538 lines
18 KiB
Python
538 lines
18 KiB
Python
"""
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Copyright (c) 2020 Alex Forencich
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Permission is hereby granted, free of charge, to any person obtaining a copy
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of this software and associated documentation files (the "Software"), to deal
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in the Software without restriction, including without limitation the rights
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to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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copies of the Software, and to permit persons to whom the Software is
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furnished to do so, subject to the following conditions:
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The above copyright notice and this permission notice shall be included in
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all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY
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FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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THE SOFTWARE.
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"""
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import cocotb
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from cocotb.triggers import RisingEdge, ReadOnly, Event
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from cocotb.drivers import BusDriver
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from collections import deque
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from .constants import *
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class AxiLiteMasterWrite(BusDriver):
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_signals = [
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# Write address channel
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"awaddr", "awprot", "awvalid", "awready",
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# Write data channel
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"wdata", "wstrb", "wvalid", "wready",
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# Write response channel
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"bresp", "bvalid", "bready",
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]
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def __init__(self, entity, name, clock, reset=None):
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super().__init__(entity, name, clock)
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self.active_tokens = set()
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self.write_resp_queue = deque()
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self.write_resp_sync = Event()
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self.write_resp_set = set()
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self.int_write_addr_queue = deque()
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self.int_write_data_queue = deque()
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self.int_write_resp_command_queue = deque()
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self.int_write_resp_command_sync = Event()
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self.int_write_resp_queue = deque()
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self.int_write_resp_sync = Event()
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self.in_flight_operations = 0
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self.width = len(self.bus.wdata)
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self.byte_size = 8
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self.byte_width = self.width // self.byte_size
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self.strb_mask = 2**len(self.bus.wstrb)-1
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assert self.byte_width == len(self.bus.wstrb)
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assert self.byte_width * self.byte_size == self.width
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self.reset = reset
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self.bus.awaddr.setimmediatevalue(0)
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assert len(self.bus.awprot) == 3
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self.bus.awprot.setimmediatevalue(0)
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assert len(self.bus.awvalid) == 1
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self.bus.awvalid.setimmediatevalue(0)
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assert len(self.bus.awready) == 1
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self.bus.wdata.setimmediatevalue(0)
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self.bus.wstrb.setimmediatevalue(0)
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assert len(self.bus.wvalid) == 1
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self.bus.wvalid.setimmediatevalue(0)
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assert len(self.bus.wready) == 1
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assert len(self.bus.bresp) == 2
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assert len(self.bus.bvalid) == 1
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assert len(self.bus.bready) == 1
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self.bus.bready.setimmediatevalue(0)
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cocotb.fork(self._process_write_resp())
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cocotb.fork(self._process_write_addr_if())
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cocotb.fork(self._process_write_data_if())
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cocotb.fork(self._process_write_resp_if())
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def init_write(self, address, data, prot=AxiProt.NONSECURE, token=None):
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if token is not None:
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if token in self.active_tokens:
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raise Exception("Token is not unique")
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self.active_tokens.add(token)
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self.in_flight_operations += 1
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word_addr = (address // self.byte_width) * self.byte_width
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start_offset = address % self.byte_width
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end_offset = ((address + len(data) - 1) % self.byte_width) + 1
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strb_start = (self.strb_mask << start_offset) & self.strb_mask
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strb_end = self.strb_mask >> (self.byte_width - end_offset)
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cycles = (len(data) + (address % self.byte_width) + self.byte_width-1) // self.byte_width
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self.int_write_resp_command_queue.append((address, len(data), cycles, prot, token))
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self.int_write_resp_command_sync.set()
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offset = 0
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self.log.info(f"Write start addr: {address:#010x} prot: {prot} data: {' '.join((f'{c:02x}' for c in data))}")
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for k in range(cycles):
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start = 0
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stop = self.byte_width
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strb = self.strb_mask
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if k == 0:
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start = start_offset
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strb &= strb_start
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if k == cycles-1:
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stop = end_offset
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strb &= strb_end
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val = 0
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for j in range(start, stop):
