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rocket-chip/src/main/scala/uncore/tilelink2/Fuzzer.scala
Wesley W. Terpstra abe344a1a4 tilelink2 Fuzzer: support read-only mode (#555)
2017-02-13 00:18:47 +01:00

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8.6 KiB
Scala
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// See LICENSE.SiFive for license details.
package uncore.tilelink2
import Chisel._
import config._
import diplomacy._
class IDMapGenerator(numIds: Int) extends Module {
val w = log2Up(numIds)
val io = new Bundle {
val free = Decoupled(UInt(width = w)).flip
val alloc = Decoupled(UInt(width = w))
}
// True indicates that the id is available
val bitmap = RegInit(UInt((BigInt(1) << numIds) - 1, width = numIds))
io.free.ready := Bool(true)
assert (!io.free.valid || !bitmap(io.free.bits)) // No double freeing
val select = ~(leftOR(bitmap) << 1) & bitmap
io.alloc.bits := OHToUInt(select)
io.alloc.valid := bitmap.orR()
val clr = Wire(init = UInt(0, width = numIds))
when (io.alloc.fire()) { clr := UIntToOH(io.alloc.bits) }
val set = Wire(init = UInt(0, width = numIds))
when (io.free.fire()) { set := UIntToOH(io.free.bits) }
bitmap := (bitmap & ~clr) | set
}
object LFSR64
{
private var counter = 0
private def next: Int = {
counter += 1
counter
}
def apply(increment: Bool = Bool(true), seed: Int = next): UInt =
{
val wide = 64
val lfsr = RegInit(UInt((seed * 0xDEADBEEFCAFEBAB1L) >>> 1, width = wide))
val xor = lfsr(0) ^ lfsr(1) ^ lfsr(3) ^ lfsr(4)
when (increment) { lfsr := Cat(xor, lfsr(wide-1,1)) }
lfsr
}
}
trait HasNoiseMakerIO
{
val io = new Bundle {
val inc = Bool(INPUT)
val random = UInt(OUTPUT)
}
}
class LFSRNoiseMaker(wide: Int) extends Module with HasNoiseMakerIO
{
val lfsrs = Seq.fill((wide+63)/64) { LFSR64(io.inc) }
io.random := Cat(lfsrs)(wide-1,0)
}
object LFSRNoiseMaker {
def apply(wide: Int, increment: Bool = Bool(true)): UInt = {
val nm = Module(new LFSRNoiseMaker(wide))
nm.io.inc := increment
nm.io.random
}
}
/** TLFuzzer drives test traffic over TL2 links. It generates a sequence of randomized
* requests, and issues legal ones into the DUT. TODO: Currently the fuzzer only generates
* memory operations, not permissions transfers.
* @param nOperations is the total number of operations that the fuzzer must complete for the test to pass
* @param inFlight is the number of operations that can be in-flight to the DUT concurrently
* @param noiseMaker is a function that supplies a random UInt of a given width every time inc is true
*/
class TLFuzzer(
nOperations: Int,
inFlight: Int = 32,
noiseMaker: (Int, Bool, Int) => UInt = {
(wide: Int, increment: Bool, abs_values: Int) =>
LFSRNoiseMaker(wide=wide, increment=increment)
},
noModify: Boolean = false)(implicit p: Parameters) extends LazyModule
{
val node = TLClientNode(TLClientParameters(sourceId = IdRange(0,inFlight)))
lazy val module = new LazyModuleImp(this) {
val io = new Bundle {
val out = node.bundleOut
val finished = Bool()
}
val out = io.out(0)
val edge = node.edgesOut(0)
// Extract useful parameters from the TL edge
val endAddress = edge.manager.maxAddress + 1
val maxTransfer = edge.manager.maxTransfer
val beatBytes = edge.manager.beatBytes
val maxLgBeats = log2Up(maxTransfer/beatBytes)
val addressBits = log2Up(endAddress)
val sizeBits = edge.bundle.sizeBits
val dataBits = edge.bundle.dataBits
// Progress through operations
val num_reqs = Reg(init = UInt(nOperations, log2Up(nOperations+1)))
val num_resps = Reg(init = UInt(nOperations, log2Up(nOperations+1)))
if (nOperations>0) {
io.finished := num_resps === UInt(0)
} else {
io.finished := Bool(false)
}
// Progress within each operation
val a = out.a.bits
val (a_first, a_last, req_done) = edge.firstlast(out.a)
val d = out.d.bits
val (d_first, d_last, resp_done) = edge.firstlast(out.d)
// Source ID generation
val idMap = Module(new IDMapGenerator(inFlight))
val alloc = Queue.irrevocable(idMap.io.alloc, 1, pipe = true)
val src = alloc.bits
alloc.ready := req_done
idMap.io.free.valid := resp_done
idMap.io.free.bits := out.d.bits.source
