#!/usr/bin/env python3 # This script enables easy, cross-platform building without the need # to install third-party Python modules. import sys import os import subprocess import argparse DEPS_DIR = "deps" # Obtain the path to this script, plus a trailing separator. This will # be used later on to construct various environment variables for paths # to a variety of support directories. script_path = os.path.dirname(os.path.realpath(__file__)) + os.path.sep # Look through the specified file for known variables to get the dependency list def get_required_dependencies(filename): import ast # Always check the Python version dependencies = { 'python': 1 } main_src = "" try: with open(sys.argv[0], 'r') as f: main_src = f.read() main_ast = ast.parse(main_src, filename=filename) except: return list(dependencies.keys()) # Iterate through the top-level nodes looking for variables named # LX_DEPENDENCIES or LX_DEPENDENCY and get the values that are # assigned to them. for node in ast.iter_child_nodes(main_ast): if isinstance(node, ast.Assign): value = node.value for target in node.targets: if isinstance(target, ast.Name): if target.id == "LX_DEPENDENCIES" or target.id == "LX_DEPENDENCY": if isinstance(value, (ast.List, ast.Tuple)): for elt in value.elts: if isinstance(elt, ast.Str): dependencies[elt.s] = 1 elif isinstance(value, ast.Str): dependencies[value.s] = 1 # Set up sub-dependencies if 'riscv' in dependencies: dependencies['make'] = 1 return list(dependencies.keys()) def get_python_path(script_path, args): # Python has no concept of a local dependency path, such as the C `-I`` # switch, or the nodejs `node_modules` path, or the rust cargo registry. # Instead, it relies on an environment variable to append to the search # path. # Construct this variable by adding each subdirectory under the `deps/` # directory to the PYTHONPATH environment variable. python_path = [] if os.path.isdir(script_path + DEPS_DIR): for dep in os.listdir(script_path + DEPS_DIR): dep = script_path + DEPS_DIR + os.path.sep + dep if os.path.isdir(dep): python_path.append(dep) return python_path def fixup_env(script_path, args): os.environ["PYTHONPATH"] = os.pathsep.join(get_python_path(script_path, 0)) # Set the "LXBUILDENV_REEXEC" variable to prevent the script from continuously # reinvoking itself. os.environ["LXBUILDENV_REEXEC"] = "1" # Python randomizes the order in which it traverses hashes, and Migen uses # hashes an awful lot when bringing together modules. As such, the order # in which Migen generates its output Verilog will change with every run, # and the addresses for various modules will change. # Make builds deterministic so that the generated Verilog code won't change # across runs. os.environ["PYTHONHASHSEED"] = "1" # Some Makefiles are invoked as part of the build process, and those Makefiles # occasionally have calls to Python. Ensure those Makefiles use the same # interpreter that this script is using. os.environ["PYTHON"] = sys.executable # Set the environment variable "V" to 1. This causes Makefiles to print # the commands they run, which makes them easier to debug. if args.lx_verbose: os.environ["V"] = "1" # If the user just wanted to print the environment variables, do that and quit. if args.lx_print_env: print("PYTHONPATH={}".format(os.environ["PYTHONPATH"])) print("PYTHONHASHSEED={}".format(os.environ["PYTHONHASHSEED"])) print("PYTHON={}".format(sys.executable)) print("LXBUILDENV_REEXEC={}".format(os.environ["LXBUILDENV_REEXEC"])) sys.exit(0) # Equivalent to the powershell Get-Command, and kinda like `which` def get_command(cmd): if os.name == 'nt': path_ext = os.environ["PATHEXT"].split(os.pathsep) else: path_ext = [""] for ext in path_ext: for path in os.environ["PATH"].split(os.pathsep): if os.path.exists(path + os.path.sep + cmd + ext): return path + os.path.sep + cmd + ext return None def check_python_version(args): import platform # Litex / Migen require Python 3.5 or newer. Ensure we're running # under a compatible version of Python. if sys.version_info[:3] < (3, 5): return (False, "python: You need Python 3.5+ (version {} found)".format(sys.version_info[:3])) return (True, "python 3.5+: ok (Python {} found)".format(platform.python_version())) def check_vivado(args): vivado_path = get_command("vivado") if vivado_path == None: # Look for the default Vivado install directory if os.name == 'nt': base_dir = r"C:\Xilinx\Vivado" else: base_dir = "/opt/Xilinx/Vivado" if os.path.exists(base_dir): for file in os.listdir(base_dir): bin_dir = base_dir + os.path.sep + file + os.path.sep + "bin" if os.path.exists(bin_dir + os.path.sep + "vivado"): os.environ["PATH"] += os.pathsep + bin_dir vivado_path = bin_dir break if vivado_path == None: return (False, "toolchain not found in your PATH", "download it from https://www.xilinx.com/support/download.html") return (True, "found at {}".format(vivado_path)) def check_cmd(args, cmd, name=None, fix=None): if name is None: name = cmd path = get_command(cmd) if path == None: return (False, name + " not found in your PATH", fix) return (True, "found at {}".format(path)) def check_make(args): return check_cmd(args, "make", "GNU Make") def check_riscv(args): return check_cmd(args, "riscv64-unknown-elf-gcc", "riscv toolchain", "download it from https://www.sifive.com/products/tools/") def check_yosys(args): return check_cmd(args, "yosys") def check_arachne(args): return check_cmd(args, "arachne-pnr") dependency_checkers = { 'python': check_python_version, 'vivado': check_vivado, 'make': check_make, 'riscv': check_riscv, 'yosys': check_yosys, 'arachne-pnr': check_arachne, } # Validate that the required dependencies (Vivado, compilers, etc.) # have been installed. def check_dependencies(args, dependency_list): dependency_errors = 0 for dependency_name in dependency_list: if not dependency_name in dependency_checkers: print('WARNING: Unrecognized dependency "{}"'.format(dependency_name)) continue result = dependency_checkers[dependency_name](args) if result[0] == False: if len(result) > 2: print('{}: {} -- {}'.format(dependency_name, result[1], result[2])) else: print('{}: {}'.format(dependency_name, result[1])) dependency_errors = dependency_errors + 1 elif args.lx_check_deps or args.lx_verbose: print('dependency: {}: {}'.format(dependency_name, result[1])) if dependency_errors > 0: if args.lx_ignore_deps: print('{} missing dependencies were found but continuing anyway'.format(dependency_errors)) else: raise SystemExit(str(dependency_errors) + " missing dependencies were found") if args.lx_check_deps: sys.exit(0) # Return True if the given tree needs to be initialized def check_module_recursive(root_path, depth, verbose=False): if verbose: print('git-dep: checking if "{}" requires updating...'.format(root_path)) # If the directory isn't a valid git repo, initialization is required if not os.path.exists(root_path + os.path.sep + '.git'): return True # If there are no submodules, no initialization needs to be done if not os.path.isfile(root_path + os.path.sep + '.gitmodules'): return False # Loop through the gitmodules to check all submodules gitmodules = open(root_path + os.path.sep + '.gitmodules', 'r') for line in gitmodules: parts = line.split("=", 2) if parts[0].strip() == "path": path = parts[1].strip() if check_module_recursive(root_path + os.path.sep + path, depth + 1, verbose=verbose): return True return False # Determine whether we need to invoke "git submodules init --recurse" def check_submodules(script_path, args): if check_module_recursive(script_path, 0, verbose=args.lx_verbose): print("Missing submodules -- updating") subprocess.Popen(["git", "submodule", "update", "--init", "--recursive"], cwd=script_path).wait() elif args.lx_verbose: print("Submodule check: Submodules found") def main(args): if args.init: main_name = os.getcwd().split(os.path.sep)[-1] + '.py' new_main_name = input('What would you like your main program to be called? [' + main_name + '] ') if new_main_name is not None and new_main_name != "": main_name = new_main_name print("Initializing git repository") if not os.path.exists(DEPS_DIR): os.mkdir(DEPS_DIR) os.system("git init") os.system("git add " + str(__file__)) os.system("git submodule add https://github.com/m-labs/migen.git deps/migen") os.system("git add deps/migen") os.system("git submodule add https://github.com/enjoy-digital/litex.git deps/litex") os.system("git add deps/litex") os.system("git submodule add https://github.com/enjoy-digital/litescope deps/litescope") os.system("git add deps/litescope") os.system("git submodule add https://github.com/pyserial/pyserial.git deps/pyserial") os.system("git add deps/pyserial") os.system("git submodule update --init --recursive") bin_tools = { 'litex_server': 'litex.soc.tools.remote.litex_server', 'litex_term': 'litex.soc.tools.litex_term', 'mkmscimg': 'litex.soc.tools.mkmscimg', 'mkmscimg': 'litex.soc.tools.mkmscimg', 'litex_sim': 'litex.boards.targets.sim', 'litex_simple': 'litex.boards.targets.simple', } bin_template = """ #!