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264 lines
10 KiB
Python
264 lines
10 KiB
Python
#!/usr/bin/env python3
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# Based on valentyusb/sim/generate_verilog.py , modified
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# for Microwatt
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# This variable defines all the external programs that this module
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# relies on. lxbuildenv reads this variable in order to ensure
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# the build will finish without exiting due to missing third-party
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# programs.
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LX_DEPENDENCIES = []
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# Import lxbuildenv to integrate the deps/ directory
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#import lxbuildenv
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# Disable pylint's E1101, which breaks completely on migen
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#pylint:disable=E1101
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import argparse
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import os
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import yaml
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#from migen import *
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from migen import Module, Signal, Instance, ClockDomain, If
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from migen.genlib.resetsync import AsyncResetSynchronizer
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from migen.fhdl.specials import TSTriple
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from migen.fhdl.bitcontainer import bits_for
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from migen.fhdl.structure import ClockSignal, ResetSignal, Replicate, Cat
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# from litex.build.sim.platform import SimPlatform
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from litex.build.lattice import LatticePlatform
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from litex.build.generic_platform import Pins, IOStandard, Misc, Subsignal
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from litex.soc.integration.soc_core import SoCCore
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from litex.soc.integration.builder import Builder
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from litex.soc.interconnect import wishbone
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from litex.soc.interconnect.csr import AutoCSR, CSRStatus, CSRStorage
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from valentyusb import usbcore
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from valentyusb.usbcore import io as usbio
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from valentyusb.usbcore.cpu import dummyusb, cdc_eptri, eptri, epfifo
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from valentyusb.usbcore.endpoint import EndpointType
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_connectors = []
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class _CRG(Module):
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def __init__(self, platform):
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clk = platform.request("clk")
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rst = platform.request("reset")
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clk12 = Signal()
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self.clock_domains.cd_sys = ClockDomain()
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self.clock_domains.cd_usb_12 = ClockDomain()
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self.clock_domains.cd_usb_48 = ClockDomain()
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self.clock_domains.cd_usb_48_to_12 = ClockDomain()
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clk48 = clk.clk48
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self.comb += self.cd_usb_48.clk.eq(clk48)
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self.comb += self.cd_usb_48_to_12.clk.eq(clk48)
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clk12_counter = Signal(2)
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self.sync.usb_48_to_12 += clk12_counter.eq(clk12_counter + 1)
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self.comb += clk12.eq(clk12_counter[1])
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self.comb += self.cd_sys.clk.eq(clk.clksys)
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self.comb += self.cd_usb_12.clk.eq(clk12)
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self.comb += [
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ResetSignal("sys").eq(rst),
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ResetSignal("usb_12").eq(rst),
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ResetSignal("usb_48").eq(rst),
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]
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class BaseSoC(SoCCore):
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def __init__(self, platform, io, sys_freq, output_dir="build", usb_variant='dummy', **kwargs):
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# Disable integrated RAM as we'll add it later
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self.integrated_sram_size = 0
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self.output_dir = output_dir
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platform.add_extension(io)
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self.submodules.crg = _CRG(platform)
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# prior to SocCore.__init__
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self.csr_map = {
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"uart": 0, # microwatt soc will remap addresses to 0
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}
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SoCCore.__init__(self, platform, sys_freq,
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cpu_type=None,
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integrated_rom_size=0x0,
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integrated_sram_size=0x0,
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integrated_main_ram_size=0x0,
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csr_address_width=14, csr_data_width=32,
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with_uart=False, with_timer=False)
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# Add USB pads
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usb_pads = platform.request("usb")
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usb_iobuf = usbio.IoBuf(usb_pads.d_p, usb_pads.d_n, usb_pads.pullup)
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self.comb += usb_pads.tx_en.eq(usb_iobuf.usb_tx_en)
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if usb_variant == 'eptri':
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self.submodules.usb = eptri.TriEndpointInterface(usb_iobuf, debug=True)
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elif usb_variant == 'epfifo':
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self.submodules.usb = epfifo.PerEndpointFifoInterface(usb_iobuf, debug=True)
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elif usb_variant == 'cdc_eptri':
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extra_args = {}
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passthrough = ['product', 'manufacturer']
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for p in passthrough:
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try:
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extra_args[p] = kwargs[p]
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except KeyError:
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pass
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self.submodules.uart = cdc_eptri.CDCUsb(usb_iobuf, debug=True, **extra_args)
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elif usb_variant == 'dummy':
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self.submodules.usb = dummyusb.DummyUsb(usb_iobuf, debug=True)
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else:
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raise ValueError('Invalid endpoints value. It is currently \'eptri\' and \'dummy\'')
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try:
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self.add_wb_master(self.usb.debug_bridge.wishbone)
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except AttributeError:
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pass
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if self.uart:
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self.comb += self.platform.request("interrupt").eq(self.uart.ev.irq)
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wb_ctrl = wishbone.Interface()
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self.add_wb_master(wb_ctrl)
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platform.add_extension(wb_ctrl.get_ios("wb_ctrl"))
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self.comb += wb_ctrl.connect_to_pads(self.platform.request("wishbone"), mode="slave")
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def add_fsm_state_names():
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"""Hack the FSM module to add state names to the output"""
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from migen.fhdl.visit import NodeTransformer
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from migen.genlib.fsm import NextState, NextValue, _target_eq
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from migen.fhdl.bitcontainer import value_bits_sign
