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// SPDX-License-Identifier: GPL-2.0-or-later
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/*
* Copyright 2013 Red Hat Inc .
*
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* Authors : Jérôme Glisse < jglisse @ redhat . com >
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*/
/*
* Refer to include / linux / hmm . h for information about heterogeneous memory
* management or HMM for short .
*/
# include <linux/mm.h>
# include <linux/hmm.h>
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# include <linux/init.h>
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# include <linux/rmap.h>
# include <linux/swap.h>
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# include <linux/slab.h>
# include <linux/sched.h>
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# include <linux/mmzone.h>
# include <linux/pagemap.h>
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# include <linux/swapops.h>
# include <linux/hugetlb.h>
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# include <linux/memremap.h>
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# include <linux/sched/mm.h>
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# include <linux/jump_label.h>
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# include <linux/dma-mapping.h>
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# include <linux/mmu_notifier.h>
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# include <linux/memory_hotplug.h>
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static const struct mmu_notifier_ops hmm_mmu_notifier_ops ;
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/**
* hmm_get_or_create - register HMM against an mm ( HMM internal )
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*
* @ mm : mm struct to attach to
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* Return : an HMM object , either by referencing the existing
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* ( per - process ) object , or by creating a new one .
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*
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* This is not intended to be used directly by device drivers . If mm already
* has an HMM struct then it get a reference on it and returns it . Otherwise
* it allocates an HMM struct , initializes it , associate it with the mm and
* returns it .
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*/
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static struct hmm * hmm_get_or_create ( struct mm_struct * mm )
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{
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struct hmm * hmm ;
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lockdep_assert_held_write ( & mm - > mmap_sem ) ;
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/* Abuse the page_table_lock to also protect mm->hmm. */
spin_lock ( & mm - > page_table_lock ) ;
hmm = mm - > hmm ;
if ( mm - > hmm & & kref_get_unless_zero ( & mm - > hmm - > kref ) )
goto out_unlock ;
spin_unlock ( & mm - > page_table_lock ) ;
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hmm = kmalloc ( sizeof ( * hmm ) , GFP_KERNEL ) ;
if ( ! hmm )
return NULL ;
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init_waitqueue_head ( & hmm - > wq ) ;
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INIT_LIST_HEAD ( & hmm - > mirrors ) ;
init_rwsem ( & hmm - > mirrors_sem ) ;
hmm - > mmu_notifier . ops = NULL ;
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INIT_LIST_HEAD ( & hmm - > ranges ) ;
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spin_lock_init ( & hmm - > ranges_lock ) ;
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kref_init ( & hmm - > kref ) ;
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hmm - > notifiers = 0 ;
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hmm - > mm = mm ;
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hmm - > mmu_notifier . ops = & hmm_mmu_notifier_ops ;
if ( __mmu_notifier_register ( & hmm - > mmu_notifier , mm ) ) {
kfree ( hmm ) ;
return NULL ;
}
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mmgrab ( hmm - > mm ) ;
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/*
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* We hold the exclusive mmap_sem here so we know that mm - > hmm is
* still NULL or 0 kref , and is safe to update .
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*/
spin_lock ( & mm - > page_table_lock ) ;
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mm - > hmm = hmm ;
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out_unlock :
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spin_unlock ( & mm - > page_table_lock ) ;
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return hmm ;
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}
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static void hmm_free_rcu ( struct rcu_head * rcu )
{
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struct hmm * hmm = container_of ( rcu , struct hmm , rcu ) ;
mmdrop ( hmm - > mm ) ;
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kfree ( hmm ) ;
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}
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static void hmm_free ( struct kref * kref )
{
struct hmm * hmm = container_of ( kref , struct hmm , kref ) ;
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spin_lock ( & hmm - > mm - > page_table_lock ) ;
if ( hmm - > mm - > hmm = = hmm )
hmm - > mm - > hmm = NULL ;
spin_unlock ( & hmm - > mm - > page_table_lock ) ;
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mmu_notifier_unregister_no_release ( & hmm - > mmu_notifier , hmm - > mm ) ;
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mmu_notifier_call_srcu ( & hmm - > rcu , hmm_free_rcu ) ;
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}
static inline void hmm_put ( struct hmm * hmm )
{
kref_put ( & hmm - > kref , hmm_free ) ;
}
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static void hmm_release ( struct mmu_notifier * mn , struct mm_struct * mm )
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{
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struct hmm * hmm = container_of ( mn , struct hmm , mmu_notifier ) ;
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struct hmm_mirror * mirror ;
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/* Bail out if hmm is in the process of being freed */
if ( ! kref_get_unless_zero ( & hmm - > kref ) )
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return ;
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/*
* Since hmm_range_register ( ) holds the mmget ( ) lock hmm_release ( ) is
* prevented as long as a range exists .
*/
WARN_ON ( ! list_empty_careful ( & hmm - > ranges ) ) ;
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down_read ( & hmm - > mirrors_sem ) ;
list_for_each_entry ( mirror , & hmm - > mirrors , list ) {
/*
* Note : The driver is not allowed to trigger
* hmm_mirror_unregister ( ) from this thread .
