4558b1e7bf0481d50a8f9e102ac86e6e78f8d308
1 // See LICENSE for license details.
7 mmu_t::mmu_t(char* _mem
, size_t _memsz
)
8 : mem(_mem
), memsz(_memsz
), proc(NULL
)
17 void mmu_t::flush_icache()
19 for (size_t i
= 0; i
< ICACHE_ENTRIES
; i
++)
23 void mmu_t::flush_tlb()
25 memset(tlb_insn_tag
, -1, sizeof(tlb_insn_tag
));
26 memset(tlb_load_tag
, -1, sizeof(tlb_load_tag
));
27 memset(tlb_store_tag
, -1, sizeof(tlb_store_tag
));
32 reg_t
mmu_t::translate(reg_t addr
, access_type type
)
37 reg_t mode
= get_field(proc
->state
.mstatus
, MSTATUS_PRV
);
38 if (type
!= FETCH
&& get_field(proc
->state
.mstatus
, MSTATUS_MPRV
))
39 mode
= get_field(proc
->state
.mstatus
, MSTATUS_PRV1
);
40 if (get_field(proc
->state
.mstatus
, MSTATUS_VM
) == VM_MBARE
)
44 reg_t msb_mask
= (reg_t(2) << (proc
->xlen
-1))-1; // zero-extend from xlen
45 return addr
& msb_mask
;
47 return walk(addr
, mode
> PRV_U
, type
) | (addr
& (PGSIZE
-1));
50 const uint16_t* mmu_t::fetch_slow_path(reg_t addr
)
52 reg_t paddr
= translate(addr
, FETCH
);
54 throw trap_instruction_access_fault(addr
);
55 return (const uint16_t*)(mem
+ paddr
);
58 void mmu_t::load_slow_path(reg_t addr
, reg_t len
, uint8_t* bytes
)
60 reg_t paddr
= translate(addr
, LOAD
);
62 memcpy(bytes
, mem
+ paddr
, len
);
63 if (tracer
.interested_in_range(paddr
, paddr
+ PGSIZE
, LOAD
))
64 tracer
.trace(paddr
, len
, LOAD
);
66 refill_tlb(addr
, paddr
, LOAD
);
67 } else if (!proc
|| !proc
->sim
->mmio_load(paddr
, len
, bytes
)) {
68 throw trap_load_access_fault(addr
);
72 void mmu_t::store_slow_path(reg_t addr
, reg_t len
, const uint8_t* bytes
)
74 reg_t paddr
= translate(addr
, STORE
);
76 memcpy(mem
+ paddr
, bytes
, len
);
77 if (tracer
.interested_in_range(paddr
, paddr
+ PGSIZE
, STORE
))
78 tracer
.trace(paddr
, len
, STORE
);
80 refill_tlb(addr
, paddr
, STORE
);
81 } else if (!proc
|| !proc
->sim
->mmio_store(paddr
, len
, bytes
)) {
82 throw trap_store_access_fault(addr
);
86 void mmu_t::refill_tlb(reg_t vaddr
, reg_t paddr
, access_type type
)
88 reg_t idx
= (vaddr
>> PGSHIFT
) % TLB_ENTRIES
;
89 reg_t expected_tag
= vaddr
>> PGSHIFT
;
91 if (tlb_load_tag
[idx
] != expected_tag
) tlb_load_tag
[idx
] = -1;
92 if (tlb_store_tag
[idx
] != expected_tag
) tlb_store_tag
[idx
] = -1;
93 if (tlb_insn_tag
[idx
] != expected_tag
) tlb_insn_tag
[idx
] = -1;
95 if (type
== FETCH
) tlb_insn_tag
[idx
] = expected_tag
;
96 else if (type
== STORE
) tlb_store_tag
[idx
] = expected_tag
;
97 else tlb_load_tag
[idx
] = expected_tag
;
99 tlb_data
[idx
] = mem
+ paddr
- vaddr
;
102 reg_t
mmu_t::walk(reg_t addr
, bool supervisor
, access_type type
)
104 int levels
, ptidxbits
, ptesize
;
105 switch (get_field(proc
->get_state()->mstatus
, MSTATUS_VM
))
107 case VM_SV32
: levels
= 2; ptidxbits
= 10; ptesize
= 4; break;
108 case VM_SV39
: levels
= 3; ptidxbits
= 9; ptesize
= 8; break;
109 case VM_SV48
: levels
= 4; ptidxbits
= 9; ptesize
= 8; break;
113 // verify bits xlen-1:va_bits-1 are all equal
114 int va_bits
= PGSHIFT
+ levels
* ptidxbits
;
115 reg_t mask
= (reg_t(1) << (proc
->xlen
- (va_bits
-1))) - 1;
116 reg_t masked_msbs
= (addr
>> (va_bits
-1)) & mask
;
117 if (masked_msbs
!= 0 && masked_msbs
!= mask
)
120 reg_t base
= proc
->get_state()->sptbr
;
121 int ptshift
= (levels
- 1) * ptidxbits
;
122 for (int i
= 0; i
< levels
; i
++, ptshift
-= ptidxbits
) {
123 reg_t idx
= (addr
>> (PGSHIFT
+ ptshift
)) & ((1 << ptidxbits
) - 1);
125 // check that physical address of PTE is legal
126 reg_t pte_addr
= base
+ idx
* ptesize
;
127 if (pte_addr
>= memsz
)
130 void* ppte
= mem
+ pte_addr
;
131 reg_t pte
= ptesize
== 4 ? *(uint32_t*)ppte
: *(uint64_t*)ppte
;
132 reg_t ppn
= pte
>> PTE_PPN_SHIFT
;
134 if (PTE_TABLE(pte
)) { // next level of page table
135 base
= ppn
<< PGSHIFT
;
136 } else if (!PTE_CHECK_PERM(pte
, supervisor
, type
== STORE
, type
== FETCH
)) {
139 // set referenced and possibly dirty bits.
140 *(uint32_t*)ppte
|= PTE_R
| ((type
== STORE
) * PTE_D
);
141 // for superpage mappings, make a fake leaf PTE for the TLB's benefit.
142 reg_t vpn
= addr
>> PGSHIFT
;
143 return (ppn
| (vpn
& ((reg_t(1) << ptshift
) - 1))) << PGSHIFT
;
150 void mmu_t::register_memtracer(memtracer_t
* t
)