tile: BaseTile refactor, pt 1

* Make dts generation reusable across tile subclasses * First attempt to standardize tile IO nodes and connect methods * hartid => hartId when talking about scala Ints
2017-12-20 17:18:38 -08:00 · 2017-12-20 17:18:38 -08:00 · 1cd018546c
commit 1cd018546c
parent ba6dd160a3
18 changed files with 210 additions and 189 deletions
--- a/src/main/scala/coreplex/Configs.scala
+++ b/src/main/scala/coreplex/Configs.scala
@ -45,7 +45,7 @@ class WithNBigCores(n: Int) extends Config((site, here, up) => {
      icache = Some(ICacheParams(
        rowBits = site(SystemBusKey).beatBits,
        blockBytes = site(CacheBlockBytes))))
-    List.tabulate(n)(i => big.copy(hartid = i))
+    List.tabulate(n)(i => big.copy(hartId = i))
  }
 })
@ -67,7 +67,7 @@ class WithNSmallCores(n: Int) extends Config((site, here, up) => {
        nWays = 1,
        nTLBEntries = 4,
        blockBytes = site(CacheBlockBytes))))
-    List.tabulate(n)(i => small.copy(hartid = i))
+    List.tabulate(n)(i => small.copy(hartId = i))
  }
 })
--- a/src/main/scala/coreplex/HasTiles.scala
+++ b/src/main/scala/coreplex/HasTiles.scala
@ -17,7 +17,7 @@ trait HasTiles extends HasSystemBus {
  val tiles: Seq[BaseTile]
  protected def tileParams: Seq[TileParams] = tiles.map(_.tileParams)
  def nTiles: Int = tileParams.size
-  def hartIdList: Seq[Int] = tileParams.map(_.hartid)
+  def hartIdList: Seq[Int] = tileParams.map(_.hartId)
  def localIntCounts: Seq[Int] = tileParams.map(_.core.nLocalInterrupts)
 }
--- a/src/main/scala/coreplex/RocketCoreplex.scala
+++ b/src/main/scala/coreplex/RocketCoreplex.scala
@ -110,22 +110,20 @@ trait HasRocketTiles extends HasTiles
    //       are decoded from rocket.intNode inside the tile.
    // 1. always async crossing for debug
-    wrapper.intXbar.intnode := wrapper { IntSyncCrossingSink(3) } := debug.intnode
+    wrapper.intInwardNode := wrapper { IntSyncCrossingSink(3) } := debug.intnode
    // 2. clint+plic conditionally crossing
-    val periphIntNode = wrapper.intXbar.intnode :=* wrapper.crossIntIn
+    val periphIntNode = wrapper.intInwardNode :=* wrapper.crossIntIn
    periphIntNode := clint.intnode                   // msip+mtip
    periphIntNode := plic.intnode                    // meip
    if (tp.core.useVM) periphIntNode := plic.intnode // seip
    // 3. local interrupts  never cross 
-    // this.localIntNode is wired up externally      // lip
+    // this.intInwardNode is wired up externally     // lip
    // 4. conditional crossing from core to PLIC
    wrapper.rocket.intOutputNode.foreach { i =>
    FlipRendering { implicit p =>
-        plic.intnode :=* wrapper.crossIntOut :=* i
+      plic.intnode :=* wrapper.crossIntOut :=* wrapper.intOutwardNode
      }
    }
    wrapper
--- a/src/main/scala/diplomacy/package.scala
+++ b/src/main/scala/diplomacy/package.scala
@ -31,6 +31,25 @@ package object diplomacy
    }
  }
  type PropertyOption = Option[(String, Seq[ResourceValue])]
  type PropertyMap = Iterable[(String, Seq[ResourceValue])]
  implicit class IntToProperty(x: Int) {
    def asProperty: Seq[ResourceValue] = Seq(ResourceInt(BigInt(x)))
  }
  implicit class BigIntToProperty(x: BigInt) {
    def asProperty: Seq[ResourceValue] = Seq(ResourceInt(x))
  }
  implicit class StringToProperty(x: String) {
    def asProperty: Seq[ResourceValue] = Seq(ResourceString(x))
  }
  implicit class DeviceToPeroperty(x: Device) {
    def asProperty: Seq[ResourceValue] = Seq(ResourceReference(x.label))
  }
  def EnableMonitors[T](body: Parameters => T)(implicit p: Parameters) = body(p.alterPartial {
    case MonitorsEnabled => true
  })
--- a/src/main/scala/groundtest/Tile.scala
+++ b/src/main/scala/groundtest/Tile.scala
@ -7,8 +7,10 @@ import Chisel._
 import freechips.rocketchip.config._
 import freechips.rocketchip.diplomacy._
 import freechips.rocketchip.coreplex._
 import freechips.rocketchip.interrupts._
 import freechips.rocketchip.rocket.{DCache, RocketCoreParams}
 import freechips.rocketchip.tile._
 import freechips.rocketchip.tilelink._
 import scala.collection.mutable.ListBuffer
 trait GroundTestTileParams extends TileParams {
@ -29,8 +31,10 @@ trait GroundTestTileParams extends TileParams {
