int main(int argc, char *argv[])
{
char *sendbuf, *rcvbuf;
long sendlen, rcvlen;
char svcname[16];
int ret;
if(argc != 3) {
(void) fprintf(stderr, "arg:clientpetri servname sendbuf");
exit(1);
}
/* 作为tuxedo客户端连入tuxedo System */
if (tpinit((TPINIT *) NULL) == -1) {
(void) fprintf(stderr, "Tpinit failed ");
exit(1);
}
sendlen = strlen(argv[2]);
/* 使用tpalloc申请string类型buffer作为请求和应答buffer */
if((sendbuf = (char *) tpalloc("STRING", NULL, sendlen+1)) == NULL) {
(void) fprintf(stderr,"Error allocating send buffer ");
tpterm();
exit(1);
}
if((rcvbuf = (char *) tpalloc("STRING", NULL, 1024*2)) == NULL) {
(void) fprintf(stderr,"Error allocating receive buffer ");
tpfree(sendbuf);
tpterm();
exit(1);
}
(void) strcpy(svcname, argv[1]);
(void) strcpy(sendbuf, argv[2]);
/* 同步调用服务 */
ret = tpcall(svcname, (char *)sendbuf, 0, (char **)&rcvbuf, &rcvlen, (long)0);
if(ret == -1) {
(void) fprintf(stderr, "Can't send request to service ");
(void) fprintf(stderr, "Tperrno = %d ", tperrno);
tpfree(sendbuf);
tpfree(rcvbuf);
tpterm();
exit(1);
}
(void) fprintf(stdout, "Returned string is: %s ", rcvbuf);
/* 使用tpfree释放申请的请求和应答buffer空间 */
tpfree(sendbuf);
tpfree(rcvbuf);
/* 使用tpterm离开tuxedo System */
tpterm();
return(0);
}
void BAR(TPSVCINFO * svcinfo)
#endif
{
test_req_t *req = (test_req_t *) svcinfo->data;
test_req_t *resp = (test_req_t *) tpalloc((char*) "X_C_TYPE", (char*) "test_req", 0);
product_t *p = products;
btlogger_debug( "TxLog %s service %s running", __FUNCTION__, TXTEST_SVC_NAME);
resp->status = -1;
inject_fault(O_XA_COMMIT, req->txtype);
for (p = products; p->id != -1; p++) {
if (req->prod == p->id) {
int rv;
strncpy(req->db, p->dbname, sizeof(req->db));
btlogger_debug("TxLog Service %s %4d: prod=%8s (id=%d) op=%c tx=0x%x data=%s", TXTEST_SVC_NAME,
req->id, p->pname, p->id, req->op, req->txtype, req->data);
rv = p->access(req, resp);
btlogger_debug("TxLog Service %s %4d: resp->status=%d rv=%d", TXTEST_SVC_NAME, req->id, resp->status, rv);
break;
}
}
tpreturn(TPSUCCESS, resp->status, (char *) resp, sizeof (test_req_t), 0);
}
/***********************************************************************
交易: CLIENT_LOGIN
功能:远程监控客户端连接主监控时调用
输入参数:
iHostID(客户端主机ID, 对应WF_HOSTINFO.HOST_ID)
--客户端守护进程启动时建议默认根据hostname取ID
sSysUserName(Unix 用户名)
返回值:
iLogID(登录ID; -1登录失败)
sMsg(错误信息. 当iLogID == -1时有效)
----------------------------------------------------------------------*/
void CLIENT_LOGIN(TPSVCINFO *rqst)
{
TParseBuff ParaList;
char *sQqstBuf;
sQqstBuf = tpalloc("STRING",NULL,MAX_CMAMSG_LEN);
int iLen = rqst->len;
memcpy(sQqstBuf, rqst->data, iLen);
sQqstBuf[iLen] = 0;
TrimHeadNull(sQqstBuf,iLen);
int iRet = ParaList.parseBuff(sQqstBuf);
if (!iRet){
ParaList.reset();
ParaList.setLogID(-1); //输入参数不合法,登录失败
ParaList.addMsg("登录主监控守护时输入参数不合法!");
ParaList.getBuiltStr(sQqstBuf);
tpreturn(TPSUCCESS,0L,sQqstBuf,strlen(sQqstBuf),0L);
}
//lock the signal.
LockSafe(g_pShmTable->m_iClientLock,0);
g_pShmTable->ClientReqInfo.m_iHostID = ParaList.getHostID();
ParaList.getSysUserName(g_pShmTable->ClientReqInfo.m_sSysUserName);
g_pShmTable->ClientReqInfo.m_iStatus = REQ_CLIENT_LOGIN;
ParaList.reset();
int iTimeOut = 0;
while(g_pShmTable->ClientReqInfo.m_iStatus == REQ_CLIENT_LOGIN)
{ //wait...
usleep(USLEEP_LONG);
if (iTimeOut++ > TIME_OUT) {
ParaList.setLogID(-1); //time out,failed
ParaList.addMsg("登录主监控超时!");
ParaList.getBuiltStr(sQqstBuf);
UnlockSafe(g_pShmTable->m_iClientLock,0);
tpreturn(TPSUCCESS,0L,sQqstBuf,strlen(sQqstBuf),0L);
}
}
//主守护进程处理后的状态可能有:
//SERVER_ACCEPT MAX_CLIENT_NUM SERVER_REJECT
if (g_pShmTable->ClientReqInfo.m_iStatus == SERVER_ACCEPT){
ParaList.setLogID(g_pShmTable->ClientReqInfo.m_iIndex);
}
else if (g_pShmTable->ClientReqInfo.m_iStatus == MAX_CLIENT_NUM)
{
ParaList.setLogID(-1);
ParaList.addMsg("远程守护监控连接达到最大限制!");
}
else {
ParaList.setLogID(-1);
ParaList.addMsg(g_pShmTable->ClientReqInfo.m_sMsgBuf);
}
ParaList.getBuiltStr(sQqstBuf);
UnlockSafe(g_pShmTable->m_iClientLock,0);
tpreturn(TPSUCCESS,0L,sQqstBuf,strlen(sQqstBuf),0L);
}
int main(int argc, char **argv) {
int tpstatus;
char *retbuf;
char type[20];
char subtype[20];
long retbufsize;
char *sbuf;
long sbufsize;
long callflags;
int i;
for (i = 0; i < 10; i++) {
callflags = 0L;
sbufsize = 29;
sbuf = tpalloc("X_OCTET", 0, sbufsize);
memset(sbuf, 0, sbufsize);
strcpy(sbuf, "THIS IS YOUR CLIENT SPEAKING");
retbufsize = 15;
retbuf = tpalloc("X_OCTET", 0, retbufsize);
memset(retbuf, 0, retbufsize);
// tptypes
tptypes(sbuf, type, subtype);
// tpcall
btlogger((char*) "Calling tpcall with input: %s", sbuf);
tpstatus = tpcall("FOOAPP", sbuf, sbufsize, (char **) &retbuf,
&retbufsize, callflags);
btlogger(
(char*) "Called tpcall with length: %d output: %s and status: %d and tperrno: %d",
retbufsize, retbuf, tpstatus, tperrno);
if (tpstatus == -1 && tperrno == TPENOENT) {
tpfree(sbuf);
tpfree(retbuf);
return -1;
}
tpfree(sbuf);
tpfree(retbuf);
}
return 0;
}
void GenericTuxedoClient::allocFieldBuffer(FieldMode fm) throw (BufferHandlingException)
{
if (fm != PARM_IN && fm != PARM_OUT && fm != PARM_INOUT) {
throw BufferHandlingException(
"O modo do parametro deve ser PARM_IN, PARM_OUT ou PARM_INOUT");
}
if ((fm & PARM_IN) == PARM_IN) {
iFieldBuffer = (FBFR_1632 *) tpalloc(FMLTYPE_1632, NULL, getBuffNeededSpace(PARM_IN));
if (iFieldBuffer == NULL)
throw BufferHandlingException(tpstrerror(tperrno));
}
if ((fm & PARM_OUT) == PARM_OUT) {
oFieldBuffer = (FBFR_1632 *) tpalloc(FMLTYPE_1632, NULL, getBuffNeededSpace(PARM_OUT));
