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axi4 ToTL: handle bad AXI addresses

This commit is contained in:
Wesley W. Terpstra 2016-10-17 00:12:26 -07:00
parent 501d6d689f
commit 73010c79a3

View File

@ -56,12 +56,21 @@ class AXI4ToTL extends LazyModule
val r_size1 = in.ar.bits.bytes1() val r_size1 = in.ar.bits.bytes1()
val r_size = OH1ToUInt(r_size1) val r_size = OH1ToUInt(r_size1)
val r_addr = in.ar.bits.addr val r_addr = in.ar.bits.addr
val r_ok = edgeOut.manager.supportsGetSafe(r_addr, r_size) // !!! decode error val r_ok = edgeOut.manager.supportsGetSafe(r_addr, r_size)
val r_err_in = Wire(Decoupled(new AXI4BundleRError(in.ar.bits.params)))
val r_err_out = Queue(r_err_in, 2)
val r_count = RegInit(UInt(0, width = in.ar.bits.params.lenBits))
val r_last = r_count === in.ar.bits.len
in.ar.ready := r_out.ready && !r_block
r_out.valid := in.ar.valid && !r_block
r_out.bits := edgeOut.Get(in.ar.bits.id << 1 | UInt(1), r_addr, r_size)._2
assert (!in.ar.valid || r_size1 === UIntToOH1(r_size, countBits)) // because aligned assert (!in.ar.valid || r_size1 === UIntToOH1(r_size, countBits)) // because aligned
in.ar.ready := Mux(r_ok, r_out.ready, r_err_in.ready && r_last) && !r_block
r_out.valid := in.ar.valid && !r_block && r_ok
r_out.bits := edgeOut.Get(in.ar.bits.id << 1 | UInt(1), r_addr, r_size)._2
r_err_in.valid := in.ar.valid && !r_block && !r_ok
r_err_in.bits.last := r_last
r_err_in.bits.id := in.ar.bits.id
when (r_err_in.fire()) { r_count := Mux(r_last, UInt(0), r_count + UInt(1)) }
val w_out = Wire(out.a) val w_out = Wire(out.a)
val w_inflight = RegInit(UInt(0, width = numIds)) val w_inflight = RegInit(UInt(0, width = numIds))
@ -70,31 +79,79 @@ class AXI4ToTL extends LazyModule
val w_size = OH1ToUInt(w_size1) val w_size = OH1ToUInt(w_size1)
val w_addr = in.aw.bits.addr val w_addr = in.aw.bits.addr
val w_ok = edgeOut.manager.supportsPutPartialSafe(w_addr, w_size) val w_ok = edgeOut.manager.supportsPutPartialSafe(w_addr, w_size)
val w_err_in = Wire(Decoupled(in.aw.bits.id))
val w_err_out = Queue(w_err_in, 2)
in.aw.ready := w_out.ready && in.w.valid && in.w.bits.last && !w_block
in.w.ready := w_out.ready && in.aw.valid && !w_block
w_out.valid := in.aw.valid && in.w.valid && !w_block
w_out.bits := edgeOut.Put(in.aw.bits.id << 1, w_addr, w_size, in.w.bits.data, in.w.bits.strb)._2
assert (!in.aw.valid || w_size1 === UIntToOH1(w_size, countBits)) // because aligned assert (!in.aw.valid || w_size1 === UIntToOH1(w_size, countBits)) // because aligned
assert (!in.aw.valid || in.aw.bits.len === UInt(0) || in.aw.bits.size === UInt(log2Ceil(beatBytes))) // because aligned
in.aw.ready := Mux(w_ok, w_out.ready, w_err_in.ready) && in.w.valid && in.w.bits.last && !w_block
in.w.ready := Mux(w_ok, w_out.ready, w_err_in.ready || !in.w.bits.last) && in.aw.valid && !w_block
w_out.valid := in.aw.valid && in.w.valid && !w_block && w_ok
w_out.bits := edgeOut.Put(in.aw.bits.id << 1, w_addr, w_size, in.w.bits.data, in.w.bits.strb)._2
w_err_in.valid := in.aw.valid && in.w.valid && !w_block && !w_ok && in.w.bits.last
w_err_in.bits := in.aw.bits.id
TLArbiter(TLArbiter.lowestIndexFirst)(out.a, (UInt(0), r_out), (in.aw.bits.len, w_out)) TLArbiter(TLArbiter.lowestIndexFirst)(out.a, (UInt(0), r_out), (in.aw.bits.len, w_out))