*/
if ( mirror - > ops - > release )
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mirror - > ops - > release ( mirror ) ;
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}
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up_read ( & hmm - > mirrors_sem ) ;
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hmm_put ( hmm ) ;
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}
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static void notifiers_decrement ( struct hmm * hmm )
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{
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unsigned long flags ;
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spin_lock_irqsave ( & hmm - > ranges_lock , flags ) ;
hmm - > notifiers - - ;
if ( ! hmm - > notifiers ) {
struct hmm_range * range ;
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list_for_each_entry ( range , & hmm - > ranges , list ) {
if ( range - > valid )
continue ;
range - > valid = true ;
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}
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wake_up_all ( & hmm - > wq ) ;
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}
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spin_unlock_irqrestore ( & hmm - > ranges_lock , flags ) ;
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}
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static int hmm_invalidate_range_start ( struct mmu_notifier * mn ,
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const struct mmu_notifier_range * nrange )
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{
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struct hmm * hmm = container_of ( mn , struct hmm , mmu_notifier ) ;
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struct hmm_mirror * mirror ;
struct hmm_range * range ;
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unsigned long flags ;
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int ret = 0 ;
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if ( ! kref_get_unless_zero ( & hmm - > kref ) )
return 0 ;
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spin_lock_irqsave ( & hmm - > ranges_lock , flags ) ;
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hmm - > notifiers + + ;
list_for_each_entry ( range , & hmm - > ranges , list ) {
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if ( nrange - > end < range - > start | | nrange - > start > = range - > end )
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continue ;
range - > valid = false ;
}
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spin_unlock_irqrestore ( & hmm - > ranges_lock , flags ) ;
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if ( mmu_notifier_range_blockable ( nrange ) )
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down_read ( & hmm - > mirrors_sem ) ;
else if ( ! down_read_trylock ( & hmm - > mirrors_sem ) ) {
ret = - EAGAIN ;
goto out ;
}
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list_for_each_entry ( mirror , & hmm - > mirrors , list ) {
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int rc ;
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rc = mirror - > ops - > sync_cpu_device_pagetables ( mirror , nrange ) ;
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if ( rc ) {
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if ( WARN_ON ( mmu_notifier_range_blockable ( nrange ) | |
rc ! = - EAGAIN ) )
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continue ;
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ret = - EAGAIN ;
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break ;
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}
}
up_read ( & hmm - > mirrors_sem ) ;
out :
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if ( ret )
notifiers_decrement ( hmm ) ;
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hmm_put ( hmm ) ;
return ret ;
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}
static void hmm_invalidate_range_end ( struct mmu_notifier * mn ,
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const struct mmu_notifier_range * nrange )
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{
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struct hmm * hmm = container_of ( mn , struct hmm , mmu_notifier ) ;
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if ( ! kref_get_unless_zero ( & hmm - > kref ) )
return ;
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notifiers_decrement ( hmm ) ;
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hmm_put ( hmm ) ;
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}
static const struct mmu_notifier_ops hmm_mmu_notifier_ops = {
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. release = hmm_release ,
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. invalidate_range_start = hmm_invalidate_range_start ,
. invalidate_range_end = hmm_invalidate_range_end ,
} ;
/*
* hmm_mirror_register ( ) - register a mirror against an mm
*
* @ mirror : new mirror struct to register
* @ mm : mm to register against
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* Return : 0 on success , - ENOMEM if no memory , - EINVAL if invalid arguments
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*
* To start mirroring a process address space , the device driver must register
* an HMM mirror struct .
*/
int hmm_mirror_register ( struct hmm_mirror * mirror , struct mm_struct * mm )
{
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lockdep_assert_held_write ( & mm - > mmap_sem ) ;
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/* Sanity check */
if ( ! mm | | ! mirror | | ! mirror - > ops )
return - EINVAL ;
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mirror - > hmm = hmm_get_or_create ( mm ) ;
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if ( ! mirror - > hmm )
return - ENOMEM ;
down_write ( & mirror - > hmm - > mirrors_sem ) ;
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list_add ( & mirror - > list , & mirror - > hmm - > mirrors ) ;
up_write ( & mirror - > hmm - > mirrors_sem ) ;
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return 0 ;
}
EXPORT_SYMBOL ( hmm_mirror_register ) ;
/*
* hmm_mirror_unregister ( ) - unregister a mirror
*
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* @ mirror : mirror struct to unregister
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*
* Stop mirroring a process address space , and cleanup .
*/
void hmm_mirror_unregister ( struct hmm_mirror * mirror )
{
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struct hmm * hmm = mirror - > hmm ;
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down_write ( & hmm - > mirrors_sem ) ;
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list_del ( & mirror - > list ) ;
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up_write ( & hmm - > mirrors_sem ) ;
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hmm_put ( hmm ) ;
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}
EXPORT_SYMBOL ( hmm_mirror_unregister ) ;
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struct hmm_vma_walk {
struct hmm_range * range ;
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struct dev_pagemap * pgmap ;
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unsigned long last ;
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unsigned int flags ;
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} ;
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static int hmm_vma_do_fault ( struct mm_walk * walk , unsigned long addr ,
bool write_fault , uint64_t * pfn )
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{
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unsigned int flags = FAULT_FLAG_REMOTE ;
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struct hmm_vma_walk * hmm_vma_walk = walk - > private ;
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struct hmm_range * range = hmm_vma_walk - > range ;
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struct vm_area_struct * vma = walk - > vma ;
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vm_fault_t ret ;
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if ( hmm_vma_walk - > flags & HMM_FAULT_ALLOW_RETRY )
flags | = FAULT_FLAG_ALLOW_RETRY ;
if ( write_fault )
flags | = FAULT_FLAG_WRITE ;
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ret = handle_mm_fault ( vma , addr , flags ) ;
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if ( ret & VM_FAULT_RETRY ) {
/* Note, handle_mm_fault did up_read(&mm->mmap_sem)) */
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return - EAGAIN ;
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}
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if ( ret & VM_FAULT_ERROR ) {
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* pfn = range - > values [ HMM_PFN_ERROR ] ;
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return - EFAULT ;
}
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return - EBUSY ;
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}
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static int hmm_pfns_bad ( unsigned long addr ,
unsigned long end ,
struct mm_walk * walk )
{
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struct hmm_vma_walk * hmm_vma_walk = walk - > private ;
struct hmm_range * range = hmm_vma_walk - > range ;
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uint64_t * pfns = range - > pfns ;
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unsigned long i ;
i = ( addr - range - > start ) > > PAGE_SHIFT ;
for ( ; addr < end ; addr + = PAGE_SIZE , i + + )
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pfns [ i ] = range - > values [ HMM_PFN_ERROR ] ;
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return 0 ;
}
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/*
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* hmm_vma_walk_hole_ ( ) - handle a range lacking valid pmd or pte ( s )
* @ addr : range virtual start address ( inclusive )
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* @ end : range virtual end address ( exclusive )
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* @ fault : should we fault or not ?
* @ write_fault : write fault ?
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* @ walk : mm_walk structure
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* Return : 0 on success , - EBUSY after page fault , or page fault error
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*
* This function will be called whenever pmd_none ( ) or pte_none ( ) returns true ,
* or whenever there is no page directory covering the virtual address range .