if (oFieldBuffer == NULL)
throw BufferHandlingException(tpstrerror(tperrno));
}
}
/**
* Call the client process monitor with command
* @return
*/
private int call_cpm(char *svcnm, char *cmd, char *tag, char *subsect)
{
UBFH *p_ub = (UBFH *)tpalloc("UBF", NULL, CPM_DEF_BUFFER_SZ);
int ret=SUCCEED;
long rsplen;
char output[CPM_OUTPUT_SIZE];
/* Setup the call buffer... */
if (NULL==p_ub)
{
NDRX_LOG(log_error, "Failed to alloc FB!");
FAIL_OUT(ret);
}
if (SUCCEED!=Bchg(p_ub, EX_CPMTAG, 0, tag, 0L))
{
NDRX_LOG(log_error, "Failed to set EX_CPMCOMMAND to %s!", tag);
FAIL_OUT(ret);
}
if (SUCCEED!=Bchg(p_ub, EX_CPMSUBSECT, 0, subsect, 0L))
{
NDRX_LOG(log_error, "Failed to set EX_CPMSUBSECT to %s!", subsect);
FAIL_OUT(ret);
}
if (SUCCEED!=Bchg(p_ub, EX_CPMCOMMAND, 0, cmd, 0L))
{
NDRX_LOG(log_error, "Failed to set EX_CPMCOMMAND to %s!", cmd);
FAIL_OUT(ret);
}
/* Call the client admin */
if (FAIL==(ret=tpcall(svcnm, (char *)p_ub, 0L, (char **)&p_ub, &rsplen, 0L)))
{
fprintf(stderr, "%s\n", tpstrerror(tperrno));
}
/* print the stuff we got from CPM. */
if (SUCCEED==Bget(p_ub, EX_CPMOUTPUT, 0, (char *)output, 0L))
{
fprintf(stdout, "%s\n", output);
}
out:
if (NULL!=p_ub)
{
tpfree((char *)p_ub);
}
return ret;
}
int main(int argc, char** argv)
{
char *sendbuf = NULL;
sendbuf = (char *) tpalloc("CARRAY", NULL, 1024);
if(sendbuf == NULL) {
(void) fprintf(stderr, "Error allocating send buffer\n");
return -1;
}
tpfree(sendbuf);
}
void FOOAPP(TPSVCINFO * svcinfo) {
char* buffer;
int sendlen;
btlogger((char*) "bar called - svc: %s data %s len: %d flags: %d",
svcinfo->name, svcinfo->data, svcinfo->len, svcinfo->flags);
sendlen = 15;
buffer = tpalloc("X_OCTET", 0, sendlen);
strcpy(buffer, "BAR SAYS HELLO");
tpreturn(TPSUCCESS, 0, buffer, sendlen, 0);
}
/***********************************************************************
交易: SEND_REMOTEMSG
功能:远程监控发送一个应用程序状态和输出信息到主监控
输入参数:
iLogID(登录ID)
iHostID(主机ID)
iProecessID
iProcessCnt
cState(进程状态)
iMainGuardIndex
<sMsg=str_msg>...
返回值:
iResult(0-失败, 1-成功)
----------------------------------------------------------------------*/
void SEND_REMOTEMSG(TPSVCINFO *rqst)
{
TParseBuff ParaList;
char *sQqstBuf;
sQqstBuf = tpalloc("STRING",NULL,MAX_CMAMSG_LEN);
int iLen = rqst->len;
memcpy(sQqstBuf, rqst->data, iLen);
sQqstBuf[iLen] = 0;
TrimHeadNull(sQqstBuf,iLen);
int iRet = ParaList.parseBuff(sQqstBuf);
if (!iRet){
ParaList.reset();
ParaList.setResult(0); //输入参数不合法
ParaList.addMsg("输入参数不合法!");
ParaList.getBuiltStr(sQqstBuf);
tpreturn(TPSUCCESS,0L,sQqstBuf,strlen(sQqstBuf),0L);
}
//lock the signal.
LockSafe(g_pShmTable->m_iClientLock,0);
g_pShmTable->ClientReqInfo.m_iHostID = ParaList.getHostID();
g_pShmTable->ClientReqInfo.m_iIndex = ParaList.getLogID();
//g_pShmTable->ClientReqInfo.m_cState = ParaList.getState();
//strcpy(g_pShmTable->ClientReqInfo.m_sMsgBuf,ParaList.getBuiltMsg());
strcpy(g_pShmTable->ClientReqInfo.m_sMsgBuf,sQqstBuf);
g_pShmTable->ClientReqInfo.m_iStatus = REQ_SEND_REMOTEMSG;
ParaList.reset();
int iTimeOut = 0;
while(g_pShmTable->ClientReqInfo.m_iStatus == REQ_SEND_REMOTEMSG)
{ //wait...
usleep(USLEEP_LONG);
if (iTimeOut++ > TIME_OUT) {
ParaList.setResult(0); //time out,failed
ParaList.addMsg("输出消息超时!");
ParaList.getBuiltStr(sQqstBuf);
UnlockSafe(g_pShmTable->m_iClientLock,0);
tpreturn(TPSUCCESS,0L,sQqstBuf,strlen(sQqstBuf),0L);
}
}
//主守护进程处理后的状态可能有:
// CLIENT_LOG_DEAD REMOTEMSG_SENT
if (g_pShmTable->ClientReqInfo.m_iStatus == REMOTEMSG_SENT)
{
ParaList.setResult(1);
}
else if (g_pShmTable->ClientReqInfo.m_iStatus == CLIENT_LOG_DEAD) {
ParaList.setResult(0);
ParaList.addMsg("client log dead.");
}
else {
ParaList.setResult(0);
ParaList.addMsg("Failed. Unknown reason.");
}
ParaList.getBuiltStr(sQqstBuf);
UnlockSafe(g_pShmTable->m_iClientLock,0);
tpreturn(TPSUCCESS,0L,sQqstBuf,strlen(sQqstBuf),0L);
}
int
main(int argc, char* argv[])
{
DB *dbp2;
DBT key, data;
FBFR *buf, *replyBuf;
HDbRec rec;
TPINIT *initBuf;
DB_ENV *dbenv2, *dbenv1;
long len, replyLen, seqNo;
int ch, cnt, cnt_abort, cnt_commit, cnt_server1, i, ret;
char *target;
char *home = HOME;
u_int32_t flags = DB_INIT_MPOOL | DB_INIT_LOG | DB_INIT_TXN |
DB_INIT_LOCK | DB_CREATE | DB_RECOVER | DB_REGISTER;
u_int32_t dbflags = DB_CREATE;
progname = argv[0];
dbenv2 = dbenv1 = NULL;
dbp2 = NULL;
buf = replyBuf = NULL;
initBuf = NULL;
cnt = 1000;
cnt_abort = cnt_commit = cnt_server1 = 0;
while ((ch = getopt(argc, argv, "n:v")) != EOF)
switch (ch) {
case 'n':
cnt = atoi(optarg);
break;
case 'v':
verbose = 1;
break;
case '?':
default:
return (usage());
}
argc -= optind;
argv += optind;
if (verbose)
printf("%s: called\n", progname);
/* Seed random number generator. */
srand((u_int)(time(NULL) | getpid()));
if (tpinit((TPINIT *)NULL) == -1)
goto tuxedo_err;
if (verbose)
printf("%s: tpinit() OK\n", progname);
/* Allocate init buffer */
if ((initBuf = (TPINIT *)tpalloc("TPINIT", NULL, TPINITNEED(0))) == 0)
goto tuxedo_err;
if (verbose)
printf("%s: tpalloc(\"TPINIT\") OK\n", progname);
/* Create the DB environment. */
if ((ret = db_env_create(&dbenv2, 0)) != 0 ||
(ret = dbenv2->open(dbenv2, home, flags, 0)) != 0) {
fprintf(stderr,
"%s: %s: %s\n", progname, home, db_strerror(ret));
goto err;
}
dbenv2->set_errfile(dbenv2, stderr);
if (verbose)
printf("%s: opened %s OK\n", progname, home);
/*
* Open table #2 -- Data is inserted into table 1 using XA
* transactions, and inserted into table 2 using regular transactions.
