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https://github.com/AuxXxilium/linux_dsm_epyc7002.git
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20a004e7b0
In many cases, page tables can be accessed concurrently by either another CPU (due to things like fast gup) or by the hardware page table walker itself, which may set access/dirty bits. In such cases, it is important to use READ_ONCE/WRITE_ONCE when accessing page table entries so that entries cannot be torn, merged or subject to apparent loss of coherence due to compiler transformations. Whilst there are some scenarios where this cannot happen (e.g. pinned kernel mappings for the linear region), the overhead of using READ_ONCE /WRITE_ONCE everywhere is minimal and makes the code an awful lot easier to reason about. This patch consistently uses these macros in the arch code, as well as explicitly namespacing pointers to page table entries from the entries themselves by using adopting a 'p' suffix for the former (as is sometimes used elsewhere in the kernel source). Tested-by: Yury Norov <ynorov@caviumnetworks.com> Tested-by: Richard Ruigrok <rruigrok@codeaurora.org> Reviewed-by: Marc Zyngier <marc.zyngier@arm.com> Signed-off-by: Will Deacon <will.deacon@arm.com> Signed-off-by: Catalin Marinas <catalin.marinas@arm.com>
414 lines
9.1 KiB
C
414 lines
9.1 KiB
C
/*
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* Copyright (c) 2014, The Linux Foundation. All rights reserved.
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* Debug helper to dump the current kernel pagetables of the system
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* so that we can see what the various memory ranges are set to.
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*
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* Derived from x86 and arm implementation:
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* (C) Copyright 2008 Intel Corporation
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*
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* Author: Arjan van de Ven <arjan@linux.intel.com>
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; version 2
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* of the License.
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*/
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#include <linux/debugfs.h>
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#include <linux/errno.h>
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#include <linux/fs.h>
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#include <linux/io.h>
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#include <linux/init.h>
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#include <linux/mm.h>
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#include <linux/sched.h>
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#include <linux/seq_file.h>
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#include <asm/fixmap.h>
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#include <asm/kasan.h>
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#include <asm/memory.h>
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#include <asm/pgtable.h>
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#include <asm/pgtable-hwdef.h>
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#include <asm/ptdump.h>
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static const struct addr_marker address_markers[] = {
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#ifdef CONFIG_KASAN
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{ KASAN_SHADOW_START, "Kasan shadow start" },
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{ KASAN_SHADOW_END, "Kasan shadow end" },
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#endif
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{ MODULES_VADDR, "Modules start" },
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{ MODULES_END, "Modules end" },
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{ VMALLOC_START, "vmalloc() Area" },
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{ VMALLOC_END, "vmalloc() End" },
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{ FIXADDR_START, "Fixmap start" },
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{ FIXADDR_TOP, "Fixmap end" },
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{ PCI_IO_START, "PCI I/O start" },
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{ PCI_IO_END, "PCI I/O end" },
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#ifdef CONFIG_SPARSEMEM_VMEMMAP
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{ VMEMMAP_START, "vmemmap start" },
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{ VMEMMAP_START + VMEMMAP_SIZE, "vmemmap end" },
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#endif
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{ PAGE_OFFSET, "Linear Mapping" },
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{ -1, NULL },
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};
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#define pt_dump_seq_printf(m, fmt, args...) \
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({ \
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if (m) \
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seq_printf(m, fmt, ##args); \
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})
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#define pt_dump_seq_puts(m, fmt) \
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({ \
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if (m) \
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seq_printf(m, fmt); \
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})
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/*
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* The page dumper groups page table entries of the same type into a single
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* description. It uses pg_state to track the range information while
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* iterating over the pte entries. When the continuity is broken it then
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* dumps out a description of the range.
