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// SPDX-License-Identifier: GPL-2.0
/*
* This is a module to test the HMM ( Heterogeneous Memory Management )
* mirror and zone device private memory migration APIs of the kernel .
* Userspace programs can register with the driver to mirror their own address
* space and can use the device to read / write any valid virtual address .
*/
# include <linux/init.h>
# include <linux/fs.h>
# include <linux/mm.h>
# include <linux/module.h>
# include <linux/kernel.h>
# include <linux/cdev.h>
# include <linux/device.h>
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# include <linux/memremap.h>
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# include <linux/mutex.h>
# include <linux/rwsem.h>
# include <linux/sched.h>
# include <linux/slab.h>
# include <linux/highmem.h>
# include <linux/delay.h>
# include <linux/pagemap.h>
# include <linux/hmm.h>
# include <linux/vmalloc.h>
# include <linux/swap.h>
# include <linux/swapops.h>
# include <linux/sched/mm.h>
# include <linux/platform_device.h>
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# include <linux/rmap.h>
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# include <linux/mmu_notifier.h>
# include <linux/migrate.h>
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# include "test_hmm_uapi.h"
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# define DMIRROR_NDEVICES 4
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# define DMIRROR_RANGE_FAULT_TIMEOUT 1000
# define DEVMEM_CHUNK_SIZE (256 * 1024 * 1024U)
# define DEVMEM_CHUNKS_RESERVE 16
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/*
* For device_private pages , dpage is just a dummy struct page
* representing a piece of device memory . dmirror_devmem_alloc_page
* allocates a real system memory page as backing storage to fake a
* real device . zone_device_data points to that backing page . But
* for device_coherent memory , the struct page represents real
* physical CPU - accessible memory that we can use directly .
*/
# define BACKING_PAGE(page) (is_device_private_page((page)) ? \
( page ) - > zone_device_data : ( page ) )
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static unsigned long spm_addr_dev0 ;
module_param ( spm_addr_dev0 , long , 0644 ) ;
MODULE_PARM_DESC ( spm_addr_dev0 ,
" Specify start address for SPM (special purpose memory) used for device 0. By setting this Coherent device type will be used. Make sure spm_addr_dev1 is set too. Minimum SPM size should be DEVMEM_CHUNK_SIZE. " ) ;
static unsigned long spm_addr_dev1 ;
module_param ( spm_addr_dev1 , long , 0644 ) ;
MODULE_PARM_DESC ( spm_addr_dev1 ,
" Specify start address for SPM (special purpose memory) used for device 1. By setting this Coherent device type will be used. Make sure spm_addr_dev0 is set too. Minimum SPM size should be DEVMEM_CHUNK_SIZE. " ) ;
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static const struct dev_pagemap_ops dmirror_devmem_ops ;
static const struct mmu_interval_notifier_ops dmirror_min_ops ;
static dev_t dmirror_dev ;
struct dmirror_device ;
struct dmirror_bounce {
void * ptr ;
unsigned long size ;
unsigned long addr ;
unsigned long cpages ;
} ;
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# define DPT_XA_TAG_ATOMIC 1UL
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# define DPT_XA_TAG_WRITE 3UL
/*
* Data structure to track address ranges and register for mmu interval
* notifier updates .
*/
struct dmirror_interval {
struct mmu_interval_notifier notifier ;
struct dmirror * dmirror ;
} ;
/*
* Data attached to the open device file .
* Note that it might be shared after a fork ( ) .
*/
struct dmirror {
struct dmirror_device * mdevice ;
struct xarray pt ;
struct mmu_interval_notifier notifier ;
struct mutex mutex ;
} ;
/*
* ZONE_DEVICE pages for migration and simulating device memory .
*/
struct dmirror_chunk {
struct dev_pagemap pagemap ;
struct dmirror_device * mdevice ;
} ;
/*
* Per device data .
*/
struct dmirror_device {
struct cdev cdevice ;
struct hmm_devmem * devmem ;
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unsigned int zone_device_type ;
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unsigned int devmem_capacity ;
unsigned int devmem_count ;
struct dmirror_chunk * * devmem_chunks ;
struct mutex devmem_lock ; /* protects the above */
unsigned long calloc ;
unsigned long cfree ;
struct page * free_pages ;
spinlock_t lock ; /* protects the above */
} ;
static struct dmirror_device dmirror_devices [ DMIRROR_NDEVICES ] ;
static int dmirror_bounce_init ( struct dmirror_bounce * bounce ,
unsigned long addr ,
unsigned long size )
{
bounce - > addr = addr ;
bounce - > size = size ;
bounce - > cpages = 0 ;
bounce - > ptr = vmalloc ( size ) ;
if ( ! bounce - > ptr )
return - ENOMEM ;
return 0 ;
}
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static bool dmirror_is_private_zone ( struct dmirror_device * mdevice )
{
return ( mdevice - > zone_device_type = =
HMM_DMIRROR_MEMORY_DEVICE_PRIVATE ) ? true : false ;
}
static enum migrate_vma_direction
dmirror_select_device ( struct dmirror * dmirror )
{
return ( dmirror - > mdevice - > zone_device_type = =
HMM_DMIRROR_MEMORY_DEVICE_PRIVATE ) ?
MIGRATE_VMA_SELECT_DEVICE_PRIVATE :
MIGRATE_VMA_SELECT_DEVICE_COHERENT ;
}
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static void dmirror_bounce_fini ( struct dmirror_bounce * bounce )
{
vfree ( bounce - > ptr ) ;
}
static int dmirror_fops_open ( struct inode * inode , struct file * filp )
{
struct cdev * cdev = inode - > i_cdev ;
struct dmirror * dmirror ;
int ret ;
/* Mirror this process address space */
dmirror = kzalloc ( sizeof ( * dmirror ) , GFP_KERNEL ) ;
if ( dmirror = = NULL )
return - ENOMEM ;
dmirror - > mdevice = container_of ( cdev , struct dmirror_device , cdevice ) ;
mutex_init ( & dmirror - > mutex ) ;
xa_init ( & dmirror - > pt ) ;
ret = mmu_interval_notifier_insert ( & dmirror - > notifier , current - > mm ,
0 , ULONG_MAX & PAGE_MASK , & dmirror_min_ops ) ;
if ( ret ) {
kfree ( dmirror ) ;
return ret ;
}
filp - > private_data = dmirror ;
return 0 ;
}
static int dmirror_fops_release ( struct inode * inode , struct file * filp )
{
struct dmirror * dmirror = filp - > private_data ;
mmu_interval_notifier_remove ( & dmirror - > notifier ) ;
xa_destroy ( & dmirror - > pt ) ;
kfree ( dmirror ) ;
return 0 ;
}
static struct dmirror_device * dmirror_page_to_device ( struct page * page )
{
return container_of ( page - > pgmap , struct dmirror_chunk ,
pagemap ) - > mdevice ;
}
static int dmirror_do_fault ( struct dmirror * dmirror , struct hmm_range * range )
{
unsigned long * pfns = range - > hmm_pfns ;
unsigned long pfn ;
for ( pfn = ( range - > start > > PAGE_SHIFT ) ;
pfn < ( range - > end > > PAGE_SHIFT ) ;
pfn + + , pfns + + ) {
struct page * page ;
void * entry ;
/*
* Since we asked for hmm_range_fault ( ) to populate pages ,
* it shouldn ' t return an error entry on success .
