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Based on 1 normalized pattern(s): this program is free software you can redistribute it and or modify it under the terms of the gnu general public license as published by the free software foundation either version 2 of the license or at your option any later version extracted by the scancode license scanner the SPDX license identifier GPL-2.0-or-later has been chosen to replace the boilerplate/reference in 3029 file(s). Signed-off-by: Thomas Gleixner <tglx@linutronix.de> Reviewed-by: Allison Randal <allison@lohutok.net> Cc: linux-spdx@vger.kernel.org Link: https://lkml.kernel.org/r/20190527070032.746973796@linutronix.de Signed-off-by: Greg Kroah-Hartman <gregkh@linuxfoundation.org>
613 lines
18 KiB
C
613 lines
18 KiB
C
/* SPDX-License-Identifier: GPL-2.0-or-later */
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/* include/asm-generic/tlb.h
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*
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* Generic TLB shootdown code
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*
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* Copyright 2001 Red Hat, Inc.
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* Based on code from mm/memory.c Copyright Linus Torvalds and others.
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*
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* Copyright 2011 Red Hat, Inc., Peter Zijlstra
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*/
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#ifndef _ASM_GENERIC__TLB_H
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#define _ASM_GENERIC__TLB_H
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#include <linux/mmu_notifier.h>
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#include <linux/swap.h>
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#include <asm/pgalloc.h>
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#include <asm/tlbflush.h>
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#include <asm/cacheflush.h>
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/*
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* Blindly accessing user memory from NMI context can be dangerous
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* if we're in the middle of switching the current user task or switching
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* the loaded mm.
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*/
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#ifndef nmi_uaccess_okay
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# define nmi_uaccess_okay() true
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#endif
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#ifdef CONFIG_MMU
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/*
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* Generic MMU-gather implementation.
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*
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* The mmu_gather data structure is used by the mm code to implement the
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* correct and efficient ordering of freeing pages and TLB invalidations.
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*
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* This correct ordering is:
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*
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* 1) unhook page
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* 2) TLB invalidate page
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* 3) free page
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*
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* That is, we must never free a page before we have ensured there are no live
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* translations left to it. Otherwise it might be possible to observe (or
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* worse, change) the page content after it has been reused.
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*
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* The mmu_gather API consists of:
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*
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* - tlb_gather_mmu() / tlb_finish_mmu(); start and finish a mmu_gather
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*
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* Finish in particular will issue a (final) TLB invalidate and free
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* all (remaining) queued pages.
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*
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* - tlb_start_vma() / tlb_end_vma(); marks the start / end of a VMA
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*
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* Defaults to flushing at tlb_end_vma() to reset the range; helps when
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* there's large holes between the VMAs.
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*
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* - tlb_remove_page() / __tlb_remove_page()
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* - tlb_remove_page_size() / __tlb_remove_page_size()
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*
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* __tlb_remove_page_size() is the basic primitive that queues a page for
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* freeing. __tlb_remove_page() assumes PAGE_SIZE. Both will return a
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* boolean indicating if the queue is (now) full and a call to
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* tlb_flush_mmu() is required.
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*
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* tlb_remove_page() and tlb_remove_page_size() imply the call to
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* tlb_flush_mmu() when required and has no return value.
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*
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* - tlb_change_page_size()
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*
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* call before __tlb_remove_page*() to set the current page-size; implies a
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* possible tlb_flush_mmu() call.
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*
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* - tlb_flush_mmu() / tlb_flush_mmu_tlbonly()
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*
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* tlb_flush_mmu_tlbonly() - does the TLB invalidate (and resets
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* related state, like the range)
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*
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* tlb_flush_mmu() - in addition to the above TLB invalidate, also frees
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* whatever pages are still batched.
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*
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* - mmu_gather::fullmm
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*
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* A flag set by tlb_gather_mmu() to indicate we're going to free
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* the entire mm; this allows a number of optimizations.
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*
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* - We can ignore tlb_{start,end}_vma(); because we don't
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* care about ranges. Everything will be shot down.
