procps/proc/vmstat.c

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library: vmstat redesign now using 'stack' vs. 'chain' In addition to that text shown below the line which is common to several commit messages, this patch contains several minor changes with lessor impact upon the API: . Standard copyright boilerplate was added in .c file. . The #include header files are ordered alphabetically now, with all those <sys/??> types separately grouped. . The header file follows the conventions of indenting (by 4 spaces) those parameters too lengthy for 1 line. ------------------------------------------------------ . The former 'chains' have now become 'stacks' without the 'next' pointer in each result struct. The pointers initially seemed to offer some flexibility with memory allocations and benefits for the library access logic. However, user access was always via displacement and a a statically allocated chain was cumbersome to define. . An enumerator ending in '_noop' will no longer serve as a fencepost delimiter. Rather, it has become a much more important and flexible user oriented tool. Adding one or more such 'items' in any items list passed into the library becomes the means of extending the 'stack' to also include user (not just library) data. Any such data is guaranteed to never be altered by the library. . Anticipating PID support, where many different types must be represented in a result structure, we'll adopt a common naming standard. And, while not every results structure currently needs to reflect disparate types a union will be employed so the same dot qualifier ('.') can be used consistently when accessing all such data. Signed-off-by: Jim Warner <james.warner@comcast.net>
2015-07-21 10:30:00 +05:30
/*
* libprocps - Library to read proc filesystem
*
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
* Copyright (C) 1995 Martin Schulze <joey@infodrom.north.de>
* Copyright (C) 1996 Charles Blake <cblake@bbn.com>
* Copyright (C) 2003 Albert Cahalan
* Copyright (C) 2015 Craig Small <csmall@enc.com.au>
* Copyright (C) 2016 Jim Warner <james.warner@comcast.net>
*
library: vmstat redesign now using 'stack' vs. 'chain' In addition to that text shown below the line which is common to several commit messages, this patch contains several minor changes with lessor impact upon the API: . Standard copyright boilerplate was added in .c file. . The #include header files are ordered alphabetically now, with all those <sys/??> types separately grouped. . The header file follows the conventions of indenting (by 4 spaces) those parameters too lengthy for 1 line. ------------------------------------------------------ . The former 'chains' have now become 'stacks' without the 'next' pointer in each result struct. The pointers initially seemed to offer some flexibility with memory allocations and benefits for the library access logic. However, user access was always via displacement and a a statically allocated chain was cumbersome to define. . An enumerator ending in '_noop' will no longer serve as a fencepost delimiter. Rather, it has become a much more important and flexible user oriented tool. Adding one or more such 'items' in any items list passed into the library becomes the means of extending the 'stack' to also include user (not just library) data. Any such data is guaranteed to never be altered by the library. . Anticipating PID support, where many different types must be represented in a result structure, we'll adopt a common naming standard. And, while not every results structure currently needs to reflect disparate types a union will be employed so the same dot qualifier ('.') can be used consistently when accessing all such data. Signed-off-by: Jim Warner <james.warner@comcast.net>
2015-07-21 10:30:00 +05:30
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include <errno.h>
library: vmstat redesign now using 'stack' vs. 'chain' In addition to that text shown below the line which is common to several commit messages, this patch contains several minor changes with lessor impact upon the API: . Standard copyright boilerplate was added in .c file. . The #include header files are ordered alphabetically now, with all those <sys/??> types separately grouped. . The header file follows the conventions of indenting (by 4 spaces) those parameters too lengthy for 1 line. ------------------------------------------------------ . The former 'chains' have now become 'stacks' without the 'next' pointer in each result struct. The pointers initially seemed to offer some flexibility with memory allocations and benefits for the library access logic. However, user access was always via displacement and a a statically allocated chain was cumbersome to define. . An enumerator ending in '_noop' will no longer serve as a fencepost delimiter. Rather, it has become a much more important and flexible user oriented tool. Adding one or more such 'items' in any items list passed into the library becomes the means of extending the 'stack' to also include user (not just library) data. Any such data is guaranteed to never be altered by the library. . Anticipating PID support, where many different types must be represented in a result structure, we'll adopt a common naming standard. And, while not every results structure currently needs to reflect disparate types a union will be employed so the same dot qualifier ('.') can be used consistently when accessing all such data. Signed-off-by: Jim Warner <james.warner@comcast.net>
2015-07-21 10:30:00 +05:30
#include <fcntl.h>
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
#include <search.h>
#include <stdlib.h>
#include <string.h>
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
#include <time.h>
#include <unistd.h>
library: vmstat redesign now using 'stack' vs. 'chain' In addition to that text shown below the line which is common to several commit messages, this patch contains several minor changes with lessor impact upon the API: . Standard copyright boilerplate was added in .c file. . The #include header files are ordered alphabetically now, with all those <sys/??> types separately grouped. . The header file follows the conventions of indenting (by 4 spaces) those parameters too lengthy for 1 line. ------------------------------------------------------ . The former 'chains' have now become 'stacks' without the 'next' pointer in each result struct. The pointers initially seemed to offer some flexibility with memory allocations and benefits for the library access logic. However, user access was always via displacement and a a statically allocated chain was cumbersome to define. . An enumerator ending in '_noop' will no longer serve as a fencepost delimiter. Rather, it has become a much more important and flexible user oriented tool. Adding one or more such 'items' in any items list passed into the library becomes the means of extending the 'stack' to also include user (not just library) data. Any such data is guaranteed to never be altered by the library. . Anticipating PID support, where many different types must be represented in a result structure, we'll adopt a common naming standard. And, while not every results structure currently needs to reflect disparate types a union will be employed so the same dot qualifier ('.') can be used consistently when accessing all such data. Signed-off-by: Jim Warner <james.warner@comcast.net>
2015-07-21 10:30:00 +05:30
#include <sys/stat.h>
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
#include <sys/types.h>
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
#include <proc/procps-private.h>
#include <proc/vmstat.h>
#define VMSTAT_FILE "/proc/vmstat"
struct vmstat_data {
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
unsigned long allocstall;
unsigned long balloon_deflate;
unsigned long balloon_inflate;
unsigned long balloon_migrate;
unsigned long compact_fail;
unsigned long compact_free_scanned;
unsigned long compact_isolated;
unsigned long compact_migrate_scanned;
unsigned long compact_stall;
unsigned long compact_success;
unsigned long drop_pagecache;
unsigned long drop_slab;
unsigned long htlb_buddy_alloc_fail;
unsigned long htlb_buddy_alloc_success;
unsigned long kswapd_high_wmark_hit_quickly;
unsigned long kswapd_inodesteal;
unsigned long kswapd_low_wmark_hit_quickly;
unsigned long nr_active_anon;
unsigned long nr_active_file;
unsigned long nr_alloc_batch;
unsigned long nr_anon_pages;
unsigned long nr_anon_transparent_hugepages;
unsigned long nr_bounce;
unsigned long nr_dirtied;
unsigned long nr_dirty;
unsigned long nr_dirty_background_threshold;
unsigned long nr_dirty_threshold;
unsigned long nr_file_pages;
unsigned long nr_free_cma;
unsigned long nr_free_pages;
unsigned long nr_inactive_anon;
unsigned long nr_inactive_file;
unsigned long nr_isolated_anon;
unsigned long nr_isolated_file;
unsigned long nr_kernel_stack;
unsigned long nr_mapped;
unsigned long nr_mlock;
