#include "lanahelper.h"
#include <strsafe.h>
#include "cm_memmap.h"
+#ifdef DEBUG
+#include <crtdbg.h>
+#endif
extern int RXAFSCB_ExecuteRequest(struct rx_call *z_call);
extern int RXSTATS_ExecuteRequest(struct rx_call *z_call);
-extern afs_int32 cryptall;
+extern afs_uint32 cryptall;
+extern afs_uint32 cm_anonvldb;
extern int cm_enableServerLocks;
extern int cm_followBackupPath;
extern int cm_deleteReadOnly;
#endif
extern afs_int32 cm_OfflineROIsValid;
extern afs_int32 cm_giveUpAllCBs;
-extern const char **smb_ExecutableExtensions;
+extern const clientchar_t **smb_ExecutableExtensions;
osi_log_t *afsd_logp;
cm_config_data_t cm_data;
-char cm_rootVolumeName[VL_MAXNAMELEN];
+fschar_t cm_rootVolumeName[VL_MAXNAMELEN];
DWORD cm_rootVolumeNameLen;
-char cm_mountRoot[1024];
+
+fschar_t cm_mountRoot[1024];
DWORD cm_mountRootLen;
+
+clientchar_t cm_mountRootC[1024];
+DWORD cm_mountRootCLen;
+
int cm_logChunkSize;
int cm_chunkSize;
-#ifdef AFS_FREELANCE_CLIENT
-char *cm_FakeRootDir;
-#endif /* freelance */
int smb_UseV3 = 1;
unsigned short cm_callbackport = CM_DEFAULT_CALLBACKPORT;
char cm_NetbiosName[MAX_NB_NAME_LENGTH] = "";
+clientchar_t cm_NetbiosNameC[MAX_NB_NAME_LENGTH] = _C("");
char cm_CachePath[MAX_PATH];
-DWORD cm_CachePathLen;
DWORD cm_ValidateCache = 1;
BOOL reportSessionStartups = FALSE;
cm_initparams_v1 cm_initParams;
-char *cm_sysName = 0;
-unsigned int cm_sysNameCount = 0;
-char *cm_sysNameList[MAXNUMSYSNAMES];
+clientchar_t *cm_sysName = 0;
+unsigned int cm_sysNameCount = 0;
+clientchar_t *cm_sysNameList[MAXNUMSYSNAMES];
DWORD TraceOption = 0;
}
}
-extern initUpperCaseTable();
-void afsd_initUpperCaseTable()
-{
- initUpperCaseTable();
-}
-
void
afsi_start()
{
pHostNames, &dwSize) == ERROR_SUCCESS)
{
for (pName = pHostNames;
- (pName - pHostNames < dwSize) && *pName ;
+ (pName - pHostNames < (int) dwSize) && *pName ;
pName += strlen(pName) + 1)
{
if ( !stricmp(pName, cm_NetbiosName) ) {
DWORD blockSize;
long logChunkSize;
DWORD stats;
+ DWORD volumes;
+ DWORD cells;
DWORD dwValue;
- DWORD rx_enable_peer_stats = 0;
- DWORD rx_enable_process_stats = 0;
+ DWORD rx_enable_peer_stats;
+ DWORD rx_enable_process_stats;
+ DWORD rx_udpbufsize = -1;
+ DWORD lockOrderValidation;
long traceBufSize;
long maxcpus;
long ltt, ltto;
long rx_nojumbo;
long virtualCache = 0;
- char rootCellName[256];
+ fschar_t rootCellName[256];
struct rx_service *serverp;
static struct rx_securityClass *nullServerSecurityClassp;
struct hostent *thp;
/*int freelanceEnabled;*/
WSADATA WSAjunk;
int i;
- char *p, *q;
int cm_noIPAddr; /* number of client network interfaces */
int cm_IPAddr[CM_MAXINTERFACE_ADDR]; /* client's IP address in host order */
int cm_SubnetMask[CM_MAXINTERFACE_ADDR];/* client's subnet mask in host order*/
WSAStartup(0x0101, &WSAjunk);
- afsd_initUpperCaseTable();
init_et_to_sys_error();
/* setup osidebug server at RPC slot 1000 */
