1/*************************************************************************************** 2* Copyright (c) 2020-2021 Institute of Computing Technology, Chinese Academy of Sciences 3* Copyright (c) 2020-2021 Peng Cheng Laboratory 4* 5* XiangShan is licensed under Mulan PSL v2. 6* You can use this software according to the terms and conditions of the Mulan PSL v2. 7* You may obtain a copy of Mulan PSL v2 at: 8* http://license.coscl.org.cn/MulanPSL2 9* 10* THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND, 11* EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT, 12* MERCHANTABILITY OR FIT FOR A PARTICULAR PURPOSE. 13* 14* See the Mulan PSL v2 for more details. 15***************************************************************************************/ 16 17package xiangshan.cache 18 19import org.chipsalliance.cde.config.Parameters 20import chisel3._ 21import chisel3.util._ 22import freechips.rocketchip.tilelink.ClientMetadata 23import utility.{ParallelPriorityMux, OneHot, ChiselDB, ParallelORR, ParallelMux, XSDebug, XSPerfAccumulate, HasPerfEvents} 24import xiangshan.{XSCoreParamsKey, L1CacheErrorInfo} 25import xiangshan.cache.wpu._ 26import xiangshan.mem.HasL1PrefetchSourceParameter 27import xiangshan.mem.prefetch._ 28import xiangshan.mem.LqPtr 29 30class LoadPfDbBundle(implicit p: Parameters) extends DCacheBundle { 31 val paddr = UInt(PAddrBits.W) 32} 33 34class LoadPipe(id: Int)(implicit p: Parameters) extends DCacheModule with HasPerfEvents with HasL1PrefetchSourceParameter { 35 val io = IO(new DCacheBundle { 36 // incoming requests 37 val lsu = Flipped(new DCacheLoadIO) 38 val dwpu = Flipped(new DwpuBaseIO(nWays = nWays, nPorts = 1)) 39 val load128Req = Input(Bool()) 40 // req got nacked in stage 0? 41 val nack = Input(Bool()) 42 43 // meta and data array read port 44 val meta_read = DecoupledIO(new MetaReadReq) 45 val meta_resp = Input(Vec(nWays, new Meta)) 46 val extra_meta_resp = Input(Vec(nWays, new DCacheExtraMeta)) 47 48 val tag_read = DecoupledIO(new TagReadReq) 49 val tag_resp = Input(Vec(nWays, UInt(encTagBits.W))) 50 val vtag_update = Flipped(DecoupledIO(new TagWriteReq)) 51 52 val banked_data_read = DecoupledIO(new L1BankedDataReadReqWithMask) 53 val is128Req = Output(Bool()) 54 val banked_data_resp = Input(Vec(VLEN/DCacheSRAMRowBits, new L1BankedDataReadResult())) 55 val read_error_delayed = Input(Vec(VLEN/DCacheSRAMRowBits, Bool())) 56 57 // access bit update 58 val access_flag_write = DecoupledIO(new FlagMetaWriteReq) 59 val prefetch_flag_write = DecoupledIO(new SourceMetaWriteReq) 60 61 // banked data read conflict 62 val bank_conflict_slow = Input(Bool()) 63 64 // send miss request to miss queue 65 val miss_req = DecoupledIO(new MissReq) 66 val miss_resp = Input(new MissResp) 67 68 // send miss request to wbq 69 val wbq_conflict_check = Valid(UInt()) 70 val wbq_block_miss_req = Input(Bool()) 71 72 // update state vec in replacement algo 73 val replace_access = ValidIO(new ReplacementAccessBundle) 74 // find the way to be replaced 75 val replace_way = new ReplacementWayReqIO 76 77 // load fast wakeup should be disabled when data read is not ready 78 val disable_ld_fast_wakeup = Input(Bool()) 79 80 // ecc error 81 val error = Output(ValidIO(new L1CacheErrorInfo)) 82 83 val prefetch_info = new Bundle { 84 val naive = new Bundle { 85 val total_prefetch = Output(Bool()) 86 val late_hit_prefetch = Output(Bool()) 87 val late_prefetch_hit = Output(Bool()) 88 val late_load_hit = Output(Bool()) 89 val useless_prefetch = Output(Bool()) 90 val useful_prefetch = Output(Bool()) 91 val prefetch_hit = Output(Bool()) 92 } 93 94 val fdp = new Bundle { 95 val useful_prefetch = Output(Bool()) 96 val demand_miss = Output(Bool()) 97 val pollution = Output(Bool()) 