138 lines
5.3 KiB
Scala
138 lines
5.3 KiB
Scala
// See LICENSE.SiFive for license details.
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// See LICENSE.Berkeley for license details.
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package rocket
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import Chisel._
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import Chisel.ImplicitConversions._
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import config._
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import util._
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/**
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* This module buffers requests made by the SimpleHellaCacheIF in case they
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* are nacked. Nacked requests must be replayed in order, and no other requests
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* must be allowed to go through until the replayed requests are successfully
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* completed.
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*/
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class SimpleHellaCacheIFReplayQueue(depth: Int)
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(implicit val p: Parameters) extends Module
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with HasL1HellaCacheParameters {
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val io = new Bundle {
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val req = Decoupled(new HellaCacheReq).flip
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val nack = Valid(Bits(width = coreDCacheReqTagBits)).flip
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val resp = Valid(new HellaCacheResp).flip
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val replay = Decoupled(new HellaCacheReq)
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}
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// Registers to store the sent request
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// When a request is sent the first time,
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// it is stored in one of the reqs registers
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// and the corresponding inflight bit is set.
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// The reqs register will be deallocated once the request is
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// successfully completed.
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val inflight = Reg(init = UInt(0, depth))
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val reqs = Reg(Vec(depth, new HellaCacheReq))
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// The nack queue stores the index of nacked requests (in the reqs vector)
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// in the order that they were nacked. A request is enqueued onto nackq
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// when it is newly nacked (i.e. not a nack for a previous replay).
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// The head of the nack queue will be replayed until it is
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// successfully completed, at which time the request is dequeued.
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// No new requests will be made or other replays attempted until the head
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// of the nackq is successfully completed.
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val nackq = Module(new Queue(UInt(width = log2Up(depth)), depth))
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val replaying = Reg(init = Bool(false))
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val next_inflight_onehot = PriorityEncoderOH(~inflight)
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val next_inflight = OHToUInt(next_inflight_onehot)
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val next_replay = nackq.io.deq.bits
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val next_replay_onehot = UIntToOH(next_replay)
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val next_replay_req = reqs(next_replay)
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// Keep sending the head of the nack queue until it succeeds
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io.replay.valid := nackq.io.deq.valid && !replaying
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io.replay.bits := next_replay_req
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// Don't allow new requests if there is are replays waiting
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// or something being nacked.
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io.req.ready := !inflight.andR && !nackq.io.deq.valid && !io.nack.valid
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// Match on the tags to determine the index of nacks or responses
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val nack_onehot = Cat(reqs.map(_.tag === io.nack.bits).reverse) & inflight
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val resp_onehot = Cat(reqs.map(_.tag === io.resp.bits.tag).reverse) & inflight
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val replay_complete = io.resp.valid && replaying && io.resp.bits.tag === next_replay_req.tag
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val nack_head = io.nack.valid && nackq.io.deq.valid && io.nack.bits === next_replay_req.tag
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// Enqueue to the nack queue if there is a nack that is not in response to
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// the previous replay
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nackq.io.enq.valid := io.nack.valid && !nack_head
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nackq.io.enq.bits := OHToUInt(nack_onehot)
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assert(!nackq.io.enq.valid || nackq.io.enq.ready,
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"SimpleHellaCacheIF: ReplayQueue nack queue overflow")
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// Dequeue from the nack queue if the last replay was successfully completed
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nackq.io.deq.ready := replay_complete
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assert(!nackq.io.deq.ready || nackq.io.deq.valid,
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"SimpleHellaCacheIF: ReplayQueue nack queue underflow")
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// Set inflight bit when a request is made
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// Clear it when it is successfully completed
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inflight := (inflight | Mux(io.req.fire(), next_inflight_onehot, UInt(0))) &
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~Mux(io.resp.valid, resp_onehot, UInt(0))
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when (io.req.fire()) {
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reqs(next_inflight) := io.req.bits
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}
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// Only one replay outstanding at a time
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when (io.replay.fire()) { replaying := Bool(true) }
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when (nack_head || replay_complete) { replaying := Bool(false) }
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}
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// exposes a sane decoupled request interface
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class SimpleHellaCacheIF(implicit p: Parameters) extends Module
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{
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val io = new Bundle {
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val requestor = new HellaCacheIO().flip
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val cache = new HellaCacheIO
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}
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val replayq = Module(new SimpleHellaCacheIFReplayQueue(2))
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val req_arb = Module(new Arbiter(new HellaCacheReq, 2))
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val req_helper = DecoupledHelper(
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req_arb.io.in(1).ready,
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replayq.io.req.ready,
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io.requestor.req.valid)
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req_arb.io.in(0) <> replayq.io.replay
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req_arb.io.in(1).valid := req_helper.fire(req_arb.io.in(1).ready)
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req_arb.io.in(1).bits := io.requestor.req.bits
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io.requestor.req.ready := req_helper.fire(io.requestor.req.valid)
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replayq.io.req.valid := req_helper.fire(replayq.io.req.ready)
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replayq.io.req.bits := io.requestor.req.bits
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val s0_req_fire = io.cache.req.fire()
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val s1_req_fire = Reg(next = s0_req_fire)
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val s2_req_fire = Reg(next = s1_req_fire)
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val s1_req_tag = Reg(next = io.cache.req.bits.tag)
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val s2_req_tag = Reg(next = s1_req_tag)
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val s2_kill = Reg(next = io.cache.s1_kill)
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io.cache.invalidate_lr := io.requestor.invalidate_lr
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io.cache.req <> req_arb.io.out
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io.cache.s1_kill := io.cache.s2_nack
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io.cache.s1_data := RegEnable(req_arb.io.out.bits.data, s0_req_fire)
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replayq.io.nack.valid := (io.cache.s2_nack || s2_kill) && s2_req_fire
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replayq.io.nack.bits := s2_req_tag
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replayq.io.resp := io.cache.resp
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io.requestor.resp := io.cache.resp
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assert(!Reg(next = io.cache.req.fire()) ||
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!(io.cache.xcpt.ma.ld || io.cache.xcpt.ma.st ||
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io.cache.xcpt.pf.ld || io.cache.xcpt.pf.st),
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"SimpleHellaCacheIF exception")
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}
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