*/
if ((ret = db_create(&dbp2, dbenv2, 0)) != 0 ||
(ret = dbp2->open(dbp2,
NULL, TABLE2, NULL, DB_BTREE, dbflags, 0660)) != 0) {
fprintf(stderr,
"%s: %s %s\n", progname, TABLE2, db_strerror(ret));
goto err;
}
if (verbose)
printf("%s: opened %s OK\n", progname, TABLE2);
/* Allocate send buffer. */
len = Fneeded(1, 3 * sizeof(long));
if ((buf = (FBFR*)tpalloc("FML32", NULL, len)) == 0)
goto tuxedo_err;
if (verbose)
printf("%s: tpalloc(\"FML32\"), send buffer OK\n", progname);
/* Allocate reply buffer. */
replyLen = 1024;
if ((replyBuf = (FBFR*)tpalloc("FML32", NULL, replyLen)) == NULL)
goto tuxedo_err;
if (verbose)
printf("%s: tpalloc(\"FML32\"), reply buffer OK\n", progname);
memset(&key, 0, sizeof(key));
memset(&data, 0, sizeof(data));
for (rec.SeqNo = 1, i = 0; i < cnt; ++i, ++rec.SeqNo) {
GetTime(&rec.Ts);
if (Fchg(buf, SEQ_NO, 0, (char *)&rec.SeqNo, 0) == -1)
goto tuxedo_fml_err;
if (verbose)
printf("%s: Fchg(), sequence number OK\n", progname);
if (Fchg(buf, TS_SEC, 0, (char *)&rec.Ts.Sec, 0) == -1)
goto tuxedo_fml_err;
if (verbose)
printf("%s: Fchg(), seconds OK\n", progname);
if (Fchg(buf, TS_USEC, 0, (char *)&rec.Ts.Usec, 0) == -1)
goto tuxedo_fml_err;
if (verbose)
printf("%s: Fchg(), microseconds OK\n", progname);
if (tpbegin(60L, 0L) == -1)
goto tuxedo_err;
if (verbose)
printf("%s: tpbegin() OK\n", progname);
/* Randomly send half of our requests to each server. */
if (rand() % 2 > 0) {
++cnt_server1;
target = "TestTxn1";
} else
target = "TestTxn2";
if (tpcall(target, (char *)buf,
0L, (char **)&replyBuf, &replyLen, TPSIGRSTRT) == -1)
goto tuxedo_err;
/* Commit for a return value of 0, otherwise abort. */
if (tpurcode == 0) {
++cnt_commit;
if (verbose)
printf("%s: txn success\n", progname);
if (tpcommit(0L) == -1)
goto abort;
if (verbose)
printf("%s: tpcommit() OK\n", progname);
/*
* Store a copy of the key/data pair into table #2
* on success, we'll compare table #1 and table #2
* after the run finishes.
*/
seqNo = rec.SeqNo;
key.data = &seqNo;
key.size = sizeof(seqNo);
data.data = &seqNo;
data.size = sizeof(seqNo);
if ((ret =
dbp2->put(dbp2, NULL, &key, &data, 0)) != 0) {
fprintf(stderr, "%s: DB->put: %s %s\n",
progname, TABLE2, db_strerror(ret));
goto err;
}
} else {
abort: ++cnt_abort;
if (verbose)
printf("%s: txn failure\n", progname);
if (tpabort(0L) == -1)
goto tuxedo_err;
if (verbose)
printf("%s: tpabort() OK\n", progname);
}
}
printf("%s: %d requests: %d committed, %d aborted\n",
progname, cnt, cnt_commit, cnt_abort);
printf("%s: %d sent to server #1, %d sent to server #2\n",
progname, cnt_server1, cnt - cnt_server1);
/* Check that database 1 and database 2 are identical. */
if (dbp2 != NULL)
(void)dbp2->close(dbp2, 0);
dbp2 = NULL;
if ((ret = db_env_create(&dbenv1, 0)) != 0 ||
(ret = dbenv1->open(dbenv1, "../data", flags, 0)) != 0)
goto err;
ret = check_data(dbenv1, TABLE1, dbenv2, TABLE2, progname);
if (0) {
tuxedo_err: fprintf(stderr, "%s: TUXEDO ERROR: %s (code %d)\n",
progname, tpstrerror(tperrno), tperrno);
goto err;
}
if (0) {
tuxedo_fml_err: fprintf(stderr, "%s: FML ERROR: %s (code %d)\n",
progname, Fstrerror(Ferror), Ferror);
}
if (0) {
err: ret = EXIT_FAILURE;
}
if (replyBuf != NULL)
tpfree((char *)replyBuf);
if (buf != NULL)
tpfree((char *)buf);
if (initBuf != NULL)
tpfree((char *)initBuf);
if (dbp2 != NULL)
(void)dbp2->close(dbp2, 0);
if (dbenv1 != NULL)
(void)dbenv1->close(dbenv1, 0);
if (dbenv2 != NULL)
(void)dbenv2->close(dbenv2, 0);
tpterm();
if (verbose)
printf("%s: tpterm() OK\n", progname);
return (ret);
}
/***********************************************************************
交易: GET_COMMAND
功能:远程监控客户端获取其需要执行的指令时调用
输入参数:
iLogID(登录ID)
iHostID(主机ID)
返回值:
iResult (0-失败, 1-有操作指令, 2-当前无指令)
iOperation (1-start, 2-stop, 3-ChangeStatus, 4-Refresh)
iProcessID (指令操作的进程号)
iStaffID
iPlanID
cState
sMsg (iResult=0时存放失败信息; )
----------------------------------------------------------------------*/
void GET_COMMAND(TPSVCINFO *rqst)
{
TParseBuff ParaList;
char *sQqstBuf;
sQqstBuf = tpalloc("STRING",NULL,MAX_CMAMSG_LEN);
int iLen = rqst->len;
memcpy(sQqstBuf, rqst->data, iLen);
sQqstBuf[iLen] = 0;
TrimHeadNull(sQqstBuf,iLen);
DEFINE_QUERY(qry);
qry.commit();
qry.close();
int iRet = ParaList.parseBuff(sQqstBuf);
if (!iRet){
ParaList.reset();
ParaList.setResult(0);
ParaList.addMsg("输入参数不合法!");
ParaList.getBuiltStr(sQqstBuf);
tpreturn(TPSUCCESS,0L,sQqstBuf,strlen(sQqstBuf),0L);
}
//lock signal
LockSafe(g_pShmTable->m_iClientLock,0);
g_pShmTable->ClientReqInfo.m_iHostID = ParaList.getHostID();
g_pShmTable->ClientReqInfo.m_iIndex = ParaList.getLogID();
g_pShmTable->ClientReqInfo.m_iStatus = REQ_GET_COMMAND;
ParaList.reset();
int iTimeOut = 0;
while(g_pShmTable->ClientReqInfo.m_iStatus == REQ_GET_COMMAND)
{ //wait...
