16d5ddbceSLemover/*************************************************************************************** 26d5ddbceSLemover* Copyright (c) 2020-2021 Institute of Computing Technology, Chinese Academy of Sciences 3f320e0f0SYinan Xu* Copyright (c) 2020-2021 Peng Cheng Laboratory 46d5ddbceSLemover* 56d5ddbceSLemover* XiangShan is licensed under Mulan PSL v2. 66d5ddbceSLemover* You can use this software according to the terms and conditions of the Mulan PSL v2. 76d5ddbceSLemover* You may obtain a copy of Mulan PSL v2 at: 86d5ddbceSLemover* http://license.coscl.org.cn/MulanPSL2 96d5ddbceSLemover* 106d5ddbceSLemover* THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND, 116d5ddbceSLemover* EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT, 126d5ddbceSLemover* MERCHANTABILITY OR FIT FOR A PARTICULAR PURPOSE. 136d5ddbceSLemover* 146d5ddbceSLemover* See the Mulan PSL v2 for more details. 156d5ddbceSLemover***************************************************************************************/ 166d5ddbceSLemover 176d5ddbceSLemoverpackage xiangshan.cache.mmu 186d5ddbceSLemover 196d5ddbceSLemoverimport chipsalliance.rocketchip.config.Parameters 206d5ddbceSLemoverimport chisel3._ 216d5ddbceSLemoverimport chisel3.util._ 22b848eea5SLemoverimport chisel3.internal.naming.chiselName 236d5ddbceSLemoverimport xiangshan._ 246d5ddbceSLemoverimport xiangshan.cache.{HasDCacheParameters, MemoryOpConstants} 256d5ddbceSLemoverimport utils._ 266d5ddbceSLemoverimport freechips.rocketchip.diplomacy.{LazyModule, LazyModuleImp} 276d5ddbceSLemoverimport freechips.rocketchip.tilelink._ 28b6982e83SLemoverimport xiangshan.backend.fu.{PMPReqBundle, PMPRespBundle} 296d5ddbceSLemover 306d5ddbceSLemover/* ptw finite state machine, the actual page table walker 316d5ddbceSLemover */ 326d5ddbceSLemoverclass PtwFsmIO()(implicit p: Parameters) extends PtwBundle { 336d5ddbceSLemover val req = Flipped(DecoupledIO(new Bundle { 34*bc063562SLemover val source = UInt(bSourceWidth.W) 356d5ddbceSLemover val l1Hit = Bool() 366d5ddbceSLemover val vpn = UInt(vpnLen.W) 376d5ddbceSLemover val ppn = UInt(ppnLen.W) 386d5ddbceSLemover })) 396d5ddbceSLemover val resp = DecoupledIO(new Bundle { 40*bc063562SLemover val source = UInt(bSourceWidth.W) 416d5ddbceSLemover val resp = new PtwResp 426d5ddbceSLemover }) 436d5ddbceSLemover 44cc5a5f22SLemover val mq = DecoupledIO(new L2TlbMQInBundle()) 45cc5a5f22SLemover 466d5ddbceSLemover val mem = new Bundle { 47b848eea5SLemover val req = DecoupledIO(new L2TlbMemReqBundle()) 485854c1edSLemover val resp = Flipped(ValidIO(UInt(XLEN.W))) 49cc5a5f22SLemover val mask = Input(Bool()) 506d5ddbceSLemover } 51b6982e83SLemover val pmp = new Bundle { 52b6982e83SLemover val req = ValidIO(new PMPReqBundle()) 53b6982e83SLemover val resp = Flipped(new PMPRespBundle()) 54b6982e83SLemover } 556d5ddbceSLemover 566d5ddbceSLemover val csr = Input(new TlbCsrBundle) 576d5ddbceSLemover val sfence = Input(new SfenceBundle) 586d5ddbceSLemover val refill = Output(new Bundle { 596d5ddbceSLemover val vpn = UInt(vpnLen.W) 606d5ddbceSLemover val level = UInt(log2Up(Level).W) 61*bc063562SLemover val source = UInt(bSourceWidth.W) 626d5ddbceSLemover }) 