/* Look up configuration parameters in Registry */
code = RegOpenKeyEx(HKEY_LOCAL_MACHINE, AFSREG_CLT_SVC_PARAM_SUBKEY,
- 0, KEY_QUERY_VALUE, &parmKey);
+ 0, KEY_QUERY_VALUE, &parmKey);
if (code != ERROR_SUCCESS) {
FormatMessage(FORMAT_MESSAGE_FROM_SYSTEM
| FORMAT_MESSAGE_ALLOCATE_BUFFER,
osi_panic(buf, __FILE__, __LINE__);
}
+ dummyLen = sizeof(lockOrderValidation);
+ code = RegQueryValueEx(parmKey, "LockOrderValidation", NULL, NULL,
+ (BYTE *) &lockOrderValidation, &dummyLen);
+ if (code != ERROR_SUCCESS) {
+#ifdef DEBUG
+ lockOrderValidation = 1;
+#else
+ lockOrderValidation = 0;
+#endif
+ }
+ osi_SetLockOrderValidation(lockOrderValidation);
+ afsi_log("Lock Order Validation %s", lockOrderValidation ? "On" : "Off");
+
dummyLen = sizeof(maxcpus);
code = RegQueryValueEx(parmKey, "MaxCPUs", NULL, NULL,
(BYTE *) &maxcpus, &dummyLen);
code = RegQueryValueEx(parmKey, "Stats", NULL, NULL,
(BYTE *) &stats, &dummyLen);
if (code == ERROR_SUCCESS)
- afsi_log("Status cache size %d", stats);
+ afsi_log("Status cache entries: %d", stats);
else {
stats = CM_CONFIGDEFAULT_STATS;
- afsi_log("Default status cache size %d", stats);
+ afsi_log("Default status cache entries: %d", stats);
+ }
+
+ dummyLen = sizeof(volumes);
+ code = RegQueryValueEx(parmKey, "Volumes", NULL, NULL,
+ (BYTE *) &volumes, &dummyLen);
+ if (code == ERROR_SUCCESS)
+ afsi_log("Volumes cache entries: %d", volumes);
+ else {
+ volumes = CM_CONFIGDEFAULT_STATS / 3;
+ afsi_log("Default volume cache entries: %d", volumes);
+ }
+
+ dummyLen = sizeof(cells);
+ code = RegQueryValueEx(parmKey, "Cells", NULL, NULL,
+ (BYTE *) &cells, &dummyLen);
+ if (code == ERROR_SUCCESS)
+ afsi_log("Cell cache entries: %d", cells);
+ else {
+ cells = CM_CONFIGDEFAULT_CELLS;
+ afsi_log("Default cell cache entries: %d", cells);
}
dummyLen = sizeof(ltt);
dummyLen = sizeof(cm_rootVolumeName);
code = RegQueryValueEx(parmKey, "RootVolume", NULL, NULL,
- cm_rootVolumeName, &dummyLen);
+ (LPBYTE) cm_rootVolumeName, &dummyLen);
if (code == ERROR_SUCCESS)
afsi_log("Root volume %s", cm_rootVolumeName);
else {
- StringCbCopyA(cm_rootVolumeName, sizeof(cm_rootVolumeName), "root.afs");
+ cm_FsStrCpy(cm_rootVolumeName, lengthof(cm_rootVolumeName), "root.afs");
afsi_log("Default root volume name root.afs");
}
- cm_mountRootLen = sizeof(cm_mountRoot);
- code = RegQueryValueEx(parmKey, "MountRoot", NULL, NULL,
- cm_mountRoot, &cm_mountRootLen);
+ cm_mountRootCLen = sizeof(cm_mountRootC);
+ code = RegQueryValueExW(parmKey, L"MountRoot", NULL, NULL,
+ (LPBYTE) cm_mountRootC, &cm_mountRootCLen);
if (code == ERROR_SUCCESS) {
- afsi_log("Mount root %s", cm_mountRoot);
- cm_mountRootLen = (DWORD)strlen(cm_mountRoot);
+ afsi_log("Mount root %S", cm_mountRootC);
+ cm_mountRootCLen = cm_ClientStrLen(cm_mountRootC);
} else {
- StringCbCopyA(cm_mountRoot, sizeof(cm_mountRoot), "/afs");
- cm_mountRootLen = 4;
+ cm_ClientStrCpy(cm_mountRootC, lengthof(cm_mountRootC), _C("/afs"));
