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/*
* Copyright (c) 2012, 2018 SAP SE. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation.
*
* This code 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 General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*
*/
// Encapsulates the libperfstat library.
//
// The purpose of this code is to dynamically load the libperfstat library
// instead of statically linking against it. The libperfstat library is an
// AIX-specific library which only exists on AIX, not on PASE. If I want to
// share binaries between AIX and PASE, I cannot directly link against libperfstat.so.
#ifndef OS_AIX_VM_LIBPERFSTAT_AIX_HPP
#define OS_AIX_VM_LIBPERFSTAT_AIX_HPP
#include <sys/types.h>
#include <stdlib.h>
///////////////////////////////////////////////////////////////////////////////////////////////
// These are excerpts from the AIX 5.3, 6.1, 7.1 libperfstat.h -
// this is all we need from libperfstat.h and I want to avoid having to include <libperfstat.h>
//
// Note: I define all structures as if I were to include libperfstat.h on an AIX 5.2
// build machine.
//
// The ratio behind that is that if I would build on an AIX 5.2 build machine,
// include libperfstat.h and hard-link against libperfstat.a, the program should
// work without recompilation on all newer AIX versions.
//
#define IDENTIFIER_LENGTH 64 /* length of strings included in the structures */
typedef struct { /* structure element identifier */
char name[IDENTIFIER_LENGTH]; /* name of the identifier */
} perfstat_id_t;
#define CEC_ID_LEN 40 /* CEC identifier length */
#define MAXCORRALNAMELEN 25 /* length of the wpar name */
#define FIRST_WPARNAME "" /* pseudo-name for the first WPAR */
#define FIRST_WPARID -1 /* pseudo-id for the first WPAR */
typedef unsigned short cid_t; /* workload partition identifier */
typedef struct { /* Virtual memory utilization */
u_longlong_t virt_total; /* total virtual memory (in 4KB pages) */
u_longlong_t real_total; /* total real memory (in 4KB pages) */
u_longlong_t real_free; /* free real memory (in 4KB pages) */
u_longlong_t real_pinned; /* real memory which is pinned (in 4KB pages) */
u_longlong_t real_inuse; /* real memory which is in use (in 4KB pages) */
u_longlong_t pgbad; /* number of bad pages */
u_longlong_t pgexct; /* number of page faults */
u_longlong_t pgins; /* number of pages paged in */
u_longlong_t pgouts; /* number of pages paged out */
u_longlong_t pgspins; /* number of page ins from paging space */
u_longlong_t pgspouts; /* number of page outs from paging space */
u_longlong_t scans; /* number of page scans by clock */
u_longlong_t cycles; /* number of page replacement cycles */
u_longlong_t pgsteals; /* number of page steals */
u_longlong_t numperm; /* number of frames used for files (in 4KB pages) */
u_longlong_t pgsp_total; /* total paging space (in 4KB pages) */
u_longlong_t pgsp_free; /* free paging space (in 4KB pages) */
u_longlong_t pgsp_rsvd; /* reserved paging space (in 4KB pages) */
u_longlong_t real_system; /* real memory used by system segments (in 4KB pages). This is the sum of all the used pages in segment marked for system usage.
* Since segment classifications are not always guaranteed to be accurate, this number is only an approximation. */
u_longlong_t real_user; /* real memory used by non-system segments (in 4KB pages). This is the sum of all pages used in segments not marked for system usage.
* Since segment classifications are not always guaranteed to be accurate, this number is only an approximation. */
u_longlong_t real_process; /* real memory used by process segments (in 4KB pages). This is real_total-real_free-numperm-real_system. Since real_system is an
* approximation, this number is too. */
u_longlong_t virt_active; /* Active virtual pages. Virtual pages are considered active if they have been accessed */
} perfstat_memory_total_t;
typedef struct { /* global cpu information AIX 5.3 < TL10 */
int ncpus; /* number of active logical processors */
int ncpus_cfg; /* number of configured processors */
char description[IDENTIFIER_LENGTH]; /* processor description (type/official name) */
u_longlong_t processorHZ; /* processor speed in Hz */
u_longlong_t user; /* raw total number of clock ticks spent in user mode */
u_longlong_t sys; /* raw total number of clock ticks spent in system mode */
u_longlong_t idle; /* raw total number of clock ticks spent idle */
u_longlong_t wait; /* raw total number of clock ticks spent waiting for I/O */
u_longlong_t pswitch; /* number of process switches (change in currently running process) */
u_longlong_t syscall; /* number of system calls executed */
u_longlong_t sysread; /* number of read system calls executed */
u_longlong_t syswrite; /* number of write system calls executed */
u_longlong_t sysfork; /* number of forks system calls executed */
u_longlong_t sysexec; /* number of execs system calls executed */
u_longlong_t readch; /* number of characters tranferred with read system call */
u_longlong_t writech; /* number of characters tranferred with write system call */
u_longlong_t devintrs; /* number of device interrupts */
u_longlong_t softintrs; /* number of software interrupts */
time_t lbolt; /* number of ticks since last reboot */
u_longlong_t loadavg[3]; /* (1<<SBITS) times the average number of runnables processes during the last 1, 5 and 15 minutes.
* To calculate the load average, divide the numbers by (1<<SBITS). SBITS is defined in <sys/proc.h>. */
u_longlong_t runque; /* length of the run queue (processes ready) */
u_longlong_t swpque; /* ength of the swap queue (processes waiting to be paged in) */
u_longlong_t bread; /* number of blocks read */
u_longlong_t bwrite; /* number of blocks written */
u_longlong_t lread; /* number of logical read requests */
u_longlong_t lwrite; /* number of logical write requests */
u_longlong_t phread; /* number of physical reads (reads on raw devices) */
u_longlong_t phwrite; /* number of physical writes (writes on raw devices) */
u_longlong_t runocc; /* updated whenever runque is updated, i.e. the runqueue is occupied.
* This can be used to compute the simple average of ready processes */
u_longlong_t swpocc; /* updated whenever swpque is updated. i.e. the swpqueue is occupied.
* This can be used to compute the simple average processes waiting to be paged in */
u_longlong_t iget; /* number of inode lookups */
u_longlong_t namei; /* number of vnode lookup from a path name */
u_longlong_t dirblk; /* number of 512-byte block reads by the directory search routine to locate an entry for a file */
u_longlong_t msg; /* number of IPC message operations */
u_longlong_t sema; /* number of IPC semaphore operations */
u_longlong_t rcvint; /* number of tty receive interrupts */
u_longlong_t xmtint; /* number of tyy transmit interrupts */
u_longlong_t mdmint; /* number of modem interrupts */
u_longlong_t tty_rawinch; /* number of raw input characters */
u_longlong_t tty_caninch; /* number of canonical input characters (always zero) */
u_longlong_t tty_rawoutch; /* number of raw output characters */
u_longlong_t ksched; /* number of kernel processes created */
u_longlong_t koverf; /* kernel process creation attempts where:
* -the user has forked to their maximum limit
* -the configuration limit of processes has been reached */
u_longlong_t kexit; /* number of kernel processes that became zombies */
u_longlong_t rbread; /* number of remote read requests */
u_longlong_t rcread; /* number of cached remote reads */
u_longlong_t rbwrt; /* number of remote writes */
u_longlong_t rcwrt; /* number of cached remote writes */
u_longlong_t traps; /* number of traps */
int ncpus_high; /* index of highest processor online */
u_longlong_t puser; /* raw number of physical processor tics in user mode */
u_longlong_t psys; /* raw number of physical processor tics in system mode */
u_longlong_t pidle; /* raw number of physical processor tics idle */
u_longlong_t pwait; /* raw number of physical processor tics waiting for I/O */
u_longlong_t decrintrs; /* number of decrementer tics interrupts */
u_longlong_t mpcrintrs; /* number of mpc's received interrupts */
u_longlong_t mpcsintrs; /* number of mpc's sent interrupts */
u_longlong_t phantintrs; /* number of phantom interrupts */
u_longlong_t idle_donated_purr; /* number of idle cycles donated by a dedicated partition enabled for donation */
u_longlong_t idle_donated_spurr; /* number of idle spurr cycles donated by a dedicated partition enabled for donation */
u_longlong_t busy_donated_purr; /* number of busy cycles donated by a dedicated partition enabled for donation */
u_longlong_t busy_donated_spurr; /* number of busy spurr cycles donated by a dedicated partition enabled for donation */
u_longlong_t idle_stolen_purr; /* number of idle cycles stolen by the hypervisor from a dedicated partition */
u_longlong_t idle_stolen_spurr; /* number of idle spurr cycles stolen by the hypervisor from a dedicated partition */
u_longlong_t busy_stolen_purr; /* number of busy cycles stolen by the hypervisor from a dedicated partition */
u_longlong_t busy_stolen_spurr; /* number of busy spurr cycles stolen by the hypervisor from a dedicated partition */
short iowait; /* number of processes that are asleep waiting for buffered I/O */
short physio; /* number of processes waiting for raw I/O */
longlong_t twait; /* number of threads that are waiting for filesystem direct(cio) */
u_longlong_t hpi; /* number of hypervisor page-ins */
u_longlong_t hpit; /* Time spent in hypervisor page-ins (in nanoseconds) */
} perfstat_cpu_total_t_53;
typedef struct { /* global cpu information AIX 6.1|5.3 > TL09 */
int ncpus; /* number of active logical processors */
int ncpus_cfg; /* number of configured processors */
char description[IDENTIFIER_LENGTH]; /* processor description (type/official name) */
u_longlong_t processorHZ; /* processor speed in Hz */
u_longlong_t user; /* raw total number of clock ticks spent in user mode */
u_longlong_t sys; /* raw total number of clock ticks spent in system mode */
u_longlong_t idle; /* raw total number of clock ticks spent idle */
u_longlong_t wait; /* raw total number of clock ticks spent waiting for I/O */
u_longlong_t pswitch; /* number of process switches (change in currently running process) */
u_longlong_t syscall; /* number of system calls executed */
u_longlong_t sysread; /* number of read system calls executed */
u_longlong_t syswrite; /* number of write system calls executed */
u_longlong_t sysfork; /* number of forks system calls executed */
u_longlong_t sysexec; /* number of execs system calls executed */
u_longlong_t readch; /* number of characters tranferred with read system call */
u_longlong_t writech; /* number of characters tranferred with write system call */
u_longlong_t devintrs; /* number of device interrupts */
u_longlong_t softintrs; /* number of software interrupts */
time_t lbolt; /* number of ticks since last reboot */
u_longlong_t loadavg[3]; /* (1<<SBITS) times the average number of runnables processes during the last 1, 5 and 15 minutes.
