cache/mmu/TLB.scala

6d5ddbceSLemover/***************************************************************************************
6d5ddbceSLemover* Copyright (c) 2020-2021 Institute of Computing Technology, Chinese Academy of Sciences
f320e0f0SYinan Xu* Copyright (c) 2020-2021 Peng Cheng Laboratory
6d5ddbceSLemover*
6d5ddbceSLemover* XiangShan is licensed under Mulan PSL v2.
6d5ddbceSLemover* You can use this software according to the terms and conditions of the Mulan PSL v2.
6d5ddbceSLemover* You may obtain a copy of Mulan PSL v2 at:
6d5ddbceSLemover*          http://license.coscl.org.cn/MulanPSL2
*f1fe8698SLemover
6d5ddbceSLemover* THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND,
6d5ddbceSLemover* EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT,
6d5ddbceSLemover* MERCHANTABILITY OR FIT FOR A PARTICULAR PURPOSE.
6d5ddbceSLemover*
6d5ddbceSLemover* See the Mulan PSL v2 for more details.
6d5ddbceSLemover***************************************************************************************/
6d5ddbceSLemover
6d5ddbceSLemoverpackage xiangshan.cache.mmu
6d5ddbceSLemover
6d5ddbceSLemoverimport chipsalliance.rocketchip.config.Parameters
6d5ddbceSLemoverimport chisel3._
a0301c0dSLemoverimport chisel3.internal.naming.chiselName
6d5ddbceSLemoverimport chisel3.util._
a0301c0dSLemoverimport freechips.rocketchip.util.SRAMAnnotation
6d5ddbceSLemoverimport xiangshan._
6d5ddbceSLemoverimport utils._
*f1fe8698SLemoverimport xiangshan.backend.fu.{PMPChecker, PMPReqBundle, PMPConfig => XSPMPConfig}
9aca92b9SYinan Xuimport xiangshan.backend.rob.RobPtr
6d5ddbceSLemoverimport xiangshan.backend.fu.util.HasCSRConst
*f1fe8698SLemoverimport firrtl.FirrtlProtos.Firrtl.Module.ExternalModule.Parameter
*f1fe8698SLemoverimport freechips.rocketchip.rocket.PMPConfig
6d5ddbceSLemover
*f1fe8698SLemover/** TLB module
*f1fe8698SLemover  * support block request and non-block request io at the same time
*f1fe8698SLemover  * return paddr at next cycle, then go for pmp/pma check
*f1fe8698SLemover  * @param Width: The number of requestors
*f1fe8698SLemover  * @param Block: Blocked or not for each requestor ports
*f1fe8698SLemover  * @param q: TLB Parameters, like entry number, each TLB has its own parameters
*f1fe8698SLemover  * @param p: XiangShan Paramemters, like XLEN
*f1fe8698SLemover  */
a0301c0dSLemover
a0301c0dSLemover@chiselName
*f1fe8698SLemoverclass TLB(Width: Int, Block: Seq[Boolean], q: TLBParameters)(implicit p: Parameters) extends TlbModule
*f1fe8698SLemover  with HasCSRConst
*f1fe8698SLemover  with HasPerfEvents
*f1fe8698SLemover{
a0301c0dSLemover  val io = IO(new TlbIO(Width, q))
a0301c0dSLemover
6d5ddbceSLemover  val req = io.requestor.map(_.req)
6d5ddbceSLemover  val resp = io.requestor.map(_.resp)
6d5ddbceSLemover  val ptw = io.ptw
b6982e83SLemover  val pmp = io.pmp
6d5ddbceSLemover
*f1fe8698SLemover  /** Sfence.vma & Svinval
*f1fe8698SLemover    * Sfence.vma will 1. flush old entries 2. flush inflight 3. flush pipe
*f1fe8698SLemover    * Svinval will 1. flush old entries 2. flush inflight
*f1fe8698SLemover    * So, Svinval will not flush pipe, which means
*f1fe8698SLemover    * it should not drop reqs from pipe and should return right resp
*f1fe8698SLemover    */
*f1fe8698SLemover  val sfence = DelayN(io.sfence, q.fenceDelay)
6d5ddbceSLemover  val csr = io.csr
*f1fe8698SLemover  val satp = DelayN(io.csr.satp, q.fenceDelay)
*f1fe8698SLemover  val flush_mmu = DelayN(sfence.valid || csr.satp.changed, q.fenceDelay)
*f1fe8698SLemover  val mmu_flush_pipe = DelayN(sfence.valid && sfence.bits.flushPipe, q.fenceDelay) // for svinval, won't flush pipe
*f1fe8698SLemover  val flush_pipe = io.flushPipe
*f1fe8698SLemover
*f1fe8698SLemover  // ATTENTION: csr and flush from backend are delayed. csr should not be later than flush.
