim_time_end = get_sim_time() self.log.info("RX frame: %s", frame) self.queue_occupancy_bytes += len(frame) self.queue_occupancy_frames += 1 self.queue.put_nowait(frame) self.active_event.set() frame = None if frame is not None: if frame.sim_time_sfd is None and d_val in (EthPre.SFD, 0xD): frame.sim_time_sfd = get_sim_time() frame.data.append(d_val) frame.error.append(er_val) class GmiiPhy: def __init__(self, txd, tx_er, tx_en, tx_clk, gtx_clk, rxd, rx_er, rx_dv, rx_clk, reset=None, reset_active_level=True, speed=1000e6, *args, **kwargs): self.gtx_clk = gtx_clk self.tx_clk = tx_clk self.rx_clk = rx_clk super().__init__(*args, **kwargs) self.tx = GmiiSink(txd, tx_er, tx_en, tx_clk, reset, reset_active_level=reset_active_level) self.rx = GmiiSource(rxd, rx_er, rx_dv, rx_clk, reset_active_level=reset_active_level) self.rx_clk.setimmediatevalue(0) self._clock_cr = None self.set_speed(speed) def set_speed(self, speed): if speed in (10e6, 100e6, 1000e6): self.speed = speed else: raise ValueError("Invalid speed selection") if self._clock_cr is not None: self._clock_cr.kill() if self.speed == 1000e6: self._clock_cr = cocotb.fork(self._run_clocks(8*1e9/self.speed)) self.tx.mii_mode = False self.rx.mii_mode = False self.tx.clock = self.gtx_clk else: self._clock_cr = cocotb.fork(self._run_clocks(4*1e9/self.speed)) self.tx.mii_mode = True self.rx.mii_mode = True self.tx.clock = self.tx_clk self.tx.assert_reset() self.rx.assert_reset() async def _run_clocks(self, period): half_period = get_sim_steps(period / 2.0, 'ns') t = Timer(half_period) while True: await t self.rx_clk.value = 1 self.tx_clk.value = 1 await t self.rx_clk.value = 0 self.tx_clk.value = 0