int CDECL main( int argc, char *argv[] )
{
Manager manager;
char iometer[MAX_NETWORK_NAME];
struct dynamo_param param;
#if defined(IOMTR_OS_LINUX)
struct aioinit aioDefaults;
memset(&aioDefaults, 0, sizeof(aioDefaults));
aioDefaults.aio_threads = 2;
aioDefaults.aio_threads = 2;
aio_init(&aioDefaults);
kstatfd = InitIoctlInterface();
procstatstyle = DetectProcStatStyle();
if (kstatfd < 0 && procstatstyle == -1) {
cerr << "IoMeter can not get correct status information" << endl;
exit(1);
}
#if defined(IOMTR_CPU_XSCALE)
if ((ccntfd = InitCCNTInterface()) < 0) {
exit(1);
}
#endif
#endif
iometer[0] = 0;
manager.manager_name[0] = 0;
manager.exclude_filesys[0] = 0;
//provide a temporary global ptr to the version string for Syntax() to use
g_pVersionStringWithDebug = manager.GetVersionString(TRUE);
param.iometer = iometer;
param.manager_name = manager.manager_name;
param.manager_computer_name = manager.prt->network_name;
param.manager_exclude_fs = manager.exclude_filesys;
param.blkdevlist = &manager.blkdevlist;
ParseParam(argc, argv, ¶m);
g_pVersionStringWithDebug = NULL; //should use manager object after this...
iomtr_set_cpu_affinity(param.cpu_affinity);
// If there were command line parameters, indicate that they were recognized.
if ( iometer[0] || manager.manager_name[0] )
{
cout << "\nCommand line parameter(s):" << endl;
if ( iometer[0] ) {
cout << " Looking for Iometer on \"" << iometer << "\"" << endl;
}
if ( manager.manager_name[0] ) {
cout << " New manager name is \"" << manager.manager_name << "\"" << endl;
}
}
if ( manager.exclude_filesys[0] )
{
cout << "\nExcluding the following filesystem types:" << endl;
cout << " \"" << manager.exclude_filesys << "\"" << endl;
}
else
{
strcpy(manager.exclude_filesys, DEFAULT_EXCLUDE_FILESYS);
}
cout << endl;
#if defined(IOMTR_OSFAMILY_UNIX)
#if defined(IOMTR_OS_LINUX)
signal(SIGALRM, SIG_IGN);
#elif defined(IOMTR_OS_SOLARIS)
sigignore(SIGALRM);
#else
#warning ===> WARNING: You have to do some coding here to get the port done!
#endif
// Initialize the lock on UNIX platforms.
if (pthread_mutex_init(&lock_mt, NULL))
{
cout <<"unable to init the lock" << endl;
exit(1);
}
// Block SIGPIPE signal. Needed to ensure that Network worker
// threads don't exit due to a broken pipe signal.
sigset_t sigset;
sigemptyset(&sigset);
sigaddset(&sigset, SIGPIPE);
if (sigprocmask(SIG_BLOCK, &sigset, NULL) < 0)
{
cout << "sigprocmask() call failed." << endl;
cout << "dynamo could be unstable" << endl;
}
//
// the number of file descriptors a process may create can be a small value like 64.
//
struct rlimit rlimitp;
if (getrlimit(RLIMIT_NOFILE, &rlimitp) < 0)
{
cout << "error " << errno << " trying to get rlimit (# file descriptors)" << endl;
}
else
{
// it succeeded. We leave out atleast 25 file descriptors for non-targets
// and compare with the hard limit.
unsigned int targets = MAX_TARGETS + 25;
if ( rlimitp.rlim_max < targets )
{
cout << "Only " << rlimitp.rlim_max << " file descriptors available" << endl;
rlimitp.rlim_cur = rlimitp.rlim_max;
}
else
{
// set the soft limit to the required value.
rlimitp.rlim_cur = targets;
}
if (setrlimit(RLIMIT_NOFILE, &rlimitp) < 0)
{
cout << "error " << errno << " trying to set rlimit (# file descriptors)" << endl;
}
}
// Check for super-user permissions. If not super-user, we
// cannot get many of the info from the kernel.
if (getuid() || geteuid())
{
cout << "Dynamo not running as super-user." << endl;
cout << " All available disks might not be reported " << endl;
cout << " Cannot get TCP statistics from the kernel " << endl;
}
#ifdef IOMTR_SETTING_OVERRIDE_FS
// No command line args specifies destructive testing. Check to see if there
// are any environment variables specifying the same. We need to warn the user.
