1package xiangshan.backend.fu.NewCSR 2 3import chisel3._ 4import chisel3.util._ 5import freechips.rocketchip.rocket.CSRs 6import utility.GatedValidRegNext 7import xiangshan.backend.fu.NewCSR.CSRDefines.{CSRROField => RO, CSRRWField => RW, CSRWARLField => WARL} 8import xiangshan.backend.fu.NewCSR.CSRFunc._ 9import xiangshan.backend.fu.vector.Bundles._ 10import xiangshan.backend.fu.NewCSR.CSRConfig._ 11import xiangshan.backend.fu.fpu.Bundles.{Fflags, Frm} 12import xiangshan.backend.fu.NewCSR.CSREnumTypeImplicitCast._ 13 14import scala.collection.immutable.SeqMap 15 16trait Unprivileged { self: NewCSR with MachineLevel with SupervisorLevel => 17 18 val fcsr = Module(new CSRModule("Fcsr", new CSRBundle { 19 val NX = WARL(0, wNoFilter) 20 val UF = WARL(1, wNoFilter) 21 val OF = WARL(2, wNoFilter) 22 val DZ = WARL(3, wNoFilter) 23 val NV = WARL(4, wNoFilter) 24 val FRM = WARL(7, 5, wNoFilter) 25 }) with HasRobCommitBundle { 26 val wAliasFflags = IO(Input(new CSRAddrWriteBundle(new CSRFFlagsBundle))) 27 val wAliasFfm = IO(Input(new CSRAddrWriteBundle(new CSRFrmBundle))) 28 val fflags = IO(Output(Fflags())) 29 val frm = IO(Output(Frm())) 30 31 // write connection 32 this.wfn(reg)(Seq(wAliasFflags, wAliasFfm)) 33 34 when (robCommit.fflags.valid) { 35 reg.NX := robCommit.fflags.bits(0) || reg.NX 36 reg.UF := robCommit.fflags.bits(1) || reg.UF 37 reg.OF := robCommit.fflags.bits(2) || reg.OF 38 reg.DZ := robCommit.fflags.bits(3) || reg.DZ 39 reg.NV := robCommit.fflags.bits(4) || reg.NV 40 } 41 42 // read connection 43 fflags := reg.asUInt(4, 0) 44 frm := reg.FRM.asUInt 45 }).setAddr(0x003) 46 47 // vec 48 val vstart = Module(new CSRModule("Vstart", new CSRBundle { 49 val vstart = RW(VlWidth - 2, 0) // hold [0, 128) 50 }) with HasRobCommitBundle { 51 // Todo make The use of vstart values greater than the largest element index for the current SEW setting is reserved. 52 // Not trap 53 when (wen && this.w.wdata < VLEN.U) { 54 reg.vstart := this.w.wdata(VlWidth - 2, 0) 55 }.elsewhen (robCommit.vstart.valid) { 56 reg.vstart := robCommit.vstart.bits 57 } 58 }) 59 .setAddr(0x008) 60 61 val vcsr = Module(new CSRModule("Vcsr", new CSRBundle { 62 val VXSAT = RW( 0) 63 val VXRM = RW(2, 1) 64 }) with HasRobCommitBundle { 65 val wAliasVxsat = IO(Input(new CSRAddrWriteBundle(new CSRBundle { 66 val VXSAT = RW(0) 67 }))) 68 val wAlisaVxrm = IO(Input(new CSRAddrWriteBundle(new CSRBundle { 69 val VXRM = RW(1, 0) 70 }))) 71 val vxsat = IO(Output(Vxsat())) 72 val vxrm = IO(Output(Vxrm())) 73 74 // write connection 75 this.wfn(reg)(Seq(wAliasVxsat, wAlisaVxrm)) 76 77 when(robCommit.vxsat.valid) { 78 reg.VXSAT := reg.VXSAT.asBool || robCommit.vxsat.bits.asBool 79 } 80 81 // read connection 82 vxsat := reg.VXSAT.asUInt 83 vxrm := reg.VXRM.asUInt 84 }).setAddr(0x00F) 85 86 val vl = Module(new CSRModule("Vl", new CSRBundle { 87 val VL = RO(VlWidth - 1, 0) 88 }) with HasRobCommitBundle { 89 when (robCommit.vl.valid) { 90 reg.VL := robCommit.vl.bits 91 } 92 }) 93 .setAddr(0xC20) 94 95 val vtype = Module(new CSRModule("Vtype", new