2184e90d2e
In an effort to more accurately reflect 'used' memory, we will now rely on the kernel's estimate of available memory. Thus, 'MEMINFO_MEM_USED' will be calculated as just 'MEMINFO_MEM_TOTAL' less 'MEMINFO_MEM_AVAILABLE'. Reference(s): . thread leading to agreed upon change https://www.freelists.org/post/procps/free-regression-due-to-a-different-calculation-of-Used-memory . where consensus reached https://www.freelists.org/post/procps/free-regression-due-to-a-different-calculation-of-Used-memory,11 https://www.freelists.org/post/procps/free-regression-due-to-a-different-calculation-of-Used-memory,12 Signed-off-by: Jim Warner <james.warner@comcast.net>
1017 lines
35 KiB
C
1017 lines
35 KiB
C
/*
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* meminfo.c - memory related definitions for libprocps
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*
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* Copyright (C) 2015 Craig Small <csmall@dropbear.xyz>
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* Copyright (C) 2016-2022 Jim Warner <james.warner@comcast.net>
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with this library; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*/
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#include <errno.h>
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#include <fcntl.h>
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#include <search.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <time.h>
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#include <unistd.h>
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#include <sys/stat.h>
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#include <sys/types.h>
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#include <proc/procps-private.h>
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#include <proc/meminfo.h>
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#define MEMINFO_FILE "/proc/meminfo"
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#define MEMINFO_BUFF 8192
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/* ------------------------------------------------------------------------- +
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this provision can be used to ensure that our Item_table was synchronized |
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with those enumerators found in the associated header file. It's intended |
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to only be used locally (& temporarily) at some point prior to a release! | */
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// #define ITEMTABLE_DEBUG //----------------------------------------------- |
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// ------------------------------------------------------------------------- +
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struct meminfo_data {
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unsigned long Active;
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unsigned long Active_anon; // as: Active(anon): man 5 proc: 'to be documented'
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unsigned long Active_file; // as: Active(file): man 5 proc: 'to be documented'
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unsigned long AnonHugePages;
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unsigned long AnonPages;
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unsigned long Bounce;
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unsigned long Buffers;
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unsigned long Cached;
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unsigned long CmaFree;
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unsigned long CmaTotal;
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unsigned long CommitLimit;
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unsigned long Committed_AS;
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unsigned long DirectMap1G;
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unsigned long DirectMap2M;
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unsigned long DirectMap4M;
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unsigned long DirectMap4k;
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unsigned long Dirty;
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unsigned long FileHugePages;
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unsigned long FilePmdMapped;
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unsigned long HardwareCorrupted; // man 5 proc: 'to be documented'
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unsigned long HighFree;
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unsigned long HighTotal;
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unsigned long HugePages_Free;
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unsigned long HugePages_Rsvd;
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unsigned long HugePages_Surp;
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unsigned long HugePages_Total;
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unsigned long Hugepagesize;
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unsigned long Hugetlb;
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unsigned long Inactive;
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unsigned long Inactive_anon; // as: Inactive(anon): man 5 proc: 'to be documented'
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unsigned long Inactive_file; // as: Inactive(file): man 5 proc: 'to be documented'
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unsigned long KReclaimable;
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unsigned long KernelStack;
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unsigned long LowFree;
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unsigned long LowTotal;
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unsigned long Mapped;
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unsigned long MemAvailable;
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unsigned long MemFree;
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unsigned long MemTotal;
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unsigned long Mlocked; // man 5 proc: 'to be documented'
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unsigned long MmapCopy; // man 5 proc: 'to be documented'
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unsigned long NFS_Unstable;
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unsigned long PageTables;
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unsigned long Percpu;
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unsigned long SReclaimable;
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unsigned long SUnreclaim;
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unsigned long ShadowCallStack;
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unsigned long Shmem;
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unsigned long ShmemHugePages;
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unsigned long ShmemPmdMapped;
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unsigned long Slab;
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unsigned long SwapCached;
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unsigned long SwapFree;
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unsigned long SwapTotal;
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unsigned long Unevictable; // man 5 proc: 'to be documented'
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unsigned long VmallocChunk;
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unsigned long VmallocTotal;
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unsigned long VmallocUsed;
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unsigned long Writeback;
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unsigned long WritebackTmp;
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unsigned long derived_mem_cached;
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unsigned long derived_mem_hi_used;
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unsigned long derived_mem_lo_used;
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unsigned long derived_mem_used;
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unsigned long derived_swap_used;