* To calculate the load average, divide the numbers by (1<<SBITS). SBITS is defined in <sys/proc.h>. */
u_longlong_t runque; /* length of the run queue (processes ready) */
u_longlong_t swpque; /* length of the swap queue (processes waiting to be paged in) */
u_longlong_t bread; /* number of blocks read */
u_longlong_t bwrite; /* number of blocks written */
u_longlong_t lread; /* number of logical read requests */
u_longlong_t lwrite; /* number of logical write requests */
u_longlong_t phread; /* number of physical reads (reads on raw devices) */
u_longlong_t phwrite; /* number of physical writes (writes on raw devices) */
u_longlong_t runocc; /* updated whenever runque is updated, i.e. the runqueue is occupied.
* This can be used to compute the simple average of ready processes */
u_longlong_t swpocc; /* updated whenever swpque is updated. i.e. the swpqueue is occupied.
* This can be used to compute the simple average processes waiting to be paged in */
u_longlong_t iget; /* number of inode lookups */
u_longlong_t namei; /* number of vnode lookup from a path name */
u_longlong_t dirblk; /* number of 512-byte block reads by the directory search routine to locate an entry for a file */
u_longlong_t msg; /* number of IPC message operations */
u_longlong_t sema; /* number of IPC semaphore operations */
u_longlong_t rcvint; /* number of tty receive interrupts */
u_longlong_t xmtint; /* number of tyy transmit interrupts */
u_longlong_t mdmint; /* number of modem interrupts */
u_longlong_t tty_rawinch; /* number of raw input characters */
u_longlong_t tty_caninch; /* number of canonical input characters (always zero) */
u_longlong_t tty_rawoutch; /* number of raw output characters */
u_longlong_t ksched; /* number of kernel processes created */
u_longlong_t koverf; /* kernel process creation attempts where:
* -the user has forked to their maximum limit
* -the configuration limit of processes has been reached */
u_longlong_t kexit; /* number of kernel processes that became zombies */
u_longlong_t rbread; /* number of remote read requests */
u_longlong_t rcread; /* number of cached remote reads */
u_longlong_t rbwrt; /* number of remote writes */
u_longlong_t rcwrt; /* number of cached remote writes */
u_longlong_t traps; /* number of traps */
int ncpus_high; /* index of highest processor online */
u_longlong_t puser; /* raw number of physical processor tics in user mode */
u_longlong_t psys; /* raw number of physical processor tics in system mode */
u_longlong_t pidle; /* raw number of physical processor tics idle */
u_longlong_t pwait; /* raw number of physical processor tics waiting for I/O */
u_longlong_t decrintrs; /* number of decrementer tics interrupts */
u_longlong_t mpcrintrs; /* number of mpc's received interrupts */
u_longlong_t mpcsintrs; /* number of mpc's sent interrupts */
u_longlong_t phantintrs; /* number of phantom interrupts */
u_longlong_t idle_donated_purr; /* number of idle cycles donated by a dedicated partition enabled for donation */
u_longlong_t idle_donated_spurr; /* number of idle spurr cycles donated by a dedicated partition enabled for donation */
u_longlong_t busy_donated_purr; /* number of busy cycles donated by a dedicated partition enabled for donation */
u_longlong_t busy_donated_spurr; /* number of busy spurr cycles donated by a dedicated partition enabled for donation */
u_longlong_t idle_stolen_purr; /* number of idle cycles stolen by the hypervisor from a dedicated partition */
u_longlong_t idle_stolen_spurr; /* number of idle spurr cycles stolen by the hypervisor from a dedicated partition */
u_longlong_t busy_stolen_purr; /* number of busy cycles stolen by the hypervisor from a dedicated partition */
u_longlong_t busy_stolen_spurr; /* number of busy spurr cycles stolen by the hypervisor from a dedicated partition */
short iowait; /* number of processes that are asleep waiting for buffered I/O */
short physio; /* number of processes waiting for raw I/O */
longlong_t twait; /* number of threads that are waiting for filesystem direct(cio) */
u_longlong_t hpi; /* number of hypervisor page-ins */
u_longlong_t hpit; /* Time spent in hypervisor page-ins (in nanoseconds) */
u_longlong_t puser_spurr; /* number of spurr cycles spent in user mode */
u_longlong_t psys_spurr; /* number of spurr cycles spent in kernel mode */
u_longlong_t pidle_spurr; /* number of spurr cycles spent in idle mode */
u_longlong_t pwait_spurr; /* number of spurr cycles spent in wait mode */
int spurrflag; /* set if running in spurr mode */
} perfstat_cpu_total_t_61;
typedef struct { /* global cpu information AIX 7.1 */
int ncpus; /* number of active logical processors */
int ncpus_cfg; /* number of configured processors */
char description[IDENTIFIER_LENGTH]; /* processor description (type/official name) */
u_longlong_t processorHZ; /* processor speed in Hz */
u_longlong_t user; /* raw total number of clock ticks spent in user mode */
u_longlong_t sys; /* raw total number of clock ticks spent in system mode */
u_longlong_t idle; /* raw total number of clock ticks spent idle */
u_longlong_t wait; /* raw total number of clock ticks spent waiting for I/O */
u_longlong_t pswitch; /* number of process switches (change in currently running process) */
u_longlong_t syscall; /* number of system calls executed */
u_longlong_t sysread; /* number of read system calls executed */
u_longlong_t syswrite; /* number of write system calls executed */
u_longlong_t sysfork; /* number of forks system calls executed */
u_longlong_t sysexec; /* number of execs system calls executed */
u_longlong_t readch; /* number of characters tranferred with read system call */
u_longlong_t writech; /* number of characters tranferred with write system call */
u_longlong_t devintrs; /* number of device interrupts */
u_longlong_t softintrs; /* number of software interrupts */
time_t lbolt; /* number of ticks since last reboot */
u_longlong_t loadavg[3]; /* (1<<SBITS) times the average number of runnables processes during the last 1, 5 and 15 minutes.
