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drtio: fix aux receiver, add aux transmitter

This commit is contained in:
Sebastien Bourdeauducq 2016-11-14 17:18:54 +08:00
parent f2f131e0fb
commit a4d92716da

View File

@ -8,9 +8,89 @@ from misoc.interconnect import wishbone
max_packet = 1024 max_packet = 1024
class Transmitter(Module, AutoCSR): class Transmitter(Module, AutoCSR):
def __init__(self, link_layer, min_mem_dw): def __init__(self, link_layer, min_mem_dw):
# TODO self.aux_tx_length = CSRStorage(bits_for(max_packet))
self.aux_tx = CSR()
ll_dw = len(link_layer.tx_aux_data)
mem_dw = max(min_mem_dw, ll_dw)
self.specials.mem = Memory(mem_dw, max_packet//(mem_dw//8))
converter = stream.Converter(mem_dw, ll_dw)
self.submodules += converter
# when continuously fed, the Converter outputs data continuously
self.comb += [
converter.source.ack.eq(link_layer.tx_aux_ack),
link_layer.tx_aux_frame.eq(converter.source.stb),
link_layer.tx_aux_data.eq(converter.source.data)
]
seen_eop_rst = Signal()
frame_r = Signal()
seen_eop = Signal()
self.sync.rtio += [
If(link_layer.tx_aux_ack,
frame_r.eq(link_layer.tx_aux_frame),
If(frame_r & ~link_layer.tx_aux_frame, seen_eop.eq(1))
),
If(seen_eop_rst, seen_eop.eq(0))
]
mem_port = self.mem.get_port(clock_domain="rtio")
self.specials += mem_port
self.aux_tx_length.storage.attr.add("no_retiming")
tx_length = Signal(bits_for(max_packet))
self.specials += MultiReg(self.aux_tx_length.storage, tx_length, "rtio")
frame_counter_nbits = bits_for(max_packet) - log2_int(mem_dw//8)
frame_counter = Signal(frame_counter_nbits)
frame_counter_next = Signal(frame_counter_nbits)
frame_counter_ce = Signal()
frame_counter_rst = Signal(),
self.comb += [
frame_counter_next.eq(frame_counter),
If(frame_counter_rst,
frame_counter_next.eq(0)
).Elif(frame_counter_ce,
frame_counter_next.eq(frame_counter + 1)
),
mem_port.adr.eq(frame_counter_next),
converter.sink.data.eq(mem_port.dat_r)
]
self.sync.rtio += frame_counter.eq(frame_counter_next)
start_tx = PulseSynchronizer("sys", "rtio")
tx_done = PulseSynchronizer("rtio", "sys")
self.submodules += start_tx, tx_done
self.comb += start_tx.i.eq(self.aux_tx.re)
self.sync += [
If(tx_done.o, self.aux_tx_w.eq(0)),
If(self.aux_tx.re, self.aux_tx.w.eq(1))
]
fsm = ClockDomainsRenamer("rtio")(FSM(reset_state="IDLE"))
self.submodules += fsm
fsm.act("IDLE",
frame_counter_rst.eq(1),
seen_eop_rst.eq(1),
If(start_tx.o, NextState("TRANSMIT"))
)
fsm.act("TRANSMIT",
converter.sink.stb.eq(1),
frame_counter_ce.eq(1),
If(frame_counter_next == tx_length, NextState("WAIT_INTERFRAME"))
)
fsm.act("WAIT_INTERFRAME",
If(seen_eop,
tx_done.i.eq(1),
NextState("IDLE")
)
)
class Receiver(Module, AutoCSR): class Receiver(Module, AutoCSR):
@ -26,11 +106,12 @@ class Receiver(Module, AutoCSR):
converter = stream.Converter(ll_dw, mem_dw) converter = stream.Converter(ll_dw, mem_dw)
self.submodules += converter self.submodules += converter
