/*
* 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
* afsi_SetServerIPRank
* afs_GetServer
* afs_ActivateServer
- *
+ *
*
* Local:
* HaveCallBacksFrom
* CheckVLServer
* afs_SortOneServer
* afs_SetServerPrefs
- *
+ *
*/
#include <afsconfig.h>
#include "afs/param.h"
void
afs_MarkServerUpOrDown(struct srvAddr *sa, int a_isDown)
{
- register struct server *a_serverP = sa->server;
- register struct srvAddr *sap;
+ struct server *a_serverP = sa->server;
+ struct srvAddr *sap;
osi_timeval_t currTime, *currTimeP; /*Current time */
afs_int32 downTime; /*Computed downtime, in seconds */
struct afs_stats_SrvUpDownInfo *upDownP; /*Ptr to up/down info record */
return;
}
}
- /*
+ /*
* All ips are down we treat the whole server down
*/
a_serverP->flags |= SRVR_ISDOWN;
afs_int32
afs_ServerDown(struct srvAddr *sa)
{
- register struct server *aserver = sa->server;
+ struct server *aserver = sa->server;
AFS_STATCNT(ServerDown);
- if (aserver->flags & SRVR_ISDOWN || sa->sa_flags & SRVADDR_ISDOWN)
+ if (aserver->flags & SRVR_ISDOWN || sa->sa_flags & SRVADDR_ISDOWN)
return 0;
afs_MarkServerUpOrDown(sa, SRVR_ISDOWN);
if (sa->sa_portal == aserver->cell->vlport)
int
afs_HaveCallBacksFrom(struct server *aserver)
{
- register afs_int32 now;
- register int i;
- register struct vcache *tvc;
+ afs_int32 now;
+ int i;
+ struct vcache *tvc;
AFS_STATCNT(HaveCallBacksFrom);
now = osi_Time(); /* for checking for expired callbacks */
static void
-CheckVLServer(register struct srvAddr *sa, struct vrequest *areq)
+CheckVLServer(struct srvAddr *sa, struct vrequest *areq)
{
- register struct server *aserver = sa->server;
- register struct afs_conn *tc;
- register afs_int32 code;
+ struct server *aserver = sa->server;
+ struct afs_conn *tc;
+ afs_int32 code;
AFS_STATCNT(CheckVLServer);
/* Ping dead servers to see if they're back */
* with old vlsevers), then we treat this server as running again
*/
if (code == 0 || (code <= -450 && code >= -470)) {
- if (tc->srvr == sa) {
+ if (tc->parent->srvr == sa) {
afs_MarkServerUpOrDown(sa, 0);
print_internet_address("afs: volume location server ", sa,
" is back up", 2);
/*
* Any further tallying for this record will only be done if it has
- * been activated.
+ * been activated.
*/
if ((currSrvP->flags & AFS_SERVER_FLAG_ACTIVATED)
&& currSrvP->addr && currSrvP->cell) {
}
addrs = afs_osi_Alloc(srvAddrCount * sizeof(*addrs));
+ osi_Assert(addrs != NULL);
j = 0;
for (i = 0; i < NSERVERS; i++) {
for (sa = afs_srvAddrs[i]; sa; sa = sa->next_bkt) {
struct srvAddr **addrs;
struct afs_conn **conns;
int nconns;
- struct rx_connection **rxconns;
+ struct rx_connection **rxconns;
afs_int32 *conntimer, *deltas, *results;
Capabilities *caps = NULL;
AFS_STATCNT(afs_CheckServers);
- /*
+ /*
* No sense in doing the server checks if we are running in disconnected
* mode
*/
}
addrs = afs_osi_Alloc(srvAddrCount * sizeof(*addrs));
+ osi_Assert(addrs != NULL);
j = 0;
for (i = 0; i < NSERVERS; i++) {
for (sa = afs_srvAddrs[i]; sa; sa = sa->next_bkt) {
ReleaseReadLock(&afs_xsrvAddr);
ReleaseReadLock(&afs_xserver);
- conns = (struct afs_conn **)afs_osi_Alloc(j * sizeof(struct afs_conn *));
- rxconns = (struct rx_connection **)afs_osi_Alloc(j * sizeof(struct rx_connection *));
- conntimer = (afs_int32 *)afs_osi_Alloc(j * sizeof (afs_int32));