unsigned long nr_pages_scanned; // note: alphabetic WHEN capitalized (as w/ enum)
unsigned long nr_page_table_pages; // note: alphabetic WHEN capitalized (as w/ enum)
unsigned long nr_shmem;
unsigned long nr_slab_reclaimable;
unsigned long nr_slab_unreclaimable;
unsigned long nr_unevictable;
unsigned long nr_unstable;
unsigned long nr_vmscan_immediate_reclaim;
unsigned long nr_vmscan_write;
unsigned long nr_writeback;
unsigned long nr_writeback_temp;
unsigned long nr_written;
unsigned long numa_foreign;
unsigned long numa_hint_faults;
unsigned long numa_hint_faults_local;
unsigned long numa_hit;
unsigned long numa_huge_pte_updates;
unsigned long numa_interleave;
unsigned long numa_local;
unsigned long numa_miss;
unsigned long numa_other;
unsigned long numa_pages_migrated;
unsigned long numa_pte_updates;
unsigned long pageoutrun;
unsigned long pgactivate;
unsigned long pgalloc_dma;
unsigned long pgalloc_dma32;
unsigned long pgalloc_movable;
unsigned long pgalloc_normal;
unsigned long pgdeactivate;
unsigned long pgfault;
unsigned long pgfree;
unsigned long pginodesteal;
unsigned long pgmajfault;
unsigned long pgmigrate_fail;
unsigned long pgmigrate_success;
unsigned long pgpgin;
unsigned long pgpgout;
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
unsigned long pgrefill_dma;
unsigned long pgrefill_dma32;
unsigned long pgrefill_movable;
unsigned long pgrefill_normal;
unsigned long pgrotated;
unsigned long pgscan_direct_dma;
unsigned long pgscan_direct_dma32;
unsigned long pgscan_direct_movable;
unsigned long pgscan_direct_normal;
unsigned long pgscan_direct_throttle;
unsigned long pgscan_kswapd_dma;
unsigned long pgscan_kswapd_dma32;
unsigned long pgscan_kswapd_movable;
unsigned long pgscan_kswapd_normal;
unsigned long pgsteal_direct_dma;
unsigned long pgsteal_direct_dma32;
unsigned long pgsteal_direct_movable;
unsigned long pgsteal_direct_normal;
unsigned long pgsteal_kswapd_dma;
unsigned long pgsteal_kswapd_dma32;
unsigned long pgsteal_kswapd_movable;
unsigned long pgsteal_kswapd_normal;
unsigned long pswpin;
unsigned long pswpout;
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
unsigned long slabs_scanned;
unsigned long thp_collapse_alloc;
unsigned long thp_collapse_alloc_failed;
unsigned long thp_fault_alloc;
unsigned long thp_fault_fallback;
unsigned long thp_split;
unsigned long thp_zero_page_alloc;
unsigned long thp_zero_page_alloc_failed;
unsigned long unevictable_pgs_cleared;
unsigned long unevictable_pgs_culled;
unsigned long unevictable_pgs_mlocked;
unsigned long unevictable_pgs_munlocked;
unsigned long unevictable_pgs_rescued;
unsigned long unevictable_pgs_scanned;
unsigned long unevictable_pgs_stranded;
unsigned long workingset_activate;
unsigned long workingset_nodereclaim;
unsigned long workingset_refault;
unsigned long zone_reclaim_failed;
};
struct vmstat_hist {
struct vmstat_data new;
struct vmstat_data old;
};
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
struct stacks_extent {
int ext_numstacks;
struct stacks_extent *next;
struct vmstat_stack **stacks;
};
struct procps_vmstat {
int refcount;
int vmstat_fd;
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
int vmstat_was_read;
int dirty_stacks;
struct vmstat_hist hist;
int numitems;
enum vmstat_item *items;
struct stacks_extent *extents;
struct hsearch_data hashtab;
};
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
// ___ Results 'Set' Support ||||||||||||||||||||||||||||||||||||||||||||||||||
#define setNAME(e) set_results_ ## e
#define setDECL(e) static void setNAME(e) \
(struct vmstat_result *R, struct vmstat_hist *H)
// regular assignment
#define REG_set(e,x) setDECL(e) { R->result.ul_int = H->new . x; }
// delta assignment
#define HST_set(e,x) setDECL(e) { R->result.sl_int = ( H->new . x - H->old. x ); }
setDECL(noop) { (void)R; (void)H; }
setDECL(extra) { (void)R; (void)H; }
REG_set(ALLOCSTALL, allocstall)
REG_set(BALLOON_DEFLATE, balloon_deflate)
REG_set(BALLOON_INFLATE, balloon_inflate)
REG_set(BALLOON_MIGRATE, balloon_migrate)
REG_set(COMPACT_FAIL, compact_fail)
REG_set(COMPACT_FREE_SCANNED, compact_free_scanned)
REG_set(COMPACT_ISOLATED, compact_isolated)
REG_set(COMPACT_MIGRATE_SCANNED, compact_migrate_scanned)
REG_set(COMPACT_STALL, compact_stall)
REG_set(COMPACT_SUCCESS, compact_success)
REG_set(DROP_PAGECACHE, drop_pagecache)
REG_set(DROP_SLAB, drop_slab)
REG_set(HTLB_BUDDY_ALLOC_FAIL, htlb_buddy_alloc_fail)
REG_set(HTLB_BUDDY_ALLOC_SUCCESS, htlb_buddy_alloc_success)
REG_set(KSWAPD_HIGH_WMARK_HIT_QUICKLY, kswapd_high_wmark_hit_quickly)
REG_set(KSWAPD_INODESTEAL, kswapd_inodesteal)
REG_set(KSWAPD_LOW_WMARK_HIT_QUICKLY, kswapd_low_wmark_hit_quickly)
REG_set(NR_ACTIVE_ANON, nr_active_anon)
REG_set(NR_ACTIVE_FILE, nr_active_file)
REG_set(NR_ALLOC_BATCH, nr_alloc_batch)
REG_set(NR_ANON_PAGES, nr_anon_pages)
REG_set(NR_ANON_TRANSPARENT_HUGEPAGES, nr_anon_transparent_hugepages)
REG_set(NR_BOUNCE, nr_bounce)
REG_set(NR_DIRTIED, nr_dirtied)
REG_set(NR_DIRTY, nr_dirty)
REG_set(NR_DIRTY_BACKGROUND_THRESHOLD, nr_dirty_background_threshold)
REG_set(NR_DIRTY_THRESHOLD, nr_dirty_threshold)
REG_set(NR_FILE_PAGES, nr_file_pages)
REG_set(NR_FREE_CMA, nr_free_cma)
REG_set(NR_FREE_PAGES, nr_free_pages)
REG_set(NR_INACTIVE_ANON, nr_inactive_anon)
REG_set(NR_INACTIVE_FILE, nr_inactive_file)
REG_set(NR_ISOLATED_ANON, nr_isolated_anon)
REG_set(NR_ISOLATED_FILE, nr_isolated_file)
REG_set(NR_KERNEL_STACK, nr_kernel_stack)
REG_set(NR_MAPPED, nr_mapped)
REG_set(NR_MLOCK, nr_mlock)
REG_set(NR_PAGES_SCANNED, nr_pages_scanned)
REG_set(NR_PAGE_TABLE_PAGES, nr_page_table_pages)
REG_set(NR_SHMEM, nr_shmem)
REG_set(NR_SLAB_RECLAIMABLE, nr_slab_reclaimable)
REG_set(NR_SLAB_UNRECLAIMABLE, nr_slab_unreclaimable)
REG_set(NR_UNEVICTABLE, nr_unevictable)
REG_set(NR_UNSTABLE, nr_unstable)
REG_set(NR_VMSCAN_IMMEDIATE_RECLAIM, nr_vmscan_immediate_reclaim)
REG_set(NR_VMSCAN_WRITE, nr_vmscan_write)
REG_set(NR_WRITEBACK, nr_writeback)
REG_set(NR_WRITEBACK_TEMP, nr_writeback_temp)
REG_set(NR_WRITTEN, nr_written)
REG_set(NUMA_FOREIGN, numa_foreign)
REG_set(NUMA_HINT_FAULTS, numa_hint_faults)
REG_set(NUMA_HINT_FAULTS_LOCAL, numa_hint_faults_local)
REG_set(NUMA_HIT, numa_hit)
REG_set(NUMA_HUGE_PTE_UPDATES, numa_huge_pte_updates)
REG_set(NUMA_INTERLEAVE, numa_interleave)
REG_set(NUMA_LOCAL, numa_local)
REG_set(NUMA_MISS, numa_miss)
REG_set(NUMA_OTHER, numa_other)
REG_set(NUMA_PAGES_MIGRATED, numa_pages_migrated)
REG_set(NUMA_PTE_UPDATES, numa_pte_updates)
REG_set(PAGEOUTRUN, pageoutrun)
REG_set(PGACTIVATE, pgactivate)
REG_set(PGALLOC_DMA, pgalloc_dma)
REG_set(PGALLOC_DMA32, pgalloc_dma32)
REG_set(PGALLOC_MOVABLE, pgalloc_movable)
REG_set(PGALLOC_NORMAL, pgalloc_normal)
REG_set(PGDEACTIVATE, pgdeactivate)
REG_set(PGFAULT, pgfault)
REG_set(PGFREE, pgfree)
REG_set(PGINODESTEAL, pginodesteal)
REG_set(PGMAJFAULT, pgmajfault)
REG_set(PGMIGRATE_FAIL, pgmigrate_fail)
REG_set(PGMIGRATE_SUCCESS, pgmigrate_success)
REG_set(PGPGIN, pgpgin)
REG_set(PGPGOUT, pgpgout)
REG_set(PGREFILL_DMA, pgrefill_dma)
REG_set(PGREFILL_DMA32, pgrefill_dma32)
REG_set(PGREFILL_MOVABLE, pgrefill_movable)
REG_set(PGREFILL_NORMAL, pgrefill_normal)
REG_set(PGROTATED, pgrotated)
REG_set(PGSCAN_DIRECT_DMA, pgscan_direct_dma)
REG_set(PGSCAN_DIRECT_DMA32, pgscan_direct_dma32)
REG_set(PGSCAN_DIRECT_MOVABLE, pgscan_direct_movable)
REG_set(PGSCAN_DIRECT_NORMAL, pgscan_direct_normal)
REG_set(PGSCAN_DIRECT_THROTTLE, pgscan_direct_throttle)
REG_set(PGSCAN_KSWAPD_DMA, pgscan_kswapd_dma)
REG_set(PGSCAN_KSWAPD_DMA32, pgscan_kswapd_dma32)
REG_set(PGSCAN_KSWAPD_MOVEABLE, pgscan_kswapd_movable)
REG_set(PGSCAN_KSWAPD_NORMAL, pgscan_kswapd_normal)
REG_set(PGSTEAL_DIRECT_DMA, pgsteal_direct_dma)
REG_set(PGSTEAL_DIRECT_DMA32, pgsteal_direct_dma32)
REG_set(PGSTEAL_DIRECT_MOVABLE, pgsteal_direct_movable)
REG_set(PGSTEAL_DIRECT_NORMAL, pgsteal_direct_normal)
REG_set(PGSTEAL_KSWAPD_DMA, pgsteal_kswapd_dma)
REG_set(PGSTEAL_KSWAPD_DMA32, pgsteal_kswapd_dma32)
REG_set(PGSTEAL_KSWAPD_MOVABLE, pgsteal_kswapd_movable)
REG_set(PGSTEAL_KSWAPD_NORMAL, pgsteal_kswapd_normal)
REG_set(PSWPIN, pswpin)
REG_set(PSWPOUT, pswpout)
REG_set(SLABS_SCANNED, slabs_scanned)
REG_set(THP_COLLAPSE_ALLOC, thp_collapse_alloc)
REG_set(THP_COLLAPSE_ALLOC_FAILED, thp_collapse_alloc_failed)
REG_set(THP_FAULT_ALLOC, thp_fault_alloc)
REG_set(THP_FAULT_FALLBACK, thp_fault_fallback)
REG_set(THP_SPLIT, thp_split)
REG_set(THP_ZERO_PAGE_ALLOC, thp_zero_page_alloc)
REG_set(THP_ZERO_PAGE_ALLOC_FAILED, thp_zero_page_alloc_failed)
REG_set(UNEVICTABLE_PGS_CLEARED, unevictable_pgs_cleared)
REG_set(UNEVICTABLE_PGS_CULLED, unevictable_pgs_culled)
REG_set(UNEVICTABLE_PGS_MLOCKED, unevictable_pgs_mlocked)
REG_set(UNEVICTABLE_PGS_MUNLOCKED, unevictable_pgs_munlocked)
REG_set(UNEVICTABLE_PGS_RESCUED, unevictable_pgs_rescued)
REG_set(UNEVICTABLE_PGS_SCANNED, unevictable_pgs_scanned)
REG_set(UNEVICTABLE_PGS_STRANDED, unevictable_pgs_stranded)
REG_set(WORKINGSET_ACTIVATE, workingset_activate)
REG_set(WORKINGSET_NODERECLAIM, workingset_nodereclaim)