98 } 99 } 100 101 val bloom_filter_query = new Bundle { 102 val query = ValidIO(new BloomQueryBundle(BLOOM_FILTER_ENTRY_NUM)) 103 val resp = Flipped(ValidIO(new BloomRespBundle())) 104 } 105 106 val counter_filter_query = new CounterFilterQueryBundle 107 val counter_filter_enq = new ValidIO(new CounterFilterDataBundle()) 108 109 // miss queue cancel the miss request 110 val mq_enq_cancel = Input(Bool()) 111 }) 112 113 assert(RegNext(io.meta_read.ready)) 114 115 val s1_ready = Wire(Bool()) 116 val s2_ready = Wire(Bool()) 117 // LSU requests 118 // it you got nacked, you can directly passdown 119 val not_nacked_ready = io.meta_read.ready && io.tag_read.ready && s1_ready 120 val nacked_ready = true.B 121 122 // Pipeline 123 // -------------------------------------------------------------------------------- 124 // stage 0 125 // -------------------------------------------------------------------------------- 126 // read tag 127 128 // ready can wait for valid 129 io.lsu.req.ready := (!io.nack && not_nacked_ready) || (io.nack && nacked_ready) 130 io.meta_read.valid := io.lsu.req.fire && !io.nack 131 io.tag_read.valid := io.lsu.req.fire && !io.nack 132 133 val s0_valid = io.lsu.req.fire 134 val s0_req = WireInit(io.lsu.req.bits) 135 s0_req.vaddr := Mux(io.load128Req, Cat(io.lsu.req.bits.vaddr(io.lsu.req.bits.vaddr.getWidth - 1, 4), 0.U(4.W)), io.lsu.req.bits.vaddr) 136 val s0_fire = s0_valid && s1_ready 137 val s0_vaddr = s0_req.vaddr 138 val s0_replayCarry = s0_req.replayCarry 139 val s0_load128Req = io.load128Req 140 val s0_bank_oh_64 = UIntToOH(addr_to_dcache_bank(s0_vaddr)) 141 val s0_bank_oh_128 = (s0_bank_oh_64 << 1.U).asUInt | s0_bank_oh_64.asUInt 142 val s0_bank_oh = Mux(s0_load128Req, s0_bank_oh_128, s0_bank_oh_64) 143 assert(RegNext(!(s0_valid && (s0_req.cmd =/= MemoryOpConstants.M_XRD && s0_req.cmd =/= MemoryOpConstants.M_PFR && s0_req.cmd =/= MemoryOpConstants.M_PFW))), "LoadPipe only accepts load req / softprefetch read or write!") 144 dump_pipeline_reqs("LoadPipe s0", s0_valid, s0_req) 145 146 // wpu 147 // val dwpu = Module(new DCacheWpuWrapper) 148 // req in s0 149 if(dwpuParam.enWPU){ 150 io.dwpu.req(0).bits.vaddr := s0_vaddr 151 io.dwpu.req(0).bits.replayCarry := s0_replayCarry 152 io.dwpu.req(0).valid := s0_valid 153 }else{ 154 io.dwpu.req(0).valid := false.B 155 io.dwpu.req(0).bits := DontCare 156 } 157 158 159 val meta_read = io.meta_read.bits 160 val tag_read = io.tag_read.bits 161 162 // Tag read for new requests 163 meta_read.idx := get_idx(io.lsu.req.bits.vaddr) 164 meta_read.way_en := ~0.U(nWays.W) 165 // meta_read.tag := DontCare 166 167 tag_read.idx := get_idx(io.lsu.req.bits.vaddr) 168 tag_read.way_en := ~0.U(nWays.W) 169 170 // -------------------------------------------------------------------------------- 171 // stage 1 172 // -------------------------------------------------------------------------------- 173 // tag match, read data 174 175 val s1_valid = RegInit(false.B) 176 val s1_req = RegEnable(s0_req, s0_fire) 177 // in stage 1, load unit gets the physical address 178 val s1_paddr_dup_lsu = io.lsu.s1_paddr_dup_lsu 179 val s1_paddr_dup_dcache = io.lsu.s1_paddr_dup_dcache 180 val s1_load128Req = RegEnable(s0_load128Req, s0_fire) 181 val s1_is_prefetch = s1_req.instrtype === DCACHE_PREFETCH_SOURCE.U 182 // LSU may update the address from io.lsu.s1_paddr, which affects the bank read enable only. 183 val s1_vaddr_update = Cat(s1_req.vaddr(VAddrBits - 1, blockOffBits), io.lsu.s1_paddr_dup_lsu(blockOffBits - 1, 0)) 184 val s1_vaddr = Mux(s1_load128Req, Cat(s1_vaddr_update(VAddrBits - 1, 4), 0.U(4.W)), s1_vaddr_update) 185 val s1_bank_oh = RegEnable(s0_bank_oh, s0_fire) 186 val s1_nack = RegNext(io.nack) 187 val s1_fire = s1_valid && s2_ready 188 s1_ready := !s1_valid || s1_fire 189 190 when (s0_fire) { s1_valid := true.B } 191 .elsewhen (s1_fire) { s1_valid := false.B } 192 193 dump_pipeline_reqs("LoadPipe s1", s1_valid, s1_req) 194 195 // tag check 196 val meta_resp = io.meta_resp 197 val tag_resp = io.tag_resp.map(r => r(tagBits - 1, 0)) 198 def wayMap[T <: Data](f: Int => T) = VecInit((0 until nWays).map(f)) 199 200 // resp in s1 201 val s1_tag_match_way_dup_dc = wayMap((w: Int) => tag_resp(w) === get_tag(s1_paddr_dup_dcache) && meta_resp(w).coh.isValid()).asUInt 202 val s1_tag_match_way_dup_lsu = wayMap((w: Int) => tag_resp(w) === get_tag(s1_paddr_dup_lsu) && meta_resp(w).coh.isValid()).asUInt 203 val s1_wpu_pred_valid = RegEnable(io.dwpu.resp(0).valid, s0_fire) 204 val s1_wpu_pred_way_en = RegEnable(io.dwpu.resp(0).bits.s0_pred_way_en, s0_fire) 205 206 // lookup update 207 io.dwpu.lookup_upd(0).valid := s1_valid 208 io.dwpu.lookup_upd(0).bits.vaddr := s1_vaddr 209 io.dwpu.lookup_upd(0).bits.s1_real_way_en := s1_tag_match_way_dup_dc 210 io.dwpu.lookup_upd(0).bits.s1_pred_way_en := s1_wpu_pred_way_en 211 // replace / tag write 212 io.vtag_update.ready := true.B 213 // dwpu.io.tagwrite_upd.valid := io.vtag_update.valid 214 // dwpu.io.tagwrite_upd.bits.vaddr := io.vtag_update.bits.vaddr 215 // dwpu.io.tagwrite_upd.bits.s1_real_way_en := io.vtag_update.bits.way_en 216 217 val s1_direct_map_way_num = get_direct_map_way(s1_req.vaddr) 218 if(dwpuParam.enCfPred || !env.FPGAPlatform){ 219 /* method1: record the pc */ 220 // if (!env.FPGAPlatform){ 221 // io.dwpu.cfpred(0).s0_vaddr := io.lsu.s0_pc 222 // io.dwpu.cfpred(0).s1_vaddr := io.lsu.s1_pc 223 // } 224 225 /* method2: record the vaddr */ 226 io.dwpu.cfpred(0).s0_vaddr := s0_vaddr 227 io.dwpu.cfpred(0).s1_vaddr := s1_vaddr 228 // whether direct_map_way miss with valid tag value 229 io.dwpu.cfpred(0).s1_dm_hit := wayMap((w: Int) => w.U === s1_direct_map_way_num && tag_resp(w) === get_tag(s1_paddr_dup_lsu) && meta_resp(w).coh.isValid()).asUInt.orR 230 }else{ 231 io.dwpu.cfpred(0) := DontCare 232 } 233 234 val s1_pred_tag_match_way_dup_dc = Wire(UInt(nWays.W)) 235 val s1_wpu_pred_fail = Wire(Bool()) 236 val s1_wpu_pred_fail_and_real_hit = Wire(Bool()) 237 if (dwpuParam.enWPU) { 238 when(s1_wpu_pred_valid) { 239 s1_pred_tag_match_way_dup_dc := s1_wpu_pred_way_en 240 }.otherwise { 241 s1_pred_tag_match_way_dup_dc := s1_tag_match_way_dup_dc 242 } 243 s1_wpu_pred_fail := s1_valid && s1_tag_match_way_dup_dc =/= s1_pred_tag_match_way_dup_dc 244 s1_wpu_pred_fail_and_real_hit := s1_wpu_pred_fail && s1_tag_match_way_dup_dc.orR 245 } else { 246 s1_pred_tag_match_way_dup_dc := s1_tag_match_way_dup_dc 247 s1_wpu_pred_fail := false.B 248 s1_wpu_pred_fail_and_real_hit := false.B 249 } 250 251 val s1_tag_match_dup_dc = ParallelORR(s1_tag_match_way_dup_dc) 252 val s1_tag_match_dup_lsu = ParallelORR(s1_tag_match_way_dup_lsu) 253 assert(RegNext(!s1_valid || PopCount(s1_tag_match_way_dup_dc) <= 1.U), "tag should not match with more than 1 way") 254 255 // when there are no tag match, we give it a Fake Meta 256 // this simplifies our logic in s2 stage 257 val s1_hit_meta = ParallelMux(s1_tag_match_way_dup_dc.asBools, (0 until nWays).map(w => meta_resp(w))) 258 val s1_hit_coh = s1_hit_meta.coh 259 val s1_hit_error = ParallelMux(s1_tag_match_way_dup_dc.asBools, (0 until nWays).map(w => io.extra_meta_resp(w).error)) 260 val s1_hit_prefetch = ParallelMux(s1_tag_match_way_dup_dc.asBools, (0 until nWays).map(w => io.extra_meta_resp(w).prefetch)) 261 val s1_hit_access = ParallelMux(s1_tag_match_way_dup_dc.asBools, (0 until nWays).map(w => io.extra_meta_resp(w).access)) 262 263 // io.replace_way.set.valid := RegNext(s0_fire) 264 io.replace_way.set.valid := false.B 