/*
* Copyright 2006-2010, Sine Nomine Associates 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>
+#include <roken.h>
-#include <stdlib.h>
-#include <stdio.h>
-#include <string.h>
-#include <dirent.h>
-#include <sys/stat.h>
-#include <time.h>
-#include <errno.h>
#ifdef AFS_NT40_ENV
-#include <io.h>
#include <WINNT/afsevent.h>
-#else
-#include <sys/param.h>
-#include <sys/file.h>
-#ifndef ITIMER_REAL
-#include <sys/time.h>
-#endif /* ITIMER_REAL */
#endif
-#include <rx/xdr.h>
-#include <afs/afsint.h>
-#include <afs/assert.h>
-#include <fcntl.h>
+#include <afs/opr.h>
+#include <opr/lock.h>
+#include <afs/afsint.h>
#ifndef AFS_NT40_ENV
#include <afs/osi_inode.h>
#include <afs/dir.h>
#include <afs/afsutil.h>
#include <afs/fileutil.h>
+#include <rx/rx_queue.h>
#include "nfs.h"
-#include "lwp.h"
#include "lock.h"
#include "ihandle.h"
#include "vnode.h"
struct volop_state {
- afs_uint32 volume;
+ VolumeId volume;
afs_uint32 vnode;
afs_uint32 unique;
char partName[16];
};
-struct state {
+struct fssync_state {
afs_int32 reason;
struct volop_state * vop;
};
-static int common_prolog(struct cmd_syndesc *, struct state *);
-static int common_volop_prolog(struct cmd_syndesc *, struct state *);
+#ifndef AFS_DEMAND_ATTACH_FS
+/* remember argv/argc for later, if we need to re-exec */
+static char **fssd_argv;
+static int fssd_argc;
+#endif
+
+static int common_prolog(struct cmd_syndesc *, struct fssync_state *);
+static int common_volop_prolog(struct cmd_syndesc *, struct fssync_state *);
-static int do_volop(struct state *, afs_int32 command, SYNC_response * res);
+static int do_volop(struct fssync_state *, afs_int32 command,
+ SYNC_response * res);
static int VolOnline(struct cmd_syndesc * as, void * rock);
static int VolOffline(struct cmd_syndesc * as, void * rock);
exit(2);
}
-
- ts = cmd_CreateSyntax("online", VolOnline, NULL, "bring a volume online (FSYNC_VOL_ON opcode)");
+#ifndef AFS_DEMAND_ATTACH_FS
+ fssd_argv = argv;
+ fssd_argc = argc;
+#endif
+
+ ts = cmd_CreateSyntax("online", VolOnline, NULL, 0, "bring a volume online (FSYNC_VOL_ON opcode)");
VOLOP_PARMS_DECL(ts);
- ts = cmd_CreateSyntax("offline", VolOffline, NULL, "take a volume offline (FSYNC_VOL_OFF opcode)");
+ ts = cmd_CreateSyntax("offline", VolOffline, NULL, 0, "take a volume offline (FSYNC_VOL_OFF opcode)");
VOLOP_PARMS_DECL(ts);
- ts = cmd_CreateSyntax("mode", VolMode, NULL, "change volume attach mode (FSYNC_VOL_NEEDVOLUME opcode)");
+ ts = cmd_CreateSyntax("mode", VolMode, NULL, 0, "change volume attach mode (FSYNC_VOL_NEEDVOLUME opcode)");
VOLOP_PARMS_DECL(ts);
cmd_CreateAlias(ts, "needvolume");
- ts = cmd_CreateSyntax("detach", VolDetach, NULL, "detach a volume (FSYNC_VOL_DONE opcode)");
+ ts = cmd_CreateSyntax("detach", VolDetach, NULL, 0, "detach a volume (FSYNC_VOL_DONE opcode)");
VOLOP_PARMS_DECL(ts);
- ts = cmd_CreateSyntax("callback", VolBreakCBKs, NULL, "break callbacks for volume (FSYNC_VOL_BREAKCBKS opcode)");
+ ts = cmd_CreateSyntax("callback", VolBreakCBKs, NULL, 0, "break callbacks for volume (FSYNC_VOL_BREAKCBKS opcode)");
VOLOP_PARMS_DECL(ts);
cmd_CreateAlias(ts, "cbk");
- ts = cmd_CreateSyntax("move", VolMove, NULL, "set volume moved flag (FSYNC_VOL_MOVE opcode)");
+ ts = cmd_CreateSyntax("move", VolMove, NULL, 0, "set volume moved flag (FSYNC_VOL_MOVE opcode)");
VOLOP_PARMS_DECL(ts);
- ts = cmd_CreateSyntax("list", VolList, NULL, "sync local volume list (FSYNC_VOL_LISTVOLUMES opcode)");
