/*
* Copyright 2000, International Business Machines Corporation and others.
* All Rights Reserved.
- *
+ *
* This software has been released under the terms of the IBM Public
* License. For details, see the LICENSE file in the top-level source
* directory or online at http://www.openafs.org/dl/license10.html
*/
-#include <stdio.h>
-#include <stdlib.h> /* for malloc() */
+#include <afsconfig.h>
+#include <afs/param.h>
+
+#include <roken.h>
+
+#include <afs/cmd.h>
+
+#if !defined(AFS_DARWIN_ENV) && !defined(AFS_FBSD_ENV)
+/* Here be hacks. */
+#ifdef AFS_LINUX24_ENV
+#define __KERNEL__
+#include <linux/string.h>
+#define _STRING_H 1
+#define _SYS_STATFS_H 1
+#define _BITS_SIGCONTEXT_H 1
+#undef USE_UCONTEXT
+#endif
+
+#ifdef AFS_LINUX26_ENV
+/* For some reason, this doesn't get defined in linux/types.h
+ if __KERNEL_STRICT_NAMES is defined. But the definition of
+ struct inode uses it.
+*/
+#ifndef pgoff_t
+#define pgoff_t unsigned long
+#endif
+#endif
+
#include <string.h>
#ifdef __linux__
#define _LINUX_CODA_FS_I
#define _LINUX_NTFS_FS_SB_H
#define _LINUX_NTFS_FS_I_H
-struct sysv_sb_info {};
-struct affs_sb_info {};
-struct ufs_sb_info {};
-struct nfs_sb_info {};
-struct nfs_inode_info {};
-struct sysv_inode_info {};
-struct coda_inode_info{};
-struct affs_inode_info {};
-struct nfs_lock_info {};
-struct ntfs_sb_info{};
-struct ntfs_inode_info{};
+#define _NCP_FS_SB
+struct sysv_sb_info {
+};
+struct affs_sb_info {
+};
+struct ufs_sb_info {
+};
+struct nfs_sb_info {
+};
+struct nfs_inode_info {
+};
+struct sysv_inode_info {
+};
+struct coda_inode_info {
+};
+struct affs_inode_info {
+};
+struct nfs_lock_info {
+};
+struct ntfs_sb_info {
+};
+struct ntfs_inode_info {
+};
+struct ncp_sb_info {
+};
#include <linux/types.h>
#define u32 unsigned int
#define s32 int
#define u16 unsigned short
#include <features.h>
#if __GLIBC_MINOR__ >= 2
-#define _SYS_TYPES_H
+#define _SYS_TYPES_H 1
#endif
#define __KERNEL__
#endif
/* This tells afs.h to pick up afs_args from the dest tree. */
#define KDUMP_KERNEL
-#include <afs/param.h>
-
/*
* Need to include <netdb.h> before _KERNEL is defined since on IRIX 6.5
* <netdb.h> includes <netinet/in.h>, which in turn declares inet_addr()
#define _KERNEL 1
#endif
-#ifndef AFS_OSF_ENV
-#include <sys/param.h>
-#endif
-
#ifndef AFS_LINUX20_ENV
#include <nlist.h>
#endif
#endif
#include <afs/stds.h>
-#include <sys/types.h>
-
-#if defined(AFS_OSF_ENV)
-#define KERNEL
-#define UNIX_LOCKS
-#define _KERNEL 1
-#ifdef _KERN_LOCK_H_
-#include FFFFF
-#endif
-#include <sys/time.h>
-#include <kern/lock.h>
-#include <sys/vnode.h>
-#include <arch/alpha/pmap.h>
-
-/*
- * beginning with DUX 4.0A, the system header files define the macros
- *
- * KSEG_TO_PHYS()
- * IS_KSEG_VA()
- * IS_SEG1_VA()
- *
- * to be calls to the kernel functions
- *
- * kseg_to_phys()
- * is_kseg_va()
- * is_seg1_va()
- *
- * when _KERNEL is defined, and expressions otherwise. Since need
- * to define _KERNEL, we redefine these kernel functions as macros
- * for the expressions that we would have gotten if _KERNEL had not
- * been defined. Yes, this duplicates code from the header files, but
- * there's no simple way around it.
- */
-#define kseg_to_phys(addr) ((vm_offset_t)(addr) - UNITY_BASE)
-#define is_kseg_va(x) (((unsigned long)(x) & SEG1_BASE) == UNITY_BASE)
-#define is_seg1_va(x) (((unsigned long)(x) & SEG1_BASE) == SEG1_BASE)
-
-#undef KERNEL
-#undef _KERNEL
-#endif
-
-#ifdef AFS_SUN5_ENV /*XXXXX*/
+#ifdef AFS_SUN5_ENV /*XXXXX*/
#include <sys/t_lock.h>
struct vnode foo;
-#ifdef AFS_SUN54_ENV
-#else
-#ifdef AFS_SUN52_ENV
-typedef struct stat_mutex stat_mutex_t;
-#define kmutex_t stat_mutex_t
-#else
-typedef struct adaptive_mutex2 adaptive_mutex2_t;
-#define kmutex_t adaptive_mutex2_t
-#endif
-#endif
#endif
#ifdef AFS_SGI53_ENV
#endif
#endif
-#include <sys/file.h>
-
#ifdef AFS_SGI62_ENV
#include <sys/fcntl.h>
#ifndef L_SET
#include <sys/user.h>
#endif
-#ifndef AFS_LINUX20_ENV
-#include <sys/socket.h>
+#ifndef AFS_LINUX26_ENV
+#include <sys/file.h>
#endif
/*
# include <netinet/in.h> /* struct in_addr */
#endif
-#include <arpa/inet.h> /* inet_ntoa() */
-
-#if defined(AFS_SGI_ENV) || defined(AFS_OSF_ENV)
-#ifdef AFS_SGI_ENV
+#if defined(AFS_SGI_ENV)
+#ifdef AFS_SGI_ENV
#include <sys/vnode.h>
#endif /* AFS_SGI_ENV */
#else
-#ifdef AFS_MACH_ENV
-#include <vfs/vfs.h>
-#include <vfs/vnode.h>
-#include <sys/inode.h>
-#else /* AFS_MACH_ENV */
+#if defined(AFS_DARWIN_ENV) || defined(AFS_FBSD_ENV)
+#include <sys/vnode.h>
+#include <sys/mount.h>
+#include <ufs/ufs/quota.h>
+#include <ufs/ufs/inode.h>
+#include <ufs/ffs/fs.h>
+#else
#include "sys/vfs.h"
#ifdef AFS_LINUX20_ENV
-#define UIO_MAXIOV 1 /* don't care */
+#ifndef UIO_MAXIOV
+#define UIO_MAXIOV 1 /* don't care */
+#endif
#if __GLIBC_MINOR__ == 0
#include <iovec.h>
#endif
#undef LONG_MAX
#undef ULONG_MAX
#define _LINUX_TIME_H
+#ifndef AFS_LINUX26_ENV
#define _LINUX_FCNTL_H
+#endif
+#ifdef AFS_IA64_LINUX24_ENV
+#define flock64 flock
+#endif /* AFS_IA64_LINUX24_ENV */
#ifdef AFS_S390_LINUX20_ENV
#define _S390_STATFS_H
#else
#endif /* AFS_SPARC64_LINUX20_ENV */
#endif /* AFS_S390_LINUX20_ENV */
struct timezone {
- int a,b;
+ int a, b;
};
-#ifndef AFS_ALPHA_LINUX20_ENV
-typedef struct timeval {
- int tv_sec;
- int tv_usec;
-} timeval_t; /* Needed here since KERNEL defined. */
-#endif /*AFS_ALPHA_LINUX20_ENV*/
-#if defined(AFSBIG_ENDIAN)
+#if defined(WORDS_BIGENDIAN)
#define _LINUX_BYTEORDER_BIG_ENDIAN_H
#else
#define _LINUX_BYTEORDER_LITTLE_ENDIAN_H
#endif
+/* Avoid problems with timer_t redefinition */
+#ifndef timer_t
+#define timer_t ktimer_t
+#define timer_t_redefined
+#endif
+#ifdef AFS_LINUX26_ENV
+/* For some reason, this doesn't get defined in linux/types.h
+ if __KERNEL_STRICT_NAMES is defined. But the definition of
+ struct inode uses it.
+*/
+#ifndef HAVE_SECTOR_T
+/* got it from linux/types.h */
+typedef unsigned long sector_t;
+#endif /* HAVE_SECTOR_T */
+#endif /* AFS_LINUX26_ENV */
#include <linux/version.h>
#include <linux/fs.h>
-#include <afs/osi_vfs.h>
+#include <osi_vfs.h>
+#ifdef timer_t_redefined
+#undef timer_t
+#undef timer_t_redefined
+#endif
#else /* AFS_LINUX20_ENV */
#ifdef AFS_HPUX110_ENV
-#define KERNEL
-#define _KERNEL 1
+#define KERNEL
+#define _KERNEL 1
/* Declare following so sys/vnode.h will compile with KERNEL defined */
#define FILE FILe
-typedef enum _spustate { /* FROM /etc/conf/h/_types.h */
- SPUSTATE_NONE = 0, /* must be 0 for proper initialization */
- SPUSTATE_IDLE, /* spu is idle */
- SPUSTATE_USER, /* spu is in user mode */
- SPUSTATE_SYSTEM, /* spu is in system mode */
- SPUSTATE_UNKNOWN, /* utility code for NEW_INTERVAL() */
- SPUSTATE_NOCHANGE /* utility code for NEW_INTERVAL() */
+typedef enum _spustate { /* FROM /etc/conf/h/_types.h */
+ SPUSTATE_NONE = 0, /* must be 0 for proper initialization */
+ SPUSTATE_IDLE, /* spu is idle */
+ SPUSTATE_USER, /* spu is in user mode */
+ SPUSTATE_SYSTEM, /* spu is in system mode */
+ SPUSTATE_UNKNOWN, /* utility code for NEW_INTERVAL() */
+ SPUSTATE_NOCHANGE /* utility code for NEW_INTERVAL() */
} spustate_t;
#define k_off_t off_t
#include "sys/vnode.h"
#undef KERNEL
#undef _KERNEL
-#else /* AFS_HPUX110_ENV */
+#else /* AFS_HPUX110_ENV */
#include "sys/vnode.h"
#endif /* else AFS_HPUX110_ENV */
#endif /* else AFS_LINUX20_ENV */
#endif
#endif
#endif
-#endif /* AFS_MACH_ENV */
-#include <signal.h>
+#endif
#endif
/* AFS includes */
typedef kcondvar_t afs_kcondvar_t;
#endif /* AFS_SUN5_ENV */
-#ifdef AFS_DUX40_ENV
-#define RX_ENABLE_LOCKS
-typedef struct {
- unsigned long lock;
- void *owner;
-} afs_kmutex_t;
-typedef int afs_kcondvar_t;
-#endif /* AFS_DUX40_ENV */
-
#ifdef AFS_HPUX110_ENV
#define RX_ENABLE_LOCKS
typedef struct {
- void *s_lock;
- int count;
- long sa_fill1;
- void *wait_list;
- void *sa_fill2[2];
- int sa_fill2b[2];
- long sa_fill2c[3];
- int sa_fill2d[16];
- int order;
- int sa_fill3;
+ void *s_lock;
+ int count;
+ long sa_fill1;
+ void *wait_list;
+ void *sa_fill2[2];
+ int sa_fill2b[2];
+ long sa_fill2c[3];
+ int sa_fill2d[16];
+ int order;
+ int sa_fill3;
} afs_kmutex_t;
typedef char *afs_kcondvar_t;
#endif /* AFS_HPUX110_ENV */
#endif /* AFS_LINUX20_ENV */
#include <afs/exporter.h>
-#include <afs/nfsclient.h>
/*#include "afs/osi.h"*/
typedef struct {
int tv_sec;
int tv_usec;
-} osi_timeval_t; /* Needed here since KERNEL defined. */
+} osi_timeval32_t; /* Needed here since KERNEL defined. */
/*#include "afs/volerrors.h"*/
#ifdef AFS_LINUX20_ENV
#endif
#include <afs/afsint.h>
-#include "../vlserver/vldbint.h"
-#include "../afs/lock.h"
+#include "vlserver/vldbint.h"
+#include "afs/lock.h"
#define KERNEL
#define KDUMP_SIZE_T int
#endif /* AFS_SGI61_ENV */
-#include "../afs/afs.h" /* XXXX Getting it from the obj tree XXX */
-#include "../afs/afs_axscache.h" /* XXXX Getting it from the obj tree XXX */
+#include "afs/afs.h" /* XXXX Getting it from the obj tree XXX */
+#include "afs/afs_axscache.h" /* XXXX Getting it from the obj tree XXX */
#include <afs/afs_stats.h>
+#include <afs/nfsclient.h>
#include <afs/cmd.h>
#include <rx/rx.h>
#undef KERNEL
-#if defined(AFS_OSF_ENV) && !defined(v_count)
-#define v_count v_usecount
-#endif
-
-#ifdef AFS_OSF_ENV
-#define KERNELBASE 0x80000000
-#define coreadj(x) ((int)x - KERNELBASE)
-#endif
-
#if defined(AFS_SGI_ENV)
#define UNIX "/unix"
#else
#else
#define UNIX "/vmunix"
#endif
-#endif /* AFS_HPUX_ENV */
-#endif /* AFS_HPUX100_ENV */
-#endif /* AFS_SGI_ENV */
+#endif /* AFS_HPUX_ENV */
+#endif /* AFS_HPUX100_ENV */
+#endif /* AFS_SGI_ENV */
#if defined(AFS_SUN5_ENV)
#define CORE "/dev/mem"
void print_DindexFlags();
void print_buffers();
void print_allocs();
-void kread(int kmem,off_t loc,void *buf,KDUMP_SIZE_T len);
+void kread(int kmem, off_t loc, void *buf, KDUMP_SIZE_T len);
void print_exporter();
void print_nfsclient();
void print_unixuser();
-#ifndef AFS_KDUMP_LIB
-extern struct cmd_syndesc *cmd_CreateSyntax();
-#endif
-extern int errno;
int opencore();
-/* Note: this should agree with the definition in afs_buffer.c */
-#if defined(AFS_OSF_ENV)
-#define AFS_USEBUFFERS 1
-#endif
-
-struct buffer {
-#ifdef AFS_SGI62_ENV
- ino64_t fid[1];
-#else
- afs_int32 fid[1];
-#endif
- afs_int32 page;
- afs_int32 accesstime;
- struct buffer *hashNext;
- char *data;
- char lockers;
- char b_dirty;
- char hashIndex;
-#if AFS_USEBUFFERS
- struct buf *bufp;
-#endif
- afs_rwlock_t lock; /* the lock for this structure */
-};
-
-
#if defined(AFS_HPUX_ENV) && defined(__LP64__)
#define afs_nlist nlist64
#define AFSNLIST(N, C) nlist64((N), (C))
-#else /* defined(AFS_HPUX_ENV) && defined(__LP64__) */
+#else /* defined(AFS_HPUX_ENV) && defined(__LP64__) */
#ifdef AFS_SGI61_ENV
#ifdef AFS_32BIT_KERNEL_ENV
#define afs_nlist nlist
#endif /* AFS_LINUX20_ENV */
#define AFSNLIST(N, C) nlist((N), (C))
#endif /* AFS_SGI61_ENV */
-#endif /* defined(AFS_HPUX_ENV) && defined(__LP64__) */
+#endif /* defined(AFS_HPUX_ENV) && defined(__LP64__) */
char *obj = UNIX, *core = CORE;
int kmem;
-int Dcells = 0, Dusers = 0, Dservers = 0, Dconns = 0, Dvols = 0, Ddvols = 0, mem = 0;
-int Dvstats = 0, Ddstats = 0, Dnfs = 0, Dglobals = 0, Dstats = 0, Dlocks = 0, Dall = 1;
-int Dindextimes = 0, Dindexflags = 0, Dvnodes = 0, Dbuffers=0, DCallbacks = 0, Dallocs=0, UserLevel=0;
+int Dcells = 0, Dusers = 0, Dservers = 0, Dconns = 0, Dvols = 0, Ddvols =
+ 0, mem = 0;
+int Dvstats = 0, Ddstats = 0, Dnfs = 0, Dglobals = 0, Dstats = 0, Dlocks =
+ 0, Dall = 1;
+int Dindextimes = 0, Dindexflags = 0, Dvnodes = 0, Dbuffers = 0, DCallbacks =
+ 0, Dallocs = 0, UserLevel = 0;
int DdvnextTbl = 0, DdcnextTbl = 0;
-int Nconns = 0, Drxstats = 0, Drx = 0, Dbkg=0, Dvlru=0, Ddlru=0, Dcallout=0;
+int Nconns = 0, Drxstats = 0, Drx = 0, Dbkg = 0, Dvlru = 0, Ddlru =
+ 0, Dcallout = 0;
int Ddnlc = 0;
int Dgcpags = 0;
#include <sys/elf.h>
#include <libelf.h>
#include <sys/elf_M32.h>
-#ifndef AFS_SUN54_ENV
-typedef ulong_t k_fltset_t; /* XXXXXXXXXXX */
-#endif /* !AFS_SUN54_ENV */
#include <sys/proc.h>
#include <sys/file.h>
-#define _NLIST_H /* XXXXXXXXXXXXX */
+#define _NLIST_H /* XXXXXXXXXXXXX */
#include <kvm.h>
kvm_t *kd;
-#endif /* defined(AFS_SUN5_ENV) */
+#endif /* defined(AFS_SUN5_ENV) */
/* Pretty Printers - print real IP addresses and the like if running
* in interpret_mode.
*/
int pretty = 1;
-char *PrintIPAddr(int addr)
+char *
+PrintIPAddr(int addr)
{
static char str[32];
struct in_addr in_addr;
if (pretty) {
- if (addr == 1) {
- strcpy(str, "local");
- } else {
- in_addr.s_addr = addr;
- (void) strcpy(str, inet_ntoa(in_addr));
- }
+ if (addr == 1) {
+ strcpy(str, "local");
+ } else {
+ in_addr.s_addr = addr;
+ (void)strcpy(str, inet_ntoa(in_addr));
+ }
} else {
- (void) sprintf(str, "%x", addr);
+ (void)sprintf(str, "%x", addr);
}
- return (char*)str;
+ return (char *)str;
}
#ifdef AFS_LINUX20_ENV
/* Find symbols in a live kernel. */
-#include <stdio.h>
-#include <stdlib.h>
-#include <string.h>
+#ifdef AFS_LINUX26_ENV
+#define KSYMS "/proc/kallsyms"
+#else
#define KSYMS "/proc/ksyms"
+#endif
/* symlist_t contains all the kernel symbols. Forcing a 64 byte array is
* a bit wasteful, but simple.
#define MAXNAMELEN 64
typedef struct symlist {
char s_name[MAXNAMELEN];
+#ifdef AFS_LINUX_64BIT_KERNEL
+ unsigned long s_value;
+#else
int s_value;
+#endif /* AFS_LINUX_64BIT_KERNEL */
} symlist_t;
#define KSYM_ALLOC_STEP 128
#define MAXLINE 1024
-int compare_strings(const void *a, const void *b)
+int
+compare_strings(const void *a, const void *b)
{
- symlist_t *syma = (symlist_t*)a;
- symlist_t *symb = (symlist_t*)b;
+ symlist_t *syma = (symlist_t *) a;
+ symlist_t *symb = (symlist_t *) b;
return strcmp(syma->s_name, symb->s_name);
}
/* Read in all the kernel symbols */
-void read_ksyms(void)
+void
+read_ksyms(void)
{
FILE *fp;
char line[MAXLINE];
}
availksyms = KSYM_ALLOC_BASE;
- ksyms = (symlist_t*)malloc(availksyms * sizeof(symlist_t));
+ ksyms = malloc(availksyms * sizeof(symlist_t));
if (!ksyms) {
printf("Can't malloc %d elements for symbol list.\n", availksyms);
exit(1);
while (fgets(line, MAXLINE, fp)) {
if (nksyms >= availksyms) {
availksyms += KSYM_ALLOC_STEP;
- ksyms = (symlist_t*)realloc(ksyms, availksyms * sizeof(symlist_t));
+ ksyms = realloc(ksyms, availksyms * sizeof(symlist_t));
if (!ksyms) {
printf("Failed to realloc %d symbols.\n", availksyms);
exit(1);
}
}
+#ifdef AFS_LINUX_64BIT_KERNEL
+ ksyms[nksyms].s_value = (unsigned long)strtoul(line, &p, 16);
+#else
ksyms[nksyms].s_value = (int)strtoul(line, &p, 16);
+#endif /* AFS_LINUX_64BIT_KERNEL */
p++;
+#ifdef AFS_LINUX26_ENV
+ /* Linux 2.6 /proc/kallsyms has a one-char symbol type
+ between address and name, so step over it and the following
+ blank.
+ */
+ p += 2;
+#endif
q = strchr(p, '\t');
- if (q) *q = '\0';
+ if (q)
+ *q = '\0';
if (strlen(p) >= MAXLINE) {
printf("Symbol '%s' too long, ignoring it.\n", p);
continue;
}
- (void) strcpy(ksyms[nksyms].s_name, p);
+ (void)strcpy(ksyms[nksyms].s_name, p);
nksyms++;
}
/* Sort them in lexical order */
qsort(ksyms, nksyms, sizeof(symlist_t), compare_strings);
-}
+}
/* find_symbol returns 0 if not found, otherwise value for symbol */
-int find_symbol(char *name)
+#ifdef AFS_LINUX_64BIT_KERNEL
+unsigned long
+#else
+int
+#endif /* AFS_LINUX_64BIT_KERNEL */
+find_symbol(char *name)
{
symlist_t *tmp;
symlist_t entry;
if (!ksyms)
read_ksyms();
- (void) strcpy(entry.s_name, name);
- tmp = (symlist_t*)bsearch(&entry, ksyms, nksyms, sizeof(symlist_t),
+ (void)strcpy(entry.s_name, name);
+ tmp =
+ (symlist_t *) bsearch(&entry, ksyms, nksyms, sizeof(symlist_t),
compare_strings);
return tmp ? tmp->s_value : 0;
}
/* nlist fills in values in list until a null name is found. */
-int nlist(void *notused, struct afs_nlist *nlp)
+int
+nlist(void *notused, struct afs_nlist *nlp)
{
- for ( ; nlp->n_name && *nlp->n_name; nlp++)
+ for (; nlp->n_name && *nlp->n_name; nlp++)
nlp->n_value = find_symbol(nlp->n_name);
return 0;
#if defined(AFS_SUN5_ENV)
#ifdef _LP64
-Elf64_Sym *tbl;
+Elf64_Sym *tbl;
#else
-Elf32_Sym *tbl; /* symbol tbl */
+Elf32_Sym *tbl; /* symbol tbl */
#endif
-char *tblp; /* ptr to symbol tbl */
+char *tblp; /* ptr to symbol tbl */
int scnt = 0;
#ifdef _LP64
-Elf64_Sym *symsrch(s)
- char *s;
+Elf64_Sym *
+symsrch(s)
+ char *s;
{
Elf64_Sym *sp;
#else
-Elf32_Sym *symsrch(s)
- char *s;
+Elf32_Sym *
+symsrch(s)
+ char *s;
{
Elf32_Sym *sp;
#endif /** _LP64 **/
#else
type = ELF32_ST_TYPE(sp->st_info);
#endif /** _LP64 **/
- if (((type == STB_LOCAL) || (type == STB_GLOBAL) ||
- (type == STB_WEAK)) && ((afs_uint32)sp->st_value >= 0x10000)) {
+ if (((type == STB_LOCAL) || (type == STB_GLOBAL)
+ || (type == STB_WEAK))
+ && ((afs_uint32) sp->st_value >= 0x10000)) {
name = tblp + sp->st_name;
- if (!strcmp(name, s))
+ if (!strcmp(name, s))
return (sp);
}
}
return (0);
}
-#endif /*defined(AFS_SUN5_ENV)*/
+#endif /*defined(AFS_SUN5_ENV) */
+#endif /*!defined(AFS_DARWIN_ENV) && !defined(AFS_FBSD_ENV) */
#ifndef AFS_KDUMP_LIB
-static cmdproc(as, arock)
-register struct cmd_syndesc *as;
-afs_int32 arock; {
- register afs_int32 code = 0;
+static int
+cmdproc(struct cmd_syndesc *as, void *arock)
+{
+ afs_int32 code = 0;
- if (as->parms[0].items) { /* -kobj */
+#if !defined(AFS_DARWIN_ENV) && !defined(AFS_FBSD_ENV)
+ if (as->parms[0].items) { /* -kobj */
obj = as->parms[0].items->data;
- }
- if (as->parms[1].items) { /* -kcore */
+ }
+ if (as->parms[1].items) { /* -kcore */
core = as->parms[1].items->data;
- }
- if (as->parms[2].items) { /* -cells */
+ }
+ if (as->parms[2].items) { /* -cells */
Dcells = 1, Dall = 0;
- }
- if (as->parms[3].items) { /* -users */
+ }
+ if (as->parms[3].items) { /* -users */
Dusers = 1, Dall = 0;
- }
- if (as->parms[4].items) { /* -servers */
+ }
+ if (as->parms[4].items) { /* -servers */
Dservers = 1, Dall = 0;
- }
- if (as->parms[5].items) { /* -conns */
+ }
+ if (as->parms[5].items) { /* -conns */
Dconns = 1, Dall = 0;
- }
- if (as->parms[6].items) { /* -volumes */
+ }
+ if (as->parms[6].items) { /* -volumes */
Dvols = 1, Dall = 0;
- }
- if (as->parms[7].items) { /* -dvolumes */
+ }
+ if (as->parms[7].items) { /* -dvolumes */
Ddvols = 1, Dall = 0;
- }
- if (as->parms[8].items) { /* -vstats */
+ }
+ if (as->parms[8].items) { /* -vstats */
Dvstats = 1, Dall = 0;
- }
- if (as->parms[9].items) { /* -dstats */
+ }
+ if (as->parms[9].items) { /* -dstats */
Ddstats = 1, Dall = 0;
- }
- if (as->parms[10].items) { /* -nfstats */
+ }
+ if (as->parms[10].items) { /* -nfstats */
Dnfs = 1, Dall = 0;
- }
- if (as->parms[11].items) { /* -globals */
+ }
+ if (as->parms[11].items) { /* -globals */
Dglobals = 1, Dall = 0;
- }
- if (as->parms[12].items) { /* -stats */
+ }
+ if (as->parms[12].items) { /* -stats */
Dstats = 1, Dall = 0;
- }
- if (as->parms[13].items) { /* -locks */
+ }
+ if (as->parms[13].items) { /* -locks */
Dlocks = 1, Dall = 0;
- }
- if (as->parms[14].items) { /* -mem */
+ }
+ if (as->parms[14].items) { /* -mem */
mem = 1;
- }
- if (as->parms[15].items) { /* -rxstats */
+ }
+ if (as->parms[15].items) { /* -rxstats */
Drxstats = 1, Dall = 0;
- }
- if (as->parms[16].items) { /* -rx */
+ }
+ if (as->parms[16].items) { /* -rx */
Drx = 1, Dall = 0;
- }
- if (as->parms[17].items) { /* -timestable */
+ }
+ if (as->parms[17].items) { /* -timestable */
Dindextimes = 1, Dall = 0;
- }
- if (as->parms[18].items) { /* -flagstable */
+ }
+ if (as->parms[18].items) { /* -flagstable */
Dindexflags = 1, Dall = 0;
- }
- if (as->parms[19].items) { /* -cbhash */
+ }
+ if (as->parms[19].items) { /* -cbhash */
DCallbacks = 1, Dall = 0;
- }
- if (as->parms[20].items) { /* -vnodes */
+ }
+ if (as->parms[20].items) { /* -vnodes */
Dvnodes = 1, Dall = 0;
- }
- if (as->parms[21].items) { /* -buffers */
+ }
+ if (as->parms[21].items) { /* -buffers */
Dbuffers = 1, Dall = 0;
- }
- if (as->parms[22].items) { /* -allocedmem */
+ }
+ if (as->parms[22].items) { /* -allocedmem */
Dallocs = 1, Dall = 0;
- }
- if (as->parms[23].items) { /* -user */
+ }
+ if (as->parms[23].items) { /* -user */
UserLevel = 1;
- }
- if (as->parms[24].items) { /* -bkg */
+ }
+ if (as->parms[24].items) { /* -bkg */
Dbkg = 1, Dall = 0;
- }
- if (as->parms[25].items) { /* -vlru */
+ }
+ if (as->parms[25].items) { /* -vlru */
Dvlru = 1, Dall = 0;
- }
- if (as->parms[26].items) { /* -callout */
+ }
+ if (as->parms[26].items) { /* -callout */
Dcallout = 1, Dall = 0;
- }
- if (as->parms[27].items) { /* -dnlc */
+ }
+ if (as->parms[27].items) { /* -dnlc */
Ddnlc = 1, Dall = 0;
- }
- if (as->parms[28].items) { /* -dlru */
+ }
+ if (as->parms[28].items) { /* -dlru */
Ddlru = 1, Dall = 0;
}
- if (as->parms[29].items) { /* -raw */
+ if (as->parms[29].items) { /* -raw */
pretty = 0;
}
- if (as->parms[30].items) { /* -gcpags */
+ if (as->parms[30].items) { /* -gcpags */
Dgcpags = 1, Dall = 0;
}
- if (as->parms[31].items) { /* -dhash */
+ if (as->parms[31].items) { /* -dhash */
DdvnextTbl = 1, DdcnextTbl = 1, Dall = 0;
}
+#endif
code = kdump();
return code;
#include "AFS_component_version_number.c"
-main(argc, argv)
-int argc;
-char **argv; {
- register struct cmd_syndesc *ts;
- register afs_int32 code;
+int
+main(int argc, char **argv)
+{
+ struct cmd_syndesc *ts;
+ afs_int32 code;
#ifdef AFS_AIX32_ENV
struct sigaction nsa;
-
+
sigemptyset(&nsa.sa_mask);
nsa.sa_handler = SIG_DFL;
nsa.sa_flags = SA_FULLDUMP;
sigaction(SIGSEGV, &nsa, NULL);
#endif
- ts = cmd_CreateSyntax((char *) 0, cmdproc, 0, "Read internal cache manager structs");
- cmd_AddParm(ts, "-kobj", CMD_SINGLE, CMD_OPTIONAL, "kernel object (default /vmunix)");
- cmd_AddParm(ts, "-kcore", CMD_SINGLE, CMD_OPTIONAL, "kernel core image (default /dev/kmem)");
+ ts = cmd_CreateSyntax(NULL, cmdproc, NULL, 0,
+ "Read internal cache manager structs");
+ cmd_AddParm(ts, "-kobj", CMD_SINGLE, CMD_OPTIONAL,
+ "kernel object (default /vmunix)");
+ cmd_AddParm(ts, "-kcore", CMD_SINGLE, CMD_OPTIONAL,
+ "kernel core image (default /dev/kmem)");
cmd_AddParm(ts, "-cells", CMD_FLAG, CMD_OPTIONAL, "cell state");
cmd_AddParm(ts, "-users", CMD_FLAG, CMD_OPTIONAL, "users state");
cmd_AddParm(ts, "-servers", CMD_FLAG, CMD_OPTIONAL, "servers state");
cmd_AddParm(ts, "-conns", CMD_FLAG, CMD_OPTIONAL, "conns state");
- cmd_AddParm(ts, "-volumes", CMD_FLAG, CMD_OPTIONAL, "incore volume state");
+ cmd_AddParm(ts, "-volumes", CMD_FLAG, CMD_OPTIONAL,
+ "incore volume state");
cmd_AddParm(ts, "-dvolumes", CMD_FLAG, CMD_OPTIONAL, "disk volume state");
cmd_AddParm(ts, "-vstats", CMD_FLAG, CMD_OPTIONAL, "stat file state");
cmd_AddParm(ts, "-dstats", CMD_FLAG, CMD_OPTIONAL, "file data state");
- cmd_AddParm(ts, "-nfstats", CMD_FLAG, CMD_OPTIONAL, "nfs translator state");
- cmd_AddParm(ts, "-globals", CMD_FLAG, CMD_OPTIONAL, "general global state");
- cmd_AddParm(ts, "-stats", CMD_FLAG, CMD_OPTIONAL, "general cm performance state");
- cmd_AddParm(ts, "-locks", CMD_FLAG, CMD_OPTIONAL, "global cm related locks state");
- cmd_AddParm(ts, "-mem", CMD_FLAG, CMD_OPTIONAL, "core represents the physical mem (i.e. /dev/mem) and not virtual");
- cmd_AddParm(ts, "-rxstats", CMD_FLAG, CMD_OPTIONAL, "general rx statistics");
+ cmd_AddParm(ts, "-nfstats", CMD_FLAG, CMD_OPTIONAL,
+ "nfs translator state");
+ cmd_AddParm(ts, "-globals", CMD_FLAG, CMD_OPTIONAL,
+ "general global state");
+ cmd_AddParm(ts, "-stats", CMD_FLAG, CMD_OPTIONAL,
+ "general cm performance state");
+ cmd_AddParm(ts, "-locks", CMD_FLAG, CMD_OPTIONAL,
+ "global cm related locks state");
+ cmd_AddParm(ts, "-mem", CMD_FLAG, CMD_OPTIONAL,
+ "core represents the physical mem (i.e. /dev/mem) and not virtual");
+ cmd_AddParm(ts, "-rxstats", CMD_FLAG, CMD_OPTIONAL,
+ "general rx statistics");
cmd_AddParm(ts, "-rx", CMD_FLAG, CMD_OPTIONAL, "all info about rx");
- cmd_AddParm(ts, "-timestable", CMD_FLAG, CMD_OPTIONAL, "dcache LRU info table");
- cmd_AddParm(ts, "-flagstable", CMD_FLAG, CMD_OPTIONAL, "dcache flags info table");
- cmd_AddParm(ts, "-cbhash", CMD_FLAG, CMD_OPTIONAL, "vcache hashed by cbExpires");
+ cmd_AddParm(ts, "-timestable", CMD_FLAG, CMD_OPTIONAL,
+ "dcache LRU info table");
+ cmd_AddParm(ts, "-flagstable", CMD_FLAG, CMD_OPTIONAL,
+ "dcache flags info table");
+ cmd_AddParm(ts, "-cbhash", CMD_FLAG, CMD_OPTIONAL,
+ "vcache hashed by cbExpires");
cmd_AddParm(ts, "-vnodes", CMD_FLAG, CMD_OPTIONAL, "afs vnodes");
- cmd_AddParm(ts, "-buffers", CMD_FLAG, CMD_OPTIONAL, "afs dir buffer cache");
- cmd_AddParm(ts, "-allocedmem", CMD_FLAG, CMD_OPTIONAL, "allocated memory");
- cmd_AddParm(ts, "-user", CMD_FLAG, CMD_OPTIONAL, "core is from a user-level program");
+ cmd_AddParm(ts, "-buffers", CMD_FLAG, CMD_OPTIONAL,
+ "afs dir buffer cache");
+ cmd_AddParm(ts, "-allocedmem", CMD_FLAG, CMD_OPTIONAL,
+ "allocated memory");
+ cmd_AddParm(ts, "-user", CMD_FLAG, CMD_OPTIONAL,
+ "core is from a user-level program");
cmd_AddParm(ts, "-bkg", CMD_FLAG, CMD_OPTIONAL, "background daemon info");
cmd_AddParm(ts, "-vlru", CMD_FLAG, CMD_OPTIONAL, "vcache lru list");
- cmd_AddParm(ts, "-callout", CMD_FLAG, CMD_OPTIONAL, "callout info (aix only)");
- cmd_AddParm(ts, "-dnlc", CMD_FLAG, CMD_OPTIONAL, "DNLC table,freelist,trace");
+ cmd_AddParm(ts, "-callout", CMD_FLAG, CMD_OPTIONAL,
+ "callout info (aix only)");
+ cmd_AddParm(ts, "-dnlc", CMD_FLAG, CMD_OPTIONAL,
+ "DNLC table,freelist,trace");
cmd_AddParm(ts, "-dlru", CMD_FLAG, CMD_OPTIONAL, "dcache lru list");
cmd_AddParm(ts, "-raw", CMD_FLAG, CMD_OPTIONAL, "show raw values");
- cmd_AddParm(ts, "-gcpags", CMD_FLAG, CMD_OPTIONAL, "PAG garbage collection info");
- cmd_AddParm(ts, "-dhash", CMD_FLAG, CMD_OPTIONAL, "show dcache hash chains");
+ cmd_AddParm(ts, "-gcpags", CMD_FLAG, CMD_OPTIONAL,
+ "PAG garbage collection info");
+ cmd_AddParm(ts, "-dhash", CMD_FLAG, CMD_OPTIONAL,
+ "show dcache hash chains");
code = cmd_Dispatch(argc, argv);
return code;
#ifdef AFS_AIX_ENV
#ifndef AFS_KDUMP_LIB
-Knlist(sp, cnt, size)
-struct afs_nlist *sp;
-int cnt, size;
+int
+Knlist(struct afs_nlist *sp, int cnt, int size)
{
- register int code;
+ int code;
if (UserLevel)
code = nlist(obj, sp);
#endif /*AFS_KDUMP_LIB */
#endif
+#if !defined(AFS_DARWIN_ENV) && !defined(AFS_FBSD_ENV)
int
-findsym( char *sname, off_t *offset )
+findsym(char *sname, off_t * offset)
{
#if defined(AFS_SUN5_ENV)
#ifdef _LP64
- Elf64_Sym *ss_ans;
+ Elf64_Sym *ss_ans;
#else
- Elf32_Sym *ss_ans;
+ Elf32_Sym *ss_ans;
#endif
- ss_ans = symsrch(sname);
- if (!ss_ans) {
- printf("(WARNING) Couldn't find %s in %s. Proceeding..\n",
- sname, obj);
+ ss_ans = symsrch(sname);
+ if (!ss_ans) {
+ printf("(WARNING) Couldn't find %s in %s. Proceeding..\n", sname,
+ obj);
+ *offset = 0;
+ return 0;
+ }
+ *offset = ss_ans->st_value;
+ return 1;
+#else /* defined(AFS_SUN5_ENV) */
+#if defined(AFS_AIX_ENV)
+ if (!UserLevel) {
+ struct afs_nlist nl;
+ nl.n_name = sname;
+ if (Knlist(&nl, 1, sizeof nl) == -1) {
+ printf("(WARNING) knlist: couldn't find %s. Proceeding...",
+ sname);
*offset = 0;
return 0;
}
- *offset = ss_ans->st_value;
+ *offset = nl.n_value;
return 1;
-#else /* defined(AFS_SUN5_ENV) */
-#if defined(AFS_AIX_ENV)
- if (!UserLevel) {
- struct afs_nlist nl;
- nl.n_name = sname;
- if (Knlist(&nl, 1, sizeof nl) == -1 ) {
- printf("(WARNING) knlist: couldn't find %s. Proceeding...",
- sname);
- *offset = 0;
- return 0;
- }
- *offset = nl.n_value;
- return 1;
- }
-#endif /* defined(AFS_AIX_ENV) */
- {
- struct afs_nlist request[2];
-
- memset(request, 0, sizeof request);
- request[0].n_name = sname;
- if (AFSNLIST(obj, request) < 0) {
- fprintf(stderr, "nlist(%s, %s) failure: %d (%s)\n",
- obj, sname,
- errno, strerror(errno));
- exit(1);
- }
-
-#if defined(AFS_OSF_ENV)
- if (mem) {
- long X;
-
- X = coreadj(request[0].n_value);
- request[0].n_value = X;
- }
-#endif /* defined(AFS_OSF_ENV) */
+ }
+#endif /* defined(AFS_AIX_ENV) */
+ {
+ struct afs_nlist request[2];
- *offset = request[0].n_value;
- if (!request[0].n_value) {
- printf("(WARNING) Couldn't find %s in %s. Proceeding..\n",
- sname, obj);
- return 0;
- }
- return 1;
+ memset(request, 0, sizeof request);
+ request[0].n_name = sname;
+ if (AFSNLIST(obj, request) < 0) {
+ fprintf(stderr, "nlist(%s, %s) failure: %d (%s)\n", obj, sname,
+ errno, strerror(errno));
+ exit(1);
+ }
+ *offset = request[0].n_value;
+ if (!request[0].n_value) {
+ printf("(WARNING) Couldn't find %s in %s. Proceeding..\n", sname,
+ obj);
+ return 0;
}
-#endif /* defined(AFS_SUN5_ENV) */
+ return 1;
+ }
+#endif /* defined(AFS_SUN5_ENV) */
}
+#endif
#define CBHTSIZE 128
-kdump()
+int
+kdump(void)
{
+#if defined(AFS_DARWIN_ENV) || defined(AFS_FBSD_ENV)
+ printf("Kdump not supported\n");
+#else
int cell, cnt, cnt1;
#ifndef AFS_KDUMP_LIB
/* Test to see if kernel is using RX_ENABLE_LOCKS in rx structs. */
#ifdef AFS_SGI53_ENV
#ifdef AFS_SGI64_ENV
- use_rx_lock = 1; /* Always using fine gain locking. */
+ use_rx_lock = 1; /* Always using fine gain locking. */
#else
use_rx_lock = (sysmp(MP_NPROCS) > 1) ? 1 : 0;
#endif
#endif /* KDUMP_RX_LOCK */
if (Dcells || Dall) {
- print_cells(1); /* Handle the afs_cells structures */
+ print_cells(1); /* Handle the afs_cells structures */
+ print_cellaliases(1);
+ print_cellnames(1);
}
if (Dusers || Dall) {
- print_users(1); /* Handle the afs_users structs */
- }
+ print_users(1); /* Handle the afs_users structs */
+ }
if (Dservers || Dall) {
- print_servers(1);/* Handle the afs_servers structs */
+ print_servers(1); /* Handle the afs_servers structs */
}
if (Dconns) {
- print_Conns(1); /* Handle the afs_servers structs */
+ print_Conns(1); /* Handle the afs_servers structs */
}
if (Dvols || Dall) {
}
if (Ddvols || Dall) {
- printf("\n\nIGNORE reading the 'volumeinfo' file for now (NOT IMPORTANT)!\n");
+ printf
+ ("\n\nIGNORE reading the 'volumeinfo' file for now (NOT IMPORTANT)!\n");
}
if (DCallbacks || Dall) {
- print_cbHash(1); /* Handle the cbHashT table of queued vcaches */
+ print_cbHash(1); /* Handle the cbHashT table of queued vcaches */
}
if (Dvstats || Dall || Dvnodes) {
}
if (Dindextimes || Dall) {
- print_DindexTimes(1);
+ print_DindexTimes(1);
}
if (Dindexflags || Dall) {
- print_DindexFlags(1);
+ print_DindexFlags(1);
}
if (DdvnextTbl || Dall) {
- print_DdvnextTbl(1);
+ print_DdvnextTbl(1);
}
if (DdcnextTbl || Dall) {
- print_DdcnextTbl(1);
+ print_DdcnextTbl(1);
}
if (Dbuffers || Dall) {
struct afs_stats_CMPerf afs_cmperfstats;
printf("\n\nPrinting count references to cm-related functions..\n\n");
- findsym( "afs_cmstats", &symoff);
- kread(kmem, symoff, (char *) &afs_cmstats, sizeof afs_cmstats);
+ findsym("afs_cmstats", &symoff);
+ kread(kmem, symoff, (char *)&afs_cmstats, sizeof afs_cmstats);
print_cmstats(&afs_cmstats);
printf("\n\nPrinting some cm struct performance stats..\n\n");
- findsym( "afs_stats_cmperf", &symoff);