- deltas = (afs_int32 *)afs_osi_Alloc(j * sizeof (afs_int32));
- results = (afs_int32 *)afs_osi_Alloc(j * sizeof (afs_int32));
-
- caps = (Capabilities *)afs_osi_Alloc(j * sizeof (Capabilities));
+ conns = afs_osi_Alloc(j * sizeof(struct afs_conn *));
+ osi_Assert(conns != NULL);
+ rxconns = afs_osi_Alloc(j * sizeof(struct rx_connection *));
+ osi_Assert(rxconns != NULL);
+ conntimer = afs_osi_Alloc(j * sizeof (afs_int32));
+ osi_Assert(conntimer != NULL);
+ deltas = afs_osi_Alloc(j * sizeof (afs_int32));
+ osi_Assert(deltas != NULL);
+ results = afs_osi_Alloc(j * sizeof (afs_int32));
+ osi_Assert(results != NULL);
+
+ caps = afs_osi_Alloc(j * sizeof (Capabilities));
+ osi_Assert(caps != NULL);
memset(caps, 0, j * sizeof(Capabilities));
for (i = 0; i < j; i++) {
continue;
if ((sa->sa_flags & SRVADDR_ISDOWN) || afs_HaveCallBacksFrom(sa->server)
- || (tc->srvr->server == afs_setTimeHost)) {
- conns[nconns]=tc;
+ || (tc->parent->srvr->server == afs_setTimeHost)) {
+ conns[nconns]=tc;
rxconns[nconns]=tc->id;
if (sa->sa_flags & SRVADDR_ISDOWN) {
rx_SetConnDeadTime(tc->id, 3);
if ( afs_setTimeHost == NULL ) {
multi_Rx(rxconns,nconns)
{
- tv.tv_sec = tv.tv_usec = 0;
- multi_RXAFS_GetTime(
- (afs_uint32 *)&tv.tv_sec, (afs_uint32 *)&tv.tv_usec);
- tc = conns[multi_i];
- sa = tc->srvr;
- if (conntimer[multi_i] == 1)
- rx_SetConnDeadTime(tc->id, afs_rx_deadtime);
- end = osi_Time();
- results[multi_i]=multi_error;
- if ((start == end) && !multi_error)
- deltas[multi_i] = end - tv.tv_sec;
-
+ tv.tv_sec = tv.tv_usec = 0;
+ multi_RXAFS_GetTime(
+ (afs_uint32 *)&tv.tv_sec, (afs_uint32 *)&tv.tv_usec);
+ tc = conns[multi_i];
+ sa = tc->parent->srvr;
+ if (conntimer[multi_i] == 1)
+ rx_SetConnDeadTime(tc->id, afs_rx_deadtime);
+ end = osi_Time();
+ results[multi_i]=multi_error;
+ if ((start == end) && !multi_error)
+ deltas[multi_i] = end - tv.tv_sec;
} multi_End;
}
else { /* find and query setTimeHost only */
for ( i = 0 ; i < j ; i++ ) {
- if ( conns[i] == NULL || conns[i]->srvr == NULL )
+ if ( conns[i] == NULL || conns[i]->parent->srvr == NULL )
continue;
- if ( conns[i]->srvr->server == afs_setTimeHost ) {
+ if ( conns[i]->parent->srvr->server == afs_setTimeHost ) {
tv.tv_sec = tv.tv_usec = 0;
results[i] = RXAFS_GetTime(rxconns[i],
(afs_uint32 *)&tv.tv_sec, (afs_uint32 *)&tv.tv_usec);
}
AFS_GLOCK();
}
-
+
for(i=0;i<nconns;i++){
- tc = conns[i];
- sa = tc->srvr;
-
- if (( results[i] >= 0 ) && (sa->sa_flags & SRVADDR_ISDOWN) && (tc->srvr == sa)) {
- /* server back up */
- print_internet_address("afs: file server ", sa, " is back up", 2);
-
- ObtainWriteLock(&afs_xserver, 244);
- ObtainWriteLock(&afs_xsrvAddr, 245);
- afs_MarkServerUpOrDown(sa, 0);
- ReleaseWriteLock(&afs_xsrvAddr);
- ReleaseWriteLock(&afs_xserver);
-
- if (afs_waitForeverCount) {
- afs_osi_Wakeup(&afs_waitForever);
- }
- } else {
- if (results[i] < 0) {
- /* server crashed */
- afs_ServerDown(sa);
- ForceNewConnections(sa); /* multi homed clients */
+ tc = conns[i];
+ sa = tc->parent->srvr;
+
+ if (( results[i] >= 0 ) && (sa->sa_flags & SRVADDR_ISDOWN) && (tc->parent->srvr == sa)) {
+ /* server back up */
+ print_internet_address("afs: file server ", sa, " is back up", 2);
+
+ ObtainWriteLock(&afs_xserver, 244);
+ ObtainWriteLock(&afs_xsrvAddr, 245);
+ afs_MarkServerUpOrDown(sa, 0);
+ ReleaseWriteLock(&afs_xsrvAddr);
