211 lines
7.0 KiB
C
211 lines
7.0 KiB
C
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#ifndef _LINUX_MEMREMAP_H_
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#define _LINUX_MEMREMAP_H_
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#include <linux/mm.h>
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#include <linux/ioport.h>
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#include <linux/percpu-refcount.h>
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#include <asm/pgtable.h>
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struct resource;
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struct device;
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/**
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* struct vmem_altmap - pre-allocated storage for vmemmap_populate
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* @base_pfn: base of the entire dev_pagemap mapping
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* @reserve: pages mapped, but reserved for driver use (relative to @base)
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* @free: free pages set aside in the mapping for memmap storage
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* @align: pages reserved to meet allocation alignments
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* @alloc: track pages consumed, private to vmemmap_populate()
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*/
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struct vmem_altmap {
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const unsigned long base_pfn;
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const unsigned long reserve;
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unsigned long free;
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unsigned long align;
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unsigned long alloc;
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};
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unsigned long vmem_altmap_offset(struct vmem_altmap *altmap);
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void vmem_altmap_free(struct vmem_altmap *altmap, unsigned long nr_pfns);
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#ifdef CONFIG_ZONE_DEVICE
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struct vmem_altmap *to_vmem_altmap(unsigned long memmap_start);
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#else
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static inline struct vmem_altmap *to_vmem_altmap(unsigned long memmap_start)
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{
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return NULL;
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}
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#endif
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/*
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* Specialize ZONE_DEVICE memory into multiple types each having differents
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* usage.
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*
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* MEMORY_DEVICE_HOST:
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* Persistent device memory (pmem): struct page might be allocated in different
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* memory and architecture might want to perform special actions. It is similar
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* to regular memory, in that the CPU can access it transparently. However,
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* it is likely to have different bandwidth and latency than regular memory.
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* See Documentation/nvdimm/nvdimm.txt for more information.
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*
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* MEMORY_DEVICE_PRIVATE:
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* Device memory that is not directly addressable by the CPU: CPU can neither
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* read nor write private memory. In this case, we do still have struct pages
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* backing the device memory. Doing so simplifies the implementation, but it is
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* important to remember that there are certain points at which the struct page
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* must be treated as an opaque object, rather than a "normal" struct page.
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*
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* A more complete discussion of unaddressable memory may be found in
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* include/linux/hmm.h and Documentation/vm/hmm.txt.
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*
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* MEMORY_DEVICE_PUBLIC:
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* Device memory that is cache coherent from device and CPU point of view. This
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* is use on platform that have an advance system bus (like CAPI or CCIX). A
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* driver can hotplug the device memory using ZONE_DEVICE and with that memory
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* type. Any page of a process can be migrated to such memory. However no one
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* should be allow to pin such memory so that it can always be evicted.
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*/
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enum memory_type {
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MEMORY_DEVICE_HOST = 0,
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MEMORY_DEVICE_PRIVATE,
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MEMORY_DEVICE_PUBLIC,
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};
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/*
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* For MEMORY_DEVICE_PRIVATE we use ZONE_DEVICE and extend it with two
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* callbacks:
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* page_fault()
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* page_free()
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*
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* Additional notes about MEMORY_DEVICE_PRIVATE may be found in
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* include/linux/hmm.h and Documentation/vm/hmm.txt. There is also a brief
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* explanation in include/linux/memory_hotplug.h.
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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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*
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* The page_free() callback is called once the page refcount reaches 1
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* (ZONE_DEVICE pages never reach 0 refcount unless there is a refcount bug.
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* This allows the device driver to implement its own memory management.)
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*
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* For MEMORY_DEVICE_PUBLIC only the page_free() callback matter.
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*/
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typedef int (*dev_page_fault_t)(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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typedef void (*dev_page_free_t)(struct page *page, void *data);
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/**
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* struct dev_pagemap - metadata for ZONE_DEVICE mappings
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* @page_fault: callback when CPU fault on an unaddressable device page
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* @page_free: free page callback when page refcount reaches 1
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* @altmap: pre-allocated/reserved memory for vmemmap allocations
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* @res: physical address range covered by @ref
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* @ref: reference count that pins the devm_memremap_pages() mapping
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* @dev: host device of the mapping for debug
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* @data: private data pointer for page_free()
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* @type: memory type: see MEMORY_* in memory_hotplug.h
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*/
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struct dev_pagemap {
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dev_page_fault_t page_fault;
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dev_page_free_t page_free;
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struct vmem_altmap *altmap;
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const struct resource *res;
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struct percpu_ref *ref;
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struct device *dev;
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void *data;
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enum memory_type type;
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};
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#ifdef CONFIG_ZONE_DEVICE
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void *devm_memremap_pages(struct device *dev, struct resource *res,
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struct percpu_ref *ref, struct vmem_altmap *altmap);
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struct dev_pagemap *find_dev_pagemap(resource_size_t phys);
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static inline bool is_zone_device_page(const struct page *page);
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static inline bool is_device_private_page(const struct page *page)
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{
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return is_zone_device_page(page) &&
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page->pgmap->type == MEMORY_DEVICE_PRIVATE;
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}
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static inline bool is_device_public_page(const struct page *page)
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{
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return is_zone_device_page(page) &&
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page->pgmap->type == MEMORY_DEVICE_PUBLIC;
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}
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#else
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static inline void *devm_memremap_pages(struct device *dev,
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struct resource *res, struct percpu_ref *ref,
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struct vmem_altmap *altmap)
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{
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/*
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* Fail attempts to call devm_memremap_pages() without
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* ZONE_DEVICE support enabled, this requires callers to fall
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* back to plain devm_memremap() based on config
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*/
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WARN_ON_ONCE(1);
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return ERR_PTR(-ENXIO);
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}
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static inline struct dev_pagemap *find_dev_pagemap(resource_size_t phys)
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{
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return NULL;
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}
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#endif
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/**
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* get_dev_pagemap() - take a new live reference on the dev_pagemap for @pfn
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* @pfn: page frame number to lookup page_map
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* @pgmap: optional known pgmap that already has a reference
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*
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* @pgmap allows the overhead of a lookup to be bypassed when @pfn lands in the
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* same mapping.
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*/
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static inline struct dev_pagemap *get_dev_pagemap(unsigned long pfn,
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struct dev_pagemap *pgmap)
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{
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const struct resource *res = pgmap ? pgmap->res : NULL;
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resource_size_t phys = PFN_PHYS(pfn);
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/*
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* In the cached case we're already holding a live reference so
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* we can simply do a blind increment
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*/
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if (res && phys >= res->start && phys <= res->end) {
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percpu_ref_get(pgmap->ref);
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return pgmap;
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}
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/* fall back to slow path lookup */
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rcu_read_lock();
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pgmap = find_dev_pagemap(phys);
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if (pgmap && !percpu_ref_tryget_live(pgmap->ref))
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pgmap = NULL;
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rcu_read_unlock();
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return pgmap;
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}
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static inline void put_dev_pagemap(struct dev_pagemap *pgmap)
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{
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if (pgmap)
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percpu_ref_put(pgmap->ref);
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}
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#endif /* _LINUX_MEMREMAP_H_ */
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