Commit 3fc3c084 authored by unknown's avatar unknown

remove OSE


BitKeeper/deleted/.del-NdbErrHnd.cpp:
  Delete: storage/ndb/src/common/util/NdbErrHnd.cpp
BitKeeper/deleted/.del-MemoryChannelOSE.hpp:
  Delete: storage/ndb/src/kernel/blocks/ndbfs/MemoryChannelOSE.hpp
BitKeeper/deleted/.del-Makefile:
  Delete: storage/ndb/src/common/transporter/priotest/prioOSE/Makefile
BitKeeper/deleted/.del-OSE_Receiver.cpp:
  Delete: storage/ndb/src/common/transporter/OSE_Receiver.cpp
BitKeeper/deleted/.del-OSE_Receiver.hpp:
  Delete: storage/ndb/src/common/transporter/OSE_Receiver.hpp
BitKeeper/deleted/.del-OSE_Signals.hpp:
  Delete: storage/ndb/src/common/transporter/OSE_Signals.hpp
BitKeeper/deleted/.del-OSE_Transporter.cpp:
  Delete: storage/ndb/src/common/transporter/OSE_Transporter.cpp
BitKeeper/deleted/.del-OSE_Transporter.hpp:
  Delete: storage/ndb/src/common/transporter/OSE_Transporter.hpp
BitKeeper/deleted/.del-mmslist.cpp:
  Delete: storage/ndb/src/common/portlib/mmslist.cpp
parent 1577b962
......@@ -155,8 +155,6 @@ public:
/**
* Create a default handler that logs to the syslog.
*
* On OSE a ConsoleHandler will be created since there is no syslog support.
*
* @return true if successful.
*/
bool createSyslogHandler();
......
......@@ -149,9 +149,9 @@
#define CFG_SCI_SEND_LIMIT 554
#define CFG_SCI_BUFFER_MEM 555
#define CFG_OSE_PRIO_A_SIZE 602
#define CFG_OSE_PRIO_B_SIZE 603
#define CFG_OSE_RECEIVE_ARRAY_SIZE 604
#define CFG_602 602 // Removed: was OSE
#define CFG_603 603 // Removed: was OSE
#define CFG_604 604 // Removed: was OSE
/**
* API Config variables
......@@ -178,6 +178,6 @@
#define CONNECTION_TYPE_TCP 0
#define CONNECTION_TYPE_SHM 1
#define CONNECTION_TYPE_SCI 2
#define CONNECTION_TYPE_OSE 3
#define CONNECTION_TYPE_OSE 3 // Removed.
#endif
......@@ -501,12 +501,11 @@
There are four conditions leading to the transfer of database
operations from Ndb object buffers to the NDB kernel:
-# The NDB Transporter (TCP/IP, OSE, SCI or shared memory)
-# The NDB Transporter (TCP/IP, SCI or shared memory)
decides that a buffer is full and sends it off.
The buffer size is implementation-dependent and
may change between MySQL Cluster releases.
On TCP/IP the buffer size is usually around 64 KB;
on OSE/Delta it is usually less than 2000 bytes.
Since each Ndb object provides a single buffer per storage node,
the notion of a "full" buffer is local to this storage node.
-# The accumulation of statistical data on transferred information
......@@ -991,16 +990,7 @@ template <class T> struct Ndb_free_list_t;
typedef void (* NdbEventCallback)(NdbEventOperation*, Ndb*, void*);
#if defined NDB_OSE
/**
* Default time to wait for response after request has been sent to
* NDB Cluster (Set to 10 seconds usually, but to 100 s in
* the OSE operating system)
*/
#define WAITFOR_RESPONSE_TIMEOUT 100000 // Milliseconds
#else
#define WAITFOR_RESPONSE_TIMEOUT 120000 // Milliseconds
#endif
#define NDB_SYSTEM_DATABASE "sys"
#define NDB_SYSTEM_SCHEMA "def"
......
