from migen import * from misoc.interconnect.csr import * from misoc.interconnect import stream from migen_axi.interconnect import axi from artiq.gateware.rtio.analyzer import message_len, MessageEncoder class AXIDMAWriter(Module, AutoCSR): def __init__(self, membus, max_outstanding_requests): aw = len(membus.aw.addr) dw = len(membus.w.data) assert message_len % dw == 0 burst_length = message_len//dw alignment_bits = log2_int(message_len//8) self.reset = CSR() # only apply when shut down # All numbers in bytes self.base_address = CSRStorage(aw, alignment_bits=alignment_bits) self.last_address = CSRStorage(aw, alignment_bits=alignment_bits) self.byte_count = CSRStatus(64) # only read when shut down self.make_request = Signal() self.sink = stream.Endpoint([("data", dw)]) # # # outstanding_requests = Signal(max=max_outstanding_requests+1) current_address = Signal(aw - alignment_bits) self.comb += [ membus.aw.addr.eq(Cat(C(0, alignment_bits), current_address)), membus.aw.id.eq(0), # Same ID for all transactions to forbid reordering. membus.aw.burst.eq(axi.Burst.incr.value), membus.aw.len.eq(burst_length-1), # Number of transfers in burst (0->1 transfer, 1->2 transfers...). membus.aw.size.eq(log2_int(dw//8)), # Width of burst: 3 = 8 bytes = 64 bits. membus.aw.cache.eq(0xf), membus.aw.valid.eq(outstanding_requests != 0), ] self.sync += [ outstanding_requests.eq(outstanding_requests + self.make_request - (membus.aw.valid & membus.aw.ready)), If(self.reset.re, current_address.eq(self.base_address.storage)), If(membus.aw.valid & membus.aw.ready, If(current_address == self.last_address.storage, current_address.eq(self.base_address.storage) ).Else( current_address.eq(current_address + 1) ) ) ] self.comb += [ membus.w.valid.eq(self.sink.stb), self.sink.ack.eq(membus.w.ready), membus.w.data.eq(self.sink.data) ] beat_count = Signal(max=burst_length) self.sync += [ If(membus.w.valid & membus.w.ready, membus.w.last.eq(0), If(membus.w.last, beat_count.eq(0) ).Else( If(beat_count == burst_length-2, membus.w.last.eq(1)), beat_count.eq(beat_count + 1) ) ) ] message_count = Signal(64 - log2_int(message_len//8)) self.comb += self.byte_count.status.eq( message_count << log2_int(message_len//8)) self.sync += [ If(self.reset.re, message_count.eq(0)), If(membus.w.valid & membus.w.ready & membus.w.last, message_count.eq(message_count + 1)) ] self.comb += membus.b.ready.eq(1) class Analyzer(Module, AutoCSR): def __init__(self, tsc, cri, membus, fifo_depth=128): # shutdown procedure: set enable to 0, wait until busy=0 self.enable = CSRStorage() self.busy = CSRStatus() self.submodules.message_encoder = MessageEncoder( tsc, cri, self.enable.storage) self.submodules.fifo = stream.SyncFIFO( [("data", message_len)], fifo_depth, True) self.submodules.converter = stream.Converter( message_len, len(membus.w.data), reverse=True) self.submodules.dma = AXIDMAWriter(membus, max_outstanding_requests=fifo_depth) enable_r = Signal() self.sync += [ enable_r.eq(self.enable.storage), If(self.enable.storage & ~enable_r, self.busy.status.eq(1)), If(self.dma.sink.stb & self.dma.sink.ack & self.dma.sink.eop, self.busy.status.eq(0)) ] self.comb += [ self.message_encoder.source.connect(self.fifo.sink), self.fifo.source.connect(self.converter.sink), self.converter.source.connect(self.dma.sink), self.dma.make_request.eq(self.fifo.sink.stb & self.fifo.sink.ack) ]