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8cdb878dcb
This fixes the race in process_vm_core found by Oleg (see http://article.gmane.org/gmane.linux.kernel/1235667/ for details). This has been updated since I last sent it as the creation of the new mm_access() function did almost exactly the same thing as parts of the previous version of this patch did. In order to use mm_access() even when /proc isn't enabled, we move it to kernel/fork.c where other related process mm access functions already are. Signed-off-by: Chris Yeoh <yeohc@au1.ibm.com> Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
492 lines
13 KiB
C
492 lines
13 KiB
C
/*
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* linux/mm/process_vm_access.c
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*
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* Copyright (C) 2010-2011 Christopher Yeoh <cyeoh@au1.ibm.com>, IBM Corp.
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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; either version
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* 2 of the License, or (at your option) any later version.
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*/
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#include <linux/mm.h>
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#include <linux/uio.h>
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#include <linux/sched.h>
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#include <linux/highmem.h>
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#include <linux/ptrace.h>
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#include <linux/slab.h>
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#include <linux/syscalls.h>
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#ifdef CONFIG_COMPAT
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#include <linux/compat.h>
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#endif
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/**
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* process_vm_rw_pages - read/write pages from task specified
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* @task: task to read/write from
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* @mm: mm for task
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* @process_pages: struct pages area that can store at least
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* nr_pages_to_copy struct page pointers
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* @pa: address of page in task to start copying from/to
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* @start_offset: offset in page to start copying from/to
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* @len: number of bytes to copy
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* @lvec: iovec array specifying where to copy to/from
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* @lvec_cnt: number of elements in iovec array
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* @lvec_current: index in iovec array we are up to
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* @lvec_offset: offset in bytes from current iovec iov_base we are up to
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* @vm_write: 0 means copy from, 1 means copy to
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* @nr_pages_to_copy: number of pages to copy
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* @bytes_copied: returns number of bytes successfully copied
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* Returns 0 on success, error code otherwise
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*/
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static int process_vm_rw_pages(struct task_struct *task,
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struct mm_struct *mm,
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struct page **process_pages,
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unsigned long pa,
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unsigned long start_offset,
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unsigned long len,
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const struct iovec *lvec,
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unsigned long lvec_cnt,
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unsigned long *lvec_current,
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size_t *lvec_offset,
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int vm_write,
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unsigned int nr_pages_to_copy,
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ssize_t *bytes_copied)
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{
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int pages_pinned;
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void *target_kaddr;
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int pgs_copied = 0;
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int j;
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int ret;
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ssize_t bytes_to_copy;
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ssize_t rc = 0;
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*bytes_copied = 0;
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/* Get the pages we're interested in */
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down_read(&mm->mmap_sem);
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pages_pinned = get_user_pages(task, mm, pa,
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nr_pages_to_copy,
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vm_write, 0, process_pages, NULL);
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up_read(&mm->mmap_sem);
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if (pages_pinned != nr_pages_to_copy) {
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rc = -EFAULT;
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goto end;
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}
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/* Do the copy for each page */
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for (pgs_copied = 0;
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(pgs_copied < nr_pages_to_copy) && (*lvec_current < lvec_cnt);
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pgs_copied++) {
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/* Make sure we have a non zero length iovec */
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while (*lvec_current < lvec_cnt
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&& lvec[*lvec_current].iov_len == 0)
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(*lvec_current)++;
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if (*lvec_current == lvec_cnt)
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break;
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/*
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* Will copy smallest of:
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* - bytes remaining in page
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* - bytes remaining in destination iovec
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*/
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bytes_to_copy = min_t(ssize_t, PAGE_SIZE - start_offset,
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len - *bytes_copied);
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bytes_to_copy = min_t(ssize_t, bytes_to_copy,
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lvec[*lvec_current].iov_len
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- *lvec_offset);
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target_kaddr = kmap(process_pages[pgs_copied]) + start_offset;
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if (vm_write)
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ret = copy_from_user(target_kaddr,
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lvec[*lvec_current].iov_base
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+ *lvec_offset,
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bytes_to_copy);
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else
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ret = copy_to_user(lvec[*lvec_current].iov_base
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+ *lvec_offset,
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target_kaddr, bytes_to_copy);
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kunmap(process_pages[pgs_copied]);
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if (ret) {
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*bytes_copied += bytes_to_copy - ret;
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pgs_copied++;
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rc = -EFAULT;
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goto end;
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}
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*bytes_copied += bytes_to_copy;