+ ts = cmd_CreateSyntax("list", VolList, NULL, 0, "sync local volume list (FSYNC_VOL_LISTVOLUMES opcode)");
VOLOP_PARMS_DECL(ts);
cmd_CreateAlias(ts, "ls");
- ts = cmd_CreateSyntax("leaveoff", VolLeaveOff, 0, "leave volume offline (FSYNC_VOL_LEAVE_OFF opcode)");
+ ts = cmd_CreateSyntax("leaveoff", VolLeaveOff, 0, 0, "leave volume offline (FSYNC_VOL_LEAVE_OFF opcode)");
VOLOP_PARMS_DECL(ts);
- ts = cmd_CreateSyntax("attach", VolForceAttach, 0, "force full attachment (FSYNC_VOL_ATTACH opcode)");
+ ts = cmd_CreateSyntax("attach", VolForceAttach, 0, 0, "force full attachment (FSYNC_VOL_ATTACH opcode)");
VOLOP_PARMS_DECL(ts);
- ts = cmd_CreateSyntax("error", VolForceError, 0, "force into hard error state (FSYNC_VOL_FORCE_ERROR opcode)");
+ ts = cmd_CreateSyntax("error", VolForceError, 0, 0, "force into hard error state (FSYNC_VOL_FORCE_ERROR opcode)");
VOLOP_PARMS_DECL(ts);
- ts = cmd_CreateSyntax("query", VolQuery, NULL, "get volume structure (FSYNC_VOL_QUERY opcode)");
+ ts = cmd_CreateSyntax("query", VolQuery, NULL, 0, "get volume structure (FSYNC_VOL_QUERY opcode)");
VOLOP_PARMS_DECL(ts);
cmd_CreateAlias(ts, "qry");
- ts = cmd_CreateSyntax("header", VolHdrQuery, NULL, "get volume disk data structure (FSYNC_VOL_QUERY_HDR opcode)");
+ ts = cmd_CreateSyntax("header", VolHdrQuery, NULL, 0, "get volume disk data structure (FSYNC_VOL_QUERY_HDR opcode)");
VOLOP_PARMS_DECL(ts);
cmd_CreateAlias(ts, "hdr");
- ts = cmd_CreateSyntax("volop", VolOpQuery, NULL, "get pending volume operation info (FSYNC_VOL_QUERY_VOP opcode)");
+ ts = cmd_CreateSyntax("volop", VolOpQuery, NULL, 0, "get pending volume operation info (FSYNC_VOL_QUERY_VOP opcode)");
VOLOP_PARMS_DECL(ts);
cmd_CreateAlias(ts, "vop");
- ts = cmd_CreateSyntax("vnode", VnQuery, NULL, "get vnode structure (FSYNC_VOL_QUERY_VNODE opcode)");
+ ts = cmd_CreateSyntax("vnode", VnQuery, NULL, 0, "get vnode structure (FSYNC_VOL_QUERY_VNODE opcode)");
cmd_Seek(ts, CUSTOM_PARMS_OFFSET);
cmd_AddParm(ts, "-volumeid", CMD_SINGLE, 0, "volume id");
cmd_AddParm(ts, "-vnodeid", CMD_SINGLE, 0, "vnode id");
cmd_AddParm(ts, "-partition", CMD_SINGLE, 0, "partition name");
COMMON_PARMS_DECL(ts);
- ts = cmd_CreateSyntax("stats", StatsQuery, NULL, "see 'stats help' for more information");
+ ts = cmd_CreateSyntax("stats", StatsQuery, NULL, 0, "see 'stats help' for more information");
cmd_Seek(ts, CUSTOM_PARMS_OFFSET);
cmd_AddParm(ts, "-cmd", CMD_SINGLE, 0, "subcommand");
cmd_AddParm(ts, "-arg1", CMD_SINGLE, CMD_OPTIONAL, "arg1");
cmd_AddParm(ts, "-arg2", CMD_SINGLE, CMD_OPTIONAL, "arg2");
COMMON_PARMS_DECL(ts);
- ts = cmd_CreateSyntax("vgcquery", VGCQuery, 0, "query volume group cache (FSYNC_VG_QUERY opcode)");
+ ts = cmd_CreateSyntax("vgcquery", VGCQuery, 0, 0, "query volume group cache (FSYNC_VG_QUERY opcode)");
cmd_Seek(ts, CUSTOM_PARMS_OFFSET);
cmd_AddParm(ts, "-partition", CMD_SINGLE, 0, "partition name");
cmd_AddParm(ts, "-volumeid", CMD_SINGLE, 0, "volume id");
COMMON_PARMS_DECL(ts);
cmd_CreateAlias(ts, "vgcqry");
- ts = cmd_CreateSyntax("vgcadd", VGCAdd, 0, "add entry to volume group cache (FSYNC_VG_ADD opcode)");
+ ts = cmd_CreateSyntax("vgcadd", VGCAdd, 0, 0, "add entry to volume group cache (FSYNC_VG_ADD opcode)");
cmd_Seek(ts, CUSTOM_PARMS_OFFSET);
cmd_AddParm(ts, "-partition", CMD_SINGLE, 0, "partition name");
cmd_AddParm(ts, "-parent", CMD_SINGLE, 0, "parent volume id");
cmd_AddParm(ts, "-child", CMD_SINGLE, 0, "child volume id");
COMMON_PARMS_DECL(ts);