 case object GroundTestTilesKey extends Field[Seq[GroundTestTileParams]]
 abstract class GroundTestTile(params: GroundTestTileParams)(implicit p: Parameters) extends BaseTile(params)(p) {
-  val slave = None
+  val intInwardNode: IntInwardNode = IntIdentityNode()
-  val localIntNode = None
+  val intOutwardNode: IntOutwardNode = IntIdentityNode()
  val slaveNode: TLInwardNode = TLIdentityNode()
  val dcacheOpt = params.dcache.map { dc => LazyModule(new DCache(0)) }
  override lazy val module = new GroundTestTileModule(this, () => new GroundTestTileBundle(this))
--- a/src/main/scala/groundtest/TraceGen.scala
+++ b/src/main/scala/groundtest/TraceGen.scala
@ -23,6 +23,7 @@ import Chisel._
 import freechips.rocketchip.config.{Field, Parameters}
 import freechips.rocketchip.rocket._
 import freechips.rocketchip.tile._
 import freechips.rocketchip.tilelink._
 import freechips.rocketchip.util._
 import scala.util.Random
@ -65,7 +66,7 @@ case class TraceGenParams(
    memStart: BigInt, //p(ExtMem).base
    numGens: Int) extends GroundTestTileParams {
  def build(i: Int, p: Parameters): GroundTestTile = new TraceGenTile(i, this)(p)
-  val hartid = 0
+  val hartId = 0
  val trace = false
  val blockerCtrlAddr = None
 }
@ -578,6 +579,7 @@ class TraceGenerator(val params: TraceGenParams)(implicit val p: Parameters) ext
 // =======================
 class TraceGenTile(val id: Int, val params: TraceGenParams)(implicit p: Parameters) extends GroundTestTile(params) {
  val masterNode: TLOutwardNode = dcacheOpt.map(_.node).getOrElse(TLIdentityNode())
  override lazy val module = new TraceGenTileModule(this)
 }
--- a/src/main/scala/rocket/Frontend.scala
+++ b/src/main/scala/rocket/Frontend.scala
@ -307,19 +307,19 @@ class FrontendModule(outer: Frontend) extends LazyModuleImp(outer)
 }
 /** Mix-ins for constructing tiles that have an ICache-based pipeline frontend */
-trait HasICacheFrontend extends CanHavePTW with HasTileLinkMasterPort {
+trait HasICacheFrontend extends CanHavePTW { this: BaseTile =>
  val module: HasICacheFrontendModule
-  val frontend = LazyModule(new Frontend(tileParams.icache.get, hartid: Int))
+  val frontend = LazyModule(new Frontend(tileParams.icache.get, hartId))
-  val hartid: Int
+  tlMasterXbar.node := frontend.masterNode
-  tileBus.node := frontend.masterNode
+  connectTLSlave(frontend.slaveNode, tileParams.core.fetchBytes)
  nPTWPorts += 1
 }
-trait HasICacheFrontendBundle extends HasTileLinkMasterPortBundle {
+trait HasICacheFrontendBundle {
  val outer: HasICacheFrontend
 }
-trait HasICacheFrontendModule extends CanHavePTWModule with HasTileLinkMasterPortModule {
+trait HasICacheFrontendModule extends CanHavePTWModule {
  val outer: HasICacheFrontend
  ptwPorts += outer.frontend.module.io.ptw
 }
--- a/src/main/scala/rocket/HellaCache.scala
+++ b/src/main/scala/rocket/HellaCache.scala
@ -194,25 +194,24 @@ class HellaCacheModule(outer: HellaCache) extends LazyModuleImp(outer)
 /** Mix-ins for constructing tiles that have a HellaCache */
-trait HasHellaCache extends HasTileLinkMasterPort with HasTileParameters {
+trait HasHellaCache extends HasTileParameters { this: BaseTile =>
  val module: HasHellaCacheModule
  implicit val p: Parameters
  def findScratchpadFromICache: Option[AddressSet]
  val hartid: Int
  var nDCachePorts = 0
  val dcache: HellaCache = LazyModule(
    if(tileParams.dcache.get.nMSHRs == 0) {
-      new DCache(hartid, findScratchpadFromICache _, p(RocketCrossingKey).head.knownRatio)
+      new DCache(hartId, findScratchpadFromICache _, p(RocketCrossingKey).head.knownRatio)
-    } else { new NonBlockingDCache(hartid) })
+    } else { new NonBlockingDCache(hartId) })
-  tileBus.node := dcache.node
+  tlMasterXbar.node := dcache.node
 }
-trait HasHellaCacheBundle extends HasTileLinkMasterPortBundle {
+trait HasHellaCacheBundle {
  val outer: HasHellaCache
 }
-trait HasHellaCacheModule extends HasTileLinkMasterPortModule {
+trait HasHellaCacheModule {
  val outer: HasHellaCache
  //val io: HasHellaCacheBundle
  val dcachePorts = ListBuffer[HellaCacheIO]()
--- a/src/main/scala/rocket/ICache.scala
+++ b/src/main/scala/rocket/ICache.scala
