240 lines
5.7 KiB
Python
240 lines
5.7 KiB
Python
from migen.fhdl.std import *
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from migen.genlib.fsm import FSM, NextState
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from lib.sata.common import *
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def _get_item(obj, name, width):
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if "_lsb" in name:
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item = getattr(obj, name.replace("_lsb", ""))[:width]
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elif "_msb" in name:
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item = getattr(obj, name.replace("_msb", ""))[width:2*width]
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else:
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item = getattr(obj, name)
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return item
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def _encode_cmd(obj, description, signal):
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r = []
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for k, v in sorted(description.items()):
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start = v.dword*32 + v.offset
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end = start + v.width
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item = _get_item(obj, k, v.width)
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r.append(signal[start:end].eq(item))
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return r
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class SATATransportTX(Module):
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def __init__(self, link):
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self.sink = sink = Sink(transport_tx_description(32))
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###
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cmd_ndwords = max(fis_reg_h2d_cmd_len, fis_data_cmd_len)
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encoded_cmd = Signal(cmd_ndwords*32)
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counter = Counter(max=cmd_ndwords+1)
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self.submodules += counter
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cmd_len = Signal(counter.width)
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cmd_with_data = Signal()
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cmd_send = Signal()
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data_send = Signal()
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cmd_done = Signal()
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def test_type(name):
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return sink.type == fis_types[name]
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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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counter.reset.eq(1),
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If(sink.stb & sink.sop,
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If(test_type("REG_H2D"),
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NextState("SEND_REG_H2D_CMD")
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).Elif(test_type("DATA"),
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NextState("SEND_DATA_CMD")
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).Else(
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sink.ack.eq(1)
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)
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).Else(
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sink.ack.eq(1)
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)
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)
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fsm.act("SEND_REG_H2D_CMD",
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_encode_cmd(sink, fis_reg_h2d_layout, encoded_cmd),
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cmd_len.eq(fis_reg_h2d_cmd_len-1),
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cmd_send.eq(1),
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If(cmd_done,
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sink.ack.eq(1),
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NextState("IDLE")
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)
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)
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fsm.act("SEND_DATA_CMD",
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_encode_cmd(sink, fis_data_layout, encoded_cmd),
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cmd_len.eq(fis_data_cmd_len-1),
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cmd_with_data.eq(1),
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cmd_send.eq(1),
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If(cmd_done,
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NextState("SEND_DATA")
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)
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)
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fsm.act("SEND_DATA",
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data_send.eq(1),
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sink.ack.eq(link.sink.ack),
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If(sink.stb & sink.eop & sink.ack,
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NextState("IDLE")
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)
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)
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cmd_cases = {}
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for i in range(cmd_ndwords):
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cmd_cases[i] = [link.sink.d.eq(encoded_cmd[32*i:32*(i+1)])]
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self.comb += \
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If(cmd_send,
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link.sink.stb.eq(sink.stb),
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link.sink.sop.eq(counter.value == 0),
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link.sink.eop.eq((counter.value == cmd_len) & ~cmd_with_data),
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Case(counter.value, cmd_cases),
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counter.ce.eq(sink.stb & link.sink.ack),
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cmd_done.eq((counter.value == cmd_len) & link.sink.stb & link.sink.ack)
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).Elif(data_send,
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link.sink.stb.eq(sink.stb),
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link.sink.sop.eq(0),
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link.sink.eop.eq(sink.eop),
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link.sink.d.eq(sink.data),
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)
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def _decode_cmd(signal, description, obj):
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r = []
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for k, v in sorted(description.items()):
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start = v.dword*32+v.offset
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end = start+v.width
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item = _get_item(obj, k, v.width)
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r.append(item.eq(signal[start:end]))
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return r
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class SATATransportRX(Module):
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def __init__(self, link):
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self.source = source = Source(transport_rx_description(32))
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###
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cmd_ndwords = max(fis_reg_d2h_cmd_len, fis_dma_activate_d2h_cmd_len, fis_data_cmd_len)
