/*
* 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 <afsconfig.h>
#include <afs/param.h>
-RCSID
- ("$Header$");
+#include <roken.h>
-#include <stdio.h>
-#include <errno.h>
-#include <stdlib.h> /* for malloc() */
+#include <afs/cmd.h>
+#if !defined(AFS_DARWIN_ENV) && !defined(AFS_FBSD_ENV)
/* Here be hacks. */
#ifdef AFS_LINUX24_ENV
#define __KERNEL__
#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
#ifdef _KERN_LOCK_H_
#include FFFFF
#endif
-#include <sys/time.h>
#include <kern/lock.h>
#include <sys/vnode.h>
#include <arch/alpha/pmap.h>
* 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
#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
#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>
#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 */
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
#endif
#endif
-#endif /* AFS_MACH_ENV */
-#include <signal.h>
#endif
/* AFS includes */
-#ifndef AFS_KDUMP_LIB
-extern struct cmd_syndesc *cmd_CreateSyntax();
-#endif
int opencore();
#if defined(AFS_HPUX_ENV) && defined(__LP64__)
#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 */
#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"
}
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);
#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;
+static int
+cmdproc(struct cmd_syndesc *as, void *arock)
{
- register afs_int32 code = 0;
+ afs_int32 code = 0;
+#if !defined(AFS_DARWIN_ENV) && !defined(AFS_FBSD_ENV)
if (as->parms[0].items) { /* -kobj */
obj = as->parms[0].items->data;
}
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;
+int
+main(int argc, char **argv)
{
- register struct cmd_syndesc *ts;
- register afs_int32 code;
+ struct cmd_syndesc *ts;
+ afs_int32 code;
#ifdef AFS_AIX32_ENV
struct sigaction nsa;
sigaction(SIGSEGV, &nsa, NULL);
#endif
- ts = cmd_CreateSyntax(NULL, cmdproc, 0,
+ ts = cmd_CreateSyntax(NULL, cmdproc, NULL,
"Read internal cache manager structs");
cmd_AddParm(ts, "-kobj", CMD_SINGLE, CMD_OPTIONAL,
"kernel object (default /vmunix)");
#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);
#define CBHTSIZE 128
-kdump()
+int
+kdump(void)
{
- int cell, cnt, cnt1;
#if defined(AFS_DARWIN_ENV) || defined(AFS_FBSD_ENV)
printf("Kdump not supported\n");
#else
+ int cell, cnt, cnt1;
#ifndef AFS_KDUMP_LIB
kmem = opencore(core);
int Sum_cellaliases = 0, Sum_cellname_names = 0;
int
-print_cells(pnt)
- int pnt;
+print_cells(int pnt)
{
off_t symoff;
struct cell *cells, cle, *clentry = &cle, *clep;
}
int
-print_users(pnt)
- int pnt;
+print_users(int pnt)
{
off_t symoff;
struct unixuser *afs_users[NUSERS], ue, *uentry = &ue, *uep;
#define SF_ALLOCATION_STEP 500
int
-add_found_server(sep)
- struct server *sep;
+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",
}
int
-find_server(sep)
- struct server *sep;
+find_server(struct server *sep)
{
int i;
}
int
-print_servers(pnt)
- int pnt;
+print_servers(int pnt)
{
off_t symoff;
struct server *afs_servers[NSERVERS], se, *sentry = &se, *sep;
int chainCount[NSERVERS];
if (pnt) {
- memset((char *)chainCount, 0, sizeof(chainCount));
+ memset(chainCount, 0, sizeof(chainCount));
printf("\n\nPrinting 'afs_servers' structures...\n");
}
findsym("afs_servers", &symoff);
/* Verify against afs_totalServers. */
if (pnt) {
- memset((char *)chainCount, 0, sizeof(chainCount));
+ memset(chainCount, 0, sizeof(chainCount));
if (findsym("afs_totalServers", &symoff)) {