636d5ddbceSLemover} 646d5ddbceSLemover 65b848eea5SLemover@chiselName 666d5ddbceSLemoverclass PtwFsm()(implicit p: Parameters) extends XSModule with HasPtwConst { 676d5ddbceSLemover val io = IO(new PtwFsmIO) 686d5ddbceSLemover 696d5ddbceSLemover val sfence = io.sfence 706d5ddbceSLemover val mem = io.mem 716d5ddbceSLemover val satp = io.csr.satp 726d5ddbceSLemover 73b6982e83SLemover val s_idle :: s_addr_check :: s_mem_req :: s_mem_resp :: s_check_pte :: Nil = Enum(5) 746d5ddbceSLemover val state = RegInit(s_idle) 756d5ddbceSLemover val level = RegInit(0.U(log2Up(Level).W)) 76b6982e83SLemover val af_level = RegInit(0.U(log2Up(Level).W)) // access fault return this level 776d5ddbceSLemover val ppn = Reg(UInt(ppnLen.W)) 786d5ddbceSLemover val vpn = Reg(UInt(vpnLen.W)) 796d5ddbceSLemover val levelNext = level + 1.U 806d5ddbceSLemover val l1Hit = Reg(Bool()) 815854c1edSLemover val memPte = mem.resp.bits.asTypeOf(new PteBundle().cloneType) 82cc5a5f22SLemover io.req.ready := state === s_idle 836d5ddbceSLemover 84b6982e83SLemover val finish = WireInit(false.B) 85b6982e83SLemover val sent_to_pmp = state === s_addr_check || (state === s_check_pte && !finish) 86b6982e83SLemover val accessFault = RegEnable(io.pmp.resp.ld, sent_to_pmp) 87b6982e83SLemover val pageFault = memPte.isPf(level) 886d5ddbceSLemover switch (state) { 896d5ddbceSLemover is (s_idle) { 906d5ddbceSLemover when (io.req.fire()) { 916d5ddbceSLemover val req = io.req.bits 92b6982e83SLemover state := s_addr_check 93cc5a5f22SLemover level := Mux(req.l1Hit, 1.U, 0.U) 94b6982e83SLemover af_level := Mux(req.l1Hit, 1.U, 0.U) 95cc5a5f22SLemover ppn := Mux(req.l1Hit, io.req.bits.ppn, satp.ppn) 966d5ddbceSLemover vpn := io.req.bits.vpn 976d5ddbceSLemover l1Hit := req.l1Hit 98b6982e83SLemover accessFault := false.B 996d5ddbceSLemover } 1006d5ddbceSLemover } 1016d5ddbceSLemover 102b6982e83SLemover is (s_addr_check) { 103b6982e83SLemover state := s_mem_req 104b6982e83SLemover } 105b6982e83SLemover 1066d5ddbceSLemover is (s_mem_req) { 1076d5ddbceSLemover when (mem.req.fire()) { 1086d5ddbceSLemover state := s_mem_resp 1096d5ddbceSLemover } 110b6982e83SLemover when (accessFault) { 111b6982e83SLemover state := s_check_pte 112b6982e83SLemover } 1136d5ddbceSLemover } 1146d5ddbceSLemover 1156d5ddbceSLemover is (s_mem_resp) { 1166d5ddbceSLemover when(mem.resp.fire()) { 117cc5a5f22SLemover state := s_check_pte 118b6982e83SLemover af_level := af_level + 1.U 1196d5ddbceSLemover } 1206d5ddbceSLemover } 1216d5ddbceSLemover 122cc5a5f22SLemover is (s_check_pte) { 123b6982e83SLemover when (io.resp.valid) { 1246d5ddbceSLemover when (io.resp.fire()) { 1256d5ddbceSLemover state := s_idle 1266d5ddbceSLemover } 127b6982e83SLemover finish := true.B 128cc5a5f22SLemover }.otherwise { 129b6982e83SLemover when (io.pmp.resp.ld) { 130b6982e83SLemover // do nothing 131b6982e83SLemover }.elsewhen (io.mq.valid) { 132cc5a5f22SLemover when (io.mq.fire()) { 133cc5a5f22SLemover state := s_idle 134cc5a5f22SLemover } 135b6982e83SLemover finish := true.B 136b6982e83SLemover }.otherwise { // when level is 1.U, finish 137b6982e83SLemover assert(level =/= 2.U) 138b6982e83SLemover level := levelNext 139b6982e83SLemover state := s_mem_req 140cc5a5f22SLemover } 141cc5a5f22SLemover } 1426d5ddbceSLemover } 1436d5ddbceSLemover } 1446d5ddbceSLemover 1456d5ddbceSLemover when (sfence.valid) { 1466d5ddbceSLemover state := s_idle 147b6982e83SLemover accessFault := false.B 1486d5ddbceSLemover } 1496d5ddbceSLemover 150b6982e83SLemover // memPte is valid when at s_check_pte. when mem.resp.fire, it's not ready. 