REG_set(WORKINGSET_REFAULT, workingset_refault)
REG_set(ZONE_RECLAIM_FAILED, zone_reclaim_failed)
HST_set(DELTA_ALLOCSTALL, allocstall)
HST_set(DELTA_BALLOON_DEFLATE, balloon_deflate)
HST_set(DELTA_BALLOON_INFLATE, balloon_inflate)
HST_set(DELTA_BALLOON_MIGRATE, balloon_migrate)
HST_set(DELTA_COMPACT_FAIL, compact_fail)
HST_set(DELTA_COMPACT_FREE_SCANNED, compact_free_scanned)
HST_set(DELTA_COMPACT_ISOLATED, compact_isolated)
HST_set(DELTA_COMPACT_MIGRATE_SCANNED, compact_migrate_scanned)
HST_set(DELTA_COMPACT_STALL, compact_stall)
HST_set(DELTA_COMPACT_SUCCESS, compact_success)
HST_set(DELTA_DROP_PAGECACHE, drop_pagecache)
HST_set(DELTA_DROP_SLAB, drop_slab)
HST_set(DELTA_HTLB_BUDDY_ALLOC_FAIL, htlb_buddy_alloc_fail)
HST_set(DELTA_HTLB_BUDDY_ALLOC_SUCCESS, htlb_buddy_alloc_success)
HST_set(DELTA_KSWAPD_HIGH_WMARK_HIT_QUICKLY, kswapd_high_wmark_hit_quickly)
HST_set(DELTA_KSWAPD_INODESTEAL, kswapd_inodesteal)
HST_set(DELTA_KSWAPD_LOW_WMARK_HIT_QUICKLY, kswapd_low_wmark_hit_quickly)
HST_set(DELTA_NR_ACTIVE_ANON, nr_active_anon)
HST_set(DELTA_NR_ACTIVE_FILE, nr_active_file)
HST_set(DELTA_NR_ALLOC_BATCH, nr_alloc_batch)
HST_set(DELTA_NR_ANON_PAGES, nr_anon_pages)
HST_set(DELTA_NR_ANON_TRANSPARENT_HUGEPAGES, nr_anon_transparent_hugepages)
HST_set(DELTA_NR_BOUNCE, nr_bounce)
HST_set(DELTA_NR_DIRTIED, nr_dirtied)
HST_set(DELTA_NR_DIRTY, nr_dirty)
HST_set(DELTA_NR_DIRTY_BACKGROUND_THRESHOLD, nr_dirty_background_threshold)
HST_set(DELTA_NR_DIRTY_THRESHOLD, nr_dirty_threshold)
HST_set(DELTA_NR_FILE_PAGES, nr_file_pages)
HST_set(DELTA_NR_FREE_CMA, nr_free_cma)
HST_set(DELTA_NR_FREE_PAGES, nr_free_pages)
HST_set(DELTA_NR_INACTIVE_ANON, nr_inactive_anon)
HST_set(DELTA_NR_INACTIVE_FILE, nr_inactive_file)
HST_set(DELTA_NR_ISOLATED_ANON, nr_isolated_anon)
HST_set(DELTA_NR_ISOLATED_FILE, nr_isolated_file)
HST_set(DELTA_NR_KERNEL_STACK, nr_kernel_stack)
HST_set(DELTA_NR_MAPPED, nr_mapped)
HST_set(DELTA_NR_MLOCK, nr_mlock)
HST_set(DELTA_NR_PAGES_SCANNED, nr_pages_scanned)
HST_set(DELTA_NR_PAGE_TABLE_PAGES, nr_page_table_pages)
HST_set(DELTA_NR_SHMEM, nr_shmem)
HST_set(DELTA_NR_SLAB_RECLAIMABLE, nr_slab_reclaimable)
HST_set(DELTA_NR_SLAB_UNRECLAIMABLE, nr_slab_unreclaimable)
HST_set(DELTA_NR_UNEVICTABLE, nr_unevictable)
HST_set(DELTA_NR_UNSTABLE, nr_unstable)
HST_set(DELTA_NR_VMSCAN_IMMEDIATE_RECLAIM, nr_vmscan_immediate_reclaim)
HST_set(DELTA_NR_VMSCAN_WRITE, nr_vmscan_write)
HST_set(DELTA_NR_WRITEBACK, nr_writeback)
HST_set(DELTA_NR_WRITEBACK_TEMP, nr_writeback_temp)
HST_set(DELTA_NR_WRITTEN, nr_written)
HST_set(DELTA_NUMA_FOREIGN, numa_foreign)
HST_set(DELTA_NUMA_HINT_FAULTS, numa_hint_faults)
HST_set(DELTA_NUMA_HINT_FAULTS_LOCAL, numa_hint_faults_local)
HST_set(DELTA_NUMA_HIT, numa_hit)
HST_set(DELTA_NUMA_HUGE_PTE_UPDATES, numa_huge_pte_updates)
HST_set(DELTA_NUMA_INTERLEAVE, numa_interleave)
HST_set(DELTA_NUMA_LOCAL, numa_local)
HST_set(DELTA_NUMA_MISS, numa_miss)
HST_set(DELTA_NUMA_OTHER, numa_other)
HST_set(DELTA_NUMA_PAGES_MIGRATED, numa_pages_migrated)
HST_set(DELTA_NUMA_PTE_UPDATES, numa_pte_updates)
HST_set(DELTA_PAGEOUTRUN, pageoutrun)
HST_set(DELTA_PGACTIVATE, pgactivate)
HST_set(DELTA_PGALLOC_DMA, pgalloc_dma)
HST_set(DELTA_PGALLOC_DMA32, pgalloc_dma32)
HST_set(DELTA_PGALLOC_MOVABLE, pgalloc_movable)
HST_set(DELTA_PGALLOC_NORMAL, pgalloc_normal)
HST_set(DELTA_PGDEACTIVATE, pgdeactivate)
HST_set(DELTA_PGFAULT, pgfault)
HST_set(DELTA_PGFREE, pgfree)
HST_set(DELTA_PGINODESTEAL, pginodesteal)
HST_set(DELTA_PGMAJFAULT, pgmajfault)
HST_set(DELTA_PGMIGRATE_FAIL, pgmigrate_fail)
HST_set(DELTA_PGMIGRATE_SUCCESS, pgmigrate_success)
HST_set(DELTA_PGPGIN, pgpgin)
HST_set(DELTA_PGPGOUT, pgpgout)
HST_set(DELTA_PGREFILL_DMA, pgrefill_dma)
HST_set(DELTA_PGREFILL_DMA32, pgrefill_dma32)
HST_set(DELTA_PGREFILL_MOVABLE, pgrefill_movable)
HST_set(DELTA_PGREFILL_NORMAL, pgrefill_normal)
HST_set(DELTA_PGROTATED, pgrotated)
HST_set(DELTA_PGSCAN_DIRECT_DMA, pgscan_direct_dma)
HST_set(DELTA_PGSCAN_DIRECT_DMA32, pgscan_direct_dma32)
HST_set(DELTA_PGSCAN_DIRECT_MOVABLE, pgscan_direct_movable)
HST_set(DELTA_PGSCAN_DIRECT_NORMAL, pgscan_direct_normal)
HST_set(DELTA_PGSCAN_DIRECT_THROTTLE, pgscan_direct_throttle)
HST_set(DELTA_PGSCAN_KSWAPD_DMA, pgscan_kswapd_dma)
HST_set(DELTA_PGSCAN_KSWAPD_DMA32, pgscan_kswapd_dma32)
HST_set(DELTA_PGSCAN_KSWAPD_MOVEABLE, pgscan_kswapd_movable)
HST_set(DELTA_PGSCAN_KSWAPD_NORMAL, pgscan_kswapd_normal)
HST_set(DELTA_PGSTEAL_DIRECT_DMA, pgsteal_direct_dma)
HST_set(DELTA_PGSTEAL_DIRECT_DMA32, pgsteal_direct_dma32)
HST_set(DELTA_PGSTEAL_DIRECT_MOVABLE, pgsteal_direct_movable)
HST_set(DELTA_PGSTEAL_DIRECT_NORMAL, pgsteal_direct_normal)
HST_set(DELTA_PGSTEAL_KSWAPD_DMA, pgsteal_kswapd_dma)
HST_set(DELTA_PGSTEAL_KSWAPD_DMA32, pgsteal_kswapd_dma32)
HST_set(DELTA_PGSTEAL_KSWAPD_MOVABLE, pgsteal_kswapd_movable)
HST_set(DELTA_PGSTEAL_KSWAPD_NORMAL, pgsteal_kswapd_normal)
HST_set(DELTA_PSWPIN, pswpin)
HST_set(DELTA_PSWPOUT, pswpout)
HST_set(DELTA_SLABS_SCANNED, slabs_scanned)
HST_set(DELTA_THP_COLLAPSE_ALLOC, thp_collapse_alloc)
HST_set(DELTA_THP_COLLAPSE_ALLOC_FAILED, thp_collapse_alloc_failed)
HST_set(DELTA_THP_FAULT_ALLOC, thp_fault_alloc)
HST_set(DELTA_THP_FAULT_FALLBACK, thp_fault_fallback)
HST_set(DELTA_THP_SPLIT, thp_split)
HST_set(DELTA_THP_ZERO_PAGE_ALLOC, thp_zero_page_alloc)
HST_set(DELTA_THP_ZERO_PAGE_ALLOC_FAILED, thp_zero_page_alloc_failed)
HST_set(DELTA_UNEVICTABLE_PGS_CLEARED, unevictable_pgs_cleared)
HST_set(DELTA_UNEVICTABLE_PGS_CULLED, unevictable_pgs_culled)
HST_set(DELTA_UNEVICTABLE_PGS_MLOCKED, unevictable_pgs_mlocked)
HST_set(DELTA_UNEVICTABLE_PGS_MUNLOCKED, unevictable_pgs_munlocked)
HST_set(DELTA_UNEVICTABLE_PGS_RESCUED, unevictable_pgs_rescued)
HST_set(DELTA_UNEVICTABLE_PGS_SCANNED, unevictable_pgs_scanned)
HST_set(DELTA_UNEVICTABLE_PGS_STRANDED, unevictable_pgs_stranded)
HST_set(DELTA_WORKINGSET_ACTIVATE, workingset_activate)
HST_set(DELTA_WORKINGSET_NODERECLAIM, workingset_nodereclaim)
HST_set(DELTA_WORKINGSET_REFAULT, workingset_refault)
HST_set(DELTA_ZONE_RECLAIM_FAILED, zone_reclaim_failed)
// ___ Results 'Get' Support ||||||||||||||||||||||||||||||||||||||||||||||||||
#define getNAME(e) get_results_ ## e
#define getDECL(e) static signed long getNAME(e) \
(struct procps_vmstat *I)
// regular get
#define REG_get(e,x) getDECL(e) { return I->hist.new. x; }
// delta get
#define HST_get(e,x) getDECL(e) { return ( I->hist.new. x - I->hist.old. x ); }
getDECL(noop) { (void)I; return 0; }
getDECL(extra) { (void)I; return 0; }
REG_get(ALLOCSTALL, allocstall)
REG_get(BALLOON_DEFLATE, balloon_deflate)
REG_get(BALLOON_INFLATE, balloon_inflate)
REG_get(BALLOON_MIGRATE, balloon_migrate)
REG_get(COMPACT_FAIL, compact_fail)
REG_get(COMPACT_FREE_SCANNED, compact_free_scanned)
REG_get(COMPACT_ISOLATED, compact_isolated)
REG_get(COMPACT_MIGRATE_SCANNED, compact_migrate_scanned)
REG_get(COMPACT_STALL, compact_stall)
REG_get(COMPACT_SUCCESS, compact_success)
REG_get(DROP_PAGECACHE, drop_pagecache)
REG_get(DROP_SLAB, drop_slab)
REG_get(HTLB_BUDDY_ALLOC_FAIL, htlb_buddy_alloc_fail)
REG_get(HTLB_BUDDY_ALLOC_SUCCESS, htlb_buddy_alloc_success)
REG_get(KSWAPD_HIGH_WMARK_HIT_QUICKLY, kswapd_high_wmark_hit_quickly)
REG_get(KSWAPD_INODESTEAL, kswapd_inodesteal)
REG_get(KSWAPD_LOW_WMARK_HIT_QUICKLY, kswapd_low_wmark_hit_quickly)
REG_get(NR_ACTIVE_ANON, nr_active_anon)
REG_get(NR_ACTIVE_FILE, nr_active_file)
REG_get(NR_ALLOC_BATCH, nr_alloc_batch)
REG_get(NR_ANON_PAGES, nr_anon_pages)
REG_get(NR_ANON_TRANSPARENT_HUGEPAGES, nr_anon_transparent_hugepages)
REG_get(NR_BOUNCE, nr_bounce)
REG_get(NR_DIRTIED, nr_dirtied)
REG_get(NR_DIRTY, nr_dirty)
REG_get(NR_DIRTY_BACKGROUND_THRESHOLD, nr_dirty_background_threshold)
REG_get(NR_DIRTY_THRESHOLD, nr_dirty_threshold)
REG_get(NR_FILE_PAGES, nr_file_pages)
REG_get(NR_FREE_CMA, nr_free_cma)
REG_get(NR_FREE_PAGES, nr_free_pages)
REG_get(NR_INACTIVE_ANON, nr_inactive_anon)
REG_get(NR_INACTIVE_FILE, nr_inactive_file)
REG_get(NR_ISOLATED_ANON, nr_isolated_anon)
REG_get(NR_ISOLATED_FILE, nr_isolated_file)
REG_get(NR_KERNEL_STACK, nr_kernel_stack)
REG_get(NR_MAPPED, nr_mapped)
REG_get(NR_MLOCK, nr_mlock)
REG_get(NR_PAGES_SCANNED, nr_pages_scanned)
REG_get(NR_PAGE_TABLE_PAGES, nr_page_table_pages)
REG_get(NR_SHMEM, nr_shmem)
REG_get(NR_SLAB_RECLAIMABLE, nr_slab_reclaimable)
REG_get(NR_SLAB_UNRECLAIMABLE, nr_slab_unreclaimable)
REG_get(NR_UNEVICTABLE, nr_unevictable)
REG_get(NR_UNSTABLE, nr_unstable)
REG_get(NR_VMSCAN_IMMEDIATE_RECLAIM, nr_vmscan_immediate_reclaim)
REG_get(NR_VMSCAN_WRITE, nr_vmscan_write)
REG_get(NR_WRITEBACK, nr_writeback)
REG_get(NR_WRITEBACK_TEMP, nr_writeback_temp)
REG_get(NR_WRITTEN, nr_written)
REG_get(NUMA_FOREIGN, numa_foreign)
REG_get(NUMA_HINT_FAULTS, numa_hint_faults)
REG_get(NUMA_HINT_FAULTS_LOCAL, numa_hint_faults_local)
REG_get(NUMA_HIT, numa_hit)
REG_get(NUMA_HUGE_PTE_UPDATES, numa_huge_pte_updates)
REG_get(NUMA_INTERLEAVE, numa_interleave)
REG_get(NUMA_LOCAL, numa_local)
REG_get(NUMA_MISS, numa_miss)