265 io.replace_way.set.bits := get_idx(s1_vaddr) 266 io.replace_way.dmWay := get_direct_map_way(s1_vaddr) 267 val s1_invalid_vec = wayMap(w => !meta_resp(w).coh.isValid()) 268 val s1_have_invalid_way = s1_invalid_vec.asUInt.orR 269 val s1_invalid_way_en = ParallelPriorityMux(s1_invalid_vec.zipWithIndex.map(x => x._1 -> UIntToOH(x._2.U(nWays.W)))) 270 271 val s1_need_replacement = !s1_tag_match_dup_dc 272 273 XSPerfAccumulate("load_using_replacement", io.replace_way.set.valid && s1_need_replacement) 274 275 // query bloom filter 276 io.bloom_filter_query.query.valid := s1_valid 277 io.bloom_filter_query.query.bits.addr := io.bloom_filter_query.query.bits.get_addr(s1_paddr_dup_dcache) 278 279 // get s1_will_send_miss_req in lpad_s1 280 val s1_has_permission = s1_hit_coh.onAccess(s1_req.cmd)._1 281 val s1_new_hit_coh = s1_hit_coh.onAccess(s1_req.cmd)._3 282 val s1_hit = s1_tag_match_dup_dc // && s1_has_permission && s1_hit_coh === s1_new_hit_coh 283 val s1_will_send_miss_req = s1_valid && !s1_nack && !s1_hit 284 285 // data read 286 io.banked_data_read.valid := s1_fire && !s1_nack && !s1_is_prefetch 287 io.banked_data_read.bits.addr := s1_vaddr 288 io.banked_data_read.bits.kill := io.lsu.s1_kill_data_read 289 io.banked_data_read.bits.way_en := s1_pred_tag_match_way_dup_dc 290 io.banked_data_read.bits.bankMask := s1_bank_oh 291 io.banked_data_read.bits.lqIdx := s1_req.lqIdx 292 io.is128Req := s1_load128Req 293 294 // check ecc error 295 val s1_encTag = ParallelMux(s1_tag_match_way_dup_dc.asBools, (0 until nWays).map(w => io.tag_resp(w))) 296 val s1_flag_error = Mux(s1_need_replacement, false.B, s1_hit_error) // error reported by exist dcache error bit 297 298 // -------------------------------------------------------------------------------- 299 // stage 2 300 // -------------------------------------------------------------------------------- 301 // return data 302 303 // val s2_valid = RegEnable(next = s1_valid && !io.lsu.s1_kill, init = false.B, enable = s1_fire) 304 val s2_valid = RegInit(false.B) 305 val s2_valid_dup = RegInit(false.B) 306 val s2_req = RegEnable(s1_req, s1_fire) 307 val s2_load128Req = RegEnable(s1_load128Req, s1_fire) 308 val s2_paddr = RegEnable(s1_paddr_dup_dcache, s1_fire) 309 val s2_vaddr = RegEnable(s1_vaddr, s1_fire) 310 val s2_bank_oh = RegEnable(s1_bank_oh, s1_fire) 311 val s2_bank_oh_dup_0 = RegEnable(s1_bank_oh, s1_fire) 312 val s2_wpu_pred_fail = RegEnable(s1_wpu_pred_fail, s1_fire) 313 val s2_real_way_en = RegEnable(s1_tag_match_way_dup_dc, s1_fire) 314 val s2_pred_way_en = RegEnable(s1_pred_tag_match_way_dup_dc, s1_fire) 315 val s2_dm_way_num = RegEnable(s1_direct_map_way_num, s1_fire) 316 val s2_wpu_pred_fail_and_real_hit = RegEnable(s1_wpu_pred_fail_and_real_hit, s1_fire) 317 318 s2_ready := true.B 319 320 val s2_fire = s2_valid 321 322 when (s1_fire) { 323 s2_valid := !io.lsu.s1_kill 324 s2_valid_dup := !io.lsu.s1_kill 325 } 326 .elsewhen(io.lsu.resp.fire) { 327 s2_valid := false.B 328 s2_valid_dup := false.B 329 } 330 331 dump_pipeline_reqs("LoadPipe s2", s2_valid, s2_req) 332 333 334 // hit, miss, nack, permission checking 335 // dcache side tag match 336 val s2_tag_match_way = RegEnable(s1_tag_match_way_dup_dc, s1_fire) 337 val s2_tag_match = RegEnable(s1_tag_match_dup_dc, s1_fire) 338 339 val s2_can_send_miss_req = RegEnable(s1_will_send_miss_req, s1_fire) 340 val s2_can_send_miss_req_dup = RegEnable(s1_will_send_miss_req, s1_fire) 341 342 val s2_miss_req_valid = s2_valid && s2_can_send_miss_req 343 val s2_miss_req_valid_dup = s2_valid_dup && s2_can_send_miss_req_dup 344 val s2_miss_req_fire = s2_miss_req_valid_dup && io.miss_req.ready 345 346 // lsu side tag match 347 val s2_hit_dup_lsu = RegNext(s1_tag_match_dup_lsu) 348 349 