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*
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* - (RISC) architectures that use ASIDs can cycle to a new ASID
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* and delay the invalidation until ASID space runs out.
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*
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* - mmu_gather::need_flush_all
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*
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* A flag that can be set by the arch code if it wants to force
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* flush the entire TLB irrespective of the range. For instance
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* x86-PAE needs this when changing top-level entries.
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*
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* And allows the architecture to provide and implement tlb_flush():
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*
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* tlb_flush() may, in addition to the above mentioned mmu_gather fields, make
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* use of:
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*
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* - mmu_gather::start / mmu_gather::end
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*
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* which provides the range that needs to be flushed to cover the pages to
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* be freed.
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*
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* - mmu_gather::freed_tables
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*
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* set when we freed page table pages
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*
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* - tlb_get_unmap_shift() / tlb_get_unmap_size()
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*
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* returns the smallest TLB entry size unmapped in this range.
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*
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* If an architecture does not provide tlb_flush() a default implementation
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* based on flush_tlb_range() will be used, unless MMU_GATHER_NO_RANGE is
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* specified, in which case we'll default to flush_tlb_mm().
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*
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* Additionally there are a few opt-in features:
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*
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* HAVE_MMU_GATHER_PAGE_SIZE
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*
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* This ensures we call tlb_flush() every time tlb_change_page_size() actually
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* changes the size and provides mmu_gather::page_size to tlb_flush().
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*
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* HAVE_RCU_TABLE_FREE
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*
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* This provides tlb_remove_table(), to be used instead of tlb_remove_page()
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* for page directores (__p*_free_tlb()). This provides separate freeing of
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* the page-table pages themselves in a semi-RCU fashion (see comment below).
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* Useful if your architecture doesn't use IPIs for remote TLB invalidates
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* and therefore doesn't naturally serialize with software page-table walkers.
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*
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* When used, an architecture is expected to provide __tlb_remove_table()
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* which does the actual freeing of these pages.
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*
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* HAVE_RCU_TABLE_NO_INVALIDATE
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*
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* This makes HAVE_RCU_TABLE_FREE avoid calling tlb_flush_mmu_tlbonly() before
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* freeing the page-table pages. This can be avoided if you use
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* HAVE_RCU_TABLE_FREE and your architecture does _NOT_ use the Linux
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* page-tables natively.
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*
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* MMU_GATHER_NO_RANGE
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*
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* Use this if your architecture lacks an efficient flush_tlb_range().
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*/
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#ifdef CONFIG_HAVE_RCU_TABLE_FREE
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/*
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* Semi RCU freeing of the page directories.
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*
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* This is needed by some architectures to implement software pagetable walkers.
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*
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* gup_fast() and other software pagetable walkers do a lockless page-table
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* walk and therefore needs some synchronization with the freeing of the page
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* directories. The chosen means to accomplish that is by disabling IRQs over
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* the walk.
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*
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* Architectures that use IPIs to flush TLBs will then automagically DTRT,
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* since we unlink the page, flush TLBs, free the page. Since the disabling of
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* IRQs delays the completion of the TLB flush we can never observe an already
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* freed page.
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*
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* Architectures that do not have this (PPC) need to delay the freeing by some
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* other means, this is that means.
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*
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* What we do is batch the freed directory pages (tables) and RCU free them.
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* We use the sched RCU variant, as that guarantees that IRQ/preempt disabling
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* holds off grace periods.
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*
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* However, in order to batch these pages we need to allocate storage, this
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* allocation is deep inside the MM code and can thus easily fail on memory
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* pressure. To guarantee progress we fall back to single table freeing, see
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* the implementation of tlb_remove_table_one().
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*
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*/
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struct mmu_table_batch {
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struct rcu_head rcu;
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unsigned int nr;
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void *tables[0];
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};
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#define MAX_TABLE_BATCH \
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((PAGE_SIZE - sizeof(struct mmu_table_batch)) / sizeof(void *))
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extern void tlb_remove_table(struct mmu_gather *tlb, void *table);
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#endif
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#ifndef CONFIG_HAVE_MMU_GATHER_NO_GATHER
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/*
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* If we can't allocate a page to make a big batch of page pointers
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* to work on, then just handle a few from the on-stack structure.