*/
WARN_ON ( * pfns & HMM_PFN_ERROR ) ;
WARN_ON ( ! ( * pfns & HMM_PFN_VALID ) ) ;
page = hmm_pfn_to_page ( * pfns ) ;
WARN_ON ( ! page ) ;
entry = page ;
if ( * pfns & HMM_PFN_WRITE )
entry = xa_tag_pointer ( entry , DPT_XA_TAG_WRITE ) ;
else if ( WARN_ON ( range - > default_flags & HMM_PFN_WRITE ) )
return - EFAULT ;
entry = xa_store ( & dmirror - > pt , pfn , entry , GFP_ATOMIC ) ;
if ( xa_is_err ( entry ) )
return xa_err ( entry ) ;
}
return 0 ;
}
static void dmirror_do_update ( struct dmirror * dmirror , unsigned long start ,
unsigned long end )
{
unsigned long pfn ;
void * entry ;
/*
* The XArray doesn ' t hold references to pages since it relies on
* the mmu notifier to clear page pointers when they become stale .
* Therefore , it is OK to just clear the entry .
*/
xa_for_each_range ( & dmirror - > pt , pfn , entry , start > > PAGE_SHIFT ,
end > > PAGE_SHIFT )
xa_erase ( & dmirror - > pt , pfn ) ;
}
static bool dmirror_interval_invalidate ( struct mmu_interval_notifier * mni ,
const struct mmu_notifier_range * range ,
unsigned long cur_seq )
{
struct dmirror * dmirror = container_of ( mni , struct dmirror , notifier ) ;
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/*
* Ignore invalidation callbacks for device private pages since
* the invalidation is handled as part of the migration process .
*/
if ( range - > event = = MMU_NOTIFY_MIGRATE & &
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range - > owner = = dmirror - > mdevice )
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return true ;
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if ( mmu_notifier_range_blockable ( range ) )
mutex_lock ( & dmirror - > mutex ) ;
else if ( ! mutex_trylock ( & dmirror - > mutex ) )
return false ;
mmu_interval_set_seq ( mni , cur_seq ) ;
dmirror_do_update ( dmirror , range - > start , range - > end ) ;
mutex_unlock ( & dmirror - > mutex ) ;
return true ;
}
static const struct mmu_interval_notifier_ops dmirror_min_ops = {
. invalidate = dmirror_interval_invalidate ,
} ;
static int dmirror_range_fault ( struct dmirror * dmirror ,
struct hmm_range * range )
{
struct mm_struct * mm = dmirror - > notifier . mm ;
unsigned long timeout =
jiffies + msecs_to_jiffies ( HMM_RANGE_DEFAULT_TIMEOUT ) ;
int ret ;
while ( true ) {
if ( time_after ( jiffies , timeout ) ) {
ret = - EBUSY ;
goto out ;
}
range - > notifier_seq = mmu_interval_read_begin ( range - > notifier ) ;
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mmap_read_lock ( mm ) ;
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ret = hmm_range_fault ( range ) ;
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mmap_read_unlock ( mm ) ;
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if ( ret ) {
if ( ret = = - EBUSY )
continue ;
goto out ;
}
mutex_lock ( & dmirror - > mutex ) ;
if ( mmu_interval_read_retry ( range - > notifier ,
range - > notifier_seq ) ) {
mutex_unlock ( & dmirror - > mutex ) ;
continue ;
}
break ;
}
ret = dmirror_do_fault ( dmirror , range ) ;
mutex_unlock ( & dmirror - > mutex ) ;
out :
return ret ;
}
static int dmirror_fault ( struct dmirror * dmirror , unsigned long start ,
unsigned long end , bool write )
{
struct mm_struct * mm = dmirror - > notifier . mm ;
unsigned long addr ;
unsigned long pfns [ 64 ] ;
struct hmm_range range = {
. notifier = & dmirror - > notifier ,
. hmm_pfns = pfns ,
. pfn_flags_mask = 0 ,
. default_flags =
HMM_PFN_REQ_FAULT | ( write ? HMM_PFN_REQ_WRITE : 0 ) ,
. dev_private_owner = dmirror - > mdevice ,
} ;
int ret = 0 ;
/* Since the mm is for the mirrored process, get a reference first. */
if ( ! mmget_not_zero ( mm ) )
return 0 ;
for ( addr = start ; addr < end ; addr = range . end ) {
range . start = addr ;
range . end = min ( addr + ( ARRAY_SIZE ( pfns ) < < PAGE_SHIFT ) , end ) ;
ret = dmirror_range_fault ( dmirror , & range ) ;
if ( ret )
break ;
}
mmput ( mm ) ;
return ret ;
}
static int dmirror_do_read ( struct dmirror * dmirror , unsigned long start ,
unsigned long end , struct dmirror_bounce * bounce )
{
unsigned long pfn ;
void * ptr ;
ptr = bounce - > ptr + ( ( start - bounce - > addr ) & PAGE_MASK ) ;
