forked from M-Labs/artiq
351 lines
11 KiB
Python
351 lines
11 KiB
Python
"""Link layer, common to satellite and master"""
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from functools import reduce
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from operator import xor, or_
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from migen import *
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from migen.genlib.fsm import *
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from migen.genlib.cdc import MultiReg, GrayCounter, GrayDecoder
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from migen.genlib.misc import WaitTimer
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from misoc.interconnect.csr import *
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class Scrambler(Module):
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def __init__(self, n_io1, n_io2, n_state=23, taps=[17, 22]):
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self.i1 = Signal(n_io1)
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self.o1 = Signal(n_io1)
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self.i2 = Signal(n_io2)
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self.o2 = Signal(n_io2)
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self.sel = Signal()
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# # #
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state = Signal(n_state, reset=1)
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stmts1 = []
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stmts2 = []
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for stmts, si, so in ((stmts1, self.i1, self.o1),
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(stmts2, self.i2, self.o2)):
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curval = [state[i] for i in range(n_state)]
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for i in reversed(range(len(si))):
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out = si[i] ^ reduce(xor, [curval[tap] for tap in taps])
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stmts += [so[i].eq(out)]
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curval.insert(0, out)
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curval.pop()
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stmts += [state.eq(Cat(*curval[:n_state]))]
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self.sync += If(self.sel, stmts2).Else(stmts1)
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class Descrambler(Module):
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def __init__(self, n_io1, n_io2, n_state=23, taps=[17, 22]):
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self.i1 = Signal(n_io1)
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self.o1 = Signal(n_io1)
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self.i2 = Signal(n_io2)
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self.o2 = Signal(n_io2)
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self.sel = Signal()
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# # #
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state = Signal(n_state, reset=1)
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stmts1 = []
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stmts2 = []
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for stmts, si, so in ((stmts1, self.i1, self.o1),
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(stmts2, self.i2, self.o2)):
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curval = [state[i] for i in range(n_state)]
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for i in reversed(range(len(si))):
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flip = reduce(xor, [curval[tap] for tap in taps])
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stmts += [so[i].eq(si[i] ^ flip)]
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curval.insert(0, si[i])
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curval.pop()
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stmts += [state.eq(Cat(*curval[:n_state]))]
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self.sync += If(self.sel, stmts2).Else(stmts1)
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def K(x, y):
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return (y << 5) | x
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aux_coding_comma = [
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K(28, 5),
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K(28, 0),
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K(28, 1),
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K(28, 2),
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K(23, 7),
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K(27, 7),
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K(29, 7),
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K(30, 7),
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]
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aux_coding_nocomma = [
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K(28, 0),
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K(28, 2),
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K(28, 3),
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K(28, 4),
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K(23, 7),
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K(27, 7),
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K(29, 7),
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K(30, 7),
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]
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class LinkLayerTX(Module):
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def __init__(self, encoder):
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nwords = len(encoder.k)
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# nwords must be a power of 2
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assert nwords & (nwords - 1) == 0
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self.aux_frame = Signal()
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self.aux_data = Signal(2*nwords)
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self.aux_ack = Signal()
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self.rt_frame = Signal()
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self.rt_data = Signal(8*nwords)
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# # #
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# Idle and auxiliary traffic use special characters defined in the
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# aux_coding_* tables.
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# The first (or only) character uses aux_coding_comma which guarantees
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# that commas appear regularly in the absence of traffic.
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# The subsequent characters, if any (depending on the transceiver
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# serialization ratio) use aux_coding_nocomma which does not contain
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# commas. This permits aligning the comma to the first character at
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# the receiver.
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#
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# A set of 8 special characters is chosen using a 3-bit control word.
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# This control word is scrambled to reduce EMI. The control words have
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# the following meanings:
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# 100 idle/auxiliary framing
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# 0AB 2 bits of auxiliary data
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#
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# RT traffic uses D characters and is also scrambled. The aux and RT
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# scramblers are multiplicative and share the same state so that idle
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# or aux traffic can synchronize the RT descrambler.