......@@ -17,50 +17,10 @@
#ifndef NDBMAIN_H
#define NDBMAIN_H
#if defined NDB_SOFTOSE || defined NDB_OSE
#include <ose.h>
#include <shell.h>
/* Define an OSE_PROCESS that can be started from osemain.con */
#define NDB_MAIN(name) \
int main_ ## name(int argc, const char** argv); \
OS_PROCESS(name){ \
main_ ## name(0, 0); \
stop(current_process()); \
exit(0); \
} \
int main_ ## name(int argc, const char** argv)
/* Define an function that can be started from the command line */
#define NDB_COMMAND(name, str_name, syntax, description, stacksize) \
int main_ ## name(int argc, const char** argv); \
\
static int run_ ## name(int argc, char *argv[]){ \
return main_ ## name (argc, argv); \
} \
\
OS_PROCESS(init_ ## name){ \
shell_add_cmd_attrs(str_name, syntax, description, \
run_ ## name, OS_PRI_PROC, 25, stacksize); \
stop(current_process()); \
return; \
} \
\
int main_ ## name(int argc, const char** argv)
#else
#define NDB_MAIN(name) \
int main(int argc, const char** argv)
#define NDB_COMMAND(name, str_name, syntax, description, stacksize) \
int main(int argc, const char** argv)
#endif
#endif
......@@ -28,10 +28,7 @@
extern "C" {
#endif
#if defined NDB_OSE || defined NDB_SOFTOSE
#include <ose.h>
typedef SEMAPHORE NdbMutex;
#elif defined NDB_WIN32
#if defined NDB_WIN32
typedef CRITICAL_SECTION NdbMutex;
#else
#include <pthread.h>
......
......@@ -20,27 +20,7 @@
#include <ndb_global.h>
#include <ndb_net.h>
#if defined NDB_OSE || defined NDB_SOFTOSE
/**
* Include files needed
*/
#include "inet.h"
#include <netdb.h>
#define NDB_NONBLOCK FNDELAY
#define NDB_SOCKET_TYPE int
#define NDB_INVALID_SOCKET -1
#define _NDB_CLOSE_SOCKET(x) close(x)
/**
* socklen_t not defined in the header files of OSE
*/
typedef int socklen_t;
#define InetErrno (* inet_errno())
#elif defined NDB_WIN32
#if defined NDB_WIN32
/**
* Include files needed
......
......@@ -23,11 +23,7 @@
extern "C" {
#endif
#if defined NDB_OSE || defined NDB_SOFTOSE
typedef unsigned long NDB_TICKS;
#else
typedef Uint64 NDB_TICKS;
#endif
/**
* Returns the current millisecond since 1970
......
......@@ -49,8 +49,8 @@ enum IOState {
enum TransporterType {
tt_TCP_TRANSPORTER = 1,
tt_SCI_TRANSPORTER = 2,
tt_SHM_TRANSPORTER = 3,
tt_OSE_TRANSPORTER = 4
tt_SHM_TRANSPORTER = 3
// ID 4 was OSE Transporter which has been removed. Don't use ID 4.
};
static const char *performStateString[] =
......@@ -63,7 +63,6 @@ class Transporter;
class TCP_Transporter;
class SCI_Transporter;
class SHM_Transporter;
class OSE_Transporter;
class TransporterRegistry;
class SocketAuthenticator;
......@@ -89,7 +88,6 @@ public:
* @brief ...
*/
class TransporterRegistry {
friend class OSE_Receiver;
friend class SHM_Transporter;
friend class Transporter;
friend class TransporterService;
......@@ -202,7 +200,6 @@ public:
bool createTCPTransporter(struct TransporterConfiguration * config);
bool createSCITransporter(struct TransporterConfiguration * config);
bool createSHMTransporter(struct TransporterConfiguration * config);
bool createOSETransporter(struct TransporterConfiguration * config);
/**
* Get free buffer space
......@@ -288,7 +285,6 @@ private:
int nTCPTransporters;
int nSCITransporters;
int nSHMTransporters;
int nOSETransporters;
/**
* Arrays holding all transporters in the order they are created
......@@ -296,7 +292,6 @@ private:
TCP_Transporter** theTCPTransporters;
SCI_Transporter** theSCITransporters;
SHM_Transporter** theSHMTransporters;
OSE_Transporter** theOSETransporters;
/**
* Array, indexed by nodeId, holding all transporters
......@@ -304,24 +299,6 @@ private:
TransporterType* theTransporterTypes;
Transporter** theTransporters;
/**
* OSE Receiver
*/
class OSE_Receiver * theOSEReceiver;
/**
* In OSE you for some bizar reason needs to create a socket
* the first thing you do when using inet functions.
