import os, sys from migen.fhdl.std import * from migen.fhdl.structure import _Fragment from migen.genlib.record import Record from migen.genlib.io import CRG from migen.fhdl import verilog, edif from migen.util.misc import autotype from mibuild import tools class ConstraintError(Exception): pass class Pins: def __init__(self, *identifiers): self.identifiers = [] for i in identifiers: self.identifiers += i.split() class IOStandard: def __init__(self, name): self.name = name class Drive: def __init__(self, strength): self.strength = strength class Misc: def __init__(self, misc): self.misc = misc class Subsignal: def __init__(self, name, *constraints): self.name = name self.constraints = list(constraints) class PlatformInfo: def __init__(self, info): self.info = info def _lookup(description, name, number): for resource in description: if resource[0] == name and (number is None or resource[1] == number): return resource raise ConstraintError("Resource not found: " + name + ":" + str(number)) def _resource_type(resource): t = None for element in resource[2:]: if isinstance(element, Pins): assert(t is None) t = len(element.identifiers) elif isinstance(element, Subsignal): if t is None: t = [] assert(isinstance(t, list)) n_bits = None for c in element.constraints: if isinstance(c, Pins): assert(n_bits is None) n_bits = len(c.identifiers) t.append((element.name, n_bits)) return t class ConnectorManager: def __init__(self, connectors): self.connector_table = dict() for connector in connectors: cit = iter(connector) conn_name = next(cit) if isinstance(connector[1], str): pin_list = [] for pins in cit: pin_list += pins.split() pin_list = [None if pin == "None" else pin for pin in pin_list] elif isinstance(connector[1], dict): pin_list = connector[1] else: raise ValueError("Unsupported pin list type {} for connector" " {}".format(type(connector[1]), conn_name)) if conn_name in self.connector_table: raise ValueError("Connector specified more than once: "+conn_name) self.connector_table[conn_name] = pin_list def resolve_identifiers(self, identifiers): r = [] for identifier in identifiers: if ":" in identifier: conn, pn = identifier.split(":") if pn.isdigit(): pn = int(pn) r.append(self.connector_table[conn][pn]) else: r.append(identifier) return r def _separate_pins(constraints): pins = None others = [] for c in constraints: if isinstance(c, Pins): assert(pins is None) pins = c.identifiers else: others.append(c) return pins, others class ConstraintManager: def __init__(self, io, connectors): self.available = list(io) self.matched = [] self.platform_commands = [] self.connector_manager = ConnectorManager(connectors) def add_extension(self, io): self.available.extend(io) def request(self, name, number=None): resource = _lookup(self.available, name, number) rt = _resource_type(resource) if isinstance(rt, int): obj = Signal(rt, name_override=resource[0]) else: obj = Record(rt, name=resource[0]) for element in resource[2:]: if isinstance(element, PlatformInfo): obj.platform_info = element.info break self.available.remove(resource) self.matched.append((resource, obj)) return obj def lookup_request(self, name, number=None): for resource, obj in self.matched: if resource[0] == name and (number is None or resource[1] == number): return obj raise ConstraintError("Resource not found: " + name + ":" + str(number)) def add_platform_command(self, command, **signals): self.platform_commands.append((command, signals)) def get_io_signals(self): r = set() for resource, obj in self.matched: if isinstance(obj, Signal): r.add(obj) else: r.update(obj.flatten()) return r def get_sig_constraints(self): r = [] for resource, obj in self.matched: name = resource[0] number = resource[1] has_subsignals = False top_constraints = [] for element in resource[2:]: if isinstance(element, Subsignal): has_subsignals = True else: top_constraints.append(element) if has_subsignals: for element in resource[2:]: if isinstance(element, Subsignal): sig = getattr(obj, element.name) pins, others = _separate_pins(top_constraints + element.constraints) pins = self.connector_manager.resolve_identifiers(pins) r.append((sig, pins, others, (name, number, element.name))) else: pins, others = _separate_pins(top_constraints) pins = self.connector_manager.resolve_identifiers(pins) r.append((obj, pins, others, (name, number, None))) return r def get_platform_commands(self): return self.platform_commands class GenericPlatform: def __init__(self, device, io, connectors=[], name=None): self.device = device self.constraint_manager = ConstraintManager(io, connectors) if name is None: name = self.