2006-02-01 09:29:18 +07:00
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#ifndef _SPARC64_TSB_H
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#define _SPARC64_TSB_H
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/* The sparc64 TSB is similar to the powerpc hashtables. It's a
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* power-of-2 sized table of TAG/PTE pairs. The cpu precomputes
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* pointers into this table for 8K and 64K page sizes, and also a
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* comparison TAG based upon the virtual address and context which
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* faults.
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*
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* TLB miss trap handler software does the actual lookup via something
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* of the form:
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*
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* ldxa [%g0] ASI_{D,I}MMU_TSB_8KB_PTR, %g1
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* ldxa [%g0] ASI_{D,I}MMU, %g6
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2006-02-18 09:01:02 +07:00
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* sllx %g6, 22, %g6
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* srlx %g6, 22, %g6
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2006-02-01 09:29:18 +07:00
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* ldda [%g1] ASI_NUCLEUS_QUAD_LDD, %g4
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* cmp %g4, %g6
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* bne,pn %xcc, tsb_miss_{d,i}tlb
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* mov FAULT_CODE_{D,I}TLB, %g3
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* stxa %g5, [%g0] ASI_{D,I}TLB_DATA_IN
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* retry
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*
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2006-02-01 09:31:20 +07:00
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*
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2006-02-01 09:29:18 +07:00
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* Each 16-byte slot of the TSB is the 8-byte tag and then the 8-byte
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* PTE. The TAG is of the same layout as the TLB TAG TARGET mmu
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* register which is:
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*
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* -------------------------------------------------
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* | - | CONTEXT | - | VADDR bits 63:22 |
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* -------------------------------------------------
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* 63 61 60 48 47 42 41 0
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*
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2006-02-18 09:01:02 +07:00
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* But actually, since we use per-mm TSB's, we zero out the CONTEXT
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* field.
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*
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2006-02-01 09:29:18 +07:00
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* Like the powerpc hashtables we need to use locking in order to
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* synchronize while we update the entries. PTE updates need locking
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* as well.
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*
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* We need to carefully choose a lock bits for the TSB entry. We
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* choose to use bit 47 in the tag. Also, since we never map anything
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* at page zero in context zero, we use zero as an invalid tag entry.
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* When the lock bit is set, this forces a tag comparison failure.
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*/
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2006-02-01 09:32:44 +07:00
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#define TSB_TAG_LOCK_BIT 47
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#define TSB_TAG_LOCK_HIGH (1 << (TSB_TAG_LOCK_BIT - 32))
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2006-02-01 09:29:18 +07:00
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2006-02-18 09:01:02 +07:00
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#define TSB_TAG_INVALID_BIT 46
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#define TSB_TAG_INVALID_HIGH (1 << (TSB_TAG_INVALID_BIT - 32))
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2006-02-01 09:29:18 +07:00
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#define TSB_MEMBAR membar #StoreStore
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2006-02-02 06:55:21 +07:00
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/* Some cpus support physical address quad loads. We want to use
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* those if possible so we don't need to hard-lock the TSB mapping
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* into the TLB. We encode some instruction patching in order to
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* support this.
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*
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* The kernel TSB is locked into the TLB by virtue of being in the
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* kernel image, so we don't play these games for swapper_tsb access.
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*/
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#ifndef __ASSEMBLY__
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2006-02-07 14:44:37 +07:00
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struct tsb_ldquad_phys_patch_entry {
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unsigned int addr;
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unsigned int sun4u_insn;
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unsigned int sun4v_insn;
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};
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extern struct tsb_ldquad_phys_patch_entry __tsb_ldquad_phys_patch,
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__tsb_ldquad_phys_patch_end;
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2006-02-02 06:55:21 +07:00
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struct tsb_phys_patch_entry {
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unsigned int addr;
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unsigned int insn;
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};
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extern struct tsb_phys_patch_entry __tsb_phys_patch, __tsb_phys_patch_end;
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#endif
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#define TSB_LOAD_QUAD(TSB, REG) \
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661: ldda [TSB] ASI_NUCLEUS_QUAD_LDD, REG; \
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2006-02-07 14:44:37 +07:00
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.section .tsb_ldquad_phys_patch, "ax"; \
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2006-02-02 06:55:21 +07:00
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.word 661b; \
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ldda [TSB] ASI_QUAD_LDD_PHYS, REG; \
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2006-02-07 14:44:37 +07:00
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ldda [TSB] ASI_QUAD_LDD_PHYS_4V, REG; \
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2006-02-02 06:55:21 +07:00
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.previous
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#define TSB_LOAD_TAG_HIGH(TSB, REG) \
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661: lduwa [TSB] ASI_N, REG; \