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val |= bytearray(data)[offset] << j*8
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offset += 1
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self.int_write_addr_queue.append((word_addr + start + k*self.byte_width, prot))
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self.int_write_data_queue.append((val, strb))
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def idle(self):
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return not self.in_flight_operations
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async def wait(self):
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while not self.idle():
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self.write_resp_sync.clear()
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await self.write_resp_sync.wait()
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async def wait_for_token(self, token):
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if token not in self.active_tokens:
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return
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while token not in self.write_resp_set:
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self.write_resp_sync.clear()
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await self.write_resp_sync.wait()
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def write_resp_ready(self, token=None):
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if token is not None:
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return token in self.write_resp_set
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return bool(self.write_resp_queue)
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def get_write_resp(self, token=None):
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if token is not None:
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if token in self.write_resp_set:
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for resp in self.write_resp_queue:
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if resp[-1] == token:
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self.write_resp_queue.remove(resp)
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self.active_tokens.remove(resp[-1])
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self.write_resp_set.remove(resp[-1])
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return resp
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return None
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if self.write_resp_queue:
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resp = self.write_resp_queue.popleft()
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if resp[-1] is not None:
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self.active_tokens.remove(resp[-1])
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self.write_resp_set.remove(resp[-1])
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return resp
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return None
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async def write(self, address, data, prot=AxiProt.NONSECURE):
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token = object()
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self.init_write(address, data, prot, token)
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await self.wait_for_token(token)
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return self.get_write_resp(token)
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async def _process_write_resp(self):
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while True:
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if not self.int_write_resp_command_queue:
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self.int_write_resp_command_sync.clear()
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await self.int_write_resp_command_sync.wait()
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addr, length, cycles, prot, token = self.int_write_resp_command_queue.popleft()
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resp = AxiResp.OKAY
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for k in range(cycles):
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if not self.int_write_resp_queue:
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self.int_write_resp_sync.clear()
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await self.int_write_resp_sync.wait()
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cycle_resp = self.int_write_resp_queue.popleft()
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cycle_resp = AxiResp(cycle_resp)
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if cycle_resp != AxiResp.OKAY:
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resp = cycle_resp
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self.log.info(f"Write complete addr: {addr:#010x} prot: {prot} resp: {resp!s} length: {length}")
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self.write_resp_queue.append((addr, length, resp, token))
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self.write_resp_sync.set()
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if token is not None:
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self.write_resp_set.add(token)
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self.in_flight_operations -= 1
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async def _process_write_addr_if(self):
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while True:
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await ReadOnly()
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# read handshake signals
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awready_sample = self.bus.awready.value
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awvalid_sample = self.bus.awvalid.value
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if self.reset is not None and self.reset.value:
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await RisingEdge(self.clock)
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self.bus.awvalid <= 0
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continue
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await RisingEdge(self.clock)
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if (awready_sample and awvalid_sample) or (not awvalid_sample):
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if self.int_write_addr_queue:
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addr, prot = self.int_write_addr_queue.popleft()
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self.bus.awaddr <= addr
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self.bus.awprot <= prot
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self.bus.awvalid <= 1
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else:
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self.bus.awvalid <= 0
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async def _process_write_data_if(self):
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while True:
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await ReadOnly()
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# read handshake signals
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wready_sample = self.bus.wready.value
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wvalid_sample = self.bus.wvalid.value
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if self.reset is not None and self.reset.value:
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await RisingEdge(self.clock)
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self.bus.wvalid <= 0
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continue
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await RisingEdge(self.clock)
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if (wready_sample and wvalid_sample) or (not wvalid_sample):
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if self.int_write_data_queue:
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data, strb = self.int_write_data_queue.popleft()
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self.bus.wdata <= data
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self.bus.wstrb <= strb
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self.bus.wvalid <= 1
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else:
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self.bus.wvalid <= 0