*/
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static int hmm_vma_walk_hole_ ( unsigned long addr , unsigned long end ,
bool fault , bool write_fault ,
struct mm_walk * walk )
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{
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struct hmm_vma_walk * hmm_vma_walk = walk - > private ;
struct hmm_range * range = hmm_vma_walk - > range ;
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uint64_t * pfns = range - > pfns ;
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unsigned long i ;
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hmm_vma_walk - > last = addr ;
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i = ( addr - range - > start ) > > PAGE_SHIFT ;
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for ( ; addr < end ; addr + = PAGE_SIZE , i + + ) {
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pfns [ i ] = range - > values [ HMM_PFN_NONE ] ;
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if ( fault | | write_fault ) {
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int ret ;
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ret = hmm_vma_do_fault ( walk , addr , write_fault ,
& pfns [ i ] ) ;
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if ( ret ! = - EBUSY )
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return ret ;
}
}
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return ( fault | | write_fault ) ? - EBUSY : 0 ;
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}
static inline void hmm_pte_need_fault ( const struct hmm_vma_walk * hmm_vma_walk ,
uint64_t pfns , uint64_t cpu_flags ,
bool * fault , bool * write_fault )
{
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struct hmm_range * range = hmm_vma_walk - > range ;
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if ( hmm_vma_walk - > flags & HMM_FAULT_SNAPSHOT )
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return ;
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/*
* So we not only consider the individual per page request we also
* consider the default flags requested for the range . The API can
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* be used 2 ways . The first one where the HMM user coalesces
* multiple page faults into one request and sets flags per pfn for
* those faults . The second one where the HMM user wants to pre -
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* fault a range with specific flags . For the latter one it is a
* waste to have the user pre - fill the pfn arrays with a default
* flags value .
*/
pfns = ( pfns & range - > pfn_flags_mask ) | range - > default_flags ;
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/* We aren't ask to do anything ... */
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if ( ! ( pfns & range - > flags [ HMM_PFN_VALID ] ) )
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return ;
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/* If this is device memory then only fault if explicitly requested */
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if ( ( cpu_flags & range - > flags [ HMM_PFN_DEVICE_PRIVATE ] ) ) {
/* Do we fault on device memory ? */
if ( pfns & range - > flags [ HMM_PFN_DEVICE_PRIVATE ] ) {
* write_fault = pfns & range - > flags [ HMM_PFN_WRITE ] ;
* fault = true ;
}
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return ;
}
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/* If CPU page table is not valid then we need to fault */
* fault = ! ( cpu_flags & range - > flags [ HMM_PFN_VALID ] ) ;
/* Need to write fault ? */
if ( ( pfns & range - > flags [ HMM_PFN_WRITE ] ) & &
! ( cpu_flags & range - > flags [ HMM_PFN_WRITE ] ) ) {
* write_fault = true ;
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* fault = true ;
}
}
static void hmm_range_need_fault ( const struct hmm_vma_walk * hmm_vma_walk ,
const uint64_t * pfns , unsigned long npages ,
uint64_t cpu_flags , bool * fault ,
bool * write_fault )
{
unsigned long i ;
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if ( hmm_vma_walk - > flags & HMM_FAULT_SNAPSHOT ) {
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* fault = * write_fault = false ;
return ;
}
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* fault = * write_fault = false ;
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for ( i = 0 ; i < npages ; + + i ) {
hmm_pte_need_fault ( hmm_vma_walk , pfns [ i ] , cpu_flags ,
fault , write_fault ) ;
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if ( ( * write_fault ) )
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return ;
}
}
static int hmm_vma_walk_hole ( unsigned long addr , unsigned long end ,
struct mm_walk * walk )
{
struct hmm_vma_walk * hmm_vma_walk = walk - > private ;
struct hmm_range * range = hmm_vma_walk - > range ;
bool fault , write_fault ;
unsigned long i , npages ;
uint64_t * pfns ;
i = ( addr - range - > start ) > > PAGE_SHIFT ;
npages = ( end - addr ) > > PAGE_SHIFT ;
pfns = & range - > pfns [ i ] ;