- ts = cmd_CreateSyntax("vgcdel", VGCDel, 0, "delete entry from volume group cache (FSYNC_VG_DEL opcode)");
+ ts = cmd_CreateSyntax("vgcdel", VGCDel, 0, 0, "delete entry from volume group cache (FSYNC_VG_DEL opcode)");
cmd_Seek(ts, CUSTOM_PARMS_OFFSET);
cmd_AddParm(ts, "-partition", CMD_SINGLE, 0, "partition name");
cmd_AddParm(ts, "-parent", CMD_SINGLE, 0, "parent volume id");
cmd_AddParm(ts, "-child", CMD_SINGLE, 0, "child volume id");
COMMON_PARMS_DECL(ts);
- ts = cmd_CreateSyntax("vgcscan", VGCScan, 0,
+ ts = cmd_CreateSyntax("vgcscan", VGCScan, 0, 0,
"start volume group cache re-scan"
" (FSYNC_VG_SCAN opcode)");
cmd_Seek(ts, CUSTOM_PARMS_OFFSET);
cmd_AddParm(ts, "-partition", CMD_SINGLE, 0, "partition name");
COMMON_PARMS_DECL(ts);
- ts = cmd_CreateSyntax("vgcscanall", VGCScanAll, 0,
+ ts = cmd_CreateSyntax("vgcscanall", VGCScanAll, 0, 0,
"start whole-server volume group cache re-scan"
" (FSYNC_VG_SCAN_ALL opcode)");
COMMON_PARMS_DECL(ts);
exit(err);
}
+#ifdef AFS_DEMAND_ATTACH_FS
+# define dafs_prolog()
+#else
+/* Try to detect if the fileserver is DAFS, and if so, re-exec as the
+ * DAFS-enabled fssync-debug (dafssync_debug). If we fail to detect or
+ * exec, just try to proceed anyway as if the server is not DAFS */
+static void
+dafs_prolog(void)
+{
+ SYNC_response res;
+ SYNC_PROTO_BUF_DECL(res_buf);
+ afs_int32 code;
+ char *dfssd;
+
+ res.payload.len = SYNC_PROTO_MAX_LEN;
+ res.payload.buf = res_buf;
+
+ /* LISTVOLUMES is a no-op; we just want to get the response header flags
+ * to see if the server reports itself as DAFS or not */
+ code = FSYNC_VolOp(0, NULL, FSYNC_VOL_LISTVOLUMES, FSYNC_WHATEVER, &res);
+ VDisconnectFS(); /* disconnect before continuing */
+ if (code) {
+ /* probably failed to contact the fileserver; later code will provide
+ * some warning/error indication */
+ return;
+ }
+
+ if (!(res.hdr.flags & SYNC_FLAG_DAFS_EXTENSIONS)) {
+ /* fileserver is not DAFS, so we don't need to do anything */
+ return;
+ }
+
+ dfssd = afs_exec_alt(fssd_argc, fssd_argv, "da", NULL);
+
+ fprintf(stderr, "\n*** server asserted demand attach extensions, but we failed\n"
+ "*** to exec a DAFS-enabled fssync-debug '%s' (errno=%d);\n"
+ "*** attempting to proceed without it.\n\n", dfssd, errno);
+
+ free(dfssd);
+}
+#endif /* !AFS_DEMAND_ATTACH_FS */
+
static int
-common_prolog(struct cmd_syndesc * as, struct state * state)
+common_prolog(struct cmd_syndesc * as, struct fssync_state * state)
{
struct cmd_item *ti;
VolumePackageOptions opts;
if ((ti = as->parms[COMMON_PARMS_OFFSET].items)) { /* -reason */
state->reason = atoi(ti->data);
+ } else {
+ state->reason = FSYNC_WHATEVER;
}
+
if ((ti = as->parms[COMMON_PARMS_OFFSET+1].items)) { /* -programtype */
if (!strcmp(ti->data, "fileServer")) {
programType = fileServer;
}
static int
-common_volop_prolog(struct cmd_syndesc * as, struct state * state)
+common_volop_prolog(struct cmd_syndesc * as, struct fssync_state * state)
{
struct cmd_item *ti;
state->vop = (struct volop_state *) calloc(1, sizeof(struct volop_state));
- assert(state->vop != NULL);
+ opr_Assert(state->vop != NULL);
if ((ti = as->parms[COMMON_VOLOP_PARMS_OFFSET].items)) { /* -volumeid */
state->vop->volume = atoi(ti->data);
}
static int
-do_volop(struct state * state, afs_int32 command, SYNC_response * res)
+do_volop(struct fssync_state * state, afs_int32 command, SYNC_response * res)
{
afs_int32 code;
SYNC_PROTO_BUF_DECL(res_buf);
res->payload.buf = res_buf;
}
- fprintf(stderr, "calling FSYNC_VolOp with command code %d (%s)\n",
