1b6982e83SLemover/*************************************************************************************** 2b6982e83SLemover* Copyright (c) 2020-2021 Institute of Computing Technology, Chinese Academy of Sciences 3b6982e83SLemover* Copyright (c) 2020-2021 Peng Cheng Laboratory 4b6982e83SLemover* 5b6982e83SLemover* XiangShan is licensed under Mulan PSL v2. 6b6982e83SLemover* You can use this software according to the terms and conditions of the Mulan PSL v2. 7b6982e83SLemover* You may obtain a copy of Mulan PSL v2 at: 8b6982e83SLemover* http://license.coscl.org.cn/MulanPSL2 9b6982e83SLemover* 10b6982e83SLemover* THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND, 11b6982e83SLemover* EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT, 12b6982e83SLemover* MERCHANTABILITY OR FIT FOR A PARTICULAR PURPOSE. 13b6982e83SLemover* 14b6982e83SLemover* See the Mulan PSL v2 for more details. 15b6982e83SLemover***************************************************************************************/ 16b6982e83SLemover 17a15116bdSLemover// See LICENSE.SiFive for license details. 18a15116bdSLemover 19b6982e83SLemoverpackage xiangshan.backend.fu 20b6982e83SLemover 21b6982e83SLemoverimport chipsalliance.rocketchip.config.Parameters 22b6982e83SLemoverimport chisel3._ 23b6982e83SLemoverimport chisel3.internal.naming.chiselName 24b6982e83SLemoverimport chisel3.util._ 25*3c02ee8fSwakafaimport utility.MaskedRegMap.WritableMask 26b6982e83SLemoverimport xiangshan._ 27b6982e83SLemoverimport xiangshan.backend.fu.util.HasCSRConst 28b6982e83SLemoverimport utils._ 29*3c02ee8fSwakafaimport utility._ 30b6982e83SLemoverimport xiangshan.cache.mmu.{TlbCmd, TlbExceptionBundle} 31b6982e83SLemover 3298c71602SJiawei Lintrait PMPConst extends HasPMParameters { 33b6982e83SLemover val PMPOffBits = 2 // minimal 4bytes 34b6982e83SLemover val CoarserGrain: Boolean = PlatformGrain > PMPOffBits 35b6982e83SLemover} 36b6982e83SLemover 3798c71602SJiawei Linabstract class PMPBundle(implicit val p: Parameters) extends Bundle with PMPConst 3898c71602SJiawei Linabstract class PMPModule(implicit val p: Parameters) extends Module with PMPConst 3998c71602SJiawei Linabstract class PMPXSModule(implicit p: Parameters) extends XSModule with PMPConst 40b6982e83SLemover 41b6982e83SLemover@chiselName 42b6982e83SLemoverclass PMPConfig(implicit p: Parameters) extends PMPBundle { 43b6982e83SLemover val l = Bool() 44ca2f90a6SLemover val c = Bool() // res(1), unuse in pmp 45ca2f90a6SLemover val atomic = Bool() // res(0), unuse in pmp 46b6982e83SLemover val a = UInt(2.W) 47b6982e83SLemover val x = Bool() 48b6982e83SLemover val w = Bool() 49b6982e83SLemover val r = Bool() 50b6982e83SLemover 51ca2f90a6SLemover def res: UInt = Cat(c, atomic) // in pmp, unused 52b6982e83SLemover def off = a === 0.U 53b6982e83SLemover def tor = a === 1.U 54b6982e83SLemover def na4 = { if (CoarserGrain) false.B else a === 2.U } 55b6982e83SLemover def napot = { if (CoarserGrain) a(1).asBool else a === 3.U } 56b6982e83SLemover def off_tor = !a(1) 57b6982e83SLemover def na4_napot = a(1) 58b6982e83SLemover 59b6982e83SLemover def locked = l 60b6982e83SLemover def addr_locked: Bool = locked 61b6982e83SLemover def addr_locked(next: PMPConfig): Bool = locked || (next.locked && next.tor) 62ca2f90a6SLemover} 63b6982e83SLemover 6498c71602SJiawei Lintrait PMPReadWriteMethodBare extends PMPConst { 6598c71602SJiawei Lin def match_mask(cfg: PMPConfig, paddr: UInt) = { 6698c71602SJiawei Lin val match_mask_c_addr = Cat(paddr, cfg.a(0)) | (((1 << PlatformGrain) - 1) >> PMPOffBits).U((paddr.getWidth + 1).W) 6798c71602SJiawei Lin