for ( pfn = start > > PAGE_SHIFT ; pfn < ( end > > PAGE_SHIFT ) ; pfn + + ) {
void * entry ;
struct page * page ;
void * tmp ;
entry = xa_load ( & dmirror - > pt , pfn ) ;
page = xa_untag_pointer ( entry ) ;
if ( ! page )
return - ENOENT ;
tmp = kmap ( page ) ;
memcpy ( ptr , tmp , PAGE_SIZE ) ;
kunmap ( page ) ;
ptr + = PAGE_SIZE ;
bounce - > cpages + + ;
}
return 0 ;
}
static int dmirror_read ( struct dmirror * dmirror , struct hmm_dmirror_cmd * cmd )
{
struct dmirror_bounce bounce ;
unsigned long start , end ;
unsigned long size = cmd - > npages < < PAGE_SHIFT ;
int ret ;
start = cmd - > addr ;
end = start + size ;
if ( end < start )
return - EINVAL ;
ret = dmirror_bounce_init ( & bounce , start , size ) ;
if ( ret )
return ret ;
while ( 1 ) {
mutex_lock ( & dmirror - > mutex ) ;
ret = dmirror_do_read ( dmirror , start , end , & bounce ) ;
mutex_unlock ( & dmirror - > mutex ) ;
if ( ret ! = - ENOENT )
break ;
start = cmd - > addr + ( bounce . cpages < < PAGE_SHIFT ) ;
ret = dmirror_fault ( dmirror , start , end , false ) ;
if ( ret )
break ;
cmd - > faults + + ;
}
if ( ret = = 0 ) {
if ( copy_to_user ( u64_to_user_ptr ( cmd - > ptr ) , bounce . ptr ,
bounce . size ) )
ret = - EFAULT ;
}
cmd - > cpages = bounce . cpages ;
dmirror_bounce_fini ( & bounce ) ;
return ret ;
}
static int dmirror_do_write ( struct dmirror * dmirror , unsigned long start ,
unsigned long end , struct dmirror_bounce * bounce )
{
unsigned long pfn ;
void * ptr ;
ptr = bounce - > ptr + ( ( start - bounce - > addr ) & PAGE_MASK ) ;
for ( pfn = start > > PAGE_SHIFT ; pfn < ( end > > PAGE_SHIFT ) ; pfn + + ) {
void * entry ;
struct page * page ;
void * tmp ;
entry = xa_load ( & dmirror - > pt , pfn ) ;
page = xa_untag_pointer ( entry ) ;
if ( ! page | | xa_pointer_tag ( entry ) ! = DPT_XA_TAG_WRITE )
return - ENOENT ;
tmp = kmap ( page ) ;
memcpy ( tmp , ptr , PAGE_SIZE ) ;
kunmap ( page ) ;
ptr + = PAGE_SIZE ;
bounce - > cpages + + ;
}
return 0 ;
}
static int dmirror_write ( struct dmirror * dmirror , struct hmm_dmirror_cmd * cmd )
{
struct dmirror_bounce bounce ;
unsigned long start , end ;
unsigned long size = cmd - > npages < < PAGE_SHIFT ;
int ret ;
start = cmd - > addr ;
end = start + size ;
if ( end < start )
return - EINVAL ;
ret = dmirror_bounce_init ( & bounce , start , size ) ;
if ( ret )
return ret ;
if ( copy_from_user ( bounce . ptr , u64_to_user_ptr ( cmd - > ptr ) ,
bounce . size ) ) {
ret = - EFAULT ;
goto fini ;
}
while ( 1 ) {
mutex_lock ( & dmirror - > mutex ) ;
ret = dmirror_do_write ( dmirror , start , end , & bounce ) ;
mutex_unlock ( & dmirror - > mutex ) ;
if ( ret ! = - ENOENT )
break ;
start = cmd - > addr + ( bounce . cpages < < PAGE_SHIFT ) ;
ret = dmirror_fault ( dmirror , start , end , true ) ;
if ( ret )
break ;
cmd - > faults + + ;
}
fini :
cmd - > cpages = bounce . cpages ;
dmirror_bounce_fini ( & bounce ) ;
return ret ;
}
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static int dmirror_allocate_chunk ( struct dmirror_device * mdevice ,
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struct page * * ppage )
{
struct dmirror_chunk * devmem ;
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struct resource * res = NULL ;
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unsigned long pfn ;
unsigned long pfn_first ;
unsigned long pfn_last ;
void * ptr ;
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int ret = - ENOMEM ;
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devmem = kzalloc ( sizeof ( * devmem ) , GFP_KERNEL ) ;
if ( ! devmem )
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return ret ;
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switch ( mdevice - > zone_device_type ) {
case HMM_DMIRROR_MEMORY_DEVICE_PRIVATE :
res = request_free_mem_region ( & iomem_resource , DEVMEM_CHUNK_SIZE ,
" hmm_dmirror " ) ;
if ( IS_ERR_OR_NULL ( res ) )
goto err_devmem ;
devmem - > pagemap . range . start = res - > start ;
devmem - > pagemap . range . end = res - > end ;
devmem - > pagemap . type = MEMORY_DEVICE_PRIVATE ;
break ;
case HMM_DMIRROR_MEMORY_DEVICE_COHERENT :
devmem - > pagemap . range . start = ( MINOR ( mdevice - > cdevice . dev ) - 2 ) ?