+ ReleaseWriteLock(&afs_xserver);
+
+ if (afs_waitForeverCount) {
+ afs_osi_Wakeup(&afs_waitForever);
+ }
+ } else {
+ if ((results[i] < 0) && (results[i] != RXGEN_OPCODE)) {
+ /* server crashed */
+ afs_ServerDown(sa);
+ ForceNewConnections(sa); /* multi homed clients */
+ }
}
- }
}
/*
for (i=0; i<nconns; i++) {
delta = deltas[i];
tc = conns[i];
- sa = tc->srvr;
-
- if ((tc->srvr->server == afs_setTimeHost ||
+ sa = tc->parent->srvr;
+
+ if ((tc->parent->srvr->server == afs_setTimeHost ||
/* Sync only to a server in the local cell */
(afs_setTimeHost == (struct server *)0 &&
afs_IsPrimaryCell(sa->server->cell)))) {
/* set the time */
char msgbuf[90]; /* strlen("afs: setting clock...") + slop */
delta = end - tv.tv_sec; /* how many secs fast we are */
-
- afs_setTimeHost = tc->srvr->server;
+
+ afs_setTimeHost = tc->parent->srvr->server;
/* see if clock has changed enough to make it worthwhile */
if (delta >= AFS_MINCHANGE || delta <= -AFS_MINCHANGE) {
end = osi_Time();
if (delta > 0) {
strcpy(msgbuf, "afs: setting clock back ");
if (delta > AFS_MAXCHANGEBACK) {
- afs_strcat(msgbuf,
- afs_cv2string(&tbuffer[CVBS],
+ afs_strcat(msgbuf,
+ afs_cv2string(&tbuffer[CVBS],
AFS_MAXCHANGEBACK));
afs_strcat(msgbuf, " seconds (of ");
- afs_strcat(msgbuf,
- afs_cv2string(&tbuffer[CVBS],
- delta -
+ afs_strcat(msgbuf,
+ afs_cv2string(&tbuffer[CVBS],
+ delta -
AFS_MAXCHANGEBACK));
afs_strcat(msgbuf, ", via ");
- print_internet_address(msgbuf, sa,
+ print_internet_address(msgbuf, sa,
"); clock is still fast.",
0);
} else {
- afs_strcat(msgbuf,
+ afs_strcat(msgbuf,
afs_cv2string(&tbuffer[CVBS], delta));
afs_strcat(msgbuf, " seconds (via ");
print_internet_address(msgbuf, sa, ").", 0);
}
} else {
strcpy(msgbuf, "afs: setting clock ahead ");
- afs_strcat(msgbuf,
+ afs_strcat(msgbuf,
afs_cv2string(&tbuffer[CVBS], -delta));
afs_strcat(msgbuf, " seconds (via ");
print_internet_address(msgbuf, sa, ").", 0);
}
/* We're only going to set it once; why bother looping? */
- break;
+ break;
}
}
}
for (i = 0; i < nconns; i++) {
afs_PutConn(conns[i], SHARED_LOCK); /* done with it now */
}
-
+
afs_osi_Free(addrs, srvAddrCount * sizeof(*addrs));
afs_osi_Free(conns, j * sizeof(struct afs_conn *));
afs_osi_Free(rxconns, j * sizeof(struct rx_connection *));
afs_osi_Free(deltas, j * sizeof(afs_int32));
afs_osi_Free(results, j * sizeof(afs_int32));
afs_osi_Free(caps, j * sizeof(Capabilities));
-
+
} /*afs_CheckServers*/
/* Rules:
X = (aX + c) % m
- m is a power of two
+ m is a power of two
a % 8 is 5
a is 0.73m should be 0.01m .. 0.99m
c is more or less immaterial. 1 or a is suggested.
-
+
NB: LOW ORDER BITS are not very random. To get small random numbers,
- treat result as <1, with implied binary point, and multiply by
+ treat result as <1, with implied binary point, and multiply by
desired modulus.
NB: Has to be unsigned, since shifts on signed quantities may preserve
the sign bit.
*/
-/* added rxi_getaddr() to try to get as much initial randomness as
- possible, since at least one customer reboots ALL their clients
+/* added rxi_getaddr() to try to get as much initial randomness as
+ possible, since at least one customer reboots ALL their clients
simultaneously -- so osi_Time is bound to be the same on some of the
clients. This is probably OK, but I don't want to see too much of it.
