1720dd621STang Haojin/*************************************************************************************** 2720dd621STang Haojin* Copyright (c) 2024 Beijing Institute of Open Source Chip (BOSC) 3720dd621STang Haojin* Copyright (c) 2024 Institute of Computing Technology, Chinese Academy of Sciences 4720dd621STang Haojin* 5720dd621STang Haojin* XiangShan is licensed under Mulan PSL v2. 6720dd621STang Haojin* You can use this software according to the terms and conditions of the Mulan PSL v2. 7720dd621STang Haojin* You may obtain a copy of Mulan PSL v2 at: 8720dd621STang Haojin* http://license.coscl.org.cn/MulanPSL2 9720dd621STang Haojin* 10720dd621STang Haojin* THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND, 11720dd621STang Haojin* EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT, 12720dd621STang Haojin* MERCHANTABILITY OR FIT FOR A PARTICULAR PURPOSE. 13720dd621STang Haojin* 14720dd621STang Haojin* See the Mulan PSL v2 for more details. 15720dd621STang Haojin***************************************************************************************/ 16720dd621STang Haojin 17720dd621STang Haojinpackage top 18720dd621STang Haojin 19720dd621STang Haojinimport chisel3._ 20720dd621STang Haojinimport chisel3.util._ 217fbc1cb4STang Haojinimport chisel3.experimental.dataview._ 22720dd621STang Haojinimport xiangshan._ 23720dd621STang Haojinimport utils._ 24720dd621STang Haojinimport utility._ 25720dd621STang Haojinimport system._ 26720dd621STang Haojinimport device._ 27720dd621STang Haojinimport org.chipsalliance.cde.config._ 28720dd621STang Haojinimport freechips.rocketchip.amba.axi4._ 294a699e27Szhanglinjuanimport freechips.rocketchip.devices.debug.DebugModuleKey 30720dd621STang Haojinimport freechips.rocketchip.diplomacy._ 31720dd621STang Haojinimport freechips.rocketchip.interrupts._ 32720dd621STang Haojinimport freechips.rocketchip.tilelink._ 334b2c87baS梁森 Liang Senimport coupledL2.tl2chi.{CHIAsyncBridgeSink, PortIO} 34720dd621STang Haojinimport freechips.rocketchip.tile.MaxHartIdBits 354b2c87baS梁森 Liang Senimport freechips.rocketchip.util.{AsyncQueueParams, AsyncQueueSource} 364b2c87baS梁森 Liang Senimport chisel3.experimental.{ChiselAnnotation, annotate} 378e93c8f6STang Haojinimport sifive.enterprise.firrtl.NestedPrefixModulesAnnotation 384b2c87baS梁森 Liang Senimport utility.sram.SramBroadcastBundle 39720dd621STang Haojin 40c33deca9Sklin02import difftest.common.DifftestWiring 41c33deca9Sklin02import difftest.util.Profile 42c33deca9Sklin02 43720dd621STang Haojinclass XSNoCTop()(implicit p: Parameters) extends BaseXSSoc with HasSoCParameter 44720dd621STang Haojin{ 45720dd621STang Haojin override lazy val desiredName: String = "XSTop" 46720dd621STang Haojin 47720dd621STang Haojin ResourceBinding { 48720dd621STang Haojin val width = ResourceInt(2) 49720dd621STang Haojin val model = "freechips,rocketchip-unknown" 50720dd621STang Haojin Resource(ResourceAnchors.root, "model").bind(ResourceString(model)) 51720dd621STang Haojin Resource(ResourceAnchors.root, "compat").bind(ResourceString(model + "-dev")) 52720dd621STang Haojin Resource(ResourceAnchors.soc, "compat").bind(ResourceString(model + "-soc")) 53720dd621STang Haojin Resource(ResourceAnchors.root, "width").bind(width) 54720dd621STang Haojin Resource(ResourceAnchors.soc, "width").bind(width) 55720dd621STang Haojin Resource(ResourceAnchors.cpus, "width").bind(ResourceInt(1)) 