WIP uncore and rocket changes compile
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32fd11935c
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afa1a6d549
@ -3,6 +3,9 @@ package groundtest
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import Chisel._
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import rocket._
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import uncore.tilelink._
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import uncore.agents.CacheName
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import uncore.tilelink2._
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import diplomacy._
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import scala.util.Random
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import scala.collection.mutable.ListBuffer
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import junctions.HasAddrMapParameters
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@ -96,20 +99,25 @@ abstract class GroundTest(implicit val p: Parameters) extends Module
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val io = new GroundTestIO
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}
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class GroundTestTile(implicit val p: Parameters) extends LazyTile {
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class GroundTestTile(implicit val p: Parameters) extends LazyModule with HasGroundTestParameters {
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val dcacheParams = p.alterPartial({ case CacheName => "L1D" })
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val slave = None
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lazy val module = new TileImp(this) with HasGroundTestParameters {
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val io = new TileIO(bc) {
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val dcache = HellaCache(p(DCacheKey))(dcacheParams)
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val ucLegacy = LazyModule(new TLLegacy()(p))
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lazy val module = new LazyModuleImp(this) {
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val io = new Bundle {
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val cached = dcache.node.bundleOut
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val uncached = ucLegacy.node.bundleOut
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val success = Bool(OUTPUT)
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}
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val test = p(BuildGroundTest)(dcacheParams)
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val ptwPorts = ListBuffer.empty ++= test.io.ptw
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val memPorts = ListBuffer.empty ++= test.io.mem
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val uncachedArbPorts = ListBuffer.empty ++= test.io.mem
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if (nCached > 0) {
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val dcache_io = HellaCache(p(DCacheKey))(dcacheParams)
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val dcacheArb = Module(new HellaCacheArbiter(nCached)(dcacheParams))
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dcacheArb.io.requestor.zip(test.io.cache).foreach {
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@ -118,13 +126,12 @@ class GroundTestTile(implicit val p: Parameters) extends LazyTile {
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dcacheIF.io.requestor <> cache
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requestor <> dcacheIF.io.cache
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}
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dcache_io.cpu <> dcacheArb.io.mem
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io.cached.head <> dcache_io.mem
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dcache.module.io.cpu <> dcacheArb.io.mem
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// SimpleHellaCacheIF leaves invalidate_lr dangling, so we wire it to false
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dcache_io.cpu.invalidate_lr := Bool(false)
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dcache.module.io.cpu.invalidate_lr := Bool(false)
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ptwPorts += dcache_io.ptw
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ptwPorts += dcache.module.io.ptw
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}
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if (ptwPorts.size > 0) {
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@ -132,10 +139,9 @@ class GroundTestTile(implicit val p: Parameters) extends LazyTile {
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ptw.io.requestors <> ptwPorts
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}
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require(memPorts.size == io.uncached.size)
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if (memPorts.size > 0) {
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io.uncached <> memPorts
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}
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val uncachedArb = Module(new ClientUncachedTileLinkIOArbiter(uncachedArbPorts.size))
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uncachedArb.io.in <> uncachedArbPorts
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ucLegacy.module.io.legacy <> uncachedArb.io.out
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io.success := test.io.status.finished
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}
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@ -5,13 +5,12 @@ package rocket
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import Chisel._
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import junctions._
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import diplomacy._
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import uncore.tilelink._
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import uncore.tilelink2._
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import uncore.agents._
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import uncore.coherence._
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import uncore.constants._
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import uncore.agents._
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import uncore.util._
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import util._
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import TLMessages._
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import Chisel.ImplicitConversions._
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import cde.{Parameters, Field}
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@ -41,14 +40,21 @@ class DCacheDataArray(implicit p: Parameters) extends L1HellaCacheModule()(p) {
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}
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}
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class DCache(implicit p: Parameters) extends L1HellaCacheModule()(p) {
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class DCache(maxUncachedInFlight: Int = 2)(implicit val p: Parameters) extends LazyModule with HasL1HellaCacheParameters {
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val node = TLClientNode(TLClientParameters(supportsProbe = TransferSizes(cacheBlockBytes)))
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lazy val module = new LazyModuleImp(this) {
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val io = new Bundle {
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val cpu = (new HellaCacheIO).flip
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val ptw = new TLBPTWIO()
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val mem = new ClientTileLinkIO
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val mem = node.bundleOut
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}
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val fq = Module(new FinishQueue(1))
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val edge = node.edgesOut(0)
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val tl_out = io.mem(0)
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val grantackq = Module(new Queue(tl_out.e.bits,1))
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require(rowBits == encRowBits) // no ECC
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require(refillCyclesPerBeat == 1)
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@ -67,8 +73,8 @@ class DCache(implicit p: Parameters) extends L1HellaCacheModule()(p) {
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dataArb.io.out.ready := true
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val s1_valid = Reg(next=io.cpu.req.fire(), init=Bool(false))
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val s1_probe = Reg(next=io.mem.probe.fire(), init=Bool(false))
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val probe_bits = RegEnable(io.mem.probe.bits, io.mem.probe.fire())
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val s1_probe = Reg(next=tl_out.b.fire(), init=Bool(false))
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val probe_bits = RegEnable(tl_out.b.bits, tl_out.b.fire()) // TODO has data now :(
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val s1_nack = Wire(init=Bool(false))
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val s1_valid_masked = s1_valid && !io.cpu.s1_kill && !io.cpu.xcpt.asUInt.orR
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val s1_valid_not_nacked = s1_valid_masked && !s1_nack
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@ -93,7 +99,6 @@ class DCache(implicit p: Parameters) extends L1HellaCacheModule()(p) {
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io.cpu.req.ready := (release_state === s_ready) && !cached_grant_wait && !s1_nack
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// I/O MSHRs
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val maxUncachedInFlight = (1 << io.mem.acquire.bits.client_xact_id.getWidth) - 1
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val uncachedInFlight = Reg(init=Vec.fill(maxUncachedInFlight)(Bool(false)))
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val uncachedReqs = Reg(Vec(maxUncachedInFlight, new HellaCacheReq))
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@ -120,7 +125,7 @@ class DCache(implicit p: Parameters) extends L1HellaCacheModule()(p) {
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when (s1_valid && s1_readwrite && tlb.io.resp.miss) { s1_nack := true }
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val s1_paddr = Cat(tlb.io.resp.ppn, s1_req.addr(pgIdxBits-1,0))
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val s1_tag = Mux(s1_probe, probe_bits.addr_block >> idxBits, s1_paddr(paddrBits-1, untagBits))
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val s1_tag = Mux(s1_probe, probe_bits.address, s1_paddr)(paddrBits-1, untagBits)
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val s1_victim_way = Wire(init = replacer.way)
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val (s1_hit_way, s1_hit_state, s1_victim_meta) =
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if (usingDataScratchpad) {
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@ -128,7 +133,7 @@ class DCache(implicit p: Parameters) extends L1HellaCacheModule()(p) {
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metaWriteArb.io.out.ready := true
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metaReadArb.io.out.ready := !metaWriteArb.io.out.valid
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val inScratchpad = addrMap(s"TL2:dmem${tileId}").containsAddress(s1_paddr)
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val hitState = Mux(inScratchpad, ClientMetadata.onReset.onHit(M_XWR), ClientMetadata.onReset)
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val hitState = Mux(inScratchpad, ClientMetadata.maximum, ClientMetadata.onReset)
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(inScratchpad, hitState, L1Metadata(UInt(0), ClientMetadata.onReset))
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} else {
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val meta = Module(new MetadataArray(onReset _))
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@ -164,20 +169,22 @@ class DCache(implicit p: Parameters) extends L1HellaCacheModule()(p) {
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val s2_probe_state = RegEnable(s1_hit_state, s1_probe)
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val s2_hit_way = RegEnable(s1_hit_way, s1_valid_not_nacked)
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val s2_hit_state = RegEnable(s1_hit_state, s1_valid_not_nacked)
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val s2_hit = s2_hit_state.isHit(s2_req.cmd)
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val s2_hit_valid = s2_hit_state.isValid()
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val (s2_hit, s2_grow_param, s2_new_hit_state) = s2_hit_state.onAccess(s2_req.cmd)
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val s2_valid_hit = s2_valid_masked && s2_readwrite && s2_hit
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val s2_valid_miss = s2_valid_masked && s2_readwrite && !s2_hit && !(pstore1_valid || pstore2_valid) && !release_ack_wait
