19aca92b9SYinan Xu/*************************************************************************************** 29aca92b9SYinan Xu* Copyright (c) 2020-2021 Institute of Computing Technology, Chinese Academy of Sciences 39aca92b9SYinan Xu* Copyright (c) 2020-2021 Peng Cheng Laboratory 49aca92b9SYinan Xu* 59aca92b9SYinan Xu* XiangShan is licensed under Mulan PSL v2. 69aca92b9SYinan Xu* You can use this software according to the terms and conditions of the Mulan PSL v2. 79aca92b9SYinan Xu* You may obtain a copy of Mulan PSL v2 at: 89aca92b9SYinan Xu* http://license.coscl.org.cn/MulanPSL2 99aca92b9SYinan Xu* 109aca92b9SYinan Xu* THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND, 119aca92b9SYinan Xu* EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT, 129aca92b9SYinan Xu* MERCHANTABILITY OR FIT FOR A PARTICULAR PURPOSE. 139aca92b9SYinan Xu* 149aca92b9SYinan Xu* See the Mulan PSL v2 for more details. 159aca92b9SYinan Xu***************************************************************************************/ 169aca92b9SYinan Xu 179aca92b9SYinan Xupackage xiangshan.backend.rob 189aca92b9SYinan Xu 199aca92b9SYinan Xuimport chipsalliance.rocketchip.config.Parameters 209aca92b9SYinan Xuimport chisel3._ 219aca92b9SYinan Xuimport chisel3.util._ 229aca92b9SYinan Xuimport difftest._ 236ab6918fSYinan Xuimport freechips.rocketchip.diplomacy.{LazyModule, LazyModuleImp} 246ab6918fSYinan Xuimport utils._ 253c02ee8fSwakafaimport utility._ 266ab6918fSYinan Xuimport xiangshan._ 276ab6918fSYinan Xuimport xiangshan.backend.exu.ExuConfig 286ab6918fSYinan Xuimport xiangshan.frontend.FtqPtr 299aca92b9SYinan Xu 30*8744445eSMaxpicca-Liclass DebugMdpInfo(implicit p: Parameters) extends XSBundle{ 31*8744445eSMaxpicca-Li val ssid = UInt(SSIDWidth.W) 32*8744445eSMaxpicca-Li val waitAllStore = Bool() 33*8744445eSMaxpicca-Li} 34*8744445eSMaxpicca-Li 35*8744445eSMaxpicca-Liclass DebugLsInfo(implicit p: Parameters) extends XSBundle{ 36*8744445eSMaxpicca-Li val s1 = new Bundle{ 37*8744445eSMaxpicca-Li val isTlbFirstMiss = Bool() // in s1 38*8744445eSMaxpicca-Li val isBankConflict = Bool() // in s1 39*8744445eSMaxpicca-Li val isLoadToLoadForward = Bool() 40*8744445eSMaxpicca-Li val isReplayFast = Bool() 41*8744445eSMaxpicca-Li } 42*8744445eSMaxpicca-Li val s2 = new Bundle{ 43*8744445eSMaxpicca-Li val isDcacheFirstMiss = Bool() // in s2 (predicted result is in s1 when using WPU, real result is in s2) 44*8744445eSMaxpicca-Li val isForwardFail = Bool() // in s2 45*8744445eSMaxpicca-Li val isReplaySlow = Bool() 46*8744445eSMaxpicca-Li val isLoadReplayTLBMiss = Bool() 47*8744445eSMaxpicca-Li val isLoadReplayCacheMiss = Bool() 48*8744445eSMaxpicca-Li } 49*8744445eSMaxpicca-Li val replayCnt = UInt(XLEN.W) 50*8744445eSMaxpicca-Li 51*8744445eSMaxpicca-Li def s1SignalEnable(ena: DebugLsInfo) = { 52*8744445eSMaxpicca-Li when(ena.s1.isTlbFirstMiss) { s1.isTlbFirstMiss := true.B } 53*8744445eSMaxpicca-Li when(ena.s1.isBankConflict) { s1.isBankConflict := true.B } 54*8744445eSMaxpicca-Li when(ena.s1.isLoadToLoadForward) { s1.isLoadToLoadForward := true.B } 55*8744445eSMaxpicca-Li when(ena.s1.isReplayFast) { 56*8744445eSMaxpicca-Li s1.isReplayFast := true.B 57*8744445eSMaxpicca-Li replayCnt := replayCnt + 1.U 58*8744445eSMaxpicca-Li } 59*8744445eSMaxpicca-Li } 60*8744445eSMaxpicca-Li 61*8744445eSMaxpicca-Li def s2SignalEnable(ena: DebugLsInfo) = { 62*8744445eSMaxpicca-Li when(ena.s2.isDcacheFirstMiss) { s2.isDcacheFirstMiss := true.B } 63*8744445eSMaxpicca-Li when(ena.s2.isForwardFail) { s2.isForwardFail := true.B } 64*8744445eSMaxpicca-Li when(ena.s2.isLoadReplayTLBMiss) { s2.isLoadReplayTLBMiss := true.B } 65*8744445eSMaxpicca-Li when(ena.s2.isLoadReplayCacheMiss) { s2.isLoadReplayCacheMiss := true.B } 66*8744445eSMaxpicca-Li when(ena.s2.isReplaySlow) { 67*8744445eSMaxpicca-Li s2.isReplaySlow := true.B 68*8744445eSMaxpicca-Li replayCnt := replayCnt + 1.U 69*8744445eSMaxpicca-Li } 70*8744445eSMaxpicca-Li } 71*8744445eSMaxpicca-Li 72*8744445eSMaxpicca-Li} 73*8744445eSMaxpicca-Liobject DebugLsInfo{ 74*8744445eSMaxpicca-Li def init(implicit p: Parameters): DebugLsInfo = { 75*8744445eSMaxpicca-Li val lsInfo = Wire(new DebugLsInfo) 76*8744445eSMaxpicca-Li lsInfo.s1.isTlbFirstMiss := false.B 77*8744445eSMaxpicca-Li lsInfo.s1.isBankConflict := false.B 78*8744445eSMaxpicca-Li lsInfo.s1.isLoadToLoadForward := false.B 79*8744445eSMaxpicca-Li lsInfo.s1.isReplayFast := false.B 80*8744445eSMaxpicca-Li lsInfo.s2.isDcacheFirstMiss := false.B 81*8744445eSMaxpicca-Li lsInfo.s2.isForwardFail := false.B 82*8744445eSMaxpicca-Li lsInfo.s2.isReplaySlow := false.B 83*8744445eSMaxpicca-Li lsInfo.s2.isLoadReplayTLBMiss := false.B 84*8744445eSMaxpicca-Li lsInfo.s2.isLoadReplayCacheMiss := false.B 85*8744445eSMaxpicca-Li lsInfo.replayCnt := 0.U 86*8744445eSMaxpicca-Li lsInfo 87*8744445eSMaxpicca-Li } 88*8744445eSMaxpicca-Li 89*8744445eSMaxpicca-Li} 90*8744445eSMaxpicca-Liclass DebugLsInfoBundle(implicit p: Parameters) extends DebugLsInfo { 91*8744445eSMaxpicca-Li // unified processing at the end stage of load/store ==> s2 ==> bug that will write error robIdx data 92*8744445eSMaxpicca-Li val s1_robIdx = UInt(log2Ceil(RobSize).W) 93*8744445eSMaxpicca-Li val s2_robIdx = UInt(log2Ceil(RobSize).W) 94*8744445eSMaxpicca-Li} 95*8744445eSMaxpicca-Liclass DebugLSIO(implicit p: Parameters) extends XSBundle { 96*8744445eSMaxpicca-Li val debugLsInfo = Vec(exuParameters.LduCnt + exuParameters.StuCnt, Output(new DebugLsInfoBundle)) 97*8744445eSMaxpicca-Li} 98*8744445eSMaxpicca-Li 99*8744445eSMaxpicca-Liclass DebugInstDB(implicit p: Parameters) extends XSBundle{ 100*8744445eSMaxpicca-Li val globalID = UInt(XLEN.W) 101*8744445eSMaxpicca-Li val robIdx = UInt(log2Ceil(RobSize).W) 102*8744445eSMaxpicca-Li val instType = FuType() 103*8744445eSMaxpicca-Li val exceptType = ExceptionVec() 104*8744445eSMaxpicca-Li val ivaddr = UInt(VAddrBits.W) 105*8744445eSMaxpicca-Li val dvaddr = UInt(VAddrBits.W) // the l/s access address 106*8744445eSMaxpicca-Li val dpaddr = UInt(VAddrBits.W) // need the physical address when the TLB is valid 107*8744445eSMaxpicca-Li val tlbLatency = UInt(XLEN.W) // original requirements is L1toL2TlbLatency 108*8744445eSMaxpicca-Li // val levelTlbHit = UInt(2.W) // 01, 10, 11(memory) 109*8744445eSMaxpicca-Li // val otherPerfNoteThing // FIXME: how much? 110*8744445eSMaxpicca-Li val accessLatency = UInt(XLEN.W) // RS out time --> write back time 111*8744445eSMaxpicca-Li val executeLatency = UInt(XLEN.W) 112*8744445eSMaxpicca-Li val issueLatency = UInt(XLEN.W) 113*8744445eSMaxpicca-Li val lsInfo = new DebugLsInfo 114*8744445eSMaxpicca-Li val mdpInfo = new DebugMdpInfo 115*8744445eSMaxpicca-Li} 116*8744445eSMaxpicca-Li 1179aca92b9SYinan Xuclass RobPtr(implicit p: Parameters) extends CircularQueuePtr[RobPtr]( 1189aca92b9SYinan Xu p => p(XSCoreParamsKey).RobSize 1199aca92b9SYinan Xu) with HasCircularQueuePtrHelper { 1209aca92b9SYinan Xu 121f4b2089aSYinan Xu def needFlush(redirect: Valid[Redirect]): Bool = { 1229aca92b9SYinan Xu val flushItself = redirect.bits.flushItself() && this === redirect.bits.robIdx 123f4b2089aSYinan Xu redirect.valid && (flushItself || isAfter(this, redirect.bits.robIdx)) 1249aca92b9SYinan Xu } 1259aca92b9SYinan Xu 1260dc4893dSYinan Xu def needFlush(redirect: Seq[Valid[Redirect]]): Bool = VecInit(redirect.map(needFlush)).asUInt.orR 1279aca92b9SYinan Xu} 1289aca92b9SYinan Xu 1299aca92b9SYinan Xuobject RobPtr { 1309aca92b9SYinan Xu def apply(f: Bool, v: UInt)(implicit p: Parameters): RobPtr = { 1319aca92b9SYinan Xu val ptr = Wire(new RobPtr) 1329aca92b9SYinan Xu ptr.flag := f 1339aca92b9SYinan Xu ptr.value := v 1349aca92b9SYinan Xu ptr 1359aca92b9SYinan Xu } 1369aca92b9SYinan Xu} 1379aca92b9SYinan Xu 1389aca92b9SYinan Xuclass RobCSRIO(implicit p: Parameters) extends XSBundle { 1399aca92b9SYinan Xu val intrBitSet = Input(Bool()) 1409aca92b9SYinan Xu val trapTarget = Input(UInt(VAddrBits.W)) 1419aca92b9SYinan Xu val isXRet = Input(Bool()) 1425c95ea2eSYinan Xu val wfiEvent = Input(Bool()) 1439aca92b9SYinan Xu 1449aca92b9SYinan Xu val fflags = Output(Valid(UInt(5.W))) 1459aca92b9SYinan Xu val dirty_fs = Output(Bool()) 1469aca92b9SYinan Xu val perfinfo = new Bundle { 1479aca92b9SYinan Xu val retiredInstr = Output(UInt(3.W)) 1489aca92b9SYinan Xu } 1499aca92b9SYinan Xu} 1509aca92b9SYinan Xu 1519aca92b9SYinan Xuclass RobLsqIO(implicit p: Parameters) extends XSBundle { 152cd365d4cSrvcoresjw val lcommit = Output(UInt(log2Up(CommitWidth + 1).W)) 153cd365d4cSrvcoresjw val scommit = Output(UInt(log2Up(CommitWidth + 1).W)) 1549aca92b9SYinan Xu val pendingld = Output(Bool()) 1559aca92b9SYinan Xu val pendingst = Output(Bool()) 1569aca92b9SYinan Xu val commit = Output(Bool()) 1579aca92b9SYinan Xu} 1589aca92b9SYinan Xu 1599aca92b9SYinan Xuclass RobEnqIO(implicit p: Parameters) extends XSBundle { 1609aca92b9SYinan Xu val canAccept = Output(Bool()) 1619aca92b9SYinan Xu val isEmpty = Output(Bool()) 1629aca92b9SYinan Xu // valid vector, for robIdx gen and walk 1639aca92b9SYinan Xu val needAlloc = Vec(RenameWidth, Input(Bool())) 1649aca92b9SYinan Xu val req = Vec(RenameWidth, Flipped(ValidIO(new MicroOp))) 1659aca92b9SYinan Xu val resp = Vec(RenameWidth, Output(new RobPtr)) 1669aca92b9SYinan Xu} 1679aca92b9SYinan Xu 168c3abb8b6SYinan Xuclass RobDispatchData(implicit p: Parameters) extends RobCommitInfo 1699aca92b9SYinan Xu 1709aca92b9SYinan Xuclass RobDeqPtrWrapper(implicit p: Parameters) extends XSModule with HasCircularQueuePtrHelper { 1719aca92b9SYinan Xu val io = IO(new Bundle { 1729aca92b9SYinan Xu // for commits/flush 1739aca92b9SYinan Xu val state = Input(UInt(2.W)) 1749aca92b9SYinan Xu val deq_v = Vec(CommitWidth, Input(Bool())) 1759aca92b9SYinan Xu val deq_w = Vec(CommitWidth, Input(Bool())) 1769aca92b9SYinan Xu val exception_state = Flipped(ValidIO(new RobExceptionInfo)) 1779aca92b9SYinan Xu // for flush: when exception occurs, reset deqPtrs to range(0, CommitWidth) 1789aca92b9SYinan Xu val intrBitSetReg = Input(Bool()) 1799aca92b9SYinan Xu val hasNoSpecExec = Input(Bool()) 180e8009193SYinan Xu val interrupt_safe = Input(Bool()) 1816474c47fSYinan Xu val blockCommit = Input(Bool()) 1829aca92b9SYinan Xu // output: the CommitWidth deqPtr 1839aca92b9SYinan Xu val out = Vec(CommitWidth, Output(new RobPtr)) 1849aca92b9SYinan Xu val next_out = Vec(CommitWidth, Output(new RobPtr)) 1859aca92b9SYinan Xu }) 1869aca92b9SYinan Xu 1879aca92b9SYinan Xu val deqPtrVec = RegInit(VecInit((0 until CommitWidth).map(_.U.asTypeOf(new RobPtr)))) 1889aca92b9SYinan Xu 1899aca92b9SYinan Xu // for exceptions (flushPipe included) and interrupts: 1909aca92b9SYinan Xu // only consider the first instruction 1915c95ea2eSYinan Xu val intrEnable = io.intrBitSetReg && !io.hasNoSpecExec && io.interrupt_safe 192983f3e23SYinan Xu val exceptionEnable = io.deq_w(0) && io.exception_state.valid && io.exception_state.bits.not_commit && io.exception_state.bits.robIdx === deqPtrVec(0) 1939aca92b9SYinan Xu val redirectOutValid = io.state === 0.U && io.deq_v(0) && (intrEnable || exceptionEnable) 1949aca92b9SYinan Xu 1959aca92b9SYinan Xu // for normal commits: only to consider when there're no exceptions 1969aca92b9SYinan Xu // we don't need to consider whether the first instruction has exceptions since it wil trigger exceptions. 