hmm_range_need_fault ( hmm_vma_walk , pfns , npages ,
0 , & fault , & write_fault ) ;
return hmm_vma_walk_hole_ ( addr , end , fault , write_fault , walk ) ;
}
2018-04-11 02:29:06 +03:00
static inline uint64_t pmd_to_hmm_pfn_flags ( struct hmm_range * range , pmd_t pmd )
2018-04-11 02:29:02 +03:00
{
if ( pmd_protnone ( pmd ) )
return 0 ;
2018-04-11 02:29:06 +03:00
return pmd_write ( pmd ) ? range - > flags [ HMM_PFN_VALID ] |
range - > flags [ HMM_PFN_WRITE ] :
range - > flags [ HMM_PFN_VALID ] ;
2017-09-09 02:11:31 +03:00
}
2019-05-14 03:20:21 +03:00
static inline uint64_t pud_to_hmm_pfn_flags ( struct hmm_range * range , pud_t pud )
{
if ( ! pud_present ( pud ) )
return 0 ;
return pud_write ( pud ) ? range - > flags [ HMM_PFN_VALID ] |
range - > flags [ HMM_PFN_WRITE ] :
range - > flags [ HMM_PFN_VALID ] ;
}
2018-04-11 02:28:59 +03:00
static int hmm_vma_handle_pmd ( struct mm_walk * walk ,
unsigned long addr ,
unsigned long end ,
uint64_t * pfns ,
pmd_t pmd )
{
2019-05-14 03:20:21 +03:00
# ifdef CONFIG_TRANSPARENT_HUGEPAGE
2018-04-11 02:28:59 +03:00
struct hmm_vma_walk * hmm_vma_walk = walk - > private ;
2018-04-11 02:29:06 +03:00
struct hmm_range * range = hmm_vma_walk - > range ;
2018-04-11 02:29:02 +03:00
unsigned long pfn , npages , i ;
bool fault , write_fault ;
2018-04-11 02:29:06 +03:00
uint64_t cpu_flags ;
2018-04-11 02:28:59 +03:00
2018-04-11 02:29:02 +03:00
npages = ( end - addr ) > > PAGE_SHIFT ;
2018-04-11 02:29:06 +03:00
cpu_flags = pmd_to_hmm_pfn_flags ( range , pmd ) ;
2018-04-11 02:29:02 +03:00
hmm_range_need_fault ( hmm_vma_walk , pfns , npages , cpu_flags ,
& fault , & write_fault ) ;
2018-04-11 02:28:59 +03:00
2018-04-11 02:29:02 +03:00
if ( pmd_protnone ( pmd ) | | fault | | write_fault )
return hmm_vma_walk_hole_ ( addr , end , fault , write_fault , walk ) ;
2018-04-11 02:28:59 +03:00
pfn = pmd_pfn ( pmd ) + pte_index ( addr ) ;
2019-05-14 03:20:21 +03:00
for ( i = 0 ; addr < end ; addr + = PAGE_SIZE , i + + , pfn + + ) {
if ( pmd_devmap ( pmd ) ) {
hmm_vma_walk - > pgmap = get_dev_pagemap ( pfn ,
hmm_vma_walk - > pgmap ) ;
if ( unlikely ( ! hmm_vma_walk - > pgmap ) )
return - EBUSY ;
}
2019-05-14 03:20:31 +03:00
pfns [ i ] = hmm_device_entry_from_pfn ( range , pfn ) | cpu_flags ;
2019-05-14 03:20:21 +03:00
}
if ( hmm_vma_walk - > pgmap ) {
put_dev_pagemap ( hmm_vma_walk - > pgmap ) ;
hmm_vma_walk - > pgmap = NULL ;
}
2018-04-11 02:28:59 +03:00
hmm_vma_walk - > last = end ;
return 0 ;
2019-05-14 03:20:21 +03:00
# else
2019-07-26 03:56:45 +03:00
/* If THP is not enabled then we should never reach this code ! */
2019-05-14 03:20:21 +03:00
return - EINVAL ;
# endif
2018-04-11 02:28:59 +03:00
}
2018-04-11 02:29:06 +03:00
static inline uint64_t pte_to_hmm_pfn_flags ( struct hmm_range * range , pte_t pte )
2018-04-11 02:29:02 +03:00
{
2019-05-23 23:32:31 +03:00
if ( pte_none ( pte ) | | ! pte_present ( pte ) | | pte_protnone ( pte ) )
2018-04-11 02:29:02 +03:00
return 0 ;
2018-04-11 02:29:06 +03:00
return pte_write ( pte ) ? range - > flags [ HMM_PFN_VALID ] |
range - > flags [ HMM_PFN_WRITE ] :
range - > flags [ HMM_PFN_VALID ] ;
2018-04-11 02:29:02 +03:00
}
2018-04-11 02:28:59 +03:00
static int hmm_vma_handle_pte ( struct mm_walk * walk , unsigned long addr ,
unsigned long end , pmd_t * pmdp , pte_t * ptep ,
uint64_t * pfn )
{
struct hmm_vma_walk * hmm_vma_walk = walk - > private ;
2018-04-11 02:29:06 +03:00
struct hmm_range * range = hmm_vma_walk - > range ;
2018-04-11 02:29:02 +03:00
bool fault , write_fault ;
uint64_t cpu_flags ;
2018-04-11 02:28:59 +03:00
pte_t pte = * ptep ;
2018-04-11 02:29:06 +03:00
uint64_t orig_pfn = * pfn ;
2018-04-11 02:28:59 +03:00
2018-04-11 02:29:06 +03:00
* pfn = range - > values [ HMM_PFN_NONE ] ;
2019-05-14 03:19:58 +03:00
fault = write_fault = false ;
2018-04-11 02:28:59 +03:00
if ( pte_none ( pte ) ) {
2019-05-14 03:19:58 +03:00
hmm_pte_need_fault ( hmm_vma_walk , orig_pfn , 0 ,
& fault , & write_fault ) ;
2018-04-11 02:29:02 +03:00
if ( fault | | write_fault )
2018-04-11 02:28:59 +03:00
goto fault ;
return 0 ;
}
if ( ! pte_present ( pte ) ) {
swp_entry_t entry = pte_to_swp_entry ( pte ) ;
if ( ! non_swap_entry ( entry ) ) {
2018-04-11 02:29:02 +03:00
if ( fault | | write_fault )
2018-04-11 02:28:59 +03:00
goto fault ;
return 0 ;
}
/*
* This is a special swap entry , ignore migration , use
* device and report anything else as error .
*/
if ( is_device_private_entry ( entry ) ) {
2018-04-11 02:29:06 +03:00
cpu_flags = range - > flags [ HMM_PFN_VALID ] |
range - > flags [ HMM_PFN_DEVICE_PRIVATE ] ;
2018-04-11 02:29:02 +03:00
cpu_flags | = is_write_device_private_entry ( entry ) ?
2018-04-11 02:29:06 +03:00
range - > flags [ HMM_PFN_WRITE ] : 0 ;
hmm_pte_need_fault ( hmm_vma_walk , orig_pfn , cpu_flags ,
& fault , & write_fault ) ;
if ( fault | | write_fault )
goto fault ;
2019-05-14 03:20:31 +03:00
* pfn = hmm_device_entry_from_pfn ( range ,
swp_offset ( entry ) ) ;
2018-04-11 02:29:06 +03:00
* pfn | = cpu_flags ;
2018-04-11 02:28:59 +03:00
return 0 ;
}
if ( is_migration_entry ( entry ) ) {
