rocket-chip/rocket/src/main/scala/tlb.scala

package rocket

import Chisel._;
import Node._;
import Constants._;
import scala.math._;

class ioCAM(entries: Int, addr_bits: Int, tag_bits: Int) extends Bundle {
    val clear        = Bool(INPUT);
    val clear_hit    = Bool(INPUT)
    val tag          = Bits(INPUT, tag_bits);
    val hit          = Bool(OUTPUT);
    val hits         = UFix(OUTPUT, entries);
    val valid_bits   = Bits(OUTPUT, entries);
    
    val write        = Bool(INPUT);
    val write_tag    = Bits(INPUT, tag_bits);
    val write_addr    = UFix(INPUT, addr_bits);
}

class rocketCAM(entries: Int, tag_bits: Int) extends Component {
  val addr_bits = ceil(log(entries)/log(2)).toInt;
  val io = new ioCAM(entries, addr_bits, tag_bits);
  val cam_tags = Vec(entries) { Reg() { Bits(width = tag_bits) } }

  val vb_array = Reg(resetVal = Bits(0, entries));
  when (io.write) {
    vb_array := vb_array.bitSet(io.write_addr, Bool(true));
    cam_tags(io.write_addr) := io.write_tag
  }
  when (io.clear) {
    vb_array := Bits(0, entries);
  }
  .elsewhen (io.clear_hit) {
    vb_array := vb_array & ~io.hits
  }
  
  val hits = (0 until entries).map(i => vb_array(i) && cam_tags(i) === io.tag)
  
  io.valid_bits := vb_array;
  io.hits := Vec(hits){Bool()}.toBits.toUFix
  io.hit := io.hits.orR
}

class PseudoLRU(n: Int)
{
  val state = Reg() { Bits(width = n) }
  def access(way: UFix) = {
    var next_state = state
    var idx = UFix(1,1)
    for (i <- log2Up(n)-1 to 0 by -1) {
      val bit = way(i)
      val mask = (UFix(1,n) << idx)(n-1,0)
      next_state = next_state & ~mask | Mux(bit, UFix(0), mask)
      //next_state.bitSet(idx, !bit)
      idx = Cat(idx, bit)
    }
    state := next_state
  }
  def replace = {
    var idx = UFix(1,1)
    for (i <- 0 until log2Up(n))
      idx = Cat(idx, state(idx))
    idx(log2Up(n)-1,0)
  }
}

class TLBReq extends Bundle
{
  val asid = UFix(width = ASID_BITS)
  val vpn = UFix(width = VPN_BITS+1)
  val passthrough = Bool()
  val instruction = Bool()
}

class TLBResp(entries: Int) extends Bundle
{
  // lookup responses
  val miss = Bool(OUTPUT)
  val hit_idx = UFix(OUTPUT, entries)
  val ppn = UFix(OUTPUT, PPN_BITS)
  val xcpt_ld = Bool(OUTPUT)
  val xcpt_st = Bool(OUTPUT)
  val xcpt_if = Bool(OUTPUT)

  override def clone = new TLBResp(entries).asInstanceOf[this.type]
}

class TLB(entries: Int) extends Component
{
  val io = new Bundle {
    val req = new FIFOIO()(new TLBReq).flip
    val resp = new TLBResp(entries)
    val ptw = new TLBPTWIO
  }

  val s_ready :: s_request :: s_wait :: s_wait_invalidate :: Nil = Enum(4) { UFix() }
  val state = Reg(resetVal = s_ready)
  val r_refill_tag = Reg() { UFix() }
  val r_refill_waddr = Reg() { UFix() }

  val tag_cam = new rocketCAM(entries, ASID_BITS+VPN_BITS);
  val tag_ram = Vec(entries) { Reg() { io.ptw.resp.bits.ppn.clone } }
  
  val lookup_tag = Cat(io.req.bits.asid, io.req.bits.vpn).toUFix
  tag_cam.io.clear := io.ptw.invalidate
  tag_cam.io.clear_hit := io.req.fire() && Mux(io.req.bits.instruction, io.resp.xcpt_if, io.resp.xcpt_ld && io.resp.xcpt_st)
  tag_cam.io.tag := lookup_tag
  tag_cam.io.write := state === s_wait && io.ptw.resp.valid
  tag_cam.io.write_tag := r_refill_tag
  tag_cam.io.write_addr := r_refill_waddr
  val tag_hit = tag_cam.io.hit
  val tag_hit_addr = OHToUFix(tag_cam.io.hits)
  
