1e4f69d78Ssfencevma/*************************************************************************************** 2e4f69d78Ssfencevma* Copyright (c) 2020-2021 Institute of Computing Technology, Chinese Academy of Sciences 3e4f69d78Ssfencevma* Copyright (c) 2020-2021 Peng Cheng Laboratory 4e4f69d78Ssfencevma* 5e4f69d78Ssfencevma* XiangShan is licensed under Mulan PSL v2. 6e4f69d78Ssfencevma* You can use this software according to the terms and conditions of the Mulan PSL v2. 7e4f69d78Ssfencevma* You may obtain a copy of Mulan PSL v2 at: 8e4f69d78Ssfencevma* http://license.coscl.org.cn/MulanPSL2 9e4f69d78Ssfencevma* 10e4f69d78Ssfencevma* THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND, 11e4f69d78Ssfencevma* EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT, 12e4f69d78Ssfencevma* MERCHANTABILITY OR FIT FOR A PARTICULAR PURPOSE. 13e4f69d78Ssfencevma* 14e4f69d78Ssfencevma* See the Mulan PSL v2 for more details. 15e4f69d78Ssfencevma***************************************************************************************/ 16e4f69d78Ssfencevma 17e4f69d78Ssfencevmapackage xiangshan.mem 18e4f69d78Ssfencevma 19e4f69d78Ssfencevmaimport chisel3._ 20e4f69d78Ssfencevmaimport chisel3.util._ 218891a219SYinan Xuimport org.chipsalliance.cde.config._ 22e4f69d78Ssfencevmaimport xiangshan._ 23e4f69d78Ssfencevmaimport xiangshan.backend.rob.RobPtr 24e4f69d78Ssfencevmaimport xiangshan.cache._ 25e4f69d78Ssfencevmaimport xiangshan.frontend.FtqPtr 26e4f69d78Ssfencevmaimport xiangshan.mem.mdp._ 27e4f69d78Ssfencevmaimport utils._ 28e4f69d78Ssfencevmaimport utility._ 29dfb4c5dcSXuan Huimport xiangshan.backend.Bundles.DynInst 30e4f69d78Ssfencevma 31e4f69d78Ssfencevmaclass LoadQueueRAW(implicit p: Parameters) extends XSModule 32e4f69d78Ssfencevma with HasDCacheParameters 33e4f69d78Ssfencevma with HasCircularQueuePtrHelper 34e4f69d78Ssfencevma with HasLoadHelper 35e4f69d78Ssfencevma with HasPerfEvents 36e4f69d78Ssfencevma{ 37e4f69d78Ssfencevma val io = IO(new Bundle() { 3814a67055Ssfencevma // control 39e4f69d78Ssfencevma val redirect = Flipped(ValidIO(new Redirect)) 40627be78bSgood-circle val vecFeedback = Vec(VecLoadPipelineWidth, Flipped(ValidIO(new FeedbackToLsqIO))) 4114a67055Ssfencevma 4214a67055Ssfencevma // violation query 4314a67055Ssfencevma val query = Vec(LoadPipelineWidth, Flipped(new LoadNukeQueryIO)) 4414a67055Ssfencevma 4514a67055Ssfencevma // from store unit s1 46e4f69d78Ssfencevma val storeIn = Vec(StorePipelineWidth, Flipped(Valid(new LsPipelineBundle))) 4714a67055Ssfencevma 4814a67055Ssfencevma // global rollback flush 49e4f69d78Ssfencevma val rollback = Output(Valid(new Redirect)) 5014a67055Ssfencevma 5114a67055Ssfencevma // to LoadQueueReplay 52e4f69d78Ssfencevma val stAddrReadySqPtr = Input(new SqPtr) 53e4f69d78Ssfencevma val stIssuePtr = Input(new SqPtr) 54e4f69d78Ssfencevma val lqFull = Output(Bool()) 55e4f69d78Ssfencevma }) 56e4f69d78Ssfencevma 