REG_get(NUMA_OTHER, numa_other)
REG_get(NUMA_PAGES_MIGRATED, numa_pages_migrated)
REG_get(NUMA_PTE_UPDATES, numa_pte_updates)
REG_get(PAGEOUTRUN, pageoutrun)
REG_get(PGACTIVATE, pgactivate)
REG_get(PGALLOC_DMA, pgalloc_dma)
REG_get(PGALLOC_DMA32, pgalloc_dma32)
REG_get(PGALLOC_MOVABLE, pgalloc_movable)
REG_get(PGALLOC_NORMAL, pgalloc_normal)
REG_get(PGDEACTIVATE, pgdeactivate)
REG_get(PGFAULT, pgfault)
REG_get(PGFREE, pgfree)
REG_get(PGINODESTEAL, pginodesteal)
REG_get(PGMAJFAULT, pgmajfault)
REG_get(PGMIGRATE_FAIL, pgmigrate_fail)
REG_get(PGMIGRATE_SUCCESS, pgmigrate_success)
REG_get(PGPGIN, pgpgin)
REG_get(PGPGOUT, pgpgout)
REG_get(PGREFILL_DMA, pgrefill_dma)
REG_get(PGREFILL_DMA32, pgrefill_dma32)
REG_get(PGREFILL_MOVABLE, pgrefill_movable)
REG_get(PGREFILL_NORMAL, pgrefill_normal)
REG_get(PGROTATED, pgrotated)
REG_get(PGSCAN_DIRECT_DMA, pgscan_direct_dma)
REG_get(PGSCAN_DIRECT_DMA32, pgscan_direct_dma32)
REG_get(PGSCAN_DIRECT_MOVABLE, pgscan_direct_movable)
REG_get(PGSCAN_DIRECT_NORMAL, pgscan_direct_normal)
REG_get(PGSCAN_DIRECT_THROTTLE, pgscan_direct_throttle)
REG_get(PGSCAN_KSWAPD_DMA, pgscan_kswapd_dma)
REG_get(PGSCAN_KSWAPD_DMA32, pgscan_kswapd_dma32)
REG_get(PGSCAN_KSWAPD_MOVEABLE, pgscan_kswapd_movable)
REG_get(PGSCAN_KSWAPD_NORMAL, pgscan_kswapd_normal)
REG_get(PGSTEAL_DIRECT_DMA, pgsteal_direct_dma)
REG_get(PGSTEAL_DIRECT_DMA32, pgsteal_direct_dma32)
REG_get(PGSTEAL_DIRECT_MOVABLE, pgsteal_direct_movable)
REG_get(PGSTEAL_DIRECT_NORMAL, pgsteal_direct_normal)
REG_get(PGSTEAL_KSWAPD_DMA, pgsteal_kswapd_dma)
REG_get(PGSTEAL_KSWAPD_DMA32, pgsteal_kswapd_dma32)
REG_get(PGSTEAL_KSWAPD_MOVABLE, pgsteal_kswapd_movable)
REG_get(PGSTEAL_KSWAPD_NORMAL, pgsteal_kswapd_normal)
REG_get(PSWPIN, pswpin)
REG_get(PSWPOUT, pswpout)
REG_get(SLABS_SCANNED, slabs_scanned)
REG_get(THP_COLLAPSE_ALLOC, thp_collapse_alloc)
REG_get(THP_COLLAPSE_ALLOC_FAILED, thp_collapse_alloc_failed)
REG_get(THP_FAULT_ALLOC, thp_fault_alloc)
REG_get(THP_FAULT_FALLBACK, thp_fault_fallback)
REG_get(THP_SPLIT, thp_split)
REG_get(THP_ZERO_PAGE_ALLOC, thp_zero_page_alloc)
REG_get(THP_ZERO_PAGE_ALLOC_FAILED, thp_zero_page_alloc_failed)
REG_get(UNEVICTABLE_PGS_CLEARED, unevictable_pgs_cleared)
REG_get(UNEVICTABLE_PGS_CULLED, unevictable_pgs_culled)
REG_get(UNEVICTABLE_PGS_MLOCKED, unevictable_pgs_mlocked)
REG_get(UNEVICTABLE_PGS_MUNLOCKED, unevictable_pgs_munlocked)
REG_get(UNEVICTABLE_PGS_RESCUED, unevictable_pgs_rescued)
REG_get(UNEVICTABLE_PGS_SCANNED, unevictable_pgs_scanned)
REG_get(UNEVICTABLE_PGS_STRANDED, unevictable_pgs_stranded)
REG_get(WORKINGSET_ACTIVATE, workingset_activate)
REG_get(WORKINGSET_NODERECLAIM, workingset_nodereclaim)
REG_get(WORKINGSET_REFAULT, workingset_refault)
REG_get(ZONE_RECLAIM_FAILED, zone_reclaim_failed)
HST_get(DELTA_ALLOCSTALL, allocstall)
HST_get(DELTA_BALLOON_DEFLATE, balloon_deflate)
HST_get(DELTA_BALLOON_INFLATE, balloon_inflate)
HST_get(DELTA_BALLOON_MIGRATE, balloon_migrate)
HST_get(DELTA_COMPACT_FAIL, compact_fail)
HST_get(DELTA_COMPACT_FREE_SCANNED, compact_free_scanned)
HST_get(DELTA_COMPACT_ISOLATED, compact_isolated)
HST_get(DELTA_COMPACT_MIGRATE_SCANNED, compact_migrate_scanned)
HST_get(DELTA_COMPACT_STALL, compact_stall)
HST_get(DELTA_COMPACT_SUCCESS, compact_success)
HST_get(DELTA_DROP_PAGECACHE, drop_pagecache)
HST_get(DELTA_DROP_SLAB, drop_slab)
HST_get(DELTA_HTLB_BUDDY_ALLOC_FAIL, htlb_buddy_alloc_fail)
HST_get(DELTA_HTLB_BUDDY_ALLOC_SUCCESS, htlb_buddy_alloc_success)
HST_get(DELTA_KSWAPD_HIGH_WMARK_HIT_QUICKLY, kswapd_high_wmark_hit_quickly)
HST_get(DELTA_KSWAPD_INODESTEAL, kswapd_inodesteal)
HST_get(DELTA_KSWAPD_LOW_WMARK_HIT_QUICKLY, kswapd_low_wmark_hit_quickly)
HST_get(DELTA_NR_ACTIVE_ANON, nr_active_anon)
HST_get(DELTA_NR_ACTIVE_FILE, nr_active_file)
HST_get(DELTA_NR_ALLOC_BATCH, nr_alloc_batch)
HST_get(DELTA_NR_ANON_PAGES, nr_anon_pages)
HST_get(DELTA_NR_ANON_TRANSPARENT_HUGEPAGES, nr_anon_transparent_hugepages)
HST_get(DELTA_NR_BOUNCE, nr_bounce)
HST_get(DELTA_NR_DIRTIED, nr_dirtied)
HST_get(DELTA_NR_DIRTY, nr_dirty)
HST_get(DELTA_NR_DIRTY_BACKGROUND_THRESHOLD, nr_dirty_background_threshold)
HST_get(DELTA_NR_DIRTY_THRESHOLD, nr_dirty_threshold)
HST_get(DELTA_NR_FILE_PAGES, nr_file_pages)
HST_get(DELTA_NR_FREE_CMA, nr_free_cma)
HST_get(DELTA_NR_FREE_PAGES, nr_free_pages)
HST_get(DELTA_NR_INACTIVE_ANON, nr_inactive_anon)
HST_get(DELTA_NR_INACTIVE_FILE, nr_inactive_file)
HST_get(DELTA_NR_ISOLATED_ANON, nr_isolated_anon)
HST_get(DELTA_NR_ISOLATED_FILE, nr_isolated_file)
HST_get(DELTA_NR_KERNEL_STACK, nr_kernel_stack)
HST_get(DELTA_NR_MAPPED, nr_mapped)
HST_get(DELTA_NR_MLOCK, nr_mlock)
HST_get(DELTA_NR_PAGES_SCANNED, nr_pages_scanned)
HST_get(DELTA_NR_PAGE_TABLE_PAGES, nr_page_table_pages)
HST_get(DELTA_NR_SHMEM, nr_shmem)
HST_get(DELTA_NR_SLAB_RECLAIMABLE, nr_slab_reclaimable)
HST_get(DELTA_NR_SLAB_UNRECLAIMABLE, nr_slab_unreclaimable)
HST_get(DELTA_NR_UNEVICTABLE, nr_unevictable)
HST_get(DELTA_NR_UNSTABLE, nr_unstable)
HST_get(DELTA_NR_VMSCAN_IMMEDIATE_RECLAIM, nr_vmscan_immediate_reclaim)
HST_get(DELTA_NR_VMSCAN_WRITE, nr_vmscan_write)
HST_get(DELTA_NR_WRITEBACK, nr_writeback)
HST_get(DELTA_NR_WRITEBACK_TEMP, nr_writeback_temp)
HST_get(DELTA_NR_WRITTEN, nr_written)
HST_get(DELTA_NUMA_FOREIGN, numa_foreign)
HST_get(DELTA_NUMA_HINT_FAULTS, numa_hint_faults)
HST_get(DELTA_NUMA_HINT_FAULTS_LOCAL, numa_hint_faults_local)
HST_get(DELTA_NUMA_HIT, numa_hit)
HST_get(DELTA_NUMA_HUGE_PTE_UPDATES, numa_huge_pte_updates)
HST_get(DELTA_NUMA_INTERLEAVE, numa_interleave)
HST_get(DELTA_NUMA_LOCAL, numa_local)
HST_get(DELTA_NUMA_MISS, numa_miss)
HST_get(DELTA_NUMA_OTHER, numa_other)
HST_get(DELTA_NUMA_PAGES_MIGRATED, numa_pages_migrated)
HST_get(DELTA_NUMA_PTE_UPDATES, numa_pte_updates)
HST_get(DELTA_PAGEOUTRUN, pageoutrun)
HST_get(DELTA_PGACTIVATE, pgactivate)
HST_get(DELTA_PGALLOC_DMA, pgalloc_dma)
HST_get(DELTA_PGALLOC_DMA32, pgalloc_dma32)
HST_get(DELTA_PGALLOC_MOVABLE, pgalloc_movable)
HST_get(DELTA_PGALLOC_NORMAL, pgalloc_normal)
HST_get(DELTA_PGDEACTIVATE, pgdeactivate)
HST_get(DELTA_PGFAULT, pgfault)
HST_get(DELTA_PGFREE, pgfree)
HST_get(DELTA_PGINODESTEAL, pginodesteal)
HST_get(DELTA_PGMAJFAULT, pgmajfault)
HST_get(DELTA_PGMIGRATE_FAIL, pgmigrate_fail)
HST_get(DELTA_PGMIGRATE_SUCCESS, pgmigrate_success)
HST_get(DELTA_PGPGIN, pgpgin)
HST_get(DELTA_PGPGOUT, pgpgout)
HST_get(DELTA_PGREFILL_DMA, pgrefill_dma)
HST_get(DELTA_PGREFILL_DMA32, pgrefill_dma32)
HST_get(DELTA_PGREFILL_MOVABLE, pgrefill_movable)
HST_get(DELTA_PGREFILL_NORMAL, pgrefill_normal)
HST_get(DELTA_PGROTATED, pgrotated)
HST_get(DELTA_PGSCAN_DIRECT_DMA, pgscan_direct_dma)
HST_get(DELTA_PGSCAN_DIRECT_DMA32, pgscan_direct_dma32)
HST_get(DELTA_PGSCAN_DIRECT_MOVABLE, pgscan_direct_movable)
HST_get(DELTA_PGSCAN_DIRECT_NORMAL, pgscan_direct_normal)
HST_get(DELTA_PGSCAN_DIRECT_THROTTLE, pgscan_direct_throttle)
HST_get(DELTA_PGSCAN_KSWAPD_DMA, pgscan_kswapd_dma)
HST_get(DELTA_PGSCAN_KSWAPD_DMA32, pgscan_kswapd_dma32)
HST_get(DELTA_PGSCAN_KSWAPD_MOVEABLE, pgscan_kswapd_movable)
HST_get(DELTA_PGSCAN_KSWAPD_NORMAL, pgscan_kswapd_normal)
HST_get(DELTA_PGSTEAL_DIRECT_DMA, pgsteal_direct_dma)
HST_get(DELTA_PGSTEAL_DIRECT_DMA32, pgsteal_direct_dma32)
HST_get(DELTA_PGSTEAL_DIRECT_MOVABLE, pgsteal_direct_movable)
HST_get(DELTA_PGSTEAL_DIRECT_NORMAL, pgsteal_direct_normal)
HST_get(DELTA_PGSTEAL_KSWAPD_DMA, pgsteal_kswapd_dma)
HST_get(DELTA_PGSTEAL_KSWAPD_DMA32, pgsteal_kswapd_dma32)
HST_get(DELTA_PGSTEAL_KSWAPD_MOVABLE, pgsteal_kswapd_movable)
HST_get(DELTA_PGSTEAL_KSWAPD_NORMAL, pgsteal_kswapd_normal)
HST_get(DELTA_PSWPIN, pswpin)
HST_get(DELTA_PSWPOUT, pswpout)
HST_get(DELTA_SLABS_SCANNED, slabs_scanned)
HST_get(DELTA_THP_COLLAPSE_ALLOC, thp_collapse_alloc)
HST_get(DELTA_THP_COLLAPSE_ALLOC_FAILED, thp_collapse_alloc_failed)
HST_get(DELTA_THP_FAULT_ALLOC, thp_fault_alloc)
HST_get(DELTA_THP_FAULT_FALLBACK, thp_fault_fallback)
HST_get(DELTA_THP_SPLIT, thp_split)
HST_get(DELTA_THP_ZERO_PAGE_ALLOC, thp_zero_page_alloc)
HST_get(DELTA_THP_ZERO_PAGE_ALLOC_FAILED, thp_zero_page_alloc_failed)
HST_get(DELTA_UNEVICTABLE_PGS_CLEARED, unevictable_pgs_cleared)
HST_get(DELTA_UNEVICTABLE_PGS_CULLED, unevictable_pgs_culled)
HST_get(DELTA_UNEVICTABLE_PGS_MLOCKED, unevictable_pgs_mlocked)
HST_get(DELTA_UNEVICTABLE_PGS_MUNLOCKED, unevictable_pgs_munlocked)
HST_get(DELTA_UNEVICTABLE_PGS_RESCUED, unevictable_pgs_rescued)
HST_get(DELTA_UNEVICTABLE_PGS_SCANNED, unevictable_pgs_scanned)
HST_get(DELTA_UNEVICTABLE_PGS_STRANDED, unevictable_pgs_stranded)
HST_get(DELTA_WORKINGSET_ACTIVATE, workingset_activate)
HST_get(DELTA_WORKINGSET_NODERECLAIM, workingset_nodereclaim)
HST_get(DELTA_WORKINGSET_REFAULT, workingset_refault)
HST_get(DELTA_ZONE_RECLAIM_FAILED, zone_reclaim_failed)
// ___ Controlling Table ||||||||||||||||||||||||||||||||||||||||||||||||||||||
typedef void (*SET_t)(struct vmstat_result *, struct vmstat_hist *);
#define RS(e) (SET_t)setNAME(e)
typedef long (*GET_t)(struct procps_vmstat *);
#define RG(e) (GET_t)getNAME(e)
/*
* Need it be said?