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scrambler = Scrambler(3*nwords, 8*nwords)
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self.submodules += scrambler
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# scrambler input
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aux_data_ctl = []
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for i in range(nwords):
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aux_data_ctl.append(self.aux_data[i*2:i*2+2])
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aux_data_ctl.append(0)
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self.comb += [
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If(self.aux_frame,
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scrambler.i1.eq(Cat(*aux_data_ctl))
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).Else(
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scrambler.i1.eq(Replicate(0b100, nwords))
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),
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scrambler.i2.eq(self.rt_data),
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scrambler.sel.eq(self.rt_frame),
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self.aux_ack.eq(~self.rt_frame)
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]
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# compensate for scrambler latency
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rt_frame_r = Signal()
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self.sync += rt_frame_r.eq(self.rt_frame)
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# scrambler output
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for i in range(nwords):
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scrambled_ctl = scrambler.o1[i*3:i*3+3]
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if i:
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aux_coding = aux_coding_nocomma
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else:
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aux_coding = aux_coding_comma
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self.sync += [
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encoder.k[i].eq(1),
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encoder.d[i].eq(Array(aux_coding)[scrambled_ctl])
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]
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self.sync += \
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If(rt_frame_r,
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[k.eq(0) for k in encoder.k],
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[d.eq(scrambler.o2[i*8:i*8+8]) for i, d in enumerate(encoder.d)]
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)
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class LinkLayerRX(Module):
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def __init__(self, decoders):
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nwords = len(decoders)
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# nwords must be a power of 2
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assert nwords & (nwords - 1) == 0
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self.aux_stb = Signal()
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self.aux_frame = Signal()
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self.aux_data = Signal(2*nwords)
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self.rt_frame = Signal()
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self.rt_data = Signal(8*nwords)
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# # #
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descrambler = Descrambler(3*nwords, 8*nwords)
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self.submodules += descrambler
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# scrambler input
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all_decoded_aux = []
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for i, d in enumerate(decoders):
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decoded_aux = Signal(3)
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all_decoded_aux.append(decoded_aux)
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if i:
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aux_coding = aux_coding_nocomma
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else:
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aux_coding = aux_coding_comma
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cases = {code: decoded_aux.eq(i) for i, code in enumerate(aux_coding)}
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self.comb += Case(d.d, cases).makedefault()
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self.comb += [
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descrambler.i1.eq(Cat(*all_decoded_aux)),
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descrambler.i2.eq(Cat(*[d.d for d in decoders])),
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descrambler.sel.eq(~decoders[0].k)
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]
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# scrambler output
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self.comb += [
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self.aux_frame.eq(~descrambler.o1[2]),
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self.aux_data.eq(
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Cat(*[descrambler.o1[3*i:3*i+2] for i in range(nwords)])),
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self.rt_data.eq(descrambler.o2)
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]
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self.sync += [
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self.aux_stb.eq(decoders[0].k),
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self.rt_frame.eq(~decoders[0].k)
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]
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class LinkLayer(Module, AutoCSR):
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def __init__(self, encoder, decoders):
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self.link_status = CSRStatus()
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self.rx_disable = CSRStorage()
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self.tx_force_aux_zero = CSRStorage()
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self.tx_force_rt_zero = CSRStorage()
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# receiver locked, comma aligned, receiving valid 8b10b symbols
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self.rx_ready = Signal()
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tx = ClockDomainsRenamer("rtio")(LinkLayerTX(encoder))
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rx = ClockDomainsRenamer("rtio_rx")(LinkLayerRX(decoders))
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self.submodules += tx, rx
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# in rtio clock domain
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self.tx_aux_frame = Signal()
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self.tx_aux_data = Signal(len(tx.aux_data))
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self.tx_aux_ack = Signal()
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self.tx_rt_frame = Signal()
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self.tx_rt_data = Signal(len(tx.rt_data))
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# in rtio_rx clock domain
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self.rx_aux_stb = Signal()
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self.rx_aux_frame = Signal()
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self.rx_aux_frame_perm = Signal()
