/*
* 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>
+#include <roken.h>
+
#include <afs/stds.h>
#include <windows.h>
#include <string.h>
#include "afsd.h"
+#include "smb.h"
#include <rx/rx.h>
#include <rx/rx_prototypes.h>
long cm_daemonCheckOfflineVolInterval = 600;
long cm_daemonPerformanceTuningInterval = 0;
long cm_daemonRankServerInterval = 600;
-
-osi_rwlock_t cm_daemonLock;
-
-long cm_bkgQueueCount; /* # of queued requests */
-
-int cm_bkgWaitingForCount; /* true if someone's waiting for cm_bkgQueueCount to drop */
-
-cm_bkgRequest_t *cm_bkgListp; /* first elt in the list of requests */
-cm_bkgRequest_t *cm_bkgListEndp; /* last elt in the list of requests */
+long cm_daemonRDRShakeExtentsInterval = 0;
+long cm_daemonAfsdHookReloadInterval = 0;
+long cm_daemonEAccesCheckInterval = 1800;
+
+typedef struct daemon_state {
+ osi_rwlock_t lock;
+ afs_uint32 queueCount;
+ cm_bkgRequest_t *head;
+ cm_bkgRequest_t *tail;
+ afs_uint64 completeCount;
+ afs_uint64 retryCount;
+ afs_uint64 errorCount;
+} daemon_state_t;
+
+daemon_state_t *cm_daemons = NULL;
+int cm_nDaemons = 0;
extern int powerStateSuspended;
int daemon_ShutdownFlag = 0;
-static int cm_nDaemons = 0;
static time_t lastIPAddrChange = 0;
static EVENT_HANDLE cm_Daemon_ShutdownEvent = NULL;
+static EVENT_HANDLE cm_LockDaemon_ShutdownEvent = NULL;
static EVENT_HANDLE cm_IPAddrDaemon_ShutdownEvent = NULL;
-static EVENT_HANDLE cm_BkgDaemon_ShutdownEvent[CM_MAX_DAEMONS] =
+static EVENT_HANDLE cm_BkgDaemon_ShutdownEvent[CM_MAX_DAEMONS] =
{NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL};
-void cm_IpAddrDaemon(long parm)
+void * cm_IpAddrDaemon(void * vparm)
{
extern void smb_CheckVCs(void);
char * name = "cm_IPAddrDaemon_ShutdownEvent";
while (daemon_ShutdownFlag == 0) {
DWORD Result;
-
+
thrd_SetEvent(cm_IPAddrDaemon_ShutdownEvent);
Result = NotifyAddrChange(NULL,NULL);
if (Result == NO_ERROR && daemon_ShutdownFlag == 0) {
lastIPAddrChange = osi_Time();
- smb_SetLanAdapterChangeDetected();
+ if (smb_Enabled)
+ smb_SetLanAdapterChangeDetected();
cm_SetLanAdapterChangeDetected();
thrd_ResetEvent(cm_IPAddrDaemon_ShutdownEvent);
- }
+
+ cm_ServerClearRPCStats();
+ }
}
thrd_SetEvent(cm_IPAddrDaemon_ShutdownEvent);
+ pthread_exit(NULL);
+ return NULL;
+}
+
+afs_int32 cm_RequestWillBlock(cm_bkgRequest_t *rp)
+{
+ afs_int32 willBlock = 0;
+
+ if (rp->procp == cm_BkgStore) {
+ /*
+ * If the datastoring flag is set, it means that another
+ * thread is already performing an exclusive store operation
+ * on this file. The exclusive state will be cleared once
+ * the file server locks the vnode. Therefore, at most two
+ * threads can be actively involved in storing data at a time
+ * on a file.
+ */
+ lock_ObtainRead(&rp->scp->rw);
+ willBlock = (rp->scp->flags & CM_SCACHEFLAG_DATASTORING);
+ lock_ReleaseRead(&rp->scp->rw);
+ }
+ else if (rp->procp == RDR_BkgFetch || rp->procp == cm_BkgPrefetch) {
+ /*
+ * Attempt to determine if there is a conflict on the requested
+ * range of the file. If the first in the range does not exist
+ * in the cache assume there is no conflict. If the buffer does
+ * exist, check to see if an I/O operation is in progress
+ * by using the writing and reading flags as an indicator.
