litex-boards/litex_boards/targets/acorn_cle_215.py

#!/usr/bin/env python3

# This file is Copyright (c) 2020 Florent Kermarrec <florent@enjoy-digital.fr>
# License: BSD

# Build/Use ----------------------------------------------------------------------------------------
# Build/Load bitstream:
# ./acorn_cle_215.py --build
# ./acorn_cle_215.py --load (or --flash)
#
# Get Linux driver/utilities from:
# https://github.com/enjoy-digital/litex_playground/tree/master/004_litepcie_aller_test/software
# Copy generated csr.h/soc.h/mem.h to software/kernel.
#
#.Build the kernel and load it:
# cd software/kernel
# make
# sudo ./init.sh
#
# Test userspace utilities:
# cd software/user
# make
# ./litepcie_util info
# ./litepcie_util scratch_test
# ./litepcie_util dma_test
# ./litepcie_util uart_test

import os
import argparse
import sys

from migen import *
from migen.genlib.misc import WaitTimer

from litex.build import tools

from litex_boards.platforms import acorn_cle_215

from litex.soc.interconnect.csr import *
from litex.soc.integration.soc_core import *
from litex.soc.integration.soc_sdram import *
from litex.soc.integration.builder import *
from litex.soc.integration.export import *

from litex.soc.cores.clock import *
from litex.soc.cores.dna import DNA
from litex.soc.cores.xadc import XADC
from litex.soc.cores.icap import ICAP
from litex.soc.cores.led import LedChaser

from litedram.modules import MT41K512M16
from litedram.phy import s7ddrphy

from litepcie.phy.s7pciephy import S7PCIEPHY
from litepcie.core import LitePCIeEndpoint, LitePCIeMSI
from litepcie.frontend.dma import LitePCIeDMA
from litepcie.frontend.wishbone import LitePCIeWishboneBridge

# CRG ----------------------------------------------------------------------------------------------

class CRG(Module, AutoCSR):
    def __init__(self, platform, sys_clk_freq):
        self.rst = CSR()

        self.clock_domains.cd_sys       = ClockDomain()
        self.clock_domains.cd_sys4x     = ClockDomain(reset_less=True)
        self.clock_domains.cd_sys4x_dqs = ClockDomain(reset_less=True)
        self.clock_domains.cd_clk200    = ClockDomain()

        # Clk/Rst
        clk200 = platform.request("clk200")

        # Delay software reset by 10us to ensure write has been acked on PCIe.
        rst_delay = WaitTimer(int(10e-6*sys_clk_freq))
        self.submodules += rst_delay
        self.sync += If(self.rst.re, rst_delay.wait.eq(1))

        # PLL
        self.submodules.pll = pll = S7PLL()
        self.comb += pll.reset.eq(rst_delay.done)
        pll.register_clkin(clk200, 200e6)
        pll.create_clkout(self.cd_sys,       sys_clk_freq)
        pll.create_clkout(self.cd_sys4x,     4*sys_clk_freq)
        pll.create_clkout(self.cd_sys4x_dqs, 4*sys_clk_freq, phase=90)
        pll.create_clkout(self.cd_clk200,    200e6)

        self.submodules.idelayctrl = S7IDELAYCTRL(self.cd_clk200)

# PCIeSoC -----------------------------------------------------------------------------------------

class PCIeSoC(SoCCore):
    def __init__(self, platform, **kwargs):
        sys_clk_freq = int(100e6)

        # SoCCore ----------------------------------------------------------------------------------
        SoCCore.__init__(self, platform, sys_clk_freq,
            ident          = "LiteX SoC on Acorn CLE 215+",
            ident_version  = True,
            **kwargs)

        # CRG --------------------------------------------------------------------------------------
        self.submodules.crg = CRG(platform, sys_clk_freq)
        self.add_csr("crg")

        # DNA --------------------------------------------------------------------------------------
        self.submodules.dna = DNA()
        self.dna.add_timing_constraints(platform, sys_clk_freq, self.crg.cd_sys.clk)
        self.add_csr("dna")

        # XADC -------------------------------------------------------------------------------------
        self.submodules.xadc = XADC()
        self.add_csr("xadc")

        # ICAP -------------------------------------------------------------------------------------
        self.submodules.icap = ICAP(platform)
        self.icap.add_timing_constraints(platform, sys_clk_freq, self.crg.cd_sys.clk)
        self.add_csr("icap")

