// *****************************************************************************
// * *
// * Function: TokenKeyContents::populate *
// * *
// * Populates fields of a token key using information from current *
// * process (node, PID, etc.) and encoding (base64). *
// * *
// *****************************************************************************
void TokenKeyContents::populate()
{
msg_mon_get_my_process_name(u.token.processName, MS_MON_MAX_PROCESS_NAME);
msg_mon_get_process_info( NULL, &u.token.nodeId, &u.token.processId );
ID[0] = USERTOKEN_ID_1;
ID[1] = USERTOKEN_ID_2;
// Generate Random bytes
srandom ((unsigned)time(NULL));
for (int i=0; i < sizeof(u.token.rand); i++)
u.token.rand[i] = (char)(random() & 0xFF);
// Base 64 encoding
char buf[sizeof(u)]= {0};
base64((const char *)&u.token, sizeof(u.token), buf, true);
memcpy(u.encoded.b64, buf, sizeof(u.encoded.b64));
u.encoded.zero='\0';
}
// *****************************************************************************
// * *
// * Function: TokenKey::verify *
// * *
// * Determines if a token key is valid. *
// * *
// *****************************************************************************
// * *
// * Parameters: *
// * *
// * <tokenKey> TokenKey & In *
// * is the token key to be validated against. *
// * *
// *****************************************************************************
bool TokenKey::verify(TokenKey &tokenKey) const
{
// Check to see that the process name matches with the node ID and process IDd
int retval = XZFIL_ERR_OK;
int nid, pid, decoded_nid, decoded_pid;
if (!(*this == tokenKey))
return false;
// decode the token to get the process info
TokenKeyContents decoded_token;
base64((const char *) self.u.encoded.b64,sizeof(self.u.encoded.b64),
(char *) decoded_token.u.encoded.b64,false);
retval = msg_mon_get_process_info(decoded_token.u.token.processName,&nid,&pid);
decoded_nid = decoded_token.u.token.nodeId;
decoded_pid = decoded_token.u.token.processId;
if ((retval == XZFIL_ERR_OK) &&
(nid == decoded_nid) &&
(pid == decoded_pid))
return true;
return false;
}
void start_backup(int nid) {
int ferr;
nid = nid; // no-warn
ferr = msg_mon_get_process_info(NULL, &nid, &gpeer_pid);
TEST_CHK_FEOK(ferr);
gpeer_nid = 1 - nid;
gpeer_pid = -1;
myprintf("starting backup process with open.\n");
ferr = msg_mon_start_process(gprog, // prog
gname, // name
NULL, // ret name
gargc,
gargp,
TPT_REF(gpeer_phandle),
0, // open
&gpeer_oid,
MS_ProcessType_Generic, // type
0, // priority
0, // debug
1, // backup
&gpeer_nid, // nid
&gpeer_pid, // pid
NULL, // infile
NULL); // outfile
TEST_CHK_FEOK(ferr);
ferr = msg_mon_open_process_backup(gname,
TPT_REF(gpeer_phandle),
&gpeer_oid);
TEST_CHK_FEOK(ferr);
myprintf("after start_backup - peer p-id=%d/%d\n",
gpeer_nid, gpeer_pid);
mypairinfo(true);
}
int main(int argc, char *argv[]) {
int ferr;
int nid;
int pid;
MS_Mon_Transid_Type transid;
msfs_util_init(&argc, &argv, msg_debug_hook);
util_test_start(true);
ferr = msg_mon_process_startup(true); // system messages
TEST_CHK_FEOK(ferr);
ferr = msg_mon_get_process_info((char *) "", &nid, &pid);
TEST_CHK_FEOK(ferr);
ferr = msg_mon_trans_register_tmlib(tm_inherit_tx);
TEST_CHK_FEOK(ferr);
TRANSID_SET_SEQ(transid, 1);
ferr = msg_mon_trans_enlist(nid, pid, transid);
TEST_CHK_FEOK(ferr);
ferr = msg_mon_trans_delist(nid, pid, transid);
TEST_CHK_FEOK(ferr);
ferr = msg_mon_trans_end(nid, pid, transid);
TEST_CHK_FEOK(ferr);
ferr = msg_mon_process_shutdown();
TEST_CHK_FEOK(ferr);
util_test_finish(true);
printf("if there were no asserts, all is well\n");
return 0;
}
void pp_start_backup(int nid) {
int ferr;
if (gshutdown) {
if (gverbosepp)
pp_printf("NOT starting backup process - shutdown.\n");
return;
}
nid = nid; // no-warn
ferr = msg_mon_get_process_info(NULL, &nid, &gpeer_pid);
TEST_CHK_FEOK(ferr);
for (;;) {
gpeer_nid = -1;
if (gnid == 1)
gpeer_nid = 2;
else
gpeer_nid = 1;
gpeer_pid = -1;
if (gverbosepp)
pp_printf("starting backup process with open, nid=%d.\n", gpeer_nid);
ferr = msg_mon_start_process(gprog, // prog
gname, // name
NULL, // ret name
gargc,
gargp,
TPT_REF(gpeer_phandle),
0, // open
&gpeer_oid,
MS_ProcessType_TSE, // type
0, // priority
0, // debug
1, // backup
&gpeer_nid, // nid
&gpeer_pid, // pid
NULL, // infile
NULL); // outfile
if (ferr == XZFIL_ERR_OK)
break;
printf("backup did not start error=%d\n", ferr);
sleep(1);
}
TEST_CHK_FEOK(ferr);
ferr = msg_mon_open_process_backup(gname,
TPT_REF(gpeer_phandle),
&gpeer_oid);
TEST_CHK_FEOK(ferr);
if (gverbosepp)
pp_printf("after start_backup - peer p-id=%d/%d\n",
gpeer_nid, gpeer_pid);
pp_pairinfo(true);
}
void getTMLoggingHeaderInfo(posix_sqlog_severity_t severity, logLevel &ll_severity, char *processName, int processNameLen, int &my_nid, int &my_pid)
{
char my_name[MS_MON_MAX_PROCESS_NAME+1];
int error;
error = msg_mon_get_my_process_name( my_name, sizeof(my_name) );
if (error == 0) {
error = msg_mon_get_process_info( my_name, &my_nid, &my_pid );
if (error != 0) {
my_nid = -1;
my_pid = -1;
}
}
else
strcpy(my_name, "UNKNOWN");
int len = strlen(my_name);
if (len < processNameLen)
len = processNameLen-1;
strncpy(processName, my_name, len);
processName[len] = '\0';
switch (severity) {
case SQ_LOG_EMERG:
ll_severity = LL_FATAL;
break;
case SQ_LOG_ALERT:
ll_severity = LL_WARN;
break;
case SQ_LOG_CRIT:
ll_severity = LL_FATAL;
break;
case SQ_LOG_ERR:
ll_severity = LL_ERROR;
break;
case SQ_LOG_WARNING:
ll_severity = LL_WARN;
break;
case SQ_LOG_NOTICE:
ll_severity = LL_INFO;
break;
case SQ_LOG_INFO:
ll_severity = LL_INFO;
break;
case SQ_LOG_DEBUG:
ll_severity = LL_DEBUG;
break;
default:
ll_severity = LL_INFO;
break;
}
return;
}
/*
* Registers for process death messages for the specified process name
* This will be used by the mxosrvrs and mxocfg process'es to register
* for mxoas death messages, instead of polling every 15 seconds to
* check if the mxoas process is still around
*/
bool RegisterProcessDeathMessage(char *processName)
{
int ferr; // file system errors
int nid; // node id
int pid; // process id
ferr = msg_mon_get_process_info(processName,&nid,&pid);
if(ferr != XZFIL_ERR_OK || nid == -1 || pid == -1) return false;
ferr = msg_mon_register_death_notification(nid, pid);
if(ferr != XZFIL_ERR_OK) return false;
} /* RegisterProcessDeathMessage() */
// *****************************************************************************
// * *
// * Function: MyProcInfo *
// * *
// * Get the process info from monitor *
// *****************************************************************************
// * *
// * Parameters: *
// * <proc_info> ProcInfo * In *
// * *
// * Returns: *
// * *
// * None *
// * *
// *****************************************************************************
void MyProcInfo(ProcInfo *proc_info) // Address of struct to return results
{
short res;
int nid, pid;
MS_Mon_Node_Info_Type node_info;
// char *nodename;
// Get process info
res = msg_mon_get_process_info( NULL, &nid, &pid );
proc_info->nid = nid;
proc_info->pid = pid;
// res = msg_mon_get_node_info_detail(nid, &node_info);
// nodename = strtok(node_info.node[0].node_name, ".");
}
// ----------------------------------------------------------
// start_adp
// Purpose - initialize the module and vol name for the ADP
// ----------------------------------------------------------
int TM_Audit::initialize_adp()
{
TMTrace(2, ("TM_Audit::initialize_adp: ENTRY\n"));
char la_name[8];
int32 lv_nid;
int32 lv_pid;
if (!iv_initialized)
{
msg_mon_get_process_info (NULL, &lv_nid, &lv_pid);
sprintf(la_name, "0DTM%d", lv_nid);
memcpy (ia_vol_name, la_name, strlen(la_name));
sprintf (ia_vol_name2, la_name, strlen(la_name));
iv_mutex.lock();
iv_mutex.unlock();
}
TMTrace(2, ("TM_Audit::initialize_adp: EXIT, name %s\n", ia_vol_name2));
return TM_OK;
}
static int do_cb(JNIEnv *j_env, char **snames, int count) {
jclass cb_class;
jmethodID id_cb;
int inx;
int nid;
int pid;
jstring *str;
jobjectArray str_array;
jclass str_class;
cb_class = j_env->GetObjectClass(j_cb);
assert(cb_class != 0);
id_cb = j_env->GetMethodID(cb_class, "cb", "(II[Ljava/lang/String;)I");
assert(id_cb != 0);
str_class = j_env->FindClass("java/lang/String");
assert(str_class != 0);
str_array = j_env->NewObjectArray(count, str_class, NULL);
assert(str_array != 0);
str = new jstring[count];
for (inx = 0; inx < count; inx++) {
str[inx] = j_env->NewStringUTF(snames[inx]);
assert(str[inx] != 0);
j_env->SetObjectArrayElement(str_array, inx, str[inx]);
}
msg_mon_get_process_info(NULL, &nid, &pid);
j_env->CallIntMethod(j_cb,
id_cb,
nid,
pid,
str_array);
for (inx = 0; inx < count; inx++) {
j_env->DeleteLocalRef(str[inx]);
}
j_env->DeleteLocalRef(str_array);
return 0;
}
static int do_cb(JNIEnv *pp_j_env, char **ppp_snames, int pv_count) {
jstring *lp_str;
jclass lv_cb_class;
jmethodID lv_id_cb;
int lv_inx;
int lv_nid;
int lv_pid;
jobjectArray lv_str_array;
jclass lv_str_class;
lv_cb_class = pp_j_env->GetObjectClass(gv_j_cb);
assert(lv_cb_class != 0);
lv_id_cb = pp_j_env->GetMethodID(lv_cb_class, "cb", "(II[Ljava/lang/String;)I");
assert(lv_id_cb != 0);
lv_str_class = pp_j_env->FindClass("java/lang/String");
assert(lv_str_class != 0);
lv_str_array = pp_j_env->NewObjectArray(pv_count, lv_str_class, NULL);
assert(lv_str_array != 0);
lp_str = new jstring[pv_count];
for (lv_inx = 0; lv_inx < pv_count; lv_inx++) {
lp_str[lv_inx] = pp_j_env->NewStringUTF(ppp_snames[lv_inx]);
assert(lp_str[lv_inx] != 0);
pp_j_env->SetObjectArrayElement(lv_str_array, lv_inx, lp_str[lv_inx]);
}
msg_mon_get_process_info(NULL, &lv_nid, &lv_pid);
pp_j_env->CallIntMethod(gv_j_cb,
lv_id_cb,
lv_nid,
lv_pid,
lv_str_array);
for (lv_inx = 0; lv_inx < pv_count; lv_inx++) {
pp_j_env->DeleteLocalRef(lp_str[lv_inx]);
}
pp_j_env->DeleteLocalRef(lv_str_array);
return 0;
}
int main(int argc, char *argv[]) {
char *args[4];
bool attach = false;
bool chook = false;
bool client = false;
bool clientd = false;
int cli_nid = -1;
int cli_pid = -1;
const char *cname = "$cli";
int count;
int ferr;
int inx;
int len;
int lerr;
int loop = 10;
TPT_DECL (mphandle);
char *mphandlec = (char *) &mphandle;
TPT_DECL_INT (mphandlei);
int msgid;
int my_mon_nid;
int my_mon_pid;
int my_mon_ptype;
int my_mon_zid;
int my_os_pid;
long my_os_tid;
int my_compid;
int my_pnid;
int my_segid;
int nid;
int oid;
TPT_DECL (phandle);
int pid;
char *pname = NULL;
int ptype;
RT results;
int scollpid = -1;
int scompid = -1;
int send_len;
bool shook = false;
const char *sname = "$srv";
bool sonar = false;
MS_SRE sre;
int srv_nid = -1;
int srv_pid = -1;
MS_Mon_Monitor_Stats_Type stats;
int status;
long t_elapsed;
struct timeval t_start;
struct timeval t_stop;
int tm_seq;
bool val_bool;
int val_int;
const char *val_str;
int winx;
pid_t wpid;
TAD zargs[] = {
{ "-attach", TA_Bool, TA_NOMAX, &attach },
{ "-chook", TA_Bool, TA_NOMAX, &chook },
{ "-client", TA_Bool, TA_NOMAX, &client },
{ "-clientd", TA_Bool, TA_NOMAX, &clientd },
{ "-cname", TA_Str, TA_NOMAX, &cname },
{ "-loop", TA_Int, TA_NOMAX, &loop },
{ "-name", TA_Str, TA_NOMAX, &pname },
{ "-server", TA_Ign, TA_NOMAX, NULL },
{ "-shook", TA_Bool, TA_NOMAX, &shook },
{ "-sname", TA_Str, TA_NOMAX, &sname },
{ "-sonar", TA_Bool, TA_NOMAX, &sonar },
{ "", TA_End, TA_NOMAX, NULL }
};
#ifdef DEBUG_ENV
env = environ;
while (*env != NULL) {
printf("env=%s\n", *env);
env++;
}
#endif
arg_proc_args(zargs, false, argc, argv);
if (client && chook)
test_debug_hook("c", "c");
if (!client && shook)
test_debug_hook("s", "s");
setenv("TESTKEYBOOL", "1", 1);
setenv("TESTKEYINT", "44", 1);
setenv("TESTKEYSTR", "TESTVALSTR", 1);
//
// test msg_getenv* before msg_init
//
val_bool = true;
msg_getenv_bool("TESTKEYBOOL", &val_bool);
assert(val_bool);
val_bool = false;
msg_getenv_bool("TESTKEYBOOL", &val_bool);
assert(!val_bool);
val_int = 0;
msg_getenv_int("TESTKEYINT", &val_int);
assert(val_int == 0);
val_int = 1;
msg_getenv_int("TESTKEYINT", &val_int);
assert(val_int == 1);
val_str = (const char *) 1;
val_str = msg_getenv_str("TESTKEYSTR");
assert(val_str == NULL);
if (attach)
msfs_util_init_attach(&argc, &argv, msg_debug_hook, false, pname);
else
msfs_util_init(&argc, &argv, msg_debug_hook);
arg_proc_args(zargs, false, argc, argv);
util_time_timer_start(&t_start);
util_test_start(client);
ferr = msg_mon_process_startup(!client); // system messages?