2018-04-11 02:29:02 +03:00
if ( fault | | write_fault ) {
2018-04-11 02:28:59 +03:00
pte_unmap ( ptep ) ;
hmm_vma_walk - > last = addr ;
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migration_entry_wait ( walk - > mm , pmdp , addr ) ;
2019-05-14 03:19:58 +03:00
return - EBUSY ;
2018-04-11 02:28:59 +03:00
}
return 0 ;
}
/* Report error for everything else */
2018-04-11 02:29:06 +03:00
* pfn = range - > values [ HMM_PFN_ERROR ] ;
2018-04-11 02:28:59 +03:00
return - EFAULT ;
2019-05-14 03:19:58 +03:00
} else {
cpu_flags = pte_to_hmm_pfn_flags ( range , pte ) ;
hmm_pte_need_fault ( hmm_vma_walk , orig_pfn , cpu_flags ,
& fault , & write_fault ) ;
2018-04-11 02:28:59 +03:00
}
2018-04-11 02:29:02 +03:00
if ( fault | | write_fault )
2018-04-11 02:28:59 +03:00
goto fault ;
2019-05-14 03:20:21 +03:00
if ( pte_devmap ( pte ) ) {
hmm_vma_walk - > pgmap = get_dev_pagemap ( pte_pfn ( pte ) ,
hmm_vma_walk - > pgmap ) ;
if ( unlikely ( ! hmm_vma_walk - > pgmap ) )
return - EBUSY ;
} else if ( IS_ENABLED ( CONFIG_ARCH_HAS_PTE_SPECIAL ) & & pte_special ( pte ) ) {
* pfn = range - > values [ HMM_PFN_SPECIAL ] ;
return - EFAULT ;
}
2019-05-14 03:20:31 +03:00
* pfn = hmm_device_entry_from_pfn ( range , pte_pfn ( pte ) ) | cpu_flags ;
2018-04-11 02:28:59 +03:00
return 0 ;
fault :
2019-05-14 03:20:21 +03:00
if ( hmm_vma_walk - > pgmap ) {
put_dev_pagemap ( hmm_vma_walk - > pgmap ) ;
hmm_vma_walk - > pgmap = NULL ;
}
2018-04-11 02:28:59 +03:00
pte_unmap ( ptep ) ;
/* Fault any virtual address we were asked to fault */
2018-04-11 02:29:02 +03:00
return hmm_vma_walk_hole_ ( addr , end , fault , write_fault , walk ) ;
2018-04-11 02:28:59 +03:00
}
2017-09-09 02:11:31 +03:00
static int hmm_vma_walk_pmd ( pmd_t * pmdp ,
unsigned long start ,
unsigned long end ,
struct mm_walk * walk )
{
2017-09-09 02:11:35 +03:00
struct hmm_vma_walk * hmm_vma_walk = walk - > private ;
struct hmm_range * range = hmm_vma_walk - > range ;
2018-04-11 02:28:38 +03:00
uint64_t * pfns = range - > pfns ;
2017-09-09 02:11:31 +03:00
unsigned long addr = start , i ;
pte_t * ptep ;
2018-10-31 01:04:20 +03:00
pmd_t pmd ;
2017-09-09 02:11:31 +03:00
again :
2018-10-31 01:04:20 +03:00
pmd = READ_ONCE ( * pmdp ) ;
if ( pmd_none ( pmd ) )
2017-09-09 02:11:31 +03:00
return hmm_vma_walk_hole ( start , end , walk ) ;
2018-10-31 01:04:20 +03:00
if ( thp_migration_supported ( ) & & is_pmd_migration_entry ( pmd ) ) {
bool fault , write_fault ;
unsigned long npages ;
uint64_t * pfns ;
i = ( addr - range - > start ) > > PAGE_SHIFT ;
npages = ( end - addr ) > > PAGE_SHIFT ;
pfns = & range - > pfns [ i ] ;
hmm_range_need_fault ( hmm_vma_walk , pfns , npages ,
0 , & fault , & write_fault ) ;
if ( fault | | write_fault ) {
hmm_vma_walk - > last = addr ;
2019-07-26 03:56:45 +03:00
pmd_migration_entry_wait ( walk - > mm , pmdp ) ;
2019-05-14 03:19:58 +03:00
return - EBUSY ;
2018-10-31 01:04:20 +03:00
}
return 0 ;
} else if ( ! pmd_present ( pmd ) )
return hmm_pfns_bad ( start , end , walk ) ;
2017-09-09 02:11:31 +03:00
2018-10-31 01:04:20 +03:00
if ( pmd_devmap ( pmd ) | | pmd_trans_huge ( pmd ) ) {
2017-09-09 02:11:31 +03:00
/*
2019-07-26 03:56:45 +03:00
* No need to take pmd_lock here , even if some other thread
2017-09-09 02:11:31 +03:00
* is splitting the huge pmd we will get that event through
* mmu_notifier callback .
*
2019-07-26 03:56:45 +03:00
* So just read pmd value and check again it ' s a transparent
2017-09-09 02:11:31 +03:00
* huge or device mapping one and compute corresponding pfn
* values .
*/
pmd = pmd_read_atomic ( pmdp ) ;
barrier ( ) ;
if ( ! pmd_devmap ( pmd ) & & ! pmd_trans_huge ( pmd ) )
goto again ;
2017-09-09 02:11:35 +03:00
2018-10-31 01:04:20 +03:00
i = ( addr - range - > start ) > > PAGE_SHIFT ;
2018-04-11 02:28:59 +03:00
return hmm_vma_handle_pmd ( walk , addr , end , & pfns [ i ] , pmd ) ;
2017-09-09 02:11:31 +03:00
}
2018-10-31 01:04:20 +03:00
/*
2019-07-26 03:56:45 +03:00
* We have handled all the valid cases above ie either none , migration ,
2018-10-31 01:04:20 +03:00
* huge or transparent huge . At this point either it is a valid pmd
* entry pointing to pte directory or it is a bad pmd that will not
* recover .
*/
if ( pmd_bad ( pmd ) )
2017-09-09 02:11:31 +03:00
return hmm_pfns_bad ( start , end , walk ) ;
ptep = pte_offset_map ( pmdp , addr ) ;
2018-10-31 01:04:20 +03:00
i = ( addr - range - > start ) > > PAGE_SHIFT ;
2017-09-09 02:11:31 +03:00
for ( ; addr < end ; addr + = PAGE_SIZE , ptep + + , i + + ) {
2018-04-11 02:28:59 +03:00
int r ;
2017-09-09 02:11:35 +03:00
2018-04-11 02:28:59 +03:00
r = hmm_vma_handle_pte ( walk , addr , end , pmdp , ptep , & pfns [ i ] ) ;
if ( r ) {
/* hmm_vma_handle_pte() did unmap pte directory */
hmm_vma_walk - > last = addr ;
return r ;
2017-09-09 02:11:35 +03:00
}
2017-09-09 02:11:31 +03:00
}
2019-05-14 03:20:21 +03:00
if ( hmm_vma_walk - > pgmap ) {
/*
* We do put_dev_pagemap ( ) here and not in hmm_vma_handle_pte ( )
* so that we can leverage get_dev_pagemap ( ) optimization which
* will not re - take a reference on a pgmap if we already have
* one .