*f1fe8698SLemover  // because, csr will influence tlb behavior.
a0301c0dSLemover  val ifecth = if (q.fetchi) true.B else false.B
*f1fe8698SLemover  val mode = if (q.useDmode) csr.priv.dmode else csr.priv.imode
6d5ddbceSLemover  // val vmEnable = satp.mode === 8.U // && (mode < ModeM) // FIXME: fix me when boot xv6/linux...
6d5ddbceSLemover  val vmEnable = if (EnbaleTlbDebug) (satp.mode === 8.U)
6d5ddbceSLemover    else (satp.mode === 8.U && (mode < ModeM))
6d5ddbceSLemover
*f1fe8698SLemover  val req_in = req
*f1fe8698SLemover  val req_out = req.map(a => RegEnable(a.bits, a.fire()))
*f1fe8698SLemover  val req_out_v = (0 until Width).map(i => ValidHold(req_in(i).fire && !req_in(i).bits.kill, resp(i).fire, flush_pipe(i)))
6d5ddbceSLemover
*f1fe8698SLemover  val refill = ptw.resp.fire() && !flush_mmu && vmEnable
*f1fe8698SLemover  val entries = Module(new TlbStorageWrapper(Width, q))
*f1fe8698SLemover  entries.io.base_connect(sfence, csr, satp)
*f1fe8698SLemover  if (q.outReplace) { io.replace <> entries.io.replace }
6d5ddbceSLemover  for (i <- 0 until Width) {
*f1fe8698SLemover    entries.io.r_req_apply(io.requestor(i).req.valid, get_pn(req_in(i).bits.vaddr), i)
*f1fe8698SLemover    entries.io.w_apply(refill, ptw.resp.bits, io.ptw_replenish)
a0301c0dSLemover  }
6d5ddbceSLemover
*f1fe8698SLemover  // read TLB, get hit/miss, paddr, perm bits
*f1fe8698SLemover  val readResult = (0 until Width).map(TLBRead(_))
*f1fe8698SLemover  val hitVec = readResult.map(_._1)
*f1fe8698SLemover  val missVec = readResult.map(_._2)
*f1fe8698SLemover  val pmp_addr = readResult.map(_._3)
*f1fe8698SLemover  val static_pm = readResult.map(_._4)
*f1fe8698SLemover  val static_pm_v = readResult.map(_._5)
*f1fe8698SLemover  val perm = readResult.map(_._6)
149086eaSLemover
*f1fe8698SLemover  // check pmp use paddr (for timing optization, use pmp_addr here)
*f1fe8698SLemover  // check permisson
*f1fe8698SLemover  (0 until Width).foreach{i =>
*f1fe8698SLemover    pmp_check(pmp_addr(i), req_out(i).size, req_out(i).cmd, i)
*f1fe8698SLemover    perm_check(perm(i), req_out(i).cmd, static_pm(i), static_pm_v(i), i)
*f1fe8698SLemover  }
6d5ddbceSLemover
*f1fe8698SLemover  // handle block or non-block io
*f1fe8698SLemover  // for non-block io, just return the above result, send miss to ptw
*f1fe8698SLemover  // for block io, hold the request, send miss to ptw,
*f1fe8698SLemover  //   when ptw back, return the result
*f1fe8698SLemover  (0 until Width) foreach {i =>
*f1fe8698SLemover    if (Block(i)) handle_block(i)
*f1fe8698SLemover    else handle_nonblock(i)
*f1fe8698SLemover  }
*f1fe8698SLemover  io.ptw.resp.ready := true.B
a0301c0dSLemover
*f1fe8698SLemover  /************************  main body above | method/log/perf below ****************************/
a0301c0dSLemover
*f1fe8698SLemover  def TLBRead(i: Int) = {
*f1fe8698SLemover    val (hit, ppn, perm, super_hit, super_ppn, static_pm) = entries.io.r_resp_apply(i)
*f1fe8698SLemover
a0301c0dSLemover    val miss = !hit && vmEnable
cccfc98dSLemover    val fast_miss = !super_hit && vmEnable
*f1fe8698SLemover    hit.suggestName(s"hit_read_${i}")
*f1fe8698SLemover    miss.suggestName(s"miss_read_${i}")
6d5ddbceSLemover
*f1fe8698SLemover    XSDebug(req_out_v(i), p"(${i.U}) hit:${hit} miss:${miss} ppn:${Hexadecimal(ppn)} perm:${perm}\n")
