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rocket-chip/src/main/scala/network.scala

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package rocketchip
import Chisel._
import uncore._
import scala.reflect._
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import scala.reflect.runtime.universe._
object TileLinkHeaderOverwriter {
def apply[T <: ClientSourcedMessage](in: DecoupledIO[LogicalNetworkIO[T]], clientId: Int, passThrough: Boolean): DecoupledIO[LogicalNetworkIO[T]] = {
val out = in.clone.asDirectionless
out.bits.payload := in.bits.payload
out.bits.header.src := UInt(clientId)
out.bits.header.dst := (if(passThrough) in.bits.header.dst else UInt(0))
out.valid := in.valid
in.ready := out.ready
out
}
def apply[T <: ClientSourcedMessage with HasPhysicalAddress](in: DecoupledIO[LogicalNetworkIO[T]], clientId: Int, nBanks: Int, addrConvert: UInt => UInt): DecoupledIO[LogicalNetworkIO[T]] = {
val out: DecoupledIO[LogicalNetworkIO[T]] = apply(in, clientId, false)
out.bits.header.dst := (if(nBanks > 1) addrConvert(in.bits.payload.addr) else UInt(0))
out
}
}
class RocketChipCrossbarNetwork extends LogicalNetwork {
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val io = new Bundle {
val clients = Vec.fill(params(LNClients)){(new TileLinkIO).flip}
val masters = Vec.fill(params(LNMasters)){new TileLinkIO}
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}
val n = params(LNEndpoints)
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// Actually instantiate the particular networks required for TileLink
val acqNet = Module(new BasicCrossbar(n, new Acquire))
val relNet = Module(new BasicCrossbar(n, new Release))
val prbNet = Module(new BasicCrossbar(n, new Probe))
val gntNet = Module(new BasicCrossbar(n, new Grant))
val ackNet = Module(new BasicCrossbar(n, new Finish))
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// Aliases for the various network IO bundle types
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type FBCIO[T <: Data] = DecoupledIO[PhysicalNetworkIO[T]]
type FLNIO[T <: Data] = DecoupledIO[LogicalNetworkIO[T]]
type FromCrossbar[T <: Data] = FBCIO[T] => FLNIO[T]
type ToCrossbar[T <: Data] = FLNIO[T] => FBCIO[T]
// Shims for converting between logical network IOs and physical network IOs
//TODO: Could be less verbose if you could override subbundles after a <>
def DefaultFromCrossbarShim[T <: Data](in: FBCIO[T]): FLNIO[T] = {
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val out = Decoupled(new LogicalNetworkIO(in.bits.payload)).asDirectionless
out.bits.header := in.bits.header
out.bits.payload := in.bits.payload
out.valid := in.valid
in.ready := out.ready
out
}
def CrossbarToMasterShim[T <: Data](in: FBCIO[T]): FLNIO[T] = {
val out = DefaultFromCrossbarShim(in)
out.bits.header.src := in.bits.header.src - UInt(params(LNMasters))
out
}
def CrossbarToClientShim[T <: Data](in: FBCIO[T]): FLNIO[T] = {
val out = DefaultFromCrossbarShim(in)
out.bits.header.dst := in.bits.header.dst - UInt(params(LNMasters))
out
}
def DefaultToCrossbarShim[T <: Data](in: FLNIO[T]): FBCIO[T] = {
val out = Decoupled(new PhysicalNetworkIO(n,in.bits.payload)).asDirectionless
out.bits.header := in.bits.header
out.bits.payload := in.bits.payload
out.valid := in.valid
in.ready := out.ready
out
}
def MasterToCrossbarShim[T <: Data](in: FLNIO[T]): FBCIO[T] = {
val out = DefaultToCrossbarShim(in)
out.bits.header.dst := in.bits.header.dst + UInt(params(LNMasters))
out
}
def ClientToCrossbarShim[T <: Data](in: FLNIO[T]): FBCIO[T] = {
val out = DefaultToCrossbarShim(in)
out.bits.header.src := in.bits.header.src + UInt(params(LNMasters))
out
}
// Make an individual connection between virtual and physical ports using
// a particular shim. Also seal the unused FIFO control signal.
def doFIFOInputHookup[T <: Data](phys_in: FBCIO[T], phys_out: FBCIO[T], log_io: FLNIO[T], shim: ToCrossbar[T]) = {
val s = shim(log_io)
phys_in.valid := s.valid
phys_in.bits := s.bits
s.ready := phys_in.ready
phys_out.ready := Bool(false)
}
def doFIFOOutputHookup[T <: Data](phys_in: FBCIO[T], phys_out: FBCIO[T], log_io: FLNIO[T], shim: FromCrossbar[T]) = {
val s = shim(phys_out)
log_io.valid := s.valid
log_io.bits := s.bits
s.ready := log_io.ready
phys_in.valid := Bool(false)
}
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def doFIFOHookup[T <: Data](isEndpointSourceOfMessage: Boolean, physIn: FBCIO[T], physOut: FBCIO[T], logIO: FLNIO[T], inShim: ToCrossbar[T], outShim: FromCrossbar[T]) = {
if(isEndpointSourceOfMessage) doFIFOInputHookup(physIn, physOut, logIO, inShim)
else doFIFOOutputHookup(physIn, physOut, logIO, outShim)
}
//Hookup all instances of a particular subbundle of TileLink
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def doFIFOHookups[T <: Data: TypeTag](physIO: BasicCrossbarIO[T], getLogIO: TileLinkIO => FLNIO[T]) = {
typeTag[T].tpe match{
case t if t <:< typeTag[ClientSourcedMessage].tpe => {
io.masters.zipWithIndex.map{ case (i, id) => doFIFOHookup[T](false, physIO.in(id), physIO.out(id), getLogIO(i), ClientToCrossbarShim, CrossbarToMasterShim) }
io.clients.zipWithIndex.map{ case (i, id) => doFIFOHookup[T](true, physIO.in(id+params(LNMasters)), physIO.out(id+params(LNMasters)), getLogIO(i), ClientToCrossbarShim, CrossbarToMasterShim) }
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}
case t if t <:< typeTag[MasterSourcedMessage].tpe => {
io.masters.zipWithIndex.map{ case (i, id) => doFIFOHookup[T](true, physIO.in(id), physIO.out(id), getLogIO(i), MasterToCrossbarShim, CrossbarToClientShim) }
io.clients.zipWithIndex.map{ case (i, id) => doFIFOHookup[T](false, physIO.in(id+params(LNMasters)), physIO.out(id+params(LNMasters)), getLogIO(i), MasterToCrossbarShim, CrossbarToClientShim) }
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}
case _ => require(false, "Unknown message sourcing.")
}
}
doFIFOHookups(acqNet.io, (tl: TileLinkIO) => tl.acquire)
doFIFOHookups(relNet.io, (tl: TileLinkIO) => tl.release)
doFIFOHookups(prbNet.io, (tl: TileLinkIO) => tl.probe)
doFIFOHookups(gntNet.io, (tl: TileLinkIO) => tl.grant)
doFIFOHookups(ackNet.io, (tl: TileLinkIO) => tl.finish)
}