* To calculate the load average, divide the numbers by (1<<SBITS). SBITS is defined in <sys/proc.h>. */
u_longlong_t runque; /* length of the run queue (processes ready) */
u_longlong_t swpque; /* ength of the swap queue (processes waiting to be paged in) */
u_longlong_t bread; /* number of blocks read */
u_longlong_t bwrite; /* number of blocks written */
u_longlong_t lread; /* number of logical read requests */
u_longlong_t lwrite; /* number of logical write requests */
u_longlong_t phread; /* number of physical reads (reads on raw devices) */
u_longlong_t phwrite; /* number of physical writes (writes on raw devices) */
u_longlong_t runocc; /* updated whenever runque is updated, i.e. the runqueue is occupied.
* This can be used to compute the simple average of ready processes */
u_longlong_t swpocc; /* updated whenever swpque is updated. i.e. the swpqueue is occupied.
* This can be used to compute the simple average processes waiting to be paged in */
u_longlong_t iget; /* number of inode lookups */
u_longlong_t namei; /* number of vnode lookup from a path name */
u_longlong_t dirblk; /* number of 512-byte block reads by the directory search routine to locate an entry for a file */
u_longlong_t msg; /* number of IPC message operations */
u_longlong_t sema; /* number of IPC semaphore operations */
u_longlong_t rcvint; /* number of tty receive interrupts */
u_longlong_t xmtint; /* number of tyy transmit interrupts */
u_longlong_t mdmint; /* number of modem interrupts */
u_longlong_t tty_rawinch; /* number of raw input characters */
u_longlong_t tty_caninch; /* number of canonical input characters (always zero) */
u_longlong_t tty_rawoutch; /* number of raw output characters */
u_longlong_t ksched; /* number of kernel processes created */
u_longlong_t koverf; /* kernel process creation attempts where:
* -the user has forked to their maximum limit
* -the configuration limit of processes has been reached */
u_longlong_t kexit; /* number of kernel processes that became zombies */
u_longlong_t rbread; /* number of remote read requests */
u_longlong_t rcread; /* number of cached remote reads */
u_longlong_t rbwrt; /* number of remote writes */
u_longlong_t rcwrt; /* number of cached remote writes */
u_longlong_t traps; /* number of traps */
int ncpus_high; /* index of highest processor online */
u_longlong_t puser; /* raw number of physical processor tics in user mode */
u_longlong_t psys; /* raw number of physical processor tics in system mode */
u_longlong_t pidle; /* raw number of physical processor tics idle */
u_longlong_t pwait; /* raw number of physical processor tics waiting for I/O */
u_longlong_t decrintrs; /* number of decrementer tics interrupts */
u_longlong_t mpcrintrs; /* number of mpc's received interrupts */
u_longlong_t mpcsintrs; /* number of mpc's sent interrupts */
u_longlong_t phantintrs; /* number of phantom interrupts */
u_longlong_t idle_donated_purr; /* number of idle cycles donated by a dedicated partition enabled for donation */
u_longlong_t idle_donated_spurr; /* number of idle spurr cycles donated by a dedicated partition enabled for donation */
u_longlong_t busy_donated_purr; /* number of busy cycles donated by a dedicated partition enabled for donation */
u_longlong_t busy_donated_spurr; /* number of busy spurr cycles donated by a dedicated partition enabled for donation */
u_longlong_t idle_stolen_purr; /* number of idle cycles stolen by the hypervisor from a dedicated partition */
u_longlong_t idle_stolen_spurr; /* number of idle spurr cycles stolen by the hypervisor from a dedicated partition */
u_longlong_t busy_stolen_purr; /* number of busy cycles stolen by the hypervisor from a dedicated partition */
u_longlong_t busy_stolen_spurr; /* number of busy spurr cycles stolen by the hypervisor from a dedicated partition */
short iowait; /* number of processes that are asleep waiting for buffered I/O */
short physio; /* number of processes waiting for raw I/O */
longlong_t twait; /* number of threads that are waiting for filesystem direct(cio) */
u_longlong_t hpi; /* number of hypervisor page-ins */
u_longlong_t hpit; /* Time spent in hypervisor page-ins (in nanoseconds) */
u_longlong_t puser_spurr; /* number of spurr cycles spent in user mode */
u_longlong_t psys_spurr; /* number of spurr cycles spent in kernel mode */
u_longlong_t pidle_spurr; /* number of spurr cycles spent in idle mode */
u_longlong_t pwait_spurr; /* number of spurr cycles spent in wait mode */
int spurrflag; /* set if running in spurr mode */
u_longlong_t version; /* version number (1, 2, etc.,) */
/* >>>>> END OF STRUCTURE DEFINITION <<<<< */
/* #define CURR_VERSION_CPU_TOTAL 1 Incremented by one for every new release *
* of perfstat_cpu_total_t data structure */
} perfstat_cpu_total_t_71;
typedef struct { /* global cpu information AIX 7.2 / 6.1 TL6 (see oslevel -r) */
int ncpus; /* number of active logical processors */
int ncpus_cfg; /* number of configured processors */
char description[IDENTIFIER_LENGTH]; /* processor description (type/official name) */
u_longlong_t processorHZ; /* processor speed in Hz */
u_longlong_t user; /* raw total number of clock ticks spent in user mode */
u_longlong_t sys; /* raw total number of clock ticks spent in system mode */
u_longlong_t idle; /* raw total number of clock ticks spent idle */
u_longlong_t wait; /* raw total number of clock ticks spent waiting for I/O */
u_longlong_t pswitch; /* number of process switches (change in currently running process) */
u_longlong_t syscall; /* number of system calls executed */
u_longlong_t sysread; /* number of read system calls executed */
u_longlong_t syswrite; /* number of write system calls executed */
u_longlong_t sysfork; /* number of forks system calls executed */
u_longlong_t sysexec; /* number of execs system calls executed */
u_longlong_t readch; /* number of characters tranferred with read system call */
u_longlong_t writech; /* number of characters tranferred with write system call */
u_longlong_t devintrs; /* number of device interrupts */
u_longlong_t softintrs; /* number of software interrupts */
time_t lbolt; /* number of ticks since last reboot */
u_longlong_t loadavg[3]; /* (1<<SBITS) times the average number of runnables processes during the last 1, 5 and 15 minutes. */
/* To calculate the load average, divide the numbers by (1<<SBITS). SBITS is defined in <sys/proc.h>. */
u_longlong_t runque; /* length of the run queue (processes ready) */
u_longlong_t swpque; /* ength of the swap queue (processes waiting to be paged in) */
u_longlong_t bread; /* number of blocks read */
u_longlong_t bwrite; /* number of blocks written */
u_longlong_t lread; /* number of logical read requests */
u_longlong_t lwrite; /* number of logical write requests */
u_longlong_t phread; /* number of physical reads (reads on raw devices) */
u_longlong_t phwrite; /* number of physical writes (writes on raw devices) */
u_longlong_t runocc; /* updated whenever runque is updated, i.e. the runqueue is occupied.
* This can be used to compute the simple average of ready processes */
u_longlong_t swpocc; /* updated whenever swpque is updated. i.e. the swpqueue is occupied.