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};
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struct mem_hist {
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struct meminfo_data new;
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struct meminfo_data old;
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};
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struct stacks_extent {
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int ext_numstacks;
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struct stacks_extent *next;
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struct meminfo_stack **stacks;
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};
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struct meminfo_info {
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int refcount;
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int meminfo_fd;
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struct mem_hist hist;
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int numitems;
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enum meminfo_item *items;
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struct stacks_extent *extents;
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struct hsearch_data hashtab;
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struct meminfo_result get_this;
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time_t sav_secs;
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};
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// ___ Results 'Set' Support ||||||||||||||||||||||||||||||||||||||||||||||||||
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#define setNAME(e) set_meminfo_ ## e
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#define setDECL(e) static void setNAME(e) \
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(struct meminfo_result *R, struct mem_hist *H)
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// regular assignment
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#define MEM_set(e,t,x) setDECL(e) { R->result. t = H->new. x; }
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// delta assignment
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#define HST_set(e,t,x) setDECL(e) { R->result. t = ( H->new. x - H->old. x ); }
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setDECL(noop) { (void)R; (void)H; }
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setDECL(extra) { (void)H; R->result.ul_int = 0; }
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MEM_set(MEM_ACTIVE, ul_int, Active)
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MEM_set(MEM_ACTIVE_ANON, ul_int, Active_anon)
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MEM_set(MEM_ACTIVE_FILE, ul_int, Active_file)
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MEM_set(MEM_ANON, ul_int, AnonPages)
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MEM_set(MEM_AVAILABLE, ul_int, MemAvailable)
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MEM_set(MEM_BOUNCE, ul_int, Bounce)
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MEM_set(MEM_BUFFERS, ul_int, Buffers)
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MEM_set(MEM_CACHED, ul_int, Cached)
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MEM_set(MEM_CACHED_ALL, ul_int, derived_mem_cached)
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MEM_set(MEM_CMA_FREE, ul_int, CmaFree)
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MEM_set(MEM_CMA_TOTAL, ul_int, CmaTotal)
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MEM_set(MEM_COMMITTED_AS, ul_int, Committed_AS)
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MEM_set(MEM_COMMIT_LIMIT, ul_int, CommitLimit)
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MEM_set(MEM_DIRECTMAP_1G, ul_int, DirectMap1G)
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MEM_set(MEM_DIRECTMAP_2M, ul_int, DirectMap2M)
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MEM_set(MEM_DIRECTMAP_4K, ul_int, DirectMap4k)
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MEM_set(MEM_DIRECTMAP_4M, ul_int, DirectMap4M)
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MEM_set(MEM_DIRTY, ul_int, Dirty)
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MEM_set(MEM_FILE_HUGEPAGES, ul_int, FileHugePages)
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MEM_set(MEM_FILE_PMDMAPPED, ul_int, FilePmdMapped)
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MEM_set(MEM_FREE, ul_int, MemFree)
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MEM_set(MEM_HARD_CORRUPTED, ul_int, HardwareCorrupted)
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MEM_set(MEM_HIGH_FREE, ul_int, HighFree)
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MEM_set(MEM_HIGH_TOTAL, ul_int, HighTotal)
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MEM_set(MEM_HIGH_USED, ul_int, derived_mem_hi_used)
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MEM_set(MEM_HUGETBL, ul_int, Hugetlb)
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MEM_set(MEM_HUGE_ANON, ul_int, AnonHugePages)
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MEM_set(MEM_HUGE_FREE, ul_int, HugePages_Free)
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MEM_set(MEM_HUGE_RSVD, ul_int, HugePages_Rsvd)
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MEM_set(MEM_HUGE_SIZE, ul_int, Hugepagesize)
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MEM_set(MEM_HUGE_SURPLUS, ul_int, HugePages_Surp)
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MEM_set(MEM_HUGE_TOTAL, ul_int, HugePages_Total)
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MEM_set(MEM_INACTIVE, ul_int, Inactive)
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MEM_set(MEM_INACTIVE_ANON, ul_int, Inactive_anon)
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MEM_set(MEM_INACTIVE_FILE, ul_int, Inactive_file)
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MEM_set(MEM_KERNEL_RECLAIM, ul_int, KReclaimable)
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MEM_set(MEM_KERNEL_STACK, ul_int, KernelStack)
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MEM_set(MEM_LOCKED, ul_int, Mlocked)
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MEM_set(MEM_LOW_FREE, ul_int, LowFree)
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MEM_set(MEM_LOW_TOTAL, ul_int, LowTotal)
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MEM_set(MEM_LOW_USED, ul_int, derived_mem_lo_used)
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MEM_set(MEM_MAPPED, ul_int, Mapped)
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MEM_set(MEM_MAP_COPY, ul_int, MmapCopy)
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MEM_set(MEM_NFS_UNSTABLE, ul_int, NFS_Unstable)
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MEM_set(MEM_PAGE_TABLES, ul_int, PageTables)
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MEM_set(MEM_PER_CPU, ul_int, Percpu)
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MEM_set(MEM_SHADOWCALLSTACK, ul_int, ShadowCallStack)
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MEM_set(MEM_SHARED, ul_int, Shmem)
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MEM_set(MEM_SHMEM_HUGE, ul_int, ShmemHugePages)
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MEM_set(MEM_SHMEM_HUGE_MAP, ul_int, ShmemPmdMapped)
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MEM_set(MEM_SLAB, ul_int, Slab)
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MEM_set(MEM_SLAB_RECLAIM, ul_int, SReclaimable)
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MEM_set(MEM_SLAB_UNRECLAIM, ul_int, SUnreclaim)
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MEM_set(MEM_TOTAL, ul_int, MemTotal)
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MEM_set(MEM_UNEVICTABLE, ul_int, Unevictable)
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MEM_set(MEM_USED, ul_int, derived_mem_used)
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MEM_set(MEM_VM_ALLOC_CHUNK, ul_int, VmallocChunk)
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MEM_set(MEM_VM_ALLOC_TOTAL, ul_int, VmallocTotal)
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MEM_set(MEM_VM_ALLOC_USED, ul_int, VmallocUsed)
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MEM_set(MEM_WRITEBACK, ul_int, Writeback)
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MEM_set(MEM_WRITEBACK_TMP, ul_int, WritebackTmp)
