1package xiangshan.backend.fu.NewCSR.CSREvents 2 3import chisel3._ 4import chisel3.util._ 5import org.chipsalliance.cde.config.Parameters 6import utility.{SignExt, ZeroExt} 7import xiangshan.ExceptionNO._ 8import xiangshan.backend.fu.NewCSR.CSRBundles.{CauseBundle, OneFieldBundle, PrivState} 9import xiangshan.backend.fu.NewCSR.CSRConfig.{VaddrMaxWidth, XLEN} 10import xiangshan.backend.fu.NewCSR.CSRDefines.SatpMode 11import xiangshan.backend.fu.NewCSR._ 12 13 14class TrapEntryHSEventOutput extends Bundle with EventUpdatePrivStateOutput with EventOutputBase { 15 16 // Todo: use sstatus instead of mstatus 17 val mstatus = ValidIO((new MstatusBundle ).addInEvent(_.SPP, _.SPIE, _.SIE)) 18 val hstatus = ValidIO((new HstatusBundle ).addInEvent(_.SPV, _.SPVP, _.GVA)) 19 val sepc = ValidIO((new Epc ).addInEvent(_.epc)) 20 val scause = ValidIO((new CauseBundle ).addInEvent(_.Interrupt, _.ExceptionCode)) 21 val stval = ValidIO((new OneFieldBundle).addInEvent(_.ALL)) 22 val htval = ValidIO((new OneFieldBundle).addInEvent(_.ALL)) 23 val htinst = ValidIO((new OneFieldBundle).addInEvent(_.ALL)) 24 val targetPc = ValidIO(UInt(VaddrMaxWidth.W)) 25 26 def getBundleByName(name: String): Valid[CSRBundle] = { 27 name match { 28 case "mstatus" => this.mstatus 29 case "hstatus" => this.hstatus 30 case "sepc" => this.sepc 31 case "scause" => this.scause 32 case "stval" => this.stval 33 case "htval" => this.htval 34 case "htinst" => this.htinst 35 } 36 } 37} 38 39class TrapEntryHSEventModule(implicit val p: Parameters) extends Module with CSREventBase { 40 val in = IO(new TrapEntryEventInput) 41 val out = IO(new TrapEntryHSEventOutput) 42 43 private val current = in 44 private val iMode = current.iMode 45 private val dMode = current.dMode 46 private val satp = current.satp 47 private val vsatp = current.vsatp 48 private val hgatp = current.hgatp 49 50 private val highPrioTrapNO = in.causeNO.ExceptionCode.asUInt 51 private val isException = !in.causeNO.Interrupt.asBool 52 private val isInterrupt = in.causeNO.Interrupt.asBool 53 54 private val trapPC = genTrapVA( 55 iMode, 56 satp, 57 vsatp, 58 hgatp, 59 in.trapPc, 60 ) 61 62 private val trapMemVA = genTrapVA( 63 dMode, 64 satp, 65 vsatp, 66 hgatp, 67 in.memExceptionVAddr, 68 ) 69 70 private val trapMemGPA = SignExt(in.memExceptionGPAddr, XLEN) 71 private val ivmHS = !current.iMode.isModeHS && current.satp.MODE =/= SatpMode.Bare 72 private val ivmVS = !current.iMode.isModeVS && current.vsatp.MODE =/= SatpMode.Bare 73 // When enable virtual memory, the higher bit should fill with the msb of address of Sv39/Sv48/Sv57 74 trapPC := Mux(ivmHS || ivmVS, SignExt(in.trapPc, XLEN), ZeroExt(in.trapPc, XLEN)) 75 76 private val fetchIsVirt = current.iMode.isVirtual 77 private val memIsVirt = current.dMode.isVirtual 78 79 private val isFetchExcp = isException && Seq(/*EX_IAM, */ EX_IAF, EX_IPF).map(_.U === highPrioTrapNO).reduce(_ || _) 80 private val isMemExcp = isException && Seq(EX_LAM, EX_LAF, EX_SAM, EX_SAF, EX_LPF, EX_SPF).map(_.U === highPrioTrapNO).reduce(_ || _) 81 private val isBpExcp = isException && EX_BP.U === highPrioTrapNO 82 private val fetchCrossPage = in.isCrossPageIPF 83 84 private val isGuestExcp = isException && Seq(EX_IGPF, EX_LGPF, EX_SGPF).map(_.U === highPrioTrapNO).reduce(_ || _) 85 // Software breakpoint exceptions are permitted to write either 0 or the pc to xtval 86 // We fill pc here 87 private val tvalFillPc = isFetchExcp && !fetchCrossPage || isBpExcp 88 private val tvalFillPcPlus2 = isFetchExcp && fetchCrossPage 89 private val tvalFillMemVaddr = isMemExcp 90 private val tvalFillGVA = isGuestExcp || 91 (isFetchExcp || isBpExcp) && fetchIsVirt || 92 isMemExcp && memIsVirt 93 94 private val tval = Mux1H(Seq( 95 (tvalFillPc ) -> trapPC, 96 (tvalFillPcPlus2 ) -> (trapPC + 2.U), 97 (tvalFillMemVaddr && !memIsVirt ) -> trapMemVA, 98 (tvalFillMemVaddr && memIsVirt ) -> trapMemVA, 99 (isGuestExcp ) -> trapMemVA, 100 )) 101 102 private val tval2 = Mux(isGuestExcp, trapMemGPA, 0.U) 103 104 out := DontCare 105 106 out.privState.valid := valid 107 out.mstatus .valid := valid 108 out.hstatus .valid := valid 109 out.sepc .valid := valid 110 out.scause .valid := valid 111 out.stval .valid := valid 112 out.htval .valid := valid 113 out.targetPc .valid := valid 114 115 out.privState.bits := PrivState.ModeHS 116 // mstatus 117 out.mstatus.bits.SPP := current.privState.PRVM.asUInt(0, 0) // SPP is not PrivMode enum type, so asUInt and shrink the width 118 out.mstatus.bits.SPIE := current.sstatus.SIE 119 out.mstatus.bits.SIE := 0.U 120 // hstatus 121 out.hstatus.bits.SPV := current.privState.V 122 // SPVP is not PrivMode enum type, so asUInt and shrink the width 123 out.hstatus.bits.SPVP := Mux(!current.privState.isVirtual, in.hstatus.SPVP.asUInt, current.privState.PRVM.asUInt(0, 0)) 124 out.hstatus.bits.GVA := tvalFillGVA 125 out.sepc.bits.epc := trapPC(VaddrMaxWidth - 1, 1) 126 out.scause.bits.Interrupt := isInterrupt 127 out.scause.bits.ExceptionCode := highPrioTrapNO 128 out.stval.bits.ALL := tval 129 out.htval.bits.ALL := tval2 130 out.htinst.bits.ALL := 0.U 131 out.targetPc.bits := in.pcFromXtvec 132 133 dontTouch(isGuestExcp) 134 dontTouch(tvalFillGVA) 135} 136 137trait TrapEntryHSEventSinkBundle { self: CSRModule[_] => 138 val trapToHS = IO(Flipped(new TrapEntryHSEventOutput)) 139 140 private val updateBundle: ValidIO[CSRBundle] = trapToHS.getBundleByName(self.modName.toLowerCase()) 141 142 (reg.asInstanceOf[CSRBundle].getFields zip updateBundle.bits.getFields).foreach { case (sink, source) => 143 if (updateBundle.bits.eventFields.contains(source)) { 144 when(updateBundle.valid) { 145 sink := source 146 } 147 } 148 } 149} 150