* This can be used to compute the simple average processes waiting to be paged in */
u_longlong_t iget; /* number of inode lookups */
u_longlong_t namei; /* number of vnode lookup from a path name */
u_longlong_t dirblk; /* number of 512-byte block reads by the directory search routine to locate an entry for a file */
u_longlong_t msg; /* number of IPC message operations */
u_longlong_t sema; /* number of IPC semaphore operations */
u_longlong_t rcvint; /* number of tty receive interrupts */
u_longlong_t xmtint; /* number of tyy transmit interrupts */
u_longlong_t mdmint; /* number of modem interrupts */
u_longlong_t tty_rawinch; /* number of raw input characters */
u_longlong_t tty_caninch; /* number of canonical input characters (always zero) */
u_longlong_t tty_rawoutch;/* number of raw output characters */
u_longlong_t ksched; /* number of kernel processes created */
u_longlong_t koverf; /* kernel process creation attempts where:
* -the user has forked to their maximum limit
* -the configuration limit of processes has been reached */
u_longlong_t kexit; /* number of kernel processes that became zombies */
u_longlong_t rbread; /* number of remote read requests */
u_longlong_t rcread; /* number of cached remote reads */
u_longlong_t rbwrt; /* number of remote writes */
u_longlong_t rcwrt; /* number of cached remote writes */
u_longlong_t traps; /* number of traps */
int ncpus_high; /* index of highest processor online */
u_longlong_t puser; /* raw number of physical processor tics in user mode */
u_longlong_t psys; /* raw number of physical processor tics in system mode */
u_longlong_t pidle; /* raw number of physical processor tics idle */
u_longlong_t pwait; /* raw number of physical processor tics waiting for I/O */
u_longlong_t decrintrs; /* number of decrementer tics interrupts */
u_longlong_t mpcrintrs; /* number of mpc's received interrupts */
u_longlong_t mpcsintrs; /* number of mpc's sent interrupts */
u_longlong_t phantintrs; /* number of phantom interrupts */
u_longlong_t idle_donated_purr; /* number of idle cycles donated by a dedicated partition enabled for donation */
u_longlong_t idle_donated_spurr;/* number of idle spurr cycles donated by a dedicated partition enabled for donation */
u_longlong_t busy_donated_purr; /* number of busy cycles donated by a dedicated partition enabled for donation */
u_longlong_t busy_donated_spurr;/* number of busy spurr cycles donated by a dedicated partition enabled for donation */
u_longlong_t idle_stolen_purr; /* number of idle cycles stolen by the hypervisor from a dedicated partition */
u_longlong_t idle_stolen_spurr; /* number of idle spurr cycles stolen by the hypervisor from a dedicated partition */
u_longlong_t busy_stolen_purr; /* number of busy cycles stolen by the hypervisor from a dedicated partition */
u_longlong_t busy_stolen_spurr; /* number of busy spurr cycles stolen by the hypervisor from a dedicated partition */
short iowait; /* number of processes that are asleep waiting for buffered I/O */
short physio; /* number of processes waiting for raw I/O */
longlong_t twait; /* number of threads that are waiting for filesystem direct(cio) */
u_longlong_t hpi; /* number of hypervisor page-ins */
u_longlong_t hpit; /* Time spent in hypervisor page-ins (in nanoseconds) */
u_longlong_t puser_spurr; /* number of spurr cycles spent in user mode */
u_longlong_t psys_spurr; /* number of spurr cycles spent in kernel mode */
u_longlong_t pidle_spurr; /* number of spurr cycles spent in idle mode */
u_longlong_t pwait_spurr; /* number of spurr cycles spent in wait mode */
int spurrflag; /* set if running in spurr mode */
u_longlong_t version; /* version number (1, 2, etc.,) */
u_longlong_t tb_last; /*time base counter */
u_longlong_t purr_coalescing; /* If the calling partition is
* authorized to see pool wide statistics then
* PURR cycles consumed to coalesce data
* else set to zero.*/
u_longlong_t spurr_coalescing; /* If the calling partition is
* authorized to see pool wide statistics then
* SPURR cycles consumed to coalesce data
* else set to zero.*/
/* >>>>> END OF STRUCTURE DEFINITION <<<<< */
#define CURR_VERSION_CPU_TOTAL 2 /* Incremented by one for every new release *
* of perfstat_cpu_total_t data structure */
} perfstat_cpu_total_t_72;
typedef union {
uint w;
struct {
unsigned smt_capable :1; /* OS supports SMT mode */
unsigned smt_enabled :1; /* SMT mode is on */
unsigned lpar_capable :1; /* OS supports logical partitioning */
unsigned lpar_enabled :1; /* logical partitioning is on */
unsigned shared_capable :1; /* OS supports shared processor LPAR */
unsigned shared_enabled :1; /* partition runs in shared mode */
unsigned dlpar_capable :1; /* OS supports dynamic LPAR */
unsigned capped :1; /* partition is capped */
unsigned kernel_is_64 :1; /* kernel is 64 bit */
unsigned pool_util_authority :1; /* pool utilization available */
unsigned donate_capable :1; /* capable of donating cycles */
unsigned donate_enabled :1; /* enabled for donating cycles */
unsigned ams_capable:1; /* 1 = AMS(Active Memory Sharing) capable, 0 = Not AMS capable */
unsigned ams_enabled:1; /* 1 = AMS(Active Memory Sharing) enabled, 0 = Not AMS enabled */
unsigned power_save:1; /* 1 = Power saving mode is enabled */
unsigned ame_enabled:1; /* Active Memory Expansion is enabled */
unsigned shared_extended :1;
unsigned spare :15; /* reserved for future usage */
} b;
} perfstat_partition_type_t;
typedef struct { /* partition total information AIX 5.3 < TL6 */
char name[IDENTIFIER_LENGTH]; /* name of the logical partition */
perfstat_partition_type_t type; /* set of bits describing the partition */
int lpar_id; /* logical partition identifier */
int group_id; /* identifier of the LPAR group this partition is a member of */
int pool_id; /* identifier of the shared pool of physical processors this partition is a member of */
int online_cpus; /* number of virtual CPUs currently online on the partition */
int max_cpus; /* maximum number of virtual CPUs this parition can ever have */
int min_cpus; /* minimum number of virtual CPUs this partition must have */
u_longlong_t online_memory; /* amount of memory currently online */
u_longlong_t max_memory; /* maximum amount of memory this partition can ever have */
u_longlong_t min_memory; /* minimum amount of memory this partition must have */
int entitled_proc_capacity; /* number of processor units this partition is entitled to receive */
int max_proc_capacity; /* maximum number of processor units this partition can ever have */
int min_proc_capacity; /* minimum number of processor units this partition must have */
int proc_capacity_increment; /* increment value to the entitled capacity */
int unalloc_proc_capacity; /* number of processor units currently unallocated in the shared processor pool this partition belongs to */
int var_proc_capacity_weight; /* partition priority weight to receive extra capacity */
int unalloc_var_proc_capacity_weight; /* number of variable processor capacity weight units currently unallocated in the shared processor pool this partition belongs to */
int online_phys_cpus_sys; /* number of physical CPUs currently active in the system containing this partition */
int max_phys_cpus_sys; /* maximum possible number of physical CPUs in the system containing this partition */
int phys_cpus_pool; /* number of the physical CPUs currently in the shared processor pool this partition belong to */
u_longlong_t puser; /* raw number of physical processor tics in user mode */
u_longlong_t psys; /* raw number of physical processor tics in system mode */
u_longlong_t pidle; /* raw number of physical processor tics idle */
u_longlong_t pwait; /* raw number of physical processor tics waiting for I/O */
u_longlong_t pool_idle_time; /* number of clock tics a processor in the shared pool was idle */
u_longlong_t phantintrs; /* number of phantom interrupts received by the partition */
u_longlong_t invol_virt_cswitch; /* number involuntary virtual CPU context switches */
u_longlong_t vol_virt_cswitch; /* number voluntary virtual CPU context switches */
u_longlong_t timebase_last; /* most recently cpu time base */
u_longlong_t reserved_pages; /* Currenlty number of 16GB pages. Cannot participate in DR operations */
u_longlong_t reserved_pagesize; /* Currently 16GB pagesize Cannot participate in DR operations */
} perfstat_partition_total_t_53_5;
typedef struct { /* partition total information AIX 5.3 < TL10 */
char name[IDENTIFIER_LENGTH]; /* name of the logical partition */
perfstat_partition_type_t type; /* set of bits describing the partition */
int lpar_id; /* logical partition identifier */
int group_id; /* identifier of the LPAR group this partition is a member of */
int pool_id; /* identifier of the shared pool of physical processors this partition is a member of */
int online_cpus; /* number of virtual CPUs currently online on the partition */
int max_cpus; /* maximum number of virtual CPUs this parition can ever have */
int min_cpus; /* minimum number of virtual CPUs this partition must have */
u_longlong_t online_memory; /* amount of memory currently online */
u_longlong_t max_memory; /* maximum amount of memory this partition can ever have */
u_longlong_t min_memory; /* minimum amount of memory this partition must have */
int entitled_proc_capacity; /* number of processor units this partition is entitled to receive */
int max_proc_capacity; /* maximum number of processor units this partition can ever have */