TEST_CHK_FEOK(ferr);
//
// test msg_getenv* after msg_init
//
msg_getenv_bool("TESTKEYBOOL", &val_bool);
assert(val_bool);
msg_getenv_int("TESTKEYINT", &val_int);
assert(val_int == 44);
val_str = msg_getenv_str("TESTKEYSTR");
assert(strcmp(val_str, "TESTVALSTR") == 0);
// process-wait for server/shell
ferr = msfs_util_wait_process_count(MS_ProcessType_Generic, 2, NULL, false);
TEST_CHK_FEOK(ferr);
// process-wait for client
ferr = msfs_util_wait_process_count(MS_ProcessType_TSE, 1, NULL, false);
TEST_CHK_FEOK(ferr);
if (client) {
if (sonar) {
scollpid = fork();
if (scollpid == 0) {
// child
args[0] = (char *) "sonarcollector";
args[1] = (char *) "-i"; // sampling interval // cast
args[2] = (char *) "1"; // cast
args[3] = NULL;
lerr = execvp(args[0], args);
assert(lerr == 0);
}
}
ferr = msg_mon_open_process((char *) sname, // name
TPT_REF(phandle),
&oid);
TEST_CHK_FEOK(ferr);
}
// this phandle check assumed a particular data structure
ferr = msg_mon_get_my_process_name(my_name, BUFSIZ);
util_check("msg_mon_get_my_process_name", ferr);
ferr = XPROCESSHANDLE_GETMINE_(TPT_REF(mphandle));
util_check("XPROCESSHANDLE_GETMINE_", ferr);
TPT_COPY_INT(mphandlei, mphandle);
assert((mphandlei[0] & 0xf0) == 0x20); // named
assert(strncmp(my_name, &mphandlec[4], 32) == 0);
printf("phandle=%x.%x.%x.%x.%x\n",
mphandlei[0],
mphandlei[1],
mphandlei[2],
mphandlei[3],
mphandlei[4]);
ferr = msg_mon_get_my_info(&my_mon_nid,
&my_mon_pid,
my_mon_name,
BUFSIZ,
&my_mon_ptype,
&my_mon_zid,
&my_os_pid,
&my_os_tid);
util_check("msg_mon_get_my_info", ferr);
printf("nid=%d, pid=%d, name=%s, ptype=%d, zid=%d, os-pid=%d, os-tid=%ld\n",
my_mon_nid,
my_mon_pid,
my_mon_name,
my_mon_ptype,
my_mon_zid,
my_os_pid,
my_os_tid);
my_mon_nid = -1;
my_mon_pid = -1;
my_mon_ptype = -1;
my_mon_zid = -1;
my_os_pid = -1;
my_os_tid = -1;
my_compid = -1;
my_pnid = -1;
ferr = msg_mon_get_my_info3(&my_mon_nid,
&my_mon_pid,
my_mon_name3,
BUFSIZ,
&my_mon_ptype,
&my_mon_zid,
&my_os_pid,
&my_os_tid,
&my_compid,
&my_pnid);
util_check("msg_mon_get_my_info3", ferr);
printf("nid=%d, pid=%d, name=%s, ptype=%d, zid=%d, os-pid=%d, os-tid=%ld, compid=%d, pnid=%d\n",
my_mon_nid,
my_mon_pid,
my_mon_name3,
my_mon_ptype,
my_mon_zid,
my_os_pid,
my_os_tid,
my_compid,
my_pnid);
ferr = msg_mon_get_my_segid(&my_segid);
util_check("msg_mon_get_my_segid", ferr);
printf("segid=%d\n", my_segid);
ferr = msg_mon_get_monitor_stats(&stats);
util_check("msg_mon_get_monitor_stats", ferr);
printf("avail_min=%d, acquired_max=%d, buf_misses=%d\n",
stats.avail_min, stats.acquired_max, stats.buf_misses);
util_gethostname(my_name, sizeof(my_name));
msg_mon_enable_mon_messages(true);
ferr = msg_mon_get_tm_seq(&tm_seq);
util_check("msg_mon_get_tm_seq", ferr);
printf("tm_seq=%d\n", tm_seq);
if (client) {
ferr = msg_mon_get_process_info_type(MS_ProcessType_TSE,
&count,
0,
NULL);
TEST_CHK_FEOK(ferr);
if (!attach)
assert(count == 1);
ferr = msg_mon_get_process_info_type(MS_ProcessType_TSE,
&count,
1,
info);
TEST_CHK_FEOK(ferr);
if (!attach)
assert(count == 1);
}
for (inx = 0; inx < loop; inx++) {
if (client) {
sprintf(send_buffer, "hello, greetings from %s, inx=%d",
my_name, inx);
send_len = (int) strlen(send_buffer) + 1;
ferr = XMSG_LINK_(TPT_REF(phandle), // phandle
&msgid, // msgid
send_buffer2, // reqctrl
(ushort) (inx & 1), // reqctrlsize
recv_buffer3, // replyctrl
1, // replyctrlmax
send_buffer, // reqdata
(ushort) send_len, // reqdatasize
recv_buffer, // replydata
BUFSIZ, // replydatamax
0, // linkertag
(short) (inx+1), // pri
0, // xmitclass
0); // linkopts
util_check("XMSG_LINK_", ferr);
ferr = XMSG_BREAK_(msgid,
results.u.s,
TPT_REF(phandle));
util_check("XMSG_BREAK_", ferr);
assert(results.u.t.ctrl_size == (uint) (inx & 1));
assert(results.u.t.data_size > (strlen(send_buffer) + 14));
assert(results.u.t.errm == RT_DATA_RCVD); // data
printf("%s\n", recv_buffer);
} else {
do {
lerr = XWAIT(LREQ, -1);
TEST_CHK_WAITIGNORE(lerr);
lerr = XMSG_LISTEN_((short *) &sre, // sre
0, // listenopts
0); // listenertag
} while (lerr == XSRETYPE_NOWORK);
ferr = XMSG_GETREQINFO_(MSGINFO_NID,
sre.sre_msgId,
&nid);
util_check("XMSG_GETREQINFO_", ferr);
ferr = XMSG_GETREQINFO_(MSGINFO_PID,
sre.sre_msgId,
&pid);
util_check("XMSG_GETREQINFO_", ferr);
ferr = XMSG_GETREQINFO_(MSGINFO_PTYPE,
sre.sre_msgId,
&ptype);
util_check("XMSG_GETREQINFO_", ferr);
if (sre.sre_flags & XSRE_MON) {
// mon messages have our nid/pid
if (srv_nid < 0) {
ferr = msg_mon_get_process_info((char *) "",
&srv_nid,
&srv_pid);
TEST_CHK_FEOK(ferr);
}
if (!clientd) {
assert(nid == srv_nid);
assert(pid == srv_pid);
}
} else {
assert(sre.sre_pri == ((inx+1) & 0xffff));
if (cli_nid < 0) {
ferr = msg_mon_get_process_info((char *) cname,
&cli_nid,
&cli_pid);
TEST_CHK_FEOK(ferr);
}
if (!attach)
assert(ptype == MS_ProcessType_TSE);
assert(nid == cli_nid);
assert(pid == cli_pid);
}
ferr = XMSG_READCTRL_(sre.sre_msgId, // msgid
recv_buffer2, // reqctrl
1); // bytecount
util_check("XMSG_READCTRL_", ferr);
ferr = XMSG_READDATA_(sre.sre_msgId, // msgid
recv_buffer, // reqdata
BUFSIZ); // bytecount
util_check("XMSG_READDATA_", ferr);
if (sre.sre_flags & XSRE_MON) {
printf("server received mon message\n");
inx--;
len = 0;
if (clientd) {
MS_Mon_Msg *msg = (MS_Mon_Msg *) recv_buffer;
if (msg->type == MS_MsgType_Close)
inx = loop;
}
} else {
strcat(recv_buffer, "- reply from ");
strcat(recv_buffer, my_name);
len = (int) strlen(recv_buffer) + 1;
}
XMSG_REPLY_(sre.sre_msgId, // msgid
recv_buffer2, // replyctrl
sre.sre_reqCtrlSize, // replyctrlsize
recv_buffer, // replydata
(ushort) len, // replydatasize
0, // errorclass
NULL); // newphandle
}
}
if (sonar) {
if (client) {
// for some reason [monitor?], one 'sonarcom stop' doesn't stop coll
for (winx = 0; winx < 20; winx++) {
scompid = fork();
if (scompid == 0) {
// child
args[0] = (char *) "sonarcom";
args[1] = (char *) "stop";
args[2] = NULL;
lerr = execvp(args[0], args);
assert(lerr == 0);
}
wpid = waitpid(scompid, &status, 0);
assert(wpid == scompid);
wpid = waitpid(scollpid, &status, WNOHANG);
if (wpid == scollpid)
break;
else
sleep(1);
}
assert(wpid == scollpid);
ferr = XMSG_LINK_(TPT_REF(phandle), // phandle
&msgid, // msgid
NULL, // reqctrl
0, // reqctrlsize
NULL, // replyctrl
0, // replyctrlmax
NULL, // reqdata
0, // reqdatasize
NULL, // replydata
0, // replydatamax
0, // linkertag
0, // pri
0, // xmitclass
0); // linkopts
TEST_CHK_FEOK(ferr);
ferr = XMSG_BREAK_(msgid,
results.u.s,
TPT_REF(phandle));
TEST_CHK_FEOK(ferr);
} else {
do {
lerr = XWAIT(LREQ, -1);
lerr = XMSG_LISTEN_((short *) &sre, // sre
0, // listenopts
0); // listenertag
} while (lerr == XSRETYPE_NOWORK);
XMSG_REPLY_(sre.sre_msgId, // msgid
NULL, // replyctrl
0, // replyctrlsize
NULL, // replydata
0, // replydatasize
0, // errorclass
NULL); // newphandle
}
}
if (client) {
ferr = msg_mon_close_process(TPT_REF(phandle));
TEST_CHK_FEOK(ferr);
} else {
if (!clientd) {
ferr = msg_mon_process_close();
TEST_CHK_FEOK(ferr);
}
}
util_time_timer_stop(&t_stop);
t_elapsed = (t_stop.tv_sec * 1000000 + t_stop.tv_usec) -
(t_start.tv_sec * 1000000 + t_start.tv_usec);
ferr = msg_mon_process_shutdown();
TEST_CHK_FEOK(ferr);
util_test_finish(client);
if (client) {
printf("elapsed time (gettimeofday us)=%ld\n", t_elapsed);
}
return 0;
}
int main(int argc, char *argv[]) {
void *buf;
_xcc_status cc;
unsigned short count_read;
unsigned short count_written;
unsigned short count_xferred;
int ferr;
short filenum;
short lasterr;
int inx;
int loop = 10;
char my_name[BUFSIZ];
bool nowait = false;
int nid;
char *p;
int pid;
char recv_buffer[BUFSIZ];
char send_buffer[BUFSIZ];
SB_Tag_Type tag;
short tfilenum;
int tm_seq;
int timeout = -1;
MS_Mon_Transid_Type transid;
TAD zargs[] = {
{ "-client", TA_Bool, TA_NOMAX, &client },
{ "-loop", TA_Int, TA_NOMAX, &loop },
{ "-nowait", TA_Bool, TA_NOMAX, &nowait },
{ "-print", TA_Bool, TA_NOMAX, &print },
{ "-server", TA_Ign, TA_NOMAX, NULL },
{ "", TA_End, TA_NOMAX, NULL }
};
TRANSID_SET_NULL(curr_transid);
TRANSID_SET_NULL(exp_trans);
ferr = file_init(&argc, &argv);
TEST_CHK_FEOK(ferr);
msfs_util_init_fs(&argc, &argv, file_debug_hook);
arg_proc_args(zargs, false, argc, argv);
util_test_start(client);
ferr = file_mon_process_startup(!client); // system messages
TEST_CHK_FEOK(ferr);
util_gethostname(my_name, sizeof(my_name));
ferr = msg_mon_trans_register_tmlib(tmlib);
TEST_CHK_FEOK(ferr);
ferr = msg_mon_get_process_info(NULL, &nid, &pid);
TEST_CHK_FEOK(ferr);
if (client) {
ferr = XFILE_OPEN_((char *) "$srv", 4, &filenum,
0, 0, nowait ? (short) 1 : (short) 0,
0, 0, 0, 0, NULL);
TEST_CHK_FEOK(ferr);
for (inx = 0; inx < loop; inx++) {
ferr = msg_mon_get_tm_seq(&tm_seq);
TEST_CHK_FEOK(ferr);
if (inx & 1)
cc = XSETMODE(filenum, 117, 1, 0, NULL); // suppress
else
cc = XSETMODE(filenum, 117, 0, 0, NULL); // normal
TEST_CHK_CCEQ(cc);
ferr = XFILE_GETINFO_(-1, &lasterr, NULL, 0, NULL, NULL, NULL);
assert(lasterr == XZFIL_ERR_OK);
sprintf(send_buffer, "hello, greetings from %s, inx=%d, trans=%d",
my_name, inx, tm_seq);
if (print)
printf("client enlist, transid=%d\n", tm_seq);
TRANSID_SET_SEQ(transid, tm_seq);
trans_set_curr(transid);
if ((inx & 1) == 0) {
ferr = msg_mon_trans_enlist(nid, pid, transid);
TEST_CHK_FEOK(ferr);
}
if ((inx & 1) == 0)
fun_set(TMLIB_FUN_GET_TX, TMLIB_FUN_REINSTATE_TX);
else
fun_set(-1, -1);
trans_set(transid);
cc = XWRITEREADX(filenum,
send_buffer,
(short) (strlen(send_buffer) + 1),
BUFSIZ,
&count_read,
0);
if (nowait) {
TEST_CHK_CCEQ(cc);
tfilenum = filenum;
cc = XAWAITIOX(&tfilenum,
&buf,
&count_xferred,
&tag,
timeout,
NULL);
}
TEST_CHK_CCEQ(cc);
fun_check(-1);
if (print)
printf("client end, transid=%d\n", tm_seq);
if ((inx & 1) == 0) {
ferr = msg_mon_trans_end(nid, pid, transid);
TEST_CHK_FEOK(ferr);
TRANSID_SET_NULL(transid);
trans_set_curr(transid); // no more trans
}
printf("%s\n", send_buffer);
}
ferr = XFILE_CLOSE_(filenum, 0);
TEST_CHK_FEOK(ferr);
} else {
ferr = XFILE_OPEN_((char *) "$RECEIVE", 8, &filenum,
0, 0, nowait ? (short) 1 : (short) 0,
1, 1, // no sys msg
0, 0, NULL);
TEST_CHK_FEOK(ferr);
for (inx = 0; inx < loop; inx++) {
if ((inx & 1) == 0)
fun_set(TMLIB_FUN_REG_TX, -1);
else
fun_set(-1, -1);
cc = XREADUPDATEX(filenum,
recv_buffer,
BUFSIZ,
&count_read,
0);
TEST_CHK_CCEQ(cc);
if (nowait) {
tfilenum = filenum;
cc = XAWAITIOX(&tfilenum,
&buf,
&count_xferred,
&tag,
timeout,
NULL);
TEST_CHK_CCEQ(cc);
}
if (inx & 1) {
TRANSID_SET_NULL(transid);
} else {
p = &recv_buffer[strlen(recv_buffer)];
while ((p > recv_buffer) && (*p != '='))
p--;
if (*p == '=') {
p++;
sscanf(p, "%d", &tm_seq);
TRANSID_SET_SEQ(transid, tm_seq);
} else
TRANSID_SET_NULL(transid);
}
if (inx & 1) {
MS_Mon_Transid_Type ltransid;