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*/
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struct pg_state {
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struct seq_file *seq;
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const struct addr_marker *marker;
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unsigned long start_address;
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unsigned level;
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u64 current_prot;
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bool check_wx;
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unsigned long wx_pages;
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unsigned long uxn_pages;
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};
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struct prot_bits {
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u64 mask;
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u64 val;
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const char *set;
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const char *clear;
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};
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static const struct prot_bits pte_bits[] = {
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{
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.mask = PTE_VALID,
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.val = PTE_VALID,
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.set = " ",
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.clear = "F",
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}, {
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.mask = PTE_USER,
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.val = PTE_USER,
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.set = "USR",
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.clear = " ",
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}, {
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.mask = PTE_RDONLY,
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.val = PTE_RDONLY,
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.set = "ro",
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.clear = "RW",
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}, {
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.mask = PTE_PXN,
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.val = PTE_PXN,
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.set = "NX",
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.clear = "x ",
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}, {
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.mask = PTE_SHARED,
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.val = PTE_SHARED,
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.set = "SHD",
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.clear = " ",
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}, {
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.mask = PTE_AF,
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.val = PTE_AF,
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.set = "AF",
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.clear = " ",
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}, {
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.mask = PTE_NG,
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.val = PTE_NG,
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.set = "NG",
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.clear = " ",
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}, {
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.mask = PTE_CONT,
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.val = PTE_CONT,
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.set = "CON",
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.clear = " ",
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}, {
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.mask = PTE_TABLE_BIT,
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.val = PTE_TABLE_BIT,
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.set = " ",
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.clear = "BLK",
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}, {
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.mask = PTE_UXN,
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.val = PTE_UXN,
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.set = "UXN",
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}, {
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.mask = PTE_ATTRINDX_MASK,
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.val = PTE_ATTRINDX(MT_DEVICE_nGnRnE),
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.set = "DEVICE/nGnRnE",
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}, {
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.mask = PTE_ATTRINDX_MASK,
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.val = PTE_ATTRINDX(MT_DEVICE_nGnRE),
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.set = "DEVICE/nGnRE",
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}, {
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.mask = PTE_ATTRINDX_MASK,
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.val = PTE_ATTRINDX(MT_DEVICE_GRE),
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.set = "DEVICE/GRE",
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}, {
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.mask = PTE_ATTRINDX_MASK,
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.val = PTE_ATTRINDX(MT_NORMAL_NC),
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.set = "MEM/NORMAL-NC",
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}, {
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.mask = PTE_ATTRINDX_MASK,
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.val = PTE_ATTRINDX(MT_NORMAL),
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.set = "MEM/NORMAL",
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}
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};
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struct pg_level {
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const struct prot_bits *bits;
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const char *name;
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size_t num;
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u64 mask;
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};
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static struct pg_level pg_level[] = {
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{
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}, { /* pgd */
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.name = "PGD",
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.bits = pte_bits,
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.num = ARRAY_SIZE(pte_bits),
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}, { /* pud */
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.name = (CONFIG_PGTABLE_LEVELS > 3) ? "PUD" : "PGD",
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.bits = pte_bits,
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.num = ARRAY_SIZE(pte_bits),
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}, { /* pmd */
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.name = (CONFIG_PGTABLE_LEVELS > 2) ? "PMD" : "PGD",
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.bits = pte_bits,
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.num = ARRAY_SIZE(pte_bits),
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}, { /* pte */
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.name = "PTE",
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.bits = pte_bits,
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.num = ARRAY_SIZE(pte_bits),
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},
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};
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static void dump_prot(struct pg_state *st, const struct prot_bits *bits,
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size_t num)
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{
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unsigned i;
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for (i = 0; i < num; i++, bits++) {
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const char *s;
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if ((st->current_prot & bits->mask) == bits->val)
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s = bits->set;
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else
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s = bits->clear;
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if (s)
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pt_dump_seq_printf(st->seq, " %s", s);
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}
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}
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static void note_prot_uxn(struct pg_state *st, unsigned long addr)
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{
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if (!st->check_wx)
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return;
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if ((st->current_prot & PTE_UXN) == PTE_UXN)
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return;
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WARN_ONCE(1, "arm64/mm: Found non-UXN mapping at address %p/%pS\n",
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(void *)st->start_address, (void *)st->start_address);
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st->uxn_pages += (addr - st->start_address) / PAGE_SIZE;
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}
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static void note_prot_wx(struct pg_state *st, unsigned long addr)
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{
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if (!st->check_wx)
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return;
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if ((st->current_prot & PTE_RDONLY) == PTE_RDONLY)
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return;
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if ((st->current_prot & PTE_PXN) == PTE_PXN)
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return;
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WARN_ONCE(1, "arm64/mm: Found insecure W+X mapping at address %p/%pS\n",
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(void *)st->start_address, (void *)st->start_address);
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st->wx_pages += (addr - st->start_address) / PAGE_SIZE;
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}
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static void note_page(struct pg_state *st, unsigned long addr, unsigned level,
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u64 val)
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{
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static const char units[] = "KMGTPE";
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u64 prot = val & pg_level[level].mask;