usleep(USLEEP_LONG);
if (iTimeOut++ > TIME_OUT) {
ParaList.setResult(0); //time out
ParaList.addMsg("获取指令超时!");
ParaList.getBuiltStr(sQqstBuf);
UnlockSafe(g_pShmTable->m_iClientLock,0);
tpreturn(TPSUCCESS,0L,sQqstBuf,strlen(sQqstBuf),0L);
}
}
//主守护进程处理后的状态可能有:
//REQ_COMMAND_RECV CLIENT_LOG_DEAD REQ_NO_COMMAND
if (g_pShmTable->ClientReqInfo.m_iStatus == REQ_COMMAND_RECV){
ParaList.setResult(1);
ParaList.setOperation(g_pShmTable->ClientReqInfo.m_iOperation);
ParaList.setProcessID(g_pShmTable->ClientReqInfo.m_iProcessID);
ParaList.setStaffID(g_pShmTable->ClientReqInfo.m_iStaffID);
ParaList.setPlanID(g_pShmTable->ClientReqInfo.m_iPlanID);
ParaList.setState(g_pShmTable->ClientReqInfo.m_cState);
}
else if (g_pShmTable->ClientReqInfo.m_iStatus == CLIENT_LOG_DEAD){
ParaList.setResult(0);
ParaList.addMsg("Err: CLIENT_LOG_DEAD");
}
else if (g_pShmTable->ClientReqInfo.m_iStatus == REQ_NO_COMMAND){
ParaList.setResult(2);
}
else {
ParaList.setResult(0);
ParaList.addMsg("Err: Unknown reason.");
}
ParaList.getBuiltStr(sQqstBuf);
UnlockSafe(g_pShmTable->m_iClientLock,0);
tpreturn(TPSUCCESS,0L,sQqstBuf,strlen(sQqstBuf),0L);
}
/***********************************************************************
交易: ACK_COMMAND
功能:返回指令执行后的结果信息(在GET_COMMAND后调用)
输入参数:
iLogID(登录ID)
iHostID(主机ID)
iProcessID(指令操作的进程ID)
iOperation(指令动作) (1-start, 2-stop, 3-ChangeStatus, 4-Refresh)
iResult(0-失败, 1-成功) 指令的执行情况
sMsg(指令执行返回的文本信息)
返回值:
iResult(0-失败, 1-成功) 交易的执行情况
//iMainGuardIndex(当指令为启动指令时,标识远程应用进程在主监控守护主机AppInfo中的下标)
sMsg (失败原因)
----------------------------------------------------------------------*/
void ACK_COMMAND(TPSVCINFO *rqst)
{
TParseBuff ParaList;
char *sQqstBuf;
sQqstBuf = tpalloc("STRING",NULL,MAX_CMAMSG_LEN);
int iLen = rqst->len;
memcpy(sQqstBuf, rqst->data, iLen);
sQqstBuf[iLen] = 0;
TrimHeadNull(sQqstBuf,iLen);
int iRet = ParaList.parseBuff(sQqstBuf);
if (!iRet){
ParaList.reset();
ParaList.setResult(0); //输入参数不合法
ParaList.addMsg("输入参数不合法!");
ParaList.getBuiltStr(sQqstBuf);
tpreturn(TPSUCCESS,0L,sQqstBuf,strlen(sQqstBuf),0L);
}
//lock the signal.
LockSafe(g_pShmTable->m_iClientLock,0);
g_pShmTable->ClientReqInfo.m_iHostID = ParaList.getHostID();
g_pShmTable->ClientReqInfo.m_iIndex = ParaList.getLogID();
g_pShmTable->ClientReqInfo.m_iProcessID = ParaList.getProcessID();
g_pShmTable->ClientReqInfo.m_iResult = ParaList.getResult();
g_pShmTable->ClientReqInfo.m_iOperation = ParaList.getOperation();
strcpy(g_pShmTable->ClientReqInfo.m_sMsgBuf,ParaList.getMsg());
g_pShmTable->ClientReqInfo.m_iStatus = REQ_ACK_COMMAND;
ParaList.reset();
int iTimeOut = 0;
while(g_pShmTable->ClientReqInfo.m_iStatus == REQ_ACK_COMMAND)
{ //wait...
usleep(USLEEP_LONG);
if (iTimeOut++ > TIME_OUT) {
ParaList.setResult(0); //time out,failed
ParaList.addMsg("返回指令执行结果超时!");
ParaList.getBuiltStr(sQqstBuf);
UnlockSafe(g_pShmTable->m_iClientLock,0);
tpreturn(TPSUCCESS,0L,sQqstBuf,strlen(sQqstBuf),0L);
}
}
//主守护进程处理后的状态可能有:
// CLIENT_LOG_DEAD ACK_COMMAND_END
if (g_pShmTable->ClientReqInfo.m_iStatus == ACK_COMMAND_END)
{
ParaList.setResult(1);
//ParaList.setMainGuardIndex(g_pShmTable->ClientReqInfo.m_iMainGuardIndex);
//ParaList.addMsg("已获取到iMainGuardIndex");
}
else if (g_pShmTable->ClientReqInfo.m_iStatus == CLIENT_LOG_DEAD) {
ParaList.setResult(0);
ParaList.addMsg("client log dead.");
}
else {
ParaList.setResult(0);
ParaList.addMsg("Failed. Unknown reason.");
}
ParaList.getBuiltStr(sQqstBuf);
TWfLog::log(0,"server_client send ACK_COMMAND_END msg:%s",sQqstBuf);
UnlockSafe(g_pShmTable->m_iClientLock,0);
tpreturn(TPSUCCESS,0L,sQqstBuf,strlen(sQqstBuf),0L);
}
//using namespace std;
int main(int argc, char *argv[])
{
FBFR32 *sendbuf, *rcvbuf;
long ret, numread = 0;
char sOrderListID[13]={0};
char sAreaCode[10]={0};
char sInXML[MAX_XML_SIZE];
char sOutXML[MAX_XML_SIZE];
char sFileName[30];
long lResult;
char sErrMsg[1000];
struct timeb tp1,tp2;
memset(sOutXML, 0, MAX_XML_SIZE);
memset(sErrMsg, 0, 1000);
memset(sFileName, 0, 30);
strcpy(sFileName, (char*)argv[1]);
printf("you input fileName is <%s>\n", sFileName);
FILE *fp;
if((fp = fopen(sFileName, "r")) == NULL)
{
printf("can't open file: %s\n", sFileName);
return 0;
}
numread = fread(sInXML, sizeof(char), MAX_XML_SIZE, fp);
printf("read size is %d\n", numread);
fclose(fp);
long rcvlen = 0L;
if ((sendbuf = (FBFR32*)tpalloc("FML32", NULL,MAX_XML_SIZE ))==NULL)
{
printf("分配发送buff error\n");
}
if ((rcvbuf = (FBFR32*)tpalloc("FML32", NULL, MAX_XML_SIZE))==NULL)
{
printf("分配接收buff error\n");
}
rcvlen = Fsizeof32(rcvbuf);
//初始化
//if ((ret=tpinit((TPINIT * )NULL))<0)
if ((ret=tpinit(NULL))<0)
{
printf( "tpinit fail\n");
tpfree((char *)sendbuf);
tpfree((char *)rcvbuf);
return -1;
}
Fchg32(sendbuf, IN_XML, 0, (char *)&sInXML, 0L);
ftime(&tp1);
ret=tpcall("POWER_CTL_RUN",(char*)sendbuf,0L,(char**)&rcvbuf,&rcvlen,0L);
ftime(&tp2);
if (Fgets32(rcvbuf, OUT_XML, 0, sOutXML) == -1)
{
printf( " OUT_XML error \n");
}
if (Fget32(rcvbuf, IRESULT, 0, (char*)&lResult, 0) == -1)
{
printf( " IRESULT error \n");
}
if (Fgets32(rcvbuf, SMSG, 0, sErrMsg) == -1)
{
printf( " SMSG error \n");
}
printf("InXML is %s\n", sInXML);
printf("OutXML is : %s\n", sOutXML);
printf("Result is : %ld\n", lResult);
printf("ErrMsg is : %s\n", sErrMsg);
printf(" 用时: %d ms\n", tp2.time*1000+tp2.millitm - tp1.time*1000 -tp1.millitm );
return 0;
}
/*
* Do the test call to the server
*/