57e4f69d78Ssfencevma println("LoadQueueRAW: size " + LoadQueueRAWSize) 58e4f69d78Ssfencevma // LoadQueueRAW field 59e4f69d78Ssfencevma // +-------+--------+-------+-------+-----------+ 60e4f69d78Ssfencevma // | Valid | uop |PAddr | Mask | Datavalid | 61e4f69d78Ssfencevma // +-------+--------+-------+-------+-----------+ 62e4f69d78Ssfencevma // 63e4f69d78Ssfencevma // Field descriptions: 64e4f69d78Ssfencevma // Allocated : entry has been allocated already 65e4f69d78Ssfencevma // MicroOp : inst's microOp 66e4f69d78Ssfencevma // PAddr : physical address. 67e4f69d78Ssfencevma // Mask : data mask 68e4f69d78Ssfencevma // Datavalid : data valid 69e4f69d78Ssfencevma // 70082b30d1SHuijin Li 71e4f69d78Ssfencevma val allocated = RegInit(VecInit(List.fill(LoadQueueRAWSize)(false.B))) // The control signals need to explicitly indicate the initial value 72082b30d1SHuijin Li 73082b30d1SHuijin Li 74dfb4c5dcSXuan Hu val uop = Reg(Vec(LoadQueueRAWSize, new DynInst)) 75e4f69d78Ssfencevma val paddrModule = Module(new LqPAddrModule( 76e4f69d78Ssfencevma gen = UInt(PAddrBits.W), 77e4f69d78Ssfencevma numEntries = LoadQueueRAWSize, 78e4f69d78Ssfencevma numRead = LoadPipelineWidth, 79e4f69d78Ssfencevma numWrite = LoadPipelineWidth, 80e4f69d78Ssfencevma numWBank = LoadQueueNWriteBanks, 81e4f69d78Ssfencevma numWDelay = 2, 82e4f69d78Ssfencevma numCamPort = StorePipelineWidth 83e4f69d78Ssfencevma )) 84e4f69d78Ssfencevma paddrModule.io := DontCare 85e4f69d78Ssfencevma val maskModule = Module(new LqMaskModule( 86cdbff57cSHaoyuan Feng gen = UInt((VLEN/8).W), 87e4f69d78Ssfencevma numEntries = LoadQueueRAWSize, 88e4f69d78Ssfencevma numRead = LoadPipelineWidth, 89e4f69d78Ssfencevma numWrite = LoadPipelineWidth, 90e4f69d78Ssfencevma numWBank = LoadQueueNWriteBanks, 91e4f69d78Ssfencevma numWDelay = 2, 92e4f69d78Ssfencevma numCamPort = StorePipelineWidth 93e4f69d78Ssfencevma )) 94e4f69d78Ssfencevma maskModule.io := DontCare 95e4f69d78Ssfencevma val datavalid = RegInit(VecInit(List.fill(LoadQueueRAWSize)(false.B))) 96e4f69d78Ssfencevma 97e4f69d78Ssfencevma // freeliset: store valid entries index. 98e4f69d78Ssfencevma // +---+---+--------------+-----+-----+ 99e4f69d78Ssfencevma // | 0 | 1 | ...... | n-2 | n-1 | 100e4f69d78Ssfencevma // +---+---+--------------+-----+-----+ 101e4f69d78Ssfencevma val freeList = Module(new FreeList( 102e4f69d78Ssfencevma size = LoadQueueRAWSize, 103e4f69d78Ssfencevma allocWidth = LoadPipelineWidth, 104e4f69d78Ssfencevma freeWidth = 4, 105f275998aSsfencevma enablePreAlloc = true, 106e4f69d78Ssfencevma moduleName = "LoadQueueRAW freelist" 107e4f69d78Ssfencevma )) 108e4f69d78Ssfencevma freeList.io := DontCare 109e4f69d78Ssfencevma 110e4f69d78Ssfencevma // LoadQueueRAW enqueue 111e4f69d78Ssfencevma val canEnqueue = io.query.map(_.req.valid) 112e4f69d78Ssfencevma val cancelEnqueue = io.query.map(_.req.bits.uop.robIdx.needFlush(io.redirect)) 113e4f69d78Ssfencevma val