from lib.sata.common import * from lib.sata.link.scrambler import Scrambler from migen.bank.description import * class SATABISTUnit(Module): def __init__(self, sata_con): sink = sata_con.source source = sata_con.sink self.start = Signal() self.write_only = Signal() self.read_only = Signal() self.sector = Signal(48) self.count = Signal(16) self.done = Signal() self.ctrl_errors = Signal(32) self.data_errors = Signal(32) self.counter = counter = Counter(bits_sign=32) self.ctrl_error_counter = Counter(self.ctrl_errors, bits_sign=32) self.data_error_counter = Counter(self.data_errors, bits_sign=32) self.scrambler = scrambler = InsertReset(Scrambler()) self.comb += [ scrambler.reset.eq(counter.reset), scrambler.ce.eq(counter.ce) ] self.fsm = fsm = FSM(reset_state="IDLE") fsm.act("IDLE", self.done.eq(1), counter.reset.eq(1), If(self.start, self.ctrl_error_counter.reset.eq(1), self.data_error_counter.reset.eq(1), If(self.read_only, NextState("SEND_READ_CMD") ).Else( NextState("SEND_WRITE_CMD_AND_DATA") ) ) ) fsm.act("SEND_WRITE_CMD_AND_DATA", source.stb.eq(1), source.sop.eq((counter.value == 0)), source.eop.eq((counter.value == (logical_sector_size//4*self.count)-1)), source.write.eq(1), source.sector.eq(self.sector), source.count.eq(self.count), source.data.eq(scrambler.value), counter.ce.eq(source.ack), If(source.stb & source.eop & source.ack, NextState("WAIT_WRITE_ACK") ) ) fsm.act("WAIT_WRITE_ACK", sink.ack.eq(1), If(sink.stb, If(~sink.write | ~sink.success | sink.failed, self.ctrl_error_counter.ce.eq(1) ), If(self.write_only, NextState("IDLE") ).Else( NextState("SEND_READ_CMD") ) ) ) fsm.act("SEND_READ_CMD", source.stb.eq(1), source.sop.eq(1), source.eop.eq(1), source.read.eq(1), source.sector.eq(self.sector), source.count.eq(self.count), If(source.ack, counter.reset.eq(1), NextState("WAIT_READ_ACK") ) ) fsm.act("WAIT_READ_ACK", If(sink.stb & sink.read, If(~sink.read | ~sink.success | sink.failed, self.ctrl_error_counter.ce.eq(1) ), NextState("RECEIVE_READ_DATA") ) ) fsm.act("RECEIVE_READ_DATA", sink.ack.eq(1), If(sink.stb, counter.ce.eq(1), If(sink.data != scrambler.value, self.data_error_counter.ce.eq(1) ), If(sink.eop, If(sink.last, NextState("IDLE") ).Else( NextState("WAIT_READ_ACK") ) ) ) ) class SATABIST(Module, AutoCSR): def __init__(self, sata_con): self._start = CSR() self._start_sector = CSRStorage(48) self._count = CSRStorage(4) self._write_only = CSRStorage() self._read_only = CSRStorage() self._stop = CSRStorage() self._sector = CSRStatus(48) self._errors = CSRStatus(32) start = self._start.r & self._start.re start_sector = self._start_sector.storage count = self._count.storage stop = self._stop.storage compute = Signal() write_only = self._write_only.storage read_only = self._read_only.storage sector = self._sector.status errors = self._errors.status ### self.unit = SATABISTUnit(sata_con) self.comb += [ self.unit.write_only.eq(write_only), self.unit.read_only.eq(read_only), self.unit.sector.eq(sector), self.unit.count.eq(count) ] self.fsm = fsm = FSM(reset_state="IDLE") # FSM fsm.act("IDLE", If(start, NextState("START") ) ) fsm.act("START", self.unit.start.eq(1), NextState("WAIT_DONE") ) fsm.act("WAIT_DONE", If(self.unit.done, NextState("COMPUTE") ).Elif(stop, NextState("IDLE") ) ) fsm.act("COMPUTE", compute.eq(1), NextState("START") ) self.sync += [ If(start, errors.eq(0), sector.eq(start_sector) ).Elif(compute, errors.eq(errors + self.unit.data_errors), sector.eq(sector + count) ) ]