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23baf831a3
MAX_ORDER currently defined as number of orders page allocator supports: user can ask buddy allocator for page order between 0 and MAX_ORDER-1. This definition is counter-intuitive and lead to number of bugs all over the kernel. Change the definition of MAX_ORDER to be inclusive: the range of orders user can ask from buddy allocator is 0..MAX_ORDER now. [kirill@shutemov.name: fix min() warning] Link: https://lkml.kernel.org/r/20230315153800.32wib3n5rickolvh@box [akpm@linux-foundation.org: fix another min_t warning] [kirill@shutemov.name: fixups per Zi Yan] Link: https://lkml.kernel.org/r/20230316232144.b7ic4cif4kjiabws@box.shutemov.name [akpm@linux-foundation.org: fix underlining in docs] Link: https://lore.kernel.org/oe-kbuild-all/202303191025.VRCTk6mP-lkp@intel.com/ Link: https://lkml.kernel.org/r/20230315113133.11326-11-kirill.shutemov@linux.intel.com Signed-off-by: Kirill A. Shutemov <kirill.shutemov@linux.intel.com> Reviewed-by: Michael Ellerman <mpe@ellerman.id.au> [powerpc] Cc: "Kirill A. Shutemov" <kirill@shutemov.name> Cc: Zi Yan <ziy@nvidia.com> Signed-off-by: Andrew Morton <akpm@linux-foundation.org>
236 lines
6.3 KiB
C
236 lines
6.3 KiB
C
// SPDX-License-Identifier: GPL-2.0
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/*
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* KMSAN initialization routines.
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*
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* Copyright (C) 2017-2021 Google LLC
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* Author: Alexander Potapenko <glider@google.com>
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*
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*/
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#include "kmsan.h"
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#include <asm/sections.h>
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#include <linux/mm.h>
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#include <linux/memblock.h>
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#include "../internal.h"
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#define NUM_FUTURE_RANGES 128
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struct start_end_pair {
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u64 start, end;
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};
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static struct start_end_pair start_end_pairs[NUM_FUTURE_RANGES] __initdata;
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static int future_index __initdata;
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/*
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* Record a range of memory for which the metadata pages will be created once
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* the page allocator becomes available.
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*/
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static void __init kmsan_record_future_shadow_range(void *start, void *end)
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{
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u64 nstart = (u64)start, nend = (u64)end, cstart, cend;
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bool merged = false;
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KMSAN_WARN_ON(future_index == NUM_FUTURE_RANGES);
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KMSAN_WARN_ON((nstart >= nend) || !nstart || !nend);
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nstart = ALIGN_DOWN(nstart, PAGE_SIZE);
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nend = ALIGN(nend, PAGE_SIZE);
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/*
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* Scan the existing ranges to see if any of them overlaps with
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* [start, end). In that case, merge the two ranges instead of
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* creating a new one.
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* The number of ranges is less than 20, so there is no need to organize
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* them into a more intelligent data structure.
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*/
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for (int i = 0; i < future_index; i++) {
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cstart = start_end_pairs[i].start;
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cend = start_end_pairs[i].end;
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if ((cstart < nstart && cend < nstart) ||
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(cstart > nend && cend > nend))
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/* ranges are disjoint - do not merge */
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continue;
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start_end_pairs[i].start = min(nstart, cstart);
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start_end_pairs[i].end = max(nend, cend);
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merged = true;
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break;
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}
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if (merged)
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return;
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start_end_pairs[future_index].start = nstart;
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start_end_pairs[future_index].end = nend;
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future_index++;
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}
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/*
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* Initialize the shadow for existing mappings during kernel initialization.
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* These include kernel text/data sections, NODE_DATA and future ranges
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* registered while creating other data (e.g. percpu).
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*
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* Allocations via memblock can be only done before slab is initialized.
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*/
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void __init kmsan_init_shadow(void)
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{
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const size_t nd_size = roundup(sizeof(pg_data_t), PAGE_SIZE);
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phys_addr_t p_start, p_end;
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u64 loop;
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int nid;
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for_each_reserved_mem_range(loop, &p_start, &p_end)
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kmsan_record_future_shadow_range(phys_to_virt(p_start),
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phys_to_virt(p_end));
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/* Allocate shadow for .data */
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kmsan_record_future_shadow_range(_sdata, _edata);
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for_each_online_node(nid)
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kmsan_record_future_shadow_range(
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NODE_DATA(nid), (char *)NODE_DATA(nid) + nd_size);
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for (int i = 0; i < future_index; i++)
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kmsan_init_alloc_meta_for_range(
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(void *)start_end_pairs[i].start,
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(void *)start_end_pairs[i].end);
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}
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struct metadata_page_pair {
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struct page *shadow, *origin;
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};
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static struct metadata_page_pair held_back[MAX_ORDER + 1] __initdata;
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/*
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* Eager metadata allocation. When the memblock allocator is freeing pages to
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* pagealloc, we use 2/3 of them as metadata for the remaining 1/3.
