1/*************************************************************************************** 2* Copyright (c) 2020-2021 Institute of Computing Technology, Chinese Academy of Sciences 3* Copyright (c) 2020-2021 Peng Cheng Laboratory 4* 5* XiangShan is licensed under Mulan PSL v2. 6* You can use this software according to the terms and conditions of the Mulan PSL v2. 7* You may obtain a copy of Mulan PSL v2 at: 8* http://license.coscl.org.cn/MulanPSL2 9* 10* THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND, 11* EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT, 12* MERCHANTABILITY OR FIT FOR A PARTICULAR PURPOSE. 13* 14* See the Mulan PSL v2 for more details. 15***************************************************************************************/ 16 17package xiangshan.cache.mmu 18 19import org.chipsalliance.cde.config.Parameters 20import chisel3._ 21import chisel3.util._ 22import xiangshan._ 23import utils._ 24import utility._ 25import xiangshan.backend.rob.RobPtr 26import xiangshan.backend.fu.util.HasCSRConst 27import freechips.rocketchip.diplomacy.{LazyModule, LazyModuleImp} 28import freechips.rocketchip.tilelink._ 29import xiangshan.backend.fu.{PMPReqBundle, PMPConfig} 30import xiangshan.backend.fu.PMPBundle 31 32 33abstract class TlbBundle(implicit p: Parameters) extends XSBundle with HasTlbConst 34abstract class TlbModule(implicit p: Parameters) extends XSModule with HasTlbConst 35 36 37class PtePermBundle(implicit p: Parameters) extends TlbBundle { 38 val d = Bool() 39 val a = Bool() 40 val g = Bool() 41 val u = Bool() 42 val x = Bool() 43 val w = Bool() 44 val r = Bool() 45 46 override def toPrintable: Printable = { 47 p"d:${d} a:${a} g:${g} u:${u} x:${x} w:${w} r:${r}"// + 48 //(if(hasV) (p"v:${v}") else p"") 49 } 50} 51 52class TlbPMBundle(implicit p: Parameters) extends TlbBundle { 53 val r = Bool() 54 val w = Bool() 55 val x = Bool() 56 val c = Bool() 57 val atomic = Bool() 58 59 def assign_ap(pm: PMPConfig) = { 60 r := pm.r 61 w := pm.w 62 x := pm.x 63 c := pm.c 64 atomic := pm.atomic 65 } 66} 67 68class TlbPermBundle(implicit p: Parameters) extends TlbBundle { 69 val pf = Bool() // NOTE: if this is true, just raise pf 70 val af = Bool() // NOTE: if this is true, just raise af 71 // pagetable perm (software defined) 72 val d = Bool() 73 val a = Bool() 74 val g = Bool() 75 val u = Bool() 76 val x = Bool() 77 val w = Bool() 78 val r = Bool() 79 80 def apply(item: PtwSectorResp) = { 81 val ptePerm = item.entry.perm.get.asTypeOf(new PtePermBundle().cloneType) 82 this.pf := item.pf 83 this.af := item.af 84 this.d := ptePerm.d 85 this.a := ptePerm.a 86 this.g := ptePerm.g 87 this.u := ptePerm.u 88 this.x := ptePerm.x 89 this.w := ptePerm.w 90 this.r := ptePerm.r 91 92 this 93 } 94 95 def applyS2(item: HptwResp) = { 96 val ptePerm = item.entry.perm.get.asTypeOf(new PtePermBundle().cloneType) 97 this.pf := item.gpf 98 this.af := item.gaf 99 this.d := ptePerm.d 100 this.a := ptePerm.a 101 this.g := ptePerm.g 102 this.u := ptePerm.u 103 this.x := ptePerm.x 104 this.w := ptePerm.w 105 this.r := ptePerm.r 106 107 this 108 } 109 110 override def toPrintable: Printable = { 111 p"pf:${pf} af:${af} d:${d} a:${a} g:${g} u:${u} x:${x} w:${w} r:${r} " 112 } 113} 114 115class TlbSectorPermBundle(implicit p: Parameters) extends TlbBundle { 116 val pf = Bool() // NOTE: if this is true, just raise pf 117 val af = Bool() // NOTE: if this is true, just raise af 118 // pagetable perm (software defined) 119 val d = Bool() 120 val a = Bool() 121 val g = Bool() 122 val u = Bool() 123 val x = Bool() 124 val w = Bool() 125 val r = Bool() 126 127 def apply(item: PtwSectorResp) = { 128 val ptePerm = item.entry.perm.get.asTypeOf(new PtePermBundle().cloneType) 129 this.pf := item.pf 130 this.af := item.af 131 this.d := ptePerm.d 132 this.a := ptePerm.a 133 this.g := ptePerm.g 134 this.u := ptePerm.u 135 this.x := ptePerm.x 136 this.w := ptePerm.w 137 this.r := ptePerm.r 138 139 this 140 } 141 override def toPrintable: Printable = { 142 p"pf:${pf} af:${af} d:${d} a:${a} g:${g} u:${u} x:${x} w:${w} r:${r} " 143 } 144} 145 146// multi-read && single-write 147// input is data, output is hot-code(not one-hot) 148class CAMTemplate[T <: Data](val gen: T, val set: Int, val readWidth: Int)(implicit p: Parameters) extends TlbModule { 149 val io = IO(new Bundle { 150 val r = new Bundle { 151 val req = Input(Vec(readWidth, gen)) 152 val resp = Output(Vec(readWidth, Vec(set, Bool()))) 153 } 154 val w = Input(new Bundle { 155 val valid = Bool() 156 val bits = new Bundle { 157 val index = UInt(log2Up(set).W) 158 val data = gen 159 } 160 }) 161 }) 162 163 val wordType = UInt(gen.getWidth.W) 164 val array = Reg(Vec(set, wordType)) 165 166 io.r.resp.zipWithIndex.map{ case (a,i) => 167 a := array.map(io.r.req(i).asUInt === _) 168 } 169 170 when (io.w.valid) { 171 array(io.w.bits.index) := io.w.bits.data.asUInt 172 } 173} 174 175class TlbEntry(pageNormal: Boolean, pageSuper: Boolean)(implicit p: Parameters) extends TlbBundle { 176 require(pageNormal || pageSuper) 177 178 val tag = if (!pageNormal) UInt((vpnLen - vpnnLen).W) 179 else UInt(vpnLen.W) 180 val asid = UInt(asidLen.W) 181 val level = if (!pageNormal) Some(UInt(1.W)) 182 else if (!pageSuper) None 183 else Some(UInt(2.W)) 184 val ppn = if (!pageNormal) UInt((ppnLen - vpnnLen).W) 185 else UInt(ppnLen.W) 186 val perm = new TlbPermBundle 187 188 val g_perm = new TlbPermBundle 189 val vmid = UInt(vmidLen.W) 190 val s2xlate = UInt(2.W) 191 192 193 /** level usage: 194 * !PageSuper: page is only normal, level is None, match all the tag 195 * !PageNormal: page is only super, level is a Bool(), match high 9*2 parts 196 * bits0 0: need mid 9bits 197 * 1: no need mid 9bits 198 * PageSuper && PageNormal: page hold all the three type, 199 * bits0 0: need low 9bits 200 * bits1 0: need mid 9bits 201 */ 202 203 204 def hit(vpn: UInt, asid: UInt, nSets: Int = 1, ignoreAsid: Boolean = false, vmid: UInt, hasS2xlate: Bool, onlyS2: Bool): Bool = { 205 val asid_hit = Mux(hasS2xlate && onlyS2, true.B, if (ignoreAsid) true.B else (this.asid === asid)) 206 val vmid_hit = Mux(hasS2xlate, this.vmid === vmid, true.B) 207 208 // NOTE: for timing, dont care low set index bits at hit check 209 // do not need store the low bits actually 210 if (!pageSuper) asid_hit && drop_set_equal(vpn, tag, nSets) && vmid_hit 211 else if (!pageNormal) { 212 val tag_match_hi = tag(vpnnLen*2-1, vpnnLen) === vpn(vpnnLen*3-1, vpnnLen*2) 213 val tag_match_mi = tag(vpnnLen-1, 0) === vpn(vpnnLen*2-1, vpnnLen) 214 val tag_match = tag_match_hi && (level.get.asBool || tag_match_mi) 215 asid_hit && tag_match && vmid_hit 216 } 217 else { 218 val tmp_level = level.get 219 val tag_match_hi = tag(vpnnLen*3-1, vpnnLen*2) === vpn(vpnnLen*3-1, vpnnLen*2) 220 val