@ -45,11 +45,11 @@ class ICacheErrors(implicit p: Parameters) extends CoreBundle()(p)
  val uncorrectable = (cacheParams.itimAddr.nonEmpty && cacheParams.dataECC.canDetect).option(Valid(UInt(width = paddrBits)))
 }
-class ICache(val icacheParams: ICacheParams, val hartid: Int)(implicit p: Parameters) extends LazyModule {
+class ICache(val icacheParams: ICacheParams, val hartId: Int)(implicit p: Parameters) extends LazyModule {
  lazy val module = new ICacheModule(this)
  val masterNode = TLClientNode(Seq(TLClientPortParameters(Seq(TLClientParameters(
    sourceId = IdRange(0, 1 + icacheParams.prefetch.toInt), // 0=refill, 1=hint
-    name = s"Core ${hartid} ICache")))))
+    name = s"Core ${hartId} ICache")))))
  val size = icacheParams.nSets * icacheParams.nWays * icacheParams.blockBytes
  val device = new SimpleDevice("itim", Seq("sifive,itim0"))
@ -100,7 +100,7 @@ class ICacheBundle(outer: ICache) extends CoreBundle()(outer.p) {
 // get a tile-specific property without breaking deduplication
 object GetPropertyByHartId {
  def apply[T <: Data](tiles: Seq[RocketTileParams], f: RocketTileParams => Option[T], hartId: UInt): T = {
-    PriorityMux(tiles.collect { case t if f(t).isDefined => (t.hartid === hartId) -> f(t).get })
+    PriorityMux(tiles.collect { case t if f(t).isDefined => (t.hartId === hartId) -> f(t).get })
  }
 }
--- a/src/main/scala/rocket/PTW.scala
+++ b/src/main/scala/rocket/PTW.scala
@ -287,7 +287,7 @@ class PTW(n: Int)(implicit edge: TLEdgeOut, p: Parameters) extends CoreModule()(
 }
 /** Mix-ins for constructing tiles that might have a PTW */
-trait CanHavePTW extends HasHellaCache {
+trait CanHavePTW extends HasHellaCache { this: BaseTile =>
  implicit val p: Parameters
  val module: CanHavePTWModule
  var nPTWPorts = 1
--- a/src/main/scala/rocket/ScratchpadSlavePort.scala
+++ b/src/main/scala/rocket/ScratchpadSlavePort.scala
@ -6,7 +6,6 @@ import Chisel._
 import Chisel.ImplicitConversions._
 import freechips.rocketchip.config.Parameters
 import freechips.rocketchip.coreplex.{CacheBlockBytes, SystemBusKey}
 import freechips.rocketchip.devices.tilelink._
 import freechips.rocketchip.diplomacy._
 import freechips.rocketchip.tile._
@ -96,19 +95,22 @@ class ScratchpadSlavePort(address: AddressSet, coreDataBytes: Int, usingAtomics:
 }
 /** Mix-ins for constructing tiles that have optional scratchpads */
-trait CanHaveScratchpad extends HasHellaCache with HasICacheFrontend {
+trait CanHaveScratchpad extends HasHellaCache with HasICacheFrontend { this: BaseTile =>
  val module: CanHaveScratchpadModule
-  val cacheBlockBytes = p(CacheBlockBytes)
+
-  val masterPortBeatBytes = p(SystemBusKey).beatBytes
+  val intOutwardNode = IntIdentityNode()
  val slaveNode = TLIdentityNode()
  val masterNode = TLIdentityNode()
  val scratch = tileParams.dcache.flatMap { d => d.scratch.map(s =>
    LazyModule(new ScratchpadSlavePort(AddressSet(s, d.dataScratchpadBytes-1), xBytes, tileParams.core.useAtomics && !tileParams.core.useAtomicsOnlyForIO)))
  }
  scratch.foreach(lm => connectTLSlave(lm.node, xBytes))
  val intOutputNode = tileParams.core.tileControlAddr.map(dummy => IntIdentityNode())
  val busErrorUnit = tileParams.core.tileControlAddr map { a =>
    val beu = LazyModule(new BusErrorUnit(new L1BusErrors, BusErrorUnitParams(a)))
-    intOutputNode.get := beu.intNode
+    intOutwardNode := beu.intNode
    connectTLSlave(beu.node, xBytes)
    beu
  }
@ -117,27 +119,13 @@ trait CanHaveScratchpad extends HasHellaCache with HasICacheFrontend {
      .map(BasicBusBlockerParams(_, xBytes, masterPortBeatBytes, deadlock = true))
      .map(bp => LazyModule(new BasicBusBlocker(bp)))
-  masterNode := tile_master_blocker.map { _.node := tileBus.node } getOrElse { tileBus.node }
+  tile_master_blocker.foreach(lm => connectTLSlave(lm.controlNode, xBytes))
-  // connect any combination of ITIM, DTIM, and BusErrorUnit
+  // TODO: this doesn't block other masters, e.g. RoCCs
-  val slaveNode = TLIdentityNode()
+  tlOtherMastersNode := tile_master_blocker.map { _.node := tlMasterXbar.node } getOrElse { tlMasterXbar.node }
-  DisableMonitors { implicit p =>
+  masterNode :=* tlOtherMastersNode
-    val xbarPorts =