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if (!st->level) {
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st->level = level;
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st->current_prot = prot;
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st->start_address = addr;
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pt_dump_seq_printf(st->seq, "---[ %s ]---\n", st->marker->name);
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} else if (prot != st->current_prot || level != st->level ||
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addr >= st->marker[1].start_address) {
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const char *unit = units;
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unsigned long delta;
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if (st->current_prot) {
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note_prot_uxn(st, addr);
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note_prot_wx(st, addr);
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pt_dump_seq_printf(st->seq, "0x%016lx-0x%016lx ",
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st->start_address, addr);
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delta = (addr - st->start_address) >> 10;
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while (!(delta & 1023) && unit[1]) {
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delta >>= 10;
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unit++;
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}
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pt_dump_seq_printf(st->seq, "%9lu%c %s", delta, *unit,
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pg_level[st->level].name);
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if (pg_level[st->level].bits)
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dump_prot(st, pg_level[st->level].bits,
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pg_level[st->level].num);
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pt_dump_seq_puts(st->seq, "\n");
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}
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if (addr >= st->marker[1].start_address) {
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st->marker++;
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pt_dump_seq_printf(st->seq, "---[ %s ]---\n", st->marker->name);
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}
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st->start_address = addr;
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st->current_prot = prot;
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st->level = level;
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}
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if (addr >= st->marker[1].start_address) {
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st->marker++;
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pt_dump_seq_printf(st->seq, "---[ %s ]---\n", st->marker->name);
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}
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}
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static void walk_pte(struct pg_state *st, pmd_t *pmdp, unsigned long start)
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{
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pte_t *ptep = pte_offset_kernel(pmdp, 0UL);
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unsigned long addr;
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unsigned i;
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for (i = 0; i < PTRS_PER_PTE; i++, ptep++) {
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addr = start + i * PAGE_SIZE;
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note_page(st, addr, 4, READ_ONCE(pte_val(*ptep)));
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}
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}
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static void walk_pmd(struct pg_state *st, pud_t *pudp, unsigned long start)
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{
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pmd_t *pmdp = pmd_offset(pudp, 0UL);
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unsigned long addr;
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unsigned i;
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for (i = 0; i < PTRS_PER_PMD; i++, pmdp++) {
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pmd_t pmd = READ_ONCE(*pmdp);
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addr = start + i * PMD_SIZE;
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if (pmd_none(pmd) || pmd_sect(pmd)) {
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note_page(st, addr, 3, pmd_val(pmd));
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} else {
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BUG_ON(pmd_bad(pmd));
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walk_pte(st, pmdp, addr);
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}
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}
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}
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static void walk_pud(struct pg_state *st, pgd_t *pgdp, unsigned long start)
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{
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pud_t *pudp = pud_offset(pgdp, 0UL);
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unsigned long addr;
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unsigned i;
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for (i = 0; i < PTRS_PER_PUD; i++, pudp++) {
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pud_t pud = READ_ONCE(*pudp);
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addr = start + i * PUD_SIZE;
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if (pud_none(pud) || pud_sect(pud)) {
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note_page(st, addr, 2, pud_val(pud));
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} else {
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BUG_ON(pud_bad(pud));
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walk_pmd(st, pudp, addr);
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}
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}
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}
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static void walk_pgd(struct pg_state *st, struct mm_struct *mm,
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unsigned long start)
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{
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pgd_t *pgdp = pgd_offset(mm, 0UL);
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unsigned i;
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unsigned long addr;
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for (i = 0; i < PTRS_PER_PGD; i++, pgdp++) {
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pgd_t pgd = READ_ONCE(*pgdp);
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addr = start + i * PGDIR_SIZE;
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if (pgd_none(pgd)) {
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note_page(st, addr, 1, pgd_val(pgd));
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} else {
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BUG_ON(pgd_bad(pgd));
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walk_pud(st, pgdp, addr);
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}
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}
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}
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void ptdump_walk_pgd(struct seq_file *m, struct ptdump_info *info)
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{
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struct pg_state st = {
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.seq = m,
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.marker = info->markers,
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};
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walk_pgd(&st, info->mm, info->base_addr);
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note_page(&st, 0, 0, 0);
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}
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static void ptdump_initialize(void)
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{
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unsigned i, j;
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for (i = 0; i < ARRAY_SIZE(pg_level); i++)
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if (pg_level[i].bits)
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for (j = 0; j < pg_level[i].num; j++)
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pg_level[i].mask |= pg_level[i].bits[j].mask;
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}
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static struct ptdump_info kernel_ptdump_info = {
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.mm = &init_mm,
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.markers = address_markers,
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.base_addr = VA_START,
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};
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void ptdump_check_wx(void)
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{
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struct pg_state st = {
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.seq = NULL,
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.marker = (struct addr_marker[]) {
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{ 0, NULL},
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{ -1, NULL},
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},
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.check_wx = true,
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};
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walk_pgd(&st, &init_mm, VA_START);
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note_page(&st, 0, 0, 0);
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if (st.wx_pages || st.uxn_pages)
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pr_warn("Checked W+X mappings: FAILED, %lu W+X pages found, %lu non-UXN pages found\n",
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st.wx_pages, st.uxn_pages);
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else
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pr_info("Checked W+X mappings: passed, no W+X pages found\n");
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}
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static int ptdump_init(void)
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{
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ptdump_initialize();
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return ptdump_debugfs_register(&kernel_ptdump_info,
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"kernel_page_tables");
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}
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device_initcall(ptdump_init);
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