spm_addr_dev0 :
spm_addr_dev1 ;
devmem - > pagemap . range . end = devmem - > pagemap . range . start +
DEVMEM_CHUNK_SIZE - 1 ;
devmem - > pagemap . type = MEMORY_DEVICE_COHERENT ;
break ;
default :
ret = - EINVAL ;
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goto err_devmem ;
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}
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devmem - > pagemap . nr_range = 1 ;
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devmem - > pagemap . ops = & dmirror_devmem_ops ;
devmem - > pagemap . owner = mdevice ;
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mutex_lock ( & mdevice - > devmem_lock ) ;
if ( mdevice - > devmem_count = = mdevice - > devmem_capacity ) {
struct dmirror_chunk * * new_chunks ;
unsigned int new_capacity ;
new_capacity = mdevice - > devmem_capacity +
DEVMEM_CHUNKS_RESERVE ;
new_chunks = krealloc ( mdevice - > devmem_chunks ,
sizeof ( new_chunks [ 0 ] ) * new_capacity ,
GFP_KERNEL ) ;
if ( ! new_chunks )
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goto err_release ;
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mdevice - > devmem_capacity = new_capacity ;
mdevice - > devmem_chunks = new_chunks ;
}
ptr = memremap_pages ( & devmem - > pagemap , numa_node_id ( ) ) ;
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if ( IS_ERR_OR_NULL ( ptr ) ) {
if ( ptr )
ret = PTR_ERR ( ptr ) ;
else
ret = - EFAULT ;
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goto err_release ;
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}
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devmem - > mdevice = mdevice ;
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pfn_first = devmem - > pagemap . range . start > > PAGE_SHIFT ;
pfn_last = pfn_first + ( range_len ( & devmem - > pagemap . range ) > > PAGE_SHIFT ) ;
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mdevice - > devmem_chunks [ mdevice - > devmem_count + + ] = devmem ;
mutex_unlock ( & mdevice - > devmem_lock ) ;
pr_info ( " added new %u MB chunk (total %u chunks, %u MB) PFNs [0x%lx 0x%lx) \n " ,
DEVMEM_CHUNK_SIZE / ( 1024 * 1024 ) ,
mdevice - > devmem_count ,
mdevice - > devmem_count * ( DEVMEM_CHUNK_SIZE / ( 1024 * 1024 ) ) ,
pfn_first , pfn_last ) ;
spin_lock ( & mdevice - > lock ) ;
for ( pfn = pfn_first ; pfn < pfn_last ; pfn + + ) {
struct page * page = pfn_to_page ( pfn ) ;
page - > zone_device_data = mdevice - > free_pages ;
mdevice - > free_pages = page ;
}
if ( ppage ) {
* ppage = mdevice - > free_pages ;
mdevice - > free_pages = ( * ppage ) - > zone_device_data ;
mdevice - > calloc + + ;
}
spin_unlock ( & mdevice - > lock ) ;
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return 0 ;
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err_release :
mutex_unlock ( & mdevice - > devmem_lock ) ;
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if ( res & & devmem - > pagemap . type = = MEMORY_DEVICE_PRIVATE )
release_mem_region ( devmem - > pagemap . range . start ,
range_len ( & devmem - > pagemap . range ) ) ;
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err_devmem :
kfree ( devmem ) ;
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return ret ;
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}
static struct page * dmirror_devmem_alloc_page ( struct dmirror_device * mdevice )
{
struct page * dpage = NULL ;
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struct page * rpage = NULL ;
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/*
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* For ZONE_DEVICE private type , this is a fake device so we allocate
* real system memory to store our device memory .
* For ZONE_DEVICE coherent type we use the actual dpage to store the
* data and ignore rpage .
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*/
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if ( dmirror_is_private_zone ( mdevice ) ) {
rpage = alloc_page ( GFP_HIGHUSER ) ;
if ( ! rpage )
return NULL ;
}
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spin_lock ( & mdevice - > lock ) ;
if ( mdevice - > free_pages ) {
dpage = mdevice - > free_pages ;
mdevice - > free_pages = dpage - > zone_device_data ;
mdevice - > calloc + + ;
spin_unlock ( & mdevice - > lock ) ;
} else {
spin_unlock ( & mdevice - > lock ) ;
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if ( dmirror_allocate_chunk ( mdevice , & dpage ) )
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goto error ;
}
dpage - > zone_device_data = rpage ;
lock_page ( dpage ) ;
return dpage ;
error :
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if ( rpage )
__free_page ( rpage ) ;
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return NULL ;
}
static void dmirror_migrate_alloc_and_copy ( struct migrate_vma * args ,
struct dmirror * dmirror )
{
struct dmirror_device * mdevice = dmirror - > mdevice ;
const unsigned long * src = args - > src ;
unsigned long * dst = args - > dst ;
unsigned long addr ;
for ( addr = args - > start ; addr < args - > end ; addr + = PAGE_SIZE ,
src + + , dst + + ) {
struct page * spage ;
struct page * dpage ;
struct page * rpage ;
if ( ! ( * src & MIGRATE_PFN_MIGRATE ) )
continue ;
/*
* Note that spage might be NULL which is OK since it is an
* unallocated pte_none ( ) or read - only zero page .
*/
spage = migrate_pfn_to_page ( * src ) ;
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if ( WARN ( spage & & is_zone_device_page ( spage ) ,
" page already in device spage pfn: 0x%lx \n " ,
page_to_pfn ( spage ) ) )
continue ;
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dpage = dmirror_devmem_alloc_page ( mdevice ) ;
if ( ! dpage )
continue ;
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rpage = BACKING_PAGE ( dpage ) ;
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if ( spage )
copy_highpage ( rpage , spage ) ;
else
clear_highpage ( rpage ) ;
/*
* Normally , a device would use the page - > zone_device_data to
* point to the mirror but here we use it to hold the page for
* the simulated device memory and that page holds the pointer
* to the mirror .
*/
rpage - > zone_device_data = dmirror ;
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pr_debug ( " migrating from sys to dev pfn src: 0x%lx pfn dst: 0x%lx \n " ,
page_to_pfn ( spage ) , page_to_pfn ( dpage ) ) ;