6d5ddbceSLemover
*f1fe8698SLemover    val paddr = Cat(ppn, get_off(req_out(i).vaddr))
*f1fe8698SLemover    val vaddr = SignExt(req_out(i).vaddr, PAddrBits)
*f1fe8698SLemover
*f1fe8698SLemover    resp(i).bits.paddr := Mux(vmEnable, paddr, vaddr)
*f1fe8698SLemover    resp(i).bits.miss := miss
e05a24abSLemover    resp(i).bits.fast_miss := fast_miss
e05a24abSLemover    resp(i).bits.ptwBack := ptw.resp.fire()
6d5ddbceSLemover
*f1fe8698SLemover    // val pmp_paddr = Mux(vmEnable, Cat(super_ppn, get_off(req_out(i).vaddr)), vaddr)
*f1fe8698SLemover    // pmp_paddr seems same to paddr functionally. It abandons normal_ppn for timing optimization.
*f1fe8698SLemover    val pmp_paddr = Mux(vmEnable, paddr, vaddr)
*f1fe8698SLemover    val static_pm_valid = !super_hit && vmEnable && q.partialStaticPMP.B
*f1fe8698SLemover
*f1fe8698SLemover    (hit, miss, pmp_paddr, static_pm, static_pm_valid, perm)
*f1fe8698SLemover  }
*f1fe8698SLemover
*f1fe8698SLemover  def pmp_check(addr: UInt, size: UInt, cmd: UInt, idx: Int): Unit = {
*f1fe8698SLemover    pmp(idx).valid := resp(idx).valid
*f1fe8698SLemover    pmp(idx).bits.addr := addr
*f1fe8698SLemover    pmp(idx).bits.size := size
*f1fe8698SLemover    pmp(idx).bits.cmd := cmd
*f1fe8698SLemover  }
*f1fe8698SLemover
*f1fe8698SLemover  def perm_check(perm: TlbPermBundle, cmd: UInt, spm: TlbPMBundle, spm_v: Bool, idx: Int) = {
5b7ef044SLemover    // for timing optimization, pmp check is divided into dynamic and static
5b7ef044SLemover    // dynamic: superpage (or full-connected reg entries) -> check pmp when translation done
5b7ef044SLemover    // static: 4K pages (or sram entries) -> check pmp with pre-checked results
*f1fe8698SLemover    val af = perm.af
*f1fe8698SLemover    val pf = perm.pf
*f1fe8698SLemover    val ldUpdate = !perm.a && TlbCmd.isRead(cmd) && !TlbCmd.isAmo(cmd) // update A/D through exception
*f1fe8698SLemover    val stUpdate = (!perm.a || !perm.d) && (TlbCmd.isWrite(cmd) || TlbCmd.isAmo(cmd)) // update A/D through exception
*f1fe8698SLemover    val instrUpdate = !perm.a && TlbCmd.isExec(cmd) // update A/D through exception
*f1fe8698SLemover    val modeCheck = !(mode === ModeU && !perm.u || mode === ModeS && perm.u && (!io.csr.priv.sum || ifecth))
*f1fe8698SLemover    val ldPermFail = !(modeCheck && (perm.r || io.csr.priv.mxr && perm.x))
a79fef67Swakafa    val stPermFail = !(modeCheck && perm.w)
a79fef67Swakafa    val instrPermFail = !(modeCheck && perm.x)
*f1fe8698SLemover    val ldPf = (ldPermFail || pf) && (TlbCmd.isRead(cmd) && !TlbCmd.isAmo(cmd))
*f1fe8698SLemover    val stPf = (stPermFail || pf) && (TlbCmd.isWrite(cmd) || TlbCmd.isAmo(cmd))
*f1fe8698SLemover    val instrPf = (instrPermFail || pf) && TlbCmd.isExec(cmd)
2c2c1588SLemover    val fault_valid = vmEnable
*f1fe8698SLemover    resp(idx).bits.excp.pf.ld := (ldPf || ldUpdate) && fault_valid && !af
*f1fe8698SLemover    resp(idx).bits.excp.pf.st := (stPf || stUpdate) && fault_valid && !af
*f1fe8698SLemover    resp(idx).bits.excp.pf.instr := (instrPf || instrUpdate) && fault_valid && !af
b6982e83SLemover    // NOTE: pf need && with !af, page fault has higher priority than access fault
b6982e83SLemover    // but ptw may also have access fault, then af happens, the translation is wrong.