* This table must be kept in the exact same order as
* those 'enum vmstat_item' guys ! */
static struct {
SET_t setsfunc; // the actual result setting routine
GET_t getsfunc; // a routine to return single result
} Item_table[] = {
/* setsfunc getsfunc
--------------------------------------- -------------------------------------- */
{ RS(noop), RG(noop) },
{ RS(extra), RG(extra) },
{ RS(ALLOCSTALL), RG(ALLOCSTALL) },
{ RS(BALLOON_DEFLATE), RG(BALLOON_DEFLATE) },
{ RS(BALLOON_INFLATE), RG(BALLOON_INFLATE) },
{ RS(BALLOON_MIGRATE), RG(BALLOON_MIGRATE) },
{ RS(COMPACT_FAIL), RG(COMPACT_FAIL) },
{ RS(COMPACT_FREE_SCANNED), RG(COMPACT_FREE_SCANNED) },
{ RS(COMPACT_ISOLATED), RG(COMPACT_ISOLATED) },
{ RS(COMPACT_MIGRATE_SCANNED), RG(COMPACT_MIGRATE_SCANNED) },
{ RS(COMPACT_STALL), RG(COMPACT_STALL) },
{ RS(COMPACT_SUCCESS), RG(COMPACT_SUCCESS) },
{ RS(DROP_PAGECACHE), RG(DROP_PAGECACHE) },
{ RS(DROP_SLAB), RG(DROP_SLAB) },
{ RS(HTLB_BUDDY_ALLOC_FAIL), RG(HTLB_BUDDY_ALLOC_FAIL) },
{ RS(HTLB_BUDDY_ALLOC_SUCCESS), RG(HTLB_BUDDY_ALLOC_SUCCESS) },
{ RS(KSWAPD_HIGH_WMARK_HIT_QUICKLY), RG(KSWAPD_HIGH_WMARK_HIT_QUICKLY) },
{ RS(KSWAPD_INODESTEAL), RG(KSWAPD_INODESTEAL) },
{ RS(KSWAPD_LOW_WMARK_HIT_QUICKLY), RG(KSWAPD_LOW_WMARK_HIT_QUICKLY) },
{ RS(NR_ACTIVE_ANON), RG(NR_ACTIVE_ANON) },
{ RS(NR_ACTIVE_FILE), RG(NR_ACTIVE_FILE) },
{ RS(NR_ALLOC_BATCH), RG(NR_ALLOC_BATCH) },
{ RS(NR_ANON_PAGES), RG(NR_ANON_PAGES) },
{ RS(NR_ANON_TRANSPARENT_HUGEPAGES), RG(NR_ANON_TRANSPARENT_HUGEPAGES) },
{ RS(NR_BOUNCE), RG(NR_BOUNCE) },
{ RS(NR_DIRTIED), RG(NR_DIRTIED) },
{ RS(NR_DIRTY), RG(NR_DIRTY) },
{ RS(NR_DIRTY_BACKGROUND_THRESHOLD), RG(NR_DIRTY_BACKGROUND_THRESHOLD) },
{ RS(NR_DIRTY_THRESHOLD), RG(NR_DIRTY_THRESHOLD) },
{ RS(NR_FILE_PAGES), RG(NR_FILE_PAGES) },
{ RS(NR_FREE_CMA), RG(NR_FREE_CMA) },
{ RS(NR_FREE_PAGES), RG(NR_FREE_PAGES) },
{ RS(NR_INACTIVE_ANON), RG(NR_INACTIVE_ANON) },
{ RS(NR_INACTIVE_FILE), RG(NR_INACTIVE_FILE) },
{ RS(NR_ISOLATED_ANON), RG(NR_ISOLATED_ANON) },
{ RS(NR_ISOLATED_FILE), RG(NR_ISOLATED_FILE) },
{ RS(NR_KERNEL_STACK), RG(NR_KERNEL_STACK) },
{ RS(NR_MAPPED), RG(NR_MAPPED) },
{ RS(NR_MLOCK), RG(NR_MLOCK) },
{ RS(NR_PAGES_SCANNED), RG(NR_PAGES_SCANNED) },
{ RS(NR_PAGE_TABLE_PAGES), RG(NR_PAGE_TABLE_PAGES) },
{ RS(NR_SHMEM), RG(NR_SHMEM) },
{ RS(NR_SLAB_RECLAIMABLE), RG(NR_SLAB_RECLAIMABLE) },
{ RS(NR_SLAB_UNRECLAIMABLE), RG(NR_SLAB_UNRECLAIMABLE) },
{ RS(NR_UNEVICTABLE), RG(NR_UNEVICTABLE) },
{ RS(NR_UNSTABLE), RG(NR_UNSTABLE) },
{ RS(NR_VMSCAN_IMMEDIATE_RECLAIM), RG(NR_VMSCAN_IMMEDIATE_RECLAIM) },
{ RS(NR_VMSCAN_WRITE), RG(NR_VMSCAN_WRITE) },
{ RS(NR_WRITEBACK), RG(NR_WRITEBACK) },
{ RS(NR_WRITEBACK_TEMP), RG(NR_WRITEBACK_TEMP) },
{ RS(NR_WRITTEN), RG(NR_WRITTEN) },
{ RS(NUMA_FOREIGN), RG(NUMA_FOREIGN) },
{ RS(NUMA_HINT_FAULTS), RG(NUMA_HINT_FAULTS) },
{ RS(NUMA_HINT_FAULTS_LOCAL), RG(NUMA_HINT_FAULTS_LOCAL) },
{ RS(NUMA_HIT), RG(NUMA_HIT) },
{ RS(NUMA_HUGE_PTE_UPDATES), RG(NUMA_HUGE_PTE_UPDATES) },
{ RS(NUMA_INTERLEAVE), RG(NUMA_INTERLEAVE) },
{ RS(NUMA_LOCAL), RG(NUMA_LOCAL) },
{ RS(NUMA_MISS), RG(NUMA_MISS) },
{ RS(NUMA_OTHER), RG(NUMA_OTHER) },
{ RS(NUMA_PAGES_MIGRATED), RG(NUMA_PAGES_MIGRATED) },
{ RS(NUMA_PTE_UPDATES), RG(NUMA_PTE_UPDATES) },
{ RS(PAGEOUTRUN), RG(PAGEOUTRUN) },
{ RS(PGACTIVATE), RG(PGACTIVATE) },
{ RS(PGALLOC_DMA), RG(PGALLOC_DMA) },
{ RS(PGALLOC_DMA32), RG(PGALLOC_DMA32) },
{ RS(PGALLOC_MOVABLE), RG(PGALLOC_MOVABLE) },
{ RS(PGALLOC_NORMAL), RG(PGALLOC_NORMAL) },
{ RS(PGDEACTIVATE), RG(PGDEACTIVATE) },
{ RS(PGFAULT), RG(PGFAULT) },
{ RS(PGFREE), RG(PGFREE) },
{ RS(PGINODESTEAL), RG(PGINODESTEAL) },
{ RS(PGMAJFAULT), RG(PGMAJFAULT) },
{ RS(PGMIGRATE_FAIL), RG(PGMIGRATE_FAIL) },
{ RS(PGMIGRATE_SUCCESS), RG(PGMIGRATE_SUCCESS) },
{ RS(PGPGIN), RG(PGPGIN) },
{ RS(PGPGOUT), RG(PGPGOUT) },
{ RS(PGREFILL_DMA), RG(PGREFILL_DMA) },
{ RS(PGREFILL_DMA32), RG(PGREFILL_DMA32) },
{ RS(PGREFILL_MOVABLE), RG(PGREFILL_MOVABLE) },
{ RS(PGREFILL_NORMAL), RG(PGREFILL_NORMAL) },
{ RS(PGROTATED), RG(PGROTATED) },
{ RS(PGSCAN_DIRECT_DMA), RG(PGSCAN_DIRECT_DMA) },
{ RS(PGSCAN_DIRECT_DMA32), RG(PGSCAN_DIRECT_DMA32) },
{ RS(PGSCAN_DIRECT_MOVABLE), RG(PGSCAN_DIRECT_MOVABLE) },
{ RS(PGSCAN_DIRECT_NORMAL), RG(PGSCAN_DIRECT_NORMAL) },
{ RS(PGSCAN_DIRECT_THROTTLE), RG(PGSCAN_DIRECT_THROTTLE) },
{ RS(PGSCAN_KSWAPD_DMA), RG(PGSCAN_KSWAPD_DMA) },
{ RS(PGSCAN_KSWAPD_DMA32), RG(PGSCAN_KSWAPD_DMA32) },
{ RS(PGSCAN_KSWAPD_MOVEABLE), RG(PGSCAN_KSWAPD_MOVEABLE) },
{ RS(PGSCAN_KSWAPD_NORMAL), RG(PGSCAN_KSWAPD_NORMAL) },
{ RS(PGSTEAL_DIRECT_DMA), RG(PGSTEAL_DIRECT_DMA) },
{ RS(PGSTEAL_DIRECT_DMA32), RG(PGSTEAL_DIRECT_DMA32) },
{ RS(PGSTEAL_DIRECT_MOVABLE), RG(PGSTEAL_DIRECT_MOVABLE) },
{ RS(PGSTEAL_DIRECT_NORMAL), RG(PGSTEAL_DIRECT_NORMAL) },
{ RS(PGSTEAL_KSWAPD_DMA), RG(PGSTEAL_KSWAPD_DMA) },
{ RS(PGSTEAL_KSWAPD_DMA32), RG(PGSTEAL_KSWAPD_DMA32) },
{ RS(PGSTEAL_KSWAPD_MOVABLE), RG(PGSTEAL_KSWAPD_MOVABLE) },
{ RS(PGSTEAL_KSWAPD_NORMAL), RG(PGSTEAL_KSWAPD_NORMAL) },
{ RS(PSWPIN), RG(PSWPIN) },
{ RS(PSWPOUT), RG(PSWPOUT) },
{ RS(SLABS_SCANNED), RG(SLABS_SCANNED) },
{ RS(THP_COLLAPSE_ALLOC), RG(THP_COLLAPSE_ALLOC) },
{ RS(THP_COLLAPSE_ALLOC_FAILED), RG(THP_COLLAPSE_ALLOC_FAILED) },
{ RS(THP_FAULT_ALLOC), RG(THP_FAULT_ALLOC) },
{ RS(THP_FAULT_FALLBACK), RG(THP_FAULT_FALLBACK) },
{ RS(THP_SPLIT), RG(THP_SPLIT) },
{ RS(THP_ZERO_PAGE_ALLOC), RG(THP_ZERO_PAGE_ALLOC) },
{ RS(THP_ZERO_PAGE_ALLOC_FAILED), RG(THP_ZERO_PAGE_ALLOC_FAILED) },
{ RS(UNEVICTABLE_PGS_CLEARED), RG(UNEVICTABLE_PGS_CLEARED) },
{ RS(UNEVICTABLE_PGS_CULLED), RG(UNEVICTABLE_PGS_CULLED) },
{ RS(UNEVICTABLE_PGS_MLOCKED), RG(UNEVICTABLE_PGS_MLOCKED) },
{ RS(UNEVICTABLE_PGS_MUNLOCKED), RG(UNEVICTABLE_PGS_MUNLOCKED) },
{ RS(UNEVICTABLE_PGS_RESCUED), RG(UNEVICTABLE_PGS_RESCUED) },
{ RS(UNEVICTABLE_PGS_SCANNED), RG(UNEVICTABLE_PGS_SCANNED) },
{ RS(UNEVICTABLE_PGS_STRANDED), RG(UNEVICTABLE_PGS_STRANDED) },
{ RS(WORKINGSET_ACTIVATE), RG(WORKINGSET_ACTIVATE) },
{ RS(WORKINGSET_NODERECLAIM), RG(WORKINGSET_NODERECLAIM) },
{ RS(WORKINGSET_REFAULT), RG(WORKINGSET_REFAULT) },
{ RS(ZONE_RECLAIM_FAILED), RG(ZONE_RECLAIM_FAILED) },
{ RS(DELTA_ALLOCSTALL), RG(DELTA_ALLOCSTALL) },
{ RS(DELTA_BALLOON_DEFLATE), RG(DELTA_BALLOON_DEFLATE) },
{ RS(DELTA_BALLOON_INFLATE), RG(DELTA_BALLOON_INFLATE) },
{ RS(DELTA_BALLOON_MIGRATE), RG(DELTA_BALLOON_MIGRATE) },
{ RS(DELTA_COMPACT_FAIL), RG(DELTA_COMPACT_FAIL) },
{ RS(DELTA_COMPACT_FREE_SCANNED), RG(DELTA_COMPACT_FREE_SCANNED) },
{ RS(DELTA_COMPACT_ISOLATED), RG(DELTA_COMPACT_ISOLATED) },
{ RS(DELTA_COMPACT_MIGRATE_SCANNED), RG(DELTA_COMPACT_MIGRATE_SCANNED) },
{ RS(DELTA_COMPACT_STALL), RG(DELTA_COMPACT_STALL) },
{ RS(DELTA_COMPACT_SUCCESS), RG(DELTA_COMPACT_SUCCESS) },
{ RS(DELTA_DROP_PAGECACHE), RG(DELTA_DROP_PAGECACHE) },
{ RS(DELTA_DROP_SLAB), RG(DELTA_DROP_SLAB) },
{ RS(DELTA_HTLB_BUDDY_ALLOC_FAIL), RG(DELTA_HTLB_BUDDY_ALLOC_FAIL) },
{ RS(DELTA_HTLB_BUDDY_ALLOC_SUCCESS), RG(DELTA_HTLB_BUDDY_ALLOC_SUCCESS) },
{ RS(DELTA_KSWAPD_HIGH_WMARK_HIT_QUICKLY), RG(DELTA_KSWAPD_HIGH_WMARK_HIT_QUICKLY) },