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async def _process_write_resp_if(self):
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while True:
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await ReadOnly()
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# read handshake signals
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bready_sample = self.bus.bready.value
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bvalid_sample = self.bus.bvalid.value
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if self.reset is not None and self.reset.value:
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await RisingEdge(self.clock)
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self.bus.bready <= 0
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continue
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if bready_sample and bvalid_sample:
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bresp = self.bus.bresp.value.integer
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self.int_write_resp_queue.append(bresp)
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self.int_write_resp_sync.set()
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await RisingEdge(self.clock)
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self.bus.bready <= 1
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class AxiLiteMasterRead(BusDriver):
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_signals = [
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# Read address channel
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"araddr", "arprot", "arvalid", "arready",
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# Read data channel
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"rdata", "rresp", "rvalid", "rready",
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]
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def __init__(self, entity, name, clock, reset=None):
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super().__init__(entity, name, clock)
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self.active_tokens = set()
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self.read_data_queue = deque()
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self.read_data_sync = Event()
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self.read_data_set = set()
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self.int_read_addr_queue = deque()
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self.int_read_resp_command_queue = deque()
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self.int_read_resp_command_sync = Event()
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self.int_read_resp_queue = deque()
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self.int_read_resp_sync = Event()
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self.in_flight_operations = 0
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self.width = len(self.bus.rdata)
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self.byte_size = 8
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self.byte_width = self.width // self.byte_size
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assert self.byte_width * self.byte_size == self.width
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self.reset = reset
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self.bus.araddr.setimmediatevalue(0)
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assert len(self.bus.arprot) == 3
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self.bus.arprot.setimmediatevalue(0)
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assert len(self.bus.arvalid) == 1
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self.bus.arvalid.setimmediatevalue(0)
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assert len(self.bus.arready) == 1
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assert len(self.bus.rresp) == 2
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assert len(self.bus.rvalid) == 1
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assert len(self.bus.rready) == 1
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self.bus.rready.setimmediatevalue(0)
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cocotb.fork(self._process_read_resp())
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cocotb.fork(self._process_read_addr_if())
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cocotb.fork(self._process_read_resp_if())
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def init_read(self, address, length, prot=AxiProt.NONSECURE, token=None):
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if token is not None:
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if token in self.active_tokens:
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raise Exception("Token is not unique")
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self.active_tokens.add(token)
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self.in_flight_operations += 1
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word_addr = (address // self.byte_width) * self.byte_width
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cycles = (length + self.byte_width-1 + (address % self.byte_width)) // self.byte_width
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self.int_read_resp_command_queue.append((address, length, cycles, prot, token))
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self.int_read_resp_command_sync.set()
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self.log.info(f"Read start addr: {address:#010x} prot: {prot} length: {length}")
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for k in range(cycles):
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self.int_read_addr_queue.append((word_addr + k*self.byte_width, prot))
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def idle(self):
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return not self.in_flight_operations
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async def wait(self):
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while not self.idle():
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self.read_resp_sync.clear()
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await self.read_resp_sync.wait()
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async def wait_for_token(self, token):
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if token not in self.active_tokens:
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return
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while token not in self.read_data_set:
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self.read_data_sync.clear()
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await self.read_data_sync.wait()
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def read_data_ready(self, token=None):
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if token is not None:
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return token in self.read_data_set
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return bool(self.read_data_queue)
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def get_read_data(self, token=None):
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if token is not None:
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if token in self.read_data_set:
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for resp in self.read_data_queue:
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if resp[-1] == token:
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self.read_data_queue.remove(resp)
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self.active_tokens.remove(resp[-1])
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self.read_data_set.remove(resp[-1])
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return resp
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return None
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if self.read_data_queue:
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resp = self.read_data_queue.popleft()
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if resp[-1] is not None:
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self.active_tokens.remove(resp[-1])
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self.read_data_set.remove(resp[-1])
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return resp
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return None