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*/
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#define MMU_GATHER_BUNDLE 8
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struct mmu_gather_batch {
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struct mmu_gather_batch *next;
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unsigned int nr;
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unsigned int max;
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struct page *pages[0];
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};
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#define MAX_GATHER_BATCH \
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((PAGE_SIZE - sizeof(struct mmu_gather_batch)) / sizeof(void *))
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/*
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* Limit the maximum number of mmu_gather batches to reduce a risk of soft
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* lockups for non-preemptible kernels on huge machines when a lot of memory
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* is zapped during unmapping.
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* 10K pages freed at once should be safe even without a preemption point.
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*/
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#define MAX_GATHER_BATCH_COUNT (10000UL/MAX_GATHER_BATCH)
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extern bool __tlb_remove_page_size(struct mmu_gather *tlb, struct page *page,
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int page_size);
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#endif
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/*
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* struct mmu_gather is an opaque type used by the mm code for passing around
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* any data needed by arch specific code for tlb_remove_page.
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*/
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struct mmu_gather {
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struct mm_struct *mm;
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#ifdef CONFIG_HAVE_RCU_TABLE_FREE
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struct mmu_table_batch *batch;
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#endif
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unsigned long start;
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unsigned long end;
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/*
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* we are in the middle of an operation to clear
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* a full mm and can make some optimizations
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*/
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unsigned int fullmm : 1;
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/*
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* we have performed an operation which
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* requires a complete flush of the tlb
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*/
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unsigned int need_flush_all : 1;
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/*
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* we have removed page directories
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*/
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unsigned int freed_tables : 1;
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/*
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* at which levels have we cleared entries?
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*/
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unsigned int cleared_ptes : 1;
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unsigned int cleared_pmds : 1;
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unsigned int cleared_puds : 1;
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unsigned int cleared_p4ds : 1;
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/*
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* tracks VM_EXEC | VM_HUGETLB in tlb_start_vma
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*/
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unsigned int vma_exec : 1;
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unsigned int vma_huge : 1;
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unsigned int batch_count;
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#ifndef CONFIG_HAVE_MMU_GATHER_NO_GATHER
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struct mmu_gather_batch *active;
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struct mmu_gather_batch local;
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struct page *__pages[MMU_GATHER_BUNDLE];
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#ifdef CONFIG_HAVE_MMU_GATHER_PAGE_SIZE
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unsigned int page_size;
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#endif
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#endif
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};
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void arch_tlb_gather_mmu(struct mmu_gather *tlb,
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struct mm_struct *mm, unsigned long start, unsigned long end);
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void tlb_flush_mmu(struct mmu_gather *tlb);
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void arch_tlb_finish_mmu(struct mmu_gather *tlb,
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unsigned long start, unsigned long end, bool force);
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static inline void __tlb_adjust_range(struct mmu_gather *tlb,
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unsigned long address,
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unsigned int range_size)
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{
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tlb->start = min(tlb->start, address);
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tlb->end = max(tlb->end, address + range_size);
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}
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static inline void __tlb_reset_range(struct mmu_gather *tlb)
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{
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if (tlb->fullmm) {
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tlb->start = tlb->end = ~0;
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} else {
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tlb->start = TASK_SIZE;
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tlb->end = 0;
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}
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tlb->freed_tables = 0;
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tlb->cleared_ptes = 0;
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tlb->cleared_pmds = 0;
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tlb->cleared_puds = 0;
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tlb->cleared_p4ds = 0;
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/*
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* Do not reset mmu_gather::vma_* fields here, we do not
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* call into tlb_start_vma() again to set them if there is an
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* intermediate flush.