allAddrCheck = io.stIssuePtr === io.stAddrReadySqPtr 114e4f69d78Ssfencevma val hasAddrInvalidStore = io.query.map(_.req.bits.uop.sqIdx).map(sqIdx => { 115e4f69d78Ssfencevma Mux(!allAddrCheck, isBefore(io.stAddrReadySqPtr, sqIdx), false.B) 116e4f69d78Ssfencevma }) 117e4f69d78Ssfencevma val needEnqueue = canEnqueue.zip(hasAddrInvalidStore).zip(cancelEnqueue).map { case ((v, r), c) => v && r && !c } 118e4f69d78Ssfencevma 119e4f69d78Ssfencevma // Allocate logic 120f275998aSsfencevma val acceptedVec = Wire(Vec(LoadPipelineWidth, Bool())) 12131fae68eSYanqin Li val enqIndexVec = Wire(Vec(LoadPipelineWidth, UInt(log2Up(LoadQueueRAWSize).W))) 122e4f69d78Ssfencevma 123e4f69d78Ssfencevma // Enqueue 124e4f69d78Ssfencevma for ((enq, w) <- io.query.map(_.req).zipWithIndex) { 125f275998aSsfencevma acceptedVec(w) := false.B 126e4f69d78Ssfencevma paddrModule.io.wen(w) := false.B 127e4f69d78Ssfencevma maskModule.io.wen(w) := false.B 128e4f69d78Ssfencevma freeList.io.doAllocate(w) := false.B 129e4f69d78Ssfencevma 130f275998aSsfencevma freeList.io.allocateReq(w) := true.B 131e4f69d78Ssfencevma 132e4f69d78Ssfencevma // Allocate ready 133f275998aSsfencevma val offset = PopCount(needEnqueue.take(w)) 134f275998aSsfencevma val canAccept = freeList.io.canAllocate(offset) 135f275998aSsfencevma val enqIndex = freeList.io.allocateSlot(offset) 136f275998aSsfencevma enq.ready := Mux(needEnqueue(w), canAccept, true.B) 137e4f69d78Ssfencevma 138f275998aSsfencevma enqIndexVec(w) := enqIndex 139e4f69d78Ssfencevma when (needEnqueue(w) && enq.ready) { 140f275998aSsfencevma acceptedVec(w) := true.B 141f275998aSsfencevma 142e4f69d78Ssfencevma val debug_robIdx = enq.bits.uop.robIdx.asUInt 143e4f69d78Ssfencevma XSError(allocated(enqIndex), p"LoadQueueRAW: You can not write an valid entry! check: ldu $w, robIdx $debug_robIdx") 144e4f69d78Ssfencevma 145e4f69d78Ssfencevma freeList.io.doAllocate(w) := true.B 146e4f69d78Ssfencevma 147e4f69d78Ssfencevma // Allocate new entry 148e4f69d78Ssfencevma allocated(enqIndex) := true.B 149e4f69d78Ssfencevma 150e4f69d78Ssfencevma // Write paddr 151e4f69d78Ssfencevma paddrModule.io.wen(w) := true.B 152e4f69d78Ssfencevma paddrModule.io.waddr(w) := enqIndex 153e4f69d78Ssfencevma paddrModule.io.wdata(w) := enq.bits.paddr 154e4f69d78Ssfencevma 155e4f69d78Ssfencevma // Write mask 156e4f69d78Ssfencevma maskModule.io.wen(w) := true.B 157e4f69d78Ssfencevma maskModule.io.waddr(w) := enqIndex 158e4f69d78Ssfencevma maskModule.io.wdata(w) := enq.bits.mask 159e4f69d78Ssfencevma 160e4f69d78Ssfencevma // Fill info 161e4f69d78Ssfencevma uop(enqIndex) := enq.bits.uop 16214a67055Ssfencevma datavalid(enqIndex) := enq.bits.data_valid 163e4f69d78Ssfencevma } 164e4f69d78Ssfencevma } 165e4f69d78Ssfencevma 166e4f69d78Ssfencevma for ((query, w) <- io.query.map(_.resp).zipWithIndex) { 167e4f69d78Ssfencevma query.valid := RegNext(io.query(w).req.valid) 16814a67055Ssfencevma query.bits.rep_frm_fetch := RegNext(false.B) 169e4f69d78Ssfencevma } 170e4f69d78Ssfencevma 171e4f69d78Ssfencevma // LoadQueueRAW deallocate 172e4f69d78Ssfencevma val freeMaskVec = Wire(Vec(LoadQueueRAWSize, Bool())) 173e4f69d78Ssfencevma 174e4f69d78Ssfencevma // init 175e4f69d78Ssfencevma freeMaskVec.map(e => e := false.B) 176e4f69d78Ssfencevma 177e4f69d78Ssfencevma // when the stores that "older than" current load address were ready. 