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libperfstat.h from aix 5.2

This commit is contained in:
Doug MacEachern 2004-07-09 00:48:29 +00:00
parent 99728c8e48
commit 38ee1910e6
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/* IBM_PROLOG_BEGIN_TAG */
/* This is an automatically generated prolog. */
/* */
/* bos52B src/bos/usr/ccs/lib/libperfstat/libperfstat.h 1.4.1.6 */
/* */
/* Licensed Materials - Property of IBM */
/* */
/* Restricted Materials of IBM */
/* */
/* (C) COPYRIGHT International Business Machines Corp. 2000,2003 */
/* All Rights Reserved */
/* */
/* US Government Users Restricted Rights - Use, duplication or */
/* disclosure restricted by GSA ADP Schedule Contract with IBM Corp. */
/* */
/* IBM_PROLOG_END_TAG */
/*
* @(#)91 1.4.1.6 src/bos/usr/ccs/lib/libperfstat/libperfstat.h, libperfstat, bos52B, b2003_06F6 2/6/03 06:43:34
* LEVEL 1, 5 Years Bull Confidential Information
*
*/
#ifndef LIBPERFSTAT_H
#define LIBPERFSTAT_H
/* This file describes the structures and constants used by the libperfstat API */
#include <sys/types.h>
#ifdef __cplusplus
extern "C" {
#endif
#define IDENTIFIER_LENGTH 64 /* length of strings included in the structures */
#define FIRST_CPU "" /* pseudo-name for the first logical cpu */
#define FIRST_DISK "" /* pseudo-name for the first disk */
#define FIRST_DISKPATH "" /* pseudo-name for the first disk path */
#define FIRST_DISKADAPTER "" /* pseudo-name for the first disk adapter */
#define FIRST_NETINTERFACE "" /* pseudo-name for the first network interface */
#define FIRST_PAGINGSPACE "" /* pseudo-name for the first paging space */
#define FIRST_PROTOCOL "" /* pseudo-name for the first protocol */
#define FIRST_NETBUFFER "" /* pseudo-name for the first network buffer size */
#define DEFAULT_DEF "not available"
typedef struct { /* structure element identifier */
char name[IDENTIFIER_LENGTH]; /* name of the identifier */
} perfstat_id_t;
typedef struct { /* cpu information */
char name[IDENTIFIER_LENGTH]; /* logical processor name (cpu0, cpu1, ..) */
u_longlong_t user; /* raw number of clock ticks spent in user mode */
u_longlong_t sys; /* raw number of clock ticks spent in system mode */
u_longlong_t idle; /* raw number of clock ticks spent idle */
u_longlong_t wait; /* raw number of clock ticks spent waiting for I/O */
u_longlong_t pswitch; /* number of context switches (changes of 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 fork system call executed */
u_longlong_t sysexec; /* number of exec system call 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 bread; /* number of block reads */
u_longlong_t bwrite; /* number of block writes */
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 device) */
u_longlong_t phwrite; /* number of physical writes (writes on raw device) */
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 */
} perfstat_cpu_t;
typedef struct { /* global cpu information */
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 */
} perfstat_cpu_total_t;
typedef struct { /* disk information */
char name[IDENTIFIER_LENGTH]; /* name of the disk */
char description[IDENTIFIER_LENGTH]; /* disk description (from ODM) */
char vgname[IDENTIFIER_LENGTH]; /* volume group name (from ODM) */
u_longlong_t size; /* size of the disk (in MB) */
u_longlong_t free; /* free portion of the disk (in MB) */
u_longlong_t bsize; /* disk block size (in bytes) */
u_longlong_t xrate; /* kbytes/sec xfer rate capability */
u_longlong_t xfers; /* number of transfers to/from disk */
u_longlong_t wblks; /* number of blocks written to disk */
u_longlong_t rblks; /* number of blocks read from disk */
u_longlong_t qdepth; /* queue depth */
u_longlong_t time; /* amount of time disk is active */
char adapter[IDENTIFIER_LENGTH]; /* disk adapter name (from ODM) */
uint paths_count; /* number of paths defined to the disk */
} perfstat_disk_t;
typedef struct { /* global disk information */
int number; /* total number of disks */
u_longlong_t size; /* total size of all disks (in MB) */
u_longlong_t free; /* free portion of all disks (in MB) */
u_longlong_t xrate; /* total kbytes/sec xfer rate capability */