CSRVTypeBundle) with HasRobCommitBundle { 96 when(robCommit.vtype.valid) { 97 reg := robCommit.vtype.bits 98 } 99 }) 100 .setAddr(0xC21) 101 102 val vlenb = Module(new CSRModule("Vlenb", new CSRBundle { 103 val VLENB = VlenbField(63, 0).withReset(VlenbField.init) 104 })) 105 .setAddr(0xC22) 106 107 val cycle = Module(new CSRModule("cycle", new CSRBundle { 108 val cycle = RO(63, 0) 109 }) with HasMHPMSink { 110 regOut.cycle := mHPM.cycle 111 }) 112 .setAddr(CSRs.cycle) 113 114 val time = Module(new CSRModule("time", new CSRBundle { 115 val time = RO(63, 0) 116 }) with HasMHPMSink { 117 val updated = IO(Output(Bool())) 118 119 when (mHPM.time.valid) { 120 reg.time := mHPM.time.bits 121 } 122 123 updated := GatedValidRegNext(mHPM.time.valid) 124 }) 125 .setAddr(CSRs.time) 126 127 val instret = Module(new CSRModule("instret", new CSRBundle { 128 val instret = RO(63, 0) 129 }) with HasMHPMSink { 130 regOut.instret := mHPM.instret 131 }) 132 .setAddr(CSRs.instret) 133 134 val unprivilegedCSRMap: SeqMap[Int, (CSRAddrWriteBundle[_], Data)] = SeqMap( 135 0x001 -> (fcsr.wAliasFflags -> fcsr.fflags), 136 0x002 -> (fcsr.wAliasFfm -> fcsr.frm), 137 0x003 -> (fcsr.w -> fcsr.rdata), 138 0x008 -> (vstart.w -> vstart.rdata), 139 0x009 -> (vcsr.wAliasVxsat -> vcsr.vxsat), 140 0x00A -> (vcsr.wAlisaVxrm -> vcsr.vxrm), 141 0x00F -> (vcsr.w -> vcsr.rdata), 142 0xC20 -> (vl.w -> vl.rdata), 143 0xC21 -> (vtype.w -> vtype.rdata), 144 0xC22 -> (vlenb.w -> vlenb.rdata), 145 CSRs.cycle -> (cycle.w -> cycle.rdata), 146 CSRs.time -> (time.w -> time.rdata), 147 CSRs.instret -> (instret.w -> instret.rdata), 148 ) 149 150 val unprivilegedCSRMods: Seq[CSRModule[_]] = Seq( 151 fcsr, 152 vcsr, 153 vstart, 154 vl, 155 vtype, 156 vlenb, 157 cycle, 158 time, 159 instret, 160 ) 161 162 val unprivilegedCSROutMap: SeqMap[Int, UInt] = SeqMap( 163 0x001 -> fcsr.fflags.asUInt, 164 0x002 -> fcsr.frm.asUInt, 165 0x003 -> fcsr.rdata.asUInt, 166 0x008 -> vcsr.rdata.asUInt, 167 0x009 -> vcsr.vxsat.asUInt, 168 0x00A -> vcsr.vxrm.asUInt, 169 0x00F -> vcsr.rdata.asUInt, 170 0xC20 -> vl.rdata.asUInt, 171 0xC21 -> vtype.rdata.asUInt, 172 0xC22 -> vlenb.rdata.asUInt, 173 CSRs.cycle -> cycle.rdata, 174 CSRs.time -> time.rdata, 175 CSRs.instret -> instret.rdata, 176 ) 177} 178 179class CSRVTypeBundle extends CSRBundle { 180 val VILL = RO( 63) 181 val VMA = RO( 7) 182 val VTA = RO( 6) 183 val VSEW = RO(5, 3) 184 val VLMUL = RO(2, 0) 185} 186 187class CSRFrmBundle extends CSRBundle { 188 val FRM = WARL(2, 0, wNoFilter) 189} 190 191class CSRFFlagsBundle extends CSRBundle { 192 val NX = WARL(0, wNoFilter) 193 val UF = WARL(1, wNoFilter) 194 val OF = WARL(2, wNoFilter) 195 val DZ = WARL(3, wNoFilter) 196 val NV = WARL(4, wNoFilter) 197} 198 199object VlenbField extends CSREnum with ROApply { 200 val init = Value((VLEN / 8).U) 201} 202 203trait HasMHPMSink { self: CSRModule[_] => 204 val mHPM = IO(Input(new Bundle { 205 val cycle = UInt(64.W) 206 // ValidIO is used to update time reg 207 val time = ValidIO(UInt(64.W)) 208 val instret = UInt(64.W) 209 })) 210} 211