litex/misoclib/soc/__init__.py

197 lines
6.9 KiB
Python

from operator import itemgetter
from migen.fhdl.std import *
from migen.bank import csrgen
from migen.bus import wishbone, csr, wishbone2csr
from misoclib.com.uart.phy import UARTPHY
from misoclib.com import uart
from misoclib.cpu import lm32, mor1kx
from misoclib.cpu.peripherals import identifier, timer
def mem_decoder(address, start=26, end=29):
return lambda a: a[start:end] == ((address >> (start+2)) & (2**(end-start))-1)
class SoC(Module):
csr_map = {
"crg": 0, # user
"uart_phy": 1, # provided by default (optional)
"uart": 2, # provided by default (optional)
"identifier": 3, # provided by default (optional)
"timer0": 4, # provided by default (optional)
"buttons": 5, # user
"leds": 6, # user
}
interrupt_map = {
"uart": 0,
"timer0": 1,
}
mem_map = {
"rom": 0x00000000, # (shadow @0x80000000)
"sram": 0x10000000, # (shadow @0x90000000)
"main_ram": 0x40000000, # (shadow @0xc0000000)
"csr": 0x60000000, # (shadow @0xe0000000)
}
def __init__(self, platform, clk_freq,
cpu_type="lm32", cpu_reset_address=0x00000000,
cpu_boot_file="software/bios/bios.bin",
with_integrated_rom=False, rom_size=0x8000,
with_integrated_sram=True, sram_size=4096,
with_integrated_main_ram=False, main_ram_size=64*1024,
with_csr=True, csr_data_width=8, csr_address_width=14,
with_uart=True, uart_baudrate=115200,
with_identifier=True,
with_timer=True):
self.platform = platform
self.clk_freq = clk_freq
self.cpu_type = cpu_type
if with_integrated_rom:
self.cpu_reset_address = 0
else:
self.cpu_reset_address = cpu_reset_address
self.cpu_boot_file = cpu_boot_file
self.with_integrated_rom = with_integrated_rom
self.rom_size = rom_size
self.with_integrated_sram = with_integrated_sram
self.sram_size = sram_size
self.with_integrated_main_ram = with_integrated_main_ram
self.main_ram_size = main_ram_size
self.with_uart = with_uart
self.uart_baudrate = uart_baudrate
self.with_identifier = with_identifier
self.with_csr = with_csr
self.csr_data_width = csr_data_width
self.csr_address_width = csr_address_width
self._memory_regions = [] # list of (name, origin, length)
self._csr_regions = [] # list of (name, origin, busword, csr_list/Memory)
self._wb_masters = []
self._wb_slaves = []
if cpu_type != "none":
if cpu_type == "lm32":
self.add_cpu_or_bridge(lm32.LM32(platform, self.cpu_reset_address))
elif cpu_type == "or1k":
self.add_cpu_or_bridge(mor1kx.MOR1KX(platform, self.cpu_reset_address))
else:
raise ValueError("Unsupported CPU type: "+cpu_type)
self.add_wb_master(self.cpu_or_bridge.ibus)
self.add_wb_master(self.cpu_or_bridge.dbus)
if with_integrated_rom:
self.submodules.rom = wishbone.SRAM(rom_size, read_only=True)
self.register_rom(self.rom.bus, rom_size)
if with_integrated_sram:
self.submodules.sram = wishbone.SRAM(sram_size)
self.register_mem("sram", self.mem_map["sram"], self.sram.bus, sram_size)
# Note: Main Ram can be used when no external SDRAM is available and use SDRAM mapping.
if with_integrated_main_ram:
self.submodules.main_ram = wishbone.SRAM(main_ram_size)
self.register_mem("main_ram", self.mem_map["main_ram"], self.main_ram.bus, main_ram_size)
if with_csr:
self.submodules.wishbone2csr = wishbone2csr.WB2CSR(bus_csr=csr.Interface(csr_data_width, csr_address_width))
self.register_mem("csr", self.mem_map["csr"], self.wishbone2csr.wishbone)
if with_uart:
self.submodules.uart_phy = UARTPHY(platform.request("serial"), clk_freq, uart_baudrate)
self.submodules.uart = uart.UART(self.uart_phy)
if with_identifier:
platform_id = 0x554E if not hasattr(platform, "identifier") else platform.identifier
self.submodules.identifier = identifier.Identifier(platform_id, int(clk_freq))
if with_timer:
self.submodules.timer0 = timer.Timer()
def add_cpu_or_bridge(self, cpu_or_bridge):
if self.finalized:
raise FinalizeError
if hasattr(self, "cpu_or_bridge"):
raise NotImplementedError("More than one CPU is not supported")
self.submodules.cpu_or_bridge = cpu_or_bridge
def init_rom(self, data):
self.rom.mem.init = data
def add_wb_master(self, wbm):
if self.finalized:
raise FinalizeError
self._wb_masters.append(wbm)
def add_wb_slave(self, address_decoder, interface):
if self.finalized:
raise FinalizeError
self._wb_slaves.append((address_decoder, interface))
def add_memory_region(self, name, origin, length):
def in_this_region(addr):
return addr >= origin and addr < origin + length
for n, o, l in self._memory_regions:
if n == name or in_this_region(o) or in_this_region(o+l-1):
raise ValueError("Memory region conflict between {} and {}".format(n, name))
self._memory_regions.append((name, origin, length))
def register_mem(self, name, address, interface, size=None):
self.add_wb_slave(mem_decoder(address), interface)
if size is not None:
self.add_memory_region(name, address, size)
def register_rom(self, interface, rom_size=0xa000):
self.add_wb_slave(mem_decoder(self.mem_map["rom"]), interface)
self.add_memory_region("rom", self.cpu_reset_address, rom_size)
def get_memory_regions(self):
return self._memory_regions
def check_csr_region(self, name, origin):
for n, o, l, obj in self._csr_regions:
if n == name or o == origin:
raise ValueError("CSR region conflict between {} and {}".format(n, name))
def add_csr_region(self, name, origin, busword, obj):
self.check_csr_region(name, origin)
self._csr_regions.append((name, origin, busword, obj))
def get_csr_regions(self):
return self._csr_regions
def do_finalize(self):
registered_mems = [regions[0] for regions in self._memory_regions]
if self.cpu_type != "none":
for mem in "rom", "sram":
if mem not in registered_mems:
raise FinalizeError("CPU needs a {} to be registered with SoC.register_mem()".format(mem))
# Wishbone
self.submodules.wishbonecon = wishbone.InterconnectShared(self._wb_masters,
self._wb_slaves, register=True)
# CSR
if self.with_csr:
self.submodules.csrbankarray = csrgen.BankArray(self,
lambda name, memory: self.csr_map[name if memory is None else name + "_" + memory.name_override],
data_width=self.csr_data_width, address_width=self.csr_address_width)
self.submodules.csrcon = csr.Interconnect(self.wishbone2csr.csr, self.csrbankarray.get_buses())
for name, csrs, mapaddr, rmap in self.csrbankarray.banks:
self.add_csr_region(name, self.mem_map["csr"]+0x80000000+0x800*mapaddr, self.csr_data_width, csrs)
for name, memory, mapaddr, mmap in self.csrbankarray.srams:
self.add_csr_region(name, self.mem_map["csr"]+0x80000000+0x800*mapaddr, self.csr_data_width, memory)
# Interrupts
if hasattr(self.cpu_or_bridge, "interrupt"):
for k, v in sorted(self.interrupt_map.items(), key=itemgetter(1)):
if hasattr(self, k):
self.comb += self.cpu_or_bridge.interrupt[v].eq(getattr(self, k).ev.irq)