56720dd621STang Haojin def bindManagers(xbar: TLNexusNode) = { 57720dd621STang Haojin ManagerUnification(xbar.edges.in.head.manager.managers).foreach{ manager => 58720dd621STang Haojin manager.resources.foreach(r => r.bind(manager.toResource)) 59720dd621STang Haojin } 60720dd621STang Haojin } 61720dd621STang Haojin } 62720dd621STang Haojin 63e2725c9eSzhanglinjuan require(enableCHI) 64e2725c9eSzhanglinjuan 65720dd621STang Haojin // xstile 668537b88aSTang Haojin val core_with_l2 = LazyModule(new XSTileWrap()(p.alter((site, here, up) => { 67720dd621STang Haojin case XSCoreParamsKey => tiles.head 68bb2f3f51STang Haojin case PerfCounterOptionsKey => up(PerfCounterOptionsKey).copy(perfDBHartID = tiles.head.HartId) 69720dd621STang Haojin }))) 70720dd621STang Haojin 71720dd621STang Haojin // imsic bus top 727fbc1cb4STang Haojin val u_imsic_bus_top = LazyModule(new imsic_bus_top) 73720dd621STang Haojin 74720dd621STang Haojin // interrupts 75720dd621STang Haojin val clintIntNode = IntSourceNode(IntSourcePortSimple(1, 1, 2)) 76720dd621STang Haojin val debugIntNode = IntSourceNode(IntSourcePortSimple(1, 1, 1)) 77720dd621STang Haojin val plicIntNode = IntSourceNode(IntSourcePortSimple(1, 2, 1)) 788bc90631SZehao Liu val nmiIntNode = IntSourceNode(IntSourcePortSimple(1, 1, (new NonmaskableInterruptIO).elements.size)) 79720dd621STang Haojin val beuIntNode = IntSinkNode(IntSinkPortSimple(1, 1)) 808537b88aSTang Haojin core_with_l2.clintIntNode := clintIntNode 818537b88aSTang Haojin core_with_l2.debugIntNode := debugIntNode 828537b88aSTang Haojin core_with_l2.plicIntNode :*= plicIntNode 838bc90631SZehao Liu core_with_l2.nmiIntNode := nmiIntNode 847ff4ebdcSTang Haojin beuIntNode := core_with_l2.beuIntNode 85720dd621STang Haojin val clint = InModuleBody(clintIntNode.makeIOs()) 86720dd621STang Haojin val debug = InModuleBody(debugIntNode.makeIOs()) 87720dd621STang Haojin val plic = InModuleBody(plicIntNode.makeIOs()) 888bc90631SZehao Liu val nmi = InModuleBody(nmiIntNode.makeIOs()) 89720dd621STang Haojin val beu = InModuleBody(beuIntNode.makeIOs()) 90720dd621STang Haojin 914a699e27Szhanglinjuan // seperate DebugModule bus 924a699e27Szhanglinjuan val EnableDMAsync = EnableDMAsyncBridge.isDefined 934a699e27Szhanglinjuan // asynchronous bridge sink node 944a699e27Szhanglinjuan val dmAsyncSinkOpt = Option.when(SeperateDMBus && EnableDMAsync)( 954a699e27Szhanglinjuan LazyModule(new TLAsyncCrossingSink(EnableDMAsyncBridge.get)) 964a699e27Szhanglinjuan ) 974a699e27Szhanglinjuan dmAsyncSinkOpt.foreach(_.node := core_with_l2.dmAsyncSourceOpt.get.node) 984a699e27Szhanglinjuan // synchronous sink node 994a699e27Szhanglinjuan val dmSyncSinkOpt = Option.when(SeperateDMBus && !EnableDMAsync)(TLTempNode()) 1004a699e27Szhanglinjuan dmSyncSinkOpt.foreach(_ := core_with_l2.dmSyncSourceOpt.get) 1014a699e27Szhanglinjuan 1024a699e27Szhanglinjuan // The Manager Node is only used to make IO. Standalone DM should be used for XSNoCTopConfig 1034a699e27Szhanglinjuan val dm = Option.when(SeperateDMBus)(TLManagerNode(Seq( 1044a699e27Szhanglinjuan TLSlavePortParameters.v1( 1054a699e27Szhanglinjuan managers = Seq( 1064a699e27Szhanglinjuan TLSlaveParameters.v1( 1074a699e27Szhanglinjuan address = Seq(p(DebugModuleKey).get.address), 1084a699e27Szhanglinjuan regionType = RegionType.UNCACHED, 1094a699e27Szhanglinjuan supportsGet = TransferSizes(1, p(SoCParamsKey).L3BlockSize), 1104a699e27Szhanglinjuan