Flush pipeline after PMP CSR writes
This commit is contained in:
Samuel Lindemer
parent
97fe279f7b
commit
2d0ebf1ef5
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@ -40,7 +40,7 @@ object GenZephyr extends App{
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),
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new PmpPlugin(
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regions = 16,
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ioRange = _(31 downto 28) === 0xF
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ioRange = _(31 downto 28) === 0xf
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),
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new DecoderSimplePlugin(
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catchIllegalInstruction = true
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@ -65,30 +65,32 @@ import scala.collection.mutable.ArrayBuffer
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case class PmpRegister() extends Area {
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// Addressing options
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// Addressing options (TOR not supported)
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def TOR = 1
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def NA4 = 2
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def NAPOT = 3
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// Software-accessible CSR interface
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val csr = new Area {
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val r, w, x, l = RegInit(False)
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val r, w, x = Reg(Bool)
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val l = RegInit(False)
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val a = Reg(UInt(2 bits)) init(0)
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val addr = Reg(UInt(32 bits))
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}
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// Active region bounds and permissions (internal)
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val region = new Area {
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val r, w, x = Reg(Bool)
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val l = RegInit(False)
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val start = Reg(UInt(32 bits))
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val end = Reg(UInt(32 bits))
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val valid = RegInit(False)
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val lock, valid = RegInit(False)
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val start, end = Reg(UInt(32 bits))
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}
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// Internal CSR state is locked until reset if L-bit set
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when(~region.l) {
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region.r := csr.r
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region.w := csr.w
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region.x := csr.x
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region.l := csr.l
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// Internal PMP state is locked until reset once the L-bit is set.
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when(~region.lock) {
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region.r := csr.r
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region.w := csr.w
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region.x := csr.x
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region.lock := csr.l
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switch(csr.a) {
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is(NA4) {
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@ -123,6 +125,7 @@ class PmpPlugin(regions : Int, ioRange : UInt => Bool) extends Plugin[VexRiscv]
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val pmps = ArrayBuffer[PmpRegister]()
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val portsInfo = ArrayBuffer[ProtectedMemoryTranslatorPort]()
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var redoInterface : Flow[UInt] = null
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override def newTranslationPort(priority : Int, args : Any): MemoryTranslatorBus = {
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val port = ProtectedMemoryTranslatorPort(MemoryTranslatorBus())
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@ -131,35 +134,51 @@ class PmpPlugin(regions : Int, ioRange : UInt => Bool) extends Plugin[VexRiscv]
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}
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override def build(pipeline: VexRiscv): Unit = {
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import pipeline._
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import pipeline.config._
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import pipeline._
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import Riscv._
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val csrService = pipeline.service(classOf[CsrInterface])
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val privilegeService = pipeline.service(classOf[PrivilegeService])
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var pcManagerService = pipeline.service(classOf[JumpService])
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// Flush proceeding instructions and replay them after any CSR write.
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redoInterface = pcManagerService.createJumpInterface(pipeline.execute, -1)
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redoInterface.valid := False
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redoInterface.payload := decode.input(PC)
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val core = pipeline plug new Area {
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redoInterface.valid := False
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// Instantiate pmpaddr0 ... pmpaddr# CSRs.
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for (n <- 0 until regions) {
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for (i <- 0 until regions) {
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pmps += PmpRegister()
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csrService.rw(0x3B0 + n, pmps(n).csr.addr)
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csrService.rw(0x3b0 + i, pmps(i).csr.addr)
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csrService.onWrite(0x3b0 + i) {
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execute.arbitration.flushNext := True
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redoInterface.valid := True
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}
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}
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// Instantiate pmpcfg0 ... pmpcfg# CSRs.
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for (n <- 0 until (regions / 4)) {
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csrService.rw(0x3A0 + n,
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31 -> pmps((n * 4) + 3).csr.l, 23 -> pmps((n * 4) + 2).csr.l,
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15 -> pmps((n * 4) + 1).csr.l, 7 -> pmps((n * 4) ).csr.l,
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27 -> pmps((n * 4) + 3).csr.a, 26 -> pmps((n * 4) + 3).csr.x,
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25 -> pmps((n * 4) + 3).csr.w, 24 -> pmps((n * 4) + 3).csr.r,
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19 -> pmps((n * 4) + 2).csr.a, 18 -> pmps((n * 4) + 2).csr.x,
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17 -> pmps((n * 4) + 2).csr.w, 16 -> pmps((n * 4) + 2).csr.r,
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11 -> pmps((n * 4) + 1).csr.a, 10 -> pmps((n * 4) + 1).csr.x,
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9 -> pmps((n * 4) + 1).csr.w, 8 -> pmps((n * 4) + 1).csr.r,
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3 -> pmps((n * 4) ).csr.a, 2 -> pmps((n * 4) ).csr.x,
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1 -> pmps((n * 4) ).csr.w, 0 -> pmps((n * 4) ).csr.r
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for (i <- 0 until (regions / 4)) {
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csrService.rw(0x3a0 + i,
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31 -> pmps((i * 4) + 3).csr.l, 23 -> pmps((i * 4) + 2).csr.l,
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15 -> pmps((i * 4) + 1).csr.l, 7 -> pmps((i * 4) ).csr.l,
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27 -> pmps((i * 4) + 3).csr.a, 26 -> pmps((i * 4) + 3).csr.x,
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25 -> pmps((i * 4) + 3).csr.w, 24 -> pmps((i * 4) + 3).csr.r,
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19 -> pmps((i * 4) + 2).csr.a, 18 -> pmps((i * 4) + 2).csr.x,
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17 -> pmps((i * 4) + 2).csr.w, 16 -> pmps((i * 4) + 2).csr.r,
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11 -> pmps((i * 4) + 1).csr.a, 10 -> pmps((i * 4) + 1).csr.x,
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9 -> pmps((i * 4) + 1).csr.w, 8 -> pmps((i * 4) + 1).csr.r,
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3 -> pmps((i * 4) ).csr.a, 2 -> pmps((i * 4) ).csr.x,
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1 -> pmps((i * 4) ).csr.w, 0 -> pmps((i * 4) ).csr.r
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)
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csrService.onWrite(0x3a0 + i) {
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execute.arbitration.flushNext := True
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redoInterface.valid := True
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}
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}
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// Connect memory ports to PMP logic.
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@ -168,13 +187,13 @@ class PmpPlugin(regions : Int, ioRange : UInt => Bool) extends Plugin[VexRiscv]
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val address = port.bus.cmd.virtualAddress
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port.bus.rsp.physicalAddress := address
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// Only the first matching PMP region is applied.
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// Only the first matching PMP region applies.
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val hits = pmps.map(pmp => pmp.region.valid &&
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pmp.region.start <= address &&
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pmp.region.end > address &&
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(pmp.region.l || ~privilegeService.isMachine()))
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(pmp.region.lock || ~privilegeService.isMachine()))
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// M-mode has full access by default. All others have none by default.
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// M-mode has full access by default, others have none.
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when(CountOne(hits) === 0) {
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port.bus.rsp.allowRead := privilegeService.isMachine()
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port.bus.rsp.allowWrite := privilegeService.isMachine()
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