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encoded_cmd = Signal(cmd_ndwords*32)
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counter = Counter(max=cmd_ndwords+1)
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self.submodules += counter
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cmd_len = Signal(counter.width)
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cmd_receive = Signal()
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data_receive = Signal()
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cmd_done = Signal()
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data_done = Signal()
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def test_type(name):
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return link.source.d[:8] == fis_types[name]
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fsm = FSM(reset_state="IDLE")
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self.submodules += fsm
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data_sop = Signal()
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fsm.act("IDLE",
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counter.reset.eq(1),
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If(link.source.stb & link.source.sop,
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If(test_type("REG_D2H"),
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NextState("RECEIVE_REG_D2H_CMD")
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).Elif(test_type("DMA_ACTIVATE_D2H"),
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NextState("RECEIVE_DMA_ACTIVATE_D2H_CMD")
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).Elif(test_type("DATA"),
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NextState("RECEIVE_DATA_CMD"),
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).Else(
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link.source.ack.eq(1)
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)
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).Else(
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link.source.ack.eq(1)
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)
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)
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fsm.act("RECEIVE_REG_D2H_CMD",
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cmd_len.eq(fis_reg_d2h_cmd_len-1),
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cmd_receive.eq(1),
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If(cmd_done,
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NextState("PRESENT_REG_D2H_CMD")
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)
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)
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fsm.act("PRESENT_REG_D2H_CMD",
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source.stb.eq(1),
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source.sop.eq(1),
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source.eop.eq(1),
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_decode_cmd(encoded_cmd, fis_reg_d2h_layout, source),
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If(source.stb & source.ack,
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NextState("IDLE")
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)
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)
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fsm.act("RECEIVE_DMA_ACTIVATE_D2H_CMD",
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cmd_len.eq(fis_dma_activate_d2h_cmd_len-1),
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cmd_receive.eq(1),
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If(cmd_done,
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NextState("PRESENT_DMA_ACTIVATE_D2H_CMD")
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)
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)
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fsm.act("PRESENT_DMA_ACTIVATE_D2H_CMD",
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source.stb.eq(1),
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source.sop.eq(1),
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source.eop.eq(1),
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_decode_cmd(encoded_cmd, fis_dma_activate_d2h_layout, source),
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If(source.stb & source.ack,
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NextState("IDLE")
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)
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)
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fsm.act("RECEIVE_DATA_CMD",
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cmd_len.eq(fis_data_cmd_len-1),
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cmd_receive.eq(1),
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If(cmd_done,
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NextState("PRESENT_DATA")
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)
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)
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fsm.act("PRESENT_DATA",
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data_receive.eq(1),
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source.stb.eq(link.source.stb),
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_decode_cmd(encoded_cmd, fis_data_layout, source),
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source.sop.eq(data_sop),
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source.eop.eq(link.source.eop),
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source.data.eq(link.source.d),
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If(source.stb & source.eop & source.ack,
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NextState("IDLE")
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)
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)
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self.sync += \
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If(fsm.ongoing("RECEIVE_DATA_CMD"),
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data_sop.eq(1)
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).Elif(fsm.ongoing("PRESENT_DATA"),
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If(source.stb & source.ack,
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data_sop.eq(0)
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)
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)
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cmd_cases = {}
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for i in range(cmd_ndwords):
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cmd_cases[i] = [encoded_cmd[32*i:32*(i+1)].eq(link.source.d)]
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self.comb += \
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If(cmd_receive & link.source.stb,
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counter.ce.eq(1)
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)
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self.sync += \
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If(cmd_receive,
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Case(counter.value, cmd_cases),
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)
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self.comb += cmd_done.eq((counter.value == cmd_len) & link.source.ack)
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self.comb += link.source.ack.eq(cmd_receive | (data_receive & source.ack))
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class SATATransport(Module):
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def __init__(self, link):
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self.submodules.tx = SATATransportTX(link)
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self.submodules.rx = SATATransportRX(link)
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self.sink, self.source = self.tx.sink, self.rx.source
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