u_longlong_t xfers; /* total number of transfers to/from disk */
u_longlong_t wblks; /* 512 bytes blocks written to all disks */
u_longlong_t rblks; /* 512 bytes blocks read from all disks */
u_longlong_t time; /* amount of time disks are active */
} perfstat_disk_total_t;
typedef struct { /* Disk adapter information */
char name[IDENTIFIER_LENGTH]; /* name of the adapter (from ODM) */
char description[IDENTIFIER_LENGTH]; /* adapter description (from ODM) */
int number; /* number of disks connected to adapter */
u_longlong_t size; /* total size of all disks (in MB) */
u_longlong_t free; /* free portion of all disks (in MB) */
u_longlong_t xrate; /* total kbytes/sec xfer rate capability */
u_longlong_t xfers; /* total number of transfers to/from disk */
u_longlong_t rblks; /* 512 bytes blocks written via adapter */
u_longlong_t wblks; /* 512 bytes blocks read via adapter */
u_longlong_t time; /* amount of time disks are active */
} perfstat_diskadapter_t;
typedef struct { /* mpio information */
char name[IDENTIFIER_LENGTH]; /* name of the path */
u_longlong_t xrate; /* total kbytes/sec xfer rate capability */
u_longlong_t xfers; /* total number of transfers via the path */
u_longlong_t rblks; /* 512 bytes blocks written via the path */
u_longlong_t wblks; /* 512 bytes blocks read via the path */
u_longlong_t time; /* amount of time disks are active */
char adapter[IDENTIFIER_LENGTH]; /* disk adapter name (from ODM) */
} perfstat_diskpath_t;
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. */
} perfstat_memory_total_t;
typedef struct { /* Description of the network interface */
char name[IDENTIFIER_LENGTH]; /* name of the interface */
char description[IDENTIFIER_LENGTH]; /* interface description (from ODM, similar to lscfg output) */
uchar type; /* ethernet, tokenring, etc. interpretation can be done using /usr/include/net/if_types.h */
u_longlong_t mtu; /* network frame size */
u_longlong_t ipackets; /* number of packets received on interface */
u_longlong_t ibytes; /* number of bytes received on interface */
u_longlong_t ierrors; /* number of input errors on interface */
u_longlong_t opackets; /* number of packets sent on interface */
u_longlong_t obytes; /* number of bytes sent on interface */
u_longlong_t oerrors; /* number of output errors on interface */
u_longlong_t collisions; /* number of collisions on csma interface */
u_longlong_t bitrate; /* adapter rating in bit per second */
} perfstat_netinterface_t;
typedef struct { /* Description of the network interfaces */
int number; /* number of network interfaces */
u_longlong_t ipackets; /* number of packets received on interface */
u_longlong_t ibytes; /* number of bytes received on interface */
u_longlong_t ierrors; /* number of input errors on interface */
u_longlong_t opackets; /* number of packets sent on interface */
u_longlong_t obytes; /* number of bytes sent on interface */
u_longlong_t oerrors; /* number of output errors on interface */
u_longlong_t collisions; /* number of collisions on csma interface */
} perfstat_netinterface_total_t;
enum {
LV_PAGING=1,
NFS_PAGING
};
#if 0 /* xlc_r does not like unnamed union */
typedef struct { /* Paging space data for a specific logical volume */
char name[IDENTIFIER_LENGTH]; /* Paging space name */
char type; /* type of paging device (LV_PAGING or NFS_PAGING) *
* Possible values are: *
* LV_PAGING logical volume *
* NFS_PAGING NFS file */
union{
struct{
char hostname[IDENTIFIER_LENGTH]; /* host name of paging server */
char filename[IDENTIFIER_LENGTH]; /* swap file name on server */
} nfs_paging;
struct{
char vgname[IDENTIFIER_LENGTH];/* volume group name */
} lv_paging;
};
longlong_t lp_size; /* size in number of logical partitions */
longlong_t mb_size; /* size in megabytes */
longlong_t mb_used; /* portion used in megabytes */
longlong_t io_pending; /* number of pending I/O */
char active; /* indicates if active (1 if so, 0 if not) */
char automatic; /* indicates if automatic (1 if so, 0 if not) */
} perfstat_pagingspace_t;
#endif
typedef struct { /* network buffers */
char name[IDENTIFIER_LENGTH]; /* size in ascii, always power of 2 (ex: "32", "64", "128") */
u_longlong_t inuse; /* number of buffer currently allocated */
