You cannot select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
microwatt/mmu.vhdl

341 lines
12 KiB
VHDL

library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
library work;
use work.common.all;
-- Radix MMU
-- Supports 4-level trees as in arch 3.0B, but not the two-step translation for
-- guests under a hypervisor (i.e. there is no gRA -> hRA translation).
entity mmu is
port (
clk : in std_ulogic;
rst : in std_ulogic;
l_in : in Loadstore1ToMmuType;
l_out : out MmuToLoadstore1Type;
d_out : out MmuToDcacheType;
d_in : in DcacheToMmuType
);
end mmu;
architecture behave of mmu is
type state_t is (IDLE,
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
TLB_WAIT,
SEGMENT_CHECK,
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
RADIX_LOOKUP,
RADIX_READ_WAIT,
RADIX_LOAD_TLB,
RADIX_ERROR
);
type reg_stage_t is record
-- latched request from loadstore1
valid : std_ulogic;
store : std_ulogic;
priv : std_ulogic;
addr : std_ulogic_vector(63 downto 0);
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
-- internal state
state : state_t;
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
pgtbl0 : std_ulogic_vector(63 downto 0);
shift : unsigned(5 downto 0);
mask_size : unsigned(4 downto 0);
pgbase : std_ulogic_vector(55 downto 0);
pde : std_ulogic_vector(63 downto 0);
invalid : std_ulogic;
badtree : std_ulogic;
segerror : std_ulogic;
perm_err : std_ulogic;
rc_error : std_ulogic;
end record;
signal r, rin : reg_stage_t;
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
signal addrsh : std_ulogic_vector(15 downto 0);
signal mask : std_ulogic_vector(15 downto 0);
signal finalmask : std_ulogic_vector(43 downto 0);
begin
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
-- Multiplex internal SPR values back to loadstore1, selected
-- by l_in.sprn. Easy when there's only one...
l_out.sprval <= r.pgtbl0;
mmu_0: process(clk)
begin
if rising_edge(clk) then
if rst = '1' then
r.state <= IDLE;
r.valid <= '0';
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
r.pgtbl0 <= (others => '0');
else
if rin.valid = '1' then
report "MMU got tlb miss for " & to_hstring(rin.addr);
end if;
if l_out.done = '1' then
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
report "MMU completing op with invalid=" & std_ulogic'image(l_out.invalid) &
" badtree=" & std_ulogic'image(l_out.badtree);
end if;
if rin.state = RADIX_LOOKUP then
report "radix lookup shift=" & integer'image(to_integer(rin.shift)) &
" msize=" & integer'image(to_integer(rin.mask_size));
end if;
if r.state = RADIX_LOOKUP then
report "send load addr=" & to_hstring(d_out.addr) &
" addrsh=" & to_hstring(addrsh) & " mask=" & to_hstring(mask);
end if;
r <= rin;
end if;
end if;
end process;
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
-- Shift address bits 61--12 right by 0--47 bits and
-- supply the least significant 16 bits of the result.