+ fprintf(stderr, "calling FSYNC_VolOp with command code %d (%s)\n",
command, FSYNC_com2string(command));
code = FSYNC_VolOp(state->vop->volume,
#define ENUMTOSTRING(en) #en
#define ENUMCASE(en) \
- case en: \
- return ENUMTOSTRING(en); \
- break
+ case en: return ENUMTOSTRING(en)
#define FLAGTOSTRING(fl) #fl
#define FLAGCASE(bitstr, fl, str, count) \
} \
} while (0)
-static int
+static int
VolOnline(struct cmd_syndesc * as, void * rock)
{
- struct state state;
+ struct fssync_state state;
common_prolog(as, &state);
common_volop_prolog(as, &state);
+ if (*(state.vop->partName)==0) {
+ fprintf(stderr, "required argument -partition not given\n");
+ return -1;
+ }
do_volop(&state, FSYNC_VOL_ON, NULL);
return 0;
}
-static int
+static int
VolOffline(struct cmd_syndesc * as, void * rock)
{
- struct state state;
+ struct fssync_state state;
common_prolog(as, &state);
common_volop_prolog(as, &state);
static int
VolMode(struct cmd_syndesc * as, void * rock)
{
- struct state state;
+ struct fssync_state state;
common_prolog(as, &state);
common_volop_prolog(as, &state);
static int
VolDetach(struct cmd_syndesc * as, void * rock)
{
- struct state state;
+ struct fssync_state state;
common_prolog(as, &state);
common_volop_prolog(as, &state);
static int
VolBreakCBKs(struct cmd_syndesc * as, void * rock)
{
- struct state state;
+ struct fssync_state state;
common_prolog(as, &state);
common_volop_prolog(as, &state);
static int
VolMove(struct cmd_syndesc * as, void * rock)
{
- struct state state;
+ struct fssync_state state;
common_prolog(as, &state);
common_volop_prolog(as, &state);
static int
VolList(struct cmd_syndesc * as, void * rock)
{
- struct state state;
+ struct fssync_state state;
common_prolog(as, &state);
common_volop_prolog(as, &state);
static int
VolLeaveOff(struct cmd_syndesc * as, void * rock)
{
- struct state state;
+ struct fssync_state state;
common_prolog(as, &state);
common_volop_prolog(as, &state);
static int
VolForceAttach(struct cmd_syndesc * as, void * rock)
{
- struct state state;
+ struct fssync_state state;
common_prolog(as, &state);
common_volop_prolog(as, &state);
static int
VolForceError(struct cmd_syndesc * as, void * rock)
{
- struct state state;
+ struct fssync_state state;
common_prolog(as, &state);
common_volop_prolog(as, &state);
ENUMCASE(VOL_STATE_VNODE_RELEASE);
ENUMCASE(VOL_STATE_VLRU_ADD);
ENUMCASE(VOL_STATE_DELETED);
+ ENUMCASE(VOL_STATE_SALVAGE_REQ);
ENUMCASE(VOL_STATE_FREED);
default:
return "**UNKNOWN**";
static char *
vol_flags_to_string(afs_uint16 flags)
{
- static char str[128];
+ static char str[256];
int count = 0;
str[0]='\0';
FLAGCASE(flags, VOL_IS_BUSY, str, count);
FLAGCASE(flags, VOL_ON_VLRU, str, count);
FLAGCASE(flags, VOL_HDR_DONTSALV, str, count);
+ FLAGCASE(flags, VOL_LOCKED, str, count);
return str;
}
static int
VolQuery(struct cmd_syndesc * as, void * rock)
{
- struct state state;
+ struct fssync_state state;
SYNC_PROTO_BUF_DECL(res_buf);
SYNC_response res;
Volume v;
-#ifdef AFS_DEMAND_ATTACH_FS
- int hi, lo;
-#endif
+
+ dafs_prolog();
res.hdr.response_len = sizeof(res.hdr);
res.payload.buf = res_buf;
memcpy(&v, res.payload.buf, sizeof(Volume));
printf("volume = {\n");
- printf("\thashid = %u\n", v.hashid);
+ printf("\thashid = %" AFS_VOLID_FMT "\n", afs_printable_VolumeId_lu(v.hashid));
printf("\theader = %p\n", v.header);
printf("\tdevice = %d\n", v.device);
printf("\tpartition = %p\n", v.partition);
printf("\tlinkHandle = %p\n", v.linkHandle);