supportsPutPartial = TransferSizes(1, p(SoCParamsKey).L3BlockSize), 1114a699e27Szhanglinjuan supportsPutFull = TransferSizes(1, p(SoCParamsKey).L3BlockSize), 1124a699e27Szhanglinjuan fifoId = Some(0) 1134a699e27Szhanglinjuan ) 1144a699e27Szhanglinjuan ), 1154a699e27Szhanglinjuan beatBytes = 8 1164a699e27Szhanglinjuan ) 1174a699e27Szhanglinjuan ))) 1184a699e27Szhanglinjuan val dmXbar = Option.when(SeperateDMBus)(TLXbar()) 1194a699e27Szhanglinjuan dmAsyncSinkOpt.foreach(sink => dmXbar.get := sink.node) 1204a699e27Szhanglinjuan dmSyncSinkOpt.foreach(sink => dmXbar.get := sink) 1214a699e27Szhanglinjuan dm.foreach(_ := dmXbar.get) 1224a699e27Szhanglinjuan // seperate debug module io 1234a699e27Szhanglinjuan val io_dm = dm.map(x => InModuleBody(x.makeIOs())) 1244a699e27Szhanglinjuan 125720dd621STang Haojin // reset nodes 126720dd621STang Haojin val core_rst_node = BundleBridgeSource(() => Reset()) 1278537b88aSTang Haojin core_with_l2.tile.core_reset_sink := core_rst_node 128720dd621STang Haojin 129720dd621STang Haojin class XSNoCTopImp(wrapper: XSNoCTop) extends LazyRawModuleImp(wrapper) { 1308e93c8f6STang Haojin soc.XSTopPrefix.foreach { prefix => 1318e93c8f6STang Haojin val mod = this.toNamed 1328e93c8f6STang Haojin annotate(new ChiselAnnotation { 1338e93c8f6STang Haojin def toFirrtl = NestedPrefixModulesAnnotation(mod, prefix, true) 1348e93c8f6STang Haojin }) 1358e93c8f6STang Haojin } 136720dd621STang Haojin FileRegisters.add("dts", dts) 137720dd621STang Haojin FileRegisters.add("graphml", graphML) 138720dd621STang Haojin FileRegisters.add("json", json) 139720dd621STang Haojin FileRegisters.add("plusArgs", freechips.rocketchip.util.PlusArgArtefacts.serialize_cHeader()) 140720dd621STang Haojin 141720dd621STang Haojin val clock = IO(Input(Clock())) 142720dd621STang Haojin val reset = IO(Input(AsyncReset())) 14369652e6eSTang Haojin val noc_clock = EnableCHIAsyncBridge.map(_ => IO(Input(Clock()))) 14469652e6eSTang Haojin val noc_reset = EnableCHIAsyncBridge.map(_ => IO(Input(AsyncReset()))) 1458537b88aSTang Haojin val soc_clock = IO(Input(Clock())) 1468537b88aSTang Haojin val soc_reset = IO(Input(AsyncReset())) 1474b2c87baS梁森 Liang Sen private val hasMbist = tiles.head.hasMbist 148720dd621STang Haojin val io = IO(new Bundle { 149720dd621STang Haojin val hartId = Input(UInt(p(MaxHartIdBits).W)) 150720dd621STang Haojin val riscv_halt = Output(Bool()) 15185a8d7caSZehao Liu val riscv_critical_error = Output(Bool()) 1523a3744e4Schengguanghui val hartResetReq = Input(Bool()) 153b30cb8bfSGuanghui Cheng val hartIsInReset = Output(Bool()) 1540700cab2STang Haojin val riscv_rst_vec = Input(UInt(soc.PAddrBits.W)) 155720dd621STang Haojin val chi = new PortIO 1568537b88aSTang Haojin val nodeID = Input(UInt(soc.NodeIDWidthList(issue).W)) 1576cb0b9a3SsinceforYy val clintTime = Input(ValidIO(UInt(64.W))) 158725e8ddcSchengguanghui val traceCoreInterface = new Bundle { 159725e8ddcSchengguanghui val fromEncoder = Input(new Bundle { 160725e8ddcSchengguanghui val enable = Bool() 161725e8ddcSchengguanghui val stall = Bool() 162725e8ddcSchengguanghui }) 163725e8ddcSchengguanghui val toEncoder = Output(new Bundle { 164725e8ddcSchengguanghui val cause = UInt(TraceCauseWidth.W) 165725e8ddcSchengguanghui val tval = UInt(TraceTvalWidth.W) 166725e8ddcSchengguanghui val priv = UInt(TracePrivWidth.W) 167725e8ddcSchengguanghui val iaddr = UInt((TraceTraceGroupNum * TraceIaddrWidth).W) 168725e8ddcSchengguanghui val itype = UInt((TraceTraceGroupNum * TraceItypeWidth).W) 169725e8ddcSchengguanghui val iretire = UInt((TraceTraceGroupNum * TraceIretireWidthCompressed).W) 170725e8ddcSchengguanghui val ilastsize = UInt((TraceTraceGroupNum * TraceIlastsizeWidth).W) 171725e8ddcSchengguanghui }) 172725e8ddcSchengguanghui } 1734b2c87baS梁森 Liang Sen val dft = if(hasMbist) Some(Input(new SramBroadcastBundle)) else None 1744b2c87baS梁森 Liang Sen val dft_reset = if(hasMbist) Some(Input(new DFTResetSignals())) else None 175*4d7fbe77Syulightenyu val lp = Option.when(EnablePowerDown) (new LowPowerIO) 176720dd621STang Haojin }) 1777fbc1cb4STang Haojin // imsic axi4 io 1787fbc1cb4STang Haojin val imsic_axi4 = wrapper.u_imsic_bus_top.axi4.map(x => IO(Flipped(new VerilogAXI4Record(x.elts.head.params.copy(addrBits = 32))))) 179720dd621STang Haojin // imsic tl io 180720dd621STang Haojin val imsic_m_tl = wrapper.u_imsic_bus_top.tl_m.map(x => IO(chiselTypeOf(x.getWrappedValue))) 181720dd621STang Haojin val imsic_s_tl = wrapper.u_imsic_bus_top.tl_s.map(x => IO(chiselTypeOf(x.getWrappedValue))) 1827fbc1cb4STang Haojin // imsic bare io 1837fbc1cb4STang Haojin val imsic = wrapper.u_imsic_bus_top.module.msi.map(x => IO(chiselTypeOf(x))) 184720dd621STang Haojin 1854b2c87baS梁森 Liang Sen val noc_reset_sync = EnableCHIAsyncBridge.map(_ => withClockAndReset(noc_clock, noc_reset) { ResetGen(2, io.dft_reset) }) 1864b2c87baS梁森 Liang Sen val soc_reset_sync = withClockAndReset(soc_clock, soc_reset) { ResetGen(2, io.dft_reset) } 1874b2c87baS梁森 Liang Sen wrapper.core_with_l2.module.io.dft.zip(io.dft).foreach({case(a, b) => a := b}) 1884b2c87baS梁森 Liang Sen wrapper.core_with_l2.module.io.dft_reset.zip(io.dft_reset).foreach({case(a, b) => a := b}) 1898537b88aSTang Haojin // device clock and reset 1908537b88aSTang Haojin wrapper.u_imsic_bus_top.module.clock := soc_clock 1918537b88aSTang Haojin wrapper.u_imsic_bus_top.module.reset := soc_reset_sync 192720dd621STang Haojin 1937fbc1cb4STang Haojin // imsic axi4 io connection 1947fbc1cb4STang Haojin imsic_axi4.foreach(_.viewAs[AXI4Bundle] <> wrapper.u_imsic_bus_top.axi4.get.elements.head._2) 195720dd621STang Haojin // imsic tl io connection 196720dd621STang Haojin wrapper.u_imsic_bus_top.tl_m.foreach(_ <> imsic_m_tl.get) 197720dd621STang Haojin wrapper.u_imsic_bus_top.tl_s.foreach(_ <> imsic_s_tl.get) 1987fbc1cb4STang Haojin // imsic bare io connection 1997fbc1cb4STang Haojin wrapper.u_imsic_bus_top.module.msi.foreach(_ <> imsic.get) 200720dd621STang Haojin 201720dd621STang Haojin // input 202720dd621STang Haojin dontTouch(io) 203720dd621STang Haojin 204*4d7fbe77Syulightenyu /* 205*4d7fbe77Syulightenyu SoC control the sequence of power on/off with isolation/reset/clock 206*4d7fbe77Syulightenyu */ 207*4d7fbe77Syulightenyu val soc_rst_n = io.lp.map(_.i_cpu_sw_rst_n).getOrElse(true.B) 208*4d7fbe77Syulightenyu val soc_iso_en = io.lp.map(_.i_cpu_iso_en).getOrElse(false.B) 209*4d7fbe77Syulightenyu 210*4d7fbe77Syulightenyu /* Core+L2 reset when: 211*4d7fbe77Syulightenyu 1. normal reset from SoC 212*4d7fbe77Syulightenyu 2. SoC initialize reset during Power on/off flow 213*4d7fbe77Syulightenyu */ 214*4d7fbe77Syulightenyu val cpuReset = reset.asBool || !soc_rst_n 215*4d7fbe77Syulightenyu 216*4d7fbe77Syulightenyu //Interrupt sources collect 217*4d7fbe77Syulightenyu val msip = clint.head(0) 218*4d7fbe77Syulightenyu