1/*************************************************************************************** 2* Copyright (c) 2020-2021 Institute of Computing Technology, Chinese Academy of Sciences 3* Copyright (c) 2020-2021 Peng Cheng Laboratory 4* 5* XiangShan is licensed under Mulan PSL v2. 6* You can use this software according to the terms and conditions of the Mulan PSL v2. 7* You may obtain a copy of Mulan PSL v2 at: 8* http://license.coscl.org.cn/MulanPSL2 9* 10* THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND, 11* EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT, 12* MERCHANTABILITY OR FIT FOR A PARTICULAR PURPOSE. 13* 14* See the Mulan PSL v2 for more details. 15***************************************************************************************/ 16 17package xiangshan.cache.mmu 18 19import chipsalliance.rocketchip.config.Parameters 20import chisel3._ 21import chisel3.util._ 22import chisel3.internal.naming.chiselName 23import xiangshan._ 24import xiangshan.cache.{HasDCacheParameters, MemoryOpConstants} 25import utils._ 26import freechips.rocketchip.diplomacy.{LazyModule, LazyModuleImp} 27import freechips.rocketchip.tilelink._ 28 29/* ptw finite state machine, the actual page table walker 30 */ 31class PtwFsmIO()(implicit p: Parameters) extends PtwBundle { 32 val req = Flipped(DecoupledIO(new Bundle { 33 val source = UInt(bPtwWidth.W) 34 val l1Hit = Bool() 35 val l2Hit = Bool() 36 val vpn = UInt(vpnLen.W) 37 val ppn = UInt(ppnLen.W) 38 })) 39 val resp = DecoupledIO(new Bundle { 40 val source = UInt(bPtwWidth.W) 41 val resp = new PtwResp 42 }) 43 44 val mem = new Bundle { 45 val req = DecoupledIO(new L2TlbMemReqBundle()) 46 val resp = Flipped(ValidIO(UInt(XLEN.W))) 47 } 48 49 val csr = Input(new TlbCsrBundle) 50 val sfence = Input(new SfenceBundle) 51 val refill = Output(new Bundle { 52 val vpn = UInt(vpnLen.W) 53 val level = UInt(log2Up(Level).W) 54 }) 55} 56 57@chiselName 58class PtwFsm()(implicit p: Parameters) extends XSModule with HasPtwConst { 59 val io = IO(new PtwFsmIO) 60 61 val sfence = io.sfence 62 val mem = io.mem 63 val satp = io.csr.satp 64 65 val s_idle :: s_mem_req :: s_mem_resp :: s_resp :: Nil = Enum(4) 66 val state = RegInit(s_idle) 67 val level = RegInit(0.U(log2Up(Level).W)) 68 val ppn = Reg(UInt(ppnLen.W)) 69 val vpn = Reg(UInt(vpnLen.W)) 70 val levelNext = level + 1.U 71 72 val memAddrReg = RegEnable(mem.req.bits.addr, mem.req.fire()) 73 val l1Hit = Reg(Bool()) 74 val l2Hit = Reg(Bool()) 75 76 val memPte = mem.resp.bits.asTypeOf(new PteBundle().cloneType) 77 val memPteReg = RegEnable(memPte, mem.resp.fire()) 78 79 val notFound = WireInit(false.B) 80 switch (state) { 81 is (s_idle) { 82 when (io.req.fire()) { 83 val req = io.req.bits 84 state := s_mem_req 85 level := Mux(req.l2Hit, 2.U, Mux(req.l1Hit, 1.U, 0.U)) 86 ppn := Mux(req.l2Hit || req.l1Hit, io.req.bits.ppn, satp.ppn) 87 vpn := io.req.bits.vpn 88 l1Hit := req.l1Hit 89 l2Hit := req.l2Hit 90 } 91 } 92 93 is (s_mem_req) { 94 when (mem.req.fire()) { 95 state := s_mem_resp 96 } 97 } 98 99 is (s_mem_resp) { 100 when (mem.resp.fire()) { 101 when (memPte.isLeaf() || memPte.isPf(level)) { 102 state := s_resp 103 notFound := memPte.isPf(level) 104 }.otherwise { 105 when (level =/= 2.U) { 106 level := levelNext 107 state := s_mem_req 108 }.otherwise { 109 state := s_resp 110 notFound := true.B 111 } 112 } 113 } 114 } 115 116 is (s_resp) { 117 when (io.resp.fire()) { 118 state := s_idle 119 } 120 } 121 } 122 123 when (sfence.valid) { 124 state := s_idle 125 } 126 127 val finish = mem.resp.fire() && (memPte.isLeaf() || memPte.isPf(level) || level === 2.U) 128 val resp_pf = Reg(Bool()) 129 val resp_level = Reg(UInt(2.W)) 130 val resp_pte = Reg(new PteBundle()) 131 when (finish) { 132 resp_pf := level === 3.U || notFound 133 resp_level := level 134 resp_pte := memPte 135 } 136 io.resp.valid := state === s_resp 137 io.resp.bits.source := RegEnable(io.req.bits.source, io.req.fire()) 138 io.resp.bits.resp.apply(resp_pf, resp_level, resp_pte, vpn) 139 io.req.ready := state === s_idle 140 141 val l1addr = MakeAddr(satp.ppn, getVpnn(vpn, 2)) 142 val l2addr = MakeAddr(Mux(l1Hit, ppn, memPteReg.ppn), getVpnn(vpn, 1)) 143 val l3addr = MakeAddr(Mux(l2Hit, ppn, memPteReg.ppn), getVpnn(vpn, 0)) 144 mem.req.valid := state === s_mem_req 145 mem.req.bits.addr := Mux(level === 0.U, l1addr, Mux(level === 1.U, l2addr, l3addr)) 146 mem.req.bits.id := MSHRSize.U 147 148 io.refill.vpn := vpn 149 io.refill.level := level 150 151 XSDebug(p"[fsm] state:${state} level:${level} notFound:${notFound}\n") 152 153 // perf 154 XSPerfAccumulate("fsm_count", io.req.fire()) 155 for (i <- 0 until PtwWidth) { 156 XSPerfAccumulate(s"fsm_count_source${i}", io.req.fire() && io.req.bits.source === i.U) 157 } 158 XSPerfAccumulate("fsm_busy", state =/= s_idle) 159 XSPerfAccumulate("fsm_idle", state === s_idle) 160 XSPerfAccumulate("resp_blocked", io.resp.valid && !io.resp.ready) 161 XSPerfAccumulate("mem_count", mem.req.fire()) 162 XSPerfAccumulate("mem_cycle", BoolStopWatch(mem.req.fire, mem.resp.fire(), true)) 163 XSPerfAccumulate("mem_blocked", mem.req.valid && !mem.req.ready) 164} 165