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HST_set(DELTA_ACTIVE, s_int, Active)
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HST_set(DELTA_ACTIVE_ANON, s_int, Active_anon)
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HST_set(DELTA_ACTIVE_FILE, s_int, Active_file)
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HST_set(DELTA_ANON, s_int, AnonPages)
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HST_set(DELTA_AVAILABLE, s_int, MemAvailable)
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HST_set(DELTA_BOUNCE, s_int, Bounce)
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HST_set(DELTA_BUFFERS, s_int, Buffers)
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HST_set(DELTA_CACHED, s_int, Cached)
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HST_set(DELTA_CACHED_ALL, s_int, derived_mem_cached)
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HST_set(DELTA_CMA_FREE, s_int, CmaFree)
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HST_set(DELTA_CMA_TOTAL, s_int, CmaTotal)
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HST_set(DELTA_COMMITTED_AS, s_int, Committed_AS)
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HST_set(DELTA_COMMIT_LIMIT, s_int, CommitLimit)
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HST_set(DELTA_DIRECTMAP_1G, s_int, DirectMap1G)
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HST_set(DELTA_DIRECTMAP_2M, s_int, DirectMap2M)
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HST_set(DELTA_DIRECTMAP_4K, s_int, DirectMap4k)
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HST_set(DELTA_DIRECTMAP_4M, s_int, DirectMap4M)
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HST_set(DELTA_DIRTY, s_int, Dirty)
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HST_set(DELTA_FILE_HUGEPAGES, s_int, FileHugePages)
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HST_set(DELTA_FILE_PMDMAPPED, s_int, FilePmdMapped)
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HST_set(DELTA_FREE, s_int, MemFree)
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HST_set(DELTA_HARD_CORRUPTED, s_int, HardwareCorrupted)
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HST_set(DELTA_HIGH_FREE, s_int, HighFree)
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HST_set(DELTA_HIGH_TOTAL, s_int, HighTotal)
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HST_set(DELTA_HIGH_USED, s_int, derived_mem_hi_used)
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HST_set(DELTA_HUGETBL, s_int, Hugetlb)
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HST_set(DELTA_HUGE_ANON, s_int, AnonHugePages)
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HST_set(DELTA_HUGE_FREE, s_int, HugePages_Free)
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HST_set(DELTA_HUGE_RSVD, s_int, HugePages_Rsvd)
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HST_set(DELTA_HUGE_SIZE, s_int, Hugepagesize)
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HST_set(DELTA_HUGE_SURPLUS, s_int, HugePages_Surp)
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HST_set(DELTA_HUGE_TOTAL, s_int, HugePages_Total)
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HST_set(DELTA_INACTIVE, s_int, Inactive)
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HST_set(DELTA_INACTIVE_ANON, s_int, Inactive_anon)
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HST_set(DELTA_INACTIVE_FILE, s_int, Inactive_file)
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HST_set(DELTA_KERNEL_RECLAIM, s_int, KReclaimable)
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HST_set(DELTA_KERNEL_STACK, s_int, KernelStack)
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HST_set(DELTA_LOCKED, s_int, Mlocked)
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HST_set(DELTA_LOW_FREE, s_int, LowFree)
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HST_set(DELTA_LOW_TOTAL, s_int, LowTotal)
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HST_set(DELTA_LOW_USED, s_int, derived_mem_lo_used)
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HST_set(DELTA_MAPPED, s_int, Mapped)
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HST_set(DELTA_MAP_COPY, s_int, MmapCopy)
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HST_set(DELTA_NFS_UNSTABLE, s_int, NFS_Unstable)
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HST_set(DELTA_PAGE_TABLES, s_int, PageTables)
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HST_set(DELTA_PER_CPU, s_int, Percpu)
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HST_set(DELTA_SHADOWCALLSTACK, s_int, ShadowCallStack)
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HST_set(DELTA_SHARED, s_int, Shmem)
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HST_set(DELTA_SHMEM_HUGE, s_int, ShmemHugePages)
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HST_set(DELTA_SHMEM_HUGE_MAP, s_int, ShmemPmdMapped)
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HST_set(DELTA_SLAB, s_int, Slab)
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HST_set(DELTA_SLAB_RECLAIM, s_int, SReclaimable)
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HST_set(DELTA_SLAB_UNRECLAIM, s_int, SUnreclaim)
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HST_set(DELTA_TOTAL, s_int, MemTotal)
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HST_set(DELTA_UNEVICTABLE, s_int, Unevictable)
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HST_set(DELTA_USED, s_int, derived_mem_used)
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HST_set(DELTA_VM_ALLOC_CHUNK, s_int, VmallocChunk)
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HST_set(DELTA_VM_ALLOC_TOTAL, s_int, VmallocTotal)
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HST_set(DELTA_VM_ALLOC_USED, s_int, VmallocUsed)
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HST_set(DELTA_WRITEBACK, s_int, Writeback)
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HST_set(DELTA_WRITEBACK_TMP, s_int, WritebackTmp)
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MEM_set(SWAP_CACHED, ul_int, SwapCached)
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MEM_set(SWAP_FREE, ul_int, SwapFree)
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MEM_set(SWAP_TOTAL, ul_int, SwapTotal)
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MEM_set(SWAP_USED, ul_int, derived_swap_used)
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HST_set(SWAP_DELTA_CACHED, s_int, SwapCached)
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HST_set(SWAP_DELTA_FREE, s_int, SwapFree)
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HST_set(SWAP_DELTA_TOTAL, s_int, SwapTotal)
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HST_set(SWAP_DELTA_USED, s_int, derived_swap_used)
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#undef setDECL
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#undef MEM_set
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#undef HST_set
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// ___ Controlling Table ||||||||||||||||||||||||||||||||||||||||||||||||||||||
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typedef void (*SET_t)(struct meminfo_result *, struct mem_hist *);
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#ifdef ITEMTABLE_DEBUG
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#define RS(e) (SET_t)setNAME(e), MEMINFO_ ## e, STRINGIFY(MEMINFO_ ## e)
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#else
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#define RS(e) (SET_t)setNAME(e)
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#endif
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#define TS(t) STRINGIFY(t)
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#define TS_noop ""
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/*
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* Need it be said?
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* This table must be kept in the exact same order as
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* those 'enum meminfo_item' guys ! */
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static struct {
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SET_t setsfunc; // the actual result setting routine
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#ifdef ITEMTABLE_DEBUG
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int enumnumb; // enumerator (must match position!)