*
* Furthermore a process doing select has to "own" a socket
*
*/
int theOSEJunkSocketSend;
int theOSEJunkSocketRecv;
#if defined NDB_OSE || defined NDB_SOFTOSE
PROCESS theReceiverPid;
#endif
/**
* State arrays, index by host id
*/
......@@ -355,7 +332,6 @@ private:
int tcpReadSelectReply;
fd_set tcpReadset;
Uint32 poll_OSE(Uint32 timeOutMillis);
Uint32 poll_TCP(Uint32 timeOutMillis);
Uint32 poll_SCI(Uint32 timeOutMillis);
Uint32 poll_SHM(Uint32 timeOutMillis);
......
......@@ -53,15 +53,6 @@ public:
int println(const char * fmt, ...);
};
class SoftOseOutputStream : public OutputStream {
public:
SoftOseOutputStream();
virtual ~SoftOseOutputStream() {}
int print(const char * fmt, ...);
int println(const char * fmt, ...);
};
class NullOutputStream : public OutputStream {
public:
virtual ~NullOutputStream() {}
......
......@@ -42,7 +42,7 @@ const char *opt_debug= 0;
#endif
#define OPT_NDB_CONNECTSTRING 'c'
#if defined VM_TRACE && ( ! ( defined NDB_OSE || defined NDB_SOFTOSE) )
#if defined VM_TRACE
#define OPT_WANT_CORE_DEFAULT 1
#else
#define OPT_WANT_CORE_DEFAULT 0
......
......@@ -23,7 +23,7 @@
#include <FileLogHandler.hpp>
#include "LogHandlerList.hpp"
#if !defined NDB_OSE || !defined NDB_SOFTOSE || !defined NDB_WIN32
#if !defined NDB_WIN32
#include <SysLogHandler.hpp>
#endif
......@@ -134,7 +134,7 @@ Logger::createSyslogHandler()
bool rc = true;
if (m_pSyslogHandler == NULL)
{
#if defined NDB_OSE || defined NDB_SOFTOSE || defined NDB_WIN32
#if defined NDB_WIN32
m_pSyslogHandler = new ConsoleLogHandler();
#else
m_pSyslogHandler = new SysLogHandler();
......
......@@ -20,9 +20,7 @@
#include <ConsoleLogHandler.hpp>
#include <FileLogHandler.hpp>
#if !defined NDB_OSE || !defined NDB_SOFTOSE
#include <SysLogHandler.hpp>
#endif
#include <NdbOut.hpp>
#include <NdbMain.h>
......@@ -53,11 +51,7 @@ NDB_COMMAND(loggertest, "loggertest", "loggertest -console | -file",
{
if (argc < 2)
{
#if defined NDB_OSE || defined NDB_SOFTOSE
ndbout << "Usage: loggertest -console | -file" << endl;
#else
ndbout << "Usage: loggertest -console | -file | -syslog" << endl;
#endif
return 0;
}
......@@ -70,12 +64,10 @@ NDB_COMMAND(loggertest, "loggertest", "loggertest -console | -file",
logger.createFileHandler();
//logger.addHandler(new FileLogHandler(argv[2]));
}
#if !defined NDB_OSE || !defined NDB_SOFTOSE
else if (strcmp(argv[1], "-syslog") == 0)
{
logger.createSyslogHandler();
}
#endif
logger.disable(Logger::LL_ALL);
......@@ -101,8 +93,8 @@ NDB_COMMAND(loggertest, "loggertest", "loggertest -console | -file",
ndbout << endl << "-- " << testCount - testFailed << " passed, "
<< testFailed << " failed --" << endl;
logger.removeAllHandlers(); // Need to remove all for OSE,
// because logger is global
logger.removeAllHandlers();
return 0;
}
......