__module__.split(".")[-1] self.name = name self.sources = [] self.verilog_include_paths = [] self.finalized = False def request(self, *args, **kwargs): return self.constraint_manager.request(*args, **kwargs) def lookup_request(self, *args, **kwargs): return self.constraint_manager.lookup_request(*args, **kwargs) def add_period_constraint(self, clk, period): raise NotImplementedError def add_platform_command(self, *args, **kwargs): return self.constraint_manager.add_platform_command(*args, **kwargs) def add_extension(self, *args, **kwargs): return self.constraint_manager.add_extension(*args, **kwargs) def finalize(self, fragment, *args, **kwargs): if self.finalized: raise ConstraintError("Already finalized") # if none exists, create a default clock domain and drive it if not fragment.clock_domains: if not hasattr(self, "default_clk_name"): raise NotImplementedError("No default clock and no clock domain defined") crg = CRG(self.request(self.default_clk_name)) fragment += crg.get_fragment() self.do_finalize(fragment, *args, **kwargs) self.finalized = True def do_finalize(self, fragment, *args, **kwargs): """overload this and e.g. add_platform_command()'s after the modules had their say""" if hasattr(self, "default_clk_period"): try: self.add_period_constraint(self.lookup_request(self.default_clk_name), self.default_clk_period) except ConstraintError: pass def add_source(self, filename, language=None): if language is None: language = tools.language_by_filename(filename) if language is None: language = "verilog" # default to Verilog filename = os.path.abspath(filename) self.sources.append((filename, language)) def add_sources(self, path, *filenames, language=None): for f in filenames: self.add_source(os.path.join(path, f), language) def add_source_dir(self, path, recursive=True): dir_files = [] if recursive: for root, dirs, files in os.walk(path): for filename in files: dir_files.append(os.path.join(root, filename)) else: for item in os.listdir(path): if os.path.isfile(os.path.join(path, item)): dir_files.append(os.path.join(path, item)) for filename in dir_files: language = tools.language_by_filename(filename) if language is not None: self.add_source(filename, language) def add_verilog_include_path(self, path): self.verilog_include_paths.append(os.path.abspath(path)) def resolve_signals(self, vns): # resolve signal names in constraints sc = self.constraint_manager.get_sig_constraints() named_sc = [(vns.get_name(sig), pins, others, resource) for sig, pins, others, resource in sc] # resolve signal names in platform commands pc = self.constraint_manager.get_platform_commands() named_pc = [] for template, args in pc: name_dict = dict((k, vns.get_name(sig)) for k, sig in args.items()) named_pc.append(template.format(**name_dict)) return named_sc, named_pc def _get_source(self, fragment, gen_fn): if not isinstance(fragment, _Fragment): fragment = fragment.get_fragment() # generate source and namespace convert = gen_fn(fragment) return str(convert), convert.ns def get_verilog(self, fragment, **kwargs): return self._get_source(fragment, lambda f: verilog.convert(f, self.constraint_manager.get_io_signals(), create_clock_domains=False, **kwargs)) def get_edif(self, fragment, cell_library, vendor, device, **kwargs): return self._get_source(fragment, lambda f: edif.convert(f, self.constraint_manager.get_io_signals(), cell_library, vendor, device, **kwargs)) def build(self, fragment): raise NotImplementedError("GenericPlatform.build must be overloaded") def build_cmdline(self, *args, **kwargs): arg = sys.argv[1:] if len(arg) % 2: print("Missing value for option: "+sys.argv[-1]) sys.exit(1) argdict = dict((k, autotype(v)) for k, v in zip(*[iter(arg)]*2)) kwargs.update(argdict) self.build(*args, **kwargs) def create_programmer(self): raise NotImplementedError