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char *enum2str; // enumerator name as a char* string
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#endif
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char *type2str; // the result type as a string value
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} Item_table[] = {
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/* setsfunc type2str
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------------------------- ---------- */
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{ RS(noop), TS_noop },
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{ RS(extra), TS_noop },
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{ RS(MEM_ACTIVE), TS(ul_int) },
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{ RS(MEM_ACTIVE_ANON), TS(ul_int) },
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{ RS(MEM_ACTIVE_FILE), TS(ul_int) },
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{ RS(MEM_ANON), TS(ul_int) },
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{ RS(MEM_AVAILABLE), TS(ul_int) },
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{ RS(MEM_BOUNCE), TS(ul_int) },
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{ RS(MEM_BUFFERS), TS(ul_int) },
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{ RS(MEM_CACHED), TS(ul_int) },
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{ RS(MEM_CACHED_ALL), TS(ul_int) },
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{ RS(MEM_CMA_FREE), TS(ul_int) },
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{ RS(MEM_CMA_TOTAL), TS(ul_int) },
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{ RS(MEM_COMMITTED_AS), TS(ul_int) },
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{ RS(MEM_COMMIT_LIMIT), TS(ul_int) },
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{ RS(MEM_DIRECTMAP_1G), TS(ul_int) },
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{ RS(MEM_DIRECTMAP_2M), TS(ul_int) },
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{ RS(MEM_DIRECTMAP_4K), TS(ul_int) },
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{ RS(MEM_DIRECTMAP_4M), TS(ul_int) },
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{ RS(MEM_DIRTY), TS(ul_int) },
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{ RS(MEM_FILE_HUGEPAGES), TS(ul_int) },
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{ RS(MEM_FILE_PMDMAPPED), TS(ul_int) },
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{ RS(MEM_FREE), TS(ul_int) },
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{ RS(MEM_HARD_CORRUPTED), TS(ul_int) },
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{ RS(MEM_HIGH_FREE), TS(ul_int) },
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{ RS(MEM_HIGH_TOTAL), TS(ul_int) },
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{ RS(MEM_HIGH_USED), TS(ul_int) },
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{ RS(MEM_HUGETBL), TS(ul_int) },
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{ RS(MEM_HUGE_ANON), TS(ul_int) },
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{ RS(MEM_HUGE_FREE), TS(ul_int) },
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{ RS(MEM_HUGE_RSVD), TS(ul_int) },
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{ RS(MEM_HUGE_SIZE), TS(ul_int) },
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{ RS(MEM_HUGE_SURPLUS), TS(ul_int) },
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{ RS(MEM_HUGE_TOTAL), TS(ul_int) },
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{ RS(MEM_INACTIVE), TS(ul_int) },
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{ RS(MEM_INACTIVE_ANON), TS(ul_int) },
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{ RS(MEM_INACTIVE_FILE), TS(ul_int) },
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{ RS(MEM_KERNEL_RECLAIM), TS(ul_int) },
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{ RS(MEM_KERNEL_STACK), TS(ul_int) },
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{ RS(MEM_LOCKED), TS(ul_int) },
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{ RS(MEM_LOW_FREE), TS(ul_int) },
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{ RS(MEM_LOW_TOTAL), TS(ul_int) },
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{ RS(MEM_LOW_USED), TS(ul_int) },
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{ RS(MEM_MAPPED), TS(ul_int) },
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{ RS(MEM_MAP_COPY), TS(ul_int) },
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{ RS(MEM_NFS_UNSTABLE), TS(ul_int) },