TRANSID_SET_NULL(ltransid);
trans_set_curr(ltransid);
}
trans_set(transid);
trans_check(curr_transid);
fun_check(-1);
if ((inx & 1) == 0)
fun_set(TMLIB_FUN_CLEAR_TX, -1);
else
fun_set(-1, -1);
strcat(recv_buffer, "- reply from ");
strcat(recv_buffer, my_name);
count_read = (short) (strlen(recv_buffer) + 1);
cc = XREPLYX(recv_buffer,
count_read,
&count_written,
0,
XZFIL_ERR_OK);
TEST_CHK_FEOK(ferr);
fun_check(-1);
}
ferr = XFILE_CLOSE_(filenum, 0);
TEST_CHK_FEOK(ferr);
}
ferr = file_mon_process_shutdown();
TEST_CHK_FEOK(ferr);
util_test_finish(client);
return 0;
}
void send_to_eventlog (short evt_num, short EventLogType, char *ComponentName, char *ObjectRef, short nToken, va_list marker)
{
BOOL found = FALSE;
short i,j;
int err, tokIdLen, idx;
char sqleventBuf[MAX_EVT_BUF_SIZE];
char *TokenPtr;
char tmpBuf[MS_MON_MAX_PROCESS_NAME + 64];
size_t szBuf = MAX_EVT_BUF_SIZE;
logLevel severity;
sqleventBuf[0] = '\0';
string logMsg;
logMsg.reserve(MAX_EVT_BUF_SIZE);
static char process_name[MS_MON_MAX_PROCESS_NAME];
static int nid, pid;
if (process_name[0] == 0)
{
msg_mon_get_my_process_name(process_name ,MS_MON_MAX_PROCESS_NAME );
msg_mon_get_process_info(process_name, &nid, &pid);
}
for (i = 0, found = FALSE; eventDataMap[i].eventId != 0L ; i++)
{
if (eventDataMap[i].eventId == evt_num)
{
found = TRUE;
//sprintf(tmpBuf, "%.30s (%d,%d): %ld ",process_name, nid, pid, getLongEventId(1, SQEVL_NDCS, evt_num, 9));
sprintf(tmpBuf, "Node Number: %d, CPU: %d, PIN:%ld, Process Name:%.30s , , ,", nid, nid, pid, process_name);
logMsg.append(tmpBuf);
for (j=0;eventDataMap[i].msgPtr[j] !=NULL || j>6 ;j++ )
{
logMsg.append(eventDataMap[i].msgPtr[j]);
}
break;
}
}
if (!found)
{
stringstream ss("ODBCMXEventMsg::send_to_eventlog: eventDataMap entry not found ");
throw(ss.str()) ;
}
_itoa(EventLogType, tmpBuf, 10);
// if (findString("<1>",&idx, logMsg))
// logMsg.replace( logMsg.find("<1>"), 3, tmpBuf );
// if (findString("<2>",&idx, logMsg))
// logMsg.replace( logMsg.find("<2>"), 3, ComponentName );
// if (findString("<3>",&idx, logMsg))
// logMsg.replace( logMsg.find("<3>"), 3, ObjectRef );
for ( i=0,j=4; i<nToken; i++,j++ )
{
TokenPtr = va_arg(marker, char *);
//errno = strstr(TokenPtr, "4126");
tokIdLen = sprintf(tmpBuf,"<%d>",j);
if (!findString(tmpBuf,&idx, logMsg))
logMsg.append( TokenPtr );
else
logMsg.replace( idx, tokIdLen, TokenPtr );
}
va_end(marker);
const char *logMsgStr = logMsg.c_str();
switch (EventLogType)
{
case EVENTLOG_ERROR_TYPE:
severity = LL_ERROR;
break;
case EVENTLOG_WARNING_TYPE:
severity = LL_WARN;
break;
case EVENTLOG_INFORMATION_TYPE:
severity = LL_INFO;
break;
default:
severity = LL_ERROR;
}
CommonLogger::log(MXOSRVR_COMPONENT, severity, logMsgStr);
}
ExWorkProcRetcode ExCancelTcb::work()
{
ExMasterStmtGlobals *masterGlobals =
getGlobals()->castToExExeStmtGlobals()->castToExMasterStmtGlobals();
CliGlobals *cliGlobals = masterGlobals->getCliGlobals();
while ((qparent_.down->isEmpty() == FALSE) &&
(qparent_.up->isFull() == FALSE))
{
ex_queue_entry *pentry_down = qparent_.down->getHeadEntry();
switch (step_)
{
case NOT_STARTED:
{
if (pentry_down->downState.request == ex_queue::GET_NOMORE)
step_ = DONE;
else
{
retryCount_ = 0;
// Priv checking is done during compilation. To support
// REVOKE, prevent a prepared CANCEL/SUSPEND/ACTIVATE
// that was compiled more than 1 second ago from executing
// by raising the 8734 error to force an AQR.
Int64 microSecondsSinceCompile = NA_JulianTimestamp() -
masterGlobals->getStatement()->getCompileEndTime();
if (microSecondsSinceCompile > 1000*1000)
{
ComDiagsArea *diagsArea =
ComDiagsArea::allocate(getGlobals()->getDefaultHeap());
*diagsArea << DgSqlCode(-CLI_INVALID_QUERY_PRIVS);
reportError(diagsArea);
step_ = DONE;
break;
}
// Figure out which MXSSMP broker to use.
if (cancelTdb().getAction() == ComTdbCancel::CancelByPname)
{
int nid = -1;
int rc = msg_mon_get_process_info(cancelTdb().getCancelPname(),
&nid, &pid_);
switch (rc)
{
case XZFIL_ERR_OK:
cpu_ = (short) nid;
break;
case XZFIL_ERR_NOTFOUND:
case XZFIL_ERR_BADNAME:
case XZFIL_ERR_NOSUCHDEV:
{
ComDiagsArea *diagsArea =
ComDiagsArea::allocate(getGlobals()->getDefaultHeap());
*diagsArea << DgSqlCode(-EXE_CANCEL_PROCESS_NOT_FOUND);
*diagsArea << DgString0(cancelTdb().getCancelPname());
reportError(diagsArea);
step_ = DONE;
break;
}
default:
{
char buf[200];
str_sprintf(buf, "Unexpected error %d returned from "
"msg_mon_get_process_info", rc);
ex_assert(0, buf);
}
}
if (step_ != NOT_STARTED)
break;
}
else if (cancelTdb().getAction() == ComTdbCancel::CancelByNidPid)
{
cpu_ = (short) cancelTdb().getCancelNid();
pid_ = cancelTdb().getCancelPid();
// check that process exists, if not report error.
char processName[MS_MON_MAX_PROCESS_NAME];
int rc = msg_mon_get_process_name(cpu_, pid_, processName);
if (XZFIL_ERR_OK == rc)
; // good. nid & pid are valid.
else
{
if ((XZFIL_ERR_NOTFOUND != rc) &&
(XZFIL_ERR_BADNAME != rc) &&
(XZFIL_ERR_NOSUCHDEV != rc))
{
// Log rc in case it needs investigation later.
char buf[200];
str_sprintf(buf, "Unexpected error %d returned from "
"msg_mon_get_process_name", rc);
SQLMXLoggingArea::logExecRtInfo(__FILE__, __LINE__,
buf, 0);
}
char nid_pid_str[32];
str_sprintf(nid_pid_str, "%d, %d", cpu_, pid_);
ComDiagsArea *diagsArea =
ComDiagsArea::allocate(getGlobals()->getDefaultHeap());
*diagsArea << DgSqlCode(-EXE_CANCEL_PROCESS_NOT_FOUND);
*diagsArea << DgString0(nid_pid_str);
reportError(diagsArea);
step_ = DONE;
break;
}
}
else
{
char * qid = cancelTdb().qid_;
Lng32 qid_len = str_len(qid);
// This static method is defined in SqlStats.cpp. It side-effects
// the nodeName and cpu_ according to the input qid.
if (getMasterCpu(
qid, qid_len, nodeName_, sizeof(nodeName_) - 1, cpu_) == -1)
{
ComDiagsArea *diagsArea =
ComDiagsArea::allocate(getGlobals()->getDefaultHeap());
*diagsArea << DgSqlCode(-EXE_RTS_INVALID_QID);
reportError(diagsArea);
step_ = DONE;
break;
}
}
// Testpoints for hard to reproduce problems:
bool fakeError8028 = false;
fakeError8028 = (getenv("HP_FAKE_ERROR_8028") != NULL);
if ((cliGlobals->getCbServerClass() == NULL) || fakeError8028)
{
ComDiagsArea *diagsArea =
ComDiagsArea::allocate(getGlobals()->getDefaultHeap());
*diagsArea << DgSqlCode(-EXE_CANCEL_PROCESS_NOT_FOUND);
*diagsArea << DgString0("$ZSM000");
reportError(diagsArea);
step_ = DONE;
break;
}
ComDiagsArea *diagsArea = NULL;
bool fakeError2024 = false;
fakeError2024 = (getenv("HP_FAKE_ERROR_2024") != NULL);
if (fakeError2024)
{
cbServer_ = NULL;
diagsArea =
ComDiagsArea::allocate(getGlobals()->getDefaultHeap());
if (getenv("HP_FAKE_ERROR_8142"))
{
*diagsArea << DgSqlCode(-8142);
*diagsArea << DgString0(__FILE__);
*diagsArea << DgString1("cbServer_ is NULL");
}
else
*diagsArea << DgSqlCode(-2024);
}
else
cbServer_ = cliGlobals->getCbServerClass()->allocateServerProcess(
&diagsArea,
cliGlobals->getEnvironment()->getHeap(),
nodeName_,
cpu_,
IPC_PRIORITY_DONT_CARE,
FALSE, // usesTransactions
TRUE, // waitedCreation
2 // maxNowaitRequests -- cancel+(1 extra).
);
if (cbServer_ == NULL || cbServer_->getControlConnection() == NULL)
{
ex_assert(diagsArea != NULL,
"allocateServerProcess failed, but no diags");
// look for SQLCode 2024
// "*** ERROR[2024] Server Process $0~string0
// is not running or could not be created. Operating System
// Error $1~int0 was returned."
// Remap to cancel-specfic error 8028.
if (diagsArea->contains(-2024) &&
cancelTdb().actionIsCancel())
{
diagsArea->deleteError(diagsArea->returnIndex(-2024));
reportError(diagsArea, true, EXE_CANCEL_PROCESS_NOT_FOUND,
nodeName_, cpu_);
}
else
reportError(diagsArea);
step_ = DONE;
break;
}
// the reportError method was not called -- see break above.
if (diagsArea != NULL)
diagsArea->decrRefCount();
//Create the stream on the IpcHeap, since we don't dispose
// of it immediately. We just add it to the list of completed
// messages in the IpcEnv, and it is disposed of later.
cancelStream_ = new (cliGlobals->getIpcHeap())
CancelMsgStream(cliGlobals->getEnvironment(), this);
cancelStream_->addRecipient(cbServer_->getControlConnection());
}
step_ = SEND_MESSAGE;
break;
} // end case NOT_STARTED
#pragma warning (disable : 4291)
case SEND_MESSAGE:
{
RtsHandle rtsHandle = (RtsHandle) this;
if (cancelTdb().actionIsCancel())
{
Int64 cancelStartTime = JULIANTIMESTAMP();
Lng32 firstEscalationInterval = cliGlobals->currContext()->
getSessionDefaults()->getCancelEscalationInterval();
Lng32 secondEscalationInterval = cliGlobals->currContext()->
getSessionDefaults()->getCancelEscalationMxosrvrInterval();
NABoolean cancelEscalationSaveabend = cliGlobals->currContext()->
getSessionDefaults()->getCancelEscalationSaveabend();
bool cancelLogging = (TRUE == cliGlobals->currContext()->
getSessionDefaults()->getCancelLogging());
CancelQueryRequest *cancelMsg = new (cliGlobals->getIpcHeap())
CancelQueryRequest(rtsHandle, cliGlobals->getIpcHeap(),
cancelStartTime,
firstEscalationInterval,
secondEscalationInterval,
cancelEscalationSaveabend,
cancelTdb().getCommentText(),
str_len(cancelTdb().getCommentText()),
cancelLogging,
cancelTdb().action_ != ComTdbCancel::CancelByQid,
pid_,
cancelTdb().getCancelPidBlockThreshold());
#pragma warning (default : 4291)
*cancelStream_ << *cancelMsg;
cancelMsg->decrRefCount();
}
else if (ComTdbCancel::Suspend == cancelTdb().action_)
{
bool suspendLogging = (TRUE == cliGlobals->currContext()->
getSessionDefaults()->getSuspendLogging());
#pragma warning (disable : 4291)
SuspendQueryRequest * suspendMsg = new (cliGlobals->getIpcHeap())
SuspendQueryRequest(rtsHandle, cliGlobals->getIpcHeap(),
ComTdbCancel::Force ==
cancelTdb().forced_,
suspendLogging);
#pragma warning (default : 4291)
*cancelStream_ << *suspendMsg;
suspendMsg->decrRefCount();
}
else
{
ex_assert(
ComTdbCancel::Activate == cancelTdb().action_,
"invalid action for ExCancelTcb");
bool suspendLogging = (TRUE == cliGlobals->currContext()->
getSessionDefaults()->getSuspendLogging());
#pragma warning (disable : 4291)
ActivateQueryRequest * activateMsg = new (cliGlobals->getIpcHeap())
ActivateQueryRequest(rtsHandle, cliGlobals->getIpcHeap(),
suspendLogging);
#pragma warning (default : 4291)
*cancelStream_ << *activateMsg;
activateMsg->decrRefCount();
}
if ((cancelTdb().getAction() != ComTdbCancel::CancelByPname) &&
(cancelTdb().getAction() != ComTdbCancel::CancelByNidPid))
{
char * qid = cancelTdb().qid_;
Lng32 qid_len = str_len(qid);
#pragma warning (disable : 4291)
RtsQueryId *rtsQueryId = new (cliGlobals->getIpcHeap())
RtsQueryId( cliGlobals->getIpcHeap(), qid, qid_len);
#pragma warning (default : 4291)
*cancelStream_ << *rtsQueryId;
rtsQueryId->decrRefCount();
}
// send a no-wait request to the cancel broker.