*/
put_dev_pagemap ( hmm_vma_walk - > pgmap ) ;
hmm_vma_walk - > pgmap = NULL ;
}
2017-09-09 02:11:31 +03:00
pte_unmap ( ptep - 1 ) ;
2018-04-11 02:28:59 +03:00
hmm_vma_walk - > last = addr ;
2017-09-09 02:11:31 +03:00
return 0 ;
}
2019-05-14 03:20:21 +03:00
static int hmm_vma_walk_pud ( pud_t * pudp ,
unsigned long start ,
unsigned long end ,
struct mm_walk * walk )
{
struct hmm_vma_walk * hmm_vma_walk = walk - > private ;
struct hmm_range * range = hmm_vma_walk - > range ;
unsigned long addr = start , next ;
pmd_t * pmdp ;
pud_t pud ;
int ret ;
again :
pud = READ_ONCE ( * pudp ) ;
if ( pud_none ( pud ) )
return hmm_vma_walk_hole ( start , end , walk ) ;
if ( pud_huge ( pud ) & & pud_devmap ( pud ) ) {
unsigned long i , npages , pfn ;
uint64_t * pfns , cpu_flags ;
bool fault , write_fault ;
if ( ! pud_present ( pud ) )
return hmm_vma_walk_hole ( start , end , walk ) ;
i = ( addr - range - > start ) > > PAGE_SHIFT ;
npages = ( end - addr ) > > PAGE_SHIFT ;
pfns = & range - > pfns [ i ] ;
cpu_flags = pud_to_hmm_pfn_flags ( range , pud ) ;
hmm_range_need_fault ( hmm_vma_walk , pfns , npages ,
cpu_flags , & fault , & write_fault ) ;
if ( fault | | write_fault )
return hmm_vma_walk_hole_ ( addr , end , fault ,
write_fault , walk ) ;
pfn = pud_pfn ( pud ) + ( ( addr & ~ PUD_MASK ) > > PAGE_SHIFT ) ;
for ( i = 0 ; i < npages ; + + i , + + pfn ) {
hmm_vma_walk - > pgmap = get_dev_pagemap ( pfn ,
hmm_vma_walk - > pgmap ) ;
if ( unlikely ( ! hmm_vma_walk - > pgmap ) )
return - EBUSY ;
2019-05-14 03:20:31 +03:00
pfns [ i ] = hmm_device_entry_from_pfn ( range , pfn ) |
cpu_flags ;
2019-05-14 03:20:21 +03:00
}
if ( hmm_vma_walk - > pgmap ) {
put_dev_pagemap ( hmm_vma_walk - > pgmap ) ;
hmm_vma_walk - > pgmap = NULL ;
}
hmm_vma_walk - > last = end ;
return 0 ;
}
split_huge_pud ( walk - > vma , pudp , addr ) ;
if ( pud_none ( * pudp ) )
goto again ;
pmdp = pmd_offset ( pudp , addr ) ;
do {
next = pmd_addr_end ( addr , end ) ;
ret = hmm_vma_walk_pmd ( pmdp , addr , next , walk ) ;
if ( ret )
return ret ;
} while ( pmdp + + , addr = next , addr ! = end ) ;
return 0 ;
}
2019-05-14 03:20:18 +03:00
static int hmm_vma_walk_hugetlb_entry ( pte_t * pte , unsigned long hmask ,
unsigned long start , unsigned long end ,
struct mm_walk * walk )
{
# ifdef CONFIG_HUGETLB_PAGE
2019-08-06 19:05:45 +03:00
unsigned long addr = start , i , pfn , mask ;
2019-05-14 03:20:18 +03:00
struct hmm_vma_walk * hmm_vma_walk = walk - > private ;
struct hmm_range * range = hmm_vma_walk - > range ;
struct vm_area_struct * vma = walk - > vma ;
struct hstate * h = hstate_vma ( vma ) ;
uint64_t orig_pfn , cpu_flags ;
bool fault , write_fault ;
spinlock_t * ptl ;
pte_t entry ;
int ret = 0 ;
2019-08-06 19:05:45 +03:00
mask = huge_page_size ( h ) - 1 ;
2019-05-14 03:20:18 +03:00
2019-07-26 03:56:45 +03:00
ptl = huge_pte_lock ( hstate_vma ( vma ) , walk - > mm , pte ) ;
2019-05-14 03:20:18 +03:00
entry = huge_ptep_get ( pte ) ;
2019-08-06 19:05:45 +03:00
i = ( start - range - > start ) > > PAGE_SHIFT ;
2019-05-14 03:20:18 +03:00
orig_pfn = range - > pfns [ i ] ;
range - > pfns [ i ] = range - > values [ HMM_PFN_NONE ] ;
cpu_flags = pte_to_hmm_pfn_flags ( range , entry ) ;
fault = write_fault = false ;
hmm_pte_need_fault ( hmm_vma_walk , orig_pfn , cpu_flags ,
& fault , & write_fault ) ;
if ( fault | | write_fault ) {
ret = - ENOENT ;
goto unlock ;
}
2019-08-06 19:05:45 +03:00
pfn = pte_pfn ( entry ) + ( ( start & mask ) > > PAGE_SHIFT ) ;
for ( ; addr < end ; addr + = PAGE_SIZE , i + + , pfn + + )
2019-05-14 03:20:31 +03:00
range - > pfns [ i ] = hmm_device_entry_from_pfn ( range , pfn ) |
cpu_flags ;
2019-05-14 03:20:18 +03:00
hmm_vma_walk - > last = end ;
unlock :
spin_unlock ( ptl ) ;
if ( ret = = - ENOENT )
return hmm_vma_walk_hole_ ( addr , end , fault , write_fault , walk ) ;
return ret ;
# else /* CONFIG_HUGETLB_PAGE */
return - EINVAL ;
# endif
}
2018-04-11 02:29:06 +03:00
static void hmm_pfns_clear ( struct hmm_range * range ,
uint64_t * pfns ,
2018-04-11 02:28:54 +03:00
unsigned long addr ,
unsigned long end )
{
for ( ; addr < end ; addr + = PAGE_SIZE , pfns + + )
2018-04-11 02:29:06 +03:00
* pfns = range - > values [ HMM_PFN_NONE ] ;
2018-04-11 02:28:54 +03:00
}
2017-09-09 02:11:31 +03:00
/*
2019-05-14 03:20:01 +03:00
* hmm_range_register ( ) - start tracking change to CPU page table over a range
2019-05-14 03:19:55 +03:00
* @ range : range
2019-05-14 03:20:01 +03:00
* @ mm : the mm struct for the range of virtual address
2019-08-06 19:05:44 +03:00
*
2019-07-26 03:56:45 +03:00
* Return : 0 on success , - EFAULT if the address space is no longer valid
2019-05-14 03:19:55 +03:00
*
2019-05-14 03:20:01 +03:00
* Track updates to the CPU page table see include / linux / hmm . h
2017-09-09 02:11:31 +03:00
*/
2019-08-06 19:05:44 +03:00
int hmm_range_register ( struct hmm_range * range , struct hmm_mirror * mirror )
2017-09-09 02:11:31 +03:00
{
2019-05-23 15:41:19 +03:00
struct hmm * hmm = mirror - > hmm ;
2019-06-07 18:10:33 +03:00
unsigned long flags ;
2019-05-14 03:20:18 +03:00
2019-05-14 03:20:01 +03:00
range - > valid = false ;
2019-05-14 03:19:48 +03:00
range - > hmm = NULL ;
2019-08-06 19:05:45 +03:00
if ( ( range - > start & ( PAGE_SIZE - 1 ) ) | | ( range - > end & ( PAGE_SIZE - 1 ) ) )
2019-05-14 03:20:18 +03:00
return - EINVAL ;
2019-08-06 19:05:44 +03:00
if ( range - > start > = range - > end )
2017-09-09 02:11:31 +03:00
return - EINVAL ;
2019-05-23 17:08:28 +03:00
/* Prevent hmm_release() from running while the range is valid */
if ( ! mmget_not_zero ( hmm - > mm ) )
2019-05-14 03:20:01 +03:00
return - EFAULT ;
2017-09-09 02:11:31 +03:00
2019-05-07 02:29:39 +03:00
/* Initialize range to track CPU page table updates. */
2019-06-07 18:10:33 +03:00
spin_lock_irqsave ( & hmm - > ranges_lock , flags ) ;
2018-04-11 02:28:42 +03:00
2019-05-07 02:29:39 +03:00
range - > hmm = hmm ;
2019-05-23 15:41:19 +03:00
kref_get ( & hmm - > kref ) ;
2019-05-23 17:43:43 +03:00
list_add ( & range - > list , & hmm - > ranges ) ;
2018-04-11 02:28:34 +03:00
2019-05-14 03:19:48 +03:00
/*
2019-05-14 03:20:01 +03:00
* If there are any concurrent notifiers we have to wait for them for
* the range to be valid ( see hmm_range_wait_until_valid ( ) ) .