  // permission bit arrays
  val ur_array = Reg{Bits()} // user read permission
  val uw_array = Reg{Bits()} // user write permission
  val ux_array = Reg{Bits()} // user execute permission
  val sr_array = Reg{Bits()} // supervisor read permission
  val sw_array = Reg{Bits()} // supervisor write permission
  val sx_array = Reg{Bits()} // supervisor execute permission
  when (io.ptw.resp.valid) {
    tag_ram(r_refill_waddr) := io.ptw.resp.bits.ppn
    val perm = (!io.ptw.resp.bits.error).toFix & io.ptw.resp.bits.perm(5,0)
    ur_array := ur_array.bitSet(r_refill_waddr, perm(2))
    uw_array := uw_array.bitSet(r_refill_waddr, perm(1))
    ux_array := ux_array.bitSet(r_refill_waddr, perm(0))
    sr_array := sr_array.bitSet(r_refill_waddr, perm(5))
    sw_array := sw_array.bitSet(r_refill_waddr, perm(4))
    sx_array := sx_array.bitSet(r_refill_waddr, perm(3))
  }
 
  // high if there are any unused (invalid) entries in the TLB
  val has_invalid_entry = !tag_cam.io.valid_bits.andR
  val invalid_entry = PriorityEncoder(~tag_cam.io.valid_bits)
  val plru = new PseudoLRU(entries)
  val repl_waddr = Mux(has_invalid_entry, invalid_entry, plru.replace)
  
  val bad_va = io.req.bits.vpn(VPN_BITS) != io.req.bits.vpn(VPN_BITS-1)
  val tlb_hit  = io.ptw.status.vm && tag_hit
  val tlb_miss = io.ptw.status.vm && !tag_hit && !bad_va
  
  when (io.req.valid && tlb_hit) {
    plru.access(OHToUFix(tag_cam.io.hits))
  }

  io.req.ready := state === s_ready
  io.resp.xcpt_ld := bad_va || tlb_hit && !Mux(io.ptw.status.s, (sr_array & tag_cam.io.hits).orR, (ur_array & tag_cam.io.hits).orR)
  io.resp.xcpt_st := bad_va || tlb_hit && !Mux(io.ptw.status.s, (sw_array & tag_cam.io.hits).orR, (uw_array & tag_cam.io.hits).orR)
  io.resp.xcpt_if := bad_va || tlb_hit && !Mux(io.ptw.status.s, (sx_array & tag_cam.io.hits).orR, (ux_array & tag_cam.io.hits).orR)
  io.resp.miss := tlb_miss
  io.resp.ppn := Mux(io.ptw.status.vm && !io.req.bits.passthrough, Mux1H(tag_cam.io.hits, tag_ram), io.req.bits.vpn(PPN_BITS-1,0))
  io.resp.hit_idx := tag_cam.io.hits
  
  io.ptw.req.valid := state === s_request
  io.ptw.req.bits := r_refill_tag

  when (io.req.fire() && tlb_miss) {
    state := s_request
    r_refill_tag := lookup_tag
    r_refill_waddr := repl_waddr
  }
  when (state === s_request) {
    when (io.ptw.invalidate) {
      state := s_ready
    }
    when (io.ptw.req.ready) {
      state := s_wait
      when (io.ptw.invalidate) { state := s_wait_invalidate }
    }
  }
  when (state === s_wait && io.ptw.invalidate) {
    state := s_wait_invalidate
  }
  when (io.ptw.resp.valid) {
    state := s_ready
  }
}
merge I$, ITLB, BTB into Frontend 2012-10-10 06:35:03 +02:00			`package rocket`

			`import Chisel._;`
			`import Node._;`
			`import Constants._;`
			`import scala.math._;`

			`class ioCAM(entries: Int, addr_bits: Int, tag_bits: Int) extends Bundle {`
			`val clear = Bool(INPUT);`
			`val clear_hit = Bool(INPUT)`
			`val tag = Bits(INPUT, tag_bits);`
			`val hit = Bool(OUTPUT);`
			`val hits = UFix(OUTPUT, entries);`
			`val valid_bits = Bits(OUTPUT, entries);`

			`val write = Bool(INPUT);`
			`val write_tag = Bits(INPUT, tag_bits);`
			`val write_addr = UFix(INPUT, addr_bits);`
			`}`

			`class rocketCAM(entries: Int, tag_bits: Int) extends Component {`
			`val addr_bits = ceil(log(entries)/log(2)).toInt;`
			`val io = new ioCAM(entries, addr_bits, tag_bits);`
			`val cam_tags = Vec(entries) { Reg() { Bits(width = tag_bits) } }`

			`val vb_array = Reg(resetVal = Bits(0, entries));`
			`when (io.write) {`
			`vb_array := vb_array.bitSet(io.write_addr, Bool(true));`
			`cam_tags(io.write_addr) := io.write_tag`
			`}`
			`when (io.clear) {`
			`vb_array := Bits(0, entries);`
			`}`
			`.elsewhen (io.clear_hit) {`
			`vb_array := vb_array & ~io.hits`
			`}`