cancelStream_->send(FALSE);
step_ = GET_REPLY;
// Come back when I/O completes.
return WORK_OK;
break;
} // end case SEND_MESSAGE
case GET_REPLY:
{
// Handle general IPC error.
bool fakeError201 = false;
fakeError201 = (getenv("HP_FAKE_ERROR_201") != NULL);
if ((cbServer_->getControlConnection()->getErrorInfo() != 0) ||
fakeError201)
{
ComDiagsArea *diagsArea =
ComDiagsArea::allocate(getGlobals()->getDefaultHeap());
cbServer_->getControlConnection()->
populateDiagsArea( diagsArea, getGlobals()->getDefaultHeap());
if (fakeError201)
{
*diagsArea << DgSqlCode(-2034) << DgInt0(201)
<< DgString0("I say") << DgString1("control broker");
}
if (diagsArea->contains(-8921))
{
// Should not get timeout error 8921. Get a core-file
// of the SSMP and this process too so that this can be
// debugged.
cbServer_->getControlConnection()->
dumpAndStopOtherEnd(true, false);
genLinuxCorefile("Unexpected timeout error");
}
reportError(diagsArea);
step_ = DONE;
break;
}
// See if stream has the reply yet.
if (!cancelStream_->moreObjects())
return WORK_OK;
#pragma warning (disable : 4291)
ControlQueryReply *reply = new (cliGlobals->getIpcHeap())
ControlQueryReply(INVALID_RTS_HANDLE, cliGlobals->getIpcHeap());
#pragma warning (default : 4291)
*cancelStream_ >> *reply;
if (reply->didAttemptControl())
{
// yeaah!
cancelStream_->clearAllObjects();
}
else
{
if (cancelStream_->moreObjects() &&
cancelStream_->getNextObjType() == IPC_SQL_DIAG_AREA)
{
ComDiagsArea *diagsArea =
ComDiagsArea::allocate(getGlobals()->getDefaultHeap());
*cancelStream_ >> *diagsArea;
cancelStream_->clearAllObjects();
if ( retryQidNotActive_ &&
(diagsArea->mainSQLCODE() == -EXE_SUSPEND_QID_NOT_ACTIVE) &&
(++retryCount_ <= 60))
{
SQLMXLoggingArea::logExecRtInfo(__FILE__, __LINE__,
"Retrying error 8672.", 0);
DELAY(500);
diagsArea->decrRefCount();
step_ = SEND_MESSAGE;
break;
}
reportError(diagsArea);
}
else
ex_assert(0, "Control failed, but no diagnostics.");
}
step_ = DONE;
break;
}
case DONE:
{
if (cancelStream_)
{
cancelStream_->addToCompletedList();
cancelStream_ = NULL;
}
if (cbServer_)
{
cbServer_->release();
cbServer_ = NULL;
}
ex_queue_entry * up_entry = qparent_.up->getTailEntry();
up_entry->copyAtp(pentry_down);
up_entry->upState.parentIndex = pentry_down->downState.parentIndex;
up_entry->upState.downIndex = qparent_.down->getHeadIndex();
up_entry->upState.setMatchNo(1);
up_entry->upState.status = ex_queue::Q_NO_DATA;
qparent_.up->insert();
qparent_.down->removeHead();
step_ = NOT_STARTED;
break;
}
default:
ex_assert( 0, "Unknown step_.");
}
int main(int argc, char *argv[]) {
bool client = false;
int event_len;
int ferr;
int inx;
int len;
int lerr;
int linx;
int loop = 10;
int msgid;
int oid;
TPT_DECL (phandle);
RT results;
int send_len;
int srv_nid = -1;
int srv_pid = -1;
MS_SRE sre;
TAD zargs[] = {
{ "-client", TA_Bool, TA_NOMAX, &client },
{ "-loop", TA_Int, TA_NOMAX, &loop },
{ "-server", TA_Ign, TA_NOMAX, NULL },
{ "", TA_End, TA_NOMAX, NULL }
};
msfs_util_init(&argc, &argv, msg_debug_hook);
arg_proc_args(zargs, false, argc, argv);
util_test_start(client);
ferr = msg_mon_process_startup(!client); // system messages?
TEST_CHK_FEOK(ferr);
if (client) {
ferr = msg_mon_open_process((char *) "$srv", // name
TPT_REF(phandle),
&oid);
TEST_CHK_FEOK(ferr);
ferr = msg_mon_get_process_info((char *) "$srv", &srv_nid, &srv_pid);
TEST_CHK_FEOK(ferr);
}
util_gethostname(my_name, sizeof(my_name));
msg_mon_enable_mon_messages(true);
for (inx = 0; inx < MS_MON_MAX_SYNC_DATA; inx++)
event_data[inx] = (char) (inx + 1);
for (inx = 0; inx < loop; inx++) {
if (client) {
sprintf(send_buffer, "hello, greetings from %s, inx=%d",
my_name, inx);
send_len = (int) strlen(send_buffer) + 1;
ferr = XMSG_LINK_(TPT_REF(phandle), // phandle
&msgid, // msgid
send_buffer2, // reqctrl
(ushort) (inx & 1), // reqctrlsize
recv_buffer3, // replyctrl
1, // replyctrlmax
send_buffer, // reqdata
(ushort) send_len, // reqdatasize
recv_buffer, // replydata
BUFSIZ, // replydatamax
0, // linkertag
0, // pri
0, // xmitclass
0); // linkopts
util_check("XMSG_LINK_", ferr);
lerr = XWAIT(LDONE, 10);
TEST_CHK_WAITIGNORE(lerr);
assert(!XMSG_ISDONE_(msgid));
ferr =
msg_mon_event_send(srv_nid, // nid
srv_pid, // pid
MS_ProcessType_Undefined, // process-type
inx, // event-id
inx % MS_MON_MAX_SYNC_DATA, // event-len
event_data); // event-data
TEST_CHK_FEOK(ferr);
ferr = XMSG_BREAK_(msgid, results.u.s, TPT_REF(phandle));
util_check("XMSG_BREAK_", ferr);
assert(results.u.t.ctrl_size == (uint) (inx & 1));
assert(results.u.t.data_size > (strlen(send_buffer) + 14));
assert(results.u.t.errm == RT_DATA_RCVD); // data
printf("%s\n", recv_buffer);
} else {
do {
lerr = XWAIT(LREQ, -1);
lerr = XMSG_LISTEN_((short *) &sre, // sre
0, // listenopts
0); // listenertag
} while (lerr == XSRETYPE_NOWORK);
ferr = XMSG_READCTRL_(sre.sre_msgId, // msgid
recv_buffer2, // reqctrl
1); // bytecount
util_check("XMSG_READCTRL_", ferr);
ferr = XMSG_READDATA_(sre.sre_msgId, // msgid
recv_buffer, // reqdata
BUFSIZ); // bytecount
util_check("XMSG_READDATA_", ferr);
if (sre.sre_flags & XSRE_MON) {
printf("server received mon message\n");
inx--;
len = 0;
} else {
memset(event_data, 0, sizeof(event_data));
ferr = msg_mon_event_wait(inx, &event_len, event_data);
TEST_CHK_FEOK(ferr);
assert(event_len == (inx % MS_MON_MAX_SYNC_DATA));
for (linx = 0; linx < event_len; linx++)
assert(event_data[linx] == (linx + 1));
strcat(recv_buffer, "- reply from ");
strcat(recv_buffer, my_name);
len = (int) strlen(recv_buffer) + 1;
}
XMSG_REPLY_(sre.sre_msgId, // msgid
recv_buffer2, // replyctrl
sre.sre_reqCtrlSize, // replyctrlsize
recv_buffer, // replydata
(ushort) len, // replydatasize
0, // errorclass
NULL); // newphandle
}
}
if (client) {
ferr = msg_mon_close_process(TPT_REF(phandle));
TEST_CHK_FEOK(ferr);
} else {
ferr = msg_mon_process_close();
TEST_CHK_FEOK(ferr);
}
ferr = msg_mon_process_shutdown();
TEST_CHK_FEOK(ferr);
util_test_finish(client);
return 0;
}
int main(int argc, char *argv[]) {
bool chook = false;
int client = false;
int dinx;
int disable;
int ferr;
int inx;
char lname[10];
bool mq = false;
int oid;
void *res;
bool rnd = false;
int sleept;
int snid;
int spid;
int status;
TAD zargs[] = {
{ "-chook", TA_Bool, TA_NOMAX, &chook },
{ "-client", TA_Bool, TA_NOMAX, &client },
{ "-dloop", TA_Int, MAX_OUT, &gdloop },
{ "-dsize", TA_Int, TA_NOMAX, &gdsize },
{ "-ksleep", TA_Int, TA_NOMAX, &gksleep },
{ "-loop", TA_Int, TA_NOMAX, &gloop },
{ "-maxc", TA_Int, MAX_THR, &gmaxc },
{ "-maxs", TA_Int, MAX_THR, &gmaxs },
{ "-mq", TA_Bool, TA_NOMAX, &mq },
{ "-nodecycle", TA_Bool, TA_NOMAX, &gnodecycle },
{ "-rnd", TA_Bool, TA_NOMAX, &rnd },
{ "-server", TA_Ign, TA_NOMAX, NULL },
{ "-v", TA_Bool, TA_NOMAX, &gverbose },
{ "-vpp", TA_Bool, TA_NOMAX, &gverbosepp },
{ "", TA_End, TA_NOMAX, NULL }
};
arg_proc_args(zargs, false, argc, argv);
if (client && chook)
test_debug_hook("c", "c");
msfs_util_init(&argc, &argv, msg_debug_hook);
util_test_start(client);
if (!client)
setup_sig();
ferr = msg_mon_process_startup(true); // system messages
TEST_CHK_FEOK(ferr);
gargc = argc; // after msg_init - it removes args
gargp = argv;
sprintf(gprog, "%s/%s", getenv("PWD"), argv[0]);
gvirtual = (getenv("SQ_VIRTUAL_NODES") != NULL);
ferr = msg_mon_get_my_process_name(gname, sizeof(gname));
assert(ferr == XZFIL_ERR_OK);
if (client) {
msg_mon_enable_mon_messages(true); // get mon messages
ferr = msg_mon_get_process_info(NULL, &gcnid, NULL);
assert(ferr == XZFIL_ERR_OK);
ferr = XCONTROLMESSAGESYSTEM(XCTLMSGSYS_SETSENDLIMIT,
(short) (gmaxc * gdloop));
assert(ferr == XZFIL_ERR_OK);
srand(1);
sleept = 1000;
start_server(argc, argv);
sleep(1);
ferr = msg_mon_open_process((char *) "$srv", // name
TPT_REF(gphandle),
&oid);
TEST_CHK_FEOK(ferr);
ferr = XPROCESSHANDLE_DECOMPOSE_(TPT_REF(gphandle), &snid, &spid);
TEST_CHK_FEOK(ferr);
for (inx = 0; inx < gloop; inx++) {
if (mq)
printf("client: inx=%d\n", inx);
for (dinx = 0; dinx < gmaxc; dinx++) {
sprintf(lname, "c%d", dinx);
gthrc[dinx] = new MyThread(client_thr, lname, dinx);
}
disable = msg_test_assert_disable();
for (dinx = 0; dinx < gmaxc; dinx++)
gthrc[dinx]->start();
if (rnd)
sleept = (int) ((float) gksleep * (rand_r(&gseed) / (RAND_MAX + 1.0)));
usleep(sleept);
for (dinx = 0; dinx < gmaxc; dinx++) {
status = gthrc[dinx]->join(&res);
TEST_CHK_STATUSOK(status);
if (gverbose)
printf("joined with client %d\n", dinx);
}
for (dinx = 0; dinx < gmaxc; dinx++)
delete gthrc[dinx];
msg_test_assert_enable(disable);
}
} else {
msg_mon_enable_mon_messages(true); // get mon messages
ferr = XCONTROLMESSAGESYSTEM(XCTLMSGSYS_SETRECVLIMIT,
XMAX_SETTABLE_RECVLIMIT);
assert(ferr == XZFIL_ERR_OK);
pp_init();
if (!gshutdown) {
for (dinx = 0; dinx < gmaxs; dinx++) {
char lname[10];
sprintf(lname, "s%d", dinx);
gthrs[dinx] = new SB_Thread::Thread(server_thr, lname);
}
for (dinx = 0; dinx < gmaxs; dinx++)
gthrs[dinx]->start();
for (dinx = 0; dinx < gmaxs; dinx++) {
status = gthrs[dinx]->join(&res);
TEST_CHK_STATUSOK(status);
if (gverbose)
printf("joined with server %d\n", dinx);
}
}
if (gverbosepp)
pp_printf("exit pid=%d\n", getpid());
}
if (client) {
sleep(1);
ferr = msg_mon_close_process(TPT_REF(gphandle));
TEST_CHK_FEOK(ferr);
}
ferr = msg_mon_process_shutdown();
TEST_CHK_FEOK(ferr);
util_test_finish(client);
return 0;
}
int main(int argc, char *argv[]) {
char cli[10];
bool closer;
int disable;
int event_len;
int ferr;
int inst = 0;
int inx;
int lerr;
int loop = 10;
int msgid;
int nid;
int oid;
TPT_DECL (phandle);
int pid;
char recv_buffer[30000];
RT results;
char send_buffer[10];
MS_SRE sre;
TAD zargs[] = {
{ "-client", TA_Ign, TA_NOMAX, NULL },
{ "-inst", TA_Int, TA_NOMAX, &inst },
{ "-loop", TA_Int, TA_NOMAX, &loop },
{ "-maxcp", TA_Int, TA_NOMAX, &maxcp },
{ "-maxs", TA_Int, TA_NOMAX, &maxs },
{ "-maxsp", TA_Next, TA_NOMAX, NULL },
{ "-name", TA_Next, TA_NOMAX, NULL },
{ "-server", TA_Ign, TA_NOMAX, NULL },
{ "-v", TA_Bool, TA_NOMAX, &verbose },
{ "", TA_End, TA_NOMAX, NULL }
};
msfs_util_init(&argc, &argv, msg_debug_hook);
arg_proc_args(zargs, false, argc, argv);
util_test_start(true);
ferr = msg_mon_process_startup(true); // system messages?