1979aca92b9SYinan Xu val commit_exception = io.exception_state.valid && !isAfter(io.exception_state.bits.robIdx, deqPtrVec.last) 1986474c47fSYinan Xu val canCommit = VecInit((0 until CommitWidth).map(i => io.deq_v(i) && io.deq_w(i))) 1999aca92b9SYinan Xu val normalCommitCnt = PriorityEncoder(canCommit.map(c => !c) :+ true.B) 200f4b2089aSYinan Xu // when io.intrBitSetReg or there're possible exceptions in these instructions, 201f4b2089aSYinan Xu // only one instruction is allowed to commit 2029aca92b9SYinan Xu val allowOnlyOne = commit_exception || io.intrBitSetReg 2039aca92b9SYinan Xu val commitCnt = Mux(allowOnlyOne, canCommit(0), normalCommitCnt) 2049aca92b9SYinan Xu 2059aca92b9SYinan Xu val commitDeqPtrVec = VecInit(deqPtrVec.map(_ + commitCnt)) 2066474c47fSYinan Xu val deqPtrVec_next = Mux(io.state === 0.U && !redirectOutValid && !io.blockCommit, commitDeqPtrVec, deqPtrVec) 2079aca92b9SYinan Xu 2089aca92b9SYinan Xu deqPtrVec := deqPtrVec_next 2099aca92b9SYinan Xu 2109aca92b9SYinan Xu io.next_out := deqPtrVec_next 2119aca92b9SYinan Xu io.out := deqPtrVec 2129aca92b9SYinan Xu 2139aca92b9SYinan Xu when (io.state === 0.U) { 2149aca92b9SYinan Xu XSInfo(io.state === 0.U && commitCnt > 0.U, "retired %d insts\n", commitCnt) 2159aca92b9SYinan Xu } 2169aca92b9SYinan Xu 2179aca92b9SYinan Xu} 2189aca92b9SYinan Xu 2199aca92b9SYinan Xuclass RobEnqPtrWrapper(implicit p: Parameters) extends XSModule with HasCircularQueuePtrHelper { 2209aca92b9SYinan Xu val io = IO(new Bundle { 2219aca92b9SYinan Xu // for input redirect 2229aca92b9SYinan Xu val redirect = Input(Valid(new Redirect)) 2239aca92b9SYinan Xu // for enqueue 2249aca92b9SYinan Xu val allowEnqueue = Input(Bool()) 2259aca92b9SYinan Xu val hasBlockBackward = Input(Bool()) 2269aca92b9SYinan Xu val enq = Vec(RenameWidth, Input(Bool())) 2276474c47fSYinan Xu val out = Output(Vec(RenameWidth, new RobPtr)) 2289aca92b9SYinan Xu }) 2299aca92b9SYinan Xu 2306474c47fSYinan Xu val enqPtrVec = RegInit(VecInit.tabulate(RenameWidth)(_.U.asTypeOf(new RobPtr))) 2319aca92b9SYinan Xu 2329aca92b9SYinan Xu // enqueue 2339aca92b9SYinan Xu val canAccept = io.allowEnqueue && !io.hasBlockBackward 234f4b2089aSYinan Xu val dispatchNum = Mux(canAccept, PopCount(io.enq), 0.U) 2359aca92b9SYinan Xu 2366474c47fSYinan Xu for ((ptr, i) <- enqPtrVec.zipWithIndex) { 237f4b2089aSYinan Xu when(io.redirect.valid) { 2386474c47fSYinan Xu ptr := Mux(io.redirect.bits.flushItself(), io.redirect.bits.robIdx + i.U, io.redirect.bits.robIdx + (i + 1).U) 2399aca92b9SYinan Xu }.otherwise { 2406474c47fSYinan Xu ptr := ptr + dispatchNum 2416474c47fSYinan Xu } 2429aca92b9SYinan Xu } 2439aca92b9SYinan Xu 2446474c47fSYinan Xu io.out := enqPtrVec 2459aca92b9SYinan Xu 2469aca92b9SYinan Xu} 2479aca92b9SYinan Xu 2489aca92b9SYinan Xuclass RobExceptionInfo(implicit p: Parameters) extends XSBundle { 2499aca92b9SYinan Xu // val valid = Bool() 2509aca92b9SYinan Xu val robIdx = new RobPtr 2519aca92b9SYinan Xu val exceptionVec = ExceptionVec() 2529aca92b9SYinan Xu val flushPipe = Bool() 2539aca92b9SYinan Xu val replayInst = Bool() // redirect to that inst itself 25484e47f35SLi Qianruo val singleStep = Bool() // TODO add frontend hit beneath 255c3abb8b6SYinan Xu val crossPageIPFFix = Bool() 25672951335SLi Qianruo val trigger = new TriggerCf 2579aca92b9SYinan Xu 25884e47f35SLi Qianruo// def trigger_before = !trigger.getTimingBackend && trigger.getHitBackend 25984e47f35SLi Qianruo// def trigger_after = trigger.getTimingBackend && trigger.getHitBackend 260ddb65c47SLi Qianruo def has_exception = exceptionVec.asUInt.orR || flushPipe || singleStep || replayInst || trigger.hit 261983f3e23SYinan Xu def not_commit = exceptionVec.asUInt.orR || singleStep || replayInst || trigger.hit 2629aca92b9SYinan Xu // only exceptions are allowed to writeback when enqueue 263ddb65c47SLi Qianruo def can_writeback = exceptionVec.asUInt.orR || singleStep || trigger.hit 2649aca92b9SYinan Xu} 2659aca92b9SYinan Xu 2669aca92b9SYinan Xuclass ExceptionGen(implicit p: Parameters) extends XSModule with HasCircularQueuePtrHelper { 2679aca92b9SYinan Xu val io = IO(new Bundle { 2689aca92b9SYinan Xu val redirect = Input(Valid(new Redirect)) 2699aca92b9SYinan Xu val flush = Input(Bool()) 2709aca92b9SYinan Xu val enq = Vec(RenameWidth, Flipped(ValidIO(new RobExceptionInfo))) 27146f74b57SHaojin Tang val wb = Vec(1 + LoadPipelineWidth + StorePipelineWidth, Flipped(ValidIO(new RobExceptionInfo))) 2729aca92b9SYinan Xu val out = ValidIO(new RobExceptionInfo) 2739aca92b9SYinan Xu val state = ValidIO(new RobExceptionInfo) 2749aca92b9SYinan Xu }) 2759aca92b9SYinan Xu 27646f74b57SHaojin Tang def getOldest(valid: Seq[Bool], bits: Seq[RobExceptionInfo]): (Seq[Bool], Seq[RobExceptionInfo]) = { 27746f74b57SHaojin Tang assert(valid.length == bits.length) 27846f74b57SHaojin Tang assert(isPow2(valid.length)) 27946f74b57SHaojin Tang if (valid.length == 1) { 28046f74b57SHaojin Tang (valid, bits) 28146f74b57SHaojin Tang } else if (valid.length == 2) { 28246f74b57SHaojin Tang val res = Seq.fill(2)(Wire(ValidIO(chiselTypeOf(bits(0))))) 28346f74b57SHaojin Tang for (i <- res.indices) { 28446f74b57SHaojin Tang res(i).valid := valid(i) 28546f74b57SHaojin Tang res(i).bits := bits(i) 28646f74b57SHaojin Tang } 28746f74b57SHaojin Tang val oldest = Mux(!valid(1) || valid(0) && isAfter(bits(1).robIdx, bits(0).robIdx), res(0), res(1)) 28846f74b57SHaojin Tang (Seq(oldest.valid), Seq(oldest.bits)) 28946f74b57SHaojin Tang } else { 29046f74b57SHaojin Tang val left = getOldest(valid.take(valid.length / 2), bits.take(valid.length / 2)) 29146f74b57SHaojin Tang val right = getOldest(valid.takeRight(valid.length / 2), bits.takeRight(valid.length / 2)) 29246f74b57SHaojin Tang getOldest(left._1 ++ right._1, left._2 ++ right._2) 29346f74b57SHaojin Tang } 29446f74b57SHaojin Tang } 29546f74b57SHaojin Tang 29667ba96b4SYinan Xu val currentValid = RegInit(false.B) 29767ba96b4SYinan Xu val current = Reg(new RobExceptionInfo) 2989aca92b9SYinan Xu 2999aca92b9SYinan Xu // orR the exceptionVec 3009aca92b9SYinan Xu val lastCycleFlush = RegNext(io.flush) 3019aca92b9SYinan Xu val in_enq_valid = VecInit(io.enq.map(e => e.valid && e.bits.has_exception && !lastCycleFlush)) 3029aca92b9SYinan Xu val in_wb_valid = io.wb.map(w => w.valid && w.bits.has_exception && !lastCycleFlush) 3039aca92b9SYinan Xu 30446f74b57SHaojin Tang // s0: compare wb(1)~wb(LoadPipelineWidth) and wb(1 + LoadPipelineWidth)~wb(LoadPipelineWidth + StorePipelineWidth) 305f4b2089aSYinan Xu val wb_valid = in_wb_valid.zip(io.wb.map(_.bits)).map{ case (v, bits) => v && !(bits.robIdx.needFlush(io.redirect) || io.flush) } 3069aca92b9SYinan Xu val csr_wb_bits = io.wb(0).bits 30746f74b57SHaojin Tang val load_wb_bits = getOldest(in_wb_valid.slice(1, 1 + LoadPipelineWidth), io.wb.map(_.bits).slice(1, 1 + LoadPipelineWidth))._2(0) 30846f74b57SHaojin Tang val store_wb_bits = getOldest(in_wb_valid.slice(1 + LoadPipelineWidth, 1 + LoadPipelineWidth + StorePipelineWidth), io.wb.map(_.bits).slice(1 + LoadPipelineWidth, 1 + LoadPipelineWidth + StorePipelineWidth))._2(0) 30946f74b57SHaojin Tang val s0_out_valid = RegNext(VecInit(Seq(wb_valid(0), wb_valid.slice(1, 1 + LoadPipelineWidth).reduce(_ || _), wb_valid.slice(1 + LoadPipelineWidth, 1 + LoadPipelineWidth + StorePipelineWidth).reduce(_ || _)))) 3109aca92b9SYinan Xu val s0_out_bits = RegNext(VecInit(Seq(csr_wb_bits, load_wb_bits, store_wb_bits))) 3119aca92b9SYinan Xu 3129aca92b9SYinan Xu // s1: compare last four and current flush 313f4b2089aSYinan Xu val s1_valid = VecInit(s0_out_valid.zip(s0_out_bits).map{ case (v, b) => v && !(b.robIdx.needFlush(io.redirect) || io.flush) }) 3149aca92b9SYinan Xu val compare_01_valid = s0_out_valid(0) || s0_out_valid(1) 3159aca92b9SYinan Xu val compare_01_bits = Mux(!s0_out_valid(0) || s0_out_valid(1) && isAfter(s0_out_bits(0).robIdx, s0_out_bits(1).robIdx), s0_out_bits(1), s0_out_bits(0)) 3169aca92b9SYinan Xu val compare_bits = Mux(!s0_out_valid(2) || compare_01_valid && isAfter(s0_out_bits(2).robIdx, compare_01_bits.robIdx), compare_01_bits, s0_out_bits(2)) 3179aca92b9SYinan Xu val s1_out_bits = RegNext(compare_bits) 3189aca92b9SYinan Xu val s1_out_valid = RegNext(s1_valid.asUInt.orR) 3199aca92b9SYinan Xu 3209aca92b9SYinan Xu val enq_valid = RegNext(in_enq_valid.asUInt.orR && !io.redirect.valid && !io.flush) 3219aca92b9SYinan Xu val enq_bits = RegNext(ParallelPriorityMux(in_enq_valid, io.enq.map(_.bits))) 3229aca92b9SYinan Xu 3239aca92b9SYinan Xu // s2: compare the input exception with the current one 3249aca92b9SYinan Xu // priorities: 3259aca92b9SYinan Xu // (1) system reset 3269aca92b9SYinan Xu // (2) current is valid: flush, remain, merge, update 3279aca92b9SYinan Xu // (3) current is not valid: s1 or enq 32867ba96b4SYinan Xu val current_flush = current.robIdx.needFlush(io.redirect) || io.flush 329f4b2089aSYinan Xu val s1_flush = s1_out_bits.robIdx.needFlush(io.redirect) || io.flush 33067ba96b4SYinan Xu when (currentValid) { 3319aca92b9SYinan Xu when (current_flush) { 33267ba96b4SYinan Xu currentValid := Mux(s1_flush, false.B, s1_out_valid) 3339aca92b9SYinan Xu } 3349aca92b9SYinan Xu when (s1_out_valid && !s1_flush) { 33567ba96b4SYinan Xu when (isAfter(current.robIdx, s1_out_bits.robIdx)) { 33667ba96b4SYinan Xu current := s1_out_bits 33767ba96b4SYinan Xu }.elsewhen (current.robIdx === s1_out_bits.robIdx) { 33867ba96b4SYinan Xu current.exceptionVec := (s1_out_bits.exceptionVec.asUInt | current.exceptionVec.asUInt).asTypeOf(ExceptionVec()) 33967ba96b4SYinan Xu current.flushPipe := s1_out_bits.flushPipe || current.flushPipe 34067ba96b4SYinan Xu current.replayInst := s1_out_bits.replayInst || current.replayInst 34167ba96b4SYinan Xu current.singleStep := s1_out_bits.singleStep || current.singleStep 34267ba96b4SYinan Xu current.trigger := (s1_out_bits.trigger.asUInt | current.trigger.asUInt).asTypeOf(new TriggerCf) 3439aca92b9SYinan Xu } 3449aca92b9SYinan Xu } 3459aca92b9SYinan Xu }.elsewhen (s1_out_valid && !s1_flush) { 34667ba96b4SYinan Xu currentValid := true.B 34767ba96b4SYinan Xu current := s1_out_bits 3489aca92b9SYinan Xu }.elsewhen (enq_valid && !