printf("\tnextVnodeUnique = %u\n", v.nextVnodeUnique);
printf("\tdiskDataHandle = %p\n", v.diskDataHandle);
- printf("\tvnodeHashOffset = %u\n", v.vnodeHashOffset);
printf("\tshuttingDown = %d\n", v.shuttingDown);
printf("\tgoingOffline = %d\n", v.goingOffline);
printf("\tcacheCheck = %u\n", v.cacheCheck);
printf("\tneedsPutBack = %d\n", v.needsPutBack);
printf("\tspecialStatus = %d\n", v.specialStatus);
printf("\tupdateTime = %u\n", v.updateTime);
-
+
printf("\tvnodeIndex[vSmall] = {\n");
printf("\t\thandle = %p\n", v.vnodeIndex[vSmall].handle);
printf("\t\tbitmap = %p\n", v.vnodeIndex[vSmall].bitmap);
printf("\tattach_flags = %s\n", vol_flags_to_string(v.attach_flags));
printf("\tnWaiters = %d\n", v.nWaiters);
printf("\tchainCacheCheck = %d\n", v.chainCacheCheck);
-
+
/* online salvage structure */
printf("\tsalvage = {\n");
printf("\t\tprio = %u\n", v.salvage.prio);
printf("\t\trequested = %d\n", v.salvage.requested);
printf("\t\tscheduled = %d\n", v.salvage.scheduled);
printf("\t}\n");
-
+
/* statistics structure */
printf("\tstats = {\n");
- printf("\t\thash_lookups = {\n");
- SplitInt64(v.stats.hash_lookups,hi,lo);
- printf("\t\t\thi = %u\n", hi);
- printf("\t\t\tlo = %u\n", lo);
+ printf("\t\thash_lookups = %"AFS_INT64_FMT"\n",
+ v.stats.hash_lookups);
+ printf("\t\thash_short_circuits = %"AFS_INT64_FMT"\n",
+ v.stats.hash_short_circuits);
+ printf("\t\thdr_loads = %"AFS_INT64_FMT"\n",
+ v.stats.hdr_loads);
+ printf("\t\thdr_gets = %"AFS_INT64_FMT"\n",
+ v.stats.hdr_gets);
printf("\t\t}\n");
- printf("\t\thash_short_circuits = {\n");
- SplitInt64(v.stats.hash_short_circuits,hi,lo);
- printf("\t\t\thi = %u\n", hi);
- printf("\t\t\tlo = %u\n", lo);
- printf("\t\t}\n");
-
- printf("\t\thdr_loads = {\n");
- SplitInt64(v.stats.hdr_loads,hi,lo);
- printf("\t\t\thi = %u\n", hi);
- printf("\t\t\tlo = %u\n", lo);
- printf("\t\t}\n");
-
- printf("\t\thdr_gets = {\n");
- SplitInt64(v.stats.hdr_gets,hi,lo);
- printf("\t\t\thi = %u\n", hi);
- printf("\t\t\tlo = %u\n", lo);
- printf("\t\t}\n");
-
printf("\t\tattaches = %u\n", v.stats.attaches);
printf("\t\tsoft_detaches = %u\n", v.stats.soft_detaches);
printf("\t\tsalvages = %u\n", v.stats.salvages);
printf("\t\tvol_ops = %u\n", v.stats.vol_ops);
-
+
printf("\t\tlast_attach = %u\n", v.stats.last_attach);
printf("\t\tlast_get = %u\n", v.stats.last_get);
printf("\t\tlast_promote = %u\n", v.stats.last_promote);
printf("\t\tlast_salvage_req = %u\n", v.stats.last_salvage_req);
printf("\t\tlast_vol_op = %u\n", v.stats.last_vol_op);
printf("\t}\n");
-
+
/* VLRU state */
printf("\tvlru = {\n");
- printf("\t\tidx = %d (%s)\n",
+ printf("\t\tidx = %d (%s)\n",
v.vlru.idx, vlru_idx_to_string(v.vlru.idx));
printf("\t}\n");
}
#else /* !AFS_DEMAND_ATTACH_FS */
if (res.hdr.flags & SYNC_FLAG_DAFS_EXTENSIONS) {
- printf("*** server asserted demand attach extensions. fssync-debug not built to\n");
- printf("*** recognize those extensions. please recompile fssync-debug if you need\n");
- printf("*** to dump dafs extended state\n");
+ printf("*** server asserted demand attach extensions. this fssync-debug\n"
+ "*** is not built to recognize those extensions. please use an\n"
+ "*** fssync-debug with demand attach if you need to dump dafs\n"
+ "*** extended state.\n");
}
#endif /* !AFS_DEMAND_ATTACH_FS */
printf("}\n");
static int
VolHdrQuery(struct cmd_syndesc * as, void * rock)
{
- struct state state;
+ struct fssync_state state;
SYNC_PROTO_BUF_DECL(res_buf);