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{ RS(MEM_PAGE_TABLES), TS(ul_int) },
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{ RS(MEM_PER_CPU), TS(ul_int) },
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{ RS(MEM_SHADOWCALLSTACK), TS(ul_int) },
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{ RS(MEM_SHARED), TS(ul_int) },
|
|
{ RS(MEM_SHMEM_HUGE), TS(ul_int) },
|
|
{ RS(MEM_SHMEM_HUGE_MAP), TS(ul_int) },
|
|
{ RS(MEM_SLAB), TS(ul_int) },
|
|
{ RS(MEM_SLAB_RECLAIM), TS(ul_int) },
|
|
{ RS(MEM_SLAB_UNRECLAIM), TS(ul_int) },
|
|
{ RS(MEM_TOTAL), TS(ul_int) },
|
|
{ RS(MEM_UNEVICTABLE), TS(ul_int) },
|
|
{ RS(MEM_USED), TS(ul_int) },
|
|
{ RS(MEM_VM_ALLOC_CHUNK), TS(ul_int) },
|
|
{ RS(MEM_VM_ALLOC_TOTAL), TS(ul_int) },
|
|
{ RS(MEM_VM_ALLOC_USED), TS(ul_int) },
|
|
{ RS(MEM_WRITEBACK), TS(ul_int) },
|
|
{ RS(MEM_WRITEBACK_TMP), TS(ul_int) },
|
|
|
|
{ RS(DELTA_ACTIVE), TS(s_int) },
|
|
{ RS(DELTA_ACTIVE_ANON), TS(s_int) },
|
|
{ RS(DELTA_ACTIVE_FILE), TS(s_int) },
|
|
{ RS(DELTA_ANON), TS(s_int) },
|
|
{ RS(DELTA_AVAILABLE), TS(s_int) },
|
|
{ RS(DELTA_BOUNCE), TS(s_int) },
|
|
{ RS(DELTA_BUFFERS), TS(s_int) },
|
|
{ RS(DELTA_CACHED), TS(s_int) },
|
|
{ RS(DELTA_CACHED_ALL), TS(s_int) },
|
|
{ RS(DELTA_CMA_FREE), TS(s_int) },
|
|
{ RS(DELTA_CMA_TOTAL), TS(s_int) },
|
|
{ RS(DELTA_COMMITTED_AS), TS(s_int) },
|
|
{ RS(DELTA_COMMIT_LIMIT), TS(s_int) },
|
|
{ RS(DELTA_DIRECTMAP_1G), TS(s_int) },
|
|
{ RS(DELTA_DIRECTMAP_2M), TS(s_int) },
|
|
{ RS(DELTA_DIRECTMAP_4K), TS(s_int) },
|
|
{ RS(DELTA_DIRECTMAP_4M), TS(s_int) },
|
|
{ RS(DELTA_DIRTY), TS(s_int) },
|
|
{ RS(DELTA_FILE_HUGEPAGES), TS(s_int) },
|
|
{ RS(DELTA_FILE_PMDMAPPED), TS(s_int) },
|
|
{ RS(DELTA_FREE), TS(s_int) },
|
|
{ RS(DELTA_HARD_CORRUPTED), TS(s_int) },
|
|
{ RS(DELTA_HIGH_FREE), TS(s_int) },
|
|
{ RS(DELTA_HIGH_TOTAL), TS(s_int) },
|
|
{ RS(DELTA_HIGH_USED), TS(s_int) },
|
|
{ RS(DELTA_HUGETBL), TS(s_int) },
|
|
{ RS(DELTA_HUGE_ANON), TS(s_int) },
|
|
{ RS(DELTA_HUGE_FREE), TS(s_int) },
|
|
{ RS(DELTA_HUGE_RSVD), TS(s_int) },
|
|
{ RS(DELTA_HUGE_SIZE), TS(s_int) },
|
|
{ RS(DELTA_HUGE_SURPLUS), TS(s_int) },
|
|
{ RS(DELTA_HUGE_TOTAL), TS(s_int) },
|
|
{ RS(DELTA_INACTIVE), TS(s_int) },
|
|
{ RS(DELTA_INACTIVE_ANON), TS(s_int) },
|
|
{ RS(DELTA_INACTIVE_FILE), TS(s_int) },
|
|
{ RS(DELTA_KERNEL_RECLAIM), TS(s_int) },
|
|
{ RS(DELTA_KERNEL_STACK), TS(s_int) },
|
|
{ RS(DELTA_LOCKED), TS(s_int) },
|
|
{ RS(DELTA_LOW_FREE), TS(s_int) },
|
|
{ RS(DELTA_LOW_TOTAL), TS(s_int) },
|
|
{ RS(DELTA_LOW_USED), TS(s_int) },
|
|
{ RS(DELTA_MAPPED), TS(s_int) },
|
|
{ RS(DELTA_MAP_COPY), TS(s_int) },
|
|
{ RS(DELTA_NFS_UNSTABLE), TS(s_int) },
|
|
{ RS(DELTA_PAGE_TABLES), TS(s_int) },
|
|
{ RS(DELTA_PER_CPU), TS(s_int) },
|
|
{ RS(DELTA_SHADOWCALLSTACK), TS(s_int) },
|
|
{ RS(DELTA_SHARED), TS(s_int) },
|
|
{ RS(DELTA_SHMEM_HUGE), TS(s_int) },
|
|
{ RS(DELTA_SHMEM_HUGE_MAP), TS(s_int) },
|
|
{ RS(DELTA_SLAB), TS(s_int) },
|
|
{ RS(DELTA_SLAB_RECLAIM), TS(s_int) },
|
|
{ RS(DELTA_SLAB_UNRECLAIM), TS(s_int) },
|
|
{ RS(DELTA_TOTAL), TS(s_int) },
|
|
{ RS(DELTA_UNEVICTABLE), TS(s_int) },
|
|
{ RS(DELTA_USED), TS(s_int) },
|
|
{ RS(DELTA_VM_ALLOC_CHUNK), TS(s_int) },
|
|
{ RS(DELTA_VM_ALLOC_TOTAL), TS(s_int) },
|
|
{ RS(DELTA_VM_ALLOC_USED), TS(s_int) },
|
|
{ RS(DELTA_WRITEBACK), TS(s_int) },
|
|
{ RS(DELTA_WRITEBACK_TMP), TS(s_int) },
|
|
|
|
{ RS(SWAP_CACHED), TS(ul_int) },
|
|
{ RS(SWAP_FREE), TS(ul_int) },
|
|
{ RS(SWAP_TOTAL), TS(ul_int) },
|
|
{ RS(SWAP_USED), TS(ul_int) },
|
|
|
|
{ RS(SWAP_DELTA_CACHED), TS(s_int) },
|
|
{ RS(SWAP_DELTA_FREE), TS(s_int) },
|
|
{ RS(SWAP_DELTA_TOTAL), TS(s_int) },
|
|
{ RS(SWAP_DELTA_USED), TS(s_int) },
|
|
};
|
|
|
|
/* please note,
|
|
* this enum MUST be 1 greater than the highest value of any enum */
|
|
enum meminfo_item MEMINFO_logical_end = MAXTABLE(Item_table);
|
|
|
|
#undef setNAME
|
|
#undef RS
|
|
|
|
|
|
// ___ Private Functions ||||||||||||||||||||||||||||||||||||||||||||||||||||||
|
|
|
|
static inline void meminfo_assign_results (
|
|
struct meminfo_stack *stack,
|
|
struct mem_hist *hist)
|
|
{
|
|
struct meminfo_result *this = stack->head;
|
|
|
|
for (;;) {
|
|
enum meminfo_item item = this->item;
|
|
if (item >= MEMINFO_logical_end)
|
|
break;
|
|
Item_table[item].setsfunc(this, hist);
|
|
++this;
|
|
}
|
|
return;
|
|
} // end: meminfo_assign_results
|
|
|
|
|
|
static void meminfo_extents_free_all (
|
|
struct meminfo_info *info)
|
|
{
|
|
while (info->extents) {
|
|
struct stacks_extent *p = info->extents;
|
|