if (getenv("IOMTR_SETTING_OVERRIDE_FS") != NULL)
{
cout << " ************ WARNING **************" << endl;
cout << " dynamo running in Destructive mode." << endl;
cout << " (overriding the not mounted fs)" << endl;
cout << " ************ WARNING **************" << endl;
}
#endif // IOMTR_SETTING_OVERRIDE_FS
#endif // IOMTR_OSFAMILY_UNIX
#if defined(IOMTR_OSFAMILY_NETWARE)
// Initialize the lock on NetWare platforms.
if (pthread_mutex_init(&lock_mt, NULL))
{
cout <<"unable to init the lock" << endl;
exit(1);
}
#endif
// Ensure, that the endian type of the CPU is detectable
if ( (IsBigEndian() != 0) && (IsBigEndian() != 1) )
{
cout << "===> ERROR: Endian type of the CPU couldn't be detected." << endl;
cout << " [main() in " << __FILE__ << " line " << __LINE__ << "]" << endl;
exit(1);
}
// Entering infinite loop to allow Dynamo to run multiple tests. Outer while loop allows
// Dynamo to be reset from Iometer. If everything works smoothly, resets should be rare.
while (TRUE)
{
// Initializing worker and logging into Iometer director.
if ( !manager.Login( iometer ) )
break;
// Manager will continue to run until an error, or stopped by Iometer.
if ( !manager.Run() )
break; // Stop running when the manager is done.
}
cout << "Ending execution." << endl;
Sleep( 1000 );
#if defined(IOMTR_OS_LINUX)
CleanupIoctlInterface(kstatfd);
#if defined(IOMTR_CPU_XSCALE)
CleanupCCNTInterface(ccntfd);
#endif
#endif
return(0);
}
int CDECL main(int argc, char *argv[])
{
Manager *manager;
char iometer[MAX_NETWORK_NAME];
int error = 0;
// struct dynamo_param param; //move up to global scope
#if defined(IOMTR_OS_LINUX)
struct aioinit aioDefaults;
memset(&aioDefaults, 0, sizeof(aioDefaults));
aioDefaults.aio_threads = 32;
aio_init(&aioDefaults);
kstatfd = InitIoctlInterface();
#if defined(IOMTR_CPU_XSCALE)
if ((ccntfd = InitCCNTInterface()) < 0) {
exit(1);
}
#endif
#endif
Banner();
#if !defined(DO_NOT_PARSE_BEFORE_MANAGER)
// In order to allow command line parameters to influence default values of
// the Manager class members, we need to parse parameters before instantiating
// the Manager, but to do this, we need to:
// Setup local storage -- could just be in the global param structure???
char blkdevlist[MAX_TARGETS][MAX_NAME];
char manager_name[MAX_WORKER_NAME];
char network_name[MAX_NETWORK_NAME];
char exclude_filesys[MAX_EXCLUDE_FILESYS];
// Init the local storage to match the original code
iometer[0] = 0;
manager_name[0] = 0;
exclude_filesys[0] = 0;
network_name[0] = 0;
// Setup the param structure to defaults and to point to buffers above
param.iometer = iometer;
param.manager_name = manager_name;
param.manager_computer_name = network_name;
param.manager_exclude_fs = exclude_filesys;
param.blkdevlist = &blkdevlist;
param.login_port_number = 0;
param.cpu_affinity = 0; // not specified or default
param.timer_type = TIMER_UNDEFINED; // use the default
param.disk_control = RAWDISK_VIEW_NOPART; // do not show raw disks with partitions
// The manager's GetVersionString method is not available yet since it does not exist,
// so we do away with the variable and have ParseParam rely directly on the source of
// the strings in ioversion.h. Not too clean but functional...
// g_pVersionStringWithDebug = NULL; // not needed
// Parse params and then instantiate the manager next...
ParseParam(argc, argv, ¶m);
#endif
manager = new Manager;
#if !defined(DO_NOT_PARSE_BEFORE_MANAGER)
// Restore the param globals retrieved above back to the manager
// since the manager buffers were not available prior to the parse call.
memcpy(manager->manager_name, manager_name, sizeof(manager_name));
memcpy(manager->prt->network_name, network_name, sizeof(network_name));
memcpy(manager->exclude_filesys, exclude_filesys, sizeof(exclude_filesys));
memcpy(manager->blkdevlist, blkdevlist, sizeof(blkdevlist));
#else // defined(DO_NOT_PARSE_BEFORE_MANAGER) // the original code
iometer[0] = 0;
manager->manager_name[0] = 0;
manager->exclude_filesys[0] = 0;
//provide a temporary global ptr to the version string for Syntax() to use
g_pVersionStringWithDebug = manager->GetVersionString(TRUE);
param.iometer = iometer;
param.manager_name = manager->manager_name;
param.manager_computer_name = manager->prt->network_name;
param.manager_exclude_fs = manager->exclude_filesys;
param.blkdevlist = &manager->blkdevlist;
param.login_port_number = 0;
param.cpu_affinity = 0; // not specified or default
param.timer_type = TIMER_UNDEFINED; // use the default
param.disk_control = RAWDISK_VIEW_NOPART; // do not show raw disks with partitions
ParseParam(argc, argv, ¶m);
g_pVersionStringWithDebug = NULL; //should use manager object after this...