b6982e83SLemover    // In this case, pf has lower priority than af
6d5ddbceSLemover
*f1fe8698SLemover    resp(idx).bits.excp.af.ld    := (af || (spm_v && !spm.r)) && TlbCmd.isRead(cmd) && fault_valid
*f1fe8698SLemover    resp(idx).bits.excp.af.st    := (af || (spm_v && !spm.w)) && TlbCmd.isWrite(cmd) && fault_valid
*f1fe8698SLemover    resp(idx).bits.excp.af.instr := (af || (spm_v && !spm.x)) && TlbCmd.isExec(cmd) && fault_valid
*f1fe8698SLemover    resp(idx).bits.static_pm.valid := spm_v && fault_valid // ls/st unit should use this mmio, not the result from pmp
*f1fe8698SLemover    resp(idx).bits.static_pm.bits := !spm.c
6d5ddbceSLemover  }
6d5ddbceSLemover
*f1fe8698SLemover  def handle_nonblock(idx: Int): Unit = {
*f1fe8698SLemover    io.requestor(idx).resp.valid := req_out_v(idx)
*f1fe8698SLemover    io.requestor(idx).req.ready := io.requestor(idx).resp.ready // should always be true
*f1fe8698SLemover    io.ptw.req(idx).valid :=  RegNext(req_out_v(idx) && missVec(idx), false.B) // TODO: remove the regnext, timing
*f1fe8698SLemover    io.ptw.req(idx).bits.vpn := RegNext(get_pn(req_out(idx).vaddr))
149086eaSLemover  }
a0301c0dSLemover
*f1fe8698SLemover  def handle_block(idx: Int): Unit = {
*f1fe8698SLemover    // three valid: 1.if exist a entry; 2.if sent to ptw; 3.unset resp.valid
*f1fe8698SLemover    io.requestor(idx).req.ready := !req_out_v(idx) || io.requestor(idx).resp.fire()
*f1fe8698SLemover    // req_out_v for if there is a request, may long latency, fixme
*f1fe8698SLemover
*f1fe8698SLemover    // miss request entries
*f1fe8698SLemover    val miss_req_vpn = get_pn(req_out(idx).vaddr)
*f1fe8698SLemover    val hit = io.ptw.resp.bits.entry.hit(miss_req_vpn, io.csr.satp.asid, allType = true) && io.ptw.resp.valid
*f1fe8698SLemover
*f1fe8698SLemover    val new_coming = RegNext(req_in(idx).fire && !req_in(idx).bits.kill && !flush_pipe(idx), false.B)
*f1fe8698SLemover    val miss_wire = new_coming && missVec(idx)
*f1fe8698SLemover    val miss_v = ValidHoldBypass(miss_wire, resp(idx).fire(), flush_pipe(idx))
*f1fe8698SLemover    val miss_req_v = ValidHoldBypass(miss_wire || (miss_v && flush_mmu && !mmu_flush_pipe),
*f1fe8698SLemover      io.ptw.req(idx).fire() || resp(idx).fire(), flush_pipe(idx))
*f1fe8698SLemover
*f1fe8698SLemover    // when ptw resp, check if hit, reset miss_v, resp to lsu/ifu
*f1fe8698SLemover    resp(idx).valid := req_out_v(idx) && !(miss_v && vmEnable)
*f1fe8698SLemover    when (io.ptw.resp.fire() && hit && req_out_v(idx) && vmEnable) {
*f1fe8698SLemover      val pte = io.ptw.resp.bits
*f1fe8698SLemover      resp(idx).valid := true.B
*f1fe8698SLemover      resp(idx).bits.miss := false.B // for blocked tlb, this is useless
*f1fe8698SLemover      resp(idx).bits.paddr := Cat(pte.entry.genPPN(get_pn(req_out(idx).vaddr)), get_off(req_out(idx).vaddr))
*f1fe8698SLemover
*f1fe8698SLemover      perm_check(pte, req_out(idx).cmd, 0.U.asTypeOf(new TlbPMBundle), false.B, idx)
*f1fe8698SLemover      pmp_check(resp(idx).bits.paddr, req_out(idx).size, req_out(idx).cmd, idx)