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val s2_valid_cached_miss = s2_valid_miss && !s2_uncached
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val s2_victimize = s2_valid_cached_miss || s2_flush_valid
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val s2_valid_uncached = s2_valid_miss && s2_uncached
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val s2_victim_way = Mux(s2_hit_state.isValid() && !s2_flush_valid, s2_hit_way, UIntToOH(RegEnable(s1_victim_way, s1_valid_not_nacked || s1_flush_valid)))
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val s2_victim_way = Mux(s2_hit_valid && !s2_flush_valid, s2_hit_way, UIntToOH(RegEnable(s1_victim_way, s1_valid_not_nacked || s1_flush_valid)))
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val s2_victim_tag = RegEnable(s1_victim_meta.tag, s1_valid_not_nacked || s1_flush_valid)
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val s2_victim_state = Mux(s2_hit_state.isValid() && !s2_flush_valid, s2_hit_state, RegEnable(s1_victim_meta.coh, s1_valid_not_nacked || s1_flush_valid))
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val s2_victim_state = Mux(s2_hit_valid && !s2_flush_valid, s2_hit_state, RegEnable(s1_victim_meta.coh, s1_valid_not_nacked || s1_flush_valid))
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val s2_victim_valid = s2_victim_state.isValid()
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val s2_victim_dirty = s2_victim_state.requiresVoluntaryWriteback()
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val s2_new_hit_state = s2_hit_state.onHit(s2_req.cmd)
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val (prb_ack_data, s2_report_param, probeNewCoh)= s2_probe_state.onProbe(probe_bits.param)
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val (needs_vol_wb, s2_shrink_param, voluntaryNewCoh) = s2_victim_state.onCacheControl(M_FLUSH)
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val s2_victim_dirty = needs_vol_wb
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val s2_update_meta = s2_hit_state =/= s2_new_hit_state
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io.cpu.s2_nack := s2_valid && !s2_valid_hit && !(s2_valid_uncached && io.mem.acquire.ready && !uncachedInFlight.asUInt.andR)
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io.cpu.s2_nack := s2_valid && !s2_valid_hit && !(s2_valid_uncached && tl_out.a.ready && !uncachedInFlight.asUInt.andR)
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when (s2_valid && (!s2_valid_hit || s2_update_meta)) { s1_nack := true }
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// exceptions
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@ -250,105 +257,98 @@ class DCache(implicit p: Parameters) extends L1HellaCacheModule()(p) {
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metaWriteArb.io.in(0).bits.data.coh := Mux(s2_valid_hit, s2_new_hit_state, ClientMetadata.onReset)
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metaWriteArb.io.in(0).bits.data.tag := s2_req.addr(paddrBits-1, untagBits)
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// acquire
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val xact_id = PriorityEncoder(~uncachedInFlight.asUInt)
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val cachedGetMessage = s2_hit_state.makeAcquire(
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client_xact_id = UInt(maxUncachedInFlight - 1),
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addr_block = s2_req.addr(paddrBits-1, blockOffBits),
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op_code = s2_req.cmd)
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val uncachedGetMessage = Get(
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client_xact_id = xact_id,
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addr_block = s2_req.addr(paddrBits-1, blockOffBits),
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addr_beat = s2_req.addr(blockOffBits-1, beatOffBits),
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addr_byte = s2_req.addr(beatOffBits-1, 0),
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operand_size = s2_req.typ,
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alloc = Bool(false))
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val uncachedPutOffset = s2_req.addr.extract(beatOffBits-1, wordOffBits)
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val uncachedPutMessage = Put(
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client_xact_id = xact_id,
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addr_block = s2_req.addr(paddrBits-1, blockOffBits),
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addr_beat = s2_req.addr(blockOffBits-1, beatOffBits),
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data = Fill(beatWords, pstore1_storegen.data),
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wmask = Some(pstore1_storegen.mask << (uncachedPutOffset << wordOffBits)),
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alloc = Bool(false))
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val uncachedPutAtomicMessage = PutAtomic(
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client_xact_id = xact_id,
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addr_block = s2_req.addr(paddrBits-1, blockOffBits),
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addr_beat = s2_req.addr(blockOffBits-1, beatOffBits),
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addr_byte = s2_req.addr(beatOffBits-1, 0),
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atomic_opcode = s2_req.cmd,
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operand_size = s2_req.typ,
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data = Fill(beatWords, pstore1_storegen.data))
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io.mem.acquire.valid := ((s2_valid_cached_miss && !s2_victim_dirty) || (s2_valid_uncached && !uncachedInFlight.asUInt.andR)) && fq.io.enq.ready
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io.mem.acquire.bits := cachedGetMessage
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// Prepare a TileLink request message that initiates a transaction
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val a_source = PriorityEncoder(~uncachedInFlight.asUInt)
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val a_address = s2_req.addr
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val a_size = s2_req.typ
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val a_data = Fill(beatWords, pstore1_storegen.data)
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val acquire = edge.Acquire(a_source, a_address, lgCacheBlockBytes, s2_grow_param)._2 // TODO check cacheability
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val get = edge.Get(a_source, a_address, a_size)._2
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val put = edge.Put(a_source, a_address, a_size, a_data)._2
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val atomics = if (edge.manager.anySupportLogical) {
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MuxLookup(s2_req.cmd, Wire(new TLBundleA(edge.bundle)), Array(
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M_XA_SWAP -> edge.Logical(a_source, a_address, a_size, a_data, TLAtomics.SWAP)._2,
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M_XA_XOR -> edge.Logical(a_source, a_address, a_size, a_data, TLAtomics.XOR) ._2,
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M_XA_OR -> edge.Logical(a_source, a_address, a_size, a_data, TLAtomics.OR) ._2,
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M_XA_AND -> edge.Logical(a_source, a_address, a_size, a_data, TLAtomics.AND) ._2,
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M_XA_ADD -> edge.Arithmetic(a_source, a_address, a_size, a_data, TLAtomics.ADD)._2,
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M_XA_MIN -> edge.Arithmetic(a_source, a_address, a_size, a_data, TLAtomics.MIN)._2,
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M_XA_MAX -> edge.Arithmetic(a_source, a_address, a_size, a_data, TLAtomics.MAX)._2,
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M_XA_MINU -> edge.Arithmetic(a_source, a_address, a_size, a_data, TLAtomics.MINU)._2,
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M_XA_MAXU -> edge.Arithmetic(a_source, a_address, a_size, a_data, TLAtomics.MAXU)._2))
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} else {
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// If no managers support atomics, assert fail if processor asks for them
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assert (!(tl_out.a.valid && pstore1_amo && s2_write && s2_uncached))
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Wire(new TLBundleA(edge.bundle))
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}
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tl_out.a.valid := grantackq.io.enq.ready && ((s2_valid_cached_miss && !s2_victim_dirty) ||
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(s2_valid_uncached && !uncachedInFlight.asUInt.andR))
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tl_out.a.bits := Mux(pstore1_amo && s2_write && s2_uncached, atomics,
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Mux(s2_write && s2_uncached, put,
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Mux(s2_uncached, get, acquire)))
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// Set pending bits for outstanding TileLink transaction
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when (tl_out.a.fire()) {
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when (s2_uncached) {
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if (!usingDataScratchpad)
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assert(!s2_valid_masked || !s2_hit_state.isValid(), "cache hit on uncached access")
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io.mem.acquire.bits := uncachedGetMessage
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when (s2_write) {
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io.mem.acquire.bits := uncachedPutMessage
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when (pstore1_amo) {
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io.mem.acquire.bits := uncachedPutAtomicMessage
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}
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}
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}
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when (io.mem.acquire.fire()) {
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when (s2_uncached) {
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uncachedInFlight(xact_id) := true
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uncachedReqs(xact_id) := s2_req
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uncachedInFlight(a_source) := true
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uncachedReqs(a_source) := s2_req
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}.otherwise {
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cached_grant_wait := true
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}
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}
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// grant
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val grantIsRefill = io.mem.grant.bits.hasMultibeatData()
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val grantIsVoluntary = io.mem.grant.bits.isVoluntary()
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val grantIsUncached = !grantIsRefill && !grantIsVoluntary
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io.mem.grant.ready := true
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when (io.mem.grant.fire()) {
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when (grantIsRefill) { assert(cached_grant_wait) }
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when (grantIsUncached) {
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assert(uncachedInFlight(io.mem.grant.bits.client_xact_id))
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uncachedInFlight(io.mem.grant.bits.client_xact_id) := false
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s2_data := io.mem.grant.bits.data
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val req = uncachedReqs(io.mem.grant.bits.client_xact_id)
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val (d_first, d_last, d_address_inc) = edge.firstlast(tl_out.d)
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val grantIsCached = tl_out.d.bits.opcode.isOneOf(Grant, GrantData)
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val grantIsUncached = tl_out.d.bits.opcode.isOneOf(AccessAck, AccessAckData, HintAck)
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val grantIsVoluntary = tl_out.d.bits.opcode === ReleaseAck // Clears a different pending bit
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val grantIsRefill = tl_out.d.bits.opcode === GrantData // Writes the data array
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tl_out.d.ready := true
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when (tl_out.d.fire() && d_last) {
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when (grantIsCached) {
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assert(cached_grant_wait, "A GrantData was unexpected by the dcache.")