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.section .tsb_phys_patch, "ax"; \
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.word 661b; \
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lduwa [TSB] ASI_PHYS_USE_EC, REG; \
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.previous
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#define TSB_LOAD_TAG(TSB, REG) \
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661: ldxa [TSB] ASI_N, REG; \
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.section .tsb_phys_patch, "ax"; \
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.word 661b; \
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ldxa [TSB] ASI_PHYS_USE_EC, REG; \
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.previous
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#define TSB_CAS_TAG_HIGH(TSB, REG1, REG2) \
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661: casa [TSB] ASI_N, REG1, REG2; \
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.section .tsb_phys_patch, "ax"; \
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.word 661b; \
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casa [TSB] ASI_PHYS_USE_EC, REG1, REG2; \
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.previous
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#define TSB_CAS_TAG(TSB, REG1, REG2) \
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661: casxa [TSB] ASI_N, REG1, REG2; \
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.section .tsb_phys_patch, "ax"; \
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.word 661b; \
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casxa [TSB] ASI_PHYS_USE_EC, REG1, REG2; \
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.previous
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#define TSB_STORE(ADDR, VAL) \
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661: stxa VAL, [ADDR] ASI_N; \
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.section .tsb_phys_patch, "ax"; \
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.word 661b; \
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stxa VAL, [ADDR] ASI_PHYS_USE_EC; \
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.previous
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2006-02-01 09:29:18 +07:00
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#define TSB_LOCK_TAG(TSB, REG1, REG2) \
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2006-02-02 06:55:21 +07:00
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99: TSB_LOAD_TAG_HIGH(TSB, REG1); \
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sethi %hi(TSB_TAG_LOCK_HIGH), REG2;\
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andcc REG1, REG2, %g0; \
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bne,pn %icc, 99b; \
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nop; \
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TSB_CAS_TAG_HIGH(TSB, REG1, REG2); \
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cmp REG1, REG2; \
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bne,pn %icc, 99b; \
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nop; \
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TSB_MEMBAR
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#define TSB_WRITE(TSB, TTE, TAG) \
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add TSB, 0x8, TSB; \
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TSB_STORE(TSB, TTE); \
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sub TSB, 0x8, TSB; \
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TSB_MEMBAR; \
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TSB_STORE(TSB, TAG);
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#define KTSB_LOAD_QUAD(TSB, REG) \
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ldda [TSB] ASI_NUCLEUS_QUAD_LDD, REG;
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#define KTSB_STORE(ADDR, VAL) \
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stxa VAL, [ADDR] ASI_N;
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#define KTSB_LOCK_TAG(TSB, REG1, REG2) \
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2006-02-01 09:29:18 +07:00
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99: lduwa [TSB] ASI_N, REG1; \
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2006-02-01 09:32:44 +07:00
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sethi %hi(TSB_TAG_LOCK_HIGH), REG2;\
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2006-02-01 09:29:18 +07:00
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andcc REG1, REG2, %g0; \
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bne,pn %icc, 99b; \
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nop; \
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casa [TSB] ASI_N, REG1, REG2;\
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cmp REG1, REG2; \
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bne,pn %icc, 99b; \
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nop; \
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TSB_MEMBAR
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2006-02-02 06:55:21 +07:00
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#define KTSB_WRITE(TSB, TTE, TAG) \
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add TSB, 0x8, TSB; \
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stxa TTE, [TSB] ASI_N; \
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sub TSB, 0x8, TSB; \
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TSB_MEMBAR; \
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stxa TAG, [TSB] ASI_N;
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2006-02-01 09:29:18 +07:00
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/* Do a kernel page table walk. Leaves physical PTE pointer in
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* REG1. Jumps to FAIL_LABEL on early page table walk termination.
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* VADDR will not be clobbered, but REG2 will.
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*/
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#define KERN_PGTABLE_WALK(VADDR, REG1, REG2, FAIL_LABEL) \
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sethi %hi(swapper_pg_dir), REG1; \
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or REG1, %lo(swapper_pg_dir), REG1; \
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sllx VADDR, 64 - (PGDIR_SHIFT + PGDIR_BITS), REG2; \
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srlx REG2, 64 - PAGE_SHIFT, REG2; \
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andn REG2, 0x3, REG2; \
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lduw [REG1 + REG2], REG1; \
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brz,pn REG1, FAIL_LABEL; \
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sllx VADDR, 64 - (PMD_SHIFT + PMD_BITS), REG2; \
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srlx REG2, 64 - PAGE_SHIFT, REG2; \
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sllx REG1, 11, REG1; \
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andn REG2, 0x3, REG2; \
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lduwa [REG1 + REG2] ASI_PHYS_USE_EC, REG1; \
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brz,pn REG1, FAIL_LABEL; \
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sllx VADDR, 64 - PMD_SHIFT, REG2; \
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srlx REG2, 64 - PAGE_SHIFT, REG2; \
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sllx REG1, 11, REG1; \
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andn REG2, 0x7, REG2; \
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add REG1, REG2, REG1;
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/* Do a user page table walk in MMU globals. Leaves physical PTE
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* pointer in REG1. Jumps to FAIL_LABEL on early page table walk
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* termination. Physical base of page tables is in PHYS_PGD which
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* will not be modified.
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*
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* VADDR will not be clobbered, but REG1 and REG2 will.