*f1fe8698SLemover      // NOTE: the unfiltered req would be handled by Repeater
*f1fe8698SLemover    }
*f1fe8698SLemover    assert(RegNext(!resp(idx).valid || resp(idx).ready, true.B), "when tlb resp valid, ready should be true, must")
*f1fe8698SLemover    assert(RegNext(req_out_v(idx) || !(miss_v || miss_req_v), true.B), "when not req_out_v, should not set miss_v/miss_req_v")
*f1fe8698SLemover
*f1fe8698SLemover    val ptw_req = io.ptw.req(idx)
*f1fe8698SLemover    ptw_req.valid := miss_req_v
*f1fe8698SLemover    ptw_req.bits.vpn := miss_req_vpn
*f1fe8698SLemover
*f1fe8698SLemover    // NOTE: when flush pipe, tlb should abandon last req
*f1fe8698SLemover    // however, some outside modules like icache, dont care flushPipe, and still waiting for tlb resp
*f1fe8698SLemover    // just resp valid and raise page fault to go through. The pipe(ifu) will abandon it.
*f1fe8698SLemover    if (!q.outsideRecvFlush) {
*f1fe8698SLemover      when (req_out_v(idx) && flush_pipe(idx) && vmEnable) {
*f1fe8698SLemover        resp(idx).valid := true.B
*f1fe8698SLemover        resp(idx).bits.excp.pf.ld := true.B // sfence happened, pf for not to use this addr
*f1fe8698SLemover        resp(idx).bits.excp.pf.st := true.B
*f1fe8698SLemover        resp(idx).bits.excp.pf.instr := true.B
*f1fe8698SLemover      }
*f1fe8698SLemover    }
*f1fe8698SLemover  }
*f1fe8698SLemover  // assert
*f1fe8698SLemover  for(i <- 0 until Width) {
*f1fe8698SLemover    TimeOutAssert(req_out_v(i) && !resp(i).valid, timeOutThreshold, s"{q.name} port{i} long time no resp valid.")
149086eaSLemover  }
a0301c0dSLemover
*f1fe8698SLemover  // perf event
*f1fe8698SLemover  val result_ok = req_in.map(a => RegNext(a.fire()))
*f1fe8698SLemover  val perfEvents =
*f1fe8698SLemover    Seq(
*f1fe8698SLemover      ("access", PopCount((0 until Width).map{i => if (Block(i)) io.requestor(i).req.fire() else vmEnable && result_ok(i) })),
*f1fe8698SLemover      ("miss  ", PopCount((0 until Width).map{i => if (Block(i)) vmEnable && result_ok(i) && missVec(i) else ptw.req(i).fire() })),
a0301c0dSLemover    )
*f1fe8698SLemover  generatePerfEvent()
a0301c0dSLemover
*f1fe8698SLemover  // perf log
6d5ddbceSLemover  for (i <- 0 until Width) {
*f1fe8698SLemover    if (Block(i)) {
*f1fe8698SLemover      XSPerfAccumulate(s"access${i}",result_ok(i)  && vmEnable)
*f1fe8698SLemover      XSPerfAccumulate(s"miss${i}", result_ok(i) && missVec(i))
6d5ddbceSLemover    } else {
*f1fe8698SLemover      XSPerfAccumulate("first_access" + Integer.toString(i, 10), result_ok(i) && vmEnable && RegNext(req(i).bits.debug.isFirstIssue))
*f1fe8698SLemover      XSPerfAccumulate("access" + Integer.toString(i, 10), result_ok(i) && vmEnable)
*f1fe8698SLemover      XSPerfAccumulate("first_miss" + Integer.toString(i, 10), result_ok(i) && vmEnable && missVec(i) && RegNext(req(i).bits.debug.isFirstIssue))
*f1fe8698SLemover      XSPerfAccumulate("miss" + Integer.toString(i, 10), result_ok(i) && vmEnable && missVec(i))
a0301c0dSLemover    }
6d5ddbceSLemover  }
6d5ddbceSLemover  XSPerfAccumulate("ptw_resp_count", ptw.resp.fire())