+ */
+ cm_buf_t *bufp = NULL;
+ rock_BkgFetch_t *rockp = (rock_BkgFetch_t *)rp->rockp;
+
+ bufp = buf_Find(&rp->scp->fid, &rockp->base);
+ if (bufp) {
+ willBlock = (bufp->flags & (CM_BUF_WRITING|CM_BUF_READING));
+ buf_Release(bufp);
+ }
+ }
+
+ return willBlock;
}
-void cm_BkgDaemon(void * parm)
+void * cm_BkgDaemon(void * vparm)
{
cm_bkgRequest_t *rp;
afs_int32 code;
char name[32] = "";
- long daemonID = (long)parm;
+ long daemonID = (long)(LONG_PTR)vparm;
- snprintf(name, sizeof(name), "cm_BkgDaemon_ShutdownEvent%d", daemonID);
+ snprintf(name, sizeof(name), "cm_BkgDaemon_ShutdownEvent%u", daemonID);
cm_BkgDaemon_ShutdownEvent[daemonID] = thrd_CreateEvent(NULL, FALSE, FALSE, name);
if ( GetLastError() == ERROR_ALREADY_EXISTS )
rx_StartClientThread();
- lock_ObtainWrite(&cm_daemonLock);
+ lock_ObtainWrite(&cm_daemons[daemonID].lock);
while (daemon_ShutdownFlag == 0) {
+ int willBlock = 0;
+
if (powerStateSuspended) {
Sleep(1000);
continue;
}
- if (!cm_bkgListEndp) {
- osi_SleepW((LONG_PTR)&cm_bkgListp, &cm_daemonLock);
- lock_ObtainWrite(&cm_daemonLock);
+ if (!cm_daemons[daemonID].tail) {
+ osi_SleepW((LONG_PTR)&cm_daemons[daemonID].head, &cm_daemons[daemonID].lock);
+ lock_ObtainWrite(&cm_daemons[daemonID].lock);
continue;
}
-
+
/* we found a request */
- for (rp = cm_bkgListEndp; rp; rp = (cm_bkgRequest_t *) osi_QPrev(&rp->q))
+ for (rp = cm_daemons[daemonID].tail; rp; rp = (cm_bkgRequest_t *) osi_QPrev(&rp->q))
{
- if (cm_ServerAvailable(&rp->scp->fid, rp->userp) &&
- !(rp->scp->flags & CM_SCACHEFLAG_DATASTORING))
+ if (rp->scp->flags & CM_SCACHEFLAG_DELETED)
break;
+
+ /*
+ * If the request has active I/O such that this worker would
+ * be forced to block, leave the request in the queue and move
+ * on to one that might be available for servicing.
+ */
+ if (cm_RequestWillBlock(rp)) {
+ willBlock++;
+ continue;
+ }
+
+ if (cm_ServerAvailable(&rp->scp->fid, rp->userp))
+ break;
}
- if (rp == NULL) {
- /* we couldn't find a request that we could process at the current time */
- lock_ReleaseWrite(&cm_daemonLock);
- Sleep(1000);
- lock_ObtainWrite(&cm_daemonLock);
+
+ if (rp == NULL) {
+ /*
+ * Couldn't find a request that we could process at the
+ * current time. If there were requests that would cause
+ * the worker to block, sleep for 25ms so it can promptly
+ * respond when it is available. Otherwise, sleep for 1s.
+ *
+ * This polling cycle needs to be replaced with a proper
+ * producer/consumer dynamic worker pool.