int min_proc_capacity; /* minimum number of processor units this partition must have */
int proc_capacity_increment; /* increment value to the entitled capacity */
int unalloc_proc_capacity; /* number of processor units currently unallocated in the shared processor pool this partition belongs to */
int var_proc_capacity_weight; /* partition priority weight to receive extra capacity */
int unalloc_var_proc_capacity_weight; /* number of variable processor capacity weight units currently unallocated in the shared processor pool this partition belongs to */
int online_phys_cpus_sys; /* number of physical CPUs currently active in the system containing this partition */
int max_phys_cpus_sys; /* maximum possible number of physical CPUs in the system containing this partition */
int phys_cpus_pool; /* number of the physical CPUs currently in the shared processor pool this partition belong to */
u_longlong_t puser; /* raw number of physical processor tics in user mode */
u_longlong_t psys; /* raw number of physical processor tics in system mode */
u_longlong_t pidle; /* raw number of physical processor tics idle */
u_longlong_t pwait; /* raw number of physical processor tics waiting for I/O */
u_longlong_t pool_idle_time; /* number of clock tics a processor in the shared pool was idle */
u_longlong_t phantintrs; /* number of phantom interrupts received by the partition */
u_longlong_t invol_virt_cswitch; /* number involuntary virtual CPU context switches */
u_longlong_t vol_virt_cswitch; /* number voluntary virtual CPU context switches */
u_longlong_t timebase_last; /* most recently cpu time base */
u_longlong_t reserved_pages; /* Currenlty number of 16GB pages. Cannot participate in DR operations */
u_longlong_t reserved_pagesize; /* Currently 16GB pagesize Cannot participate in DR operations */
u_longlong_t idle_donated_purr; /* number of idle cycles donated by a dedicated partition enabled for donation */
u_longlong_t idle_donated_spurr; /* number of idle spurr cycles donated by a dedicated partition enabled for donation */
u_longlong_t busy_donated_purr; /* number of busy cycles donated by a dedicated partition enabled for donation */
u_longlong_t busy_donated_spurr; /* number of busy spurr cycles donated by a dedicated partition enabled for donation */
u_longlong_t idle_stolen_purr; /* number of idle cycles stolen by the hypervisor from a dedicated partition */
u_longlong_t idle_stolen_spurr; /* number of idle spurr cycles stolen by the hypervisor from a dedicated partition */
u_longlong_t busy_stolen_purr; /* number of busy cycles stolen by the hypervisor from a dedicated partition */
u_longlong_t busy_stolen_spurr; /* number of busy spurr cycles stolen by the hypervisor from a dedicated partition */
u_longlong_t shcpus_in_sys; /* Number of physical processors allocated for shared processor use */
u_longlong_t max_pool_capacity; /* Maximum processor capacity of partitions pool */
u_longlong_t entitled_pool_capacity; /* Entitled processor capacity of partitions pool */
u_longlong_t pool_max_time; /* Summation of maximum time that could be consumed by the pool (nano seconds) */
u_longlong_t pool_busy_time; /* Summation of busy (non-idle) time accumulated across all partitions in the pool (nano seconds) */
u_longlong_t pool_scaled_busy_time; /* Scaled summation of busy (non-idle) time accumulated across all partitions in the pool (nano seconds) */
u_longlong_t shcpu_tot_time; /* Summation of total time across all physical processors allocated for shared processor use (nano seconds) */
u_longlong_t shcpu_busy_time; /* Summation of busy (non-idle) time accumulated across all shared processor partitions (nano seconds) */
u_longlong_t shcpu_scaled_busy_time; /* Scaled summation of busy time accumulated across all shared processor partitions (nano seconds) */
int ams_pool_id; /* AMS pool id of the pool the LPAR belongs to */
int var_mem_weight; /* variable memory capacity weight */
u_longlong_t iome; /* I/O memory entitlement of the partition in bytes*/
u_longlong_t pmem; /* Physical memory currently backing the partition's logical memory in bytes*/
u_longlong_t hpi; /* number of hypervisor page-ins */
u_longlong_t hpit; /* Time spent in hypervisor page-ins (in nanoseconds)*/
u_longlong_t hypv_pagesize; /* Hypervisor page size in KB*/
} perfstat_partition_total_t_53;
typedef struct { /* partition total information AIX 6.1|5.3 > TL09 */
char name[IDENTIFIER_LENGTH]; /* name of the logical partition */
perfstat_partition_type_t type; /* set of bits describing the partition */
int lpar_id; /* logical partition identifier */
int group_id; /* identifier of the LPAR group this partition is a member of */
int pool_id; /* identifier of the shared pool of physical processors this partition is a member of */
int online_cpus; /* number of virtual CPUs currently online on the partition */
int max_cpus; /* maximum number of virtual CPUs this parition can ever have */
int min_cpus; /* minimum number of virtual CPUs this partition must have */
u_longlong_t online_memory; /* amount of memory currently online */
u_longlong_t max_memory; /* maximum amount of memory this partition can ever have */
u_longlong_t min_memory; /* minimum amount of memory this partition must have */
int entitled_proc_capacity; /* number of processor units this partition is entitled to receive */
int max_proc_capacity; /* maximum number of processor units this partition can ever have */
int min_proc_capacity; /* minimum number of processor units this partition must have */
int proc_capacity_increment; /* increment value to the entitled capacity */
int unalloc_proc_capacity; /* number of processor units currently unallocated in the shared processor pool this partition belongs to */
int var_proc_capacity_weight; /* partition priority weight to receive extra capacity */
int unalloc_var_proc_capacity_weight; /* number of variable processor capacity weight units currently unallocated in the shared processor pool this partition belongs to */
int online_phys_cpus_sys; /* number of physical CPUs currently active in the system containing this partition */
int max_phys_cpus_sys; /* maximum possible number of physical CPUs in the system containing this partition */
int phys_cpus_pool; /* number of the physical CPUs currently in the shared processor pool this partition belong to */
u_longlong_t puser; /* raw number of physical processor tics in user mode */
u_longlong_t psys; /* raw number of physical processor tics in system mode */
u_longlong_t pidle; /* raw number of physical processor tics idle */
u_longlong_t pwait; /* raw number of physical processor tics waiting for I/O */
u_longlong_t pool_idle_time; /* number of clock tics a processor in the shared pool was idle */
u_longlong_t phantintrs; /* number of phantom interrupts received by the partition */
u_longlong_t invol_virt_cswitch; /* number involuntary virtual CPU context switches */
u_longlong_t vol_virt_cswitch; /* number voluntary virtual CPU context switches */
u_longlong_t timebase_last; /* most recently cpu time base */
u_longlong_t reserved_pages; /* Currenlty number of 16GB pages. Cannot participate in DR operations */
u_longlong_t reserved_pagesize; /* Currently 16GB pagesize Cannot participate in DR operations */
u_longlong_t idle_donated_purr; /* number of idle cycles donated by a dedicated partition enabled for donation */
u_longlong_t idle_donated_spurr; /* number of idle spurr cycles donated by a dedicated partition enabled for donation */
u_longlong_t busy_donated_purr; /* number of busy cycles donated by a dedicated partition enabled for donation */
u_longlong_t busy_donated_spurr; /* number of busy spurr cycles donated by a dedicated partition enabled for donation */
u_longlong_t idle_stolen_purr; /* number of idle cycles stolen by the hypervisor from a dedicated partition */
u_longlong_t idle_stolen_spurr; /* number of idle spurr cycles stolen by the hypervisor from a dedicated partition */
u_longlong_t busy_stolen_purr; /* number of busy cycles stolen by the hypervisor from a dedicated partition */
u_longlong_t busy_stolen_spurr; /* number of busy spurr cycles stolen by the hypervisor from a dedicated partition */
u_longlong_t shcpus_in_sys; /* Number of physical processors allocated for shared processor use */
u_longlong_t max_pool_capacity; /* Maximum processor capacity of partitions pool */
u_longlong_t entitled_pool_capacity; /* Entitled processor capacity of partitions pool */
u_longlong_t pool_max_time; /* Summation of maximum time that could be consumed by the pool (nano seconds) */
u_longlong_t pool_busy_time; /* Summation of busy (non-idle) time accumulated across all partitions in the pool (nano seconds) */
u_longlong_t pool_scaled_busy_time; /* Scaled summation of busy (non-idle) time accumulated across all partitions in the pool (nano seconds) */
u_longlong_t shcpu_tot_time; /* Summation of total time across all physical processors allocated for shared processor use (nano seconds) */
u_longlong_t shcpu_busy_time; /* Summation of busy (non-idle) time accumulated across all shared processor partitions (nano seconds) */
u_longlong_t shcpu_scaled_busy_time; /* Scaled summation of busy time accumulated across all shared processor partitions (nano seconds) */
int ams_pool_id; /* AMS pool id of the pool the LPAR belongs to */
int var_mem_weight; /* variable memory capacity weight */
u_longlong_t iome; /* I/O memory entitlement of the partition in bytes*/