SYNC_response res;
VolumeDiskData v;
printf("\t\tmagic = 0x%x\n", v.stamp.magic);
printf("\t\tversion = %u\n", v.stamp.version);
printf("\t}\n");
-
- printf("\tid = %u\n", v.id);
+
+ printf("\tid = %" AFS_VOLID_FMT "\n", afs_printable_VolumeId_lu(v.id));
printf("\tname = '%s'\n", v.name);
if (v.inUse != 0) {
printf("\tinUse = %d (%s)\n", v.inUse, VPTypeToString(v.inUse));
printf("\tneedsSalvaged = %d\n", v.needsSalvaged);
printf("\tuniquifier = %u\n", v.uniquifier);
printf("\ttype = %d\n", v.type);
- printf("\tparentId = %u\n", v.parentId);
- printf("\tcloneId = %u\n", v.cloneId);
- printf("\tbackupId = %u\n", v.backupId);
- printf("\trestoredFromId = %u\n", v.restoredFromId);
+ printf("\tparentId = %" AFS_VOLID_FMT "\n", afs_printable_VolumeId_lu(v.parentId));
+ printf("\tcloneId = %" AFS_VOLID_FMT "\n", afs_printable_VolumeId_lu(v.cloneId));
+ printf("\tbackupId = %" AFS_VOLID_FMT "\n", afs_printable_VolumeId_lu(v.backupId));
+ printf("\trestoredFromId = %" AFS_VOLID_FMT "\n", afs_printable_VolumeId_lu(v.restoredFromId));
printf("\tneedsCallback = %d\n", v.needsCallback);
printf("\tdestroyMe = %d\n", v.destroyMe);
printf("\tdontSalvage = %d\n", v.dontSalvage);
printf("\texpirationDate = %u\n", v.expirationDate);
printf("\tbackupDate = %u\n", v.backupDate);
printf("\tcopyDate = %u\n", v.copyDate);
-#ifdef OPENAFS_VOL_STATS
printf("\tstat_initialized = %d\n", v.stat_initialized);
-#else
- printf("\tmtd = '%s'\n", v.motd);
-#endif
printf("}\n");
}
static int
VolOpQuery(struct cmd_syndesc * as, void * rock)
{
- struct state state;
+ struct fssync_state state;
SYNC_PROTO_BUF_DECL(res_buf);
SYNC_response res;
FSSYNC_VolOp_info vop;
printf("\t\tproto_version = %u\n", vop.com.proto_version);
printf("\t\tpkt_seq = %u\n", vop.com.pkt_seq);
printf("\t\tcom_seq = %u\n", vop.com.com_seq);
- printf("\t\tprogramType = %d (%s)\n",
+ printf("\t\tprogramType = %d (%s)\n",
vop.com.programType, VPTypeToString(vop.com.programType));
printf("\t\tpid = %d\n", vop.com.pid);
printf("\t\ttid = %d\n", vop.com.tid);
- printf("\t\tcommand = %d (%s)\n",
+ printf("\t\tcommand = %d (%s)\n",
vop.com.command, FSYNC_com2string(vop.com.command));
- printf("\t\treason = %d (%s)\n",
+ printf("\t\treason = %d (%s)\n",
vop.com.reason, FSYNC_reason2string(vop.com.reason));
printf("\t\tcommand_len = %u\n", vop.com.command_len);
printf("\t\tflags = 0x%lux\n", afs_printable_uint32_lu(vop.com.flags));
printf("\t}\n");
printf("\tvop = {\n");
- printf("\t\tvolume = %u\n", vop.vop.volume);
- if (afs_strnlen(vop.vop.partName, sizeof(vop.vop.partName)) <
+ printf("\t\tvolume = %" AFS_VOLID_FMT "\n", afs_printable_VolumeId_lu(vop.vop.volume));
+ if (strnlen(vop.vop.partName, sizeof(vop.vop.partName)) <
sizeof(vop.vop.partName)) {
printf("\t\tpartName = '%s'\n", vop.vop.partName);
} else {
}
static int
-vn_prolog(struct cmd_syndesc * as, struct state * state)
+vn_prolog(struct cmd_syndesc * as, struct fssync_state * state)
{
struct cmd_item *ti;
state->vop = (struct volop_state *) calloc(1, sizeof(struct volop_state));
- assert(state->vop != NULL);
+ osi_Assert(state->vop != NULL);
if ((ti = as->parms[CUSTOM_PARMS_OFFSET].items)) { /* -volumeid */
state->vop->volume = atoi(ti->data);
}
static int
-do_vnqry(struct state * state, SYNC_response * res)
+do_vnqry(struct fssync_state * state, SYNC_response * res)
{
afs_int32 code;
int command = FSYNC_VOL_QUERY_VNODE;
qry.spare = 0;
strlcpy(qry.partName, state->vop->partName, sizeof(qry.partName));