- kread(kmem, symoff, (char *) &afs_cmperfstats, sizeof afs_cmperfstats);
+ findsym("afs_stats_cmperf", &symoff);
+ kread(kmem, symoff, (char *)&afs_cmperfstats, sizeof afs_cmperfstats);
print_cmperfstats(&afs_cmperfstats);
}
}
if (Drxstats || Dall) {
print_rxstats(kmem);
- }
+ }
if (Drx || Dall) {
print_rx(kmem);
}
}
#endif
if (Dcallout || Dall) {
- print_callout(kmem);
+ print_callout(kmem);
}
if (Ddnlc || Dall) {
- print_dnlc(kmem);
+ print_dnlc(kmem);
}
if (Dgcpags || Dall) {
print_gcpags(1);
}
+#endif
return 0;
}
-int Sum_cellnames=0, Sum_userstp=0, Sum_volnames=0, Sum_exps=0, Sum_nfssysnames=0;
-int Sum_vcachemvids=0, Sum_vcachelinkData=0, Sum_vcacheacc=0, Sum_vcachelocks=0;
+#if !defined(AFS_DARWIN_ENV) && !defined(AFS_FBSD_ENV)
+int Sum_cellnames = 0, Sum_userstp = 0, Sum_volnames = 0, Sum_exps =
+ 0, Sum_nfssysnames = 0;
+int Sum_vcachemvids = 0, Sum_vcachelinkData = 0, Sum_vcacheacc =
+ 0, Sum_vcachelocks = 0;
+int Sum_cellaliases = 0, Sum_cellname_names = 0;
-int print_cells(pnt)
-int pnt;
+int
+print_cells(int pnt)
{
off_t symoff;
- struct cell *cells, cle, *clentry = &cle, *clep;
- long j=0, cell;
+ struct cell *cells, cle, *clentry = &cle, *clep;
+ long j = 0, cell;
struct afs_q CellLRU, lru, *vu = &lru, *tq, *uq;
u_long lru_addr;
- if (pnt) printf("\n\nPrinting Cells' LRU list...\n");
- findsym( "CellLRU", &symoff);
- kread(kmem, symoff, (char *) &CellLRU, sizeof CellLRU);
- lru_addr = (u_long)symoff;
- for (tq = CellLRU.next; (u_long)tq != lru_addr; tq = uq) {
+ if (pnt)
+ printf("\n\nPrinting Cells' LRU list...\n");
+ findsym("CellLRU", &symoff);
+ kread(kmem, symoff, (char *)&CellLRU, sizeof CellLRU);
+ lru_addr = (u_long) symoff;
+ for (tq = CellLRU.next; (u_long) tq != lru_addr; tq = uq) {
clep = QTOC(tq);
- kread(kmem, (off_t)tq, (char *)vu, sizeof CellLRU);
+ kread(kmem, (off_t) tq, (char *)vu, sizeof CellLRU);
uq = vu->next;
- kread(kmem, (off_t)clep, (char *) clentry, sizeof *clentry);
+ kread(kmem, (off_t) clep, (char *)clentry, sizeof *clentry);
print_cell(kmem, clentry, clep, pnt);
j++;
}
- if (pnt) printf("... found %d 'afs_cells' entries\n", j);
+ if (pnt)
+ printf("... found %d 'afs_cells' entries\n", j);
+
+ return j;
+}
+
+int
+print_cellaliases(int pnt)
+{
+ off_t symoff;
+ struct cell_alias *ca, cae;
+ long j = 0;
+
+ if (pnt)
+ printf("\n\nPrinting cell_alias list...\n");
+ findsym("afs_cellalias_head", &symoff);
+ kread(kmem, symoff, (char *)&ca, sizeof ca);
+ while (ca) {
+ char alias[100], cell[100];
+
+ kread(kmem, (off_t) ca, (char *)&cae, sizeof cae);
+ kread(kmem, (off_t) cae.alias, alias, (KDUMP_SIZE_T) 40);
+ alias[40] = '\0';
+ Sum_cellaliases += strlen(alias) + 1;
+ kread(kmem, (off_t) cae.cell, cell, (KDUMP_SIZE_T) 40);
+ cell[40] = '\0';
+ Sum_cellaliases += strlen(cell) + 1;
+ if (pnt)
+ printf("%x: alias=%s cell=%s index=%d\n", ca, alias, cell,
+ cae.index);
+ ca = cae.next;
+ j++;
+ }
+ if (pnt)
+ printf("... found %d 'cell_alias' entries\n", j);
+
+ return j;
+}
+
+int
+print_cellnames(int pnt)
+{
+ off_t symoff;
+ struct cell_name *cn, cne;
+ long j = 0;
+
+ if (pnt)
+ printf("\n\nPrinting cell_name list...\n");
+ findsym("afs_cellname_head", &symoff);
+ kread(kmem, symoff, (char *)&cn, sizeof cn);
+ while (cn) {
+ char cellname[100];
+
+ kread(kmem, (off_t) cn, (char *)&cne, sizeof cne);
+ kread(kmem, (off_t) cne.cellname, cellname, (KDUMP_SIZE_T) 40);
+ cellname[40] = '\0';
+ Sum_cellname_names += strlen(cellname) + 1;
+ if (pnt)
+ printf("%x: cellnum=%d cellname=%s used=%d\n", cn, cne.cellnum,
+ cellname, cne.used);
+ cn = cne.next;
+ j++;
+ }
+ if (pnt)
+ printf("... found %d 'cell_name' entries\n", j);
+
return j;
}
-int print_users(pnt)
-int pnt;
+int
+print_users(int pnt)
{
off_t symoff;
- struct unixuser *afs_users[NUSERS], ue,*uentry= &ue, *uep;
+ struct unixuser *afs_users[NUSERS], ue, *uentry = &ue, *uep;
int i, j;
- if (pnt) printf("\n\nPrinting 'afs_users' structures...\n");
- findsym( "afs_users", &symoff);
- kread(kmem, symoff, (char *) afs_users, sizeof afs_users);
- for (i=0,j=0; i < NUSERS; i++) {
+ if (pnt)
+ printf("\n\nPrinting 'afs_users' structures...\n");
+ findsym("afs_users", &symoff);
+ kread(kmem, symoff, (char *)afs_users, sizeof afs_users);
+ for (i = 0, j = 0; i < NUSERS; i++) {
for (uep = afs_users[i]; uep; uep = uentry->next, j++) {
kread(kmem, (off_t) uep, (char *)uentry, sizeof *uentry);
print_unixuser(kmem, uentry, uep, pnt);
}
}
- if (pnt) printf("... found %d 'afs_users' entries\n", j);
+ if (pnt)
+ printf("... found %d 'afs_users' entries\n", j);
return j;
}
afs_int32 NserversFound = 0;
#define SF_ALLOCATION_STEP 500
-int add_found_server(sep)
-struct server *sep;
+int
+add_found_server(struct server *sep)
{
static afs_int32 NserversAllocated = 0;
static afs_int32 failed = 0;
if (NserversFound >= NserversAllocated) {
NserversAllocated += SF_ALLOCATION_STEP;
if (!serversFound) {
- serversFound =
- (struct server **)malloc(NserversAllocated
- * sizeof(struct server *));
+ serversFound = malloc(NserversAllocated *
+ sizeof(struct server *));
} else {
- serversFound =
- (struct server **)realloc((char*)serversFound,
- NserversAllocated
- * sizeof(struct server *));
+ serversFound = realloc(serversFound,
+ NserversAllocated *
+ sizeof(struct server *));
}
if (!serversFound) {
printf("Can't allocate %lu bytes for list of found servers.\n",
- NserversAllocated * sizeof(struct server *));
+ NserversAllocated * sizeof(struct server *));
failed = 1;
NserversFound = 0;
return -1;
return 0;
}
-int find_server(sep)
-struct server *sep;
+int
+find_server(struct server *sep)
{
int i;
- for (i=0; i<NserversFound; i++) {
+ for (i = 0; i < NserversFound; i++) {
if (sep == serversFound[i])
return 1;
}
return 0;
}
-
-int print_servers(pnt)
-int pnt;
+
+int
+print_servers(int pnt)
{
off_t symoff;
struct server *afs_servers[NSERVERS], se, *sentry = &se, *sep;
int chainCount[NSERVERS];
if (pnt) {
- bzero((char*)chainCount, sizeof(chainCount));
+ memset(chainCount, 0, sizeof(chainCount));
printf("\n\nPrinting 'afs_servers' structures...\n");
}
- findsym( "afs_servers", &symoff);
- kread(kmem, symoff, (char *) afs_servers, NSERVERS * sizeof(long));
- for (i=0, nServers=0; i < NSERVERS; i++) {
+ findsym("afs_servers", &symoff);
+ kread(kmem, symoff, (char *)afs_servers, NSERVERS * sizeof(long));
+ for (i = 0, nServers = 0; i < NSERVERS; i++) {
if (pnt)
printf(" --- Chain %d ---\n", i);
for (sep = afs_servers[i]; sep; sep = sentry->next, nServers++) {
kread(kmem, (off_t) sep, (char *)sentry, sizeof *sentry);
if (pnt && !failed) {
- if (add_found_server(sep)<0)
+ if (add_found_server(sep) < 0)
failed = 1;
}
if (pnt)
else
printf("... found %d 'afs_servers' entries\n", nServers);
printf("Chain lengths:\n");
- for (i=0; i<NSERVERS; i++) {
+ for (i = 0; i < NSERVERS; i++) {
printf("%2d: %5d\n", i, chainCount[i]);
}
}
/* Verify against afs_totalServers. */
if (pnt) {
- bzero((char*)chainCount, sizeof(chainCount));
- if (findsym( "afs_totalServers", &symoff)) {
- kread(kmem, symoff, (char*)&afs_totalServers, sizeof(afs_int32));
+ memset(chainCount, 0, sizeof(chainCount));
+ if (findsym("afs_totalServers", &symoff)) {
+ kread(kmem, symoff, (char *)&afs_totalServers, sizeof(afs_int32));
if (afs_totalServers != nServers) {
- printf("ERROR: afs_totalServers = %d, differs from # of servers in hash table.\n", afs_totalServers);
- }
- else {
- printf("afs_totalServers = %d, matches hash chain count.\n", afs_totalServers);
+ printf
+ ("ERROR: afs_totalServers = %d, differs from # of servers in hash table.\n",
+ afs_totalServers);
+ } else {
+ printf("afs_totalServers = %d, matches hash chain count.\n",
+ afs_totalServers);
}
}
-
+
printf("\n\nPrinting 'afs_srvAddr' structures...\n");
- if (findsym( "afs_srvAddrs", &symoff)) {
- kread(kmem, symoff, (char *) afs_srvAddrs,
+ if (findsym("afs_srvAddrs", &symoff)) {
+ kread(kmem, symoff, (char *)afs_srvAddrs,
NSERVERS * sizeof(long));
nSrvAddrStructs = 0;
- for (i=0, nSrvAddrs=0; i < NSERVERS; i++) {
+ for (i = 0, nSrvAddrs = 0; i < NSERVERS; i++) {
printf(" --- Chain %d ---\n", i);
for (sap = afs_srvAddrs[i]; sap; sap = sa.next_bkt) {
- kread(kmem, (off_t) sap, (char *)&sa,
- sizeof(sa));
- printf("%lx: sa_ip=%s, sa_port=%d, sa_iprank=%d, sa_flags=%x, conns=%lx, server=%lx, nexth=%lx\n",
- sap, PrintIPAddr(sa.sa_ip), sa.sa_portal, sa.sa_iprank,
- sa.sa_flags, sa.conns, sa.server, sa.next_bkt);
- if (sap != (struct srvAddr*)sa.server) {
+ kread(kmem, (off_t) sap, (char *)&sa, sizeof(sa));
+ printf
+ ("%lx: sa_ip=%s, sa_port=%d, sa_iprank=%d, sa_flags=%x, conns=%lx, server=%lx, nexth=%lx\n",
+ sap, PrintIPAddr(sa.sa_ip), sa.sa_portal,
+ sa.sa_iprank, sa.sa_flags, sa.conns, sa.server,
+ sa.next_bkt);
+ if (sap != (struct srvAddr *)sa.server) {
/* only count ones not in a server struct. */
- nSrvAddrStructs ++;
+ nSrvAddrStructs++;
}
- nSrvAddrs ++;
+ nSrvAddrs++;
chainCount[i]++;
if (!failed) {
if (!find_server(sa.server)) {
- kread(kmem, (off_t)sa.server, (char *)sentry,
+ kread(kmem, (off_t) sa.server, (char *)sentry,
sizeof *sentry);
- printf("ERROR: Server missing from hash chain: server=%lx, server->next=%lx\n",
- sa.server, sentry->next);
+ printf
+ ("ERROR: Server missing from hash chain: server=%lx, server->next=%lx\n",
+ sa.server, sentry->next);
print_server(kmem, sentry, sa.server, 1, pnt);
- printf("----------------------------------------------------\n");
+ printf
+ ("----------------------------------------------------\n");
}
}
}
}
- printf("... found %d 'afs_srvAddr' entries, %d alloc'd (not in server struct)\n",
- nSrvAddrs, nSrvAddrStructs);
+ printf
+ ("... found %d 'afs_srvAddr' entries, %d alloc'd (not in server struct)\n",
+ nSrvAddrs, nSrvAddrStructs);
printf("Chain lengths:\n");
- for (i=0; i<NSERVERS; i++) {
+ for (i = 0; i < NSERVERS; i++) {
printf("%2d: %5d\n", i, chainCount[i]);
}
- if (findsym( "afs_totalSrvAddrs", &symoff)) {
- kread(kmem, symoff, (char*)&afs_totalSrvAddrs, sizeof(afs_int32));
+ if (findsym("afs_totalSrvAddrs", &symoff)) {
+ kread(kmem, symoff, (char *)&afs_totalSrvAddrs,
+ sizeof(afs_int32));
if (afs_totalSrvAddrs != nSrvAddrStructs) {
- printf("ERROR: afs_totalSrvAddrs = %d, differs from number of alloc'd srvAddrs in hash table.\n", afs_totalSrvAddrs);
- }
- else {
- printf("afs_totalSrvAddrs = %d, matches alloc'd srvAddrs in hash chain count.\n", afs_totalSrvAddrs);
+ printf
+ ("ERROR: afs_totalSrvAddrs = %d, differs from number of alloc'd srvAddrs in hash table.\n",
+ afs_totalSrvAddrs);
+ } else {
+ printf
+ ("afs_totalSrvAddrs = %d, matches alloc'd srvAddrs in hash chain count.\n",
+ afs_totalSrvAddrs);
}
}
}
void
-print_Conns(pnt)
-int pnt;
+print_Conns(int pnt)
{
off_t symoff;
struct server *afs_servers[NSERVERS], se, *sentry = &se, *sep;
afs_int32 i, j;
- if (pnt) printf("\n\nPrinting all 'afs_conns' to the servers...\n");
- findsym( "afs_servers", &symoff);
- kread(kmem, symoff, (char *) afs_servers, sizeof afs_servers);
- for (i=0, j=0; i < NSERVERS; i++) {
+ if (pnt)
+ printf("\n\nPrinting all 'afs_conns' to the servers...\n");
+ findsym("afs_servers", &symoff);
+ kread(kmem, symoff, (char *)afs_servers, sizeof afs_servers);
+ for (i = 0, j = 0; i < NSERVERS; i++) {
for (sep = afs_servers[i]; sep; sep = sentry->next, j++) {
kread(kmem, (off_t) sep, (char *)sentry, sizeof *sentry);
print_server(kmem, sentry, sep, 2, pnt);
}
}
- if (pnt) printf("... found %d 'afs_conns' entries\n", Nconns);
+ if (pnt)
+ printf("... found %d 'afs_conns' entries\n", Nconns);
}
-int print_volumes(pnt)
-int pnt;
+int
+print_volumes(int pnt)
{
off_t symoff;
struct volume *afs_volumes[NVOLS], ve, *ventry = &ve, *vep;
afs_int32 i, j;
- if (pnt) printf("\n\nPrinting 'afs_volumes' structures...\n");
- findsym( "afs_volumes", &symoff);
- kread(kmem, symoff, (char *) afs_volumes, NVOLS * sizeof(long));
- for (i=0, j=0; i < NVOLS; i++) {
+ if (pnt)
+ printf("\n\nPrinting 'afs_volumes' structures...\n");
+ findsym("afs_volumes", &symoff);
+ kread(kmem, symoff, (char *)afs_volumes, NVOLS * sizeof(long));
+ for (i = 0, j = 0; i < NVOLS; i++) {
for (vep = afs_volumes[i]; vep; vep = ventry->next, j++) {
kread(kmem, (off_t) vep, (char *)ventry, sizeof *ventry);
print_volume(kmem, ventry, vep, pnt);
}
}
- if (pnt) printf("... found %d 'afs_volumes' entries\n", j);
+ if (pnt)
+ printf("... found %d 'afs_volumes' entries\n", j);
return (j);
}
-void print_cbHash(pnt)
-int pnt;
+void
+print_cbHash(int pnt)
{
off_t symoff;
struct afs_q cbHashT[CBHTSIZE];
afs_int32 i, j;
- if (pnt) printf("\n\nPrinting 'cbHashT' table...\n");
- findsym( "cbHashT", &symoff);
- kread(kmem, symoff, (char *) cbHashT, sizeof cbHashT);
- for (i=0; i < CBHTSIZE; i++) {
- if (pnt) printf("%lx: %x %x\n", (long)symoff+8*i, cbHashT[i].prev, cbHashT[i].next);
+ if (pnt)
+ printf("\n\nPrinting 'cbHashT' table...\n");
+ findsym("cbHashT", &symoff);
+ kread(kmem, symoff, (char *)cbHashT, sizeof cbHashT);
+ for (i = 0; i < CBHTSIZE; i++) {
+ if (pnt)
+ printf("%lx: %x %x\n", (long)symoff + 8 * i, cbHashT[i].prev,
+ cbHashT[i].next);
}
- if (pnt) printf("... that should be %d callback hash entries\n", i);
+ if (pnt)
+ printf("... that should be %d callback hash entries\n", i);
}
-int print_vcaches(pnt)
-int pnt;
+int
+print_vcaches(int pnt)
{
off_t symoff;
struct vcache *afs_vhashTable[VCSIZE], Ve, *Ventry = &Ve, *Vep;
afs_int32 i, j;
- if (pnt) printf("\n\nPrinting afs_vcaches structures...\n");
- if (pnt) printf("print_vcaches: sizeof(struct vcache) = %ld\n", (long) sizeof(struct vcache));
- findsym( "afs_vhashT", &symoff);
- kread(kmem, symoff, (char *) afs_vhashTable, sizeof afs_vhashTable);
- for (i=0, j=0; i < VCSIZE; i++) {
+ if (pnt)
+ printf("\n\nPrinting afs_vcaches structures...\n");
+ if (pnt)
+ printf("print_vcaches: sizeof(struct vcache) = %ld\n",
+ (long)sizeof(struct vcache));
+ findsym("afs_vhashT", &symoff);
+ kread(kmem, symoff, (char *)afs_vhashTable, sizeof afs_vhashTable);
+ for (i = 0, j = 0; i < VCSIZE; i++) {
if (pnt)
printf("Printing hash chain %d...\n", i);
for (Vep = afs_vhashTable[i]; Vep; Vep = Ventry->hnext, j++) {
kread(kmem, (off_t) Vep, (char *)Ventry, sizeof *Ventry);
- if (Dvstats || Dall || !pnt)
+ if (Dvstats || Dall || !pnt)
print_vcache(kmem, Ventry, Vep, pnt);
- if (Dvnodes || Dall)
+ if (Dvnodes || Dall)
print_vnode(kmem, Ventry, Vep, pnt);
}
}
- if (pnt) printf("... found %d 'afs_vcaches' entries\n", j);
+ if (pnt)
+ printf("... found %d 'afs_vcaches' entries\n", j);
return j;
}
-int print_dcaches(pnt)
-int pnt;
+int
+print_dcaches(int pnt)
{
off_t symoff;
long table, *ptr;
struct afs_q dlru;
/* Handle the afs_dcaches structs */
- if (pnt) printf("\n\nPrinting afs_dcache related structures...\n");
- findsym( "afs_cacheFiles", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
- findsym( "afs_indexTable", &symoff);
- kread(kmem, symoff, (char *) &table, sizeof(long));
- ptr = (long *) malloc(count * sizeof(long));
- kread(kmem, table, (char *) ptr, count * sizeof(long));
- for (i=0, j=0; i < count; i++) {
+ if (pnt)
+ printf("\n\nPrinting afs_dcache related structures...\n");
+ findsym("afs_cacheFiles", &symoff);
+ kread(kmem, symoff, (char *)&count, sizeof count);
+ findsym("afs_indexTable", &symoff);
+ kread(kmem, symoff, (char *)&table, sizeof(long));
+ ptr = malloc(count * sizeof(long));
+ kread(kmem, table, (char *)ptr, count * sizeof(long));
+ for (i = 0, j = 0; i < count; i++) {
if (dp = (struct dcache *)ptr[i]) {
- if (pnt) printf("afs_indexTable[%d] %x: ", i, dp);
+ if (pnt)
+ printf("afs_indexTable[%d] %x: ", i, dp);
kread(kmem, (off_t) dp, (char *)dcp, sizeof *dcp);
print_dcache(kmem, dcp, dp, pnt);
j++;
}
}
- if (pnt) printf("... found %d 'dcache' entries\n", j);
- findsym( "afs_DLRU", &symoff);
- kread(kmem, symoff, (char *) &dlru, sizeof(struct afs_q));
- if (pnt) printf("DLRU next=0x%x, prev=0x%x\n", dlru.next, dlru.prev);
+ if (pnt)
+ printf("... found %d 'dcache' entries\n", j);
+ findsym("afs_DLRU", &symoff);
+ kread(kmem, symoff, (char *)&dlru, sizeof(struct afs_q));
+ if (pnt)
+ printf("DLRU next=0x%x, prev=0x%x\n", dlru.next, dlru.prev);
free(ptr);
-
+
return j;
}
-void print_DindexTimes(pnt)
-int pnt;
+void
+print_DindexTimes(int pnt)
{
off_t symoff;
long table;
afs_hyper_t *ptr;
- afs_int32 temp, * indexTime = &temp;
+ afs_int32 temp, *indexTime = &temp;
afs_int32 i, j, count;
/* Handle the afs_indexTimes array */
- if (pnt) printf("\n\nPrinting afs_indexTimes[]...\n");
- findsym( "afs_cacheFiles", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
- findsym( "afs_indexTimes", &symoff);
- kread(kmem, symoff, (char *) &table, sizeof(long));
- ptr = (afs_hyper_t *) malloc(count * sizeof(afs_hyper_t));
- kread(kmem, table, (char *) ptr, count * sizeof(afs_hyper_t));
- for (i=0, j=0; i < count; i++) {
- if (pnt) printf("afs_indexTimes[%d]\t%10d.%d\n", i,
- ptr[i].high, ptr[i].low);
+ if (pnt)
+ printf("\n\nPrinting afs_indexTimes[]...\n");
+ findsym("afs_cacheFiles", &symoff);
+ kread(kmem, symoff, (char *)&count, sizeof count);
+ findsym("afs_indexTimes", &symoff);
+ kread(kmem, symoff, (char *)&table, sizeof(long));
+ ptr = malloc(count * sizeof(afs_hyper_t));
+ kread(kmem, table, (char *)ptr, count * sizeof(afs_hyper_t));
+ for (i = 0, j = 0; i < count; i++) {
+ if (pnt)
+ printf("afs_indexTimes[%d]\t%10d.%d\n", i, ptr[i].high,
+ ptr[i].low);
/* if (dp = (struct dcache *)ptr[i]) {
printf("afs_indexTable[%d] %lx: ", i, dp);
kread(kmem, (off_t) dp, (char *)dcp, sizeof *dcp);
*/
j++;
}
- if (pnt) printf("afs_indexTimes has %d entries\n", j);
+ if (pnt)
+ printf("afs_indexTimes has %d entries\n", j);
free(ptr);
}
-void print_DdvnextTbl(pnt)
-int pnt;
+void
+print_DdvnextTbl(int pnt)
{
off_t symoff;
long table;
afs_int32 *ptr;
- afs_int32 temp, * indexTime = &temp;
+ afs_int32 temp, *indexTime = &temp;
afs_int32 i, j, count;
/* Handle the afs_dvnextTbl arrays */
- if (pnt) printf("\n\nPrinting afs_dvnextTbl[]...\n");
- findsym( "afs_cacheFiles", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
- findsym( "afs_dvnextTbl", &symoff);
- kread(kmem, symoff, (char *) &table, sizeof(long));
- ptr = (afs_int32 *) malloc(count * sizeof(afs_int32));
- kread(kmem, table, (char *) ptr, count * sizeof(afs_int32));
- for (i=0, j=0; i < count; i++) {
- if (pnt) printf("afs_dvnextTbl[%d]\t%d\n", i, ptr[i]);
+ if (pnt)
+ printf("\n\nPrinting afs_dvnextTbl[]...\n");
+ findsym("afs_cacheFiles", &symoff);
+ kread(kmem, symoff, (char *)&count, sizeof count);
+ findsym("afs_dvnextTbl", &symoff);
+ kread(kmem, symoff, (char *)&table, sizeof(long));
+ ptr = malloc(count * sizeof(afs_int32));
+ kread(kmem, table, (char *)ptr, count * sizeof(afs_int32));
+ for (i = 0, j = 0; i < count; i++) {
+ if (pnt)
+ printf("afs_dvnextTbl[%d]\t%d\n", i, ptr[i]);
j++;
}
- if (pnt) printf("afs_dvnextTbl has %d entries\n", j);
+ if (pnt)
+ printf("afs_dvnextTbl has %d entries\n", j);
free(ptr);
}
-void print_DdcnextTbl(pnt)
-int pnt;
+void
+print_DdcnextTbl(int pnt)
{
off_t symoff;
long table;
afs_int32 *ptr;
- afs_int32 temp, * indexTime = &temp;
+ afs_int32 temp, *indexTime = &temp;
afs_int32 i, j, count;
/* Handle the afs_dcnextTbl arrays */
- if (pnt) printf("\n\nPrinting afs_dcnextTbl[]...\n");
- findsym( "afs_cacheFiles", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
- findsym( "afs_dcnextTbl", &symoff);
- kread(kmem, symoff, (char *) &table, sizeof(long));
- ptr = (afs_int32 *) malloc(count * sizeof(afs_int32));
- kread(kmem, table, (char *) ptr, count * sizeof(afs_int32));
- for (i=0, j=0; i < count; i++) {
- if (pnt) printf("afs_dcnextTbl[%d]\t%d\n", i, ptr[i]);
+ if (pnt)
+ printf("\n\nPrinting afs_dcnextTbl[]...\n");
+ findsym("afs_cacheFiles", &symoff);
+ kread(kmem, symoff, (char *)&count, sizeof count);
+ findsym("afs_dcnextTbl", &symoff);
+ kread(kmem, symoff, (char *)&table, sizeof(long));
+ ptr = malloc(count * sizeof(afs_int32));
+ kread(kmem, table, (char *)ptr, count * sizeof(afs_int32));
+ for (i = 0, j = 0; i < count; i++) {
+ if (pnt)
+ printf("afs_dcnextTbl[%d]\t%d\n", i, ptr[i]);
j++;
}
- if (pnt) printf("afs_dcnextTbl has %d entries\n", j);
+ if (pnt)
+ printf("afs_dcnextTbl has %d entries\n", j);
free(ptr);
}
-void print_DindexFlags(pnt)
-int pnt;
+void
+print_DindexFlags(int pnt)
{
off_t symoff;
afs_int32 count;
long table;
unsigned char *flags;
- afs_int32 temp, * indexTime = &temp;
+ afs_int32 temp, *indexTime = &temp;
afs_int32 i, j;
/* Handle the afs_indexFlags array */
- if (pnt) printf("\n\nPrinting afs_indexFlags[]...\n");
- findsym( "afs_cacheFiles", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
- findsym( "afs_indexFlags", &symoff);
- kread(kmem, symoff, (char *) &table, sizeof(long));
- flags = (unsigned char *) malloc(count * sizeof(char));
+ if (pnt)
+ printf("\n\nPrinting afs_indexFlags[]...\n");
+ findsym("afs_cacheFiles", &symoff);
+ kread(kmem, symoff, (char *)&count, sizeof count);
+ findsym("afs_indexFlags", &symoff);
+ kread(kmem, symoff, (char *)&table, sizeof(long));
+ flags = malloc(count * sizeof(char));
kread(kmem, table, flags, count * sizeof(char));
- for (i=0, j=0; i < count; i++) {
- if (pnt) printf("afs_indexFlags[%d]\t%4u\n", i, flags[i]);
+ for (i = 0, j = 0; i < count; i++) {
+ if (pnt)
+ printf("afs_indexFlags[%d]\t%4u\n", i, flags[i]);
j++;
}
- if (pnt) printf("afs_indexFlags has %d entries\n", j);
+ if (pnt)
+ printf("afs_indexFlags has %d entries\n", j);
free(flags);
}
-void print_buffers(pnt)
-int pnt;
+void
+print_buffers(int pnt)
{
off_t symoff;
long table;
struct buffer *bp;
afs_int32 i, j;
- if (pnt) printf("\n\nPrinting 'buffers' table...\n");
- findsym( "Buffers", &symoff);
- kread(kmem, symoff, (char *) &table, sizeof(long));
- findsym( "nbuffers", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof(int));
- buffers = (unsigned char *) malloc(count * sizeof(struct buffer));
+ if (pnt)
+ printf("\n\nPrinting 'buffers' table...\n");
+ findsym("Buffers", &symoff);
+ kread(kmem, symoff, (char *)&table, sizeof(long));
+ findsym("nbuffers", &symoff);
+ kread(kmem, symoff, (char *)&count, sizeof(int));
+ buffers = malloc(count * sizeof(struct buffer));
kread(kmem, table, buffers, count * sizeof(struct buffer));
bp = (struct buffer *)buffers;
- for (i=0, j=0; i < count; i++, bp++) {
+ for (i = 0, j = 0; i < count; i++, bp++) {
#ifdef AFS_SGI62_ENV
- if (pnt) printf("Buffer #%d:\tfid=%llu page=%d, accTime=%d,\n\tHash=%x, data=%x, lockers=%x, dirty=%d, hashI=%d\n",
- i, bp->fid[0], bp->page, bp->accesstime,
- bp->hashNext, bp->data, bp->lockers, bp->b_dirty, bp->hashIndex);
+ if (pnt)
+ printf
+ ("Buffer #%d:\tfid=%llu page=%d, accTime=%d,\n\tHash=%x, data=%x, lockers=%x, dirty=%d, hashI=%d\n",
+ i, bp->fid[0], bp->page, bp->accesstime, bp->hashNext,
+ bp->data, bp->lockers, bp->dirty, bp->hashIndex);
#else
- if (pnt) printf("Buffer #%d:\tfid=%lu page=%d, accTime=%d,\n\tHash=%x, data=%x, lockers=%x, dirty=%d, hashI=%d\n",
- i, bp->fid[0], bp->page, bp->accesstime,
- bp->hashNext, bp->data, bp->lockers, bp->b_dirty, bp->hashIndex);
+ if (pnt)
+ printf
+ ("Buffer #%d:\tfid=%lu page=%d, accTime=%d,\n\tHash=%x, data=%x, lockers=%x, dirty=%d, hashI=%d\n",
+ i, bp->fid, bp->page, bp->accesstime, bp->hashNext,
+ bp->data, bp->lockers, bp->dirty, bp->hashIndex);
#endif
j++;
}
- if (pnt) printf("\n\t ... that should be %d buffer entries\n", i);
+ if (pnt)
+ printf("\n\t ... that should be %d buffer entries\n", i);
}
-int print_nfss(pnt)
-int pnt;
+int
+print_nfss(int pnt)
{
off_t symoff;
struct afs_exporter *exp_entry, ex, *exp = &ex, *exp1;
- struct nfsclientpag *afs_nfspags[NNFSCLIENTS], e, *entry = &e, *ep;
+ struct nfsclientpag *afs_nfspags[NNFSCLIENTS], e, *entry = &e, *ep;
long i, j, cell;
/* Handle the afs_exporter structures */
- if (pnt) printf("\n\nPrinting 'afs_exporters' link list...\n");
- findsym( "root_exported", &symoff);
- kread(kmem, symoff, (char *) &cell, sizeof(long));
- for (exp1 = (struct afs_exporter *) cell, j=0; exp1; exp1 = exp->exp_next, j++) {
- kread(kmem, (off_t)exp1, (char *) exp, sizeof *exp);
- if (pnt) printf("AFS_EXPORTER(%x): \n", exp1);
+ if (pnt)
+ printf("\n\nPrinting 'afs_exporters' link list...\n");
+ findsym("root_exported", &symoff);
+ kread(kmem, symoff, (char *)&cell, sizeof(long));
+ for (exp1 = (struct afs_exporter *)cell, j = 0; exp1;
+ exp1 = exp->exp_next, j++) {
+ kread(kmem, (off_t) exp1, (char *)exp, sizeof *exp);
+ if (pnt)
+ printf("AFS_EXPORTER(%x): \n", exp1);
print_exporter(kmem, exp, exp1, pnt);
Sum_exps++;
}
- if (pnt) printf("... found %d 'afs_exporters' entries\n", j);
+ if (pnt)
+ printf("... found %d 'afs_exporters' entries\n", j);
/* Handle the afs_nfsclientpags structs */
- if (pnt) printf("\n\nPrinting 'afs_nfsclientpags' structures...\n");
- if (!findsym( "afs_nfspags", &symoff))
+ if (pnt)
+ printf("\n\nPrinting 'afs_nfsclientpags' structures...\n");
+ if (!findsym("afs_nfspags", &symoff))
return 0;
- kread(kmem, symoff, (char *) afs_nfspags, sizeof afs_nfspags);
- for (i=0,j=0; i < NNFSCLIENTS; i++) {
+ kread(kmem, symoff, (char *)afs_nfspags, sizeof afs_nfspags);
+ for (i = 0, j = 0; i < NNFSCLIENTS; i++) {
for (ep = afs_nfspags[i]; ep; ep = entry->next, j++) {
- kread(kmem, (off_t) ep, (char *) entry, sizeof *entry);
+ kread(kmem, (off_t) ep, (char *)entry, sizeof *entry);
print_nfsclient(kmem, entry, ep, pnt);
}
}
- if (pnt) printf("... found %d 'afs_nfsclientpags' entries\n", j);
+ if (pnt)
+ printf("... found %d 'afs_nfsclientpags' entries\n", j);
return j;
}
int refcount; /* Is it in use? */
kcondvar_t cond; /* Currently associated condition variable */
int seq; /* Sequence number: this is incremented
- by wakeup calls; wait will not return until
- it changes */
+ * by wakeup calls; wait will not return until
+ * it changes */
} event_t;
#endif
#define KM_TYPE 1
#define VM_TYPE 2
struct osi_linux_mem {
- int mem_next; /* types are or'd into low bits of next */
+ int mem_next; /* types are or'd into low bits of next */
char data[1];
};
#define MEMTYPE(A) ((A) & 0x3)
#define MEMADDR(A) ((struct osi_linux_mem*)((A) & (~0x3)))
#define PR_MEMTYPE(A) ((MEMTYPE(A) == KM_TYPE) ? "phys" : "virt")
-void print_alloced_memlist(void)
+void
+print_alloced_memlist(void)
{
off_t symoff;
struct osi_linux_mem *memp, memlist, next;
int count;
int n = 0;
- findsym( "afs_linux_memlist_size", &symoff);
- kread(kmem, symoff, (char*) &count, sizeof count);
- findsym( "afs_linux_memlist", &symoff);
- kread(kmem, symoff, (char*) &memp, sizeof memp);
+ findsym("afs_linux_memlist_size", &symoff);
+ kread(kmem, symoff, (char *)&count, sizeof count);
+ findsym("afs_linux_memlist", &symoff);
+ kread(kmem, symoff, (char *)&memp, sizeof memp);
if (memp) {
- kread(kmem, (int)memp, (char*) &next, sizeof next);
- }
- else {
+#ifdef AFS_LINUX_64BIT_KERNEL
+ kread(kmem, (unsigned long)memp, (char *)&next, sizeof next);
+#else
+ kread(kmem, (int)memp, (char *)&next, sizeof next);
+#endif /* AFS_LINUX_64BIT_KERNEL */
+ } else {
memset(&next, 0, sizeof next);
}
printf("Allocated memory list: %d elements\n", count);
printf("%20s %4s %10s\n", "Address", "Type", "Next");
- printf("%20lx %4s %10x\n", (long)((char*)memp) + MEM_SPACE,
+ printf("%20lx %4s %10x\n", (long)((char *)memp) + MEM_SPACE,
PR_MEMTYPE(next.mem_next), next.mem_next);
n = 1;
while (next_addr = (off_t) MEMADDR(next.mem_next)) {
- n ++;
+ n++;
memlist = next;
- kread(kmem, next_addr, (char*) &next, sizeof next);
- printf("%20lx %4s %10x\n", (long) next_addr+MEM_SPACE,
+ kread(kmem, next_addr, (char *)&next, sizeof next);
+ printf("%20lx %4s %10x\n", (long)next_addr + MEM_SPACE,
PR_MEMTYPE(next.mem_next), next.mem_next);
}
- printf("Found %d elements in allocated memory list, expected %d\n",
- n, count);
+ printf("Found %d elements in allocated memory list, expected %d\n", n,
+ count);
}
#endif
-void print_allocs(pnt)
-int pnt;
+void
+print_allocs(int pnt)
{
off_t symoff;
- long count, i, j, k, l, m, n, T=0, tvs;
+ long count, i, j, k, l, m, n, T = 0, tvs;
struct afs_CMStats afs_cmstats;
struct afs_stats_CMPerf afs_cmperfstats;
- findsym( "afs_cmstats", &symoff);
- kread(kmem, symoff, (char *) &afs_cmstats, sizeof afs_cmstats);
- findsym( "afs_stats_cmperf", &symoff);
- kread(kmem, symoff, (char *) &afs_cmperfstats, sizeof afs_cmperfstats);
+ findsym("afs_cmstats", &symoff);
+ kread(kmem, symoff, (char *)&afs_cmstats, sizeof afs_cmstats);
+ findsym("afs_stats_cmperf", &symoff);
+ kread(kmem, symoff, (char *)&afs_cmperfstats, sizeof afs_cmperfstats);
T += MAXSYSNAME;
printf("\n\n%20s:\t%8d bytes\n", "Sysname area", MAXSYSNAME);
- Sum_cellnames=0;
+ Sum_cellnames = 0;
i = print_cells(0);
j = (i * sizeof(struct cell)) + Sum_cellnames;
T += j;
- printf("%20s:\t%8d bytes\t[%d cells/%d bytes each + %d bytes for cell names]\n", "Cell package", j, i, sizeof(struct cell), Sum_cellnames);
+ printf
+ ("%20s:\t%8d bytes\t[%d cells/%d bytes each + %d bytes for cell names]\n",
+ "Cell package", j, i, sizeof(struct cell), Sum_cellnames);
- Sum_userstp=0;
+ Sum_cellaliases = 0;
+ i = print_cellaliases(0);
+ j = (i * sizeof(struct cell_alias)) + Sum_cellaliases;
+ T += j;
+ printf
+ ("%20s:\t%8d bytes\t[%d cell_aliases/%d bytes each + %d bytes for cell names]\n",
+ "Cell package", j, i, sizeof(struct cell_alias), Sum_cellaliases);
+
+ Sum_cellname_names = 0;
+ i = print_cellnames(0);
+ j = (i * sizeof(struct cell_name)) + Sum_cellname_names;
+ T += j;
+ printf
+ ("%20s:\t%8d bytes\t[%d cell_names/%d bytes each + %d bytes for cell name strings]\n",
+ "Cell package", j, i, sizeof(struct cell_name), Sum_cellname_names);
+
+ Sum_userstp = 0;
i = print_users(0);
j = (i * sizeof(struct unixuser)) + Sum_userstp;
T += j;
- printf("%20s:\t%8d bytes\t[%d users/%d bytes each + %d bytes for secret tokens]\n", "User package", j, i, sizeof(struct unixuser), Sum_userstp);
+ printf
+ ("%20s:\t%8d bytes\t[%d users/%d bytes each + %d bytes for secret tokens]\n",
+ "User package", j, i, sizeof(struct unixuser), Sum_userstp);
i = print_servers(0);
j = (i * sizeof(struct server));
T += j;
- printf("%20s:\t%8d bytes\t[%d servers/%d bytes each]\n", "Server package", j, i, sizeof(struct server));
- j = (Nconns * sizeof(struct conn));
+ printf("%20s:\t%8d bytes\t[%d servers/%d bytes each]\n", "Server package",
+ j, i, sizeof(struct server));
+ j = (Nconns * sizeof(struct afs_conn));
T += j;
- printf("%20s:\t%8d bytes\t[%d conns/%d bytes each]\n", "Connection package", j, Nconns, sizeof(struct conn));
-
- i = (AFS_NCBRS * sizeof(struct afs_cbr)) * (j = afs_cmperfstats.CallBackAlloced);
+ printf("%20s:\t%8d bytes\t[%d conns/%d bytes each]\n",
+ "Connection package", j, Nconns, sizeof(struct afs_conn));
+
+ i = (AFS_NCBRS * sizeof(struct afs_cbr)) * (j =
+ afs_cmperfstats.
