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afcc90f862
This patch adds checking of usercopy cache whitelisting, and is modified from Brad Spengler/PaX Team's PAX_USERCOPY whitelisting code in the last public patch of grsecurity/PaX based on my understanding of the code. Changes or omissions from the original code are mine and don't reflect the original grsecurity/PaX code. The SLAB and SLUB allocators are modified to WARN() on all copy operations in which the kernel heap memory being modified falls outside of the cache's defined usercopy region. Based on an earlier patch from David Windsor. Cc: Christoph Lameter <cl@linux.com> Cc: Pekka Enberg <penberg@kernel.org> Cc: David Rientjes <rientjes@google.com> Cc: Joonsoo Kim <iamjoonsoo.kim@lge.com> Cc: Andrew Morton <akpm@linux-foundation.org> Cc: Laura Abbott <labbott@redhat.com> Cc: Ingo Molnar <mingo@kernel.org> Cc: Mark Rutland <mark.rutland@arm.com> Cc: linux-mm@kvack.org Cc: linux-xfs@vger.kernel.org Signed-off-by: Kees Cook <keescook@chromium.org>
282 lines
8.8 KiB
C
282 lines
8.8 KiB
C
/*
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* This implements the various checks for CONFIG_HARDENED_USERCOPY*,
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* which are designed to protect kernel memory from needless exposure
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* and overwrite under many unintended conditions. This code is based
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* on PAX_USERCOPY, which is:
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*
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* Copyright (C) 2001-2016 PaX Team, Bradley Spengler, Open Source
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* Security Inc.
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License version 2 as
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* published by the Free Software Foundation.
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*
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*/
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#define pr_fmt(fmt) KBUILD_MODNAME ": " fmt
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#include <linux/mm.h>
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#include <linux/slab.h>
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#include <linux/sched.h>
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#include <linux/sched/task.h>
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#include <linux/sched/task_stack.h>
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#include <linux/thread_info.h>
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#include <asm/sections.h>
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/*
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* Checks if a given pointer and length is contained by the current
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* stack frame (if possible).
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*
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* Returns:
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* NOT_STACK: not at all on the stack
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* GOOD_FRAME: fully within a valid stack frame
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* GOOD_STACK: fully on the stack (when can't do frame-checking)
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* BAD_STACK: error condition (invalid stack position or bad stack frame)
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*/
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static noinline int check_stack_object(const void *obj, unsigned long len)
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{
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const void * const stack = task_stack_page(current);
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const void * const stackend = stack + THREAD_SIZE;
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int ret;
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/* Object is not on the stack at all. */
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if (obj + len <= stack || stackend <= obj)
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return NOT_STACK;
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/*
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* Reject: object partially overlaps the stack (passing the
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* the check above means at least one end is within the stack,
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* so if this check fails, the other end is outside the stack).
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*/
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if (obj < stack || stackend < obj + len)
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return BAD_STACK;
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/* Check if object is safely within a valid frame. */
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ret = arch_within_stack_frames(stack, stackend, obj, len);
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if (ret)
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return ret;
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return GOOD_STACK;
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}
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/*
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* If these functions are reached, then CONFIG_HARDENED_USERCOPY has found
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* an unexpected state during a copy_from_user() or copy_to_user() call.
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* There are several checks being performed on the buffer by the
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* __check_object_size() function. Normal stack buffer usage should never
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* trip the checks, and kernel text addressing will always trip the check.
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* For cache objects, it is checking that only the whitelisted range of
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* bytes for a given cache is being accessed (via the cache's usersize and
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* useroffset fields). To adjust a cache whitelist, use the usercopy-aware
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* kmem_cache_create_usercopy() function to create the cache (and
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* carefully audit the whitelist range).
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*/
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void usercopy_warn(const char *name, const char *detail, bool to_user,
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unsigned long offset, unsigned long len)
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{
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WARN_ONCE(1, "Bad or missing usercopy whitelist? Kernel memory %s attempt detected %s %s%s%s%s (offset %lu, size %lu)!\n",
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to_user ? "exposure" : "overwrite",
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to_user ? "from" : "to",
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name ? : "unknown?!",
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detail ? " '" : "", detail ? : "", detail ? "'" : "",
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offset, len);
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}
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void __noreturn usercopy_abort(const char *name, const char *detail,
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bool to_user, unsigned long offset,
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unsigned long len)
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{
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pr_emerg("Kernel memory %s attempt detected %s %s%s%s%s (offset %lu, size %lu)!\n",
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to_user ? "exposure" : "overwrite",
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to_user ? "from" : "to",
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name ? : "unknown?!",
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detail ? " '" : "", detail ? : "", detail ? "'" : "",
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offset, len);
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/*
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* For greater effect, it would be nice to do do_group_exit(),
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* but BUG() actually hooks all the lock-breaking and per-arch
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* Oops code, so that is used here instead.