tag_match_mi = tag(vpnnLen*2-1, vpnnLen) === vpn(vpnnLen*2-1, vpnnLen) 221 val tag_match_lo = tag(vpnnLen-1, 0) === vpn(vpnnLen-1, 0) // if pageNormal is false, this will always be false 222 val tag_match = tag_match_hi && (tmp_level(1) || tag_match_mi) && (tmp_level(0) || tag_match_lo) 223 asid_hit && tag_match && vmid_hit 224 } 225 } 226 227 def apply(item: PtwRespS2, pm: PMPConfig): TlbEntry = { 228 this.asid := item.s1.entry.asid 229 val inner_level = item.s1.entry.level.getOrElse(0.U) max item.s2.entry.level.getOrElse(0.U) 230 this.level.map(_ := { if (pageNormal && pageSuper) MuxLookup(inner_level, 0.U)(Seq( 231 0.U -> 3.U, 232 1.U -> 1.U, 233 2.U -> 0.U )) 234 else if (pageSuper) ~inner_level(0) 235 else 0.U }) 236 val s1tag = {if (pageNormal) Cat(item.s1.entry.tag, OHToUInt(item.s1.pteidx)) else item.s1.entry.tag(sectorvpnLen - 1, vpnnLen - sectortlbwidth)} 237 val s2tag = {if (pageNormal) item.s2.entry.tag else item.s2.entry.tag(vpnLen - 1, vpnnLen)} 238 this.tag := Mux(item.s2xlate === onlyStage2, s2tag, s1tag) 239 240 val s1ppn = { 241 if (!pageNormal) item.s1.entry.ppn(sectorgvpnLen - 1, vpnnLen - sectortlbwidth) 242 else Cat(item.s1.entry.ppn, item.s1.ppn_low(OHToUInt(item.s1.pteidx))) 243 } 244 val s2ppn = { 245 if (!pageNormal) item.s2.entry.ppn(ppnLen - 1, vpnnLen) 246 else item.s2.entry.ppn 247 } 248 this.ppn := Mux(item.s2xlate === noS2xlate || item.s2xlate === onlyStage1, s1ppn, s2ppn) 249 this.perm.apply(item.s1) 250 this.vmid := item.s1.entry.vmid.getOrElse(0.U) 251 this.g_perm.applyS2(item.s2) 252 this.s2xlate := item.s2xlate 253 this 254 } 255 256 // 4KB is normal entry, 2MB/1GB is considered as super entry 257 def is_normalentry(): Bool = { 258 if (!pageSuper) { true.B } 259 else if (!pageNormal) { false.B } 260 else { level.get === 0.U } 261 } 262 263 264 def genPPN(saveLevel: Boolean = false, valid: Bool = false.B)(vpn: UInt) : UInt = { 265 val inner_level = level.getOrElse(0.U) 266 val ppn_res = if (!pageSuper) ppn 267 else if (!pageNormal) Cat(ppn(ppnLen-vpnnLen-1, vpnnLen), 268 Mux(inner_level(0), vpn(vpnnLen*2-1, vpnnLen), ppn(vpnnLen-1,0)), 269 vpn(vpnnLen-1, 0)) 270 else Cat(ppn(ppnLen-1, vpnnLen*2), 271 Mux(inner_level(1), vpn(vpnnLen*2-1, vpnnLen), ppn(vpnnLen*2-1, vpnnLen)), 272 Mux(inner_level(0), vpn(vpnnLen-1, 0), ppn(vpnnLen-1, 0))) 273 274 if (saveLevel) Cat(ppn(ppn.getWidth-1, vpnnLen*2), RegEnable(ppn_res(vpnnLen*2-1, 0), valid)) 275 else ppn_res 276 } 277 278 override def toPrintable: Printable = { 279 val inner_level = level.getOrElse(2.U) 280 p"asid: ${asid} level:${inner_level} vpn:${Hexadecimal(tag)} ppn:${Hexadecimal(ppn)} perm:${perm}" 281 } 282 283} 284 285class TlbSectorEntry(pageNormal: Boolean, pageSuper: Boolean)(implicit p: Parameters) extends TlbBundle { 286 require(pageNormal || pageSuper) 287 288 val tag = if (!pageNormal) UInt((vpnLen - vpnnLen).W) 289 else UInt(sectorvpnLen.W) 290 val asid = UInt(asidLen.W) 291 val level = if (!pageNormal) Some(UInt(1.W)) 292 else if (!pageSuper) None 293 else Some(UInt(2.W)) 294 val ppn = if (!pageNormal) UInt((ppnLen - vpnnLen).W) 295 else UInt(sectorppnLen.W) //only used when disable s2xlate 296 val perm = new TlbSectorPermBundle 297 val valididx = Vec(tlbcontiguous, Bool()) 298 val pteidx = Vec(tlbcontiguous, Bool()) 299 val ppn_low = Vec(tlbcontiguous, UInt(sectortlbwidth.W)) 300 301 val g_perm = new TlbPermBundle 302 val vmid = UInt(vmidLen.W) 303 val s2xlate = UInt(2.W) 304 305 306 /** level usage: 307 * !PageSuper: page is only normal, level is None, match all the tag 308 * !PageNormal: page is only super, level is a Bool(), match high 9*2 parts 309 * bits0 0: need mid 9bits 310 * 1: no need mid 9bits 311 * PageSuper && PageNormal: page hold all the three type, 312 * bits0 0: need low 9bits 313 * bits1 0: need mid 9bits 314 */ 315 316 def hit(vpn: UInt, asid: UInt, nSets: Int = 1, ignoreAsid: Boolean = false, vmid: UInt, hasS2xlate: Bool, onlyS2: Bool = false.B, onlyS1: Bool = false.B): Bool = { 317 val asid_hit = Mux(hasS2xlate && onlyS2, true.B, if (ignoreAsid) true.B else (this.asid === asid)) 318 val addr_low_hit = valididx(vpn(2, 0)) 319 val vmid_hit = Mux(hasS2xlate, this.vmid === vmid, true.B) 320 val isPageSuper = !(level.getOrElse(0.U) === 0.U) 321 val pteidx_hit = Mux(hasS2xlate && !isPageSuper && !onlyS1, pteidx(vpn(2, 0)), true.B) 322 // NOTE: for timing, dont care low set index bits at hit check 323 // do not need store the low bits actually 324 if (!pageSuper) asid_hit && drop_set_equal(vpn(vpn.getWidth - 1, sectortlbwidth), tag, nSets) && addr_low_hit && vmid_hit && pteidx_hit 325 else if (!pageNormal) { 326 val tag_match_hi = tag(vpnnLen * 2 - 1, vpnnLen) === vpn(vpnnLen * 3 - 1, vpnnLen * 2) 327 val tag_match_mi = tag(vpnnLen - 1, 0) === vpn(vpnnLen * 2 - 1, vpnnLen) 328 val tag_match = tag_match_hi && (level.get.asBool || tag_match_mi) 329 asid_hit && tag_match && addr_low_hit && vmid_hit && pteidx_hit 330 } 331 else { 332 val tmp_level = level.get 333 val tag_match_hi = tag(vpnnLen * 3 - sectortlbwidth - 1, vpnnLen * 2 - sectortlbwidth) === vpn(vpnnLen * 3 - 1, vpnnLen * 2) 334 val tag_match_mi = tag(vpnnLen * 2 - sectortlbwidth - 1, vpnnLen - sectortlbwidth) === vpn(vpnnLen * 2 - 1, vpnnLen) 335 val tag_match_lo = tag(vpnnLen - sectortlbwidth - 1, 0) === vpn(vpnnLen - 1, sectortlbwidth) // if pageNormal is false, this will always be false 336 val tag_match = tag_match_hi && (tmp_level(1) || tag_match_mi) && (tmp_level(0) || tag_match_lo) 337 asid_hit && tag_match && addr_low_hit && vmid_hit && pteidx_hit 338 } 339 } 340 341 def wbhit(data: PtwRespS2, asid: UInt, nSets: Int = 1, ignoreAsid: Boolean = false, s2xlate: UInt): Bool = { 342 val s1vpn = data.s1.entry.tag 343 val s2vpn = data.s2.entry.tag(vpnLen - 1, sectortlbwidth) 344 val wb_vpn = Mux(s2xlate === onlyStage2, s2vpn, s1vpn) 345 val vpn = Cat(wb_vpn, 0.U(sectortlbwidth.W)) 346 val asid_hit = if (ignoreAsid) true.B else (this.asid === asid) 347 val vpn_hit = Wire(Bool()) 348 val index_hit = Wire(Vec(tlbcontiguous, Bool())) 349 val wb_valididx = Wire(Vec(tlbcontiguous, Bool())) 350 val hasS2xlate = this.s2xlate =/= noS2xlate 351 val onlyS1 = this.s2xlate === onlyStage1 352 val onlyS2 = this.s2xlate === onlyStage2 353 val pteidx_hit = MuxCase(true.B, Seq( 354 onlyS2 -> (VecInit(UIntToOH(data.s2.entry.tag(sectortlbwidth - 1, 0))).asUInt === pteidx.asUInt), 355 hasS2xlate -> (pteidx.asUInt === data.s1.pteidx.asUInt) 356 )) 357 wb_valididx := Mux(s2xlate === onlyStage2, VecInit(UIntToOH(data.s2.entry.tag(sectortlbwidth - 1, 0)).asBools), data.s1.valididx) 358 val s2xlate_hit = s2xlate === this.s2xlate 359 // NOTE: for timing, dont care low set index bits at hit check 360 // do not need store the low bits actually 361 if (!pageSuper) { 362 vpn_hit := asid_hit && drop_set_equal(vpn(vpn.getWidth - 1, sectortlbwidth), tag, nSets) 363 } 364 else if (!pageNormal) { 365 val tag_match_hi = tag(vpnnLen * 2 - 1, vpnnLen - sectortlbwidth) === vpn(vpnnLen * 3 - 1, vpnnLen * 2) 366 val tag_match_mi = tag(vpnnLen - 1, 0) === vpn(vpnnLen * 2 - 1, vpnnLen) 367 val tag_match = tag_match_hi && (level.get.asBool || tag_match_mi) 368 vpn_hit := asid_hit && tag_match 369 } 370 else { 371 val tmp_level = level.get 372 val tag_match_hi = tag(vpnnLen * 3 - sectortlbwidth - 1, vpnnLen * 2 - sectortlbwidth) === vpn(vpnnLen * 3 - 1, vpnnLen * 2) 373 val tag_match_mi = tag(vpnnLen * 2 - sectortlbwidth - 1, vpnnLen - sectortlbwidth) === vpn(vpnnLen * 2 - 1, vpnnLen) 374 val tag_match_lo = tag(vpnnLen - sectortlbwidth - 1, 0) === vpn(vpnnLen - 1, sectortlbwidth) // if pageNormal is false, this will always be false 375 val tag_match = tag_match_hi && (tmp_level(1) || tag_match_mi) && (tmp_level(0) || tag_match_lo) 376 vpn_hit := asid_hit && tag_match 377 } 378 379 for (i <- 0 until tlbcontiguous) { 380 index_hit(i) := wb_valididx(i) && valididx(i) 381 } 382 383 // For example, tlb req to page cache with vpn 0x10 384 // At this time, 0x13 has not been paged, so page cache only resp 0x10 385 // When 0x13 refill to page cache, previous item will be flushed 386 // Now 0x10 and 0x13 are both valid in page cache 387 // However, when 0x13 refill to tlb, will trigger multi hit 388 // So will only trigger multi-hit when PopCount(data.valididx) = 1 389 vpn_hit && index_hit.reduce(_ || _) && PopCount(wb_valididx) === 1.U && s2xlate_hit && pteidx_hit 390 } 391 392 def apply(item: PtwRespS2): TlbSectorEntry = { 393 this.asid := item.s1.entry.asid 394 val inner_level = MuxLookup(item.s2xlate, 2.U)(Seq( 395 onlyStage1 -> item.s1.entry.level.getOrElse(0.U), 396 onlyStage2 -> item.s2.entry.level.getOrElse(0.U), 397 allStage -> (item.s1.entry.level.getOrElse(0.U) max item.s2.entry.level.getOrElse(0.U)), 398 noS2xlate -> item.s1.entry.level.getOrElse(0.U) 399 )) 400 this.level.map(_ := { if (pageNormal && pageSuper) MuxLookup(inner_level, 0.U)(Seq( 401 0.U -> 3.U, 402 1.U -> 1.U, 403 2.U -> 0.U )) 404 else if (pageSuper) ~inner_level(0) 405 else 0.U }) 406 this.perm.apply(item.s1) 407 408 val s1tag = {if (pageNormal) item.s1.entry.tag else item.s1.entry.tag(sectorvpnLen - 1, vpnnLen - sectortlbwidth)} 409 val s2tag = {if (pageNormal) item.s2.entry.tag(vpnLen - 1, sectortlbwidth) else item.s2.entry.tag(vpnLen - 1, vpnnLen)} 410 // if stage1 page is larger than stage2 page, need to merge s1tag and s2tag. 411 val s1tagFix = { 412 if (pageNormal){ 413 MuxCase(s1tag, Seq( 414 (item.s1.entry.level.getOrElse(0.U) === 0.U && item.s2.entry.level.getOrElse(0.U) === 1.U) -> Cat(item.s1.entry.tag(sectorvpnLen - 1, vpnnLen * 2 - sectortlbwidth), item.s2.entry.tag(vpnnLen * 2 - 1, vpnnLen), 0.U((vpnnLen - sectortlbwidth).W)), 415 (item.s1.entry.level.getOrElse(0.U) === 0.U && item.s2.entry.level.getOrElse(0.U) === 2.U) -> Cat(item.s1.entry.tag(sectorvpnLen - 1, vpnnLen * 2 - sectortlbwidth), item.s2.entry.tag(vpnnLen * 2 - 1, sectortlbwidth)), 416 (item.s1.entry.level.getOrElse(0.U) === 1.U && item.s2.entry.level.getOrElse(0.U) === 2.U) -> Cat(item.s1.entry.tag(sectorvpnLen - 1, vpnnLen - sectortlbwidth), item.s2.entry.tag(vpnnLen - 1, sectortlbwidth)) 417 )) 418 } else { 419 MuxCase(s1tag, Seq( 420 (item.s1.entry.level.getOrElse(0.U) === 0.U && item.s2.entry.level.getOrElse(0.U) === 1.U) -> Cat(item.s1.entry.tag(sectorvpnLen - 1, vpnnLen * 2 - sectortlbwidth), item.s2.entry.tag(vpnnLen * 2 - 1, vpnnLen)) 421 )) 422 }} 423 this.tag := Mux(item.s2xlate === onlyStage2, s2tag, Mux(item.s2xlate === allStage, s1tagFix, s1tag)) 424 val s2page_pageSuper = item.s2.entry.level.getOrElse(0.U) =/= 2.U 425 this.pteidx := Mux(item.s2xlate === onlyStage2, VecInit(UIntToOH(item.s2.entry.tag(sectortlbwidth - 1, 0)).asBools), item.s1.pteidx) 426 val s2_valid = Mux(s2page_pageSuper, VecInit(Seq.fill(tlbcontiguous)(true.B)), VecInit(UIntToOH(item.s2.entry.tag(sectortlbwidth - 1, 0)).asBools)) 427 this.valididx := Mux(item.s2xlate === onlyStage2, s2_valid, item.s1.valididx) 428 // if stage2 page is larger than stage1 page, need to merge s2tag and s2ppn to get a new s2ppn. 429 val s1ppn = { 430 if (!pageNormal) item.s1.entry.ppn(sectorgvpnLen - 1, vpnnLen - sectortlbwidth) else item.s1.entry.ppn 431 } 432 val s1ppn_low = item.s1.ppn_low 433 val s2ppn = { 434 if (!pageNormal) 435 MuxLookup(item.s2.entry.level.getOrElse(0.U), item.s2.entry.ppn(ppnLen - 1, vpnnLen))(Seq( 436 0.U -> Cat(item.s2.entry.ppn(ppnLen - 1, vpnnLen * 2), item.s2.entry.tag(vpnnLen * 2 - 1, vpnnLen)), 437 )) 438 else 439 MuxLookup(item.s2.entry.level.getOrElse(0.U), item.s2.entry.ppn(ppnLen - 1, sectortlbwidth))(Seq( 440 0.U -> Cat(item.s2.entry.ppn(ppnLen - 1, vpnnLen * 2), item.s2.entry.tag(vpnnLen * 2 - 1, sectortlbwidth)), 441 1.U -> Cat(item.s2.entry.ppn(ppnLen - 1, vpnnLen), item.s2.entry.tag(vpnnLen - 1, sectortlbwidth)) 442 )) 443 } 444 val s2ppn_tmp = { 445 MuxLookup(item.s2.entry.level.getOrElse(0.U), item.s2.entry.ppn(ppnLen - 1, 0))(Seq( 446 0.U -> Cat(item.s2.entry.ppn(ppnLen - 1, vpnnLen * 2), item.s2.entry.tag(vpnnLen * 2 - 1, 0)), 447 1.U -> Cat(item.s2.entry.ppn(ppnLen - 1, vpnnLen), item.s2.entry.tag(vpnnLen - 1, 0)) 448 )) 449 } 450 val s2ppn_low = VecInit(Seq.fill(tlbcontiguous)(s2ppn_tmp(sectortlbwidth - 1, 0))) 451 this.ppn := Mux(item.s2xlate === noS2xlate || item.s2xlate === onlyStage1, s1ppn, s2ppn) 452 this.ppn_low := Mux(item.s2xlate === noS2xlate || item.s2xlate === onlyStage1, s1ppn_low, s2ppn_low) 453 this.vmid := item.s1.entry.vmid.getOrElse(0.U) 454 this.g_perm.applyS2(item.s2) 455 this.s2xlate := item.s2xlate 456 this 457 } 458 459 // 4KB is normal entry, 2MB/1GB is considered as super entry 460 def is_normalentry(): Bool = { 461 if (!pageSuper) { true.B } 462 else if (!pageNormal) { false.B } 463 else { level.get === 0.U } 464 } 465 466 467 def genPPN(saveLevel: Boolean = false, valid: Bool = false.B)(vpn: UInt) : UInt = { 468 val inner_level = level.getOrElse(0.U) 469 val ppn_res = if (!pageSuper) Cat(ppn, ppn_low(vpn(sectortlbwidth - 1, 0))) 470 else if (!pageNormal) Cat(ppn(ppnLen - vpnnLen - 1, vpnnLen), 471 Mux(inner_level(0), vpn(vpnnLen * 2 - 1, vpnnLen), ppn(vpnnLen - 1,0)), 472 vpn(vpnnLen - 1, 0)) 473 else Cat(ppn(sectorppnLen - 1, vpnnLen * 2 - sectortlbwidth), 474 Mux(inner_level(1), vpn(vpnnLen * 2 - 1, vpnnLen), ppn(vpnnLen * 2 - sectortlbwidth - 1, vpnnLen - sectortlbwidth)), 475 Mux(inner_level(0), vpn(vpnnLen - 1, 0), Cat(ppn(vpnnLen - sectortlbwidth - 1, 0), ppn_low(vpn(sectortlbwidth - 1, 0))))) 476 477 if (saveLevel) { 478 if (ppn.getWidth == ppnLen - vpnnLen) { 479 Cat(ppn(ppn.getWidth - 1, vpnnLen * 2), RegEnable(ppn_res(vpnnLen * 2 - 1, 0), valid)) 480 } else { 481 require(ppn.getWidth == sectorppnLen) 482 Cat(ppn(ppn.getWidth - 1, vpnnLen * 2 - sectortlbwidth), RegEnable(ppn_res(vpnnLen * 2 - 1, 0), valid)) 483 } 484 } 485 else ppn_res 486 } 487 488 def hasS2xlate(): Bool = { 489 this.s2xlate =/= noS2xlate 490 } 491 492 override def toPrintable: Printable = { 493 val inner_level = level.getOrElse(2.U) 494 p"asid: ${asid} level:${inner_level} vpn:${Hexadecimal(tag)} ppn:${Hexadecimal(ppn)} perm:${perm}" 495 } 496 497} 498 499object TlbCmd { 500 def read = "b00".U 501 def write = "b01".U 502 def exec = "b10".U 503 504 def atom_read = "b100".U // lr 505 def atom_write = "b101".U // sc / amo 506 507 def apply() = UInt(3.W) 508 def isRead(a: UInt) = a(1,0)===read 509 def isWrite(a: UInt) = a(1,0)===write 510 def isExec(a: UInt) = a(1,0)===exec 511 512 def isAtom(a: UInt) = a(2) 513 def isAmo(a: UInt) = a===atom_write // NOTE: sc mixed 514} 515 516class TlbStorageIO(nSets: Int, nWays: Int, ports: Int, nDups: Int = 1)(implicit p: Parameters) extends MMUIOBaseBundle { 517 val r = new Bundle { 518 val req = Vec(ports, Flipped(DecoupledIO(new Bundle { 519 val vpn = Output(UInt(vpnLen.W)) 520 val s2xlate = Output(UInt(2.W)) 521 }))) 522 val resp = Vec(ports, ValidIO(new Bundle{ 523 val hit = Output(Bool()) 524 val ppn = Vec(nDups, Output(UInt(ppnLen.W))) 525 val perm = Vec(nDups, Output(new TlbSectorPermBundle())) 526 val g_perm = Vec(nDups, Output(new TlbPermBundle())) 527 val s2xlate = Vec(nDups, Output(UInt(2.W))) 528 })) 529 } 530 val w = Flipped(ValidIO(new Bundle { 531 val wayIdx = Output(UInt(log2Up(nWays).W)) 532 val data = Output(new PtwRespS2) 533 })) 534 val access = Vec(ports, new ReplaceAccessBundle(nSets, nWays)) 535 536 def r_req_apply(valid: Bool, vpn: UInt, i: Int, s2xlate:UInt): Unit = { 537 this.r.req(i).valid := valid 538 this.r.req(i).bits.vpn := vpn 539 this.r.req(i).bits.s2xlate := s2xlate 540 541 } 542 543 def r_resp_apply(i: Int) = { 544 (this.r.resp(i).bits.hit, this.r.resp(i).bits.ppn, this.r.resp(i).bits.perm, this.r.resp(i).bits.g_perm) 545 } 546 547 def w_apply(valid: Bool, wayIdx: UInt, data: PtwRespS2): Unit = { 548 this.w.valid := valid 549 this.w.bits.wayIdx := wayIdx 550 this.w.bits.data := data 551 } 552 553} 554 555class TlbStorageWrapperIO(ports: Int, q: TLBParameters, nDups: Int = 1)(implicit p: Parameters) extends MMUIOBaseBundle { 556 val r = new Bundle { 557 val req = Vec(ports, Flipped(DecoupledIO(new Bundle { 558 val vpn = Output(UInt(vpnLen.W)) 559 val s2xlate = Output(UInt(2.W)) 560 }))) 561 val resp = Vec(ports, ValidIO(new Bundle{ 562 val hit = Output(Bool()) 563 val ppn = Vec(nDups, Output(UInt(ppnLen.W))) 564 val perm = Vec(nDups, Output(new TlbPermBundle())) 565 val g_perm = Vec(nDups, Output(new TlbPermBundle())) 566 val s2xlate = Vec(nDups, Output(UInt(2.W))) 567 })) 568 } 569 val w = Flipped(ValidIO(new Bundle { 570 val data = Output(new PtwRespS2) 571 })) 572 val replace = if (q.outReplace) Flipped(new TlbReplaceIO(ports, q)) else null 573 574 def r_req_apply(valid: Bool, vpn: UInt, i: Int, s2xlate: UInt): Unit = { 575 this.r.req(i).valid := valid 576 this.r.req(i).bits.vpn := vpn 577 this.r.req(i).bits.s2xlate := s2xlate 578 } 579 580 def r_resp_apply(i: Int) = { 581 (this.r.resp(i).bits.hit, this.r.resp(i).bits.ppn, this.r.resp(i).bits.perm, this.r.resp(i).bits.g_perm, this.r.resp(i).bits.s2xlate) 582 } 583 584 def w_apply(valid: Bool, data: PtwRespS2): Unit = { 585 this.w.valid := valid 586 this.w.bits.data := data 587 } 588} 589 590class ReplaceAccessBundle(nSets: Int, nWays: Int)(implicit p: Parameters) extends TlbBundle { 591 val sets = Output(UInt(log2Up(nSets).W)) 592 val touch_ways = ValidIO(Output(UInt(log2Up(nWays).W))) 593} 594 595class ReplaceIO(Width: Int, nSets: Int, nWays: Int)(implicit p: Parameters) extends TlbBundle { 596 val access = Vec(Width, Flipped(new ReplaceAccessBundle(nSets, nWays))) 597 598 val refillIdx = Output(UInt(log2Up(nWays).W)) 599 val chosen_set = Flipped(Output(UInt(log2Up(nSets).W))) 600 601 def apply_sep(in: Seq[ReplaceIO], vpn: UInt): Unit = { 602 for ((ac_rep, ac_tlb) <- access.zip(in.map(a => a.access.map(b => b)).flatten)) { 603 ac_rep := ac_tlb 604 } 605 this.chosen_set := get_set_idx(vpn, nSets) 606 in.map(a => a.refillIdx := this.refillIdx) 607 } 608} 609 610class TlbReplaceIO(Width: Int, q: TLBParameters)(implicit p: Parameters) extends 611 TlbBundle { 612 val page = new ReplaceIO(Width, q.NSets, q.NWays) 613 614 def apply_sep(in: Seq[TlbReplaceIO], vpn: UInt) = { 615 this.page.apply_sep(in.map(_.page), vpn) 616 } 617 618} 619 620class MemBlockidxBundle(implicit p: Parameters) extends TlbBundle { 621 val is_ld = Bool() 622 val is_st = Bool() 623 val idx = 624 if (VirtualLoadQueueSize >= StoreQueueSize) { 625 val idx = UInt(log2Ceil(VirtualLoadQueueSize).W) 626 idx 627 } else { 628 val idx = UInt(log2Ceil(StoreQueueSize).W) 629 idx 630 } 631} 632 633class TlbReq(implicit p: Parameters) extends TlbBundle { 634 val vaddr = Output(UInt(VAddrBits.W)) 635 val cmd = Output(TlbCmd()) 636 val hyperinst = Output(Bool()) 637 val hlvx = Output(Bool()) 638 val size = Output(UInt(log2Ceil(log2Ceil(VLEN/8)+1).W)) 639 val kill = Output(Bool()) // Use for blocked tlb that need sync with other module like icache 640 val memidx = Output(new MemBlockidxBundle) 641 // do not translate, but still do pmp/pma check 642 val no_translate = Output(Bool()) 643 val debug = new Bundle { 644 val pc = Output(UInt(XLEN.W)) 645 val robIdx = Output(new RobPtr) 646 val isFirstIssue = Output(Bool()) 647 } 648 649 // Maybe Block req needs a kill: for itlb, itlb and icache may not sync, itlb should wait icache to go ahead 650 override def toPrintable: Printable = { 651 p"vaddr:0x${Hexadecimal(vaddr)} cmd:${cmd} kill:${kill} pc:0x${Hexadecimal(debug.pc)} robIdx:${debug.robIdx}" 652 } 653} 654 655class TlbExceptionBundle(implicit p: Parameters) extends TlbBundle { 656 val ld = Output(Bool()) 657 val st = Output(Bool()) 658 val instr = Output(Bool()) 659} 660 661class TlbResp(nDups: Int = 1)(implicit p: Parameters) extends TlbBundle { 662 val paddr = Vec(nDups, Output(UInt(PAddrBits.W))) 663 val gpaddr = Vec(nDups, Output(UInt(GPAddrBits.W))) 664 val miss = Output(Bool()) 665 val excp = Vec(nDups, new Bundle { 666 val gpf = new TlbExceptionBundle() 667 val pf = new TlbExceptionBundle() 668 val af = new TlbExceptionBundle() 669 }) 670 val ptwBack = Output(Bool()) // when ptw back, wake up replay rs's state 671 val memidx = Output(new MemBlockidxBundle) 672 673 val debug = new Bundle { 674 val robIdx = Output(new RobPtr) 675 val isFirstIssue = Output(Bool()) 676 } 677 override def toPrintable: Printable = { 678 p"paddr:0x${Hexadecimal(paddr(0))} miss:${miss} excp.pf: ld:${excp(0).pf.ld} st:${excp(0).pf.st} instr:${excp(0).pf.instr} ptwBack:${ptwBack}" 