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* dst = migrate_pfn ( page_to_pfn ( dpage ) ) ;
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if ( ( * src & MIGRATE_PFN_WRITE ) | |
( ! spage & & args - > vma - > vm_flags & VM_WRITE ) )
* dst | = MIGRATE_PFN_WRITE ;
}
}
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static int dmirror_check_atomic ( struct dmirror * dmirror , unsigned long start ,
unsigned long end )
{
unsigned long pfn ;
for ( pfn = start > > PAGE_SHIFT ; pfn < ( end > > PAGE_SHIFT ) ; pfn + + ) {
void * entry ;
entry = xa_load ( & dmirror - > pt , pfn ) ;
if ( xa_pointer_tag ( entry ) = = DPT_XA_TAG_ATOMIC )
return - EPERM ;
}
return 0 ;
}
static int dmirror_atomic_map ( unsigned long start , unsigned long end ,
struct page * * pages , struct dmirror * dmirror )
{
unsigned long pfn , mapped = 0 ;
int i ;
/* Map the migrated pages into the device's page tables. */
mutex_lock ( & dmirror - > mutex ) ;
for ( i = 0 , pfn = start > > PAGE_SHIFT ; pfn < ( end > > PAGE_SHIFT ) ; pfn + + , i + + ) {
void * entry ;
if ( ! pages [ i ] )
continue ;
entry = pages [ i ] ;
entry = xa_tag_pointer ( entry , DPT_XA_TAG_ATOMIC ) ;
entry = xa_store ( & dmirror - > pt , pfn , entry , GFP_ATOMIC ) ;
if ( xa_is_err ( entry ) ) {
mutex_unlock ( & dmirror - > mutex ) ;
return xa_err ( entry ) ;
}
mapped + + ;
}
mutex_unlock ( & dmirror - > mutex ) ;
return mapped ;
}
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static int dmirror_migrate_finalize_and_map ( struct migrate_vma * args ,
struct dmirror * dmirror )
{
unsigned long start = args - > start ;
unsigned long end = args - > end ;
const unsigned long * src = args - > src ;
const unsigned long * dst = args - > dst ;
unsigned long pfn ;
/* Map the migrated pages into the device's page tables. */
mutex_lock ( & dmirror - > mutex ) ;
for ( pfn = start > > PAGE_SHIFT ; pfn < ( end > > PAGE_SHIFT ) ; pfn + + ,
src + + , dst + + ) {
struct page * dpage ;
void * entry ;
if ( ! ( * src & MIGRATE_PFN_MIGRATE ) )
continue ;
dpage = migrate_pfn_to_page ( * dst ) ;
if ( ! dpage )
continue ;
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entry = BACKING_PAGE ( dpage ) ;
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if ( * dst & MIGRATE_PFN_WRITE )
entry = xa_tag_pointer ( entry , DPT_XA_TAG_WRITE ) ;
entry = xa_store ( & dmirror - > pt , pfn , entry , GFP_ATOMIC ) ;
if ( xa_is_err ( entry ) ) {
mutex_unlock ( & dmirror - > mutex ) ;
return xa_err ( entry ) ;
}
}
mutex_unlock ( & dmirror - > mutex ) ;
return 0 ;
}
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static int dmirror_exclusive ( struct dmirror * dmirror ,
struct hmm_dmirror_cmd * cmd )
{
unsigned long start , end , addr ;
unsigned long size = cmd - > npages < < PAGE_SHIFT ;
struct mm_struct * mm = dmirror - > notifier . mm ;
struct page * pages [ 64 ] ;
struct dmirror_bounce bounce ;
unsigned long next ;
int ret ;
start = cmd - > addr ;
end = start + size ;
if ( end < start )
return - EINVAL ;
/* Since the mm is for the mirrored process, get a reference first. */
if ( ! mmget_not_zero ( mm ) )
return - EINVAL ;
mmap_read_lock ( mm ) ;
for ( addr = start ; addr < end ; addr = next ) {
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unsigned long mapped = 0 ;
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int i ;
if ( end < addr + ( ARRAY_SIZE ( pages ) < < PAGE_SHIFT ) )
next = end ;
else
next = addr + ( ARRAY_SIZE ( pages ) < < PAGE_SHIFT ) ;
ret = make_device_exclusive_range ( mm , addr , next , pages , NULL ) ;
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/*
* Do dmirror_atomic_map ( ) iff all pages are marked for
* exclusive access to avoid accessing uninitialized
* fields of pages .
*/
if ( ret = = ( next - addr ) > > PAGE_SHIFT )
mapped = dmirror_atomic_map ( addr , next , pages , dmirror ) ;
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for ( i = 0 ; i < ret ; i + + ) {
if ( pages [ i ] ) {
unlock_page ( pages [ i ] ) ;
put_page ( pages [ i ] ) ;
}
}
if ( addr + ( mapped < < PAGE_SHIFT ) < next ) {
mmap_read_unlock ( mm ) ;
mmput ( mm ) ;
return - EBUSY ;
}
}
mmap_read_unlock ( mm ) ;
mmput ( mm ) ;
/* Return the migrated data for verification. */
ret = dmirror_bounce_init ( & bounce , start , size ) ;
if ( ret )
return ret ;
mutex_lock ( & dmirror - > mutex ) ;
ret = dmirror_do_read ( dmirror , start , end , & bounce ) ;
mutex_unlock ( & dmirror - > mutex ) ;
if ( ret = = 0 ) {
if ( copy_to_user ( u64_to_user_ptr ( cmd - > ptr ) , bounce . ptr ,
bounce . size ) )
ret = - EFAULT ;
}
cmd - > cpages = bounce . cpages ;
dmirror_bounce_fini ( & bounce ) ;
return ret ;
}
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static vm_fault_t dmirror_devmem_fault_alloc_and_copy ( struct migrate_vma * args ,
struct dmirror * dmirror )
{
const unsigned long * src = args - > src ;
unsigned long * dst = args - > dst ;
unsigned long start = args - > start ;
unsigned long end = args - > end ;
unsigned long addr ;
for ( addr = start ; addr < end ; addr + = PAGE_SIZE ,
src + + , dst + + ) {
struct page * dpage , * spage ;
spage = migrate_pfn_to_page ( * src ) ;
if ( ! spage | | ! ( * src & MIGRATE_PFN_MIGRATE ) )
continue ;
if ( WARN_ON ( ! is_device_private_page ( spage ) & &
! is_device_coherent_page ( spage ) ) )
continue ;
spage = BACKING_PAGE ( spage ) ;
dpage = alloc_page_vma ( GFP_HIGHUSER_MOVABLE , args - > vma , addr ) ;
if ( ! dpage )
continue ;
pr_debug ( " migrating from dev to sys pfn src: 0x%lx pfn dst: 0x%lx \n " ,
page_to_pfn ( spage ) , page_to_pfn ( dpage ) ) ;
lock_page ( dpage ) ;
xa_erase ( & dmirror - > pt , addr > > PAGE_SHIFT ) ;
copy_highpage ( dpage , spage ) ;
* dst = migrate_pfn ( page_to_pfn ( dpage ) ) ;
if ( * src & MIGRATE_PFN_WRITE )
* dst | = MIGRATE_PFN_WRITE ;
}
return 0 ;
}
static unsigned long
dmirror_successful_migrated_pages ( struct migrate_vma * migrate )
{
unsigned long cpages = 0 ;
unsigned long i ;
for ( i = 0 ; i < migrate - > npages ; i + + ) {
if ( migrate - > src [ i ] & MIGRATE_PFN_VALID & &
migrate - > src [ i ] & MIGRATE_PFN_MIGRATE )
cpages + + ;
}
return cpages ;
}
static int dmirror_migrate_to_system ( struct dmirror * dmirror ,
struct hmm_dmirror_cmd * cmd )
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{
unsigned long start , end , addr ;