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cached_grant_wait := false
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} .elsewhen (grantIsUncached) {
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// TODO this requires that uncached accesses only take a single beat
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val id = tl_out.d.bits.source
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val req = uncachedReqs(id)
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assert(uncachedInFlight(id), "An AccessAck was unexpected by the dcache.")
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uncachedInFlight(id) := false
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s2_data := tl_out.d.bits.data
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s2_req.cmd := req.cmd
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s2_req.typ := req.typ
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s2_req.tag := req.tag
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s2_req.addr := Cat(s1_paddr >> wordOffBits /* don't-care */, req.addr(wordOffBits-1, 0))
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}
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when (grantIsVoluntary) {
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assert(release_ack_wait)
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} .elsewhen (grantIsVoluntary) {
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assert(release_ack_wait, "A ReleaseAck was unexpected by the dcache.")
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release_ack_wait := false
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}
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}
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val (refillCount, refillDone) = Counter(io.mem.grant.fire() && grantIsRefill, refillCycles)
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when (io.mem.grant.fire() && refillDone) { cached_grant_wait := false }
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// data refill
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val doRefillBeat = grantIsRefill && io.mem.grant.valid
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val doRefillBeat = grantIsRefill && tl_out.d.valid
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dataArb.io.in(1).valid := doRefillBeat
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assert(dataArb.io.in(1).ready || !doRefillBeat)
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dataArb.io.in(1).bits.write := true
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dataArb.io.in(1).bits.addr := Cat(s2_req.addr(paddrBits-1, blockOffBits), io.mem.grant.bits.addr_beat) << beatOffBits
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dataArb.io.in(1).bits.addr := s2_req.addr | d_address_inc
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dataArb.io.in(1).bits.way_en := s2_victim_way
|
||||
dataArb.io.in(1).bits.wdata := io.mem.grant.bits.data
|
||||
dataArb.io.in(1).bits.wdata := tl_out.d.bits.data
|
||||
dataArb.io.in(1).bits.wmask := ~UInt(0, rowBytes)
|
||||
// tag updates on refill
|
||||
metaWriteArb.io.in(1).valid := refillDone
|
||||
metaWriteArb.io.in(1).valid := grantIsCached && tl_out.d.fire() && d_last
|
||||
assert(!metaWriteArb.io.in(1).valid || metaWriteArb.io.in(1).ready)
|
||||
metaWriteArb.io.in(1).bits.way_en := s2_victim_way
|
||||
metaWriteArb.io.in(1).bits.idx := s2_req.addr(idxMSB, idxLSB)
|
||||
metaWriteArb.io.in(1).bits.data.coh := s2_hit_state.onGrant(io.mem.grant.bits, s2_req.cmd)
|
||||
metaWriteArb.io.in(1).bits.data.coh := s2_hit_state.onGrant(s2_req.cmd, tl_out.d.bits.param)
|
||||
metaWriteArb.io.in(1).bits.data.tag := s2_req.addr(paddrBits-1, untagBits)
|
||||
// don't accept uncached grants if there's a structural hazard on s2_data...
|
||||
val blockUncachedGrant = Reg(Bool())
|
||||
blockUncachedGrant := dataArb.io.out.valid
|
||||
when (grantIsUncached) {
|
||||
io.mem.grant.ready := !(blockUncachedGrant || s1_valid)
|
||||
tl_out.d.ready := !(blockUncachedGrant || s1_valid)
|
||||
// ...but insert bubble to guarantee grant's eventual forward progress
|
||||
when (io.mem.grant.valid && !io.mem.grant.ready) {
|
||||
when (tl_out.d.valid && !tl_out.d.ready) {
|
||||
io.cpu.req.ready := false
|
||||
dataArb.io.in(1).valid := true
|
||||
dataArb.io.in(1).bits.write := false
|
||||
@ -356,58 +356,72 @@ class DCache(implicit p: Parameters) extends L1HellaCacheModule()(p) {
|
||||
}
|
||||
}
|
||||
|
||||
// finish
|
||||
fq.io.enq.valid := io.mem.grant.fire() && io.mem.grant.bits.requiresAck() && (!grantIsRefill || refillDone)
|
||||
fq.io.enq.bits := io.mem.grant.bits.makeFinish()
|
||||
io.mem.finish <> fq.io.deq
|
||||
when (fq.io.enq.valid) { assert(fq.io.enq.ready) }
|
||||
when (refillDone) { replacer.miss }
|
||||
// Finish TileLink transaction by issuing a GrantAck
|
||||
grantackq.io.enq.valid := tl_out.d.fire() && d_last && edge.hasFollowUp(tl_out.d.bits)
|
||||
grantackq.io.enq.bits := edge.GrantAck(tl_out.d.bits)
|
||||
tl_out.e <> grantackq.io.deq
|
||||
assert(!grantackq.io.enq.valid || grantackq.io.enq.ready, "Too many Grants received by dcache.")
|
||||
when (tl_out.d.fire() && d_last) { replacer.miss }
|
||||
|
||||
// probe
|
||||
// Handle an incoming TileLink Probe message
|
||||
val block_probe = releaseInFlight || lrscValid || (s2_valid_hit && s2_lr)
|
||||
metaReadArb.io.in(1).valid := io.mem.probe.valid && !block_probe
|
||||
io.mem.probe.ready := metaReadArb.io.in(1).ready && !block_probe && !s1_valid && (!s2_valid || s2_valid_hit)
|
||||
metaReadArb.io.in(1).bits.idx := io.mem.probe.bits.addr_block
|
||||
metaReadArb.io.in(1).valid := tl_out.b.valid && !block_probe
|
||||
tl_out.b.ready := metaReadArb.io.in(1).ready && !block_probe && !s1_valid && (!s2_valid || s2_valid_hit)
|
||||
metaReadArb.io.in(1).bits.idx := tl_out.b.bits.address(idxMSB, idxLSB)
|
||||
metaReadArb.io.in(1).bits.way_en := ~UInt(0, nWays)
|
||||
|
||||
// release
|
||||
val (writebackCount, writebackDone) = Counter(io.mem.release.fire() && inWriteback, refillCycles)
|
||||
val releaseDone = writebackDone || (io.mem.release.fire() && !inWriteback)
|
||||
val releaseRejected = io.mem.release.valid && !io.mem.release.ready
|
||||
val (writebackCount, writebackDone) = Counter(tl_out.c.fire() && inWriteback, refillCycles) //TODO firstlast?
