libpagemap/include/pagemap/pagemap.h - nest-cam/4320010/libpagemap - Git at Google

 /*
  * Copyright (C) 2008 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #ifndef _PAGEMAP_PAGEMAP_H
 #define _PAGEMAP_PAGEMAP_H

 #include <stdint.h>
 #include <stdio.h>
 #include <sys/cdefs.h>
 #include <sys/types.h>
 #include <sys/queue.h>

 __BEGIN_DECLS

 typedef struct pm_proportional_swap pm_proportional_swap_t;

 typedef struct pm_swap_offset pm_swap_offset_t;

 struct pm_swap_offset {
     unsigned int offset;
     SIMPLEQ_ENTRY(pm_swap_offset) simpleqe;
 };

 typedef struct pm_memusage pm_memusage_t;

 /* Holds the various metrics for memory usage of a process or a mapping. */
 struct pm_memusage {
     size_t vss;
     size_t rss;
     size_t pss;
     size_t uss;
     size_t swap;
     /* if non NULL then use swap_offset_list to compute proportional swap */
     pm_proportional_swap_t *p_swap;
     SIMPLEQ_HEAD(simpleqhead, pm_swap_offset) swap_offset_list;
 };

 typedef struct pm_swapusage pm_swapusage_t;
 struct pm_swapusage {
     size_t proportional;
     size_t unique;
 };

 /* Clears a memusage. */
 void pm_memusage_zero(pm_memusage_t *mu);
 /* Adds one memusage (a) to another (b). */
 void pm_memusage_add(pm_memusage_t *a, pm_memusage_t *b);
 /* Adds a swap offset */
 void pm_memusage_pswap_add_offset(pm_memusage_t *mu, unsigned int offset);
 /* Enable proportional swap computing. */
 void pm_memusage_pswap_init_handle(pm_memusage_t *mu, pm_proportional_swap_t *p_swap);
 /* Computes and return the proportional swap */
 void pm_memusage_pswap_get_usage(pm_memusage_t *mu, pm_swapusage_t *su);
 void pm_memusage_pswap_free(pm_memusage_t *mu);
 /* Initialize a proportional swap computing handle:
    assumes only 1 swap device, total swap size of this device in bytes to be given as argument */
 pm_proportional_swap_t * pm_memusage_pswap_create(int swap_size);
 void pm_memusage_pswap_destroy(pm_proportional_swap_t *p_swap);

 typedef struct pm_kernel   pm_kernel_t;
 typedef struct pm_process  pm_process_t;
 typedef struct pm_map      pm_map_t;

 /* pm_kernel_t holds the state necessary to interface to the kernel's pagemap
  * system on a global level. */
 struct pm_kernel {
     int kpagecount_fd;
     int kpageflags_fd;

     int pagesize;
 };

 /* pm_process_t holds the state necessary to interface to a particular process'
  * pagemap. */
 struct pm_process {
     pm_kernel_t *ker;

     pid_t pid;

     pm_map_t **maps;
     int num_maps;

     int pagemap_fd;
 };

 /* pm_map_t holds the state necessary to access information about a particular
  * mapping in a particular process. */
 struct pm_map {
     pm_process_t *proc;

     uint64_t start;
     uint64_t end;
     uint64_t offset;
     int flags;

     char *name;
 };

 /* Create a pm_kernel_t. */
 int pm_kernel_create(pm_kernel_t **ker_out);

 #define pm_kernel_pagesize(ker) ((ker)->pagesize)

 /* Get a list of probably-existing PIDs (returned through *pids_out).
  * Length of the array (in sizeof(pid_t) units) is returned through *len.
  * The array should be freed by the caller. */
 int pm_kernel_pids(pm_kernel_t *ker, pid_t **pids_out, size_t *len);

 /* Get the map count (from /proc/kpagecount) of a physical frame.
  * The count is returned through *count_out. */
 int pm_kernel_count(pm_kernel_t *ker, uint64_t pfn, uint64_t *count_out);

 /* Get the page flags (from /proc/kpageflags) of a physical frame.
  * The count is returned through *flags_out. */
 int pm_kernel_flags(pm_kernel_t *ker, uint64_t pfn, uint64_t *flags_out);

 #define PM_PAGE_LOCKED     (1 <<  0)
 #define PM_PAGE_ERROR      (1 <<  1)
 #define PM_PAGE_REFERENCED (1 <<  2)
 #define PM_PAGE_UPTODATE   (1 <<  3)
 #define PM_PAGE_DIRTY      (1 <<  4)
 #define PM_PAGE_LRU        (1 <<  5)
 #define PM_PAGE_ACTIVE     (1 <<  6)
 #define PM_PAGE_SLAB       (1 <<  7)
 #define PM_PAGE_WRITEBACK  (1 <<  8)
 #define PM_PAGE_RECLAIM    (1 <<  9)
 #define PM_PAGE_BUDDY      (1 << 10)