(io.redirect.valid || io.flush)) { 34967ba96b4SYinan Xu currentValid := true.B 35067ba96b4SYinan Xu current := enq_bits 3519aca92b9SYinan Xu } 3529aca92b9SYinan Xu 3539aca92b9SYinan Xu io.out.valid := s1_out_valid || enq_valid && enq_bits.can_writeback 3549aca92b9SYinan Xu io.out.bits := Mux(s1_out_valid, s1_out_bits, enq_bits) 35567ba96b4SYinan Xu io.state.valid := currentValid 35667ba96b4SYinan Xu io.state.bits := current 3579aca92b9SYinan Xu 3589aca92b9SYinan Xu} 3599aca92b9SYinan Xu 3609aca92b9SYinan Xuclass RobFlushInfo(implicit p: Parameters) extends XSBundle { 3619aca92b9SYinan Xu val ftqIdx = new FtqPtr 362f4b2089aSYinan Xu val robIdx = new RobPtr 3639aca92b9SYinan Xu val ftqOffset = UInt(log2Up(PredictWidth).W) 3649aca92b9SYinan Xu val replayInst = Bool() 3659aca92b9SYinan Xu} 3669aca92b9SYinan Xu 3676ab6918fSYinan Xuclass Rob(implicit p: Parameters) extends LazyModule with HasWritebackSink with HasXSParameter { 3686ab6918fSYinan Xu 3696ab6918fSYinan Xu lazy val module = new RobImp(this) 3706ab6918fSYinan Xu 3716ab6918fSYinan Xu override def generateWritebackIO( 3726ab6918fSYinan Xu thisMod: Option[HasWritebackSource] = None, 3736ab6918fSYinan Xu thisModImp: Option[HasWritebackSourceImp] = None 3746ab6918fSYinan Xu ): Unit = { 3756ab6918fSYinan Xu val sources = writebackSinksImp(thisMod, thisModImp) 3766ab6918fSYinan Xu module.io.writeback.zip(sources).foreach(x => x._1 := x._2) 3776ab6918fSYinan Xu } 3786ab6918fSYinan Xu} 3796ab6918fSYinan Xu 3806ab6918fSYinan Xuclass RobImp(outer: Rob)(implicit p: Parameters) extends LazyModuleImp(outer) 3811ca0e4f3SYinan Xu with HasXSParameter with HasCircularQueuePtrHelper with HasPerfEvents { 3826ab6918fSYinan Xu val wbExuConfigs = outer.writebackSinksParams.map(_.exuConfigs) 3836ab6918fSYinan Xu val numWbPorts = wbExuConfigs.map(_.length) 3846ab6918fSYinan Xu 3859aca92b9SYinan Xu val io = IO(new Bundle() { 3865668a921SJiawei Lin val hartId = Input(UInt(8.W)) 3879aca92b9SYinan Xu val redirect = Input(Valid(new Redirect)) 3889aca92b9SYinan Xu val enq = new RobEnqIO 389f4b2089aSYinan Xu val flushOut = ValidIO(new Redirect) 3909aca92b9SYinan Xu val exception = ValidIO(new ExceptionInfo) 3919aca92b9SYinan Xu // exu + brq 3926ab6918fSYinan Xu val writeback = MixedVec(numWbPorts.map(num => Vec(num, Flipped(ValidIO(new ExuOutput))))) 393ccfddc82SHaojin Tang val commits = Output(new RobCommitIO) 3949aca92b9SYinan Xu val lsq = new RobLsqIO 3959aca92b9SYinan Xu val robDeqPtr = Output(new RobPtr) 3969aca92b9SYinan Xu val csr = new RobCSRIO 3979aca92b9SYinan Xu val robFull = Output(Bool()) 398b6900d94SYinan Xu val cpu_halt = Output(Bool()) 39909309bdbSYinan Xu val wfi_enable = Input(Bool()) 400*8744445eSMaxpicca-Li val debug_ls = Flipped(new DebugLSIO) 4019aca92b9SYinan Xu }) 4029aca92b9SYinan Xu 4036ab6918fSYinan Xu def selectWb(index: Int, func: Seq[ExuConfig] => Boolean): Seq[(Seq[ExuConfig], ValidIO[ExuOutput])] = { 4046ab6918fSYinan Xu wbExuConfigs(index).zip(io.writeback(index)).filter(x => func(x._1)) 4056ab6918fSYinan Xu } 4066ab6918fSYinan Xu val exeWbSel = outer.selWritebackSinks(_.exuConfigs.length) 4076ab6918fSYinan Xu val fflagsWbSel = outer.selWritebackSinks(_.exuConfigs.count(_.exists(_.writeFflags))) 4086ab6918fSYinan Xu val fflagsPorts = selectWb(fflagsWbSel, _.exists(_.writeFflags)) 4096ab6918fSYinan Xu val exceptionWbSel = outer.selWritebackSinks(_.exuConfigs.count(_.exists(_.needExceptionGen))) 4106ab6918fSYinan Xu val exceptionPorts = selectWb(fflagsWbSel, _.exists(_.needExceptionGen)) 4116ab6918fSYinan Xu val exuWbPorts = selectWb(exeWbSel, _.forall(_ != StdExeUnitCfg)) 4126ab6918fSYinan Xu val stdWbPorts = selectWb(exeWbSel, _.contains(StdExeUnitCfg)) 4136ab6918fSYinan Xu println(s"Rob: size $RobSize, numWbPorts: $numWbPorts, commitwidth: $CommitWidth") 4146ab6918fSYinan Xu println(s"exuPorts: ${exuWbPorts.map(_._1.map(_.name))}") 4156ab6918fSYinan Xu println(s"stdPorts: ${stdWbPorts.map(_._1.map(_.name))}") 4166ab6918fSYinan Xu println(s"fflags: ${fflagsPorts.map(_._1.map(_.name))}") 4176ab6918fSYinan Xu 4186ab6918fSYinan Xu 4196ab6918fSYinan Xu val exuWriteback = exuWbPorts.map(_._2) 4206ab6918fSYinan Xu val stdWriteback = stdWbPorts.map(_._2) 4219aca92b9SYinan Xu 4229aca92b9SYinan Xu // instvalid field 42343bdc4d9SYinan Xu val valid = RegInit(VecInit(Seq.fill(RobSize)(false.B))) 4249aca92b9SYinan Xu // writeback status 4259aca92b9SYinan Xu val writebacked = Mem(RobSize, Bool()) 4269aca92b9SYinan Xu val store_data_writebacked = Mem(RobSize, Bool()) 4279aca92b9SYinan Xu // data for redirect, exception, etc. 4289aca92b9SYinan Xu val flagBkup = Mem(RobSize, Bool()) 429e8009193SYinan Xu // some instructions are not allowed to trigger interrupts 430e8009193SYinan Xu // They have side effects on the states of the processor before they write back 431e8009193SYinan Xu val interrupt_safe = Mem(RobSize, Bool()) 4329aca92b9SYinan Xu 4339aca92b9SYinan Xu // data for debug 4349aca92b9SYinan Xu // Warn: debug_* prefix should not exist in generated verilog. 4359aca92b9SYinan Xu val debug_microOp = Mem(RobSize, new MicroOp) 4369aca92b9SYinan Xu val debug_exuData = Reg(Vec(RobSize, UInt(XLEN.W)))//for debug 4379aca92b9SYinan Xu val debug_exuDebug = Reg(Vec(RobSize, new DebugBundle))//for debug 438*8744445eSMaxpicca-Li val debug_lsInfo = RegInit(VecInit(Seq.fill(RobSize)(DebugLsInfo.init))) 4399aca92b9SYinan Xu 4409aca92b9SYinan Xu // pointers 4419aca92b9SYinan Xu // For enqueue ptr, we don't duplicate it since only enqueue needs it. 4426474c47fSYinan Xu val enqPtrVec = Wire(Vec(RenameWidth, new RobPtr)) 4439aca92b9SYinan Xu val deqPtrVec = Wire(Vec(CommitWidth, new RobPtr)) 4449aca92b9SYinan Xu 4459aca92b9SYinan Xu val walkPtrVec = Reg(Vec(CommitWidth, new RobPtr)) 4469aca92b9SYinan Xu val allowEnqueue = RegInit(true.B) 4479aca92b9SYinan Xu 4486474c47fSYinan Xu val enqPtr = enqPtrVec.head 4499aca92b9SYinan Xu val deqPtr = deqPtrVec(0) 4509aca92b9SYinan Xu val walkPtr = walkPtrVec(0) 4519aca92b9SYinan Xu 4529aca92b9SYinan Xu val isEmpty = enqPtr === deqPtr 4539aca92b9SYinan Xu val isReplaying = io.redirect.valid && RedirectLevel.flushItself(io.redirect.bits.level) 4549aca92b9SYinan Xu 4559aca92b9SYinan Xu /** 4569aca92b9SYinan Xu * states of Rob 4579aca92b9SYinan Xu */ 458ccfddc82SHaojin Tang val s_idle :: s_walk :: Nil = Enum(2) 4599aca92b9SYinan Xu val state = RegInit(s_idle) 4609aca92b9SYinan Xu 4619aca92b9SYinan Xu /** 4629aca92b9SYinan Xu * Data Modules 4639aca92b9SYinan Xu * 4649aca92b9SYinan Xu * CommitDataModule: data from dispatch 4659aca92b9SYinan Xu * (1) read: commits/walk/exception 4669aca92b9SYinan Xu * (2) write: enqueue 4679aca92b9SYinan Xu * 4689aca92b9SYinan Xu * WritebackData: data from writeback 4699aca92b9SYinan Xu * (1) read: commits/walk/exception 4709aca92b9SYinan Xu * (2) write: write back from exe units 4719aca92b9SYinan Xu */ 4729aca92b9SYinan Xu val dispatchData = Module(new SyncDataModuleTemplate(new RobDispatchData, RobSize, CommitWidth, RenameWidth)) 4739aca92b9SYinan Xu val dispatchDataRead = dispatchData.io.rdata 4749aca92b9SYinan Xu 4759aca92b9SYinan Xu val exceptionGen = Module(new ExceptionGen) 4769aca92b9SYinan Xu val exceptionDataRead = exceptionGen.io.state 4779aca92b9SYinan Xu val fflagsDataRead = Wire(Vec(CommitWidth, UInt(5.W))) 4789aca92b9SYinan Xu 4799aca92b9SYinan Xu io.robDeqPtr := deqPtr 4809aca92b9SYinan Xu 4819aca92b9SYinan Xu /** 4829aca92b9SYinan Xu * Enqueue (from dispatch) 4839aca92b9SYinan Xu */ 4849aca92b9SYinan Xu // special cases 4859aca92b9SYinan Xu val hasBlockBackward = RegInit(false.B) 4869aca92b9SYinan Xu val hasNoSpecExec = RegInit(false.B) 487af2f7849Shappy-lx val doingSvinval = RegInit(false.B) 4889aca92b9SYinan Xu // When blockBackward instruction leaves Rob (commit or walk), hasBlockBackward should be set to false.B 4899aca92b9SYinan Xu // To reduce registers usage, for hasBlockBackward cases, we allow enqueue after ROB is empty. 4909aca92b9SYinan Xu when (isEmpty) { hasBlockBackward:= false.B } 4919aca92b9SYinan Xu // When any instruction commits, hasNoSpecExec should be set to false.B 492ccfddc82SHaojin Tang when (io.commits.hasWalkInstr || io.commits.hasCommitInstr) { hasNoSpecExec:= false.B } 4935c95ea2eSYinan Xu 4945c95ea2eSYinan Xu // The wait-for-interrupt (WFI) instruction waits in the ROB until an interrupt might need servicing. 4955c95ea2eSYinan Xu // io.csr.wfiEvent will be asserted if the WFI can resume execution, and we change the state to s_wfi_idle. 4965c95ea2eSYinan Xu // It does not affect how interrupts are serviced. Note that WFI is noSpecExec and it does not trigger interrupts. 4975c95ea2eSYinan Xu val hasWFI = RegInit(false.B) 4985c95ea2eSYinan Xu io.cpu_halt := hasWFI 499342656a5SYinan Xu // WFI Timeout: 2^20 = 1M cycles 500342656a5SYinan Xu val wfi_cycles = RegInit(0.U(20.W)) 501342656a5SYinan Xu when (hasWFI) { 502342656a5SYinan Xu wfi_cycles := wfi_cycles + 1.U 503342656a5SYinan Xu }.elsewhen (!hasWFI && RegNext(hasWFI)) { 504342656a5SYinan Xu wfi_cycles := 0.U 505342656a5SYinan Xu } 506342656a5SYinan Xu val wfi_timeout = wfi_cycles.andR 507342656a5SYinan Xu when (RegNext(RegNext(io.csr.wfiEvent)) || io.flushOut.valid || wfi_timeout) { 5085c95ea2eSYinan Xu hasWFI := false.B 509b6900d94SYinan Xu } 5109aca92b9SYinan Xu 5116474c47fSYinan Xu val allocatePtrVec = VecInit((0 until RenameWidth).map(i => enqPtrVec(PopCount(io.enq.needAlloc.take(i))))) 5129aca92b9SYinan Xu io.enq.canAccept := allowEnqueue && !hasBlockBackward 5136474c47fSYinan Xu io.enq.resp := allocatePtrVec 5149aca92b9SYinan Xu val canEnqueue = VecInit(io.enq.req.map(_.valid && io.enq.canAccept)) 5159aca92b9SYinan Xu val timer = GTimer() 5169aca92b9SYinan Xu for (i <- 0 until RenameWidth) { 5179aca92b9SYinan Xu // we don't check whether io.redirect is valid here since redirect has higher priority 5189aca92b9SYinan Xu when (canEnqueue(i)) { 5196ab6918fSYinan Xu val enqUop = io.enq.req(i).bits 5206474c47fSYinan Xu val enqIndex = allocatePtrVec(i).value 5219aca92b9SYinan Xu // store uop in data module and debug_microOp Vec 5226474c47fSYinan Xu debug_microOp(enqIndex) := enqUop 5236474c47fSYinan Xu debug_microOp(enqIndex).debugInfo.dispatchTime := timer 5246474c47fSYinan Xu debug_microOp(enqIndex).debugInfo.enqRsTime := timer 5256474c47fSYinan Xu debug_microOp(enqIndex).debugInfo.selectTime := timer 5266474c47fSYinan Xu debug_microOp(enqIndex).debugInfo.issueTime := timer 5276474c47fSYinan Xu debug_microOp(enqIndex).debugInfo.writebackTime := timer 528*8744445eSMaxpicca-Li debug_microOp(enqIndex).debugInfo.tlbFirstReqTime := timer 529*8744445eSMaxpicca-Li debug_microOp(enqIndex).debugInfo.tlbRespTime := timer 530*8744445eSMaxpicca-Li debug_lsInfo(enqIndex) := DebugLsInfo.init 5316ab6918fSYinan Xu when (enqUop.ctrl.blockBackward) { 5329aca92b9SYinan Xu hasBlockBackward := true.B 5339aca92b9SYinan Xu } 5346ab6918fSYinan Xu