+ CallBackAlloced);
T += i;
if (i)
- printf("%20s:\t%8d bytes\t[%d cbs/%d bytes each]\n", "Server CB free pool", i, (j * AFS_NCBRS), sizeof(struct afs_cbr));
+ printf("%20s:\t%8d bytes\t[%d cbs/%d bytes each]\n",
+ "Server CB free pool", i, (j * AFS_NCBRS),
+ sizeof(struct afs_cbr));
- Sum_volnames=0;
+ Sum_volnames = 0;
i = print_volumes(0);
j = (MAXVOLS * sizeof(struct volume)) + Sum_volnames;
T += j;
- printf("%20s:\t%8d bytes\t[%d volumes/%d bytes each + %d bytes for volnames - %d active entries]\n", "Volume package", j, MAXVOLS, sizeof(struct volume), Sum_volnames, i);
+ printf
+ ("%20s:\t%8d bytes\t[%d volumes/%d bytes each + %d bytes for volnames - %d active entries]\n",
+ "Volume package", j, MAXVOLS, sizeof(struct volume), Sum_volnames,
+ i);
- Sum_vcachemvids = Sum_vcachelinkData = Sum_vcacheacc = Sum_vcachelocks = 0;
+ Sum_vcachemvids = Sum_vcachelinkData = Sum_vcacheacc = Sum_vcachelocks =
+ 0;
tvs = i = print_vcaches(0);
j = (i * sizeof(struct vcache));
/* T += j;*/
/* printf("%20s:\t%d bytes\t[%d vcaches/%d bytes each]\n", "Vcache package", j, i, sizeof(struct vcache));*/
#ifdef AFS_AIX32_ENV
- i = (tvs + Sum_vcachemvids + Sum_vcachelinkData + Sum_vcachelocks) * AFS_SMALLOCSIZ;
- printf("%20s:\t%8d bytes\t[%d act gnodes, %d mount pnts, %d symbolic links, %d unix locks]\n",
- "[VC use of sml fp]*",i, tvs, Sum_vcachemvids, Sum_vcachelinkData, Sum_vcachelocks);
+ i = (tvs + Sum_vcachemvids + Sum_vcachelinkData +
+ Sum_vcachelocks) * AFS_SMALLOCSIZ;
+ printf
+ ("%20s:\t%8d bytes\t[%d act gnodes, %d mount pnts, %d symbolic links, %d unix locks]\n",
+ "[VC use of sml fp]*", i, tvs, Sum_vcachemvids, Sum_vcachelinkData,
+ Sum_vcachelocks);
#else
- i = (Sum_vcachemvids + Sum_vcachelinkData + Sum_vcachelocks) * AFS_SMALLOCSIZ;
- printf("%20s:\t8%d bytes\t[%d mount pnts, %d symbolic links, %d unix locks]\n",
- "[VC use of sml fp]*",i, Sum_vcachemvids, Sum_vcachelinkData, Sum_vcachelocks);
+ i = (Sum_vcachemvids + Sum_vcachelinkData +
+ Sum_vcachelocks) * AFS_SMALLOCSIZ;
+ printf
+ ("%20s:\t8%d bytes\t[%d mount pnts, %d symbolic links, %d unix locks]\n",
+ "[VC use of sml fp]*", i, Sum_vcachemvids, Sum_vcachelinkData,
+ Sum_vcachelocks);
#endif
#define NAXSs (1000 / sizeof(struct axscache))
#ifdef AFS32
i = (NAXSs * sizeof(struct axscache));
T += i;
- printf("%20s:\t%8d bytes\t[%d access used by vcaches/%d bytes each]\n", "ACL List free pool", i, Sum_vcacheacc, sizeof(struct axscache));
+ printf("%20s:\t%8d bytes\t[%d access used by vcaches/%d bytes each]\n",
+ "ACL List free pool", i, Sum_vcacheacc, sizeof(struct axscache));
#else
{
- struct axscache *xp, xpe, *nxp = &xpe;
-
- findsym( "afs_xaxscnt", &symoff);
- kread(kmem, symoff, (char *) &i, sizeof i);
- j = i * (NAXSs * sizeof(struct axscache));
- T += j;
- printf("%20s:\t%8d bytes\t[%d access used by vcaches/%d bytes each - %d blocks of %d]\n", "ACL List free pool", j, Sum_vcacheacc, sizeof(struct axscache), i, (NAXSs * sizeof(struct axscache)));
+ struct axscache *xp, xpe, *nxp = &xpe;
+
+ findsym("afs_xaxscnt", &symoff);
+ kread(kmem, symoff, (char *)&i, sizeof i);
+ j = i * (NAXSs * sizeof(struct axscache));
+ T += j;
+ printf
+ ("%20s:\t%8d bytes\t[%d access used by vcaches/%d bytes each - %d blocks of %d]\n",
+ "ACL List free pool", j, Sum_vcacheacc, sizeof(struct axscache),
+ i, (NAXSs * sizeof(struct axscache)));
}
#endif
i = print_dcaches(0);
j = (i * sizeof(struct dcache));
T += j;
- printf("%20s:\t%8d bytes\t[%d dcaches/%d bytes each - ONLY USED COUNTED]\n", "Dcache package", j, i, sizeof(struct dcache));
+ printf
+ ("%20s:\t%8d bytes\t[%d dcaches/%d bytes each - ONLY USED COUNTED]\n",
+ "Dcache package", j, i, sizeof(struct dcache));
#else
- findsym( "afs_dcentries", &symoff);
- kread(kmem, symoff, (char *) &i, sizeof i);
+ findsym("afs_dcentries", &symoff);
+ kread(kmem, symoff, (char *)&i, sizeof i);
j = (i * sizeof(struct dcache));
T += j;
- printf("%20s:\t%8d bytes\t[%d dcaches/%d bytes each]\n", "Dcache package", j, i, sizeof(struct dcache));
+ printf("%20s:\t%8d bytes\t[%d dcaches/%d bytes each]\n", "Dcache package",
+ j, i, sizeof(struct dcache));
#endif
- findsym( "afs_cacheFiles", &symoff);
- kread(kmem, symoff, (char *) &i, sizeof i);
- findsym( "afs_cacheStats", &symoff);
- kread(kmem, symoff, (char *) &j, sizeof j);
+ findsym("afs_cacheFiles", &symoff);
+ kread(kmem, symoff, (char *)&i, sizeof i);
+ findsym("afs_cacheStats", &symoff);
+ kread(kmem, symoff, (char *)&j, sizeof j);
k = (j * sizeof(struct vcache));
- printf("%20s:\t%8d bytes\t[%d free vcaches/%d bytes each - %d active entries]\n", "Vcache free list", k, j, sizeof(struct vcache), tvs);
- printf("%20s:\t%8d bytes\t[%d entries/%d bytes each]\n", "Dcache Index Table", i * 4, i, 4);
+ printf
+ ("%20s:\t%8d bytes\t[%d free vcaches/%d bytes each - %d active entries]\n",
+ "Vcache free list", k, j, sizeof(struct vcache), tvs);
+ printf("%20s:\t%8d bytes\t[%d entries/%d bytes each]\n",
+ "Dcache Index Table", i * 4, i, 4);
#ifndef AFS32
- printf("%20s:\t%8d bytes\t[%d entries/%d bytes each]\n", "Dcache Index Times", i * 8, i, 8);
+ printf("%20s:\t%8d bytes\t[%d entries/%d bytes each]\n",
+ "Dcache Index Times", i * 8, i, 8);
#else
- printf("%20s:\t%8d bytes\t[%d entries/%d bytes each]\n", "Dcache Index Times", i * 4, i, 4);
+ printf("%20s:\t%8d bytes\t[%d entries/%d bytes each]\n",
+ "Dcache Index Times", i * 4, i, 4);
#endif
- printf("%20s:\t%8d bytes\t[%d entries/%d bytes each]\n", "Dcache Index Flags", i, i, 1);
+ printf("%20s:\t%8d bytes\t[%d entries/%d bytes each]\n",
+ "Dcache Index Flags", i, i, 1);
/* printf("%20s:\t%8d bytes\t[%d entries/%d bytes each]\n", "Dcache free list", i, i, 1);*/
#ifndef AFS32
- T += k + (i*4)+ (i*8) + i;
+ T += k + (i * 4) + (i * 8) + i;
#else
- T += k + (i*4)+ (i*4) + i;
+ T += k + (i * 4) + (i * 4) + i;
#endif
i = (j = afs_cmperfstats.bufAlloced) * sizeof(struct buffer);
T += i;
- printf("%20s:\t%8d bytes\t[%d entries/%d bytes each]\n", "Buffer package", i, j, sizeof(struct buffer));
-#if !AFS_USEBUFFERS
+ printf("%20s:\t%8d bytes\t[%d entries/%d bytes each]\n", "Buffer package",
+ i, j, sizeof(struct buffer));
#define AFS_BUFFER_PAGESIZE 2048
i = j * AFS_BUFFER_PAGESIZE;
T += i;
- printf("%20s:\t%8d bytes\t[%d entries/%d bytes each]\n", "Xtra Buffer pkg area", i, j, AFS_BUFFER_PAGESIZE);
-#endif
+ printf("%20s:\t%8d bytes\t[%d entries/%d bytes each]\n",
+ "Xtra Buffer pkg area", i, j, AFS_BUFFER_PAGESIZE);
Sum_exps = 0;
Sum_nfssysnames = 0;
k = Sum_exps * sizeof(struct afs_exporter);
T += k;
if (k)
- printf("%20s:\t%8d bytes\t[%d entries/%d bytes each]\n", "Xlator Exporter list", k, Sum_exps, sizeof(struct afs_exporter));
+ printf("%20s:\t%8d bytes\t[%d entries/%d bytes each]\n",
+ "Xlator Exporter list", k, Sum_exps,
+ sizeof(struct afs_exporter));
j = (i * sizeof(struct nfsclientpag)) + Sum_nfssysnames;
T += j;
if (j)
- printf("%20s:\t%8d bytes\t[%d entries/%d bytes each + %d for remote sysnames]\n", "Xlator Nfs clnt pkg", j, i, sizeof(struct nfsclientpag), Sum_nfssysnames);
+ printf
+ ("%20s:\t%8d bytes\t[%d entries/%d bytes each + %d for remote sysnames]\n",
+ "Xlator Nfs clnt pkg", j, i, sizeof(struct nfsclientpag),
+ Sum_nfssysnames);
i = (j = afs_cmperfstats.LargeBlocksAlloced) * AFS_LRALLOCSIZ;
T += i;
- printf("%20s:\t%8d bytes\t[%d entries/%d bytes each - %d active entries]\n", "Large Free Pool",
- i, j, AFS_LRALLOCSIZ, afs_cmperfstats.LargeBlocksActive);
+ printf
+ ("%20s:\t%8d bytes\t[%d entries/%d bytes each - %d active entries]\n",
+ "Large Free Pool", i, j, AFS_LRALLOCSIZ,
+ afs_cmperfstats.LargeBlocksActive);
i = (j = afs_cmperfstats.SmallBlocksAlloced) * AFS_SMALLOCSIZ;
T += i;
- printf("%20s:\t%8d bytes\t[%d entries/%d bytes each - %d active entries]\n", "Small Free Pool",
- i, j, AFS_SMALLOCSIZ, afs_cmperfstats.SmallBlocksActive);
+ printf
+ ("%20s:\t%8d bytes\t[%d entries/%d bytes each - %d active entries]\n",
+ "Small Free Pool", i, j, AFS_SMALLOCSIZ,
+ afs_cmperfstats.SmallBlocksActive);
#if defined(AFS_GLOBAL_SUNLOCK) && !defined(AFS_HPUX_ENV) && !defined(AFS_AIX41_ENV)
- findsym( "afs_evhashcnt", &symoff);
- kread(kmem, symoff, (char *) &j, sizeof j);
+ findsym("afs_evhashcnt", &symoff);
+ kread(kmem, symoff, (char *)&j, sizeof j);
i = (j * sizeof(event_t));
T += i;
- printf("%20s:\t%8d bytes\t[%d entries/%d bytes each]\n", "afs glock Event Pool", i, j, sizeof(event_t));
+ printf("%20s:\t%8d bytes\t[%d entries/%d bytes each]\n",
+ "afs glock Event Pool", i, j, sizeof(event_t));
/* printf("XXXXXXX Count event queue allocs!!!! XXXXXX\n");*/
#endif
- i = j =0;
- if (findsym( "rxevent_nFree", &symoff))
- kread(kmem, symoff, (char *) &j, sizeof j);
- if (findsym( "rxevent_nPosted", &symoff))
- kread(kmem, symoff, (char *) &i, sizeof i);
+ i = j = 0;
+ if (findsym("rxevent_nFree", &symoff))
+ kread(kmem, symoff, (char *)&j, sizeof j);
+ if (findsym("rxevent_nPosted", &symoff))
+ kread(kmem, symoff, (char *)&i, sizeof i);
k = (i + j) * sizeof(struct rxevent);
if (k) {
T += k;
- printf("%20s:\t%8d bytes\t[%d free, %d posted/%d bytes each]\n", "Rx event pkg",
- k, j, i, sizeof(struct rxevent));
+ printf("%20s:\t%8d bytes\t[%d free, %d posted/%d bytes each]\n",
+ "Rx event pkg", k, j, i, sizeof(struct rxevent));
} else {
T += (k = 20 * sizeof(struct rxevent));
- printf("%20s:\t%8d bytes\t[%d entries/%d bytes each - THIS IS MIN ALLOC/NOT ACTUAL]\n", "Rx event pkg",
- k, 20, sizeof(struct rxevent));
+ printf
+ ("%20s:\t%8d bytes\t[%d entries/%d bytes each - THIS IS MIN ALLOC/NOT ACTUAL]\n",
+ "Rx event pkg", k, 20, sizeof(struct rxevent));
}
findsym("rx_nFreePackets", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
/*
findsym("rx_initSendWindow", &symoff);
kread(kmem, symoff, (char *) &i, sizeof i);
*/
- i=0;
+ i = 0;
findsym("rx_nPackets", &symoff);
- kread(kmem, symoff, (char *) &j, sizeof j);
+ kread(kmem, symoff, (char *)&j, sizeof j);
k = (j + i + 2) * sizeof(struct rx_packet);
T += k;
- printf("%20s:\t%8d bytes\t[%d free packets/%d bytes each]\n", "Rx packet freelist",
- k, count, sizeof(struct rx_packet));
+ printf("%20s:\t%8d bytes\t[%d free packets/%d bytes each]\n",
+ "Rx packet freelist", k, count, sizeof(struct rx_packet));
#define rx_hashTableSize 256 /* XXX */
- i = (rx_hashTableSize*sizeof(struct rx_connection *));
- j = (rx_hashTableSize*sizeof(struct rx_peer *));
+ i = (rx_hashTableSize * sizeof(struct rx_connection *));
+ j = (rx_hashTableSize * sizeof(struct rx_peer *));
k = i + j;
T += k;
- printf("%20s:\t%8d bytes\t[%d entries/%d bytes each]\n", "Rx conn/peer tables",
- k, rx_hashTableSize, sizeof(struct rx_connection *));
-
- findsym( "rxi_Alloccnt", &symoff);
- kread(kmem, symoff, (char *) &j, sizeof j);
- findsym( "rxi_Allocsize", &symoff);
- kread(kmem, symoff, (char *) &i, sizeof i);
+ printf("%20s:\t%8d bytes\t[%d entries/%d bytes each]\n",
+ "Rx conn/peer tables", k, rx_hashTableSize,
+ sizeof(struct rx_connection *));
+
+ findsym("rxi_Alloccnt", &symoff);
+ kread(kmem, symoff, (char *)&j, sizeof j);
+ findsym("rxi_Allocsize", &symoff);
+ kread(kmem, symoff, (char *)&i, sizeof i);
T += i;
- printf("%20s:\t%8d bytes\t[%d outstanding allocs]\n", "RX misc allocs", i, j);
+ printf("%20s:\t%8d bytes\t[%d outstanding allocs]\n", "RX misc allocs", i,
+ j);
j = afs_cmperfstats.OutStandingMemUsage;
printf("%20s:\t%8d bytes\n", "Accounted-for mem", T);
printf("%20s:\t%8d bytes\n", "Non acc'd-for mem", j - T);
- printf("\n\nNOTE:\n\tAll [...]* entries above aren't counted towards the total mem since they're redundant\n");
+ printf
+ ("\n\nNOTE:\n\tAll [...]* entries above aren't counted towards the total mem since they're redundant\n");
#ifdef AFS_LINUX22_ENV
if (pnt)
}
#if defined(sparc) && !defined(__linux__)
-int readmem(kmem, buf, vad, len)
- int kmem, len;
-#ifdef AFS_SUN57_ENV
- uintptr_t vad;
+int
+readmem(kmem, buf, vad, len)
+ int kmem, len;
+#ifdef AFS_SUN5_ENV
+ uintptr_t vad;
#else
- int vad;
-#endif /** AFS_SUN57_ENV **/
- char *buf;
+ int vad;
+#endif /** AFS_SUN5_ENV **/
+ char *buf;
{
int newlen;
- if (( newlen = kvm_kread(kd, vad, buf, len) ) != len) {
+ if ((newlen = kvm_kread(kd, vad, buf, len)) != len) {
printf("Couldn't process dumpfile with supplied namelist %s\n", obj);
exit(1);
}
}
#endif
-#ifdef AFS_OSF_ENV
-static read_addr(int fd, unsigned long addr, unsigned long *val) {
- if (lseek(fd, addr, SEEK_SET) == -1) return(0);
- if (read(fd, val, sizeof(long)) != sizeof(long)) return(0);
- return(1);
-}
-
-static pt_entry_t *ptes = NULL;
-static addr_to_offset(unsigned long addr, unsigned long *ret, int fd)
-{
- off_t symoff;
- pt_entry_t pte, *val;
- char *str, *ptr;
-
- if (IS_SEG1_VA(addr)){
- if(ptes == NULL){
- int i, loc;
- unsigned long loc1, loc2[2];
- findsym ("kernel_pmap", &symoff);
- loc1 = coreadj(symoff);
- /*printf("ptes=%lx -> %lx\n", symoff, loc1);*/
- if (lseek(fd, loc1, L_SET/*0*/) != loc1) {
- perror("lseek");
- exit(1);
- }
- if ((i = read(fd, (char *)&loc1, sizeof(long))) != sizeof(long)) {
- printf("Read of kerne_map failed\n");
- return; /*exit(1);*/
- }
- loc = loc1;
- /*printf("loc1 %lx -> %lx\n", loc1, loc);*/
- if (lseek(fd, loc, L_SET/*0*/) != loc) {
- perror("lseek");
- exit(1);
- }
- if ((i = read(fd, (char *)loc2, 2*sizeof(long))) != 2*sizeof(long)) {
- printf("Read of kerne_map failed\n");
- return; /*exit(1);*/
- }
- ptes = (pt_entry_t *) loc2[1];
- /*printf("ptes=%lx\n", ptes);*/
-
- }
- if(!addr_to_offset((unsigned long) (ptes + LEVEL1_PT_OFFSET(addr)), (unsigned long *) &val, fd)) return(0);
- if(!read_addr(fd, (unsigned long) val, (unsigned long *) &pte)) return(0);
- val = ((pt_entry_t *) PTETOPHYS(&pte)) + LEVEL2_PT_OFFSET(addr);
- if(!read_addr(fd, (unsigned long) val, (unsigned long *) &pte)) return(0);
- val = ((pt_entry_t *) PTETOPHYS(&pte)) + LEVEL3_PT_OFFSET(addr);
- if(!read_addr(fd, (unsigned long) val, (unsigned long *) &pte)) return(0);
- *ret = PTETOPHYS(&pte) + (addr & ((1 << PGSHIFT) - 1));
- return(1);
- } else if(IS_KSEG_VA(addr)) {
- *ret = KSEG_TO_PHYS(addr);
- return(1);
- } else {
- return(0);
- }
-}
-#endif
-
#ifndef AFS_KDUMP_LIB
-void kread(int kmem,off_t loc,void *buf,KDUMP_SIZE_T len)
+void
+kread(int kmem, off_t loc, void *buf, KDUMP_SIZE_T len)
{
int i;
- bzero(buf,len);
+ memset(buf, 0, len);
-#ifdef AFS_OSF_ENV
- if (mem) {
- unsigned long ret;
- i = addr_to_offset(loc, &ret, kmem);
- if (i == 1)
- loc = ret;
- else {
- unsigned long loc1;
- loc1 = coreadj(loc);
- loc = loc1;
- }
- }
-#else
#if defined(sparc) && !defined(__linux__)
#ifndef AFS_SUN5_ENV
if (mem) {
#endif
- readmem(kmem, buf, (off_t)loc, len);
+ readmem(kmem, buf, (off_t) loc, len);
return;
#ifndef AFS_SUN5_ENV
}
#endif
#endif
-#endif
#if ! defined(AFS_SUN5_ENV)
#if defined(AFS_SGI61_ENV) && !defined(AFS_32BIT_KERNEL_ENV)
- if (lseek64(kmem, loc, L_SET/*0*/) != loc)
+ if (lseek64(kmem, loc, L_SET /*0 */ ) != loc)
#else
- if (lseek(kmem, loc, L_SET/*0*/) != loc)
+ if (lseek(kmem, loc, L_SET /*0 */ ) != loc)
#endif
- {
- perror("lseek");
- exit(1);
- }
- if ((i = read(kmem, buf, len)) != len) {
- printf("WARNING: Read failed: ");
- if (sizeof(loc) > sizeof(long)) {
- printf("loc=%llx", loc);
- } else {
- printf("loc=%lx", (long) loc);
- }
- printf(", buf=%lx, len=%ld, i=%d, errno=%d\n",
- (long) buf, (long) len, i, errno);
- return; /*exit(1);*/
+ {
+ perror("lseek");
+ exit(1);
}
+ if (loc == 0)
+ printf("WARNING: Read failed: loc=0\n");
+ else
+ if ((i = read(kmem, buf, len)) != len) {
+ printf("WARNING: Read failed: ");
+ if (sizeof(loc) > sizeof(long)) {
+ printf("loc=%llx", loc);
+ } else {
+ printf("loc=%lx", (long)loc);
+ }
+ printf(", buf=%lx, len=%ld, i=%d, errno=%d\n", (long)buf,
+ (long)len, i, errno);
+ return; /*exit(1); */
+ }
#endif
}
#endif /* AFS_KDUMP_LIB */
* the macro RDSYMBOLS
*/
-rdsymbols() {
+void
+rdsymbols(void)
+{
- FILE *fp;
- Elf *efd;
- Elf_Scn *cn = NULL;
+ FILE *fp;
+ Elf *efd;
+ Elf_Scn *cn = NULL;
#ifdef _LP64
- Elf64_Shdr *shdr;
- Elf64_Sym *stbl, *p1, *p2;
- Elf64_Shdr * ( * elf_getshdr)(Elf_Scn *) = elf64_getshdr;
+ Elf64_Shdr *shdr;
+ Elf64_Sym *stbl, *p1, *p2;
+ Elf64_Shdr *(*elf_getshdr) (Elf_Scn *) = elf64_getshdr;
#else
Elf32_Shdr *shdr;
- Elf32_Sym *stbl, *p1, *p2;
- Elf32_Shdr * ( * elf_getshdr)(Elf_Scn *) = elf32_getshdr;
+ Elf32_Sym *stbl, *p1, *p2;
+ Elf32_Shdr *(*elf_getshdr) (Elf_Scn *) = elf32_getshdr;
#endif
- Elf_Data *dp = NULL, *sdp = NULL;
+ Elf_Data *dp = NULL, *sdp = NULL;
- int nsyms, i, fd;
+ int nsyms, i, fd;
if (!(fp = fopen(obj, "r"))) {
- printf("Can't open %s (%d)\n", core, errno);
- exit(1);
+ printf("Can't open %s (%d)\n", core, errno);
+ exit(1);
}
-
+
fd = fileno(fp);
lseek(fd, 0L, 0);
if ((efd = elf_begin(fd, ELF_C_READ, 0)) == NULL) {
}
while (cn = elf_nextscn(efd, cn)) {
if ((shdr = elf_getshdr(cn)) == NULL) {
- elf_end(efd);
+ elf_end(efd);
printf("Can't read section header (%d)\n", errno);
exit(1);
}
if (shdr->sh_type == SHT_SYMTAB)
break;
- }
+ }
dp = elf_getdata(cn, dp);
- p1 = stbl = (void *) dp->d_buf;
+ p1 = stbl = (void *)dp->d_buf;
nsyms = dp->d_size / sizeof(*stbl);
cn = elf_getscn(efd, shdr->sh_link);
sdp = elf_getdata(cn, sdp);
#endif /** AFS_SUN5_ENV **/
-int opencore(core)
- char *core;
+int
+opencore(char *core)
{
#ifdef AFS_KDUMP_LIB
return 0;
#endif
if ((kd = kvm_open(obj, core, NULL, O_RDONLY, "crash")) == NULL) {
- printf("Can't open kvm - core file %s\n", core);
+ printf("Can't open kvm - core file %s\n", core);
exit(1);
}
-
#ifndef AFS_SUN5_ENV
- } else
+ } else
#endif
#ifdef AFS_SUN5_ENV
- rdsymbols();
+ rdsymbols();
#endif
#endif /* sparc */
- {
- if ((fd = open(core, O_RDONLY)) < 0) {
- perror(core);
- exit(1);
+ {
+ if ((fd = open(core, O_RDONLY)) < 0) {
+ perror(core);
+ exit(1);
+ }
+ return fd;
}
- return fd;
- }
#endif /* AFS_KDUMP_LIB */
}
-void print_exporter(kmem, exporter, ptr, pnt)
- int kmem, pnt;
- struct afs_exporter *exporter, *ptr;
+void
+print_exporter(int kmem, struct afs_exporter *exporter,
+ struct afs_exporter *ptr, int pnt)
{
if (pnt) {
- printf("\tstates=%x, type=%x, *data=%lx\n",
- exporter->exp_states, exporter->exp_type, exporter->exp_data);
- printf("\texp_stats (calls=%d, rejectedcalls=%d, nopag=%d, invalidpag=%d)\n",
- exporter->exp_stats.calls, exporter->exp_stats.rejectedcalls,
- exporter->exp_stats.nopag, exporter->exp_stats.invalidpag);
+ printf("\tstates=%x, type=%x, *data=%lx\n", exporter->exp_states,
+ exporter->exp_type, exporter->exp_data);
+ printf
+ ("\texp_stats (calls=%d, rejectedcalls=%d, nopag=%d, invalidpag=%d)\n",
+ exporter->exp_stats.calls, exporter->exp_stats.rejectedcalls,
+ exporter->exp_stats.nopag, exporter->exp_stats.invalidpag);
}
}
-void print_nfsclient(kmem, ep, ptr, pnt)
- int kmem, pnt;
- struct nfsclientpag *ep, *ptr;
+void
+print_nfsclient(int kmem, struct nfsclientpag *ep,
+ struct nfsclientpag *ptr, int pnt)
{
char sysname[100];
+ int count;
- if (ep->sysname) {
- kread(kmem, (off_t) ep->sysname, sysname, (KDUMP_SIZE_T)30);
- Sum_nfssysnames += MAXSYSNAME;
- }
- if (pnt) printf("%lx: uid=%d, host=%x, pag=%x, @sys=%s, lastt=%d, ref=%d\n",
- ptr, ep->uid, ep->host , ep->pag, (ep->sysname ? sysname : "nil"),
- ep->lastcall, ep->refCount);
+ if (pnt)
+ printf("%lx: uid=%d, host=%x, pag=%x, lastt=%d, ref=%d count=%d\n",
+ ptr, ep->uid, ep->host, ep->pag,
+ ep->lastcall, ep->refCount, ep->sysnamecount);
+
+ for(count = 0; count < ep->sysnamecount; count++){
+ kread(kmem, (off_t) ep->sysname[count], sysname, (KDUMP_SIZE_T) 30);
+ printf(" %lx: @sys[%d]=%s\n",
+ ep->sysname[count], count, sysname);
+ Sum_nfssysnames += MAXSYSNAME;
+ }
}
#if defined(AFS_SUN5_ENV)
-pmutex(sp, mp)
-char *sp;
-kmutex_t *mp;
+void
+pmutex(char *sp, kmutex_t *mp)
{
-#ifdef AFS_SUN54_ENV
-
-#else
- struct stat_mutex *smp = (struct stat_mutex *)mp;
-
- printf("%s mutex: %x %x\n", sp, smp->m_stats_lock, smp->m_type);
-#endif
}
#endif
-void print_unixuser(kmem, uep, ptr, pnt)
- int kmem, pnt;
- struct unixuser *uep, *ptr;
+void
+print_unixuser(int kmem, struct unixuser *uep,
+ struct unixuser *ptr, int pnt)
{
Sum_userstp += uep->stLen;
if (pnt) {
- printf("%lx: uid=x%x, cell=%x, vid=%d, refc=%d, states=%x, tokTime=%d, tikLen=%d\n",
- ptr, uep->uid, uep->cell, uep->vid, uep->refCount, uep->states,
- uep->tokenTime, uep->stLen);
- printf("\tstp=%lx, clearTok[Han=x%x, x<%x,%x,%x,%x,%x,%x,%x,%x>, vid=%d, Bt=%d, Et=%d], exporter=%lx\n",
- uep->stp, uep->ct.AuthHandle,
- uep->ct.HandShakeKey[0], uep->ct.HandShakeKey[1], uep->ct.HandShakeKey[2],
- uep->ct.HandShakeKey[3], uep->ct.HandShakeKey[4], uep->ct.HandShakeKey[5],
- uep->ct.HandShakeKey[6], uep->ct.HandShakeKey[7], uep->ct.ViceId,
- uep->ct.BeginTimestamp, uep->ct.EndTimestamp, uep->exporter);
+ printf
+ ("%lx: uid=x%x, cell=%x, vid=%d, refc=%d, states=%x, tokTime=%d, tikLen=%d\n",
+ ptr, uep->uid, uep->cell, uep->vid, uep->refCount, uep->states,
+ uep->tokenTime, uep->stLen);
+ printf
+ ("\tstp=%lx, clearTok[Han=x%x, x<%x,%x,%x,%x,%x,%x,%x,%x>, vid=%d, Bt=%d, Et=%d], exporter=%lx\n",
+ uep->stp, uep->ct.AuthHandle, uep->ct.HandShakeKey[0],
+ uep->ct.HandShakeKey[1], uep->ct.HandShakeKey[2],
+ uep->ct.HandShakeKey[3], uep->ct.HandShakeKey[4],
+ uep->ct.HandShakeKey[5], uep->ct.HandShakeKey[6],
+ uep->ct.HandShakeKey[7], uep->ct.ViceId, uep->ct.BeginTimestamp,
+ uep->ct.EndTimestamp, uep->exporter);
}
}
-void print_cell(kmem, clep, ptr, pnt)
- int kmem, pnt;
- struct cell *clep, *ptr;
+void
+print_cell(int kmem, struct cell *clep, struct cell *ptr, int pnt)
{
int i;
char cellName[100];
struct in_addr in;
- kread(kmem, (off_t) clep->cellName, cellName, (KDUMP_SIZE_T)40);
+ kread(kmem, (off_t) clep->cellName, cellName, (KDUMP_SIZE_T) 40);
cellName[40] = 0;
- Sum_cellnames += strlen(cellName)+1;
+ Sum_cellnames += strlen(cellName) + 1;
if (pnt) {
- printf("%lx: cell=%s, cellname=%s, states=%x, cindex=%d fsport=%d vlport=%d\n", ptr,
- PrintIPAddr(clep->cell), cellName, clep->states, clep->cellIndex,
- clep->fsport, clep->vlport);
+ printf
+ ("%lx: cellname=%s, states=%x, cnum=%d, cindex=%d fsport=%d vlport=%d timeout=%d cnamep=%x\n",
+ ptr, cellName, clep->states, clep->cellNum, clep->cellIndex,
+ clep->fsport, clep->vlport, clep->timeout, clep->cnamep);
#ifdef AFS33
if (clep->lcellp)
printf("\tlinked cellp %lx\n", clep->lcellp);
#endif
printf("\tCell's servers: ");
- for (i=0; i<MAXCELLHOSTS; i++) {
- if (pretty && (clep->cellHosts[i] == 0)) break;
+ for (i = 0; i < AFS_MAXCELLHOSTS; i++) {
+ if (pretty && (clep->cellHosts[i] == 0))
+ break;
printf("[%lx] ", clep->cellHosts[i]);
}
printf("\n");
}
-void print_server(kmem, sep, ptr, conns, pnt)
- int kmem, conns, pnt;
- struct server *sep, *ptr;
+void
+print_server(int kmem, struct server *sep, struct server *ptr, int conns,
+ int pnt)
{
struct srvAddr sa, *sap = &sa, *sap1;
- int j, mh=0, cnt;
+ int j, mh = 0, cnt;
if (conns != 2 && pnt) {
- printf("%lx: cell=%lx, addr=%lx, flags=0x%x, actTime=%x, lastDownS=%x, numDownIn=%d, sumofDownt=%d\n",
- ptr, sep->cell, sep->addr, sep->flags,
- sep->activationTime, sep->lastDowntimeStart, sep->numDowntimeIncidents,
- sep->sumOfDowntimes);
+ printf
+ ("%lx: cell=%lx, addr=%lx, flags=0x%x, actTime=%x, lastDownS=%x, numDownIn=%d, sumofDownt=%d\n",
+ ptr, sep->cell, sep->addr, sep->flags, sep->activationTime,
+ sep->lastDowntimeStart, sep->numDowntimeIncidents,
+ sep->sumOfDowntimes);
if (sep->flags & SRVR_MULTIHOMED) {
if (pnt) {
- printf("\tuuid=[%x,%x,%x,%x,%x,%x,%x,%x,%x,%x,%x] addr_uniquifier=%x\n",
- sep->sr_uuid.time_low, sep->sr_uuid.time_mid, sep->sr_uuid.time_hi_and_version,
- sep->sr_uuid.clock_seq_hi_and_reserved, sep->sr_uuid.clock_seq_low, sep->sr_uuid.node[0],
- sep->sr_uuid.node[1], sep->sr_uuid.node[2], sep->sr_uuid.node[3], sep->sr_uuid.node[4],
- sep->sr_uuid.node[5], sep->sr_addr_uniquifier);
+ printf
+ ("\tuuid=[%x,%x,%x,%x,%x,%x,%x,%x,%x,%x,%x] addr_uniquifier=%x\n",
+ sep->sr_uuid.time_low, sep->sr_uuid.time_mid,
+ sep->sr_uuid.time_hi_and_version,
+ sep->sr_uuid.clock_seq_hi_and_reserved,
+ sep->sr_uuid.clock_seq_low, sep->sr_uuid.node[0],
+ sep->sr_uuid.node[1], sep->sr_uuid.node[2],
+ sep->sr_uuid.node[3], sep->sr_uuid.node[4],
+ sep->sr_uuid.node[5], sep->sr_addr_uniquifier);
}
mh = 1;
}
- for (j=0, cnt=1, sap1 = sep->addr; sap1; sap1 = sap->next_sa, j++, cnt++) {
- kread(kmem, (off_t)sap1, (char *)sap, sizeof(*sap));
+ for (j = 0, cnt = 1, sap1 = sep->addr; sap1;
+ sap1 = sap->next_sa, j++, cnt++) {
+ kread(kmem, (off_t) sap1, (char *)sap, sizeof(*sap));
if (pnt) {
- if (mh) {
- printf("\t #%d ip-addr(%lx): [sa_ip=%s, sa_port=%d, sa_iprank=%d, sa_flags=%x, conns=%lx, server=%lx, next_bkt=%lx]\n",
- cnt, sap1, PrintIPAddr(sap->sa_ip), sap->sa_portal,
- sap->sa_iprank, sap->sa_flags, sap->conns,
- sap->server, sap->next_bkt);
+ if (mh) {
+ printf
+ ("\t #%d ip-addr(%lx): [sa_ip=%s, sa_port=%d, sa_iprank=%d, sa_flags=%x, conns=%lx, server=%lx, next_bkt=%lx]\n",
+ cnt, sap1, PrintIPAddr(sap->sa_ip), sap->sa_portal,
+ sap->sa_iprank, sap->sa_flags, sap->conns,
+ sap->server, sap->next_bkt);
} else {
- printf("\t[sa_ip=%s, sa_port=%d, sa_iprank=%d, sa_flags=%x, conns=%lx, server=%lx, nexth=%lx]\n",
- PrintIPAddr(sap->sa_ip), sap->sa_portal, sap->sa_iprank,
- sap->sa_flags, sap->conns, sap->server,
- sap->next_bkt);
+ printf
+ ("\t[sa_ip=%s, sa_port=%d, sa_iprank=%d, sa_flags=%x, conns=%lx, server=%lx, nexth=%lx]\n",
+ PrintIPAddr(sap->sa_ip), sap->sa_portal,
+ sap->sa_iprank, sap->sa_flags, sap->conns,
+ sap->server, sap->next_bkt);
}
}
}
struct afs_cbr cba, *cbsap = &cba, *cbsap1;
printf(" Callbacks to be returned:\n");
- for (j=0, cbsap1 = sep->cbrs; cbsap1; cbsap1 = cbsap->next, j++) {
- kread(kmem, (off_t)cbsap1, (char *)cbsap, sizeof(*cbsap));
+ for (j = 0, cbsap1 = sep->cbrs; cbsap1; cbsap1 = cbsap->next, j++) {
+ kread(kmem, (off_t) cbsap1, (char *)cbsap, sizeof(*cbsap));
printf(" #%2d) %lx [v=%d, n=%d, u=%d]\n", j, cbsap1,
cbsap->fid.Volume, cbsap->fid.Vnode, cbsap->fid.Unique);
}
}
if (conns) {
- for (j=0, sap1 = sep->addr; sap1; sap1 = sap->next_sa, j++) {
