procps/proc/meminfo.h
Jim Warner fab37662ef library: refactor the XTRA_PROCPS_DEBUG implementation
If we ever were to eliminate the procps.h header file,
as discussed in the thread referenced below, then that
would impair the current XTRA_PROCPS_DEBUG provisions.

The only remaining way to verify result types would be
to explicitly include that <proc/xtra-procps-debug.h>.

So, this commit will once again enable the ./configure
provision for defining the -DXTRA_PROCPS_DEBUG option.

Reference(s):
https://www.freelists.org/post/procps/newlib-Qualys-patches,6

Signed-off-by: Jim Warner <james.warner@comcast.net>
2018-09-12 21:12:06 +10:00

182 lines
6.5 KiB
C

/*
* libprocps - Library to read proc filesystem
*
* 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
*/
#ifndef PROCPS_MEMINFO_H
#define PROCPS_MEMINFO_H
#ifdef __cplusplus
extern "C" {
#endif
enum meminfo_item {
MEMINFO_noop, // ( never altered )
MEMINFO_extra, // ( reset to zero )
/*
note: all of the following values are expressed as KiB
*/
MEMINFO_MEM_ACTIVE, // ul_int
MEMINFO_MEM_ACTIVE_ANON, // ul_int
MEMINFO_MEM_ACTIVE_FILE, // ul_int
MEMINFO_MEM_ANON, // ul_int
MEMINFO_MEM_AVAILABLE, // ul_int
MEMINFO_MEM_BOUNCE, // ul_int
MEMINFO_MEM_BUFFERS, // ul_int
MEMINFO_MEM_CACHED, // ul_int
MEMINFO_MEM_CACHED_ALL, // ul_int
MEMINFO_MEM_COMMIT_LIMIT, // ul_int
MEMINFO_MEM_COMMITTED_AS, // ul_int
MEMINFO_MEM_HARD_CORRUPTED, // ul_int
MEMINFO_MEM_DIRTY, // ul_int
MEMINFO_MEM_FREE, // ul_int
MEMINFO_MEM_HUGE_ANON, // ul_int
MEMINFO_MEM_HUGE_FREE, // ul_int
MEMINFO_MEM_HUGE_RSVD, // ul_int
MEMINFO_MEM_HUGE_SIZE, // ul_int
MEMINFO_MEM_HUGE_SURPLUS, // ul_int
MEMINFO_MEM_HUGE_TOTAL, // ul_int
MEMINFO_MEM_INACTIVE, // ul_int
MEMINFO_MEM_INACTIVE_ANON, // ul_int
MEMINFO_MEM_INACTIVE_FILE, // ul_int
MEMINFO_MEM_KERNEL_STACK, // ul_int
MEMINFO_MEM_LOCKED, // ul_int
MEMINFO_MEM_MAPPED, // ul_int
MEMINFO_MEM_NFS_UNSTABLE, // ul_int
MEMINFO_MEM_PAGE_TABLES, // ul_int
MEMINFO_MEM_SHARED, // ul_int
MEMINFO_MEM_SHMEM_HUGE, // ul_int
MEMINFO_MEM_SHMEM_HUGE_MAP, // ul_int
MEMINFO_MEM_SLAB, // ul_int
MEMINFO_MEM_SLAB_RECLAIM, // ul_int
MEMINFO_MEM_SLAB_UNRECLAIM, // ul_int
MEMINFO_MEM_TOTAL, // ul_int
MEMINFO_MEM_UNEVICTABLE, // ul_int
MEMINFO_MEM_USED, // ul_int
MEMINFO_MEM_VM_ALLOC_CHUNK, // ul_int
MEMINFO_MEM_VM_ALLOC_TOTAL, // ul_int
MEMINFO_MEM_VM_ALLOC_USED, // ul_int
MEMINFO_MEM_WRITEBACK, // ul_int
MEMINFO_MEM_WRITEBACK_TMP, // ul_int
MEMINFO_DELTA_ACTIVE, // s_int
MEMINFO_DELTA_ACTIVE_ANON, // s_int
MEMINFO_DELTA_ACTIVE_FILE, // s_int
MEMINFO_DELTA_ANON, // s_int
MEMINFO_DELTA_AVAILABLE, // s_int
MEMINFO_DELTA_BOUNCE, // s_int