178e4f69d78Ssfencevma // current load will be released. 179627be78bSgood-circle val vecLdCanceltmp = Wire(Vec(LoadQueueRAWSize, Vec(VecLoadPipelineWidth, Bool()))) 18026af847eSgood-circle val vecLdCancel = Wire(Vec(LoadQueueRAWSize, Bool())) 181e4f69d78Ssfencevma for (i <- 0 until LoadQueueRAWSize) { 182e4f69d78Ssfencevma val deqNotBlock = Mux(!allAddrCheck, !isBefore(io.stAddrReadySqPtr, uop(i).sqIdx), true.B) 183e4f69d78Ssfencevma val needCancel = uop(i).robIdx.needFlush(io.redirect) 184627be78bSgood-circle val fbk = io.vecFeedback 185627be78bSgood-circle for (j <- 0 until VecLoadPipelineWidth) { 186*ff9b84b9Slwd vecLdCanceltmp(i)(j) := allocated(i) && fbk(j).valid && fbk(j).bits.isFlush && uop(i).robIdx === fbk(j).bits.robidx && uop(i).uopIdx === fbk(j).bits.uopidx 187627be78bSgood-circle } 188627be78bSgood-circle vecLdCancel(i) := vecLdCanceltmp(i).reduce(_ || _) 189e4f69d78Ssfencevma 19026af847eSgood-circle when (allocated(i) && (deqNotBlock || needCancel || vecLdCancel(i))) { 191e4f69d78Ssfencevma allocated(i) := false.B 192e4f69d78Ssfencevma freeMaskVec(i) := true.B 193e4f69d78Ssfencevma } 194e4f69d78Ssfencevma } 195e4f69d78Ssfencevma 196e4f69d78Ssfencevma // if need replay deallocate entry 197082b30d1SHuijin Li val lastCanAccept = GatedValidRegNext(acceptedVec) 198082b30d1SHuijin Li val lastAllocIndex = GatedRegNext(enqIndexVec) 199e4f69d78Ssfencevma 20014a67055Ssfencevma for ((revoke, w) <- io.query.map(_.revoke).zipWithIndex) { 20114a67055Ssfencevma val revokeValid = revoke && lastCanAccept(w) 20214a67055Ssfencevma val revokeIndex = lastAllocIndex(w) 203e4f69d78Ssfencevma 20414a67055Ssfencevma when (allocated(revokeIndex) && revokeValid) { 20514a67055Ssfencevma allocated(revokeIndex) := false.B 20614a67055Ssfencevma freeMaskVec(revokeIndex) := true.B 207e4f69d78Ssfencevma } 208e4f69d78Ssfencevma } 209e4f69d78Ssfencevma freeList.io.free := freeMaskVec.asUInt 210e4f69d78Ssfencevma 211e4f69d78Ssfencevma io.lqFull := freeList.io.empty 212e4f69d78Ssfencevma 213e4f69d78Ssfencevma /** 214e4f69d78Ssfencevma * Store-Load Memory violation detection 215e4f69d78Ssfencevma * Scheme 1(Current scheme): flush the pipeline then re-fetch from the load instruction (like old load queue). 216e4f69d78Ssfencevma * Scheme 2 : re-fetch instructions from the first instruction after the store instruction. 217e4f69d78Ssfencevma * 218e4f69d78Ssfencevma * When store writes back, it searches LoadQueue for younger load instructions 219e4f69d78Ssfencevma * with the same load physical address. They loaded wrong data and need re-execution. 