+  tlSlaveXbar.node :*= slaveNode 
      scratch.map(lm => (lm.node, xBytes)) ++
      busErrorUnit.map(lm => (lm.node, xBytes)) ++
      tileParams.icache.flatMap(icache => icache.itimAddr.map(a => (frontend.slaveNode, tileParams.core.fetchBytes))) ++
      tile_master_blocker.map( lm => (lm.controlNode, xBytes))
    if (xbarPorts.nonEmpty) {
      val xbar = LazyModule(new TLXbar)
      xbar.node := slaveNode
      xbarPorts.foreach { case (port, bytes) =>
        (Seq(port, TLFragmenter(bytes, cacheBlockBytes, earlyAck=EarlyAck.PutFulls))
          ++ (xBytes != bytes).option(TLWidthWidget(xBytes)))
          .foldRight(xbar.node:TLOutwardNode)(_ := _)
      }
    }
  }
  def findScratchpadFromICache: Option[AddressSet] = scratch.map { s =>
    val finalNode = frontend.masterNode.edges.out.head.manager.managers.find(_.nodePath.last == s.node)
@ -155,7 +143,6 @@ trait CanHaveScratchpadBundle extends HasHellaCacheBundle with HasICacheFrontend
 trait CanHaveScratchpadModule extends HasHellaCacheModule with HasICacheFrontendModule {
  val outer: CanHaveScratchpad
  val io: CanHaveScratchpadBundle
  outer.scratch.foreach { lm => dcachePorts += lm.module.io.dmem }
  outer.busErrorUnit.foreach { lm =>
--- a/src/main/scala/tile/BaseTile.scala
+++ b/src/main/scala/tile/BaseTile.scala
@ -5,6 +5,7 @@ package freechips.rocketchip.tile
 import Chisel._
 import freechips.rocketchip.config._
 import freechips.rocketchip.coreplex.{CacheBlockBytes, SystemBusKey}
 import freechips.rocketchip.diplomacy._
 import freechips.rocketchip.interrupts._
 import freechips.rocketchip.rocket._
@ -23,7 +24,7 @@ trait TileParams {
  val rocc: Seq[RoCCParams]
  val btb: Option[BTBParams]
  val trace: Boolean
-  val hartid: Int
+  val hartId: Int
  val blockerCtrlAddr: Option[BigInt]
 }
@ -63,10 +64,61 @@ trait HasTileParameters {
  def vaddrBitsExtended: Int = vpnBitsExtended + pgIdxBits
  def maxPAddrBits: Int = xLen match { case 32 => 34; case 64 => 56 }
  def hartId: Int = tileParams.hartId
  def hartIdLen: Int = p(MaxHartIdBits)
  def resetVectorLen: Int = paddrBits
  def cacheBlockBytes = p(CacheBlockBytes)
  def lgCacheBlockBytes = log2Up(cacheBlockBytes)
  def masterPortBeatBytes = p(SystemBusKey).beatBytes
  def dcacheArbPorts = 1 + usingVM.toInt + usingDataScratchpad.toInt + tileParams.rocc.size
  // TODO merge with isaString in CSR.scala
  def isaDTS: String = {
    val m = if (tileParams.core.mulDiv.nonEmpty) "m" else ""
    val a = if (tileParams.core.useAtomics) "a" else ""
    val f = if (tileParams.core.fpu.nonEmpty) "f" else ""
    val d = if (tileParams.core.fpu.nonEmpty && p(XLen) > 32) "d" else ""
    val c = if (tileParams.core.useCompressed) "c" else ""
    s"rv${p(XLen)}i$m$a$f$d$c"
  }
  def tileProperties: PropertyMap = {
    val dcache = tileParams.dcache.filter(!_.scratch.isDefined).map(d => Map(
      "d-cache-block-size"   -> cacheBlockBytes.asProperty,
      "d-cache-sets"         -> d.nSets.asProperty,
      "d-cache-size"         -> (d.nSets * d.nWays * cacheBlockBytes).asProperty)
    ).getOrElse(Nil)
    val incoherent = if (!tileParams.core.useAtomicsOnlyForIO) Nil else Map(
      "sifive,d-cache-incoherent" -> Nil)
    val icache = tileParams.icache.map(i => Map(
      "i-cache-block-size"   -> cacheBlockBytes.asProperty,
      "i-cache-sets"         -> i.nSets.asProperty,
      "i-cache-size"         -> (i.nSets * i.nWays * cacheBlockBytes).asProperty)
    ).getOrElse(Nil)
    val dtlb = tileParams.dcache.filter(_ => tileParams.core.useVM).map(d => Map(
      "d-tlb-size"           -> d.nTLBEntries.asProperty,
      "d-tlb-sets"           -> 1.asProperty)).getOrElse(Nil)
    val itlb = tileParams.icache.filter(_ => tileParams.core.useVM).map(i => Map(
      "i-tlb-size"           -> i.nTLBEntries.asProperty,
      "i-tlb-sets"           -> 1.asProperty)).getOrElse(Nil)
    val mmu = if (!tileParams.core.useVM) Nil else Map(
        "tlb-split" -> Nil,
        "mmu-type"  -> (p(PgLevels) match {
          case 2 => "riscv,sv32"
          case 3 => "riscv,sv39"
          case 4 => "riscv,sv48"
        }).asProperty)
    dcache ++ icache ++ dtlb ++ itlb ++ mmu ++ incoherent
  }
 }