u_longlong_t calls; /* number of buffer allocations since last reset */
u_longlong_t delayed; /* number of delayed allocations */
u_longlong_t free; /* number of free calls */
u_longlong_t failed; /* number of failed allocations */
u_longlong_t highwatermark; /* high threshold for number of buffer allocated */
u_longlong_t freed; /* number of buffers freed */
} perfstat_netbuffer_t;
#if 0 /* xlc_r does not like unnamed union */
typedef struct { /* utilization of protocols */
char name[IDENTIFIER_LENGTH]; /* ip, ipv6, icmp, icmpv6, udp, tcp, rpc, nfs, nfsv2, nfsv3*/
union{
struct{
u_longlong_t ipackets; /* number of input packets */
u_longlong_t ierrors; /* number of input errors */
u_longlong_t iqueueoverflow; /* number of input queue overflows */
u_longlong_t opackets; /* number of output packets */
u_longlong_t oerrors; /* number of output errors */
} ip;
struct{
u_longlong_t ipackets; /* number of input packets */
u_longlong_t ierrors; /* number of input errors */
u_longlong_t iqueueoverflow; /* number of input queue overflows */
u_longlong_t opackets; /* number of output packets */
u_longlong_t oerrors; /* number of output errors */
} ipv6;
struct{
u_longlong_t received; /* number of packets received */
u_longlong_t sent; /* number of packets sent */
u_longlong_t errors; /* number of errors */
} icmp;
struct{
u_longlong_t received; /* number of packets received */
u_longlong_t sent; /* number of packets sent */
u_longlong_t errors; /* number of errors */
} icmpv6;
struct{
u_longlong_t ipackets; /* number of input packets */
u_longlong_t ierrors; /* number of input errors */
u_longlong_t opackets; /* number of output packets */
u_longlong_t no_socket; /* number of packets dropped due to no socket */
} udp;
struct{
u_longlong_t ipackets; /* number of input packets */
u_longlong_t ierrors; /* number of input errors */
u_longlong_t opackets; /* number of output packets */
u_longlong_t initiated; /* number of connections initiated */
u_longlong_t accepted; /* number of connections accepted */
u_longlong_t established; /* number of connections established */
u_longlong_t dropped; /* number of connections dropped */
} tcp;
struct{
struct{
struct{
u_longlong_t calls; /* total NFS client RPC connection-oriented calls */
u_longlong_t badcalls; /* rejected NFS client RPC calls */
u_longlong_t badxids; /* bad NFS client RPC call responses */
u_longlong_t timeouts; /* timed out NFS client RPC calls with no reply */
u_longlong_t newcreds; /* total NFS client RPC authentication refreshes */
u_longlong_t badverfs; /* total NFS client RPC bad verifier in response */
u_longlong_t timers; /* NFS client RPC timout greater than timeout value */
u_longlong_t nomem; /* NFS client RPC calls memory allocation failure */
u_longlong_t cantconn; /* failed NFS client RPC calls */
u_longlong_t interrupts;/* NFS client RPC calls fail due to interrupt */
} stream; /* connection oriented rpc client */
struct{
u_longlong_t calls; /* total NFS client RPC connectionless calls */
u_longlong_t badcalls; /* rejected NFS client RPC calls */
u_longlong_t retrans; /* retransmitted NFS client RPC calls */
u_longlong_t badxids; /* bad NFS client RPC call responses */
u_longlong_t timeouts; /* timed out NFS client RPC calls with no reply */
u_longlong_t newcreds; /* total NFS client RPC authentication refreshes */
u_longlong_t badverfs; /* total NFS client RPC bad verifier in response */
u_longlong_t timers; /* NFS client RPC timout greater than timeout value */
u_longlong_t nomem; /* NFS client RPC calls memory allocation failure */
u_longlong_t cantsend; /* NFS client RPC calls not sent */
} dgram; /* connection less rpc client */
} client; /* rpc client */
struct{
struct{
u_longlong_t calls; /* total NFS server RPC connection-oriented requests */
u_longlong_t badcalls; /* rejected NFS server RPC requests */
u_longlong_t nullrecv; /* NFS server RPC calls failed due to unavailable packet */
u_longlong_t badlen; /* NFS server RPC requests failed due to bad length */
u_longlong_t xdrcall; /* NFS server RPC requests failed due to bad header */
u_longlong_t dupchecks;/* NFS server RPC calls found in request cache */