assert (!in.aw.valid || in.aw.bits.len === UInt(0) || in.aw.bits.size === UInt(log2Ceil(beatBytes))) // because aligned
val out_d = Queue.irrevocable(out.d, 1, flow=true) // AXI4 requires irrevocable val ok_b = Wire(in.b)
val d_resp = Mux(out_d.bits.error, AXI4Parameters.RESP_SLVERR, AXI4Parameters.RESP_OKAY) val err_b = Wire(in.b)
val d_hasData = edgeOut.hasData(out_d.bits) val mux_b = Wire(in.b)
val (_, d_last, _) = edgeOut.firstlast(out_d.bits, out_d.fire()) val ok_r = Wire(in.r)
out_d.ready := Mux(d_hasData, in.r.ready, in.b.ready) val err_r = Wire(in.r)
val mux_r = Wire(in.r)
in.r.valid := out_d.valid && d_hasData val d_resp = Mux(out.d.bits.error, AXI4Parameters.RESP_SLVERR, AXI4Parameters.RESP_OKAY)
in.r.bits.id := out_d.bits.source >> 1 val d_hasData = edgeOut.hasData(out.d.bits)
in.r.bits.data := out_d.bits.data val (_, d_last, _) = edgeOut.firstlast(out.d.bits, out.d.fire())
in.r.bits.resp := d_resp
in.r.bits.last := d_last
in.b.valid := out_d.valid && !d_hasData out.d.ready := Mux(d_hasData, ok_r.ready, ok_b.ready)
in.b.bits.id := out_d.bits.source >> 1 ok_r.valid := out.d.valid && d_hasData
in.b.bits.resp := d_resp ok_b.valid := out.d.valid && !d_hasData
ok_r.bits.id := out.d.bits.source >> 1
ok_r.bits.data := out.d.bits.data
ok_r.bits.resp := d_resp
ok_r.bits.last := d_last
r_err_out.ready := err_r.ready
err_r.valid := r_err_out.valid
err_r.bits.id := r_err_out.bits.id
err_r.bits.data := out.d.bits.data // don't care
err_r.bits.resp := AXI4Parameters.RESP_DECERR
err_r.bits.last := r_err_out.bits.last
// AXI4 must hold R to one source until last
val mux_lock_ok = RegInit(Bool(false))
val mux_lock_err = RegInit(Bool(false))
when (ok_r .fire()) { mux_lock_ok := !ok_r .bits.last }
when (err_r.fire()) { mux_lock_err := !err_r.bits.last }
assert (!mux_lock_ok || !mux_lock_err)
// Prioritize ok over err
mux_r.valid := (!mux_lock_err && ok_r.valid) || (!mux_lock_ok && err_r.valid)
mux_r.bits := Mux(mux_lock_ok || (!mux_lock_err && ok_r.valid), ok_r.bits, err_r.bits)
ok_r.ready := !mux_lock_err && mux_r.ready
err_r.ready := !mux_lock_ok && mux_r.ready && !ok_r.valid
// AXI4 needs irrevocable behaviour
in.r <> Queue.irrevocable(mux_r, 1, flow=true)
ok_b.bits.id := out.d.bits.source >> 1
ok_b.bits.resp := d_resp
w_err_out.ready := err_b.ready
err_b.valid := w_err_out.valid
err_b.bits.id := w_err_out.bits
err_b.bits.resp := AXI4Parameters.RESP_DECERR
// Prioritize ok over err
mux_b.valid := ok_b.valid || err_b.valid
mux_b.bits := Mux(ok_b.valid, ok_b.bits, err_b.bits)
ok_b.ready := mux_b.ready
err_b.ready := mux_b.ready && !ok_b.ready
// AXI4 needs irrevocable behaviour
in.b <> Queue.irrevocable(mux_b, 1, flow=true)
// Update flight trackers // Update flight trackers
val r_set = in.ar.fire().asUInt << in.ar.bits.id val r_set = in.ar.fire().asUInt << in.ar.bits.id
@ -111,6 +168,12 @@ class AXI4ToTL extends LazyModule
} }
} }
class AXI4BundleRError(params: AXI4BundleParameters) extends AXI4BundleBase(params)
{
val id = UInt(width = params.idBits)
val last = Bool()
}
object AXI4ToTL object AXI4ToTL
{ {
def apply()(x: AXI4OutwardNode)(implicit sourceInfo: SourceInfo): TLOutwardNode = { def apply()(x: AXI4OutwardNode)(implicit sourceInfo: SourceInfo): TLOutwardNode = {