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* We store the pointers to the returned blocks of pages in held_back[] grouped
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* by their order: when kmsan_memblock_free_pages() is called for the first
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* time with a certain order, it is reserved as a shadow block, for the second
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* time - as an origin block. On the third time the incoming block receives its
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* shadow and origin ranges from the previously saved shadow and origin blocks,
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* after which held_back[order] can be used again.
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*
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* At the very end there may be leftover blocks in held_back[]. They are
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* collected later by kmsan_memblock_discard().
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*/
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bool kmsan_memblock_free_pages(struct page *page, unsigned int order)
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{
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struct page *shadow, *origin;
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if (!held_back[order].shadow) {
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held_back[order].shadow = page;
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return false;
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}
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if (!held_back[order].origin) {
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held_back[order].origin = page;
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return false;
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}
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shadow = held_back[order].shadow;
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origin = held_back[order].origin;
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kmsan_setup_meta(page, shadow, origin, order);
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held_back[order].shadow = NULL;
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held_back[order].origin = NULL;
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return true;
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}
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#define MAX_BLOCKS 8
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struct smallstack {
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struct page *items[MAX_BLOCKS];
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int index;
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int order;
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};
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static struct smallstack collect = {
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.index = 0,
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.order = MAX_ORDER,
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};
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static void smallstack_push(struct smallstack *stack, struct page *pages)
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{
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KMSAN_WARN_ON(stack->index == MAX_BLOCKS);
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stack->items[stack->index] = pages;
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stack->index++;
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}
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#undef MAX_BLOCKS
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static struct page *smallstack_pop(struct smallstack *stack)
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{
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struct page *ret;
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KMSAN_WARN_ON(stack->index == 0);
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stack->index--;
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ret = stack->items[stack->index];
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stack->items[stack->index] = NULL;
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return ret;
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}
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static void do_collection(void)
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{
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struct page *page, *shadow, *origin;
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while (collect.index >= 3) {
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page = smallstack_pop(&collect);
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shadow = smallstack_pop(&collect);
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origin = smallstack_pop(&collect);
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kmsan_setup_meta(page, shadow, origin, collect.order);
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__free_pages_core(page, collect.order);
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}
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}
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static void collect_split(void)
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{
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struct smallstack tmp = {
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.order = collect.order - 1,
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.index = 0,
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};
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struct page *page;
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if (!collect.order)
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return;
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while (collect.index) {
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page = smallstack_pop(&collect);
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smallstack_push(&tmp, &page[0]);
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smallstack_push(&tmp, &page[1 << tmp.order]);
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}
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__memcpy(&collect, &tmp, sizeof(tmp));
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}
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/*
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* Memblock is about to go away. Split the page blocks left over in held_back[]
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* and return 1/3 of that memory to the system.
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*/
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static void kmsan_memblock_discard(void)
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{
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/*
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* For each order=N:
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* - push held_back[N].shadow and .origin to @collect;
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* - while there are >= 3 elements in @collect, do garbage collection:
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* - pop 3 ranges from @collect;
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* - use two of them as shadow and origin for the third one;
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* - repeat;
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* - split each remaining element from @collect into 2 ranges of
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* order=N-1,
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* - repeat.
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*/
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collect.order = MAX_ORDER;
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for (int i = MAX_ORDER; i >= 0; i--) {
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if (held_back[i].shadow)
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smallstack_push(&collect, held_back[i].shadow);
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if (held_back[i].origin)
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smallstack_push(&collect, held_back[i].origin);
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held_back[i].shadow = NULL;
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held_back[i].origin = NULL;
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do_collection();
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collect_split();
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}
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}
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void __init kmsan_init_runtime(void)
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{
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/* Assuming current is init_task */
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kmsan_internal_task_create(current);
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kmsan_memblock_discard();
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pr_info("Starting KernelMemorySanitizer\n");
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pr_info("ATTENTION: KMSAN is a debugging tool! Do not use it on production machines!\n");
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kmsan_enabled = true;
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}
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