@ -27,6 +27,7 @@ end mmu;
architecture behave of mmu is
type state_t is (IDLE,
DO_TLBIE,
TLB_WAIT,
PROC_TBL_READ,
PROC_TBL_WAIT,
@ -44,6 +45,7 @@ architecture behave of mmu is
store : std_ulogic;
priv : std_ulogic;
addr : std_ulogic_vector(63 downto 0);
inval_all : std_ulogic;
-- config SPRs
prtbl : std_ulogic_vector(63 downto 0);
pid : std_ulogic_vector(31 downto 0);
@ -178,7 +180,6 @@ begin
variable tlb_load : std_ulogic;
variable itlb_load : std_ulogic;
variable tlbie_req : std_ulogic;
variable inval_all : std_ulogic;
variable prtbl_rd : std_ulogic;
variable pt_valid : std_ulogic;
variable effpid : std_ulogic_vector(31 downto 0);
@ -207,7 +208,7 @@ begin
tlb_load := '0';
itlb_load := '0';
tlbie_req := '0';
inval_all := '0';
v.inval_all := '0';
prtbl_rd := '0';
-- Radix tree data structures in memory are big-endian,
@ -240,11 +241,9 @@ begin
v.store := not (l_in.load or l_in.iside);
v.priv := l_in.priv;
if l_in.tlbie = '1' then
dcreq := '1';
tlbie_req := '1';
-- Invalidate all iTLB/dTLB entries for tlbie with
-- RB[IS] != 0 or RB[AP] != 0, or for slbia
inval_all := l_in.slbia or l_in.addr(11) or l_in.addr(10) or
v.inval_all := l_in.slbia or l_in.addr(11) or l_in.addr(10) or
l_in.addr(7) or l_in.addr(6) or l_in.addr(5);
-- The RIC field of the tlbie instruction comes across on the
-- sprn bus as bits 2--3. RIC=2 flushes process table caches.
@ -252,7 +251,7 @@ begin
v.pt0_valid := '0';
v.pt3_valid := '0';
end if;
v.state := TLB_WAIT;
v.state := DO_TLBIE;
else
v.valid := '1';
if pt_valid = '0' then
@ -281,11 +280,14 @@ begin
v.pt3_valid := '0';
end if;
v.pt0_valid := '0';
v.inval_all := '1';
v.state := DO_TLBIE;
end if;
when DO_TLBIE =>
dcreq := '1';
tlbie_req := '1';
inval_all := '1';
v.state := TLB_WAIT;
end if;
when TLB_WAIT =>
if d_in.done = '1' then
@ -436,8 +438,8 @@ begin
-- drive outputs
if tlbie_req = '1' then
addr := l_in.addr;
tlb_data := l_in.rs;
addr := r.addr;
tlb_data := (others => '0');
elsif tlb_load = '1' then
addr := r.addr(63 downto 12) & x"000";
tlb_data := pte;
@ -458,14 +460,14 @@ begin
d_out.valid <= dcreq;
d_out.tlbie <= tlbie_req;
d_out.doall <= inval_all;
d_out.doall <= r.inval_all;
d_out.tlbld <= tlb_load;
d_out.addr <= addr;
d_out.pte <= tlb_data;
i_out.tlbld <= itlb_load;
i_out.tlbie <= tlbie_req;
i_out.doall <= inval_all;
i_out.doall <= r.inval_all;
i_out.addr <= addr;
i_out.pte <= tlb_data;