#endif
iomtr_set_cpu_affinity(param.cpu_affinity);
// If there were command line parameters, indicate that they were recognized.
if (iometer[0] || manager->manager_name[0]) {
cout << "\nCommand line parameter(s):" << endl;
if (iometer[0]) {
cout << " Looking for Iometer on \"" << iometer << "\"" << endl;
}
if (manager->manager_name[0]) {
cout << " New manager name is \"" << manager->manager_name << "\"" << endl;
}
}
if (manager->exclude_filesys[0]) {
cout << "\nExcluding the following filesystem types:" << endl;
cout << " \"" << manager->exclude_filesys << "\"" << endl;
} else {
strcpy(manager->exclude_filesys, DEFAULT_EXCLUDE_FILESYS);
}
// cout << endl;
#if defined(IOMTR_OSFAMILY_UNIX)
#if defined(IOMTR_OS_LINUX) || defined(IOMTR_OS_OSX)
signal(SIGALRM, SIG_IGN);
#elif defined(IOMTR_OS_SOLARIS)
sigignore(SIGALRM);
#else
#warning ===> WARNING: You have to do some coding here to get the port done!
#endif
// Initialize the lock on UNIX platforms.
if (pthread_mutex_init(&lock_mt, NULL)) {
cout << "unable to init the lock" << endl;
error = 1;
goto CleanUp;
//exit(1);
}
// Block SIGPIPE signal. Needed to ensure that Network worker
// threads don't exit due to a broken pipe signal.
sigset_t sigset;
sigemptyset(&sigset);
sigaddset(&sigset, SIGPIPE);
if (sigprocmask(SIG_BLOCK, &sigset, NULL) < 0) {
cout << "sigprocmask() call failed." << endl;
cout << "dynamo could be unstable" << endl;
}
//
// the number of file descriptors a process may create can be a small value like 64.
//
struct rlimit rlimitp;
if (getrlimit(RLIMIT_NOFILE, &rlimitp) < 0) {
cout << "error " << errno << " trying to get rlimit (# file descriptors)" << endl;
} else {
// it succeeded. We leave out atleast 25 file descriptors for non-targets
// and compare with the hard limit.
unsigned int targets = MAX_TARGETS + 25;
if (rlimitp.rlim_max < targets) {
cout << "Only " << rlimitp.rlim_max << " file descriptors available" << endl;
rlimitp.rlim_cur = rlimitp.rlim_max;
} else {
// set the soft limit to the required value.
rlimitp.rlim_cur = targets;
}
if (setrlimit(RLIMIT_NOFILE, &rlimitp) < 0) {
cout << "error " << errno << " trying to set rlimit (# file descriptors)" << endl;
}
}
// Check for super-user permissions. If not super-user, we
// cannot get many of the info from the kernel.
if (getuid() || geteuid()) {
cout << "Dynamo not running as super-user." << endl;
cout << " All available disks might not be reported " << endl;
cout << " Cannot get TCP statistics from the kernel " << endl;
}
#ifdef IOMTR_SETTING_OVERRIDE_FS
// No command line args specifies destructive testing. Check to see if there
// are any environment variables specifying the same. We need to warn the user.
if (getenv("IOMTR_SETTING_OVERRIDE_FS") != NULL) {
cout << " ************ WARNING **************" << endl;
cout << " dynamo running in Destructive mode." << endl;
cout << " (overriding the not mounted fs)" << endl;
cout << " ************ WARNING **************" << endl;
}
#endif // IOMTR_SETTING_OVERRIDE_FS
#endif // IOMTR_OSFAMILY_UNIX
#if defined(IOMTR_OSFAMILY_NETWARE)
// Initialize the lock on NetWare platforms.
if (pthread_mutex_init(&lock_mt, NULL)) {
cout << "unable to init the lock" << endl;
error = 1;
goto CleanUp;
//exit(1);
}
#endif
#if defined(IOMTR_OSFAMILY_WINDOWS)
// IOmeter/Dynamo now utilizes Windows UAC for privilege elevation,
// but on version of Windows in which that is not supported we
// match the UNIX output above.