{ RS(DELTA_KSWAPD_INODESTEAL), RG(DELTA_KSWAPD_INODESTEAL) },
{ RS(DELTA_KSWAPD_LOW_WMARK_HIT_QUICKLY), RG(DELTA_KSWAPD_LOW_WMARK_HIT_QUICKLY) },
{ RS(DELTA_NR_ACTIVE_ANON), RG(DELTA_NR_ACTIVE_ANON) },
{ RS(DELTA_NR_ACTIVE_FILE), RG(DELTA_NR_ACTIVE_FILE) },
{ RS(DELTA_NR_ALLOC_BATCH), RG(DELTA_NR_ALLOC_BATCH) },
{ RS(DELTA_NR_ANON_PAGES), RG(DELTA_NR_ANON_PAGES) },
{ RS(DELTA_NR_ANON_TRANSPARENT_HUGEPAGES), RG(DELTA_NR_ANON_TRANSPARENT_HUGEPAGES) },
{ RS(DELTA_NR_BOUNCE), RG(DELTA_NR_BOUNCE) },
{ RS(DELTA_NR_DIRTIED), RG(DELTA_NR_DIRTIED) },
{ RS(DELTA_NR_DIRTY), RG(DELTA_NR_DIRTY) },
{ RS(DELTA_NR_DIRTY_BACKGROUND_THRESHOLD), RG(DELTA_NR_DIRTY_BACKGROUND_THRESHOLD) },
{ RS(DELTA_NR_DIRTY_THRESHOLD), RG(DELTA_NR_DIRTY_THRESHOLD) },
{ RS(DELTA_NR_FILE_PAGES), RG(DELTA_NR_FILE_PAGES) },
{ RS(DELTA_NR_FREE_CMA), RG(DELTA_NR_FREE_CMA) },
{ RS(DELTA_NR_FREE_PAGES), RG(DELTA_NR_FREE_PAGES) },
{ RS(DELTA_NR_INACTIVE_ANON), RG(DELTA_NR_INACTIVE_ANON) },
{ RS(DELTA_NR_INACTIVE_FILE), RG(DELTA_NR_INACTIVE_FILE) },
{ RS(DELTA_NR_ISOLATED_ANON), RG(DELTA_NR_ISOLATED_ANON) },
{ RS(DELTA_NR_ISOLATED_FILE), RG(DELTA_NR_ISOLATED_FILE) },
{ RS(DELTA_NR_KERNEL_STACK), RG(DELTA_NR_KERNEL_STACK) },
{ RS(DELTA_NR_MAPPED), RG(DELTA_NR_MAPPED) },
{ RS(DELTA_NR_MLOCK), RG(DELTA_NR_MLOCK) },
{ RS(DELTA_NR_PAGES_SCANNED), RG(DELTA_NR_PAGES_SCANNED) },
{ RS(DELTA_NR_PAGE_TABLE_PAGES), RG(DELTA_NR_PAGE_TABLE_PAGES) },
{ RS(DELTA_NR_SHMEM), RG(DELTA_NR_SHMEM) },
{ RS(DELTA_NR_SLAB_RECLAIMABLE), RG(DELTA_NR_SLAB_RECLAIMABLE) },
{ RS(DELTA_NR_SLAB_UNRECLAIMABLE), RG(DELTA_NR_SLAB_UNRECLAIMABLE) },
{ RS(DELTA_NR_UNEVICTABLE), RG(DELTA_NR_UNEVICTABLE) },
{ RS(DELTA_NR_UNSTABLE), RG(DELTA_NR_UNSTABLE) },
{ RS(DELTA_NR_VMSCAN_IMMEDIATE_RECLAIM), RG(DELTA_NR_VMSCAN_IMMEDIATE_RECLAIM) },
{ RS(DELTA_NR_VMSCAN_WRITE), RG(DELTA_NR_VMSCAN_WRITE) },
{ RS(DELTA_NR_WRITEBACK), RG(DELTA_NR_WRITEBACK) },
{ RS(DELTA_NR_WRITEBACK_TEMP), RG(DELTA_NR_WRITEBACK_TEMP) },
{ RS(DELTA_NR_WRITTEN), RG(DELTA_NR_WRITTEN) },
{ RS(DELTA_NUMA_FOREIGN), RG(DELTA_NUMA_FOREIGN) },
{ RS(DELTA_NUMA_HINT_FAULTS), RG(DELTA_NUMA_HINT_FAULTS) },
{ RS(DELTA_NUMA_HINT_FAULTS_LOCAL), RG(DELTA_NUMA_HINT_FAULTS_LOCAL) },
{ RS(DELTA_NUMA_HIT), RG(DELTA_NUMA_HIT) },
{ RS(DELTA_NUMA_HUGE_PTE_UPDATES), RG(DELTA_NUMA_HUGE_PTE_UPDATES) },
{ RS(DELTA_NUMA_INTERLEAVE), RG(DELTA_NUMA_INTERLEAVE) },
{ RS(DELTA_NUMA_LOCAL), RG(DELTA_NUMA_LOCAL) },
{ RS(DELTA_NUMA_MISS), RG(DELTA_NUMA_MISS) },
{ RS(DELTA_NUMA_OTHER), RG(DELTA_NUMA_OTHER) },
{ RS(DELTA_NUMA_PAGES_MIGRATED), RG(DELTA_NUMA_PAGES_MIGRATED) },
{ RS(DELTA_NUMA_PTE_UPDATES), RG(DELTA_NUMA_PTE_UPDATES) },
{ RS(DELTA_PAGEOUTRUN), RG(DELTA_PAGEOUTRUN) },
{ RS(DELTA_PGACTIVATE), RG(DELTA_PGACTIVATE) },
{ RS(DELTA_PGALLOC_DMA), RG(DELTA_PGALLOC_DMA) },
{ RS(DELTA_PGALLOC_DMA32), RG(DELTA_PGALLOC_DMA32) },
{ RS(DELTA_PGALLOC_MOVABLE), RG(DELTA_PGALLOC_MOVABLE) },
{ RS(DELTA_PGALLOC_NORMAL), RG(DELTA_PGALLOC_NORMAL) },
{ RS(DELTA_PGDEACTIVATE), RG(DELTA_PGDEACTIVATE) },
{ RS(DELTA_PGFAULT), RG(DELTA_PGFAULT) },
{ RS(DELTA_PGFREE), RG(DELTA_PGFREE) },
{ RS(DELTA_PGINODESTEAL), RG(DELTA_PGINODESTEAL) },
{ RS(DELTA_PGMAJFAULT), RG(DELTA_PGMAJFAULT) },
{ RS(DELTA_PGMIGRATE_FAIL), RG(DELTA_PGMIGRATE_FAIL) },
{ RS(DELTA_PGMIGRATE_SUCCESS), RG(DELTA_PGMIGRATE_SUCCESS) },
{ RS(DELTA_PGPGIN), RG(DELTA_PGPGIN) },
{ RS(DELTA_PGPGOUT), RG(DELTA_PGPGOUT) },
{ RS(DELTA_PGREFILL_DMA), RG(DELTA_PGREFILL_DMA) },
{ RS(DELTA_PGREFILL_DMA32), RG(DELTA_PGREFILL_DMA32) },
{ RS(DELTA_PGREFILL_MOVABLE), RG(DELTA_PGREFILL_MOVABLE) },
{ RS(DELTA_PGREFILL_NORMAL), RG(DELTA_PGREFILL_NORMAL) },
{ RS(DELTA_PGROTATED), RG(DELTA_PGROTATED) },
{ RS(DELTA_PGSCAN_DIRECT_DMA), RG(DELTA_PGSCAN_DIRECT_DMA) },
{ RS(DELTA_PGSCAN_DIRECT_DMA32), RG(DELTA_PGSCAN_DIRECT_DMA32) },
{ RS(DELTA_PGSCAN_DIRECT_MOVABLE), RG(DELTA_PGSCAN_DIRECT_MOVABLE) },
{ RS(DELTA_PGSCAN_DIRECT_NORMAL), RG(DELTA_PGSCAN_DIRECT_NORMAL) },
{ RS(DELTA_PGSCAN_DIRECT_THROTTLE), RG(DELTA_PGSCAN_DIRECT_THROTTLE) },
{ RS(DELTA_PGSCAN_KSWAPD_DMA), RG(DELTA_PGSCAN_KSWAPD_DMA) },
{ RS(DELTA_PGSCAN_KSWAPD_DMA32), RG(DELTA_PGSCAN_KSWAPD_DMA32) },
{ RS(DELTA_PGSCAN_KSWAPD_MOVEABLE), RG(DELTA_PGSCAN_KSWAPD_MOVEABLE) },
{ RS(DELTA_PGSCAN_KSWAPD_NORMAL), RG(DELTA_PGSCAN_KSWAPD_NORMAL) },
{ RS(DELTA_PGSTEAL_DIRECT_DMA), RG(DELTA_PGSTEAL_DIRECT_DMA) },
{ RS(DELTA_PGSTEAL_DIRECT_DMA32), RG(DELTA_PGSTEAL_DIRECT_DMA32) },
{ RS(DELTA_PGSTEAL_DIRECT_MOVABLE), RG(DELTA_PGSTEAL_DIRECT_MOVABLE) },
{ RS(DELTA_PGSTEAL_DIRECT_NORMAL), RG(DELTA_PGSTEAL_DIRECT_NORMAL) },
{ RS(DELTA_PGSTEAL_KSWAPD_DMA), RG(DELTA_PGSTEAL_KSWAPD_DMA) },
{ RS(DELTA_PGSTEAL_KSWAPD_DMA32), RG(DELTA_PGSTEAL_KSWAPD_DMA32) },
{ RS(DELTA_PGSTEAL_KSWAPD_MOVABLE), RG(DELTA_PGSTEAL_KSWAPD_MOVABLE) },
{ RS(DELTA_PGSTEAL_KSWAPD_NORMAL), RG(DELTA_PGSTEAL_KSWAPD_NORMAL) },
{ RS(DELTA_PSWPIN), RG(DELTA_PSWPIN) },
{ RS(DELTA_PSWPOUT), RG(DELTA_PSWPOUT) },
{ RS(DELTA_SLABS_SCANNED), RG(DELTA_SLABS_SCANNED) },
{ RS(DELTA_THP_COLLAPSE_ALLOC), RG(DELTA_THP_COLLAPSE_ALLOC) },
{ RS(DELTA_THP_COLLAPSE_ALLOC_FAILED), RG(DELTA_THP_COLLAPSE_ALLOC_FAILED) },
{ RS(DELTA_THP_FAULT_ALLOC), RG(DELTA_THP_FAULT_ALLOC) },
{ RS(DELTA_THP_FAULT_FALLBACK), RG(DELTA_THP_FAULT_FALLBACK) },
{ RS(DELTA_THP_SPLIT), RG(DELTA_THP_SPLIT) },
{ RS(DELTA_THP_ZERO_PAGE_ALLOC), RG(DELTA_THP_ZERO_PAGE_ALLOC) },
{ RS(DELTA_THP_ZERO_PAGE_ALLOC_FAILED), RG(DELTA_THP_ZERO_PAGE_ALLOC_FAILED) },
{ RS(DELTA_UNEVICTABLE_PGS_CLEARED), RG(DELTA_UNEVICTABLE_PGS_CLEARED) },
{ RS(DELTA_UNEVICTABLE_PGS_CULLED), RG(DELTA_UNEVICTABLE_PGS_CULLED) },
{ RS(DELTA_UNEVICTABLE_PGS_MLOCKED), RG(DELTA_UNEVICTABLE_PGS_MLOCKED) },
{ RS(DELTA_UNEVICTABLE_PGS_MUNLOCKED), RG(DELTA_UNEVICTABLE_PGS_MUNLOCKED) },
{ RS(DELTA_UNEVICTABLE_PGS_RESCUED), RG(DELTA_UNEVICTABLE_PGS_RESCUED) },
{ RS(DELTA_UNEVICTABLE_PGS_SCANNED), RG(DELTA_UNEVICTABLE_PGS_SCANNED) },
{ RS(DELTA_UNEVICTABLE_PGS_STRANDED), RG(DELTA_UNEVICTABLE_PGS_STRANDED) },
{ RS(DELTA_WORKINGSET_ACTIVATE), RG(DELTA_WORKINGSET_ACTIVATE) },
{ RS(DELTA_WORKINGSET_NODERECLAIM), RG(DELTA_WORKINGSET_NODERECLAIM) },
{ RS(DELTA_WORKINGSET_REFAULT), RG(DELTA_WORKINGSET_REFAULT) },
{ RS(DELTA_ZONE_RECLAIM_FAILED), RG(DELTA_ZONE_RECLAIM_FAILED) },
{ NULL, NULL }
};
/* please note,
* this enum MUST be 1 greater than the highest value of any enum */
enum vmstat_item PROCPS_VMSTAT_logical_end = PROCPS_VMSTAT_DELTA_ZONE_RECLAIM_FAILED + 1;
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
#undef setNAME
#undef setDECL
#undef REG_set
#undef HST_set
#undef getNAME
#undef getDECL
#undef REG_get
#undef HST_get
#undef RS
#undef RG
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
// ___ Private Functions ||||||||||||||||||||||||||||||||||||||||||||||||||||||
static inline void assign_results (
struct vmstat_stack *stack,
struct vmstat_hist *hist)
{
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
struct vmstat_result *this = stack->head;
for (;;) {
enum vmstat_item item = this->item;
if (item >= PROCPS_VMSTAT_logical_end)
break;
Item_table[item].setsfunc(this, hist);