int main(int argc, char** argv) {
UBFH *p_ub = (UBFH *)tpalloc("UBF", NULL, 1024);
long rsplen;
int i;
int ret=SUCCEED;
CBadd(p_ub, T_DOUBLE_FLD, "5", 0, BFLD_STRING);
Badd(p_ub, T_STRING_FLD, "THIS IS TEST FIELD 2", 0);
Badd(p_ub, T_STRING_FLD, "THIS IS TEST FIELD 3", 0);
/* Do it many times...! */
for (i=0; i<9900; i++)
{
ret=tppost("EVX.TEST", (char*)p_ub, 0L, TPSIGRSTRT);
NDRX_LOG(log_debug, "dispatched events: %d", ret);
if (ret!=6)
{
NDRX_LOG(log_error, "Applied event count is not 6 (which is %d)", ret);
ret=FAIL;
goto out;
}
else
{
NDRX_LOG(log_debug, "6 dispatches - OK");
}
if (i % 1000 == 0)
{
/* let services to flush the stuff... */
NDRX_LOG(log_debug, "Dispatched %d - sleeping", i);
sleep(10);
}
}
ret=tppost("TEST2EV", (char*)p_ub, 0L, TPSIGRSTRT);
if (3!=ret)
{
NDRX_LOG(log_error, "TESTERROR: First post of TEST2EV did not return 3 (%d) ",
ret);
ret=FAIL;
goto out;
}
sleep(10); /* << because server may not complete the unsubscribe! */
ret=tppost("TEST2EV", (char*)p_ub, 0L, TPSIGRSTRT);
if (0!=ret)
{
NDRX_LOG(log_error, "TESTERROR: Second post of TEST2EV did not return 0 (%d) ",
ret);
ret=FAIL;
goto out;
}
out:
if (ret>=0)
ret=SUCCEED;
return ret;
}
void P_CHANGE_STATUS(TPSVCINFO *rqst)
{
long ltransID=0;
int iRet=0;
char swsnaddr[30];
FBFR32 *sendbuf;
FBFR32 *recvbuf;
char *sendstring;
char *sendbuf2=NULL;
int iLen = rqst->len;
long i;
sendstring = new char[iLen];
memset(sendstring,'\0',iLen);
sendbuf2 = (char *) tpalloc("STRING", NULL, MAX_CMAMSG_LEN);
//char *rcvbuf = NULL;
//char *sendbuf = NULL;
long lRecLen = 0;
char cRouteKey[30];
char tmpBuff[30];
memset(swsnaddr,0,sizeof(swsnaddr));
//rcvbuf = tpalloc("STRING",NULL,MAX_CMAMSG_LEN);
//sendbuf = tpalloc("STRING",NULL,MAX_CMAMSG_LEN);
if ((sendbuf = (FBFR32 *)tpalloc("FML32",NULL,MAX_CMAMSG_LEN)) == NULL)
{
sprintf(sendbuf2,"<iResult=1><sMsg=sendbuf err>");
tpreturn(TPSUCCESS,0L,sendbuf2,MAX_CMAMSG_LEN,0L);
}
if ((recvbuf = (FBFR32 *)tpalloc("FML32",NULL,MAX_CMAMSG_LEN)) == NULL)
{
sprintf(sendbuf2,"<iResult=1><sMsg=recvbuf err>");
tpreturn(TPSUCCESS,0L,sendbuf2,MAX_CMAMSG_LEN,0L);
}
//int iLen = rqst->len;
memcpy(sendstring, rqst->data, iLen);
sendstring[iLen] = 0;
TrimHeadNull(sendstring,iLen);
::PETRI::P_RECVBUFF.reset();
::PETRI::P_RECVBUFF.parseBuff(sendstring);
ltransID = ::PETRI::P_RECVBUFF.getTransitionID();
TOCIQuery query (::PETRI::P_DB.getDB());
try {
string sql = "select b.wsnaddr from P_TRANSITION_HOST_INFO a, WF_HOST_WSNADDR b where a.wsnaddr_id = b.wsnaddr_id and a.transition_id = :TRANSID";
query.close();
query.setSQL(sql.c_str());
query.setParameter("TRANSID",ltransID);
query.open();
while(query.next()) {
strcpy( swsnaddr,query.field(0).asString() );
}
query.close();
string sql2 = "select HOST_AREA||HOST_DOMAIN from P_TRANSITION_HOST_INFO where transition_id = :TRANSID";
query.close();
query.setSQL(sql2.c_str());
query.setParameter("TRANSID",ltransID);
query.open();
while(query.next()) {
strcpy( tmpBuff,query.field(0).asString());
}
query.close();
query.commit();
}catch (TOCIException & toe){
sprintf(sendbuf2,"<iResult=1><sMsg=get WSNADDR err:%s>",toe.getErrMsg());
query.close();
query.commit();
tpfree((char *)sendbuf);
tpreturn(TPSUCCESS,0L,sendbuf2,MAX_CMAMSG_LEN,0L);
} catch(...) {
sprintf(sendbuf2,"<iResult=1><sMsg=get WSNADDR other err>");
query.close();
query.commit();
tpfree((char *)sendbuf);
tpreturn(TPSUCCESS,0L,sendbuf2,MAX_CMAMSG_LEN,0L);
}
if(0 == swsnaddr[0]){
sprintf(sendbuf2,"<iResult=1><sMsg=Transition have no WSNADDR >");
tpfree((char *)sendbuf);
tpreturn(TPSUCCESS,0L,sendbuf2,MAX_CMAMSG_LEN,0L);
}
/*
iRet = setenv("WSNADDR",swsnaddr,1);
if( -1 == iRet){
sprintf(rcvbuf,"<iResult=1><sMsg=set WSNADDR fail>");
tpfree(sendbuf);
tpreturn(TPSUCCESS,0L,rcvbuf,strlen(rcvbuf),0L);
};
*/
strcpy(cRouteKey, tmpBuff);
//iRet = Fchg32(&sendbuf,ROUTE_KEY,0,(char*)cRouteKey,(FLDLEN32)10);
iRet = Fchg32(sendbuf,ROUTE_KEY,0,(char *)cRouteKey,0);
if(iRet < 0)
{
userlog("cRouteKey=[%s],iRet=[%d]",cRouteKey,iRet);
sprintf(sendbuf2,"<iResult=1><sMsg=cslfput to ROUTE_KEY is error>");
tpfree((char *)sendbuf);
tpreturn(TPSUCCESS,0L,sendbuf2,MAX_CMAMSG_LEN,0L);
}
iRet = Fchg32(sendbuf,SEND_STRING,0,(char *)sendstring,0);
if(iRet < 0)
{
userlog("sendstring=[%s],iRet=[%d]",sendstring,iRet);
sprintf(sendbuf2,"<iResult=1><sMsg=cslfput to SEND_STRING is error>");
tpfree((char *)sendbuf);
tpreturn(TPSUCCESS,0L,sendbuf2,MAX_CMAMSG_LEN,0L);
}
iRet = tpcall("P_C_S_LOCAL",(char *)sendbuf,0,(char **)&recvbuf,&lRecLen,0);
if (iRet < 0){
sprintf(sendbuf2,"<iResult=1><sMsg=call localsvc err,tperrno:%d>",tperrno);
tpfree((char *)sendbuf);
tpreturn(TPSUCCESS,0L,sendbuf2,MAX_CMAMSG_LEN,0L);
}
tpfree((char *)sendbuf);
sprintf(sendbuf2,"<iResult=0><sMsg=you tpcall success>");
tpreturn(TPSUCCESS,0L,sendbuf2,MAX_CMAMSG_LEN,0L);
}
void P_GET_TRANSINFO(TPSVCINFO *rqst)
{
long drawID = 0;
int iRet = 0;
char swsnaddr[30];
char *allrcvbuf = NULL;
char *rcvbuf = NULL;
FBFR32 *sendbuf;
FBFR32 *recvbuf;
char *sendstring;
char *sendbuf2=NULL;
int iLen = rqst->len;
long i;
sendstring = new char[iLen];
memset(sendstring,'\0',iLen);
sendbuf2 = (char *) tpalloc("STRING", NULL, MAX_CMAMSG_LEN);
//char *sendbuf = NULL;
long lRecLen = 0;
string s_rcvbuff;
char cRouteKey[30];
char tmpBuff[30];
memset(swsnaddr,0,sizeof(swsnaddr));
allrcvbuf = tpalloc("STRING",NULL,MAX_CMAMSG_LEN);