|
||||
val releaseDone = writebackDone || (tl_out.c.fire() && !inWriteback)
|
||||
val releaseRejected = tl_out.c.valid && !tl_out.c.ready
|
||||
val s1_release_data_valid = Reg(next = dataArb.io.in(2).fire())
|
||||
val s2_release_data_valid = Reg(next = s1_release_data_valid && !releaseRejected)
|
||||
val releaseDataBeat = Cat(UInt(0), writebackCount) + Mux(releaseRejected, UInt(0), s1_release_data_valid + Cat(UInt(0), s2_release_data_valid))
|
||||
io.mem.release.valid := s2_release_data_valid
|
||||
io.mem.release.bits := ClientMetadata.onReset.makeRelease(probe_bits)
|
||||
val voluntaryReleaseMessage = s2_victim_state.makeVoluntaryWriteback(UInt(maxUncachedInFlight - 1), UInt(0))
|
||||
val voluntaryNewCoh = s2_victim_state.onCacheControl(M_FLUSH)
|
||||
val probeResponseMessage = s2_probe_state.makeRelease(probe_bits)
|
||||
val probeNewCoh = s2_probe_state.onProbe(probe_bits)
|
||||
|
||||
val voluntaryReleaseMessage = edge.Release(
|
||||
fromSource = UInt(maxUncachedInFlight - 1),
|
||||
toAddress = probe_bits.address,
|
||||
lgSize = lgCacheBlockBytes,
|
||||
shrinkPermissions = s2_shrink_param,
|
||||
data = s2_data)._2
|
||||
|
||||
val probeResponseMessage = Mux(prb_ack_data,
|
||||
edge.ProbeAck(
|
||||
b = probe_bits,
|
||||
reportPermissions = s2_report_param),
|
||||
edge.ProbeAck(
|
||||
b = probe_bits,
|
||||
reportPermissions = s2_report_param,
|
||||
data = s2_data))
|
||||
|
||||
tl_out.c.valid := s2_release_data_valid
|
||||
tl_out.c.bits := voluntaryReleaseMessage // TODO was ClientMetadata.onReset.makeRelease(probe_bits) ... s2_victim_state ok?
|
||||
val newCoh = Wire(init = probeNewCoh)
|
||||
releaseWay := s2_probe_way
|
||||
|
||||
when (s2_victimize && s2_victim_dirty) {
|
||||
assert(!(s2_valid && s2_hit_state.isValid()))
|
||||
assert(!(s2_valid && s2_hit_valid))
|
||||
release_state := s_voluntary_writeback
|
||||
probe_bits.addr_block := Cat(s2_victim_tag, s2_req.addr(idxMSB, idxLSB))
|
||||
probe_bits.address := Cat(s2_victim_tag, s2_req.addr(idxMSB, idxLSB)) << rowOffBits
|
||||
}
|
||||
when (s2_probe) {
|
||||
when (s2_probe_state.requiresVoluntaryWriteback()) { release_state := s_probe_rep_dirty }
|
||||
when (needs_vol_wb) { release_state := s_probe_rep_dirty }
|
||||
.elsewhen (s2_probe_state.isValid()) { release_state := s_probe_rep_clean }
|
||||
.otherwise {
|
||||
io.mem.release.valid := true
|
||||
tl_out.c.valid := true
|
||||
release_state := s_probe_rep_miss
|
||||
}
|
||||
}
|
||||
when (releaseDone) { release_state := s_ready }
|
||||
when (release_state.isOneOf(s_probe_rep_miss, s_probe_rep_clean)) {
|
||||
io.mem.release.valid := true
|
||||
tl_out.c.valid := true
|
||||
}
|
||||
when (release_state.isOneOf(s_probe_rep_clean, s_probe_rep_dirty)) {
|
||||
io.mem.release.bits := probeResponseMessage
|
||||
tl_out.c.bits := probeResponseMessage
|
||||
when (releaseDone) { release_state := s_probe_write_meta }
|
||||
}
|
||||
when (release_state.isOneOf(s_voluntary_writeback, s_voluntary_write_meta)) {
|
||||
io.mem.release.bits := voluntaryReleaseMessage
|
||||
tl_out.c.bits := voluntaryReleaseMessage
|
||||
newCoh := voluntaryNewCoh
|
||||
releaseWay := s2_victim_way
|
||||
when (releaseDone) {
|
||||
@ -415,21 +429,20 @@ class DCache(implicit p: Parameters) extends L1HellaCacheModule()(p) {
|
||||
release_ack_wait := true
|
||||
}
|
||||
}
|
||||
when (s2_probe && !io.mem.release.fire()) { s1_nack := true }
|
||||
io.mem.release.bits.addr_block := probe_bits.addr_block
|
||||
io.mem.release.bits.addr_beat := writebackCount
|
||||
io.mem.release.bits.data := s2_data
|
||||
when (s2_probe && !tl_out.c.fire()) { s1_nack := true }
|
||||
tl_out.c.bits.address := probe_bits.address
|
||||
tl_out.c.bits.data := s2_data
|
||||
|
||||
dataArb.io.in(2).valid := inWriteback && releaseDataBeat < refillCycles
|
||||
dataArb.io.in(2).bits.write := false
|
||||
dataArb.io.in(2).bits.addr := Cat(io.mem.release.bits.addr_block, releaseDataBeat(log2Up(refillCycles)-1,0)) << rowOffBits
|
||||
dataArb.io.in(2).bits.addr := tl_out.c.bits.address | (releaseDataBeat(log2Up(refillCycles)-1,0) << rowOffBits)
|
||||
dataArb.io.in(2).bits.way_en := ~UInt(0, nWays)
|
||||
|
||||
metaWriteArb.io.in(2).valid := release_state.isOneOf(s_voluntary_write_meta, s_probe_write_meta)
|
||||
metaWriteArb.io.in(2).bits.way_en := releaseWay
|
||||
metaWriteArb.io.in(2).bits.idx := io.mem.release.bits.full_addr()(idxMSB, idxLSB)
|
||||
metaWriteArb.io.in(2).bits.idx := tl_out.c.bits.address(idxMSB, idxLSB)
|
||||
metaWriteArb.io.in(2).bits.data.coh := newCoh
|
||||
metaWriteArb.io.in(2).bits.data.tag := io.mem.release.bits.full_addr()(paddrBits-1, untagBits)
|
||||
metaWriteArb.io.in(2).bits.data.tag := tl_out.c.bits.address(paddrBits-1, untagBits)
|
||||
when (metaWriteArb.io.in(2).fire()) { release_state := s_ready }
|
||||
|
||||
// cached response
|
||||
@ -440,7 +453,7 @@ class DCache(implicit p: Parameters) extends L1HellaCacheModule()(p) {
|
||||
io.cpu.ordered := !(s1_valid || s2_valid || cached_grant_wait || uncachedInFlight.asUInt.orR)
|
||||
|
||||
// uncached response
|
||||
io.cpu.replay_next := io.mem.grant.fire() && grantIsUncached
|
||||
io.cpu.replay_next := tl_out.d.fire() && tl_out.d.bits.opcode <= AccessAckData
|
||||
val doUncachedResp = Reg(next = io.cpu.replay_next)
|
||||
when (doUncachedResp) {
|
||||
assert(!s2_valid_hit)
|
||||
@ -473,7 +486,7 @@ class DCache(implicit p: Parameters) extends L1HellaCacheModule()(p) {
|
||||
val flushed = Reg(init=Bool(true))
|
||||
val flushing = Reg(init=Bool(false))
|
||||
val flushCounter = Counter(nSets * nWays)
|
||||
when (io.mem.acquire.fire() && !s2_uncached) { flushed := false }
|