151cc5a5f22SLemover val is_pte = memPte.isLeaf() || memPte.isPf(level) 152cc5a5f22SLemover val find_pte = is_pte 153cc5a5f22SLemover val to_find_pte = level === 1.U && !is_pte 154cc5a5f22SLemover val source = RegEnable(io.req.bits.source, io.req.fire()) 155b6982e83SLemover io.resp.valid := state === s_check_pte && (find_pte || accessFault) 156cc5a5f22SLemover io.resp.bits.source := source 157b6982e83SLemover io.resp.bits.resp.apply(pageFault && !accessFault, accessFault, Mux(accessFault, af_level, level), memPte, vpn) 158cc5a5f22SLemover 159b6982e83SLemover io.mq.valid := state === s_check_pte && to_find_pte && !accessFault 160cc5a5f22SLemover io.mq.bits.source := source 161cc5a5f22SLemover io.mq.bits.vpn := vpn 162cc5a5f22SLemover io.mq.bits.l3.valid := true.B 163cc5a5f22SLemover io.mq.bits.l3.bits := memPte.ppn 164cc5a5f22SLemover 165cc5a5f22SLemover assert(level =/= 2.U || level =/= 3.U) 1666d5ddbceSLemover 1676d5ddbceSLemover val l1addr = MakeAddr(satp.ppn, getVpnn(vpn, 2)) 168cc5a5f22SLemover val l2addr = MakeAddr(Mux(l1Hit, ppn, memPte.ppn), getVpnn(vpn, 1)) 169b6982e83SLemover val mem_addr = Mux(af_level === 0.U, l1addr, l2addr) 170b6982e83SLemover io.pmp.req.valid := DontCare // samecycle, do not use valid 171b6982e83SLemover io.pmp.req.bits.addr := mem_addr 172b6982e83SLemover io.pmp.req.bits.size := 3.U // TODO: fix it 173b6982e83SLemover io.pmp.req.bits.cmd := TlbCmd.read 174b6982e83SLemover 175b6982e83SLemover mem.req.valid := state === s_mem_req && !io.mem.mask && !accessFault 176b6982e83SLemover mem.req.bits.addr := mem_addr 177*bc063562SLemover mem.req.bits.id := FsmReqID.U(bMemID.W) 1786d5ddbceSLemover 1796d5ddbceSLemover io.refill.vpn := vpn 1806d5ddbceSLemover io.refill.level := level 181*bc063562SLemover io.refill.source := source 1826d5ddbceSLemover 183cc5a5f22SLemover XSDebug(p"[fsm] state:${state} level:${level} notFound:${pageFault}\n") 1846d5ddbceSLemover 1856d5ddbceSLemover // perf 1866d5ddbceSLemover XSPerfAccumulate("fsm_count", io.req.fire()) 1876d5ddbceSLemover for (i <- 0 until PtwWidth) { 1886d5ddbceSLemover XSPerfAccumulate(s"fsm_count_source${i}", io.req.fire() && io.req.bits.source === i.U) 1896d5ddbceSLemover } 1906d5ddbceSLemover XSPerfAccumulate("fsm_busy", state =/= s_idle) 1916d5ddbceSLemover XSPerfAccumulate("fsm_idle", state === s_idle) 1926d5ddbceSLemover XSPerfAccumulate("resp_blocked", io.resp.valid && !io.resp.ready) 1936d5ddbceSLemover XSPerfAccumulate("mem_count", mem.req.fire()) 1946d5ddbceSLemover XSPerfAccumulate("mem_cycle", BoolStopWatch(mem.req.fire, mem.resp.fire(), true)) 1956d5ddbceSLemover XSPerfAccumulate("mem_blocked", mem.req.valid && !mem.req.ready) 196cc5a5f22SLemover 1979bd9cdfaSLemover TimeOutAssert(state =/= s_idle, timeOutThreshold, "page table walker time out") 1986d5ddbceSLemover} 199