when (enqUop.ctrl.noSpecExec) { 5359aca92b9SYinan Xu hasNoSpecExec := true.B 5369aca92b9SYinan Xu } 537d2df63c3SYinan Xu val enqHasTriggerHit = io.enq.req(i).bits.cf.trigger.getHitFrontend 5386ab6918fSYinan Xu val enqHasException = ExceptionNO.selectFrontend(enqUop.cf.exceptionVec).asUInt.orR 539af2f7849Shappy-lx // the begin instruction of Svinval enqs so mark doingSvinval as true to indicate this process 540d2df63c3SYinan Xu when(!enqHasTriggerHit && !enqHasException && FuType.isSvinvalBegin(enqUop.ctrl.fuType, enqUop.ctrl.fuOpType, enqUop.ctrl.flushPipe)) 541af2f7849Shappy-lx { 542af2f7849Shappy-lx doingSvinval := true.B 543af2f7849Shappy-lx } 544af2f7849Shappy-lx // the end instruction of Svinval enqs so clear doingSvinval 545d2df63c3SYinan Xu when(!enqHasTriggerHit && !enqHasException && FuType.isSvinvalEnd(enqUop.ctrl.fuType, enqUop.ctrl.fuOpType, enqUop.ctrl.flushPipe)) 546af2f7849Shappy-lx { 547af2f7849Shappy-lx doingSvinval := false.B 548af2f7849Shappy-lx } 549af2f7849Shappy-lx // when we are in the process of Svinval software code area , only Svinval.vma and end instruction of Svinval can appear 5506ab6918fSYinan Xu assert(!doingSvinval || (FuType.isSvinval(enqUop.ctrl.fuType, enqUop.ctrl.fuOpType, enqUop.ctrl.flushPipe) || 5516ab6918fSYinan Xu FuType.isSvinvalEnd(enqUop.ctrl.fuType, enqUop.ctrl.fuOpType, enqUop.ctrl.flushPipe))) 552d2df63c3SYinan Xu when (enqUop.ctrl.isWFI && !enqHasException && !enqHasTriggerHit) { 5535c95ea2eSYinan Xu hasWFI := true.B 554b6900d94SYinan Xu } 5559aca92b9SYinan Xu } 5569aca92b9SYinan Xu } 55775b25016SYinan Xu val dispatchNum = Mux(io.enq.canAccept, PopCount(io.enq.req.map(_.valid)), 0.U) 55875b25016SYinan Xu io.enq.isEmpty := RegNext(isEmpty && !VecInit(io.enq.req.map(_.valid)).asUInt.orR) 5599aca92b9SYinan Xu 56009309bdbSYinan Xu when (!io.wfi_enable) { 56109309bdbSYinan Xu hasWFI := false.B 56209309bdbSYinan Xu } 56309309bdbSYinan Xu 5649aca92b9SYinan Xu /** 5659aca92b9SYinan Xu * Writeback (from execution units) 5669aca92b9SYinan Xu */ 5676ab6918fSYinan Xu for (wb <- exuWriteback) { 5686ab6918fSYinan Xu when (wb.valid) { 5696ab6918fSYinan Xu val wbIdx = wb.bits.uop.robIdx.value 5706ab6918fSYinan Xu debug_exuData(wbIdx) := wb.bits.data 5716ab6918fSYinan Xu debug_exuDebug(wbIdx) := wb.bits.debug 5726ab6918fSYinan Xu debug_microOp(wbIdx).debugInfo.enqRsTime := wb.bits.uop.debugInfo.enqRsTime 5736ab6918fSYinan Xu debug_microOp(wbIdx).debugInfo.selectTime := wb.bits.uop.debugInfo.selectTime 5746ab6918fSYinan Xu debug_microOp(wbIdx).debugInfo.issueTime := wb.bits.uop.debugInfo.issueTime 5756ab6918fSYinan Xu debug_microOp(wbIdx).debugInfo.writebackTime := wb.bits.uop.debugInfo.writebackTime 576*8744445eSMaxpicca-Li debug_microOp(wbIdx).debugInfo.tlbFirstReqTime := wb.bits.uop.debugInfo.tlbFirstReqTime 577*8744445eSMaxpicca-Li debug_microOp(wbIdx).debugInfo.tlbRespTime := wb.bits.uop.debugInfo.tlbRespTime 5789aca92b9SYinan Xu 579b211808bShappy-lx // debug for lqidx and sqidx 580b211808bShappy-lx debug_microOp(wbIdx).lqIdx := wb.bits.uop.lqIdx 581b211808bShappy-lx debug_microOp(wbIdx).sqIdx := wb.bits.uop.sqIdx 582b211808bShappy-lx 5839aca92b9SYinan Xu val debug_Uop = debug_microOp(wbIdx) 5849aca92b9SYinan Xu XSInfo(true.B, 5859aca92b9SYinan Xu p"writebacked pc 0x${Hexadecimal(debug_Uop.cf.pc)} wen ${debug_Uop.ctrl.rfWen} " + 5866ab6918fSYinan Xu p"data 0x${Hexadecimal(wb.bits.data)} ldst ${debug_Uop.ctrl.ldest} pdst ${debug_Uop.pdest} " + 5876ab6918fSYinan Xu p"skip ${wb.bits.debug.isMMIO} robIdx: ${wb.bits.uop.robIdx}\n" 5889aca92b9SYinan Xu ) 5899aca92b9SYinan Xu } 5909aca92b9SYinan Xu } 5916ab6918fSYinan Xu val writebackNum = PopCount(exuWriteback.map(_.valid)) 5929aca92b9SYinan Xu XSInfo(writebackNum =/= 0.U, "writebacked %d insts\n", writebackNum) 5939aca92b9SYinan Xu 5949aca92b9SYinan Xu 5959aca92b9SYinan Xu /** 5969aca92b9SYinan Xu * RedirectOut: Interrupt and Exceptions 5979aca92b9SYinan Xu */ 5989aca92b9SYinan Xu val deqDispatchData = dispatchDataRead(0) 5999aca92b9SYinan Xu val debug_deqUop = debug_microOp(deqPtr.value) 6009aca92b9SYinan Xu 6019aca92b9SYinan Xu val intrBitSetReg = RegNext(io.csr.intrBitSet) 6025c95ea2eSYinan Xu val intrEnable = intrBitSetReg && !hasNoSpecExec && interrupt_safe(deqPtr.value) 6039aca92b9SYinan Xu val deqHasExceptionOrFlush = exceptionDataRead.valid && exceptionDataRead.bits.robIdx === deqPtr 60484e47f35SLi Qianruo val deqHasException = deqHasExceptionOrFlush && (exceptionDataRead.bits.exceptionVec.asUInt.orR || 605ddb65c47SLi Qianruo exceptionDataRead.bits.singleStep || exceptionDataRead.bits.trigger.hit) 6069aca92b9SYinan Xu val deqHasFlushPipe = deqHasExceptionOrFlush && exceptionDataRead.bits.flushPipe 6079aca92b9SYinan Xu val deqHasReplayInst = deqHasExceptionOrFlush && exceptionDataRead.bits.replayInst 60884e47f35SLi Qianruo val exceptionEnable = writebacked(deqPtr.value) && deqHasException 60972951335SLi Qianruo 61084e47f35SLi Qianruo XSDebug(deqHasException && exceptionDataRead.bits.singleStep, "Debug Mode: Deq has singlestep exception\n") 611ddb65c47SLi Qianruo XSDebug(deqHasException && exceptionDataRead.bits.trigger.getHitFrontend, "Debug Mode: Deq has frontend trigger exception\n") 61284e47f35SLi Qianruo XSDebug(deqHasException && exceptionDataRead.bits.trigger.getHitBackend, "Debug Mode: Deq has backend trigger exception\n") 61384e47f35SLi Qianruo 61484e47f35SLi Qianruo val isFlushPipe = writebacked(deqPtr.value) && (deqHasFlushPipe || deqHasReplayInst) 6159aca92b9SYinan Xu 616f4b2089aSYinan Xu // io.flushOut will trigger redirect at the next cycle. 617f4b2089aSYinan Xu // Block any redirect or commit at the next cycle. 618f4b2089aSYinan Xu val lastCycleFlush = RegNext(io.flushOut.valid) 619f4b2089aSYinan Xu 620f4b2089aSYinan Xu io.flushOut.valid := (state === s_idle) && valid(deqPtr.value) && (intrEnable || exceptionEnable || isFlushPipe) && !lastCycleFlush 621f4b2089aSYinan Xu io.flushOut.bits := DontCare 622f4b2089aSYinan Xu io.flushOut.bits.robIdx := deqPtr 6239aca92b9SYinan Xu io.flushOut.bits.ftqIdx := deqDispatchData.ftqIdx 6249aca92b9SYinan Xu io.flushOut.bits.ftqOffset := deqDispatchData.ftqOffset 62584e47f35SLi Qianruo io.flushOut.bits.level := Mux(deqHasReplayInst || intrEnable || exceptionEnable, RedirectLevel.flush, RedirectLevel.flushAfter) // TODO use this to implement "exception next" 626f4b2089aSYinan Xu io.flushOut.bits.interrupt := true.B 6279aca92b9SYinan Xu XSPerfAccumulate("interrupt_num", io.flushOut.valid && intrEnable) 6289aca92b9SYinan Xu XSPerfAccumulate("exception_num", io.flushOut.valid && exceptionEnable) 6299aca92b9SYinan Xu XSPerfAccumulate("flush_pipe_num", io.flushOut.valid && isFlushPipe) 6309aca92b9SYinan Xu XSPerfAccumulate("replay_inst_num", io.flushOut.valid && isFlushPipe && deqHasReplayInst) 6319aca92b9SYinan Xu 632f4b2089aSYinan Xu val exceptionHappen = (state === s_idle) && valid(deqPtr.value) && (intrEnable || exceptionEnable) && !lastCycleFlush 6339aca92b9SYinan Xu io.exception.valid := RegNext(exceptionHappen) 6349aca92b9SYinan Xu io.exception.bits.uop := RegEnable(debug_deqUop, exceptionHappen) 6359aca92b9SYinan Xu io.exception.bits.uop.ctrl.commitType := RegEnable(deqDispatchData.commitType, exceptionHappen) 6369aca92b9SYinan Xu io.exception.bits.uop.cf.exceptionVec := RegEnable(exceptionDataRead.bits.exceptionVec, exceptionHappen) 6379aca92b9SYinan Xu io.exception.bits.uop.ctrl.singleStep := RegEnable(exceptionDataRead.bits.singleStep, exceptionHappen) 638c3abb8b6SYinan Xu io.exception.bits.uop.cf.crossPageIPFFix := RegEnable(exceptionDataRead.bits.crossPageIPFFix, exceptionHappen) 6399aca92b9SYinan Xu io.exception.bits.isInterrupt := RegEnable(intrEnable, exceptionHappen) 64084e47f35SLi Qianruo io.exception.bits.uop.cf.trigger := RegEnable(exceptionDataRead.bits.trigger, exceptionHappen) 6419aca92b9SYinan Xu 6429aca92b9SYinan Xu XSDebug(io.flushOut.valid, 6439aca92b9SYinan Xu p"generate redirect: pc 0x${Hexadecimal(io.exception.bits.uop.cf.pc)} intr $intrEnable " + 6449aca92b9SYinan Xu p"excp $exceptionEnable flushPipe $isFlushPipe " + 6459aca92b9SYinan Xu p"Trap_target 0x${Hexadecimal(io.csr.trapTarget)} exceptionVec ${Binary(exceptionDataRead.bits.exceptionVec.asUInt)}\n") 6469aca92b9SYinan Xu 6479aca92b9SYinan Xu 6489aca92b9SYinan Xu /** 6499aca92b9SYinan Xu * Commits (and walk) 6509aca92b9SYinan Xu * They share the same width. 6519aca92b9SYinan Xu */ 652a83ae250SYinan Xu val walkCounter = Reg(UInt(log2Up(RobSize + 1).W)) 6539aca92b9SYinan Xu val shouldWalkVec = VecInit((0 until CommitWidth).map(_.U < walkCounter)) 6549aca92b9SYinan Xu val walkFinished = walkCounter <= CommitWidth.U 6559aca92b9SYinan Xu 6569aca92b9SYinan Xu require(RenameWidth <= CommitWidth) 6579aca92b9SYinan Xu 6589aca92b9SYinan Xu // wiring to csr 6599aca92b9SYinan Xu val (wflags, fpWen) = (0 until CommitWidth).map(i => { 6606474c47fSYinan Xu val v = io.commits.commitValid(i) 6619aca92b9SYinan Xu val info = io.commits.info(i) 6629aca92b9SYinan Xu (v & info.wflags, v & info.fpWen) 6639aca92b9SYinan Xu }).unzip 6649aca92b9SYinan Xu val fflags = Wire(Valid(UInt(5.W))) 6656474c47fSYinan Xu fflags.valid := io.commits.isCommit && VecInit(wflags).asUInt.orR 6669aca92b9SYinan Xu fflags.bits := wflags.zip(fflagsDataRead).map({ 6679aca92b9SYinan Xu case (w, f) => Mux(w, f, 0.U) 6689aca92b9SYinan Xu }).reduce(_|_) 6696474c47fSYinan Xu val dirty_fs = io.commits.isCommit && VecInit(fpWen).asUInt.orR 6709aca92b9SYinan Xu 6719aca92b9SYinan Xu // when mispredict branches writeback, stop commit in the next 2 cycles 6729aca92b9SYinan Xu // TODO: don't check all exu write back 6736ab6918fSYinan Xu val misPredWb = Cat(VecInit(exuWriteback.map(wb => 6746ab6918fSYinan Xu wb.bits.redirect.cfiUpdate.isMisPred && wb.bits.redirectValid 675c51eab43SYinan Xu ))).orR 6769aca92b9SYinan Xu val misPredBlockCounter = Reg(UInt(3.W)) 6779aca92b9SYinan Xu misPredBlockCounter := Mux(misPredWb, 6789aca92b9SYinan Xu "b111".U, 6799aca92b9SYinan Xu misPredBlockCounter >> 1.U 6809aca92b9SYinan Xu ) 6819aca92b9SYinan Xu val misPredBlock = misPredBlockCounter(0) 6826474c47fSYinan Xu val blockCommit = misPredBlock || isReplaying || lastCycleFlush || hasWFI 6839aca92b9SYinan Xu 684ccfddc82SHaojin Tang io.commits.isWalk := state === s_walk 6856474c47fSYinan Xu io.commits.isCommit := state === s_idle && !blockCommit 6866474c47fSYinan Xu val walk_v = VecInit(walkPtrVec.map(ptr => valid(ptr.value))) 6876474c47fSYinan Xu val commit_v = VecInit(deqPtrVec.map(ptr => valid(ptr.value))) 6889aca92b9SYinan Xu // store will be commited iff both sta & std have been writebacked 6899aca92b9SYinan Xu val commit_w = VecInit(deqPtrVec.map(ptr => writebacked(ptr.value) && store_data_writebacked(ptr.value))) 6909aca92b9SYinan Xu val commit_exception = exceptionDataRead.valid && !isAfter(exceptionDataRead.bits.robIdx, deqPtrVec.last) 6919aca92b9SYinan Xu val commit_block = VecInit((0 until CommitWidth).map(i => !commit_w(i))) 6929aca92b9SYinan Xu val allowOnlyOneCommit = commit_exception || intrBitSetReg 6939aca92b9SYinan Xu // for instructions that may block others, we don't allow them to commit 6949aca92b9SYinan Xu for (i <- 0 until CommitWidth) { 6959aca92b9SYinan Xu // defaults: state === s_idle and instructions commit 6969aca92b9SYinan Xu // when intrBitSetReg, allow only one instruction to commit at each clock cycle 6979aca92b9SYinan Xu val isBlocked = if (i != 0) Cat(commit_block.take(i)).orR || allowOnlyOneCommit else intrEnable || deqHasException || deqHasReplayInst 6986474c47fSYinan Xu io.commits.commitValid(i) := commit_v(i) && commit_w(i) && !isBlocked 6999aca92b9SYinan Xu io.commits.info(i) := dispatchDataRead(i) 7009aca92b9SYinan Xu 701ccfddc82SHaojin Tang when (state === s_walk) { 7026474c47fSYinan Xu io.commits.walkValid(i) := shouldWalkVec(i) 7036474c47fSYinan Xu when (io.commits.isWalk && state === s_walk && shouldWalkVec(i)) { 7046474c47fSYinan Xu XSError(!walk_v(i), s"why not $i???