 abstract class BareTile(implicit p: Parameters) extends LazyModule
@ -81,23 +133,6 @@ abstract class BareTileModule[+L <: BareTile, +B <: BareTileBundle[L]](_outer: L
  val io = IO(_io ())
 }
 /** Uses TileLink master port to connect caches and accelerators to the coreplex */
 trait HasTileLinkMasterPort {
  implicit val p: Parameters
  val module: HasTileLinkMasterPortModule
  val masterNode = TLIdentityNode()
  val tileBus = LazyModule(new TLXbar) // TileBus xbar for cache backends to connect to
 }
 trait HasTileLinkMasterPortBundle {
  val outer: HasTileLinkMasterPort
 }
 trait HasTileLinkMasterPortModule {
  val outer: HasTileLinkMasterPort
  val io: HasTileLinkMasterPortBundle
 }
 /** Some other standard inputs */
 trait HasExternallyDrivenTileConstants extends Bundle with HasTileParameters {
  val hartid = UInt(INPUT, hartIdLen)
@ -112,7 +147,48 @@ trait CanHaveInstructionTracePort extends Bundle with HasTileParameters {
 abstract class BaseTile(tileParams: TileParams)(implicit p: Parameters) extends BareTile
    with HasTileParameters {
  def module: BaseTileModule[BaseTile, BaseTileBundle[BaseTile]]
-  val localIntNode: Option[IntInwardNode]
+  def masterNode: TLOutwardNode
  def slaveNode: TLInwardNode
  def intInwardNode: IntInwardNode
  def intOutwardNode: IntOutwardNode
  protected val tlOtherMastersNode = TLIdentityNode()
  protected val tlMasterXbar = LazyModule(new TLXbar)
  protected val tlSlaveXbar = LazyModule(new TLXbar)
  protected val intXbar = LazyModule(new IntXbar)
  def connectTLSlave(node: TLNode, bytes: Int) {
    DisableMonitors { implicit p =>
      (Seq(node, TLFragmenter(bytes, cacheBlockBytes, earlyAck=EarlyAck.PutFulls))
        ++ (xBytes != bytes).option(TLWidthWidget(xBytes)))
        .foldRight(tlSlaveXbar.node:TLOutwardNode)(_ :*= _)
    }
  }
  // Find resource labels for all the outward caches
  def nextLevelCacheProperty: PropertyOption = {
    val outer = tlMasterXbar.node.edges.out
      .flatMap(_.manager.managers)
      .filter(_.supportsAcquireB)
      .flatMap(_.resources.headOption)
      .map(_.owner.label)
      .distinct
    if (outer.isEmpty) None
    else Some("next-level-cache" -> outer.map(l => ResourceReference(l)).toList)
  }
  def toDescription(resources: ResourceBindings)(compat: String, extraProperties: PropertyMap = Nil): Description = {
    val cpuProperties: PropertyMap = Map(
        "reg"                  -> resources("reg").map(_.value),
        "device_type"          -> "cpu".asProperty,
        "compatible"           -> Seq(ResourceString(compat), ResourceString("riscv")),
        "status"               -> "okay".asProperty,
        "clock-frequency"      -> tileParams.core.bootFreqHz.asProperty,
        "riscv,isa"            -> isaDTS.asProperty,
        "timebase-frequency"   -> p(DTSTimebase).asProperty)
    Description(s"cpus/cpu@${hartId}", (cpuProperties ++ nextLevelCacheProperty ++ tileProperties ++ extraProperties).toMap)
  }
 }
 abstract class BaseTileBundle[+L <: BaseTile](_outer: L) extends BareTileBundle(_outer)
@ -126,4 +202,5 @@ class BaseTileModule[+L <: BaseTile, +B <: BaseTileBundle[L]](_outer: L, _io: ()
  require(paddrBits <= maxPAddrBits)
  require(resetVectorLen <= xLen)
  require(resetVectorLen <= vaddrBitsExtended)
  require (log2Up(hartId + 1) <= hartIdLen, s"p(MaxHartIdBits) of $hartIdLen is not enough for hartid $hartId")
 }
--- a/src/main/scala/tile/Core.scala
+++ b/src/main/scala/tile/Core.scala
@ -13,6 +13,7 @@ case object XLen extends Field[Int]
 // These parameters can be varied per-core
 trait CoreParams {
  val bootFreqHz: BigInt
  val useVM: Boolean
  val useUser: Boolean
  val useDebug: Boolean
--- a/src/main/scala/tile/Interrupts.scala
+++ b/src/main/scala/tile/Interrupts.scala
@ -5,6 +5,7 @@ package freechips.rocketchip.tile
 import Chisel._
 import freechips.rocketchip.config.Parameters
 import freechips.rocketchip.diplomacy._
 import freechips.rocketchip.interrupts._
 import freechips.rocketchip.util._
@ -22,8 +23,30 @@ trait HasExternalInterrupts extends HasTileParameters {
  implicit val p: Parameters
  val module: HasExternalInterruptsModule
-  val intNode = IntSinkNode(IntSinkPortSimple())
