mirror of https://gitee.com/openkylin/linux.git
mm: remove hmm_devmem_add
There isn't really much value add in the hmm_devmem_add wrapper and more, as using devm_memremap_pages directly now is just as simple. Signed-off-by: Christoph Hellwig <hch@lst.de> Reviewed-by: Jason Gunthorpe <jgg@mellanox.com> Reviewed-by: Dan Williams <dan.j.williams@intel.com> Signed-off-by: Jason Gunthorpe <jgg@mellanox.com>
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@ -329,32 +329,6 @@ directly using struct page for device memory which left most kernel code paths
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unaware of the difference. We only need to make sure that no one ever tries to
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map those pages from the CPU side.
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HMM provides a set of helpers to register and hotplug device memory as a new
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region needing a struct page. This is offered through a very simple API::
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struct hmm_devmem *hmm_devmem_add(const struct hmm_devmem_ops *ops,
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struct device *device,
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unsigned long size);
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void hmm_devmem_remove(struct hmm_devmem *devmem);
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The hmm_devmem_ops is where most of the important things are::
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struct hmm_devmem_ops {
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void (*free)(struct hmm_devmem *devmem, struct page *page);
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int (*fault)(struct hmm_devmem *devmem,
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struct vm_area_struct *vma,
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unsigned long addr,
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struct page *page,
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unsigned flags,
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pmd_t *pmdp);
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};
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The first callback (free()) happens when the last reference on a device page is
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dropped. This means the device page is now free and no longer used by anyone.
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The second callback happens whenever the CPU tries to access a device page
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which it cannot do. This second callback must trigger a migration back to
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system memory.
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Migration to and from device memory
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===================================
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@ -585,135 +585,6 @@ static inline void hmm_mm_init(struct mm_struct *mm) {}
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#endif /* IS_ENABLED(CONFIG_HMM_MIRROR) */
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#if IS_ENABLED(CONFIG_DEVICE_PRIVATE)
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struct hmm_devmem;
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/*
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* struct hmm_devmem_ops - callback for ZONE_DEVICE memory events
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*
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* @free: call when refcount on page reach 1 and thus is no longer use
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* @fault: call when there is a page fault to unaddressable memory
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*
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* Both callback happens from page_free() and page_fault() callback of struct
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* dev_pagemap respectively. See include/linux/memremap.h for more details on
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* those.
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*
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* The hmm_devmem_ops callback are just here to provide a coherent and
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* uniq API to device driver and device driver should not register their
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* own page_free() or page_fault() but rely on the hmm_devmem_ops call-
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* back.
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*/
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struct hmm_devmem_ops {
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/*
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* free() - free a device page
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* @devmem: device memory structure (see struct hmm_devmem)
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* @page: pointer to struct page being freed
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*
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* Call back occurs whenever a device page refcount reach 1 which
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* means that no one is holding any reference on the page anymore
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* (ZONE_DEVICE page have an elevated refcount of 1 as default so
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* that they are not release to the general page allocator).
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*
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* Note that callback has exclusive ownership of the page (as no
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* one is holding any reference).
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*/
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void (*free)(struct hmm_devmem *devmem, struct page *page);
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/*
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* fault() - CPU page fault or get user page (GUP)
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* @devmem: device memory structure (see struct hmm_devmem)
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* @vma: virtual memory area containing the virtual address
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* @addr: virtual address that faulted or for which there is a GUP
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* @page: pointer to struct page backing virtual address (unreliable)
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* @flags: FAULT_FLAG_* (see include/linux/mm.h)
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* @pmdp: page middle directory
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* Returns: VM_FAULT_MINOR/MAJOR on success or one of VM_FAULT_ERROR
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* on error
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*
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* The callback occurs whenever there is a CPU page fault or GUP on a
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* virtual address. This means that the device driver must migrate the
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* page back to regular memory (CPU accessible).
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*
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* The device driver is free to migrate more than one page from the
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* fault() callback as an optimization. However if device decide to
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* migrate more than one page it must always priotirize the faulting
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* address over the others.
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*
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* The struct page pointer is only given as an hint to allow quick
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* lookup of internal device driver data. A concurrent migration
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* might have already free that page and the virtual address might
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* not longer be back by it. So it should not be modified by the
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* callback.
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*
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* Note that mmap semaphore is held in read mode at least when this
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* callback occurs, hence the vma is valid upon callback entry.
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*/
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vm_fault_t (*fault)(struct hmm_devmem *devmem,
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struct vm_area_struct *vma,
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unsigned long addr,
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const struct page *page,
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unsigned int flags,
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pmd_t *pmdp);
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};
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/*
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* struct hmm_devmem - track device memory
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*
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* @completion: completion object for device memory
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* @pfn_first: first pfn for this resource (set by hmm_devmem_add())
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* @pfn_last: last pfn for this resource (set by hmm_devmem_add())
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* @resource: IO resource reserved for this chunk of memory
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* @pagemap: device page map for that chunk
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* @device: device to bind resource to
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* @ops: memory operations callback
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* @ref: per CPU refcount
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* @page_fault: callback when CPU fault on an unaddressable device page
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*
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* This an helper structure for device drivers that do not wish to implement
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* the gory details related to hotplugging new memoy and allocating struct
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* pages.
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*
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* Device drivers can directly use ZONE_DEVICE memory on their own if they
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* wish to do so.
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*
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* The page_fault() callback must migrate page back, from device memory to
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* system memory, so that the CPU can access it. This might fail for various
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* reasons (device issues, device have been unplugged, ...). When such error
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* conditions happen, the page_fault() callback must return VM_FAULT_SIGBUS and
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* set the CPU page table entry to "poisoned".