 /* for kernels >= 2.6.31 */
 #define PM_PAGE_MMAP          (1 << 11)
 #define PM_PAGE_ANON          (1 << 12)
 #define PM_PAGE_SWAPCACHE     (1 << 13)
 #define PM_PAGE_SWAPBACKED    (1 << 14)
 #define PM_PAGE_COMPOUND_HEAD (1 << 15)
 #define PM_PAGE_COMPOUND_TAIL (1 << 16)
 #define PM_PAGE_HUGE          (1 << 17)
 #define PM_PAGE_UNEVICTABLE   (1 << 18)
 #define PM_PAGE_HWPOISON      (1 << 19)
 #define PM_PAGE_NOPAGE        (1 << 20)

 /* for kernels >= 2.6.32 */
 #define PM_PAGE_KSM           (1 << 21)

 /* for kernels >= 3.4 */
 #define PM_PAGE_THP           (1 << 22)

 /* Destroy a pm_kernel_t. */
 int pm_kernel_destroy(pm_kernel_t *ker);

 /* Get the PID of a pm_process_t. */
 #define pm_process_pid(proc) ((proc)->pid)

 /* Create a pm_process_t and returns it through *proc_out.
  * Takes a pm_kernel_t, and the PID of the process. */
 int pm_process_create(pm_kernel_t *ker, pid_t pid, pm_process_t **proc_out);

 /* Get the total memory usage of a process and store in *usage_out. */
 int pm_process_usage(pm_process_t *proc, pm_memusage_t *usage_out);

 /* Get the total memory usage of a process and store in *usage_out, only
  * counting pages with specified flags. */
 int pm_process_usage_flags(pm_process_t *proc, pm_memusage_t *usage_out,
                         uint64_t flags_mask, uint64_t required_flags);

 /* Get the working set of a process (if ws_out != NULL), and reset it
  * (if reset != 0). */
 int pm_process_workingset(pm_process_t *proc, pm_memusage_t *ws_out, int reset);

 /* Get the PFNs corresponding to a range of virtual addresses.
  * The array of PFNs is returned through *range_out, and the caller has the
  * responsibility to free it. */
 int pm_process_pagemap_range(pm_process_t *proc,
                              uint64_t low, uint64_t hi,
                              uint64_t **range_out, size_t *len);

 #define _BITS(x, offset, bits) (((x) >> (offset)) & ((1LL << (bits)) - 1))

 #define PM_PAGEMAP_PRESENT(x)     (_BITS(x, 63, 1))
 #define PM_PAGEMAP_SWAPPED(x)     (_BITS(x, 62, 1))
 #define PM_PAGEMAP_SHIFT(x)       (_BITS(x, 55, 6))
 #define PM_PAGEMAP_PFN(x)         (_BITS(x, 0, 55))
 #define PM_PAGEMAP_SWAP_OFFSET(x) (_BITS(x, 5, 50))
 #define PM_PAGEMAP_SWAP_TYPE(x)   (_BITS(x, 0,  5))

 /* Get the maps in the virtual address space of this process.
  * Returns an array of pointers to pm_map_t through *maps.
  * The array should be freed by the caller, but the maps should not be
  * modified or destroyed. */
 int pm_process_maps(pm_process_t *proc, pm_map_t ***maps_out, size_t *len);

 /* Destroy a pm_process_t. */
 int pm_process_destroy(pm_process_t *proc);

 /* Get the name, flags, start/end address, or offset of a map. */
 #define pm_map_name(map)   ((map)->name)
 #define pm_map_flags(map)  ((map)->flags)
 #define PM_MAP_READ  1
 #define PM_MAP_WRITE 2
 #define PM_MAP_EXEC  4
 #define PM_MAP_PERMISSIONS (PM_MAP_READ | PM_MAP_WRITE | PM_MAP_EXEC)
 #define pm_map_start(map)  ((map)->start)
 #define pm_map_end(map)    ((map)->end)
 #define pm_map_offset(map) ((map)->offset)

 /* Get the PFNs of the pages in the virtual address space of this map.
  * Array of PFNs is returned through *pagemap_out, and should be freed by the
  * caller. */
 int pm_map_pagemap(pm_map_t *map, uint64_t **pagemap_out, size_t *len);

 /* Get the memory usage of this map alone. */
 int pm_map_usage(pm_map_t *map, pm_memusage_t *usage_out);

 /* Get the memory usage of this map alone, only counting pages with specified
  * flags. */
 int pm_map_usage_flags(pm_map_t *map, pm_memusage_t *usage_out,
                         uint64_t flags_mask, uint64_t required_flags);