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*/
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}
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#ifdef CONFIG_MMU_GATHER_NO_RANGE
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#if defined(tlb_flush) || defined(tlb_start_vma) || defined(tlb_end_vma)
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#error MMU_GATHER_NO_RANGE relies on default tlb_flush(), tlb_start_vma() and tlb_end_vma()
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#endif
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/*
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* When an architecture does not have efficient means of range flushing TLBs
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* there is no point in doing intermediate flushes on tlb_end_vma() to keep the
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* range small. We equally don't have to worry about page granularity or other
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* things.
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*
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* All we need to do is issue a full flush for any !0 range.
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*/
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static inline void tlb_flush(struct mmu_gather *tlb)
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{
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if (tlb->end)
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flush_tlb_mm(tlb->mm);
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}
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static inline void
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tlb_update_vma_flags(struct mmu_gather *tlb, struct vm_area_struct *vma) { }
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#define tlb_end_vma tlb_end_vma
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static inline void tlb_end_vma(struct mmu_gather *tlb, struct vm_area_struct *vma) { }
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#else /* CONFIG_MMU_GATHER_NO_RANGE */
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#ifndef tlb_flush
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#if defined(tlb_start_vma) || defined(tlb_end_vma)
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#error Default tlb_flush() relies on default tlb_start_vma() and tlb_end_vma()
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#endif
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/*
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* When an architecture does not provide its own tlb_flush() implementation
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* but does have a reasonably efficient flush_vma_range() implementation
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* use that.
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*/
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static inline void tlb_flush(struct mmu_gather *tlb)
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{
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if (tlb->fullmm || tlb->need_flush_all) {
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flush_tlb_mm(tlb->mm);
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} else if (tlb->end) {
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struct vm_area_struct vma = {
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.vm_mm = tlb->mm,
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.vm_flags = (tlb->vma_exec ? VM_EXEC : 0) |
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(tlb->vma_huge ? VM_HUGETLB : 0),
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};
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flush_tlb_range(&vma, tlb->start, tlb->end);
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}
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}
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static inline void
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tlb_update_vma_flags(struct mmu_gather *tlb, struct vm_area_struct *vma)
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{
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/*
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* flush_tlb_range() implementations that look at VM_HUGETLB (tile,
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* mips-4k) flush only large pages.
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*
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* flush_tlb_range() implementations that flush I-TLB also flush D-TLB
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* (tile, xtensa, arm), so it's ok to just add VM_EXEC to an existing
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* range.
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*
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* We rely on tlb_end_vma() to issue a flush, such that when we reset
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* these values the batch is empty.
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*/
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tlb->vma_huge = !!(vma->vm_flags & VM_HUGETLB);
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tlb->vma_exec = !!(vma->vm_flags & VM_EXEC);
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}
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#else
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static inline void
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tlb_update_vma_flags(struct mmu_gather *tlb, struct vm_area_struct *vma) { }
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#endif
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#endif /* CONFIG_MMU_GATHER_NO_RANGE */
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static inline void tlb_flush_mmu_tlbonly(struct mmu_gather *tlb)
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{
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if (!tlb->end)
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return;
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tlb_flush(tlb);
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mmu_notifier_invalidate_range(tlb->mm, tlb->start, tlb->end);
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__tlb_reset_range(tlb);
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}
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static inline void tlb_remove_page_size(struct mmu_gather *tlb,
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struct page *page, int page_size)
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{
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if (__tlb_remove_page_size(tlb, page, page_size))
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tlb_flush_mmu(tlb);
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}
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static inline bool __tlb_remove_page(struct mmu_gather *tlb, struct page *page)
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{
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return __tlb_remove_page_size(tlb, page, PAGE_SIZE);
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}
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/* tlb_remove_page
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* Similar to __tlb_remove_page but will call tlb_flush_mmu() itself when
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* required.