Cat(match_mask_c_addr & ~(match_mask_c_addr + 1.U), ((1 << PMPOffBits) - 1).U(PMPOffBits.W)) 68b6982e83SLemover } 69b6982e83SLemover 70b6982e83SLemover def write_cfg_vec(mask: Vec[UInt], addr: Vec[UInt], index: Int)(cfgs: UInt): UInt = { 71b6982e83SLemover val cfgVec = Wire(Vec(cfgs.getWidth/8, new PMPConfig)) 72b6982e83SLemover for (i <- cfgVec.indices) { 73ca2f90a6SLemover val cfg_w_m_tmp = cfgs((i+1)*8-1, i*8).asUInt.asTypeOf(new PMPConfig) 74ca2f90a6SLemover cfgVec(i) := cfg_w_m_tmp 75ff1b5dbbSLemover when (!cfg_w_m_tmp.l) { 76ca2f90a6SLemover cfgVec(i).w := cfg_w_m_tmp.w && cfg_w_m_tmp.r 77ca2f90a6SLemover if (CoarserGrain) { cfgVec(i).a := Cat(cfg_w_m_tmp.a(1), cfg_w_m_tmp.a.orR) } 78b6982e83SLemover when (cfgVec(i).na4_napot) { 7998c71602SJiawei Lin mask(index + i) := match_mask(cfgVec(i), addr(index + i)) 80b6982e83SLemover } 81b6982e83SLemover } 82ff1b5dbbSLemover } 83b6982e83SLemover cfgVec.asUInt 84b6982e83SLemover } 85b6982e83SLemover 86b6982e83SLemover def read_addr(cfg: PMPConfig)(addr: UInt): UInt = { 87b6982e83SLemover val G = PlatformGrain - PMPOffBits 88b6982e83SLemover require(G >= 0) 89b6982e83SLemover if (G == 0) { 90b6982e83SLemover addr 91b6982e83SLemover } else if (G >= 2) { 92b6982e83SLemover Mux(cfg.na4_napot, set_low_bits(addr, G-1), clear_low_bits(addr, G)) 93b6982e83SLemover } else { // G is 1 94b6982e83SLemover Mux(cfg.off_tor, clear_low_bits(addr, G), addr) 95b6982e83SLemover } 96b6982e83SLemover } 9798c71602SJiawei Lin 9898c71602SJiawei Lin def write_addr(next: PMPConfig, mask: UInt)(paddr: UInt, cfg: PMPConfig, addr: UInt): UInt = { 9998c71602SJiawei Lin val locked = cfg.addr_locked(next) 10098c71602SJiawei Lin mask := Mux(!locked, match_mask(cfg, paddr), mask) 10198c71602SJiawei Lin Mux(!locked, paddr, addr) 102b6982e83SLemover } 103b6982e83SLemover 104b6982e83SLemover def set_low_bits(data: UInt, num: Int): UInt = { 105b6982e83SLemover require(num >= 0) 106b6982e83SLemover data | ((1 << num)-1).U 107b6982e83SLemover } 108b6982e83SLemover 109b6982e83SLemover /** mask the data's low num bits (lsb) */ 110b6982e83SLemover def clear_low_bits(data: UInt, num: Int): UInt = { 111b6982e83SLemover require(num >= 0) 112b6982e83SLemover // use Cat instead of & with mask to avoid "Signal Width" problem 113b6982e83SLemover if (num == 0) { data } 114b6982e83SLemover else { Cat(data(data.getWidth-1, num), 0.U(num.W)) } 115b6982e83SLemover } 116ca2f90a6SLemover} 117ca2f90a6SLemover 11898c71602SJiawei Lintrait PMPReadWriteMethod extends PMPReadWriteMethodBare { this: PMPBase => 11998c71602SJiawei Lin def write_cfg_vec(cfgs: UInt): UInt = { 12098c71602SJiawei Lin val cfgVec = Wire(Vec(cfgs.getWidth/8, new PMPConfig)) 12198c71602SJiawei Lin for (i <- cfgVec.indices) { 12298c71602SJiawei Lin val cfg_w_tmp = cfgs((i+1)*8-1, i*8).asUInt.asTypeOf(new PMPConfig) 12398c71602SJiawei Lin cfgVec(i) := cfg_w_tmp 124ff1b5dbbSLemover when (!cfg_w_tmp.l) { 12598c71602SJiawei Lin cfgVec(i).w := cfg_w_tmp.w && cfg_w_tmp.r 12698c71602SJiawei Lin if (CoarserGrain) { cfgVec(i).a := Cat(cfg_w_tmp.a(1), cfg_w_tmp.a.orR) } 12798c71602SJiawei Lin } 128ff1b5dbbSLemover } 12998c71602SJiawei Lin cfgVec.asUInt 13098c71602SJiawei Lin } 13198c71602SJiawei Lin 13298c71602SJiawei Lin /** In general, the PMP grain is 2**{G+2} bytes. when G >= 1, na4 is not selectable. 13398c71602SJiawei Lin * When G >= 2 and cfg.a(1) is set(then the mode is napot), the bits addr(G-2, 0) read as zeros. 13498c71602SJiawei Lin * When G >= 1 and cfg.a(1) is clear(the mode is off or tor), the addr(G-1, 0) read as zeros. 