info->extents = info->extents->next;
|
|
free(p);
|
|
};
|
|
} // end: meminfo_extents_free_all
|
|
|
|
|
|
static inline struct meminfo_result *meminfo_itemize_stack (
|
|
struct meminfo_result *p,
|
|
int depth,
|
|
enum meminfo_item *items)
|
|
{
|
|
struct meminfo_result *p_sav = p;
|
|
int i;
|
|
|
|
for (i = 0; i < depth; i++) {
|
|
p->item = items[i];
|
|
++p;
|
|
}
|
|
return p_sav;
|
|
} // end: meminfo_itemize_stack
|
|
|
|
|
|
static inline int meminfo_items_check_failed (
|
|
int numitems,
|
|
enum meminfo_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 meminfo_item *'
|
|
* my_stack = procps_meminfo_select(info, MEMINFO_noop, num);
|
|
* ^~~~~~~~~~~~~~~~
|
|
*/
|
|
if (numitems < 1
|
|
|| (void *)items < (void *)(unsigned long)(2 * MEMINFO_logical_end))
|
|
return 1;
|
|
|
|
for (i = 0; i < numitems; i++) {
|
|
// a meminfo_item is currently unsigned, but we'll protect our future
|
|
if (items[i] < 0)
|
|
return 1;
|
|
if (items[i] >= MEMINFO_logical_end)
|
|
return 1;
|
|
}
|
|
|
|
return 0;
|
|
} // end: meminfo_items_check_failed
|
|
|
|
|
|
static int meminfo_make_hash_failed (
|
|
struct meminfo_info *info)
|
|
{
|
|
#define htVAL(f) e.key = STRINGIFY(f); e.data = &info->hist.new. f; \
|
|
if (!hsearch_r(e, ENTER, &ep, &info->hashtab)) return 1;
|
|
#define htXTRA(k,f) e.key = STRINGIFY(k); e.data = &info->hist.new. f; \
|
|
if (!hsearch_r(e, ENTER, &ep, &info->hashtab)) return 1;
|
|
ENTRY e, *ep;
|
|
size_t n;
|
|
|
|
// will also include those derived fields (more is better)
|
|
n = sizeof(struct meminfo_data) / sizeof(unsigned long);
|
|
// we'll follow the hsearch recommendation of an extra 25%
|
|
if (!hcreate_r(n + (n / 4), &info->hashtab))
|
|
return 1;
|
|
|
|
htVAL(Active)
|
|
htXTRA(Active(anon), Active_anon)
|
|
htXTRA(Active(file), Active_file)
|
|
htVAL(AnonHugePages)
|
|
htVAL(AnonPages)
|
|
htVAL(Bounce)
|
|
htVAL(Buffers)
|
|
htVAL(Cached)
|
|
htVAL(CmaFree)
|
|
htVAL(CmaTotal)
|
|
htVAL(CommitLimit)
|
|
htVAL(Committed_AS)
|
|
htVAL(DirectMap1G)
|
|
htVAL(DirectMap2M)
|
|
htVAL(DirectMap4M)
|
|
htVAL(DirectMap4k)
|
|
htVAL(Dirty)
|
|
htVAL(FileHugePages)
|
|
htVAL(FilePmdMapped)
|
|
htVAL(HardwareCorrupted)
|
|
htVAL(HighFree)
|
|
htVAL(HighTotal)
|
|
htVAL(HugePages_Free)
|
|
htVAL(HugePages_Rsvd)
|
|
htVAL(HugePages_Surp)
|
|
htVAL(HugePages_Total)
|
|
htVAL(Hugepagesize)
|
|
htVAL(Hugetlb)
|
|
htVAL(Inactive)
|
|
htXTRA(Inactive(anon), Inactive_anon)
|
|
htXTRA(Inactive(file), Inactive_file)
|
|
htVAL(KReclaimable)
|
|
htVAL(KernelStack)
|
|
htVAL(LowFree)
|
|
htVAL(LowTotal)
|
|
htVAL(Mapped)
|
|
htVAL(MemAvailable)
|
|
htVAL(MemFree)
|
|
htVAL(MemTotal)
|
|
htVAL(Mlocked)
|
|
htVAL(MmapCopy)
|
|
htVAL(NFS_Unstable)
|
|
htVAL(PageTables)
|
|
htVAL(Percpu)
|
|
htVAL(SReclaimable)
|
|
htVAL(SUnreclaim)
|
|
htVAL(ShadowCallStack)
|
|
htVAL(Shmem)
|
|
htVAL(ShmemHugePages)
|
|
htVAL(ShmemPmdMapped)
|
|
htVAL(Slab)
|
|
htVAL(SwapCached)
|
|
htVAL(SwapFree)
|
|
htVAL(SwapTotal)
|
|
htVAL(Unevictable)
|
|
htVAL(VmallocChunk)
|
|
htVAL(VmallocTotal)
|
|
htVAL(VmallocUsed)
|
|
htVAL(Writeback)
|
|
htVAL(WritebackTmp)
|
|
|
|
return 0;
|
|
#undef htVAL
|
|
#undef htXTRA
|
|
} // end: meminfo_make_hash_failed
|
|
|
|
|
|
/*
|
|
* meminfo_read_failed():
|
|
*
|
|
* Read the data out of /proc/meminfo putting the information
|
|
* into the supplied info structure
|
|
*/
|
|
static int meminfo_read_failed (
|
|
struct meminfo_info *info)
|
|
{
|
|
/* a 'memory history reference' macro for readability,
|
|
so we can focus the field names ... */
|
|
#define mHr(f) info->hist.new. f
|
|
char buf[MEMINFO_BUFF];
|
|
char *head, *tail;
|
|
int size;
|
|
unsigned long *valptr;
|
|
signed long mem_used;
|
|
|
|
// remember history from last time around
|
|
memcpy(&info->hist.old, &info->hist.new, sizeof(struct meminfo_data));
|
|
// clear out the soon to be 'current' values
|
|
memset(&info->hist.new, 0, sizeof(struct meminfo_data));
|
|
|
|
if (-1 == info->meminfo_fd
|
|
&& (-1 == (info->meminfo_fd = open(MEMINFO_FILE, O_RDONLY))))
|
|
return 1;
|
|
|
|
if (lseek(info->meminfo_fd, 0L, SEEK_SET) == -1)
|
|
return 1;
|
|
|
|
for (;;) {
|
|
if ((size = read(info->meminfo_fd, buf, sizeof(buf)-1)) < 0) {
|
|
if (errno == EINTR || errno == EAGAIN)
|
|
continue;
|
|
return 1;
|
|
}
|
|
break;
|
|
}
|
|
if (size == 0) {
|
|
errno = EIO;
|
|
return 1;
|
|
}
|
|
buf[size] = '\0';
|
|
|
|
head = buf;
|
|
|
|
for (;;) {
|
|
static __thread ENTRY e; // keep coverity off our backs (e.data)
|
|
ENTRY *ep;
|
|
|
|
if (!(tail = strchr(head, ':')))
|
|
break;
|
|
*tail = '\0';
