from migen.fhdl.structure import * from migen.corelogic.misc import optree from migen.bus.transactions import * class FinalizeError(Exception): pass (SLOT_EMPTY, SLOT_PENDING, SLOT_PROCESSING) = range(3) class Slot: def __init__(self, aw, time): self.state = Signal(BV(2)) self.we = Signal() self.adr = Signal(BV(aw)) self.time = time if self.time: self._counter = Signal(BV(bits_for(time))) self.mature = Signal() self.allocate = Signal() self.allocate_we = Signal() self.allocate_adr = Signal(BV(aw)) self.process = Signal() self.call = Signal() def get_fragment(self): comb = [] sync = [ If(self.allocate, self.state.eq(SLOT_PENDING), self.we.eq(self.allocate_we), self.adr.eq(self.allocate_adr) ), If(self.process, self.state.eq(SLOT_PROCESSING)), If(self.call, self.state.eq(SLOT_EMPTY)) ] if self.time: comb += [ self.mature.eq(self._counter == 0) ] sync += [ If(self.allocate, self._counter.eq(self.time) ).Elif(self._counter != 0, self._counter.eq(self._counter - 1) ) ] return Fragment(comb, sync) class Port: def __init__(self, hub, nslots): self.hub = hub self.slots = [Slot(self.hub.aw, self.hub.time) for i in range(nslots)] self.finalized = False # request issuance self.adr = Signal(BV(self.hub.aw)) self.we = Signal() self.stb = Signal() # tag_issue is created by finalize() self.ack = Signal() # request completion self.call = Signal() # tag_call is created by finalize() self.dat_r = Signal(BV(self.hub.dw)) self.dat_w = Signal(BV(self.hub.dw)) self.dat_wm = Signal(BV(self.hub.dw//8)) def finalize(self, tagbits, base): if self.finalized: raise FinalizeError self.finalized = True self.tagbits = tagbits self.base = base nslots = len(self.slots) if nslots > 1: self.tag_issue = Signal(BV(bits_for(nslots-1))) self.tag_call = Signal(BV(tagbits)) def get_call_expression(self, slotn=0): if not self.finalized: raise FinalizeError return self.call \ & (self.tag_call == Constant(self.base + slotn, BV(self.tagbits))) def get_fragment(self): if not self.finalized: raise FinalizeError slots_fragment = sum([s.get_fragment() for s in self.slots], Fragment()) comb = [] sync = [] # allocate for s in self.slots: comb += [ s.allocate_we.eq(self.we), s.allocate_adr.eq(self.adr) ] choose_slot = None for s in reversed(self.slots): choose_slot = If(s.state == SLOT_EMPTY, s.allocate.eq(self.stb) ).Else(choose_slot) comb.append(choose_slot) comb.append(self.ack.eq(optree("|", [s.state == SLOT_EMPTY for s in self.slots]))) # call comb += [s.call.eq(self.get_call_expression(n)) for n, s in enumerate(self.slots)] return slots_fragment + Fragment(comb, sync) class Hub: def __init__(self, aw, dw, time=0): self.aw = aw self.dw = dw self.time = time self.ports = [] self.finalized = False self.call = Signal() # tag_call is created by finalize() self.dat_r = Signal(BV(self.dw)) self.dat_w = Signal(BV(self.dw)) self.dat_wm = Signal(BV(self.dw//8)) def get_port(self, nslots=1): if self.finalized: raise FinalizeError new_port = Port(self, nslots) self.ports.append(new_port) return new_port def finalize(self): if self.finalized: raise FinalizeError self.finalized = True nslots = sum([len(port.slots) for port in self.ports]) tagbits = bits_for(nslots-1) base = 0 for port in self.ports: port.finalize(tagbits, base) base += len(port.slots) self.tag_call = Signal(BV(tagbits)) def get_slots(self): if not self.finalized: raise FinalizeError return sum([port.slots for port in self.ports], []) def get_fragment(self): if not self.finalized: raise FinalizeError ports = sum([port.get_fragment() for port in self.ports], Fragment()) comb = [] for port in self.ports: comb += [ port.call.eq(self.call), port.tag_call.eq(self.tag_call), port.dat_r.eq(self.dat_r) ] comb += [ self.dat_w.eq(optree("|", [port.dat_w for port in self.ports])), self.dat_wm.eq(optree("|", [port.dat_wm for port in self.ports])) ] return ports + Fragment(comb) class Initiator: def __init__(self, port, generator): self.port = port self.generator = generator self.done = False self._exe = None def _execute(self, s, port, generator): while True: transaction = next(generator) transaction_start = s.cycle_counter if transaction is None: yield else: # tag phase s.wr(port.adr, transaction.address) if isinstance(transaction, TWrite): s.wr(port.we, 1) else: s.wr(port.we, 0) s.wr(port.stb, 1) yield while not s.rd(port.ack): yield if hasattr(port, "tag_issue"): tag = s.rd(port.tag_issue) else: tag = 0 tag += port.base s.wr(port.stb, 0) # data phase while not (s.rd(port.call) and (s.rd(port.tag_call) == tag)): yield if isinstance(transaction, TWrite): s.wr(port.dat_w, transaction.data) s.wr(port.dat_wm, ~transaction.sel) yield s.wr(port.dat_w, 0) s.wr(port.dat_wm, 0) else: yield transaction.data = s.rd(port.dat_r) transaction.latency = s.cycle_counter - transaction_start - 1 def do_simulation(self, s): if not self.done: if self._exe is None: self._exe = self._execute(s, self.port, self.generator) try: next(self._exe) except StopIteration: self.done = True def get_fragment(self): return Fragment(sim=[self.do_simulation])