//rcvbuf = tpalloc("STRING",NULL,MAX_CMAMSG_LEN);
if ((sendbuf = (FBFR32 *)tpalloc("FML32",NULL,MAX_CMAMSG_LEN)) == NULL)
{
sprintf(sendbuf2,"<iResult=1><sMsg=sendbuf err>");
tpreturn(TPSUCCESS,0L,sendbuf2,MAX_CMAMSG_LEN,0L);
}
if ((recvbuf = (FBFR32 *)tpalloc("FML32",NULL,MAX_CMAMSG_LEN)) == NULL)
{
sprintf(sendbuf2,"<iResult=1><sMsg=recvbuf err>");
tpreturn(TPSUCCESS,0L,sendbuf2,MAX_CMAMSG_LEN,0L);
}
//sendbuf = tpalloc("STRING",NULL,MAX_CMAMSG_LEN);
memset(sendstring,0,MAX_CMAMSG_LEN);
s_rcvbuff.clear();
memcpy(sendstring, rqst->data, iLen);
sendstring[iLen] = 0;
TrimHeadNull(sendstring,iLen);
::PETRI::P_RECVBUFF.reset();
::PETRI::P_RECVBUFF.parseBuff(sendstring);
drawID = (long) ::PETRI::P_RECVBUFF.getDrawID();
vector<long> transList;
transList.clear();
TOCIQuery query (::PETRI::P_DB.getDB());
try {
string sql = "SELECT TRANSITION_ID FROM P_TRANSITION_ATTR WHERE DRAW_ID= :DRAWID AND EXE_STATE = 'R'";
query.close();
query.setSQL(sql.c_str());
query.setParameter("DRAWID",drawID);
query.open();
while(query.next()) {
transList.push_back(query.field(0).asLong());
}
query.close();
query.commit();
} catch (TOCIException& toe) {
query.close();
query.commit();
sprintf(sendbuf2,"<iResult=1><sMsg=Get Transition of The Draw Error! %s>",toe.getErrMsg());
tpfree(rcvbuf);
tpfree((char *)sendbuf);
tpreturn(TPSUCCESS,0L,sendbuf2,MAX_CMAMSG_LEN,0L);
} catch (...) {
query.close();
query.commit();
sprintf(sendbuf2,"<iResult=1><sMsg=Get Transition of The Draw Error!> other error");
tpfree(rcvbuf);
tpfree((char *)sendbuf);
tpreturn(TPSUCCESS,0L,sendbuf2,MAX_CMAMSG_LEN,0L);
};
if (0 == transList.size()){
memset(sendbuf2,0,MAX_CMAMSG_LEN);
tpfree(rcvbuf);
tpfree((char *)sendbuf);
query.commit();
tpreturn(TPSUCCESS,0L,sendbuf2,MAX_CMAMSG_LEN,0L);
}
for (int idx = 0;idx <transList.size();idx ++ ) {
try {
string sql = "select b.wsnaddr from P_TRANSITION_HOST_INFO a, WF_HOST_WSNADDR b where a.wsnaddr_id = b.wsnaddr_id and a.transition_id = :TRANSID";
query.close();
query.setSQL(sql.c_str());
query.setParameter("TRANSID",transList[idx]);
query.open();
while(query.next()) {
strcpy( swsnaddr,query.field(0).asString() );
}
query.close();
string sql2 = "select HOST_AREA||HOST_DOMAIN from P_TRANSITION_HOST_INFO where transition_id = :TRANSID";
query.close();
query.setSQL(sql2.c_str());
query.setParameter("TRANSID",transList[idx]);
query.open();
while(query.next()) {
strcpy( tmpBuff,query.field(0).asString());
}
query.close();
query.commit();
}catch (TOCIException & toe){
sprintf(sendbuf2,"<iResult=1><lTransitionID=%ld><sMsg=get WSNADDR err:%s>",transList[idx],toe.getErrMsg());
query.close();
query.commit();
} catch(...) {
sprintf(sendbuf2,"<iResult=1><lTransitionID=%ld><sMsg=get WSNADDR other err>",transList[idx]);
query.close();
query.commit();
}
if(0 == swsnaddr[0]){
sprintf(sendbuf2,"<iResult=1><lTransitionID=%ld><sMsg=Transition have no WSNADDR >",transList[idx]);
}
/*
iRet = setenv("WSNADDR",swsnaddr,1);
if( -1 == iRet){
sprintf(rcvbuf,"<iResult=1><lTransitionID=%ld><sMsg=set WSNADDR fail>",transList[idx]);
};
*/
sprintf(sendbuf2,"<lTransitionID=%ld>%s\0",transList[idx],sendstring);
strcpy(cRouteKey, tmpBuff);
//iRet = cslfput(&sendbuf,ROUTE_KEY,0,cRouteKey);
//iRet = Fchg32(&sendbuf,ROUTE_KEY,0,(char*)cRouteKey,(FLDLEN32)10);
strcpy(cRouteKey, tmpBuff);
iRet = Fchg32(sendbuf,ROUTE_KEY,0,(char *)cRouteKey,0);
//iRet = Fchg32((FBFR32*)(&sendbuf),ROUTE_KEY,0,(char*)cRouteKey,(FLDLEN32)20);
if(iRet < 0)
{
userlog("cRouteKey=[%s],iRet=[%d]",cRouteKey,iRet);
sprintf(sendbuf2,"<iResult=1><sMsg=cslfput to ROUTE_KEY is error>\0");
tpfree((char *)sendbuf);
tpreturn(TPSUCCESS,0L,sendbuf2,MAX_CMAMSG_LEN,0L);
}
iRet = Fchg32(sendbuf,SEND_STRING,0,(char *)sendbuf2,0);
if(iRet < 0)
{
userlog("sendstring=[%s],iRet=[%d]",sendstring,iRet);
sprintf(sendbuf2,"<iResult=1><sMsg=cslfput to SEND_STRING is error>\0");
tpfree((char *)sendbuf);
tpreturn(TPSUCCESS,0L,sendbuf2,MAX_CMAMSG_LEN,0L);
}
iRet = tpcall("P_G_T_LOCAL",(char *)sendbuf,0,(char **)&recvbuf,&lRecLen,0);
if (iRet < 0){
sprintf(sendbuf2,"<iResult=1><lTransitionID=%ld><sMsg=call localsvc err,tperrno:%d>\0",transList[idx],tperrno);
}
userlog(sendbuf2);
s_rcvbuff = s_rcvbuff + "$" + sendbuf2;
}
sprintf (allrcvbuf,"%s\0",s_rcvbuff.c_str());
tpfree((char *)sendbuf);
tpfree((char *)rcvbuf);
tpreturn(TPSUCCESS,0L,allrcvbuf,MAX_CMAMSG_LEN,0L);
}
/*
* Do the test call to the server
*/
int main(int argc, char** argv) {
UBFH *p_ub = (UBFH *)tpalloc("UBF", NULL, 1024);
long rsplen;
int ret=SUCCEED;
char buf[128]={EOS};
if (0==strcmp(argv[1], "DOADV"))
{
if (FAIL == tpcall("DOADV", (char *)p_ub, 0L, (char **)&p_ub, &rsplen,0))
{
NDRX_LOG(log_error, "TESTERROR: DOADV failed: %s", tpstrerror(tperrno));
ret=FAIL;
goto out;
}
}
else if (0==strcmp(argv[1], "UNADV"))
{
if (FAIL == tpcall("UNADV", (char *)p_ub, 0L, (char **)&p_ub, &rsplen,0))
{
NDRX_LOG(log_error, "TESTERROR: UNADV failed: %s", tpstrerror(tperrno));
ret=FAIL;
goto out;
}
}
else if (0==strcmp(argv[1], "TEST"))
{
if (FAIL == tpcall("TESTSVFN", (char *)p_ub, 0L, (char **)&p_ub, &rsplen,0))
{
NDRX_LOG(log_error, "TESTSVFN failed: %s", tpstrerror(tperrno));
ret=FAIL;
goto out;
}
/* Verify the data */
if (FAIL==Bget(p_ub, T_STRING_FLD, 0, (char *)buf, 0))
{
NDRX_LOG(log_debug, "Failed to get T_STRING_FLD[0]");
ret=FAIL;
goto out;
}
else if (0!=strcmp(buf, "THIS IS TEST - OK!"))