+ */
+ osi_Log2(afsd_logp,"cm_BkgDaemon[%u] sleeping %dms all tasks would block",
+ daemonID, willBlock ? 100 : 1000);
+
+ lock_ReleaseWrite(&cm_daemons[daemonID].lock);
+ Sleep(willBlock ? 100 : 1000);
+ lock_ObtainWrite(&cm_daemons[daemonID].lock);
continue;
}
- osi_QRemoveHT((osi_queue_t **) &cm_bkgListp, (osi_queue_t **) &cm_bkgListEndp, &rp->q);
- osi_assertx(cm_bkgQueueCount-- > 0, "cm_bkgQueueCount 0");
- lock_ReleaseWrite(&cm_daemonLock);
+ osi_QRemoveHT((osi_queue_t **) &cm_daemons[daemonID].head, (osi_queue_t **) &cm_daemons[daemonID].tail, &rp->q);
+ osi_assertx(cm_daemons[daemonID].queueCount-- > 0, "cm_bkgQueueCount 0");
+ lock_ReleaseWrite(&cm_daemons[daemonID].lock);
- osi_Log1(afsd_logp,"cm_BkgDaemon processing request 0x%p", rp);
+ osi_Log2(afsd_logp,"cm_BkgDaemon[%u] processing request 0x%p", daemonID, rp);
+ if (rp->scp->flags & CM_SCACHEFLAG_DELETED) {
+ osi_Log2(afsd_logp,"cm_BkgDaemon[%u] DELETED scp 0x%x", daemonID, rp->scp);
+ code = CM_ERROR_BADFD;
+ if (rp->procp == cm_BkgDirectWrite) {
+ cm_BkgDirectWriteDone(rp->scp, rp->rockp, code);
+ }
+ } else {
#ifdef DEBUG_REFCOUNT
- osi_Log2(afsd_logp,"cm_BkgDaemon (before) scp 0x%x ref %d",rp->scp, rp->scp->refCount);
+ osi_Log3(afsd_logp,"cm_BkgDaemon[%u] (before) scp 0x%x ref %d", daemonID, rp->scp, rp->scp->refCount);
#endif
- code = (*rp->procp)(rp->scp, rp->p1, rp->p2, rp->p3, rp->p4, rp->userp);
-#ifdef DEBUG_REFCOUNT
- osi_Log2(afsd_logp,"cm_BkgDaemon (after) scp 0x%x ref %d",rp->scp, rp->scp->refCount);
+ code = (*rp->procp)(rp->scp, rp->rockp, rp->userp, &rp->req);
+#ifdef DEBUG_REFCOUNT
+ osi_Log3(afsd_logp,"cm_BkgDaemon[%u] (after) scp 0x%x ref %d", daemonID, rp->scp, rp->scp->refCount);
#endif
+ }
/*
* Keep the following list synchronized with the
- * error code list in cm_BkgStore.
+ * error code list in cm_BkgStore.
* cm_SyncOpDone(CM_SCACHESYNC_ASYNCSTORE) will be called there unless
* one of these errors has occurred.
*/
case CM_ERROR_ALLDOWN:
case CM_ERROR_ALLOFFLINE:
case CM_ERROR_PARTIALWRITE:
- if (rp->procp == cm_BkgStore) {
- osi_Log2(afsd_logp,
- "cm_BkgDaemon re-queueing failed request 0x%p code 0x%x",
- rp, code);
- lock_ObtainWrite(&cm_daemonLock);
- cm_bkgQueueCount++;
- osi_QAddT((osi_queue_t **) &cm_bkgListp, (osi_queue_t **)&cm_bkgListEndp, &rp->q);
+ if (rp->procp == cm_BkgStore ||
+ rp->procp == cm_BkgDirectWrite ||
+ rp->procp == RDR_BkgFetch) {
+ osi_Log3(afsd_logp,
+ "cm_BkgDaemon[%u] re-queueing failed request 0x%p code 0x%x",
+ daemonID, rp, code);
+ lock_ObtainWrite(&cm_daemons[daemonID].lock);
+ cm_daemons[daemonID].queueCount++;
+ cm_daemons[daemonID].retryCount++;
+ osi_QAddT((osi_queue_t **) &cm_daemons[daemonID].head, (osi_queue_t **)&cm_daemons[daemonID].tail, &rp->q);
break;
} /* otherwise fall through */
case 0: /* success */
default: /* other error */
- if (code == 0)
- osi_Log1(afsd_logp,"cm_BkgDaemon SUCCESS: request 0x%p", rp);