6d5ddbceSLemover  XSPerfAccumulate("ptw_resp_pf_count", ptw.resp.fire() && ptw.resp.bits.pf)
6d5ddbceSLemover
6d5ddbceSLemover  // Log
6d5ddbceSLemover  for(i <- 0 until Width) {
6d5ddbceSLemover    XSDebug(req(i).valid, p"req(${i.U}): (${req(i).valid} ${req(i).ready}) ${req(i).bits}\n")
6d5ddbceSLemover    XSDebug(resp(i).valid, p"resp(${i.U}): (${resp(i).valid} ${resp(i).ready}) ${resp(i).bits}\n")
6d5ddbceSLemover  }
6d5ddbceSLemover
*f1fe8698SLemover  XSDebug(io.sfence.valid, p"Sfence: ${io.sfence}\n")
*f1fe8698SLemover  XSDebug(ParallelOR(req_out_v) || ptw.resp.valid, p"vmEnable:${vmEnable} hit:${Binary(VecInit(hitVec).asUInt)} miss:${Binary(VecInit(missVec).asUInt)}\n")
6d5ddbceSLemover  for (i <- ptw.req.indices) {
92e3bfefSLemover    XSDebug(ptw.req(i).fire(), p"L2TLB req:${ptw.req(i).bits}\n")
6d5ddbceSLemover  }
92e3bfefSLemover  XSDebug(ptw.resp.valid, p"L2TLB resp:${ptw.resp.bits} (v:${ptw.resp.valid}r:${ptw.resp.ready}) \n")
6d5ddbceSLemover
a0301c0dSLemover  println(s"${q.name}: normal page: ${q.normalNWays} ${q.normalAssociative} ${q.normalReplacer.get} super page: ${q.superNWays} ${q.superAssociative} ${q.superReplacer.get}")
a0301c0dSLemover
*f1fe8698SLemover}
1ca0e4f3SYinan Xu
*f1fe8698SLemoverclass TLBNonBlock(Width: Int, q: TLBParameters)(implicit p: Parameters) extends TLB(Width, Seq.fill(Width)(false), q)
*f1fe8698SLemoverclass TLBBLock(Width: Int, q: TLBParameters)(implicit p: Parameters) extends TLB(Width, Seq.fill(Width)(true), q)
6d5ddbceSLemover
a0301c0dSLemoverclass TlbReplace(Width: Int, q: TLBParameters)(implicit p: Parameters) extends TlbModule {
a0301c0dSLemover  val io = IO(new TlbReplaceIO(Width, q))
a0301c0dSLemover
a0301c0dSLemover  if (q.normalAssociative == "fa") {
a0301c0dSLemover    val re = ReplacementPolicy.fromString(q.normalReplacer, q.normalNWays)
3889e11eSLemover    re.access(io.normalPage.access.map(_.touch_ways))
a0301c0dSLemover    io.normalPage.refillIdx := re.way
a0301c0dSLemover  } else { // set-acco && plru
a0301c0dSLemover    val re = ReplacementPolicy.fromString(q.normalReplacer, q.normalNSets, q.normalNWays)
3889e11eSLemover    re.access(io.normalPage.access.map(_.sets), io.normalPage.access.map(_.touch_ways))
a0301c0dSLemover    io.normalPage.refillIdx := { if (q.normalNWays == 1) 0.U else re.way(io.normalPage.chosen_set) }
a0301c0dSLemover  }
a0301c0dSLemover
a0301c0dSLemover  if (q.superAssociative == "fa") {
a0301c0dSLemover    val re = ReplacementPolicy.fromString(q.superReplacer, q.superNWays)
3889e11eSLemover    re.access(io.superPage.access.map(_.touch_ways))
a0301c0dSLemover    io.superPage.refillIdx := re.way
a0301c0dSLemover  } else { // set-acco && plru
a0301c0dSLemover    val re = ReplacementPolicy.fromString(q.superReplacer, q.superNSets, q.superNWays)
3889e11eSLemover    re.access(io.superPage.access.map(_.sets), io.superPage.access.map(_.touch_ways))
a0301c0dSLemover    io.superPage.refillIdx := { if (q.superNWays == 1) 0.U else re.way(io.superPage.chosen_set) }
a0301c0dSLemover  }
a0301c0dSLemover}