220e4f69d78Ssfencevma * 221e4f69d78Ssfencevma * Cycle 0: Store Writeback 222e4f69d78Ssfencevma * Generate match vector for store address with rangeMask(stPtr, enqPtr). 223e4f69d78Ssfencevma * Cycle 1: Select oldest load from select group. 224e4f69d78Ssfencevma * Cycle x: Redirect Fire 225e4f69d78Ssfencevma * Choose the oldest load from LoadPipelineWidth oldest loads. 226e4f69d78Ssfencevma * Prepare redirect request according to the detected violation. 227e4f69d78Ssfencevma * Fire redirect request (if valid) 228e4f69d78Ssfencevma */ 229e4f69d78Ssfencevma // SelectGroup 0 SelectGroup 1 SelectGroup y 230e4f69d78Ssfencevma // stage 0: lq lq lq ...... lq lq lq ....... lq lq lq 231e4f69d78Ssfencevma // | | | | | | | | | 232e4f69d78Ssfencevma // stage 1: lq lq lq ...... lq lq lq ....... lq lq lq 233e4f69d78Ssfencevma // \ | / ...... \ | / ....... \ | / 234e4f69d78Ssfencevma // stage 2: lq lq lq 235e4f69d78Ssfencevma // \ | / ....... \ | / ........ \ | / 236e4f69d78Ssfencevma // stage 3: lq lq lq 237e4f69d78Ssfencevma // ... 238e4f69d78Ssfencevma // ... 239e4f69d78Ssfencevma // | 240e4f69d78Ssfencevma // stage x: lq 241e4f69d78Ssfencevma // | 242e4f69d78Ssfencevma // rollback req 243e4f69d78Ssfencevma 244e4f69d78Ssfencevma // select logic 245e4f69d78Ssfencevma val SelectGroupSize = RollbackGroupSize 246e4f69d78Ssfencevma val lgSelectGroupSize = log2Ceil(SelectGroupSize) 247e4f69d78Ssfencevma val TotalSelectCycles = scala.math.ceil(log2Ceil(LoadQueueRAWSize).toFloat / lgSelectGroupSize).toInt + 1 248e4f69d78Ssfencevma 249e4f69d78Ssfencevma def selectPartialOldest[T <: XSBundleWithMicroOp](valid: Seq[Bool], bits: Seq[T]): (Seq[Bool], Seq[T]) = { 250e4f69d78Ssfencevma assert(valid.length == bits.length) 251e4f69d78Ssfencevma if (valid.length == 0 || valid.length == 1) { 252e4f69d78Ssfencevma (valid, bits) 253e4f69d78Ssfencevma } else if (valid.length == 2) { 254e4f69d78Ssfencevma val res = Seq.fill(2)(Wire(ValidIO(chiselTypeOf(bits(0))))) 255e4f69d78Ssfencevma for (i <- res.indices) { 256e4f69d78Ssfencevma res(i).valid := valid(i) 257e4f69d78Ssfencevma res(i).bits := bits(i) 258e4f69d78Ssfencevma } 259e4f69d78Ssfencevma val oldest = Mux(valid(0) && valid(1), Mux(isAfter(bits(0).uop.robIdx, bits(1).uop.robIdx), res(1), res(0)), Mux(valid(0) && !valid(1), res(0), res(1))) 260e4f69d78Ssfencevma (Seq(oldest.valid), Seq(oldest.bits)) 261e4f69d78Ssfencevma } else { 262e4f69d78Ssfencevma val left = selectPartialOldest(valid.take(valid.length / 2), bits.take(bits.length / 2)) 263e4f69d78Ssfencevma val right = selectPartialOldest(valid.takeRight(valid.length - (valid.length / 2)), bits.takeRight(bits.length - (bits.length / 2))) 264e4f69d78Ssfencevma selectPartialOldest(left._1 ++ right._1, left._2 ++ right._2) 265e4f69d78Ssfencevma } 266e4f69d78Ssfencevma } 267e4f69d78Ssfencevma 