{
NDRX_LOG(log_debug, "Call test failed");
ret=FAIL;
goto out;
}
}
else
{
NDRX_LOG(log_error, "ERROR: Invalid command, valid ones are: DOADV, UNADV, TEST");
ret=FAIL;
goto out;
}
out:
/* Terminate the session */
tpterm();
return ret;
}
/*
* Do the test call to the server
*/
int main(int argc, char** argv) {
UBFH *p_ub = (UBFH *)tpalloc("UBF", NULL, 1024);
long rsplen;
int i;
int ret=SUCCEED;
double d;
double dv = 55.66;
int cd;
long revent;
int received = 0;
char tmp[126];
Badd(p_ub, T_STRING_FLD, "THIS IS TEST FIELD 1", 0);
Badd(p_ub, T_STRING_FLD, "THIS IS TEST FIELD 2", 0);
Badd(p_ub, T_STRING_FLD, "THIS IS TEST FIELD 3", 0);
if (FAIL==(cd=tpconnect("CONVSV", (char *)p_ub, 0L, TPRECVONLY)))
{
NDRX_LOG(log_error, "TESTSV connect failed!: %s",
tpstrerror(tperrno));
ret=FAIL;
goto out;
}
/* Recieve the stuff back */
NDRX_LOG(log_debug, "About to tprecv!");
while (SUCCEED==tprecv(cd, (char **)&p_ub, 0L, 0L, &revent))
{
received++;
NDRX_LOG(log_debug, "MSG RECEIVED OK!");
}
/* If we have event, we would like to become recievers if so */
if (TPEEVENT==tperrno)
{
received++;
sprintf(tmp, "CLT: %d", received);
Badd(p_ub, T_STRING_FLD, tmp, 0L);
if (TPEV_SENDONLY==revent)
{
int i=0;
/* Start the sending stuff now! */
for (i=0; i<100 && SUCCEED==ret; i++)
{
ret=tpsend(cd, (char *)p_ub, 0L, 0L, &revent);
}
}
}
/* Now give the control to the server, so that he could finish up */
if (FAIL==tpsend(cd, NULL, 0L, TPRECVONLY, &revent))
{
NDRX_LOG(log_debug, "Failed to give server control!!");
ret=FAIL;
goto out;
}
NDRX_LOG(log_debug, "Get response from tprecv!");
Bfprint(p_ub, stderr);
/* Wait for return from server */
ret=tprecv(cd, (char **)&p_ub, 0L, 0L, &revent);
NDRX_LOG(log_error, "tprecv failed with revent=%ld", revent);
if (FAIL==ret && TPEEVENT==tperrno && TPEV_SVCSUCC==revent)
{
NDRX_LOG(log_error, "Service finished with TPEV_SVCSUCC!");
ret=SUCCEED;
}
if (SUCCEED!=tpterm())
{
NDRX_LOG(log_error, "tpterm failed with: %s", tpstrerror(tperrno));
ret=FAIL;
goto out;
}
out:
return ret;
}
/*************************************
* 功能: 分配缓冲区 *
* 参数: type: 缓冲区类型 *
* size: 缓冲区长度 *
* 返回值: *
* <>NULL 缓冲区地址 *
* =NULL 失败 *
**************************************/
char * cslalloc(char *type ,long size)
{
return(tpalloc(type,NULL,size));
}
/**
* Build outgoing message
* @param[in] msg full message to send
* @param[out] outbuf output buffer/XATMI allocated
* @param[out] olen output buffer len
* @return SUCCEED/FAIL
*/
int msg_build(Message_t *msg, char **outbuf, long *olen)
{
int ret = SUCCEED;
msgbuilder_t *p = M_msgflds;
short *p_short;
long *p_long;
void *fld_ptr;
char *p_string_el;
char tmpbuf[64];
char tmpbuf2[64];
xmlDocPtr newDoc;
xmlNodePtr rootNode;
short *p_items;
int i;
xmlChar *xmlDocInMemory = NULL;
int size = 0;
/* Alloc STRING into obuf */
if (NULL==*outbuf)
{
*outbuf = tpalloc("STRING", NULL, MAX_BUFSZ);
}
if (NULL==*outbuf)
{
TP_LOG(log_error, "Failed to alloc %d bytes: %s",
MAX_BUFSZ, tpstrerror(tperrno));
ret=FAIL;
goto out;
}
/* start libxml2 XML doc */
newDoc = xmlNewDoc( BAD_CAST XML_VERSION );
rootNode = xmlNewNode(NULL, BAD_CAST "user");
xmlDocSetRootElement(newDoc, rootNode);
while (0!=p->tag[0])
{
fld_ptr = (char *)msg + p->msgoffs + p->elmoffs;
switch (p->elmtyp)
{
case MSG_SHORT:
p_short = (short *)fld_ptr;
snprintf(tmpbuf, sizeof(tmpbuf), "%hd", *p_short);
xmlNewTextChild( rootNode, NULL, BAD_CAST p->tag, BAD_CAST tmpbuf );
break;
case MSG_LONG:
p_long = (long *)fld_ptr;
snprintf(tmpbuf, sizeof(tmpbuf), "%ld", *p_long);
xmlNewTextChild( rootNode, NULL, BAD_CAST p->tag, BAD_CAST tmpbuf );
break;
case MSG_STRING:
xmlNewTextChild( rootNode, NULL, BAD_CAST p->tag,
BAD_CAST ((char *)fld_ptr) );
break;
case MSG_ARRAY_SHORT:
p_items = (short *)((char *)msg + p->msgoffs + p->itmoffs);
for (i=0; i<*p_items; i++)
{
p_short = (short *)( (char *)fld_ptr + i*sizeof(short));
snprintf(tmpbuf, sizeof(tmpbuf), "%hd", *p_short);
snprintf(tmpbuf2, sizeof(tmpbuf), "%s_%d", p->tag, i);
xmlNewTextChild( rootNode, NULL, BAD_CAST tmpbuf2,
BAD_CAST tmpbuf );
}
break;
case MSG_ARRAY_STRING:
p_items = (short *)((char *)msg + p->msgoffs + p->itmoffs);
for (i=0; i<*p_items; i++)
{
/* calculate string array element location */
p_string_el = (char *)fld_ptr + i*MAX_STR;
snprintf(tmpbuf2, sizeof(tmpbuf), "%s_%d", p->tag, i);
xmlNewTextChild( rootNode, NULL, BAD_CAST tmpbuf2,
BAD_CAST p_string_el );
}
break;
default:
TP_LOG(log_error, "Unknown element type %d tag: [%s]!",
p->elmtyp, p->tag);
ret=FAIL;
goto out;
break;
}
p++;
}
/* build xmldoc, copy to outbuf, specify size */
xmlDocDumpMemory( newDoc, &xmlDocInMemory, &size );