io.lsu.s2_hit := s2_hit_dup_lsu && !s2_wpu_pred_fail 350 351 val s2_hit_meta = RegEnable(s1_hit_meta, s1_fire) 352 val s2_hit_coh = RegEnable(s1_hit_coh, s1_fire) 353 val s2_has_permission = s2_hit_coh.onAccess(s2_req.cmd)._1 // for write prefetch 354 val s2_new_hit_coh = s2_hit_coh.onAccess(s2_req.cmd)._3 // for write prefetch 355 356 val s2_encTag = RegEnable(s1_encTag, s1_fire) 357 358 // when req got nacked, upper levels should replay this request 359 // nacked or not 360 val s2_nack_hit = RegEnable(s1_nack, s1_fire) 361 // can no allocate mshr for load miss 362 val s2_nack_no_mshr = s2_miss_req_valid_dup && !io.miss_req.ready 363 // block with a wbq valid req 364 val s2_nack_wbq_conflict = s2_miss_req_valid_dup && io.wbq_block_miss_req 365 // Bank conflict on data arrays 366 val s2_nack_data = RegEnable(!io.banked_data_read.ready, s1_fire) 367 val s2_nack = s2_nack_hit || s2_nack_no_mshr || s2_nack_data || s2_nack_wbq_conflict 368 // s2 miss merged 369 val s2_miss_merged = s2_miss_req_fire && !io.mq_enq_cancel && !io.wbq_block_miss_req && io.miss_resp.merged 370 371 val s2_bank_addr = addr_to_dcache_bank(s2_paddr) 372 dontTouch(s2_bank_addr) 373 374 val s2_instrtype = s2_req.instrtype 375 376 val s2_tag_error = WireInit(false.B) 377 val s2_flag_error = RegEnable(s1_flag_error, s1_fire) 378 379 val s2_hit_prefetch = RegEnable(s1_hit_prefetch, s1_fire) 380 val s2_hit_access = RegEnable(s1_hit_access, s1_fire) 381 382 val s2_hit = s2_tag_match && s2_has_permission && s2_hit_coh === s2_new_hit_coh && !s2_wpu_pred_fail 383 384 val s2_data128bit = Cat(io.banked_data_resp(1).raw_data, io.banked_data_resp(0).raw_data) 385 val s2_resp_data = s2_data128bit 386 387 // only dump these signals when they are actually valid 388 dump_pipeline_valids("LoadPipe s2", "s2_hit", s2_valid && s2_hit) 389 dump_pipeline_valids("LoadPipe s2", "s2_nack", s2_valid && s2_nack) 390 dump_pipeline_valids("LoadPipe s2", "s2_nack_hit", s2_valid && s2_nack_hit) 391 dump_pipeline_valids("LoadPipe s2", "s2_nack_no_mshr", s2_valid && s2_nack_no_mshr) 392 393 if(EnableTagEcc) { 394 s2_tag_error := dcacheParameters.tagCode.decode(s2_encTag).error // error reported by tag ecc check 395 }else { 396 s2_tag_error := false.B 397 } 398 399 // send load miss to miss queue 400 io.miss_req.valid := s2_miss_req_valid 401 io.miss_req.bits := DontCare 402 io.miss_req.bits.source := s2_instrtype 403 io.miss_req.bits.pf_source := RegNext(RegNext(io.lsu.pf_source)) // TODO: clock gate 404 io.miss_req.bits.cmd := s2_req.cmd 405 io.miss_req.bits.addr := get_block_addr(s2_paddr) 406 io.miss_req.bits.vaddr := s2_vaddr 407 io.miss_req.bits.req_coh := s2_hit_coh 408 io.miss_req.bits.cancel := io.lsu.s2_kill || s2_tag_error 409 io.miss_req.bits.pc := io.lsu.s2_pc 410 io.miss_req.bits.lqIdx := io.lsu.req.bits.lqIdx 411 412 //send load miss to wbq 413 io.wbq_conflict_check.valid := s2_miss_req_valid_dup 414 io.wbq_conflict_check.bits := get_block_addr(s2_paddr) 415 416 // send back response 417 val resp = Wire(ValidIO(new DCacheWordResp)) 418 resp.valid := s2_valid 419 resp.bits := DontCare 420 // resp.bits.data := s2_word_decoded 421 // resp.bits.data := banked_data_resp_word.raw_data 422 // * on miss or nack, upper level should replay request 423 // but if we successfully sent the request to miss queue 424 // upper level does not need to replay request 425 // they can sit in load queue and wait for refill 426 // 427 // * report a miss if bank conflict is detected 428 val real_miss = !s2_real_way_en.orR 429 430 resp.bits.real_miss := real_miss 431 resp.bits.miss := real_miss 432 resp.bits.data := s2_resp_data 433 io.lsu.s2_first_hit := s2_req.isFirstIssue && s2_hit 434 // load pipe need replay when there is a bank