TEST_CHK_FEOK(ferr);
ferr = msg_mon_get_my_process_name(my_name, sizeof(my_name));
TEST_CHK_FEOK(ferr);
msg_mon_enable_mon_messages(true);
// process-wait for clients/shell
// (needed so msg_mon_register_death_notification below works correctly)
ferr = msfs_util_wait_process_count(MS_ProcessType_TSE, maxcp, NULL, false);
TEST_CHK_FEOK(ferr);
sleep(1);
if (verbose)
printf("%s: inst=%d, maxcp=%d\n", my_name, inst, maxcp);
closer = (inst == (maxcp -1));
if (closer && (maxcp > 1)) {
if (verbose)
printf("%s: register-death-notifications\n", my_name);
for (inx = 0; inx < (maxcp - 1); inx++) {
sprintf(cli, "$c%d", inx);
ferr = msg_mon_get_process_info(cli, &nid, &pid);
TEST_CHK_FEOK(ferr);
ferr = msg_mon_register_death_notification(nid, pid);
TEST_CHK_FEOK(ferr);
}
}
//
// wait here until all clients sync-up
// (needed so msg_mon_register_death_notification above works correctly)
//
ferr = msg_mon_event_send(-1, // nid
-1, // pid
MS_ProcessType_TSE, // process-type
3, // event-id
0, // event-len
NULL); // event-data
TEST_CHK_FEOK(ferr);
for (inx = 0; inx < maxcp; inx++) {
ferr = msg_mon_event_wait(3, &event_len, event_data);
TEST_CHK_FEOK(ferr);
}
disable = msg_test_assert_disable();
// check process-type range
ferr = msg_mon_event_send(-1, // nid
-1, // pid
-1, // process-type
4, // event-id
0, // event-len
NULL); // event-data
assert(ferr == XZFIL_ERR_BOUNDSERR);
ferr = msg_mon_event_send(-1, // nid
-1, // pid
MS_ProcessType_SMS + 1, // process-type
5, // event-id
0, // event-len
NULL); // event-data
assert(ferr == XZFIL_ERR_BOUNDSERR);
msg_test_assert_enable(disable);
ferr = msg_mon_open_process((char *) "$srv", // name
TPT_REF(phandle),
&oid);
TEST_CHK_FEOK(ferr);
for (inx = 0; inx < loop; inx++) {
ferr = XMSG_LINK_(TPT_REF(phandle), // phandle
&msgid, // msgid
NULL, // reqctrl
0, // reqctrlsize
NULL, // replyctrl
0, // replyctrlmax
send_buffer, // reqdata
1, // reqdatasize
recv_buffer, // replydata
0, // replydatamax
0, // linkertag
0, // pri
0, // xmitclass
0); // linkopts
util_check("XMSG_LINK_", ferr);
ferr = XMSG_BREAK_(msgid, results.u.s, TPT_REF(phandle));
util_check("XMSG_BREAK_", ferr);
}
if (closer) {
inx = 0;
while (inx < (maxcp - 1)) {
do {
lerr = XWAIT(LREQ, -1);
TEST_CHK_WAITIGNORE(lerr);
lerr = XMSG_LISTEN_((short *) &sre, // sre
0, // listenopts
0); // listenertag
} while (lerr == XSRETYPE_NOWORK);
if (sre.sre_flags & XSRE_MON) {
ferr = BMSG_READDATA_(sre.sre_msgId, // msgid
recv_buffer, // reqdata
BUFSIZ); // bytecount
TEST_CHK_FEOK(ferr);
MS_Mon_Msg *msg = (MS_Mon_Msg *) recv_buffer;
if (msg->type == MS_MsgType_ProcessDeath) {
if (verbose)
printf("%s: process death process=%s\n",
my_name, msg->u.death.process_name);
inx++;
}
}
XMSG_REPLY_(sre.sre_msgId, // msgid
NULL, // replyctrl
0, // replyctrlsize
recv_buffer, // replydata
0, // replydatasize
0, // errorclass
NULL); // newphandle
}
if (verbose)
printf("%s: sending stop\n", my_name);
for (inx = 0; inx < maxs; inx++) {
ferr = XMSG_LINK_(TPT_REF(phandle), // phandle
&msgid, // msgid
NULL, // reqctrl
0, // reqctrlsize
NULL, // replyctrl
0, // replyctrlmax
send_buffer, // reqdata
0, // reqdatasize
recv_buffer, // replydata
0, // replydatamax
0, // linkertag
0, // pri
0, // xmitclass
0); // linkopts
util_check("XMSG_LINK_", ferr);
ferr = XMSG_BREAK_(msgid, results.u.s, TPT_REF(phandle));
util_check("XMSG_BREAK_", ferr);
}
}
ferr = msg_mon_close_process(TPT_REF(phandle));
TEST_CHK_FEOK(ferr);
ferr = msg_mon_process_shutdown();
TEST_CHK_FEOK(ferr);
util_test_finish(true);
return 0;
}
int main(int argc, char *argv[]) {
bool client = false;
int client_mon;
int cnid = -1;
bool commit_rcvd = false;
int cpid = -1;
int disable;
bool done = false;
int event_len;
int ferr;
int first;
int handle;
int inx;
int len;
int lerr;
int loop = 10;
int msgid;
int nid;
bool open_rcvd = false;
int orig_tag;
TPT_DECL2 (phandle,MAX_SERVERS);
int pid;
int pinx;
RT results;
int send_len;
MS_SRE sre;
int status;
bool sync = false;
bool threaded = false;
bool verbose = false;
TAD zargs[] = {
{ "-client", TA_Bool, TA_NOMAX, &client },
{ "-loop", TA_Int, TA_NOMAX, &loop },
{ "-quiet", TA_Bool, TA_NOMAX, &quiet },
{ "-server", TA_Ign, TA_NOMAX, NULL },
{ "-sync", TA_Bool, TA_NOMAX, &sync },
{ "-threaded", TA_Bool, TA_NOMAX, &threaded },
{ "-v", TA_Bool, TA_NOMAX, &verbose },
{ "", TA_End, TA_NOMAX, NULL }
};
msfs_util_init(&argc, &argv, msg_debug_hook);
arg_proc_args(zargs, false, argc, argv);
util_test_start(client);
ferr = msg_mon_process_startup(!client); // system messages?
TEST_CHK_FEOK(ferr);
sleep(1); // wait for client to get into msg_mon_process_info
ferr = msg_mon_get_my_process_name(pname, sizeof(pname));
TEST_CHK_FEOK(ferr);
if (strcasecmp(pname, "$tm0") == 0)
tag = TAG0;
else if (strcasecmp(pname, "$tm1") == 0)
tag = TAG1;
else
tag = TAG2;
ferr = msg_mon_get_process_info(NULL, &snid, &spid);
TEST_CHK_FEOK(ferr);
if (client) {
char serv[BUFSIZ];
for (pinx = 0; pinx < MAX_SERVERS; pinx++) {
sprintf(serv, "$tm%d", pinx);
ferr = msg_mon_open_process(serv, // name
TPT_REF2(phandle,pinx),
&oid[pinx]);
TEST_CHK_FEOK(ferr);
}
} else {
first = (strcasecmp(pname, "$tm0") == 0);
disable = msg_test_assert_disable();
ferr = msg_mon_tm_leader_set(&nid, &pid, lname);
msg_test_assert_enable(disable);
if (first) {
TEST_CHK_FEOK(ferr);
} else
assert(ferr != XZFIL_ERR_OK);
printf("leader is p-id=%d/%d, name=%s\n",
nid, pid, lname);
}
util_gethostname(my_name, sizeof(my_name));
msg_mon_enable_mon_messages(true);
if (!client) {
ferr = msg_mon_event_wait(1, &event_len, event_data);
util_check("msg_mon_event_wait", ferr);
ferr = msg_mon_tmsync_register(tmsync_cb);
util_check("msg_mon_tmsync_register", ferr);
if (sync) {
char serv[BUFSIZ];
for (pinx = 0; pinx < MAX_SERVERS; pinx++) {
sprintf(serv, "$tm%d", pinx);
if (strcasecmp(serv, pname) != 0) {
ferr = msg_mon_open_process(serv, // name
TPT_REF2(phandle,pinx),
&oid[pinx]);
TEST_CHK_FEOK(ferr);
}
}
// at this point, we know everyone is registered
// if everyone isn't registered, there will be an abort
do_sync();
if (threaded)
do_sync_threaded();
}
}
if (client) {
for (inx = 0; inx < loop; inx++) {
sprintf(send_buffer, "hello, greetings from %s, inx=%d",
my_name, inx);
send_len = (int) strlen(send_buffer) + 1;
for (pinx = 0; pinx < MAX_SERVERS; pinx++) {
if (verbose)
printf("%s: sending message, pinx=%d, inx=%d\n",
pname, pinx, inx);
ferr = XMSG_LINK_(TPT_REF2(phandle,pinx), // phandle
&msgid, // msgid
send_buffer2, // reqctrl
(ushort) (inx & 1), // reqctrlsize
recv_buffer3, // replyctrl
1, // replyctrlmax
send_buffer, // reqdata
(ushort) send_len, // reqdatasize
recv_buffer, // replydata
BUFSIZ, // replydatamax
0, // linkertag
0, // pri
0, // xmitclass
0); // linkopts
util_check("XMSG_LINK_", ferr);
ferr = XMSG_BREAK_(msgid, results.u.s, TPT_REF2(phandle,pinx));
util_check("XMSG_BREAK_", ferr);
assert(results.u.t.ctrl_size == (uint) (inx & 1));
assert(results.u.t.data_size > (strlen(send_buffer) + 14));
assert(results.u.t.errm == RT_DATA_RCVD); // data
if (!quiet)
printf("%s\n", recv_buffer);
}
}
for (pinx = 0; pinx < MAX_SERVERS; pinx++) {
ferr = msg_mon_close_process(TPT_REF2(phandle,pinx));
TEST_CHK_FEOK(ferr);
}
} else {
inx = 0;
while (!done) {
lerr = XWAIT(LREQ, -1);
TEST_CHK_WAITIGNORE(lerr);
for (;;) {
lerr = XMSG_LISTEN_((short *) &sre, // sre
0, // listenopts
0); // listenertag
if (lerr == XSRETYPE_NOWORK)
break;
ferr = XMSG_READCTRL_(sre.sre_msgId, // msgid
recv_buffer2, // reqctrl
1); // bytecount
util_check("XMSG_READCTRL_", ferr);
ferr = XMSG_READDATA_(sre.sre_msgId, // msgid
recv_buffer, // reqdata
BUFSIZ); // bytecount
util_check("XMSG_READDATA_", ferr);
if (sre.sre_flags & XSRE_MON) {
MS_Mon_Msg *msg = (MS_Mon_Msg *) recv_buffer;
if (cnid < 0) {
ferr = msg_mon_get_process_info((char *) "$cli", &cnid, &cpid);
if (ferr != XZFIL_ERR_OK) {
cnid = -1;
cpid = -1;
}
}
client_mon = true;
Item *item_hdl;
Item *item_tag;
const char *type;
switch (msg->type) {
case MS_MsgType_Close:
type = "close";
if ((cnid == msg->u.close.nid) &&
(cpid == msg->u.close.pid)) {
} else
client_mon = false;
break;
case MS_MsgType_NodeDown:
type = "node-down";
break;
case MS_MsgType_Open:
type = "open";
if ((cnid == msg->u.open.nid) &&
(cpid == msg->u.open.pid))
open_rcvd = true;
else
client_mon = false;
break;
case MS_MsgType_ProcessDeath:
type = "process-death";
break;
case MS_MsgType_Shutdown:
type = "shutdown";
done = true;
break;
case MS_MsgType_TmSyncAbort:
case MS_MsgType_TmSyncCommit:
if (msg->type == MS_MsgType_TmSyncAbort)
type = "tmsync-abort";
else
type = "tmsync-commit";
nid = msg->u.tmsync.nid[0];
handle = msg->u.tmsync.handle[0];
if (msg->u.tmsync.orig_count == 0) {
msg->u.tmsync.orig_tag[0] = -1;
msg->u.tmsync.orig_handle[0] = -1;
}
orig_tag = msg->u.tmsync.orig_tag[0];
if (!quiet) {
printf("server (%s) received (%s) mon message, type=%s(%d), nid=%d\n",
pname,
client_mon ? "cli" : "dtm",
type,
msg->type,
nid);
printf(" orig_count=%d, orig_tag=%d, orig_handle=%d, count=%d, handle[0]=%d\n",
msg->u.tmsync.orig_count,
orig_tag,
msg->u.tmsync.orig_handle[0],
msg->u.tmsync.count,
handle);
}
if (nid == snid) {
if (!quiet)
printf("server (%s) commit handle=%d, orig-count=%d\n",
pname, handle, msg->u.tmsync.orig_count);
for (int inx2 = 0;
inx2 < msg->u.tmsync.count;
inx2++) {
int ltag = msg->u.tmsync.orig_tag[inx2];
int lhandle = msg->u.tmsync.orig_handle[inx2];
if (!quiet)
printf("server (%s) commit orig-tag/handle=%d/%d\n",
pname, ltag, lhandle);
item_tag = (Item *) tag_issue_map.remove(ltag);
assert(item_tag != NULL);
delete item_tag;
item_hdl = (Item *) handle_issue_map.remove(lhandle);
assert(item_hdl != NULL);
delete item_hdl;
}
} else {
assert(msg->u.tmsync.orig_count == 0);
}
commit_rcvd = true;
break;
default:
type = "<unknown>";
}
if (!quiet)
printf("server (%s) received (%s) mon message, type=%s(%d)\n",
pname, client_mon ? "cli" : "dtm", type, msg->type);
len = 0;
} else {
inx++;
if (verbose)
printf("%s: received non-mon message, inx=%d\n",
pname, inx);
if (!sync)
assert(sync_rcvd);
assert(commit_rcvd);
assert(open_rcvd);
strcat(recv_buffer, "- reply from ");
strcat(recv_buffer, my_name);
strcat(recv_buffer, " - ");
strcat(recv_buffer, pname);
len = (int) strlen(recv_buffer) + 1;
}
XMSG_REPLY_(sre.sre_msgId, // msgid
recv_buffer2, // replyctrl
sre.sre_reqCtrlSize, // replyctrlsize
recv_buffer, // replydata
(ushort) len, // replydatasize
0, // errorclass
NULL); // newphandle
}
}
assert(inx == loop);
assert(tag_issue_map.empty());
assert(handle_issue_map.empty());
// need to wait for shutdown to be started
ferr = msg_mon_event_wait(2, &event_len, event_data);
util_check("msg_mon_event_wait", ferr);
if (sync && threaded) {