val mtip = clint.head(1) 219*4d7fbe77Syulightenyu val meip = plic.head(0) 220*4d7fbe77Syulightenyu val seip = plic.last(0) 221*4d7fbe77Syulightenyu val nmi_31 = nmi.head(0) 222*4d7fbe77Syulightenyu val nmi_43 = nmi.head(1) 223*4d7fbe77Syulightenyu val msi_info_vld = core_with_l2.module.io.msiInfo.valid 224*4d7fbe77Syulightenyu val intSrc = Cat(msip, mtip, meip, seip, nmi_31, nmi_43, msi_info_vld) 225*4d7fbe77Syulightenyu 226*4d7fbe77Syulightenyu /* 227*4d7fbe77Syulightenyu * CPU Low Power State: 228*4d7fbe77Syulightenyu * 1. core+L2 Low power state transactions is triggered by l2 flush request from core CSR 229*4d7fbe77Syulightenyu * 2. wait L2 flush done 230*4d7fbe77Syulightenyu * 3. wait Core to wfi -> send out < io.o_cpu_no_op > 231*4d7fbe77Syulightenyu */ 232*4d7fbe77Syulightenyu val sIDLE :: sL2FLUSH :: sWAITWFI :: sEXITCO :: sPOFFREQ :: Nil = Enum(5) 233*4d7fbe77Syulightenyu val lpState = withClockAndReset(clock, cpuReset.asAsyncReset) {RegInit(sIDLE)} 234*4d7fbe77Syulightenyu val l2_flush_en = core_with_l2.module.io.l2_flush_en.getOrElse(false.B) 235*4d7fbe77Syulightenyu val l2_flush_done = core_with_l2.module.io.l2_flush_done.getOrElse(false.B) 236*4d7fbe77Syulightenyu val isWFI = core_with_l2.module.io.cpu_halt 237*4d7fbe77Syulightenyu val exitco = !io.chi.syscoreq & !io.chi.syscoack 238*4d7fbe77Syulightenyu lpState := lpStateNext(lpState, l2_flush_en, l2_flush_done, isWFI, exitco) 239*4d7fbe77Syulightenyu io.lp.foreach { lp => lp.o_cpu_no_op := lpState === sPOFFREQ } // inform SoC core+l2 want to power off 240*4d7fbe77Syulightenyu 241*4d7fbe77Syulightenyu /*WFI clock Gating state 242*4d7fbe77Syulightenyu 1. works only when lpState is IDLE means Core+L2 works in normal state 243*4d7fbe77Syulightenyu 2. when Core is in wfi state, core+l2 clock is gated 244*4d7fbe77Syulightenyu 3. only reset/interrupt/snoop could recover core+l2 clock 245*4d7fbe77Syulightenyu */ 246*4d7fbe77Syulightenyu val sNORMAL :: sGCLOCK :: sAWAKE :: Nil = Enum(3) 247*4d7fbe77Syulightenyu val wfiState = withClockAndReset(clock, cpuReset.asAsyncReset) {RegInit(sNORMAL)} 248*4d7fbe77Syulightenyu val isNormal = lpState === sIDLE 249*4d7fbe77Syulightenyu val wfiGateClock = withClockAndReset(clock, cpuReset.asAsyncReset) {RegInit(false.B)} 250*4d7fbe77Syulightenyu wfiState := WfiStateNext(wfiState, isWFI, isNormal, io.chi.rx.snp.flitpend, intSrc) 251*4d7fbe77Syulightenyu 252*4d7fbe77Syulightenyu if (WFIClockGate) { 253*4d7fbe77Syulightenyu wfiGateClock := (wfiState === sGCLOCK) 254*4d7fbe77Syulightenyu }else { 255*4d7fbe77Syulightenyu wfiGateClock := false.B 256*4d7fbe77Syulightenyu } 257*4d7fbe77Syulightenyu 258*4d7fbe77Syulightenyu 259*4d7fbe77Syulightenyu 260*4d7fbe77Syulightenyu /* during power down sequence, SoC reset will gate clock */ 261*4d7fbe77Syulightenyu val pwrdownGateClock = withClockAndReset(clock, cpuReset.asAsyncReset) {RegInit(false.B)} 262*4d7fbe77Syulightenyu pwrdownGateClock := !soc_rst_n && lpState === sPOFFREQ 263*4d7fbe77Syulightenyu /* 264*4d7fbe77Syulightenyu physical power off handshake: 265*4d7fbe77Syulightenyu i_cpu_pwrdown_req_n 266*4d7fbe77Syulightenyu o_cpu_pwrdown_ack_n means all power is safely on 267*4d7fbe77Syulightenyu */ 268*4d7fbe77Syulightenyu val soc_pwrdown_n = io.lp.map(_.i_cpu_pwrdown_req_n).getOrElse(true.B) 269*4d7fbe77Syulightenyu io.lp.foreach { lp => lp.o_cpu_pwrdown_ack_n := core_with_l2.module.io.pwrdown_ack_n.getOrElse(true.B) } 