u_longlong_t dupreqs; /* total NFS server RPC call duplicates */
} stream; /* connection oriented rpc server */
struct{
u_longlong_t calls; /* total NFS server RPC connectionless requests */
u_longlong_t badcalls; /* rejected NFS server RPC requests */
u_longlong_t nullrecv; /* NFS server RPC calls failed due to unavailable packet */
u_longlong_t badlen; /* NFS server RPC requests failed due to bad length */
u_longlong_t xdrcall; /* NFS server RPC requests failed due to bad header */
u_longlong_t dupchecks;/* NFS server RPC calls found in request cache */
u_longlong_t dupreqs; /* total NFS server RPC call duplicates */
} dgram; /* connection less rpc server */
} server; /* rpc server*/
} rpc;
struct{
struct{
u_longlong_t calls; /* total NFS client requests */
u_longlong_t badcalls; /* total NFS client failed calls */
u_longlong_t clgets; /* total number of client nfs clgets */
u_longlong_t cltoomany;/* total number of client nfs cltoomany */
} client; /* nfs client */
struct{
u_longlong_t calls; /* total NFS server requests */
u_longlong_t badcalls; /* total NFS server failed calls */
u_longlong_t public_v2; /* total number of nfs version 2 server calls */
u_longlong_t public_v3; /* total number of nfs version 3 server calls */
} server; /* nfs server */
} nfs;
struct{
struct{
u_longlong_t calls; /* NFS V2 client requests */
u_longlong_t null; /* NFS V2 client null requests */
u_longlong_t getattr; /* NFS V2 client getattr requests */
u_longlong_t setattr; /* NFS V2 client setattr requests */
u_longlong_t root; /* NFS V2 client root requests */
u_longlong_t lookup; /* NFS V2 client file name lookup requests */
u_longlong_t readlink; /* NFS V2 client readlink requests */
u_longlong_t read; /* NFS V2 client read requests */
u_longlong_t writecache;/* NFS V2 client write cache requests */
u_longlong_t write; /* NFS V2 client write requests */
u_longlong_t create; /* NFS V2 client file creation requests */
u_longlong_t remove; /* NFS V2 client file removal requests */
u_longlong_t rename; /* NFS V2 client file rename requests */
u_longlong_t link; /* NFS V2 client link creation requests */
u_longlong_t symlink; /* NFS V2 client symbolic link creation requests */
u_longlong_t mkdir; /* NFS V2 client directory creation requests */
u_longlong_t rmdir; /* NFS V2 client directory removal requests */
u_longlong_t readdir; /* NFS V2 client read-directory requests */
u_longlong_t statfs; /* NFS V2 client file stat requests */
} client; /* nfs2 client */
struct{
u_longlong_t calls; /* NFS V2 server requests */
u_longlong_t null; /* NFS V2 server null requests */
u_longlong_t getattr; /* NFS V2 server getattr requests */
u_longlong_t setattr; /* NFS V2 server setattr requests */
u_longlong_t root; /* NFS V2 server root requests */
u_longlong_t lookup; /* NFS V2 server file name lookup requests */
u_longlong_t readlink; /* NFS V2 server readlink requests */
u_longlong_t read; /* NFS V2 server read requests */
u_longlong_t writecache;/* NFS V2 server cache requests */
u_longlong_t write; /* NFS V2 server write requests */
u_longlong_t create; /* NFS V2 server file creation requests */
u_longlong_t remove; /* NFS V2 server file removal requests */
u_longlong_t rename; /* NFS V2 server file rename requests */
u_longlong_t link; /* NFS V2 server link creation requests */
u_longlong_t symlink; /* NFS V2 server symbolic link creation requests */
u_longlong_t mkdir; /* NFS V2 server directory creation requests */
u_longlong_t rmdir; /* NFS V2 server directory removal requests */
u_longlong_t readdir; /* NFS V2 server read-directory requests */
u_longlong_t statfs; /* NFS V2 server file stat requests */
} server; /* nfsv2 server */
} nfsv2;
struct{
struct{
u_longlong_t calls; /* NFS V3 client calls */
u_longlong_t null; /* NFS V3 client null requests */
u_longlong_t getattr; /* NFS V3 client getattr requests */
u_longlong_t setattr; /* NFS V3 client setattr requests */
u_longlong_t lookup; /* NFS V3 client file name lookup requests */
u_longlong_t access; /* NFS V3 client access requests */
u_longlong_t readlink; /* NFS V3 client readlink requests */
u_longlong_t read; /* NFS V3 client read requests */