sync_thr_shutdown = true;
for (int thr = 0; thr < MAX_THR; thr++) {
void *larg;
status = sync_thr[thr]->join(&larg);
TEST_CHK_STATUSOK(status);
}
}
}
ferr = msg_mon_process_shutdown();
TEST_CHK_FEOK(ferr);
util_test_finish(client);
return 0;
}
int main(int argc, char *argv[]) {
int cycle;
int disable;
int ferr;
#ifndef USE_OPEN
int lnid;
int lpid;
#endif
int msgid;
char process_name[MS_MON_MAX_PROCESS_NAME];
char recvbuf[100];
MS_Result_Type results;
int retries;
int sendbuf[3];
ferr = msfs_util_init_role(true, &argc, &argv, msg_debug_hook);
TEST_CHK_FEOK(ferr);
ferr = msg_mon_get_my_process_name(gdisplay_name, sizeof(gdisplay_name));
assert(ferr == XZFIL_ERR_OK);
myprintf("processing startup.\n");
util_test_start(true);
ferr = msg_mon_process_startup(true); // system messages
TEST_CHK_FEOK(ferr);
ferr = msg_mon_get_process_info(gdisplay_name, &gnid, &gpid);
TEST_CHK_FEOK(ferr);
strcpy(process_name, "$srv");
myprintf("opening server %s.\n", process_name);
#ifdef USE_OPEN
ferr = msg_mon_open_process(process_name, TPT_REF(gserver_phandle), &gserver_oid);
TEST_CHK_FEOK(ferr);
#else
gserver_phandlep = msg_get_phandle(process_name);
assert(gserver_phandlep != NULL);
#endif
// do the work
myprintf("Starting work with server\n");
disable = msg_test_assert_disable();
for (cycle = 0; cycle < MAX_CYCLES + 1; cycle++) {
sendbuf[0] = gpid;
sendbuf[1] = cycle;
switch (cycle) {
case 5:
sendbuf[2] = CMD_ABORT;
break;
case 6:
sendbuf[2] = CMD_CP_AB;
break;
case MAX_CYCLES:
sendbuf[2] = CMD_END;
break;
default:
sendbuf[2] = CMD_CONT;
}
retries = 5;
do {
myprintf("sending %d.%d.%d to server\n",
sendbuf[0], sendbuf[1], sendbuf[2]);
#ifdef USE_OPEN
ferr = XMSG_LINK_(TPT_REF(gserver_phandle), // phandle
#else
ferr = XPROCESSHANDLE_DECOMPOSE_(gserver_phandlep, &lnid, &lpid);
assert(ferr == XZFIL_ERR_OK);
printf("phandle nid=%d, pid=%d\n", lnid, lpid);
ferr = XMSG_LINK_(gserver_phandlep, // phandle
#endif
&msgid, // msgid
NULL, // reqctrl
0, // reqctrlsize
NULL, // replyctrl
0, // replyctrlmax
(char *) sendbuf, // reqdata
sizeof(sendbuf), // reqdatasize
recvbuf, // replydata
sizeof(recvbuf), // replydatamax
0, // linkertag
0, // pri
0, // xmitclass
0); // linkopts
TEST_CHK_FEOK(ferr);
ferr = XMSG_BREAK_(msgid,
(short *) &results,
#ifdef USE_OPEN
TPT_REF(gserver_phandle));
#else
gserver_phandlep);
#endif
if (ferr == XZFIL_ERR_OK)
myprintf("Cycle # %d - %s\n", cycle, recvbuf);
else
myprintf("XMSG_BREAK_ error ferr=%d\n", ferr);
if (ferr != XZFIL_ERR_OK) {
retries--;
sleep(1);
if (retries <= 0) {
myprintf("retries exhausted\n");
assert(retries > 0);
}
myprintf("retrying\n");
} else
retries = 0;
} while (retries > 0);
}
msg_test_assert_enable(disable);
// close the server processes
myprintf("closing server %s.\n", process_name);
#ifdef USE_OPEN
ferr = msg_mon_close_process(TPT_REF(gserver_phandle));
#else
ferr = msg_mon_close_process(gserver_phandlep);
#endif
TEST_CHK_FEOK(ferr);
myprintf("sending exit process message.\n");
ferr = msg_mon_process_shutdown();
TEST_CHK_FEOK(ferr);
util_test_finish(true);
return 0;
}
int main(int argc, char *argv[]) {
int arg;
bool bm = false;
char *buf;
double busy;
bool chook = false;
bool client = false;
char errnobuf[100];
char error_txt[200];
int event_len;
char event_data[MS_MON_MAX_SYNC_DATA];
int ferr;
int inx;
int key;
int lerr;
int loop = 10;
int msid;
int pid;
char prog[MS_MON_MAX_PROCESS_PATH];
struct rusage r_start;
struct rusage r_stop;
const char *server_name = "$SRV";
int server_nid;
TPT_DECL (server_phandle);
int server_pid;
bool shook = false;
struct timeval t_elapsed;
struct timeval t_start;
struct timeval t_stop;
TAD zargs[] = {
{ "-bm", TA_Bool, TA_NOMAX, &bm },
{ "-chook", TA_Bool, TA_NOMAX, &chook },
{ "-client", TA_Bool, TA_NOMAX, &client },
{ "-loop", TA_Int, TA_NOMAX, &loop },
{ "-server", TA_Ign, TA_NOMAX, NULL },
{ "-shook", TA_Bool, TA_NOMAX, &shook },
{ "", TA_End, TA_NOMAX, NULL }
};
ferr = msg_init(&argc, &argv);
arg_proc_args(zargs, false, argc, argv);
if (chook && client)
test_debug_hook("c", "c");
if (shook && !client)
test_debug_hook("s", "s");
util_test_start(client);
ferr = msg_mon_process_startup(!client); // system messages?
TEST_CHK_FEOK(ferr);
proc_enable_external_wakeups(); // allow external wakeups
if (client) {
ferr = msg_mon_get_process_info(NULL, &server_nid, &server_pid);
TEST_CHK_FEOK(ferr);
sprintf(prog, "%s/%s", getenv("PWD"), argv[0]);
for (arg = 0; arg < argc; arg++)
if (strcmp(argv[arg], "-client") == 0) // start_process
argv[arg] = (char *) "-server";
ferr = msg_mon_start_process(prog, // prog
(char *) server_name, // name
NULL, // ret name
argc,
argv,
TPT_REF(server_phandle),
0, // open
NULL, // oid
MS_ProcessType_Generic, // type
0, // priority
0, // debug
0, // backup
&server_nid, // nid
&server_pid, // pid
NULL, // infile
NULL); // outfile
printf("process started, err=%d\n", ferr);
TEST_CHK_FEOK(ferr);
}
util_gethostname(my_name, sizeof(my_name));
lerr = XWAIT(LREQ, -1); // remove first LREQ
assert(lerr == LREQ);
ferr = msg_mon_get_my_segid(&key);
TEST_CHK_FEOK(ferr);
// process-wait for client/server/shell
ferr = msfs_util_wait_process_count(MS_ProcessType_Generic, 3, NULL, false);
TEST_CHK_FEOK(ferr);
if (client) {
ferr = msg_mon_event_wait(1, &event_len, event_data);
TEST_CHK_FEOK(ferr);
msid = shmget(key, sizeof(recv_buffer), 0640);
if (msid == -1) {
perror("client shmget");
sprintf(error_txt, "client shmget(%d)=%s\n",
key,
strerror_r(errno, errnobuf, sizeof(errnobuf)));
}
assert(msid != -1);
buf = (char *) shmat(msid, NULL, 0);
assert(buf != NULL);
} else {
msid = shmget(key, sizeof(recv_buffer), IPC_CREAT | 0640);
if (msid == -1) {
perror("server shmget");
sprintf(error_txt, "server shmget(%d)=%s\n",
key,
strerror_r(errno, errnobuf, sizeof(errnobuf)));
}
assert(msid != -1);
buf = (char *) shmat(msid, NULL, 0);
assert(buf != NULL);
ferr =
msg_mon_event_send(-1, // nid
-1, // pid
MS_ProcessType_Undefined, // process-type
1, // event-id
0, // event-len
NULL); // event-data
TEST_CHK_FEOK(ferr);
ferr = msg_mon_event_wait(1, &event_len, event_data);
TEST_CHK_FEOK(ferr);
}
util_time_timer_start(&t_start);
util_cpu_timer_start(&r_start);
if (client) {
pid = server_pid;
for (inx = 0; inx < loop; inx++) {
lerr = XPROCESS_AWAKE_(pid, LREQ);
assert(lerr == XZFIL_ERR_OK);
lerr = XWAIT(LDONE, -1);
assert(lerr == LDONE);
}
} else {
ferr = msg_mon_get_process_info((char *) "$CLI", &server_nid, &pid);
TEST_CHK_FEOK(ferr);
for (inx = 0; inx < loop; inx++) {
lerr = XWAIT(LREQ, -1);
assert(lerr == LREQ);
lerr = XPROCESS_AWAKE_(pid, LDONE);
assert(lerr == XZFIL_ERR_OK);
}
}
util_cpu_timer_stop(&r_stop);
util_time_timer_stop(&t_stop);
util_time_elapsed(&t_start, &t_stop, &t_elapsed);
util_cpu_timer_busy(&r_start, &r_stop, &t_elapsed, &busy);
if (client) {
if (!bm)
print_elapsed("", &t_elapsed);
print_rate(bm, "", loop, 1024, &t_elapsed, busy);
} else
print_server_busy(bm, "", busy);
ferr = msg_mon_process_shutdown();
TEST_CHK_FEOK(ferr);
util_test_finish(client);
return 0;
}
int main(int argc, char *argv[]) {
int arg;
bool chook = false;
bool client = false;
int ferr;
int inx;
int loop = 10;
char my_name[BUFSIZ];
bool nowait = false;
int nid;
int pid;
char prog[MS_MON_MAX_PROCESS_PATH];
char retname[BUFSIZ];
char server_name[30];
int server_nid;
TPT_DECL (server_phandle);
int server_pid;
bool shook = false;
int status;
TAD zargs[] = {
{ "-chook", TA_Bool, TA_NOMAX, &chook },
{ "-client", TA_Bool, TA_NOMAX, &client },
{ "-loop", TA_Int, TA_NOMAX, &loop },
{ "-nowait", TA_Bool, TA_NOMAX, &nowait },
{ "-server", TA_Ign, TA_NOMAX, NULL },
{ "-shook", TA_Bool, TA_NOMAX, &shook },
{ "", TA_End, TA_NOMAX, NULL }
};
arg_proc_args(zargs, false, argc, argv);
if (chook && client)
test_debug_hook("c", "c");
if (shook && !client)
test_debug_hook("s", "s");
ferr = msg_init(&argc, &argv);
TEST_CHK_FEOK(ferr);
if (client)
msg_mon_enable_mon_messages(true);
util_test_start(client);
msg_mon_enable_mon_messages(true);
ferr = msg_mon_process_startup(client); // system messages
TEST_CHK_FEOK(ferr);
ferr = msg_mon_get_process_info(NULL, &nid, &pid);
TEST_CHK_FEOK(ferr);
ferr = msg_mon_get_my_process_name(my_name, sizeof(my_name));
TEST_CHK_FEOK(ferr);
if (client) {
sprintf(prog, "%s/%s", getenv("PWD"), argv[0]);
for (arg = 0; arg < argc; arg++)
if (strcmp(argv[arg], "-client") == 0) // start_process
argv[arg] = (char *) "-server";
for (inx = 0; inx < loop; inx++) {
sprintf(server_name, "$SRV%d", inx);
server_nid = -1;
if (nowait)
ferr = msg_mon_start_process_nowait_cb(cb, // callback
prog, // prog
server_name, // name
retname, // ret-name
argc, // argc
argv, // argv
MS_ProcessType_Generic, // type
0, // priority
false, // debug
false, // backup
inx, // tag
&server_nid, // nid
&server_pid, // pid
NULL, // infile
NULL); // outfile
else
ferr = msg_mon_start_process(prog, // prog
server_name, // name
NULL, // ret name
argc,
argv,
TPT_REF(server_phandle),
0, // open
NULL, // oid
MS_ProcessType_Generic, // type
0, // priority
0, // debug
0, // backup
&server_nid, // nid
&server_pid, // pid
NULL, // infile
NULL); // outfile
printf("process started, err=%d\n", ferr);
TEST_CHK_FEOK(ferr);
if (nowait) {
status = cv.wait(true);
TEST_CHK_STATUSOK(status);
}
wait_death();
}
}
ferr = msg_mon_process_shutdown();
TEST_CHK_FEOK(ferr);
util_test_finish(client);
return 0;
}
int main(int argc, char *argv[]) {
_bcc_status bcc;
bool client = false;
int count_read;
int count_written;
int disable;
int err;
short error_reply;
int ferr;
short filenum;
int inx;
short lasterr;
int loop = 10;
int msgnum;
bool open = false;
short sender_len;
xzsys_ddl_smsg_def *sys_msg = (xzsys_ddl_smsg_def *) recv_buffer;
RI_Type ri;
TAD zargs[] = {
{ "-client", TA_Bool, TA_NOMAX, &client },
{ "-loop", TA_Int, TA_NOMAX, &loop },
{ "-server", TA_Ign, TA_NOMAX, NULL },
{ "", TA_End, TA_NOMAX, NULL }
};
ferr = file_init(&argc, &argv);
TEST_CHK_FEOK(ferr);
msfs_util_init_fs(&argc, &argv, file_debug_hook);
arg_proc_args(zargs, false, argc, argv);
util_test_start(true);
ferr = msg_mon_process_startup(!client); // system messages
TEST_CHK_FEOK(ferr);
ferr = msg_mon_get_my_process_name(my_name, BUFSIZ);
TEST_CHK_FEOK(ferr);
ferr = msg_mon_get_process_info(NULL, &my_nid, &my_pid);
TEST_CHK_FEOK(ferr);
if (client) {
printf("client name=%s, nid=%d, pid=%d\n",
my_name, my_nid, my_pid);
start_server(argc, argv);
server_name_len = (short) strlen(server_name);
ferr = BFILE_OPEN_((char *) server_name, server_name_len, &filenum,
0, 0, 0, 0, 0, 0, 0, NULL);
TEST_CHK_FEOK(ferr);
for (inx = 0; inx < loop; inx++) {
sprintf(send_buffer, "hello, greetings from %s, inx=%d",
my_name, inx);
disable = msg_test_assert_disable();