- kread(kmem, (off_t)sap1, (char *)sap, sizeof(*sap));
+ for (j = 0, sap1 = sep->addr; sap1; sap1 = sap->next_sa, j++) {
+ kread(kmem, (off_t) sap1, (char *)sap, sizeof(*sap));
print_conns(kmem, sap1, sap->conns, conns, pnt);
}
- } else
- if (pnt) printf("\n");
+ } else if (pnt)
+ printf("\n");
}
-void print_conns(kmem, srv, conns, Con, pnt)
- int kmem, Con, pnt;
- struct srvAddr *srv;
- struct conn *conns;
+void
+print_conns(int kmem, struct srvAddr *srv, struct afs_conn *conns, int Con,
+ int pnt)
{
- struct conn *cep, ce, *centry= &ce;
+ struct afs_conn *cep, ce, *centry = &ce;
int i = 1;
- cep = (struct conn *)conns;
+ cep = (struct afs_conn *)conns;
if (pnt && Con != 2) {
if (cep)
printf("\tRPC connections for server %lx:\n", srv);
for (; cep; cep = centry->next, Nconns++, i++) {
if (pnt && Con != 2)
printf("\t #%d> ", i);
- kread(kmem, (off_t)cep, (char *) centry, sizeof *centry);
+ kread(kmem, (off_t) cep, (char *)centry, sizeof *centry);
print_conn(kmem, centry, cep, pnt);
}
}
-void print_conn(kmem, conns, ptr, pnt)
- int kmem, pnt;
- struct conn *conns, *ptr;
+void
+print_conn(int kmem, struct afs_conn *conns, struct afs_conn *ptr, int pnt)
{
- if (!pnt) return;
+ if (!pnt)
+ return;
printf("%lx: user=%lx, rx=%lx, srvr=%lx, ref=%d, port=%d, forceC=%d\n",
- ptr, conns->user, conns->id, conns->srvr, conns->refCount,
+ ptr, conns->user, conns->id, conns->srvr, conns->refCount,
conns->port, conns->forceConnectFS);
}
-void print_volume(kmem, vep, ptr, pnt)
- int kmem, pnt;
- struct volume *vep, *ptr;
+void
+print_volume(int kmem, struct volume *vep, struct volume *ptr, int pnt)
{
int i;
afs_int32 *loc;
- loc = (afs_int32 *)&vep->lock;
- if (vep->name) {
- kread(kmem, (off_t) vep->name, Volname, (KDUMP_SIZE_T)40);
- Sum_volnames += strlen(Volname)+1;
+ loc = (afs_int32 *) & vep->lock;
+ if (vep->name) {
+ kread(kmem, (off_t) vep->name, Volname, (KDUMP_SIZE_T) 40);
+ Sum_volnames += strlen(Volname) + 1;
}
- if (!pnt) return;
- printf("%lx: cell=%x, vol=%d, name=%s, roVol=%d, backVol=%d\n",
- ptr, vep->cell, vep->volume, (vep->name ? Volname:"nil"), vep->roVol, vep->backVol);
+ if (!pnt)
+ return;
+ printf("%lx: cell=%x, vol=%d, name=%s, roVol=%d, backVol=%d\n", ptr,
+ vep->cell, vep->volume, (vep->name ? Volname : "nil"), vep->roVol,
+ vep->backVol);
#ifdef AFS33
- printf("\trwVol=%d, AcTime=%d, copyDate=%d, expTime=%d, vtix=%d, refC=%d, states=%x\n",
- vep->rwVol, vep->accessTime, vep->copyDate, vep->expireTime,
- vep->vtix, vep->refCount, vep->states);
+ printf
+ ("\trwVol=%d, setupTime=%d, copyDate=%d, expTime=%d, vtix=%d, refC=%d, states=%x\n",
+ vep->rwVol, vep->setupTime, vep->copyDate, vep->expireTime,
+ vep->vtix, vep->refCount, vep->states);
#else
- printf("\trwVol=%d, AcTime=%d, copyDate=%d, vtix=%d, refC=%d, states=%x\n",
- vep->rwVol, vep->accessTime, vep->copyDate, vep->vtix, vep->refCount, vep->states);
+ printf
+ ("\trwVol=%d, setupTime=%d, copyDate=%d, vtix=%d, refC=%d, states=%x\n",
+ vep->rwVol, vep->setupTime, vep->copyDate, vep->vtix, vep->refCount,
+ vep->states);
#endif
printf("\tVolume's statuses: ");
- for (i=0; i < MAXHOSTS && vep->serverHost[i]; i++)
+ for (i = 0; i < AFS_MAXHOSTS && vep->serverHost[i]; i++)
printf("[%d] ", vep->status[i]);
printf("\n");
printf("\tVolume's servers: ");
- for (i=0; i < MAXHOSTS && vep->serverHost[i]; i++)
+ for (i = 0; i < AFS_MAXHOSTS && vep->serverHost[i]; i++)
printf("[%lx] ", vep->serverHost[i]);
printf("\n");
#ifdef AFS33
if (vep->rootVnode)
- printf("\trootVnode = %d, rootUnique = %d\n", vep->rootVnode, vep->rootUnique);
+ printf("\trootVnode = %d, rootUnique = %d\n", vep->rootVnode,
+ vep->rootUnique);
#endif
printf("\tlock=0x%x\n", *loc);
}
-void print_venusfid(string, vid)
- char *string;
- struct VenusFid *vid;
+void
+print_venusfid(char *string, struct VenusFid *vid)
{
- printf("%s(c=%x, v=%d, n=%d, u=%d)",
- string, vid->Cell, vid->Fid.Volume, vid->Fid.Vnode, vid->Fid.Unique);
+ printf("%s(c=%x, v=%d, n=%d, u=%d)", string, vid->Cell, vid->Fid.Volume,
+ vid->Fid.Vnode, vid->Fid.Unique);
}
-void print_vnode(kmem, vep, ptr, pnt)
- int kmem, pnt;
- struct vnode *vep, *ptr;
+void
+print_vnode(int kmem, struct vnode *vep, struct vnode *ptr, int pnt)
{
#ifdef AFS_AIX_ENV
struct gnode gnode;
struct gnode *save_gnode;
#endif /* AFS_AIX_ENV */
- if (!pnt) return;
+ if (!pnt)
+ return;
printf("\n");
#ifdef AFS_AIX_ENV
save_gnode = vep->v_gnode;
#endif /* AFS_AIX_ENV */
#ifdef AFS_SUN5_ENV
- printf("%x: v_type=%d, v_flag=%d, v_count=%d, \n",
- ptr, vep->v_type, vep->v_flag, vep->v_count);
- printf("\tv_v_stream=%x, v_pages=0x%x, v_mountdhere=%d, v_rdev=%d, v_vfsp=0x%x, v_filocks=0x%x\n",
- vep->v_stream, vep->v_pages, vep->v_vfsmountedhere, vep->v_rdev, vep->v_vfsp, vep->v_filocks);
+ printf("%x: v_type=%d, v_flag=%d, v_count=%d, \n", ptr, vep->v_type,
+ vep->v_flag, vep->v_count);
+ printf
+ ("\tv_v_stream=%x, v_pages=0x%x, v_mountdhere=%d, v_rdev=%d, v_vfsp=0x%x, v_filocks=0x%x\n",
+ vep->v_stream, vep->v_pages, vep->v_vfsmountedhere, vep->v_rdev,
+ vep->v_vfsp, vep->v_filocks);
pmutex("\tVnode", &vep->v_lock);
printf("\tCond v: 0x%x\n", vep->v_cv);
#endif
#endif
#ifdef AFS_LINUX22_ENV
/* Print out the stat cache and other inode info. */
- printf("\ti_ino=%d, i_mode=%x, i_nlink=%d, i_uid=%d, i_gid=%d, i_size=%d\n",
- vep->i_ino, vep->i_mode, vep->i_nlink, vep->i_uid, vep->i_gid,
- vep->i_size);
- printf("\ti_atime=%u, i_mtime=%u, i_ctime=%u, i_version=%u, i_nrpages=%u\n",
- vep->i_atime, vep->i_mtime, vep->i_ctime, vep->i_version,
- vep->i_nrpages);
- printf("\ti_op=0x%x, i_dev=0x%x, i_rdev=0x%x, i_sb=0x%x\n",
- vep->i_op, vep->i_dev, vep->i_rdev, vep->i_sb);
+ printf
+ ("\ti_ino=%d, i_mode=%x, i_nlink=%d, i_uid=%d, i_gid=%d, i_size=%d\n",
+ vep->i_ino, vep->i_mode, vep->i_nlink, vep->i_uid, vep->i_gid,
+ vep->i_size);
#ifdef AFS_LINUX24_ENV
- printf("\ti_sem: count=%d, sleepers=%d, wait=0x%x\n",
- vep->i_sem.count, vep->i_sem.sleepers, vep->i_sem.wait);
+ printf
+ ("\ti_atime=%u, i_mtime=%u, i_ctime=%u, i_version=%u, i_nrpages=%u\n",
+ vep->i_atime, vep->i_mtime, vep->i_ctime, vep->i_version,
+ vep->i_data.nrpages);
#else
- printf("\ti_sem: count=%d, waking=%d, wait=0x%x\n",
- vep->i_sem.count, vep->i_sem.waking, vep->i_sem.wait);
+ printf
+ ("\ti_atime=%u, i_mtime=%u, i_ctime=%u, i_version=%u, i_nrpages=%u\n",
+ vep->i_atime, vep->i_mtime, vep->i_ctime, vep->i_version,
+ vep->i_nrpages);
#endif
+#ifdef AFS_LINUX26_ENV
+ printf("\ti_op=0x%x, i_rdev=0x%x, i_sb=0x%x\n", vep->i_op,
+ vep->i_rdev, vep->i_sb);
+#else /* AFS_LINUX26_ENV */
+ printf("\ti_op=0x%x, i_dev=0x%x, i_rdev=0x%x, i_sb=0x%x\n", vep->i_op,
+ vep->i_dev, vep->i_rdev, vep->i_sb);
+#endif /* AFS_LINUX26_ENV */
+#ifdef AFS_LINUX24_ENV
+ printf("\ti_sem: count=%d, sleepers=%d, wait=0x%x\n", vep->i_sem.count,
+ vep->i_sem.sleepers, vep->i_sem.wait);
+#else
+ printf("\ti_sem: count=%d, waking=%d, wait=0x%x\n", vep->i_sem.count,
+ vep->i_sem.waking, vep->i_sem.wait);
+#endif
+#ifdef AFS_LINUX26_ENV
+ printf("\ti_hash=0x%x:0x%x, i_list=0x%x:0x%x, i_dentry=0x%x:0x%x\n",
+ vep->i_hash.pprev, vep->i_hash.next, vep->i_list.prev,
+ vep->i_list.next, vep->i_dentry.prev, vep->i_dentry.next);
+#else /* AFS_LINUX26_ENV */
printf("\ti_hash=0x%x:0x%x, i_list=0x%x:0x%x, i_dentry=0x%x:0x%x\n",
- vep->i_hash.prev, vep->i_hash.next,
- vep->i_list.prev, vep->i_list.next,
- vep->i_dentry.prev, vep->i_dentry.next);
+ vep->i_hash.prev, vep->i_hash.next, vep->i_list.prev,
+ vep->i_list.next, vep->i_dentry.prev, vep->i_dentry.next);
+#endif /* AFS_LINUX26_ENV */
#endif /* AFS_LINUX22_ENV */
}
-void print_vcache(kmem, vep, ptr, pnt)
- int kmem, pnt;
- struct vcache *vep, *ptr;
+void
+print_vcache(int kmem, struct vcache *vep, struct vcache *ptr, int pnt)
{
- long *loc, j=0;
+ long *loc, j = 0;
char *cloc;
struct VenusFid vid;
struct axscache acc, *accp = &acc, *acp;
char linkchar;
if (vep->mvid) {
- kread(kmem, (off_t) vep->mvid, (char *)&vid, sizeof(struct VenusFid));
+ kread(kmem, (off_t) vep->mvid, (char *)&vid, sizeof(struct VenusFid));
Sum_vcachemvids++;
}
- if (vep->linkData)
+ if (vep->linkData)
Sum_vcachelinkData++;
loc = (long *)&vep->lock;
- if (pnt) {
- if (!Dvnodes) printf("\n");
+ if (pnt) {
+ if (!Dvnodes)
+ printf("\n");
#ifdef AFS33
printf("%lx: refC=%d, pv=%d, pu=%d, flushDv=%d.%d, mapDV=%d.%d, ",
- ptr, vep->vrefCount, vep->parentVnode, vep->parentUnique,
- vep->flushDV.high, vep->flushDV.low,
- vep->mapDV.high, vep->mapDV.low);
+ ptr, VREFCOUNT(vep), vep->parentVnode, vep->parentUnique,
+ vep->flushDV.high, vep->flushDV.low, vep->mapDV.high,
+ vep->mapDV.low);
+#ifdef AFS_64BIT_CLIENT
+ printf
+ ("truncPos=(0x%x, 0x%x),\n\tcallb=x%lx, cbE=%d, opens=%d, XoW=%d, ",
+ (int)(vep->truncPos >> 32), (int)(vep->truncPos & 0xffffffff),
+ vep->callback, vep->cbExpires, vep->opens, vep->execsOrWriters);
+#else /* AFS_64BIT_CLIENT */
printf("truncPos=%d,\n\tcallb=x%lx, cbE=%d, opens=%d, XoW=%d, ",
- vep->truncPos, vep->callback, vep->cbExpires, vep->opens,
+ vep->truncPos, vep->callback, vep->cbExpires, vep->opens,
vep->execsOrWriters);
- printf("flcnt=%d, mvstat=%d\n",
- vep->flockCount, vep->mvstat);
+#endif /* AFS_64BIT_CLIENT */
+ printf("flcnt=%d, mvstat=%d\n", vep->flockCount, vep->mvstat);
printf("\tstates=x%x, ", vep->states);
#ifdef AFS_SUN5_ENV
printf("vstates=x%x, ", vep->vstates);
-#endif /* AFS_SUN5_ENV */
- printf("dchint=%x, anyA=0x%x\n", vep->h1.dchint, vep->anyAccess);
+#endif /* AFS_SUN5_ENV */
+ printf("dchint=%x, anyA=0x%x\n", vep->dchint, vep->anyAccess);
+#ifdef AFS_64BIT_CLIENT
+ printf
+ ("\tmstat[len=(0x%x, 0x%x), DV=%d.%d, Date=%d, Owner=%d, Group=%d, Mode=0%o, linkc=%d]\n",
+ (int)(vep->m.Length >> 32), (int)(vep->m.Length & 0xffffffff),
+ vep->m.DataVersion.high, vep->m.DataVersion.low, vep->m.Date,
+ vep->m.Owner, vep->m.Group, vep->m.Mode, vep->m.LinkCount);
+#else /* AFS_64BIT_CLIENT */
printf("\tquick[dc=%x, stamp=%x, f=%x, min=%d, len=%d]\n",
vep->quick.dc, vep->quick.stamp, vep->quick.f,
vep->quick.minLoc, vep->quick.len);
- printf("\tmstat[len=%d, DV=%d.%d, Date=%d, Owner=%d, Group=%d, Mode=0%o, linkc=%d]\n",
- vep->m.Length, vep->m.DataVersion.high,
- vep->m.DataVersion.low, vep->m.Date, vep->m.Owner,
- vep->m.Group, vep->m.Mode, vep->m.LinkCount);
+ printf
+ ("\tmstat[len=%d, DV=%d.%d, Date=%d, Owner=%d, Group=%d, Mode=0%o, linkc=%d]\n",
+ vep->m.Length, vep->m.DataVersion.high, vep->m.DataVersion.low,
+ vep->m.Date, vep->m.Owner, vep->m.Group, vep->m.Mode,
+ vep->m.LinkCount);
+#endif /* AFS_64BIT_CLIENT */
#else /* AFS33 */
- printf("%x: refC=%d, pv=%d, pu=%d, flushDv=%d, mapDV=%d, truncPos=%d\n",
- ptr, vep->vrefCount, vep->parentVnode, vep->parentUnique, vep->flushDV,
- vep->mapDV, vep->truncPos);
+ printf
+ ("%x: refC=%d, pv=%d, pu=%d, flushDv=%d, mapDV=%d, truncPos=%d\n",
+ ptr, vep->vrefCount, vep->parentVnode, vep->parentUnique,
+ vep->flushDV, vep->mapDV, vep->truncPos);
printf("\tcallb=x%x, cbE=%d, opens=%d, XoW=%d, flcnt=%d, mvstat=%d\n",
vep->callback, vep->cbExpires, vep->opens, vep->execsOrWriters,
vep->flockCount, vep->mvstat);
- printf("\tstates=x%x, dchint=%x, anyA=0x%x\n",
- vep->states, vep->h1.dchint, vep->anyAccess);
- printf("\tmstat[len=%d, DV=%d, Date=%d, Owner=%d, Group=%d, Mode=%d, linkc=%d]\n",
- vep->m.Length, vep->m.DataVersion, vep->m.Date, vep->m.Owner,
- vep->m.Group, vep->m.Mode, vep->m.LinkCount);
+ printf("\tstates=x%x, dchint=%x, anyA=0x%x\n", vep->states,
+ vep->h1.dchint, vep->anyAccess);
+ printf
+ ("\tmstat[len=%d, DV=%d, Date=%d, Owner=%d, Group=%d, Mode=%d, linkc=%d]\n",
+ vep->m.Length, vep->m.DataVersion, vep->m.Date, vep->m.Owner,
+ vep->m.Group, vep->m.Mode, vep->m.LinkCount);
#endif /* AFS33 */
#ifdef AFS_AIX32_ENV
- loc = (afs_int32 *)&vep->pvmlock;
- printf("\tpvmlock=x%x, segid=%X, credp=%lx\n", *loc, vep->segid, vep->credp);
+ loc = (afs_int32 *) & vep->pvmlock;
+ printf("\tpvmlock=x%x, segid=%X, credp=%lx\n", *loc, vep->segid,
+ vep->credp);
#endif
- printf("\tlock [wait=%x excl=%x readers=%x #waiting=%x last_reader=%d writer=%d src=%d]\n",
- vep->lock.wait_states, vep->lock.excl_locked, vep->lock.readers_reading,
- vep->lock.num_waiting, vep->lock.pid_last_reader, vep->lock.pid_writer,
- vep->lock.src_indicator);
- print_venusfid("\tfid", &vep->fid);
- if (vep->mvid) {
- printf(" ");
- print_venusfid("mvid", &vid);
- }
- printf("\n");
+ printf
+ ("\tlock [wait=%x excl=%x readers=%x #waiting=%x last_reader=%d writer=%d src=%d]\n",
+ vep->lock.wait_states, vep->lock.excl_locked,
+ vep->lock.readers_reading, vep->lock.num_waiting,
+ vep->lock.pid_last_reader, vep->lock.pid_writer,
+ vep->lock.src_indicator);
+ print_venusfid("\tfid", &vep->fid);
+ if (vep->mvid) {
+ printf(" ");
+ print_venusfid("mvid", &vid);
+ }
+ printf("\n");
}
if (vep->Access) {
- if (pnt) printf("\tAccess Link list: %x\n", vep->Access);
- for (j=0, acp = vep->Access; acp; acp = accp->next, j++) {
+ if (pnt)
+ printf("\tAccess Link list: %x\n", vep->Access);
+ for (j = 0, acp = vep->Access; acp; acp = accp->next, j++) {
kread(kmem, (off_t) acp, (char *)accp, sizeof(*accp));
Sum_vcacheacc++;
- if (pnt) printf("\t %lx: %d) uid=0x%x, access=0x%x, next=%lx\n", acp, j, accp->uid, accp->axess, accp->next);
+ if (pnt)
+ printf("\t %lx: %d) uid=0x%x, access=0x%x, next=%lx\n", acp,
+ j, accp->uid, accp->axess, accp->next);
}
}
if (vep->slocks) {
- if (pnt) printf("\tLocking Link list: %lx\n", vep->slocks);
+ if (pnt)
+ printf("\tLocking Link list: %lx\n", vep->slocks);
}
#ifdef AFS33
- if (pnt) printf("\tCallbacks queue prev= %lx next= %lx\n",
- vep->callsort.prev, vep->callsort.next);
+ if (pnt)
+ printf("\tCallbacks queue prev= %lx next= %lx\n", vep->callsort.prev,
+ vep->callsort.next);
#endif
- printf("\tvlruq.prev=%lx, vlruq.next=%lx\n",
- vep->vlruq.prev, vep->vlruq.next);
+ printf("\tvlruq.prev=%lx, vlruq.next=%lx\n", vep->vlruq.prev,
+ vep->vlruq.next);
/* For defect 7733 - Print linkData field for symlinks */
if (pnt) {
- if (vep->linkData) {
- cloc = (char *)vep->linkData;
- printf("\tSymlink information = '");
- while(1) {
- kread(kmem, (off_t) cloc, &linkchar, (KDUMP_SIZE_T)1);
- cloc++;
- if (linkchar == '\0') {
- printf("'\n");
- break;
- } else {
- printf("%c", linkchar);
- }
+ if (vep->linkData) {
+ cloc = (char *)vep->linkData;
+ printf("\tSymlink information = '");
+ while (1) {
+ kread(kmem, (off_t) cloc, &linkchar, (KDUMP_SIZE_T) 1);
+ cloc++;
+ if (linkchar == '\0') {
+ printf("'\n");
+ break;
+ } else {
+ printf("%c", linkchar);
}
- }
+ }
+ }
}
#ifdef AFS_LINUX22_ENV
- printf("\tflushcnt=%d, mapcnt=%d\n", vep->flushcnt, vep->mapcnt);
+ printf("\tmapcnt=%d\n", vep->mapcnt);
#endif
}
-void print_dcache(kmem, dcp, dp, pnt)
- int kmem, pnt;
- struct dcache *dcp, *dp;
+void
+print_dcache(int kmem, struct dcache *dcp, struct dcache *dp, int pnt)
{
- if (!pnt) return;
+ if (!pnt)
+ return;
printf("%lx: ", dp);
print_venusfid(" fid", &dcp->f.fid);
- printf("refcnt=%d, flags=%x, validPos=%d\n",
- dcp->refCount, dcp->flags, dcp->validPos);
+ printf("refcnt=%d, dflags=%x, mflags=%x, validPos=%d\n", dcp->refCount,
+ dcp->dflags, dcp->mflags, dcp->validPos);
#ifdef AFS33
- printf("\tf.modtime=%d, f.versNo=%d.%d\n",
- dcp->f.modTime,
+ printf("\tf.modtime=%d, f.versNo=%d.%d\n", dcp->f.modTime,
dcp->f.versionNo.high, dcp->f.versionNo.low);
#else
printf("\tf.hvn=%d, f.hcn=%d, f.modtime=%d, f.versNo=%d\n",
dcp->f.hvNextp, dcp->f.hcNextp, dcp->f.modTime, dcp->f.versionNo);
#endif
#ifdef AFS_SGI62_ENV
- printf("\tf.chunk=%d, f.inode=%lld, f.chunkBytes=%d, f.states=%x, stamp=%x\n",
- dcp->f.chunk, dcp->f.inode, dcp->f.chunkBytes, dcp->f.states,
- dcp->stamp);
+ printf
+ ("\tf.chunk=%d, f.inode=%" AFS_INT64_FMT ", f.chunkBytes=%d, f.states=%x",
+ dcp->f.chunk, dcp->f.inode, dcp->f.chunkBytes, dcp->f.states);
#else
- printf("\tf.chunk=%d, f.inode=%d, f.chunkBytes=%d, f.states=%x, stamp=%x\n",
- dcp->f.chunk, dcp->f.inode, dcp->f.chunkBytes, dcp->f.states,
- dcp->stamp);
+ printf
+ ("\tf.chunk=%d, f.inode=%d, f.chunkBytes=%d, f.states=%x\n",
+ dcp->f.chunk, dcp->f.inode, dcp->f.chunkBytes, dcp->f.states);
#endif
- printf("\tlruq.prev=%lx, lruq.next=%lx, index=%d, ihint=%x\n",
- dcp->lruq.prev, dcp->lruq.next, dcp->index, dcp->ihint);
+ printf("\tlruq.prev=%lx, lruq.next=%lx, index=%d\n",
+ dcp->lruq.prev, dcp->lruq.next, dcp->index);
}
-void print_bkg(kmem)
- int kmem;
+void
+print_bkg(int kmem)
{
off_t symoff;
- struct brequest afs_brs[NBRS], ue,*uentry= &ue, *uep;
+ struct brequest afs_brs[NBRS], ue, *uentry = &ue, *uep;
afs_int32 count, i, j;
short scount;
printf("\n\nPrinting some background daemon info...\n\n");
- findsym ("afs_brsWaiters", &symoff);
- kread(kmem, symoff, (char *) &scount, sizeof scount);
+ findsym("afs_brsWaiters", &symoff);
+ kread(kmem, symoff, (char *)&scount, sizeof scount);
printf("Number of processes waiting for bkg daemon %d\n", scount);
- findsym ("afs_brsDaemons", &symoff);
- kread(kmem, symoff, (char *) &scount, sizeof scount);
+ findsym("afs_brsDaemons", &symoff);
+ kread(kmem, symoff, (char *)&scount, sizeof scount);
printf("Number of free bkg daemons %d\n", scount);
- findsym ("afs_brs", &symoff);
- kread(kmem, symoff, (char *) afs_brs, sizeof afs_brs);
- printf("Print the current bkg process table\n");
- for (i=0,j=0; i < NBRS; i++, j++) {
+ findsym("afs_brs", &symoff);
+ kread(kmem, symoff, (char *)afs_brs, sizeof afs_brs);
+ printf("Print the current bkg process table\n");
+ for (i = 0, j = 0; i < NBRS; i++, j++) {
/* kread(kmem, (off_t) afs_brs[i], (char *)uentry, sizeof *uentry);*/
uentry = &afs_brs[i];
- if (uentry->refCount == 0) break;
- printf("[%d] vcache=0x%lx, cred=0x%lx, code=%d, refCount=%d, opcode=%d, flags=%x [%lx, %lx, %lx, %lx]\n",
- i, uentry->vnode, uentry->cred, uentry->code, uentry->refCount, uentry->opcode, uentry->flags,
- uentry->parm[0], uentry->parm[1], uentry->parm[2], uentry->parm[3]);
+ if (uentry->refCount == 0)
+ break;
+ printf
+ ("[%d] vcache=0x%lx, cred=0x%lx, code=%d, refCount=%d, opcode=%d, flags=%x [%lx, %lx, %lx, %lx]\n",
+ i, uentry->vc, uentry->cred, uentry->code, uentry->refCount,
+ uentry->opcode, uentry->flags, uentry->size_parm[0],
+ uentry->size_parm[1], uentry->ptr_parm[0], uentry->ptr_parm[1]);
}
printf("... found %d active 'afs_brs' entries\n", j);
}
-void print_vlru(kmem)
- int kmem;
+void
+print_vlru(int kmem)
{
off_t symoff;
struct vcache Ve, *Ventry = &Ve, *Vep, *tvc;
struct afs_q VLRU, vlru, *vu = &vlru, *tq, *uq;
u_long vlru_addr, l1, l2, l3;
- afs_int32 count, i, j=0, maxvcount, vcount, nvnode;
+ afs_int32 count, i, j = 0, maxvcount, vcount, nvnode;
short scount;
printf("\n\nPrinting vcache VLRU info (oldest first)...\n\n");
- findsym( "afs_cacheStats", &symoff);
- kread(kmem, symoff, (char *) &maxvcount, sizeof maxvcount);
-#ifdef AFS_OSF_ENV
- findsym ("afs_maxvcount", &symoff);
- kread(kmem, symoff, (char *) &maxvcount, sizeof maxvcount);
- findsym ("afs_vcount", &symoff);
- kread(kmem, symoff, (char *) &vcount, sizeof vcount);
- findsym ("max_vnodes", &symoff);
- kread(kmem, symoff, (char *) &nvnode, sizeof nvnode);
- printf("max number of vcache entries = %d\n", maxvcount);
- printf("number of vcaches in use = %d\n", vcount);
- printf("total number of system vnode entries = %d\n", nvnode);
-#endif
- findsym ("VLRU", &symoff);
- kread(kmem, symoff, (char *) &VLRU, sizeof VLRU);
- vlru_addr = (u_long)symoff;
- for (tq = VLRU.prev; (u_long)tq != vlru_addr; tq = uq) {
+ findsym("afs_cacheStats", &symoff);
+ kread(kmem, symoff, (char *)&maxvcount, sizeof maxvcount);
+ findsym("VLRU", &symoff);
+ kread(kmem, symoff, (char *)&VLRU, sizeof VLRU);
+ vlru_addr = (u_long) symoff;
+ for (tq = VLRU.prev; (u_long) tq != vlru_addr; tq = uq) {
tvc = QTOV(tq);
- kread(kmem, (off_t)tq, (char *)vu, sizeof VLRU);
+ kread(kmem, (off_t) tq, (char *)vu, sizeof VLRU);
uq = vu->prev;
- kread(kmem, (off_t)tvc, (char *)Ventry, sizeof *Ventry);
+ kread(kmem, (off_t) tvc, (char *)Ventry, sizeof *Ventry);
print_vcache(kmem, Ventry, tvc, 1);
j++;
}
printf("... found %d active vcache entries in the VLRU\n", j);
}
-void print_dlru(kmem)
- int kmem;
+void
+print_dlru(int kmem)
{
off_t symoff;
struct dcache Ve, *Ventry = &Ve, *Vep, *tdc;
struct afs_q DLRU, dlru, *vu = &dlru, *tq, *uq;
u_long dlru_addr, l1, l2, l3;
- afs_int32 count, i, j=0, maxvcount, vcount, nvnode;
+ afs_int32 count, i, j = 0, maxvcount, vcount, nvnode;
short scount;
printf("\n\nPrinting vcache DLRU info...\n\n");
- findsym ("afs_DLRU", &symoff);
- kread(kmem, symoff, (char *) &DLRU, sizeof DLRU);
- dlru_addr = (u_long)symoff;
- for (tq = DLRU.prev; (u_long)tq != dlru_addr; tq = uq) {
- tdc = (struct dcache *) tq;
- kread(kmem, (off_t)tq, (char *)vu, sizeof DLRU);
+ findsym("afs_DLRU", &symoff);
+ kread(kmem, symoff, (char *)&DLRU, sizeof DLRU);
+ dlru_addr = (u_long) symoff;
+ for (tq = DLRU.prev; (u_long) tq != dlru_addr; tq = uq) {
+ tdc = (struct dcache *)tq;
+ kread(kmem, (off_t) tq, (char *)vu, sizeof DLRU);
uq = vu->prev;
- kread(kmem, (off_t)tdc, (char *)Ventry, sizeof *Ventry);
+ kread(kmem, (off_t) tdc, (char *)Ventry, sizeof *Ventry);
print_dcache(kmem, Ventry, tdc, 1);
j++;
}
printf("... found %d active dcache entries in the DLRU\n\n\n", j);
findsym("afs_freeDSList", &symoff);
- kread(kmem, symoff, (char *) &dlru_addr, sizeof dlru_addr);
+ kread(kmem, symoff, (char *)&dlru_addr, sizeof dlru_addr);
printf("\tfreeDSList link list starts at 0x%x\n", dlru_addr);
- j=0;
- for (tdc = (struct dcache *)dlru_addr; tdc; tdc = (struct dcache *)Ventry->lruq.next) {
- kread(kmem, (off_t)tdc, (char *)Ventry, sizeof *Ventry);
+ j = 0;
+ for (tdc = (struct dcache *)dlru_addr; tdc;
+ tdc = (struct dcache *)Ventry->lruq.next) {
+ kread(kmem, (off_t) tdc, (char *)Ventry, sizeof *Ventry);
print_dcache(kmem, Ventry, tdc, 1);
j++;
/* printf("%3d) %x\n", j, tdc);*/
printf("... found %d dcache entries in the freeDSList\n", j);
}
-int print_gcpags(pnt)
-int pnt;
+int
+print_gcpags(int pnt)
{
off_t symoff;
afs_int32 afs_gcpags;
afs_int32 afs_gcpags_procsize;
- if (pnt) printf("\n\nPrinting GCPAGS structures...\n");
+ if (pnt)
+ printf("\n\nPrinting GCPAGS structures...\n");
- findsym( "afs_gcpags", &symoff);
- kread(kmem, symoff, (char*)&afs_gcpags, sizeof afs_gcpags);
+ findsym("afs_gcpags", &symoff);
+ kread(kmem, symoff, (char *)&afs_gcpags, sizeof afs_gcpags);
- findsym( "afs_gcpags_procsize", &symoff);
- kread(kmem, symoff, (char*)&afs_gcpags_procsize, sizeof afs_gcpags_procsize);
+ findsym("afs_gcpags_procsize", &symoff);
+ kread(kmem, symoff, (char *)&afs_gcpags_procsize,
+ sizeof afs_gcpags_procsize);
printf("afs_gcpags=%d\n", afs_gcpags);
printf("afs_gcpags_procsize=%d\n", afs_gcpags_procsize);
#ifdef AFS_AIX_ENV
-#include <sys/syspest.h>/* to define the assert and ASSERT macros */
-#include <sys/timer.h> /* For the timer related defines */
-#include <sys/intr.h> /* for the serialization defines */
-#include <sys/malloc.h> /* for the parameters to xmalloc() */
-
-struct tos {
- struct tos *toprev; /* previous tos in callout table*/
- struct tos *tonext; /* next tos in callout table */
- struct trb *trb; /* this timer request block */
- afs_int32 type;
- long p1;
+#include <sys/syspest.h> /* to define the assert and ASSERT macros */
+#include <sys/timer.h> /* For the timer related defines */
+#include <sys/intr.h> /* for the serialization defines */
+#include <sys/malloc.h> /* for the parameters to xmalloc() */
+
+struct tos {
+ struct tos *toprev; /* previous tos in callout table */
+ struct tos *tonext; /* next tos in callout table */
+ struct trb *trb; /* this timer request block */
+ afs_int32 type;
+ long p1;
};
-struct callo {
- int ncallo; /* number of callout table elements */
- struct tos *head; /* callout table head element */
+struct callo {
+ int ncallo; /* number of callout table elements */
+ struct tos *head; /* callout table head element */
};
#endif
-void print_callout(kmem)
- int kmem;
+void
+print_callout(int kmem)
{
off_t symoff;
#ifndef AFS_AIX_ENV
struct callo Co, *Coe = &Co, *Cop;
struct tos To, *Toe = &To, *tos;
struct trb Trb, *Trbe = &Trb, *trb;
- register int i =0;
+ int i = 0;
printf("\n\nPrinting callout table info...\n\n");
- findsym ("afs_callo", &symoff);
- kread(kmem, symoff, (char *) &Co, sizeof Co);
+ findsym("afs_callo", &symoff);
+ kread(kmem, symoff, (char *)&Co, sizeof Co);
printf("Number of callouts %d\n", Co.ncallo);
if (Co.ncallo > 0) {
printf("Count\tType\taddr\tfunc\tdata\n");
- for (tos = Co.head; tos != NULL; tos = Toe->tonext) {
+ for (tos = Co.head; tos != NULL; tos = Toe->tonext) {
i++;
- kread(kmem, (off_t) tos, (char *) &To, sizeof To);
- kread(kmem, (off_t) Toe->trb, (char *) &Trb, sizeof Trb);
- printf("%d\t%d\t%x\t%x\t%x\n", i, Toe->type, Toe->p1, Trbe->tof, Trbe->func_data);
+ kread(kmem, (off_t) tos, (char *)&To, sizeof To);
+ kread(kmem, (off_t) Toe->trb, (char *)&Trb, sizeof Trb);
+ printf("%d\t%d\t%x\t%x\t%x\n", i, Toe->type, Toe->p1, Trbe->tof,
+ Trbe->func_data);
}
}
#endif
}
-void print_dnlc(kmem)
- int kmem;
+void
+print_dnlc(int kmem)
{
- struct nc * nameHash[256];
+ struct nc *nameHash[256];
}
-void print_global_locks(kmem)
- int kmem;
+void
+print_global_locks(int kmem)
{
off_t symoff;
afs_int32 count;
int i;
static struct {
- char *name;
- } locks[] = { { "afs_xvcache" },
- { "afs_xdcache" },
- { "afs_xserver" },
- { "afs_xvcb" },
- { "afs_xbrs" },
- { "afs_xcell" },
- { "afs_xconn" },
- { "afs_xuser" },
- { "afs_xvolume" },
+ char *name;
+ } locks[] = { {
+ "afs_xvcache"}, {
+ "afs_xdcache"}, {
+ "afs_xserver"}, {
+ "afs_xvcb"}, {
+ "afs_xbrs"}, {
+ "afs_xcell"}, {
+ "afs_xconn"}, {
+ "afs_xuser"}, {
+ "afs_xvolume"},
#ifndef AFS_AIX_ENV
- { "osi_fsplock" },
+ {
+ "osi_fsplock"},
#endif
- { "osi_flplock" },
- { "afs_xcbhash" },
- { "afs_xinterface" },
-
- { 0 },
- };
+ {
+ "osi_flplock"}, {
+ "afs_xcbhash"}, {
+ "afs_xinterface"}, {
+ 0},};
printf("\n\nPrinting afs global locks...\n\n");
- for (i=0; locks[i].name; i++) {
- findsym( locks[i].name, &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