			`val hits = (0 until entries).map(i => vb_array(i) && cam_tags(i) === io.tag)`

			`io.valid_bits := vb_array;`
			`io.hits := Vec(hits){Bool()}.toBits.toUFix`
			`io.hit := io.hits.orR`
			`}`

			`class PseudoLRU(n: Int)`
			`{`
			`val state = Reg() { Bits(width = n) }`
			`def access(way: UFix) = {`
			`var next_state = state`
			`var idx = UFix(1,1)`
			`for (i <- log2Up(n)-1 to 0 by -1) {`
			`val bit = way(i)`
			`val mask = (UFix(1,n) << idx)(n-1,0)`
			`next_state = next_state & ~mask \| Mux(bit, UFix(0), mask)`
			`//next_state.bitSet(idx, !bit)`
			`idx = Cat(idx, bit)`
			`}`
			`state := next_state`
			`}`
			`def replace = {`
			`var idx = UFix(1,1)`
			`for (i <- 0 until log2Up(n))`
			`idx = Cat(idx, state(idx))`
			`idx(log2Up(n)-1,0)`
			`}`
			`}`

			`class TLBReq extends Bundle`
			`{`
			`val asid = UFix(width = ASID_BITS)`
			`val vpn = UFix(width = VPN_BITS+1)`
remove more global consts; refactor DTLBs D$ now contains DTLB. provide full VAddr with initial request. VU now has its own DTLBs. 2012-11-06 17:13:44 +01:00			`val passthrough = Bool()`
merge I$, ITLB, BTB into Frontend 2012-10-10 06:35:03 +02:00			`val instruction = Bool()`
			`}`

			`class TLBResp(entries: Int) extends Bundle`
			`{`
			`// lookup responses`
			`val miss = Bool(OUTPUT)`
			`val hit_idx = UFix(OUTPUT, entries)`
			`val ppn = UFix(OUTPUT, PPN_BITS)`
			`val xcpt_ld = Bool(OUTPUT)`
			`val xcpt_st = Bool(OUTPUT)`
			`val xcpt_if = Bool(OUTPUT)`

			`override def clone = new TLBResp(entries).asInstanceOf[this.type]`
			`}`

			`class TLB(entries: Int) extends Component`
			`{`
			`val io = new Bundle {`
			`val req = new FIFOIO()(new TLBReq).flip`
			`val resp = new TLBResp(entries)`
standardize IO naming convention 2013-01-07 22:38:59 +01:00			`val ptw = new TLBPTWIO`
merge I$, ITLB, BTB into Frontend 2012-10-10 06:35:03 +02:00			`}`

			`val s_ready :: s_request :: s_wait :: s_wait_invalidate :: Nil = Enum(4) { UFix() }`
			`val state = Reg(resetVal = s_ready)`
			`val r_refill_tag = Reg() { UFix() }`
			`val r_refill_waddr = Reg() { UFix() }`

			`val tag_cam = new rocketCAM(entries, ASID_BITS+VPN_BITS);`
			`val tag_ram = Vec(entries) { Reg() { io.ptw.resp.bits.ppn.clone } }`

			`val lookup_tag = Cat(io.req.bits.asid, io.req.bits.vpn).toUFix`
remove more global consts; refactor DTLBs D$ now contains DTLB. provide full VAddr with initial request. VU now has its own DTLBs. 2012-11-06 17:13:44 +01:00			`tag_cam.io.clear := io.ptw.invalidate`
merge I$, ITLB, BTB into Frontend 2012-10-10 06:35:03 +02:00			`tag_cam.io.clear_hit := io.req.fire() && Mux(io.req.bits.instruction, io.resp.xcpt_if, io.resp.xcpt_ld && io.resp.xcpt_st)`
			`tag_cam.io.tag := lookup_tag`
			`tag_cam.io.write := state === s_wait && io.ptw.resp.valid`
			`tag_cam.io.write_tag := r_refill_tag`
			`tag_cam.io.write_addr := r_refill_waddr`
			`val tag_hit = tag_cam.io.hit`
			`val tag_hit_addr = OHToUFix(tag_cam.io.hits)`

			`// permission bit arrays`
improve tlb qor 2012-11-16 10:59:38 +01:00			`val ur_array = Reg{Bits()} // user read permission`
			`val uw_array = Reg{Bits()} // user write permission`
			`val ux_array = Reg{Bits()} // user execute permission`
			`val sr_array = Reg{Bits()} // supervisor read permission`
			`val sw_array = Reg{Bits()} // supervisor write permission`
			`val sx_array = Reg{Bits()} // supervisor execute permission`
			`when (io.ptw.resp.valid) {`
			`tag_ram(r_refill_waddr) := io.ptw.resp.bits.ppn`
merge I$, ITLB, BTB into Frontend 2012-10-10 06:35:03 +02:00			`val perm = (!io.ptw.resp.bits.error).toFix & io.ptw.resp.bits.perm(5,0)`
			`ur_array := ur_array.bitSet(r_refill_waddr, perm(2))`
			`uw_array := uw_array.bitSet(r_refill_waddr, perm(1))`
			`ux_array := ux_array.bitSet(r_refill_waddr, perm(0))`
			`sr_array := sr_array.bitSet(r_refill_waddr, perm(5))`
			`sw_array := sw_array.bitSet(r_refill_waddr, perm(4))`
			`sx_array := sx_array.bitSet(r_refill_waddr, perm(3))`
			`}`