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*lvec_offset += bytes_to_copy;
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if (*lvec_offset == lvec[*lvec_current].iov_len) {
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/*
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* Need to copy remaining part of page into the
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* next iovec if there are any bytes left in page
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*/
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(*lvec_current)++;
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*lvec_offset = 0;
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start_offset = (start_offset + bytes_to_copy)
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% PAGE_SIZE;
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if (start_offset)
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pgs_copied--;
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} else {
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start_offset = 0;
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}
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}
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end:
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if (vm_write) {
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for (j = 0; j < pages_pinned; j++) {
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if (j < pgs_copied)
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set_page_dirty_lock(process_pages[j]);
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put_page(process_pages[j]);
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}
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} else {
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for (j = 0; j < pages_pinned; j++)
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put_page(process_pages[j]);
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}
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return rc;
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}
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/* Maximum number of pages kmalloc'd to hold struct page's during copy */
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#define PVM_MAX_KMALLOC_PAGES (PAGE_SIZE * 2)
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/**
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* process_vm_rw_single_vec - read/write pages from task specified
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* @addr: start memory address of target process
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* @len: size of area to copy to/from
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* @lvec: iovec array specifying where to copy to/from locally
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* @lvec_cnt: number of elements in iovec array
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* @lvec_current: index in iovec array we are up to
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* @lvec_offset: offset in bytes from current iovec iov_base we are up to
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* @process_pages: struct pages area that can store at least
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* nr_pages_to_copy struct page pointers
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* @mm: mm for task
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* @task: task to read/write from
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* @vm_write: 0 means copy from, 1 means copy to
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* @bytes_copied: returns number of bytes successfully copied
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* Returns 0 on success or on failure error code
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*/
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static int process_vm_rw_single_vec(unsigned long addr,
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unsigned long len,
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const struct iovec *lvec,
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unsigned long lvec_cnt,
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unsigned long *lvec_current,
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size_t *lvec_offset,
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struct page **process_pages,
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struct mm_struct *mm,
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struct task_struct *task,
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int vm_write,
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ssize_t *bytes_copied)
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{
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unsigned long pa = addr & PAGE_MASK;
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unsigned long start_offset = addr - pa;
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unsigned long nr_pages;
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ssize_t bytes_copied_loop;
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ssize_t rc = 0;
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unsigned long nr_pages_copied = 0;
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unsigned long nr_pages_to_copy;
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unsigned long max_pages_per_loop = PVM_MAX_KMALLOC_PAGES
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/ sizeof(struct pages *);
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*bytes_copied = 0;
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/* Work out address and page range required */
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if (len == 0)
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return 0;
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nr_pages = (addr + len - 1) / PAGE_SIZE - addr / PAGE_SIZE + 1;
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while ((nr_pages_copied < nr_pages) && (*lvec_current < lvec_cnt)) {
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nr_pages_to_copy = min(nr_pages - nr_pages_copied,
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max_pages_per_loop);
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rc = process_vm_rw_pages(task, mm, process_pages, pa,
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start_offset, len,
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lvec, lvec_cnt,
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lvec_current, lvec_offset,
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vm_write, nr_pages_to_copy,
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&bytes_copied_loop);
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start_offset = 0;
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*bytes_copied += bytes_copied_loop;
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if (rc < 0) {
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return rc;
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} else {
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len -= bytes_copied_loop;
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nr_pages_copied += nr_pages_to_copy;
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pa += nr_pages_to_copy * PAGE_SIZE;
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}
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}
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return rc;
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}
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/* Maximum number of entries for process pages array
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which lives on stack */
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#define PVM_MAX_PP_ARRAY_COUNT 16
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/**
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* process_vm_rw_core - core of reading/writing pages from task specified
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* @pid: PID of process to read/write from/to
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* @lvec: iovec array specifying where to copy to/from locally
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* @liovcnt: size of lvec array
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* @rvec: iovec array specifying where to copy to/from in the other process
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* @riovcnt: size of rvec array
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* @flags: currently unused
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* @vm_write: 0 if reading from other process, 1 if writing to other process
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* Returns the number of bytes read/written or error code. May
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* return less bytes than expected if an error occurs during the copying
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* process.