        # DDR3 SDRAM -------------------------------------------------------------------------------
        if not self.integrated_main_ram_size:
            self.submodules.ddrphy = s7ddrphy.A7DDRPHY(platform.request("ddram"),
                memtype          = "DDR3",
                nphases          = 4,
                sys_clk_freq     = sys_clk_freq,
                iodelay_clk_freq = 200e6)
            self.add_csr("ddrphy")
            self.add_sdram("sdram",
                phy                     = self.ddrphy,
                module                  = MT41K512M16(sys_clk_freq, "1:4"),
                origin                  = self.mem_map["main_ram"],
                size                    = kwargs.get("max_sdram_size", 0x40000000),
                l2_cache_size           = kwargs.get("l2_size", 8192),
                l2_cache_min_data_width = kwargs.get("min_l2_data_width", 128),
                l2_cache_reverse        = True
            )

        # PCIe -------------------------------------------------------------------------------------
        # PHY
        self.submodules.pcie_phy = S7PCIEPHY(platform, platform.request("pcie_x4"),
            data_width = 128,
            bar0_size  = 0x20000)
        self.pcie_phy.add_timing_constraints(platform)
        platform.add_false_path_constraints(self.crg.cd_sys.clk, self.pcie_phy.cd_pcie.clk)
        self.add_csr("pcie_phy")
        self.comb += platform.request("pcie_clkreq_n").eq(0)

        # Endpoint
        self.submodules.pcie_endpoint = LitePCIeEndpoint(self.pcie_phy, max_pending_requests=8)

        # Wishbone bridge
        self.submodules.pcie_bridge = LitePCIeWishboneBridge(self.pcie_endpoint,
            base_address = self.mem_map["csr"])
        self.add_wb_master(self.pcie_bridge.wishbone)

        # DMA0
        self.submodules.pcie_dma0 = LitePCIeDMA(self.pcie_phy, self.pcie_endpoint,
            with_buffering = True, buffering_depth=1024,
            with_loopback  = True)
        self.add_csr("pcie_dma0")

        # DMA1
        self.submodules.pcie_dma1 = LitePCIeDMA(self.pcie_phy, self.pcie_endpoint,
            with_buffering = True, buffering_depth=1024,
            with_loopback  = True)
        self.add_csr("pcie_dma1")

        self.add_constant("DMA_CHANNELS", 2)

        # MSI
        self.submodules.pcie_msi = LitePCIeMSI()
        self.add_csr("pcie_msi")
        self.comb += self.pcie_msi.source.connect(self.pcie_phy.msi)
        self.interrupts = {
            "PCIE_DMA0_WRITER":    self.pcie_dma0.writer.irq,
            "PCIE_DMA0_READER":    self.pcie_dma0.reader.irq,
            "PCIE_DMA1_WRITER":    self.pcie_dma1.writer.irq,
            "PCIE_DMA1_READER":    self.pcie_dma1.reader.irq,
        }
        for i, (k, v) in enumerate(sorted(self.interrupts.items())):
            self.comb += self.pcie_msi.irqs[i].eq(v)
            self.add_constant(k + "_INTERRUPT", i)

        # Leds -------------------------------------------------------------------------------------
        self.submodules.leds = LedChaser(
            pads         = Cat(*[platform.request("user_led", i) for i in range(4)]),
            sys_clk_freq = sys_clk_freq)
        self.add_csr("leds")

    def generate_software_headers(self):
        csr_header = get_csr_header(self.csr_regions, self.constants, with_access_functions=False)
        tools.write_to_file("csr.h", csr_header)
        soc_header = get_soc_header(self.constants, with_access_functions=False)
        tools.write_to_file("soc.h", soc_header)
        mem_header = get_mem_header(self.mem_regions)
        tools.write_to_file("mem.h", mem_header)

# Build --------------------------------------------------------------------------------------------

def main():
    parser = argparse.ArgumentParser(description="LiteX SoC on LiteX SoC on Acorn CLE 215+")
    parser.add_argument("--build", action="store_true", help="Build bitstream")
    parser.add_argument("--load",  action="store_true", help="Load bitstream")
    parser.add_argument("--flash", action="store_true", help="Flash bitstream")
    builder_args(parser)
    soc_sdram_args(parser)
    args = parser.parse_args()

    # Enforce arguments
    args.uart_name      = "crossover"
    args.csr_data_width = 32

    platform = acorn_cle_215.Platform()
    soc      = PCIeSoC(platform, **soc_sdram_argdict(args))
    builder  = Builder(soc, **builder_argdict(args))
    vns = builder.build(run=args.build)
    soc.generate_software_headers()

    if args.load:
        prog = soc.platform.create_programmer()
        prog.load_bitstream(os.path.join(builder.gateware_dir, "top.bit"))

    if args.flash:
        prog = soc.platform.create_programmer()
        prog.flash(0, os.path.join(builder.gateware_dir, "top.bin"))

if __name__ == "__main__":
    main()