+  val intInwardNode = IntSinkNode(IntSinkPortSimple())
-  val localIntNode: Option[IntInwardNode] = None
+
  val intcDevice = new Device {
    def describe(resources: ResourceBindings): Description = {
      Description(s"cpus/cpu@$hartId/interrupt-controller", Map(
        "compatible"           -> "riscv,cpu-intc".asProperty,
        "interrupt-controller" -> Nil,
        "#interrupt-cells"     -> 1.asProperty))
    }
  }
  ResourceBinding {
    Resource(intcDevice, "reg").bind(ResourceInt(BigInt(hartId)))
    intInwardNode.edges.in.flatMap(_.source.sources).map { case s =>
      for (i <- s.range.start until s.range.end) {
       csrIntMap.lift(i).foreach { j =>
          s.resources.foreach { r =>
            r.bind(intcDevice, ResourceInt(j))
          }
        }
      }
    }
  }
  // TODO: the order of the following two functions must match, and
  //         also match the order which things are connected to the
@ -35,6 +58,7 @@ trait HasExternalInterrupts extends HasTileParameters {
    val seip = if (usingVM) Seq(9) else Nil
    List(65535, 3, 7, 11) ++ seip ++ List.tabulate(nlips)(_ + 16)
  }
 }
 trait HasExternalInterruptsBundle {
@ -43,7 +67,6 @@ trait HasExternalInterruptsBundle {
 trait HasExternalInterruptsModule {
  val outer: HasExternalInterrupts
  val io: HasExternalInterruptsBundle
  // go from flat diplomatic Interrupts to bundled TileInterrupts
  def decodeCoreInterrupts(core: TileInterrupts) {
@ -57,7 +80,7 @@ trait HasExternalInterruptsModule {
    val core_ips = core.lip
-    val (interrupts, _) = outer.intNode.in(0)
+    val (interrupts, _) = outer.intInwardNode.in(0)
    (async_ips ++ periph_ips ++ seip ++ core_ips).zip(interrupts).foreach { case(c, i) => c := i }
  }
 }
--- a/src/main/scala/tile/L1Cache.scala
+++ b/src/main/scala/tile/L1Cache.scala
@ -14,16 +14,13 @@ trait L1CacheParams {
  def nWays:         Int
  def rowBits:       Int
  def nTLBEntries:   Int
-  def blockBytes:    Int
+  def blockBytes:    Int // TODO this is ignored in favor of p(CacheBlockBytes) in BaseTile
 }
-trait HasL1CacheParameters {
+trait HasL1CacheParameters extends HasTileParameters {
  implicit val p: Parameters
  val cacheParams: L1CacheParams
  private val bundleParams = p(SharedMemoryTLEdge).bundle
  def cacheBlockBytes = cacheParams.blockBytes
  def lgCacheBlockBytes = log2Up(cacheBlockBytes)
  def nSets = cacheParams.nSets
  def blockOffBits = lgCacheBlockBytes
  def idxBits = log2Up(cacheParams.nSets)
--- a/src/main/scala/tile/LazyRoCC.scala
+++ b/src/main/scala/tile/LazyRoCC.scala
@ -77,7 +77,7 @@ class LazyRoCCModule(outer: LazyRoCC) extends LazyModuleImp(outer) {
 /** Mixins for including RoCC **/
-trait HasLazyRoCC extends CanHaveSharedFPU with CanHavePTW with HasTileLinkMasterPort {
+trait HasLazyRoCC extends CanHaveSharedFPU with CanHavePTW { this: BaseTile =>
  implicit val p: Parameters
  val module: HasLazyRoCCModule
@ -86,8 +86,8 @@ trait HasLazyRoCC extends CanHaveSharedFPU with CanHavePTW with HasTileLinkMaste
      case RoccNPTWPorts => accelParams.nPTWPorts
  }))}
-  roccs.map(_.atlNode).foreach { atl => tileBus.node :=* atl }
+  roccs.map(_.atlNode).foreach { atl => tlMasterXbar.node :=* atl }
-  roccs.map(_.tlNode).foreach { tl => masterNode :=* tl }
+  roccs.map(_.tlNode).foreach { tl => tlOtherMastersNode :=* tl }
  nPTWPorts += p(BuildRoCC).map(_.nPTWPorts).foldLeft(0)(_ + _)
  nDCachePorts += roccs.size
@ -95,8 +95,7 @@ trait HasLazyRoCC extends CanHaveSharedFPU with CanHavePTW with HasTileLinkMaste
 trait HasLazyRoCCModule extends CanHaveSharedFPUModule
  with CanHavePTWModule
-  with HasCoreParameters
+  with HasCoreParameters {
  with HasTileLinkMasterPortModule {
  val outer: HasLazyRoCC
  val roccCore = Wire(new RoCCCoreIO()(outer.p))
--- a/src/main/scala/tile/RocketTile.scala
+++ b/src/main/scala/tile/RocketTile.scala
@ -22,7 +22,7 @@ case class RocketTileParams(
    trace: Boolean = false,
    hcfOnUncorrectable: Boolean = false,
    name: Option[String] = Some("tile"),
-    hartid: Int = 0,
+    hartId: Int = 0,
    blockerCtrlAddr: Option[BigInt] = None,
    boundaryBuffers: Boolean = false // if synthesized with hierarchical PnR, cut feed-throughs?