|
|
valptr = NULL;
|
|
|
|
e.key = head;
|
|
if (hsearch_r(e, FIND, &ep, &info->hashtab))
|
|
valptr = ep->data;
|
|
head = tail + 1;
|
|
if (valptr)
|
|
*valptr = strtoul(head, NULL, 10);
|
|
|
|
if (!(tail = strchr(head, '\n')))
|
|
break;
|
|
head = tail + 1;
|
|
}
|
|
|
|
if (0 == mHr(MemAvailable))
|
|
mHr(MemAvailable) = mHr(MemFree);
|
|
mHr(derived_mem_cached) = mHr(Cached) + mHr(SReclaimable);
|
|
|
|
/* if 'available' is greater than 'total' or our calculation of mem_used
|
|
overflows, that's symptomatic of running within a lxc container where
|
|
such values will be dramatically distorted over those of the host. */
|
|
if (mHr(MemAvailable) > mHr(MemTotal))
|
|
mHr(MemAvailable) = mHr(MemFree);
|
|
mem_used = mHr(MemTotal) - mHr(MemAvailable);
|
|
if (mem_used < 0)
|
|
mem_used = mHr(MemTotal) - mHr(MemFree);
|
|
mHr(derived_mem_used) = (unsigned long)mem_used;
|
|
|
|
if (mHr(HighFree) < mHr(HighTotal))
|
|
mHr(derived_mem_hi_used) = mHr(HighTotal) - mHr(HighFree);
|
|
|
|
if (0 == mHr(LowTotal)) {
|
|
mHr(LowTotal) = mHr(MemTotal);
|
|
mHr(LowFree) = mHr(MemFree);
|
|
}
|
|
if (mHr(LowFree) < mHr(LowTotal))
|
|
mHr(derived_mem_lo_used) = mHr(LowTotal) - mHr(LowFree);
|
|
|
|
if (mHr(SwapFree) < mHr(SwapTotal))
|
|
mHr(derived_swap_used) = mHr(SwapTotal) - mHr(SwapFree);
|
|
|
|
return 0;
|
|
#undef mHr
|
|
} // end: meminfo_read_failed
|
|
|
|
|
|
/*
|
|
* meminfo_stacks_alloc():
|
|
*
|
|
* Allocate and initialize one or more stacks each of which is anchored in an
|
|
* associated context 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 *meminfo_stacks_alloc (
|
|
struct meminfo_info *info,
|
|
int maxstacks)
|
|
{
|
|
struct stacks_extent *p_blob;
|
|
struct meminfo_stack **p_vect;
|
|
struct meminfo_stack *p_head;
|
|
size_t vect_size, head_size, list_size, blob_size;
|
|
void *v_head, *v_list;
|
|
int i;
|
|
|
|
vect_size = sizeof(void *) * maxstacks; // size of the addr vectors |
|
|
vect_size += sizeof(void *); // plus NULL addr delimiter |
|
|
head_size = sizeof(struct meminfo_stack); // size of that head struct |
|
|
list_size = sizeof(struct meminfo_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 this memory is allocated in a single blob, facilitating a later free(). |
|
|
as a minimum, it is important that the result structures themselves always are |
|
|
contiguous within each stack since they're 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 meminfo_stack *)v_head;
|
|
p_head->head = meminfo_itemize_stack((struct meminfo_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: meminfo_stacks_alloc
|
|
|
|
|
|
// ___ Public Functions |||||||||||||||||||||||||||||||||||||||||||||||||||||||
|
|
|
|
// --- standard required functions --------------------------------------------
|
|
|
|
/*
|
|
* procps_meminfo_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: < 0 on failure, 0 on success along with
|
|
* a pointer to a new context struct
|
|
*/
|
|
PROCPS_EXPORT int procps_meminfo_new (
|
|
struct meminfo_info **info)
|
|
{
|
|
struct meminfo_info *p;
|
|
|
|
#ifdef ITEMTABLE_DEBUG
|
|
int i, failed = 0;
|
|
for (i = 0; i < MAXTABLE(Item_table); i++) {
|
|
if (i != Item_table[i].enumnumb) {
|
|
fprintf(stderr, "%s: enum/table error: Item_table[%d] was %s, but its value is %d\n"
|
|
, __FILE__, i, Item_table[i].enum2str, Item_table[i].enumnumb);
|
|
failed = 1;
|
|
}
|
|
}
|
|
if (failed) _Exit(EXIT_FAILURE);
|
|
#endif
|
|
|
|
if (info == NULL || *info != NULL)
|
|
return -EINVAL;
|
|
if (!(p = calloc(1, sizeof(struct meminfo_info))))
|
|
return -ENOMEM;
|
|
|
|
p->refcount = 1;
|
|
p->meminfo_fd = -1;
|
|
|
|
if (meminfo_make_hash_failed(p)) {
|
|
free(p);
|
|
return -errno;
|
|
}
|
|
|
|
/* do a priming read here for the following potential benefits: |
|
|
1) ensure there will be no problems with subsequent access |
|
|
2) make delta results potentially useful, even if 1st time |
|
|
3) elimnate need for history distortions 1st time 'switch' | */
|
|
if (meminfo_read_failed(p)) {
|
|
procps_meminfo_unref(&p);
|
|
return -errno;
|
|
}
|
|
|
|
*info = p;
|
|
return 0;
|
|
} // end: procps_meminfo_new
|
|
|
|
|
|
PROCPS_EXPORT int procps_meminfo_ref (
|
|
struct meminfo_info *info)
|
|
{
|
|
if (info == NULL)
|
|
return -EINVAL;
|
|
|
|
info->refcount++;
|
|
return info->refcount;
|
|
} // end: procps_meminfo_ref
|
|
|
|
|
|
PROCPS_EXPORT int procps_meminfo_unref (
|
|
struct meminfo_info **info)
|
|
{
|
|
if (info == NULL || *info == NULL)
|
|
return -EINVAL;
|
|
|
|
(*info)->refcount--;
|
|
|
|
if ((*info)->refcount < 1) {