++this;
}
return;
} // end: assign_results
static inline void cleanup_stack (
struct vmstat_result *this)
{
for (;;) {
if (this->item >= PROCPS_VMSTAT_logical_end)
break;
if (this->item > PROCPS_VMSTAT_noop)
this->result.ul_int = 0;
++this;
}
} // end: cleanup_stack
static inline void cleanup_stacks_all (
struct procps_vmstat *info)
{
int i;
struct stacks_extent *ext = info->extents;
while (ext) {
for (i = 0; ext->stacks[i]; i++)
cleanup_stack(ext->stacks[i]->head);
ext = ext->next;
};
info->dirty_stacks = 0;
} // end: cleanup_stacks_all
static void extents_free_all (
struct procps_vmstat *info)
{
do {
struct stacks_extent *p = info->extents;
info->extents = info->extents->next;
free(p);
} while (info->extents);
} // end: extents_free_all
static inline struct vmstat_result *itemize_stack (
struct vmstat_result *p,
int depth,
enum vmstat_item *items)
{
struct vmstat_result *p_sav = p;
int i;
for (i = 0; i < depth; i++) {
p->item = items[i];
p->result.ul_int = 0;
++p;
}
return p_sav;
} // end: itemize_stack
static inline int items_check_failed (
int numitems,
enum vmstat_item *items)
{
int i;
/* if an enum is passed instead of an address of one or more enums, ol' gcc
* will silently convert it to an address (possibly NULL). only clang will
* offer any sort of warning like the following:
*
* warning: incompatible integer to pointer conversion passing 'int' to parameter of type 'enum vmstat_item *'
* my_stack = procps_vmstat_select(info, PROCPS_VMSTAT_noop, num);
* ^~~~~~~~~~~~~~~~
*/
if (numitems < 1
|| (void *)items < (void *)(unsigned long)(2 * PROCPS_VMSTAT_logical_end))
return -1;
for (i = 0; i < numitems; i++) {
// a vmstat_item is currently unsigned, but we'll protect our future
if (items[i] < 0)
return -1;
if (items[i] >= PROCPS_VMSTAT_logical_end)
return -1;
}
return 0;
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
} // end: items_check_failed
static int make_hash_failed (
struct procps_vmstat *info)
{
#define mkSTR(a) xySTR(a)
#define xySTR(z) #z
#define htVAL(f) e.key = mkSTR(f); e.data = &info->hist.new. f; \
if (!hsearch_r(e, ENTER, &ep, &info->hashtab)) return -errno;
ENTRY e, *ep;
size_t n;
n = sizeof(struct vmstat_data) / sizeof(unsigned long);
// we'll follow the hsearch recommendation of an extra 25%
hcreate_r(n + (n / 4), &info->hashtab);
htVAL(allocstall)
htVAL(balloon_deflate)
htVAL(balloon_inflate)
htVAL(balloon_migrate)
htVAL(compact_fail)
htVAL(compact_free_scanned)
htVAL(compact_isolated)
htVAL(compact_migrate_scanned)
htVAL(compact_stall)
htVAL(compact_success)
htVAL(drop_pagecache)
htVAL(drop_slab)
htVAL(htlb_buddy_alloc_fail)
htVAL(htlb_buddy_alloc_success)
htVAL(kswapd_high_wmark_hit_quickly)
htVAL(kswapd_inodesteal)
htVAL(kswapd_low_wmark_hit_quickly)
htVAL(nr_active_anon)
htVAL(nr_active_file)
htVAL(nr_alloc_batch)
htVAL(nr_anon_pages)
htVAL(nr_anon_transparent_hugepages)
htVAL(nr_bounce)
htVAL(nr_dirtied)
htVAL(nr_dirty)
htVAL(nr_dirty_background_threshold)
htVAL(nr_dirty_threshold)
htVAL(nr_file_pages)
htVAL(nr_free_cma)
htVAL(nr_free_pages)
htVAL(nr_inactive_anon)
htVAL(nr_inactive_file)
htVAL(nr_isolated_anon)
htVAL(nr_isolated_file)
htVAL(nr_kernel_stack)
htVAL(nr_mapped)
htVAL(nr_mlock)
htVAL(nr_pages_scanned)
htVAL(nr_page_table_pages)
htVAL(nr_shmem)
htVAL(nr_slab_reclaimable)
htVAL(nr_slab_unreclaimable)
htVAL(nr_unevictable)
htVAL(nr_unstable)
htVAL(nr_vmscan_immediate_reclaim)
htVAL(nr_vmscan_write)
htVAL(nr_writeback)
htVAL(nr_writeback_temp)
htVAL(nr_written)
htVAL(numa_foreign)
htVAL(numa_hint_faults)
htVAL(numa_hint_faults_local)
htVAL(numa_hit)
htVAL(numa_huge_pte_updates)
htVAL(numa_interleave)
htVAL(numa_local)
htVAL(numa_miss)
htVAL(numa_other)
htVAL(numa_pages_migrated)
htVAL(numa_pte_updates)
htVAL(pageoutrun)
htVAL(pgactivate)
htVAL(pgalloc_dma)
htVAL(pgalloc_dma32)
htVAL(pgalloc_movable)
htVAL(pgalloc_normal)
htVAL(pgdeactivate)
htVAL(pgfault)
htVAL(pgfree)
htVAL(pginodesteal)
htVAL(pgmajfault)
htVAL(pgmigrate_fail)
htVAL(pgmigrate_success)
htVAL(pgpgin)
htVAL(pgpgout)
htVAL(pgrefill_dma)
htVAL(pgrefill_dma32)
htVAL(pgrefill_movable)
htVAL(pgrefill_normal)
htVAL(pgrotated)
htVAL(pgscan_direct_dma)
htVAL(pgscan_direct_dma32)
htVAL(pgscan_direct_movable)
htVAL(pgscan_direct_normal)
htVAL(pgscan_direct_throttle)
htVAL(pgscan_kswapd_dma)
htVAL(pgscan_kswapd_dma32)
htVAL(pgscan_kswapd_movable)
htVAL(pgscan_kswapd_normal)
htVAL(pgsteal_direct_dma)
htVAL(pgsteal_direct_dma32)
htVAL(pgsteal_direct_movable)
htVAL(pgsteal_direct_normal)
htVAL(pgsteal_kswapd_dma)
htVAL(pgsteal_kswapd_dma32)
htVAL(pgsteal_kswapd_movable)
htVAL(pgsteal_kswapd_normal)
htVAL(pswpin)
htVAL(pswpout)
htVAL(slabs_scanned)
htVAL(thp_collapse_alloc)
htVAL(thp_collapse_alloc_failed)
htVAL(thp_fault_alloc)
htVAL(thp_fault_fallback)
htVAL(thp_split)
htVAL(thp_zero_page_alloc)
htVAL(thp_zero_page_alloc_failed)
htVAL(unevictable_pgs_cleared)
htVAL(unevictable_pgs_culled)
htVAL(unevictable_pgs_mlocked)
htVAL(unevictable_pgs_munlocked)
htVAL(unevictable_pgs_rescued)
htVAL(unevictable_pgs_scanned)
htVAL(unevictable_pgs_stranded)
htVAL(workingset_activate)
htVAL(workingset_nodereclaim)
htVAL(workingset_refault)
htVAL(zone_reclaim_failed)
return 0;
#undef mkSTR
#undef xySTR
#undef htVAL
} // end: make_hash_failed
/*
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
* read_vmstat_failed():
*
* Read the data out of /proc/vmstat putting the information
* into the supplied info structure
*/
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
static int read_vmstat_failed (
struct procps_vmstat *info)
{
char buf[8192];
char *head, *tail;
int size;
unsigned long *valptr;
if (info == NULL)
return -1;
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
// remember history from last time around
memcpy(&info->hist.old, &info->hist.new, sizeof(struct vmstat_data));
// clear out the soon to be 'current' values
memset(&info->hist.new, 0, sizeof(struct vmstat_data));
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
if (-1 == info->vmstat_fd
&& (info->vmstat_fd = open(VMSTAT_FILE, O_RDONLY)) == -1)
return -errno;
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
if (lseek(info->vmstat_fd, 0L, SEEK_SET) == -1)
return -errno;
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
for (;;) {
if ((size = read(info->vmstat_fd, buf, sizeof(buf)-1)) < 0) {
if (errno == EINTR || errno == EAGAIN)
continue;
return -errno;
}
break;
}
if (size == 0)
return 0;
buf[size] = '\0';
head = buf;
do {
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
ENTRY e, *ep;
tail = strchr(head, ' ');
if (!tail)
break;
*tail = '\0';
valptr = NULL;
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
e.key = head;
if (hsearch_r(e, FIND, &ep, &info->hashtab))
valptr = ep->data;
head = tail + 1;
if (valptr)
*valptr = strtoul(head, &tail, 10);
tail = strchr(head, '\n');
if (!tail)
break;
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
head = tail + 1;
} while(tail);
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
// let's not distort the deltas the first time thru ...