u_longlong_t pmem; /* Physical memory currently backing the partition's logical memory in bytes*/
u_longlong_t hpi; /* number of hypervisor page-ins */
u_longlong_t hpit; /* Time spent in hypervisor page-ins (in nanoseconds)*/
u_longlong_t hypv_pagesize; /* Hypervisor page size in KB*/
uint online_lcpus; /* number of online logical cpus */
uint smt_thrds; /* number of hardware threads that are running */
u_longlong_t puser_spurr; /* number of spurr cycles spent in user mode */
u_longlong_t psys_spurr; /* number of spurr cycles spent in kernel mode */
u_longlong_t pidle_spurr; /* number of spurr cycles spent in idle mode */
u_longlong_t pwait_spurr; /* number of spurr cycles spent in wait mode */
int spurrflag; /* set if running in spurr mode */
} perfstat_partition_total_t_61;
typedef struct { /* partition total information AIX 7.1 */
char name[IDENTIFIER_LENGTH]; /* name of the logical partition */
perfstat_partition_type_t type; /* set of bits describing the partition */
int lpar_id; /* logical partition identifier */
int group_id; /* identifier of the LPAR group this partition is a member of */
int pool_id; /* identifier of the shared pool of physical processors this partition is a member of */
int online_cpus; /* number of virtual CPUs currently online on the partition */
int max_cpus; /* maximum number of virtual CPUs this parition can ever have */
int min_cpus; /* minimum number of virtual CPUs this partition must have */
u_longlong_t online_memory; /* amount of memory currently online */
u_longlong_t max_memory; /* maximum amount of memory this partition can ever have */
u_longlong_t min_memory; /* minimum amount of memory this partition must have */
int entitled_proc_capacity; /* number of processor units this partition is entitled to receive */
int max_proc_capacity; /* maximum number of processor units this partition can ever have */
int min_proc_capacity; /* minimum number of processor units this partition must have */
int proc_capacity_increment; /* increment value to the entitled capacity */
int unalloc_proc_capacity; /* number of processor units currently unallocated in the shared processor pool this partition belongs to */
int var_proc_capacity_weight; /* partition priority weight to receive extra capacity */
int unalloc_var_proc_capacity_weight; /* number of variable processor capacity weight units currently unallocated in the shared processor pool this partition belongs to */
int online_phys_cpus_sys; /* number of physical CPUs currently active in the system containing this partition */
int max_phys_cpus_sys; /* maximum possible number of physical CPUs in the system containing this partition */
int phys_cpus_pool; /* number of the physical CPUs currently in the shared processor pool this partition belong to */
u_longlong_t puser; /* raw number of physical processor tics in user mode */
u_longlong_t psys; /* raw number of physical processor tics in system mode */
u_longlong_t pidle; /* raw number of physical processor tics idle */
u_longlong_t pwait; /* raw number of physical processor tics waiting for I/O */
u_longlong_t pool_idle_time; /* number of clock tics a processor in the shared pool was idle */
u_longlong_t phantintrs; /* number of phantom interrupts received by the partition */
u_longlong_t invol_virt_cswitch; /* number involuntary virtual CPU context switches */
u_longlong_t vol_virt_cswitch; /* number voluntary virtual CPU context switches */
u_longlong_t timebase_last; /* most recently cpu time base */
u_longlong_t reserved_pages; /* Currenlty number of 16GB pages. Cannot participate in DR operations */
u_longlong_t reserved_pagesize; /* Currently 16GB pagesize Cannot participate in DR operations */
u_longlong_t idle_donated_purr; /* number of idle cycles donated by a dedicated partition enabled for donation */
u_longlong_t idle_donated_spurr; /* number of idle spurr cycles donated by a dedicated partition enabled for donation */
u_longlong_t busy_donated_purr; /* number of busy cycles donated by a dedicated partition enabled for donation */
u_longlong_t busy_donated_spurr; /* number of busy spurr cycles donated by a dedicated partition enabled for donation */
u_longlong_t idle_stolen_purr; /* number of idle cycles stolen by the hypervisor from a dedicated partition */
u_longlong_t idle_stolen_spurr; /* number of idle spurr cycles stolen by the hypervisor from a dedicated partition */
u_longlong_t busy_stolen_purr; /* number of busy cycles stolen by the hypervisor from a dedicated partition */
u_longlong_t busy_stolen_spurr; /* number of busy spurr cycles stolen by the hypervisor from a dedicated partition */
u_longlong_t shcpus_in_sys; /* Number of physical processors allocated for shared processor use */
u_longlong_t max_pool_capacity; /* Maximum processor capacity of partitions pool */
u_longlong_t entitled_pool_capacity; /* Entitled processor capacity of partitions pool */
u_longlong_t pool_max_time; /* Summation of maximum time that could be consumed by the pool (nano seconds) */
u_longlong_t pool_busy_time; /* Summation of busy (non-idle) time accumulated across all partitions in the pool (nano seconds) */
u_longlong_t pool_scaled_busy_time; /* Scaled summation of busy (non-idle) time accumulated across all partitions in the pool (nano seconds) */
u_longlong_t shcpu_tot_time; /* Summation of total time across all physical processors allocated for shared processor use (nano seconds) */
u_longlong_t shcpu_busy_time; /* Summation of busy (non-idle) time accumulated across all shared processor partitions (nano seconds) */
u_longlong_t shcpu_scaled_busy_time; /* Scaled summation of busy time accumulated across all shared processor partitions (nano seconds) */
int ams_pool_id; /* AMS pool id of the pool the LPAR belongs to */
int var_mem_weight; /* variable memory capacity weight */
u_longlong_t iome; /* I/O memory entitlement of the partition in bytes*/
u_longlong_t pmem; /* Physical memory currently backing the partition's logical memory in bytes*/
u_longlong_t hpi; /* number of hypervisor page-ins */
u_longlong_t hpit; /* Time spent in hypervisor page-ins (in nanoseconds)*/
u_longlong_t hypv_pagesize; /* Hypervisor page size in KB*/
uint online_lcpus; /* number of online logical cpus */
uint smt_thrds; /* number of hardware threads that are running */
u_longlong_t puser_spurr; /* number of spurr cycles spent in user mode */
u_longlong_t psys_spurr; /* number of spurr cycles spent in kernel mode */
u_longlong_t pidle_spurr; /* number of spurr cycles spent in idle mode */
u_longlong_t pwait_spurr; /* number of spurr cycles spent in wait mode */
int spurrflag; /* set if running in spurr mode */
char hardwareid[CEC_ID_LEN]; /* CEC Identifier */
uint power_save_mode; /* Power save mode for the LPAR. Introduced through LI 53K PRF : Feature 728 292*/
ushort ame_version; /* AME Version */
u_longlong_t true_memory; /* True Memory Size in 4KB pages */
u_longlong_t expanded_memory; /* Expanded Memory Size in 4KB pages */
u_longlong_t target_memexp_factr; /* Target Memory Expansion Factor scaled by 100 */
u_longlong_t current_memexp_factr; /* Current Memory Expansion Factor scaled by 100 */
u_longlong_t target_cpool_size; /* Target Compressed Pool Size in bytes */
u_longlong_t max_cpool_size; /* Max Size of Compressed Pool in bytes */
u_longlong_t min_ucpool_size; /* Min Size of Uncompressed Pool in bytes */
u_longlong_t ame_deficit_size; /*Deficit memory size in bytes */
u_longlong_t version; /* version number (1, 2, etc.,) */
u_longlong_t cmcs_total_time; /* Total CPU time spent due to active memory expansion */
} perfstat_partition_total_t_71;
typedef struct { /* partition total information AIX 7.1 >= TL1*/
char name[IDENTIFIER_LENGTH]; /* name of the logical partition */
perfstat_partition_type_t type; /* set of bits describing the partition */
int lpar_id; /* logical partition identifier */
int group_id; /* identifier of the LPAR group this partition is a member of */
int pool_id; /* identifier of the shared pool of physical processors this partition is a member of */
int online_cpus; /* number of virtual CPUs currently online on the partition */
int max_cpus; /* maximum number of virtual CPUs this parition can ever have */
int min_cpus; /* minimum number of virtual CPUs this partition must have */
u_longlong_t online_memory; /* amount of memory currently online */
u_longlong_t max_memory; /* maximum amount of memory this partition can ever have */
u_longlong_t min_memory; /* minimum amount of memory this partition must have */
int entitled_proc_capacity; /* number of processor units this partition is entitled to receive */
int max_proc_capacity; /* maximum number of processor units this partition can ever have */
int min_proc_capacity; /* minimum number of processor units this partition must have */
int proc_capacity_increment; /* increment value to the entitled capacity */
int unalloc_proc_capacity; /* number of processor units currently unallocated in the shared processor pool this partition belongs to */
int var_proc_capacity_weight; /* partition priority weight to receive extra capacity */
int unalloc_var_proc_capacity_weight; /* number of variable processor capacity weight units currently unallocated in the shared processor pool this partition belongs to */
int online_phys_cpus_sys; /* number of physical CPUs currently active in the system containing this partition */
int max_phys_cpus_sys; /* maximum possible number of physical CPUs in the system containing this partition */
