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microwatt/decode_types.vhdl

97 lines
3.0 KiB
VHDL

library ieee;
use ieee.std_logic_1164.all;
package decode_types is
type insn_type_t is (OP_ILLEGAL, OP_NOP, OP_ADD,
OP_AND, OP_ATTN, OP_B, OP_BC, OP_BCREG,
OP_BPERM, OP_CMP, OP_CMPB, OP_CMPEQB, OP_CMPRB,
OP_CNTZ, OP_CROP,
OP_DARN, OP_DCBF, OP_DCBST, OP_DCBT, OP_DCBTST,
OP_DCBZ, OP_DIV, OP_DIVE, OP_EXTS,
OP_EXTSWSLI, OP_ICBI, OP_ICBT, OP_ISEL, OP_ISYNC,
OP_LOAD, OP_STORE,
OP_MCRXRX, OP_MFCR, OP_MFMSR, OP_MFSPR, OP_MOD,
OP_MTCRF, OP_MTMSRD, OP_MTSPR, OP_MUL_L64,
OP_MUL_H64, OP_MUL_H32, OP_OR,
OP_POPCNT, OP_PRTY, OP_RFID,
OP_RLC, OP_RLCL, OP_RLCR, OP_SC, OP_SETB,
OP_SHL, OP_SHR,
dcache: Implement data TLB This adds a TLB to dcache, providing the ability to translate addresses for loads and stores. No protection mechanism has been implemented yet. The MSR_DR bit controls whether addresses are translated through the TLB. The TLB is a fixed-pagesize, set-associative cache. Currently the page size is 4kB and the TLB is 2-way set associative with 64 entries per set. This implements the tlbie instruction. RB bits 10 and 11 control whether the whole TLB is invalidated (if either bit is 1) or just a single entry corresponding to the effective page number in bits 12-63 of RB. As an extension until we get a hardware page table walk, a tlbie instruction with RB bits 9-11 set to 001 will load an entry into the TLB. The TLB entry value is in RS in the format of a radix PTE. Currently there is no proper handling of TLB misses. The load or store will not be performed but no interrupt is generated. In order to make timing at 100MHz on the Arty A7-100, we compare the real address from each way of the TLB with the tag from each way of the cache in parallel (requiring # TLB ways * # cache ways comparators). Then the result is selected based on which way hit in the TLB. That avoids a timing path going through the TLB EA comparators, the multiplexer that selects the RA, and the cache tag comparators. The hack where addresses of the form 0xc------- are marked as cache-inhibited is kept for now but restricted to real-mode accesses. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
OP_SYNC, OP_TLBIE, OP_TRAP,
Add TLB to icache This adds a direct-mapped TLB to the icache, with 64 entries by default. Execute1 now sends a "virt_mode" signal from MSR[IR] to fetch1 along with redirects to indicate whether instruction addresses should be translated through the TLB, and fetch1 sends that on to icache. Similarly a "priv_mode" signal is sent to indicate the privilege mode for instruction fetches. This means that changes to MSR[IR] or MSR[PR] don't take effect until the next redirect, meaning an isync, rfid, branch, etc. The icache uses a hash of the effective address (i.e. next instruction address) to index the TLB. The hash is an XOR of three fields of the address; with a 64-entry TLB, the fields are bits 12--17, 18--23 and 24--29 of the address. TLB invalidations simply invalidate the indexed TLB entry without checking the contents. If the icache detects a TLB miss with virt_mode=1, it will send a fetch_failed indication through fetch2 to decode1, which will turn it into a special OP_FETCH_FAILED opcode with unit=LDST. That will get sent down to loadstore1 which will currently just raise a Instruction Storage Interrupt (0x400) exception. One bit in the PTE obtained from the TLB is used to check whether an instruction access is allowed -- the privilege bit (bit 3). If bit 3 is 1 and priv_mode=0, then a fetch_failed indication is sent down to fetch2 and to decode1, which generates an OP_FETCH_FAILED. Any PTEs with PTE bit 0 (EAA[3]) clear or bit 8 (R) clear should not be put into the iTLB since such PTEs would not allow execution by any context. Tlbie operations get sent from mmu to icache over a new connection. Unfortunately the privileged instruction tests are broken for now. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
OP_XOR,
OP_FETCH_FAILED
);
type input_reg_a_t is (NONE, RA, RA_OR_ZERO, SPR, CIA);
type input_reg_b_t is (NONE, RB, CONST_UI, CONST_SI, CONST_SI_HI, CONST_UI_HI, CONST_LI, CONST_BD,
CONST_DXHI4, CONST_DS, CONST_M1, CONST_SH, CONST_SH32, SPR);
type input_reg_c_t is (NONE, RS, RCR);
type output_reg_a_t is (NONE, RT, RA, SPR);
type rc_t is (NONE, ONE, RC);
type carry_in_t is (ZERO, CA, ONE);
constant SH_OFFSET : integer := 0;
constant MB_OFFSET : integer := 1;
constant ME_OFFSET : integer := 1;
constant SH32_OFFSET : integer := 0;
constant MB32_OFFSET : integer := 1;
constant ME32_OFFSET : integer := 2;
constant FXM_OFFSET : integer := 0;
constant BO_OFFSET : integer := 0;
constant BI_OFFSET : integer := 1;
constant BH_OFFSET : integer := 2;
constant BF_OFFSET : integer := 0;
constant L_OFFSET : integer := 1;
constant TOO_OFFSET : integer := 0;
type unit_t is (NONE, ALU, LDST);
type length_t is (NONE, is1B, is2B, is4B, is8B);
type decode_rom_t is record
unit : unit_t;
insn_type : insn_type_t;
input_reg_a : input_reg_a_t;
input_reg_b : input_reg_b_t;
input_reg_c : input_reg_c_t;
output_reg_a : output_reg_a_t;
input_cr : std_ulogic;
output_cr : std_ulogic;
invert_a : std_ulogic;
invert_out : std_ulogic;
input_carry : carry_in_t;
output_carry : std_ulogic;
-- load/store signals
length : length_t;
byte_reverse : std_ulogic;
sign_extend : std_ulogic;
update : std_ulogic;
reserve : std_ulogic;
-- multiplier and ALU signals
is_32bit : std_ulogic;
is_signed : std_ulogic;
rc : rc_t;
lr : std_ulogic;
sgl_pipe : std_ulogic;
end record;
constant decode_rom_init : decode_rom_t := (unit => NONE,
insn_type => OP_ILLEGAL, input_reg_a => NONE,
input_reg_b => NONE, input_reg_c => NONE,
output_reg_a => NONE, input_cr => '0', output_cr => '0',
invert_a => '0', invert_out => '0', input_carry => ZERO, output_carry => '0',
length => NONE, byte_reverse => '0', sign_extend => '0',
update => '0', reserve => '0', is_32bit => '0',
is_signed => '0', rc => NONE, lr => '0', sgl_pipe => '0');
end decode_types;
package body decode_types is
end decode_types;