679 } 680} 681 682class TlbRequestIO(nRespDups: Int = 1)(implicit p: Parameters) extends TlbBundle { 683 val req = DecoupledIO(new TlbReq) 684 val req_kill = Output(Bool()) 685 val resp = Flipped(DecoupledIO(new TlbResp(nRespDups))) 686} 687 688class TlbPtwIO(Width: Int = 1)(implicit p: Parameters) extends TlbBundle { 689 val req = Vec(Width, DecoupledIO(new PtwReq)) 690 val resp = Flipped(DecoupledIO(new PtwRespS2)) 691 692 693 override def toPrintable: Printable = { 694 p"req(0):${req(0).valid} ${req(0).ready} ${req(0).bits} | resp:${resp.valid} ${resp.ready} ${resp.bits}" 695 } 696} 697 698class TlbPtwIOwithMemIdx(Width: Int = 1)(implicit p: Parameters) extends TlbBundle { 699 val req = Vec(Width, DecoupledIO(new PtwReqwithMemIdx)) 700 val resp = Flipped(DecoupledIO(new PtwRespS2withMemIdx())) 701 702 703 override def toPrintable: Printable = { 704 p"req(0):${req(0).valid} ${req(0).ready} ${req(0).bits} | resp:${resp.valid} ${resp.ready} ${resp.bits}" 705 } 706} 707 708class TlbHintReq(implicit p: Parameters) extends TlbBundle { 709 val id = Output(UInt(log2Up(loadfiltersize).W)) 710 val full = Output(Bool()) 711} 712 713class TLBHintResp(implicit p: Parameters) extends TlbBundle { 714 val id = Output(UInt(log2Up(loadfiltersize).W)) 715 // When there are multiple matching entries for PTW resp in filter 716 // e.g. vaddr 0, 0x80000000. vaddr 1, 0x80010000 717 // these two vaddrs are not in a same 4K Page, so will send to ptw twice 718 // However, when ptw resp, if they are in a 1G or 2M huge page 719 // The two entries will both hit, and both need to replay 720 val replay_all = Output(Bool()) 721} 722 723class TlbHintIO(implicit p: Parameters) extends TlbBundle { 724 val req = Vec(backendParams.LdExuCnt, new TlbHintReq) 725 val resp = ValidIO(new TLBHintResp) 726} 727 728class MMUIOBaseBundle(implicit p: Parameters) extends TlbBundle { 729 val sfence = Input(new SfenceBundle) 730 val csr = Input(new TlbCsrBundle) 731 732 def base_connect(sfence: SfenceBundle, csr: TlbCsrBundle): Unit = { 733 this.sfence <> sfence 734 this.csr <> csr 735 } 736 737 // overwrite satp. write satp will cause flushpipe but csr.priv won't 738 // satp will be dealyed several cycles from writing, but csr.priv won't 739 // so inside mmu, these two signals should be divided 740 def base_connect(sfence: SfenceBundle, csr: TlbCsrBundle, satp: TlbSatpBundle) = { 741 this.sfence <> sfence 742 this.csr <> csr 743 this.csr.satp := satp 744 } 745} 746 747class TlbRefilltoMemIO()(implicit p: Parameters) extends TlbBundle { 748 val valid = Bool() 749 val memidx = new MemBlockidxBundle 750} 751 752class TlbIO(Width: Int, nRespDups: Int = 1, q: TLBParameters)(implicit p: Parameters) extends 753 MMUIOBaseBundle { 754 val hartId = Input(UInt(hartIdLen.W)) 755 val requestor = Vec(Width, Flipped(new TlbRequestIO(nRespDups))) 756 val flushPipe = Vec(Width, Input(Bool())) 757 val redirect = Flipped(ValidIO(new Redirect)) // flush the signal need_gpa in tlb 758 val ptw = new TlbPtwIOwithMemIdx(Width) 759 val refill_to_mem = Output(new TlbRefilltoMemIO()) 760 val replace = if (q.outReplace) Flipped(new TlbReplaceIO(Width, q)) else null 761 val pmp = Vec(Width, ValidIO(new PMPReqBundle(q.lgMaxSize))) 762 val tlbreplay = Vec(Width, Output(Bool())) 763} 764 765class VectorTlbPtwIO(Width: Int)(implicit p: Parameters) extends TlbBundle { 766 val req = Vec(Width, DecoupledIO(new PtwReqwithMemIdx())) 767 val resp = Flipped(DecoupledIO(new Bundle { 768 val data = new PtwRespS2withMemIdx 769 val vector = Output(Vec(Width, Bool())) 770 val getGpa = Output(Vec(Width, Bool())) 771 })) 772 773 def connect(normal: TlbPtwIOwithMemIdx): Unit = { 774 req <> normal.req 775 resp.ready := normal.resp.ready 776 normal.resp.bits := resp.bits.data 777 normal.resp.valid := resp.valid 778 } 779} 780 781/**************************** L2TLB *************************************/ 782abstract class PtwBundle(implicit p: Parameters) extends XSBundle with HasPtwConst 783abstract class PtwModule(outer: L2TLB) extends LazyModuleImp(outer) 784 with HasXSParameter with HasPtwConst 785 786class PteBundle(implicit p: Parameters) extends PtwBundle{ 787 val reserved = UInt(pteResLen.W) 788 val ppn_high = UInt(ppnHignLen.W) 789 val ppn = UInt(ppnLen.W) 790 val rsw = UInt(2.W) 791 val perm = new Bundle { 792 val d = Bool() 793 val a = Bool() 794 val g = Bool() 795 val u = Bool() 796 val x = Bool() 797 val w = Bool() 798 val r = Bool() 799 val v = Bool() 800 } 801 802 def unaligned(level: UInt) = { 803 isLeaf() && !(level === 2.U || 804 level === 1.U && ppn(vpnnLen-1, 0) === 0.U || 805 level === 0.U && ppn(vpnnLen*2-1, 0) === 0.U) 806 } 807 808 def isPf(level: UInt) = { 809 !perm.v || (!perm.r && perm.w) || unaligned(level) 810 } 811 812 // paddr of Xiangshan is 36 bits but ppn of sv39 is 44 bits 813 // access fault will be raised when ppn >> ppnLen is not zero 814 def isAf() = { 815 !(ppn_high === 0.U) 816 } 817 818 def isStage1Af() = { 819 !((Cat(ppn_high, ppn) >> gvpnLen) === 0.U) 820 } 821 822 def isLeaf() = { 823 perm.r || perm.x || perm.w 824 } 825 826 def getPerm() = { 827 val pm = Wire(new PtePermBundle) 828 pm.d := perm.d 829 pm.a := perm.a 830 pm.g := perm.g 831 pm.u := perm.u 832 pm.x := perm.x 833 pm.w := perm.w 834 pm.r := perm.r 835 pm 836 } 837 def getPPN() = { 838 Cat(ppn_high, ppn) 839 } 840 override def toPrintable: Printable = { 841 p"ppn:0x${Hexadecimal(ppn)} perm:b${Binary(perm.asUInt)}" 842 } 843} 844 845class PtwEntry(tagLen: Int, hasPerm: Boolean = false, hasLevel: Boolean = false)(implicit p: Parameters) extends PtwBundle { 846 val tag = UInt(tagLen.W) 847 val asid = UInt(asidLen.W) 848 val vmid = if (HasHExtension) Some(UInt(vmidLen.W)) else None 849 val ppn = UInt(ppnLen.W) 850 val perm = if (hasPerm) Some(new PtePermBundle) else None 851 val level = if (hasLevel) Some(UInt(log2Up(Level).W)) else None 852 val prefetch = Bool() 853 val v = Bool() 854 855 def is_normalentry(): Bool = { 856 if (!hasLevel) true.B 857 else level.get === 2.U 858 } 859 860 def genPPN(vpn: UInt): UInt = { 861 if (!hasLevel) ppn 862 else MuxLookup(level.get, 0.U)(Seq( 863 0.U -> Cat(ppn(ppn.getWidth-1, vpnnLen*2), vpn(vpnnLen*2-1, 0)), 864 1.U -> Cat(ppn(ppn.getWidth-1, vpnnLen), vpn(vpnnLen-1, 0)), 865 2.U -> ppn) 866 ) 867 } 868 869 //s2xlate control whether compare vmid or not 870 def hit(vpn: UInt, asid: UInt, vasid: UInt, vmid: UInt, allType: Boolean = false, ignoreAsid: Boolean = false, s2xlate: Bool) = { 871 require(vpn.getWidth == vpnLen) 872// require(this.asid.getWidth <= asid.getWidth) 873 val asid_value = Mux(s2xlate, vasid, asid) 874 val asid_hit = if (ignoreAsid) true.B else (this.asid === asid_value) 875 val vmid_hit = Mux(s2xlate, (this.vmid.getOrElse(0.U) === vmid), true.B) 876 if (allType) { 877 require(hasLevel) 878 val hit0 = tag(tagLen - 1, vpnnLen*2) === vpn(tagLen - 1, vpnnLen*2) 879 val hit1 = tag(vpnnLen*2 - 1, vpnnLen) === vpn(vpnnLen*2 - 1, vpnnLen) 880 val hit2 = tag(vpnnLen - 1, 0) === vpn(vpnnLen - 1, 0) 881 882 asid_hit && vmid_hit && Mux(level.getOrElse(0.U) === 2.U, hit2 && hit1 && hit0, Mux(level.getOrElse(0.U) === 1.U, hit1 && hit0, hit0)) 883 } else if (hasLevel) { 884 val hit0 = tag(tagLen - 1, tagLen - vpnnLen - extendVpnnBits) === vpn(vpnLen - 1, vpnLen - vpnnLen - extendVpnnBits) 885 val hit1 = tag(tagLen - vpnnLen - extendVpnnBits - 1, tagLen - vpnnLen * 2 - extendVpnnBits) === vpn(vpnLen - vpnnLen - extendVpnnBits - 1, vpnLen - vpnnLen * 2 - extendVpnnBits) 886 887 asid_hit && vmid_hit && Mux(level.getOrElse(0.U) === 0.U, hit0, hit0 && hit1) 888 } else { 889 asid_hit && vmid_hit && tag === vpn(vpnLen - 1, vpnLen - tagLen) 890 } 891 } 892 893 def refill(vpn: UInt, asid: UInt, vmid: UInt, pte: UInt, level: UInt = 0.U, prefetch: Bool, valid: Bool = false.B) { 894 require(this.asid.getWidth <= asid.getWidth) // maybe equal is better, but ugly outside 895 896 tag := vpn(vpnLen - 1, vpnLen - tagLen) 897 ppn := pte.asTypeOf(new PteBundle().cloneType).ppn 898 perm.map(_ := pte.asTypeOf(new PteBundle().cloneType).perm) 899 this.asid := asid 900 this.vmid.map(_ := vmid) 901 this.prefetch := prefetch 902 this.v := valid 903 this.level.map(_ := level) 904 } 905 906 def genPtwEntry(vpn: UInt, asid: UInt, pte: UInt, level: UInt = 0.U, prefetch: Bool, valid: Bool = false.B) = { 907 val e = Wire(new PtwEntry(tagLen, hasPerm, hasLevel)) 908 e.refill(vpn, asid, pte, level, prefetch, valid) 909 e 910 } 911 912 913 914 override def toPrintable: Printable = { 915 // p"tag:0x${Hexadecimal(tag)} ppn:0x${Hexadecimal(ppn)} perm:${perm}" 916 p"tag:0x${Hexadecimal(tag)} ppn:0x${Hexadecimal(ppn)} " + 917 (if (hasPerm) p"perm:${perm.getOrElse(0.U.asTypeOf(new PtePermBundle))} " else p"") + 918 (if (hasLevel) p"level:${level.getOrElse(0.U)}" else p"") + 919 p"prefetch:${prefetch}" 920 } 921} 922 923class PtwSectorEntry(tagLen: Int, hasPerm: Boolean = false, hasLevel: Boolean = false)(implicit p: Parameters) extends PtwEntry(tagLen, hasPerm, hasLevel) { 924 override val ppn = UInt(sectorgvpnLen.W) 925} 926 927class PtwMergeEntry(tagLen: Int, hasPerm: Boolean = false, hasLevel: Boolean = false)(implicit p: Parameters) extends PtwSectorEntry(tagLen, hasPerm, hasLevel) { 928 val ppn_low = UInt(sectortlbwidth.W) 929 val af = Bool() 930 val pf = Bool() 931} 932 933class HptwMergeEntry(tagLen: Int, hasPerm: Boolean = false, hasLevel: Boolean = false)(implicit p: Parameters) extends PtwMergeEntry(tagLen, hasPerm, hasLevel) 934 935class PtwEntries(num: Int, tagLen: Int, level: Int, hasPerm: Boolean)(implicit p: Parameters) extends PtwBundle { 936 require(log2Up(num)==log2Down(num)) 937 // NOTE: hasPerm means that is leaf or not. 938 939 val tag = UInt(tagLen.W) 940 val asid = UInt(asidLen.W) 941 val vmid = Some(UInt(vmidLen.W)) 942 val ppns = Vec(num, UInt(gvpnLen.W)) 943 val vs = Vec(num, Bool()) 944 val perms = if (hasPerm) Some(Vec(num, new PtePermBundle)) else None 945 val prefetch = Bool() 946 // println(s"PtwEntries: tag:1*${tagLen} ppns:${num}*${ppnLen} vs:${num}*1") 947 // NOTE: vs is used for different usage: 948 // for l3, which store the leaf(leaves), vs is page fault or not. 949 // for l2, which shoule not store leaf, vs is valid or not, that will anticipate in hit check 950 // Because, l2 should not store leaf(no perm), it doesn't store perm. 951 // If l2 hit a leaf, the perm is still unavailble. Should still page walk. Complex but nothing helpful. 952 // TODO: divide vs into validVec and pfVec 953 // for l2: may valid but pf, so no need for page walk, return random pte with pf. 954 955 def tagClip(vpn: UInt) = { 956 require(vpn.getWidth == vpnLen) 957 vpn(vpnLen - 1, vpnLen - tagLen) 958 } 959 960 def sectorIdxClip(vpn: UInt, level: Int) = { 961 getVpnClip(vpn, level)(log2Up(num) - 1, 0) 962 } 963 964 def hit(vpn: UInt, asid: UInt, vasid: UInt, vmid:UInt, ignoreAsid: Boolean = false, s2xlate: Bool) = { 965 val asid_value = Mux(s2xlate, vasid, asid) 966 val asid_hit = if (ignoreAsid) true.B else (this.asid === asid_value) 967 val vmid_hit = Mux(s2xlate, this.vmid.getOrElse(0.U) === vmid, true.B) 968 asid_hit && vmid_hit && tag === tagClip(vpn) && (if (hasPerm) true.B else vs(sectorIdxClip(vpn, level))) 969 } 970 971 def genEntries(vpn: UInt, asid: UInt, vmid: UInt, data: UInt, levelUInt: UInt, prefetch: Bool) = { 972 require((data.getWidth / XLEN) == num, 973 s"input data length must be multiple of pte length: data.length:${data.getWidth} num:${num}") 974 975 val ps = Wire(new PtwEntries(num, tagLen, level, hasPerm)) 976 ps.tag := tagClip(vpn) 977 ps.asid := asid 978 ps.vmid.map(_ := vmid) 979 ps.prefetch := prefetch 980 for (i <- 0 until num) { 981 val pte = data((i+1)*XLEN-1, i*XLEN).asTypeOf(new PteBundle) 982 ps.ppns(i) := pte.ppn 983 ps.vs(i) := !pte.isPf(levelUInt) && (if (hasPerm) pte.isLeaf() else !pte.isLeaf()) 984 ps.perms.map(_(i) := pte.perm) 985 } 986 ps 987 } 988 989 override def toPrintable: Printable = { 990 // require(num == 4, "if num is not 4, please comment this toPrintable") 991 // NOTE: if num is not 4, please comment this toPrintable 992 val permsInner = perms.getOrElse(0.U.asTypeOf(Vec(num, new PtePermBundle))) 993 p"asid: ${Hexadecimal(asid)} tag:0x${Hexadecimal(tag)} ppns:${printVec(ppns)} vs:${Binary(vs.asUInt)} " + 994 (if (hasPerm) p"perms:${printVec(permsInner)}" else p"") 995 } 996} 997 998class PTWEntriesWithEcc(eccCode: Code, num: Int, tagLen: Int, level: Int, hasPerm: Boolean)(implicit p: Parameters) extends PtwBundle { 999 val entries = new PtwEntries(num, tagLen, level, hasPerm) 1000 1001 val ecc_block = XLEN 1002 val ecc_info = get_ecc_info() 1003 val ecc = if (l2tlbParams.enablePTWECC) Some(UInt(ecc_info._1.W)) else None 1004 1005 def get_ecc_info(): (Int, Int, Int, Int) = { 1006 val eccBits_per = eccCode.width(ecc_block) - ecc_block 1007 1008 val data_length = entries.getWidth 1009 val data_align_num = data_length / ecc_block 1010 val data_not_align = (data_length % ecc_block) != 0 // ugly code 1011 val data_unalign_length = data_length - data_align_num * ecc_block 1012 val eccBits_unalign = eccCode.width(data_unalign_length) - data_unalign_length 1013 1014 val eccBits = eccBits_per * data_align_num + eccBits_unalign 1015 (eccBits, eccBits_per, data_align_num, data_unalign_length) 1016 } 1017 1018 def encode() = { 1019 val data = entries.asUInt 1020 val ecc_slices = Wire(Vec(ecc_info._3, UInt(ecc_info._2.W))) 1021 for (i <- 0 until ecc_info._3) { 1022 ecc_slices(i) := eccCode.encode(data((i+1)*ecc_block-1, i*ecc_block)) >> ecc_block 1023 } 1024 if (ecc_info._4 != 0) { 1025 val