int phys_cpus_pool; /* number of the physical CPUs currently in the shared processor pool this partition belong to */
u_longlong_t puser; /* raw number of physical processor tics in user mode */
u_longlong_t psys; /* raw number of physical processor tics in system mode */
u_longlong_t pidle; /* raw number of physical processor tics idle */
u_longlong_t pwait; /* raw number of physical processor tics waiting for I/O */
u_longlong_t pool_idle_time; /* number of clock tics a processor in the shared pool was idle */
u_longlong_t phantintrs; /* number of phantom interrupts received by the partition */
u_longlong_t invol_virt_cswitch; /* number involuntary virtual CPU context switches */
u_longlong_t vol_virt_cswitch; /* number voluntary virtual CPU context switches */
u_longlong_t timebase_last; /* most recently cpu time base */
u_longlong_t reserved_pages; /* Currenlty number of 16GB pages. Cannot participate in DR operations */
u_longlong_t reserved_pagesize; /* Currently 16GB pagesize Cannot participate in DR operations */
u_longlong_t idle_donated_purr; /* number of idle cycles donated by a dedicated partition enabled for donation */
u_longlong_t idle_donated_spurr; /* number of idle spurr cycles donated by a dedicated partition enabled for donation */
u_longlong_t busy_donated_purr; /* number of busy cycles donated by a dedicated partition enabled for donation */
u_longlong_t busy_donated_spurr; /* number of busy spurr cycles donated by a dedicated partition enabled for donation */
u_longlong_t idle_stolen_purr; /* number of idle cycles stolen by the hypervisor from a dedicated partition */
u_longlong_t idle_stolen_spurr; /* number of idle spurr cycles stolen by the hypervisor from a dedicated partition */
u_longlong_t busy_stolen_purr; /* number of busy cycles stolen by the hypervisor from a dedicated partition */
u_longlong_t busy_stolen_spurr; /* number of busy spurr cycles stolen by the hypervisor from a dedicated partition */
u_longlong_t shcpus_in_sys; /* Number of physical processors allocated for shared processor use */
u_longlong_t max_pool_capacity; /* Maximum processor capacity of partitions pool */
u_longlong_t entitled_pool_capacity; /* Entitled processor capacity of partitions pool */
u_longlong_t pool_max_time; /* Summation of maximum time that could be consumed by the pool (nano seconds) */
u_longlong_t pool_busy_time; /* Summation of busy (non-idle) time accumulated across all partitions in the pool (nano seconds) */
u_longlong_t pool_scaled_busy_time; /* Scaled summation of busy (non-idle) time accumulated across all partitions in the pool (nano seconds) */
u_longlong_t shcpu_tot_time; /* Summation of total time across all physical processors allocated for shared processor use (nano seconds) */
u_longlong_t shcpu_busy_time; /* Summation of busy (non-idle) time accumulated across all shared processor partitions (nano seconds) */
u_longlong_t shcpu_scaled_busy_time; /* Scaled summation of busy time accumulated across all shared processor partitions (nano seconds) */
int ams_pool_id; /* AMS pool id of the pool the LPAR belongs to */
int var_mem_weight; /* variable memory capacity weight */
u_longlong_t iome; /* I/O memory entitlement of the partition in bytes*/
u_longlong_t pmem; /* Physical memory currently backing the partition's logical memory in bytes*/
u_longlong_t hpi; /* number of hypervisor page-ins */
u_longlong_t hpit; /* Time spent in hypervisor page-ins (in nanoseconds)*/
u_longlong_t hypv_pagesize; /* Hypervisor page size in KB*/
uint online_lcpus; /* number of online logical cpus */
uint smt_thrds; /* number of hardware threads that are running */
u_longlong_t puser_spurr; /* number of spurr cycles spent in user mode */
u_longlong_t psys_spurr; /* number of spurr cycles spent in kernel mode */
u_longlong_t pidle_spurr; /* number of spurr cycles spent in idle mode */
u_longlong_t pwait_spurr; /* number of spurr cycles spent in wait mode */
int spurrflag; /* set if running in spurr mode */
char hardwareid[CEC_ID_LEN]; /* CEC Identifier */
uint power_save_mode; /* Power save mode for the LPAR. Introduced through LI 53K PRF : Feature 728 292*/
ushort ame_version; /* AME Version */
u_longlong_t true_memory; /* True Memory Size in 4KB pages */
u_longlong_t expanded_memory; /* Expanded Memory Size in 4KB pages */
u_longlong_t target_memexp_factr; /* Target Memory Expansion Factor scaled by 100 */
u_longlong_t current_memexp_factr; /* Current Memory Expansion Factor scaled by 100 */
u_longlong_t target_cpool_size; /* Target Compressed Pool Size in bytes */
u_longlong_t max_cpool_size; /* Max Size of Compressed Pool in bytes */
u_longlong_t min_ucpool_size; /* Min Size of Uncompressed Pool in bytes */
u_longlong_t ame_deficit_size; /*Deficit memory size in bytes */
u_longlong_t version; /* version number (1, 2, etc.,) */
u_longlong_t cmcs_total_time; /* Total CPU time spent due to active memory expansion */
u_longlong_t purr_coalescing; /* If the calling partition is authorized to see pool wide statistics then PURR cycles consumed to coalesce data else set to zero.*/
u_longlong_t spurr_coalescing; /* If the calling partition is authorized to see pool wide statistics then SPURR cycles consumed to coalesce data else set to zero.*/
u_longlong_t MemPoolSize; /* Indicates the memory pool size of the pool that the partition belongs to (in bytes)., mpsz */
u_longlong_t IOMemEntInUse; /* I/O memory entitlement of the LPAR in use in bytes. iomu */
u_longlong_t IOMemEntFree; /* free I/O memory entitlement in bytes. iomf */
u_longlong_t IOHighWaterMark; /* high water mark of I/O memory entitlement usage in bytes. iohwn */
u_longlong_t purr_counter; /* number of purr cycles spent in user + kernel mode */
u_longlong_t spurr_counter; /* number of spurr cycles spent in user + kernel mode */
/* Marketing Requirement(MR): MR1124083744 */
u_longlong_t real_free; /* free real memory (in 4KB pages) */
u_longlong_t real_avail; /* number of pages available for user application (memfree + numperm - minperm - minfree) */
/* >>>>> END OF STRUCTURE DEFINITION <<<<< */
#define CURR_VERSION_PARTITION_TOTAL 5 /* Incremented by one for every new release *
* of perfstat_partition_total_t data structure */
} perfstat_partition_total_t_71_1;
typedef union { /* WPAR Type & Flags */
uint w;
struct {
unsigned app_wpar :1; /* Application WPAR */
unsigned cpu_rset :1; /* WPAR restricted to CPU resource set */
unsigned cpu_xrset:1; /* WPAR restricted to CPU Exclusive resource set */
unsigned cpu_limits :1; /* CPU resource limits enforced */
unsigned mem_limits :1; /* Memory resource limits enforced */
unsigned spare :27; /* reserved for future usage */
} b;
} perfstat_wpar_type_t;
typedef struct { /* Workload partition Information AIX 5.3 & 6.1*/
char name[MAXCORRALNAMELEN+1]; /* name of the Workload Partition */
perfstat_wpar_type_t type; /* set of bits describing the wpar */
cid_t wpar_id; /* workload partition identifier */
uint online_cpus; /* Number of Virtual CPUs in partition rset or number of virtual CPUs currently online on the Global partition*/
int cpu_limit; /* CPU limit in 100ths of % - 1..10000 */
int mem_limit; /* Memory limit in 100ths of % - 1..10000 */
u_longlong_t online_memory; /* amount of memory currently online in Global Partition */
int entitled_proc_capacity; /* number of processor units this partition is entitled to receive */
} perfstat_wpar_total_t_61;
typedef struct { /* Workload partition Information AIX 7.1*/
char name[MAXCORRALNAMELEN+1]; /* name of the Workload Partition */
perfstat_wpar_type_t type; /* set of bits describing the wpar */
cid_t wpar_id; /* workload partition identifier */
uint online_cpus; /* Number of Virtual CPUs in partition rset or number of virtual CPUs currently online on the Global partition*/
int cpu_limit; /* CPU limit in 100ths of % - 1..10000 */
int mem_limit; /* Memory limit in 100ths of % - 1..10000 */
u_longlong_t online_memory; /* amount of memory currently online in Global Partition */
int entitled_proc_capacity; /* number of processor units this partition is entitled to receive */
u_longlong_t version; /* version number (1, 2, etc.,) */
/* >>>>> END OF STRUCTURE DEFINITION <<<<< */
#define CURR_VERSION_WPAR_TOTAL 1 /* Incremented by one for every new release *
* of perfstat_wpar_total_t data structure */
} perfstat_wpar_total_t_71;
typedef void * rsethandle_t; /* Type to identify a resource set handle: rsethandle_t */
typedef enum { WPARNAME, WPARID, RSETHANDLE } wparid_specifier; /* Type of wparid_specifier */
typedef struct { /* WPAR identifier */
wparid_specifier spec; /* Specifier to choose wpar id or name */
union {
cid_t wpar_id; /* WPAR ID */
rsethandle_t rset; /* Rset Handle */
char wparname[MAXCORRALNAMELEN+1]; /* WPAR NAME */
} u;
char name[IDENTIFIER_LENGTH]; /* name of the structure element identifier */
} perfstat_id_wpar_t;
// end: libperfstat.h (AIX 5.2, 5.3, 6.1, 7.1)
//////////////////////////////////////////////////////////////////////////////////////////////////////////////
#define PERFSTAT_PARTITON_TOTAL_T_LATEST perfstat_partition_total_t_71_1/* latest perfstat_partition_total_t structure */
#define PERFSTAT_CPU_TOTAL_T_LATEST perfstat_cpu_total_t_72 /* latest perfstat_cpu_total_t structure */
#define PERFSTAT_WPAR_TOTAL_T_LATEST perfstat_wpar_total_t_71 /* latest perfstat_wpar_total_t structure */
class libperfstat {
public:
// Load the libperfstat library (must be in LIBPATH).