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*/
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static ssize_t process_vm_rw_core(pid_t pid, const struct iovec *lvec,
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unsigned long liovcnt,
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const struct iovec *rvec,
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unsigned long riovcnt,
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unsigned long flags, int vm_write)
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{
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struct task_struct *task;
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struct page *pp_stack[PVM_MAX_PP_ARRAY_COUNT];
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struct page **process_pages = pp_stack;
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struct mm_struct *mm;
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unsigned long i;
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ssize_t rc = 0;
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ssize_t bytes_copied_loop;
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ssize_t bytes_copied = 0;
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unsigned long nr_pages = 0;
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unsigned long nr_pages_iov;
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unsigned long iov_l_curr_idx = 0;
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size_t iov_l_curr_offset = 0;
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ssize_t iov_len;
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/*
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* Work out how many pages of struct pages we're going to need
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* when eventually calling get_user_pages
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*/
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for (i = 0; i < riovcnt; i++) {
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iov_len = rvec[i].iov_len;
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if (iov_len > 0) {
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nr_pages_iov = ((unsigned long)rvec[i].iov_base
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+ iov_len)
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/ PAGE_SIZE - (unsigned long)rvec[i].iov_base
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/ PAGE_SIZE + 1;
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nr_pages = max(nr_pages, nr_pages_iov);
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}
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}
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if (nr_pages == 0)
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return 0;
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if (nr_pages > PVM_MAX_PP_ARRAY_COUNT) {
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/* For reliability don't try to kmalloc more than
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2 pages worth */
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process_pages = kmalloc(min_t(size_t, PVM_MAX_KMALLOC_PAGES,
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sizeof(struct pages *)*nr_pages),
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GFP_KERNEL);
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if (!process_pages)
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return -ENOMEM;
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}
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/* Get process information */
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rcu_read_lock();
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task = find_task_by_vpid(pid);
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if (task)
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get_task_struct(task);
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rcu_read_unlock();
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if (!task) {
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rc = -ESRCH;
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goto free_proc_pages;
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}
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mm = mm_access(task, PTRACE_MODE_ATTACH);
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if (!mm || IS_ERR(mm)) {
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rc = IS_ERR(mm) ? PTR_ERR(mm) : -ESRCH;
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/*
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* Explicitly map EACCES to EPERM as EPERM is a more a
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* appropriate error code for process_vw_readv/writev
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*/
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if (rc == -EACCES)
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rc = -EPERM;
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goto put_task_struct;
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}
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for (i = 0; i < riovcnt && iov_l_curr_idx < liovcnt; i++) {
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rc = process_vm_rw_single_vec(
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(unsigned long)rvec[i].iov_base, rvec[i].iov_len,
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lvec, liovcnt, &iov_l_curr_idx, &iov_l_curr_offset,
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process_pages, mm, task, vm_write, &bytes_copied_loop);
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bytes_copied += bytes_copied_loop;
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if (rc != 0) {
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/* If we have managed to copy any data at all then
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we return the number of bytes copied. Otherwise
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we return the error code */
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if (bytes_copied)
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rc = bytes_copied;
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goto put_mm;
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}
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}
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rc = bytes_copied;
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put_mm:
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mmput(mm);
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put_task_struct:
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put_task_struct(task);
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free_proc_pages:
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if (process_pages != pp_stack)
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kfree(process_pages);
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return rc;
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}
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/**
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* process_vm_rw - check iovecs before calling core routine
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* @pid: PID of process to read/write from/to
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* @lvec: iovec array specifying where to copy to/from locally
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* @liovcnt: size of lvec array
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* @rvec: iovec array specifying where to copy to/from in the other process
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* @riovcnt: size of rvec array
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* @flags: currently unused
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* @vm_write: 0 if reading from other process, 1 if writing to other process
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* Returns the number of bytes read/written or error code. May
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* return less bytes than expected if an error occurs during the copying
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* process.