// Increment random number generation for the following subfields
val inc = Wire(Bool())
val inc_beat = Wire(Bool())
val arth_op_3 = noiseMaker(3, inc, 0)
val arth_op = Mux(arth_op_3 > UInt(4), UInt(4), arth_op_3)
val log_op = noiseMaker(2, inc, 0)
val amo_size = UInt(2) + noiseMaker(1, inc, 0) // word or dword
val size = noiseMaker(sizeBits, inc, 0)
val addr = noiseMaker(addressBits, inc, 2) & ~UIntToOH1(size, addressBits)
val mask = noiseMaker(beatBytes, inc_beat, 2) & edge.mask(addr, size)
val data = noiseMaker(dataBits, inc_beat, 2)
// Actually generate specific TL messages when it is legal to do so
val (glegal, gbits) = edge.Get(src, addr, size)
val (pflegal, pfbits) = if(edge.manager.anySupportPutFull) {
edge.Put(src, addr, size, data)
} else { (glegal, gbits) }
val (pplegal, ppbits) = if(edge.manager.anySupportPutPartial) {
edge.Put(src, addr, size, data, mask)
} else { (glegal, gbits) }
val (alegal, abits) = if(edge.manager.anySupportArithmetic) {
edge.Arithmetic(src, addr, size, data, arth_op)
} else { (glegal, gbits) }
val (llegal, lbits) = if(edge.manager.anySupportLogical) {
edge.Logical(src, addr, size, data, log_op)
} else { (glegal, gbits) }
val (hlegal, hbits) = if(edge.manager.anySupportHint) {
edge.Hint(src, addr, size, UInt(0))
} else { (glegal, gbits) }
val legal_dest = edge.manager.containsSafe(addr)
// Pick a specific message to try to send
val a_type_sel = noiseMaker(3, inc, 0)
val legal = legal_dest && MuxLookup(a_type_sel, glegal, Seq(
UInt("b000") -> glegal,
UInt("b001") -> (pflegal && !Bool(noModify)),
UInt("b010") -> (pplegal && !Bool(noModify)),
UInt("b011") -> (alegal && !Bool(noModify)),
UInt("b100") -> (llegal && !Bool(noModify)),
UInt("b101") -> hlegal))
val bits = MuxLookup(a_type_sel, gbits, Seq(
UInt("b000") -> gbits,
UInt("b001") -> pfbits,
UInt("b010") -> ppbits,
UInt("b011") -> abits,
UInt("b100") -> lbits,
UInt("b101") -> hbits))
// Wire both the used and un-used channel signals
if (nOperations>0) {
out.a.valid := legal && alloc.valid && num_reqs =/= UInt(0)
} else {
out.a.valid := legal && alloc.valid
}
out.a.bits := bits
out.b.ready := Bool(true)
out.c.valid := Bool(false)
out.d.ready := Bool(true)
out.e.valid := Bool(false)
// Increment the various progress-tracking states
inc := !legal || req_done
inc_beat := !legal || out.a.fire()
if (nOperations>0) {
when (out.a.fire() && a_last) {
num_reqs := num_reqs - UInt(1)
}
when (out.d.fire() && d_last) {
num_resps := num_resps - UInt(1)
}
}
}
}
/** Synthesizeable integration test */
import unittest._
class TLFuzzRAM()(implicit p: Parameters) extends LazyModule
{
val model = LazyModule(new TLRAMModel("TLFuzzRAM"))
val ram = LazyModule(new TLRAM(AddressSet(0x800, 0x7ff)))
val ram2 = LazyModule(new TLRAM(AddressSet(0, 0x3ff), beatBytes = 16))
val gpio = LazyModule(new RRTest1(0x400))
val xbar = LazyModule(new TLXbar)
val xbar2= LazyModule(new TLXbar)
val fuzz = LazyModule(new TLFuzzer(5000))
val cross = LazyModule(new TLAsyncCrossing)
model.node := fuzz.node
xbar2.node := TLAtomicAutomata()(model.node)
ram2.node := TLFragmenter(16, 256)(xbar2.node)
xbar.node := TLWidthWidget(16)(TLHintHandler()(xbar2.node))
cross.node := TLFragmenter(4, 256)(TLBuffer()(xbar.node))
val monitor = (ram.node := cross.node)
gpio.node := TLFragmenter(4, 32)(TLBuffer()(xbar.node))
lazy val module = new LazyModuleImp(this) with HasUnitTestIO {
io.finished := fuzz.module.io.finished
// Shove the RAM into another clock domain
val clocks = Module(new util.Pow2ClockDivider(2))
ram.module.clock := clocks.io.clock_out
// ... and safely cross TL2 into it
cross.module.io.in_clock := clock
cross.module.io.in_reset := reset
cross.module.io.out_clock := clocks.io.clock_out
cross.module.io.out_reset := reset
// Push the Monitor into the right clock domain
monitor.foreach { m =>
m.module.clock := clocks.io.clock_out
m.module.reset := reset
}
}
}
class TLFuzzRAMTest()(implicit p: Parameters) extends UnitTest(500000) {
val dut = Module(LazyModule(new TLFuzzRAM).module)
io.finished := dut.io.finished
}
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