+ cm_mountRootCLen = cm_ClientStrLen(cm_mountRootC);
/* Don't log */
}
+ cm_ClientStringToFsString(cm_mountRootC, -1, cm_mountRoot, lengthof(cm_mountRoot));
+ cm_mountRootLen = cm_FsStrLen(cm_mountRoot);
+
dummyLen = sizeof(buf);
code = RegQueryValueEx(parmKey, "CachePath", NULL, ®Type,
- buf, &dummyLen);
+ buf, &dummyLen);
if (code == ERROR_SUCCESS && buf[0]) {
if (regType == REG_EXPAND_SZ) {
dummyLen = ExpandEnvironmentStrings(buf, cm_CachePath, sizeof(cm_CachePath));
}
for ( i=0; i < MAXNUMSYSNAMES; i++ ) {
- cm_sysNameList[i] = osi_Alloc(MAXSYSNAME);
+ cm_sysNameList[i] = osi_Alloc(MAXSYSNAME * sizeof(clientchar_t));
cm_sysNameList[i][0] = '\0';
}
cm_sysName = cm_sysNameList[0];
- dummyLen = sizeof(buf);
- code = RegQueryValueEx(parmKey, "SysName", NULL, NULL, buf, &dummyLen);
- if (code != ERROR_SUCCESS || !buf[0]) {
+ {
+ clientchar_t *p, *q;
+ clientchar_t * cbuf = (clientchar_t *) buf;
+ dummyLen = sizeof(buf);
+ code = RegQueryValueExW(parmKey, L"SysName", NULL, NULL, (LPBYTE) cbuf, &dummyLen);
+ if (code != ERROR_SUCCESS || !cbuf[0]) {
#if defined(_IA64_)
- StringCbCopyA(buf, sizeof(buf), "ia64_win64");
+ cm_ClientStrCpy(cbuf, lengthof(buf), _C("ia64_win64"));
#elif defined(_AMD64_)
- StringCbCopyA(buf, sizeof(buf), "amd64_win64 x86_win32 i386_w2k");
+ cm_ClientStrCpy(cbuf, lengthof(buf), _C("amd64_win64 x86_win32 i386_w2k"));
#else /* assume x86 32-bit */
- StringCbCopyA(buf, sizeof(buf), "x86_win32 i386_w2k i386_nt40");
+ cm_ClientStrCpy(cbuf, lengthof(buf), _C("x86_win32 i386_w2k i386_nt40"));
#endif
- }
- afsi_log("Sys name %s", buf);
-
- /* breakup buf into individual search string entries */
- for (p = q = buf; p < buf + dummyLen; p++)
- {
- if (*p == '\0' || isspace(*p)) {
- memcpy(cm_sysNameList[cm_sysNameCount],q,p-q);
- cm_sysNameList[cm_sysNameCount][p-q] = '\0';
- cm_sysNameCount++;
-
- do {
- if (*p == '\0')
- goto done_sysname;
- p++;
- } while (*p == '\0' || isspace(*p));
- q = p;
- p--;
+ }
+ afsi_log("Sys name %S", cbuf);
+
+ /* breakup buf into individual search string entries */
+ for (p = q = cbuf; p < cbuf + dummyLen; p++) {
+ if (*p == '\0' || iswspace(*p)) {
+ memcpy(cm_sysNameList[cm_sysNameCount],q,(p-q) * sizeof(clientchar_t));
+ cm_sysNameList[cm_sysNameCount][p-q] = '\0';
+ cm_sysNameCount++;
+ do {
+ if (*p == '\0')
+ goto done_sysname;
+ p++;
+ } while (*p == '\0' || isspace(*p));
+ q = p;
+ p--;
+ }
}
}
done_sysname:
- StringCbCopyA(cm_sysName, MAXSYSNAME, cm_sysNameList[0]);
+ cm_ClientStrCpy(cm_sysName, MAXSYSNAME, cm_sysNameList[0]);
dummyLen = sizeof(cryptall);
code = RegQueryValueEx(parmKey, "SecurityLevel", NULL, NULL,
- (BYTE *) &cryptall, &dummyLen);
+ (BYTE *) &cryptall, &dummyLen);
if (code == ERROR_SUCCESS) {
- afsi_log("SecurityLevel is %s", cryptall?"crypt":"clear");
+ afsi_log("SecurityLevel is %s", cryptall == 1?"crypt": cryptall == 2?"auth":"clear");
} else {
cryptall = 0;