13598c71602SJiawei Lin * The low OffBits is dropped 13698c71602SJiawei Lin */ 13798c71602SJiawei Lin def read_addr(): UInt = { 13898c71602SJiawei Lin read_addr(cfg)(addr) 13998c71602SJiawei Lin } 14098c71602SJiawei Lin 14198c71602SJiawei Lin /** addr for inside addr, drop OffBits with. 14298c71602SJiawei Lin * compare_addr for inside addr for comparing. 14398c71602SJiawei Lin * paddr for outside addr. 14498c71602SJiawei Lin */ 14598c71602SJiawei Lin def write_addr(next: PMPConfig)(paddr: UInt): UInt = { 14698c71602SJiawei Lin Mux(!cfg.addr_locked(next), paddr, addr) 14798c71602SJiawei Lin } 14898c71602SJiawei Lin def write_addr(paddr: UInt): UInt = { 14998c71602SJiawei Lin Mux(!cfg.addr_locked, paddr, addr) 15098c71602SJiawei Lin } 15198c71602SJiawei Lin} 15298c71602SJiawei Lin 153ca2f90a6SLemover/** PMPBase for CSR unit 154ca2f90a6SLemover * with only read and write logic 155ca2f90a6SLemover */ 156ca2f90a6SLemover@chiselName 157ca2f90a6SLemoverclass PMPBase(implicit p: Parameters) extends PMPBundle with PMPReadWriteMethod { 158ca2f90a6SLemover val cfg = new PMPConfig 15998c71602SJiawei Lin val addr = UInt((PMPAddrBits - PMPOffBits).W) 160b6982e83SLemover 161b6982e83SLemover def gen(cfg: PMPConfig, addr: UInt) = { 162b6982e83SLemover require(addr.getWidth == this.addr.getWidth) 163b6982e83SLemover this.cfg := cfg 164b6982e83SLemover this.addr := addr 165b6982e83SLemover } 166b6982e83SLemover} 167b6982e83SLemover 168ca2f90a6SLemovertrait PMPMatchMethod extends PMPConst { this: PMPEntry => 169b6982e83SLemover /** compare_addr is used to compare with input addr */ 17098c71602SJiawei Lin def compare_addr: UInt = ((addr << PMPOffBits) & ~(((1 << PlatformGrain) - 1).U(PMPAddrBits.W))).asUInt 171b6982e83SLemover 172b6982e83SLemover /** size and maxSize are all log2 Size 17398c71602SJiawei Lin * for dtlb, the maxSize is bPMXLEN which is 8 174b6982e83SLemover * for itlb and ptw, the maxSize is log2(512) ? 175b6982e83SLemover * but we may only need the 64 bytes? how to prevent the bugs? 17698c71602SJiawei Lin * TODO: handle the special case that itlb & ptw & dcache access wider size than PMXLEN 177b6982e83SLemover */ 178b6982e83SLemover def is_match(paddr: UInt, lgSize: UInt, lgMaxSize: Int, last_pmp: PMPEntry): Bool = { 179b6982e83SLemover Mux(cfg.na4_napot, napotMatch(paddr, lgSize, lgMaxSize), 180b6982e83SLemover Mux(cfg.tor, torMatch(paddr, lgSize, lgMaxSize, last_pmp), false.B)) 181b6982e83SLemover } 182b6982e83SLemover 183b6982e83SLemover /** generate match mask to help match in napot mode */ 18498c71602SJiawei Lin def match_mask(paddr: UInt): UInt = { 18598c71602SJiawei Lin match_mask(cfg, paddr) 186b6982e83SLemover } 187b6982e83SLemover 188ca2f90a6SLemover def boundMatch(paddr: UInt, lgSize: UInt, lgMaxSize: Int): Bool = { 189b6982e83SLemover if (lgMaxSize <= PlatformGrain) { 190ca2f90a6SLemover (paddr < compare_addr) 191b6982e83SLemover } else { 192b6982e83SLemover val highLess = (paddr >> lgMaxSize) < (compare_addr >> lgMaxSize) 193b6982e83SLemover val highEqual = (paddr >> lgMaxSize) === (compare_addr >> lgMaxSize) 194b6982e83SLemover val lowLess = (paddr(lgMaxSize-1, 0) | OneHot.UIntToOH1(lgSize, lgMaxSize)) < compare_addr(lgMaxSize-1, 0) 195b6982e83SLemover highLess || (highEqual && lowLess) 196b6982e83SLemover } 197b6982e83SLemover } 198b6982e83SLemover 199ca2f90a6SLemover def lowerBoundMatch(paddr: UInt, lgSize: UInt, lgMaxSize: Int): Bool = { 200b6982e83SLemover !boundMatch(paddr, lgSize, lgMaxSize) 201b6982e83SLemover } 202b6982e83SLemover 203b6982e83SLemover def higherBoundMatch(paddr: UInt, lgMaxSize: Int) = { 204b6982e83SLemover boundMatch(paddr, 0.U, lgMaxSize) 