\n") 7056474c47fSYinan Xu } 7069aca92b9SYinan Xu } 7079aca92b9SYinan Xu 7086474c47fSYinan Xu XSInfo(io.commits.isCommit && io.commits.commitValid(i), 7099aca92b9SYinan Xu "retired pc %x wen %d ldest %d pdest %x old_pdest %x data %x fflags: %b\n", 7109aca92b9SYinan Xu debug_microOp(deqPtrVec(i).value).cf.pc, 7119aca92b9SYinan Xu io.commits.info(i).rfWen, 7129aca92b9SYinan Xu io.commits.info(i).ldest, 7139aca92b9SYinan Xu io.commits.info(i).pdest, 7149aca92b9SYinan Xu io.commits.info(i).old_pdest, 7159aca92b9SYinan Xu debug_exuData(deqPtrVec(i).value), 7169aca92b9SYinan Xu fflagsDataRead(i) 7179aca92b9SYinan Xu ) 7186474c47fSYinan Xu XSInfo(state === s_walk && io.commits.walkValid(i), "walked pc %x wen %d ldst %d data %x\n", 7199aca92b9SYinan Xu debug_microOp(walkPtrVec(i).value).cf.pc, 7209aca92b9SYinan Xu io.commits.info(i).rfWen, 7219aca92b9SYinan Xu io.commits.info(i).ldest, 7229aca92b9SYinan Xu debug_exuData(walkPtrVec(i).value) 7239aca92b9SYinan Xu ) 7249aca92b9SYinan Xu } 7251545277aSYinan Xu if (env.EnableDifftest) { 7269aca92b9SYinan Xu io.commits.info.map(info => dontTouch(info.pc)) 7279aca92b9SYinan Xu } 7289aca92b9SYinan Xu 7299aca92b9SYinan Xu // sync fflags/dirty_fs to csr 730a4e57ea3SLi Qianruo io.csr.fflags := RegNext(fflags) 731a4e57ea3SLi Qianruo io.csr.dirty_fs := RegNext(dirty_fs) 7329aca92b9SYinan Xu 7339aca92b9SYinan Xu // commit load/store to lsq 7346474c47fSYinan Xu val ldCommitVec = VecInit((0 until CommitWidth).map(i => io.commits.commitValid(i) && io.commits.info(i).commitType === CommitType.LOAD)) 7356474c47fSYinan Xu val stCommitVec = VecInit((0 until CommitWidth).map(i => io.commits.commitValid(i) && io.commits.info(i).commitType === CommitType.STORE)) 7366474c47fSYinan Xu io.lsq.lcommit := RegNext(Mux(io.commits.isCommit, PopCount(ldCommitVec), 0.U)) 7376474c47fSYinan Xu io.lsq.scommit := RegNext(Mux(io.commits.isCommit, PopCount(stCommitVec), 0.U)) 7386474c47fSYinan Xu // indicate a pending load or store 7396474c47fSYinan Xu io.lsq.pendingld := RegNext(io.commits.isCommit && io.commits.info(0).commitType === CommitType.LOAD && valid(deqPtr.value)) 7406474c47fSYinan Xu io.lsq.pendingst := RegNext(io.commits.isCommit && io.commits.info(0).commitType === CommitType.STORE && valid(deqPtr.value)) 7416474c47fSYinan Xu io.lsq.commit := RegNext(io.commits.isCommit && io.commits.commitValid(0)) 7429aca92b9SYinan Xu 7439aca92b9SYinan Xu /** 7449aca92b9SYinan Xu * state changes 745ccfddc82SHaojin Tang * (1) redirect: switch to s_walk 746ccfddc82SHaojin Tang * (2) walk: when walking comes to the end, switch to s_idle 7479aca92b9SYinan Xu */ 748ccfddc82SHaojin Tang val state_next = Mux(io.redirect.valid, s_walk, Mux(state === s_walk && walkFinished, s_idle, state)) 7497e8294acSYinan Xu XSPerfAccumulate("s_idle_to_idle", state === s_idle && state_next === s_idle) 7507e8294acSYinan Xu XSPerfAccumulate("s_idle_to_walk", state === s_idle && state_next === s_walk) 7517e8294acSYinan Xu XSPerfAccumulate("s_walk_to_idle", state === s_walk && state_next === s_idle) 7527e8294acSYinan Xu XSPerfAccumulate("s_walk_to_walk", state === s_walk && state_next === s_walk) 7539aca92b9SYinan Xu state := state_next 7549aca92b9SYinan Xu 7559aca92b9SYinan Xu /** 7569aca92b9SYinan Xu * pointers and counters 7579aca92b9SYinan Xu */ 7589aca92b9SYinan Xu val deqPtrGenModule = Module(new RobDeqPtrWrapper) 7599aca92b9SYinan Xu deqPtrGenModule.io.state := state 7609aca92b9SYinan Xu deqPtrGenModule.io.deq_v := commit_v 7619aca92b9SYinan Xu deqPtrGenModule.io.deq_w := commit_w 7629aca92b9SYinan Xu deqPtrGenModule.io.exception_state := exceptionDataRead 7639aca92b9SYinan Xu deqPtrGenModule.io.intrBitSetReg := intrBitSetReg 7649aca92b9SYinan Xu deqPtrGenModule.io.hasNoSpecExec := hasNoSpecExec 765e8009193SYinan Xu deqPtrGenModule.io.interrupt_safe := interrupt_safe(deqPtr.value) 7666474c47fSYinan Xu deqPtrGenModule.io.blockCommit := blockCommit 7679aca92b9SYinan Xu deqPtrVec := deqPtrGenModule.io.out 7689aca92b9SYinan Xu val deqPtrVec_next = deqPtrGenModule.io.next_out 7699aca92b9SYinan Xu 7709aca92b9SYinan Xu val enqPtrGenModule = Module(new RobEnqPtrWrapper) 7719aca92b9SYinan Xu enqPtrGenModule.io.redirect := io.redirect 7729aca92b9SYinan Xu enqPtrGenModule.io.allowEnqueue := allowEnqueue 7739aca92b9SYinan Xu enqPtrGenModule.io.hasBlockBackward := hasBlockBackward 7749aca92b9SYinan Xu enqPtrGenModule.io.enq := VecInit(io.enq.req.map(_.valid)) 7756474c47fSYinan Xu enqPtrVec := enqPtrGenModule.io.out 7769aca92b9SYinan Xu 7779aca92b9SYinan Xu val thisCycleWalkCount = Mux(walkFinished, walkCounter, CommitWidth.U) 7789aca92b9SYinan Xu // next walkPtrVec: 7799aca92b9SYinan Xu // (1) redirect occurs: update according to state 780ccfddc82SHaojin Tang // (2) walk: move forwards 781ccfddc82SHaojin Tang val walkPtrVec_next = Mux(io.redirect.valid, 782ccfddc82SHaojin Tang deqPtrVec_next, 783ccfddc82SHaojin Tang Mux(state === s_walk, VecInit(walkPtrVec.map(_ + CommitWidth.U)), walkPtrVec) 7849aca92b9SYinan Xu ) 7859aca92b9SYinan Xu walkPtrVec := walkPtrVec_next 7869aca92b9SYinan Xu 78775b25016SYinan Xu val numValidEntries = distanceBetween(enqPtr, deqPtr) 7886474c47fSYinan Xu val commitCnt = PopCount(io.commits.commitValid) 7899aca92b9SYinan Xu 79075b25016SYinan Xu allowEnqueue := numValidEntries + dispatchNum <= (RobSize - RenameWidth).U 7919aca92b9SYinan Xu 792ccfddc82SHaojin Tang val currentWalkPtr = Mux(state === s_walk, walkPtr, deqPtrVec_next(0)) 793ccfddc82SHaojin Tang val redirectWalkDistance = distanceBetween(io.redirect.bits.robIdx, deqPtrVec_next(0)) 7949aca92b9SYinan Xu when (io.redirect.valid) { 795ccfddc82SHaojin Tang // full condition: 796ccfddc82SHaojin Tang // +& is used here because: 797ccfddc82SHaojin Tang // When rob is full and the tail instruction causes a misprediction, 798ccfddc82SHaojin Tang // the redirect robIdx is the deqPtr - 1. In this case, redirectWalkDistance 799ccfddc82SHaojin Tang // is RobSize - 1. 800ccfddc82SHaojin Tang // Since misprediction does not flush the instruction itself, flushItSelf is false.B. 801a83ae250SYinan Xu // Previously we use `+` to count the walk distance and it causes overflows 802a83ae250SYinan Xu // when RobSize is power of 2. We change it to `+&` to allow walkCounter to be RobSize. 803a83ae250SYinan Xu // The width of walkCounter also needs to be changed. 804ccfddc82SHaojin Tang // empty condition: 805ccfddc82SHaojin Tang // When the last instruction in ROB commits and causes a flush, a redirect 806ccfddc82SHaojin Tang // will be raised later. In such circumstances, the redirect robIdx is before 807ccfddc82SHaojin Tang // the deqPtrVec_next(0) and will cause underflow. 808ccfddc82SHaojin Tang walkCounter := Mux(isBefore(io.redirect.bits.robIdx, deqPtrVec_next(0)), 0.U, 809ccfddc82SHaojin Tang redirectWalkDistance +& !io.redirect.bits.flushItself()) 8109aca92b9SYinan Xu }.elsewhen (state === s_walk) { 8116474c47fSYinan Xu walkCounter := walkCounter - thisCycleWalkCount 8129aca92b9SYinan Xu XSInfo(p"rolling back: $enqPtr $deqPtr walk $walkPtr walkcnt $walkCounter\n") 8139aca92b9SYinan Xu } 8149aca92b9SYinan Xu 8159aca92b9SYinan Xu 8169aca92b9SYinan Xu /** 8179aca92b9SYinan Xu * States 8189aca92b9SYinan Xu * We put all the stage bits changes here. 8199aca92b9SYinan Xu 8209aca92b9SYinan Xu * All events: (1) enqueue (dispatch); (2) writeback; (3) cancel; (4) dequeue (commit); 8219aca92b9SYinan Xu * All states: (1) valid; (2) writebacked; (3) flagBkup 8229aca92b9SYinan Xu */ 8239aca92b9SYinan Xu val commitReadAddr = Mux(state === s_idle, VecInit(deqPtrVec.map(_.value)), VecInit(walkPtrVec.map(_.value))) 8249aca92b9SYinan Xu 825ccfddc82SHaojin Tang // redirect logic writes 6 valid 826ccfddc82SHaojin Tang val redirectHeadVec = Reg(Vec(RenameWidth, new RobPtr)) 827ccfddc82SHaojin Tang val redirectTail = Reg(new RobPtr) 828ccfddc82SHaojin Tang val redirectIdle :: redirectBusy :: Nil = Enum(2) 829ccfddc82SHaojin Tang val redirectState = RegInit(redirectIdle) 830ccfddc82SHaojin Tang val invMask = redirectHeadVec.map(redirectHead => isBefore(redirectHead, redirectTail)) 831ccfddc82SHaojin Tang when(redirectState === redirectBusy) { 832ccfddc82SHaojin Tang redirectHeadVec.foreach(redirectHead => redirectHead := redirectHead + RenameWidth.U) 833ccfddc82SHaojin Tang redirectHeadVec zip invMask foreach { 834ccfddc82SHaojin Tang case (redirectHead, inv) => when(inv) { 835ccfddc82SHaojin Tang valid(redirectHead.value) := false.B 836ccfddc82SHaojin Tang } 837ccfddc82SHaojin Tang } 838ccfddc82SHaojin Tang when(!invMask.last) { 839ccfddc82SHaojin Tang redirectState := redirectIdle 840ccfddc82SHaojin Tang } 841ccfddc82SHaojin Tang } 842ccfddc82SHaojin Tang when(io.redirect.valid) { 843ccfddc82SHaojin Tang redirectState := redirectBusy 844ccfddc82SHaojin Tang when(redirectState === redirectIdle) { 845ccfddc82SHaojin Tang redirectTail := enqPtr 846ccfddc82SHaojin Tang } 847ccfddc82SHaojin Tang redirectHeadVec.zipWithIndex.foreach { case (redirectHead, i) => 848ccfddc82SHaojin Tang redirectHead := Mux(io.redirect.bits.flushItself(), io.redirect.bits.robIdx + i.U, io.redirect.bits.robIdx + (i + 1).U) 849ccfddc82SHaojin Tang } 850ccfddc82SHaojin Tang } 8519aca92b9SYinan Xu // enqueue logic writes 6 valid 8529aca92b9SYinan Xu for (i <- 0 until RenameWidth) { 853f4b2089aSYinan Xu when (canEnqueue(i) && !io.redirect.valid) { 8546474c47fSYinan Xu valid(allocatePtrVec(i).value) := true.B 8559aca92b9SYinan Xu } 8569aca92b9SYinan Xu } 857ccfddc82SHaojin Tang // dequeue logic writes 6 valid 8589aca92b9SYinan Xu for (i <- 0 until CommitWidth) { 