- else
- osi_Log2(afsd_logp,"cm_BkgDaemon FAILED: request dropped 0x%p code 0x%x",
- rp, code);
+ if (code == 0) {
+ osi_Log2(afsd_logp,"cm_BkgDaemon[%u] SUCCESS: request 0x%p", daemonID, rp);
+ cm_daemons[daemonID].completeCount++;
+ } else {
+ osi_Log3(afsd_logp,"cm_BkgDaemon[%u] FAILED: request dropped 0x%p code 0x%x",
+ daemonID, rp, code);
+ cm_daemons[daemonID].errorCount++;
+ }
cm_ReleaseUser(rp->userp);
cm_ReleaseSCache(rp->scp);
+ free(rp->rockp);
free(rp);
- lock_ObtainWrite(&cm_daemonLock);
+ lock_ObtainWrite(&cm_daemons[daemonID].lock);
}
}
- lock_ReleaseWrite(&cm_daemonLock);
+ lock_ReleaseWrite(&cm_daemons[daemonID].lock);
thrd_SetEvent(cm_BkgDaemon_ShutdownEvent[daemonID]);
+ pthread_exit(NULL);
+ return NULL;
}
-void cm_QueueBKGRequest(cm_scache_t *scp, cm_bkgProc_t *procp, afs_uint32 p1, afs_uint32 p2, afs_uint32 p3, afs_uint32 p4,
- cm_user_t *userp)
+int cm_QueueBKGRequest(cm_scache_t *scp, cm_bkgProc_t *procp, void *rockp,
+ cm_user_t *userp, cm_req_t *reqp)
{
- cm_bkgRequest_t *rp;
-
+ cm_bkgRequest_t *rp, *rpq;
+ afs_uint32 daemonID;
+ int duplicate = 0;
+
rp = malloc(sizeof(*rp));
memset(rp, 0, sizeof(*rp));
-
+
cm_HoldSCache(scp);
rp->scp = scp;
cm_HoldUser(userp);
rp->userp = userp;
rp->procp = procp;
- rp->p1 = p1;
- rp->p2 = p2;
- rp->p3 = p3;
- rp->p4 = p4;
-
- lock_ObtainWrite(&cm_daemonLock);
- cm_bkgQueueCount++;
- osi_QAdd((osi_queue_t **) &cm_bkgListp, &rp->q);
- if (!cm_bkgListEndp)
- cm_bkgListEndp = rp;
- lock_ReleaseWrite(&cm_daemonLock);
-
- osi_Wakeup((LONG_PTR) &cm_bkgListp);
+ rp->rockp = rockp;
+ rp->req = *reqp;
+
+ /* Use separate queues for fetch and store operations */
+ daemonID = scp->fid.hash % (cm_nDaemons/2) * 2;
+ if (procp == cm_BkgStore ||
+ procp == cm_BkgDirectWrite)
+ daemonID++;
+
+ /* Check to see if this is a duplicate request */
+ lock_ObtainWrite(&cm_daemons[daemonID].lock);
+ if ( procp == cm_BkgStore || procp == RDR_BkgFetch || procp == cm_BkgPrefetch ) {
+ for (rpq = cm_daemons[daemonID].head; rpq; rpq = (cm_bkgRequest_t *) osi_QNext(&rpq->q))
+ {
+ if ( rpq->procp == procp &&
+ rpq->scp == scp &&
+ rpq->userp == userp)
+ {
+ if (rp->procp == cm_BkgStore) {
+ rock_BkgStore_t *rock1p = (rock_BkgStore_t *)rp->rockp;
+ rock_BkgStore_t *rock2p = (rock_BkgStore_t *)rpq->rockp;
+
+ duplicate = (memcmp(rock1p, rock2p, sizeof(*rock1p)) == 0);
+ }
+ else if (rp->procp == RDR_BkgFetch || rp->procp == cm_BkgPrefetch) {
+ rock_BkgFetch_t *rock1p = (rock_BkgFetch_t *)rp->rockp;
+ rock_BkgFetch_t *rock2p = (rock_BkgFetch_t *)rpq->rockp;
+
+ duplicate = (memcmp(rock1p, rock2p, sizeof(*rock1p)) == 0);
+ }
+
+ if (duplicate) {
+ /* found a duplicate; update request with latest info */
+ break;
+ }
+ }
+ }
+ }
+
+ if (!duplicate) {
+ cm_daemons[daemonID].queueCount++;
+ osi_QAddH((osi_queue_t **) &cm_daemons[daemonID].head, (osi_queue_t **)&cm_daemons[daemonID].tail, &rp->q);