*/
afs_random(void)
{
static afs_int32 state = 0;
- register int i;
+ int i;
AFS_STATCNT(afs_random);
if (!state) {
/* returns int 0..14 using the high bits of a pseudo-random number instead of
the low bits, as the low bits are "less random" than the high ones...
slight roundoff error exists, an excercise for the reader.
- need to multiply by something with lots of ones in it, so multiply by
+ need to multiply by something with lots of ones in it, so multiply by
8 or 16 is right out.
*/
int
} /*afs_SortServers */
/* afs_SetServerPrefs is rather system-dependent. It pokes around in kernel
- data structures to determine what the local IP addresses and subnet masks
+ data structures to determine what the local IP addresses and subnet masks
are in order to choose which server(s) are on the local subnet.
As I see it, there are several cases:
4. The server is on a different logical subnet or net than this host, but
this host is a 'metric 0 gateway' to it. Ie, two address-spaces share
one physical medium.
- 5. This host has a direct (point-to-point, ie, PPP or SLIP) link to the
+ 5. This host has a direct (point-to-point, ie, PPP or SLIP) link to the
server.
6. This host and the server are disjoint.
That is a rough order of preference. If a point-to-point link has a high
- metric, I'm assuming that it is a very slow link, and putting it at the
- bottom of the list (at least until RX works better over slow links). If
- its metric is 1, I'm assuming that it's relatively fast (T1) and putting
+ metric, I'm assuming that it is a very slow link, and putting it at the
+ bottom of the list (at least until RX works better over slow links). If
+ its metric is 1, I'm assuming that it's relatively fast (T1) and putting
it ahead of #6.
It's not easy to check for case #4, so I'm ignoring it for the time being.
BSD "if" code keeps track of some rough network statistics (cf 'netstat -i')
- That could be used to prefer certain servers fairly easily. Maybe some
+ That could be used to prefer certain servers fairly easily. Maybe some
other time...
NOTE: this code is very system-dependent, and very dependent on the TCP/IP
/*
* The IP addresses and ranks are determined by afsd (in user space) and
* passed into the kernel at startup time through the AFSOP_ADVISEADDR
- * system call. These are stored in the data structure
- * called 'afs_cb_interface'.
+ * system call. These are stored in the data structure
+ * called 'afs_cb_interface'.
*
* struct srvAddr *sa; remote server
* afs_int32 addr; one of my local addr in net order
return;
}
#else /* AFS_USERSPACE_IP_ADDR */
-#if (! defined(AFS_SUN5_ENV)) && !defined(AFS_DARWIN_ENV) && defined(USEIFADDR)
+#if (! defined(AFS_SUN5_ENV)) && (! defined(AFS_DARWIN_ENV)) && (! defined(AFS_OBSD47_ENV)) && defined(USEIFADDR)
void
afsi_SetServerIPRank(struct srvAddr *sa, struct in_ifaddr *ifa)
{
#endif /* IFF_POINTTOPOINT */
}
#endif /*(!defined(AFS_SUN5_ENV)) && defined(USEIFADDR) */
-#if defined(AFS_DARWIN_ENV) && defined(USEIFADDR)
+#if (defined(AFS_DARWIN_ENV) || defined(AFS_OBSD47_ENV)) && defined(USEIFADDR)
#ifndef afs_min
#define afs_min(A,B) ((A)<(B)) ? (A) : (B)
#endif
if (rx_ifaddr_address_family(ifa) != AF_INET)
return;
t = rx_ifaddr_address(ifa, &sout, sizeof(sout));
- if (t == 0) {
+ if (t != 0) {
sin = (struct sockaddr_in *)&sout;
myAddr = ntohl(sin->sin_addr.s_addr); /* one of my IP addr in host order */
} else {
}
serverAddr = ntohl(sa->sa_ip); /* server's IP addr in host order */
t = rx_ifaddr_netmask(ifa, &sout, sizeof(sout));
- if (t == 0) {
+ if (t != 0) {
sin = (struct sockaddr_in *)&sout;
subnetmask = ntohl(sin->sin_addr.s_addr); /* subnet mask in host order */
} else {
subnetmask = 0;
}
t = rx_ifaddr_dstaddress(ifa, &sout, sizeof(sout));
- if (t == 0) {
+ if (t != 0) {
sin = (struct sockaddr_in *)&sout;
- myDstaddr = sin->sin_addr.s_addr;
+ myDstaddr = ntohl(sin->sin_addr.s_addr);
} else {
myDstaddr = 0;
}
#ifdef notdef
if (!s) {
- if (afsifinfo[i].ipaddr != 0x7f000001) { /* ignore loopback */
+ if (!rx_IsLoopbackAddr(afsifinfo[i].ipaddr)) { /* ignore loopback */
*cnt += 1;
if (*cnt > 16)
return;
}
}
}
-
+
rw_exit(&afsifinfo_lock);
#else
for (ill = (struct ill_s *)*addr /*ill_g_headp */ ; ill;
subnet = ipif->ipif_local_addr & ipif->ipif_net_mask;
subnetmask = ipif->ipif_net_mask;
/*
- * Generate the local net using the local address and
+ * Generate the local net using the local address and
* whate we know about Class A, B and C networks.