conflict or wpu predict fail 435 resp.bits.replay := (resp.bits.miss && (s2_nack || io.mq_enq_cancel)) || io.bank_conflict_slow || s2_wpu_pred_fail 436 resp.bits.replayCarry.valid := (resp.bits.miss && (s2_nack || io.mq_enq_cancel)) || io.bank_conflict_slow || s2_wpu_pred_fail 437 resp.bits.replayCarry.real_way_en := s2_real_way_en 438 resp.bits.meta_prefetch := s2_hit_prefetch 439 resp.bits.meta_access := s2_hit_access 440 resp.bits.tag_error := false.B 441 resp.bits.mshr_id := io.miss_resp.id 442 resp.bits.handled := s2_miss_req_fire && !io.mq_enq_cancel && !io.wbq_block_miss_req && io.miss_resp.handled 443 resp.bits.debug_robIdx := s2_req.debug_robIdx 444 // debug info 445 io.lsu.s2_first_hit := s2_req.isFirstIssue && s2_hit 446 io.lsu.debug_s2_real_way_num := OneHot.OHToUIntStartOne(s2_real_way_en) 447 if(dwpuParam.enWPU) { 448 io.lsu.debug_s2_pred_way_num := OneHot.OHToUIntStartOne(s2_pred_way_en) 449 }else{ 450 io.lsu.debug_s2_pred_way_num := 0.U 451 } 452 if(dwpuParam.enWPU && dwpuParam.enCfPred || !env.FPGAPlatform){ 453 io.lsu.debug_s2_dm_way_num := s2_dm_way_num + 1.U 454 }else{ 455 io.lsu.debug_s2_dm_way_num := 0.U 456 } 457 458 459 XSPerfAccumulate("dcache_read_bank_conflict", io.bank_conflict_slow && s2_valid) 460 XSPerfAccumulate("dcache_read_from_prefetched_line", s2_valid && isPrefetchRelated(s2_hit_prefetch) && !resp.bits.miss) 461 XSPerfAccumulate("dcache_first_read_from_prefetched_line", s2_valid && isPrefetchRelated(s2_hit_prefetch) && !resp.bits.miss && !s2_hit_access) 462 463 // if ldu0 and ldu1 hit the same, count for 1 464 val total_prefetch = s2_valid && (s2_req.instrtype === DCACHE_PREFETCH_SOURCE.U) 465 val late_hit_prefetch = s2_valid && s2_hit && (s2_req.instrtype === DCACHE_PREFETCH_SOURCE.U) 466 val late_load_hit = s2_valid && s2_hit && (s2_req.instrtype === DCACHE_PREFETCH_SOURCE.U) && !isFromL1Prefetch(s2_hit_prefetch) 467 val late_prefetch_hit = s2_valid && s2_hit && (s2_req.instrtype === DCACHE_PREFETCH_SOURCE.U) && isFromL1Prefetch(s2_hit_prefetch) 468 val useless_prefetch = s2_miss_req_fire && (s2_req.instrtype === DCACHE_PREFETCH_SOURCE.U) 469 val useful_prefetch = s2_valid && (s2_req.instrtype === DCACHE_PREFETCH_SOURCE.U) && resp.bits.handled && !io.miss_resp.merged 470 471 val prefetch_hit = s2_valid && (s2_req.instrtype =/= DCACHE_PREFETCH_SOURCE.U) && s2_hit && isFromL1Prefetch(s2_hit_prefetch) && s2_req.isFirstIssue 472 473 io.prefetch_info.naive.total_prefetch := total_prefetch 474 io.prefetch_info.naive.late_hit_prefetch := late_hit_prefetch 475 io.prefetch_info.naive.late_load_hit := late_load_hit 476 io.prefetch_info.naive.late_prefetch_hit := late_prefetch_hit 477 io.prefetch_info.naive.useless_prefetch := useless_prefetch 478 io.prefetch_info.naive.useful_prefetch := useful_prefetch 479 io.prefetch_info.naive.prefetch_hit := prefetch_hit 480 481 io.prefetch_info.fdp.demand_miss := s2_valid && (s2_req.instrtype =/= DCACHE_PREFETCH_SOURCE.U) && !s2_hit && s2_req.isFirstIssue 482 io.prefetch_info.fdp.pollution := io.prefetch_info.fdp.demand_miss && io.bloom_filter_query.resp.valid && io.bloom_filter_query.resp.bits.res 483 484 io.lsu.resp.valid := resp.valid 485 io.lsu.resp.bits := resp.bits 486 assert(RegNext(!