+ }
+ lock_ReleaseWrite(&cm_daemons[daemonID].lock);
+
+ if (duplicate) {
+ cm_ReleaseSCache(scp);
+ cm_ReleaseUser(userp);
+ free(rp->rockp);
+ free(rp);
+ return -1;
+ } else {
+ osi_Wakeup((LONG_PTR) &cm_daemons[daemonID].head);
+ return 0;
+ }
}
static int
if (code == ERROR_SUCCESS && dummy)
cm_daemonCheckOfflineVolInterval = dummy;
afsi_log("daemonCheckOfflineVolInterval is %d", cm_daemonCheckOfflineVolInterval);
-
+
+ dummyLen = sizeof(DWORD);
+ code = RegQueryValueEx(parmKey, "daemonRDRShakeExtentsInterval", NULL, NULL,
+ (BYTE *) &dummy, &dummyLen);
+ if (code == ERROR_SUCCESS && dummy)
+ cm_daemonRDRShakeExtentsInterval = dummy;
+ afsi_log("daemonRDRShakeExtentsInterval is %d", cm_daemonRDRShakeExtentsInterval);
+
dummyLen = sizeof(DWORD);
code = RegQueryValueEx(parmKey, "daemonPerformanceTuningInterval", NULL, NULL,
(BYTE *) &dummy, &dummyLen);
+ if (code == ERROR_SUCCESS)
+ cm_daemonPerformanceTuningInterval = dummy;
+ afsi_log("daemonPerformanceTuningInterval is %d", cm_daemonPerformanceTuningInterval);
+
dummyLen = sizeof(DWORD);
code = RegQueryValueEx(parmKey, "daemonRankServerInterval", NULL, NULL,
(BYTE *) &dummy, &dummyLen);
cm_daemonRankServerInterval = dummy;
afsi_log("daemonRankServerInterval is %d", cm_daemonRankServerInterval);
- if (code == ERROR_SUCCESS)
- cm_daemonPerformanceTuningInterval = dummy;
- afsi_log("daemonPerformanceTuningInterval is %d", cm_daemonPerformanceTuningInterval);
-
+ dummyLen = sizeof(DWORD);
+ code = RegQueryValueEx(parmKey, "daemonAfsdHookReloadInterval", NULL, NULL,
+ (BYTE *) &dummy, &dummyLen);
+ if (code == ERROR_SUCCESS && dummy)
+ cm_daemonAfsdHookReloadInterval = dummy;
+ afsi_log("daemonAfsdHookReloadInterval is %d", cm_daemonAfsdHookReloadInterval);
+
RegCloseKey(parmKey);
if (cm_daemonPerformanceTuningInterval)
cm_PerformanceTuningInit();
}
-/* periodic check daemon */
-void cm_Daemon(long parm)
+/* periodic lock check daemon */
+void * cm_LockDaemon(void * vparm)
{
time_t now;
time_t lastLockCheck;
+ char * name = "cm_LockDaemon_ShutdownEvent";
+
+ cm_LockDaemon_ShutdownEvent = thrd_CreateEvent(NULL, FALSE, FALSE, name);
+ if ( GetLastError() == ERROR_ALREADY_EXISTS )
+ afsi_log("Event Object Already Exists: %s", name);
+
+ now = osi_Time();
+ lastLockCheck = now - cm_daemonCheckLockInterval/2 + (rand() % cm_daemonCheckLockInterval);
+
+ while (daemon_ShutdownFlag == 0) {
+ if (powerStateSuspended) {
+ Sleep(1000);
+ continue;
+ }
+
+ now = osi_Time();
+
+ if (now > lastLockCheck + cm_daemonCheckLockInterval &&
+ daemon_ShutdownFlag == 0 &&
+ powerStateSuspended == 0) {
+ lastLockCheck = now;
+ cm_CheckLocks();
+ if (daemon_ShutdownFlag == 1)
+ break;
+ }
+
+ thrd_Sleep(1000); /* sleep 1 second */
+ }
+ thrd_SetEvent(cm_LockDaemon_ShutdownEvent);
+ pthread_exit(NULL);
+ return NULL;
+}
+
+/* periodic check daemon */
+void * cm_Daemon(void *vparm)
+{
+ time_t now;