bcc = BWRITEREADX(filenum,
send_buffer,
(int) (strlen(send_buffer) + 1), // cast
BUFSIZ,
&count_read,
0);
msg_test_assert_enable(disable);
if (_bstatus_eq(bcc))
printf("%s\n", send_buffer);
else {
ferr = XFILE_GETINFO_(-1, &lasterr, NULL, 0, NULL, NULL, NULL);
printf("WRITEREAD error=%d\n", lasterr);
}
kill(server_pid, SIGKILL);
for (;;) {
err = kill(server_pid, 0);
if ((err == -1) && (errno == ESRCH))
break;
usleep(10000);
}
start_server(argc, argv);
}
kill(server_pid, SIGKILL);
for (;;) {
err = kill(server_pid, 0);
if ((err == -1) && (errno == ESRCH))
break;
usleep(10000);
}
ferr = BFILE_CLOSE_(filenum, 0);
TEST_CHK_FEOK(ferr);
} else {
printf("server name=%s, nid=%d, pid=%d\n",
my_name, my_nid, my_pid);
ferr = BFILE_OPEN_((char *) "$RECEIVE", 8, &filenum,
0, 0, 0,
1, 0, // sys msg
0, 0, NULL);
TEST_CHK_FEOK(ferr);
for (inx = 0; inx < loop; inx++) {
bcc = BREADUPDATEX(filenum,
recv_buffer,
BUFSIZ,
&count_read,
0);
getri(&ri);
printri(&ri);
sender_len = 0;
sender_nid = -1;
sender_pid = -1;
disable = msg_test_assert_disable(); // errors are ok
ferr = XPROCESSHANDLE_DECOMPOSE_(TPT_REF(ri.sender),
&sender_nid, // cpu
&sender_pid, // pin
NULL, // nodenumber
NULL, // nodename
0, // nodename
NULL, // nodename_length
sender,
sizeof(sender),
&sender_len,
NULL); // sequence_number
TEST_CHK_FEIGNORE(ferr);
msg_test_assert_enable(disable);
sender[sender_len] = 0;
printf("sender=%s, nid=%d, pid=%d\n",
sender, sender_nid, sender_pid);
error_reply = XZFIL_ERR_OK;
if (_bstatus_eq(bcc)) {
if (open) {
assert(sender_nid == open_sender_nid);
assert(sender_pid == open_sender_pid);
assert(strcmp(sender, open_sender) == 0);
assert(ri.file_number == open_sender_file_number);
strcat(recv_buffer, "- reply from ");
strcat(recv_buffer, my_name);
count_read = (int) (strlen(recv_buffer) + 1); // cast
} else {
printf("server not opened by client - returning WRONGID\n");
error_reply = XZFIL_ERR_WRONGID;
}
} else {
msgnum = sys_msg->u_z_msg.z_msgnumber[0];
switch (msgnum) {
case XZSYS_VAL_SMSG_OPEN:
printf("msgnum=%d (open)\n", msgnum);
assert(!open);
TPT_COPY_INT(TPT_REF(open_sender_phandle), ri.sender);
strcpy(open_sender, sender);
open_sender_nid = sender_nid;
open_sender_pid = sender_pid;
open_sender_file_number = ri.file_number;
open = true;
break;
case XZSYS_VAL_SMSG_CLOSE:
printf("msgnum=%d (close)\n", msgnum);
assert(open);
open = false;
break;
case XZSYS_VAL_SMSG_SHUTDOWN:
printf("msgnum=%d (shutdown)\n", msgnum);
inx = loop; // exit
break;
default:
printf("unexpected msgnum=%d\n", msgnum);
abort();
}
count_read = 0;
inx--;
}
bcc = BREPLYX(recv_buffer,
count_read,
&count_written,
0,
error_reply);
TEST_CHK_BCCEQ(bcc);
}
ferr = XFILE_CLOSE_(filenum, 0);
TEST_CHK_FEOK(ferr);
}
ferr = msg_mon_process_shutdown();
TEST_CHK_FEOK(ferr);
util_test_finish(true);
printf("if there were no asserts, all is well\n");
return 0;
}
int main(int argc, char *argv[]) {
_xcc_status cc;
bool client = false;
unsigned short count_read;
int count_read_b;
unsigned short count_written;
TCPU_DECL (cpu);
int ferr;
short filenum;
int inx;
int loop = 10;
TPT_DECL (mphandle);
char *mphandlec = (char *) &mphandle;
TPT_DECL_INT (mphandlei);
int nid;
char nodename[20];
short nodename_length;
int nodenumber;
int pid;
TPIN_DECL (pin);
char procname[40];
short procname_length;
SB_Int64_Type sequence_number;
const char *sname = "$srv";
TAD zargs[] = {
{ "-client", TA_Bool, TA_NOMAX, &client },
{ "-loop", TA_Int, TA_NOMAX, &loop },
{ "-server", TA_Ign, TA_NOMAX, NULL },
{ "-sname", TA_Str, TA_NOMAX, &sname },
{ "", TA_End, TA_NOMAX, NULL }
};
ferr = file_init(&argc, &argv);
TEST_CHK_FEOK(ferr);
msfs_util_init_fs(&argc, &argv, file_debug_hook);
arg_proc_args(zargs, false, argc, argv);
util_test_start(client);
ferr = file_mon_process_startup(!client); // system messages?
TEST_CHK_FEOK(ferr);
ferr = msg_mon_get_my_process_name(my_name, BUFSIZ);
util_check("msg_mon_get_my_process_name", ferr);
ferr = msg_mon_get_process_info(my_name, &nid, &pid);
TEST_CHK_FEOK(ferr);
ferr = XPROCESSHANDLE_GETMINE_(TPT_REF(mphandle));
util_check("XPROCESSHANDLE_GETMINE_", ferr);
TPT_COPY_INT(mphandlei, mphandle);
assert((mphandlei[0] & 0xf0) == 0x20); // named
assert(strncmp(my_name, &mphandlec[4], 32) == 0);
printf("phandle=%x.%x.%x.%x.%x, pname=%s\n",
mphandlei[0], mphandlei[1], mphandlei[2], mphandlei[3], mphandlei[4],
my_name);
ferr = XPROCESSHANDLE_DECOMPOSE_(TPT_REF(mphandle),
&cpu,
&pin,
&nodenumber,
nodename,
sizeof(nodename),
&nodename_length,
procname,
sizeof(procname),
&procname_length,
&sequence_number);
assert(cpu == nid);
assert(pin == pid);
assert(nodenumber == 0);
assert(nodename_length == 4);
nodename[nodename_length] = 0;
assert(strcmp(nodename, "\\NSK") == 0);
procname[procname_length] = 0;
assert(strcmp(procname, my_name) == 0);
#ifdef SQ_PHANDLE_VERIFIER
assert(sequence_number != 0);
#else
assert(sequence_number == 0);
#endif
if (client) {
ferr = XFILE_OPEN_((char *) sname, 4, &filenum,
0, 0, 0, 0, 0, 0, 0, NULL);
TEST_CHK_FEOK(ferr);
for (inx = 0; inx < loop; inx++) {
sprintf(send_buffer, "hello, greetings from %s, inx=%d",
my_name, inx);
if ((inx & 1) == 0)
cc = XWRITEREADX2(filenum,
send_buffer,
(unsigned short) (strlen(send_buffer) + 1), // cast
recv_buffer,
BUFSIZ,
&count_read,
0);
else
cc = BWRITEREADX2(filenum,
send_buffer,
(unsigned short) (strlen(send_buffer) + 1), // cast
recv_buffer,
BUFSIZ,
&count_read_b,
0);
TEST_CHK_CCEQ(cc);
printf("%s\n", recv_buffer);
}
ferr = XFILE_CLOSE_(filenum, 0);
TEST_CHK_FEOK(ferr);
} else {
ferr = XFILE_OPEN_((char *) "$RECEIVE", 8, &filenum,
0, 0, 0,
1, 1, // no sys msg
0, 0, NULL);
TEST_CHK_FEOK(ferr);
for (inx = 0; inx < loop; inx++) {
cc = XREADUPDATEX(filenum,
recv_buffer,
BUFSIZ,
&count_read,
0);
TEST_CHK_CCEQ(cc);
strcat(recv_buffer, "- reply from ");
strcat(recv_buffer, my_name);
count_read = (unsigned short) (strlen(recv_buffer) + 1); // cast
cc = XREPLYX(recv_buffer,
count_read,
&count_written,
0,
XZFIL_ERR_OK);
TEST_CHK_CCEQ(cc);
}
ferr = XFILE_CLOSE_(filenum, 0);
TEST_CHK_FEOK(ferr);
}
ferr = file_mon_process_shutdown();
TEST_CHK_FEOK(ferr);
util_test_finish(client);
return 0;
}
int main(int argc, char *argv[]) {
enum { MAX_RETRIES = 100 };
enum { SLEEP_US = 1000 };
bool attach = false;
_xcc_status cc;
bool client = false;
int count;
int count_read;
int count_written;
bool dif = false;
double dloop;
double dms;
double dsec;
int err;
bool exec = false;
int ferr;
bool fin = false;
MS_Mon_Process_Info_Type info;
MS_Mon_Process_Info_Type *infop;
int inx;
int inx2;
int inx3;
short len;
short lerr;
short lerr2;
int loop = 10;
int max;
int nid;
pid_t pid;
int sargc;
ssize_t size;
int snid;
int spid;
bool startup = false;
xzsys_ddl_smsg_def *sys_msgp = (xzsys_ddl_smsg_def *) recv_buffer;
int sys_msg;
int sys_msg_count;
bool verbose = false;
TAD zargs[] = {
{ "-attach", TA_Bool, TA_NOMAX, &attach },
{ "-client", TA_Bool, TA_NOMAX, &client },
{ "-dif", TA_Bool, TA_NOMAX, &dif },
{ "-exec", TA_Bool, TA_NOMAX, &exec },
{ "-loop", TA_Int, TA_NOMAX, &loop },
{ "-maxsp", TA_Int, TA_NOMAX, &maxsp },
{ "-server", TA_Ign, TA_NOMAX, NULL },
{ "-startup", TA_Bool, TA_NOMAX, &startup },
{ "-trace", TA_Bool, TA_NOMAX, &trace },
{ "-v", TA_Bool, TA_NOMAX, &verbose },
{ "-verbose", TA_Ign, TA_NOMAX, NULL },
{ "", TA_End, TA_NOMAX, NULL }
};
arg_proc_args(zargs, false, argc, argv);
sprintf(fifo1, "%s-%s", FIFO1, getenv("USER"));
sprintf(fifo2, "%s-%s", FIFO2, getenv("USER"));
if (trace)
msg_init_trace();
if (exec)
return 0;
if (startup) {
err = fifo_open(fifo1, O_WRONLY);
assert(err != -1);
ffds[1] = err;
err = fifo_open(fifo2, O_RDONLY);
assert(err != -1);
ffds[0] = err;
if (trace)
trace_printf("cli: writing fifo\n");
size = write(ffds[1], recv_buffer, 1);
if (trace)
trace_printf("cli: fifo write, size=%d\n", (int) size);
assert(size == 1);
if (trace)
trace_printf("cli: fifo written\n");
close(ffds[1]);
return 0;
}
if (attach)
ferr = file_init_attach(&argc, &argv, false, NULL);
else
ferr = file_init(&argc, &argv);
TEST_CHK_FEOK(ferr);
util_test_start(client);
ferr = msg_mon_process_startup(true); // system messages
util_check("msg_mon_process_startup", ferr);
ferr = msg_mon_get_my_process_name(procname, BUFSIZ);
util_check("msg_mon_get_my_process_name", ferr);
ferr = msg_mon_get_process_info(procname, &nid, &pid);
TEST_CHK_FEOK(ferr);
if (trace)
trace_printf("proc=%s, nid=%d, pid=%d\n", procname, nid, pid);
dloop = (double) loop;
for (inx = 0; inx < T_MAX; inx++)
t_elapsed[inx] = 0.0;
if (client) {
printf("loop=%d, maxsp=%d\n", loop, maxsp);
sargc = argc;
assert(sargc < MAX_ARGS);
for (inx2 = 0; inx2 < argc; inx2++) {
if (strcmp(argv[inx2], "-client") == 0)
sargv[inx2] = (char *) "-server";
else
sargv[inx2] = argv[inx2];
if (strcmp(argv[inx2], "-attach") == 0)
sargv[inx2] = (char *) "-server";
}
sargv[argc] = NULL;
sprintf(sprog, "%s/%s", getenv("PWD"), argv[0]);
time_start(T_TOTAL);
for (inx = 0; inx < loop; inx += maxsp) {
if (dif)
snid = -1;
else
snid = nid;
max = loop - inx;
if (max > maxsp)
max = maxsp;
for (inx2 = 0; inx2 < max; inx2++)
sname[inx2][0] = 0; // mon picks name
if (trace)
trace_printf("cli: newproc, inx=%d\n", inx);
time_start(T_NEWPROC);
for (inx2 = 0; inx2 < max; inx2++) {
ferr = msg_mon_start_process(sprog, // prog
sname[inx2], // name
sname[inx2], // ret_name
sargc, // argc
sargv, // argv
TPT_REF2(sphandle,inx2),// phandle
false, // open
&soid[inx2], // oid
MS_ProcessType_Generic, // type
0, // priority
false, // debug
false, // backup
&snid, // nid
&spid, // pid
NULL, // infile
NULL); // outfile
TEST_CHK_FEOK(ferr);
}
time_stop(T_NEWPROC);
time_elapsed(T_NEWPROC);
// wait here until processes are 'up'
// so that open timing is correct
inx3 = 0;
for (inx2 = 0; inx2 < max; inx2++) {
ferr = msg_mon_get_process_info_detail(sname[inx2], &info);
TEST_CHK_FEOK(ferr);
if (info.state != MS_Mon_State_Up) {
inx3++;
if (inx3 > MAX_RETRIES) {
printf("process %s did not enter 'UP' state\n", sname[inx2]);
assert(inx3 < MAX_RETRIES);
}
usleep(SLEEP_US);
inx2--;
continue;
} else
inx3 = 0;
}
if (trace)
trace_printf("cli: open, inx=%d\n", inx);
time_start(T_OPEN);
for (inx2 = 0; inx2 < max; inx2++) {
if (trace)
trace_printf("cli: opening inx=%d, name=%s\n", inx, sname[inx2]);
len = (short) strlen(sname[inx2]);
ferr = BFILE_OPEN_(sname[inx2], len, &sfilenum[inx2],
0, 0, 0,
0, 0, 0, 0);
if (trace)
trace_printf("cli: open, inx=%d, name=%s, ferr=%d\n",
inx, sname[inx2], ferr);
TEST_CHK_FEOK(ferr);
}
time_stop(T_OPEN);
time_elapsed(T_OPEN);
if (trace)
trace_printf("cli: procinfo, inx=%d\n", inx);
time_start(T_PROCINFO);
for (inx2 = 0; inx2 < max; inx2++) {
ferr = msg_mon_get_process_info_detail(sname[inx2], &info);
TEST_CHK_FEOK(ferr);
}