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*/
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static inline void tlb_remove_page(struct mmu_gather *tlb, struct page *page)
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{
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return tlb_remove_page_size(tlb, page, PAGE_SIZE);
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}
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static inline void tlb_change_page_size(struct mmu_gather *tlb,
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unsigned int page_size)
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{
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#ifdef CONFIG_HAVE_MMU_GATHER_PAGE_SIZE
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if (tlb->page_size && tlb->page_size != page_size) {
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if (!tlb->fullmm)
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tlb_flush_mmu(tlb);
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}
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tlb->page_size = page_size;
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#endif
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}
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static inline unsigned long tlb_get_unmap_shift(struct mmu_gather *tlb)
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{
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if (tlb->cleared_ptes)
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return PAGE_SHIFT;
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if (tlb->cleared_pmds)
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return PMD_SHIFT;
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if (tlb->cleared_puds)
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return PUD_SHIFT;
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if (tlb->cleared_p4ds)
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return P4D_SHIFT;
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return PAGE_SHIFT;
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}
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static inline unsigned long tlb_get_unmap_size(struct mmu_gather *tlb)
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{
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return 1UL << tlb_get_unmap_shift(tlb);
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}
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/*
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* In the case of tlb vma handling, we can optimise these away in the
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* case where we're doing a full MM flush. When we're doing a munmap,
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* the vmas are adjusted to only cover the region to be torn down.
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*/
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#ifndef tlb_start_vma
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static inline void tlb_start_vma(struct mmu_gather *tlb, struct vm_area_struct *vma)
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{
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if (tlb->fullmm)
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return;
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tlb_update_vma_flags(tlb, vma);
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flush_cache_range(vma, vma->vm_start, vma->vm_end);
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}
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#endif
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#ifndef tlb_end_vma
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static inline void tlb_end_vma(struct mmu_gather *tlb, struct vm_area_struct *vma)
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{
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if (tlb->fullmm)
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return;
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|
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/*
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* Do a TLB flush and reset the range at VMA boundaries; this avoids
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* the ranges growing with the unused space between consecutive VMAs,
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* but also the mmu_gather::vma_* flags from tlb_start_vma() rely on
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* this.
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*/
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tlb_flush_mmu_tlbonly(tlb);
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}
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#endif
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#ifndef __tlb_remove_tlb_entry
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#define __tlb_remove_tlb_entry(tlb, ptep, address) do { } while (0)
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#endif
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/**
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* tlb_remove_tlb_entry - remember a pte unmapping for later tlb invalidation.
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*
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* Record the fact that pte's were really unmapped by updating the range,
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* so we can later optimise away the tlb invalidate. This helps when
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* userspace is unmapping already-unmapped pages, which happens quite a lot.
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*/
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#define tlb_remove_tlb_entry(tlb, ptep, address) \
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do { \
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__tlb_adjust_range(tlb, address, PAGE_SIZE); \
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tlb->cleared_ptes = 1; \
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__tlb_remove_tlb_entry(tlb, ptep, address); \
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|
} while (0)
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|
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#define tlb_remove_huge_tlb_entry(h, tlb, ptep, address) \
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|
do { \
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unsigned long _sz = huge_page_size(h); \
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__tlb_adjust_range(tlb, address, _sz); \
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if (_sz == PMD_SIZE) \
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tlb->cleared_pmds = 1; \
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|
else if (_sz == PUD_SIZE) \
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tlb->cleared_puds = 1; \
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__tlb_remove_tlb_entry(tlb, ptep, address); \
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|
} while (0)
|
|
|
|
/**
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|
* tlb_remove_pmd_tlb_entry - remember a pmd mapping for later tlb invalidation
|
|
* This is a nop so far, because only x86 needs it.
|
|
*/
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|
#ifndef __tlb_remove_pmd_tlb_entry
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|
#define __tlb_remove_pmd_tlb_entry(tlb, pmdp, address) do {} while (0)
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|
#endif
|
|
|
|
#define tlb_remove_pmd_tlb_entry(tlb, pmdp, address) \
|
|
do { \
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|
__tlb_adjust_range(tlb, address, HPAGE_PMD_SIZE); \
|
|
tlb->cleared_pmds = 1; \
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|
__tlb_remove_pmd_tlb_entry(tlb, pmdp, address); \
|
|
} while (0)
|
|
|
|
/**
|
|
* tlb_remove_pud_tlb_entry - remember a pud mapping for later tlb
|
|
* invalidation. This is a nop so far, because only x86 needs it.
