252 lines
5.1 KiB
Python
252 lines
5.1 KiB
Python
from migen.fhdl.std import *
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from migen.genlib.fifo import SyncFIFO
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from migen.genlib.fsm import FSM, NextState
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from migen.genlib.misc import chooser
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from migen.flow.actor import Sink, Source
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from migen.bank.description import *
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from migen.bank.eventmanager import *
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from misoclib.ethmac.common import *
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class SRAMWriter(Module, AutoCSR):
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def __init__(self, depth, nslots=2):
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self.sink = sink = Sink(eth_description(32))
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self.crc_error = Signal()
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slotbits = max(log2_int(nslots), 1)
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lengthbits = log2_int(depth*4) # length in bytes
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self._slot = CSRStatus(slotbits)
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self._length = CSRStatus(lengthbits)
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self.submodules.ev = EventManager()
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self.ev.available = EventSourceLevel()
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self.ev.finalize()
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###
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# packet dropped if no slot available
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sink.ack.reset = 1
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# length computation
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cnt = Signal(lengthbits)
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clr_cnt = Signal()
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inc_cnt = Signal()
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inc_val = Signal(3)
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self.comb += \
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If(sink.last_be[3],
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inc_val.eq(1)
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).Elif(sink.last_be[2],
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inc_val.eq(2)
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).Elif(sink.last_be[1],
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inc_val.eq(3)
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).Else(
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inc_val.eq(4)
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)
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self.sync += \
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If(clr_cnt,
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cnt.eq(0)
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).Elif(inc_cnt,
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cnt.eq(cnt+inc_val)
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)
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# slot computation
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slot = Signal(slotbits)
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inc_slot = Signal()
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self.sync += \
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If(inc_slot,
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If(slot == nslots-1,
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slot.eq(0),
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).Else(
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slot.eq(slot+1)
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)
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)
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ongoing = Signal()
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discard = Signal()
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# status fifo
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fifo = SyncFIFO([("slot", slotbits), ("length", lengthbits)], nslots)
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self.submodules += fifo
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# fsm
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fsm = FSM(reset_state="IDLE")
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self.submodules += fsm
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fsm.act("IDLE",
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inc_cnt.eq(sink.stb),
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If(sink.stb & sink.sop,
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ongoing.eq(1),
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If(fifo.writable,
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NextState("WRITE")
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)
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)
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)
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fsm.act("WRITE",
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inc_cnt.eq(sink.stb),
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ongoing.eq(1),
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If(sink.stb & sink.eop,
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If((sink.error & sink.last_be) != 0,
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NextState("DISCARD")
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).Else(
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NextState("TERMINATE")
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)
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)
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)
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fsm.act("DISCARD",
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clr_cnt.eq(1),
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NextState("IDLE")
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)
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fsm.act("TERMINATE",
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clr_cnt.eq(1),
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inc_slot.eq(1),
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fifo.we.eq(1),
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fifo.din.slot.eq(slot),
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fifo.din.length.eq(cnt),
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NextState("IDLE")
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)
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self.comb += [
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fifo.re.eq(self.ev.available.clear),
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self.ev.available.trigger.eq(fifo.readable),
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self._slot.status.eq(fifo.dout.slot),
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self._length.status.eq(fifo.dout.length),
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]
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# memory
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mems = [None]*nslots
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ports = [None]*nslots
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for n in range(nslots):
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mems[n] = Memory(32, depth)
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ports[n] = mems[n].get_port(write_capable=True)
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self.specials += ports[n]
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self.mems = mems
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cases = {}
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for n, port in enumerate(ports):
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cases[n] = [
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ports[n].adr.eq(cnt[2:]),
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ports[n].dat_w.eq(sink.d),
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If(sink.stb & ongoing,
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ports[n].we.eq(0xf)
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)
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]
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self.comb += Case(slot, cases)
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class SRAMReader(Module, AutoCSR):
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def __init__(self, depth, nslots=2):
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self.source = source = Source(eth_description(32))
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slotbits = max(log2_int(nslots), 1)
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lengthbits = log2_int(depth*4) # length in bytes
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self.lengthbits = lengthbits
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self._start = CSR()
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self._ready = CSRStatus()
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self._slot = CSRStorage(slotbits)
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self._length = CSRStorage(lengthbits)
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self.submodules.ev = EventManager()
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self.ev.done = EventSourcePulse()
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self.ev.finalize()
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###
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# command fifo
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fifo = SyncFIFO([("slot", slotbits), ("length", lengthbits)], nslots)
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self.submodules += fifo
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self.comb += [
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fifo.we.eq(self._start.re),
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fifo.din.slot.eq(self._slot.storage),
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fifo.din.length.eq(self._length.storage),
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self._ready.status.eq(fifo.writable)
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]
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# length computation
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cnt = Signal(lengthbits)
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clr_cnt = Signal()
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inc_cnt = Signal()
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self.sync += \
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If(clr_cnt,
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cnt.eq(0)
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).Elif(inc_cnt,
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cnt.eq(cnt+4)
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)
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# fsm
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first = Signal()
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last = Signal()
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last_d = Signal()
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fsm = FSM(reset_state="IDLE")
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self.submodules += fsm
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fsm.act("IDLE",
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clr_cnt.eq(1),
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If(fifo.readable,
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NextState("CHECK")
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)
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)
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fsm.act("CHECK",
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If(~last_d,
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NextState("SEND"),
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).Else(
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NextState("END"),
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)
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)
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length_lsb = fifo.dout.length[0:2]
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fsm.act("SEND",
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source.stb.eq(1),
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source.sop.eq(first),
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source.eop.eq(last),
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If(last,
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If(length_lsb == 3,
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source.last_be.eq(0b0010)
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).Elif(length_lsb == 2,
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source.last_be.eq(0b0100)
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).Elif(length_lsb == 1,
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source.last_be.eq(0b1000)
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).Else(
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source.last_be.eq(0b0001)
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)
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),
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If(source.ack,
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inc_cnt.eq(~last),
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NextState("CHECK")
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)
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)
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fsm.act("END",
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fifo.re.eq(1),
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self.ev.done.trigger.eq(1),
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NextState("IDLE")
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)
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# first/last computation
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self.sync += [
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If(fsm.ongoing("IDLE"),
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first.eq(1)
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).Elif(source.stb & source.ack,
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first.eq(0)
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)
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]
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self.comb += last.eq(cnt + 4 >= fifo.dout.length)
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self.sync += last_d.eq(last)
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# memory
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rd_slot = fifo.dout.slot
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mems = [None]*nslots
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ports = [None]*nslots
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for n in range(nslots):
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mems[n] = Memory(32, depth)
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ports[n] = mems[n].get_port()
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self.specials += ports[n]
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self.mems = mems
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cases = {}
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for n, port in enumerate(ports):
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self.comb += ports[n].adr.eq(cnt[2:])
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cases[n] = [source.d.eq(port.dat_r)]
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self.comb += Case(rd_slot, cases)
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