268e4f69d78Ssfencevma def selectOldest[T <: XSBundleWithMicroOp](valid: Seq[Bool], bits: Seq[T]): (Seq[Bool], Seq[T]) = { 269e4f69d78Ssfencevma assert(valid.length == bits.length) 270e4f69d78Ssfencevma val numSelectGroups = scala.math.ceil(valid.length.toFloat / SelectGroupSize).toInt 271e4f69d78Ssfencevma 272e4f69d78Ssfencevma // group info 273e4f69d78Ssfencevma val selectValidGroups = 274e4f69d78Ssfencevma if (valid.length <= SelectGroupSize) { 275e4f69d78Ssfencevma Seq(valid) 276e4f69d78Ssfencevma } else { 277e4f69d78Ssfencevma (0 until numSelectGroups).map(g => { 278e4f69d78Ssfencevma if (valid.length < (g + 1) * SelectGroupSize) { 279e4f69d78Ssfencevma valid.takeRight(valid.length - g * SelectGroupSize) 280e4f69d78Ssfencevma } else { 281e4f69d78Ssfencevma (0 until SelectGroupSize).map(j => valid(g * SelectGroupSize + j)) 282e4f69d78Ssfencevma } 283e4f69d78Ssfencevma }) 284e4f69d78Ssfencevma } 285e4f69d78Ssfencevma val selectBitsGroups = 286e4f69d78Ssfencevma if (bits.length <= SelectGroupSize) { 287e4f69d78Ssfencevma Seq(bits) 288e4f69d78Ssfencevma } else { 289e4f69d78Ssfencevma (0 until numSelectGroups).map(g => { 290e4f69d78Ssfencevma if (bits.length < (g + 1) * SelectGroupSize) { 291e4f69d78Ssfencevma bits.takeRight(bits.length - g * SelectGroupSize) 292e4f69d78Ssfencevma } else { 293e4f69d78Ssfencevma (0 until SelectGroupSize).map(j => bits(g * SelectGroupSize + j)) 294e4f69d78Ssfencevma } 295e4f69d78Ssfencevma }) 296e4f69d78Ssfencevma } 297e4f69d78Ssfencevma 298e4f69d78Ssfencevma // select logic 299e4f69d78Ssfencevma if (valid.length <= SelectGroupSize) { 300e4f69d78Ssfencevma val (selValid, selBits) = selectPartialOldest(valid, bits) 301082b30d1SHuijin Li val selValidNext = GatedValidRegNext(selValid(0)) 302082b30d1SHuijin Li val selBitsNext = RegEnable(selBits(0), selValid(0)) 303f275998aSsfencevma (Seq(selValidNext && !selBitsNext.uop.robIdx.needFlush(io.redirect) && !selBitsNext.uop.robIdx.needFlush(RegNext(io.redirect))), Seq(selBitsNext)) 304e4f69d78Ssfencevma } else { 305e4f69d78Ssfencevma val select = (0 until numSelectGroups).map(g => { 306e4f69d78Ssfencevma val (selValid, selBits) = selectPartialOldest(selectValidGroups(g), selectBitsGroups(g)) 307f275998aSsfencevma val selValidNext = RegNext(selValid(0)) 308082b30d1SHuijin Li val selBitsNext = RegEnable(selBits(0), selValid(0)) 309f275998aSsfencevma (selValidNext && !selBitsNext.uop.robIdx.needFlush(io.redirect) && !selBitsNext.uop.robIdx.needFlush(RegNext(io.redirect)), selBitsNext) 310e4f69d78Ssfencevma }) 311e4f69d78Ssfencevma selectOldest(select.map(_._1), select.map(_._2)) 312e4f69d78Ssfencevma } 313e4f69d78Ssfencevma } 314e4f69d78Ssfencevma 31526af847eSgood-circle val storeIn = io.storeIn 316e4f69d78Ssfencevma 31720a5248fSzhanglinjuan def detectRollback(i: Int) = { 318aebc38d1Ssfencevma paddrModule.io.violationMdata(i) := RegNext(storeIn(i).bits.paddr) 319aebc38d1Ssfencevma