2019-05-14 03:19:48 +03:00
*/
2019-05-07 02:29:39 +03:00
if ( ! hmm - > notifiers )
2019-05-14 03:20:01 +03:00
range - > valid = true ;
2019-06-07 18:10:33 +03:00
spin_unlock_irqrestore ( & hmm - > ranges_lock , flags ) ;
2019-05-14 03:20:01 +03:00
return 0 ;
2017-09-09 02:11:31 +03:00
}
2019-05-14 03:20:01 +03:00
EXPORT_SYMBOL ( hmm_range_register ) ;
2017-09-09 02:11:31 +03:00
/*
2019-05-14 03:20:01 +03:00
* hmm_range_unregister ( ) - stop tracking change to CPU page table over a range
* @ range : range
2017-09-09 02:11:31 +03:00
*
* Range struct is used to track updates to the CPU page table after a call to
2019-05-14 03:20:01 +03:00
* hmm_range_register ( ) . See include / linux / hmm . h for how to use it .
2017-09-09 02:11:31 +03:00
*/
2019-05-14 03:20:01 +03:00
void hmm_range_unregister ( struct hmm_range * range )
2017-09-09 02:11:31 +03:00
{
2019-05-07 02:29:39 +03:00
struct hmm * hmm = range - > hmm ;
2019-06-07 18:10:33 +03:00
unsigned long flags ;
2017-09-09 02:11:31 +03:00
2019-06-07 18:10:33 +03:00
spin_lock_irqsave ( & hmm - > ranges_lock , flags ) ;
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list_del_init ( & range - > list ) ;
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spin_unlock_irqrestore ( & hmm - > ranges_lock , flags ) ;
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/* Drop reference taken by hmm_range_register() */
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mmput ( hmm - > mm ) ;
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hmm_put ( hmm ) ;
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/*
* The range is now invalid and the ref on the hmm is dropped , so
* poison the pointer . Leave other fields in place , for the caller ' s
* use .
*/
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range - > valid = false ;
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memset ( & range - > hmm , POISON_INUSE , sizeof ( range - > hmm ) ) ;
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}
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EXPORT_SYMBOL ( hmm_range_unregister ) ;
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/**
* hmm_range_fault - try to fault some address in a virtual address range
* @ range : range being faulted
* @ flags : HMM_FAULT_ * flags
*
* Return : the number of valid pages in range - > pfns [ ] ( from range start
* address ) , which may be zero . On error one of the following status codes
* can be returned :
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*
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* - EINVAL : Invalid arguments or mm or virtual address is in an invalid vma
* ( e . g . , device file vma ) .
* - ENOMEM : Out of memory .
* - EPERM : Invalid permission ( e . g . , asking for write and range is read
* only ) .
* - EAGAIN : A page fault needs to be retried and mmap_sem was dropped .
* - EBUSY : The range has been invalidated and the caller needs to wait for
* the invalidation to finish .
* - EFAULT : Invalid ( i . e . , either no valid vma or it is illegal to access
* that range ) number of valid pages in range - > pfns [ ] ( from
* range start address ) .
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*
* This is similar to a regular CPU page fault except that it will not trigger
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* any memory migration if the memory being faulted is not accessible by CPUs
* and caller does not ask for migration .
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*
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* On error , for one virtual address in the range , the function will mark the
* corresponding HMM pfn entry with an error flag .
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*/
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long hmm_range_fault ( struct hmm_range * range , unsigned int flags )
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{
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const unsigned long device_vma = VM_IO | VM_PFNMAP | VM_MIXEDMAP ;
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unsigned long start = range - > start , end ;
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struct hmm_vma_walk hmm_vma_walk ;
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struct hmm * hmm = range - > hmm ;
struct vm_area_struct * vma ;
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struct mm_walk mm_walk ;
int ret ;
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lockdep_assert_held ( & hmm - > mm - > mmap_sem ) ;
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do {
/* If range is no longer valid force retry. */
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if ( ! range - > valid )
return - EBUSY ;
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vma = find_vma ( hmm - > mm , start ) ;
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if ( vma = = NULL | | ( vma - > vm_flags & device_vma ) )
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return - EFAULT ;
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if ( ! ( vma - > vm_flags & VM_READ ) ) {
/*
* If vma do not allow read access , then assume that it
* does not allow write access , either . HMM does not
* support architecture that allow write without read .