strncpy(*outbuf, xmlDocInMemory, size);
(*outbuf)[size] = 0;
*olen = size+1;
xmlFree(xmlDocInMemory);
TP_LOG(log_debug, "got XML [%s]", *outbuf);
out:
if (NULL != newDoc)
{
xmlFreeDoc( newDoc );
}
return ret;
}
void P_C_S_LOCAL(TPSVCINFO *rqst)
{
char *sQqstBuf;
//sQqstBuf = tpalloc("STRING",NULL,MAX_CMAMSG_LEN);
//int iLen = rqst->len;
//memcpy(sQqstBuf, rqst->data, iLen);
sQqstBuf = tpalloc("STRING",NULL,MAX_CMAMSG_LEN);
int iRet = 0;
FBFR32 *recvbuf = NULL;
//recvbuf=(FBFR32 *) tpalloc("FML32",NULL,MAX_CMAMSG_LEN);
FBFR32 *sendbuf = NULL;
sendbuf=(FBFR32 *)tpalloc("FML32",NULL,MAX_CMAMSG_LEN);
int iLen = rqst->len;
//memcpy(sQqstBuf, rqst->data, iLen);
//memcpy(recvbuf, rqst->data, iLen);
recvbuf=(FBFR32 *)rqst->data;
Fget32(recvbuf, SEND_STRING, 0, sQqstBuf, 0);
//sQqstBuf[iLen] = 0;
TrimHeadNull(sQqstBuf,iLen);
::PETRI::P_CMDMSG->mtype = (long)pid;
sprintf(::PETRI::P_CMDMSG->mbody,"<iNeedAck=1>%s\0",sQqstBuf);
while ( ::PETRI::P_MQ.ackMQ.receive(pid) ) {
userlog("%ld,%s\n",::PETRI::P_ACKMSG->mtype,::PETRI::P_ACKMSG->mbody);
};
if(!(::PETRI::P_MQ.cmdMQ.send())) {
tpfree((char *)recvbuf);
memset(sQqstBuf,0,MAX_CMAMSG_LEN);
strcpy(sQqstBuf,"<iResult=1><sMsg=MQ Send Fail>");
iRet = Fchg32(recvbuf,SEND_STRING,0,(char *)sQqstBuf,0);
if( iRet > 0 )
tpreturn(TPSUCCESS,0L,(char *)recvbuf,strlen(sQqstBuf),0L);
else
userlog("P_F_LOCAL Error sQqstBuf!");
}
int iTime=0;
bool ifAck = false;
while ( iTime++ < WAIT_TIME ) {
if (::PETRI::P_MQ.ackMQ.receive(pid)) {
ifAck = true;
break;
}
sleep(1);
}
if (ifAck) {
strcpy(sQqstBuf,::PETRI::P_ACKMSG->mbody);
userlog(::PETRI::P_ACKMSG->mbody);
}
/*
else {
while ( ::PETRI::P_MQ.cmdMQ.receive(pid) ){};
strcpy(sQqstBuf,"<iResult=1><sMsg=schd order send OK,wait result timeOut>");
}
*/
//strcpy(sQqstBuf,"OK");
//tpfree((char *)recvbuf);
char sTemp[10]="OK";
//iRet = Fchg32(recvbuf,SEND_STRING,0,(char *)sQqstBuf,0);
iRet = Fchg32(sendbuf,SEND_STRING,0,(char *)sTemp,0);
userlog("iRet=[%d]",iRet);
tpreturn(TPSUCCESS,0L,(char *)sendbuf,MAX_CMAMSG_LEN,0);
//tpreturn(TPSUCCESS,0L,sQqstBuf,strlen(sQqstBuf),0L);
}
void svr_next_command(struct tpclient *c)
{
svriowait(c, tpalloc(0, 0, 1), command, "command");
}
int
main(int argc, char* argv[])
{
DB *dbp3;
DBT key, data;
TPINIT *initBuf;
FBFR *replyBuf;
long replyLen;
int ch, ret, i;
char *target;
char *home = HOME;
u_int32_t flags = DB_INIT_MPOOL | DB_INIT_LOG | DB_INIT_TXN |
DB_INIT_LOCK | DB_CREATE | DB_THREAD | DB_RECOVER | DB_REGISTER;
u_int32_t dbflags = DB_CREATE | DB_THREAD;
progname = argv[0];
initBuf = NULL;
ret = 0;
replyBuf = NULL;
replyLen = 1024;
while ((ch = getopt(argc, argv, "v")) != EOF)
switch (ch) {
case 'v':
verbose = 1;
break;
case '?':
default:
return (usage());
}
argc -= optind;
argv += optind;
if (verbose)
printf("%s: called\n", progname);
if (tpinit((TPINIT *)NULL) == -1)
goto tuxedo_err;
if (verbose)
printf("%s: tpinit() OK\n", progname);
/* Create the DB environment. */
if ((ret = db_env_create(&dbenv, 0)) != 0 ||
(ret = dbenv->open(dbenv, home, flags, 0)) != 0) {
fprintf(stderr,
"%s: %s: %s\n", progname, home, db_strerror(ret));
goto err;
}
dbenv->set_errfile(dbenv, stderr);
if (verbose)
printf("%s: opened %s OK\n", progname, home);
memset(&key, 0, sizeof(key));
memset(&data, 0, sizeof(data));
/* Allocate reply buffer. */
if ((replyBuf = (FBFR*)tpalloc("FML32", NULL, replyLen))
== NULL)
goto tuxedo_err;
if (verbose)
printf("%s: tpalloc(\"FML32\"), reply buffer OK\n",
progname);
for (i = 0; i < 2; i++) {
if (tpbegin(10L, 0L) == -1)
goto tuxedo_err;
if (verbose)
printf("%s: tpbegin() OK\n", progname);
if (tpcall("TestTxn1", NULL, 0L, (char **)&replyBuf,
&replyLen, TPSIGRSTRT) == -1)
goto tuxedo_err;
/* This call will timeout. */
tpcall("TestTxn2", NULL, 0L, (char **)&replyBuf, &replyLen,
TPSIGRSTRT);
if (tperrno != TPETIME)
goto tuxedo_err;
if (i == 0) {
if (tpabort(0L) == -1)
goto tuxedo_err;
if (verbose)
printf("%s: tpabort() OK\n", progname);
} else {
/* Commit will fail due to the time out. */
tpcommit(0L);
if (tperrno != TPEABORT)
goto tuxedo_err;
if (verbose)
printf("%s: tpcommit() OK\n", progname);
}
ret = check_data(dbenv, TABLE1, dbenv, TABLE2, progname);
}
if (0) {
tuxedo_err: fprintf(stderr, "%s: TUXEDO ERROR: %s (code %d)\n",
progname, tpstrerror(tperrno), tperrno);
goto err;
}
if (0) {
err: ret = EXIT_FAILURE;
}
if (replyBuf != NULL)
tpfree((char *)replyBuf);
if (dbenv != NULL)
(void)dbenv->close(dbenv, 0);
tpterm();
if (verbose)
printf("%s: tpterm() OK\n", progname);
if (verbose && ret == 0)
printf("%s: test passed.\n", progname);
else if (verbose)
printf("%s: test failed.\n", progname);
return (ret);
}