// Returns true if succeeded, false if error.
static bool init();
static void cleanup();
// Direct wrappers for the libperfstat functionality. All they do is
// to call the functions with the same name via function pointers.
// Get all available data also on newer AIX versions (PERFSTAT_CPU_TOTAL_T_LATEST).
static int perfstat_cpu_total(perfstat_id_t *name, PERFSTAT_CPU_TOTAL_T_LATEST* userbuff,
int sizeof_userbuff, int desired_number);
static int perfstat_memory_total(perfstat_id_t *name, perfstat_memory_total_t* userbuff,
int sizeof_userbuff, int desired_number);
static int perfstat_partition_total(perfstat_id_t *name, PERFSTAT_PARTITON_TOTAL_T_LATEST* userbuff,
int sizeof_userbuff, int desired_number);
static void perfstat_reset();
static int perfstat_wpar_total(perfstat_id_wpar_t *name, PERFSTAT_WPAR_TOTAL_T_LATEST* userbuff,
int sizeof_userbuff, int desired_number);
static cid_t wpar_getcid();
////////////////////////////////////////////////////////////////
// The convenience functions get_partitioninfo(), get_cpuinfo(), get_wparinfo() return
// information about partition, cpu and wpars, respectivly. They can be used without
// regard for which OS release we are on. On older AIX release, some output structure
// members will be 0.
// Result struct for get_partitioninfo().
struct partitioninfo_t {
// partition type info
unsigned smt_capable :1; /* OS supports SMT mode */
unsigned smt_enabled :1; /* SMT mode is on */
unsigned lpar_capable :1; /* OS supports logical partitioning */
unsigned lpar_enabled :1; /* logical partitioning is on */
unsigned shared_capable :1; /* OS supports shared processor LPAR */
unsigned shared_enabled :1; /* partition runs in shared mode */
unsigned dlpar_capable :1; /* OS supports dynamic LPAR */
unsigned capped :1; /* partition is capped */
unsigned kernel_is_64 :1; /* kernel is 64 bit */
unsigned pool_util_authority :1; /* pool utilization available */
unsigned donate_capable :1; /* capable of donating cycles */
unsigned donate_enabled :1; /* enabled for donating cycles */
unsigned ams_capable:1; /* 1 = AMS(Active Memory Sharing) capable, 0 = Not AMS capable */
unsigned ams_enabled:1; /* 1 = AMS(Active Memory Sharing) enabled, 0 = Not AMS enabled */
unsigned power_save:1; /* 1 = Power saving mode is enabled */
unsigned ame_enabled:1; /* Active Memory Expansion is enabled */
// partition total info
int online_cpus; /* number of virtual CPUs currently online on the partition */
int entitled_proc_capacity; /* number of processor units this partition is entitled to receive */
int var_proc_capacity_weight; /* partition priority weight to receive extra capacity */
int phys_cpus_pool; /* number of the physical CPUs currently in the shared processor pool this partition belong to */
int pool_id; /* identifier of the shared pool of physical processors this partition is a member of */
u_longlong_t entitled_pool_capacity; /* Entitled processor capacity of partitions pool */
char name[IDENTIFIER_LENGTH]; /* name of the logical partition */
u_longlong_t timebase_last; /* most recently cpu time base (an incremented long int on PowerPC) */
u_longlong_t pool_idle_time; /* pool idle time = number of clock tics a processor in the shared pool was idle */
u_longlong_t pcpu_tics_user; /* raw number of physical processor tics in user mode */
u_longlong_t pcpu_tics_sys; /* raw number of physical processor tics in system mode */
u_longlong_t pcpu_tics_idle; /* raw number of physical processor tics idle */
u_longlong_t pcpu_tics_wait; /* raw number of physical processor tics waiting for I/O */
u_longlong_t true_memory; /* True Memory Size in 4KB pages */
u_longlong_t expanded_memory; /* Expanded Memory Size in 4KB pages */
u_longlong_t target_memexp_factr; /* Target Memory Expansion Factor scaled by 100 */
u_longlong_t current_memexp_factr; /* Current Memory Expansion Factor scaled by 100 */
u_longlong_t cmcs_total_time; /* Total CPU time spent due to active memory expansion */
};
// Result struct for get_cpuinfo().
struct cpuinfo_t {
char description[IDENTIFIER_LENGTH]; // processor description (type/official name)
u_longlong_t processorHZ; // processor speed in Hz
int ncpus; // number of active logical processors
double loadavg[3]; // (1<<SBITS) times the average number of runnables processes during the last 1, 5 and 15 minutes.
// To calculate the load average, divide the numbers by (1<<SBITS). SBITS is defined in <sys/proc.h>.
unsigned long long user_clock_ticks; // raw total number of clock ticks spent in user mode
unsigned long long sys_clock_ticks; // raw total number of clock ticks spent in system mode
unsigned long long idle_clock_ticks; // raw total number of clock ticks spent idle
unsigned long long wait_clock_ticks; // raw total number of clock ticks spent waiting for I/O
};
// Result struct for get_wparinfo().
struct wparinfo_t {
char name[MAXCORRALNAMELEN+1]; /* name of the Workload Partition */
unsigned short wpar_id; /* workload partition identifier */
unsigned app_wpar :1; /* Application WPAR */
unsigned cpu_rset :1; /* WPAR restricted to CPU resource set */
unsigned cpu_xrset:1; /* WPAR restricted to CPU Exclusive resource set */
unsigned cpu_limits :1; /* CPU resource limits enforced */
unsigned mem_limits :1; /* Memory resource limits enforced */
int cpu_limit; /* CPU limit in 100ths of % - 1..10000 */
int mem_limit; /* Memory limit in 100ths of % - 1..10000 */
};
static bool get_partitioninfo(partitioninfo_t* ppi);
static bool get_cpuinfo(cpuinfo_t* pci);
static bool get_wparinfo(wparinfo_t* pwi);
};
#endif // OS_AIX_VM_LIBPERFSTAT_AIX_HPP