*/
hmm_pfns_clear ( range , range - > pfns ,
range - > start , range - > end ) ;
return - EPERM ;
}
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hmm_vma_walk . pgmap = NULL ;
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hmm_vma_walk . last = start ;
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hmm_vma_walk . flags = flags ;
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hmm_vma_walk . range = range ;
mm_walk . private = & hmm_vma_walk ;
end = min ( range - > end , vma - > vm_end ) ;
mm_walk . vma = vma ;
mm_walk . mm = vma - > vm_mm ;
mm_walk . pte_entry = NULL ;
mm_walk . test_walk = NULL ;
mm_walk . hugetlb_entry = NULL ;
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mm_walk . pud_entry = hmm_vma_walk_pud ;
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mm_walk . pmd_entry = hmm_vma_walk_pmd ;
mm_walk . pte_hole = hmm_vma_walk_hole ;
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mm_walk . hugetlb_entry = hmm_vma_walk_hugetlb_entry ;
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do {
ret = walk_page_range ( start , end , & mm_walk ) ;
start = hmm_vma_walk . last ;
/* Keep trying while the range is valid. */
} while ( ret = = - EBUSY & & range - > valid ) ;
if ( ret ) {
unsigned long i ;
i = ( hmm_vma_walk . last - range - > start ) > > PAGE_SHIFT ;
hmm_pfns_clear ( range , & range - > pfns [ i ] ,
hmm_vma_walk . last , range - > end ) ;
return ret ;
}
start = end ;
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} while ( start < range - > end ) ;
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return ( hmm_vma_walk . last - range - > start ) > > PAGE_SHIFT ;
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}
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EXPORT_SYMBOL ( hmm_range_fault ) ;
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/**
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* hmm_range_dma_map - hmm_range_fault ( ) and dma map page all in one .
* @ range : range being faulted
* @ device : device to map page to
* @ daddrs : array of dma addresses for the mapped pages
* @ flags : HMM_FAULT_ *
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*
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* Return : the number of pages mapped on success ( including zero ) , or any
* status return from hmm_range_fault ( ) otherwise .
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*/
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long hmm_range_dma_map ( struct hmm_range * range , struct device * device ,
dma_addr_t * daddrs , unsigned int flags )
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{
unsigned long i , npages , mapped ;
long ret ;
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ret = hmm_range_fault ( range , flags ) ;
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if ( ret < = 0 )
return ret ? ret : - EBUSY ;
npages = ( range - > end - range - > start ) > > PAGE_SHIFT ;
for ( i = 0 , mapped = 0 ; i < npages ; + + i ) {
enum dma_data_direction dir = DMA_TO_DEVICE ;
struct page * page ;
/*
* FIXME need to update DMA API to provide invalid DMA address
* value instead of a function to test dma address value . This
* would remove lot of dumb code duplicated accross many arch .
*
* For now setting it to 0 here is good enough as the pfns [ ]
* value is what is use to check what is valid and what isn ' t .
*/
daddrs [ i ] = 0 ;
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page = hmm_device_entry_to_page ( range , range - > pfns [ i ] ) ;
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if ( page = = NULL )
continue ;
/* Check if range is being invalidated */
if ( ! range - > valid ) {
ret = - EBUSY ;
goto unmap ;
}
/* If it is read and write than map bi-directional. */
if ( range - > pfns [ i ] & range - > flags [ HMM_PFN_WRITE ] )
dir = DMA_BIDIRECTIONAL ;
daddrs [ i ] = dma_map_page ( device , page , 0 , PAGE_SIZE , dir ) ;
if ( dma_mapping_error ( device , daddrs [ i ] ) ) {
ret = - EFAULT ;
goto unmap ;
}
mapped + + ;
}
return mapped ;
unmap :
for ( npages = i , i = 0 ; ( i < npages ) & & mapped ; + + i ) {
enum dma_data_direction dir = DMA_TO_DEVICE ;
struct page * page ;
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page = hmm_device_entry_to_page ( range , range - > pfns [ i ] ) ;
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if ( page = = NULL )
continue ;
if ( dma_mapping_error ( device , daddrs [ i ] ) )
continue ;
/* If it is read and write than map bi-directional. */
if ( range - > pfns [ i ] & range - > flags [ HMM_PFN_WRITE ] )
dir = DMA_BIDIRECTIONAL ;
dma_unmap_page ( device , daddrs [ i ] , PAGE_SIZE , dir ) ;
mapped - - ;
}
return ret ;
}
EXPORT_SYMBOL ( hmm_range_dma_map ) ;
/**
* hmm_range_dma_unmap ( ) - unmap range of that was map with hmm_range_dma_map ( )
* @ range : range being unmapped
* @ device : device against which dma map was done
* @ daddrs : dma address of mapped pages
* @ dirty : dirty page if it had the write flag set
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* Return : number of page unmapped on success , - EINVAL otherwise
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*
* Note that caller MUST abide by mmu notifier or use HMM mirror and abide
* to the sync_cpu_device_pagetables ( ) callback so that it is safe here to
* call set_page_dirty ( ) . Caller must also take appropriate locks to avoid
* concurrent mmu notifier or sync_cpu_device_pagetables ( ) to make progress .
*/
long hmm_range_dma_unmap ( struct hmm_range * range ,
struct device * device ,
dma_addr_t * daddrs ,
bool dirty )
{
unsigned long i , npages ;
long cpages = 0 ;
/* Sanity check. */
if ( range - > end < = range - > start )
return - EINVAL ;
if ( ! daddrs )
return - EINVAL ;
if ( ! range - > pfns )
return - EINVAL ;
npages = ( range - > end - range - > start ) > > PAGE_SHIFT ;
for ( i = 0 ; i < npages ; + + i ) {
enum dma_data_direction dir = DMA_TO_DEVICE ;
struct page * page ;
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page = hmm_device_entry_to_page ( range , range - > pfns [ i ] ) ;
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if ( page = = NULL )
continue ;
/* If it is read and write than map bi-directional. */
if ( range - > pfns [ i ] & range - > flags [ HMM_PFN_WRITE ] ) {
dir = DMA_BIDIRECTIONAL ;
/*
* See comments in function description on why it is
* safe here to call set_page_dirty ( )
*/
if ( dirty )
set_page_dirty ( page ) ;
}
/* Unmap and clear pfns/dma address */
dma_unmap_page ( device , daddrs [ i ] , PAGE_SIZE , dir ) ;
range - > pfns [ i ] = range - > values [ HMM_PFN_NONE ] ;
/* FIXME see comments in hmm_vma_dma_map() */
daddrs [ i ] = 0 ;
cpages + + ;
}
return cpages ;
}
EXPORT_SYMBOL ( hmm_range_dma_unmap ) ;