||||
when (tl_out.a.fire() && !s2_uncached) { flushed := false }
|
||||
when (s2_valid_masked && s2_req.cmd === M_FLUSH_ALL) {
|
||||
io.cpu.s2_nack := !flushed
|
||||
when (!flushed) {
|
||||
@ -495,6 +508,7 @@ class DCache(implicit p: Parameters) extends L1HellaCacheModule()(p) {
|
||||
flushing := false
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
class ScratchpadSlavePort(implicit val p: Parameters) extends LazyModule with HasCoreParameters {
|
||||
|
@ -4,10 +4,11 @@ package rocket
|
||||
|
||||
import Chisel._
|
||||
import uncore.tilelink._
|
||||
import uncore.coherence._
|
||||
import uncore.tilelink2._
|
||||
import uncore.agents._
|
||||
import uncore.constants._
|
||||
import uncore.util._
|
||||
import diplomacy._
|
||||
import util._
|
||||
import Chisel.ImplicitConversions._
|
||||
import cde.{Parameters, Field}
|
||||
@ -19,11 +20,19 @@ case class DCacheConfig(
|
||||
|
||||
case object DCacheKey extends Field[DCacheConfig]
|
||||
|
||||
trait HasL1HellaCacheParameters extends HasL1CacheParameters {
|
||||
val wordBits = xLen // really, xLen max fLen
|
||||
trait HasL1HellaCacheParameters extends HasCacheParameters with HasCoreParameters {
|
||||
val outerDataBeats = p(TLKey(p(TLId))).dataBeats
|
||||
val outerDataBits = p(TLKey(p(TLId))).dataBitsPerBeat
|
||||
val refillCyclesPerBeat = outerDataBits/rowBits
|
||||
val refillCycles = refillCyclesPerBeat*outerDataBeats
|
||||
|
||||
val cacheBlockBytes = p(CacheBlockBytes)
|
||||
val lgCacheBlockBytes = log2Up(cacheBlockBytes)
|
||||
|
||||
val wordBits = xLen // really, xLen max
|
||||
val wordBytes = wordBits/8
|
||||
val wordOffBits = log2Up(wordBytes)
|
||||
val beatBytes = p(CacheBlockBytes) / outerDataBeats
|
||||
val beatBytes = cacheBlockBytes / outerDataBeats
|
||||
val beatWords = beatBytes / wordBytes
|
||||
val beatOffBits = log2Up(beatBytes)
|
||||
val idxMSB = untagBits-1
|
||||
@ -310,10 +319,10 @@ class MSHR(id: Int)(cfg: DCacheConfig)(implicit p: Parameters) extends L1HellaCa
|
||||
rpq.io.enq.bits := io.req_bits
|
||||
rpq.io.deq.ready := (io.replay.ready && state === s_drain_rpq) || state === s_invalid
|
||||
|
||||
val coh_on_grant = req.old_meta.coh.onGrant(
|
||||
incoming = io.mem_grant.bits,
|
||||
pending = Mux(dirties_coh, M_XWR, req.cmd))
|
||||
val coh_on_hit = io.req_bits.old_meta.coh.onHit(io.req_bits.cmd)
|
||||
val coh_on_grant = req.old_meta.coh.onGrant(UInt(0), UInt(0))
|
||||
//incoming = io.mem_grant.bits,
|
||||
//pending = Mux(dirties_coh, M_XWR, req.cmd))
|
||||
val coh_on_hit = coh_on_grant //io.req_bits.old_meta.coh.onHit(io.req_bits.cmd)
|
||||
|
||||
when (state === s_drain_rpq && !rpq.io.deq.valid) {
|
||||
state := s_invalid
|
||||
@ -355,14 +364,14 @@ class MSHR(id: Int)(cfg: DCacheConfig)(implicit p: Parameters) extends L1HellaCa
|
||||
req := io.req_bits
|
||||
dirties_coh := isWrite(io.req_bits.cmd)
|
||||
when (io.req_bits.tag_match) {
|
||||
when(coh.isHit(io.req_bits.cmd)) { // set dirty bit
|
||||
when(Bool(false)) { // TODO coh.isHit(io.req_bits.cmd)) { // set dirty bit
|
||||
state := s_meta_write_req
|
||||
new_coh_state := coh_on_hit
|
||||
}.otherwise { // upgrade permissions
|
||||
state := s_refill_req
|
||||
}
|
||||
}.otherwise { // writback if necessary and refill
|
||||
state := Mux(coh.requiresVoluntaryWriteback(), s_wb_req, s_meta_clear)
|
||||
//TODO state := Mux(coh.requiresVoluntaryWriteback(), s_wb_req, s_meta_clear)
|
||||
}
|
||||
}
|
||||
|
||||
@ -390,22 +399,22 @@ class MSHR(id: Int)(cfg: DCacheConfig)(implicit p: Parameters) extends L1HellaCa
|
||||
io.meta_write.valid := state.isOneOf(s_meta_write_req, s_meta_clear)
|
||||
io.meta_write.bits.idx := req_idx
|
||||
io.meta_write.bits.data.coh := Mux(state === s_meta_clear,
|
||||
req.old_meta.coh.onCacheControl(M_FLUSH),
|
||||
req.old_meta.coh.onCacheControl(M_FLUSH)._2,
|
||||
new_coh_state)
|
||||
io.meta_write.bits.data.tag := io.tag
|
||||
io.meta_write.bits.way_en := req.way_en
|
||||
|
||||
io.wb_req.valid := state === s_wb_req
|
||||
io.wb_req.bits := req.old_meta.coh.makeVoluntaryWriteback(
|
||||
client_xact_id = UInt(id),
|
||||
addr_block = Cat(req.old_meta.tag, req_idx))
|
||||
//TODO io.wb_req.bits := req.old_meta.coh.makeVoluntaryWriteback(
|
||||
// client_xact_id = UInt(id),
|
||||
// addr_block = Cat(req.old_meta.tag, req_idx))
|
||||
io.wb_req.bits.way_en := req.way_en
|
||||
|
||||
io.mem_req.valid := state === s_refill_req && fq.io.enq.ready
|
||||
io.mem_req.bits := req.old_meta.coh.makeAcquire(
|
||||
addr_block = Cat(io.tag, req_idx),
|
||||
client_xact_id = Bits(id),
|
||||
op_code = req.cmd)
|
||||
//TODO io.mem_req.bits := req.old_meta.coh.makeAcquire(
|
||||
// addr_block = Cat(io.tag, req_idx),
|
||||
// client_xact_id = Bits(id),
|
||||
// op_code = req.cmd)
|
||||
|
||||
io.meta_read.valid := state === s_drain_rpq
|
||||
io.meta_read.bits.idx := req_idx
|
||||
@ -669,10 +678,10 @@ class ProbeUnit(implicit p: Parameters) extends L1HellaCacheModule()(p) {
|
||||
|
||||
val miss_coh = ClientMetadata.onReset
|
||||
val reply_coh = Mux(tag_matches, old_coh, miss_coh)
|
||||
val reply = reply_coh.makeRelease(req)
|
||||
//TODO val reply = reply_coh.makeRelease(req)
|
||||
io.req.ready := state === s_invalid
|
||||
io.rep.valid := state === s_release
|
||||
io.rep.bits := reply
|
||||
//TODO io.rep.bits := reply
|
||||
|
||||
assert(!io.rep.valid || !io.rep.bits.hasData(),
|
||||
"ProbeUnit should not send releases with data")
|
||||
@ -685,10 +694,10 @@ class ProbeUnit(implicit p: Parameters) extends L1HellaCacheModule()(p) {
|
||||
io.meta_write.bits.way_en := way_en
|
||||
io.meta_write.bits.idx := req.addr_block
|
||||