unsigned long size = cmd - > npages < < PAGE_SHIFT ;
struct mm_struct * mm = dmirror - > notifier . mm ;
struct vm_area_struct * vma ;
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unsigned long src_pfns [ 64 ] = { 0 } ;
unsigned long dst_pfns [ 64 ] = { 0 } ;
struct migrate_vma args ;
unsigned long next ;
int ret ;
start = cmd - > addr ;
end = start + size ;
if ( end < start )
return - EINVAL ;
/* Since the mm is for the mirrored process, get a reference first. */
if ( ! mmget_not_zero ( mm ) )
return - EINVAL ;
cmd - > cpages = 0 ;
mmap_read_lock ( mm ) ;
for ( addr = start ; addr < end ; addr = next ) {
vma = vma_lookup ( mm , addr ) ;
if ( ! vma | | ! ( vma - > vm_flags & VM_READ ) ) {
ret = - EINVAL ;
goto out ;
}
next = min ( end , addr + ( ARRAY_SIZE ( src_pfns ) < < PAGE_SHIFT ) ) ;
if ( next > vma - > vm_end )
next = vma - > vm_end ;
args . vma = vma ;
args . src = src_pfns ;
args . dst = dst_pfns ;
args . start = addr ;
args . end = next ;
args . pgmap_owner = dmirror - > mdevice ;
args . flags = dmirror_select_device ( dmirror ) ;
ret = migrate_vma_setup ( & args ) ;
if ( ret )
goto out ;
pr_debug ( " Migrating from device mem to sys mem \n " ) ;
dmirror_devmem_fault_alloc_and_copy ( & args , dmirror ) ;
migrate_vma_pages ( & args ) ;
cmd - > cpages + = dmirror_successful_migrated_pages ( & args ) ;
migrate_vma_finalize ( & args ) ;
}
out :
mmap_read_unlock ( mm ) ;
mmput ( mm ) ;
return ret ;
}
static int dmirror_migrate_to_device ( struct dmirror * dmirror ,
struct hmm_dmirror_cmd * cmd )
{
unsigned long start , end , addr ;
unsigned long size = cmd - > npages < < PAGE_SHIFT ;
struct mm_struct * mm = dmirror - > notifier . mm ;
struct vm_area_struct * vma ;
unsigned long src_pfns [ 64 ] = { 0 } ;
unsigned long dst_pfns [ 64 ] = { 0 } ;
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struct dmirror_bounce bounce ;
struct migrate_vma args ;
unsigned long next ;
int ret ;
start = cmd - > addr ;
end = start + size ;
if ( end < start )
return - EINVAL ;
/* Since the mm is for the mirrored process, get a reference first. */
if ( ! mmget_not_zero ( mm ) )
return - EINVAL ;
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mmap_read_lock ( mm ) ;
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for ( addr = start ; addr < end ; addr = next ) {
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vma = vma_lookup ( mm , addr ) ;
if ( ! vma | | ! ( vma - > vm_flags & VM_READ ) ) {
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ret = - EINVAL ;
goto out ;
}
next = min ( end , addr + ( ARRAY_SIZE ( src_pfns ) < < PAGE_SHIFT ) ) ;
if ( next > vma - > vm_end )
next = vma - > vm_end ;
args . vma = vma ;
args . src = src_pfns ;
args . dst = dst_pfns ;
args . start = addr ;
args . end = next ;
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args . pgmap_owner = dmirror - > mdevice ;
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args . flags = MIGRATE_VMA_SELECT_SYSTEM ;
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ret = migrate_vma_setup ( & args ) ;
if ( ret )
goto out ;
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pr_debug ( " Migrating from sys mem to device mem \n " ) ;
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dmirror_migrate_alloc_and_copy ( & args , dmirror ) ;
migrate_vma_pages ( & args ) ;
dmirror_migrate_finalize_and_map ( & args , dmirror ) ;
migrate_vma_finalize ( & args ) ;
}
2020-06-09 04:33:29 +00:00
mmap_read_unlock ( mm ) ;
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mmput ( mm ) ;
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/*
* Return the migrated data for verification .
* Only for pages in device zone
*/
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ret = dmirror_bounce_init ( & bounce , start , size ) ;
if ( ret )
return ret ;
mutex_lock ( & dmirror - > mutex ) ;
ret = dmirror_do_read ( dmirror , start , end , & bounce ) ;
mutex_unlock ( & dmirror - > mutex ) ;
if ( ret = = 0 ) {
if ( copy_to_user ( u64_to_user_ptr ( cmd - > ptr ) , bounce . ptr ,
bounce . size ) )
ret = - EFAULT ;
}
cmd - > cpages = bounce . cpages ;
dmirror_bounce_fini ( & bounce ) ;
return ret ;
out :
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mmap_read_unlock ( mm ) ;
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mmput ( mm ) ;
return ret ;
}
static void dmirror_mkentry ( struct dmirror * dmirror , struct hmm_range * range ,
unsigned char * perm , unsigned long entry )
{
struct page * page ;
if ( entry & HMM_PFN_ERROR ) {
* perm = HMM_DMIRROR_PROT_ERROR ;
return ;
}
if ( ! ( entry & HMM_PFN_VALID ) ) {
* perm = HMM_DMIRROR_PROT_NONE ;
return ;
}
page = hmm_pfn_to_page ( entry ) ;
if ( is_device_private_page ( page ) ) {
/* Is the page migrated to this device or some other? */
if ( dmirror - > mdevice = = dmirror_page_to_device ( page ) )
* perm = HMM_DMIRROR_PROT_DEV_PRIVATE_LOCAL ;
else
* perm = HMM_DMIRROR_PROT_DEV_PRIVATE_REMOTE ;
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} else if ( is_device_coherent_page ( page ) ) {
/* Is the page migrated to this device or some other? */
if ( dmirror - > mdevice = = dmirror_page_to_device ( page ) )
* perm = HMM_DMIRROR_PROT_DEV_COHERENT_LOCAL ;
else
* perm = HMM_DMIRROR_PROT_DEV_COHERENT_REMOTE ;
2020-04-22 19:50:26 +00:00
} else if ( is_zero_pfn ( page_to_pfn ( page ) ) )
* perm = HMM_DMIRROR_PROT_ZERO ;
else
* perm = HMM_DMIRROR_PROT_NONE ;
if ( entry & HMM_PFN_WRITE )
* perm | = HMM_DMIRROR_PROT_WRITE ;
else
* perm | = HMM_DMIRROR_PROT_READ ;
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if ( hmm_pfn_to_map_order ( entry ) + PAGE_SHIFT = = PMD_SHIFT )
* perm | = HMM_DMIRROR_PROT_PMD ;
else if ( hmm_pfn_to_map_order ( entry ) + PAGE_SHIFT = = PUD_SHIFT )
* perm | = HMM_DMIRROR_PROT_PUD ;
2020-04-22 19:50:26 +00:00
}
static bool dmirror_snapshot_invalidate ( struct mmu_interval_notifier * mni ,
const struct mmu_notifier_range * range ,
unsigned long cur_seq )
{
struct dmirror_interval * dmi =
container_of ( mni , struct dmirror_interval , notifier ) ;
struct dmirror * dmirror = dmi - > dmirror ;
if ( mmu_notifier_range_blockable ( range ) )
mutex_lock ( & dmirror - > mutex ) ;
else if ( ! mutex_trylock ( & dmirror - > mutex ) )
return false ;
/*
* Snapshots only need to set the sequence number since any
* invalidation in the interval invalidates the whole snapshot .