maskModule.io.violationMdata(i) := RegNext(storeIn(i).bits.mask) 32020a5248fSzhanglinjuan 321aebc38d1Ssfencevma val addrMaskMatch = paddrModule.io.violationMmask(i).asUInt & maskModule.io.violationMmask(i).asUInt 322082b30d1SHuijin Li val entryNeedCheck = GatedValidRegNext(VecInit((0 until LoadQueueRAWSize).map(j => { 32320a5248fSzhanglinjuan allocated(j) && isAfter(uop(j).robIdx, storeIn(i).bits.uop.robIdx) && datavalid(j) && !uop(j).robIdx.needFlush(io.redirect) 324e4f69d78Ssfencevma }))) 325e4f69d78Ssfencevma val lqViolationSelVec = VecInit((0 until LoadQueueRAWSize).map(j => { 326e4f69d78Ssfencevma addrMaskMatch(j) && entryNeedCheck(j) 327e4f69d78Ssfencevma })) 328e4f69d78Ssfencevma 329e4f69d78Ssfencevma val lqViolationSelUopExts = uop.map(uop => { 330e4f69d78Ssfencevma val wrapper = Wire(new XSBundleWithMicroOp) 331e4f69d78Ssfencevma wrapper.uop := uop 332e4f69d78Ssfencevma wrapper 333e4f69d78Ssfencevma }) 334e4f69d78Ssfencevma 335e4f69d78Ssfencevma // select logic 336e4f69d78Ssfencevma val lqSelect = selectOldest(lqViolationSelVec, lqViolationSelUopExts) 337e4f69d78Ssfencevma 338e4f69d78Ssfencevma // select one inst 339e4f69d78Ssfencevma val lqViolation = lqSelect._1(0) 340e4f69d78Ssfencevma val lqViolationUop = lqSelect._2(0).uop 341e4f69d78Ssfencevma 342e4f69d78Ssfencevma XSDebug( 343e4f69d78Ssfencevma lqViolation, 344e4f69d78Ssfencevma "need rollback (ld wb before store) pc %x robidx %d target %x\n", 34520a5248fSzhanglinjuan storeIn(i).bits.uop.pc, storeIn(i).bits.uop.robIdx.asUInt, lqViolationUop.robIdx.asUInt 346e4f69d78Ssfencevma ) 347e4f69d78Ssfencevma 348e4f69d78Ssfencevma (lqViolation, lqViolationUop) 349e4f69d78Ssfencevma } 350e4f69d78Ssfencevma 351e4f69d78Ssfencevma // select rollback (part1) and generate rollback request 352e4f69d78Ssfencevma // rollback check 353e4f69d78Ssfencevma // Lq rollback seq check is done in s3 (next stage), as getting rollbackLq MicroOp is slow 35471489510SXuan Hu val rollbackLqWb = Wire(Vec(StorePipelineWidth, Valid(new DynInst))) 355e4f69d78Ssfencevma val stFtqIdx = Wire(Vec(StorePipelineWidth, new FtqPtr)) 356e4f69d78Ssfencevma val stFtqOffset = Wire(Vec(StorePipelineWidth, UInt(log2Up(PredictWidth).W))) 357e4f69d78Ssfencevma for (w <- 0 until StorePipelineWidth) { 358e4f69d78Ssfencevma val detectedRollback = detectRollback(w) 35920a5248fSzhanglinjuan rollbackLqWb(w).valid := detectedRollback._1 && DelayN(storeIn(w).valid && !storeIn(w).bits.miss, TotalSelectCycles) 360cd2ff98bShappy-lx rollbackLqWb(w).bits := detectedRollback._2 361082b30d1SHuijin Li stFtqIdx(w) := DelayNWithValid(storeIn(w).bits.uop.ftqPtr, storeIn(w).valid, TotalSelectCycles)._2 362082b30d1SHuijin Li stFtqOffset(w) := DelayNWithValid(storeIn(w).bits.uop.ftqOffset, storeIn(w).valid, TotalSelectCycles)._2 363e4f69d78Ssfencevma } 364e4f69d78Ssfencevma 365e4f69d78Ssfencevma // select rollback (part2), generate rollback request, then fire rollback request 366e4f69d78Ssfencevma // Note that we use robIdx - 1.U to flush the load instruction itself. 