io.meta_write.bits.data.tag := req.addr_block >> idxBits
|
||||
io.meta_write.bits.data.coh := old_coh.onProbe(req)
|
||||
//TODO io.meta_write.bits.data.coh := old_coh.onProbe(req)
|
||||
|
||||
io.wb_req.valid := state === s_writeback_req
|
||||
io.wb_req.bits := reply
|
||||
//TODO io.wb_req.bits := reply
|
||||
io.wb_req.bits.way_en := way_en
|
||||
|
||||
// state === s_invalid
|
||||
@ -716,7 +725,7 @@ class ProbeUnit(implicit p: Parameters) extends L1HellaCacheModule()(p) {
|
||||
}
|
||||
|
||||
when (state === s_mshr_resp) {
|
||||
val needs_writeback = tag_matches && old_coh.requiresVoluntaryWriteback()
|
||||
val needs_writeback = tag_matches // TODO && old_coh.requiresVoluntaryWriteback()
|
||||
state := Mux(needs_writeback, s_writeback_req, s_release)
|
||||
}
|
||||
|
||||
@ -912,9 +921,8 @@ class HellaCache(cfg: DCacheConfig)(implicit p: Parameters) extends L1HellaCache
|
||||
val s2_tag_match_way = RegEnable(s1_tag_match_way, s1_clk_en)
|
||||
val s2_tag_match = s2_tag_match_way.orR
|
||||
val s2_hit_state = Mux1H(s2_tag_match_way, wayMap((w: Int) => RegEnable(meta.io.resp(w).coh, s1_clk_en)))
|
||||
val s2_hit = s2_tag_match &&
|
||||
s2_hit_state.isHit(s2_req.cmd) &&
|
||||
s2_hit_state === s2_hit_state.onHit(s2_req.cmd)
|
||||
val (s2_has_permission, s2_grow_param, s2_new_hit_state) = s2_hit_state.onAccess(s2_req.cmd)
|
||||
val s2_hit = s2_tag_match && s2_has_permission && s2_hit_state === s2_new_hit_state
|
||||
|
||||
// load-reserved/store-conditional
|
||||
val lrsc_count = Reg(init=UInt(0))
|
||||
@ -1236,7 +1244,7 @@ class SimpleHellaCacheIF(implicit p: Parameters) extends Module
|
||||
}
|
||||
|
||||
object HellaCache {
|
||||
def apply(cfg: DCacheConfig)(implicit p: Parameters) =
|
||||
if (cfg.nMSHRs == 0) Module(new DCache()).io
|
||||
else Module(new HellaCache(cfg)).io
|
||||
def apply(cfg: DCacheConfig)(implicit p: Parameters) = LazyModule(new DCache)
|
||||
// if (cfg.nMSHRs == 0) Module(new DCache()).io
|
||||
// else Module(new HellaCache(cfg)).io
|
||||
}
|
||||
|
@ -11,10 +11,9 @@ import uncore.converters._
|
||||
import uncore.devices._
|
||||
import util._
|
||||
import cde.{Parameters, Field}
|
||||
import scala.collection.mutable.ListBuffer
|
||||
|
||||
case object BuildRoCC extends Field[Seq[RoccParameters]]
|
||||
case object NCachedTileLinkPorts extends Field[Int]
|
||||
case object NUncachedTileLinkPorts extends Field[Int]
|
||||
case object TileId extends Field[Int]
|
||||
|
||||
case class RoccParameters(
|
||||
@ -24,61 +23,38 @@ case class RoccParameters(
|
||||
nPTWPorts : Int = 0,
|
||||
useFPU: Boolean = false)
|
||||
|
||||
case class TileBundleConfig(
|
||||
nCachedTileLinkPorts: Int,
|
||||
nUncachedTileLinkPorts: Int,
|
||||
xLen: Int)
|
||||
|
||||
class TileIO(c: TileBundleConfig, node: Option[TLInwardNode] = None)(implicit p: Parameters) extends Bundle {
|
||||
val cached = Vec(c.nCachedTileLinkPorts, new ClientTileLinkIO)
|
||||
val uncached = Vec(c.nUncachedTileLinkPorts, new ClientUncachedTileLinkIO)
|
||||
val hartid = UInt(INPUT, c.xLen)
|
||||
val interrupts = new TileInterrupts().asInput
|
||||
val slave = node.map(_.inward.bundleIn)
|
||||
val resetVector = UInt(INPUT, c.xLen)
|
||||
|
||||
override def cloneType = new TileIO(c).asInstanceOf[this.type]
|
||||
}
|
||||
|
||||
abstract class TileImp(l: LazyTile)(implicit val p: Parameters) extends LazyModuleImp(l) {
|
||||
val io: TileIO
|
||||
}
|
||||
|
||||
abstract class LazyTile(implicit p: Parameters) extends LazyModule {
|
||||
val nCachedTileLinkPorts = p(NCachedTileLinkPorts)
|
||||
val nUncachedTileLinkPorts = p(NUncachedTileLinkPorts)
|
||||
class RocketTile(implicit p: Parameters) extends LazyModule {
|
||||
val dcacheParams = p.alterPartial({ case CacheName => "L1D" })
|
||||
val bc = TileBundleConfig(
|
||||
nCachedTileLinkPorts = nCachedTileLinkPorts,
|
||||
nUncachedTileLinkPorts = nUncachedTileLinkPorts,
|
||||
xLen = p(XLen))
|
||||
val icacheParams = p.alterPartial({ case CacheName => "L1I" })
|
||||
|
||||
val module: TileImp
|
||||
val slave: Option[TLInputNode]
|
||||
}
|
||||
|
||||
class RocketTile(implicit p: Parameters) extends LazyTile {
|
||||
val slave = if (p(DataScratchpadSize) == 0) None else Some(TLInputNode())
|
||||
val slaveNode = if (p(DataScratchpadSize) == 0) None else Some(TLInputNode())
|
||||
val scratch = if (p(DataScratchpadSize) == 0) None else Some(LazyModule(new ScratchpadSlavePort()(dcacheParams)))
|
||||
val dcache = HellaCache(p(DCacheKey))(dcacheParams)
|
||||
val ucLegacy = LazyModule(new TLLegacy()(p))
|
||||
|
||||
(slave zip scratch) foreach { case (node, lm) => lm.node := TLFragmenter(p(XLen)/8, p(CacheBlockBytes))(node) }
|
||||
(slaveNode zip scratch) foreach { case (node, lm) => lm.node := TLFragmenter(p(XLen)/8, p(CacheBlockBytes))(node) }
|
||||
|
||||
lazy val module = new LazyModuleImp(this) {
|
||||
val io = new Bundle {
|
||||
val cached = dcache.node.bundleOut
|
||||
val uncached = ucLegacy.node.bundleOut
|
||||
val slave = slaveNode.map(_.bundleIn)
|
||||
val hartid = UInt(INPUT, p(XLen))
|
||||
val interrupts = new TileInterrupts().asInput
|
||||
val resetVector = UInt(INPUT, p(XLen))
|
||||
}
|
||||
|
||||
lazy val module = new TileImp(this) {
|
||||
val io = new TileIO(bc, slave)
|
||||
val buildRocc = p(BuildRoCC)
|
||||
val usingRocc = !buildRocc.isEmpty
|
||||
val nRocc = buildRocc.size
|
||||
val nFPUPorts = buildRocc.filter(_.useFPU).size
|
||||
|
||||
val core = Module(new Rocket)
|
||||
val icache = Module(new Frontend()(p.alterPartial({ case CacheName => "L1I" })))
|
||||
val dcache = HellaCache(p(DCacheKey))(dcacheParams)
|
||||
val icache = Module(new Frontend()(icacheParams))
|
||||