270*4d7fbe77Syulightenyu 271*4d7fbe77Syulightenyu 272*4d7fbe77Syulightenyu /* Core+L2 hardware initial clock gating as: 273*4d7fbe77Syulightenyu 1. Gate clock when SoC reset CPU with < io.i_cpu_sw_rst_n > valid 274*4d7fbe77Syulightenyu 2. Gate clock when SoC is enable clock (Core+L2 in normal state) and core is in wfi state 275*4d7fbe77Syulightenyu 3. Disable clock gate at the cycle of Flitpend valid in rx.snp channel 276*4d7fbe77Syulightenyu */ 277*4d7fbe77Syulightenyu val cpuClockEn = !wfiGateClock && !pwrdownGateClock | io.chi.rx.snp.flitpend 278*4d7fbe77Syulightenyu 279*4d7fbe77Syulightenyu dontTouch(wfiGateClock) 280*4d7fbe77Syulightenyu dontTouch(pwrdownGateClock) 281*4d7fbe77Syulightenyu dontTouch(cpuClockEn) 282*4d7fbe77Syulightenyu 283*4d7fbe77Syulightenyu core_with_l2.module.clock := ClockGate(false.B, cpuClockEn, clock) 284*4d7fbe77Syulightenyu core_with_l2.module.reset := cpuReset.asAsyncReset 2857ff4ebdcSTang Haojin core_with_l2.module.noc_reset.foreach(_ := noc_reset.get) 2867ff4ebdcSTang Haojin core_with_l2.module.soc_reset := soc_reset 287720dd621STang Haojin core_with_l2.module.io.hartId := io.hartId 288720dd621STang Haojin core_with_l2.module.io.nodeID.get := io.nodeID 289720dd621STang Haojin io.riscv_halt := core_with_l2.module.io.cpu_halt 29085a8d7caSZehao Liu io.riscv_critical_error := core_with_l2.module.io.cpu_crtical_error 2913a3744e4Schengguanghui core_with_l2.module.io.hartResetReq := io.hartResetReq 292b30cb8bfSGuanghui Cheng io.hartIsInReset := core_with_l2.module.io.hartIsInReset 293720dd621STang Haojin core_with_l2.module.io.reset_vector := io.riscv_rst_vec 294*4d7fbe77Syulightenyu core_with_l2.module.io.iso_en.foreach { _ := false.B } 295*4d7fbe77Syulightenyu core_with_l2.module.io.pwrdown_req_n.foreach { _ := true.B } 2963ad9f3ddSchengguanghui // trace Interface 2973ad9f3ddSchengguanghui val traceInterface = core_with_l2.module.io.traceCoreInterface 2983ad9f3ddSchengguanghui traceInterface.fromEncoder := io.traceCoreInterface.fromEncoder 2993ad9f3ddSchengguanghui io.traceCoreInterface.toEncoder.priv := traceInterface.toEncoder.priv 3003ad9f3ddSchengguanghui io.traceCoreInterface.toEncoder.cause := traceInterface.toEncoder.trap.cause 3013ad9f3ddSchengguanghui io.traceCoreInterface.toEncoder.tval := traceInterface.toEncoder.trap.tval 3023ad9f3ddSchengguanghui io.traceCoreInterface.toEncoder.iaddr := VecInit(traceInterface.toEncoder.groups.map(_.bits.iaddr)).asUInt 3033ad9f3ddSchengguanghui io.traceCoreInterface.toEncoder.itype := VecInit(traceInterface.toEncoder.groups.map(_.bits.itype)).asUInt 3043ad9f3ddSchengguanghui io.traceCoreInterface.toEncoder.iretire := VecInit(traceInterface.toEncoder.groups.map(_.bits.iretire)).asUInt 3053ad9f3ddSchengguanghui io.traceCoreInterface.toEncoder.ilastsize := VecInit(traceInterface.toEncoder.groups.map(_.bits.ilastsize)).asUInt 3062f9ea954STang Haojin 307e2725c9eSzhanglinjuan EnableClintAsyncBridge match { 308e2725c9eSzhanglinjuan case Some(param) => 3097ff4ebdcSTang Haojin withClockAndReset(soc_clock, soc_reset_sync) { 3107ff4ebdcSTang Haojin val source = Module(new AsyncQueueSource(UInt(64.W), param)) 311e2725c9eSzhanglinjuan source.io.enq.valid := io.clintTime.valid 312e2725c9eSzhanglinjuan source.io.enq.bits := io.clintTime.bits 3137ff4ebdcSTang Haojin core_with_l2.module.io.clintTime <> source.io.async 3147ff4ebdcSTang Haojin } 315e2725c9eSzhanglinjuan