| Author | Tokens | Token Proportion | Commits | Commit Proportion |
|---|---|---|---|---|
| Rik Van Riel | 390 | 75.00% | 2 | 18.18% |
| Peter Zijlstra | 81 | 15.58% | 2 | 18.18% |
| Thomas Gleixner | 21 | 4.04% | 3 | 27.27% |
| Tom Lendacky | 15 | 2.88% | 1 | 9.09% |
| Borislav Petkov | 9 | 1.73% | 1 | 9.09% |
| H. Peter Anvin | 3 | 0.58% | 1 | 9.09% |
| Greg Kroah-Hartman | 1 | 0.19% | 1 | 9.09% |
| Total | 520 | 11 |
/* SPDX-License-Identifier: GPL-2.0 */ #ifndef _ASM_X86_TLB_H #define _ASM_X86_TLB_H #define tlb_flush tlb_flush static inline void tlb_flush(struct mmu_gather *tlb); #include <asm-generic/tlb.h> #include <linux/kernel.h> #include <vdso/bits.h> #include <vdso/page.h> static inline void tlb_flush(struct mmu_gather *tlb) { unsigned long start = 0UL, end = TLB_FLUSH_ALL; unsigned int stride_shift = tlb_get_unmap_shift(tlb); if (!tlb->fullmm && !tlb->need_flush_all) { start = tlb->start; end = tlb->end; } flush_tlb_mm_range(tlb->mm, start, end, stride_shift, tlb->freed_tables); } static inline void invlpg(unsigned long addr) { asm volatile("invlpg (%0)" ::"r" (addr) : "memory"); } enum addr_stride { PTE_STRIDE = 0, PMD_STRIDE = 1 }; /* * INVLPGB can be targeted by virtual address, PCID, ASID, or any combination * of the three. For example: * - FLAG_VA | FLAG_INCLUDE_GLOBAL: invalidate all TLB entries at the address * - FLAG_PCID: invalidate all TLB entries matching the PCID * * The first is used to invalidate (kernel) mappings at a particular * address across all processes. * * The latter invalidates all TLB entries matching a PCID. */ #define INVLPGB_FLAG_VA BIT(0) #define INVLPGB_FLAG_PCID BIT(1) #define INVLPGB_FLAG_ASID BIT(2) #define INVLPGB_FLAG_INCLUDE_GLOBAL BIT(3) #define INVLPGB_FLAG_FINAL_ONLY BIT(4) #define INVLPGB_FLAG_INCLUDE_NESTED BIT(5) /* The implied mode when all bits are clear: */ #define INVLPGB_MODE_ALL_NONGLOBALS 0UL #ifdef CONFIG_BROADCAST_TLB_FLUSH /* * INVLPGB does broadcast TLB invalidation across all the CPUs in the system. * * The INVLPGB instruction is weakly ordered, and a batch of invalidations can * be done in a parallel fashion. * * The instruction takes the number of extra pages to invalidate, beyond the * first page, while __invlpgb gets the more human readable number of pages to * invalidate. * * The bits in rax[0:2] determine respectively which components of the address * (VA, PCID, ASID) get compared when flushing. If neither bits are set, *any* * address in the specified range matches. * * Since it is desired to only flush TLB entries for the ASID that is executing * the instruction (a host/hypervisor or a guest), the ASID valid bit should * always be set. On a host/hypervisor, the hardware will use the ASID value * specified in EDX[15:0] (which should be 0). On a guest, the hardware will * use the actual ASID value of the guest. * * TLBSYNC is used to ensure that pending INVLPGB invalidations initiated from * this CPU have completed. */ static inline void __invlpgb(unsigned long asid, unsigned long pcid, unsigned long addr, u16 nr_pages, enum addr_stride stride, u8 flags) { u64 rax = addr | flags | INVLPGB_FLAG_ASID; u32 ecx = (stride << 31) | (nr_pages - 1); u32 edx = (pcid << 16) | asid; /* The low bits in rax are for flags. Verify addr is clean. */ VM_WARN_ON_ONCE(addr & ~PAGE_MASK); /* INVLPGB; supported in binutils >= 2.36. */ asm volatile(".byte 0x0f, 0x01, 0xfe" :: "a" (rax), "c" (ecx), "d" (edx)); } static inline void __invlpgb_all(unsigned long asid, unsigned long pcid, u8 flags) { __invlpgb(asid, pcid, 0, 1, 0, flags); } static inline void __tlbsync(void) { /* * TLBSYNC waits for INVLPGB instructions originating on the same CPU * to have completed. Print a warning if the task has been migrated, * and might not be waiting on all the INVLPGBs issued during this TLB * invalidation sequence. */ cant_migrate(); /* TLBSYNC: supported in binutils >= 0.36. */ asm volatile(".byte 0x0f, 0x01, 0xff" ::: "memory"); } #else /* Some compilers (I'm looking at you clang!) simply can't do DCE */ static inline void __invlpgb(unsigned long asid, unsigned long pcid, unsigned long addr, u16 nr_pages, enum addr_stride s, u8 flags) { } static inline void __invlpgb_all(unsigned long asid, unsigned long pcid, u8 flags) { } static inline void __tlbsync(void) { } #endif static inline void invlpgb_flush_user_nr_nosync(unsigned long pcid, unsigned long addr, u16 nr, bool stride) { enum addr_stride str = stride ? PMD_STRIDE : PTE_STRIDE; u8 flags = INVLPGB_FLAG_PCID | INVLPGB_FLAG_VA; __invlpgb(0, pcid, addr, nr, str, flags); } /* Flush all mappings for a given PCID, not including globals. */ static inline void invlpgb_flush_single_pcid_nosync(unsigned long pcid) { __invlpgb_all(0, pcid, INVLPGB_FLAG_PCID); } /* Flush all mappings, including globals, for all PCIDs. */ static inline void invlpgb_flush_all(void) { /* * TLBSYNC at the end needs to make sure all flushes done on the * current CPU have been executed system-wide. Therefore, make * sure nothing gets migrated in-between but disable preemption * as it is cheaper. */ guard(preempt)(); __invlpgb_all(0, 0, INVLPGB_FLAG_INCLUDE_GLOBAL); __tlbsync(); } /* Flush addr, including globals, for all PCIDs. */ static inline void invlpgb_flush_addr_nosync(unsigned long addr, u16 nr) { __invlpgb(0, 0, addr, nr, PTE_STRIDE, INVLPGB_FLAG_INCLUDE_GLOBAL); } /* Flush all mappings for all PCIDs except globals. */ static inline void invlpgb_flush_all_nonglobals(void) { guard(preempt)(); __invlpgb_all(0, 0, INVLPGB_MODE_ALL_NONGLOBALS); __tlbsync(); } #endif /* _ASM_X86_TLB_H */
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