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self.rx_aux_data = Signal(len(rx.aux_data))
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self.rx_rt_frame = Signal()
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self.rx_rt_frame_perm = Signal()
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self.rx_rt_data = Signal(len(rx.rt_data))
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# # #
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ready = Signal()
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ready_r = Signal()
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self.sync.rtio += ready_r.eq(ready)
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ready_rx = Signal()
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ready_r.attr.add("no_retiming")
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self.specials += [
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MultiReg(ready_r, ready_rx, "rtio_rx"),
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MultiReg(ready_r, self.link_status.status)]
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tx_force_aux_zero_rtio = Signal()
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tx_force_rt_zero_rtio = Signal()
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self.tx_force_aux_zero.storage.attr.add("no_retiming")
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self.tx_force_rt_zero.storage.attr.add("no_retiming")
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self.specials += [
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MultiReg(self.tx_force_aux_zero.storage, tx_force_aux_zero_rtio, "rtio"),
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MultiReg(self.tx_force_rt_zero.storage, tx_force_rt_zero_rtio, "rtio")]
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rx_disable_rx = Signal()
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self.rx_disable.storage.attr.add("no_retiming")
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self.specials += MultiReg(self.rx_disable.storage, rx_disable_rx, "rtio_rx")
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self.comb += [
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tx.aux_frame.eq(self.tx_aux_frame | tx_force_aux_zero_rtio),
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tx.aux_data.eq(Mux(tx_force_aux_zero_rtio, 0, self.tx_aux_data)),
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self.tx_aux_ack.eq(tx.aux_ack),
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tx.rt_frame.eq(self.tx_rt_frame | tx_force_rt_zero_rtio),
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tx.rt_data.eq(Mux(tx_force_rt_zero_rtio, 0, self.tx_rt_data))
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]
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# we register those to improve timing margins, as the data may need
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# to be recaptured by RXSynchronizer.
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self.sync.rtio_rx += [
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self.rx_aux_stb.eq(rx.aux_stb),
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self.rx_aux_frame.eq(rx.aux_frame & ready_rx & ~rx_disable_rx),
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self.rx_aux_frame_perm.eq(rx.aux_frame & ready_rx),
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self.rx_aux_data.eq(rx.aux_data),
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self.rx_rt_frame.eq(rx.rt_frame & ready_rx & ~rx_disable_rx),
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self.rx_rt_frame_perm.eq(rx.rt_frame & ready_rx),
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self.rx_rt_data.eq(rx.rt_data)
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]
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wait_scrambler = ClockDomainsRenamer("rtio")(WaitTimer(15))
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self.submodules += wait_scrambler
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fsm = ClockDomainsRenamer("rtio")(FSM(reset_state="WAIT_RX_READY"))
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self.submodules += fsm
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fsm.act("WAIT_RX_READY",
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If(self.rx_ready, NextState("WAIT_SCRAMBLER_SYNC"))
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)
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fsm.act("WAIT_SCRAMBLER_SYNC",
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wait_scrambler.wait.eq(1),
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If(wait_scrambler.done, NextState("READY"))
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)
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fsm.act("READY",
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ready.eq(1),
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If(~self.rx_ready, NextState("WAIT_RX_READY"))
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)
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# Zero word count is used with the "force zero" TX modes to implement
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# PRBS tests.
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class LinkLayerStats(Module, AutoCSR):
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def __init__(self, link_layer, rx_clock_domain):
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self.aux_word_cnt = CSRStatus(64)
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self.aux_zword_cnt = CSRStatus(64)
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self.rt_word_cnt = CSRStatus(64)
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self.rt_zword_cnt = CSRStatus(64)
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self.update_link_stats = CSR()
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# # #
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aux_word = Signal()
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aux_zword = Signal()
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rt_word = Signal()
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rt_zword = Signal()
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sync = getattr(self.sync, rx_clock_domain)
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sync += [
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aux_word.eq(link_layer.rx_aux_frame_perm),
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aux_zword.eq(link_layer.rx_aux_frame_perm & (link_layer.rx_aux_data == 0)),
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rt_word.eq(link_layer.rx_rt_frame_perm),
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rt_zword.eq(link_layer.rx_rt_frame_perm & (link_layer.rx_aux_data == 0))
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]
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for trigger, csr in [(aux_word, self.aux_word_cnt),
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(aux_zword, self.aux_zword_cnt),
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(rt_word, self.rt_word_cnt),
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(rt_zword, self.rt_zword_cnt)]:
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counter = ClockDomainsRenamer(rx_clock_domain)(GrayCounter(64))
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decoder = GrayDecoder(64)
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self.submodules += counter, decoder
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counter.q.attr.add("no_retiming")
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self.specials += MultiReg(counter.q, decoder.i)
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self.comb += counter.ce.eq(trigger)
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self.sync += If(self.update_link_stats.re, csr.status.eq(decoder.o))
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