ecc_unaligned = eccCode.encode(data(data.getWidth-1, ecc_info._3*ecc_block)) >> ecc_info._4 1026 ecc.map(_ := Cat(ecc_unaligned, ecc_slices.asUInt)) 1027 } else { ecc.map(_ := ecc_slices.asUInt)} 1028 } 1029 1030 def decode(): Bool = { 1031 val data = entries.asUInt 1032 val res = Wire(Vec(ecc_info._3 + 1, Bool())) 1033 for (i <- 0 until ecc_info._3) { 1034 res(i) := {if (ecc_info._2 != 0) eccCode.decode(Cat(ecc.get((i+1)*ecc_info._2-1, i*ecc_info._2), data((i+1)*ecc_block-1, i*ecc_block))).error else false.B} 1035 } 1036 if (ecc_info._2 != 0 && ecc_info._4 != 0) { 1037 res(ecc_info._3) := eccCode.decode( 1038 Cat(ecc.get(ecc_info._1-1, ecc_info._2*ecc_info._3), data(data.getWidth-1, ecc_info._3*ecc_block))).error 1039 } else { res(ecc_info._3) := false.B } 1040 1041 Cat(res).orR 1042 } 1043 1044 def gen(vpn: UInt, asid: UInt, vmid: UInt, data: UInt, levelUInt: UInt, prefetch: Bool) = { 1045 this.entries := entries.genEntries(vpn, asid, vmid, data, levelUInt, prefetch) 1046 this.encode() 1047 } 1048} 1049 1050class PtwReq(implicit p: Parameters) extends PtwBundle { 1051 val vpn = UInt(vpnLen.W) //vpn or gvpn 1052 val s2xlate = UInt(2.W) 1053 def hasS2xlate(): Bool = { 1054 this.s2xlate =/= noS2xlate 1055 } 1056 def isOnlyStage2(): Bool = { 1057 this.s2xlate === onlyStage2 1058 } 1059 override def toPrintable: Printable = { 1060 p"vpn:0x${Hexadecimal(vpn)}" 1061 } 1062} 1063 1064class PtwReqwithMemIdx(implicit p: Parameters) extends PtwReq { 1065 val memidx = new MemBlockidxBundle 1066 val getGpa = Bool() // this req is to get gpa when having guest page fault 1067} 1068 1069class PtwResp(implicit p: Parameters) extends PtwBundle { 1070 val entry = new PtwEntry(tagLen = vpnLen, hasPerm = true, hasLevel = true) 1071 val pf = Bool() 1072 val af = Bool() 1073 1074 def apply(pf: Bool, af: Bool, level: UInt, pte: PteBundle, vpn: UInt, asid: UInt) = { 1075 this.entry.level.map(_ := level) 1076 this.entry.tag := vpn 1077 this.entry.perm.map(_ := pte.getPerm()) 1078 this.entry.ppn := pte.ppn 1079 this.entry.prefetch := DontCare 1080 this.entry.asid := asid 1081 this.entry.v := !pf 1082 this.pf := pf 1083 this.af := af 1084 } 1085 1086 override def toPrintable: Printable = { 1087 p"entry:${entry} pf:${pf} af:${af}" 1088 } 1089} 1090 1091class HptwResp(implicit p: Parameters) extends PtwBundle { 1092 val entry = new PtwEntry(tagLen = vpnLen, hasPerm = true, hasLevel = true) 1093 val gpf = Bool() 1094 val gaf = Bool() 1095 1096 def apply(gpf: Bool, gaf: Bool, level: UInt, pte: PteBundle, vpn: UInt, vmid: UInt) = { 1097 val resp_pte = Mux(gaf, 0.U.asTypeOf(pte), pte) 1098 this.entry.level.map(_ := level) 1099 this.entry.tag := vpn 1100 this.entry.perm.map(_ := resp_pte.getPerm()) 1101 this.entry.ppn := resp_pte.ppn 1102 this.entry.prefetch := DontCare 1103 this.entry.asid := DontCare 1104 this.entry.vmid.map(_ := vmid) 1105 this.entry.v := !gpf 1106 this.gpf := gpf 1107 this.gaf := gaf 1108 } 1109 1110 def genPPNS2(vpn: UInt): UInt = { 1111 MuxLookup(entry.level.get, 0.U)(Seq( 1112 0.U -> Cat(entry.ppn(entry.ppn.getWidth - 1, vpnnLen * 2), vpn(vpnnLen * 2 - 1, 0)), 1113 1.U -> Cat(entry.ppn(entry.ppn.getWidth - 1, vpnnLen), vpn(vpnnLen - 1, 0)), 1114 2.U -> Cat(entry.ppn(entry.ppn.getWidth - 1, 0)) 1115 )) 1116 } 1117 1118 def hit(gvpn: UInt, vmid: UInt): Bool = { 1119 val vmid_hit = this.entry.vmid.getOrElse(0.U) === vmid 1120 val hit0 = entry.tag(vpnLen - 1, vpnnLen * 2) === gvpn(vpnLen - 1, vpnnLen * 2) 1121 val hit1 = entry.tag(vpnnLen * 2 - 1, vpnnLen) === gvpn(vpnnLen * 2 - 1, vpnnLen) 1122 val hit2 = entry.tag(vpnnLen - 1, 0) === gvpn(vpnnLen - 1, 0) 1123 vmid_hit && Mux(entry.level.getOrElse(0.U) === 2.U, hit2 && hit1 && hit0, Mux(entry.level.getOrElse(0.U) === 1.U, hit1 && hit0, hit0)) 1124 } 1125} 1126 1127class PtwResptomerge (implicit p: Parameters) extends PtwBundle { 1128 val entry = UInt(blockBits.W) 1129 val vpn = UInt(vpnLen.W) 1130 val level = UInt(log2Up(Level).W) 1131 val pf = Bool() 1132 val af = Bool() 1133 val asid = UInt(asidLen.W) 1134 1135 def apply(pf: Bool, af: Bool, level: UInt, pte: UInt, vpn: UInt, asid: UInt) = { 1136 this.entry := pte 1137 this.pf := pf 1138 this.af := af 1139 this.level := level 1140 this.vpn := vpn 1141 this.asid := asid 1142 } 1143 1144 override def toPrintable: Printable = { 1145 p"entry:${entry} pf:${pf} af:${af}" 1146 } 1147} 1148 1149class PtwRespwithMemIdx(implicit p: Parameters) extends PtwResp { 1150 val memidx = new MemBlockidxBundle 1151} 1152 1153class PtwSectorRespwithMemIdx(implicit p: Parameters) extends PtwSectorResp { 1154 val memidx = new MemBlockidxBundle 1155} 1156 1157class PtwSectorResp(implicit p: Parameters) extends PtwBundle { 1158 val entry = new PtwSectorEntry(tagLen = sectorvpnLen, hasPerm = true, hasLevel = true) 1159 val addr_low = UInt(sectortlbwidth.W) 1160 val ppn_low = Vec(tlbcontiguous, UInt(sectortlbwidth.W)) 1161 val valididx = Vec(tlbcontiguous, Bool()) 1162 val pteidx = Vec(tlbcontiguous, Bool()) 1163 val pf = Bool() 1164 val af = Bool() 1165 1166 1167 def genPPN(vpn: UInt): UInt = { 1168 MuxLookup(entry.level.get, 0.U)(Seq( 1169 0.U -> Cat(entry.ppn(entry.ppn.getWidth-1, vpnnLen * 2 - sectortlbwidth), vpn(vpnnLen*2-1, 0)), 1170 1.U -> Cat(entry.ppn(entry.ppn.getWidth-1, vpnnLen - sectortlbwidth), vpn(vpnnLen-1, 0)), 1171 2.U -> Cat(entry.ppn(entry.ppn.getWidth-1, 0), ppn_low(vpn(sectortlbwidth - 1, 0)))) 1172 ) 1173 } 1174 1175 def hit(vpn: UInt, asid: UInt, vmid: UInt, allType: Boolean = false, ignoreAsid: Boolean = false, s2xlate: Bool): Bool = { 1176 require(vpn.getWidth == vpnLen) 1177 // require(this.asid.getWidth <= asid.getWidth) 1178 val asid_hit = if (ignoreAsid) true.B else (this.entry.asid === asid) 1179 val vmid_hit = Mux(s2xlate, this.entry.vmid.getOrElse(0.U) === vmid, true.B) 1180 if (allType) { 1181 val hit0 = entry.tag(sectorvpnLen - 1, vpnnLen * 2 - sectortlbwidth) === vpn(vpnLen - 1, vpnnLen * 2) 1182 val hit1 = entry.tag(vpnnLen * 2 - sectortlbwidth - 1, vpnnLen - sectortlbwidth) === vpn(vpnnLen * 2 - 1, vpnnLen) 1183 val hit2 = entry.tag(vpnnLen - sectortlbwidth - 1, 0) === vpn(vpnnLen - 1, sectortlbwidth) 1184 val addr_low_hit = valididx(vpn(sectortlbwidth - 1, 0)) 1185 1186 asid_hit && vmid_hit && Mux(entry.level.getOrElse(0.U) === 2.U, hit2 && hit1 && hit0, Mux(entry.level.getOrElse(0.U) === 1.U, hit1 && hit0, hit0)) && addr_low_hit 1187 } else { 1188 val hit0 = entry.tag(sectorvpnLen - 1, sectorvpnLen - vpnnLen) === vpn(vpnLen - 1, vpnLen - vpnnLen) 1189 val hit1 = entry.tag(sectorvpnLen - vpnnLen - 1, sectorvpnLen - vpnnLen * 2) === vpn(vpnLen - vpnnLen - 1, vpnLen - vpnnLen * 2) 1190 val addr_low_hit = valididx(vpn(sectortlbwidth - 1, 0)) 1191 1192 asid_hit && vmid_hit && Mux(entry.level.getOrElse(0.U) === 0.U, hit0, hit0 && hit1) && addr_low_hit 1193 } 1194 } 1195} 1196 1197class PtwMergeResp(implicit p: Parameters) extends PtwBundle { 1198 val entry = Vec(tlbcontiguous, new PtwMergeEntry(tagLen = sectorvpnLen, hasPerm = true, hasLevel = true)) 1199 val pteidx = Vec(tlbcontiguous, Bool()) 1200 val not_super = Bool() 1201 1202 def apply(pf: Bool, af: Bool, level: UInt, pte: PteBundle, vpn: UInt, asid: UInt, vmid:UInt, addr_low : UInt, not_super : Boolean = true) = { 1203 assert(tlbcontiguous == 8, "Only support tlbcontiguous = 8!") 