- printf("%s = 0x%x\n", locks[i].name, count);
+ for (i = 0; locks[i].name; i++) {
+ findsym(locks[i].name, &symoff);
+ kread(kmem, symoff, (char *)&count, sizeof count);
+ printf("%s = 0x%x\n", locks[i].name, count);
}
}
-void print_global_afs_resource(kmem)
- int kmem;
+void
+print_global_afs_resource(int kmem)
{
off_t symoff;
char sysname[100];
long addr;
printf("\n\nPrinting some general resource related globals...\n\n");
- findsym ("afs_setTimeHost",&symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ findsym("afs_setTimeHost", &symoff);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\tafs_setTimeHost = 0x%x\n", count);
findsym("afs_volCounter", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\tafs_volCounter = 0x%x\n", count);
findsym("afs_cellindex", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\tafs_cellIndex = 0x%x\n", count);
findsym("afs_marinerHost", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\tafs_marinerHost = 0x%x\n", count);
findsym("afs_sysname", &symoff);
- kread(kmem, symoff, (char *) &addr, sizeof addr);
+ kread(kmem, symoff, (char *)&addr, sizeof addr);
#ifdef AFS_HPUX_ENV
printf("\tafs_sysname = %d\n", addr);
#else
- kread(kmem, (off_t)addr, sysname, (KDUMP_SIZE_T)30);
+ kread(kmem, (off_t) addr, sysname, (KDUMP_SIZE_T) 30);
printf("\tafs_sysname = %s\n", sysname);
#endif
#ifdef AFS_SGI65_ENV
findsym("afs_ipno", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\tCPU BOARD = IP%d\n", count);
#endif
}
-void print_global_afs_cache(kmem)
- int kmem;
+void
+print_global_afs_cache(int kmem)
{
off_t symoff;
char sysname[100];
afs_int32 count;
#ifdef AFS_SGI62_ENV
ino64_t inode;
-#endif
+#endif
#ifndef AFS32
afs_hyper_t h;
#endif
printf("\n\nPrinting some general cache related globals...\n\n");
findsym("afs_mariner", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\tafs_mariner = 0x%x\n", count);
-#ifndef AFS_OSF_ENV
findsym("freeVCList", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\tafs_freeVCList = 0x%x XXX\n", count);
-#endif
findsym("afs_freeDCList", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\tfreeDCList = 0x%x\n", count);
findsym("afs_freeDCCount", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\tfreeDCCount = 0x%x (%d)\n", count, count);
findsym("afs_discardDCList", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\tdiscardDCList = 0x%x\n", count);
findsym("afs_discardDCCount", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\tdiscardDCCount = 0x%x (%d)\n", count, count);
findsym("afs_freeDSList", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\tfreeDSList= 0x%x XXXX\n", count);
#ifdef AFS_SGI62_ENV
findsym("cacheInode", &symoff);
- kread(kmem, symoff, (char *) &inode, sizeof inode);
- printf("\tcacheInode = 0x%llx (%lld)\n", inode, inode);
+ kread(kmem, symoff, (char *)&inode, sizeof inode);
+ printf("\tcacheInode = 0x%llx (%" AFS_INT64_FMT ")\n", inode, inode);
findsym("volumeInode", &symoff);
- kread(kmem, symoff, (char *) &inode, sizeof inode);
- printf("\tvolumeInode = 0x%llx (%lld)\n", inode, inode);
+ kread(kmem, symoff, (char *)&inode, sizeof inode);
+ printf("\tvolumeInode = 0x%llx (%" AFS_INT64_FMT ")\n", inode, inode);
#else
findsym("cacheInode", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\tcacheInode = 0x%x (%d)\n", count, count);
findsym("volumeInode", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\tvolumeInode = 0x%x (%d)\n", count, count);
#endif
findsym("cacheDiskType", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\tcacheDiskType = 0x%x (%d)\n", count, count);
#ifndef AFS32
findsym("afs_indexCounter", &symoff);
- kread(kmem, symoff, (char *) &h, sizeof (struct afs_hyper_t));
- printf("\tafs_indexCounter = 0x%X.%X (%d.%d)\n", h.high, h.low, h.high, h.low);
+ kread(kmem, symoff, (char *)&h, sizeof(struct afs_hyper_t));
+ printf("\tafs_indexCounter = 0x%X.%X (%d.%d)\n", h.high, h.low, h.high,
+ h.low);
#endif
findsym("afs_cacheFiles", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\tafs_cacheFiles = 0x%x (%d)\n", count, count);
findsym("afs_cacheBlocks", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\tafs_cacheBlocks = 0x%x (%d)\n", count, count);
findsym("afs_cacheStats", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\tafs_cacheStats = 0x%x (%d)\n", count, count);
findsym("afs_blocksUsed", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\tafs_blocksUsed = 0x%x (%d)\n", count, count);
findsym("afs_blocksDiscarded", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\tafs_blocksDiscarded = 0x%x (%d)\n", count, count);
findsym("afs_fsfragsize", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\tafs_fsfragsize = 0x%x\n", count);
findsym("afs_WaitForCacheDrain", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\tafs_WaitForCacheDrain = 0x%x (%d)\n", count, count);
findsym("afs_CacheTooFull", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\tafs_CacheTooFull = 0x%x (%d)\n", count, count);
if (findsym("pagCounter", &symoff)) {
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\tpagCounter = 0x%x (%d)\n", count, count);
} else {
printf("Ignoring pagCounter\n");
}
-void print_rxstats(kmem)
- int kmem;
+void
+print_rxstats(int kmem)
{
off_t symoff;
char sysname[100];
afs_int32 count, i;
- struct rx_stats rx_stats;
+ struct rx_statistics rx_stats;
printf("\n\nPrinting some general RX stats...\n\n");
findsym("rx_stats", &symoff);
- kread(kmem, symoff, (char *) &rx_stats, sizeof rx_stats);
+ kread(kmem, symoff, (char *)&rx_stats, sizeof rx_stats);
printf("\t\tpacketRequests = %d\n", rx_stats.packetRequests);
printf("\t\tnoPackets[%d] = %d\n", RX_PACKET_CLASS_RECEIVE,
rx_stats.receivePktAllocFailures);
printf("\t\tbogusPacketOnRead = %d\n", rx_stats.bogusPacketOnRead);
printf("\t\tbogusHost = %d\n", rx_stats.bogusHost);
printf("\t\tnoPacketOnRead = %d\n", rx_stats.noPacketOnRead);
- printf("\t\tnoPacketBuffersOnRead = %d\n", rx_stats.noPacketBuffersOnRead);
+ printf("\t\tnoPacketBuffersOnRead = %d\n",
+ rx_stats.noPacketBuffersOnRead);
printf("\t\tselects = %d\n", rx_stats.selects);
printf("\t\tsendSelects = %d\n", rx_stats.sendSelects);
- for (i=0; i < RX_N_PACKET_TYPES; i++)
+ for (i = 0; i < RX_N_PACKET_TYPES; i++)
printf("\t\tpacketsRead[%d] = %d\n", i, rx_stats.packetsRead[i]);
printf("\t\tdataPacketsRead = %d\n", rx_stats.dataPacketsRead);
printf("\t\tackPacketsRead = %d\n", rx_stats.ackPacketsRead);
printf("\t\tdupPacketsRead = %d\n", rx_stats.dupPacketsRead);
printf("\t\tspuriousPacketsRead = %d\n", rx_stats.spuriousPacketsRead);
- for (i=0; i < RX_N_PACKET_TYPES; i++)
+ for (i = 0; i < RX_N_PACKET_TYPES; i++)
printf("\t\tpacketsSent[%d] = %d\n", i, rx_stats.packetsSent[i]);
printf("\t\tackPacketsSent = %d\n", rx_stats.ackPacketsSent);
printf("\t\tpingPacketsSent = %d\n", rx_stats.pingPacketsSent);
printf("\t\tdataPacketsReSent = %d\n", rx_stats.dataPacketsReSent);
printf("\t\tdataPacketsPushed = %d\n", rx_stats.dataPacketsPushed);
printf("\t\tignoreAckedPacket = %d\n", rx_stats.ignoreAckedPacket);
- printf("\t\ttotalRtt = %d sec, %d usec\n", rx_stats.totalRtt.sec, rx_stats.totalRtt.usec);
- printf("\t\tminRtt = %d sec, %d usec\n", rx_stats.minRtt.sec, rx_stats.minRtt.usec);
- printf("\t\tmaxRtt = %d sec, %d usec\n", rx_stats.maxRtt.sec, rx_stats.maxRtt.usec);
+ printf("\t\ttotalRtt = %d sec, %d usec\n", rx_stats.totalRtt.sec,
+ rx_stats.totalRtt.usec);
+ printf("\t\tminRtt = %d sec, %d usec\n", rx_stats.minRtt.sec,
+ rx_stats.minRtt.usec);
+ printf("\t\tmaxRtt = %d sec, %d usec\n", rx_stats.maxRtt.sec,
+ rx_stats.maxRtt.usec);
printf("\t\tnRttSamples = %d\n", rx_stats.nRttSamples);
printf("\t\tnServerConns = %d\n", rx_stats.nServerConns);
printf("\t\tnClientConns = %d\n", rx_stats.nClientConns);
}
-void print_rx(kmem)
- int kmem;
+void
+print_rx(int kmem)
{
off_t symoff;
char sysname[100], c;
afs_int32 count, i, ar[100];
short sm;
- struct rx_stats rx_stats;
+ struct rx_statistics rx_stats;
printf("\n\nPrinting some RX globals...\n\n");
findsym("rx_extraQuota", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\trx_extraQuota = %d\n", count);
findsym("rx_extraPackets", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\trx_extraPackets = %d\n", count);
findsym("rx_stackSize", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\trx_stackSize = %d\n", count);
findsym("rx_connDeadTime", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\trx_connDeadTime = %d\n", count);
findsym("rx_idleConnectionTime", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\trx_idleConnectionTime = %d\n", count);
findsym("rx_idlePeerTime", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\trx_idlePeerTime = %d\n", count);
findsym("rx_initSendWindow", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\trx_initSendWindow = %d\n", count);
findsym("rxi_nSendFrags", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\trxi_nSendFrags = %d\n", count);
findsym("rx_nPackets", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\trx_nPackets = %d\n", count);
findsym("rx_nFreePackets", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\trx_nFreePackets = %d\n", count);
findsym("rx_socket", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\trx_socket = 0x%x\n", count);
findsym("rx_port", &symoff);
- kread(kmem, symoff, (char *) &sm, sizeof sm);
+ kread(kmem, symoff, (char *)&sm, sizeof sm);
printf("\trx_Port = %d\n", sm);
findsym("rx_packetQuota", &symoff);
- kread(kmem, symoff, (char *) ar, sizeof ar);
+ kread(kmem, symoff, (char *)ar, sizeof ar);
- for (i=0; i < RX_N_PACKET_CLASSES; i++)
+ for (i = 0; i < RX_N_PACKET_CLASSES; i++)
printf("\trx_packetQuota[%d] = %d\n", i, ar[i]);
findsym("rx_nextCid", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\trx_nextCid = 0x%x\n", count);
findsym("rx_epoch", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\trx_epoch = 0u%u\n", count);
findsym("rx_waitingForPackets", &symoff);
- kread(kmem, symoff, (char *) &c, sizeof(c));
+ kread(kmem, symoff, (char *)&c, sizeof(c));
printf("\trx_waitingForPackets = %x\n", (int)c);
findsym("rxi_nCalls", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\trxi_nCalls = %d\n", count);
findsym("rxi_dataQuota", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\trxi_dataQuota = %d\n", count);
#ifdef AFS_AIX_ENV
if (findsym("rxi_Alloccnt", &symoff)) {
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\trxi_Alloccnt = %d\n", count);
}
if (findsym("rxi_Allocsize", &symoff)) {
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\trxi_Allocsize = %d\n", count);
}
#endif
findsym("rxi_availProcs", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\trxi_availProcs = %d\n", count);
findsym("rxi_totalMin", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\trxi_totalMin = %d\n", count);
findsym("rxi_minDeficit", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof count);
+ kread(kmem, symoff, (char *)&count, sizeof count);
printf("\trxi_minDeficit = %d\n", count);
print_services(kmem);
print_peertable_lock(kmem);
print_conntable_lock(kmem);
print_calltable_lock(kmem);
- }
- else {
+ } else {
print_peertable(kmem);
print_conntable(kmem);
print_calltable(kmem);
}
-void print_services(kmem)
- afs_int32 kmem;
+void
+print_services(afs_int32 kmem)
{
off_t symoff;
struct rx_service *rx_services[RX_MAX_SERVICES], se, *sentry = &se, *sep;
afs_int32 count, i, j;
findsym("rx_services", &symoff);
- kread(kmem, symoff, (char *) rx_services, RX_MAX_SERVICES * sizeof(long));
+ kread(kmem, symoff, (char *)rx_services, RX_MAX_SERVICES * sizeof(long));
printf("\n\nPrinting all 'rx_services' structures...\n");
- for (i=0, j=0; i < RX_MAX_SERVICES; i++) {
+ for (i = 0, j = 0; i < RX_MAX_SERVICES; i++) {
if (rx_services[i]) {
j++;
- kread(kmem, (off_t) rx_services[i], (char *)sentry, sizeof *sentry);
+ kread(kmem, (off_t) rx_services[i], (char *)sentry,
+ sizeof *sentry);
kread(kmem, (off_t) sentry->serviceName, sysname,
- (KDUMP_SIZE_T)40);
- printf("\t%lx: serviceId=%d, port=%d, serviceName=%s, socket=0x%x\n",
- rx_services[i], sentry->serviceId, sentry->servicePort, sysname, sentry->socket);
- printf("\t\tnSecObj=%d, nReqRunning=%d, maxProcs=%d, minProcs=%d, connDeadTime=%d, idleDeadTime=%d\n",
- sentry->nSecurityObjects, sentry->nRequestsRunning, sentry->maxProcs, sentry->minProcs,
- sentry->connDeadTime, sentry->idleDeadTime);
+ (KDUMP_SIZE_T) 40);
+ printf
+ ("\t%lx: serviceId=%d, port=%d, serviceName=%s, socket=0x%x\n",
+ rx_services[i], sentry->serviceId, sentry->servicePort,
+ sysname, sentry->socket);
+ printf
+ ("\t\tnSecObj=%d, nReqRunning=%d, maxProcs=%d, minProcs=%d, connDeadTime=%d, idleDeadTime=%d\n",
+ sentry->nSecurityObjects, sentry->nRequestsRunning,
+ sentry->maxProcs, sentry->minProcs, sentry->connDeadTime,
+ sentry->idleDeadTime);
}
}
printf("... found %d 'rx_services' entries in the table\n", j);
#ifdef KDUMP_RX_LOCK
-void print_peertable_lock(kmem)
- afs_int32 kmem;
+void
+print_peertable_lock(afs_int32 kmem)
{
off_t symoff;
struct rx_peer_rx_lock *rx_peerTable[256], se, *sentry = &se, *sep;
long count, i, j;
findsym("rx_peerHashTable", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof(long));
+ kread(kmem, symoff, (char *)&count, sizeof(long));
if (!count) {
printf("No 'rx_peer' structures found.\n");
return;
}
-
- kread(kmem, count, (char *) rx_peerTable, 256 * sizeof(long));
+
+ kread(kmem, count, (char *)rx_peerTable, 256 * sizeof(long));
printf("\n\nPrinting all 'rx_peer' structures...\n");
- for (i=0, j=0; i < 256; i++) {
+ for (i = 0, j = 0; i < 256; i++) {
for (sep = rx_peerTable[i]; sep; sep = sentry->next, j++) {
kread(kmem, (off_t) sep, (char *)sentry, sizeof *sentry);
- printf("\t%lx: next=0x%lx, host=0x%x, ",
- sep, sentry->next, sentry->host);
+ printf("\t%lx: next=0x%lx, host=0x%x, ", sep, sentry->next,
+ sentry->host);
printf("ifMTU=%d, natMTU=%d, maxMTU=%d\n", sentry->ifMTU,
sentry->natMTU, sentry->maxMTU);
printf("\t\trtt=%d:%d, timeout(%d:%d), nSent=%d, reSends=%d\n",
- sentry->rtt, sentry->rtt_dev,
- sentry->timeout.sec, sentry->timeout.usec,
- sentry->nSent, sentry->reSends);
- printf("\t\trefCount=%d, port=%d, idleWhen=0x%x\n",
+ sentry->rtt, sentry->rtt_dev, sentry->timeout.sec,
+ sentry->timeout.usec, sentry->nSent, sentry->reSends);
+ printf("\t\trefCount=%d, port=%d, idleWhen=0x%x\n",
sentry->refCount, sentry->port, sentry->idleWhen);
- printf("\t\tCongestionQueue (0x%x:0x%x), inPacketSkew=0x%x, outPacketSkew=0x%x\n",
- sentry->congestionQueue.prev, sentry->congestionQueue.next,
- sentry->inPacketSkew, sentry->outPacketSkew);
+ printf
+ ("\t\tCongestionQueue (0x%x:0x%x), inPacketSkew=0x%x, outPacketSkew=0x%x\n",
+ sentry->congestionQueue.prev, sentry->congestionQueue.next,
+ sentry->inPacketSkew, sentry->outPacketSkew);
printf("\t\tpeer_lock=%d\n", sentry->peer_lock);
}
}
}
#endif /* KDUMP_RX_LOCK */
-void print_peertable(kmem)
- afs_int32 kmem;
+void
+print_peertable(afs_int32 kmem)
{
off_t symoff;
struct rx_peer *rx_peerTable[256], se, *sentry = &se, *sep;
long count, i, j;
findsym("rx_peerHashTable", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof(long));
+ kread(kmem, symoff, (char *)&count, sizeof(long));
- kread(kmem, count, (char *) rx_peerTable, 256 * sizeof(long));
+ kread(kmem, count, (char *)rx_peerTable, 256 * sizeof(long));
printf("\n\nPrinting all 'rx_peer' structures...\n");
- for (i=0, j=0; i < 256; i++) {
+ for (i = 0, j = 0; i < 256; i++) {
for (sep = rx_peerTable[i]; sep; sep = sentry->next, j++) {
kread(kmem, (off_t) sep, (char *)sentry, sizeof *sentry);
- printf("\t%lx: next=0x%lx, host=0x%x, ",
- sep, sentry->next, sentry->host);
+ printf("\t%lx: next=0x%lx, host=0x%x, ", sep, sentry->next,
+ sentry->host);
printf("ifMTU=%d, natMTU=%d, maxMTU=%d\n", sentry->ifMTU,
sentry->natMTU, sentry->maxMTU);
printf("\t\trtt=%d:%d, timeout(%d:%d), nSent=%d, reSends=%d\n",
- sentry->rtt, sentry->rtt_dev,
- sentry->timeout.sec, sentry->timeout.usec,
- sentry->nSent, sentry->reSends);
- printf("\t\trefCount=%d, port=%d, idleWhen=0x%x\n",
+ sentry->rtt, sentry->rtt_dev, sentry->timeout.sec,
+ sentry->timeout.usec, sentry->nSent, sentry->reSends);
+ printf("\t\trefCount=%d, port=%d, idleWhen=0x%x\n",
sentry->refCount, sentry->port, sentry->idleWhen);
- printf("\t\tCongestionQueue (0x%x:0x%x), inPacketSkew=0x%x, outPacketSkew=0x%x\n",
- sentry->congestionQueue.prev, sentry->congestionQueue.next,
- sentry->inPacketSkew, sentry->outPacketSkew);
+ printf
+ ("\t\tCongestionQueue (0x%x:0x%x), inPacketSkew=0x%x, outPacketSkew=0x%x\n",
+ sentry->congestionQueue.prev, sentry->congestionQueue.next,
+ sentry->inPacketSkew, sentry->outPacketSkew);
#ifdef RX_ENABLE_LOCKS
printf("\t\tpeer_lock=%d\n", sentry->peer_lock);
#endif /* RX_ENABLE_LOCKS */
#ifdef KDUMP_RX_LOCK
-void print_conntable_lock(kmem)
- afs_int32 kmem;
+void
+print_conntable_lock(afs_int32 kmem)
{
off_t symoff;
struct rx_connection_rx_lock *rx_connTable[256], se, *sentry = &se;
long count, i, j;
findsym("rx_connHashTable", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof(long));
+ kread(kmem, symoff, (char *)&count, sizeof(long));
if (!count) {
printf("No 'rx_connection' structures found.\n");
return;
}
- kread(kmem, count, (char *) rx_connTable, 256 * sizeof(long));
+ kread(kmem, count, (char *)rx_connTable, 256 * sizeof(long));
printf("\n\nPrinting all 'rx_connection' structures...\n");
- for (i=0, j=0; i < 256; i++) {
- for (sep = rx_connTable[i]; sep; sep = sentry->next, j++) {
- kread(kmem, (off_t) sep, (char *)sentry, sizeof *sentry);
- printf("\t%lx: next=0x%lx, peer=0x%lx, epoch=0x%x, cid=0x%x, ackRate=%d\n",
+ for (i = 0, j = 0; i < 256; i++) {
+ for (sep = rx_connTable[i]; sep; sep = sentry->next, j++) {
+ kread(kmem, (off_t) sep, (char *)sentry, sizeof *sentry);
+ printf
+ ("\t%lx: next=0x%lx, peer=0x%lx, epoch=0x%x, cid=0x%x, ackRate=%d\n",
sep, se.next, se.peer, se.epoch, se.cid, se.ackRate);
- printf("\t\tcall[%x=%d, %x=%d, %x=%d, %x=%d]\n",
- se.call[0], se.callNumber[0],
- se.call[1], se.callNumber[1],
- se.call[2], se.callNumber[2],
- se.call[3], se.callNumber[3]);
- printf("\t\ttimeout=%d, flags=0x%x, type=0x%x, serviceId=%d, service=0x%lx, refCount=%d\n",
- se.timeout, se.flags, se.type, se.serviceId, se.service, se.refCount);
- printf("\t\tserial=%d, lastSerial=%d, secsUntilDead=%d, secsUntilPing=%d, secIndex=%d\n",
+ printf("\t\tcall[%lx=%d, %lx=%d, %lx=%d, %lx=%d]\n", se.call[0],
+ se.callNumber[0], se.call[1], se.callNumber[1], se.call[2],
+ se.callNumber[2], se.call[3], se.callNumber[3]);
+ printf
+ ("\t\ttimeout=%d, flags=0x%x, type=0x%x, serviceId=%d, service=0x%lx, refCount=%d\n",
+ se.timeout, se.flags, se.type, se.serviceId, se.service,
+ se.refCount);
+ printf
+ ("\t\tserial=%d, lastSerial=%d, secsUntilDead=%d, secsUntilPing=%d, secIndex=%d\n",
se.serial, se.lastSerial, se.secondsUntilDead,
se.secondsUntilPing, se.securityIndex);
- printf("\t\terror=%d, secObject=0x%lx, secData=0x%lx, secHeaderSize=%d, secmaxTrailerSize=%d\n",
+ printf
+ ("\t\terror=%d, secObject=0x%lx, secData=0x%lx, secHeaderSize=%d, secmaxTrailerSize=%d\n",
se.error, se.securityObject, se.securityData,
se.securityHeaderSize, se.securityMaxTrailerSize);
- printf("\t\tchallEvent=0x%lx, lastSendTime=0x%x, maxSerial=%d, hardDeadTime=%d\n",
- se.challengeEvent, se.lastSendTime,
- se.maxSerial, se.hardDeadTime);
- if (se.flags & RX_CONN_MAKECALL_WAITING)
- printf("\t\t***** Conn in RX_CONN_MAKECALL_WAITING state *****\n");
- printf("\t\tcall_lock=%d, call_cv=%d, data_lock=%d, refCount=%d\n",
+ printf
+ ("\t\tchallEvent=0x%lx, lastSendTime=0x%x, maxSerial=%d, hardDeadTime=%d\n",
+ se.challengeEvent, se.lastSendTime, se.maxSerial,
+ se.hardDeadTime);
+ if (se.flags & RX_CONN_MAKECALL_WAITING)
+ printf
+ ("\t\t***** Conn in RX_CONN_MAKECALL_WAITING state *****\n");
+ printf
+ ("\t\tcall_lock=%d, call_cv=%d, data_lock=%d, refCount=%d\n",
se.conn_call_lock, se.conn_call_cv, se.conn_data_lock,
se.refCount);
}
}
#endif /* KDUMP_RX_LOCK */
-void print_conntable(kmem)
- afs_int32 kmem;
+void
+print_conntable(afs_int32 kmem)
{
off_t symoff;
struct rx_connection *rx_connTable[256], se, *sentry = &se, *sep;
long count, i, j;
findsym("rx_connHashTable", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof(long));
+ kread(kmem, symoff, (char *)&count, sizeof(long));
- kread(kmem, count, (char *) rx_connTable, 256 * sizeof(long));
+ kread(kmem, count, (char *)rx_connTable, 256 * sizeof(long));
printf("\n\nPrinting all 'rx_connection' structures...\n");
- for (i=0, j=0; i < 256; i++) {
- for (sep = rx_connTable[i]; sep; sep = sentry->next, j++) {
- kread(kmem, (off_t) sep, (char *)sentry, sizeof *sentry);
- printf("\t%lx: next=0x%lx, peer=0x%lx, epoch=0x%x, cid=0x%x, ackRate=%d\n",
+ for (i = 0, j = 0; i < 256; i++) {
+ for (sep = rx_connTable[i]; sep; sep = sentry->next, j++) {
+ kread(kmem, (off_t) sep, (char *)sentry, sizeof *sentry);
+ printf
+ ("\t%lx: next=0x%lx, peer=0x%lx, epoch=0x%x, cid=0x%x, ackRate=%d\n",
sep, se.next, se.peer, se.epoch, se.cid, se.ackRate);
- printf("\t\tcall[%x=%d, %x=%d, %x=%d, %x=%d]\n",
- se.call[0], se.callNumber[0],
- se.call[1], se.callNumber[1],
- se.call[2], se.callNumber[2],
- se.call[3], se.callNumber[3]);
- printf("\t\ttimeout=%d, flags=0x%x, type=0x%x, serviceId=%d, service=0x%lx, refCount=%d\n",
- se.timeout, se.flags, se.type, se.serviceId, se.service, se.refCount);
- printf("\t\tserial=%d, lastSerial=%d, secsUntilDead=%d, secsUntilPing=%d, secIndex=%d\n",
+ printf("\t\tcall[%x=%d, %x=%d, %x=%d, %x=%d]\n", se.call[0],
+ se.callNumber[0], se.call[1], se.callNumber[1], se.call[2],
+ se.callNumber[2], se.call[3], se.callNumber[3]);
+ printf
+ ("\t\ttimeout=%d, flags=0x%x, type=0x%x, serviceId=%d, service=0x%lx, refCount=%d\n",
+ se.timeout, se.flags, se.type, se.serviceId, se.service,
+ se.refCount);
+ printf
+ ("\t\tserial=%d, lastSerial=%d, secsUntilDead=%d, secsUntilPing=%d, secIndex=%d\n",
se.serial, se.lastSerial, se.secondsUntilDead,
se.secondsUntilPing, se.securityIndex);
- printf("\t\terror=%d, secObject=0x%lx, secData=0x%lx, secHeaderSize=%d, secmaxTrailerSize=%d\n",
+ printf
+ ("\t\terror=%d, secObject=0x%lx, secData=0x%lx, secHeaderSize=%d, secmaxTrailerSize=%d\n",
se.error, se.securityObject, se.securityData,
se.securityHeaderSize, se.securityMaxTrailerSize);
- printf("\t\tchallEvent=0x%lx, lastSendTime=0x%x, maxSerial=%d, hardDeadTime=%d\n",
- se.challengeEvent, se.lastSendTime,
- se.maxSerial, se.hardDeadTime);
- if (se.flags & RX_CONN_MAKECALL_WAITING)
- printf("\t\t***** Conn in RX_CONN_MAKECALL_WAITING state *****\n");
+ printf
+ ("\t\tchallEvent=0x%lx, lastSendTime=0x%x, maxSerial=%d, hardDeadTime=%d\n",
+ se.challengeEvent, se.lastSendTime, se.maxSerial,
+ se.hardDeadTime);
+ if (se.flags & RX_CONN_MAKECALL_WAITING)
+ printf
+ ("\t\t***** Conn in RX_CONN_MAKECALL_WAITING state *****\n");
#ifdef RX_ENABLE_LOCKS
- printf("\t\tcall_lock=%d, call_cv=%d, data_lock=%d, refCount=%d\n",
+ printf
+ ("\t\tcall_lock=%d, call_cv=%d, data_lock=%d, refCount=%d\n",
se.conn_call_lock, se.conn_call_cv, se.conn_data_lock,
se.refCount);
#endif /* RX_ENABLE_LOCKS */
#ifdef KDUMP_RX_LOCK
-void print_calltable_lock(kmem)
- afs_int32 kmem;
+void
+print_calltable_lock(afs_int32 kmem)
{
off_t symoff;
struct rx_connection_rx_lock *rx_connTable[256], se;
long count, i, j, k;
findsym("rx_connHashTable", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof(long));
+ kread(kmem, symoff, (char *)&count, sizeof(long));
if (!count) {
printf("No 'rx_call' structures found.\n");
return;
}
- kread(kmem, count, (char *) rx_connTable, 256 * sizeof(long));
+ kread(kmem, count, (char *)rx_connTable, 256 * sizeof(long));
printf("\n\nPrinting all active 'rx_call' structures...\n");
- for (i=0, j=0; i < 256; i++) {
+ for (i = 0, j = 0; i < 256; i++) {
for (sep = rx_connTable[i]; sep; sep = se.next) {
kread(kmem, (off_t) sep, (char *)sentry, sizeof *sentry);
for (k = 0; k < RX_MAXCALLS; k++) {
if (call) {
j++;
kread(kmem, (off_t) call, (char *)centry, sizeof *centry);
- printf("\t%lx: conn=0x%lx, qiheader(0x%lx:0x%lx), tq(0x%lx:0x%lx), rq(0x%lx:0x%lx)\n",
- call, centry->conn, centry->queue_item_header.prev, centry->queue_item_header.next,
- centry->tq.prev, centry->tq.next, centry->rq.prev, centry->rq.next);
- printf("\t\t: curvec=%d, curpos=%d, nLeft=%d, nFree=%d, currPacket=0x%lx, callNumber=0x%x\n",
- centry->curvec, centry->curpos, centry->nLeft, centry->nFree, centry->currentPacket, centry->callNumber);
- printf("\t\t: channel=%d, state=0x%x, mode=0x%x, flags=0x%x, localStatus=0x%x, remStatus=0x%x\n",
- centry->channel, centry->state, centry->mode, centry->flags, centry->localStatus,
- centry->remoteStatus);
- printf("\t\t: error=%d, timeout=0x%x, rnext=0x%x, rprev=0x%x, rwind=0x%x, tfirst=0x%x, tnext=0x%x\n",
- centry->error, centry->timeout, centry->rnext, centry->rprev, centry->rwind, centry->tfirst,
- centry->tnext);
- printf("\t\t: twind=%d, resendEvent=0x%lx, timeoutEvent=0x%lx, keepAliveEvent=0x%lx, delayedAckEvent=0x%lx\n",
- centry->twind, centry->resendEvent, centry->timeoutEvent, centry->keepAliveEvent,
- centry->delayedAckEvent);
- printf("\t\t: lastSendTime=0x%x, lastReceiveTime=0x%x, lastAcked=0x%x, startTime=0x%x, startWait=0x%x\n",
- centry->lastSendTime, centry->lastReceiveTime, centry->lastAcked, centry->startTime, centry->startWait);
+ printf
+ ("\t%lx: conn=0x%lx, qiheader(0x%lx:0x%lx), tq(0x%lx:0x%lx), rq(0x%lx:0x%lx)\n",
+ call, centry->conn, centry->queue_item_header.prev,
+ centry->queue_item_header.next, centry->tq.prev,
+ centry->tq.next, centry->rq.prev, centry->rq.next);
+ printf
+ ("\t\t: curvec=%d, curpos=%d, nLeft=%d, nFree=%d, currPacket=0x%lx, callNumber=0x%x\n",
+ centry->curvec, centry->curpos, centry->nLeft,
+ centry->nFree, centry->currentPacket,
+ centry->callNumber);
+ printf
+ ("\t\t: channel=%d, state=0x%x, mode=0x%x, flags=0x%x, localStatus=0x%x, remStatus=0x%x\n",
+ centry->channel, centry->state, centry->mode,
+ centry->flags, centry->localStatus,