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async def read(self, address, length, prot=AxiProt.NONSECURE):
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token = object()
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self.init_read(address, length, prot, token)
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await self.wait_for_token(token)
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return self.get_read_data(token)
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async def _process_read_resp(self):
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while True:
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if not self.int_read_resp_command_queue:
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self.int_read_resp_command_sync.clear()
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await self.int_read_resp_command_sync.wait()
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addr, length, cycles, prot, token = self.int_read_resp_command_queue.popleft()
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word_addr = (addr // self.byte_width) * self.byte_width
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start_offset = addr % self.byte_width
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end_offset = ((addr + length - 1) % self.byte_width) + 1
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data = bytearray()
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resp = AxiResp.OKAY
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for k in range(cycles):
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if not self.int_read_resp_queue:
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self.int_read_resp_sync.clear()
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await self.int_read_resp_sync.wait()
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cycle_data, cycle_resp = self.int_read_resp_queue.popleft()
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cycle_resp = AxiResp(cycle_resp)
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if cycle_resp != AxiResp.OKAY:
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resp = cycle_resp
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start = 0
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stop = self.byte_width
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if k == 0:
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start = start_offset
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if k == cycles-1:
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stop = end_offset
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for j in range(start, stop):
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data.extend(bytearray([(cycle_data >> j*8) & 0xff]))
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self.log.info(f"Read complete addr: {addr:#010x} prot: {prot} resp: {resp!s} data: {' '.join((f'{c:02x}' for c in data))}")
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self.read_data_queue.append((addr, data, resp, token))
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self.read_data_sync.set()
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if token is not None:
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self.read_data_set.add(token)
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self.in_flight_operations -= 1
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async def _process_read_addr_if(self):
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while True:
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await ReadOnly()
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# read handshake signals
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arready_sample = self.bus.arready.value
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arvalid_sample = self.bus.arvalid.value
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if self.reset is not None and self.reset.value:
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await RisingEdge(self.clock)
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self.bus.arvalid <= 0
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continue
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await RisingEdge(self.clock)
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if (arready_sample and arvalid_sample) or (not arvalid_sample):
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if self.int_read_addr_queue:
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addr, prot = self.int_read_addr_queue.popleft()
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self.bus.araddr <= addr
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self.bus.arprot <= prot
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self.bus.arvalid <= 1
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else:
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self.bus.arvalid <= 0
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async def _process_read_resp_if(self):
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while True:
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await ReadOnly()
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# read handshake signals
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rready_sample = self.bus.rready.value
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rvalid_sample = self.bus.rvalid.value
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if self.reset is not None and self.reset.value:
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await RisingEdge(self.clock)
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self.bus.rready <= 0
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continue
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if rready_sample and rvalid_sample:
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rdata = self.bus.rdata.value.integer
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rresp = self.bus.rresp.value.integer
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self.int_read_resp_queue.append((rdata, rresp))
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self.int_read_resp_sync.set()
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await RisingEdge(self.clock)
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self.bus.rready <= 1
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class AxiLiteMaster(object):
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def __init__(self, entity, name, clock, reset=None):
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self.write_if = None
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self.read_if = None
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self.clock = clock
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self.write_if = AxiLiteMasterWrite(entity, name, clock, reset)
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self.read_if = AxiLiteMasterRead(entity, name, clock, reset)
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def init_read(self, address, length, prot=AxiProt.NONSECURE, token=None):
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self.read_if.init_read(address, length, prot, token)
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def init_write(self, address, data, prot=AxiProt.NONSECURE, token=None):
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self.write_if.init_write(address, data, prot, token)
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def idle(self):
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return (not self.read_if or self.read_if.idle()) and (not self.write_if or self.write_if.idle())
|
|
|
|
async def wait(self):
|
|
while not self.idle():
|
|
await RisingEdge(self.clock)
|
|
|
|
async def wait_read(self):
|
|
await self.read_if.wait()
|
|
|
|
async def wait_write(self):
|
|
await self.write_if.wait()
|
|
|
|
def read_data_ready(self, token=None):
|
|
return self.read_if.read_data_ready(token)
|
|
|
|
def get_read_data(self, token=None):
|
|
return self.read_if.get_read_data(token)
|
|
|
|
def write_resp_ready(self, token=None):
|
|
return self.write_if.write_resp_ready(token)
|
|
|
|
def get_write_resp(self, token=None):
|
|
return self.write_if.get_write_resp(token)
|
|
|
|
async def read(self, address, length, prot=AxiProt.NONSECURE):
|
|
return await self.read_if.read(address, length, prot)
|
|
|
|
async def write(self, address, data, prot=AxiProt.NONSECURE):
|
|
return await self.write_if.write(address, data, prot)
|
|
|