#!/usr/bin/env python3 import argparse, importlib, subprocess from mibuild.tools import write_to_file from misoclib.gensoc import cpuif from misoclib.s6ddrphy import initsequence import jtag def _get_args(): parser = argparse.ArgumentParser(description="MiSoC - a high performance SoC based on Migen.") parser.add_argument("-p", "--platform", default="mixxeo", help="platform to build for") parser.add_argument("-t", "--target", default="mlabs_video", help="SoC type to build") parser.add_argument("-s", "--sub-target", default="", help="variant of the SoC type to build") parser.add_argument("-o", "--option", default=[], nargs=2, action="append", help="set target-specific option") parser.add_argument("-Xp", "--external-platform", default="", help="use external platform file in the specified path") parser.add_argument("-Xt", "--external-target", default="", help="use external target file in the specified path") parser.add_argument("-B", "--no-bitstream", default=False, action="store_true", help="do not build bitstream file") parser.add_argument("-H", "--no-header", default=False, action="store_true", help="do not build C header files with CSR/IRQ/SDRAM_PHY definitions") parser.add_argument("-c", "--csr-csv", default="", help="save CSR map into CSV file") parser.add_argument("-l", "--load", default=False, action="store_true", help="load bitstream to FPGA volatile memory") parser.add_argument("-f", "--flash", default=False, action="store_true", help="load bitstream to flash") return parser.parse_args() def _misoc_import(default, external, name): if external: loader = importlib.find_loader(name, [external]) if loader is None: raise ImportError("Module not found: "+name) return loader.load_module() else: return importlib.import_module(default + "." + name) def main(): args = _get_args() platform_module = _misoc_import("mibuild.platforms", args.external_platform, args.platform) target_module = _misoc_import("targets", args.external_target, args.target) platform = platform_module.Platform() if args.sub_target: top_class = getattr(target_module, args.sub_target) else: top_class = target_module.get_default_subtarget(platform) build_name = top_class.__name__.lower() + "-" + args.platform top_kwargs = dict((k, eval(v)) for k, v in args.option) soc = top_class(platform, **top_kwargs) if not args.no_bitstream: platform.build(soc, build_name=build_name) subprocess.call(["tools/byteswap", "build/" + build_name + ".bin", "build/" + build_name + ".fpg"]) else: soc.finalize() if not args.no_header: boilerplate = """/* * Platform: {} * Target: {} * Subtarget: {} */ """.format(args.platform, args.target, top_class.__name__) csr_header = cpuif.get_csr_header(soc.csr_base, soc.csrbankarray, soc.interrupt_map) write_to_file("software/include/hw/csr.h", boilerplate + csr_header) sdram_phy_header = initsequence.get_sdram_phy_header(soc.ddrphy) write_to_file("software/include/hw/sdram_phy.h", boilerplate + sdram_phy_header) if args.csr_csv: csr_csv = cpuif.get_csr_csv(soc.csr_base, soc.csrbankarray) write_to_file(args.csr_csv, csr_csv) if args.load: jtag.load("build/" + build_name + ".bit") if args.flash: jtag.flash("build/" + build_name + ".fpg") if __name__ == "__main__": main()