kread(kmem, symoff, (char *)&afs_totalServers, sizeof(afs_int32));
if (afs_totalServers != nServers) {
void
-print_Conns(pnt)
- int pnt;
+print_Conns(int pnt)
{
off_t symoff;
struct server *afs_servers[NSERVERS], se, *sentry = &se, *sep;
int
-print_volumes(pnt)
- int pnt;
+print_volumes(int pnt)
{
off_t symoff;
struct volume *afs_volumes[NVOLS], ve, *ventry = &ve, *vep;
}
void
-print_cbHash(pnt)
- int pnt;
+print_cbHash(int pnt)
{
off_t symoff;
struct afs_q cbHashT[CBHTSIZE];
}
int
-print_vcaches(pnt)
- int pnt;
+print_vcaches(int pnt)
{
off_t symoff;
struct vcache *afs_vhashTable[VCSIZE], Ve, *Ventry = &Ve, *Vep;
}
int
-print_dcaches(pnt)
- int pnt;
+print_dcaches(int pnt)
{
off_t symoff;
long table, *ptr;
kread(kmem, symoff, (char *)&count, sizeof count);
findsym("afs_indexTable", &symoff);
kread(kmem, symoff, (char *)&table, sizeof(long));
- ptr = (long *)malloc(count * 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]) {
void
-print_DindexTimes(pnt)
- int pnt;
+print_DindexTimes(int pnt)
{
off_t symoff;
long table;
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));
+ 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)
void
-print_DdvnextTbl(pnt)
- int pnt;
+print_DdvnextTbl(int pnt)
{
off_t symoff;
long table;
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));
+ 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)
void
-print_DdcnextTbl(pnt)
- int pnt;
+print_DdcnextTbl(int pnt)
{
off_t symoff;
long table;
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));
+ 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)
void
-print_DindexFlags(pnt)
- int pnt;
+print_DindexFlags(int pnt)
{
off_t symoff;
afs_int32 count;
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));
+ flags = malloc(count * sizeof(char));
kread(kmem, table, flags, count * sizeof(char));
for (i = 0, j = 0; i < count; i++) {
if (pnt)
void
-print_buffers(pnt)
- int pnt;
+print_buffers(int pnt)
{
off_t symoff;
long table;
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));
+ 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++) {
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,
+ i, bp->fid, bp->page, bp->accesstime, bp->hashNext,
bp->data, bp->lockers, bp->dirty, bp->hashIndex);
#endif
j++;
int
-print_nfss(pnt)
- int pnt;
+print_nfss(int pnt)
{
off_t symoff;
struct afs_exporter *exp_entry, ex, *exp = &ex, *exp1;
#endif
void
-print_allocs(pnt)
- int pnt;
+print_allocs(int pnt)
{
off_t symoff;
long count, i, j, k, l, m, n, T = 0, tvs;
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));
+ 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));
+ "Connection package", j, Nconns, sizeof(struct afs_conn));
i = (AFS_NCBRS * sizeof(struct afs_cbr)) * (j =
afs_cmperfstats.
T += i;
printf("%20s:\t%8d bytes\t[%d entries/%d bytes each]\n", "Buffer package",
i, j, sizeof(struct buffer));
-#if !AFS_USEBUFFERS
#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
Sum_exps = 0;
Sum_nfssysnames = 0;
int
readmem(kmem, buf, vad, len)
int kmem, len;
-#ifdef AFS_SUN57_ENV
+#ifdef AFS_SUN5_ENV
uintptr_t vad;
#else
int vad;
-#endif /** AFS_SUN57_ENV **/
+#endif /** AFS_SUN5_ENV **/
char *buf;
{
int newlen;
perror("lseek");
exit(1);
}
- if (loc == 0)
- printf("WARNING: Read failed: loc=0\n");
+ if (loc == 0)
+ printf("WARNING: Read failed: loc=0\n");
else
if ((i = read(kmem, buf, len)) != len) {
printf("WARNING: Read failed: ");
* the macro RDSYMBOLS
*/
-rdsymbols()
+void
+rdsymbols(void)
{