time_t lastVolCheck;
time_t lastCBExpirationCheck;
time_t lastVolCBRenewalCheck;
time_t lastBusyVolCheck;
time_t lastPerformanceCheck;
time_t lastServerRankCheck;
+ time_t lastRDRShakeExtents;
+ time_t lastAfsdHookReload;
+ time_t lastEAccesCheck;
char thostName[200];
unsigned long code;
struct hostent *thp;
- HMODULE hHookDll;
+ HMODULE hHookDll = NULL;
+ AfsdDaemonHook daemonHook = NULL;
char * name = "cm_Daemon_ShutdownEvent";
int configureFirewall = IsWindowsFirewallPresent();
int bAddrChangeCheck = 0;
code = 0;
else
memcpy(&code, thp->h_addr_list[0], 4);
-
+
srand(ntohl(code));
cm_DaemonCheckInit();
lastCBExpirationCheck = now - cm_daemonCheckCBInterval/2 + (rand() % cm_daemonCheckCBInterval);
if (cm_daemonCheckVolCBInterval)
lastVolCBRenewalCheck = now - cm_daemonCheckVolCBInterval/2 + (rand() % cm_daemonCheckVolCBInterval);
- lastLockCheck = now - cm_daemonCheckLockInterval/2 + (rand() % cm_daemonCheckLockInterval);
lastDownServerCheck = now - cm_daemonCheckDownInterval/2 + (rand() % cm_daemonCheckDownInterval);
lastUpServerCheck = now - cm_daemonCheckUpInterval/2 + (rand() % cm_daemonCheckUpInterval);
lastTokenCacheCheck = now - cm_daemonTokenCheckInterval/2 + (rand() % cm_daemonTokenCheckInterval);
- lastBusyVolCheck = now - cm_daemonCheckOfflineVolInterval/2 * (rand() % cm_daemonCheckOfflineVolInterval);
+ if (cm_daemonCheckOfflineVolInterval)
+ lastBusyVolCheck = now - cm_daemonCheckOfflineVolInterval/2 * (rand() % cm_daemonCheckOfflineVolInterval);
if (cm_daemonPerformanceTuningInterval)
lastPerformanceCheck = now - cm_daemonPerformanceTuningInterval/2 * (rand() % cm_daemonPerformanceTuningInterval);
lastServerRankCheck = now - cm_daemonRankServerInterval/2 * (rand() % cm_daemonRankServerInterval);
+ if (cm_daemonRDRShakeExtentsInterval)
+ lastRDRShakeExtents = now - cm_daemonRDRShakeExtentsInterval/2 * (rand() % cm_daemonRDRShakeExtentsInterval);
+ if (cm_daemonAfsdHookReloadInterval)
+ lastAfsdHookReload = now;
+ lastEAccesCheck = now;
+
+ hHookDll = cm_LoadAfsdHookLib();
+ if (hHookDll)
+ daemonHook = ( AfsdDaemonHook ) GetProcAddress(hHookDll, AFSD_DAEMON_HOOK);
while (daemon_ShutdownFlag == 0) {
if (powerStateSuspended) {
Sleep(1000);
continue;
}
- /* check to see if the listener threads halted due to network
+ /* check to see if the listener threads halted due to network
* disconnect or other issues. If so, attempt to restart them.
*/
smb_RestartListeners(0);
if (bAddrChangeCheck &&
daemon_ShutdownFlag == 0 &&
- powerStateSuspended == 0)
+ powerStateSuspended == 0) {
cm_ForceNewConnectionsAllServers();
+ }
/* check up servers */
if ((bAddrChangeCheck || now > lastUpServerCheck + cm_daemonCheckUpInterval) &&
cm_VolStatus_Network_Addr_Change();
}
- if (now > lastVolCheck + cm_daemonCheckVolInterval &&
+ /*
+ * Once every five minutes inspect the volume list and enforce
+ * the volume location expiration time.