*/
if (IN_CLASSA(ipif->ipif_local_addr)) {
net = ipif->ipif_local_addr & netmask;
#ifdef notdef
if (!s) {
- if (ipif->ipif_local_addr != 0x7f000001) { /* ignore loopback */
+ if (!rx_IsLoopbackAddr(ipif->ipif_local_addr)) { /* ignore loopback */
*cnt += 1;
if (*cnt > 16)
return;
for (ifa = in_ifaddr.tqh_first; ifa; ifa = ifa->ia_list.tqe_next)
afsi_SetServerIPRank(sa, ifa);
}
+#elif defined(AFS_NBSD40_ENV)
+ {
+ extern struct in_ifaddrhead in_ifaddrhead;
+ struct in_ifaddr *ifa;
+ for (ifa = in_ifaddrhead.tqh_first; ifa; ifa = ifa->ia_list.tqe_next)
+ afsi_SetServerIPRank(sa, ifa);
+ }
#else
{
struct in_ifaddr *ifa;
struct unixuser *tu;
afs_int32 code;
- if ( !ts )
+ if ( !ts || !ts->cell )
return;
if ( !afs_osi_credp )
return;
ReleaseWriteLock(&afs_xserver);
code = RXAFS_GetCapabilities(tc->id, &caps);
ObtainWriteLock(&afs_xserver, 723);
+ /* we forced a conn above; important we mark it down if needed */
+ if ((code < 0) && (code != RXGEN_OPCODE)) {
+ afs_ServerDown(tc->parent->srvr);
+ ForceNewConnections(tc->parent->srvr); /* multi homed clients */
+ }
afs_PutConn(tc, SHARED_LOCK);
if ( code && code != RXGEN_OPCODE ) {
afs_warn("RXAFS_GetCapabilities failed with code %d\n", code);
if (oldts) {
newts = oldts;
} else {
- newts = (struct server *)afs_osi_Alloc(sizeof(struct server));
+ newts = afs_osi_Alloc(sizeof(struct server));
if (!newts)
panic("malloc of server struct");
afs_totalServers++;
if (oldsa) {
newsa = oldsa;
} else {
- newsa = (struct srvAddr *)afs_osi_Alloc(sizeof(struct srvAddr));
+ newsa = afs_osi_Alloc(sizeof(struct srvAddr));
if (!newsa)
panic("malloc of srvAddr struct");
afs_totalSrvAddrs++;
/* Have a srvAddr struct. Now get a server struct (if not already) */
if (!orphts) {
- orphts =
- (struct server *)afs_osi_Alloc(sizeof(struct server));
+ orphts = afs_osi_Alloc(sizeof(struct server));
if (!orphts)
panic("malloc of lo server struct");
memset(orphts, 0, sizeof(struct server));
/* Add the orphaned server to the afs_servers[] hash chain.
* Its iphash does not matter since we never look up the server
- * in the afs_servers table by its ip address (only by uuid -
+ * in the afs_servers table by its ip address (only by uuid -
* which this has none).
*/
iphash = SHash(aserverp[k]);
int i;
struct server *ts, *nts;
struct srvAddr *sa;
- struct afs_conn *tc, *ntc;
ObtainReadLock(&afs_xserver);
ObtainWriteLock(&afs_xconn, 1001);
-
+
/*printf("Destroying connections ... ");*/
for (i = 0; i < NSERVERS; i++) {
for (ts = afs_servers[i]; ts; ts = nts) {
nts = ts->next;
for (sa = ts->addr; sa; sa = sa->next_sa) {
if (sa->conns) {
- tc = sa->conns;
- while (tc) {
- ntc = tc->next;
- AFS_GUNLOCK();
- rx_DestroyConnection(tc->id);
- AFS_GLOCK();
- afs_osi_Free(tc, sizeof(struct afs_conn));
- tc = ntc;
- }
+ afs_ReleaseConns(sa->conns);
sa->conns = NULL;
}
}
ReleaseWriteLock(&afs_xconn);
ReleaseReadLock(&afs_xserver);
-
+
}
void