(resp.valid && !io.lsu.resp.ready)), "lsu should be ready in s2") 487 488 when (resp.valid) { 489 resp.bits.dump() 490 } 491 492 io.lsu.debug_s1_hit_way := s1_tag_match_way_dup_dc 493 io.lsu.s1_disable_fast_wakeup := io.disable_ld_fast_wakeup 494 io.lsu.s2_bank_conflict := io.bank_conflict_slow 495 io.lsu.s2_wpu_pred_fail := s2_wpu_pred_fail_and_real_hit 496 io.lsu.s2_mq_nack := (resp.bits.miss && (s2_nack_no_mshr || io.mq_enq_cancel || io.wbq_block_miss_req)) 497 assert(RegNext(s1_ready && s2_ready), "load pipeline should never be blocked") 498 499 // -------------------------------------------------------------------------------- 500 // stage 3 501 // -------------------------------------------------------------------------------- 502 // report ecc error and get selected dcache data 503 504 val s3_valid = RegNext(s2_valid) 505 val s3_load128Req = RegEnable(s2_load128Req, s2_fire) 506 val s3_vaddr = RegEnable(s2_vaddr, s2_fire) 507 val s3_paddr = RegEnable(s2_paddr, s2_fire) 508 val s3_hit = RegEnable(s2_hit, s2_fire) 509 val s3_tag_match_way = RegEnable(s2_tag_match_way, s2_fire) 510 val s3_req_instrtype = RegEnable(s2_req.instrtype, s2_fire) 511 val s3_is_prefetch = s3_req_instrtype === DCACHE_PREFETCH_SOURCE.U 512 513 val s3_banked_data_resp_word = RegEnable(s2_resp_data, s2_fire) 514 val s3_data_error = Mux(s3_load128Req, io.read_error_delayed.asUInt.orR, io.read_error_delayed(0)) && s3_hit 515 val s3_tag_error = RegEnable(s2_tag_error, s2_fire) 516 val s3_flag_error = RegEnable(s2_flag_error, s2_fire) 517 val s3_hit_prefetch = RegEnable(s2_hit_prefetch, s2_fire) 518 val s3_error = s3_tag_error || s3_flag_error || s3_data_error 519 520 // error_delayed signal will be used to update uop.exception 1 cycle after load writeback 521 resp.bits.error_delayed := s3_error && (s3_hit || s3_tag_error) && s3_valid 522 resp.bits.data_delayed := s3_banked_data_resp_word 523 resp.bits.replacementUpdated := io.replace_access.valid 524 525 // report tag / data / l2 error (with paddr) to bus error unit 526 io.error := 0.U.asTypeOf(ValidIO(new L1CacheErrorInfo)) 527 io.error.bits.report_to_beu := (s3_tag_error || s3_data_error) && s3_valid 528 io.error.bits.paddr := s3_paddr 529 io.error.bits.source.tag := s3_tag_error 530 io.error.bits.source.data := s3_data_error 531 io.error.bits.source.l2 := s3_flag_error 532 io.error.bits.opType.load := true.B 533 // report tag error / l2 corrupted to CACHE_ERROR csr 534 io.error.valid := s3_error && s3_valid 535 536 io.replace_access.valid := s3_valid && s3_hit 537 io.replace_access.bits.set := RegNext(RegNext(get_idx(s1_req.vaddr))) 538 io.replace_access.bits.way := RegNext(RegNext(OHToUInt(s1_tag_match_way_dup_dc))) 539 540 // update access bit 541 io.access_flag_write.valid := s3_valid && s3_hit && !s3_is_prefetch 542 io.access_flag_write.bits.idx := get_idx(s3_vaddr) 543 io.access_flag_write.bits.way_en := s3_tag_match_way 544 io.access_flag_write.bits.flag := true.B 545 546 // clear prefetch source when prefetch hit 547 val s3_clear_pf_flag_en = s3_valid && s3_hit && !s3_is_prefetch && isFromL1Prefetch(s3_hit_prefetch) 548 io.prefetch_flag_write.valid := s3_clear_pf_flag_en && !io.counter_filter_query.resp 549 io.prefetch_flag_write.bits.idx := get_idx(s3_vaddr) 550 io.prefetch_flag_write.bits.way_en := s3_tag_match_way 551 io.prefetch_flag_write.bits.source := L1_HW_PREFETCH_CLEAR 552 553 io.counter_filter_query.req.valid := s3_clear_pf_flag_en 554 io.counter_filter_query.req.bits.idx := get_idx(s3_vaddr) 555 io.counter_filter_query.req.bits.way := OHToUInt(s3_tag_match_way) 556 557 io.counter_filter_enq.valid := io.prefetch_flag_write.valid 558 io.counter_filter_enq.bits.idx := get_idx(s3_vaddr) 559 io.counter_filter_enq.bits.way := OHToUInt(s3_tag_match_way) 560 561 io.prefetch_info.fdp.useful_prefetch := s3_clear_pf_flag_en && !io.counter_filter_query.resp 562 563 XSPerfAccumulate("s3_pf_hit", s3_clear_pf_flag_en) 564 XSPerfAccumulate("s3_pf_hit_filter", s3_clear_pf_flag_en && !io.counter_filter_query.resp) 565 566 // -------------------------------------------------------------------------------- 567 // Debug logging functions 568 def dump_pipeline_reqs(pipeline_stage_name: String, valid: Bool, 569 req: DCacheWordReq ) = { 570 when (valid) { 571 XSDebug(s"$pipeline_stage_name: ") 572 req.dump() 573 } 574 } 575 576 def dump_pipeline_valids(pipeline_stage_name: String, signal_name: String, valid: Bool) = { 577 when (valid) { 578 XSDebug(s"$pipeline_stage_name $signal_name\n") 579 } 580 } 581 582 val load_trace = Wire(new LoadPfDbBundle) 583 val pf_trace = Wire(new LoadPfDbBundle) 584 val miss_trace = Wire(new LoadPfDbBundle) 585 val mshr_trace = Wire(new LoadPfDbBundle) 586 587 load_trace.paddr := get_block_addr(s2_paddr) 588 pf_trace.paddr := get_block_addr(s2_paddr) 589 miss_trace.paddr := get_block_addr(s2_paddr) 590 mshr_trace.paddr := get_block_addr(s2_paddr) 591 592 val table_load = ChiselDB.createTable("LoadTrace" + id.toString + "_hart"+ p(XSCoreParamsKey).HartId.toString, new LoadPfDbBundle, basicDB = false) 593 val site_load = "LoadPipe_load" + id.toString 594 table_load.log(load_trace, s2_valid && s2_req.isFirstIssue && (s2_req.instrtype =/= DCACHE_PREFETCH_SOURCE.U), site_load, clock, reset) 595 596 val table_pf = ChiselDB.createTable("LoadPfTrace" + id.toString + "_hart"+ p(XSCoreParamsKey).HartId.toString, new LoadPfDbBundle, basicDB = false) 597 val site_pf = "LoadPipe_pf" + id.toString 598 table_pf.log(pf_trace, s2_valid && (s2_req.instrtype === DCACHE_PREFETCH_SOURCE.U), site_pf, clock, reset) 599 600 val table_miss = ChiselDB.createTable("LoadTraceMiss" + id.toString + "_hart"+ p(XSCoreParamsKey).HartId.toString, new LoadPfDbBundle, basicDB = false) 601 val site_load_miss = "LoadPipe_load_miss" + id.toString 602 table_miss.log(miss_trace, s2_valid && s2_req.isFirstIssue && (s2_req.instrtype =/= DCACHE_PREFETCH_SOURCE.U) && real_miss, site_load_miss, clock, reset) 603 604 val table_mshr = ChiselDB.createTable("LoadPfMshr" + id.toString + "_hart"+ p(XSCoreParamsKey).HartId.toString, new LoadPfDbBundle, basicDB = false) 605 val site_mshr = "LoadPipe_mshr" + id.toString 606 table_mshr.log(mshr_trace, s2_valid && (s2_req.instrtype === DCACHE_PREFETCH_SOURCE.U) && io.miss_req.fire, site_mshr, clock, reset) 607 608 // performance counters 609 XSPerfAccumulate("load_req", io.lsu.req.fire) 610 XSPerfAccumulate("load_s1_kill", s1_fire && io.lsu.s1_kill) 611 XSPerfAccumulate("load_hit_way", s1_fire && s1_tag_match_dup_dc) 612 XSPerfAccumulate("load_replay", io.lsu.resp.fire && resp.bits.replay) 613 XSPerfAccumulate("load_replay_for_dcache_data_nack", io.lsu.resp.fire && resp.bits.replay && s2_nack_data) 614 XSPerfAccumulate("load_replay_for_dcache_no_mshr", io.lsu.resp.fire && resp.bits.replay && s2_nack_no_mshr) 615 XSPerfAccumulate("load_replay_for_dcache_conflict", io.lsu.resp.fire && resp.bits.replay && io.bank_conflict_slow) 616 XSPerfAccumulate("load_replay_for_dcache_wpu_pred_fail", io.lsu.resp.fire && resp.bits.replay && s2_wpu_pred_fail) 617 XSPerfAccumulate("load_hit", io.lsu.resp.fire && !real_miss) 618 XSPerfAccumulate("load_miss", io.lsu.resp.fire && real_miss) 619 XSPerfAccumulate("load_succeed", io.lsu.resp.fire && !resp.bits.miss && !resp.bits.replay) 620 XSPerfAccumulate("load_miss_or_conflict", io.lsu.resp.fire && resp.bits.miss) 621 XSPerfAccumulate("actual_ld_fast_wakeup", s1_fire && s1_tag_match_dup_dc && !io.disable_ld_fast_wakeup) 622 XSPerfAccumulate("ideal_ld_fast_wakeup", io.banked_data_read.fire && s1_tag_match_dup_dc) 623 624 val perfEvents = Seq( 625 ("load_req ", io.lsu.req.fire ), 626 ("load_replay ", io.lsu.resp.fire && resp.bits.replay ), 627 ("load_replay_for_data_nack", io.lsu.resp.fire && resp.bits.replay && s2_nack_data ), 628 ("load_replay_for_no_mshr ", io.lsu.resp.fire && resp.bits.replay && s2_nack_no_mshr ), 629 ("load_replay_for_conflict ", io.lsu.resp.fire && resp.bits.replay && io.bank_conflict_slow ), 630 ) 631 generatePerfEvent() 632} 633