+ */
+ if (now > lastVolCheck + 300 &&
daemon_ShutdownFlag == 0 &&
powerStateSuspended == 0) {
lastVolCheck = now;
- cm_RefreshVolumes();
+ cm_RefreshVolumes(cm_daemonCheckVolInterval);
if (daemon_ShutdownFlag == 1)
break;
now = osi_Time();
now = osi_Time();
}
- if (cm_daemonCheckVolCBInterval &&
+ if (cm_daemonCheckVolCBInterval &&
now > lastVolCBRenewalCheck + cm_daemonCheckVolCBInterval &&
daemon_ShutdownFlag == 0 &&
powerStateSuspended == 0) {
now = osi_Time();
}
- if ((bAddrChangeCheck || now > lastBusyVolCheck + cm_daemonCheckOfflineVolInterval) &&
+ if ((bAddrChangeCheck || (cm_daemonCheckOfflineVolInterval &&
+ now > lastBusyVolCheck + cm_daemonCheckOfflineVolInterval)) &&
daemon_ShutdownFlag == 0 &&
powerStateSuspended == 0) {
- lastVolCheck = now;
+ lastBusyVolCheck = now;
cm_CheckOfflineVolumes();
if (daemon_ShutdownFlag == 1)
break;
now = osi_Time();
}
- if (now > lastLockCheck + cm_daemonCheckLockInterval &&
+ if (now > lastTokenCacheCheck + cm_daemonTokenCheckInterval &&
daemon_ShutdownFlag == 0 &&
powerStateSuspended == 0) {
- lastLockCheck = now;
- cm_CheckLocks();
+ lastTokenCacheCheck = now;
+ cm_CheckTokenCache(now);
if (daemon_ShutdownFlag == 1)
break;
now = osi_Time();
}
- if (now > lastTokenCacheCheck + cm_daemonTokenCheckInterval &&
+ if (now > lastEAccesCheck + cm_daemonEAccesCheckInterval &&
+ daemon_ShutdownFlag == 0 &&
+ powerStateSuspended == 0) {
+ lastEAccesCheck = now;
+ cm_EAccesClearOutdatedEntries();
+ if (daemon_ShutdownFlag == 1)
+ break;
+ now = osi_Time();
+ }
+
+ if (cm_daemonRDRShakeExtentsInterval &&
+ now > lastRDRShakeExtents + cm_daemonRDRShakeExtentsInterval &&
daemon_ShutdownFlag == 0 &&
powerStateSuspended == 0) {
- lastTokenCacheCheck = now;
- cm_CheckTokenCache(now);
+ cm_req_t req;
+ cm_InitReq(&req);
+ lastRDRShakeExtents = now;
+ if (cm_data.buf_redirCount > cm_data.buf_freeCount)
+ buf_RDRShakeSomeExtentsFree(&req, FALSE, 10 /* seconds */);
if (daemon_ShutdownFlag == 1)
break;
now = osi_Time();
}
/* allow an exit to be called prior to stopping the service */
- hHookDll = cm_LoadAfsdHookLib();
- if (hHookDll)
- {
- BOOL hookRc = TRUE;
- AfsdDaemonHook daemonHook = ( AfsdDaemonHook ) GetProcAddress(hHookDll, AFSD_DAEMON_HOOK);
- if (daemonHook)
- {
- hookRc = daemonHook();
+ if (cm_daemonAfsdHookReloadInterval &&
+ lastAfsdHookReload != 0 && lastAfsdHookReload < now) {
+ if (hHookDll) {
+ FreeLibrary(hHookDll);
+ hHookDll = NULL;
+ daemonHook = NULL;
}
- FreeLibrary(hHookDll);
- hHookDll = NULL;
+
+ hHookDll = cm_LoadAfsdHookLib();
+ if (hHookDll)
+ daemonHook = ( AfsdDaemonHook ) GetProcAddress(hHookDll, AFSD_DAEMON_HOOK);
+ }
+
+ if (daemonHook)
+ {
+ BOOL hookRc = daemonHook();
if (hookRc == FALSE)
{
break;
now = osi_Time();
}
-
- thrd_Sleep(10000); /* sleep 10 seconds */
+
+ /*
+ * sleep .5 seconds. if the thread blocks for a long time
+ * we risk not being able to close the cache before Windows
+ * kills our process during system shutdown.
+ */
+ thrd_Sleep(500);
}
+
+ if (hHookDll) {
+ FreeLibrary(hHookDll);
+ }
+
thrd_SetEvent(cm_Daemon_ShutdownEvent);
-}
+ pthread_exit(NULL);
+ return NULL;
+}
void cm_DaemonShutdown(void)
{
DWORD code;
daemon_ShutdownFlag = 1;
- osi_Wakeup((LONG_PTR) &cm_bkgListp);
/* wait for shutdown */
- if (cm_Daemon_ShutdownEvent)
- code = thrd_WaitForSingleObject_Event(cm_Daemon_ShutdownEvent, INFINITE);
-
for ( i=0; i<cm_nDaemons; i++) {
+ osi_Wakeup((LONG_PTR) &cm_daemons[i].head);
if (cm_BkgDaemon_ShutdownEvent[i])
code = thrd_WaitForSingleObject_Event(cm_BkgDaemon_ShutdownEvent[i], INFINITE);
}
+ if (cm_Daemon_ShutdownEvent)
+ code = thrd_WaitForSingleObject_Event(cm_Daemon_ShutdownEvent, INFINITE);
+
+ if (cm_LockDaemon_ShutdownEvent)
+ code = thrd_WaitForSingleObject_Event(cm_LockDaemon_ShutdownEvent, INFINITE);
+
+#if 0
+ /*
+ * Do not waste precious time waiting for the ipaddr daemon to shutdown.