    ) extends TileParams {
@ -30,117 +30,32 @@ case class RocketTileParams(
  require(dcache.isDefined)
 }
-abstract class HartedTile(tileParams: TileParams, val hartid: Int)(implicit p: Parameters) extends BaseTile(tileParams)(p) {
+class RocketTile(val rocketParams: RocketTileParams)(implicit p: Parameters) extends BaseTile(rocketParams)(p)
  require (log2Up(hartid + 1) <= p(MaxHartIdBits), s"p(MaxHartIdBits) of ${p(MaxHartIdBits)} is not enough for hartid ${hartid}")
 }
 class RocketTile(val rocketParams: RocketTileParams)(implicit p: Parameters) extends HartedTile(rocketParams, rocketParams.hartid)(p)
    with HasExternalInterrupts
    with HasLazyRoCC  // implies CanHaveSharedFPU with CanHavePTW with HasHellaCache
    with CanHaveScratchpad { // implies CanHavePTW with HasHellaCache with HasICacheFrontend
  nDCachePorts += 1 // core TODO dcachePorts += () => module.core.io.dmem ??
-  private def ofInt(x: Int) = Seq(ResourceInt(BigInt(x)))
+  val dtimProperty = scratch.map(d => Map(
-  private def ofStr(x: String) = Seq(ResourceString(x))
+    "sifive,dtim" -> d.device.asProperty)).getOrElse(Nil)
-  private def ofRef(x: Device) = Seq(ResourceReference(x.label))
+
  val itimProperty = tileParams.icache.flatMap(_.itimAddr.map(i => Map(
    "sifive,itim" -> frontend.icache.device.asProperty))).getOrElse(Nil)
  val cpuDevice = new Device {
-    def describe(resources: ResourceBindings): Description = {
+    def describe(resources: ResourceBindings): Description =
-      val block =  p(CacheBlockBytes)
+      toDescription(resources)("sifive,rocket0", dtimProperty ++ itimProperty)
      val m = if (rocketParams.core.mulDiv.nonEmpty) "m" else ""
      val a = if (rocketParams.core.useAtomics) "a" else ""
      val f = if (rocketParams.core.fpu.nonEmpty) "f" else ""
      val d = if (rocketParams.core.fpu.nonEmpty && p(XLen) > 32) "d" else ""
      val c = if (rocketParams.core.useCompressed) "c" else ""
      val isa = s"rv${p(XLen)}i$m$a$f$d$c"
      val dcache = rocketParams.dcache.filter(!_.scratch.isDefined).map(d => Map(
        "d-cache-block-size"   -> ofInt(block),
        "d-cache-sets"         -> ofInt(d.nSets),
        "d-cache-size"         -> ofInt(d.nSets * d.nWays * block))).getOrElse(Map())
      val dtim = scratch.map(d => Map(
        "sifive,dtim"          -> ofRef(d.device))).getOrElse(Map())
      val itim = if (frontend.icache.slaveNode.edges.in.isEmpty) Map() else Map(
        "sifive,itim"          -> ofRef(frontend.icache.device))
      val incoherent = if (!rocketParams.core.useAtomicsOnlyForIO) Map() else Map(
        "sifive,d-cache-incoherent" -> Nil)
      val icache = rocketParams.icache.map(i => Map(
        "i-cache-block-size"   -> ofInt(block),
        "i-cache-sets"         -> ofInt(i.nSets),
        "i-cache-size"         -> ofInt(i.nSets * i.nWays * block))).getOrElse(Map())
      val dtlb = rocketParams.dcache.filter(_ => rocketParams.core.useVM).map(d => Map(
        "d-tlb-size"           -> ofInt(d.nTLBEntries),
        "d-tlb-sets"           -> ofInt(1))).getOrElse(Map())
      val itlb = rocketParams.icache.filter(_ => rocketParams.core.useVM).map(i => Map(
        "i-tlb-size"           -> ofInt(i.nTLBEntries),
        "i-tlb-sets"           -> ofInt(1))).getOrElse(Map())
      val mmu = if (!rocketParams.core.useVM) Map() else Map(
        "tlb-split" -> Nil,
        "mmu-type"  -> ofStr(p(PgLevels) match {
          case 2 => "riscv,sv32"
          case 3 => "riscv,sv39"
          case 4 => "riscv,sv48"
      }))
      // Find all the caches
      val outer = masterNode.edges.out
        .flatMap(_.manager.managers)