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*/
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static ssize_t process_vm_rw(pid_t pid,
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const struct iovec __user *lvec,
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unsigned long liovcnt,
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const struct iovec __user *rvec,
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unsigned long riovcnt,
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unsigned long flags, int vm_write)
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{
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struct iovec iovstack_l[UIO_FASTIOV];
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struct iovec iovstack_r[UIO_FASTIOV];
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struct iovec *iov_l = iovstack_l;
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struct iovec *iov_r = iovstack_r;
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ssize_t rc;
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if (flags != 0)
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return -EINVAL;
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/* Check iovecs */
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if (vm_write)
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rc = rw_copy_check_uvector(WRITE, lvec, liovcnt, UIO_FASTIOV,
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iovstack_l, &iov_l, 1);
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else
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rc = rw_copy_check_uvector(READ, lvec, liovcnt, UIO_FASTIOV,
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iovstack_l, &iov_l, 1);
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if (rc <= 0)
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goto free_iovecs;
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rc = rw_copy_check_uvector(READ, rvec, riovcnt, UIO_FASTIOV,
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iovstack_r, &iov_r, 0);
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if (rc <= 0)
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goto free_iovecs;
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rc = process_vm_rw_core(pid, iov_l, liovcnt, iov_r, riovcnt, flags,
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vm_write);
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free_iovecs:
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if (iov_r != iovstack_r)
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kfree(iov_r);
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if (iov_l != iovstack_l)
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kfree(iov_l);
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return rc;
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}
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SYSCALL_DEFINE6(process_vm_readv, pid_t, pid, const struct iovec __user *, lvec,
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unsigned long, liovcnt, const struct iovec __user *, rvec,
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unsigned long, riovcnt, unsigned long, flags)
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{
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return process_vm_rw(pid, lvec, liovcnt, rvec, riovcnt, flags, 0);
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}
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SYSCALL_DEFINE6(process_vm_writev, pid_t, pid,
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const struct iovec __user *, lvec,
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unsigned long, liovcnt, const struct iovec __user *, rvec,
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unsigned long, riovcnt, unsigned long, flags)
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{
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return process_vm_rw(pid, lvec, liovcnt, rvec, riovcnt, flags, 1);
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}
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#ifdef CONFIG_COMPAT
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asmlinkage ssize_t
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compat_process_vm_rw(compat_pid_t pid,
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const struct compat_iovec __user *lvec,
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unsigned long liovcnt,
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const struct compat_iovec __user *rvec,
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unsigned long riovcnt,
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unsigned long flags, int vm_write)
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{
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struct iovec iovstack_l[UIO_FASTIOV];
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struct iovec iovstack_r[UIO_FASTIOV];
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struct iovec *iov_l = iovstack_l;
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struct iovec *iov_r = iovstack_r;
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ssize_t rc = -EFAULT;
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if (flags != 0)
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return -EINVAL;
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if (!access_ok(VERIFY_READ, lvec, liovcnt * sizeof(*lvec)))
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goto out;
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if (!access_ok(VERIFY_READ, rvec, riovcnt * sizeof(*rvec)))
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goto out;
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if (vm_write)
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rc = compat_rw_copy_check_uvector(WRITE, lvec, liovcnt,
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UIO_FASTIOV, iovstack_l,
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&iov_l, 1);
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else
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rc = compat_rw_copy_check_uvector(READ, lvec, liovcnt,
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UIO_FASTIOV, iovstack_l,
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&iov_l, 1);
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if (rc <= 0)
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goto free_iovecs;
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rc = compat_rw_copy_check_uvector(READ, rvec, riovcnt,
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UIO_FASTIOV, iovstack_r,
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&iov_r, 0);
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if (rc <= 0)
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goto free_iovecs;
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rc = process_vm_rw_core(pid, iov_l, liovcnt, iov_r, riovcnt, flags,
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vm_write);
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free_iovecs:
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if (iov_r != iovstack_r)
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kfree(iov_r);
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if (iov_l != iovstack_l)
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kfree(iov_l);
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out:
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return rc;
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}
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asmlinkage ssize_t
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compat_sys_process_vm_readv(compat_pid_t pid,
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const struct compat_iovec __user *lvec,
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unsigned long liovcnt,
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const struct compat_iovec __user *rvec,
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unsigned long riovcnt,
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unsigned long flags)
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{
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return compat_process_vm_rw(pid, lvec, liovcnt, rvec,
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riovcnt, flags, 0);
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}
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asmlinkage ssize_t
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compat_sys_process_vm_writev(compat_pid_t pid,
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const struct compat_iovec __user *lvec,
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unsigned long liovcnt,
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const struct compat_iovec __user *rvec,
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unsigned long riovcnt,
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unsigned long flags)
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{
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return compat_process_vm_rw(pid, lvec, liovcnt, rvec,
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riovcnt, flags, 1);
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}
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#endif
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