*/
mmu_interval_set_seq ( mni , cur_seq ) ;
mutex_unlock ( & dmirror - > mutex ) ;
return true ;
}
static const struct mmu_interval_notifier_ops dmirror_mrn_ops = {
. invalidate = dmirror_snapshot_invalidate ,
} ;
static int dmirror_range_snapshot ( struct dmirror * dmirror ,
struct hmm_range * range ,
unsigned char * perm )
{
struct mm_struct * mm = dmirror - > notifier . mm ;
struct dmirror_interval notifier ;
unsigned long timeout =
jiffies + msecs_to_jiffies ( HMM_RANGE_DEFAULT_TIMEOUT ) ;
unsigned long i ;
unsigned long n ;
int ret = 0 ;
notifier . dmirror = dmirror ;
range - > notifier = & notifier . notifier ;
ret = mmu_interval_notifier_insert ( range - > notifier , mm ,
range - > start , range - > end - range - > start ,
& dmirror_mrn_ops ) ;
if ( ret )
return ret ;
while ( true ) {
if ( time_after ( jiffies , timeout ) ) {
ret = - EBUSY ;
goto out ;
}
range - > notifier_seq = mmu_interval_read_begin ( range - > notifier ) ;
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mmap_read_lock ( mm ) ;
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ret = hmm_range_fault ( range ) ;
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mmap_read_unlock ( mm ) ;
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if ( ret ) {
if ( ret = = - EBUSY )
continue ;
goto out ;
}
mutex_lock ( & dmirror - > mutex ) ;
if ( mmu_interval_read_retry ( range - > notifier ,
range - > notifier_seq ) ) {
mutex_unlock ( & dmirror - > mutex ) ;
continue ;
}
break ;
}
n = ( range - > end - range - > start ) > > PAGE_SHIFT ;
for ( i = 0 ; i < n ; i + + )
dmirror_mkentry ( dmirror , range , perm + i , range - > hmm_pfns [ i ] ) ;
mutex_unlock ( & dmirror - > mutex ) ;
out :
mmu_interval_notifier_remove ( range - > notifier ) ;
return ret ;
}
static int dmirror_snapshot ( struct dmirror * dmirror ,
struct hmm_dmirror_cmd * cmd )
{
struct mm_struct * mm = dmirror - > notifier . mm ;
unsigned long start , end ;
unsigned long size = cmd - > npages < < PAGE_SHIFT ;
unsigned long addr ;
unsigned long next ;
unsigned long pfns [ 64 ] ;
unsigned char perm [ 64 ] ;
char __user * uptr ;
struct hmm_range range = {
. hmm_pfns = pfns ,
. dev_private_owner = dmirror - > mdevice ,
} ;
int ret = 0 ;
start = cmd - > addr ;
end = start + size ;
if ( end < start )
return - EINVAL ;
/* Since the mm is for the mirrored process, get a reference first. */
if ( ! mmget_not_zero ( mm ) )
return - EINVAL ;
/*
* Register a temporary notifier to detect invalidations even if it
* overlaps with other mmu_interval_notifiers .
*/
uptr = u64_to_user_ptr ( cmd - > ptr ) ;
for ( addr = start ; addr < end ; addr = next ) {
unsigned long n ;
next = min ( addr + ( ARRAY_SIZE ( pfns ) < < PAGE_SHIFT ) , end ) ;
range . start = addr ;
range . end = next ;
ret = dmirror_range_snapshot ( dmirror , & range , perm ) ;
if ( ret )
break ;
n = ( range . end - range . start ) > > PAGE_SHIFT ;
if ( copy_to_user ( uptr , perm , n ) ) {
ret = - EFAULT ;
break ;
}
cmd - > cpages + = n ;
uptr + = n ;
}
mmput ( mm ) ;
return ret ;
}
static long dmirror_fops_unlocked_ioctl ( struct file * filp ,
unsigned int command ,
unsigned long arg )
{
void __user * uarg = ( void __user * ) arg ;
struct hmm_dmirror_cmd cmd ;
struct dmirror * dmirror ;
int ret ;
dmirror = filp - > private_data ;
if ( ! dmirror )
return - EINVAL ;
if ( copy_from_user ( & cmd , uarg , sizeof ( cmd ) ) )
return - EFAULT ;
if ( cmd . addr & ~ PAGE_MASK )
return - EINVAL ;
if ( cmd . addr > = ( cmd . addr + ( cmd . npages < < PAGE_SHIFT ) ) )
return - EINVAL ;
cmd . cpages = 0 ;
cmd . faults = 0 ;
switch ( command ) {
case HMM_DMIRROR_READ :
ret = dmirror_read ( dmirror , & cmd ) ;
break ;
case HMM_DMIRROR_WRITE :
ret = dmirror_write ( dmirror , & cmd ) ;
break ;
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case HMM_DMIRROR_MIGRATE_TO_DEV :
ret = dmirror_migrate_to_device ( dmirror , & cmd ) ;
break ;
case HMM_DMIRROR_MIGRATE_TO_SYS :
ret = dmirror_migrate_to_system ( dmirror , & cmd ) ;
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break ;
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case HMM_DMIRROR_EXCLUSIVE :
ret = dmirror_exclusive ( dmirror , & cmd ) ;
break ;
case HMM_DMIRROR_CHECK_EXCLUSIVE :
ret = dmirror_check_atomic ( dmirror , cmd . addr ,
cmd . addr + ( cmd . npages < < PAGE_SHIFT ) ) ;
break ;
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case HMM_DMIRROR_SNAPSHOT :
ret = dmirror_snapshot ( dmirror , & cmd ) ;
break ;
default :
return - EINVAL ;
}
if ( ret )
return ret ;
if ( copy_to_user ( uarg , & cmd , sizeof ( cmd ) ) )
return - EFAULT ;
return 0 ;
}
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static int dmirror_fops_mmap ( struct file * file , struct vm_area_struct * vma )
{
unsigned long addr ;
for ( addr = vma - > vm_start ; addr < vma - > vm_end ; addr + = PAGE_SIZE ) {
struct page * page ;
int ret ;
page = alloc_page ( GFP_KERNEL | __GFP_ZERO ) ;
if ( ! page )
return - ENOMEM ;
ret = vm_insert_page ( vma , addr , page ) ;
if ( ret ) {
__free_page ( page ) ;
return ret ;
}
put_page ( page ) ;
}
return 0 ;
}
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static const struct file_operations dmirror_fops = {
. open = dmirror_fops_open ,
. release = dmirror_fops_release ,
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. mmap = dmirror_fops_mmap ,
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. unlocked_ioctl = dmirror_fops_unlocked_ioctl ,
. llseek = default_llseek ,
. owner = THIS_MODULE ,
} ;
static void dmirror_devmem_free ( struct page * page )
{
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struct page * rpage = BACKING_PAGE ( page ) ;
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struct dmirror_device * mdevice ;
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if ( rpage ! = page )
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__free_page ( rpage ) ;
mdevice = dmirror_page_to_device ( page ) ;
spin_lock ( & mdevice - > lock ) ;
mdevice - > cfree + + ;
page - > zone_device_data = mdevice - > free_pages ;
mdevice - > free_pages = page ;
spin_unlock ( & mdevice - > lock ) ;
}
static vm_fault_t dmirror_devmem_fault ( struct vm_fault * vmf )
{
struct migrate_vma args ;
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unsigned long src_pfns = 0 ;
unsigned long dst_pfns = 0 ;
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struct page * rpage ;
struct dmirror * dmirror ;
vm_fault_t ret ;
/*
* Normally , a device would use the page - > zone_device_data to point to
* the mirror but here we use it to hold the page for the simulated
* device memory and that page holds the pointer to the mirror .