addrshifter: process(all)
variable sh1 : std_ulogic_vector(30 downto 0);
variable sh2 : std_ulogic_vector(18 downto 0);
variable result : std_ulogic_vector(15 downto 0);
begin
case r.shift(5 downto 4) is
when "00" =>
sh1 := r.addr(42 downto 12);
when "01" =>
sh1 := r.addr(58 downto 28);
when others =>
sh1 := "0000000000000" & r.addr(61 downto 44);
end case;
case r.shift(3 downto 2) is
when "00" =>
sh2 := sh1(18 downto 0);
when "01" =>
sh2 := sh1(22 downto 4);
when "10" =>
sh2 := sh1(26 downto 8);
when others =>
sh2 := sh1(30 downto 12);
end case;
case r.shift(1 downto 0) is
when "00" =>
result := sh2(15 downto 0);
when "01" =>
result := sh2(16 downto 1);
when "10" =>
result := sh2(17 downto 2);
when others =>
result := sh2(18 downto 3);
end case;
addrsh <= result;
end process;
-- generate mask for extracting address fields for PTE address generation
addrmaskgen: process(all)
variable m : std_ulogic_vector(15 downto 0);
begin
-- mask_count has to be >= 5
m := x"001f";
for i in 5 to 15 loop
if i < to_integer(r.mask_size) then
m(i) := '1';
end if;
end loop;
mask <= m;
end process;
-- generate mask for extracting address bits to go in TLB entry
-- in order to support pages > 4kB
finalmaskgen: process(all)
variable m : std_ulogic_vector(43 downto 0);
begin
m := (others => '0');
for i in 0 to 43 loop
if i < to_integer(r.shift) then
m(i) := '1';
end if;
end loop;
finalmask <= m;
end process;
mmu_1: process(all)
variable v : reg_stage_t;
variable dcreq : std_ulogic;
variable done : std_ulogic;
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
variable tlb_load : std_ulogic;
variable tlbie_req : std_ulogic;
variable rts : unsigned(5 downto 0);
variable mbits : unsigned(5 downto 0);
variable pgtable_addr : std_ulogic_vector(63 downto 0);
variable pte : std_ulogic_vector(63 downto 0);
variable data : std_ulogic_vector(63 downto 0);
variable nonzero : std_ulogic;
variable perm_ok : std_ulogic;
variable rc_ok : std_ulogic;
begin
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
v := r;
v.valid := '0';
dcreq := '0';
done := '0';
v.invalid := '0';
v.badtree := '0';
v.segerror := '0';
v.perm_err := '0';
v.rc_error := '0';
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
tlb_load := '0';
tlbie_req := '0';
-- Radix tree data structures in memory are big-endian,
-- so we need to byte-swap them
for i in 0 to 7 loop
data(i * 8 + 7 downto i * 8) := d_in.data((7 - i) * 8 + 7 downto (7 - i) * 8);
end loop;
case r.state is
when IDLE =>
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
-- rts == radix tree size, # address bits being translated
rts := unsigned('0' & r.pgtbl0(62 downto 61) & r.pgtbl0(7 downto 5));
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
-- mbits == # address bits to index top level of tree
mbits := unsigned('0' & r.pgtbl0(4 downto 0));
-- set v.shift to rts so that we can use finalmask for the segment check
v.shift := rts;
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
v.mask_size := mbits(4 downto 0);
v.pgbase := r.pgtbl0(55 downto 8) & x"00";
if l_in.valid = '1' then
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
v.addr := l_in.addr;
v.store := not l_in.load;
v.priv := l_in.priv;
if l_in.tlbie = '1' then
dcreq := '1';
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
tlbie_req := '1';
v.state := TLB_WAIT;
else
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
v.valid := '1';
-- Use RPDS = 0 to disable radix tree walks
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
if mbits = 0 then
v.state := RADIX_ERROR;
v.invalid := '1';
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
else
v.state := SEGMENT_CHECK;
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
end if;
end if;
end if;
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
if l_in.mtspr = '1' then
v.pgtbl0 := l_in.rs;
end if;
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
when TLB_WAIT =>
if d_in.done = '1' then
done := '1';
v.state := IDLE;
end if;
when SEGMENT_CHECK =>
mbits := '0' & r.mask_size;
v.shift := r.shift + (31 - 12) - mbits;
nonzero := or(r.addr(61 downto 31) and not finalmask(30 downto 0));
if r.addr(63) /= r.addr(62) or nonzero = '1' then
v.state := RADIX_ERROR;
v.segerror := '1';
elsif mbits < 5 or mbits > 16 or mbits > (r.shift + (31 - 12)) then
v.state := RADIX_ERROR;
v.badtree := '1';
else
v.state := RADIX_LOOKUP;
end if;
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