			`// high if there are any unused (invalid) entries in the TLB`
			`val has_invalid_entry = !tag_cam.io.valid_bits.andR`
			`val invalid_entry = PriorityEncoder(~tag_cam.io.valid_bits)`
			`val plru = new PseudoLRU(entries)`
			`val repl_waddr = Mux(has_invalid_entry, invalid_entry, plru.replace)`

			`val bad_va = io.req.bits.vpn(VPN_BITS) != io.req.bits.vpn(VPN_BITS-1)`
refactor PCR file 2012-11-27 10:28:06 +01:00			`val tlb_hit = io.ptw.status.vm && tag_hit`
			`val tlb_miss = io.ptw.status.vm && !tag_hit && !bad_va`
merge I$, ITLB, BTB into Frontend 2012-10-10 06:35:03 +02:00
			`when (io.req.valid && tlb_hit) {`
improve tlb qor 2012-11-16 10:59:38 +01:00			`plru.access(OHToUFix(tag_cam.io.hits))`
merge I$, ITLB, BTB into Frontend 2012-10-10 06:35:03 +02:00			`}`

			`io.req.ready := state === s_ready`
refactor PCR file 2012-11-27 10:28:06 +01:00			`io.resp.xcpt_ld := bad_va \|\| tlb_hit && !Mux(io.ptw.status.s, (sr_array & tag_cam.io.hits).orR, (ur_array & tag_cam.io.hits).orR)`
			`io.resp.xcpt_st := bad_va \|\| tlb_hit && !Mux(io.ptw.status.s, (sw_array & tag_cam.io.hits).orR, (uw_array & tag_cam.io.hits).orR)`
			`io.resp.xcpt_if := bad_va \|\| tlb_hit && !Mux(io.ptw.status.s, (sx_array & tag_cam.io.hits).orR, (ux_array & tag_cam.io.hits).orR)`
merge I$, ITLB, BTB into Frontend 2012-10-10 06:35:03 +02:00			`io.resp.miss := tlb_miss`
refactor PCR file 2012-11-27 10:28:06 +01:00			`io.resp.ppn := Mux(io.ptw.status.vm && !io.req.bits.passthrough, Mux1H(tag_cam.io.hits, tag_ram), io.req.bits.vpn(PPN_BITS-1,0))`
merge I$, ITLB, BTB into Frontend 2012-10-10 06:35:03 +02:00			`io.resp.hit_idx := tag_cam.io.hits`

			`io.ptw.req.valid := state === s_request`
			`io.ptw.req.bits := r_refill_tag`

			`when (io.req.fire() && tlb_miss) {`
			`state := s_request`
			`r_refill_tag := lookup_tag`
			`r_refill_waddr := repl_waddr`
			`}`
			`when (state === s_request) {`
remove more global consts; refactor DTLBs D$ now contains DTLB. provide full VAddr with initial request. VU now has its own DTLBs. 2012-11-06 17:13:44 +01:00			`when (io.ptw.invalidate) {`
merge I$, ITLB, BTB into Frontend 2012-10-10 06:35:03 +02:00			`state := s_ready`
			`}`
			`when (io.ptw.req.ready) {`
			`state := s_wait`
remove more global consts; refactor DTLBs D$ now contains DTLB. provide full VAddr with initial request. VU now has its own DTLBs. 2012-11-06 17:13:44 +01:00			`when (io.ptw.invalidate) { state := s_wait_invalidate }`
merge I$, ITLB, BTB into Frontend 2012-10-10 06:35:03 +02:00			`}`
			`}`
remove more global consts; refactor DTLBs D$ now contains DTLB. provide full VAddr with initial request. VU now has its own DTLBs. 2012-11-06 17:13:44 +01:00			`when (state === s_wait && io.ptw.invalidate) {`
merge I$, ITLB, BTB into Frontend 2012-10-10 06:35:03 +02:00			`state := s_wait_invalidate`
			`}`
improve tlb qor 2012-11-16 10:59:38 +01:00			`when (io.ptw.resp.valid) {`
merge I$, ITLB, BTB into Frontend 2012-10-10 06:35:03 +02:00			`state := s_ready`
			`}`
			`}`