# when continuously drained, the Converter accepts data continuously
self.sync.rtio_rx += [ self.sync.rtio_rx += [
converter.sink.stb.eq(link_layer.rx_aux_frame), converter.sink.stb.eq(converter.rx_aux_stb),
converter.sink.data.eq(link_layer.rx_aux_data) converter.sink.data.eq(link_layer.rx_aux_data)
] ]
self.comb += converter.sink.eop.eq(~link_layer.rx_aux_frame) self.comb += converter.sink.eop.eq(link_layer.rx_aux_stb & ~link_layer.rx_aux_frame)
mem_port = self.mem.get_port(write_capable=True, clock_domain="rtio_rx") mem_port = self.mem.get_port(write_capable=True, clock_domain="rtio_rx")
self.specials += mem_port self.specials += mem_port
@ -39,7 +120,8 @@ class Receiver(Module, AutoCSR):
frame_counter = Signal(frame_counter_nbits) frame_counter = Signal(frame_counter_nbits)
self.comb += [ self.comb += [
mem_port.adr.eq(frame_counter), mem_port.adr.eq(frame_counter),
mem_port.dat_w.eq(link_layer.rx_aux_data) mem_port.dat_w.eq(converter.source.data),
converter.source.ack.eq(1)
] ]
frame_counter.attr.add("no_retiming") frame_counter.attr.add("no_retiming")
@ -62,38 +144,54 @@ class Receiver(Module, AutoCSR):
fsm = ClockDomainsRenamer("rtio_rx")(FSM(reset_state="IDLE")) fsm = ClockDomainsRenamer("rtio_rx")(FSM(reset_state="IDLE"))
self.submodules += fsm self.submodules += fsm
rx_aux_frame_r = Signal() sop = Signal()
self.sync.rtio_rx += rx_aux_frame_r.eq(link_layer.rx_aux_frame) self.sync.rtio_rx += \
If(converter.source.stb,
If(converter.source.eop,
sop.eq(1)
).Else(
sop.eq(0)
)
)
fsm.act("IDLE", fsm.act("IDLE",
If(link_layer.rx_aux_frame & ~rx_aux_frame_r, If(converter.source.stb & sop,
NextValue(frame_counter, frame_counter + 1), NextValue(frame_counter, frame_counter + 1),
mem_port.we.eq(1), mem_port.we.eq(1),
NextState("FRAME") If(converter.source.eop,
NextState("SIGNAL_FRAME")
).Else(
NextState("FRAME")
)
).Else( ).Else(
NextValue(frame_counter, 0) NextValue(frame_counter, 0)
) )
) )
fsm.act("FRAME", fsm.act("FRAME",
If(link_layer.rx_aux_frame, If(converter.source.stb,
NextValue(frame_counter, frame_counter + 1), NextValue(frame_counter, frame_counter + 1),
mem_port.we.eq(1), mem_port.we.eq(1),
If(frame_counter == max_packet, If(frame_counter == max_packet,
mem_port.we.eq(0), mem_port.we.eq(0),
signal_error.i.eq(1), signal_error.i.eq(1),
NextState("IDLE") # remainder of the frame discarded NextState("IDLE") # discard the rest of the frame
),
If(converter.source.eop,
NextState("SIGNAL_FRAME")
) )
).Else(
signal_frame.i.eq(1),
NextState("WAIT_ACK")
) )
) )
fsm.act("SIGNAL_FRAME",
signal_frame.i.eq(1),
NextState("WAIT_ACK"),
If(converter.source.stb, signal_error.i.eq(1))
)
fsm.act("WAIT_ACK", fsm.act("WAIT_ACK",
If(frame_ack.o, If(frame_ack.o,
NextValue(frame_counter, 0), NextValue(frame_counter, 0),
NextState("IDLE") NextState("IDLE")
), ),
If(link_layer.rx_aux_frame, signal_error.i.eq(1)) If(converter.source.stb, signal_error.i.eq(1))
) )