205b6982e83SLemover } 206b6982e83SLemover 207ca2f90a6SLemover def torMatch(paddr: UInt, lgSize: UInt, lgMaxSize: Int, last_pmp: PMPEntry): Bool = { 208b6982e83SLemover last_pmp.lowerBoundMatch(paddr, lgSize, lgMaxSize) && higherBoundMatch(paddr, lgMaxSize) 209b6982e83SLemover } 210b6982e83SLemover 211b6982e83SLemover def unmaskEqual(a: UInt, b: UInt, m: UInt) = { 212b6982e83SLemover (a & ~m) === (b & ~m) 213b6982e83SLemover } 214b6982e83SLemover 215b6982e83SLemover def napotMatch(paddr: UInt, lgSize: UInt, lgMaxSize: Int) = { 216b6982e83SLemover if (lgMaxSize <= PlatformGrain) { 217b6982e83SLemover unmaskEqual(paddr, compare_addr, mask) 218b6982e83SLemover } else { 219b6982e83SLemover val lowMask = mask | OneHot.UIntToOH1(lgSize, lgMaxSize) 220b6982e83SLemover val highMatch = unmaskEqual(paddr >> lgMaxSize, compare_addr >> lgMaxSize, mask >> lgMaxSize) 221b6982e83SLemover val lowMatch = unmaskEqual(paddr(lgMaxSize-1, 0), compare_addr(lgMaxSize-1, 0), lowMask(lgMaxSize-1, 0)) 222b6982e83SLemover highMatch && lowMatch 223b6982e83SLemover } 224b6982e83SLemover } 225b6982e83SLemover 226b6982e83SLemover def aligned(paddr: UInt, lgSize: UInt, lgMaxSize: Int, last: PMPEntry) = { 227b6982e83SLemover if (lgMaxSize <= PlatformGrain) { 228b6982e83SLemover true.B 229b6982e83SLemover } else { 230b6982e83SLemover val lowBitsMask = OneHot.UIntToOH1(lgSize, lgMaxSize) 231b6982e83SLemover val lowerBound = ((paddr >> lgMaxSize) === (last.compare_addr >> lgMaxSize)) && 232b6982e83SLemover ((~paddr(lgMaxSize-1, 0) & last.compare_addr(lgMaxSize-1, 0)) =/= 0.U) 233b6982e83SLemover val upperBound = ((paddr >> lgMaxSize) === (compare_addr >> lgMaxSize)) && 234b6982e83SLemover ((compare_addr(lgMaxSize-1, 0) & (paddr(lgMaxSize-1, 0) | lowBitsMask)) =/= 0.U) 235b6982e83SLemover val torAligned = !(lowerBound || upperBound) 236b6982e83SLemover val napotAligned = (lowBitsMask & ~mask(lgMaxSize-1, 0)) === 0.U 237b6982e83SLemover Mux(cfg.na4_napot, napotAligned, torAligned) 238b6982e83SLemover } 239b6982e83SLemover } 240ca2f90a6SLemover} 241ca2f90a6SLemover 242ca2f90a6SLemover/** PMPEntry for outside pmp copies 243ca2f90a6SLemover * with one more elements mask to help napot match 244ca2f90a6SLemover * TODO: make mask an element, not an method, for timing opt 245ca2f90a6SLemover */ 246ca2f90a6SLemover@chiselName 247ca2f90a6SLemoverclass PMPEntry(implicit p: Parameters) extends PMPBase with PMPMatchMethod { 24898c71602SJiawei Lin val mask = UInt(PMPAddrBits.W) // help to match in napot 249ca2f90a6SLemover 25098c71602SJiawei Lin def write_addr(next: PMPConfig, mask: UInt)(paddr: UInt) = { 25198c71602SJiawei Lin mask := Mux(!cfg.addr_locked(next), match_mask(paddr), mask) 25298c71602SJiawei Lin Mux(!cfg.addr_locked(next), paddr, addr) 253ca2f90a6SLemover } 254ca2f90a6SLemover 255ca2f90a6SLemover def write_addr(mask: UInt)(paddr: UInt) = { 256ca2f90a6SLemover mask := Mux(!cfg.addr_locked, match_mask(paddr), mask) 257ca2f90a6SLemover Mux(!cfg.addr_locked, paddr, addr) 258ca2f90a6SLemover } 259b6982e83SLemover 260b6982e83SLemover def gen(cfg: PMPConfig, addr: UInt, mask: UInt) = { 261b6982e83SLemover require(addr.getWidth == this.addr.getWidth) 262b6982e83SLemover this.cfg := cfg 263b6982e83SLemover this.addr := addr 264b6982e83SLemover this.mask := mask 265b6982e83SLemover } 266ca2f90a6SLemover} 267b6982e83SLemover 26898c71602SJiawei Lintrait PMPMethod extends PMPConst { 269ca2f90a6SLemover def pmp_init() : (Vec[UInt], Vec[UInt], Vec[UInt])= { 27098c71602SJiawei Lin val cfg = WireInit(0.U.asTypeOf(Vec(NumPMP/8, UInt(PMXLEN.W)))) 27198c71602SJiawei Lin val addr = Wire(Vec(NumPMP, UInt((PMPAddrBits-PMPOffBits).W))) 27298c71602SJiawei Lin val mask = Wire(Vec(NumPMP, UInt(PMPAddrBits.W))) 273ca2f90a6SLemover addr := DontCare 274ca2f90a6SLemover mask := DontCare 275ca2f90a6SLemover (cfg, addr, mask) 276ca2f90a6SLemover } 277ca2f90a6SLemover 278ca2f90a6SLemover def pmp_gen_mapping 279ca2f90a6SLemover ( 280ca2f90a6SLemover init: () => (Vec[UInt], Vec[UInt], Vec[UInt]), 281ca2f90a6SLemover num: Int = 16, 282ca2f90a6SLemover cfgBase: Int, 283ca2f90a6SLemover addrBase: Int, 284ca2f90a6SLemover entries: Vec[PMPEntry] 285ca2f90a6SLemover ) = { 28698c71602SJiawei Lin val pmpCfgPerCSR = PMXLEN / new PMPConfig().getWidth 28798c71602SJiawei Lin def pmpCfgIndex(i: Int) = (PMXLEN / 32) * (i / pmpCfgPerCSR) 288ca2f90a6SLemover val init_value = init() 289ca2f90a6SLemover /** to fit MaskedRegMap's write, declare cfgs as Merged CSRs and split them into each pmp */ 29098c71602SJiawei Lin val cfgMerged = RegInit(init_value._1) //(Vec(num / pmpCfgPerCSR, UInt(PMXLEN.W))) // RegInit(VecInit(Seq.fill(num / pmpCfgPerCSR)(0.U(PMXLEN.W)))) 291ca2f90a6SLemover val cfgs = WireInit(cfgMerged).asTypeOf(Vec(num, new PMPConfig())) 29298c71602SJiawei Lin val addr = RegInit(init_value._2) // (Vec(num, UInt((PMPAddrBits-PMPOffBits).W))) 29398c71602SJiawei Lin val mask = RegInit(init_value._3) // (Vec(num, UInt(PMPAddrBits.W))) 294ca2f90a6SLemover 295ca2f90a6SLemover for (i <- entries.indices) { 296ca2f90a6SLemover entries(i).gen(cfgs(i), addr(i), mask(i)) 297ca2f90a6SLemover } 298ca2f90a6SLemover 299ca2f90a6SLemover val cfg_mapping = (0 until num by pmpCfgPerCSR).map(i => {Map( 300ca2f90a6SLemover MaskedRegMap( 301ca2f90a6SLemover addr = cfgBase + pmpCfgIndex(i), 302ca2f90a6SLemover reg = cfgMerged(i/pmpCfgPerCSR), 303ca2f90a6SLemover wmask = WritableMask, 304ca2f90a6SLemover wfn = new PMPBase().write_cfg_vec(mask, addr, i) 305ca2f90a6SLemover )) 306ca2f90a6SLemover }).fold(Map())((a, b) => a ++ b) // ugly code, hit me if u have better codes 307ca2f90a6SLemover 308ca2f90a6SLemover val addr_mapping = (0 until num).map(i => {Map( 309ca2f90a6SLemover MaskedRegMap( 310ca2f90a6SLemover addr = addrBase + i, 311ca2f90a6SLemover reg = addr(i), 312ca2f90a6SLemover wmask = WritableMask, 31398c71602SJiawei Lin wfn = { if (i != num-1) entries(i).write_addr(entries(i+1).cfg, mask(i)) else entries(i).write_addr(mask(i)) }, 314ca2f90a6SLemover rmask = WritableMask, 315ca2f90a6SLemover rfn = new PMPBase().read_addr(entries(i).cfg) 316ca2f90a6SLemover )) 317ca2f90a6SLemover }).fold(Map())((a, b) => a ++ b) // ugly code, hit me if u have better codes. 318ca2f90a6SLemover 319ca2f90a6SLemover cfg_mapping ++ addr_mapping 320b6982e83SLemover } 321b6982e83SLemover} 322b6982e83SLemover 323b6982e83SLemover@chiselName 32498c71602SJiawei Linclass PMP(implicit p: Parameters) extends PMPXSModule with HasXSParameter with PMPMethod with PMAMethod with HasCSRConst { 325b6982e83SLemover val io = IO(new Bundle { 326b6982e83SLemover val distribute_csr = Flipped(new DistributedCSRIO()) 327b6982e83SLemover val pmp = Output(Vec(NumPMP, new PMPEntry())) 328ca2f90a6SLemover val pma = Output(Vec(NumPMA, new PMPEntry())) 329b6982e83SLemover }) 330b6982e83SLemover 331b6982e83SLemover val w = io.distribute_csr.w 332b6982e83SLemover 333b6982e83SLemover val pmp = Wire(Vec(NumPMP, new PMPEntry())) 334ca2f90a6SLemover val pma = Wire(Vec(NumPMA, new PMPEntry())) 335b6982e83SLemover 336ca2f90a6SLemover val pmpMapping = pmp_gen_mapping(pmp_init, NumPMP, PmpcfgBase, PmpaddrBase, pmp) 337ca2f90a6SLemover val pmaMapping = pmp_gen_mapping(pma_init, NumPMA, PmacfgBase, PmaaddrBase, pma) 