+ centry->remoteStatus);
+ printf
+ ("\t\t: error=%d, timeout=0x%x, rnext=0x%x, rprev=0x%x, rwind=0x%x, tfirst=0x%x, tnext=0x%x\n",
+ centry->error, centry->timeout, centry->rnext,
+ centry->rprev, centry->rwind, centry->tfirst,
+ centry->tnext);
+ printf
+ ("\t\t: twind=%d, resendEvent=0x%lx, timeoutEvent=0x%lx, keepAliveEvent=0x%lx, delayedAckEvent=0x%lx\n",
+ centry->twind, centry->resendEvent,
+ centry->timeoutEvent, centry->keepAliveEvent,
+ centry->delayedAckEvent);
+ printf
+ ("\t\t: lastSendTime=0x%x, lastReceiveTime=0x%x, lastAcked=0x%x, startTime=0x%x, startWait=0x%x\n",
+ centry->lastSendTime, centry->lastReceiveTime,
+ centry->lastAcked, centry->startTime,
+ centry->startWait);
if (centry->flags & RX_CALL_WAIT_PROC)
- printf("\t\t******** Call in RX_CALL_WAIT_PROC state **********\n");
+ printf
+ ("\t\t******** Call in RX_CALL_WAIT_PROC state **********\n");
if (centry->flags & RX_CALL_WAIT_WINDOW_ALLOC)
- printf("\t\t******** Call in RX_CALL_WAIT_WINDOW_ALLOC state **********\n");
+ printf
+ ("\t\t******** Call in RX_CALL_WAIT_WINDOW_ALLOC state **********\n");
if (centry->flags & RX_CALL_READER_WAIT)
- printf("\t\t******** Conn in RX_CALL_READER_WAIT state **********\n");
+ printf
+ ("\t\t******** Conn in RX_CALL_READER_WAIT state **********\n");
if (centry->flags & RX_CALL_WAIT_PACKETS)
- printf("\t\t******** Conn in RX_CALL_WAIT_PACKETS state **********\n");
- printf("\t\t: lock=0x%x, cv_twind=0x%x, cv_rq=0x%x, refCount=%d\n",
- centry->lock, centry->cv_twind, centry->cv_rq,
- centry->refCount);
+ printf
+ ("\t\t******** Conn in RX_CALL_WAIT_PACKETS state **********\n");
+ printf
+ ("\t\t: lock=0x%x, cv_twind=0x%x, cv_rq=0x%x, refCount=%d\n",
+ centry->lock, centry->cv_twind, centry->cv_rq,
+ centry->refCount);
printf("\t\t: MTU=%d\n", centry->MTU);
}
}
}
#endif /* KDUMP_RX_LOCK */
-void print_calltable(kmem)
- afs_int32 kmem;
+void
+print_calltable(afs_int32 kmem)
{
off_t symoff;
struct rx_connection *rx_connTable[256], se, *sentry = &se, *sep;
long count, i, j, k;
findsym("rx_connHashTable", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof(long));
+ kread(kmem, symoff, (char *)&count, sizeof(long));
- kread(kmem, count, (char *) rx_connTable, 256 * sizeof(long));
+ kread(kmem, count, (char *)rx_connTable, 256 * sizeof(long));
printf("\n\nPrinting all active 'rx_call' structures...\n");
- for (i=0, j=0; i < 256; i++) {
+ for (i = 0, j = 0; i < 256; i++) {
for (sep = rx_connTable[i]; sep; sep = se.next) {
- kread(kmem, (off_t)sep, (char *)sentry, sizeof *sentry);
+ kread(kmem, (off_t) sep, (char *)sentry, sizeof *sentry);
for (k = 0; k < RX_MAXCALLS; k++) {
struct rx_call ce, *centry = &ce, *call = se.call[k];
if (call) {
j++;
- kread(kmem, (off_t)call, (char *)centry, sizeof *centry);
- printf("\t%lx: conn=0x%lx, qiheader(0x%lx:0x%lx), tq(0x%lx:0x%lx), rq(0x%lx:0x%lx)\n",
- call, centry->conn, centry->queue_item_header.prev, centry->queue_item_header.next,
- centry->tq.prev, centry->tq.next, centry->rq.prev, centry->rq.next);
- printf("\t\t: curvec=%d, curpos=%d, nLeft=%d, nFree=%d, currPacket=0x%lx, callNumber=0x%x\n",
- centry->curvec, centry->curpos, centry->nLeft, centry->nFree, centry->currentPacket, centry->callNumber);
- printf("\t\t: channel=%d, state=0x%x, mode=0x%x, flags=0x%x, localStatus=0x%x, remStatus=0x%x\n",
- centry->channel, centry->state, centry->mode, centry->flags, centry->localStatus,
- centry->remoteStatus);
- printf("\t\t: error=%d, timeout=0x%x, rnext=0x%x, rprev=0x%x, rwind=0x%x, tfirst=0x%x, tnext=0x%x\n",
- centry->error, centry->timeout, centry->rnext, centry->rprev, centry->rwind, centry->tfirst,
- centry->tnext);
- printf("\t\t: twind=%d, resendEvent=0x%lx, timeoutEvent=0x%lx, keepAliveEvent=0x%lx, delayedAckEvent=0x%lx\n",
- centry->twind, centry->resendEvent, centry->timeoutEvent, centry->keepAliveEvent,
- centry->delayedAckEvent);
- printf("\t\t: lastSendTime=0x%x, lastReceiveTime=0x%x, lastAcked=0x%x, startTime=0x%x, startWait=0x%x\n",
- centry->lastSendTime, centry->lastReceiveTime, centry->lastAcked, centry->startTime, centry->startWait);
+ kread(kmem, (off_t) call, (char *)centry, sizeof *centry);
+ printf
+ ("\t%lx: conn=0x%lx, qiheader(0x%lx:0x%lx), tq(0x%lx:0x%lx), rq(0x%lx:0x%lx)\n",
+ call, centry->conn, centry->queue_item_header.prev,
+ centry->queue_item_header.next, centry->tq.prev,
+ centry->tq.next, centry->rq.prev, centry->rq.next);
+ printf
+ ("\t\t: curvec=%d, curpos=%d, nLeft=%d, nFree=%d, currPacket=0x%lx, callNumber=0x%x\n",
+ centry->curvec, centry->curpos, centry->nLeft,
+ centry->nFree, centry->currentPacket,
+ centry->callNumber);
+ printf
+ ("\t\t: channel=%d, state=0x%x, mode=0x%x, flags=0x%x, localStatus=0x%x, remStatus=0x%x\n",
+ centry->channel, centry->state, centry->mode,
+ centry->flags, centry->localStatus,
+ centry->remoteStatus);
+ printf
+ ("\t\t: error=%d, timeout=0x%x, rnext=0x%x, rprev=0x%x, rwind=0x%x, tfirst=0x%x, tnext=0x%x\n",
+ centry->error, centry->timeout, centry->rnext,
+ centry->rprev, centry->rwind, centry->tfirst,
+ centry->tnext);
+ printf
+ ("\t\t: twind=%d, resendEvent=0x%lx, timeoutEvent=0x%lx, keepAliveEvent=0x%lx, delayedAckEvent=0x%lx\n",
+ centry->twind, centry->resendEvent,
+ centry->timeoutEvent, centry->keepAliveEvent,
+ centry->delayedAckEvent);
+ printf
+ ("\t\t: lastSendTime=0x%x, lastReceiveTime=0x%x, lastAcked=0x%x, startTime=0x%x, startWait=0x%x\n",
+ centry->lastSendTime, centry->lastReceiveTime,
+ centry->lastAcked, centry->startTime,
+ centry->startWait);
if (centry->flags & RX_CALL_WAIT_PROC)
- printf("\t\t******** Call in RX_CALL_WAIT_PROC state **********\n");
+ printf
+ ("\t\t******** Call in RX_CALL_WAIT_PROC state **********\n");
if (centry->flags & RX_CALL_WAIT_WINDOW_ALLOC)
- printf("\t\t******** Call in RX_CALL_WAIT_WINDOW_ALLOC state **********\n");
+ printf
+ ("\t\t******** Call in RX_CALL_WAIT_WINDOW_ALLOC state **********\n");
if (centry->flags & RX_CALL_READER_WAIT)
- printf("\t\t******** Conn in RX_CALL_READER_WAIT state **********\n");
+ printf
+ ("\t\t******** Conn in RX_CALL_READER_WAIT state **********\n");
if (centry->flags & RX_CALL_WAIT_PACKETS)
- printf("\t\t******** Conn in RX_CALL_WAIT_PACKETS state **********\n");
+ printf
+ ("\t\t******** Conn in RX_CALL_WAIT_PACKETS state **********\n");
#ifdef RX_ENABLE_LOCKS
- printf("\t\t: lock=0x%x, cv_twind=0x%x, cv_rq=0x%x, refCount=%d\n",
- centry->lock, centry->cv_twind, centry->cv_rq,
- centry->refCount);
+ printf
+ ("\t\t: lock=0x%x, cv_twind=0x%x, cv_rq=0x%x, refCount=%d\n",
+ centry->lock, centry->cv_twind, centry->cv_rq,
+ centry->refCount);
#endif /* RX_ENABLE_LOCKS */
printf("\t\t: MTU=%d\n", centry->MTU);
}
printf("... found %d 'rx_call' entries in the table\n", j);
}
-void print_eventtable(kmem)
- afs_int32 kmem;
+void
+print_eventtable(afs_int32 kmem)
{
off_t symoff;
struct rx_queue epq;
struct rx_queue evq;
char *epend, *evend;
- afs_int32 count, i, j=0, k=0;
+ afs_int32 count, i, j = 0, k = 0;
#if ! defined(AFS_HPUX_ENV) && ! defined(AFS_AIX_ENV)
findsym("rxevent_nFree", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof(afs_int32));
+ kread(kmem, symoff, (char *)&count, sizeof(afs_int32));
printf("\n\n\trxevent_nFree = %d\n", count);
findsym("rxevent_nPosted", &symoff);
- kread(kmem, symoff, (char *) &count, sizeof(afs_int32));
+ kread(kmem, symoff, (char *)&count, sizeof(afs_int32));
printf("\trxevent_nPosted = %d\n", count);
#endif
}
* Print the up/downtime stats for the given class of server records
* provided.
*/
-void print_upDownStats(a_upDownP)
- struct afs_stats_SrvUpDownInfo *a_upDownP; /*Ptr to server up/down info*/
-
-{ /*print_upDownStats*/
+void
+print_upDownStats(struct afs_stats_SrvUpDownInfo *a_upDownP)
+{ /*print_upDownStats */
/*
* First, print the simple values.
*/
- printf("\t\t%10d numTtlRecords\n", a_upDownP->numTtlRecords);
- printf("\t\t%10d numUpRecords\n", a_upDownP->numUpRecords);
- printf("\t\t%10d numDownRecords\n", a_upDownP->numDownRecords);
- printf("\t\t%10d sumOfRecordAges\n", a_upDownP->sumOfRecordAges);
- printf("\t\t%10d ageOfYoungestRecord\n", a_upDownP->ageOfYoungestRecord);
- printf("\t\t%10d ageOfOldestRecord\n", a_upDownP->ageOfOldestRecord);
- printf("\t\t%10d numDowntimeIncidents\n", a_upDownP->numDowntimeIncidents);
- printf("\t\t%10d numRecordsNeverDown\n", a_upDownP->numRecordsNeverDown);
- printf("\t\t%10d maxDowntimesInARecord\n", a_upDownP->maxDowntimesInARecord);
- printf("\t\t%10d sumOfDowntimes\n", a_upDownP->sumOfDowntimes);
- printf("\t\t%10d shortestDowntime\n", a_upDownP->shortestDowntime);
- printf("\t\t%10d longestDowntime\n", a_upDownP->longestDowntime);
+ printf("\t\t%10d numTtlRecords\n", a_upDownP->numTtlRecords);
+ printf("\t\t%10d numUpRecords\n", a_upDownP->numUpRecords);
+ printf("\t\t%10d numDownRecords\n", a_upDownP->numDownRecords);
+ printf("\t\t%10d sumOfRecordAges\n", a_upDownP->sumOfRecordAges);
+ printf("\t\t%10d ageOfYoungestRecord\n", a_upDownP->ageOfYoungestRecord);
+ printf("\t\t%10d ageOfOldestRecord\n", a_upDownP->ageOfOldestRecord);
+ printf("\t\t%10d numDowntimeIncidents\n",
+ a_upDownP->numDowntimeIncidents);
+ printf("\t\t%10d numRecordsNeverDown\n", a_upDownP->numRecordsNeverDown);
+ printf("\t\t%10d maxDowntimesInARecord\n",
+ a_upDownP->maxDowntimesInARecord);
+ printf("\t\t%10d sumOfDowntimes\n", a_upDownP->sumOfDowntimes);
+ printf("\t\t%10d shortestDowntime\n", a_upDownP->shortestDowntime);
+ printf("\t\t%10d longestDowntime\n", a_upDownP->longestDowntime);
/*
* Now, print the array values.
*/
printf("\t\tDowntime duration distribution:\n");
- printf("\t\t\t%8d: 0 min .. 10 min\n", a_upDownP->downDurations[0]);
+ printf("\t\t\t%8d: 0 min .. 10 min\n", a_upDownP->downDurations[0]);
printf("\t\t\t%8d: 10 min .. 30 min\n", a_upDownP->downDurations[1]);
- printf("\t\t\t%8d: 30 min .. 1 hr\n", a_upDownP->downDurations[2]);
- printf("\t\t\t%8d: 1 hr .. 2 hr\n", a_upDownP->downDurations[3]);
- printf("\t\t\t%8d: 2 hr .. 4 hr\n", a_upDownP->downDurations[4]);
- printf("\t\t\t%8d: 4 hr .. 8 hr\n", a_upDownP->downDurations[5]);
- printf("\t\t\t%8d: > 8 hr\n", a_upDownP->downDurations[6]);
+ printf("\t\t\t%8d: 30 min .. 1 hr\n", a_upDownP->downDurations[2]);
+ printf("\t\t\t%8d: 1 hr .. 2 hr\n", a_upDownP->downDurations[3]);
+ printf("\t\t\t%8d: 2 hr .. 4 hr\n", a_upDownP->downDurations[4]);
+ printf("\t\t\t%8d: 4 hr .. 8 hr\n", a_upDownP->downDurations[5]);
+ printf("\t\t\t%8d: > 8 hr\n", a_upDownP->downDurations[6]);
printf("\t\tDowntime incident distribution:\n");
- printf("\t\t\t%8d: 0 times\n", a_upDownP->downIncidents[0]);
- printf("\t\t\t%8d: 1 time\n", a_upDownP->downDurations[1]);
- printf("\t\t\t%8d: 2 .. 5 times\n", a_upDownP->downDurations[2]);
- printf("\t\t\t%8d: 6 .. 10 times\n", a_upDownP->downDurations[3]);
+ printf("\t\t\t%8d: 0 times\n", a_upDownP->downIncidents[0]);
+ printf("\t\t\t%8d: 1 time\n", a_upDownP->downDurations[1]);
+ printf("\t\t\t%8d: 2 .. 5 times\n", a_upDownP->downDurations[2]);
+ printf("\t\t\t%8d: 6 .. 10 times\n", a_upDownP->downDurations[3]);
printf("\t\t\t%8d: 10 .. 50 times\n", a_upDownP->downDurations[4]);
- printf("\t\t\t%8d: > 50 times\n", a_upDownP->downDurations[5]);
-} /*print_upDownStats*/
+ printf("\t\t\t%8d: > 50 times\n", a_upDownP->downDurations[5]);
+} /*print_upDownStats */
-void print_cmperfstats(perfP)
- struct afs_stats_CMPerf *perfP;
+void
+print_cmperfstats(struct afs_stats_CMPerf *perfP)
{
- struct afs_stats_SrvUpDownInfo *upDownP; /*Ptr to server up/down info*/
-
- printf("\t%10d numPerfCalls\n", perfP->numPerfCalls);
- printf("\t%10d epoch\n", perfP->epoch);
- printf("\t%10d numCellsVisible\n", perfP->numCellsVisible);
- printf("\t%10d numCellsContacted\n", perfP->numCellsContacted);
- printf("\t%10d dlocalAccesses\n", perfP->dlocalAccesses);
- printf("\t%10d vlocalAccesses\n", perfP->vlocalAccesses);
- printf("\t%10d dremoteAccesses\n", perfP->dremoteAccesses);
- printf("\t%10d vremoteAccesses\n", perfP->vremoteAccesses);
- printf("\t%10d cacheNumEntries\n", perfP->cacheNumEntries);
- printf("\t%10d cacheBlocksTotal\n", perfP->cacheBlocksTotal);
- printf("\t%10d cacheBlocksInUse\n", perfP->cacheBlocksInUse);
- printf("\t%10d cacheBlocksOrig\n", perfP->cacheBlocksOrig);
- printf("\t%10d cacheMaxDirtyChunks\n", perfP->cacheMaxDirtyChunks);
- printf("\t%10d cacheCurrDirtyChunks\n", perfP->cacheCurrDirtyChunks);
- printf("\t%10d dcacheHits\n", perfP->dcacheHits);
- printf("\t%10d vcacheHits\n", perfP->vcacheHits);
- printf("\t%10d dcacheMisses\n", perfP->dcacheMisses);
- printf("\t%10d vcacheMisses\n", perfP->vcacheMisses);
- printf("\t%10d cacheFlushes\n", perfP->cacheFlushes);
- printf("\t%10d cacheFilesReused\n", perfP->cacheFilesReused);
- printf("\t%10d vcacheXAllocs\n", perfP->vcacheXAllocs);
- printf("\t%10d dcacheXAllocs\n", perfP->dcacheXAllocs);
-
- printf("\t%10d bufAlloced\n", perfP->bufAlloced);
- printf("\t%10d bufHits\n", perfP->bufHits);
- printf("\t%10d bufMisses\n", perfP->bufMisses);
- printf("\t%10d bufFlushDirty\n", perfP->bufFlushDirty);
-
- printf("\t%10d LargeBlocksActive\n", perfP->LargeBlocksActive);
- printf("\t%10d LargeBlocksAlloced\n", perfP->LargeBlocksAlloced);
- printf("\t%10d SmallBlocksActive\n", perfP->SmallBlocksActive);
- printf("\t%10d SmallBlocksAlloced\n", perfP->SmallBlocksAlloced);
- printf("\t%10d MediumBlocksActive\n", perfP->MediumBlocksActive);
- printf("\t%10d MediumBlocksAlloced\n", perfP->MediumBlocksAlloced);
- printf("\t%10d OutStandingMemUsage\n", perfP->OutStandingMemUsage);
- printf("\t%10d OutStandingAllocs\n", perfP->OutStandingAllocs);
- printf("\t%10d CallBackAlloced\n", perfP->CallBackAlloced);
- printf("\t%10d CallBackFlushes\n", perfP->CallBackFlushes);
- printf("\t%10d CallBackLoops\n", perfP->cbloops);
-
- printf("\t%10d srvRecords\n", perfP->srvRecords);
- printf("\t%10d srvNumBuckets\n", perfP->srvNumBuckets);
- printf("\t%10d srvMaxChainLength\n", perfP->srvMaxChainLength);
- printf("\t%10d srvRecordsHWM\n", perfP->srvRecordsHWM);
- printf("\t%10d srvMaxChainLengthHWM\n", perfP->srvMaxChainLengthHWM);
-
- printf("\t%10d sysName_ID\n", perfP->sysName_ID);
- printf("\t%10d osi_Read_EFAULTS\n", perfP->osiread_efaults);
+ struct afs_stats_SrvUpDownInfo *upDownP; /*Ptr to server up/down info */
+
+ printf("\t%10d numPerfCalls\n", perfP->numPerfCalls);
+ printf("\t%10d epoch\n", perfP->epoch);
+ printf("\t%10d numCellsVisible\n", perfP->numCellsVisible);
+ printf("\t%10d numCellsContacted\n", perfP->numCellsContacted);
+ printf("\t%10d dlocalAccesses\n", perfP->dlocalAccesses);
+ printf("\t%10d vlocalAccesses\n", perfP->vlocalAccesses);
+ printf("\t%10d dremoteAccesses\n", perfP->dremoteAccesses);
+ printf("\t%10d vremoteAccesses\n", perfP->vremoteAccesses);
+ printf("\t%10d cacheNumEntries\n", perfP->cacheNumEntries);
+ printf("\t%10d cacheBlocksTotal\n", perfP->cacheBlocksTotal);
+ printf("\t%10d cacheBlocksInUse\n", perfP->cacheBlocksInUse);
+ printf("\t%10d cacheBlocksOrig\n", perfP->cacheBlocksOrig);
+ printf("\t%10d cacheMaxDirtyChunks\n", perfP->cacheMaxDirtyChunks);
+ printf("\t%10d cacheCurrDirtyChunks\n", perfP->cacheCurrDirtyChunks);
+ printf("\t%10d dcacheHits\n", perfP->dcacheHits);
+ printf("\t%10d vcacheHits\n", perfP->vcacheHits);
+ printf("\t%10d dcacheMisses\n", perfP->dcacheMisses);
+ printf("\t%10d vcacheMisses\n", perfP->vcacheMisses);
+ printf("\t%10d cacheFlushes\n", perfP->cacheFlushes);
+ printf("\t%10d cacheFilesReused\n", perfP->cacheFilesReused);
+ printf("\t%10d vcacheXAllocs\n", perfP->vcacheXAllocs);
+ printf("\t%10d dcacheXAllocs\n", perfP->dcacheXAllocs);
+
+ printf("\t%10d bufAlloced\n", perfP->bufAlloced);
+ printf("\t%10d bufHits\n", perfP->bufHits);
+ printf("\t%10d bufMisses\n", perfP->bufMisses);
+ printf("\t%10d bufFlushDirty\n", perfP->bufFlushDirty);
+
+ printf("\t%10d LargeBlocksActive\n", perfP->LargeBlocksActive);
+ printf("\t%10d LargeBlocksAlloced\n", perfP->LargeBlocksAlloced);
+ printf("\t%10d SmallBlocksActive\n", perfP->SmallBlocksActive);
+ printf("\t%10d SmallBlocksAlloced\n", perfP->SmallBlocksAlloced);
+ printf("\t%10d MediumBlocksActive\n", perfP->MediumBlocksActive);
+ printf("\t%10d MediumBlocksAlloced\n", perfP->MediumBlocksAlloced);
+ printf("\t%10d OutStandingMemUsage\n", perfP->OutStandingMemUsage);
+ printf("\t%10d OutStandingAllocs\n", perfP->OutStandingAllocs);
+ printf("\t%10d CallBackAlloced\n", perfP->CallBackAlloced);
+ printf("\t%10d CallBackFlushes\n", perfP->CallBackFlushes);
+ printf("\t%10d CallBackLoops\n", perfP->cbloops);
+
+ printf("\t%10d srvRecords\n", perfP->srvRecords);
+ printf("\t%10d srvNumBuckets\n", perfP->srvNumBuckets);
+ printf("\t%10d srvMaxChainLength\n", perfP->srvMaxChainLength);
+ printf("\t%10d srvRecordsHWM\n", perfP->srvRecordsHWM);
+ printf("\t%10d srvMaxChainLengthHWM\n", perfP->srvMaxChainLengthHWM);
+
+ printf("\t%10d sysName_ID\n", perfP->sysName_ID);
+ printf("\t%10d osi_Read_EFAULTS\n", perfP->osiread_efaults);
printf("\tFile Server up/downtimes, same cell:\n");
print_upDownStats(&(perfP->fs_UpDown[0]));
}
-void print_cmstats(cmp)
- struct afs_CMStats *cmp;
+void
+print_cmstats(struct afs_CMStats *cmp)
{
- printf("\t%10d afs_init\n", cmp->callInfo.C_afs_init);
- printf("\t%10d gop_rdwr\n", cmp->callInfo.C_gop_rdwr);
- printf("\t%10d aix_gnode_rele\n", cmp->callInfo.C_aix_gnode_rele);
- printf("\t%10d gettimeofday\n", cmp->callInfo.C_gettimeofday);
- printf("\t%10d m_cpytoc\n", cmp->callInfo.C_m_cpytoc);
- printf("\t%10d aix_vattr_null\n", cmp->callInfo.C_aix_vattr_null);
- printf("\t%10d afs_gn_frunc\n", cmp->callInfo.C_afs_gn_ftrunc);
- printf("\t%10d afs_gn_rdwr\n", cmp->callInfo.C_afs_gn_rdwr);
- printf("\t%10d afs_gn_ioctl\n", cmp->callInfo.C_afs_gn_ioctl);
- printf("\t%10d afs_gn_locktl\n", cmp->callInfo.C_afs_gn_lockctl);
- printf("\t%10d afs_gn_readlink\n", cmp->callInfo.C_afs_gn_readlink);
- printf("\t%10d afs_gn_readdir\n", cmp->callInfo.C_afs_gn_readdir);
- printf("\t%10d afs_gn_select\n", cmp->callInfo.C_afs_gn_select);
- printf("\t%10d afs_gn_strategy\n", cmp->callInfo.C_afs_gn_strategy);
- printf("\t%10d afs_gn_symlink\n", cmp->callInfo.C_afs_gn_symlink);
- printf("\t%10d afs_gn_revoke\n", cmp->callInfo.C_afs_gn_revoke);
- printf("\t%10d afs_gn_link\n", cmp->callInfo.C_afs_gn_link);
- printf("\t%10d afs_gn_mkdir\n", cmp->callInfo.C_afs_gn_mkdir);
- printf("\t%10d afs_gn_mknod\n", cmp->callInfo.C_afs_gn_mknod);
- printf("\t%10d afs_gn_remove\n", cmp->callInfo.C_afs_gn_remove);
- printf("\t%10d afs_gn_rename\n", cmp->callInfo.C_afs_gn_rename);
- printf("\t%10d afs_gn_rmdir\n", cmp->callInfo.C_afs_gn_rmdir);
- printf("\t%10d afs_gn_fid\n", cmp->callInfo.C_afs_gn_fid);
- printf("\t%10d afs_gn_lookup\n", cmp->callInfo.C_afs_gn_lookup);
- printf("\t%10d afs_gn_open\n", cmp->callInfo.C_afs_gn_open);
- printf("\t%10d afs_gn_create\n", cmp->callInfo.C_afs_gn_create);
- printf("\t%10d afs_gn_hold\n", cmp->callInfo.C_afs_gn_hold);
- printf("\t%10d afs_gn_rele\n", cmp->callInfo.C_afs_gn_rele);
- printf("\t%10d afs_gn_unmap\n", cmp->callInfo.C_afs_gn_unmap);
- printf("\t%10d afs_gn_access\n", cmp->callInfo.C_afs_gn_access);
- printf("\t%10d afs_gn_getattr\n", cmp->callInfo.C_afs_gn_getattr);
- printf("\t%10d afs_gn_setattr\n", cmp->callInfo.C_afs_gn_setattr);
- printf("\t%10d afs_gn_fclear\n", cmp->callInfo.C_afs_gn_fclear);
- printf("\t%10d afs_gn_fsync\n", cmp->callInfo.C_afs_gn_fsync);
- printf("\t%10d phash\n", cmp->callInfo.C_pHash);
- printf("\t%10d DInit\n", cmp->callInfo.C_DInit);
- printf("\t%10d DRead\n", cmp->callInfo.C_DRead);
- printf("\t%10d FixupBucket\n", cmp->callInfo.C_FixupBucket);
- printf("\t%10d afs_newslot\n", cmp->callInfo.C_afs_newslot);
- printf("\t%10d DRelease\n", cmp->callInfo.C_DRelease);
- printf("\t%10d DFlush\n", cmp->callInfo.C_DFlush);
- printf("\t%10d DFlushEntry\n", cmp->callInfo.C_DFlushEntry);
- printf("\t%10d DVOffset\n", cmp->callInfo.C_DVOffset);
- printf("\t%10d DZap\n", cmp->callInfo.C_DZap);
- printf("\t%10d DNew\n", cmp->callInfo.C_DNew);
- printf("\t%10d afs_RemoveVCB\n", cmp->callInfo.C_afs_RemoveVCB);
- printf("\t%10d afs_NewVCache\n", cmp->callInfo.C_afs_NewVCache);
- printf("\t%10d afs_FlushActiveVcaches\n", cmp->callInfo.C_afs_FlushActiveVcaches);
- printf("\t%10d afs_VerifyVCache\n", cmp->callInfo.C_afs_VerifyVCache);
- printf("\t%10d afs_WriteVCache\n", cmp->callInfo.C_afs_WriteVCache);
- printf("\t%10d afs_GetVCache\n", cmp->callInfo.C_afs_GetVCache);
- printf("\t%10d afs_StuffVcache\n", cmp->callInfo.C_afs_StuffVcache);
- printf("\t%10d afs_FindVCache\n", cmp->callInfo.C_afs_FindVCache);
- printf("\t%10d afs_PutDCache\n", cmp->callInfo.C_afs_PutDCache);
- printf("\t%10d afs_PutVCache\n", cmp->callInfo.C_afs_PutVCache);
- printf("\t%10d CacheStoreProc\n", cmp->callInfo.C_CacheStoreProc);
- printf("\t%10d afs_FindDcache\n", cmp->callInfo.C_afs_FindDCache);
- printf("\t%10d afs_TryToSmush\n", cmp->callInfo.C_afs_TryToSmush);
- printf("\t%10d afs_AdjustSize\n", cmp->callInfo.C_afs_AdjustSize);
- printf("\t%10d afs_CheckSize\n", cmp->callInfo.C_afs_CheckSize);
- printf("\t%10d afs_StoreWarn\n", cmp->callInfo.C_afs_StoreWarn);
- printf("\t%10d CacheFetchProc\n", cmp->callInfo.C_CacheFetchProc);
- printf("\t%10d UFS_CacheStoreProc\n", cmp->callInfo.C_UFS_CacheStoreProc);
- printf("\t%10d UFS_CacheFetchProc\n", cmp->callInfo.C_UFS_CacheFetchProc);
- printf("\t%10d afs_GetDCache\n", cmp->callInfo.C_afs_GetDCache);
- printf("\t%10d afs_SimpleVStat\n", cmp->callInfo.C_afs_SimpleVStat);
- printf("\t%10d afs_ProcessFS\n", cmp->callInfo.C_afs_ProcessFS);
- printf("\t%10d afs_InitCacheInfo\n", cmp->callInfo.C_afs_InitCacheInfo);
- printf("\t%10d afs_InitVolumeInfo\n", cmp->callInfo.C_afs_InitVolumeInfo);
- printf("\t%10d afs_InitCacheFile\n", cmp->callInfo.C_afs_InitCacheFile);
- printf("\t%10d afs_CacheInit\n", cmp->callInfo.C_afs_CacheInit);
- printf("\t%10d afs_GetDSlot\n", cmp->callInfo.C_afs_GetDSlot);
- printf("\t%10d afs_WriteThroughDSlots\n", cmp->callInfo.C_afs_WriteThroughDSlots);
- printf("\t%10d afs_MemGetDSlot\n", cmp->callInfo.C_afs_MemGetDSlot);
- printf("\t%10d afs_UFSGetDSlot\n", cmp->callInfo.C_afs_UFSGetDSlot);
- printf("\t%10d afs_StoreDCache\n", cmp->callInfo.C_afs_StoreDCache);
- printf("\t%10d afs_StoreMini\n", cmp->callInfo.C_afs_StoreMini);
- printf("\t%10d afs_StoreAllSegments\n", cmp->callInfo.C_afs_StoreAllSegments);
- printf("\t%10d afs_InvalidateAllSegments\n", cmp->callInfo.C_afs_InvalidateAllSegments);
- printf("\t%10d afs_TruncateAllSegments\n", cmp->callInfo.C_afs_TruncateAllSegments);
- printf("\t%10d afs_CheckVolSync\n", cmp->callInfo.C_afs_CheckVolSync);
- printf("\t%10d afs_wakeup\n", cmp->callInfo.C_afs_wakeup);
- printf("\t%10d afs_CFileOpen\n", cmp->callInfo.C_afs_CFileOpen);
- printf("\t%10d afs_CFileTruncate\n", cmp->callInfo.C_afs_CFileTruncate);
- printf("\t%10d afs_GetDownD\n", cmp->callInfo.C_afs_GetDownD);
- printf("\t%10d afs_WriteDCache\n", cmp->callInfo.C_afs_WriteDCache);
- printf("\t%10d afs_FlushDCache\n", cmp->callInfo.C_afs_FlushDCache);
- printf("\t%10d afs_GetDownDSlot\n", cmp->callInfo.C_afs_GetDownDSlot);
- printf("\t%10d afs_FlushVCache\n", cmp->callInfo.C_afs_FlushVCache);
- printf("\t%10d afs_GetDownV\n", cmp->callInfo.C_afs_GetDownV);
- printf("\t%10d afs_QueueVCB\n", cmp->callInfo.C_afs_QueueVCB);
- printf("\t%10d afs_call\n", cmp->callInfo.C_afs_call);
- printf("\t%10d afs_syscall_call\n", cmp->callInfo.C_afs_syscall_call);
- printf("\t%10d afs_syscall_icreate\n", cmp->callInfo.C_afs_syscall_icreate);
- printf("\t%10d afs_syscall_iopen\n", cmp->callInfo.C_afs_syscall_iopen);
- printf("\t%10d afs_syscall_iincdec\n", cmp->callInfo.C_afs_syscall_iincdec);
- printf("\t%10d afs_syscall_ireadwrite\n", cmp->callInfo.C_afs_syscall_ireadwrite);
- printf("\t%10d afs_syscall\n", cmp->callInfo.C_afs_syscall);
- printf("\t%10d lpioctl\n", cmp->callInfo.C_lpioctl);
- printf("\t%10d lsetpag\n", cmp->callInfo.C_lsetpag);
- printf("\t%10d afs_CheckInit\n", cmp->callInfo.C_afs_CheckInit);
- printf("\t%10d ClearCallback\n", cmp->callInfo.C_ClearCallBack);
- printf("\t%10d SRXAFSCB_GetCE\n", cmp->callInfo.C_SRXAFSCB_GetCE);
- printf("\t%10d SRXAFSCB_GetLock\n", cmp->callInfo.C_SRXAFSCB_GetLock);
- printf("\t%10d SRXAFSCB_CallBack\n", cmp->callInfo.C_SRXAFSCB_CallBack);
- printf("\t%10d SRXAFSCB_InitCallBackState\n", cmp->callInfo.C_SRXAFSCB_InitCallBackState);
- printf("\t%10d SRXAFSCB_Probe\n", cmp->callInfo.C_SRXAFSCB_Probe);
- printf("\t%10d afs_Chunk\n", cmp->callInfo.C_afs_Chunk);
- printf("\t%10d afs_ChunkBase\n", cmp->callInfo.C_afs_ChunkBase);
- printf("\t%10d afs_ChunkOffset\n", cmp->callInfo.C_afs_ChunkOffset);
- printf("\t%10d afs_ChunkSize\n", cmp->callInfo.C_afs_ChunkSize);
- printf("\t%10d afs_ChunkToBase\n", cmp->callInfo.C_afs_ChunkToBase);
- printf("\t%10d afs_ChunkToSize\n", cmp->callInfo.C_afs_ChunkToSize);
- printf("\t%10d afs_SetChunkSize\n", cmp->callInfo.C_afs_SetChunkSize);
- printf("\t%10d afs_config\n", cmp->callInfo.C_afs_config);
- printf("\t%10d mem_freebytes\n", cmp->callInfo.C_mem_freebytes);
- printf("\t%10d mem_getbytes\n", cmp->callInfo.C_mem_getbytes);
- printf("\t%10d afs_Daemon\n", cmp->callInfo.C_afs_Daemon);
- printf("\t%10d afs_CheckRootVolume\n", cmp->callInfo.C_afs_CheckRootVolume);
- printf("\t%10d BPath\n", cmp->callInfo.C_BPath);
- printf("\t%10d BPrefetch\n", cmp->callInfo.C_BPrefetch);
- printf("\t%10d BStore\n", cmp->callInfo.C_BStore);
- printf("\t%10d afs_BBusy\n", cmp->callInfo.C_afs_BBusy);
- printf("\t%10d afs_BQueue\n", cmp->callInfo.C_afs_BQueue);
- printf("\t%10d afs_BRelease\n", cmp->callInfo.C_afs_BRelease);
- printf("\t%10d afs_BackgroundDaemon\n", cmp->callInfo.C_afs_BackgroundDaemon);
- printf("\t%10d exporter_add\n", cmp->callInfo.C_exporter_add);
- printf("\t%10d exporter_find\n", cmp->callInfo.C_exporter_find);
- printf("\t%10d afs_gfs_kalloc\n", cmp->callInfo.C_afs_gfs_kalloc);
- printf("\t%10d afs_gfs_kfree\n", cmp->callInfo.C_afs_gfs_kfree);