BOOL bReturned;
SID_IDENTIFIER_AUTHORITY NtAuthority = SECURITY_NT_AUTHORITY;
PSID AdminGroup;
bReturned = AllocateAndInitializeSid(
&NtAuthority,
2,
SECURITY_BUILTIN_DOMAIN_RID,
DOMAIN_ALIAS_RID_ADMINS,
0, 0, 0, 0, 0, 0,
&AdminGroup);
if(bReturned)
{
CheckTokenMembership( NULL, AdminGroup, &bReturned);
if (!bReturned)
{
cout << "Dynamo not running as an administrator." << endl;
cout << " All available disks might not be reported " << endl;
cout << endl;
}
FreeSid(AdminGroup);
}
#endif
// Ensure, that the endian type of the CPU is detectable
if ((IsBigEndian() != 0) && (IsBigEndian() != 1)) {
cout << "===> ERROR: Endian type of the CPU couldn't be detected." << endl;
cout << " [main() in " << __FILE__ << " line " << __LINE__ << "]" << endl;
error = 1;
goto CleanUp;
//exit(1);
}
// Entering infinite loop to allow Dynamo to run multiple tests. Outer while loop allows
// Dynamo to be reset from Iometer. If everything works smoothly, resets should be rare.
while (TRUE) {
// Initializing worker and logging into Iometer director.
if (!manager->Login(iometer, param.login_port_number))
break;
// Manager will continue to run until an error, or stopped by Iometer.
if (!manager->Run())
break; // Stop running when the manager is done.
}
cout << "Ending execution." << endl;
Sleep(1000);
#if defined(IOMTR_OS_LINUX)
CleanupIoctlInterface(kstatfd);
#if defined(IOMTR_CPU_XSCALE)
CleanupCCNTInterface(ccntfd);
#endif
#endif
//return (0);
CleanUp:
if (manager) delete manager;
if (error) exit(error);
return (0);
}
int main(void)
{
int fd, res, t, nr_cpu;
unsigned long m;
struct cpu_data_type raw_cpu;
struct ni_data_type raw_net;
struct tcp_data_type raw_tcp;
long long sz;
unsigned long long jf;
printf("clock_tick = %ld\n", sysconf(_SC_CLK_TCK));
gettcpcounter();
DetectProcStatStyle();
DetectLinuxVersion();
if ((fd = InitIoctlInterface()) < 0) {
printf("device file open fail!\n");
exit(1);
}
if ((res = ioctl(fd, IM_IOC_GETCPUNUM, &nr_cpu)) >= 0 ) {
printf("# CPU: %d\n", nr_cpu);
}
if ((res = ioctl(fd, IM_IOC_GETCPUKHZ, &m)) >= 0 ) {
printf("CPU KHZ: %lu\n", m);
}
if ((res = ioctl(fd, IM_IOC_GETCURJIFFIES, &jf)) >= 0 ) {
printf("JIFFIE: %llu\n", jf);
}
if ((res = ioctl(fd, IM_IOC_GETCPUDATA, &raw_cpu)) >= 0 ) {
for (t = 0; t < nr_cpu; t++) {
printf("cpu %d: system time %llu, user time %llu\n", t, raw_cpu.system_time[t], raw_cpu.user_time[t]);
}
printf("# intr %llu\n", raw_cpu.intr);
}
if ((res = ioctl(fd, IM_IOC_GETNIDATA, &raw_net)) >= 0 ) {
for (t = 0; t < MAX_NUM_INTERFACES; t++) {
if (raw_net.nr_pkt[t])
printf("net %d: nr_pkt %llu, in_err %llu, out_err %llu\n", t, raw_net.nr_pkt[t],
raw_net.in_err[t], raw_net.out_err[t]);
}
}
if ((res = ioctl(fd, IM_IOC_GETTCPDATA, &raw_tcp)) >= 0 ) {
printf("tcp:%lld, %lld, %lld\n", raw_tcp.insegs, raw_tcp.outsegs, raw_tcp.retranssegs);
}
else {
printf("fail\n");
}
CleanupIoctlInterface(fd);
fd = open("/dev/hda", O_RDONLY);
if (fd < 0)
printf("fail to open\n");
else {
// get a sector size
res = ioctl(fd, BLKSSZGET, &t);
printf("sz:%d\n", t);
// get a total size
res = ioctl(fd, BLKGETSIZE64, &sz);
printf("sz:%llu\n", sz);
}
return 0;
}