 /* Get the working set of this map alone. */
 int pm_map_workingset(pm_map_t *map, pm_memusage_t *ws_out);

 __END_DECLS

 #endif
	/*
	* Copyright (C) 2008 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#ifndef _PAGEMAP_PAGEMAP_H
	#define _PAGEMAP_PAGEMAP_H

	#include <stdint.h>
	#include <stdio.h>
	#include <sys/cdefs.h>
	#include <sys/types.h>
	#include <sys/queue.h>

	__BEGIN_DECLS

	typedef struct pm_proportional_swap pm_proportional_swap_t;

	typedef struct pm_swap_offset pm_swap_offset_t;

	struct pm_swap_offset {
	unsigned int offset;
	SIMPLEQ_ENTRY(pm_swap_offset) simpleqe;
	};

	typedef struct pm_memusage pm_memusage_t;

	/* Holds the various metrics for memory usage of a process or a mapping. */
	struct pm_memusage {
	size_t vss;
	size_t rss;
	size_t pss;
	size_t uss;
	size_t swap;
	/* if non NULL then use swap_offset_list to compute proportional swap */
	pm_proportional_swap_t *p_swap;
	SIMPLEQ_HEAD(simpleqhead, pm_swap_offset) swap_offset_list;
	};

	typedef struct pm_swapusage pm_swapusage_t;
	struct pm_swapusage {
	size_t proportional;
	size_t unique;
	};

	/* Clears a memusage. */
	void pm_memusage_zero(pm_memusage_t *mu);
	/* Adds one memusage (a) to another (b). */
	void pm_memusage_add(pm_memusage_t a, pm_memusage_t b);
	/* Adds a swap offset */
	void pm_memusage_pswap_add_offset(pm_memusage_t *mu, unsigned int offset);
	/* Enable proportional swap computing. */
	void pm_memusage_pswap_init_handle(pm_memusage_t mu, pm_proportional_swap_t p_swap);
	/* Computes and return the proportional swap */
	void pm_memusage_pswap_get_usage(pm_memusage_t mu, pm_swapusage_t su);
	void pm_memusage_pswap_free(pm_memusage_t *mu);
	/* Initialize a proportional swap computing handle:
	assumes only 1 swap device, total swap size of this device in bytes to be given as argument */
	pm_proportional_swap_t * pm_memusage_pswap_create(int swap_size);
	void pm_memusage_pswap_destroy(pm_proportional_swap_t *p_swap);

	typedef struct pm_kernel pm_kernel_t;
	typedef struct pm_process pm_process_t;
	typedef struct pm_map pm_map_t;

	/* pm_kernel_t holds the state necessary to interface to the kernel's pagemap
	* system on a global level. */
	struct pm_kernel {
	int kpagecount_fd;
	int kpageflags_fd;

	int pagesize;
	};

	/* pm_process_t holds the state necessary to interface to a particular process'
	* pagemap. */
	struct pm_process {
	pm_kernel_t *ker;

	pid_t pid;

	pm_map_t **maps;
	int num_maps;

	int pagemap_fd;
	};

	/* pm_map_t holds the state necessary to access information about a particular
	* mapping in a particular process. */
	struct pm_map {
	pm_process_t *proc;

	uint64_t start;
	uint64_t end;
	uint64_t offset;
	int flags;

	char *name;
	};

	/* Create a pm_kernel_t. */
	int pm_kernel_create(pm_kernel_t **ker_out);

	#define pm_kernel_pagesize(ker) ((ker)->pagesize)

	/* Get a list of probably-existing PIDs (returned through *pids_out).
	* Length of the array (in sizeof(pid_t) units) is returned through *len.
	* The array should be freed by the caller. */
	int pm_kernel_pids(pm_kernel_t ker, pid_t pids_out, size_t len);

	/* Get the map count (from /proc/kpagecount) of a physical frame.
	* The count is returned through count_out. /
	int pm_kernel_count(pm_kernel_t ker, uint64_t pfn, uint64_t count_out);

	/* Get the page flags (from /proc/kpageflags) of a physical frame.
	* The count is returned through flags_out. /
	int pm_kernel_flags(pm_kernel_t ker, uint64_t pfn, uint64_t flags_out);

	#define PM_PAGE_LOCKED (1 << 0)
	#define PM_PAGE_ERROR (1 << 1)
	#define PM_PAGE_REFERENCED (1 << 2)
	#define PM_PAGE_UPTODATE (1 << 3)
	#define PM_PAGE_DIRTY (1 << 4)
	#define PM_PAGE_LRU (1 << 5)
	#define PM_PAGE_ACTIVE (1 << 6)
	#define PM_PAGE_SLAB (1 << 7)
	#define PM_PAGE_WRITEBACK (1 << 8)
	#define PM_PAGE_RECLAIM (1 << 9)
	#define PM_PAGE_BUDDY (1 << 10)