case None => 3167ff4ebdcSTang Haojin core_with_l2.module.io.clintTime <> io.clintTime 317e2725c9eSzhanglinjuan } 318e2725c9eSzhanglinjuan 319e2725c9eSzhanglinjuan EnableCHIAsyncBridge match { 320e2725c9eSzhanglinjuan case Some(param) => 3217ff4ebdcSTang Haojin withClockAndReset(noc_clock.get, noc_reset_sync.get) { 3227ff4ebdcSTang Haojin val sink = Module(new CHIAsyncBridgeSink(param)) 3237ff4ebdcSTang Haojin sink.io.async <> core_with_l2.module.io.chi 324e2725c9eSzhanglinjuan io.chi <> sink.io.deq 3257ff4ebdcSTang Haojin } 326e2725c9eSzhanglinjuan case None => 3277ff4ebdcSTang Haojin io.chi <> core_with_l2.module.io.chi 328e2725c9eSzhanglinjuan } 3296cb0b9a3SsinceforYy 3304a699e27Szhanglinjuan // Seperate DebugModule TL Async Queue Sink 3314a699e27Szhanglinjuan if (SeperateDMBus && EnableDMAsync) { 3324a699e27Szhanglinjuan dmAsyncSinkOpt.get.module.clock := soc_clock 3334a699e27Szhanglinjuan dmAsyncSinkOpt.get.module.reset := soc_reset_sync 3344a699e27Szhanglinjuan } 3354a699e27Szhanglinjuan 3367fbc1cb4STang Haojin core_with_l2.module.io.msiInfo.valid := wrapper.u_imsic_bus_top.module.msiio.vld_req 3377fbc1cb4STang Haojin core_with_l2.module.io.msiInfo.bits := wrapper.u_imsic_bus_top.module.msiio.data 3387fbc1cb4STang Haojin wrapper.u_imsic_bus_top.module.msiio.vld_ack := core_with_l2.module.io.msiAck 339720dd621STang Haojin // tie off core soft reset 340720dd621STang Haojin core_rst_node.out.head._1 := false.B.asAsyncReset 341720dd621STang Haojin 342720dd621STang Haojin core_with_l2.module.io.debugTopDown.l3MissMatch := false.B 343e836c770SZhaoyang You core_with_l2.module.io.l3Miss := false.B 344720dd621STang Haojin } 345720dd621STang Haojin 346720dd621STang Haojin lazy val module = new XSNoCTopImp(this) 347720dd621STang Haojin} 348c33deca9Sklin02 349c33deca9Sklin02class XSNoCDiffTop(implicit p: Parameters) extends Module { 350c33deca9Sklin02 override val desiredName: String = "XSDiffTop" 351c33deca9Sklin02 val l_soc = LazyModule(new XSNoCTop()) 352c33deca9Sklin02 val soc = Module(l_soc.module) 353c33deca9Sklin02 354c33deca9Sklin02 // Expose XSTop IOs outside, i.e. io 355c33deca9Sklin02 def exposeIO(data: Data, name: String): Unit = { 356c33deca9Sklin02 val dummy = IO(chiselTypeOf(data)).suggestName(name) 357c33deca9Sklin02 dummy <> data 358c33deca9Sklin02 } 359c33deca9Sklin02 def exposeOptionIO(data: Option[Data], name: String): Unit = { 360c33deca9Sklin02 if (data.isDefined) { 361c33deca9Sklin02 val dummy = IO(chiselTypeOf(data.get)).suggestName(name) 362c33deca9Sklin02 dummy <> data.get 363c33deca9Sklin02 } 364c33deca9Sklin02 } 365c33deca9Sklin02 exposeIO(l_soc.clint, "clint") 366c33deca9Sklin02 exposeIO(l_soc.debug, "debug") 367c33deca9Sklin02 exposeIO(l_soc.plic, "plic") 368c33deca9Sklin02 exposeIO(l_soc.beu, "beu") 369c33deca9Sklin02 exposeIO(l_soc.nmi, "nmi") 370c33deca9Sklin02 soc.clock := clock 371c33deca9Sklin02 soc.reset := reset.asAsyncReset 372c33deca9Sklin02 exposeIO(soc.soc_clock, "soc_clock") 373c33deca9Sklin02 exposeIO(soc.soc_reset, "soc_reset") 374c33deca9Sklin02 exposeIO(soc.io, "io") 375c33deca9Sklin02 exposeOptionIO(soc.noc_clock, "noc_clock") 376c33deca9Sklin02 exposeOptionIO(soc.noc_reset, "noc_reset") 3777fbc1cb4STang Haojin exposeOptionIO(soc.imsic_axi4, "imsic_axi4") 3787fbc1cb4STang Haojin exposeOptionIO(soc.imsic_m_tl, "imsic_m_tl") 3797fbc1cb4STang Haojin exposeOptionIO(soc.imsic_s_tl, "imsic_s_tl") 