time_stop(T_PROCINFO);
time_elapsed(T_PROCINFO);
if (trace)
trace_printf("cli: procinfo-type, inx=%d\n", inx);
time_start(T_PROCINFO_TYPE);
ferr = msg_mon_get_process_info_type(MS_ProcessType_Generic,
&count,
MAX_SRV,
infotype);
TEST_CHK_FEOK(ferr);
time_stop(T_PROCINFO_TYPE);
time_elapsed(T_PROCINFO_TYPE);
if (verbose) {
for (inx2 = 0; inx2 < count; inx2++) {
infop = &infotype[inx2];
char s_em = infop->event_messages ? 'E' : '-';
char s_sm = infop->system_messages ? 'S' : '-';
char s_pr = infop->pending_replication ? 'R' : '-';
char s_pd = infop->pending_delete ? 'D' : '-';
char s_s = infop->state == MS_Mon_State_Up ? 'A' : 'U';
char s_o = infop->opened ? 'O' : '-';
char s_p = infop->paired ? 'P' : infop->backup ? 'B' : '-';
printf("%3.3d,%8.8d %3.3d %d %c%c%c%c%c%c%c %-11s %-11s %-15s\n",
infop->nid,
infop->pid,
infop->priority,
infop->state,
s_em, s_sm, s_pr, s_pd, s_s, s_o, s_p,
infop->process_name,
infop->parent_name,
infop->program);
}
}
if (trace)
trace_printf("cli: close, inx=%d\n", inx);
time_start(T_CLOSE);
for (inx2 = 0; inx2 < max; inx2++) {
ferr = BFILE_CLOSE_(sfilenum[inx2]);
TEST_CHK_FEOK(ferr);
}
time_stop(T_CLOSE);
time_elapsed(T_CLOSE);
// re-open/close
for (inx2 = 0; inx2 < max; inx2++) {
if (trace)
trace_printf("cli: re-opening inx=%d, name=%s\n",
inx, sname[inx2]);
len = (short) strlen(sname[inx2]);
ferr = BFILE_OPEN_(sname[inx2], len, &sfilenum[inx2],
0, 0, 0,
0, 0, 0, 0);
TEST_CHK_FEOK(ferr);
}
if (trace)
trace_printf("cli: re-close, inx=%d\n", inx);
for (inx2 = 0; inx2 < max; inx2++) {
ferr = BFILE_CLOSE_(sfilenum[inx2]);
TEST_CHK_FEOK(ferr);
}
if (trace)
trace_printf("cli: newproc-forkexec, inx=%d\n", inx);
sargc = 2;
sargv[0] = argv[0];
sargv[1] = (char *) "-exec";
if (trace)
sargv[sargc++] = (char *) "-trace";
sargv[sargc] = NULL;
time_start(T_FORKEXEC);
for (inx2 = 0; inx2 < max; inx2++) {
pid = fork();
assert(pid >= 0);
if (pid == 0) {
// child
err = execv(sprog, sargv);
assert(err == 0);
}
}
time_stop(T_FORKEXEC);
time_elapsed(T_FORKEXEC);
if (trace)
trace_printf("cli: newproc-forkexec-su, inx=%d\n", inx);
sargc = 2;
sargv[0] = argv[0];
sargv[1] = (char *) "-startup";
if (trace)
sargv[sargc++] = (char *) "-trace";
sargv[sargc] = NULL;
time_start(T_FORKEXEC_SU);
for (inx2 = 0; inx2 < max; inx2++) {
fifo_create(fifo1, fifo2);
pid = fork();
assert(pid >= 0);
if (pid > 0) {
// parent
err = fifo_open(fifo1, O_RDONLY);
assert(err != -1);
ffds[0] = err;
err = fifo_open(fifo2, O_WRONLY);
assert(err != -1);
ffds[1] = err;
if (trace)
trace_printf("cli: reading fifo, inx=%d\n", inx2);
size = ::read(ffds[0], recv_buffer, 1);
if (trace)
trace_printf("cli: fifo read, size=%d\n", (int) size);
assert(size == 1);
if (trace)
trace_printf("cli: fifo read, inx=%d\n", inx2);
::read(ffds[0], recv_buffer, 1);
err = fifo_close(ffds[0]);
assert(err == 0);
err = fifo_close(ffds[1]);
assert(err == 0);
fifo_destroy(fifo1, fifo1);
} else {
// child
err = execv(sprog, sargv);
assert(err == 0);
}
}
fifo_destroy(fifo2, fifo2);
time_stop(T_FORKEXEC_SU);
time_elapsed(T_FORKEXEC_SU);
}
} else {
sys_msg_count = 0;
time_start(T_TOTAL);
ferr = BFILE_OPEN_((char *) "$RECEIVE", 8, &filenumr,
0, 0, 0,
1, 0); // sys msgs
TEST_CHK_FEOK(ferr);
for (inx = 0; !fin; inx++) {
if (trace)
trace_printf("srv: readupdate, inx=%d\n", inx);
cc = BREADUPDATEX(filenumr,
recv_buffer,
4,
&count_read,
0);
sys_msg = _xstatus_ne(cc);
if (trace && sys_msg)
trace_printf("srv: rcvd sys msg=%d\n",
sys_msgp->u_z_msg.z_msgnumber[0]);
if (sys_msg) {
sys_msg_count++;
inx--;
}
lerr2 = BFILE_GETINFO_(filenumr, &lerr);
TEST_CHK_FEIGNORE(lerr2);
if (trace)
trace_printf("srv: reply, inx=%d\n", inx);
cc = BREPLYX(recv_buffer,
(unsigned short) 0,
&count_written,
0,
XZFIL_ERR_OK);
TEST_CHK_CCEQ(cc);
if (sys_msg_count >= 4)
fin = true;
}
}
time_stop(T_TOTAL);
time_elapsed(T_TOTAL);
if (client) {
dsec = time_sec(T_TOTAL);
dms = dsec * 1000.0;
printf("elapsed=%f\n", dms);
printf("open/close/newprocess/processinfo/forkexec=%d\n", loop);
dsec = time_sec(T_OPEN);
dms = dsec * 1000.0;
printf("open : total-time=%f ms, time/loop=%f ms, ops/sec=%f\n",
dms, dms / dloop, dloop / dsec);
dsec = time_sec(T_CLOSE);
dms = dsec * 1000.0;
printf("close : total-time=%f ms, time/loop=%f ms, ops/sec=%f\n",
dms, dms / dloop, dloop / dsec);
dsec = time_sec(T_PROCINFO);
dms = dsec * 1000.0;
printf("procinfo : total-time=%f ms, time/loop=%f ms, ops/sec=%f\n",
dms, dms / dloop, dloop / dsec);
dsec = time_sec(T_PROCINFO_TYPE);
dms = dsec * 1000.0;
printf("procinfo-type : total-time=%f ms, time/loop=%f ms, ops/sec=%f\n",
dms, dms / dloop, dloop / dsec);
dsec = time_sec(T_NEWPROC);
dms = dsec * 1000.0;
printf("newproc : total-time=%f ms, time/loop=%f ms, ops/sec=%f\n",
dms, dms / dloop, dloop / dsec);
dsec = time_sec(T_FORKEXEC);
dms = dsec * 1000.0;
printf("forkexec : total-time=%f ms, time/loop=%f ms, ops/sec=%f\n",
dms, dms / dloop, dloop / dsec);
dsec = time_sec(T_FORKEXEC_SU);
dms = dsec * 1000.0;
printf("forkexec-startup: total-time=%f ms, time/loop=%f ms, ops/sec=%f\n",
dms, dms / dloop, dloop / dsec);
}
ferr = msg_mon_process_shutdown();
TEST_CHK_FEOK(ferr);
util_test_finish(client);
return 0;
}
int main(int argc, char *argv[]) {
bool exit;
int ferr;
int lerr;
int msgid;
int nid;
int oid;
int pid;
TPT_DECL (phandle);
char recv_buffer[BUFSIZ];
short recv_buffer2[BUFSIZ];
MS_Result_Type results;
MS_SRE sre;
ferr = msfs_util_init_role(true, &argc, &argv, msg_debug_hook);
TEST_CHK_FEOK(ferr);
util_test_start(true);
ferr = msg_mon_process_startup(true); // system messages
TEST_CHK_FEOK(ferr);
msg_mon_enable_mon_messages(true);
printf("cli: opening server\n");
ferr = msg_mon_get_process_info((char *) "$srv", &nid, &pid);
TEST_CHK_FEOK(ferr);
printf("cli: server opened\n");
ferr = msg_mon_open_process((char *) "$srv", // name
TPT_REF(phandle),
&oid);
TEST_CHK_FEOK(ferr);
exit = false;
while (!exit) {
lerr = XWAIT(LREQ, -1);
TEST_CHK_WAITIGNORE(lerr);
for (;;) {
lerr = XMSG_LISTEN_((short *) &sre, // sre
0, // listenopts
0); // listenertag
if (lerr == XSRETYPE_NOWORK)
break;
ferr = XMSG_READDATA_(sre.sre_msgId, // msgid
recv_buffer, // reqdata
BUFSIZ); // bytecount
util_check("XMSG_READDATA_", ferr);
if (sre.sre_flags & XSRE_MON) {
MS_Mon_Msg *msg = (MS_Mon_Msg *) recv_buffer;
printf("cli: mon message, type=%d\n", msg->type);
if (msg->type == MS_MsgType_Open) {
ferr = msg_mon_get_process_info((char *) "$srv", &nid, &pid);
TEST_CHK_FEOK(ferr);
assert(msg->u.open.nid == nid);
assert(msg->u.open.pid == pid);
assert(strcasecmp(msg->u.open.target_process_name, "$srv") == 0);
exit = true;
}
} else {
printf("cli: NON-mon message\n");
}
XMSG_REPLY_(sre.sre_msgId, // msgid
NULL, // replyctrl
0, // replyctrlsize
NULL, // replydata
0, // replydatasize
0, // errorclass
NULL); // newphandle
}
}
printf("cli: sending message to server\n");
ferr = XMSG_LINK_(TPT_REF(phandle), // phandle
&msgid, // msgid
NULL, // reqctrl
0, // reqctrlsize
recv_buffer2, // replyctrl
1, // replyctrlmax
NULL, // reqdata
0, // reqdatasize
recv_buffer, // replydata
BUFSIZ, // replydatamax
0, // linkertag
0, // pri
0, // xmitclass
0); // linkopts
util_check("XMSG_LINK_", ferr);
ferr = XMSG_BREAK_(msgid, (short *) &results, TPT_REF(phandle));
util_check("XMSG_BREAK_", ferr);
exit = false;
while (!exit) {
lerr = XWAIT(LREQ, -1);
for (;;) {
lerr = XMSG_LISTEN_((short *) &sre, // sre
0, // listenopts
0); // listenertag
if (lerr == XSRETYPE_NOWORK)
break;
ferr = XMSG_READDATA_(sre.sre_msgId, // msgid
recv_buffer, // reqctrl
BUFSIZ); // bytecount
util_check("XMSG_READDATA_", ferr);
if (sre.sre_flags & XSRE_MON) {
MS_Mon_Msg *msg = (MS_Mon_Msg *) recv_buffer;
printf("cli: mon message, type=%d\n", msg->type);
if (msg->type == MS_MsgType_ProcessDeath) {
assert(msg->u.death.nid == nid);
assert(msg->u.death.pid == pid);
exit = true;
}
} else
printf("cli: NON-mon message\n");
XMSG_REPLY_(sre.sre_msgId, // msgid
NULL, // replyctrl
0, // replyctrlsize
NULL, // replydata
0, // replydatasize
0, // errorclass
NULL); // newphandle
}
}
ferr = msg_mon_process_shutdown();
TEST_CHK_FEOK(ferr);
util_test_finish(true);
return 0;
}
int main(int argc, char *argv[]) {
int exit;
int ferr;
bool ldone;
int lerr;
int msgid;
int nid;
int oid;
int pid;
TPT_DECL (phandle);
char recv_buffer[BUFSIZ];
short recv_buffer2[BUFSIZ];
RT results;
MS_SRE sre;
MS_Mon_Transid_Type transid;
ferr = msfs_util_init_role(true, &argc, &argv, msg_debug_hook);
TEST_CHK_FEOK(ferr);
util_test_start(true);
ferr = msg_mon_process_startup(true); // system messages
TEST_CHK_FEOK(ferr);
msg_mon_enable_mon_messages(true);
ferr = msg_mon_get_process_info((char *) "$srv", &nid, &pid);
TEST_CHK_FEOK(ferr);
ferr = msg_mon_open_process((char *) "$srv", // name
TPT_REF(phandle),
&oid);
TEST_CHK_FEOK(ferr);
TRANSID_SET_NULL(transid);
ferr = msg_mon_deregister_death_notification(nid, pid, transid);
TEST_CHK_FEOK(ferr);
ferr = msg_mon_register_death_notification(nid, pid);
TEST_CHK_FEOK(ferr);
ferr = XMSG_LINK_(TPT_REF(phandle), // phandle
&msgid, // msgid
NULL, // reqctrl
0, // reqctrlsize
recv_buffer2, // replyctrl
1, // replyctrlmax
NULL, // reqdata
0, // reqdatasize
recv_buffer, // replydata
BUFSIZ, // replydatamax
0, // linkertag
0, // pri
0, // xmitclass
XMSG_LINK_LDONEQ); // linkopts
util_check("XMSG_LINK_", ferr);
exit = 0;
ldone = false;
while (!exit) {
do {
lerr = XWAIT(LREQ|LDONE, -1);
TEST_CHK_WAITIGNORE(lerr);
if (lerr == LDONE) {
ldone = true;
break;
}
lerr = XMSG_LISTEN_((short *) &sre, // sre
0, // listenopts
0); // listenertag
} while (lerr == XSRETYPE_NOWORK);
if (ldone) {
printf("LINK done\n");
lerr = XMSG_LISTEN_((short *) &sre, // sre
XLISTEN_ALLOW_LDONEM, // listenopts
0); // listenertag
assert(lerr == XSRETYPE_LDONE);
ferr = XMSG_BREAK_(sre.sre_msgId,
results.u.s,
TPT_REF(phandle));
assert(ferr == XZFIL_ERR_OK);
break;
}
ferr = XMSG_READDATA_(sre.sre_msgId, // msgid
recv_buffer, // reqdata
BUFSIZ); // bytecount
util_check("XMSG_READDATA_", ferr);
if (sre.sre_flags & XSRE_MON) {
MS_Mon_Msg *msg = (MS_Mon_Msg *) recv_buffer;
printf("cli: mon message, type=%d\n", msg->type);
if (msg->type == MS_MsgType_ProcessDeath) {
assert(msg->u.death.nid == nid);
assert(msg->u.death.pid == pid);
exit = 1;
} else if (msg->type == MS_MsgType_Shutdown) {
printf("cli: received cluster shutdown, level=%d\n", msg->u.shutdown.level);
assert(msg->u.shutdown.level==MS_Mon_ShutdownLevel_Immediate);
}
} else
printf("cli: NON-mon message\n");
XMSG_REPLY_(sre.sre_msgId, // msgid
NULL, // replyctrl
0, // replyctrlsize
NULL, // replydata
0, // replydatasize
0, // errorclass
NULL); // newphandle
}
ferr = msg_mon_process_shutdown();
TEST_CHK_FEOK(ferr);
util_test_finish(true);
return 0;
}