8596474c47fSYinan Xu val commitValid = io.commits.isCommit && io.commits.commitValid(i) 860ccfddc82SHaojin Tang when (commitValid) { 8619aca92b9SYinan Xu valid(commitReadAddr(i)) := false.B 8629aca92b9SYinan Xu } 8639aca92b9SYinan Xu } 8649aca92b9SYinan Xu 865*8744445eSMaxpicca-Li // debug_inst update 866*8744445eSMaxpicca-Li for(i <- 0 until (exuParameters.LduCnt + exuParameters.StuCnt)) { 867*8744445eSMaxpicca-Li debug_lsInfo(io.debug_ls.debugLsInfo(i).s1_robIdx).s1SignalEnable(io.debug_ls.debugLsInfo(i)) 868*8744445eSMaxpicca-Li debug_lsInfo(io.debug_ls.debugLsInfo(i).s2_robIdx).s2SignalEnable(io.debug_ls.debugLsInfo(i)) 869*8744445eSMaxpicca-Li } 870*8744445eSMaxpicca-Li 8719aca92b9SYinan Xu // status field: writebacked 8729aca92b9SYinan Xu // enqueue logic set 6 writebacked to false 8739aca92b9SYinan Xu for (i <- 0 until RenameWidth) { 8749aca92b9SYinan Xu when (canEnqueue(i)) { 8750e5209d0SLi Qianruo val enqHasException = ExceptionNO.selectFrontend(io.enq.req(i).bits.cf.exceptionVec).asUInt.orR 8760e5209d0SLi Qianruo val enqHasTriggerHit = io.enq.req(i).bits.cf.trigger.getHitFrontend 8775d669833SYinan Xu val enqIsWritebacked = io.enq.req(i).bits.eliminatedMove 8786474c47fSYinan Xu writebacked(allocatePtrVec(i).value) := enqIsWritebacked && !enqHasException && !enqHasTriggerHit 8799aca92b9SYinan Xu val isStu = io.enq.req(i).bits.ctrl.fuType === FuType.stu 8806474c47fSYinan Xu store_data_writebacked(allocatePtrVec(i).value) := !isStu 8819aca92b9SYinan Xu } 8829aca92b9SYinan Xu } 8839aca92b9SYinan Xu when (exceptionGen.io.out.valid) { 8849aca92b9SYinan Xu val wbIdx = exceptionGen.io.out.bits.robIdx.value 8859aca92b9SYinan Xu writebacked(wbIdx) := true.B 8869aca92b9SYinan Xu store_data_writebacked(wbIdx) := true.B 8879aca92b9SYinan Xu } 8889aca92b9SYinan Xu // writeback logic set numWbPorts writebacked to true 8896ab6918fSYinan Xu for ((wb, cfgs) <- exuWriteback.zip(wbExuConfigs(exeWbSel))) { 8906ab6918fSYinan Xu when (wb.valid) { 8916ab6918fSYinan Xu val wbIdx = wb.bits.uop.robIdx.value 8926ab6918fSYinan Xu val wbHasException = ExceptionNO.selectByExu(wb.bits.uop.cf.exceptionVec, cfgs).asUInt.orR 8930e5209d0SLi Qianruo val wbHasTriggerHit = wb.bits.uop.cf.trigger.getHitBackend 8946ab6918fSYinan Xu val wbHasFlushPipe = cfgs.exists(_.flushPipe).B && wb.bits.uop.ctrl.flushPipe 8956ab6918fSYinan Xu val wbHasReplayInst = cfgs.exists(_.replayInst).B && wb.bits.uop.ctrl.replayInst 8960e5209d0SLi Qianruo val block_wb = wbHasException || wbHasFlushPipe || wbHasReplayInst || wbHasTriggerHit 8979aca92b9SYinan Xu writebacked(wbIdx) := !block_wb 8989aca92b9SYinan Xu } 8999aca92b9SYinan Xu } 9009aca92b9SYinan Xu // store data writeback logic mark store as data_writebacked 9016ab6918fSYinan Xu for (wb <- stdWriteback) { 9026ab6918fSYinan Xu when(RegNext(wb.valid)) { 9036ab6918fSYinan Xu store_data_writebacked(RegNext(wb.bits.uop.robIdx.value)) := true.B 9049aca92b9SYinan Xu } 9059aca92b9SYinan Xu } 9069aca92b9SYinan Xu 9079aca92b9SYinan Xu // flagBkup 9089aca92b9SYinan Xu // enqueue logic set 6 flagBkup at most 9099aca92b9SYinan Xu for (i <- 0 until RenameWidth) { 9109aca92b9SYinan Xu when (canEnqueue(i)) { 9116474c47fSYinan Xu flagBkup(allocatePtrVec(i).value) := allocatePtrVec(i).flag 9129aca92b9SYinan Xu } 9139aca92b9SYinan Xu } 9149aca92b9SYinan Xu 915e8009193SYinan Xu // interrupt_safe 916e8009193SYinan Xu for (i <- 0 until RenameWidth) { 917e8009193SYinan Xu // We RegNext the updates for better timing. 918e8009193SYinan Xu // Note that instructions won't change the system's states in this cycle. 919e8009193SYinan Xu when (RegNext(canEnqueue(i))) { 920e8009193SYinan Xu // For now, we allow non-load-store instructions to trigger interrupts 921e8009193SYinan Xu // For MMIO instructions, they should not trigger interrupts since they may 922e8009193SYinan Xu // be sent to lower level before it writes back. 923e8009193SYinan Xu // However, we cannot determine whether a load/store instruction is MMIO. 924e8009193SYinan Xu // Thus, we don't allow load/store instructions to trigger an interrupt. 925e8009193SYinan Xu // TODO: support non-MMIO load-store instructions to trigger interrupts 926e8009193SYinan Xu val allow_interrupts = !CommitType.isLoadStore(io.enq.req(i).bits.ctrl.commitType) 9276474c47fSYinan Xu interrupt_safe(RegNext(allocatePtrVec(i).value)) := RegNext(allow_interrupts) 928e8009193SYinan Xu } 929e8009193SYinan Xu } 9309aca92b9SYinan Xu 9319aca92b9SYinan Xu /** 9329aca92b9SYinan Xu * read and write of data modules 9339aca92b9SYinan Xu */ 9349aca92b9SYinan Xu val commitReadAddr_next = Mux(state_next === s_idle, 9359aca92b9SYinan Xu VecInit(deqPtrVec_next.map(_.value)), 9369aca92b9SYinan Xu VecInit(walkPtrVec_next.map(_.value)) 9379aca92b9SYinan Xu ) 938*8744445eSMaxpicca-Li // NOTE: dispatch info will record the uop of inst 9399aca92b9SYinan Xu dispatchData.io.wen := canEnqueue 9406474c47fSYinan Xu dispatchData.io.waddr := allocatePtrVec.map(_.value) 9419aca92b9SYinan Xu dispatchData.io.wdata.zip(io.enq.req.map(_.bits)).foreach{ case (wdata, req) => 9429aca92b9SYinan Xu wdata.ldest := req.ctrl.ldest 9439aca92b9SYinan Xu wdata.rfWen := req.ctrl.rfWen 9449aca92b9SYinan Xu wdata.fpWen := req.ctrl.fpWen 9459aca92b9SYinan Xu wdata.wflags := req.ctrl.fpu.wflags 9469aca92b9SYinan Xu wdata.commitType := req.ctrl.commitType 9479aca92b9SYinan Xu wdata.pdest := req.pdest 9489aca92b9SYinan Xu wdata.old_pdest := req.old_pdest 9499aca92b9SYinan Xu wdata.ftqIdx := req.cf.ftqPtr 9509aca92b9SYinan Xu wdata.ftqOffset := req.cf.ftqOffset 951ccfddc82SHaojin Tang wdata.isMove := req.eliminatedMove 9529aca92b9SYinan Xu wdata.pc := req.cf.pc 9539aca92b9SYinan Xu } 9549aca92b9SYinan Xu dispatchData.io.raddr := commitReadAddr_next 9559aca92b9SYinan Xu 9569aca92b9SYinan Xu exceptionGen.io.redirect <> io.redirect 9579aca92b9SYinan Xu exceptionGen.io.flush := io.flushOut.valid 9589aca92b9SYinan Xu for (i <- 0 until RenameWidth) { 9599aca92b9SYinan Xu exceptionGen.io.enq(i).valid := canEnqueue(i) 9609aca92b9SYinan Xu exceptionGen.io.enq(i).bits.robIdx := io.enq.req(i).bits.robIdx 9616ab6918fSYinan Xu exceptionGen.io.enq(i).bits.exceptionVec := ExceptionNO.selectFrontend(io.enq.req(i).bits.cf.exceptionVec) 9629aca92b9SYinan Xu exceptionGen.io.enq(i).bits.flushPipe := io.enq.req(i).bits.ctrl.flushPipe 963d7dd1af1SLi Qianruo exceptionGen.io.enq(i).bits.replayInst := false.B 964fa9d712cSYinan Xu XSError(canEnqueue(i) && io.enq.req(i).bits.ctrl.replayInst, "enq should not set replayInst") 9659aca92b9SYinan Xu exceptionGen.io.enq(i).bits.singleStep := io.enq.req(i).bits.ctrl.singleStep 966c3abb8b6SYinan Xu exceptionGen.io.enq(i).bits.crossPageIPFFix := io.enq.req(i).bits.cf.crossPageIPFFix 967d7dd1af1SLi Qianruo exceptionGen.io.enq(i).bits.trigger.clear() 968d7dd1af1SLi Qianruo exceptionGen.io.enq(i).bits.trigger.frontendHit := io.enq.req(i).bits.cf.trigger.frontendHit 9699aca92b9SYinan Xu } 9709aca92b9SYinan Xu 9716ab6918fSYinan Xu println(s"ExceptionGen:") 9726ab6918fSYinan Xu val exceptionCases = exceptionPorts.map(_._1.flatMap(_.exceptionOut).distinct.sorted) 9736ab6918fSYinan Xu require(exceptionCases.length == exceptionGen.io.wb.length) 9746ab6918fSYinan Xu for ((((configs, wb), exc_wb), i) <- exceptionPorts.zip(exceptionGen.io.wb).zipWithIndex) { 9756ab6918fSYinan Xu exc_wb.valid := wb.valid 9766ab6918fSYinan Xu exc_wb.bits.robIdx := wb.bits.uop.robIdx 9776ab6918fSYinan Xu exc_wb.bits.exceptionVec := ExceptionNO.selectByExu(wb.bits.uop.cf.exceptionVec, configs) 9786ab6918fSYinan Xu exc_wb.bits.flushPipe := configs.exists(_.flushPipe).B && wb.bits.uop.ctrl.flushPipe 9796ab6918fSYinan Xu exc_wb.bits.replayInst := configs.exists(_.replayInst).B && wb.bits.uop.ctrl.replayInst 9806ab6918fSYinan Xu exc_wb.bits.singleStep := false.B 9816ab6918fSYinan Xu exc_wb.bits.crossPageIPFFix := false.B 9826ab6918fSYinan Xu // TODO: make trigger configurable 983d7dd1af1SLi Qianruo exc_wb.bits.trigger.clear() 984d7dd1af1SLi Qianruo exc_wb.bits.trigger.backendHit := wb.bits.uop.cf.trigger.backendHit 9856ab6918fSYinan Xu println(s" [$i] ${configs.map(_.name)}: exception ${exceptionCases(i)}, " + 9866ab6918fSYinan Xu s"flushPipe ${configs.exists(_.flushPipe)}, " + 9876ab6918fSYinan Xu s"replayInst ${configs.exists(_.replayInst)}") 9889aca92b9SYinan Xu } 9899aca92b9SYinan Xu 9906ab6918fSYinan Xu val fflags_wb = fflagsPorts.map(_._2) 9919aca92b9SYinan Xu val fflagsDataModule = Module(new SyncDataModuleTemplate( 9929aca92b9SYinan Xu UInt(5.W), RobSize, CommitWidth, fflags_wb.size) 9939aca92b9SYinan Xu ) 9949aca92b9SYinan Xu for(i <- fflags_wb.indices){ 9959aca92b9SYinan Xu fflagsDataModule.io.wen (i) := fflags_wb(i).valid 9969aca92b9SYinan Xu fflagsDataModule.io.waddr(i) := fflags_wb(i).bits.uop.robIdx.value 9979aca92b9SYinan Xu fflagsDataModule.io.wdata(i) := fflags_wb(i).bits.fflags 9989aca92b9SYinan Xu } 9999aca92b9SYinan Xu fflagsDataModule.io.raddr := VecInit(deqPtrVec_next.map(_.value)) 10009aca92b9SYinan Xu fflagsDataRead := fflagsDataModule.io.rdata 10019aca92b9SYinan Xu 10026474c47fSYinan Xu val instrCntReg = RegInit(0.U(64.W)) 10036474c47fSYinan Xu val fuseCommitCnt = PopCount(io.commits.commitValid.zip(io.commits.info).map{ case (v, i) => RegNext(v && CommitType.isFused(i.commitType)) }) 10046474c47fSYinan Xu val trueCommitCnt = RegNext(commitCnt) +& fuseCommitCnt 10056474c47fSYinan Xu val retireCounter = Mux(RegNext(io.commits.isCommit), trueCommitCnt, 0.U) 10066474c47fSYinan Xu val instrCnt = instrCntReg + retireCounter 10076474c47fSYinan Xu instrCntReg := instrCnt 10086474c47fSYinan Xu io.csr.perfinfo.retiredInstr := retireCounter 10099aca92b9SYinan Xu io.robFull := !allowEnqueue 10109aca92b9SYinan Xu 10119aca92b9SYinan Xu /** 10129aca92b9SYinan Xu * debug info 10139aca92b9SYinan Xu */ 10149aca92b9SYinan Xu XSDebug(p"enqPtr ${enqPtr} deqPtr ${deqPtr}\n") 10159aca92b9SYinan Xu XSDebug("") 10169aca92b9SYinan Xu for(i <- 0 until RobSize){ 10179aca92b9SYinan Xu XSDebug(false, !valid(i), "-") 10189aca92b9SYinan Xu XSDebug(false, valid(i) && writebacked(i), "w") 10199aca92b9SYinan Xu XSDebug(false, valid(i) && !writebacked(i), "v") 10209aca92b9SYinan Xu } 10219aca92b9SYinan Xu XSDebug(false, true.B, "\n") 10229aca92b9SYinan Xu 10239aca92b9SYinan Xu for(i <- 0 until RobSize) { 10249aca92b9SYinan Xu if(i % 4 == 0) XSDebug("") 10259aca92b9SYinan Xu XSDebug(false, true.B, "%x ", debug_microOp(i).cf.pc) 10269aca92b9SYinan Xu XSDebug(false, !valid(i), "- ") 10279aca92b9SYinan Xu XSDebug(false, valid(i) && writebacked(i), "w ") 10289aca92b9SYinan Xu XSDebug(false, valid(i) && !writebacked(i), "v ") 10299aca92b9SYinan Xu if(i % 4 == 3) XSDebug(false, true.B, "\n") 10309aca92b9SYinan Xu } 10319aca92b9SYinan Xu 10326474c47fSYinan Xu def ifCommit(counter: UInt): UInt = Mux(io.commits.isCommit, counter, 0.U) 10337e8294acSYinan Xu def ifCommitReg(counter: UInt): UInt = Mux(RegNext(io.commits.isCommit), counter, 0.U) 10349aca92b9SYinan Xu 1035*8744445eSMaxpicca-Li val commitDebugExu = deqPtrVec.map(_.value).map(debug_exuDebug(_)) 10369aca92b9SYinan Xu val commitDebugUop = deqPtrVec.map(_.value).map(debug_microOp(_)) 1037*8744445eSMaxpicca-Li val commitDebugLsInfo = deqPtrVec.map(_.value).map(debug_lsInfo(_)) 10389aca92b9SYinan Xu XSPerfAccumulate("clock_cycle", 1.U) 10399aca92b9SYinan Xu QueuePerf(RobSize, PopCount((0 until RobSize).map(valid(_))), !allowEnqueue) 10409aca92b9SYinan Xu XSPerfAccumulate("commitUop", ifCommit(commitCnt)) 10417e8294acSYinan Xu XSPerfAccumulate("commitInstr", ifCommitReg(trueCommitCnt)) 10429aca92b9SYinan Xu val commitIsMove = commitDebugUop.map(_.ctrl.isMove) 10436474c47fSYinan Xu XSPerfAccumulate("commitInstrMove", ifCommit(PopCount(io.commits.commitValid.zip(commitIsMove).map{ case (v, m) => v && m }))) 10449aca92b9SYinan Xu val commitMoveElim = commitDebugUop.map(_.debugInfo.eliminatedMove) 10456474c47fSYinan Xu XSPerfAccumulate("commitInstrMoveElim", ifCommit(PopCount(io.commits.commitValid zip commitMoveElim map { case (v, e) => v && e }))) 10467e8294acSYinan Xu XSPerfAccumulate("commitInstrFused", ifCommitReg(fuseCommitCnt)) 10479aca92b9SYinan Xu val commitIsLoad = io.commits.info.map(_.commitType).map(_ === CommitType.LOAD) 10486474c47fSYinan Xu val commitLoadValid = io.commits.commitValid.zip(commitIsLoad).map{ case (v, t) => v && t } 10499aca92b9SYinan Xu XSPerfAccumulate("commitInstrLoad", ifCommit(PopCount(commitLoadValid))) 105020edb3f7SWilliam Wang val commitIsBranch = io.commits.info.map(_.commitType).map(_ === CommitType.BRANCH) 10516474c47fSYinan Xu val commitBranchValid = io.commits.commitValid.zip(commitIsBranch).map{ case (v, t) => v && t } 105220edb3f7SWilliam Wang XSPerfAccumulate("commitInstrBranch", ifCommit(PopCount(commitBranchValid))) 10539aca92b9SYinan Xu val commitLoadWaitBit = commitDebugUop.map(_.cf.loadWaitBit) 10549aca92b9SYinan Xu XSPerfAccumulate("commitInstrLoadWait", ifCommit(PopCount(commitLoadValid.zip(commitLoadWaitBit).map{ case (v, w) => v && w }))) 10559aca92b9SYinan Xu val commitIsStore = io.commits.info.map(_.commitType).map(_ === CommitType.STORE) 10566474c47fSYinan Xu XSPerfAccumulate("commitInstrStore", ifCommit(PopCount(io.commits.commitValid.zip(commitIsStore).map{ case (v, t) => v && t }))) 10579aca92b9SYinan Xu XSPerfAccumulate("writeback", PopCount((0 until RobSize).map(i => valid(i) && writebacked(i)))) 1058c51eab43SYinan Xu // XSPerfAccumulate("enqInstr", PopCount(io.dp1Req.map(_.fire))) 10599aca92b9SYinan Xu // XSPerfAccumulate("d2rVnR", PopCount(io.dp1Req.map(p => p.valid && !p.ready))) 10606474c47fSYinan Xu XSPerfAccumulate("walkInstr", Mux(io.commits.isWalk, PopCount(io.commits.walkValid), 0.U)) 1061ccfddc82SHaojin Tang XSPerfAccumulate("walkCycle", state === s_walk) 10629aca92b9SYinan Xu val deqNotWritebacked = valid(deqPtr.value) && !writebacked(deqPtr.value) 10639aca92b9SYinan Xu val deqUopCommitType = io.commits.info(0).commitType 10649aca92b9SYinan Xu XSPerfAccumulate("waitNormalCycle", deqNotWritebacked && deqUopCommitType === CommitType.NORMAL) 10659aca92b9SYinan Xu XSPerfAccumulate("waitBranchCycle", deqNotWritebacked && deqUopCommitType === CommitType.BRANCH) 10669aca92b9SYinan Xu XSPerfAccumulate("waitLoadCycle", deqNotWritebacked && deqUopCommitType === CommitType.LOAD) 10679aca92b9SYinan Xu XSPerfAccumulate("waitStoreCycle", deqNotWritebacked && deqUopCommitType === CommitType.STORE) 10689aca92b9SYinan Xu XSPerfAccumulate("robHeadPC", io.commits.info(0).pc) 10699aca92b9SYinan Xu val dispatchLatency = commitDebugUop.map(uop => uop.debugInfo.dispatchTime - uop.debugInfo.renameTime) 10709aca92b9SYinan Xu val enqRsLatency = commitDebugUop.map(uop => uop.debugInfo.enqRsTime - uop.debugInfo.dispatchTime) 10719aca92b9SYinan Xu val selectLatency = commitDebugUop.map(uop => uop.debugInfo.selectTime - uop.debugInfo.enqRsTime) 10729aca92b9SYinan Xu val issueLatency = commitDebugUop.map(uop => uop.debugInfo.issueTime - uop.debugInfo.selectTime) 10739aca92b9SYinan Xu val executeLatency = commitDebugUop.map(uop => uop.debugInfo.writebackTime - uop.debugInfo.issueTime) 10749aca92b9SYinan Xu val rsFuLatency = commitDebugUop.map(uop => uop.debugInfo.writebackTime - uop.debugInfo.enqRsTime) 10759aca92b9SYinan Xu val commitLatency = commitDebugUop.map(uop => timer - uop.debugInfo.writebackTime) 1076*8744445eSMaxpicca-Li val accessLatency = commitDebugUop.map(uop => uop.debugInfo.writebackTime - uop.debugInfo.issueTime) 1077*8744445eSMaxpicca-Li val tlbLatency = commitDebugUop.map(uop => uop.debugInfo.tlbRespTime - uop.debugInfo.tlbFirstReqTime) 10789aca92b9SYinan Xu def latencySum(cond: Seq[Bool], latency: Seq[UInt]): UInt = { 10799aca92b9SYinan Xu cond.zip(latency).map(x => Mux(x._1, x._2, 0.U)).reduce(_ +& _) 10809aca92b9SYinan Xu } 10819aca92b9SYinan Xu for (fuType <- FuType.functionNameMap.keys) { 10829aca92b9SYinan Xu val fuName = FuType.functionNameMap(fuType) 10836474c47fSYinan Xu val commitIsFuType = io.commits.commitValid.zip(commitDebugUop).map(x => x._1 && x._2.ctrl.fuType === fuType.U ) 10849aca92b9SYinan Xu XSPerfAccumulate(s"${fuName}_instr_cnt", ifCommit(PopCount(commitIsFuType))) 10859aca92b9SYinan Xu XSPerfAccumulate(s"${fuName}_latency_dispatch", ifCommit(latencySum(commitIsFuType, dispatchLatency))) 10869aca92b9SYinan Xu XSPerfAccumulate(s"${fuName}_latency_enq_rs", ifCommit(latencySum(commitIsFuType, enqRsLatency))) 10879aca92b9SYinan Xu XSPerfAccumulate(s"${fuName}_latency_select", ifCommit(latencySum(commitIsFuType, selectLatency))) 10889aca92b9SYinan Xu XSPerfAccumulate(s"${fuName}_latency_issue", ifCommit(latencySum(commitIsFuType, issueLatency))) 10899aca92b9SYinan Xu XSPerfAccumulate(s"${fuName}_latency_execute", ifCommit(latencySum(commitIsFuType, executeLatency))) 10909aca92b9SYinan Xu XSPerfAccumulate(s"${fuName}_latency_enq_rs_execute", ifCommit(latencySum(commitIsFuType, rsFuLatency))) 10919aca92b9SYinan Xu XSPerfAccumulate(s"${fuName}_latency_commit", ifCommit(latencySum(commitIsFuType, commitLatency))) 1092c51eab43SYinan Xu if (fuType == FuType.fmac.litValue) { 10939aca92b9SYinan Xu val commitIsFma = commitIsFuType.zip(commitDebugUop).map(x => x._1 && x._2.ctrl.fpu.ren3 ) 10949aca92b9SYinan Xu XSPerfAccumulate(s"${fuName}_instr_cnt_fma", ifCommit(PopCount(commitIsFma))) 10959aca92b9SYinan Xu XSPerfAccumulate(s"${fuName}_latency_enq_rs_execute_fma", ifCommit(latencySum(commitIsFma, rsFuLatency))) 10969aca92b9SYinan Xu XSPerfAccumulate(s"${fuName}_latency_execute_fma", ifCommit(latencySum(commitIsFma, executeLatency))) 10979aca92b9SYinan Xu } 10989aca92b9SYinan Xu } 10999aca92b9SYinan Xu 1100*8744445eSMaxpicca-Li /** 1101*8744445eSMaxpicca-Li * DataBase info: 1102*8744445eSMaxpicca-Li * log trigger is at writeback valid 1103*8744445eSMaxpicca-Li * */ 1104*8744445eSMaxpicca-Li if(!env.FPGAPlatform){ 1105*8744445eSMaxpicca-Li val instTableName = "InstDB" + p(XSCoreParamsKey).HartId.toString 1106*8744445eSMaxpicca-Li val instSiteName = "Rob" + p(XSCoreParamsKey).HartId.toString 1107*8744445eSMaxpicca-Li val debug_instTable = ChiselDB.createTable(instTableName, new DebugInstDB) 1108*8744445eSMaxpicca-Li // FIXME lyq: only get inst (alu, bj, ls) in exuWriteback 1109*8744445eSMaxpicca-Li for (wb <- exuWriteback) { 1110*8744445eSMaxpicca-Li when(wb.valid) { 1111*8744445eSMaxpicca-Li val debug_instData = Wire(new DebugInstDB) 1112*8744445eSMaxpicca-Li val idx = wb.bits.uop.robIdx.value 1113*8744445eSMaxpicca-Li debug_instData.globalID := wb.bits.uop.ctrl.debug_globalID 1114*8744445eSMaxpicca-Li debug_instData.robIdx := idx 1115*8744445eSMaxpicca-Li debug_instData.instType := wb.bits.uop.ctrl.fuType 1116*8744445eSMaxpicca-Li debug_instData.ivaddr := wb.bits.uop.cf.pc 1117*8744445eSMaxpicca-Li debug_instData.dvaddr := wb.bits.debug.vaddr 1118*8744445eSMaxpicca-Li debug_instData.dpaddr := wb.bits.debug.paddr 1119*8744445eSMaxpicca-Li debug_instData.tlbLatency := wb.bits.uop.debugInfo.tlbRespTime - wb.bits.uop.debugInfo.tlbFirstReqTime 1120*8744445eSMaxpicca-Li debug_instData.accessLatency := wb.bits.uop.debugInfo.writebackTime - wb.bits.uop.debugInfo.issueTime 1121*8744445eSMaxpicca-Li debug_instData.executeLatency := wb.bits.uop.debugInfo.writebackTime - wb.bits.uop.debugInfo.issueTime 1122*8744445eSMaxpicca-Li debug_instData.issueLatency := wb.bits.uop.debugInfo.issueTime - wb.bits.uop.debugInfo.selectTime 1123*8744445eSMaxpicca-Li debug_instData.exceptType := wb.bits.uop.cf.exceptionVec 1124*8744445eSMaxpicca-Li debug_instData.lsInfo := debug_lsInfo(idx) 1125*8744445eSMaxpicca-Li debug_instData.mdpInfo.ssid := wb.bits.uop.cf.ssid 1126*8744445eSMaxpicca-Li debug_instData.mdpInfo.waitAllStore := wb.bits.uop.cf.loadWaitStrict && wb.bits.uop.cf.loadWaitBit 1127*8744445eSMaxpicca-Li debug_instTable.log( 1128*8744445eSMaxpicca-Li data = debug_instData, 1129*8744445eSMaxpicca-Li en = wb.valid, 1130*8744445eSMaxpicca-Li site = instSiteName, 1131*8744445eSMaxpicca-Li clock = clock, 1132*8744445eSMaxpicca-Li reset = reset 1133*8744445eSMaxpicca-Li ) 1134*8744445eSMaxpicca-Li } 1135*8744445eSMaxpicca-Li } 1136*8744445eSMaxpicca-Li } 1137*8744445eSMaxpicca-Li 1138*8744445eSMaxpicca-Li 11399aca92b9SYinan Xu //difftest signals 1140f3034303SHaoyuan Feng val firstValidCommit = (deqPtr + PriorityMux(io.commits.commitValid, VecInit(List.tabulate(CommitWidth)(_.U(log2Up(CommitWidth).W))))).value 11419aca92b9SYinan Xu 11429aca92b9SYinan Xu val wdata = Wire(Vec(CommitWidth, UInt(XLEN.W))) 11439aca92b9SYinan Xu val wpc = Wire(Vec(CommitWidth, UInt(XLEN.W))) 1144cbe9a847SYinan Xu 11459aca92b9SYinan Xu for(i <- 0 until CommitWidth) { 11469aca92b9SYinan Xu val idx = deqPtrVec(i).value 11479aca92b9SYinan Xu wdata(i) := debug_exuData(idx) 11489aca92b9SYinan Xu wpc(i) := SignExt(commitDebugUop(i).cf.pc, XLEN) 11499aca92b9SYinan Xu } 11509aca92b9SYinan Xu 11511545277aSYinan Xu if (env.EnableDifftest) { 11529aca92b9SYinan Xu for (i <- 0 until CommitWidth) { 11539aca92b9SYinan Xu val difftest = Module(new DifftestInstrCommit) 1154b211808bShappy-lx // assgin default value 1155b211808bShappy-lx difftest.io := DontCare 1156b211808bShappy-lx 11579aca92b9SYinan Xu difftest.io.clock := clock 11585668a921SJiawei Lin difftest.io.coreid := io.hartId 11599aca92b9SYinan Xu difftest.io.index := i.U 11609aca92b9SYinan Xu 11619aca92b9SYinan Xu val ptr = deqPtrVec(i).value 11629aca92b9SYinan Xu val uop = commitDebugUop(i) 11639aca92b9SYinan Xu val exuOut = debug_exuDebug(ptr) 11649aca92b9SYinan Xu val exuData = debug_exuData(ptr) 11656474c47fSYinan Xu difftest.io.valid := RegNext(RegNext(RegNext(io.commits.commitValid(i) && io.commits.isCommit))) 1166bde9b502SYinan Xu difftest.io.pc := RegNext(RegNext(RegNext(SignExt(uop.cf.pc, XLEN)))) 1167bde9b502SYinan Xu difftest.io.instr := RegNext(RegNext(RegNext(uop.cf.instr))) 1168b211808bShappy-lx difftest.io.robIdx := RegNext(RegNext(RegNext(ZeroExt(ptr, 10)))) 1169b211808bShappy-lx difftest.io.lqIdx := RegNext(RegNext(RegNext(ZeroExt(uop.lqIdx.value, 7)))) 1170b211808bShappy-lx difftest.io.sqIdx := RegNext(RegNext(RegNext(ZeroExt(uop.sqIdx.value, 7)))) 1171b211808bShappy-lx difftest.io.isLoad := RegNext(RegNext(RegNext(io.commits.info(i).commitType === CommitType.LOAD))) 1172b211808bShappy-lx difftest.io.isStore := RegNext(RegNext(RegNext(io.commits.info(i).commitType === CommitType.STORE))) 1173bde9b502SYinan Xu difftest.io.special := RegNext(RegNext(RegNext(CommitType.isFused(io.commits.info(i).commitType)))) 11749aca92b9SYinan Xu // when committing an eliminated move instruction, 11759aca92b9SYinan Xu // we must make sure that skip is properly set to false (output from EXU is random value) 1176bde9b502SYinan Xu difftest.io.skip := RegNext(RegNext(RegNext(Mux(uop.eliminatedMove, false.B, exuOut.isMMIO || exuOut.isPerfCnt)))) 1177bde9b502SYinan Xu difftest.io.isRVC := RegNext(RegNext(RegNext(uop.cf.pd.isRVC))) 11786474c47fSYinan Xu difftest.io.rfwen := RegNext(RegNext(RegNext(io.commits.commitValid(i) && io.commits.info(i).rfWen && io.commits.info(i).ldest =/= 0.U))) 11796474c47fSYinan Xu difftest.io.fpwen := RegNext(RegNext(RegNext(io.commits.commitValid(i) && io.commits.info(i).fpWen))) 1180bde9b502SYinan Xu difftest.io.wpdest := RegNext(RegNext(RegNext(io.commits.info(i).pdest))) 1181bde9b502SYinan Xu difftest.io.wdest := RegNext(RegNext(RegNext(io.commits.info(i).ldest))) 11829aca92b9SYinan Xu 118325ac26c6SWilliam Wang // // runahead commit hint 118425ac26c6SWilliam Wang // val runahead_commit = Module(new DifftestRunaheadCommitEvent) 118525ac26c6SWilliam Wang // runahead_commit.io.clock := clock 118625ac26c6SWilliam Wang // runahead_commit.io.coreid := io.hartId 118725ac26c6SWilliam Wang // runahead_commit.io.index := i.U 118825ac26c6SWilliam Wang // runahead_commit.io.valid := difftest.io.valid && 118925ac26c6SWilliam Wang // (commitBranchValid(i) || commitIsStore(i)) 119025ac26c6SWilliam Wang // // TODO: is branch or store 119125ac26c6SWilliam Wang // runahead_commit.io.pc := difftest.io.pc 11929aca92b9SYinan Xu } 11939aca92b9SYinan Xu } 1194cbe9a847SYinan Xu else if (env.AlwaysBasicDiff) { 1195cbe9a847SYinan Xu // These are the structures used by difftest only and should be optimized after synthesis. 1196cbe9a847SYinan Xu val dt_eliminatedMove = Mem(RobSize, Bool()) 1197cbe9a847SYinan Xu val dt_isRVC = Mem(RobSize, Bool()) 1198cbe9a847SYinan Xu val dt_exuDebug = Reg(Vec(RobSize, new DebugBundle)) 1199cbe9a847SYinan Xu for (i <- 0 until RenameWidth) { 1200cbe9a847SYinan Xu when (canEnqueue(i)) { 12016474c47fSYinan Xu dt_eliminatedMove(allocatePtrVec(i).value) := io.enq.req(i).bits.eliminatedMove 12026474c47fSYinan Xu dt_isRVC(allocatePtrVec(i).value) := io.enq.req(i).bits.cf.pd.isRVC 1203cbe9a847SYinan Xu } 1204cbe9a847SYinan Xu } 12056ab6918fSYinan Xu for (wb <- exuWriteback) { 12066ab6918fSYinan Xu when (wb.valid) { 12076ab6918fSYinan Xu val wbIdx = wb.bits.uop.robIdx.value 12086ab6918fSYinan Xu dt_exuDebug(wbIdx) := wb.bits.debug 1209cbe9a847SYinan Xu } 1210cbe9a847SYinan Xu } 1211cbe9a847SYinan Xu // Always instantiate basic difftest modules. 1212cbe9a847SYinan Xu for (i <- 0 until CommitWidth) { 1213cbe9a847SYinan Xu val commitInfo = io.commits.info(i) 1214cbe9a847SYinan Xu val ptr = deqPtrVec(i).value 1215cbe9a847SYinan Xu val exuOut = dt_exuDebug(ptr) 1216cbe9a847SYinan Xu val eliminatedMove = dt_eliminatedMove(ptr) 1217cbe9a847SYinan Xu val isRVC = dt_isRVC(ptr) 1218cbe9a847SYinan Xu 1219cbe9a847SYinan Xu val difftest = Module(new DifftestBasicInstrCommit) 1220cbe9a847SYinan Xu difftest.io.clock := clock 12215668a921SJiawei Lin difftest.io.coreid := io.hartId 1222cbe9a847SYinan Xu difftest.io.index := i.U 12236474c47fSYinan Xu difftest.io.valid := RegNext(RegNext(RegNext(io.commits.commitValid(i) && io.commits.isCommit))) 1224bde9b502SYinan Xu difftest.io.special := RegNext(RegNext(RegNext(CommitType.isFused(commitInfo.commitType)))) 1225bde9b502SYinan Xu difftest.io.skip := RegNext(RegNext(RegNext(Mux(eliminatedMove, false.B, exuOut.isMMIO || exuOut.isPerfCnt)))) 1226bde9b502SYinan Xu difftest.io.isRVC := RegNext(RegNext(RegNext(isRVC))) 12276474c47fSYinan Xu difftest.io.rfwen := RegNext(RegNext(RegNext(io.commits.commitValid(i) && commitInfo.rfWen && commitInfo.ldest =/= 0.U))) 12286474c47fSYinan Xu difftest.io.fpwen := RegNext(RegNext(RegNext(io.commits.commitValid(i) && commitInfo.fpWen))) 1229bde9b502SYinan Xu difftest.io.wpdest := RegNext(RegNext(RegNext(commitInfo.pdest))) 1230bde9b502SYinan Xu difftest.io.wdest := RegNext(RegNext(RegNext(commitInfo.ldest))) 1231cbe9a847SYinan Xu } 1232cbe9a847SYinan Xu } 12339aca92b9SYinan Xu 12341545277aSYinan Xu if (env.EnableDifftest) { 12359aca92b9SYinan Xu for (i <- 0 until CommitWidth) { 12369aca92b9SYinan Xu val difftest = Module(new DifftestLoadEvent) 12379aca92b9SYinan Xu difftest.io.clock := clock 12385668a921SJiawei Lin difftest.io.coreid := io.hartId 12399aca92b9SYinan Xu difftest.io.index := i.U 12409aca92b9SYinan Xu 12419aca92b9SYinan Xu val ptr = deqPtrVec(i).value 12429aca92b9SYinan Xu val uop = commitDebugUop(i) 12439aca92b9SYinan Xu val exuOut = debug_exuDebug(ptr) 12446474c47fSYinan Xu difftest.io.valid := RegNext(RegNext(RegNext(io.commits.commitValid(i) && io.commits.isCommit))) 124575c2f5aeSwakafa difftest.io.paddr := RegNext(RegNext(RegNext(exuOut.paddr))) 124675c2f5aeSwakafa difftest.io.opType := RegNext(RegNext(RegNext(uop.ctrl.fuOpType))) 124775c2f5aeSwakafa difftest.io.fuType := RegNext(RegNext(RegNext(uop.ctrl.fuType))) 12489aca92b9SYinan Xu } 12499aca92b9SYinan Xu } 12509aca92b9SYinan Xu 1251cbe9a847SYinan Xu // Always instantiate basic difftest modules. 12521545277aSYinan Xu if (env.EnableDifftest) { 1253cbe9a847SYinan Xu val dt_isXSTrap = Mem(RobSize, Bool()) 1254cbe9a847SYinan Xu for (i <- 0 until RenameWidth) { 1255cbe9a847SYinan Xu when (canEnqueue(i)) { 12566474c47fSYinan Xu dt_isXSTrap(allocatePtrVec(i).value) := io.enq.req(i).bits.ctrl.isXSTrap 1257cbe9a847SYinan Xu } 1258cbe9a847SYinan Xu } 12596474c47fSYinan Xu val trapVec = io.commits.commitValid.zip(deqPtrVec).map{ case (v, d) => io.commits.isCommit && v && dt_isXSTrap(d.value) } 1260cbe9a847SYinan Xu val hitTrap = trapVec.reduce(_||_) 1261cbe9a847SYinan Xu val trapCode = PriorityMux(wdata.zip(trapVec).map(x => x._2 -> x._1)) 1262cbe9a847SYinan Xu val trapPC = SignExt(PriorityMux(wpc.zip(trapVec).map(x => x._2 ->x._1)), XLEN) 12639aca92b9SYinan Xu val difftest = Module(new DifftestTrapEvent) 12649aca92b9SYinan Xu difftest.io.clock := clock 12655668a921SJiawei Lin difftest.io.coreid := io.hartId 12669aca92b9SYinan Xu difftest.io.valid := hitTrap 12679aca92b9SYinan Xu difftest.io.code := trapCode 12689aca92b9SYinan Xu difftest.io.pc := trapPC 12699aca92b9SYinan Xu difftest.io.cycleCnt := timer 12709aca92b9SYinan Xu difftest.io.instrCnt := instrCnt 1271f37600a6SYinan Xu difftest.io.hasWFI := hasWFI 12729aca92b9SYinan Xu } 1273cbe9a847SYinan Xu else if (env.AlwaysBasicDiff) { 1274cbe9a847SYinan Xu val dt_isXSTrap = Mem(RobSize, Bool()) 1275cbe9a847SYinan Xu for (i <- 0 until RenameWidth) { 1276cbe9a847SYinan Xu when (canEnqueue(i)) { 12776474c47fSYinan Xu dt_isXSTrap(allocatePtrVec(i).value) := io.enq.req(i).bits.ctrl.isXSTrap 1278cbe9a847SYinan Xu } 1279cbe9a847SYinan Xu } 12806474c47fSYinan Xu val trapVec = io.commits.commitValid.zip(deqPtrVec).map{ case (v, d) => io.commits.isCommit && v && dt_isXSTrap(d.value) } 1281cbe9a847SYinan Xu val hitTrap = trapVec.reduce(_||_) 1282cbe9a847SYinan Xu val difftest = Module(new DifftestBasicTrapEvent) 1283cbe9a847SYinan Xu difftest.io.clock := clock 12845668a921SJiawei Lin difftest.io.coreid := io.hartId 1285cbe9a847SYinan Xu difftest.io.valid := hitTrap 1286cbe9a847SYinan Xu difftest.io.cycleCnt := timer 1287cbe9a847SYinan Xu difftest.io.instrCnt := instrCnt 1288cbe9a847SYinan Xu } 12891545277aSYinan Xu 129043bdc4d9SYinan Xu val validEntriesBanks = (0 until (RobSize + 63) / 64).map(i => RegNext(PopCount(valid.drop(i * 64).take(64)))) 129143bdc4d9SYinan Xu val validEntries = RegNext(ParallelOperation(validEntriesBanks, (a: UInt, b: UInt) => a +& b)) 129243bdc4d9SYinan Xu val commitMoveVec = VecInit(io.commits.commitValid.zip(commitIsMove).map{ case (v, m) => v && m }) 129343bdc4d9SYinan Xu val commitLoadVec = VecInit(commitLoadValid) 129443bdc4d9SYinan Xu val commitBranchVec = VecInit(commitBranchValid) 129543bdc4d9SYinan Xu val commitLoadWaitVec = VecInit(commitLoadValid.zip(commitLoadWaitBit).map{ case (v, w) => v && w }) 129643bdc4d9SYinan Xu val commitStoreVec = VecInit(io.commits.commitValid.zip(commitIsStore).map{ case (v, t) => v && t }) 1297cd365d4cSrvcoresjw val perfEvents = Seq( 1298cd365d4cSrvcoresjw ("rob_interrupt_num ", io.flushOut.valid && intrEnable ), 1299cd365d4cSrvcoresjw ("rob_exception_num ", io.flushOut.valid && exceptionEnable ), 1300cd365d4cSrvcoresjw ("rob_flush_pipe_num ", io.flushOut.valid && isFlushPipe ), 1301cd365d4cSrvcoresjw ("rob_replay_inst_num ", io.flushOut.valid && isFlushPipe && deqHasReplayInst ), 1302cd365d4cSrvcoresjw ("rob_commitUop ", ifCommit(commitCnt) ), 13037e8294acSYinan Xu ("rob_commitInstr ", ifCommitReg(trueCommitCnt) ), 130443bdc4d9SYinan Xu ("rob_commitInstrMove ", ifCommitReg(PopCount(RegNext(commitMoveVec))) ), 13057e8294acSYinan Xu ("rob_commitInstrFused ", ifCommitReg(fuseCommitCnt) ), 130643bdc4d9SYinan Xu ("rob_commitInstrLoad ", ifCommitReg(PopCount(RegNext(commitLoadVec))) ), 130743bdc4d9SYinan Xu ("rob_commitInstrBranch ", ifCommitReg(PopCount(RegNext(commitBranchVec))) ), 130843bdc4d9SYinan Xu ("rob_commitInstrLoadWait", ifCommitReg(PopCount(RegNext(commitLoadWaitVec))) ), 130943bdc4d9SYinan Xu ("rob_commitInstrStore ", ifCommitReg(PopCount(RegNext(commitStoreVec))) ), 13106474c47fSYinan Xu ("rob_walkInstr ", Mux(io.commits.isWalk, PopCount(io.commits.walkValid), 0.U) ), 1311ccfddc82SHaojin Tang ("rob_walkCycle ", (state === s_walk) ), 13127e8294acSYinan Xu ("rob_1_4_valid ", validEntries <= (RobSize / 4).U ), 13137e8294acSYinan Xu ("rob_2_4_valid ", validEntries > (RobSize / 4).U && validEntries <= (RobSize / 2).U ), 13147e8294acSYinan Xu ("rob_3_4_valid ", validEntries > (RobSize / 2).U && validEntries <= (RobSize * 3 / 4).U), 13157e8294acSYinan Xu ("rob_4_4_valid ", validEntries > (RobSize * 3 / 4).U ), 1316cd365d4cSrvcoresjw ) 13171ca0e4f3SYinan Xu generatePerfEvent() 13189aca92b9SYinan Xu} 1319