|
|
int errno_sav = errno;
|
|
|
|
if ((*info)->meminfo_fd != -1)
|
|
close((*info)->meminfo_fd);
|
|
|
|
if ((*info)->extents)
|
|
meminfo_extents_free_all((*info));
|
|
if ((*info)->items)
|
|
free((*info)->items);
|
|
hdestroy_r(&(*info)->hashtab);
|
|
|
|
free(*info);
|
|
*info = NULL;
|
|
|
|
errno = errno_sav;
|
|
return 0;
|
|
}
|
|
return (*info)->refcount;
|
|
} // end: procps_meminfo_unref
|
|
|
|
|
|
// --- variable interface functions -------------------------------------------
|
|
|
|
PROCPS_EXPORT struct meminfo_result *procps_meminfo_get (
|
|
struct meminfo_info *info,
|
|
enum meminfo_item item)
|
|
{
|
|
time_t cur_secs;
|
|
|
|
errno = EINVAL;
|
|
if (info == NULL)
|
|
return NULL;
|
|
if (item < 0 || item >= MEMINFO_logical_end)
|
|
return NULL;
|
|
errno = 0;
|
|
|
|
/* we will NOT read the meminfo file with every call - rather, we'll offer
|
|
a granularity of 1 second between reads ... */
|
|
cur_secs = time(NULL);
|
|
if (1 <= cur_secs - info->sav_secs) {
|
|
if (meminfo_read_failed(info))
|
|
return NULL;
|
|
info->sav_secs = cur_secs;
|
|
}
|
|
|
|
info->get_this.item = item;
|
|
// with 'get', we must NOT honor the usual 'noop' guarantee
|
|
info->get_this.result.ul_int = 0;
|
|
Item_table[item].setsfunc(&info->get_this, &info->hist);
|
|
|
|
return &info->get_this;
|
|
} // end: procps_meminfo_get
|
|
|
|
|
|
/* procps_meminfo_select():
|
|
*
|
|
* Harvest all the requested MEM and/or SWAP information then return
|
|
* it in a results stack.
|
|
*
|
|
* Returns: pointer to a meminfo_stack struct on success, NULL on error.
|
|
*/
|
|
PROCPS_EXPORT struct meminfo_stack *procps_meminfo_select (
|
|
struct meminfo_info *info,
|
|
enum meminfo_item *items,
|
|
int numitems)
|
|
{
|
|
errno = EINVAL;
|
|
if (info == NULL || items == NULL)
|
|
return NULL;
|
|
if (meminfo_items_check_failed(numitems, items))
|
|
return NULL;
|
|
errno = 0;
|
|
|
|
/* 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 meminfo_item) * numitems)) {
|
|
// allow for our MEMINFO_logical_end
|
|
if (!(info->items = realloc(info->items, sizeof(enum meminfo_item) * (numitems + 1))))
|
|
return NULL;
|
|
memcpy(info->items, items, sizeof(enum meminfo_item) * numitems);
|
|
info->items[numitems] = MEMINFO_logical_end;
|
|
info->numitems = numitems + 1;
|
|
if (info->extents)
|
|
meminfo_extents_free_all(info);
|
|
}
|
|
if (!info->extents
|
|
&& (!meminfo_stacks_alloc(info, 1)))
|
|
return NULL;
|
|
|
|
if (meminfo_read_failed(info))
|
|
return NULL;
|
|
meminfo_assign_results(info->extents->stacks[0], &info->hist);
|
|
|
|
return info->extents->stacks[0];
|
|
} // end: procps_meminfo_select
|
|
|
|
|
|
// --- special debugging function(s) ------------------------------------------
|
|
/*
|
|
* The following isn't part of the normal programming interface. Rather,
|
|
* it exists to validate result types referenced in application programs.
|
|
*
|
|
* It's used only when:
|
|
* 1) the 'XTRA_PROCPS_DEBUG' has been defined, or
|
|
* 2) an #include of 'xtra-procps-debug.h' is used
|
|
*/
|
|
|
|
PROCPS_EXPORT struct meminfo_result *xtra_meminfo_get (
|
|
struct meminfo_info *info,
|
|
enum meminfo_item actual_enum,
|
|
const char *typestr,
|
|
const char *file,
|
|
int lineno)
|
|
{
|
|
struct meminfo_result *r = procps_meminfo_get(info, actual_enum);
|
|
|
|
if (actual_enum < 0 || actual_enum >= MEMINFO_logical_end) {
|
|
fprintf(stderr, "%s line %d: invalid item = %d, type = %s\n"
|
|
, file, lineno, actual_enum, typestr);
|
|
}
|
|
if (r) {
|
|
char *str = Item_table[r->item].type2str;
|
|
if (str[0]
|
|
&& (strcmp(typestr, str)))
|
|
fprintf(stderr, "%s line %d: was %s, expected %s\n", file, lineno, typestr, str);
|
|
}
|
|
return r;
|
|
} // end: xtra_meminfo_get_
|
|
|
|
|
|
PROCPS_EXPORT struct meminfo_result *xtra_meminfo_val (
|
|
int relative_enum,
|
|
const char *typestr,
|
|
const struct meminfo_stack *stack,
|
|
struct meminfo_info *info,
|
|
const char *file,
|
|
int lineno)
|
|
{
|
|
char *str;
|
|
int i;
|
|
|
|
for (i = 0; stack->head[i].item < MEMINFO_logical_end; i++)
|
|
;
|
|
if (relative_enum < 0 || relative_enum >= i) {
|
|
fprintf(stderr, "%s line %d: invalid relative_enum = %d, valid range = 0-%d\n"
|
|
, file, lineno, relative_enum, i-1);
|
|
return NULL;
|
|
}
|
|
str = Item_table[stack->head[relative_enum].item].type2str;
|
|
if (str[0]
|
|
&& (strcmp(typestr, str))) {
|
|
fprintf(stderr, "%s line %d: was %s, expected %s\n", file, lineno, typestr, str);
|
|
}
|
|
return &stack->head[relative_enum];
|
|
(void)info;
|
|
} // end: xtra_meminfo_val
|