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*/
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#define USER_PGTABLE_WALK_TL1(VADDR, PHYS_PGD, REG1, REG2, FAIL_LABEL) \
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sllx VADDR, 64 - (PGDIR_SHIFT + PGDIR_BITS), REG2; \
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srlx REG2, 64 - PAGE_SHIFT, REG2; \
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andn REG2, 0x3, REG2; \
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lduwa [PHYS_PGD + REG2] ASI_PHYS_USE_EC, REG1; \
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brz,pn REG1, FAIL_LABEL; \
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sllx VADDR, 64 - (PMD_SHIFT + PMD_BITS), REG2; \
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srlx REG2, 64 - PAGE_SHIFT, REG2; \
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sllx REG1, 11, REG1; \
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andn REG2, 0x3, REG2; \
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lduwa [REG1 + REG2] ASI_PHYS_USE_EC, REG1; \
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brz,pn REG1, FAIL_LABEL; \
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sllx VADDR, 64 - PMD_SHIFT, REG2; \
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srlx REG2, 64 - PAGE_SHIFT, REG2; \
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sllx REG1, 11, REG1; \
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andn REG2, 0x7, REG2; \
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add REG1, REG2, REG1;
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/* Lookup a OBP mapping on VADDR in the prom_trans[] table at TL>0.
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* If no entry is found, FAIL_LABEL will be branched to. On success
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* the resulting PTE value will be left in REG1. VADDR is preserved
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* by this routine.
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*/
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#define OBP_TRANS_LOOKUP(VADDR, REG1, REG2, REG3, FAIL_LABEL) \
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sethi %hi(prom_trans), REG1; \
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or REG1, %lo(prom_trans), REG1; \
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97: ldx [REG1 + 0x00], REG2; \
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brz,pn REG2, FAIL_LABEL; \
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nop; \
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ldx [REG1 + 0x08], REG3; \
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add REG2, REG3, REG3; \
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cmp REG2, VADDR; \
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bgu,pt %xcc, 98f; \
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cmp VADDR, REG3; \
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bgeu,pt %xcc, 98f; \
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ldx [REG1 + 0x10], REG3; \
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sub VADDR, REG2, REG2; \
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ba,pt %xcc, 99f; \
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add REG3, REG2, REG1; \
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98: ba,pt %xcc, 97b; \
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add REG1, (3 * 8), REG1; \
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99:
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2006-02-01 09:33:49 +07:00
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/* We use a 32K TSB for the whole kernel, this allows to
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* handle about 16MB of modules and vmalloc mappings without
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* incurring many hash conflicts.
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*/
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#define KERNEL_TSB_SIZE_BYTES (32 * 1024)
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#define KERNEL_TSB_NENTRIES \
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(KERNEL_TSB_SIZE_BYTES / 16)
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2006-02-22 13:31:11 +07:00
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#define KERNEL_TSB4M_NENTRIES 4096
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2006-02-01 09:33:49 +07:00
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2006-02-01 09:29:18 +07:00
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/* Do a kernel TSB lookup at tl>0 on VADDR+TAG, branch to OK_LABEL
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* on TSB hit. REG1, REG2, REG3, and REG4 are used as temporaries
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* and the found TTE will be left in REG1. REG3 and REG4 must
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* be an even/odd pair of registers.
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*
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* VADDR and TAG will be preserved and not clobbered by this macro.
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*/
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#define KERN_TSB_LOOKUP_TL1(VADDR, TAG, REG1, REG2, REG3, REG4, OK_LABEL) \
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sethi %hi(swapper_tsb), REG1; \
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or REG1, %lo(swapper_tsb), REG1; \
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2006-02-01 09:33:49 +07:00
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srlx VADDR, PAGE_SHIFT, REG2; \
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and REG2, (KERNEL_TSB_NENTRIES - 1), REG2; \
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2006-02-01 09:29:18 +07:00
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sllx REG2, 4, REG2; \
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add REG1, REG2, REG2; \
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2006-02-02 06:55:21 +07:00
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KTSB_LOAD_QUAD(REG2, REG3); \
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2006-02-01 09:29:18 +07:00
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cmp REG3, TAG; \
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be,a,pt %xcc, OK_LABEL; \
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mov REG4, REG1;
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2007-03-17 07:20:28 +07:00
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#ifndef CONFIG_DEBUG_PAGEALLOC
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2006-02-22 13:31:11 +07:00
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/* This version uses a trick, the TAG is already (VADDR >> 22) so
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* we can make use of that for the index computation.
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*/
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#define KERN_TSB4M_LOOKUP_TL1(TAG, REG1, REG2, REG3, REG4, OK_LABEL) \
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sethi %hi(swapper_4m_tsb), REG1; \
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or REG1, %lo(swapper_4m_tsb), REG1; \
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and TAG, (KERNEL_TSB_NENTRIES - 1), REG2; \
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sllx REG2, 4, REG2; \
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add REG1, REG2, REG2; \
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KTSB_LOAD_QUAD(REG2, REG3); \
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cmp REG3, TAG; \
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be,a,pt %xcc, OK_LABEL; \
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mov REG4, REG1;
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2007-03-17 07:20:28 +07:00
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#endif
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2006-02-22 13:31:11 +07:00
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2006-02-01 09:29:18 +07:00
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#endif /* !(_SPARC64_TSB_H) */
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