367e4f69d78Ssfencevma // Thus, here if last cycle's robIdx equals to this cycle's robIdx, it still triggers the redirect. 368e4f69d78Ssfencevma 369e4f69d78Ssfencevma // select uop in parallel 370cd2ff98bShappy-lx def selectOldestRedirect(xs: Seq[Valid[Redirect]]): Vec[Bool] = { 371cd2ff98bShappy-lx val compareVec = (0 until xs.length).map(i => (0 until i).map(j => isAfter(xs(j).bits.robIdx, xs(i).bits.robIdx))) 372cd2ff98bShappy-lx val resultOnehot = VecInit((0 until xs.length).map(i => Cat((0 until xs.length).map(j => 373cd2ff98bShappy-lx (if (j < i) !xs(j).valid || compareVec(i)(j) 374cd2ff98bShappy-lx else if (j == i) xs(i).valid 375cd2ff98bShappy-lx else !xs(j).valid || !compareVec(j)(i)) 376cd2ff98bShappy-lx )).andR)) 377cd2ff98bShappy-lx resultOnehot 378cd2ff98bShappy-lx } 379cd2ff98bShappy-lx val allRedirect = (0 until StorePipelineWidth).map(i => { 380cd2ff98bShappy-lx val redirect = Wire(Valid(new Redirect)) 381cd2ff98bShappy-lx redirect.valid := rollbackLqWb(i).valid 382cd2ff98bShappy-lx redirect.bits := DontCare 38371489510SXuan Hu redirect.bits.isRVC := rollbackLqWb(i).bits.preDecodeInfo.isRVC 384cd2ff98bShappy-lx redirect.bits.robIdx := rollbackLqWb(i).bits.robIdx 3858241cb85SXuan Hu redirect.bits.ftqIdx := rollbackLqWb(i).bits.ftqPtr 3868241cb85SXuan Hu redirect.bits.ftqOffset := rollbackLqWb(i).bits.ftqOffset 387cd2ff98bShappy-lx redirect.bits.stFtqIdx := stFtqIdx(i) 388cd2ff98bShappy-lx redirect.bits.stFtqOffset := stFtqOffset(i) 389cd2ff98bShappy-lx redirect.bits.level := RedirectLevel.flush 3908241cb85SXuan Hu redirect.bits.cfiUpdate.target := rollbackLqWb(i).bits.pc 391cd2ff98bShappy-lx redirect.bits.debug_runahead_checkpoint_id := rollbackLqWb(i).bits.debugInfo.runahead_checkpoint_id 392cd2ff98bShappy-lx redirect 393cd2ff98bShappy-lx }) 394cd2ff98bShappy-lx val oldestOneHot = selectOldestRedirect(allRedirect) 395cd2ff98bShappy-lx val oldestRedirect = Mux1H(oldestOneHot, allRedirect) 396cd2ff98bShappy-lx io.rollback := oldestRedirect 397e4f69d78Ssfencevma 398e4f69d78Ssfencevma // perf cnt 399e4f69d78Ssfencevma val canEnqCount = PopCount(io.query.map(_.req.fire)) 400e4f69d78Ssfencevma val validCount = freeList.io.validCount 401e4f69d78Ssfencevma val allowEnqueue = validCount <= (LoadQueueRAWSize - LoadPipelineWidth).U 402e4f69d78Ssfencevma 403e4f69d78Ssfencevma QueuePerf(LoadQueueRAWSize, validCount, !allowEnqueue) 404e4f69d78Ssfencevma XSPerfAccumulate("enqs", canEnqCount) 405e4f69d78Ssfencevma XSPerfAccumulate("stld_rollback", io.rollback.valid) 406e4f69d78Ssfencevma val perfEvents: Seq[(String, UInt)] = Seq( 407e4f69d78Ssfencevma ("enq ", canEnqCount), 408e4f69d78Ssfencevma ("stld_rollback", io.rollback.valid), 409e4f69d78Ssfencevma ) 410e4f69d78Ssfencevma generatePerfEvent() 411e4f69d78Ssfencevma // end 412e4f69d78Ssfencevma}