u_longlong_t write; /* NFS V3 client write requests */
u_longlong_t create; /* NFS V3 client file creation requests */
u_longlong_t mkdir; /* NFS V3 client directory creation requests */
u_longlong_t symlink; /* NFS V3 client symbolic link creation requests */
u_longlong_t mknod; /* NFS V3 client mknod creation requests */
u_longlong_t remove; /* NFS V3 client file removal requests */
u_longlong_t rmdir; /* NFS V3 client directory removal requests */
u_longlong_t rename; /* NFS V3 client file rename requests */
u_longlong_t link; /* NFS V3 client link creation requests */
u_longlong_t readdir; /* NFS V3 client read-directory requests */
u_longlong_t readdirplus; /* NFS V3 client read-directory plus requests */
u_longlong_t fsstat; /* NFS V3 client file stat requests */
u_longlong_t fsinfo; /* NFS V3 client file info requests */
u_longlong_t pathconf; /* NFS V3 client path configure requests */
u_longlong_t commit; /* NFS V3 client commit requests */
} client; /* nfsv3 client */
struct{
u_longlong_t calls; /* NFS V3 server requests */
u_longlong_t null; /* NFS V3 server null requests */
u_longlong_t getattr; /* NFS V3 server getattr requests */
u_longlong_t setattr; /* NFS V3 server setattr requests */
u_longlong_t lookup; /* NFS V3 server file name lookup requests */
u_longlong_t access; /* NFS V3 server file access requests */
u_longlong_t readlink; /* NFS V3 server readlink requests */
u_longlong_t read; /* NFS V3 server read requests */
u_longlong_t write; /* NFS V3 server write requests */
u_longlong_t create; /* NFS V3 server file creation requests */
u_longlong_t mkdir; /* NFS V3 server director6 creation requests */
u_longlong_t symlink; /* NFS V3 server symbolic link creation requests */
u_longlong_t mknod; /* NFS V3 server mknode creation requests */
u_longlong_t remove; /* NFS V3 server file removal requests */
u_longlong_t rmdir; /* NFS V3 server directory removal requests */
u_longlong_t rename; /* NFS V3 server file rename requests */
u_longlong_t link; /* NFS V3 server link creation requests */
u_longlong_t readdir; /* NFS V3 server read-directory requests */
u_longlong_t readdirplus; /* NFS V3 server read-directory plus requests */
u_longlong_t fsstat; /* NFS V3 server file stat requests */
u_longlong_t fsinfo; /* NFS V3 server file info requests */
u_longlong_t pathconf; /* NFS V3 server path configure requests */
u_longlong_t commit; /* NFS V3 server commit requests */
} server; /* nfsv3 server */
} nfsv3;
};
} perfstat_protocol_t;
#endif
extern int perfstat_cpu_total(perfstat_id_t *name,
perfstat_cpu_total_t* userbuff,
int sizeof_userbuff,
int desired_number);
extern int perfstat_cpu(perfstat_id_t *name,
perfstat_cpu_t* userbuff,
int sizeof_userbuff,
int desired_number);
extern int perfstat_disk_total(perfstat_id_t *name,
perfstat_disk_total_t* userbuff,
int sizeof_userbuff,
int desired_number);
extern int perfstat_disk(perfstat_id_t *name,
perfstat_disk_t* userbuff,
int sizeof_userbuff,
int desired_number);
extern int perfstat_diskadapter(perfstat_id_t *name,
perfstat_diskadapter_t* userbuff,
int sizeof_userbuff,
int desired_number);
extern int perfstat_diskpath(perfstat_id_t *name,
perfstat_diskpath_t* userbuff,
int sizeof_userbuff,
int desired_number);
extern int perfstat_memory_total(perfstat_id_t *name,
perfstat_memory_total_t* userbuff,
int sizeof_userbuff,
int desired_number);
extern int perfstat_netinterface_total(perfstat_id_t *name,
perfstat_netinterface_total_t* userbuff,
int sizeof_userbuff,
int desired_number);
extern int perfstat_netinterface(perfstat_id_t *name,
perfstat_netinterface_t* userbuff,
int sizeof_userbuff,
int desired_number);
#if 0
extern int perfstat_pagingspace(perfstat_id_t *name,
perfstat_pagingspace_t* userbuff,
int sizeof_userbuff,
int desired_number);
#endif
extern int perfstat_netbuffer(perfstat_id_t *name,
perfstat_netbuffer_t* userbuff,
int sizeof_userbuff,
int desired_number);
#if 0
extern int perfstat_protocol(perfstat_id_t *name,
perfstat_protocol_t* userbuff,
int sizeof_userbuff,
int desired_number);
#endif
extern void perfstat_reset(void);
#ifdef __cplusplus
}
#endif
#endif /*undef LIBPERFSTAT_H*/