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*
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* Note that because memory cgroup charges are transferred to the device memory,
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* this should never fail due to memory restrictions. However, allocation
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* of a regular system page might still fail because we are out of memory. If
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* that happens, the page_fault() callback must return VM_FAULT_OOM.
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*
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* The page_fault() callback can also try to migrate back multiple pages in one
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* chunk, as an optimization. It must, however, prioritize the faulting address
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* over all the others.
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*/
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struct hmm_devmem {
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struct completion completion;
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unsigned long pfn_first;
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unsigned long pfn_last;
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struct resource *resource;
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struct device *device;
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struct dev_pagemap pagemap;
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const struct hmm_devmem_ops *ops;
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struct percpu_ref ref;
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};
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/*
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* To add (hotplug) device memory, HMM assumes that there is no real resource
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* that reserves a range in the physical address space (this is intended to be
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* use by unaddressable device memory). It will reserve a physical range big
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* enough and allocate struct page for it.
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*
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* The device driver can wrap the hmm_devmem struct inside a private device
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* driver struct.
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*/
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struct hmm_devmem *hmm_devmem_add(const struct hmm_devmem_ops *ops,
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struct device *device,
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unsigned long size);
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/*
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* hmm_devmem_page_set_drvdata - set per-page driver data field
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*
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110
mm/hmm.c
110
mm/hmm.c
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@ -1327,113 +1327,3 @@ long hmm_range_dma_unmap(struct hmm_range *range,
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}
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EXPORT_SYMBOL(hmm_range_dma_unmap);
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#endif /* IS_ENABLED(CONFIG_HMM_MIRROR) */
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#if IS_ENABLED(CONFIG_DEVICE_PRIVATE)
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static void hmm_devmem_ref_release(struct percpu_ref *ref)
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{
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struct hmm_devmem *devmem;
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devmem = container_of(ref, struct hmm_devmem, ref);
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complete(&devmem->completion);
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}
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static void hmm_devmem_ref_exit(struct dev_pagemap *pgmap)
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{
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struct hmm_devmem *devmem;
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devmem = container_of(pgmap, struct hmm_devmem, pagemap);
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wait_for_completion(&devmem->completion);
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percpu_ref_exit(pgmap->ref);
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}
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static void hmm_devmem_ref_kill(struct dev_pagemap *pgmap)
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{
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percpu_ref_kill(pgmap->ref);
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}
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static vm_fault_t hmm_devmem_migrate_to_ram(struct vm_fault *vmf)
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{
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struct hmm_devmem *devmem =
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container_of(vmf->page->pgmap, struct hmm_devmem, pagemap);
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return devmem->ops->fault(devmem, vmf->vma, vmf->address, vmf->page,
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vmf->flags, vmf->pmd);
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}
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static void hmm_devmem_free(struct page *page)
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{
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struct hmm_devmem *devmem =
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container_of(page->pgmap, struct hmm_devmem, pagemap);
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devmem->ops->free(devmem, page);
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}
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static const struct dev_pagemap_ops hmm_pagemap_ops = {
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.page_free = hmm_devmem_free,
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.kill = hmm_devmem_ref_kill,
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.cleanup = hmm_devmem_ref_exit,
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.migrate_to_ram = hmm_devmem_migrate_to_ram,
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};
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/*
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* hmm_devmem_add() - hotplug ZONE_DEVICE memory for device memory
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*
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* @ops: memory event device driver callback (see struct hmm_devmem_ops)
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* @device: device struct to bind the resource too
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* @size: size in bytes of the device memory to add
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* Returns: pointer to new hmm_devmem struct ERR_PTR otherwise
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*
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* This function first finds an empty range of physical address big enough to
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* contain the new resource, and then hotplugs it as ZONE_DEVICE memory, which
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* in turn allocates struct pages. It does not do anything beyond that; all
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* events affecting the memory will go through the various callbacks provided
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* by hmm_devmem_ops struct.
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*
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* Device driver should call this function during device initialization and
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* is then responsible of memory management. HMM only provides helpers.
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*/
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struct hmm_devmem *hmm_devmem_add(const struct hmm_devmem_ops *ops,
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struct device *device,
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unsigned long size)
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{
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struct hmm_devmem *devmem;
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void *result;
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int ret;
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devmem = devm_kzalloc(device, sizeof(*devmem), GFP_KERNEL);
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if (!devmem)
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return ERR_PTR(-ENOMEM);
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init_completion(&devmem->completion);
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devmem->pfn_first = -1UL;
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devmem->pfn_last = -1UL;
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devmem->resource = NULL;
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devmem->device = device;
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devmem->ops = ops;
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ret = percpu_ref_init(&devmem->ref, &hmm_devmem_ref_release,
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0, GFP_KERNEL);
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if (ret)
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return ERR_PTR(ret);
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devmem->resource = devm_request_free_mem_region(device, &iomem_resource,
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size);
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if (IS_ERR(devmem->resource))
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return ERR_CAST(devmem->resource);
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devmem->pfn_first = devmem->resource->start >> PAGE_SHIFT;
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devmem->pfn_last = devmem->pfn_first +
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(resource_size(devmem->resource) >> PAGE_SHIFT);
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devmem->pagemap.type = MEMORY_DEVICE_PRIVATE;
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devmem->pagemap.res = *devmem->resource;
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devmem->pagemap.ops = &hmm_pagemap_ops;
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devmem->pagemap.ref = &devmem->ref;
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result = devm_memremap_pages(devmem->device, &devmem->pagemap);
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if (IS_ERR(result))
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return result;
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return devmem;
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}
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EXPORT_SYMBOL_GPL(hmm_devmem_add);
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#endif /* CONFIG_DEVICE_PRIVATE */
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