|
||||
val ptwPorts = collection.mutable.ArrayBuffer(icache.io.ptw, dcache.ptw)
|
||||
val dcPorts = collection.mutable.ArrayBuffer(core.io.dmem)
|
||||
val uncachedArbPorts = collection.mutable.ArrayBuffer(icache.io.mem)
|
||||
val uncachedPorts = collection.mutable.ArrayBuffer[ClientUncachedTileLinkIO]()
|
||||
val cachedPorts = collection.mutable.ArrayBuffer(dcache.mem)
|
||||
val ptwPorts = ListBuffer(icache.io.ptw, dcache.module.io.ptw)
|
||||
val dcPorts = ListBuffer(core.io.dmem)
|
||||
val uncachedArbPorts = ListBuffer(icache.io.mem)
|
||||
core.io.interrupts := io.interrupts
|
||||
core.io.hartid := io.hartid
|
||||
icache.io.cpu <> core.io.imem
|
||||
@ -129,19 +105,12 @@ class RocketTile(implicit p: Parameters) extends LazyTile {
|
||||
respArb.io.in <> roccs.map(rocc => Queue(rocc.io.resp))
|
||||
|
||||
ptwPorts ++= roccs.flatMap(_.io.ptw)
|
||||
uncachedPorts ++= roccs.flatMap(_.io.utl)
|
||||
uncachedArbPorts ++= roccs.flatMap(_.io.utl) // TODO no difference between io.autl and io.utl for now
|
||||
}
|
||||
|
||||
val uncachedArb = Module(new ClientUncachedTileLinkIOArbiter(uncachedArbPorts.size))
|
||||
uncachedArb.io.in <> uncachedArbPorts
|
||||
uncachedArb.io.out +=: uncachedPorts
|
||||
|
||||
// Connect the caches and RoCC to the outer memory system
|
||||
io.uncached <> uncachedPorts
|
||||
io.cached <> cachedPorts
|
||||
// TODO remove nCached/nUncachedTileLinkPorts parameters and these assertions
|
||||
require(uncachedPorts.size == nUncachedTileLinkPorts)
|
||||
require(cachedPorts.size == nCachedTileLinkPorts)
|
||||
ucLegacy.module.io.legacy <> uncachedArb.io.out
|
||||
|
||||
if (p(UseVM)) {
|
||||
val ptw = Module(new PTW(ptwPorts.size)(dcacheParams))
|
||||
@ -155,7 +124,7 @@ class RocketTile(implicit p: Parameters) extends LazyTile {
|
||||
require(dcPorts.size == core.dcacheArbPorts)
|
||||
val dcArb = Module(new HellaCacheArbiter(dcPorts.size)(dcacheParams))
|
||||
dcArb.io.requestor <> dcPorts
|
||||
dcache.cpu <> dcArb.io.mem
|
||||
dcache.module.io.cpu <> dcArb.io.mem
|
||||
|
||||
if (nFPUPorts == 0) {
|
||||
fpuOpt.foreach { fpu =>
|
||||
|
@ -130,7 +130,6 @@ class SeqPLRU(n_sets: Int, n_ways: Int) extends SeqReplacementPolicy {
|
||||
|
||||
abstract class Metadata(implicit p: Parameters) extends CacheBundle()(p) {
|
||||
val tag = Bits(width = tagBits)
|
||||
val coh: CoherenceMetadata
|
||||
}
|
||||
|
||||
class MetaReadReq(implicit p: Parameters) extends CacheBundle()(p) {
|
||||
|
@ -43,6 +43,14 @@ object TLMessages
|
||||
def isD(x: UInt) = x <= ReleaseAck
|
||||
}
|
||||
|
||||
/**
|
||||
* The three primary TileLink permissions are:
|
||||
* (T)runk: the agent is (or is on the path to) the global point of serialization.
|
||||
* (B)ranch: the agent
|
||||
* (N)one:
|
||||
* These permissions are permuted by transfer operations in various ways.
|
||||
* Messages for
|
||||
*/
|
||||
object TLPermissions
|
||||
{
|
||||
// Cap types (Grant = new permissions, Probe = permisions <= target)
|
||||
|
@ -238,7 +238,10 @@ class TLEdgeOut(
|
||||
(legal, c)
|
||||
}
|
||||
|
||||
def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt) = {
|
||||
def ProbeAck(b: TLBundleB, reportPermissions: UInt): TLBundleC =
|
||||
ProbeAck(b.source, b.address, b.size, reportPermissions)
|
||||
|
||||
def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt): TLBundleC = {
|
||||
val c = Wire(new TLBundleC(bundle))
|
||||
c.opcode := TLMessages.ProbeAck
|
||||
c.param := reportPermissions
|
||||
@ -250,7 +253,10 @@ class TLEdgeOut(
|
||||
c
|
||||
}
|
||||
|
||||
def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt) = {
|
||||
def ProbeAck(b: TLBundleB, reportPermissions: UInt, data: UInt): TLBundleC =
|
||||
ProbeAck(b.source, b.address, b.size, reportPermissions, data)
|
||||
|
||||
def ProbeAck(fromSource: UInt, toAddress: UInt, lgSize: UInt, reportPermissions: UInt, data: UInt): TLBundleC = {
|
||||
val c = Wire(new TLBundleC(bundle))
|
||||
c.opcode := TLMessages.ProbeAckData
|
||||
c.param := reportPermissions
|
||||
@ -262,7 +268,8 @@ class TLEdgeOut(
|
||||
c
|
||||
}
|
||||
|
||||
def GrantAck(toSink: UInt) = {
|
||||
def GrantAck(d: TLBundleD): TLBundleE = GrantAck(d.sink)
|
||||
def GrantAck(toSink: UInt): TLBundleE = {
|
||||
val e = Wire(new TLBundleE(bundle))
|
||||
e.sink := toSink
|
||||
e
|
||||
|
149
src/main/scala/uncore/tilelink2/Metadata.scala
Normal file
149
src/main/scala/uncore/tilelink2/Metadata.scala
Normal file
@ -0,0 +1,149 @@
|
||||
// See LICENSE for license details.
|
||||
|
||||
package uncore.tilelink2
|
||||
|
||||
import Chisel._
|
||||
import chisel3.internal.sourceinfo.SourceInfo
|
||||
import util._
|
||||
import uncore.constants.MemoryOpConstants
|
||||
|
||||
object ClientStates {
|
||||
val width = 2
|
||||
|
||||
val Nothing = UInt(0)
|
||||
val Branch = UInt(1)
|
||||
val Trunk = UInt(2)
|
||||
val Dirty = UInt(3)
|
||||
|
||||
def hasReadPermission(state: UInt): Bool = state > Nothing
|
||||
def hasWritePermission(state: UInt): Bool = state > Branch
|
||||
}
|
||||
|
||||
object MemoryOpCategories extends MemoryOpConstants {
|
||||
val wr = Cat(Bool(true), Bool(true)) // Op actually writes
|
||||
val wi = Cat(Bool(false), Bool(true)) // Future op will write
|
||||
val rd = Cat(Bool(false), Bool(false)) // Op only reads
|
||||
|
||||
def categorize(cmd: UInt): UInt = Cat(isWrite(cmd), isWriteIntent(cmd))
|
||||
}
|
||||
|
||||
/** Stores the client-side coherence information,
|
||||
* such as permissions on the data and whether the data is dirty.
|
||||
* Its API can be used to make TileLink messages in response to
|
||||
* memory operations, cache control oeprations, or Probe messages.