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class My_LowerNext(NodeTransformer):
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def __init__(self, next_state_signal, next_state_name_signal, encoding, aliases):
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self.next_state_signal = next_state_signal
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self.next_state_name_signal = next_state_name_signal
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self.encoding = encoding
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self.aliases = aliases
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# (target, next_value_ce, next_value)
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self.registers = []
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def _get_register_control(self, target):
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for x in self.registers:
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if _target_eq(target, x[0]):
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return x[1], x[2]
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raise KeyError
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def visit_unknown(self, node):
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if isinstance(node, NextState):
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try:
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actual_state = self.aliases[node.state]
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except KeyError:
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actual_state = node.state
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return [
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self.next_state_signal.eq(self.encoding[actual_state]),
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self.next_state_name_signal.eq(int.from_bytes(actual_state.encode(), byteorder="big"))
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]
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elif isinstance(node, NextValue):
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try:
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next_value_ce, next_value = self._get_register_control(node.target)
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except KeyError:
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related = node.target if isinstance(node.target, Signal) else None
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next_value = Signal(bits_sign=value_bits_sign(node.target), related=related)
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next_value_ce = Signal(related=related)
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self.registers.append((node.target, next_value_ce, next_value))
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return next_value.eq(node.value), next_value_ce.eq(1)
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else:
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return node
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import migen.genlib.fsm as fsm
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def my_lower_controls(self):
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self.state_name = Signal(len(max(self.encoding,key=len))*8, reset=int.from_bytes(self.reset_state.encode(), byteorder="big"))
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self.next_state_name = Signal(len(max(self.encoding,key=len))*8, reset=int.from_bytes(self.reset_state.encode(), byteorder="big"))
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self.comb += self.next_state_name.eq(self.state_name)
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self.sync += self.state_name.eq(self.next_state_name)
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return My_LowerNext(self.next_state, self.next_state_name, self.encoding, self.state_aliases)
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fsm.FSM._lower_controls = my_lower_controls
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_io = [
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# Wishbone
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("wishbone", 0,
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Subsignal("adr", Pins(30)),
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Subsignal("dat_r", Pins(32)),
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Subsignal("dat_w", Pins(32)),
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Subsignal("sel", Pins(4)),
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Subsignal("cyc", Pins(1)),
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Subsignal("stb", Pins(1)),
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Subsignal("ack", Pins(1)),
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Subsignal("we", Pins(1)),
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Subsignal("cti", Pins(3)),
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Subsignal("bte", Pins(2)),
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Subsignal("err", Pins(1))
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),
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("usb", 0,
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Subsignal("d_p", Pins(1)),
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Subsignal("d_n", Pins(1)),
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Subsignal("pullup", Pins(1)),
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Subsignal("tx_en", Pins(1)),
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),
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("clk", 0,
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Subsignal("clk48", Pins(1)),
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Subsignal("clksys", Pins(1)),
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),
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("interrupt", 0, Pins(1)),
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("reset", 0, Pins(1)),
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]
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def generate(core_config, output_dir, csr_csv):
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toolchain = core_config["toolchain"]
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if toolchain == "trellis":
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platform = LatticePlatform(core_config["device"], [], toolchain=toolchain)
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else:
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raise ValueError(f"Unknown config toolchain {toolchain}")
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soc = BaseSoC(platform, _io, core_config["sys_freq"],
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usb_variant=core_config["usb_variant"],
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cpu_type=None, cpu_variant=None,
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output_dir=output_dir,
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product=core_config["product"],
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manufacturer="Microwatt")
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builder = Builder(soc, output_dir=output_dir,
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csr_csv=csr_csv,
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compile_software=False)
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vns = builder.build(run=False, build_name='valentyusb')
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soc.do_exit(vns)
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def main():
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parser = argparse.ArgumentParser(description="Build standalone ValentyUSB verilog output")
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# parser.add_argument('variant', metavar='VARIANT',
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# choices=['dummy', 'cdc_eptri', 'eptri', 'epfifo'],
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# default='dummy',
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# help='USB variant. Choices: [%(choices)s] (default: %(default)s)' )
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parser.add_argument('--dir', metavar='DIRECTORY',
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default='build',
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help='Output directory (default: %(default)s)' )
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parser.add_argument('--csr', metavar='CSR',
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default='csr.csv',
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help='csr file (default: %(default)s)')
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parser.add_argument('config', type=argparse.FileType('r'),
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help='Input platform config file')
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args = parser.parse_args()
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core_config = yaml.load(args.config.read(), Loader=yaml.Loader)
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# XXX matt - not sure if this needed, maybe only for sim target?
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# add_fsm_state_names()
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output_dir = args.dir
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generate(core_config, output_dir, args.csr)
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print(
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"""Build complete. Output files:
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{}/gateware/valentyusb.v Source Verilog file.
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""".format(output_dir))
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if __name__ == "__main__":
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main()
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