// See LICENSE.SiFive for license details. package uncore.tilelink2 import Chisel._ import config._ import diplomacy._ import regmapper._ import scala.math.{min,max} class TLRegisterNode( address: AddressSet, device: Device, deviceKey: String = "reg", concurrency: Int = 0, beatBytes: Int = 4, undefZero: Boolean = true, executable: Boolean = false) extends TLManagerNode(Seq(TLManagerPortParameters( Seq(TLManagerParameters( address = Seq(address), resources = Seq(Resource(device, deviceKey)), executable = executable, supportsGet = TransferSizes(1, beatBytes), supportsPutPartial = TransferSizes(1, beatBytes), supportsPutFull = TransferSizes(1, beatBytes), fifoId = Some(0))), // requests are handled in order beatBytes = beatBytes, minLatency = min(concurrency, 1)))) // the Queue adds at most one cycle { require (address.contiguous) // Calling this method causes the matching TL2 bundle to be // configured to route all requests to the listed RegFields. def regmap(mapping: RegField.Map*) = { val a = bundleIn(0).a val d = bundleIn(0).d val edge = edgesIn(0) // Please forgive me ... val baseEnd = 0 val (sizeEnd, sizeOff) = (edge.bundle.sizeBits + baseEnd, baseEnd) val (sourceEnd, sourceOff) = (edge.bundle.sourceBits + sizeEnd, sizeEnd) val (addrLoEnd, addrLoOff) = (log2Up(beatBytes) + sourceEnd, sourceEnd) val params = RegMapperParams(log2Up((address.mask+1)/beatBytes), beatBytes, addrLoEnd) val in = Wire(Decoupled(new RegMapperInput(params))) in.bits.read := a.bits.opcode === TLMessages.Get in.bits.index := edge.addr_hi(a.bits) in.bits.data := a.bits.data in.bits.mask := a.bits.mask in.bits.extra := Cat(edge.addr_lo(a.bits), a.bits.source, a.bits.size) // Invoke the register map builder val out = RegMapper(beatBytes, concurrency, undefZero, in, mapping:_*) // No flow control needed in.valid := a.valid a.ready := in.ready d.valid := out.valid out.ready := d.ready // We must restore the size and addr_lo to enable width adapters to work d.bits := edge.AccessAck( fromAddress = out.bits.extra(addrLoEnd-1, addrLoOff), fromSink = UInt(0), // our unique sink id toSource = out.bits.extra(sourceEnd-1, sourceOff), lgSize = out.bits.extra(sizeEnd-1, sizeOff)) // avoid a Mux on the data bus by manually overriding two fields d.bits.data := out.bits.data d.bits.opcode := Mux(out.bits.read, TLMessages.AccessAckData, TLMessages.AccessAck) // Tie off unused channels bundleIn(0).b.valid := Bool(false) bundleIn(0).c.ready := Bool(true) bundleIn(0).e.ready := Bool(true) } } object TLRegisterNode { def apply( address: AddressSet, device: Device, deviceKey: String = "reg", concurrency: Int = 0, beatBytes: Int = 4, undefZero: Boolean = true, executable: Boolean = false) = new TLRegisterNode(address, device, deviceKey, concurrency, beatBytes, undefZero, executable) } // These convenience methods below combine to make it possible to create a TL2 // register mapped device from a totally abstract register mapped device. // See GPIO.scala in this directory for an example abstract class TLRegisterRouterBase(devname: String, devcompat: Seq[String], val address: AddressSet, interrupts: Int, concurrency: Int, beatBytes: Int, undefZero: Boolean, executable: Boolean)(implicit p: Parameters) extends LazyModule { val device = new SimpleDevice(devname, devcompat) val node = TLRegisterNode(address, device, "reg", concurrency, beatBytes, undefZero, executable) val intnode = IntSourceNode(interrupts, Seq(Resource(device, "int"))) } case class TLRegBundleArg(interrupts: util.HeterogeneousBag[Vec[Bool]], in: util.HeterogeneousBag[TLBundle])(implicit val p: Parameters) class TLRegBundleBase(arg: TLRegBundleArg) extends Bundle { implicit val p = arg.p val interrupts = arg.interrupts val in = arg.in } class TLRegBundle[P](val params: P, arg: TLRegBundleArg)(implicit p: Parameters) extends TLRegBundleBase(arg) class TLRegModule[P, B <: TLRegBundleBase](val params: P, bundleBuilder: => B, router: TLRegisterRouterBase) extends LazyModuleImp(router) with HasRegMap { val io = bundleBuilder val interrupts = if (io.interrupts.isEmpty) Vec(0, Bool()) else io.interrupts(0) val address = router.address def regmap(mapping: RegField.Map*) = router.node.regmap(mapping:_*) } class TLRegisterRouter[B <: TLRegBundleBase, M <: LazyModuleImp]( val base: BigInt, val devname: String, val devcompat: Seq[String], val interrupts: Int = 0, val size: BigInt = 4096, val concurrency: Int = 0, val beatBytes: Int = 4, val undefZero: Boolean = true, val executable: Boolean = false) (bundleBuilder: TLRegBundleArg => B) (moduleBuilder: (=> B, TLRegisterRouterBase) => M)(implicit p: Parameters) extends TLRegisterRouterBase(devname, devcompat, AddressSet(base, size-1), interrupts, concurrency, beatBytes, undefZero, executable) { require (isPow2(size)) // require (size >= 4096) ... not absolutely required, but highly recommended lazy val module = moduleBuilder(bundleBuilder(TLRegBundleArg(intnode.bundleOut, node.bundleIn)), this) }