1204 val resp_pte = Mux(af, 0.U.asTypeOf(pte), pte) 1205 val ptw_resp = Wire(new PtwMergeEntry(tagLen = sectorvpnLen, hasPerm = true, hasLevel = true)) 1206 ptw_resp.ppn := resp_pte.getPPN()(gvpnLen - 1, sectortlbwidth) 1207 ptw_resp.ppn_low := resp_pte.getPPN()(sectortlbwidth - 1, 0) 1208 ptw_resp.level.map(_ := level) 1209 ptw_resp.perm.map(_ := resp_pte.getPerm()) 1210 ptw_resp.tag := vpn(vpnLen - 1, sectortlbwidth) 1211 ptw_resp.pf := pf 1212 ptw_resp.af := af 1213 ptw_resp.v := !pf 1214 ptw_resp.prefetch := DontCare 1215 ptw_resp.asid := asid 1216 ptw_resp.vmid.map(_ := vmid) 1217 this.pteidx := UIntToOH(addr_low).asBools 1218 this.not_super := not_super.B 1219 1220 1221 for (i <- 0 until tlbcontiguous) { 1222 this.entry(i) := ptw_resp 1223 } 1224 } 1225 1226 def genPPN(): UInt = { 1227 val idx = OHToUInt(pteidx) 1228 val tag = Cat(entry(idx).tag, idx(sectortlbwidth - 1, 0)) 1229 MuxLookup(entry(idx).level.get, 0.U)(Seq( 1230 0.U -> Cat(entry(idx).ppn(entry(idx).ppn.getWidth - 1, vpnnLen * 2 - sectortlbwidth), tag(vpnnLen * 2 - 1, 0)), 1231 1.U -> Cat(entry(idx).ppn(entry(idx).ppn.getWidth - 1, vpnnLen - sectortlbwidth), tag(vpnnLen - 1, 0)), 1232 2.U -> Cat(entry(idx).ppn(entry(idx).ppn.getWidth - 1, 0), entry(idx).ppn_low)) 1233 ) 1234 } 1235} 1236 1237class PtwRespS2(implicit p: Parameters) extends PtwBundle { 1238 val s2xlate = UInt(2.W) 1239 val s1 = new PtwSectorResp() 1240 val s2 = new HptwResp() 1241 1242 def hasS2xlate(): Bool = { 1243 this.s2xlate =/= noS2xlate 1244 } 1245 1246 def isOnlyStage2(): Bool = { 1247 this.s2xlate === onlyStage2 1248 } 1249 1250 def getVpn(vpn: UInt): UInt = { 1251 val level = s1.entry.level.getOrElse(0.U) max s2.entry.level.getOrElse(0.U) 1252 val s1tag = Cat(s1.entry.tag, OHToUInt(s1.pteidx)) 1253 val s1tagFix = MuxCase(s1.entry.tag, Seq( 1254 (s1.entry.level.getOrElse(0.U) === 0.U && s2.entry.level.getOrElse(0.U) === 1.U) -> Cat(s1.entry.tag(sectorvpnLen - 1, vpnnLen * 2 - sectortlbwidth), s2.entry.tag(vpnnLen * 2 - 1, vpnnLen), 0.U((vpnnLen - sectortlbwidth).W)), 1255 (s1.entry.level.getOrElse(0.U) === 0.U && s2.entry.level.getOrElse(0.U) === 2.U) -> Cat(s1.entry.tag(sectorvpnLen - 1, vpnnLen * 2 - sectortlbwidth), s2.entry.tag(vpnnLen * 2 - 1, sectortlbwidth)), 1256 (s1.entry.level.getOrElse(0.U) === 1.U && s2.entry.level.getOrElse(0.U) === 2.U) -> Cat(s1.entry.tag(sectorvpnLen - 1, vpnnLen - sectortlbwidth), s2.entry.tag(vpnnLen - 1, sectortlbwidth)) 1257 )) 1258 val s1_vpn = MuxLookup(level, s1tag)(Seq( 1259 0.U -> Cat(s1tagFix(sectorvpnLen - 1, vpnnLen * 2 - sectortlbwidth), vpn(vpnnLen * 2 - 1, 0)), 1260 1.U -> Cat(s1tagFix(sectorvpnLen - 1, vpnnLen - sectortlbwidth), vpn(vpnnLen - 1, 0))) 1261 ) 1262 val s2_vpn = s2.entry.tag 1263 Mux(s2xlate === onlyStage2, s2_vpn, Mux(s2xlate === allStage, s1_vpn, s1tag)) 1264 } 1265 1266 def hit(vpn: UInt, asid: UInt, vasid: UInt, vmid: UInt, allType: Boolean = false, ignoreAsid: Boolean = false): Bool = { 1267 val noS2_hit = s1.hit(vpn, Mux(this.hasS2xlate(), vasid, asid), vmid, allType, ignoreAsid, this.hasS2xlate) 1268 val onlyS2_hit = s2.hit(vpn, vmid) 1269 // allstage and onlys1 hit 1270 val s1vpn = Cat(s1.entry.tag, s1.addr_low) 1271 val level = s1.entry.level.getOrElse(0.U) max s2.entry.level.getOrElse(0.U) 1272 val hit0 = vpn(vpnnLen * 3 - 1, vpnnLen * 2) === s1vpn(vpnnLen * 3 - 1, vpnnLen * 2) 1273 val hit1 = vpn(vpnnLen * 2 - 1, vpnnLen) === s1vpn(vpnnLen * 2 - 1, vpnnLen) 1274 val hit2 = vpn(vpnnLen - 1, 0) === s1vpn(vpnnLen - 1, 0) 1275 val vpn_hit = Mux(level === 2.U, hit2 && hit1 && hit0, Mux(level === 1.U, hit1 && hit0, hit0)) 1276 val vmid_hit = Mux(this.s2xlate === allStage, s2.entry.vmid.getOrElse(0.U) === vmid, true.B) 1277 val vasid_hit = if (ignoreAsid) true.B else (s1.entry.asid === vasid) 1278 val all_onlyS1_hit = vpn_hit && vmid_hit && vasid_hit 1279 Mux(this.s2xlate === noS2xlate, noS2_hit, 1280 Mux(this.s2xlate === onlyStage2, onlyS2_hit, all_onlyS1_hit)) 1281 } 1282} 1283 1284class PtwRespS2withMemIdx(implicit p: Parameters) extends PtwRespS2 { 1285 val memidx = new MemBlockidxBundle() 1286 val getGpa = Bool() // this req is to get gpa when having guest page fault 1287} 1288 1289class L2TLBIO(implicit p: Parameters) extends PtwBundle { 1290 val hartId = Input(UInt(hartIdLen.W)) 1291 val tlb = Vec(PtwWidth, Flipped(new TlbPtwIO)) 1292 val sfence = Input(new SfenceBundle) 1293 val csr = new Bundle { 1294 val tlb = Input(new TlbCsrBundle) 1295 val distribute_csr = Flipped(new DistributedCSRIO) 1296 } 1297} 1298 1299class L2TlbMemReqBundle(implicit p: Parameters) extends PtwBundle { 1300 val addr = UInt(PAddrBits.W) 1301 val id = UInt(bMemID.W) 1302 val hptw_bypassed = Bool() 1303} 1304 1305class L2TlbInnerBundle(implicit p: Parameters) extends PtwReq { 1306 val source = UInt(bSourceWidth.W) 1307} 1308 1309class L2TlbWithHptwIdBundle(implicit p: Parameters) extends PtwBundle { 1310 val req_info = new L2TlbInnerBundle 1311 val isHptwReq = Bool() 1312 val isLLptw = Bool() 1313 val hptwId = UInt(log2Up(l2tlbParams.llptwsize).W) 1314} 1315 1316object ValidHoldBypass{ 1317 def apply(infire: Bool, outfire: Bool, flush: Bool = false.B) = { 1318 val valid = RegInit(false.B) 1319 when (infire) { valid := true.B } 1320 when (outfire) { valid := false.B } // ATTENTION: order different with ValidHold 1321 when (flush) { valid := false.B } // NOTE: the flush will flush in & out, is that ok? 1322 valid || infire 1323 } 1324} 1325 1326class L1TlbDB(implicit p: Parameters) extends TlbBundle { 1327 val vpn = UInt(vpnLen.W) 1328} 1329 1330class PageCacheDB(implicit p: Parameters) extends TlbBundle with HasPtwConst { 1331 val vpn = UInt(vpnLen.W) 1332 val source = UInt(bSourceWidth.W) 1333 val bypassed = Bool() 1334 val is_first = Bool() 1335 val prefetched = Bool() 1336 val prefetch = Bool() 1337 val l2Hit = Bool() 1338 val l1Hit = Bool() 1339 val hit = Bool() 1340} 1341 1342class PTWDB(implicit p: Parameters) extends TlbBundle with HasPtwConst { 1343 val vpn = UInt(vpnLen.W) 1344 val source = UInt(bSourceWidth.W) 1345} 1346 1347class L2TlbPrefetchDB(implicit p: Parameters) extends TlbBundle { 1348 val vpn = UInt(vpnLen.W) 1349} 1350 1351class L2TlbMissQueueDB(implicit p: Parameters) extends TlbBundle { 1352 val vpn = UInt(vpnLen.W) 1353} 1354