- fprintf(stderr, "calling FSYNC_GenericOp with command code %d (%s)\n",
+ fprintf(stderr, "calling FSYNC_GenericOp with command code %d (%s)\n",
command, FSYNC_com2string(command));
code = FSYNC_GenericOp(&qry, sizeof(qry), command, FSYNC_OPERATOR, res);
static int
VnQuery(struct cmd_syndesc * as, void * rock)
{
- struct state state;
+ struct fssync_state state;
SYNC_PROTO_BUF_DECL(res_buf);
SYNC_response res;
Vnode v;
+ dafs_prolog();
+
res.hdr.response_len = sizeof(res.hdr);
res.payload.buf = res_buf;
res.payload.len = SYNC_PROTO_MAX_LEN;
#ifdef AFS_DEMAND_ATTACH_FS
if (!(res.hdr.flags & SYNC_FLAG_DAFS_EXTENSIONS)) {
- printf("*** fssync-debug built to expect demand attach extensions. server asserted\n");
- printf("*** that it was not compiled with demand attach turned on. please recompile\n");
- printf("*** fssync-debug to match your server\n");
+ printf("*** this fssync-debug is built to expect demand attach extensions.\n"
+ "*** server asserted that is was not compiled with demand attach.\n"
+ "*** please use an fssync-debug without demand attach to match your\n"
+ "*** server.\n");
goto done;
}
printf("\tvn_state = %s\n", vn_state_to_string(v.vn_state));
#else
if (res.hdr.flags & SYNC_FLAG_DAFS_EXTENSIONS) {
- printf("*** server asserted demand attach extensions. fssync-debug not built to\n");
- printf("*** recognize those extensions. please recompile fssync-debug if you need\n");
- printf("*** to dump dafs extended state\n");
+ printf("*** server asserted demand attach extensions. this fssync-debug is not\n"
+ "*** built to recognize those extensions. please use an fssync-debug\n"
+ "*** with demand attach to match your server.\n");
goto done;
}
#endif /* !AFS_DEMAND_ATTACH_FS */
afs_int32 code;
int command;
struct cmd_item *ti;
- struct state state;
+ struct fssync_state state;
SYNC_PROTO_BUF_DECL(res_buf);
SYNC_response res;
FSSYNC_StatsOp_hdr scom;
common_prolog(as, &state);
- fprintf(stderr, "calling FSYNC_askfs with command code %d (%s)\n",
+ fprintf(stderr, "calling FSYNC_askfs with command code %d (%s)\n",
command, FSYNC_com2string(command));
code = FSYNC_StatsOp(&scom, command, FSYNC_WHATEVER, &res);
}
fprintf(stderr, "FSYNC_VolOp returned %d (%s)\n", code, SYNC_res2string(code));
- fprintf(stderr, "protocol response code was %d (%s)\n",
+ fprintf(stderr, "protocol response code was %d (%s)\n",
res.hdr.response, SYNC_res2string(res.hdr.response));
- fprintf(stderr, "protocol reason code was %d (%s)\n",
+ fprintf(stderr, "protocol reason code was %d (%s)\n",
res.hdr.reason, FSYNC_reason2string(res.hdr.reason));
VDisconnectFS();
#ifdef AFS_DEMAND_ATTACH_FS
int i;
#endif
- afs_uint32 hi, lo;
printf("VolPkgStats = {\n");
#ifdef AFS_DEMAND_ATTACH_FS
for (i = 0; i < VOL_STATE_COUNT; i++) {
- printf("\tvol_state_count[%s] = %d\n",
+ printf("\tvol_state_count[%s] = %d\n",
vol_state_to_string(i),
stats->state_levels[i]);
}
- SplitInt64(stats->hash_looks, hi, lo);
- printf("\thash_looks = {\n");
- printf("\t\thi = %u\n", hi);
- printf("\t\tlo = %u\n", lo);
- printf("\t}\n");
-
- SplitInt64(stats->hash_reorders, hi, lo);
- printf("\thash_reorders = {\n");
- printf("\t\thi = %u\n", hi);
- printf("\t\tlo = %u\n", lo);
- printf("\t}\n");
-
- SplitInt64(stats->salvages, hi, lo);
- printf("\tsalvages = {\n");
- printf("\t\thi = %u\n", hi);
- printf("\t\tlo = %u\n", lo);
- printf("\t}\n");
-
- SplitInt64(stats->vol_ops, hi, lo);
- printf("\tvol_ops = {\n");
- printf("\t\thi = %u\n", hi);
- printf("\t\tlo = %u\n", lo);