when RADIX_LOOKUP =>
dcreq := '1';
v.state := RADIX_READ_WAIT;
when RADIX_READ_WAIT =>
if d_in.done = '1' then
if d_in.err = '0' then
v.pde := data;
-- test valid bit
if data(63) = '1' then
-- test leaf bit
if data(62) = '1' then
-- check permissions and RC bits
perm_ok := '0';
if r.priv = '1' or data(3) = '0' then
perm_ok := data(1) or (data(2) and not r.store);
end if;
rc_ok := data(8) and (data(7) or not r.store);
if perm_ok = '1' and rc_ok = '1' then
v.state := RADIX_LOAD_TLB;
else
v.state := RADIX_ERROR;
v.perm_err := not perm_ok;
-- permission error takes precedence over RC error
v.rc_error := perm_ok;
end if;
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
else
mbits := unsigned('0' & data(4 downto 0));
if mbits < 5 or mbits > 16 or mbits > r.shift then
v.state := RADIX_ERROR;
v.badtree := '1';
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
else
v.shift := v.shift - mbits;
v.mask_size := mbits(4 downto 0);
v.pgbase := data(55 downto 8) & x"00";
v.state := RADIX_LOOKUP;
end if;
end if;
else
-- non-present PTE, generate a DSI
v.state := RADIX_ERROR;
v.invalid := '1';
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
end if;
else
v.state := RADIX_ERROR;
v.badtree := '1';
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
end if;
end if;
when RADIX_LOAD_TLB =>
tlb_load := '1';
dcreq := '1';
v.state := TLB_WAIT;
when RADIX_ERROR =>
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
done := '1';
v.state := IDLE;
end case;
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
pgtable_addr := x"00" & r.pgbase(55 downto 19) &
((r.pgbase(18 downto 3) and not mask) or (addrsh and mask)) &
"000";
pte := x"00" &
((r.pde(55 downto 12) and not finalmask) or (r.addr(55 downto 12) and finalmask))
& r.pde(11 downto 0);
-- update registers
rin <= v;
-- drive outputs
l_out.done <= done;
l_out.invalid <= r.invalid;
l_out.badtree <= r.badtree;
l_out.segerr <= r.segerror;
l_out.perm_error <= r.perm_err;
l_out.rc_error <= r.rc_error;
d_out.valid <= dcreq;
MMU: Implement radix page table machinery This adds the necessary machinery to the MMU for it to do radix page table walks. The core elements are a shifter that can shift the address right by between 0 and 47 bits, a mask generator that can generate a mask of between 5 and 16 bits, a final mask generator, and new states in the state machine. (The final mask generator is used for transferring bits of the original address into the resulting TLB entry when the leaf PTE corresponds to a page size larger than 4kB.) The hardware does not implement a partition table or a process table. Software is expected to load the appropriate process table entry into a new SPR called PGTBL0, SPR 720. The contents should be formatted as described in Book III section 5.7.6.2 of the Power ISA v3.0B. PGTBL0 is set to 0 on hard reset. At present, the top two bits of the address (the quadrant) are ignored. There is currently no caching of any step in the translation process or of the final result, other than the entry created in the dTLB. That entry is a 4k page entry even if the leaf PTE found in the walk corresponds to a larger page size. This implementation can handle almost any page table layout and any page size. The RTS field (in PGTBL0) can have any value between 0 and 31, corresponding to a total address space size between 2^31 and 2^62 bytes. The RPDS field of PGTBL0 can be any value between 5 and 16, except that a value of 0 is taken to disable radix page table walking (for use when one is using software loading of TLB entries). The NLS field of the page directory entries can have any value between 5 and 16. The minimum page size is 4kB, meaning that the sum of RPDS and the NLS values of the PDEs found on the path to a leaf PTE must be less than or equal to RTS + 31 - 12. The PGTBL0 SPR is in the mmu module; thus this adds a path for loadstore1 to read and write SPRs in mmu. This adds code in dcache to service doubleword read requests from the MMU, as well as requests to write dTLB entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
d_out.tlbie <= tlbie_req;
d_out.tlbld <= tlb_load;
if tlbie_req = '1' then
d_out.addr <= l_in.addr;
d_out.pte <= l_in.rs;
elsif tlb_load = '1' then
d_out.addr <= r.addr(63 downto 12) & x"000";
d_out.pte <= pte;
else
d_out.addr <= pgtable_addr;
d_out.pte <= (others => '0');
end if;
end process;
end;