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rocket-chip/rocket/src/main/scala/ptw.scala
Rimas Avizienis e4fa94aa27 checkpoint
2011-11-10 17:41:22 -08:00

194 lines
5.6 KiB
Scala

package Top {
import Chisel._;
import Node._;
import Constants._;
import scala.math._;
class ioDmemArbiter extends Bundle
{
val ptw = new ioDmem(List("req_val", "req_rdy", "req_cmd", "req_type", "req_addr", "resp_data", "resp_val"));
val cpu = new ioDmem();
val mem = new ioDmem().flip();
}
class rocketDmemArbiter extends Component
{
val io = new ioDmemArbiter();
io.mem.req_val := io.ptw.req_val || io.cpu.req_val;
io.mem.req_cmd := Mux(io.ptw.req_val, io.ptw.req_cmd, io.cpu.req_cmd);
io.mem.req_type := Mux(io.ptw.req_val, io.ptw.req_type, io.cpu.req_type);
io.mem.req_addr := Mux(io.ptw.req_val, io.ptw.req_addr, io.cpu.req_addr);
io.mem.req_data := io.cpu.req_data;
io.mem.req_tag := Mux(io.ptw.req_val, Bits(0,5), io.cpu.req_tag);
io.ptw.req_rdy := io.mem.req_rdy;
io.cpu.req_rdy := io.mem.req_rdy && !io.ptw.req_val;
io.cpu.resp_miss := io.mem.resp_miss && !io.mem.resp_tag(11).toBool;
io.cpu.resp_val := io.mem.resp_val && !io.mem.resp_tag(11).toBool;
io.ptw.resp_val := io.mem.resp_val && io.mem.resp_tag(11).toBool;
io.ptw.resp_data := io.mem.resp_data;
io.cpu.resp_data := io.mem.resp_data;
// io.cpu.resp_tag := io.mem.resp_tag(10,0);
io.cpu.resp_tag := io.mem.resp_tag;
}
class ioPTW extends Bundle
{
val itlb = new ioTLB_PTW().flip();
val dtlb = new ioTLB_PTW().flip();
val dmem = new ioDmem(List("req_val", "req_rdy", "req_cmd", "req_type", "req_addr", "resp_data", "resp_val")).flip();
val ptbr = UFix(PADDR_BITS, 'input);
}
class rocketPTW extends Component
{
val io = new ioPTW();
val s_ready :: s_l1_req :: s_l1_wait :: s_l1_fake :: s_l2_req :: s_l2_wait :: s_l2_fake:: s_l3_req :: s_l3_wait :: s_done :: s_error :: Nil = Enum(11) { UFix() };
val state = Reg(resetVal = s_ready);
val r_req_vpn = Reg(resetVal = Bits(0,VPN_BITS));
val r_req_dest = Reg(resetVal = Bool(false)); // 0 = ITLB, 1 = DTLB
val req_addr = Reg(resetVal = UFix(0,PADDR_BITS));
val r_resp_ppn = Reg(resetVal = Bits(0,PPN_BITS));
val r_resp_perm = Reg(resetVal = Bits(0,PERM_BITS));
val vpn_idx = Mux(state === s_l2_wait, r_req_vpn(9,0), r_req_vpn(19,10));
val req_val = io.itlb.req_val || io.dtlb.req_val;
// give ITLB requests priority over DTLB requests
val req_itlb_val = io.itlb.req_val;
val req_dtlb_val = io.dtlb.req_val && !io.itlb.req_val;
when ((state === s_ready) && req_itlb_val) {
r_req_vpn <== io.itlb.req_vpn;
r_req_dest <== Bool(false);
req_addr <== Cat(io.ptbr(PADDR_BITS-1,PGIDX_BITS), io.itlb.req_vpn(VPN_BITS-1,VPN_BITS-10), Bits(0,3)).toUFix;
}
when ((state === s_ready) && req_dtlb_val) {
r_req_vpn <== io.dtlb.req_vpn;
r_req_dest <== Bool(true);
req_addr <== Cat(io.ptbr(PADDR_BITS-1,PGIDX_BITS), io.dtlb.req_vpn(VPN_BITS-1,VPN_BITS-10), Bits(0,3)).toUFix;
}
when (io.dmem.resp_val) {
req_addr <== Cat(io.dmem.resp_data(PADDR_BITS-1, PGIDX_BITS), vpn_idx, Bits(0,3)).toUFix;
r_resp_perm <== io.dmem.resp_data(9,4);
r_resp_ppn <== io.dmem.resp_data(PADDR_BITS-1, PGIDX_BITS);
}
io.dmem.req_val :=
(state === s_l1_req) ||
(state === s_l2_req) ||
(state === s_l3_req);
io.dmem.req_cmd := M_PRD;
io.dmem.req_type := MT_D;
io.dmem.req_addr := req_addr;
val resp_val = (state === s_done) || (state === s_l1_fake) || (state === s_l2_fake);
val resp_err = (state === s_error);
val resp_ptd = (io.dmem.resp_data(1,0) === Bits(1,2));
val resp_pte = (io.dmem.resp_data(1,0) === Bits(2,2));
io.dtlb.req_rdy := (state === s_ready) && !io.itlb.req_val;
io.itlb.req_rdy := (state === s_ready);
io.dtlb.resp_val := r_req_dest && resp_val;
io.itlb.resp_val := !r_req_dest && resp_val;
io.dtlb.resp_err := r_req_dest && resp_err;
io.itlb.resp_err := !r_req_dest && resp_err;
io.dtlb.resp_perm := r_resp_perm;
io.itlb.resp_perm := r_resp_perm;
val resp_ppn =
Mux(state === s_l1_fake, Cat(r_resp_ppn(PPN_BITS-1, PPN_BITS-7), r_req_vpn(VPN_BITS-11, 0)),
Mux(state === s_l2_fake, Cat(r_resp_ppn(PPN_BITS-1, PPN_BITS-17), r_req_vpn(VPN_BITS-21, 0)),
r_resp_ppn));
io.dtlb.resp_ppn := resp_ppn;
io.itlb.resp_ppn := resp_ppn;
// control state machine
switch (state) {
is (s_ready) {
when (req_val) {
state <== s_l1_req;
}
}
// level 1
is (s_l1_req) {
when (io.dmem.req_rdy) {
state <== s_l1_wait;
}
}
is (s_l1_wait) {
when (io.dmem.resp_val) {
when (resp_ptd) { // page table descriptor
state <== s_l2_req;
}
when (resp_pte) { // page table entry
state <== s_l1_fake;
}
otherwise {
state <== s_error;
}
}
}
is (s_l1_fake) {
state <== s_ready;
}
// level 2
is (s_l2_req) {
when (io.dmem.req_rdy) {
state <== s_l2_wait;
}
}
is (s_l2_wait) {
when (io.dmem.resp_val) {
when (resp_ptd) { // page table descriptor
state <== s_l3_req;
}
when (resp_pte) { // page table entry
state <== s_l2_fake;
}
otherwise {
state <== s_error;
}
}
}
is (s_l2_fake) {
state <== s_ready;
}
// level 3
is (s_l3_req) {
when (io.dmem.req_rdy) {
state <== s_l3_wait;
}
}
is (s_l3_wait) {
when (io.dmem.resp_val) {
when (resp_pte) { // page table entry
state <== s_done;
}
otherwise {
state <== s_error;
}
}
}
is (s_done) {
state <== s_ready;
}
is (s_error) {
state <== s_ready;
}
}
}
}