+ * When it does it means we have lost our network connection and we need
+ * it during cache shutdown in order to notify the file servers that this
+ * client is giving up all callbacks.
+ */
if (cm_IPAddrDaemon_ShutdownEvent)
code = thrd_WaitForSingleObject_Event(cm_IPAddrDaemon_ShutdownEvent, INFINITE);
+#endif
}
void cm_InitDaemon(int nDaemons)
{
static osi_once_t once;
- long pid;
- thread_t phandle;
+ pthread_t phandle;
+ pthread_attr_t tattr;
+ int pstatus;
int i;
- cm_nDaemons = (nDaemons > CM_MAX_DAEMONS) ? CM_MAX_DAEMONS : nDaemons;
-
- if (osi_Once(&once)) {
- lock_InitializeRWLock(&cm_daemonLock, "cm_daemonLock",
- LOCK_HIERARCHY_DAEMON_GLOBAL);
- osi_EndOnce(&once);
+ pthread_attr_init(&tattr);
+ pthread_attr_setdetachstate(&tattr, PTHREAD_CREATE_DETACHED);
+
+ if (nDaemons > CM_MAX_DAEMONS)
+ cm_nDaemons = CM_MAX_DAEMONS;
+ else if (nDaemons < CM_MIN_DAEMONS)
+ cm_nDaemons = CM_MIN_DAEMONS;
+ else
+ cm_nDaemons = (nDaemons / 2) * 2; /* must be divisible by two */
+ if (osi_Once(&once)) {
/* creating IP Address Change monitor daemon */
- phandle = thrd_Create((SecurityAttrib) 0, 0,
- (ThreadFunc) cm_IpAddrDaemon, 0, 0, &pid, "cm_IpAddrDaemon");
- osi_assertx(phandle != NULL, "cm_IpAddrDaemon thread creation failure");
- thrd_CloseHandle(phandle);
+ pstatus = pthread_create(&phandle, &tattr, cm_IpAddrDaemon, 0);
+ osi_assertx(pstatus == 0, "cm_IpAddrDaemon thread creation failure");
/* creating pinging daemon */
- phandle = thrd_Create((SecurityAttrib) 0, 0,
- (ThreadFunc) cm_Daemon, 0, 0, &pid, "cm_Daemon");
- osi_assertx(phandle != NULL, "cm_Daemon thread creation failure");
- thrd_CloseHandle(phandle);
+ pstatus = pthread_create(&phandle, &tattr, cm_Daemon, 0);
+ osi_assertx(pstatus == 0, "cm_Daemon thread creation failure");
+
+ pstatus = pthread_create(&phandle, &tattr, cm_LockDaemon, 0);
+ osi_assertx(pstatus == 0, "cm_LockDaemon thread creation failure");
+
+ cm_daemons = malloc(nDaemons * sizeof(daemon_state_t));
for(i=0; i < cm_nDaemons; i++) {
- phandle = thrd_Create((SecurityAttrib) 0, 0,
- (ThreadFunc) cm_BkgDaemon, (LPVOID)i, 0, &pid,
- "cm_BkgDaemon");
- osi_assertx(phandle != NULL, "cm_BkgDaemon thread creation failure");
- thrd_CloseHandle(phandle);
+ lock_InitializeRWLock(&cm_daemons[i].lock, "cm_daemonLock",
+ LOCK_HIERARCHY_DAEMON_GLOBAL);
+ cm_daemons[i].head = cm_daemons[i].tail = NULL;
+ cm_daemons[i].queueCount=0;
+ cm_daemons[i].completeCount=0;
+ cm_daemons[i].retryCount=0;
+ cm_daemons[i].errorCount=0;
+ pstatus = pthread_create(&phandle, &tattr, cm_BkgDaemon, (LPVOID)(LONG_PTR)i);
+ osi_assertx(pstatus == 0, "cm_BkgDaemon thread creation failure");
}
+ osi_EndOnce(&once);
}
+
+ pthread_attr_destroy(&tattr);
}
git://git.openafs.org / openafs.git / blobdiff