FILE *fp;
int
-opencore(core)
- char *core;
+opencore(char *core)
{
#ifdef AFS_KDUMP_LIB
return 0;
void
-print_exporter(kmem, exporter, ptr, pnt)
- int kmem, pnt;
- struct afs_exporter *exporter, *ptr;
+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,
void
-print_nfsclient(kmem, ep, ptr, pnt)
- int kmem, pnt;
- struct nfsclientpag *ep, *ptr;
+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",
+ printf("%lx: uid=%d, host=%x, pag=%x, lastt=%d, ref=%d count=%d\n",
ptr, ep->uid, ep->host, ep->pag,
- (ep->sysname ? sysname : "nil"), ep->lastcall, ep->refCount);
+ 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;
+print_unixuser(int kmem, struct unixuser *uep,
+ struct unixuser *ptr, int pnt)
{
Sum_userstp += uep->stLen;
if (pnt) {
}
void
-print_cell(kmem, clep, ptr, pnt)
- int kmem, pnt;
- struct cell *clep, *ptr;
+print_cell(int kmem, struct cell *clep, struct cell *ptr, int pnt)
{
int i;
char cellName[100];
printf("\tlinked cellp %lx\n", clep->lcellp);
#endif
printf("\tCell's servers: ");
- for (i = 0; i < MAXCELLHOSTS; i++) {
+ for (i = 0; i < AFS_MAXCELLHOSTS; i++) {
if (pretty && (clep->cellHosts[i] == 0))
break;
printf("[%lx] ", clep->cellHosts[i]);
void
-print_server(kmem, sep, ptr, conns, pnt)
- int kmem, conns, pnt;
- struct server *sep, *ptr;
+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;
void
-print_conns(kmem, srv, conns, Con, pnt)
- int kmem, Con, pnt;
- struct srvAddr *srv;
- struct conn *conns;
+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);
void
-print_conn(kmem, conns, ptr, pnt)
- int kmem, pnt;
- struct conn *conns, *ptr;
+print_conn(int kmem, struct afs_conn *conns, struct afs_conn *ptr, int pnt)
{
if (!pnt)
return;
void
-print_volume(kmem, vep, ptr, pnt)
- int kmem, pnt;
- struct volume *vep, *ptr;
+print_volume(int kmem, struct volume *vep, struct volume *ptr, int pnt)
{
int i;
afs_int32 *loc;
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");
void
-print_venusfid(string, vid)
- char *string;
- struct VenusFid *vid;
+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);
void
-print_vnode(kmem, vep, ptr, pnt)
- int kmem, pnt;
- struct vnode *vep, *ptr;
+print_vnode(int kmem, struct vnode *vep, struct vnode *ptr, int pnt)
{
#ifdef AFS_AIX_ENV
struct gnode gnode;
}
void
-print_vcache(kmem, vep, ptr, pnt)
- int kmem, pnt;
- struct vcache *vep, *ptr;
+print_vcache(int kmem, struct vcache *vep, struct vcache *ptr, int pnt)
{
long *loc, j = 0;
char *cloc;
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,
+ ptr, VREFCOUNT(vep), vep->parentVnode, vep->parentUnique,
vep->flushDV.high, vep->flushDV.low, vep->mapDV.high,
vep->mapDV.low);
#ifdef AFS_64BIT_CLIENT
#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);
+ printf("dchint=%x, anyA=0x%x\n", vep->dchint, vep->anyAccess);
#ifdef AFS_64BIT_CLIENT
- printf("\tquick[dc=%x, stamp=%x, f=%x, min=%d, len=(0x%x, 0x%x)]\n",
- vep->quick.dc, vep->quick.stamp, vep->quick.f,
- vep->quick.minLoc, (int)(vep->quick.len >> 32),
- (int)(vep->quick.len & 0xffffffff));
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),
}
}
#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;
+print_dcache(int kmem, struct dcache *dcp, struct dcache *dp, int pnt)
{
if (!pnt)
return;
#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);
+ ("\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);
+ ("\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;
+print_bkg(int kmem)
{