338ca2f90a6SLemover val mapping = pmpMapping ++ pmaMapping 339b6982e83SLemover 34098c71602SJiawei Lin val rdata = Wire(UInt(PMXLEN.W)) 341ca2f90a6SLemover MaskedRegMap.generate(mapping, w.bits.addr, rdata, w.valid, w.bits.data) 342b6982e83SLemover 343b6982e83SLemover io.pmp := pmp 344ca2f90a6SLemover io.pma := pma 345b6982e83SLemover} 346b6982e83SLemover 347b6982e83SLemoverclass PMPReqBundle(lgMaxSize: Int = 3)(implicit p: Parameters) extends PMPBundle { 34898c71602SJiawei Lin val addr = Output(UInt(PMPAddrBits.W)) 349b6982e83SLemover val size = Output(UInt(log2Ceil(lgMaxSize+1).W)) 350b6982e83SLemover val cmd = Output(TlbCmd()) 351b6982e83SLemover 35298c71602SJiawei Lin def apply(addr: UInt, size: UInt, cmd: UInt) { 35398c71602SJiawei Lin this.addr := addr 35498c71602SJiawei Lin this.size := size 35598c71602SJiawei Lin this.cmd := cmd 35698c71602SJiawei Lin } 35798c71602SJiawei Lin 35898c71602SJiawei Lin def apply(addr: UInt) { // req minimal permission and req align size 35998c71602SJiawei Lin apply(addr, lgMaxSize.U, TlbCmd.read) 36098c71602SJiawei Lin } 36198c71602SJiawei Lin 362b6982e83SLemover} 363b6982e83SLemover 36498c71602SJiawei Linclass PMPRespBundle(implicit p: Parameters) extends PMPBundle { 36598c71602SJiawei Lin val ld = Output(Bool()) 36698c71602SJiawei Lin val st = Output(Bool()) 36798c71602SJiawei Lin val instr = Output(Bool()) 368ca2f90a6SLemover val mmio = Output(Bool()) 36937225120Ssfencevma val atomic = Output(Bool()) 370b6982e83SLemover 371ca2f90a6SLemover def |(resp: PMPRespBundle): PMPRespBundle = { 372ca2f90a6SLemover val res = Wire(new PMPRespBundle()) 373ca2f90a6SLemover res.ld := this.ld || resp.ld 374ca2f90a6SLemover res.st := this.st || resp.st 375ca2f90a6SLemover res.instr := this.instr || resp.instr 376ca2f90a6SLemover res.mmio := this.mmio || resp.mmio 37737225120Ssfencevma res.atomic := this.atomic || resp.atomic 378ca2f90a6SLemover res 379ca2f90a6SLemover } 380ca2f90a6SLemover} 381b6982e83SLemover 38298c71602SJiawei Lintrait PMPCheckMethod extends PMPConst { 38398c71602SJiawei Lin def pmp_check(cmd: UInt, cfg: PMPConfig) = { 384ca2f90a6SLemover val resp = Wire(new PMPRespBundle) 3850fedb24cSWilliam Wang resp.ld := TlbCmd.isRead(cmd) && !TlbCmd.isAmo(cmd) && !cfg.r 3860fedb24cSWilliam Wang resp.st := (TlbCmd.isWrite(cmd) || TlbCmd.isAmo(cmd)) && !cfg.w 387ca2f90a6SLemover resp.instr := TlbCmd.isExec(cmd) && !cfg.x 388ca2f90a6SLemover resp.mmio := false.B 38937225120Ssfencevma resp.atomic := false.B 390ca2f90a6SLemover resp 391ca2f90a6SLemover } 392b6982e83SLemover 3935cf62c1aSLemover def pmp_match_res(leaveHitMux: Boolean = false, valid: Bool = true.B)( 3945cf62c1aSLemover addr: UInt, 3955cf62c1aSLemover size: UInt, 3965cf62c1aSLemover pmpEntries: Vec[PMPEntry], 3975cf62c1aSLemover mode: UInt, 3985cf62c1aSLemover lgMaxSize: Int 3995cf62c1aSLemover ) = { 400ca2f90a6SLemover val num = pmpEntries.size 401ca2f90a6SLemover require(num == NumPMP) 402ca2f90a6SLemover 40398c71602SJiawei Lin val passThrough = if (pmpEntries.isEmpty) true.B else (mode > 1.U) 404a15116bdSLemover val pmpDefault = WireInit(0.U.asTypeOf(new PMPEntry())) 405a15116bdSLemover pmpDefault.cfg.r := passThrough 406a15116bdSLemover pmpDefault.cfg.w := passThrough 407a15116bdSLemover pmpDefault.cfg.x := passThrough 408b6982e83SLemover 409a15116bdSLemover val match_vec = Wire(Vec(num+1, Bool())) 410a15116bdSLemover val cfg_vec = Wire(Vec(num+1, new PMPEntry())) 411a15116bdSLemover 412a15116bdSLemover pmpEntries.zip(pmpDefault +: pmpEntries.take(num-1)).zipWithIndex.foreach{ case ((pmp, last_pmp), i) => 413ca2f90a6SLemover val is_match = pmp.is_match(addr, size, lgMaxSize, last_pmp) 414b6982e83SLemover val ignore = passThrough && !pmp.cfg.l 415ca2f90a6SLemover val aligned = pmp.aligned(addr, size, lgMaxSize, last_pmp) 416b6982e83SLemover 417b6982e83SLemover val cur = WireInit(pmp) 418b6982e83SLemover cur.cfg.r := aligned && (pmp.cfg.r || ignore) 419b6982e83SLemover cur.cfg.w := aligned && (pmp.cfg.w || ignore) 420b6982e83SLemover cur.cfg.x := aligned && (pmp.cfg.x || ignore) 421b6982e83SLemover 422a15116bdSLemover// Mux(is_match, cur, prev) 423a15116bdSLemover match_vec(i) := is_match 424a15116bdSLemover cfg_vec(i) := cur 425b6982e83SLemover } 426a15116bdSLemover 427a15116bdSLemover // default value 428a15116bdSLemover match_vec(num) := true.B 429a15116bdSLemover cfg_vec(num) := pmpDefault 430a15116bdSLemover 4315cf62c1aSLemover if (leaveHitMux) { 432005e809bSJiuyang Liu ParallelPriorityMux(match_vec.map(RegEnable(_, false.B, valid)), RegEnable(cfg_vec, valid)) 4335cf62c1aSLemover } else { 434a15116bdSLemover ParallelPriorityMux(match_vec, cfg_vec) 435ca2f90a6SLemover } 436ca2f90a6SLemover } 4375cf62c1aSLemover} 438b6982e83SLemover 43998c71602SJiawei Linclass PMPCheckerEnv(implicit p: Parameters) extends PMPBundle { 44098c71602SJiawei Lin val mode = UInt(2.W) 44198c71602SJiawei Lin val pmp = Vec(NumPMP, new PMPEntry()) 44298c71602SJiawei Lin val pma = Vec(NumPMA, new PMPEntry()) 44398c71602SJiawei Lin 44498c71602SJiawei Lin def apply(mode: UInt, pmp: Vec[PMPEntry], pma: Vec[PMPEntry]): Unit = { 44598c71602SJiawei Lin this.mode := mode 44698c71602SJiawei Lin this.pmp := pmp 44798c71602SJiawei Lin this.pma := pma 44898c71602SJiawei Lin } 44998c71602SJiawei Lin} 45098c71602SJiawei Lin 45198c71602SJiawei Linclass PMPCheckIO(lgMaxSize: Int)(implicit p: Parameters) extends PMPBundle { 45298c71602SJiawei Lin val check_env = Input(new PMPCheckerEnv()) 45398c71602SJiawei Lin val req = Flipped(Valid(new PMPReqBundle(lgMaxSize))) // usage: assign the valid to fire signal 45498c71602SJiawei Lin val resp = new PMPRespBundle() 45598c71602SJiawei Lin 45698c71602SJiawei Lin def apply(mode: UInt, pmp: Vec[PMPEntry], pma: Vec[PMPEntry], req: Valid[PMPReqBundle]) = { 45798c71602SJiawei Lin check_env.apply(mode, pmp, pma) 45898c71602SJiawei Lin this.req := req 45998c71602SJiawei Lin resp 46098c71602SJiawei Lin } 46198c71602SJiawei Lin 46298c71602SJiawei Lin def req_apply(valid: Bool, addr: UInt): Unit = { 46398c71602SJiawei Lin this.req.valid := valid 46498c71602SJiawei Lin this.req.bits.apply(addr) 46598c71602SJiawei Lin } 46698c71602SJiawei Lin 46798c71602SJiawei Lin def apply(mode: UInt, pmp: Vec[PMPEntry], pma: Vec[PMPEntry], valid: Bool, addr: UInt) = { 46898c71602SJiawei Lin check_env.apply(mode, pmp, pma) 46998c71602SJiawei Lin req_apply(valid, addr) 47098c71602SJiawei Lin resp 47198c71602SJiawei Lin } 47298c71602SJiawei Lin} 47398c71602SJiawei Lin 4745b7ef044SLemoverclass PMPCheckv2IO(lgMaxSize: Int)(implicit p: Parameters) extends PMPBundle { 4755b7ef044SLemover val check_env = Input(new PMPCheckerEnv()) 4765b7ef044SLemover val req = Flipped(Valid(new PMPReqBundle(lgMaxSize))) // usage: assign the valid to fire signal 4775b7ef044SLemover val resp = Output(new PMPConfig()) 4785b7ef044SLemover 4795b7ef044SLemover def apply(mode: UInt, pmp: Vec[PMPEntry], pma: Vec[PMPEntry], req: Valid[PMPReqBundle]) = { 4805b7ef044SLemover check_env.apply(mode, pmp, pma) 4815b7ef044SLemover this.req := req 4825b7ef044SLemover resp 4835b7ef044SLemover } 4845b7ef044SLemover 4855b7ef044SLemover def req_apply(valid: Bool, addr: UInt): Unit = { 4865b7ef044SLemover this.req.valid := valid 