MEMINFO_DELTA_BUFFERS, // s_int
MEMINFO_DELTA_CACHED, // s_int
MEMINFO_DELTA_CACHED_ALL, // s_int
MEMINFO_DELTA_COMMIT_LIMIT, // s_int
MEMINFO_DELTA_COMMITTED_AS, // s_int
MEMINFO_DELTA_HARD_CORRUPTED, // s_int
MEMINFO_DELTA_DIRTY, // s_int
MEMINFO_DELTA_FREE, // s_int
MEMINFO_DELTA_HUGE_ANON, // s_int
MEMINFO_DELTA_HUGE_FREE, // s_int
MEMINFO_DELTA_HUGE_RSVD, // s_int
MEMINFO_DELTA_HUGE_SIZE, // s_int
MEMINFO_DELTA_HUGE_SURPLUS, // s_int
MEMINFO_DELTA_HUGE_TOTAL, // s_int
MEMINFO_DELTA_INACTIVE, // s_int
MEMINFO_DELTA_INACTIVE_ANON, // s_int
MEMINFO_DELTA_INACTIVE_FILE, // s_int
MEMINFO_DELTA_KERNEL_STACK, // s_int
MEMINFO_DELTA_LOCKED, // s_int
MEMINFO_DELTA_MAPPED, // s_int
MEMINFO_DELTA_NFS_UNSTABLE, // s_int
MEMINFO_DELTA_PAGE_TABLES, // s_int
MEMINFO_DELTA_SHARED, // s_int
MEMINFO_DELTA_SHMEM_HUGE, // s_int
MEMINFO_DELTA_SHMEM_HUGE_MAP, // s_int
MEMINFO_DELTA_SLAB, // s_int
MEMINFO_DELTA_SLAB_RECLAIM, // s_int
MEMINFO_DELTA_SLAB_UNRECLAIM, // s_int
MEMINFO_DELTA_TOTAL, // s_int
MEMINFO_DELTA_UNEVICTABLE, // s_int
MEMINFO_DELTA_USED, // s_int
MEMINFO_DELTA_VM_ALLOC_CHUNK, // s_int
MEMINFO_DELTA_VM_ALLOC_TOTAL, // s_int
MEMINFO_DELTA_VM_ALLOC_USED, // s_int
MEMINFO_DELTA_WRITEBACK, // s_int
MEMINFO_DELTA_WRITEBACK_TMP, // s_int
MEMINFO_MEMHI_FREE, // ul_int
MEMINFO_MEMHI_TOTAL, // ul_int
MEMINFO_MEMHI_USED, // ul_int
MEMINFO_MEMLO_FREE, // ul_int
MEMINFO_MEMLO_TOTAL, // ul_int
MEMINFO_MEMLO_USED, // ul_int
MEMINFO_SWAP_CACHED, // ul_int
MEMINFO_SWAP_FREE, // ul_int
MEMINFO_SWAP_TOTAL, // ul_int
MEMINFO_SWAP_USED, // ul_int
MEMINFO_SWAP_DELTA_CACHED, // s_int
MEMINFO_SWAP_DELTA_FREE, // s_int
MEMINFO_SWAP_DELTA_TOTAL, // s_int
MEMINFO_SWAP_DELTA_USED // s_int
};
struct meminfo_result {
enum meminfo_item item;
union {
signed int s_int;
unsigned long ul_int;
} result;
};
struct meminfo_stack {
struct meminfo_result *head;
};
#define MEMINFO_GET( info, actual_enum, type ) ( { \
struct meminfo_result *r = procps_meminfo_get( info, actual_enum ); \
r ? r->result . type : 0; } )
#define MEMINFO_VAL( relative_enum, type, stack, info ) \
stack -> head [ relative_enum ] . result . type
struct meminfo_info;
int procps_meminfo_new (struct meminfo_info **info);
int procps_meminfo_ref (struct meminfo_info *info);
int procps_meminfo_unref (struct meminfo_info **info);
struct meminfo_result *procps_meminfo_get (
struct meminfo_info *info,
enum meminfo_item item);
struct meminfo_stack *procps_meminfo_select (
struct meminfo_info *info,
enum meminfo_item *items,
int numitems);
#ifdef XTRA_PROCPS_DEBUG
# include <proc/xtra-procps-debug.h>
#endif
#ifdef __cplusplus
}
#endif
#endif