8fc27b0bf2
Some slaves may never send R until you process their B. Thus, while there is no read response interleaving, there is still interleaving between R and B, which breaks AXI4ToTL.
135 lines
4.6 KiB
Scala
135 lines
4.6 KiB
Scala
// See LICENSE.SiFive for license details.
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package uncore.axi4
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import Chisel._
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import config._
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import diplomacy._
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import scala.math.max
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case class AXI4SlaveParameters(
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address: Seq[AddressSet],
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resources: Seq[Resource] = Nil,
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regionType: RegionType.T = RegionType.GET_EFFECTS,
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executable: Boolean = false, // processor can execute from this memory
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nodePath: Seq[BaseNode] = Seq(),
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supportsWrite: TransferSizes = TransferSizes.none,
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supportsRead: TransferSizes = TransferSizes.none,
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interleavedId: Option[Int] = None) // The device will not interleave responses (R+B)
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{
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address.foreach { a => require (a.finite) }
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address.combinations(2).foreach { case Seq(x,y) => require (!x.overlaps(y), s"$x and $y overlap") }
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val name = nodePath.lastOption.map(_.lazyModule.name).getOrElse("disconnected")
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val maxTransfer = max(supportsWrite.max, supportsRead.max)
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val maxAddress = address.map(_.max).max
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val minAlignment = address.map(_.alignment).min
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// The device had better not support a transfer larger than its alignment
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require (minAlignment >= maxTransfer,
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s"minAlignment ($minAlignment) must be >= maxTransfer ($maxTransfer)")
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}
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case class AXI4SlavePortParameters(
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slaves: Seq[AXI4SlaveParameters],
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beatBytes: Int,
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minLatency: Int = 1)
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{
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require (!slaves.isEmpty)
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require (isPow2(beatBytes))
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val maxTransfer = slaves.map(_.maxTransfer).max
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val maxAddress = slaves.map(_.maxAddress).max
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// Check the link is not pointlessly wide
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require (maxTransfer >= beatBytes,
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s"maxTransfer ($maxTransfer) should not be smaller than bus width ($beatBytes)")
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// Check that the link can be implemented in AXI4
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val limit = beatBytes * (1 << AXI4Parameters.lenBits)
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require (maxTransfer <= limit,
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s"maxTransfer ($maxTransfer) cannot be larger than $limit on a $beatBytes*8 width bus")
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lazy val routingMask = AddressDecoder(slaves.map(_.address))
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def findSafe(address: UInt) = Vec(slaves.map(_.address.map(_.contains(address)).reduce(_ || _)))
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def findFast(address: UInt) = Vec(slaves.map(_.address.map(_.widen(~routingMask)).distinct.map(_.contains(address)).reduce(_ || _)))
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// Require disjoint ranges for addresses
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slaves.combinations(2).foreach { case Seq(x,y) =>
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x.address.foreach { a => y.address.foreach { b =>
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require (!a.overlaps(b), s"$a and $b overlap")
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} }
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}
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}
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case class AXI4MasterParameters(
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id: IdRange = IdRange(0, 1),
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aligned: Boolean = false,
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maxFlight: Option[Int] = None, // None = infinite, else is a per-ID cap
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nodePath: Seq[BaseNode] = Seq())
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{
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val name = nodePath.lastOption.map(_.lazyModule.name).getOrElse("disconnected")
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maxFlight.foreach { m => require (m >= 0) }
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}
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case class AXI4MasterPortParameters(
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masters: Seq[AXI4MasterParameters],
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userBits: Int = 0)
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{
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val endId = masters.map(_.id.end).max
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require (userBits >= 0)
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// Require disjoint ranges for ids
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IdRange.overlaps(masters.map(_.id)).foreach { case (x, y) =>
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require (!x.overlaps(y), s"AXI4MasterParameters.id $x and $y overlap")
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}
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}
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case class AXI4BundleParameters(
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addrBits: Int,
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dataBits: Int,
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idBits: Int,
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userBits: Int)
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{
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require (dataBits >= 8, s"AXI4 data bits must be >= 8 (got $dataBits)")
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require (addrBits >= 1, s"AXI4 addr bits must be >= 1 (got $addrBits)")
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require (idBits >= 1, s"AXI4 id bits must be >= 1 (got $idBits)")
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require (isPow2(dataBits), s"AXI4 data bits must be pow2 (got $dataBits)")
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// Bring the globals into scope
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val lenBits = AXI4Parameters.lenBits
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val sizeBits = AXI4Parameters.sizeBits
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val burstBits = AXI4Parameters.burstBits
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val lockBits = AXI4Parameters.lockBits
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val cacheBits = AXI4Parameters.cacheBits
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val protBits = AXI4Parameters.protBits
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val qosBits = AXI4Parameters.qosBits
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val respBits = AXI4Parameters.respBits
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def union(x: AXI4BundleParameters) =
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AXI4BundleParameters(
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max(addrBits, x.addrBits),
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max(dataBits, x.dataBits),
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max(idBits, x.idBits),
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max(userBits, x.userBits))
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}
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object AXI4BundleParameters
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{
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val emptyBundleParams = AXI4BundleParameters(addrBits=1, dataBits=8, idBits=1, userBits=0)
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def union(x: Seq[AXI4BundleParameters]) = x.foldLeft(emptyBundleParams)((x,y) => x.union(y))
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def apply(master: AXI4MasterPortParameters, slave: AXI4SlavePortParameters) =
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new AXI4BundleParameters(
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addrBits = log2Up(slave.maxAddress+1),
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dataBits = slave.beatBytes * 8,
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idBits = log2Up(master.endId),
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userBits = master.userBits)
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}
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case class AXI4EdgeParameters(
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master: AXI4MasterPortParameters,
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slave: AXI4SlavePortParameters)
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{
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val bundle = AXI4BundleParameters(master, slave)
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}
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