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*/
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BUG();
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}
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/* Returns true if any portion of [ptr,ptr+n) over laps with [low,high). */
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static bool overlaps(const unsigned long ptr, unsigned long n,
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unsigned long low, unsigned long high)
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{
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const unsigned long check_low = ptr;
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unsigned long check_high = check_low + n;
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/* Does not overlap if entirely above or entirely below. */
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if (check_low >= high || check_high <= low)
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return false;
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return true;
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}
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/* Is this address range in the kernel text area? */
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static inline void check_kernel_text_object(const unsigned long ptr,
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unsigned long n, bool to_user)
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{
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unsigned long textlow = (unsigned long)_stext;
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unsigned long texthigh = (unsigned long)_etext;
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unsigned long textlow_linear, texthigh_linear;
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if (overlaps(ptr, n, textlow, texthigh))
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usercopy_abort("kernel text", NULL, to_user, ptr - textlow, n);
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/*
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* Some architectures have virtual memory mappings with a secondary
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* mapping of the kernel text, i.e. there is more than one virtual
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* kernel address that points to the kernel image. It is usually
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* when there is a separate linear physical memory mapping, in that
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* __pa() is not just the reverse of __va(). This can be detected
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* and checked:
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*/
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textlow_linear = (unsigned long)lm_alias(textlow);
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/* No different mapping: we're done. */
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if (textlow_linear == textlow)
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return;
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/* Check the secondary mapping... */
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texthigh_linear = (unsigned long)lm_alias(texthigh);
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if (overlaps(ptr, n, textlow_linear, texthigh_linear))
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usercopy_abort("linear kernel text", NULL, to_user,
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ptr - textlow_linear, n);
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}
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static inline void check_bogus_address(const unsigned long ptr, unsigned long n,
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bool to_user)
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{
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/* Reject if object wraps past end of memory. */
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if (ptr + n < ptr)
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usercopy_abort("wrapped address", NULL, to_user, 0, ptr + n);
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/* Reject if NULL or ZERO-allocation. */
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if (ZERO_OR_NULL_PTR(ptr))
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usercopy_abort("null address", NULL, to_user, ptr, n);
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}
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/* Checks for allocs that are marked in some way as spanning multiple pages. */
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static inline void check_page_span(const void *ptr, unsigned long n,
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struct page *page, bool to_user)
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{
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#ifdef CONFIG_HARDENED_USERCOPY_PAGESPAN
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const void *end = ptr + n - 1;
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struct page *endpage;
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bool is_reserved, is_cma;
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/*
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* Sometimes the kernel data regions are not marked Reserved (see
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* check below). And sometimes [_sdata,_edata) does not cover
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* rodata and/or bss, so check each range explicitly.
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*/
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/* Allow reads of kernel rodata region (if not marked as Reserved). */
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if (ptr >= (const void *)__start_rodata &&
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end <= (const void *)__end_rodata) {
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if (!to_user)
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usercopy_abort("rodata", NULL, to_user, 0, n);
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return;
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}
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/* Allow kernel data region (if not marked as Reserved). */
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if (ptr >= (const void *)_sdata && end <= (const void *)_edata)
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return;
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/* Allow kernel bss region (if not marked as Reserved). */
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if (ptr >= (const void *)__bss_start &&
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end <= (const void *)__bss_stop)
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return;
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/* Is the object wholly within one base page? */
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if (likely(((unsigned long)ptr & (unsigned long)PAGE_MASK) ==
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((unsigned long)end & (unsigned long)PAGE_MASK)))
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return;
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/* Allow if fully inside the same compound (__GFP_COMP) page. */
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endpage = virt_to_head_page(end);
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if (likely(endpage == page))
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return;
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/*
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* Reject if range is entirely either Reserved (i.e. special or
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* device memory), or CMA. Otherwise, reject since the object spans
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* several independently allocated pages.
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*/
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is_reserved = PageReserved(page);
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is_cma = is_migrate_cma_page(page);
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if (!is_reserved && !is_cma)
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usercopy_abort("spans multiple pages", NULL, to_user, 0, n);
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for (ptr += PAGE_SIZE; ptr <= end; ptr += PAGE_SIZE) {
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page = virt_to_head_page(ptr);
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if (is_reserved && !PageReserved(page))
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usercopy_abort("spans Reserved and non-Reserved pages",
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NULL, to_user, 0, n);
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if (is_cma && !is_migrate_cma_page(page))
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usercopy_abort("spans CMA and non-CMA pages", NULL,
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to_user, 0, n);
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}
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#endif
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}
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static inline void check_heap_object(const void *ptr, unsigned long n,
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bool to_user)
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{
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struct page *page;
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if (!virt_addr_valid(ptr))
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return;
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page = virt_to_head_page(ptr);
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if (PageSlab(page)) {
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/* Check slab allocator for flags and size. */
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__check_heap_object(ptr, n, page, to_user);
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} else {
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/* Verify object does not incorrectly span multiple pages. */
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check_page_span(ptr, n, page, to_user);
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}
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}
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/*
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* Validates that the given object is:
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* - not bogus address
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* - known-safe heap or stack object
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* - not in kernel text
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*/
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void __check_object_size(const void *ptr, unsigned long n, bool to_user)
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{
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/* Skip all tests if size is zero. */
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if (!n)
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return;
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/* Check for invalid addresses. */
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check_bogus_address((const unsigned long)ptr, n, to_user);
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/* Check for bad heap object. */
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check_heap_object(ptr, n, to_user);
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/* Check for bad stack object. */
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switch (check_stack_object(ptr, n)) {
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case NOT_STACK:
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/* Object is not touching the current process stack. */
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break;
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case GOOD_FRAME:
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case GOOD_STACK:
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/*
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* Object is either in the correct frame (when it
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* is possible to check) or just generally on the
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* process stack (when frame checking not available).
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*/
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return;
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default:
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usercopy_abort("process stack", NULL, to_user, 0, n);
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}
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/* Check for object in kernel to avoid text exposure. */
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check_kernel_text_object((const unsigned long)ptr, n, to_user);
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}
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EXPORT_SYMBOL(__check_object_size);
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