- printf("\t%10d gop_lookupname\n", cmp->callInfo.C_gop_lookupname);
- printf("\t%10d afs_uniqtime\n", cmp->callInfo.C_afs_uniqtime);
- printf("\t%10d gfs_vattr_null\n", cmp->callInfo.C_gfs_vattr_null);
- printf("\t%10d afs_lock\n", cmp->callInfo.C_afs_lock);
- printf("\t%10d afs_unlock\n", cmp->callInfo.C_afs_unlock);
- printf("\t%10d afs_update\n", cmp->callInfo.C_afs_update);
- printf("\t%10d afs_gclose\n", cmp->callInfo.C_afs_gclose);
- printf("\t%10d afs_gopen\n", cmp->callInfo.C_afs_gopen);
- printf("\t%10d afs_greadlink\n", cmp->callInfo.C_afs_greadlink);
- printf("\t%10d afs_select\n", cmp->callInfo.C_afs_select);
- printf("\t%10d afs_gbmap\n", cmp->callInfo.C_afs_gbmap);
- printf("\t%10d afs_getfsdata\n", cmp->callInfo.C_afs_getfsdata);
- printf("\t%10d afs_gsymlink\n", cmp->callInfo.C_afs_gsymlink);
- printf("\t%10d afs_namei\n", cmp->callInfo.C_afs_namei);
- printf("\t%10d afs_gmount\n", cmp->callInfo.C_afs_gmount);
- printf("\t%10d afs_gget\n", cmp->callInfo.C_afs_gget);
- printf("\t%10d afs_glink\n", cmp->callInfo.C_afs_glink);
- printf("\t%10d afs_gmkdir\n", cmp->callInfo.C_afs_gmkdir);
- printf("\t%10d afs_unlink\n", cmp->callInfo.C_afs_unlink);
- printf("\t%10d afs_grmdir\n", cmp->callInfo.C_afs_grmdir);
- printf("\t%10d afs_makenode\n", cmp->callInfo.C_afs_makenode);
- printf("\t%10d afs_grename\n", cmp->callInfo.C_afs_grename);
- printf("\t%10d afs_rele\n", cmp->callInfo.C_afs_rele);
- printf("\t%10d afs_syncgp\n", cmp->callInfo.C_afs_syncgp);
- printf("\t%10d afs_getval\n", cmp->callInfo.C_afs_getval);
- printf("\t%10d afs_trunc\n", cmp->callInfo.C_afs_trunc);
- printf("\t%10d afs_rwgp\n", cmp->callInfo.C_afs_rwgp);
- printf("\t%10d afs_stat\n", cmp->callInfo.C_afs_stat);
- printf("\t%10d afsc_link\n", cmp->callInfo.C_afsc_link);
- printf("\t%10d afs_vfs_mount\n", cmp->callInfo.C_afs_vfs_mount);
- printf("\t%10d afs_uniqtime\n", cmp->callInfo.C_afs_uniqtime);
- printf("\t%10d iopen\n", cmp->callInfo.C_iopen);
- printf("\t%10d idec\n", cmp->callInfo.C_idec);
- printf("\t%10d iinc\n", cmp->callInfo.C_iinc);
- printf("\t%10d ireadwrite\n", cmp->callInfo.C_ireadwrite);
- printf("\t%10d iread\n", cmp->callInfo.C_iread);
- printf("\t%10d iwrite\n", cmp->callInfo.C_iwrite);
- printf("\t%10d iforget\n", cmp->callInfo.C_iforget);
- printf("\t%10d icreate\n", cmp->callInfo.C_icreate);
- printf("\t%10d igetinode\n", cmp->callInfo.C_igetinode);
- printf("\t%10d osi_SleepR\n", cmp->callInfo.C_osi_SleepR);
- printf("\t%10d osi_SleepS\n", cmp->callInfo.C_osi_SleepS);
- printf("\t%10d osi_SleepW\n", cmp->callInfo.C_osi_SleepW);
- printf("\t%10d osi_Sleep\n", cmp->callInfo.C_osi_Sleep);
- printf("\t%10d afs_LookupMCE\n", cmp->callInfo.C_afs_LookupMCE);
- printf("\t%10d afs_MemReadBlk\n", cmp->callInfo.C_afs_MemReadBlk);
- printf("\t%10d afs_MemReadUIO\n", cmp->callInfo.C_afs_MemReadUIO);
- printf("\t%10d afs_MemWriteBlk\n", cmp->callInfo.C_afs_MemWriteBlk);
- printf("\t%10d afs_MemWriteUIO\n", cmp->callInfo.C_afs_MemWriteUIO);
- printf("\t%10d afs_MemCacheStoreProc\n", cmp->callInfo.C_afs_MemCacheStoreProc);
- printf("\t%10d afs_MemCacheFetchProc\n", cmp->callInfo.C_afs_MemCacheFetchProc);
- printf("\t%10d afs_MemCacheTruncate\n", cmp->callInfo.C_afs_MemCacheTruncate);
- printf("\t%10d afs_MemCacheStoreProc\n", cmp->callInfo.C_afs_MemCacheStoreProc);
- printf("\t%10d afs_GetNfsClientPag\n", cmp->callInfo.C_afs_GetNfsClientPag);
- printf("\t%10d afs_FindNfsClientPag\n", cmp->callInfo.C_afs_FindNfsClientPag);
- printf("\t%10d afs_PutNfsClientPag\n", cmp->callInfo.C_afs_PutNfsClientPag);
- printf("\t%10d afs_nfsclient_reqhandler\n", cmp->callInfo.C_afs_nfsclient_reqhandler);
- printf("\t%10d afs_nfsclient_GC\n", cmp->callInfo.C_afs_nfsclient_GC);
- printf("\t%10d afs_nfsclient_hold\n", cmp->callInfo.C_afs_nfsclient_hold);
- printf("\t%10d afs_nfsclient_stats\n", cmp->callInfo.C_afs_nfsclient_stats);
- printf("\t%10d afs_nfsclient_sysname\n", cmp->callInfo.C_afs_nfsclient_sysname);
- printf("\t%10d afs_rfs_dispatch\n", cmp->callInfo.C_afs_rfs_dispatch);
- printf("\t%10d afs_nfs2afscall\n", cmp->callInfo.C_Nfs2AfsCall);
- printf("\t%10d afs_sun_xuntext\n", cmp->callInfo.C_afs_sun_xuntext);
- printf("\t%10d osi_Active\n", cmp->callInfo.C_osi_Active);
- printf("\t%10d osi_FlushPages\n", cmp->callInfo.C_osi_FlushPages);
- printf("\t%10d osi_FlushText\n", cmp->callInfo.C_osi_FlushText);
- printf("\t%10d osi_CallProc\n", cmp->callInfo.C_osi_CallProc);
- printf("\t%10d osi_CancelProc\n", cmp->callInfo.C_osi_CancelProc);
- printf("\t%10d osi_Invisible\n", cmp->callInfo.C_osi_Invisible);
- printf("\t%10d osi_Time\n", cmp->callInfo.C_osi_Time);
- printf("\t%10d osi_Alloc\n", cmp->callInfo.C_osi_Alloc);
- printf("\t%10d osi_SetTime\n", cmp->callInfo.C_osi_SetTime);
- printf("\t%10d osi_Dump\n", cmp->callInfo.C_osi_Dump);
- printf("\t%10d osi_Free\n", cmp->callInfo.C_osi_Free);
- printf("\t%10d osi_UFSOpen\n", cmp->callInfo.C_osi_UFSOpen);
- printf("\t%10d osi_Close\n", cmp->callInfo.C_osi_Close);
- printf("\t%10d osi_Stat\n", cmp->callInfo.C_osi_Stat);
- printf("\t%10d osi_Truncate\n", cmp->callInfo.C_osi_Truncate);
- printf("\t%10d osi_Read\n", cmp->callInfo.C_osi_Read);
- printf("\t%10d osi_Write\n", cmp->callInfo.C_osi_Write);
- printf("\t%10d osi_MapStrategy\n", cmp->callInfo.C_osi_MapStrategy);
- printf("\t%10d osi_AllocLargeSpace\n", cmp->callInfo.C_osi_AllocLargeSpace);
- printf("\t%10d osi_FreeLargeSpace\n", cmp->callInfo.C_osi_FreeLargeSpace);
- printf("\t%10d osi_AllocSmallSpace\n", cmp->callInfo.C_osi_AllocSmallSpace);
- printf("\t%10d osi_FreeSmallSpace\n", cmp->callInfo.C_osi_FreeSmallSpace);
- printf("\t%10d osi_CloseToTheEdge\n", cmp->callInfo.C_osi_CloseToTheEdge);
- printf("\t%10d osi_xgreedy\n", cmp->callInfo.C_osi_xgreedy);
- printf("\t%10d osi_FreeSocket\n", cmp->callInfo.C_osi_FreeSocket);
- printf("\t%10d osi_NewSocket\n", cmp->callInfo.C_osi_NewSocket);
- printf("\t%10d osi_NetSend\n", cmp->callInfo.C_osi_NetSend);
- printf("\t%10d WaitHack\n", cmp->callInfo.C_WaitHack);
- printf("\t%10d osi_CancelWait\n", cmp->callInfo.C_osi_CancelWait);
- printf("\t%10d osi_Wakeup\n", cmp->callInfo.C_osi_Wakeup);
- printf("\t%10d osi_Wait\n", cmp->callInfo.C_osi_Wait);
- printf("\t%10d dirp_Read\n", cmp->callInfo.C_dirp_Read);
- printf("\t%10d dirp_Cpy\n", cmp->callInfo.C_dirp_Cpy);
- printf("\t%10d dirp_Eq\n", cmp->callInfo.C_dirp_Eq);
- printf("\t%10d dirp_Write\n", cmp->callInfo.C_dirp_Write);
- printf("\t%10d dirp_Zap\n", cmp->callInfo.C_dirp_Zap);
- printf("\t%10d afs_ioctl\n", cmp->callInfo.C_afs_ioctl);
- printf("\t%10d handleIoctl\n", cmp->callInfo.C_HandleIoctl);
- printf("\t%10d afs_xioctl\n", cmp->callInfo.C_afs_xioctl);
- printf("\t%10d afs_pioctl\n", cmp->callInfo.C_afs_pioctl);
- printf("\t%10d HandlePioctl\n", cmp->callInfo.C_HandlePioctl);
- printf("\t%10d PGetVolumeStatus\n", cmp->callInfo.C_PGetVolumeStatus);
- printf("\t%10d PSetVolumeStatus\n", cmp->callInfo.C_PSetVolumeStatus);
- printf("\t%10d PFlush\n", cmp->callInfo.C_PFlush);
- printf("\t%10d PFlushVolumeData\n", cmp->callInfo.C_PFlushVolumeData);
- printf("\t%10d PNewStatMount\n", cmp->callInfo.C_PNewStatMount);
- printf("\t%10d PGetTokens\n", cmp->callInfo.C_PGetTokens);
- printf("\t%10d PSetTokens\n", cmp->callInfo.C_PSetTokens);
- printf("\t%10d PUnlog\n", cmp->callInfo.C_PUnlog);
- printf("\t%10d PCheckServers\n", cmp->callInfo.C_PCheckServers);
- printf("\t%10d PCheckAuth\n", cmp->callInfo.C_PCheckAuth);
- printf("\t%10d PCheckVolNames\n", cmp->callInfo.C_PCheckVolNames);
- printf("\t%10d PFindVolume\n", cmp->callInfo.C_PFindVolume);
- printf("\t%10d Prefetch\n", cmp->callInfo.C_Prefetch);
- printf("\t%10d PGetCacheSize\n", cmp->callInfo.C_PGetCacheSize);
- printf("\t%10d PSetCacheSize\n", cmp->callInfo.C_PSetCacheSize);
- printf("\t%10d PSetSysName\n", cmp->callInfo.C_PSetSysName);
- printf("\t%10d PExportAfs\n", cmp->callInfo.C_PExportAfs);
- printf("\t%10d HandleClientContext\n", cmp->callInfo.C_HandleClientContext);
- printf("\t%10d PViceAccess\n", cmp->callInfo.C_PViceAccess);
- printf("\t%10d PRemoveCallBack\n", cmp->callInfo.C_PRemoveCallBack);
- printf("\t%10d PRemoveMount\n", cmp->callInfo.C_PRemoveMount);
- printf("\t%10d PSetVolumeStatus\n", cmp->callInfo.C_PSetVolumeStatus);
- printf("\t%10d PListCells\n", cmp->callInfo.C_PListCells);
- printf("\t%10d PNewCell\n", cmp->callInfo.C_PNewCell);
- printf("\t%10d PGetUserCell\n", cmp->callInfo.C_PGetUserCell);
- printf("\t%10d PGetCellStatus\n", cmp->callInfo.C_PGetCellStatus);
- printf("\t%10d PSetCellStatus\n", cmp->callInfo.C_PSetCellStatus);
- printf("\t%10d PVenusLogging\n", cmp->callInfo.C_PVenusLogging);
- printf("\t%10d PGetAcl\n", cmp->callInfo.C_PGetAcl);
- printf("\t%10d PGetFID\n", cmp->callInfo.C_PGetFID);
- printf("\t%10d PSetAcl\n", cmp->callInfo.C_PSetAcl);
- printf("\t%10d PGetFileCell\n", cmp->callInfo.C_PGetFileCell);
- printf("\t%10d PGetWSCell\n", cmp->callInfo.C_PGetWSCell);
- printf("\t%10d PGetSPrefs\n", cmp->callInfo.C_PGetSPrefs);
- printf("\t%10d PSetSPrefs\n", cmp->callInfo.C_PSetSPrefs);
- printf("\t%10d afs_ResetAccessCache\n", cmp->callInfo.C_afs_ResetAccessCache);
- printf("\t%10d afs_FindUser\n", cmp->callInfo.C_afs_FindUser);
- printf("\t%10d afs_GetUser\n", cmp->callInfo.C_afs_GetUser);
- printf("\t%10d afs_GCUserData\n", cmp->callInfo.C_afs_GCUserData);
- printf("\t%10d afs_PutUser\n", cmp->callInfo.C_afs_PutUser);
- printf("\t%10d afs_SetPrimary\n", cmp->callInfo.C_afs_SetPrimary);
- printf("\t%10d afs_ResetUserConns\n", cmp->callInfo.C_afs_ResetUserConns);
- printf("\t%10d afs_RemoveUserConns\n", cmp->callInfo.C_RemoveUserConns);
- printf("\t%10d afs_ResourceInit\n", cmp->callInfo.C_afs_ResourceInit);
- printf("\t%10d afs_GetCell\n", cmp->callInfo.C_afs_GetCell);
- printf("\t%10d afs_GetCellByIndex\n", cmp->callInfo.C_afs_GetCellByIndex);
- printf("\t%10d afs_GetCellByName\n", cmp->callInfo.C_afs_GetCellByName);
- printf("\t%10d afs_NewCell\n", cmp->callInfo.C_afs_NewCell);
- printf("\t%10d CheckVLDB\n", cmp->callInfo.C_CheckVLDB);
- printf("\t%10d afs_GetVolume\n", cmp->callInfo.C_afs_GetVolume);
- printf("\t%10d afs_PutVolume\n", cmp->callInfo.C_afs_PutVolume);
- printf("\t%10d afs_GetVolumeByName\n", cmp->callInfo.C_afs_GetVolumeByName);
- printf("\t%10d afs_random\n", cmp->callInfo.C_afs_random);
- printf("\t%10d InstallVolumeEntry\n", cmp->callInfo.C_InstallVolumeEntry);
- printf("\t%10d InstallVolumeInfo\n", cmp->callInfo.C_InstallVolumeInfo);
- printf("\t%10d afs_ResetVolumeInfo\n", cmp->callInfo.C_afs_ResetVolumeInfo);
- printf("\t%10d afs_FindServer\n", cmp->callInfo.C_afs_FindServer);
- printf("\t%10d afs_GetServer\n", cmp->callInfo.C_afs_GetServer);
- printf("\t%10d afs_SortServers\n", cmp->callInfo.C_afs_SortServers);
- printf("\t%10d afs_CheckServers\n", cmp->callInfo.C_afs_CheckServers);
- printf("\t%10d ServerDown\n", cmp->callInfo.C_ServerDown);
- printf("\t%10d afs_Conn\n", cmp->callInfo.C_afs_Conn);
- printf("\t%10d afs_PutConn\n", cmp->callInfo.C_afs_PutConn);
- printf("\t%10d afs_ConnByHost\n", cmp->callInfo.C_afs_ConnByHost);
- printf("\t%10d afs_ConnByMHosts\n", cmp->callInfo.C_afs_ConnByMHosts);
- printf("\t%10d afs_Analyze\n", cmp->callInfo.C_afs_Analyze);
- printf("\t%10d afs_CheckLocks\n", cmp->callInfo.C_afs_CheckLocks);
- printf("\t%10d CheckVLServer\n", cmp->callInfo.C_CheckVLServer);
- printf("\t%10d afs_CheckCacheResets\n", cmp->callInfo.C_afs_CheckCacheResets);
- printf("\t%10d afs_CheckVolumeNames\n", cmp->callInfo.C_afs_CheckVolumeNames);
- printf("\t%10d afs_CheckCode\n", cmp->callInfo.C_afs_CheckCode);
- printf("\t%10d afs_CopyError\n", cmp->callInfo.C_afs_CopyError);
- printf("\t%10d afs_FinalizeReq\n", cmp->callInfo.C_afs_FinalizeReq);
- printf("\t%10d afs_GetVolCache\n", cmp->callInfo.C_afs_GetVolCache);
- printf("\t%10d afs_GetVolSlot\n", cmp->callInfo.C_afs_GetVolSlot);
- printf("\t%10d afs_UFSGetVolSlot\n", cmp->callInfo.C_afs_UFSGetVolSlot);
- printf("\t%10d afs_MemGetVolSlot\n", cmp->callInfo.C_afs_MemGetVolSlot);
- printf("\t%10d afs_WriteVolCache\n", cmp->callInfo.C_afs_WriteVolCache);
- printf("\t%10d haveCallbacksfrom\n", cmp->callInfo.C_HaveCallBacksFrom);
- printf("\t%10d afs_getpage\n", cmp->callInfo.C_afs_getpage);
- printf("\t%10d afs_putpage\n", cmp->callInfo.C_afs_putpage);
- printf("\t%10d afs_nfsrdwr\n", cmp->callInfo.C_afs_nfsrdwr);
- printf("\t%10d afs_map\n", cmp->callInfo.C_afs_map);
- printf("\t%10d afs_cmp\n", cmp->callInfo.C_afs_cmp);
- printf("\t%10d afs_PageLeft\n", cmp->callInfo.C_afs_PageLeft);
- printf("\t%10d afs_mount\n", cmp->callInfo.C_afs_mount);
- printf("\t%10d afs_unmount\n", cmp->callInfo.C_afs_unmount);
- printf("\t%10d afs_root\n", cmp->callInfo.C_afs_root);
- printf("\t%10d afs_statfs\n", cmp->callInfo.C_afs_statfs);
- printf("\t%10d afs_sync\n", cmp->callInfo.C_afs_sync);
- printf("\t%10d afs_vget\n", cmp->callInfo.C_afs_vget);
- printf("\t%10d afs_index\n", cmp->callInfo.C_afs_index);
- printf("\t%10d afs_setpag\n", cmp->callInfo.C_afs_setpag);
- printf("\t%10d genpag\n", cmp->callInfo.C_genpag);
- printf("\t%10d getpag\n", cmp->callInfo.C_getpag);
- printf("\t%10d genpag\n", cmp->callInfo.C_genpag);
- printf("\t%10d afs_GetMariner\n", cmp->callInfo.C_afs_GetMariner);
- printf("\t%10d afs_AddMarinerName\n", cmp->callInfo.C_afs_AddMarinerName);
- printf("\t%10d afs_open\n", cmp->callInfo.C_afs_open);
- printf("\t%10d afs_close\n", cmp->callInfo.C_afs_close);
- printf("\t%10d afs_closex\n", cmp->callInfo.C_afs_closex);
- printf("\t%10d afs_write\n", cmp->callInfo.C_afs_write);
- printf("\t%10d afs_UFSwrite\n", cmp->callInfo.C_afs_UFSWrite);
- printf("\t%10d afs_Memwrite\n", cmp->callInfo.C_afs_MemWrite);
- printf("\t%10d afs_rdwr\n", cmp->callInfo.C_afs_rdwr);
- printf("\t%10d afs_read\n", cmp->callInfo.C_afs_read);
- printf("\t%10d afs_UFSread\n", cmp->callInfo.C_afs_UFSRead);
- printf("\t%10d afs_Memread\n", cmp->callInfo.C_afs_MemRead);
- printf("\t%10d afs_CopyOutAttrs\n", cmp->callInfo.C_afs_CopyOutAttrs);
- printf("\t%10d afs_access\n", cmp->callInfo.C_afs_access);
- printf("\t%10d afs_getattr\n", cmp->callInfo.C_afs_getattr);
- printf("\t%10d afs_setattr\n", cmp->callInfo.C_afs_setattr);
- printf("\t%10d afs_VAttrToAS\n", cmp->callInfo.C_afs_VAttrToAS);
- printf("\t%10d EvalMountPoint\n", cmp->callInfo.C_EvalMountPoint);
- printf("\t%10d afs_lookup\n", cmp->callInfo.C_afs_lookup);
- printf("\t%10d afs_create\n", cmp->callInfo.C_afs_create);
- printf("\t%10d afs_LocalHero\n", cmp->callInfo.C_afs_LocalHero);
- printf("\t%10d afs_remove\n", cmp->callInfo.C_afs_remove);
- printf("\t%10d afs_link\n", cmp->callInfo.C_afs_link);
- printf("\t%10d afs_rename\n", cmp->callInfo.C_afs_rename);
- printf("\t%10d afs_InitReq\n", cmp->callInfo.C_afs_InitReq);
- printf("\t%10d afs_mkdir\n", cmp->callInfo.C_afs_mkdir);
- printf("\t%10d afs_rmdir\n", cmp->callInfo.C_afs_rmdir);
- printf("\t%10d afs_readdir\n", cmp->callInfo.C_afs_readdir);
- printf("\t%10d afs_read1dir\n", cmp->callInfo.C_afs_read1dir);
- printf("\t%10d afs_readdir_move\n", cmp->callInfo.C_afs_readdir_move);
- printf("\t%10d afs_readdir_iter\n", cmp->callInfo.C_afs_readdir_iter);
- printf("\t%10d afs_symlink\n", cmp->callInfo.C_afs_symlink);
- printf("\t%10d afs_HandleLink\n", cmp->callInfo.C_afs_HandleLink);
- printf("\t%10d afs_MemHandleLink\n", cmp->callInfo.C_afs_MemHandleLink);
- printf("\t%10d afs_UFSHandleLink\n", cmp->callInfo.C_afs_UFSHandleLink);
- printf("\t%10d HandleFlock\n", cmp->callInfo.C_HandleFlock);
- printf("\t%10d afs_readlink\n", cmp->callInfo.C_afs_readlink);
- printf("\t%10d afs_fsync\n", cmp->callInfo.C_afs_fsync);
- printf("\t%10d afs_inactive\n", cmp->callInfo.C_afs_inactive);
- printf("\t%10d afs_ustrategy\n", cmp->callInfo.C_afs_ustrategy);
- printf("\t%10d afs_strategy\n", cmp->callInfo.C_afs_strategy);
- printf("\t%10d afs_bread\n", cmp->callInfo.C_afs_bread);
- printf("\t%10d afs_brelse\n", cmp->callInfo.C_afs_brelse);
- printf("\t%10d afs_bmap\n", cmp->callInfo.C_afs_bmap);
- printf("\t%10d afs_fid\n", cmp->callInfo.C_afs_fid);
- printf("\t%10d afs_FakeOpen\n", cmp->callInfo.C_afs_FakeOpen);
- printf("\t%10d afs_FakeClose\n", cmp->callInfo.C_afs_FakeClose);
- printf("\t%10d afs_StoreOnLastReference\n", cmp->callInfo.C_afs_StoreOnLastReference);
- printf("\t%10d afs_AccessOK\n", cmp->callInfo.C_afs_AccessOK);
- printf("\t%10d afs_GetAccessBits\n", cmp->callInfo.C_afs_GetAccessBits);
- printf("\t%10d afsio_copy\n", cmp->callInfo.C_afsio_copy);
- printf("\t%10d afsio_trim\n", cmp->callInfo.C_afsio_trim);
- printf("\t%10d afsio_skip\n", cmp->callInfo.C_afsio_skip);
- printf("\t%10d afs_page_read\n", cmp->callInfo.C_afs_page_read);
- printf("\t%10d afs_page_write\n", cmp->callInfo.C_afs_page_write);
- printf("\t%10d afs_page_read\n", cmp->callInfo.C_afs_page_read);
- printf("\t%10d afs_get_groups_from_pag\n", cmp->callInfo.C_afs_get_groups_from_pag);
- printf("\t%10d afs_get_pag_from_groups\n", cmp->callInfo.C_afs_get_pag_from_groups);
- printf("\t%10d AddPag\n", cmp->callInfo.C_AddPag);
- printf("\t%10d PagInCred\n", cmp->callInfo.C_PagInCred);
- printf("\t%10d afs_getgroups\n", cmp->callInfo.C_afs_getgroups);
- printf("\t%10d afs_page_in\n", cmp->callInfo.C_afs_page_in);
- printf("\t%10d afs_page_out\n", cmp->callInfo.C_afs_page_out);
- printf("\t%10d afs_AdvanceFD\n", cmp->callInfo.C_afs_AdvanceFD);
- printf("\t%10d afs_lockf\n", cmp->callInfo.C_afs_lockf);
- printf("\t%10d afs_xsetgroups\n", cmp->callInfo.C_afs_xsetgroups);
- printf("\t%10d afs_nlinks\n", cmp->callInfo.C_afs_nlinks);
- printf("\t%10d afs_lockctl\n", cmp->callInfo.C_afs_lockctl);
- printf("\t%10d afs_xflock\n", cmp->callInfo.C_afs_xflock);
- printf("\t%10d PGetCPrefs\n", cmp->callInfo.C_PGetCPrefs);
- printf("\t%10d PSetCPrefs\n", cmp->callInfo.C_PSetCPrefs);
+ printf("\t%10d afs_init\n", cmp->callInfo.C_afs_init);
+ printf("\t%10d gop_rdwr\n", cmp->callInfo.C_gop_rdwr);
+ printf("\t%10d aix_gnode_rele\n", cmp->callInfo.C_aix_gnode_rele);
+ printf("\t%10d gettimeofday\n", cmp->callInfo.C_gettimeofday);
+ printf("\t%10d m_cpytoc\n", cmp->callInfo.C_m_cpytoc);
+ printf("\t%10d aix_vattr_null\n", cmp->callInfo.C_aix_vattr_null);
+ printf("\t%10d afs_gn_frunc\n", cmp->callInfo.C_afs_gn_ftrunc);
+ printf("\t%10d afs_gn_rdwr\n", cmp->callInfo.C_afs_gn_rdwr);
+ printf("\t%10d afs_gn_ioctl\n", cmp->callInfo.C_afs_gn_ioctl);
+ printf("\t%10d afs_gn_locktl\n", cmp->callInfo.C_afs_gn_lockctl);
+ printf("\t%10d afs_gn_readlink\n", cmp->callInfo.C_afs_gn_readlink);
+ printf("\t%10d afs_gn_readdir\n", cmp->callInfo.C_afs_gn_readdir);
+ printf("\t%10d afs_gn_select\n", cmp->callInfo.C_afs_gn_select);
+ printf("\t%10d afs_gn_strategy\n", cmp->callInfo.C_afs_gn_strategy);
+ printf("\t%10d afs_gn_symlink\n", cmp->callInfo.C_afs_gn_symlink);
+ printf("\t%10d afs_gn_revoke\n", cmp->callInfo.C_afs_gn_revoke);
+ printf("\t%10d afs_gn_link\n", cmp->callInfo.C_afs_gn_link);
+ printf("\t%10d afs_gn_mkdir\n", cmp->callInfo.C_afs_gn_mkdir);
+ printf("\t%10d afs_gn_mknod\n", cmp->callInfo.C_afs_gn_mknod);
+ printf("\t%10d afs_gn_remove\n", cmp->callInfo.C_afs_gn_remove);
+ printf("\t%10d afs_gn_rename\n", cmp->callInfo.C_afs_gn_rename);
+ printf("\t%10d afs_gn_rmdir\n", cmp->callInfo.C_afs_gn_rmdir);
+ printf("\t%10d afs_gn_fid\n", cmp->callInfo.C_afs_gn_fid);
+ printf("\t%10d afs_gn_lookup\n", cmp->callInfo.C_afs_gn_lookup);
+ printf("\t%10d afs_gn_open\n", cmp->callInfo.C_afs_gn_open);
+ printf("\t%10d afs_gn_create\n", cmp->callInfo.C_afs_gn_create);
+ printf("\t%10d afs_gn_hold\n", cmp->callInfo.C_afs_gn_hold);
+ printf("\t%10d afs_gn_rele\n", cmp->callInfo.C_afs_gn_rele);
+ printf("\t%10d afs_gn_unmap\n", cmp->callInfo.C_afs_gn_unmap);
+ printf("\t%10d afs_gn_access\n", cmp->callInfo.C_afs_gn_access);
+ printf("\t%10d afs_gn_getattr\n", cmp->callInfo.C_afs_gn_getattr);
+ printf("\t%10d afs_gn_setattr\n", cmp->callInfo.C_afs_gn_setattr);
+ printf("\t%10d afs_gn_fclear\n", cmp->callInfo.C_afs_gn_fclear);
+ printf("\t%10d afs_gn_fsync\n", cmp->callInfo.C_afs_gn_fsync);
+ printf("\t%10d phash\n", cmp->callInfo.C_pHash);
+ printf("\t%10d DInit\n", cmp->callInfo.C_DInit);
+ printf("\t%10d DRead\n", cmp->callInfo.C_DRead);
+ printf("\t%10d FixupBucket\n", cmp->callInfo.C_FixupBucket);
+ printf("\t%10d afs_newslot\n", cmp->callInfo.C_afs_newslot);
+ printf("\t%10d DRelease\n", cmp->callInfo.C_DRelease);
+ printf("\t%10d DFlush\n", cmp->callInfo.C_DFlush);
+ printf("\t%10d DFlushEntry\n", cmp->callInfo.C_DFlushEntry);
+ printf("\t%10d DVOffset\n", cmp->callInfo.C_DVOffset);
+ printf("\t%10d DZap\n", cmp->callInfo.C_DZap);
+ printf("\t%10d DNew\n", cmp->callInfo.C_DNew);
+ printf("\t%10d afs_RemoveVCB\n", cmp->callInfo.C_afs_RemoveVCB);
+ printf("\t%10d afs_NewVCache\n", cmp->callInfo.C_afs_NewVCache);
+ printf("\t%10d afs_FlushActiveVcaches\n",
+ cmp->callInfo.C_afs_FlushActiveVcaches);
+ printf("\t%10d afs_VerifyVCache\n", cmp->callInfo.C_afs_VerifyVCache);
+ printf("\t%10d afs_WriteVCache\n", cmp->callInfo.C_afs_WriteVCache);
+ printf("\t%10d afs_GetVCache\n", cmp->callInfo.C_afs_GetVCache);
+ printf("\t%10d afs_StuffVcache\n", cmp->callInfo.C_afs_StuffVcache);
+ printf("\t%10d afs_FindVCache\n", cmp->callInfo.C_afs_FindVCache);
+ printf("\t%10d afs_PutDCache\n", cmp->callInfo.C_afs_PutDCache);
+ printf("\t%10d afs_PutVCache\n", cmp->callInfo.C_afs_PutVCache);
+ printf("\t%10d CacheStoreProc\n", cmp->callInfo.C_CacheStoreProc);
+ printf("\t%10d afs_FindDcache\n", cmp->callInfo.C_afs_FindDCache);
+ printf("\t%10d afs_TryToSmush\n", cmp->callInfo.C_afs_TryToSmush);
+ printf("\t%10d afs_AdjustSize\n", cmp->callInfo.C_afs_AdjustSize);
+ printf("\t%10d afs_CheckSize\n", cmp->callInfo.C_afs_CheckSize);
+ printf("\t%10d afs_StoreWarn\n", cmp->callInfo.C_afs_StoreWarn);
+ printf("\t%10d CacheFetchProc\n", cmp->callInfo.C_CacheFetchProc);
+ printf("\t%10d UFS_CacheStoreProc\n", cmp->callInfo.C_UFS_CacheStoreProc);
+ printf("\t%10d UFS_CacheFetchProc\n", cmp->callInfo.C_UFS_CacheFetchProc);
+ printf("\t%10d afs_GetDCache\n", cmp->callInfo.C_afs_GetDCache);
+ printf("\t%10d afs_SimpleVStat\n", cmp->callInfo.C_afs_SimpleVStat);
+ printf("\t%10d afs_ProcessFS\n", cmp->callInfo.C_afs_ProcessFS);
+ printf("\t%10d afs_InitCacheInfo\n", cmp->callInfo.C_afs_InitCacheInfo);
+ printf("\t%10d afs_InitVolumeInfo\n", cmp->callInfo.C_afs_InitVolumeInfo);
+ printf("\t%10d afs_InitCacheFile\n", cmp->callInfo.C_afs_InitCacheFile);
+ printf("\t%10d afs_CacheInit\n", cmp->callInfo.C_afs_CacheInit);
+ printf("\t%10d afs_GetDSlot\n", cmp->callInfo.C_afs_GetDSlot);
+ printf("\t%10d afs_WriteThroughDSlots\n",
+ cmp->callInfo.C_afs_WriteThroughDSlots);
+ printf("\t%10d afs_MemGetDSlot\n", cmp->callInfo.C_afs_MemGetDSlot);
+ printf("\t%10d afs_UFSGetDSlot\n", cmp->callInfo.C_afs_UFSGetDSlot);
+ printf("\t%10d afs_StoreDCache\n", cmp->callInfo.C_afs_StoreDCache);
+ printf("\t%10d afs_StoreMini\n", cmp->callInfo.C_afs_StoreMini);
+ printf("\t%10d afs_StoreAllSegments\n",
+ cmp->callInfo.C_afs_StoreAllSegments);
+ printf("\t%10d afs_InvalidateAllSegments\n",
+ cmp->callInfo.C_afs_InvalidateAllSegments);
+ printf("\t%10d afs_TruncateAllSegments\n",
+ cmp->callInfo.C_afs_TruncateAllSegments);
+ printf("\t%10d afs_CheckVolSync\n", cmp->callInfo.C_afs_CheckVolSync);
+ printf("\t%10d afs_wakeup\n", cmp->callInfo.C_afs_wakeup);
+ printf("\t%10d afs_CFileOpen\n", cmp->callInfo.C_afs_CFileOpen);
+ printf("\t%10d afs_CFileTruncate\n", cmp->callInfo.C_afs_CFileTruncate);
+ printf("\t%10d afs_GetDownD\n", cmp->callInfo.C_afs_GetDownD);
+ printf("\t%10d afs_WriteDCache\n", cmp->callInfo.C_afs_WriteDCache);
+ printf("\t%10d afs_FlushDCache\n", cmp->callInfo.C_afs_FlushDCache);
+ printf("\t%10d afs_GetDownDSlot\n", cmp->callInfo.C_afs_GetDownDSlot);
+ printf("\t%10d afs_FlushVCache\n", cmp->callInfo.C_afs_FlushVCache);
+ printf("\t%10d afs_GetDownV\n", cmp->callInfo.C_afs_GetDownV);
+ printf("\t%10d afs_QueueVCB\n", cmp->callInfo.C_afs_QueueVCB);
+ printf("\t%10d afs_call\n", cmp->callInfo.C_afs_call);
+ printf("\t%10d afs_syscall_call\n", cmp->callInfo.C_afs_syscall_call);
+ printf("\t%10d afs_syscall_icreate\n",
+ cmp->callInfo.C_afs_syscall_icreate);
+ printf("\t%10d afs_syscall_iopen\n", cmp->callInfo.C_afs_syscall_iopen);
+ printf("\t%10d afs_syscall_iincdec\n",
+ cmp->callInfo.C_afs_syscall_iincdec);
+ printf("\t%10d afs_syscall_ireadwrite\n",
+ cmp->callInfo.C_afs_syscall_ireadwrite);
+ printf("\t%10d afs_syscall\n", cmp->callInfo.C_afs_syscall);
+ printf("\t%10d lpioctl\n", cmp->callInfo.C_lpioctl);
+ printf("\t%10d lsetpag\n", cmp->callInfo.C_lsetpag);
+ printf("\t%10d afs_CheckInit\n", cmp->callInfo.C_afs_CheckInit);
+ printf("\t%10d ClearCallback\n", cmp->callInfo.C_ClearCallBack);
+ printf("\t%10d SRXAFSCB_GetCE\n", cmp->callInfo.C_SRXAFSCB_GetCE);
+ printf("\t%10d SRXAFSCB_GetLock\n", cmp->callInfo.C_SRXAFSCB_GetLock);
+ printf("\t%10d SRXAFSCB_CallBack\n", cmp->callInfo.C_SRXAFSCB_CallBack);
+ printf("\t%10d SRXAFSCB_InitCallBackState\n",
+ cmp->callInfo.C_SRXAFSCB_InitCallBackState);
+ printf("\t%10d SRXAFSCB_Probe\n", cmp->callInfo.C_SRXAFSCB_Probe);
+ printf("\t%10d afs_Chunk\n", cmp->callInfo.C_afs_Chunk);
+ printf("\t%10d afs_ChunkBase\n", cmp->callInfo.C_afs_ChunkBase);
+ printf("\t%10d afs_ChunkOffset\n", cmp->callInfo.C_afs_ChunkOffset);
+ printf("\t%10d afs_ChunkSize\n", cmp->callInfo.C_afs_ChunkSize);
+ printf("\t%10d afs_ChunkToBase\n", cmp->callInfo.C_afs_ChunkToBase);
+ printf("\t%10d afs_ChunkToSize\n", cmp->callInfo.C_afs_ChunkToSize);
+ printf("\t%10d afs_SetChunkSize\n", cmp->callInfo.C_afs_SetChunkSize);
+ printf("\t%10d afs_config\n", cmp->callInfo.C_afs_config);
+ printf("\t%10d mem_freebytes\n", cmp->callInfo.C_mem_freebytes);
+ printf("\t%10d mem_getbytes\n", cmp->callInfo.C_mem_getbytes);
+ printf("\t%10d afs_Daemon\n", cmp->callInfo.C_afs_Daemon);
+ printf("\t%10d afs_CheckRootVolume\n",
+ cmp->callInfo.C_afs_CheckRootVolume);
+ printf("\t%10d BPath\n", cmp->callInfo.C_BPath);