        .filter(_.supportsAcquireB)
        .flatMap(_.resources.headOption)
        .map(_.owner.label)
        .distinct
      val nextlevel: Option[(String, Seq[ResourceValue])] =
        if (outer.isEmpty) None else
        Some("next-level-cache" -> outer.map(l => ResourceReference(l)).toList)
      Description(s"cpus/cpu@${hartid}", Map(
        "reg"                  -> resources("reg").map(_.value),
        "device_type"          -> ofStr("cpu"),
        "compatible"           -> Seq(ResourceString("sifive,rocket0"), ResourceString("riscv")),
        "status"               -> ofStr("okay"),
        "clock-frequency"      -> Seq(ResourceInt(rocketParams.core.bootFreqHz)),
        "riscv,isa"            -> ofStr(isa),
        "timebase-frequency"   -> Seq(ResourceInt(p(DTSTimebase)))) ++ dcache ++ icache ++ nextlevel ++ mmu ++ itlb ++ dtlb ++ dtim ++ itim ++ incoherent)
    }
  }
  val intcDevice = new Device {
    def describe(resources: ResourceBindings): Description = {
      Description(s"cpus/cpu@${hartid}/interrupt-controller", Map(
        "compatible"           -> ofStr("riscv,cpu-intc"),
        "interrupt-controller" -> Nil,
        "#interrupt-cells"     -> ofInt(1)))
    }
  }
  ResourceBinding {
-    Resource(cpuDevice, "reg").bind(ResourceInt(BigInt(hartid)))
+    Resource(cpuDevice, "reg").bind(ResourceInt(BigInt(hartId)))
    Resource(intcDevice, "reg").bind(ResourceInt(BigInt(hartid)))
    intNode.edges.in.flatMap(_.source.sources).map { case s =>
      for (i <- s.range.start until s.range.end) {
       csrIntMap.lift(i).foreach { j =>
          s.resources.foreach { r =>
            r.bind(intcDevice, ResourceInt(j))
          }
        }
      }
    }
  }
  override lazy val module = new RocketTileModule(this)
 }
 class RocketTileBundle(outer: RocketTile) extends BaseTileBundle(outer)
    with HasExternalInterruptsBundle
    with CanHaveScratchpadBundle
    with CanHaltAndCatchFire {
  val halt_and_catch_fire = outer.rocketParams.hcfOnUncorrectable.option(Bool(OUTPUT))
 }
@ -203,7 +118,7 @@ class RocketTileWrapper(
  // The buffers needed to cut feed-through paths are microarchitecture specific, so belong here
  val masterBuffer = LazyModule(new TLBuffer(BufferParams.none, BufferParams.flow, BufferParams.none, BufferParams.flow, BufferParams(1)))
-  val masterNode: TLOutwardNode = crossing match {
+  val masterNode = crossing match {
    case _: AsynchronousCrossing => rocket.masterNode
    case SynchronousCrossing(b) =>
      require (!params.boundaryBuffers || (b.depth >= 1 && !b.flow && !b.pipe), "Buffer misconfiguration creates feed-through paths")
@ -229,9 +144,9 @@ class RocketTileWrapper(
      }
  }
-  val intXbar = LazyModule(new IntXbar)
+  rocket.intInwardNode := intXbar.intnode
-  val localIntNode = Some(intXbar.intnode)
+  val intInwardNode = intXbar.intnode
-  rocket.intNode := intXbar.intnode
+  val intOutwardNode = rocket.intOutwardNode
  override lazy val module = new BaseTileModule(this, () => new RocketTileWrapperBundle(this)) {
    // signals that do not change based on crossing type:
--- a/src/main/scala/tilelink/SRAM.scala
+++ b/src/main/scala/tilelink/SRAM.scala
@ -20,7 +20,7 @@ class TLRAM(
  val node = TLManagerNode(Seq(TLManagerPortParameters(
    Seq(TLManagerParameters(
      address            = List(address) ++ errors,
-      resources          = resources,
+      resources          = device.reg("mem"),
      regionType         = if (cacheable) RegionType.UNCACHED else RegionType.UNCACHEABLE,
      executable         = executable,
      supportsGet        = TransferSizes(1, beatBytes),