3807fbc1cb4STang Haojin exposeOptionIO(soc.imsic, "imsic") 381c33deca9Sklin02 382c33deca9Sklin02 // TODO: 383c33deca9Sklin02 // XSDiffTop is only part of DUT, we can not instantiate difftest here. 384c33deca9Sklin02 // Temporarily we collect Performance counters for each DiffTop, need control signals passed from Difftest 385c33deca9Sklin02 val timer = IO(Input(UInt(64.W))) 386c33deca9Sklin02 val logEnable = IO(Input(Bool())) 387c33deca9Sklin02 val clean = IO(Input(Bool())) 388c33deca9Sklin02 val dump = IO(Input(Bool())) 389c33deca9Sklin02 XSLog.collect(timer, logEnable, clean, dump) 390c33deca9Sklin02 DifftestWiring.createAndConnectExtraIOs() 391c33deca9Sklin02 Profile.generateJson("XiangShan") 392c33deca9Sklin02 XSNoCDiffTopChecker() 393c33deca9Sklin02} 394c33deca9Sklin02 395c33deca9Sklin02// TODO: 396c33deca9Sklin02// Currently we use two-step XiangShan-Difftest, generating XS(with Diff Interface only) and Difftest seperately 397c33deca9Sklin02// To avoid potential interface problem between XS and Diff, we add Checker and CI(dual-core) 398c33deca9Sklin02// We will try one-step XS-Diff later 399c33deca9Sklin02object XSNoCDiffTopChecker { 400c33deca9Sklin02 def apply(): Unit = { 401c33deca9Sklin02 val verilog = 402c33deca9Sklin02 """ 403c33deca9Sklin02 |`define CONFIG_XSCORE_NR 2 404c33deca9Sklin02 |`include "gateway_interface.svh" 405c33deca9Sklin02 |module XSDiffTopChecker( 406c33deca9Sklin02 | input cpu_clk, 407c33deca9Sklin02 | input cpu_rstn, 408c33deca9Sklin02 | input sys_clk, 409c33deca9Sklin02 | input sys_rstn 410c33deca9Sklin02 |); 411c33deca9Sklin02 |wire [63:0] timer; 412c33deca9Sklin02 |wire logEnable; 413c33deca9Sklin02 |wire clean; 414c33deca9Sklin02 |wire dump; 415c33deca9Sklin02 |// FIXME: use siganls from Difftest rather than default value 416c33deca9Sklin02 |assign timer = 64'b0; 417c33deca9Sklin02 |assign logEnable = 1'b0; 418c33deca9Sklin02 |assign clean = 1'b0; 419c33deca9Sklin02 |assign dump = 1'b0; 420c33deca9Sklin02 |gateway_if gateway_if_i(); 421c33deca9Sklin02 |core_if core_if_o[`CONFIG_XSCORE_NR](); 422c33deca9Sklin02 |generate 423c33deca9Sklin02 | genvar i; 424c33deca9Sklin02 | for (i = 0; i < `CONFIG_XSCORE_NR; i = i+1) 425c33deca9Sklin02 | begin: u_CPU_TOP 426c33deca9Sklin02 | // FIXME: add missing ports 427c33deca9Sklin02 | XSDiffTop u_XSTop ( 428c33deca9Sklin02 | .clock (cpu_clk), 429c33deca9Sklin02 | .noc_clock (sys_clk), 430c33deca9Sklin02 | .soc_clock (sys_clk), 431c33deca9Sklin02 | .io_hartId (6'h0 + i), 432c33deca9Sklin02 | .timer (timer), 433c33deca9Sklin02 | .logEnable (logEnable), 434c33deca9Sklin02 | .clean (clean), 435c33deca9Sklin02 | .dump (dump), 436c33deca9Sklin02 | .gateway_out (core_if_o[i]) 437c33deca9Sklin02 | ); 438c33deca9Sklin02 | end 439c33deca9Sklin02 |endgenerate 440c33deca9Sklin02 | CoreToGateway u_CoreToGateway( 441c33deca9Sklin02 | .gateway_out (gateway_if_i.out), 442c33deca9Sklin02 | .core_in (core_if_o) 443c33deca9Sklin02 | ); 444c33deca9Sklin02 | GatewayEndpoint u_GatewayEndpoint( 445c33deca9Sklin02 | .clock (sys_clk), 446c33deca9Sklin02 | .reset (sys_rstn), 447c33deca9Sklin02 | .gateway_in (gateway_if_i.in), 448c33deca9Sklin02 | .step () 449c33deca9Sklin02 | ); 450c33deca9Sklin02 | 451c33deca9Sklin02 |endmodule 452c33deca9Sklin02 """.stripMargin 453c33deca9Sklin02 FileRegisters.writeOutputFile("./build", "XSDiffTopChecker.sv", verilog) 454c33deca9Sklin02 } 455c33deca9Sklin02} 456