afsi_log("Default SecurityLevel is clear");
}
- if (cryptall)
+ if (cryptall == 1)
LogEvent(EVENTLOG_INFORMATION_TYPE, MSG_CRYPT_ON);
+ else if (cryptall == 2)
+ LogEvent(EVENTLOG_INFORMATION_TYPE, MSG_CRYPT_AUTH);
else
LogEvent(EVENTLOG_INFORMATION_TYPE, MSG_CRYPT_OFF);
+ dummyLen = sizeof(cryptall);
+ code = RegQueryValueEx(parmKey, "ForceAnonVLDB", NULL, NULL,
+ (BYTE *) &cm_anonvldb, &dummyLen);
+ afsi_log("CM ForceAnonVLDB is %s", cm_anonvldb ? "on" : "off");
+
#ifdef AFS_AFSDB_ENV
dummyLen = sizeof(cm_dnsEnabled);
code = RegQueryValueEx(parmKey, "UseDNS", NULL, NULL,
}
#endif /* AFS_FREELANCE_CLIENT */
+ dummyLen = sizeof(smb_UseUnicode);
+ code = RegQueryValueEx(parmKey, "NegotiateUnicode", NULL, NULL,
+ (BYTE *) &smb_UseUnicode, &dummyLen);
+ if (code != ERROR_SUCCESS) {
+ smb_UseUnicode = 1; /* default on */
+ }
+ afsi_log("SMB Server Unicode Support is %s",
+ smb_UseUnicode ? "enabled" : "disabled");
+
dummyLen = sizeof(smb_hideDotFiles);
code = RegQueryValueEx(parmKey, "HideDotFiles", NULL, NULL,
(BYTE *) &smb_hideDotFiles, &dummyLen);
code = RegQueryValueEx(parmKey, "RxNoJumbo", NULL, NULL,
(BYTE *) &rx_nojumbo, &dummyLen);
if (code != ERROR_SUCCESS) {
- rx_nojumbo = 0;
+ DWORD jumbo;
+ dummyLen = sizeof(jumbo);
+ code = RegQueryValueEx(parmKey, "RxJumbo", NULL, NULL,
+ (BYTE *) &jumbo, &dummyLen);
+ if (code != ERROR_SUCCESS) {
+ rx_nojumbo = 1;
+ } else {
+ rx_nojumbo = !jumbo;
+ }
}
if (rx_nojumbo)
afsi_log("RX Jumbograms are disabled");
+ else
+ afsi_log("RX Jumbograms are enabled");
dummyLen = sizeof(rx_extraPackets);
code = RegQueryValueEx(parmKey, "RxExtraPackets", NULL, NULL,
(BYTE *) &rx_extraPackets, &dummyLen);
if (code != ERROR_SUCCESS) {
- rx_extraPackets = 120;
+ rx_extraPackets = (numBkgD + numSvThreads + 5) * 64;
}
if (rx_extraPackets)
afsi_log("RX extraPackets is %d", rx_extraPackets);
+ dummyLen = sizeof(rx_udpbufsize);
+ code = RegQueryValueEx(parmKey, "RxUdpBufSize", NULL, NULL,
+ (BYTE *) &rx_udpbufsize, &dummyLen);
+ if (code != ERROR_SUCCESS) {
+ rx_udpbufsize = 256*1024;
+ }
+ if (rx_udpbufsize != -1)
+ afsi_log("RX udpbufsize is %d", rx_udpbufsize);
+
dummyLen = sizeof(rx_mtu);
code = RegQueryValueEx(parmKey, "RxMaxMTU", NULL, NULL,
(BYTE *) &rx_mtu, &dummyLen);
code = RegQueryValueEx(parmKey, "RxEnablePeerStats", NULL, NULL,
(BYTE *) &rx_enable_peer_stats, &dummyLen);
if (code != ERROR_SUCCESS) {
- rx_enable_peer_stats = 0;
+ rx_enable_peer_stats = 1;
}
if (rx_enable_peer_stats)
afsi_log("RX Peer Statistics gathering is enabled");
+ else
+ afsi_log("RX Peer Statistics gathering is disabled");
dummyLen = sizeof(rx_enable_process_stats);
code = RegQueryValueEx(parmKey, "RxEnableProcessStats", NULL, NULL,
(BYTE *) &rx_enable_process_stats, &dummyLen);
if (code != ERROR_SUCCESS) {
- rx_enable_process_stats = 0;
+ rx_enable_process_stats = 1;
}
if (rx_enable_process_stats)
afsi_log("RX Process Statistics gathering is enabled");