+ printf("\t%10d BPrefetch\n", cmp->callInfo.C_BPrefetch);
+ printf("\t%10d BStore\n", cmp->callInfo.C_BStore);
+ printf("\t%10d afs_BBusy\n", cmp->callInfo.C_afs_BBusy);
+ printf("\t%10d afs_BQueue\n", cmp->callInfo.C_afs_BQueue);
+ printf("\t%10d afs_BRelease\n", cmp->callInfo.C_afs_BRelease);
+ printf("\t%10d afs_BackgroundDaemon\n",
+ cmp->callInfo.C_afs_BackgroundDaemon);
+ printf("\t%10d exporter_add\n", cmp->callInfo.C_exporter_add);
+ printf("\t%10d exporter_find\n", cmp->callInfo.C_exporter_find);
+ printf("\t%10d afs_gfs_kalloc\n", cmp->callInfo.C_afs_gfs_kalloc);
+ printf("\t%10d afs_gfs_kfree\n", cmp->callInfo.C_afs_gfs_kfree);
+ printf("\t%10d gop_lookupname\n", cmp->callInfo.C_gop_lookupname);
+ printf("\t%10d afs_uniqtime\n", cmp->callInfo.C_afs_uniqtime);
+ printf("\t%10d gfs_vattr_null\n", cmp->callInfo.C_gfs_vattr_null);
+ printf("\t%10d afs_lock\n", cmp->callInfo.C_afs_lock);
+ printf("\t%10d afs_unlock\n", cmp->callInfo.C_afs_unlock);
+ printf("\t%10d afs_update\n", cmp->callInfo.C_afs_update);
+ printf("\t%10d afs_gclose\n", cmp->callInfo.C_afs_gclose);
+ printf("\t%10d afs_gopen\n", cmp->callInfo.C_afs_gopen);
+ printf("\t%10d afs_greadlink\n", cmp->callInfo.C_afs_greadlink);
+ printf("\t%10d afs_select\n", cmp->callInfo.C_afs_select);
+ printf("\t%10d afs_gbmap\n", cmp->callInfo.C_afs_gbmap);
+ printf("\t%10d afs_getfsdata\n", cmp->callInfo.C_afs_getfsdata);
+ printf("\t%10d afs_gsymlink\n", cmp->callInfo.C_afs_gsymlink);
+ printf("\t%10d afs_namei\n", cmp->callInfo.C_afs_namei);
+ printf("\t%10d afs_gmount\n", cmp->callInfo.C_afs_gmount);
+ printf("\t%10d afs_gget\n", cmp->callInfo.C_afs_gget);
+ printf("\t%10d afs_glink\n", cmp->callInfo.C_afs_glink);
+ printf("\t%10d afs_gmkdir\n", cmp->callInfo.C_afs_gmkdir);
+ printf("\t%10d afs_unlink\n", cmp->callInfo.C_afs_unlink);
+ printf("\t%10d afs_grmdir\n", cmp->callInfo.C_afs_grmdir);
+ printf("\t%10d afs_makenode\n", cmp->callInfo.C_afs_makenode);
+ printf("\t%10d afs_grename\n", cmp->callInfo.C_afs_grename);
+ printf("\t%10d afs_rele\n", cmp->callInfo.C_afs_rele);
+ printf("\t%10d afs_syncgp\n", cmp->callInfo.C_afs_syncgp);
+ printf("\t%10d afs_getval\n", cmp->callInfo.C_afs_getval);
+ printf("\t%10d afs_trunc\n", cmp->callInfo.C_afs_trunc);
+ printf("\t%10d afs_rwgp\n", cmp->callInfo.C_afs_rwgp);
+ printf("\t%10d afs_stat\n", cmp->callInfo.C_afs_stat);
+ printf("\t%10d afsc_link\n", cmp->callInfo.C_afsc_link);
+ printf("\t%10d afs_vfs_mount\n", cmp->callInfo.C_afs_vfs_mount);
+ printf("\t%10d afs_uniqtime\n", cmp->callInfo.C_afs_uniqtime);
+ printf("\t%10d iopen\n", cmp->callInfo.C_iopen);
+ printf("\t%10d idec\n", cmp->callInfo.C_idec);
+ printf("\t%10d iinc\n", cmp->callInfo.C_iinc);
+ printf("\t%10d ireadwrite\n", cmp->callInfo.C_ireadwrite);
+ printf("\t%10d iread\n", cmp->callInfo.C_iread);
+ printf("\t%10d iwrite\n", cmp->callInfo.C_iwrite);
+ printf("\t%10d iforget\n", cmp->callInfo.C_iforget);
+ printf("\t%10d icreate\n", cmp->callInfo.C_icreate);
+ printf("\t%10d igetinode\n", cmp->callInfo.C_igetinode);
+ printf("\t%10d osi_SleepR\n", cmp->callInfo.C_osi_SleepR);
+ printf("\t%10d osi_SleepS\n", cmp->callInfo.C_osi_SleepS);
+ printf("\t%10d osi_SleepW\n", cmp->callInfo.C_osi_SleepW);
+ printf("\t%10d osi_Sleep\n", cmp->callInfo.C_osi_Sleep);
+ printf("\t%10d afs_LookupMCE\n", cmp->callInfo.C_afs_LookupMCE);
+ printf("\t%10d afs_MemReadBlk\n", cmp->callInfo.C_afs_MemReadBlk);
+ printf("\t%10d afs_MemReadUIO\n", cmp->callInfo.C_afs_MemReadUIO);
+ printf("\t%10d afs_MemWriteBlk\n", cmp->callInfo.C_afs_MemWriteBlk);
+ printf("\t%10d afs_MemWriteUIO\n", cmp->callInfo.C_afs_MemWriteUIO);
+ printf("\t%10d afs_MemCacheStoreProc\n",
+ cmp->callInfo.C_afs_MemCacheStoreProc);
+ printf("\t%10d afs_MemCacheFetchProc\n",
+ cmp->callInfo.C_afs_MemCacheFetchProc);
+ printf("\t%10d afs_MemCacheTruncate\n",
+ cmp->callInfo.C_afs_MemCacheTruncate);
+ printf("\t%10d afs_MemCacheStoreProc\n",
+ cmp->callInfo.C_afs_MemCacheStoreProc);
+ printf("\t%10d afs_GetNfsClientPag\n",
+ cmp->callInfo.C_afs_GetNfsClientPag);
+ printf("\t%10d afs_FindNfsClientPag\n",
+ cmp->callInfo.C_afs_FindNfsClientPag);
+ printf("\t%10d afs_PutNfsClientPag\n",
+ cmp->callInfo.C_afs_PutNfsClientPag);
+ printf("\t%10d afs_nfsclient_reqhandler\n",
+ cmp->callInfo.C_afs_nfsclient_reqhandler);
+ printf("\t%10d afs_nfsclient_GC\n", cmp->callInfo.C_afs_nfsclient_GC);
+ printf("\t%10d afs_nfsclient_hold\n", cmp->callInfo.C_afs_nfsclient_hold);
+ printf("\t%10d afs_nfsclient_stats\n",
+ cmp->callInfo.C_afs_nfsclient_stats);
+ printf("\t%10d afs_nfsclient_sysname\n",
+ cmp->callInfo.C_afs_nfsclient_sysname);
+ printf("\t%10d afs_rfs_dispatch\n", cmp->callInfo.C_afs_rfs_dispatch);
+ printf("\t%10d afs_nfs2afscall\n", cmp->callInfo.C_Nfs2AfsCall);
+ printf("\t%10d afs_sun_xuntext\n", cmp->callInfo.C_afs_sun_xuntext);
+ printf("\t%10d osi_Active\n", cmp->callInfo.C_osi_Active);
+ printf("\t%10d osi_FlushPages\n", cmp->callInfo.C_osi_FlushPages);
+ printf("\t%10d osi_FlushText\n", cmp->callInfo.C_osi_FlushText);
+ printf("\t%10d osi_CallProc\n", cmp->callInfo.C_osi_CallProc);
+ printf("\t%10d osi_CancelProc\n", cmp->callInfo.C_osi_CancelProc);
+ printf("\t%10d osi_Invisible\n", cmp->callInfo.C_osi_Invisible);
+ printf("\t%10d osi_Time\n", cmp->callInfo.C_osi_Time);
+ printf("\t%10d osi_Alloc\n", cmp->callInfo.C_osi_Alloc);
+ printf("\t%10d osi_SetTime\n", cmp->callInfo.C_osi_SetTime);
+ printf("\t%10d osi_Dump\n", cmp->callInfo.C_osi_Dump);
+ printf("\t%10d osi_Free\n", cmp->callInfo.C_osi_Free);
+ printf("\t%10d osi_UFSOpen\n", cmp->callInfo.C_osi_UFSOpen);
+ printf("\t%10d osi_Close\n", cmp->callInfo.C_osi_Close);
+ printf("\t%10d osi_Stat\n", cmp->callInfo.C_osi_Stat);
+ printf("\t%10d osi_Truncate\n", cmp->callInfo.C_osi_Truncate);
+ printf("\t%10d osi_Read\n", cmp->callInfo.C_osi_Read);
+ printf("\t%10d osi_Write\n", cmp->callInfo.C_osi_Write);
+ printf("\t%10d osi_MapStrategy\n", cmp->callInfo.C_osi_MapStrategy);
+ printf("\t%10d osi_AllocLargeSpace\n",
+ cmp->callInfo.C_osi_AllocLargeSpace);
+ printf("\t%10d osi_FreeLargeSpace\n", cmp->callInfo.C_osi_FreeLargeSpace);
+ printf("\t%10d osi_AllocSmallSpace\n",
+ cmp->callInfo.C_osi_AllocSmallSpace);
+ printf("\t%10d osi_FreeSmallSpace\n", cmp->callInfo.C_osi_FreeSmallSpace);
+ printf("\t%10d osi_CloseToTheEdge\n", cmp->callInfo.C_osi_CloseToTheEdge);
+ printf("\t%10d osi_xgreedy\n", cmp->callInfo.C_osi_xgreedy);
+ printf("\t%10d osi_FreeSocket\n", cmp->callInfo.C_osi_FreeSocket);
+ printf("\t%10d osi_NewSocket\n", cmp->callInfo.C_osi_NewSocket);
+ printf("\t%10d osi_NetSend\n", cmp->callInfo.C_osi_NetSend);
+ printf("\t%10d WaitHack\n", cmp->callInfo.C_WaitHack);
+ printf("\t%10d osi_CancelWait\n", cmp->callInfo.C_osi_CancelWait);
+ printf("\t%10d osi_Wakeup\n", cmp->callInfo.C_osi_Wakeup);
+ printf("\t%10d osi_Wait\n", cmp->callInfo.C_osi_Wait);
+ printf("\t%10d dirp_Read\n", cmp->callInfo.C_dirp_Read);
+ printf("\t%10d dirp_Cpy\n", cmp->callInfo.C_dirp_Cpy);
+ printf("\t%10d dirp_Eq\n", cmp->callInfo.C_dirp_Eq);
+ printf("\t%10d dirp_Write\n", cmp->callInfo.C_dirp_Write);
+ printf("\t%10d dirp_Zap\n", cmp->callInfo.C_dirp_Zap);
+ printf("\t%10d afs_ioctl\n", cmp->callInfo.C_afs_ioctl);
+ printf("\t%10d handleIoctl\n", cmp->callInfo.C_HandleIoctl);
+ printf("\t%10d afs_xioctl\n", cmp->callInfo.C_afs_xioctl);
+ printf("\t%10d afs_pioctl\n", cmp->callInfo.C_afs_pioctl);
+ printf("\t%10d HandlePioctl\n", cmp->callInfo.C_HandlePioctl);
+ printf("\t%10d PGetVolumeStatus\n", cmp->callInfo.C_PGetVolumeStatus);
+ printf("\t%10d PSetVolumeStatus\n", cmp->callInfo.C_PSetVolumeStatus);
+ printf("\t%10d PFlush\n", cmp->callInfo.C_PFlush);
+ printf("\t%10d PFlushVolumeData\n", cmp->callInfo.C_PFlushVolumeData);
+ printf("\t%10d PNewStatMount\n", cmp->callInfo.C_PNewStatMount);
+ printf("\t%10d PGetTokens\n", cmp->callInfo.C_PGetTokens);
+ printf("\t%10d PSetTokens\n", cmp->callInfo.C_PSetTokens);
+ printf("\t%10d PUnlog\n", cmp->callInfo.C_PUnlog);
+ printf("\t%10d PCheckServers\n", cmp->callInfo.C_PCheckServers);
+ printf("\t%10d PCheckAuth\n", cmp->callInfo.C_PCheckAuth);
+ printf("\t%10d PCheckVolNames\n", cmp->callInfo.C_PCheckVolNames);
+ printf("\t%10d PFindVolume\n", cmp->callInfo.C_PFindVolume);
+ printf("\t%10d Prefetch\n", cmp->callInfo.C_Prefetch);
+ printf("\t%10d PGetCacheSize\n", cmp->callInfo.C_PGetCacheSize);
+ printf("\t%10d PSetCacheSize\n", cmp->callInfo.C_PSetCacheSize);
+ printf("\t%10d PSetSysName\n", cmp->callInfo.C_PSetSysName);
+ printf("\t%10d PExportAfs\n", cmp->callInfo.C_PExportAfs);
+ printf("\t%10d HandleClientContext\n",
+ cmp->callInfo.C_HandleClientContext);
+ printf("\t%10d PViceAccess\n", cmp->callInfo.C_PViceAccess);
+ printf("\t%10d PRemoveCallBack\n", cmp->callInfo.C_PRemoveCallBack);
+ printf("\t%10d PRemoveMount\n", cmp->callInfo.C_PRemoveMount);
+ printf("\t%10d PSetVolumeStatus\n", cmp->callInfo.C_PSetVolumeStatus);
+ printf("\t%10d PListCells\n", cmp->callInfo.C_PListCells);
+ printf("\t%10d PNewCell\n", cmp->callInfo.C_PNewCell);
+ printf("\t%10d PGetUserCell\n", cmp->callInfo.C_PGetUserCell);
+ printf("\t%10d PGetCellStatus\n", cmp->callInfo.C_PGetCellStatus);
+ printf("\t%10d PSetCellStatus\n", cmp->callInfo.C_PSetCellStatus);
+ printf("\t%10d PVenusLogging\n", cmp->callInfo.C_PVenusLogging);
+ printf("\t%10d PGetAcl\n", cmp->callInfo.C_PGetAcl);
+ printf("\t%10d PGetFID\n", cmp->callInfo.C_PGetFID);
+ printf("\t%10d PSetAcl\n", cmp->callInfo.C_PSetAcl);
+ printf("\t%10d PGetFileCell\n", cmp->callInfo.C_PGetFileCell);
+ printf("\t%10d PGetWSCell\n", cmp->callInfo.C_PGetWSCell);
+ printf("\t%10d PGetSPrefs\n", cmp->callInfo.C_PGetSPrefs);
+ printf("\t%10d PSetSPrefs\n", cmp->callInfo.C_PSetSPrefs);
+ printf("\t%10d afs_ResetAccessCache\n",
+ cmp->callInfo.C_afs_ResetAccessCache);
+ printf("\t%10d afs_FindUser\n", cmp->callInfo.C_afs_FindUser);
+ printf("\t%10d afs_GetUser\n", cmp->callInfo.C_afs_GetUser);
+ printf("\t%10d afs_GCUserData\n", cmp->callInfo.C_afs_GCUserData);
+ printf("\t%10d afs_PutUser\n", cmp->callInfo.C_afs_PutUser);
+ printf("\t%10d afs_SetPrimary\n", cmp->callInfo.C_afs_SetPrimary);
+ printf("\t%10d afs_ResetUserConns\n", cmp->callInfo.C_afs_ResetUserConns);
+ printf("\t%10d afs_RemoveUserConns\n", cmp->callInfo.C_RemoveUserConns);
+ printf("\t%10d afs_ResourceInit\n", cmp->callInfo.C_afs_ResourceInit);
+ printf("\t%10d afs_GetCell\n", cmp->callInfo.C_afs_GetCell);
+ printf("\t%10d afs_GetCellByIndex\n", cmp->callInfo.C_afs_GetCellByIndex);
+ printf("\t%10d afs_GetCellByName\n", cmp->callInfo.C_afs_GetCellByName);
+ printf("\t%10d afs_GetRealCellByIndex\n",
+ cmp->callInfo.C_afs_GetRealCellByIndex);
+ printf("\t%10d afs_NewCell\n", cmp->callInfo.C_afs_NewCell);
+ printf("\t%10d CheckVLDB\n", cmp->callInfo.C_CheckVLDB);
+ printf("\t%10d afs_GetVolume\n", cmp->callInfo.C_afs_GetVolume);
+ printf("\t%10d afs_PutVolume\n", cmp->callInfo.C_afs_PutVolume);
+ printf("\t%10d afs_GetVolumeByName\n",
+ cmp->callInfo.C_afs_GetVolumeByName);
+ printf("\t%10d afs_random\n", cmp->callInfo.C_afs_random);
+ printf("\t%10d InstallVolumeEntry\n", cmp->callInfo.C_InstallVolumeEntry);
+ printf("\t%10d InstallVolumeInfo\n", cmp->callInfo.C_InstallVolumeInfo);
+ printf("\t%10d afs_ResetVolumeInfo\n",
+ cmp->callInfo.C_afs_ResetVolumeInfo);
+ printf("\t%10d afs_FindServer\n", cmp->callInfo.C_afs_FindServer);
+ printf("\t%10d afs_GetServer\n", cmp->callInfo.C_afs_GetServer);
+ printf("\t%10d afs_SortServers\n", cmp->callInfo.C_afs_SortServers);
+ printf("\t%10d afs_CheckServers\n", cmp->callInfo.C_afs_CheckServers);
+ printf("\t%10d ServerDown\n", cmp->callInfo.C_ServerDown);
+ printf("\t%10d afs_Conn\n", cmp->callInfo.C_afs_Conn);
+ printf("\t%10d afs_PutConn\n", cmp->callInfo.C_afs_PutConn);
+ printf("\t%10d afs_ConnByHost\n", cmp->callInfo.C_afs_ConnByHost);
+ printf("\t%10d afs_ConnByMHosts\n", cmp->callInfo.C_afs_ConnByMHosts);
+ printf("\t%10d afs_Analyze\n", cmp->callInfo.C_afs_Analyze);
+ printf("\t%10d CheckVLServer\n", cmp->callInfo.C_CheckVLServer);
+ printf("\t%10d afs_CheckCacheResets\n",
+ cmp->callInfo.C_afs_CheckCacheResets);
+ printf("\t%10d afs_CheckVolumeNames\n",
+ cmp->callInfo.C_afs_CheckVolumeNames);
+ printf("\t%10d afs_CheckCode\n", cmp->callInfo.C_afs_CheckCode);
+ printf("\t%10d afs_CopyError\n", cmp->callInfo.C_afs_CopyError);
+ printf("\t%10d afs_FinalizeReq\n", cmp->callInfo.C_afs_FinalizeReq);
+ printf("\t%10d afs_GetVolCache\n", cmp->callInfo.C_afs_GetVolCache);
+ printf("\t%10d afs_GetVolSlot\n", cmp->callInfo.C_afs_GetVolSlot);
+ printf("\t%10d afs_UFSGetVolSlot\n", cmp->callInfo.C_afs_UFSGetVolSlot);
+ printf("\t%10d afs_MemGetVolSlot\n", cmp->callInfo.C_afs_MemGetVolSlot);
+ printf("\t%10d afs_WriteVolCache\n", cmp->callInfo.C_afs_WriteVolCache);
+ printf("\t%10d haveCallbacksfrom\n", cmp->callInfo.C_HaveCallBacksFrom);
+ printf("\t%10d afs_getpage\n", cmp->callInfo.C_afs_getpage);
+ printf("\t%10d afs_putpage\n", cmp->callInfo.C_afs_putpage);
+ printf("\t%10d afs_nfsrdwr\n", cmp->callInfo.C_afs_nfsrdwr);
+ printf("\t%10d afs_map\n", cmp->callInfo.C_afs_map);
+ printf("\t%10d afs_cmp\n", cmp->callInfo.C_afs_cmp);
+ printf("\t%10d afs_PageLeft\n", cmp->callInfo.C_afs_PageLeft);
+ printf("\t%10d afs_mount\n", cmp->callInfo.C_afs_mount);
+ printf("\t%10d afs_unmount\n", cmp->callInfo.C_afs_unmount);
+ printf("\t%10d afs_root\n", cmp->callInfo.C_afs_root);
+ printf("\t%10d afs_statfs\n", cmp->callInfo.C_afs_statfs);
+ printf("\t%10d afs_sync\n", cmp->callInfo.C_afs_sync);
+ printf("\t%10d afs_vget\n", cmp->callInfo.C_afs_vget);
+ printf("\t%10d afs_index\n", cmp->callInfo.C_afs_index);
+ printf("\t%10d afs_setpag\n", cmp->callInfo.C_afs_setpag);
+ printf("\t%10d genpag\n", cmp->callInfo.C_genpag);
+ printf("\t%10d getpag\n", cmp->callInfo.C_getpag);
+ printf("\t%10d genpag\n", cmp->callInfo.C_genpag);
+ printf("\t%10d afs_GetMariner\n", cmp->callInfo.C_afs_GetMariner);
+ printf("\t%10d afs_AddMarinerName\n", cmp->callInfo.C_afs_AddMarinerName);
+ printf("\t%10d afs_open\n", cmp->callInfo.C_afs_open);
+ printf("\t%10d afs_close\n", cmp->callInfo.C_afs_close);
+ printf("\t%10d afs_closex\n", cmp->callInfo.C_afs_closex);
+ printf("\t%10d afs_write\n", cmp->callInfo.C_afs_write);
+ printf("\t%10d afs_UFSwrite\n", cmp->callInfo.C_afs_UFSWrite);
+ printf("\t%10d afs_Memwrite\n", cmp->callInfo.C_afs_MemWrite);
+ printf("\t%10d afs_rdwr\n", cmp->callInfo.C_afs_rdwr);
+ printf("\t%10d afs_read\n", cmp->callInfo.C_afs_read);
+ printf("\t%10d afs_UFSread\n", cmp->callInfo.C_afs_UFSRead);
+ printf("\t%10d afs_Memread\n", cmp->callInfo.C_afs_MemRead);
+ printf("\t%10d afs_CopyOutAttrs\n", cmp->callInfo.C_afs_CopyOutAttrs);
+ printf("\t%10d afs_access\n", cmp->callInfo.C_afs_access);
+ printf("\t%10d afs_getattr\n", cmp->callInfo.C_afs_getattr);
+ printf("\t%10d afs_setattr\n", cmp->callInfo.C_afs_setattr);
+ printf("\t%10d afs_VAttrToAS\n", cmp->callInfo.C_afs_VAttrToAS);
+ printf("\t%10d EvalMountPoint\n", cmp->callInfo.C_EvalMountPoint);
+ printf("\t%10d afs_lookup\n", cmp->callInfo.C_afs_lookup);
+ printf("\t%10d afs_create\n", cmp->callInfo.C_afs_create);
+ printf("\t%10d afs_LocalHero\n", cmp->callInfo.C_afs_LocalHero);
+ printf("\t%10d afs_remove\n", cmp->callInfo.C_afs_remove);
+ printf("\t%10d afs_link\n", cmp->callInfo.C_afs_link);
+ printf("\t%10d afs_rename\n", cmp->callInfo.C_afs_rename);
+ printf("\t%10d afs_InitReq\n", cmp->callInfo.C_afs_InitReq);
+ printf("\t%10d afs_mkdir\n", cmp->callInfo.C_afs_mkdir);
+ printf("\t%10d afs_rmdir\n", cmp->callInfo.C_afs_rmdir);
+ printf("\t%10d afs_readdir\n", cmp->callInfo.C_afs_readdir);
+ printf("\t%10d afs_read1dir\n", cmp->callInfo.C_afs_read1dir);
+ printf("\t%10d afs_readdir_move\n", cmp->callInfo.C_afs_readdir_move);
+ printf("\t%10d afs_readdir_iter\n", cmp->callInfo.C_afs_readdir_iter);
+ printf("\t%10d afs_symlink\n", cmp->callInfo.C_afs_symlink);
+ printf("\t%10d afs_HandleLink\n", cmp->callInfo.C_afs_HandleLink);
+ printf("\t%10d afs_MemHandleLink\n", cmp->callInfo.C_afs_MemHandleLink);
+ printf("\t%10d afs_UFSHandleLink\n", cmp->callInfo.C_afs_UFSHandleLink);
+ printf("\t%10d HandleFlock\n", cmp->callInfo.C_HandleFlock);
+ printf("\t%10d afs_readlink\n", cmp->callInfo.C_afs_readlink);
+ printf("\t%10d afs_fsync\n", cmp->callInfo.C_afs_fsync);
+ printf("\t%10d afs_inactive\n", cmp->callInfo.C_afs_inactive);
+ printf("\t%10d afs_ustrategy\n", cmp->callInfo.C_afs_ustrategy);
+ printf("\t%10d afs_strategy\n", cmp->callInfo.C_afs_strategy);
+ printf("\t%10d afs_bread\n", cmp->callInfo.C_afs_bread);
+ printf("\t%10d afs_brelse\n", cmp->callInfo.C_afs_brelse);
+ printf("\t%10d afs_bmap\n", cmp->callInfo.C_afs_bmap);
+ printf("\t%10d afs_fid\n", cmp->callInfo.C_afs_fid);
+ printf("\t%10d afs_FakeOpen\n", cmp->callInfo.C_afs_FakeOpen);
+ printf("\t%10d afs_FakeClose\n", cmp->callInfo.C_afs_FakeClose);
+ printf("\t%10d afs_StoreOnLastReference\n",
+ cmp->callInfo.C_afs_StoreOnLastReference);
+ printf("\t%10d afs_AccessOK\n", cmp->callInfo.C_afs_AccessOK);
+ printf("\t%10d afs_GetAccessBits\n", cmp->callInfo.C_afs_GetAccessBits);
+ printf("\t%10d afsio_copy\n", cmp->callInfo.C_afsio_copy);
+ printf("\t%10d afsio_trim\n", cmp->callInfo.C_afsio_trim);
+ printf("\t%10d afsio_skip\n", cmp->callInfo.C_afsio_skip);
+ printf("\t%10d afs_page_read\n", cmp->callInfo.C_afs_page_read);
+ printf("\t%10d afs_page_write\n", cmp->callInfo.C_afs_page_write);
+ printf("\t%10d afs_page_read\n", cmp->callInfo.C_afs_page_read);
+ printf("\t%10d afs_get_groups_from_pag\n",
+ cmp->callInfo.C_afs_get_groups_from_pag);
+ printf("\t%10d afs_get_pag_from_groups\n",
+ cmp->callInfo.C_afs_get_pag_from_groups);
+ printf("\t%10d AddPag\n", cmp->callInfo.C_AddPag);
+ printf("\t%10d PagInCred\n", cmp->callInfo.C_PagInCred);
+ printf("\t%10d afs_getgroups\n", cmp->callInfo.C_afs_getgroups);
+ printf("\t%10d afs_page_in\n", cmp->callInfo.C_afs_page_in);
+ printf("\t%10d afs_page_out\n", cmp->callInfo.C_afs_page_out);
+ printf("\t%10d afs_AdvanceFD\n", cmp->callInfo.C_afs_AdvanceFD);
+ printf("\t%10d afs_lockf\n", cmp->callInfo.C_afs_lockf);
+ printf("\t%10d afs_xsetgroups\n", cmp->callInfo.C_afs_xsetgroups);
+ printf("\t%10d afs_nlinks\n", cmp->callInfo.C_afs_nlinks);
+ printf("\t%10d afs_lockctl\n", cmp->callInfo.C_afs_lockctl);
+ printf("\t%10d afs_xflock\n", cmp->callInfo.C_afs_xflock);
+ printf("\t%10d PGetCPrefs\n", cmp->callInfo.C_PGetCPrefs);
+ printf("\t%10d PSetCPrefs\n", cmp->callInfo.C_PSetCPrefs);
#ifdef AFS_HPUX_ENV
- printf("\t%10d afs_pagein\n", cmp->callInfo.C_afs_pagein);
- printf("\t%10d afs_pageout\n", cmp->callInfo.C_afs_pageout);
- printf("\t%10d afs_hp_strategy\n", cmp->callInfo.C_afs_hp_strategy);
+ printf("\t%10d afs_pagein\n", cmp->callInfo.C_afs_pagein);
+ printf("\t%10d afs_pageout\n", cmp->callInfo.C_afs_pageout);
+ printf("\t%10d afs_hp_strategy\n", cmp->callInfo.C_afs_hp_strategy);
#endif
}
-#if 0
-#define OffsetOf(s,mem) ((long)(&(((s *)0)->mem)))
-#define SizeOf(s,mem) ((long)sizeof(((s *)0)->mem))
-#define values(s,mem) OffsetOf(s,mem), SizeOf(s,mem)
-
-print_struct_vcache_offsets()
-{
- printf("struct vcache.v offset = %ld, size = %ld\n", values(struct vcache, v));
- printf("struct vcache.vlruq offset = %ld, size = %ld\n", values(struct vcache, vlruq));
- printf("struct vcache.nextfree offset = %ld, size = %ld\n", values(struct vcache, nextfree));
- printf("struct vcache.hnext offset = %ld, size = %ld\n", values(struct vcache, hnext));
- printf("struct vcache.fid offset = %ld, size = %ld\n", values(struct vcache, fid));
- printf("struct vcache.m offset = %ld, size = %ld\n", values(struct vcache, m));
- printf("struct vcache.lock offset = %ld, size = %ld\n", values(struct vcache, lock));
- printf("struct vcache.parentVnode offset = %ld, size = %ld\n", values(struct vcache, parentVnode));
- printf("struct vcache.parentUnique offset = %ld, size = %ld\n", values(struct vcache, parentUnique));
- printf("struct vcache.mvid offset = %ld, size = %ld\n", values(struct vcache, mvid));
- printf("struct vcache.linkData offset = %ld, size = %ld\n", values(struct vcache, linkData));
- printf("struct vcache.flushDV offset = %ld, size = %ld\n", values(struct vcache, flushDV));
- printf("struct vcache.mapDV offset = %ld, size = %ld\n", values(struct vcache, mapDV));
- printf("struct vcache.truncPos offset = %ld, size = %ld\n", values(struct vcache, truncPos));
- printf("struct vcache.callback offset = %ld, size = %ld\n", values(struct vcache, callback));
- printf("struct vcache.cbExpires offset = %ld, size = %ld\n", values(struct vcache, cbExpires));
- printf("struct vcache.callsort offset = %ld, size = %ld\n", values(struct vcache, callsort));
- printf("struct vcache.Access offset = %ld, size = %ld\n", values(struct vcache, Access));
- printf("struct vcache.anyAccess offset = %ld, size = %ld\n", values(struct vcache, anyAccess));
- printf("struct vcache.last_looker offset = %ld, size = %ld\n", values(struct vcache, last_looker));
- printf("struct vcache.activeV offset = %ld, size = %ld\n", values(struct vcache, activeV));
- printf("struct vcache.slocks offset = %ld, size = %ld\n", values(struct vcache, slocks));
- printf("struct vcache.opens offset = %ld, size = %ld\n", values(struct vcache, opens));
- printf("struct vcache.execsOrWriters offset = %ld, size = %ld\n", values(struct vcache, execsOrWriters));
- printf("struct vcache.flockCount offset = %ld, size = %ld\n", values(struct vcache, flockCount));
- printf("struct vcache.mvstat offset = %ld, size = %ld\n", values(struct vcache, mvstat));
- printf("struct vcache.states offset = %ld, size = %ld\n", values(struct vcache, states));
- printf("struct vcache.quick offset = %ld, size = %ld\n", values(struct vcache, quick));
- printf("struct vcache.symhintstamp offset = %ld, size = %ld\n", values(struct vcache, symhintstamp));
- printf("struct vcache.h1 offset = %ld, size = %ld\n", values(struct vcache, h1));
- printf("struct vcache.lastr offset = %ld, size = %ld\n", values(struct vcache, lastr));
- printf("struct vcache.vc_rwlockid offset = %ld, size = %ld\n", values(struct vcache, vc_rwlockid));
- printf("struct vcache.vc_locktrips offset = %ld, size = %ld\n", values(struct vcache, vc_locktrips));
- printf("struct vcache.vc_rwlock offset = %ld, size = %ld\n", values(struct vcache, vc_rwlock));
- printf("struct vcache.mapcnt offset = %ld, size = %ld\n", values(struct vcache, mapcnt));
- printf("struct vcache.cred offset = %ld, size = %ld\n", values(struct vcache, cred));
- printf("struct vcache.vc_bhv_desc offset = %ld, size = %ld\n", values(struct vcache, vc_bhv_desc));
- printf("struct vcache.vc_error offset = %ld, size = %ld\n", values(struct vcache, vc_error));
- printf("struct vcache.xlatordv offset = %ld, size = %ld\n", values(struct vcache, xlatordv));
- printf("struct vcache.uncred offset = %ld, size = %ld\n", values(struct vcache, uncred));
- printf("struct vcache.asynchrony offset = %ld, size = %ld\n", values(struct vcache, asynchrony));
-}
-
-print_struct_vnode_offsets()
-{
- printf("struct vnode.v_list offset = %ld, size = %ld\n", values(struct vnode, v_list));
- printf("struct vnode.v_flag offset = %ld, size = %ld\n", values(struct vnode, v_flag));
- printf("struct vnode.v_count offset = %ld, size = %ld\n", values(struct vnode, v_count));
- printf("struct vnode.v_listid offset = %ld, size = %ld\n", values(struct vnode, v_listid));
- printf("struct vnode.v_intpcount offset = %ld, size = %ld\n", values(struct vnode, v_intpcount));
- printf("struct vnode.v_type offset = %ld, size = %ld\n", values(struct vnode, v_type));
- printf("struct vnode.v_rdev offset = %ld, size = %ld\n", values(struct vnode, v_rdev));
- printf("struct vnode.v_vfsmountedhere offset = %ld, size = %ld\n", values(struct vnode, v_vfsmountedhere));
- printf("struct vnode.v_vfsp offset = %ld, size = %ld\n", values(struct vnode, v_vfsp));
- printf("struct vnode.v_stream offset = %ld, size = %ld\n", values(struct vnode, v_stream));
- printf("struct vnode.v_filocks offset = %ld, size = %ld\n", values(struct vnode, v_filocks));
- printf("struct vnode.v_filocksem offset = %ld, size = %ld\n", values(struct vnode, v_filocksem));
- printf("struct vnode.v_number offset = %ld, size = %ld\n", values(struct vnode, v_number));
- printf("struct vnode.v_bh offset = %ld, size = %ld\n", values(struct vnode, v_bh));
- printf("struct vnode.v_namecap offset = %ld, size = %ld\n", values(struct vnode, v_namecap));
- printf("struct vnode.v_hashp offset = %ld, size = %ld\n", values(struct vnode, v_hashp));
- printf("struct vnode.v_hashn offset = %ld, size = %ld\n", values(struct vnode, v_hashn));
- printf("struct vnode.v_mreg offset = %ld, size = %ld\n", values(struct vnode, v_mreg));
- printf("struct vnode.v_mregb offset = %ld, size = %ld\n", values(struct vnode, v_mregb));
- printf("struct vnode.v_pgcnt offset = %ld, size = %ld\n", values(struct vnode, v_pgcnt));
- printf("struct vnode.v_dpages offset = %ld, size = %ld\n", values(struct vnode, v_dpages));
- printf("struct vnode.v_dpages_gen offset = %ld, size = %ld\n", values(struct vnode, v_dpages_gen));
- printf("struct vnode.v_dbuf offset = %ld, size = %ld\n", values(struct vnode, v_dbuf));
- printf("struct vnode.v_buf offset = %ld, size = %ld\n", values(struct vnode, v_buf));
- printf("struct vnode.v_bufgen offset = %ld, size = %ld\n", values(struct vnode, v_bufgen));
- printf("struct vnode.v_traceix offset = %ld, size = %ld\n", values(struct vnode, v_traceix));
- printf("struct vnode.v_buf_lock offset = %ld, size = %ld\n", values(struct vnode, v_buf_lock));
- printf("struct vnode.v_pc offset = %ld, size = %ld\n", values(struct vnode, v_pc));
-#ifdef VNODE_TRACING
- printf("struct vnode.v_trace offset = %ld, size = %ld\n", values(struct vnode, v_trace));
-#endif
-#ifdef CKPT
- printf("struct vnode.v_ckpt offset = %ld, size = %ld\n", values(struct vnode, v_ckpt));
-#endif
-}
#endif