off_t symoff;
struct brequest afs_brs[NBRS], ue, *uentry = &ue, *uep;
}
void
-print_vlru(kmem)
- int kmem;
+print_vlru(int kmem)
{
off_t symoff;
struct vcache Ve, *Ventry = &Ve, *Vep, *tvc;
}
void
-print_dlru(kmem)
- int kmem;
+print_dlru(int kmem)
{
off_t symoff;
struct dcache Ve, *Ventry = &Ve, *Vep, *tdc;
}
int
-print_gcpags(pnt)
- int pnt;
+print_gcpags(int pnt)
{
off_t symoff;
afs_int32 afs_gcpags;
#endif
void
-print_callout(kmem)
- int kmem;
+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");
}
void
-print_dnlc(kmem)
- int kmem;
+print_dnlc(int kmem)
{
struct nc *nameHash[256];
void
-print_global_locks(kmem)
- int kmem;
+print_global_locks(int kmem)
{
off_t symoff;
afs_int32 count;
void
-print_global_afs_resource(kmem)
- int kmem;
+print_global_afs_resource(int kmem)
{
off_t symoff;
char sysname[100];
void
-print_global_afs_cache(kmem)
- int kmem;
+print_global_afs_cache(int kmem)
{
off_t symoff;
char sysname[100];
#ifdef AFS_SGI62_ENV
findsym("cacheInode", &symoff);
kread(kmem, symoff, (char *)&inode, sizeof inode);
- printf("\tcacheInode = 0x%llx (%lld)\n", inode, 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);
+ printf("\tvolumeInode = 0x%llx (%" AFS_INT64_FMT ")\n", inode, inode);
#else
findsym("cacheInode", &symoff);
kread(kmem, symoff, (char *)&count, sizeof count);
void
-print_rxstats(kmem)
- int kmem;
+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);
void
-print_rx(kmem)
- int kmem;
+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);
void
-print_services(kmem)
- afs_int32 kmem;
+print_services(afs_int32 kmem)
{
off_t symoff;
struct rx_service *rx_services[RX_MAX_SERVICES], se, *sentry = &se, *sep;
#ifdef KDUMP_RX_LOCK
void
-print_peertable_lock(kmem)
- afs_int32 kmem;
+print_peertable_lock(afs_int32 kmem)
{
off_t symoff;
struct rx_peer_rx_lock *rx_peerTable[256], se, *sentry = &se, *sep;
#endif /* KDUMP_RX_LOCK */
void
-print_peertable(kmem)
- afs_int32 kmem;
+print_peertable(afs_int32 kmem)
{
off_t symoff;
struct rx_peer *rx_peerTable[256], se, *sentry = &se, *sep;
#ifdef KDUMP_RX_LOCK
void
-print_conntable_lock(kmem)
- afs_int32 kmem;
+print_conntable_lock(afs_int32 kmem)
{
off_t symoff;
struct rx_connection_rx_lock *rx_connTable[256], se, *sentry = &se;
#endif /* KDUMP_RX_LOCK */
void
-print_conntable(kmem)
- afs_int32 kmem;
+print_conntable(afs_int32 kmem)
{
off_t symoff;
struct rx_connection *rx_connTable[256], se, *sentry = &se, *sep;
#ifdef KDUMP_RX_LOCK
void
-print_calltable_lock(kmem)
- afs_int32 kmem;
+print_calltable_lock(afs_int32 kmem)
{
off_t symoff;
struct rx_connection_rx_lock *rx_connTable[256], se;
#endif /* KDUMP_RX_LOCK */
void
-print_calltable(kmem)
- afs_int32 kmem;
+print_calltable(afs_int32 kmem)
{
off_t symoff;
struct rx_connection *rx_connTable[256], se, *sentry = &se, *sep;
}
void
-print_eventtable(kmem)
- afs_int32 kmem;
+print_eventtable(afs_int32 kmem)
{
off_t symoff;
struct rx_queue epq;
* provided.
*/
void
-print_upDownStats(a_upDownP)
- struct afs_stats_SrvUpDownInfo *a_upDownP; /*Ptr to server up/down info */
-
+print_upDownStats(struct afs_stats_SrvUpDownInfo *a_upDownP)
{ /*print_upDownStats */
/*
void
-print_cmperfstats(perfP)
- struct afs_stats_CMPerf *perfP;
+print_cmperfstats(struct afs_stats_CMPerf *perfP)
{
struct afs_stats_SrvUpDownInfo *upDownP; /*Ptr to server up/down info */
void
-print_cmstats(cmp)
- struct afs_CMStats *cmp;
+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);