	/* for kernels >= 2.6.31 */
	#define PM_PAGE_MMAP (1 << 11)
	#define PM_PAGE_ANON (1 << 12)
	#define PM_PAGE_SWAPCACHE (1 << 13)
	#define PM_PAGE_SWAPBACKED (1 << 14)
	#define PM_PAGE_COMPOUND_HEAD (1 << 15)
	#define PM_PAGE_COMPOUND_TAIL (1 << 16)
	#define PM_PAGE_HUGE (1 << 17)
	#define PM_PAGE_UNEVICTABLE (1 << 18)
	#define PM_PAGE_HWPOISON (1 << 19)
	#define PM_PAGE_NOPAGE (1 << 20)

	/* for kernels >= 2.6.32 */
	#define PM_PAGE_KSM (1 << 21)

	/* for kernels >= 3.4 */
	#define PM_PAGE_THP (1 << 22)

	/* Destroy a pm_kernel_t. */
	int pm_kernel_destroy(pm_kernel_t *ker);

	/* Get the PID of a pm_process_t. */
	#define pm_process_pid(proc) ((proc)->pid)

	/* Create a pm_process_t and returns it through *proc_out.
	* Takes a pm_kernel_t, and the PID of the process. */
	int pm_process_create(pm_kernel_t ker, pid_t pid, pm_process_t *proc_out);

	/* Get the total memory usage of a process and store in usage_out. /
	int pm_process_usage(pm_process_t proc, pm_memusage_t usage_out);

	/* Get the total memory usage of a process and store in *usage_out, only
	* counting pages with specified flags. */
	int pm_process_usage_flags(pm_process_t proc, pm_memusage_t usage_out,
	uint64_t flags_mask, uint64_t required_flags);

	/* Get the working set of a process (if ws_out != NULL), and reset it
	* (if reset != 0). */
	int pm_process_workingset(pm_process_t proc, pm_memusage_t ws_out, int reset);

	/* Get the PFNs corresponding to a range of virtual addresses.
	* The array of PFNs is returned through *range_out, and the caller has the
	* responsibility to free it. */
	int pm_process_pagemap_range(pm_process_t *proc,
	uint64_t low, uint64_t hi,
	uint64_t *range_out, size_t len);

	#define _BITS(x, offset, bits) (((x) >> (offset)) & ((1LL << (bits)) - 1))

	#define PM_PAGEMAP_PRESENT(x) (_BITS(x, 63, 1))
	#define PM_PAGEMAP_SWAPPED(x) (_BITS(x, 62, 1))
	#define PM_PAGEMAP_SHIFT(x) (_BITS(x, 55, 6))
	#define PM_PAGEMAP_PFN(x) (_BITS(x, 0, 55))
	#define PM_PAGEMAP_SWAP_OFFSET(x) (_BITS(x, 5, 50))
	#define PM_PAGEMAP_SWAP_TYPE(x) (_BITS(x, 0, 5))

	/* Get the maps in the virtual address space of this process.
	* Returns an array of pointers to pm_map_t through *maps.
	* The array should be freed by the caller, but the maps should not be
	* modified or destroyed. */
	int pm_process_maps(pm_process_t proc, pm_map_t *maps_out, size_t len);

	/* Destroy a pm_process_t. */
	int pm_process_destroy(pm_process_t *proc);

	/* Get the name, flags, start/end address, or offset of a map. */
	#define pm_map_name(map) ((map)->name)
	#define pm_map_flags(map) ((map)->flags)
	#define PM_MAP_READ 1
	#define PM_MAP_WRITE 2
	#define PM_MAP_EXEC 4
	#define PM_MAP_PERMISSIONS (PM_MAP_READ \| PM_MAP_WRITE \| PM_MAP_EXEC)
	#define pm_map_start(map) ((map)->start)
	#define pm_map_end(map) ((map)->end)
	#define pm_map_offset(map) ((map)->offset)

	/* Get the PFNs of the pages in the virtual address space of this map.
	* Array of PFNs is returned through *pagemap_out, and should be freed by the
	* caller. */
	int pm_map_pagemap(pm_map_t map, uint64_t pagemap_out, size_t len);

	/* Get the memory usage of this map alone. */
	int pm_map_usage(pm_map_t map, pm_memusage_t usage_out);

	/* Get the memory usage of this map alone, only counting pages with specified
	* flags. */
	int pm_map_usage_flags(pm_map_t map, pm_memusage_t usage_out,
	uint64_t flags_mask, uint64_t required_flags);

	/* Get the working set of this map alone. */
	int pm_map_workingset(pm_map_t map, pm_memusage_t ws_out);

	__END_DECLS

	#endif