*/
rpage = vmf - > page - > zone_device_data ;
dmirror = rpage - > zone_device_data ;
/* FIXME demonstrate how we can adjust migrate range */
args . vma = vmf - > vma ;
args . start = vmf - > address ;
args . end = args . start + PAGE_SIZE ;
args . src = & src_pfns ;
args . dst = & dst_pfns ;
2020-07-23 22:30:00 +00:00
args . pgmap_owner = dmirror - > mdevice ;
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args . flags = dmirror_select_device ( dmirror ) ;
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if ( migrate_vma_setup ( & args ) )
return VM_FAULT_SIGBUS ;
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ret = dmirror_devmem_fault_alloc_and_copy ( & args , dmirror ) ;
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if ( ret )
return ret ;
migrate_vma_pages ( & args ) ;
2020-07-23 22:30:03 +00:00
/*
* No device finalize step is needed since
* dmirror_devmem_fault_alloc_and_copy ( ) will have already
* invalidated the device page table .
*/
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migrate_vma_finalize ( & args ) ;
return 0 ;
}
static const struct dev_pagemap_ops dmirror_devmem_ops = {
. page_free = dmirror_devmem_free ,
. migrate_to_ram = dmirror_devmem_fault ,
} ;
static int dmirror_device_init ( struct dmirror_device * mdevice , int id )
{
dev_t dev ;
int ret ;
dev = MKDEV ( MAJOR ( dmirror_dev ) , id ) ;
mutex_init ( & mdevice - > devmem_lock ) ;
spin_lock_init ( & mdevice - > lock ) ;
cdev_init ( & mdevice - > cdevice , & dmirror_fops ) ;
mdevice - > cdevice . owner = THIS_MODULE ;
ret = cdev_add ( & mdevice - > cdevice , dev , 1 ) ;
if ( ret )
return ret ;
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/* Build a list of free ZONE_DEVICE struct pages */
return dmirror_allocate_chunk ( mdevice , NULL ) ;
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}
static void dmirror_device_remove ( struct dmirror_device * mdevice )
{
unsigned int i ;
if ( mdevice - > devmem_chunks ) {
for ( i = 0 ; i < mdevice - > devmem_count ; i + + ) {
struct dmirror_chunk * devmem =
mdevice - > devmem_chunks [ i ] ;
memunmap_pages ( & devmem - > pagemap ) ;
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if ( devmem - > pagemap . type = = MEMORY_DEVICE_PRIVATE )
release_mem_region ( devmem - > pagemap . range . start ,
range_len ( & devmem - > pagemap . range ) ) ;
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kfree ( devmem ) ;
}
kfree ( mdevice - > devmem_chunks ) ;
}
cdev_del ( & mdevice - > cdevice ) ;
}
static int __init hmm_dmirror_init ( void )
{
int ret ;
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int id = 0 ;
int ndevices = 0 ;
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ret = alloc_chrdev_region ( & dmirror_dev , 0 , DMIRROR_NDEVICES ,
" HMM_DMIRROR " ) ;
if ( ret )
goto err_unreg ;
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memset ( dmirror_devices , 0 , DMIRROR_NDEVICES * sizeof ( dmirror_devices [ 0 ] ) ) ;
dmirror_devices [ ndevices + + ] . zone_device_type =
HMM_DMIRROR_MEMORY_DEVICE_PRIVATE ;
dmirror_devices [ ndevices + + ] . zone_device_type =
HMM_DMIRROR_MEMORY_DEVICE_PRIVATE ;
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if ( spm_addr_dev0 & & spm_addr_dev1 ) {
dmirror_devices [ ndevices + + ] . zone_device_type =
HMM_DMIRROR_MEMORY_DEVICE_COHERENT ;
dmirror_devices [ ndevices + + ] . zone_device_type =
HMM_DMIRROR_MEMORY_DEVICE_COHERENT ;
}
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for ( id = 0 ; id < ndevices ; id + + ) {
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ret = dmirror_device_init ( dmirror_devices + id , id ) ;
if ( ret )
goto err_chrdev ;
}
pr_info ( " HMM test module loaded. This is only for testing HMM. \n " ) ;
return 0 ;
err_chrdev :
while ( - - id > = 0 )
dmirror_device_remove ( dmirror_devices + id ) ;
unregister_chrdev_region ( dmirror_dev , DMIRROR_NDEVICES ) ;
err_unreg :
return ret ;
}
static void __exit hmm_dmirror_exit ( void )
{
int id ;
for ( id = 0 ; id < DMIRROR_NDEVICES ; id + + )
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if ( dmirror_devices [ id ] . zone_device_type )
dmirror_device_remove ( dmirror_devices + id ) ;
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unregister_chrdev_region ( dmirror_dev , DMIRROR_NDEVICES ) ;
}
module_init ( hmm_dmirror_init ) ;
module_exit ( hmm_dmirror_exit ) ;
MODULE_LICENSE ( " GPL " ) ;