- printf("\t}\n");
+ printf("\thash_looks = %"AFS_INT64_FMT"\n",
+ stats->hash_looks);
+ printf("\thash_reorders = %"AFS_INT64_FMT"\n",
+ stats->hash_reorders);
+ printf("\tsalvages = %"AFS_INT64_FMT"\n",
+ stats->salvages);
+ printf("\tvol_ops = %"AFS_INT64_FMT"\n",
+ stats->vol_ops);
#endif
- SplitInt64(stats->hdr_loads, hi, lo);
- printf("\thdr_loads = {\n");
- printf("\t\thi = %u\n", hi);
- printf("\t\tlo = %u\n", lo);
- printf("\t}\n");
-
- SplitInt64(stats->hdr_gets, hi, lo);
- printf("\thdr_gets = {\n");
- printf("\t\thi = %u\n", hi);
- printf("\t\tlo = %u\n", lo);
- printf("\t}\n");
-
- SplitInt64(stats->attaches, hi, lo);
- printf("\tattaches = {\n");
- printf("\t\thi = %u\n", hi);
- printf("\t\tlo = %u\n", lo);
- printf("\t}\n");
-
- SplitInt64(stats->soft_detaches, hi, lo);
- printf("\tsoft_detaches = {\n");
- printf("\t\thi = %u\n", hi);
- printf("\t\tlo = %u\n", lo);
- printf("\t}\n");
-
+ printf("\thdr_loads = %"AFS_INT64_FMT"\n",
+ stats->hdr_loads);
+ printf("\thdr_gets = %"AFS_INT64_FMT"\n",
+ stats->hdr_gets);
+ printf("\tattaches = %"AFS_INT64_FMT"\n",
+ stats->attaches);
+ printf("\tsoft_detaches = %"AFS_INT64_FMT"\n",
+ stats->soft_detaches);
printf("\thdr_cache_size = %d\n", stats->hdr_cache_size);
-
+
printf("}\n");
}
static void
print_vol_stats_hash(struct VolumeHashChainStats * stats)
{
-#ifdef AFS_DEMAND_ATTACH_FS
- afs_uint32 hi, lo;
-#endif
-
printf("DiskPartitionStats = {\n");
printf("\ttable_size = %d\n", stats->table_size);
printf("\tchain_len = %d\n", stats->chain_len);
printf("\tchain_cacheCheck = %d\n", stats->chain_cacheCheck);
printf("\tchain_busy = %d\n", stats->chain_busy);
- SplitInt64(stats->chain_looks, hi, lo);
- printf("\tchain_looks = {\n");
- printf("\t\thi = %u\n", hi);
- printf("\t\tlo = %u\n", lo);
- printf("\t}\n");
-
- SplitInt64(stats->chain_gets, hi, lo);
- printf("\tchain_gets = {\n");
- printf("\t\thi = %u\n", hi);
- printf("\t\tlo = %u\n", lo);
- printf("\t}\n");
-
- SplitInt64(stats->chain_reorders, hi, lo);
- printf("\tchain_reorders = {\n");
- printf("\t\thi = %u\n", hi);
- printf("\t\tlo = %u\n", lo);
- printf("\t}\n");
+ printf("\tchain_looks = %"AFS_INT64_FMT"\n",
+ stats->chain_looks);
+ printf("\tchain_gets = %"AFS_INT64_FMT"\n",
+ stats->chain_gets);
+ printf("\tchain_reorders = %"AFS_INT64_FMT"\n",
+ stats->chain_reorders);
#endif /* AFS_DEMAND_ATTACH_FS */
printf("}\n");
VGCQuery(struct cmd_syndesc * as, void * rock)
{
afs_int32 code;
- struct state state;
+ struct fssync_state state;
char * partName;
VolumeId volid;
FSSYNC_VGQry_response_t q_res;
VGCAdd(struct cmd_syndesc * as, void * rock)
{
afs_int32 code;
- struct state state;
+ struct fssync_state state;
char * partName;
VolumeId parent, child;
struct cmd_item *ti;
VGCDel(struct cmd_syndesc * as, void * rock)
{
afs_int32 code;
- struct state state;
+ struct fssync_state state;
char * partName;
VolumeId parent, child;
struct cmd_item *ti;
}
child = atoi(ti->data);
- state.reason = FSYNC_WHATEVER;
-
common_prolog(as, &state);
fprintf(stderr, "calling FSYNC_VCGDel\n");
code = FSYNC_VGCDel(partName, parent, child, state.reason, &res);
VGCScan(struct cmd_syndesc * as, void * rock)
{
afs_int32 code;
- struct state state;
+ struct fssync_state state;
char * partName;
struct cmd_item *ti;
VGCScanAll(struct cmd_syndesc * as, void * rock)
{
afs_int32 code;
- struct state state;
+ struct fssync_state state;
common_prolog(as, &state);
fprintf(stderr, "calling FSYNC_VCGScanAll\n");