|
|
*/
|
|
#ifndef __tlb_remove_pud_tlb_entry
|
|
#define __tlb_remove_pud_tlb_entry(tlb, pudp, address) do {} while (0)
|
|
#endif
|
|
|
|
#define tlb_remove_pud_tlb_entry(tlb, pudp, address) \
|
|
do { \
|
|
__tlb_adjust_range(tlb, address, HPAGE_PUD_SIZE); \
|
|
tlb->cleared_puds = 1; \
|
|
__tlb_remove_pud_tlb_entry(tlb, pudp, address); \
|
|
} while (0)
|
|
|
|
/*
|
|
* For things like page tables caches (ie caching addresses "inside" the
|
|
* page tables, like x86 does), for legacy reasons, flushing an
|
|
* individual page had better flush the page table caches behind it. This
|
|
* is definitely how x86 works, for example. And if you have an
|
|
* architected non-legacy page table cache (which I'm not aware of
|
|
* anybody actually doing), you're going to have some architecturally
|
|
* explicit flushing for that, likely *separate* from a regular TLB entry
|
|
* flush, and thus you'd need more than just some range expansion..
|
|
*
|
|
* So if we ever find an architecture
|
|
* that would want something that odd, I think it is up to that
|
|
* architecture to do its own odd thing, not cause pain for others
|
|
* http://lkml.kernel.org/r/CA+55aFzBggoXtNXQeng5d_mRoDnaMBE5Y+URs+PHR67nUpMtaw@mail.gmail.com
|
|
*
|
|
* For now w.r.t page table cache, mark the range_size as PAGE_SIZE
|
|
*/
|
|
|
|
#ifndef pte_free_tlb
|
|
#define pte_free_tlb(tlb, ptep, address) \
|
|
do { \
|
|
__tlb_adjust_range(tlb, address, PAGE_SIZE); \
|
|
tlb->freed_tables = 1; \
|
|
tlb->cleared_pmds = 1; \
|
|
__pte_free_tlb(tlb, ptep, address); \
|
|
} while (0)
|
|
#endif
|
|
|
|
#ifndef pmd_free_tlb
|
|
#define pmd_free_tlb(tlb, pmdp, address) \
|
|
do { \
|
|
__tlb_adjust_range(tlb, address, PAGE_SIZE); \
|
|
tlb->freed_tables = 1; \
|
|
tlb->cleared_puds = 1; \
|
|
__pmd_free_tlb(tlb, pmdp, address); \
|
|
} while (0)
|
|
#endif
|
|
|
|
#ifndef __ARCH_HAS_4LEVEL_HACK
|
|
#ifndef pud_free_tlb
|
|
#define pud_free_tlb(tlb, pudp, address) \
|
|
do { \
|
|
__tlb_adjust_range(tlb, address, PAGE_SIZE); \
|
|
tlb->freed_tables = 1; \
|
|
tlb->cleared_p4ds = 1; \
|
|
__pud_free_tlb(tlb, pudp, address); \
|
|
} while (0)
|
|
#endif
|
|
#endif
|
|
|
|
#ifndef __ARCH_HAS_5LEVEL_HACK
|
|
#ifndef p4d_free_tlb
|
|
#define p4d_free_tlb(tlb, pudp, address) \
|
|
do { \
|
|
__tlb_adjust_range(tlb, address, PAGE_SIZE); \
|
|
tlb->freed_tables = 1; \
|
|
__p4d_free_tlb(tlb, pudp, address); \
|
|
} while (0)
|
|
#endif
|
|
#endif
|
|
|
|
#endif /* CONFIG_MMU */
|
|
|
|
#endif /* _ASM_GENERIC__TLB_H */
|