4875b7ef044SLemover this.req.bits.apply(addr) 4885b7ef044SLemover } 4895b7ef044SLemover 4905b7ef044SLemover def apply(mode: UInt, pmp: Vec[PMPEntry], pma: Vec[PMPEntry], valid: Bool, addr: UInt) = { 4915b7ef044SLemover check_env.apply(mode, pmp, pma) 4925b7ef044SLemover req_apply(valid, addr) 4935b7ef044SLemover resp 4945b7ef044SLemover } 4955b7ef044SLemover} 4965b7ef044SLemover 497ca2f90a6SLemover@chiselName 498ca2f90a6SLemoverclass PMPChecker 499ca2f90a6SLemover( 500ca2f90a6SLemover lgMaxSize: Int = 3, 5015cf62c1aSLemover sameCycle: Boolean = false, 50298c71602SJiawei Lin leaveHitMux: Boolean = false, 50398c71602SJiawei Lin pmpUsed: Boolean = true 50498c71602SJiawei Lin)(implicit p: Parameters) extends PMPModule 505ca2f90a6SLemover with PMPCheckMethod 506ca2f90a6SLemover with PMACheckMethod 507ca2f90a6SLemover{ 5085cf62c1aSLemover require(!(leaveHitMux && sameCycle)) 50998c71602SJiawei Lin val io = IO(new PMPCheckIO(lgMaxSize)) 510ca2f90a6SLemover 511ca2f90a6SLemover val req = io.req.bits 512ca2f90a6SLemover 51398c71602SJiawei Lin val res_pmp = pmp_match_res(leaveHitMux, io.req.valid)(req.addr, req.size, io.check_env.pmp, io.check_env.mode, lgMaxSize) 51498c71602SJiawei Lin val res_pma = pma_match_res(leaveHitMux, io.req.valid)(req.addr, req.size, io.check_env.pma, io.check_env.mode, lgMaxSize) 515ca2f90a6SLemover 516ca2f90a6SLemover val resp_pmp = pmp_check(req.cmd, res_pmp.cfg) 517ca2f90a6SLemover val resp_pma = pma_check(req.cmd, res_pma.cfg) 51898c71602SJiawei Lin val resp = if (pmpUsed) (resp_pmp | resp_pma) else resp_pma 519ca2f90a6SLemover 5205cf62c1aSLemover if (sameCycle || leaveHitMux) { 521ca2f90a6SLemover io.resp := resp 522b6982e83SLemover } else { 523ca2f90a6SLemover io.resp := RegEnable(resp, io.req.valid) 524b6982e83SLemover } 525b6982e83SLemover} 5265b7ef044SLemover 5275b7ef044SLemover/* get config with check */ 5285b7ef044SLemover@chiselName 5295b7ef044SLemoverclass PMPCheckerv2 5305b7ef044SLemover( 5315b7ef044SLemover lgMaxSize: Int = 3, 5325b7ef044SLemover sameCycle: Boolean = false, 5335b7ef044SLemover leaveHitMux: Boolean = false 5345b7ef044SLemover)(implicit p: Parameters) extends PMPModule 5355b7ef044SLemover with PMPCheckMethod 5365b7ef044SLemover with PMACheckMethod 5375b7ef044SLemover{ 5385b7ef044SLemover require(!(leaveHitMux && sameCycle)) 5395b7ef044SLemover val io = IO(new PMPCheckv2IO(lgMaxSize)) 5405b7ef044SLemover 5415b7ef044SLemover val req = io.req.bits 5425b7ef044SLemover 5435b7ef044SLemover val res_pmp = pmp_match_res(leaveHitMux, io.req.valid)(req.addr, req.size, io.check_env.pmp, io.check_env.mode, lgMaxSize) 5445b7ef044SLemover val res_pma = pma_match_res(leaveHitMux, io.req.valid)(req.addr, req.size, io.check_env.pma, io.check_env.mode, lgMaxSize) 5455b7ef044SLemover 5465b7ef044SLemover val resp = and(res_pmp, res_pma) 5475b7ef044SLemover 5485b7ef044SLemover if (sameCycle || leaveHitMux) { 5495b7ef044SLemover io.resp := resp 5505b7ef044SLemover } else { 5515b7ef044SLemover io.resp := RegEnable(resp, io.req.valid) 5525b7ef044SLemover } 5535b7ef044SLemover 5545b7ef044SLemover def and(pmp: PMPEntry, pma: PMPEntry): PMPConfig = { 5555b7ef044SLemover val tmp_res = Wire(new PMPConfig) 5565b7ef044SLemover tmp_res.l := DontCare 5575b7ef044SLemover tmp_res.a := DontCare 5585b7ef044SLemover tmp_res.r := pmp.cfg.r && pma.cfg.r 5595b7ef044SLemover tmp_res.w := pmp.cfg.w && pma.cfg.w 5605b7ef044SLemover tmp_res.x := pmp.cfg.x && pma.cfg.x 5615b7ef044SLemover tmp_res.c := pma.cfg.c 5625b7ef044SLemover tmp_res.atomic := pma.cfg.atomic 5635b7ef044SLemover tmp_res 5645b7ef044SLemover } 5655b7ef044SLemover} 566