if (!info->vmstat_was_read)
memcpy(&info->hist.old, &info->hist.new, sizeof(struct vmstat_data));
info->vmstat_was_read = 1;
return 0;
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
} // end: read_vmstat_failed
/*
* stacks_alloc():
*
* Allocate and initialize one or more stacks each of which is anchored in an
* associated vmstat_stack structure.
*
* All such stacks will have their result structures properly primed with
* 'items', while the result itself will be zeroed.
*
* Returns a stacks_extent struct anchoring the 'heads' of each new stack.
*/
static struct stacks_extent *stacks_alloc (
struct procps_vmstat *info,
int maxstacks)
{
struct stacks_extent *p_blob;
struct vmstat_stack **p_vect;
struct vmstat_stack *p_head;
size_t vect_size, head_size, list_size, blob_size;
void *v_head, *v_list;
int i;
if (info == NULL || info->items == NULL)
return NULL;
if (maxstacks < 1)
return NULL;
vect_size = sizeof(void *) * maxstacks; // size of the addr vectors |
vect_size += sizeof(void *); // plus NULL addr delimiter |
head_size = sizeof(struct vmstat_stack); // size of that head struct |
list_size = sizeof(struct vmstat_result)*info->numitems; // any single results stack |
blob_size = sizeof(struct stacks_extent); // the extent anchor itself |
blob_size += vect_size; // plus room for addr vects |
blob_size += head_size * maxstacks; // plus room for head thing |
blob_size += list_size * maxstacks; // plus room for our stacks |
/* note: all of our memory is allocated in a single blob, facilitating a later free(). |
as a minimum, it is important that the result structures themselves always be |
contiguous for every stack since they are accessed through relative position. | */
if (NULL == (p_blob = calloc(1, blob_size)))
return NULL;
p_blob->next = info->extents; // push this extent onto... |
info->extents = p_blob; // ...some existing extents |
p_vect = (void *)p_blob + sizeof(struct stacks_extent); // prime our vector pointer |
p_blob->stacks = p_vect; // set actual vectors start |
v_head = (void *)p_vect + vect_size; // prime head pointer start |
v_list = v_head + (head_size * maxstacks); // prime our stacks pointer |
for (i = 0; i < maxstacks; i++) {
p_head = (struct vmstat_stack *)v_head;
p_head->head = itemize_stack((struct vmstat_result *)v_list, info->numitems, info->items);
p_blob->stacks[i] = p_head;
v_list += list_size;
v_head += head_size;
}
p_blob->ext_numstacks = maxstacks;
return p_blob;
} // end: stacks_alloc
// ___ Public Functions |||||||||||||||||||||||||||||||||||||||||||||||||||||||
/*
* procps_vmstat_new:
*
* Create a new container to hold the stat information
*
* The initial refcount is 1, and needs to be decremented
* to release the resources of the structure.
*
* Returns: a pointer to a new vmstatinfo struct
*/
PROCPS_EXPORT int procps_vmstat_new (
struct procps_vmstat **info)
{
struct procps_vmstat *p;
int rc;
if (info == NULL || *info != NULL)
return -EINVAL;
if (!(p = calloc(1, sizeof(struct procps_vmstat))))
return -ENOMEM;
p->refcount = 1;
p->vmstat_fd = -1;
if ((rc = make_hash_failed(p))) {
free(p);
return rc;
}
*info = p;
return 0;
} // end: procps_vmstat_new
PROCPS_EXPORT int procps_vmstat_ref (
struct procps_vmstat *info)
{
if (info == NULL)
return -EINVAL;
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
info->refcount++;
return info->refcount;
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
} // end: procps_vmstat_ref
PROCPS_EXPORT int procps_vmstat_unref (
struct procps_vmstat **info)
{
if (info == NULL || *info == NULL)
return -EINVAL;
(*info)->refcount--;
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
if ((*info)->refcount == 0) {
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
if ((*info)->extents)
extents_free_all((*info));
if ((*info)->items)
free((*info)->items);
hdestroy_r(&(*info)->hashtab);
free(*info);
*info = NULL;
return 0;
}
return (*info)->refcount;
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
} // end: procps_vmstat_unref
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
PROCPS_EXPORT signed long procps_vmstat_get (
struct procps_vmstat *info,
enum vmstat_item item)
{
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
static time_t sav_secs;
time_t cur_secs;
int rc;
if (info == NULL)
return -EINVAL;
if (item < 0 || item >= PROCPS_VMSTAT_logical_end)
return -EINVAL;
/* we will NOT read the vmstat file with every call - rather, we'll offer
a granularity of 1 second between reads ... */
cur_secs = time(NULL);
if (1 <= cur_secs - sav_secs) {
if ((rc = read_vmstat_failed(info)))
return rc;
sav_secs = cur_secs;
}
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
if (item < PROCPS_VMSTAT_logical_end)
return Item_table[item].getsfunc(info);
return -EINVAL;
} // end: procps_vmstat_get
/* procps_vmstat_select():
*
* Harvest all the requested /proc/vmstat information then return
* it in a results stack.
*
* Returns: pointer to a vmstat_stack struct on success, NULL on error.
*/
PROCPS_EXPORT struct vmstat_stack *procps_vmstat_select (
struct procps_vmstat *info,
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
enum vmstat_item *items,
int numitems)
{
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
if (info == NULL || items == NULL)
return NULL;
if (items_check_failed(numitems, items))
return NULL;
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
/* is this the first time or have things changed since we were last called?
if so, gotta' redo all of our stacks stuff ... */
if (info->numitems != numitems + 1
|| memcmp(info->items, items, sizeof(enum vmstat_item) * numitems)) {
// allow for our PROCPS_VMSTAT_logical_end
if (!(info->items = realloc(info->items, sizeof(enum vmstat_item) * (numitems + 1))))
return NULL;
memcpy(info->items, items, sizeof(enum vmstat_item) * numitems);
info->items[numitems] = PROCPS_VMSTAT_logical_end;
info->numitems = numitems + 1;
if (info->extents)
extents_free_all(info);
library: vmstat redesign now using 'stack' vs. 'chain' In addition to that text shown below the line which is common to several commit messages, this patch contains several minor changes with lessor impact upon the API: . Standard copyright boilerplate was added in .c file. . The #include header files are ordered alphabetically now, with all those <sys/??> types separately grouped. . The header file follows the conventions of indenting (by 4 spaces) those parameters too lengthy for 1 line. ------------------------------------------------------ . The former 'chains' have now become 'stacks' without the 'next' pointer in each result struct. The pointers initially seemed to offer some flexibility with memory allocations and benefits for the library access logic. However, user access was always via displacement and a a statically allocated chain was cumbersome to define. . An enumerator ending in '_noop' will no longer serve as a fencepost delimiter. Rather, it has become a much more important and flexible user oriented tool. Adding one or more such 'items' in any items list passed into the library becomes the means of extending the 'stack' to also include user (not just library) data. Any such data is guaranteed to never be altered by the library. . Anticipating PID support, where many different types must be represented in a result structure, we'll adopt a common naming standard. And, while not every results structure currently needs to reflect disparate types a union will be employed so the same dot qualifier ('.') can be used consistently when accessing all such data. Signed-off-by: Jim Warner <james.warner@comcast.net>
2015-07-21 10:30:00 +05:30
}
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
if (!info->extents
&& !(stacks_alloc(info, 1)))
library: normalize/standardize interface, <VMSTAT> api This interface represented a 2nd generation attempt at the opaque newlib approach. In other words, it did not involve the 1st generation 'chains'. Instead, 'stacks' were employed. But the interface wasn't user friendly. Users were required to create their own stacks, before calling 'getstack' to retrieve multiple results with a single call. Even worse, sometimes 'read' was required before calling 'get' when working with single results. So this commit represents the 3rd generation approach. We eliminate the burden of 'read' and creating stacks. Rather, beyond those standard 'new', 'ref' and 'unref' functions, we'll offer just 'get' (single result) plus a 'select' function (for multiple results in 1 stack). And along the way, this commit vastly expands the data extracted from /proc/vmstat. All values that currently exist (and their delta equivalents) are now available. Deltas were included for everything because there's no real runtime costs beyond using a little extra memory. The only problem is a lack of documentation for all of those fields, as is reflected in the references below. Oh well, maybe someday someone will dig through kernel sources & finally plug that rather large document gap. [ as an aside, rather than using a 'strcmp' approach ] [ when parsing the /proc/vmstat file, as is found in ] [ the <meminfo> module, we exploit those hash search ] [ provisions that are found in the <search.h> header ] Reference(s): http://www.spinics.net/lists/linux-man/msg09096.html http://www.linuxinsight.com/proc_vmstat.html Signed-off-by: Jim Warner <james.warner@comcast.net>
2016-06-04 10:30:00 +05:30
return NULL;
if (info->dirty_stacks)
cleanup_stacks_all(info);
if (read_vmstat_failed(info))
return NULL;
assign_results(info->extents->stacks[0], &info->hist);
info->dirty_stacks = 1;
return info->extents->stacks[0];
} // end: procps_vmstat_select