|
||||
*/
|
||||
class ClientMetadata extends Bundle {
|
||||
/** Actual state information stored in this bundle */
|
||||
val state = UInt(width = ClientStates.width)
|
||||
|
||||
/** Metadata equality */
|
||||
def ===(rhs: UInt): Bool = state === rhs
|
||||
def ===(rhs: ClientMetadata): Bool = state === rhs.state
|
||||
def =/=(rhs: ClientMetadata): Bool = !this.===(rhs)
|
||||
|
||||
/** Is the block's data present in this cache */
|
||||
def isValid(dummy: Int = 0): Bool = state > ClientStates.Nothing
|
||||
|
||||
/** Determine whether this cmd misses, and the new state (on hit) or param to be sent (on miss) */
|
||||
private def growStarter(cmd: UInt): (Bool, UInt) = {
|
||||
import MemoryOpCategories._
|
||||
import TLPermissions._
|
||||
import ClientStates._
|
||||
MuxTLookup(Cat(categorize(cmd), state), (Bool(false), UInt(0)), Seq(
|
||||
//(effect, am now) -> (was a hit, next)
|
||||
Cat(rd, Dirty) -> (Bool(true), Dirty),
|
||||
Cat(rd, Trunk) -> (Bool(true), Trunk),
|
||||
Cat(rd, Branch) -> (Bool(true), Branch),
|
||||
Cat(wi, Dirty) -> (Bool(true), Dirty),
|
||||
Cat(wi, Trunk) -> (Bool(true), Trunk),
|
||||
Cat(wr, Dirty) -> (Bool(true), Dirty),
|
||||
Cat(wr, Trunk) -> (Bool(true), Dirty),
|
||||
//(effect, am now) -> (was a miss, param)
|
||||
Cat(rd, Nothing) -> (Bool(false), NtoB),
|
||||
Cat(wi, Branch) -> (Bool(false), BtoT),
|
||||
Cat(wi, Nothing) -> (Bool(false), NtoT),
|
||||
Cat(wr, Branch) -> (Bool(false), BtoT),
|
||||
Cat(wr, Nothing) -> (Bool(false), NtoT)))
|
||||
}
|
||||
|
||||
/** Determine what state to go to after miss based on Grant param */
|
||||
private def growFinisher(cmd: UInt, param: UInt): UInt = {
|
||||
import MemoryOpCategories._
|
||||
import TLPermissions._
|
||||
import ClientStates._
|
||||
MuxLookup(Cat(categorize(cmd), param), UInt(0), Seq(
|
||||
//(effect param) -> (next)
|
||||
Cat(rd, toB) -> Branch,
|
||||
Cat(rd, toT) -> Trunk,
|
||||
Cat(wi, toT) -> Trunk,
|
||||
Cat(wr, toT) -> Dirty))
|
||||
}
|
||||
|
||||
|
||||
/** Does a secondary miss on the block require another Acquire message */
|
||||
def requiresAcquireOnSecondaryMiss(first_cmd: UInt, second_cmd: UInt): Bool = {
|
||||
import MemoryOpCategories._
|
||||
isWriteIntent(second_cmd) && !isWriteIntent(first_cmd)
|
||||
}
|
||||
|
||||
/** Does this cache have permissions on this block sufficient to perform op,
|
||||
* and what to do next (Acquire message param or updated metadata). */
|
||||
def onAccess(cmd: UInt): (Bool, UInt, ClientMetadata) = {
|
||||
val r = growStarter(cmd)
|
||||
(r._1, r._2, ClientMetadata(r._2))
|
||||
}
|
||||
|
||||
/** Metadata change on a returned Grant */
|
||||
def onGrant(cmd: UInt, param: UInt): ClientMetadata = ClientMetadata(growFinisher(cmd, param))
|
||||
|
||||
/** Determine what state to go to based on Probe param */
|
||||
private def shrinkHelper(param: UInt): (Bool, UInt, UInt) = {
|
||||
import ClientStates._
|
||||
import TLPermissions._
|
||||
MuxTLookup(Cat(param, state), (Bool(false), UInt(0), UInt(0)), Seq(
|
||||
//(wanted, am now) -> (dirtyWB resp, next)
|
||||
Cat(toT, Dirty) -> (Bool(true), TtoT, Trunk),
|
||||
Cat(toT, Trunk) -> (Bool(false), TtoT, Trunk),
|
||||
Cat(toT, Branch) -> (Bool(false), BtoB, Branch),
|
||||
Cat(toT, Nothing) -> (Bool(false), NtoN, Nothing),
|
||||
Cat(toB, Dirty) -> (Bool(true), TtoB, Branch),
|
||||
Cat(toB, Trunk) -> (Bool(false), TtoB, Branch), // Policy: Don't notify on clean downgrade
|
||||
Cat(toB, Branch) -> (Bool(false), BtoB, Branch),
|
||||
Cat(toB, Nothing) -> (Bool(false), BtoN, Nothing),
|
||||
Cat(toN, Dirty) -> (Bool(true), TtoN, Nothing),
|
||||
Cat(toN, Trunk) -> (Bool(false), TtoN, Nothing), // Policy: Don't notify on clean downgrade
|
||||
Cat(toN, Branch) -> (Bool(false), BtoN, Nothing), // Policy: Don't notify on clean downgrade
|
||||
Cat(toN, Nothing) -> (Bool(false), NtoN, Nothing)))
|
||||
}
|
||||
|
||||
/** Translate cache control cmds into Probe param */
|
||||
private def cmdToPermCap(cmd: UInt): UInt = {
|
||||
import MemoryOpCategories._
|
||||
import TLPermissions._
|
||||
MuxLookup(cmd, toN, Seq(
|
||||
M_FLUSH -> toN,
|
||||
M_PRODUCE -> toB,
|
||||
M_CLEAN -> toT))
|
||||
}
|
||||
|
||||
def onCacheControl(cmd: UInt): (Bool, UInt, ClientMetadata) = {
|
||||
val r = shrinkHelper(cmdToPermCap(cmd))
|
||||
(r._1, r._2, ClientMetadata(r._3))
|
||||
}
|
||||
|
||||
def onProbe(param: UInt): (Bool, UInt, ClientMetadata) = {
|
||||
val r = shrinkHelper(param)
|
||||
(Bool(true), r._2, ClientMetadata(r._3))
|
||||
}
|
||||
}
|
||||
|
||||
/** Factories for ClientMetadata, including on reset */
|
||||
object ClientMetadata {
|
||||
def apply(perm: UInt) = {
|
||||
val meta = Wire(new ClientMetadata)
|
||||
meta.state := perm
|
||||
meta
|
||||
}
|
||||
def onReset = ClientMetadata(ClientStates.Nothing)
|
||||
def maximum = ClientMetadata(ClientStates.Dirty)
|
||||
}
|
@ -36,6 +36,23 @@ object MuxT {
|
||||
(Mux(cond, con._1, alt._1), Mux(cond, con._2, alt._2), Mux(cond, con._3, alt._3))
|
||||
}
|
||||
|
||||
/** Creates a cascade of n MuxTs to search for a key value. */
|
||||
object MuxTLookup {
|
||||
def apply[S <: UInt, T <: Data, U <: Data](key: S, default: (T, U), mapping: Seq[(S, (T, U))]): (T, U) = {
|
||||
var res = default
|
||||
for ((k, v) <- mapping.reverse)
|
||||
res = MuxT(k === key, v, res)
|
||||
res
|
||||
}
|
||||
|
||||
def apply[S <: UInt, T <: Data, U <: Data, W <: Data](key: S, default: (T, U, W), mapping: Seq[(S, (T, U, W))]): (T, U, W) = {
|
||||
var res = default
|
||||
for ((k, v) <- mapping.reverse)
|
||||
res = MuxT(k === key, v, res)
|
||||
res
|
||||
}
|
||||
}
|
||||
|
||||
object Str
|
||||
{
|
||||
def apply(s: String): UInt = {
|
||||
|
Loading…
Reference in New Issue
Block a user