+ else
+ afsi_log("RX Process Statistics gathering is disabled");
dummyLen = sizeof(dwValue);
dwValue = 0;
code = RegQueryValueEx(parmKey, "RxEnableHotThread", NULL, NULL,
(BYTE *) &dwValue, &dummyLen);
- if (code == ERROR_SUCCESS && dwValue != 0) {
+ if (code != ERROR_SUCCESS || dwValue != 0) {
rx_EnableHotThread();
afsi_log("RX Hot Thread is enabled");
}
afsi_log("CM BPlusTrees is not supported");
#endif
- if ((RegQueryValueEx( parmKey, "PrefetchExecutableExtensions", 0,
- ®Type, NULL, &dummyLen) == ERROR_SUCCESS) &&
+ if ((RegQueryValueExW( parmKey, L"PrefetchExecutableExtensions", 0,
+ ®Type, NULL, &dummyLen) == ERROR_SUCCESS) &&
(regType == REG_MULTI_SZ))
{
- char * pSz;
+ clientchar_t * pSz;
dummyLen += 3; /* in case the source string is not nul terminated */
pSz = malloc(dummyLen);
- if ((RegQueryValueEx( parmKey, "PrefetchExecutableExtensions", 0, ®Type,
- pSz, &dummyLen) == ERROR_SUCCESS) &&
+ if ((RegQueryValueExW( parmKey, L"PrefetchExecutableExtensions", 0, ®Type,
+ (LPBYTE) pSz, &dummyLen) == ERROR_SUCCESS) &&
(regType == REG_MULTI_SZ))
{
int cnt;
- char * p;
+ clientchar_t * p;
- for (cnt = 0, p = pSz; (p - pSz < dummyLen) && *p; cnt++, p += strlen(p) + 1);
+ for (cnt = 0, p = pSz; (p - pSz < dummyLen) && *p; cnt++, p += cm_ClientStrLen(p) + 1);
- smb_ExecutableExtensions = malloc(sizeof(char *) * (cnt+1));
+ smb_ExecutableExtensions = malloc(sizeof(clientchar_t *) * (cnt+1));
- for (cnt = 0, p = pSz; (p - pSz < dummyLen) && *p; cnt++, p += strlen(p) + 1)
- {
+ for (cnt = 0, p = pSz; (p - pSz < dummyLen) && *p; cnt++, p += cm_ClientStrLen(p) + 1) {
smb_ExecutableExtensions[cnt] = p;
- afsi_log("PrefetchExecutableExtension: \"%s\"", p);
+ afsi_log("PrefetchExecutableExtension: \"%S\"", p);
}
smb_ExecutableExtensions[cnt] = NULL;
}
cm_initParams.nChunkFiles = 0;
cm_initParams.nStatCaches = stats;
cm_initParams.nDataCaches = (afs_uint32)(cacheBlocks > 0xFFFFFFFF ? 0xFFFFFFFF : cacheBlocks);
- cm_initParams.nVolumeCaches = stats/2;
+ cm_initParams.nVolumeCaches = volumes;
cm_initParams.firstChunkSize = cm_chunkSize;
cm_initParams.otherChunkSize = cm_chunkSize;
cm_initParams.cacheSize = cacheSize;
cm_InitCallback();
- code = cm_InitMappedMemory(virtualCache, cm_CachePath, stats, cm_chunkSize, cacheBlocks, blockSize);
+ cm_InitNormalization();
+
+ code = cm_InitMappedMemory(virtualCache, cm_CachePath, stats, volumes, cells, cm_chunkSize, cacheBlocks, blockSize);
afsi_log("cm_InitMappedMemory code %x", code);
if (code != 0) {
*reasonP = "error initializing cache file";
}
if ( rx_mtu != -1 ) {
+ extern void rx_SetMaxMTU(int);
+
rx_SetMaxMTU(rx_mtu);
afsi_log("rx_SetMaxMTU %d successful", rx_mtu);
}
+ if ( rx_udpbufsize != -1 ) {
+ rx_SetUdpBufSize(rx_udpbufsize);
+ afsi_log("rx_SetUdpBufSize %d", rx_udpbufsize);
+ }
+
/* initialize RX, and tell it to listen to the callbackport,
* which is used for callback RPC messages.