/usr/bin/env python3 import sys import os # This script lives in the "bin" directory, but uses a helper script in the parent # directory. Obtain the current path so we can get the absolute parent path. script_path = os.path.dirname(os.path.realpath( __file__)) + os.path.sep + os.path.pardir + os.path.sep sys.path.insert(0, script_path) import lxbuildenv """ # Create binary programs under bin/ if not os.path.exists("bin"): print("Creating binaries") os.mkdir("bin") for bin_name, python_module in bin_tools.items(): with open('bin' + os.path.sep + bin_name, 'w') as new_bin: new_bin.write(bin_template) new_bin.write('from ' + python_module + ' import main\n') new_bin.write('main()\n') os.system('git add --chmod=+x bin' + os.path.sep + bin_name) with open(main_name, 'w') as m: program_template = """#!/usr/bin/env python3 # This variable defines all the external programs that this module # relies on. lxbuildenv reads this variable in order to ensure # the build will finish without exiting due to missing third-party # programs. LX_DEPENDENCIES = ["riscv", "vivado"] # Import lxbuildenv to integrate the deps/ directory import lxbuildenv # Disable pylint's E1101, which breaks completely on migen #pylint:disable=E1101 from migen import * from litex.build.generic_platform import * _io = [ ("clk50", 0, Pins("J19"), IOStandard("LVCMOS33")), ] class Platform(XilinxPlatform): def __init__(self, toolchain="vivado", programmer="vivado", part="35"): part = "xc7a" + part + "t-fgg484-2" def create_programmer(self): if self.programmer == "vivado": return VivadoProgrammer(flash_part="n25q128-3.3v-spi-x1_x2_x4") else: raise ValueError("{} programmer is not supported" .format(self.programmer)) def do_finalize(self, fragment): XilinxPlatform.do_finalize(self, fragment) class BaseSoC(SoCSDRAM): csr_peripherals = [ "ddrphy", # "dna", "xadc", "cpu_or_bridge", ] csr_map_update(SoCSDRAM.csr_map, csr_peripherals) def __init__(self, platform, **kwargs): clk_freq = int(100e6) def main(): platform = Platform() soc = BaseSoC(platform) builder = Builder(soc, output_dir="build", csr_csv="test/csr.csv") vns = builder.build() soc.do_exit(vns) if __name__ == "__main__": main() """ m.write(program_template) return # For the main command, parse args and hand it off to main() if __name__ == "__main__": parser = argparse.ArgumentParser( description="Wrap Python code to enable quickstart", add_help=False) parser.add_argument( "-h", "--help", help="show this help message and exit", action="help" ) parser.add_argument( '-i', '--init', help='initialize a new project', action="store_true" ) args = parser.parse_args() main(args) elif not os.path.isfile(sys.argv[0]): print("lxbuildenv doesn't operate while in interactive mode") elif "LXBUILDENV_REEXEC" not in os.environ: parser = argparse.ArgumentParser( description="Wrap Python code to enable quickstart", add_help=False) parser.add_argument( "--lx-verbose", help="increase verboseness of some processes", action="store_true" ) parser.add_argument( "--lx-print-env", help="print environment variable listing for pycharm, vscode, or bash", action="store_true" ) parser.add_argument( "--lx-check-deps", help="check build environment for dependencies such as compiler and fpga tools and then exit", action="store_true" ) parser.add_argument( "--lx-print-deps", help="print all possible dependencies and then exit", action="store_true" ) parser.add_argument( "--lx-help", action="help" ) parser.add_argument( "--lx-ignore-deps", help="try building even if dependencies are missing", action="store_true" ) (args, rest) = parser.parse_known_args() if args.lx_all_deps: print('Known dependencies:') for dep in dependency_checkers.keys(): print(' {}'.format(dep)) print('To define a dependency, add a variable inside {} at the top level called LX_DEPENDENCIES and assign it a list or tuple.'.format(sys.argv[0])) print('For example:') print('LX_DEPENDENCIES = ("riscv", "vivado")') sys.exit(0) deps = get_required_dependencies(sys.argv[0]) fixup_env(script_path, args) check_dependencies(args, deps) check_submodules(script_path, args) try: sys.exit(subprocess.Popen( [sys.executable] + [sys.argv[0]] + rest).wait()) except: sys.exit(1) else: # Overwrite the deps directory. # Because we're running with a predefined PYTHONPATH, you'd think that # the DEPS_DIR would be first. # Unfortunately, setuptools causes the sitewide packages to take precedence # over the PYTHONPATH variable. # Work around this bug by inserting paths into the first index. for path in get_python_path(script_path, None): sys.path.insert(0, path)