*/
*reasonP = "unknown error";
return -1;
}
+ rx_SetMinProcs(serverp, 2);
+ rx_SetMaxProcs(serverp, 4);
+ rx_SetCheckReach(serverp, 1);
nullServerSecurityClassp = rxnull_NewServerSecurityObject();
serverp = rx_NewService(0, RX_STATS_SERVICE_ID, "rpcstats",
*reasonP = "unknown error";
return -1;
}
+ rx_SetMinProcs(serverp, 2);
+ rx_SetMaxProcs(serverp, 4);
/* start server threads, *not* donating this one to the pool */
rx_StartServer(0);
code = cm_GetRootCellName(rootCellName);
afsi_log("cm_GetRootCellName code %d, cm_freelanceEnabled= %d, rcn= %s",
- code, cm_freelanceEnabled, (code ? "<none>" : rootCellName));
+ code, cm_freelanceEnabled, (code ? "<none>" : rootCellName));
if (code != 0 && !cm_freelanceEnabled)
{
*reasonP = "can't find root cell name in " AFS_CELLSERVDB;
{
cm_ReleaseSCache(cm_data.rootSCachep);
+ cm_shutdown = 1;
+
return 0;
}
osi_Log0(afsd_logp, "Loading Root Volume from cell");
do {
- code = cm_GetVolumeByName(cm_data.rootCellp, cm_rootVolumeName, cm_rootUserp,
+ code = cm_FindVolumeByName(cm_data.rootCellp, cm_rootVolumeName, cm_rootUserp,
&req, CM_GETVOL_FLAG_CREATE, &cm_data.rootVolumep);
- afsi_log("cm_GetVolumeByName code %x root vol %x", code,
+ afsi_log("cm_FindVolumeByName code %x root vol %x", code,
(code ? (cm_volume_t *)-1 : cm_data.rootVolumep));
} while (code && --attempts);
if (code != 0) {
/* compute the root fid */
if (!cm_freelanceEnabled) {
- cm_data.rootFid.cell = cm_data.rootCellp->cellID;
- cm_data.rootFid.volume = cm_GetROVolumeID(cm_data.rootVolumep);
- cm_data.rootFid.vnode = 1;
- cm_data.rootFid.unique = 1;
+ cm_SetFid(&cm_data.rootFid, cm_data.rootCellp->cellID, cm_GetROVolumeID(cm_data.rootVolumep), 1, 1);
}
else
cm_FakeRootFid(&cm_data.rootFid);
(BYTE *) &dwValue, &dummyLen);
if (code == ERROR_SUCCESS)
smb_StoreAnsiFilenames = dwValue ? 1 : 0;
+ afsi_log("StoreAnsiFilenames = %d", smb_StoreAnsiFilenames);
+
+ dummyLen = sizeof(DWORD);
+ code = RegQueryValueEx(parmKey, "EnableSMBAsyncStore", NULL, NULL,
+ (BYTE *) &dwValue, &dummyLen);
+ if (code == ERROR_SUCCESS)
+ smb_AsyncStore = dwValue == 2 ? 2 : (dwValue ? 1 : 0);
+ afsi_log("EnableSMBAsyncStore = %d", smb_AsyncStore);
+
+ dummyLen = sizeof(DWORD);
+ code = RegQueryValueEx(parmKey, "SMBAsyncStoreSize", NULL, NULL,
+ (BYTE *) &dwValue, &dummyLen);
+ if (code == ERROR_SUCCESS) {
+ /* Should check for >= blocksize && <= chunksize && round down to multiple of blocksize */
+ if (dwValue > cm_chunkSize)
+ smb_AsyncStoreSize = cm_chunkSize;
+ else if (dwValue < cm_data.buf_blockSize)
+ smb_AsyncStoreSize = cm_data.buf_blockSize;
+ else
+ smb_AsyncStoreSize = (dwValue & ~(cm_data.buf_blockSize-1));
+ } else
+ smb_AsyncStoreSize = CM_CONFIGDEFAULT_ASYNCSTORESIZE;
+ afsi_log("SMBAsyncStoreSize = %d", smb_AsyncStoreSize);
+
RegCloseKey (parmKey);
}
void
GenerateMiniDump(PEXCEPTION_POINTERS ep)
{
- if (IsDebuggerPresent())
- return;
+ if (IsDebuggerPresent())
+ return;
if (ep == NULL)
{
void afsd_SetUnhandledExceptionFilter()
{
+#ifndef NOTRACE
SetUnhandledExceptionFilter(afsd_ExceptionFilter);
+#endif
}
-
+
#ifdef _DEBUG
void afsd_DbgBreakAllocInit()
{