......@@ -358,18 +358,6 @@ IPCConfig::configureTransporters(Uint32 nodeId,
"maxReceiveSize = %d", conf.tcp.sendBufferSize,
conf.tcp.maxReceiveSize));
break;
case CONNECTION_TYPE_OSE:
if(iter.get(CFG_OSE_PRIO_A_SIZE, &conf.ose.prioASignalSize)) break;
if(iter.get(CFG_OSE_PRIO_B_SIZE, &conf.ose.prioBSignalSize)) break;
if(!tr.createOSETransporter(&conf)){
ndbout << "Failed to create OSE Transporter from: "
<< nodeId << " to: " << remoteNodeId << endl;
} else {
noOfTransportersCreated++;
}
break;
default:
ndbout << "Unknown transporter type from: " << nodeId <<
" to: " << remoteNodeId << endl;
......
......@@ -474,11 +474,6 @@ NDB_COMMAND(PortLibTest, "portlibtest", "portlibtest", "Test the portable functi
testMicros(iter);
ndbout << "Testing microsecond timer - COMPLETED" << endl;
#if defined NDB_OSE || defined NDB_SOFTOSE
ndbout << "system_tick() = " << system_tick() << " us per tick" << endl;
#endif
ndbout << "= TEST10 ===============================" << endl;
testmutex = NdbMutex_Create();
......
/* Copyright (C) 2003 MySQL AB
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
#include <ndb_common.h>
#include <NdbOut.hpp>
#include <NdbMain.h>
#include <ose.h>
#include <mms.sig>
#include <mms_err.h>
#include <NdbOut.hpp>
/**
* NOTE: To use NdbMem from a OSE system ose_mms has to be defined
* as a "Required External Process"(see OSE Kernel User's Guide/R1.1(p. 148)),
* like this:
* EXT_PROC(ose_mms, ose_mms, 50000)
* This will create a global variable ose_mms_ that is used from here.
*/
union SIGNAL
{
SIGSELECT sigNo;
struct MmsListDomainRequest mmsListDomainRequest;
struct MmsListDomainReply mmsListDomainReply;
}; /* union SIGNAL */
extern PROCESS ose_mms_;
struct ARegion
{
unsigned long int address;
unsigned long int size;
char name[32];
U32 resident; /* Boolean, nonzero if resident. */
U32 access; /* See values for AccessType (above) .*/
U32 type; /* either RAM-mem (1) or Io-mem (2) */
U32 cache; /* 0-copyback,1-writethrough, 2-CacheInhibit.*/
};
NDB_COMMAND(mmslist, "mmslist", "mmslist", "LIst the MMS memory segments", 4096){
if (argc == 1){
static SIGSELECT allocate_sig[] = {1,MMS_LIST_DOMAIN_REPLY};
union SIGNAL *sig;
/* Send request to list all segments and regions. */
sig = alloc(sizeof(struct MmsListDomainRequest),
MMS_LIST_DOMAIN_REQUEST);
send(&sig, ose_mms_);
while (true){
sig = receive(allocate_sig);
if (sig != NIL){
if (sig->mmsListDomainReply.status == MMS_SUCCESS){
/* Print domain info */
ndbout << "=================================" << endl;
ndbout << "domain: " << sig->mmsListDomainReply.domain << endl;
ndbout << "name : " << sig->mmsListDomainReply.name << endl;
ndbout << "used : " << sig->mmsListDomainReply.used << endl;
ndbout << "lock : " << sig->mmsListDomainReply.lock << endl;
ndbout << "numOfRegions:" << sig->mmsListDomainReply.numOfRegions << endl;
struct ARegion * tmp = (struct ARegion*)&sig->mmsListDomainReply.regions[0];
for (int i = 0; i < sig->mmsListDomainReply.numOfRegions && i < 256; i++){
ndbout << i << ": adress=" << tmp->address <<
", size=" << tmp->size <<
", name=" << tmp->name <<
", resident=" << tmp->resident <<
", access=" << tmp->access <<
", type=" << tmp->type <<
", cache=" << tmp->cache << endl;
tmp++;
}
free_buf(&sig);
}else{
free_buf(&sig);
break;
}
}
}
}else{
ndbout << "Usage: mmslist" << endl;
}
return NULL;
}
/* Copyright (C) 2003 MySQL AB
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
#include <NdbOut.hpp>
#include "OSE_Receiver.hpp"
#include "OSE_Transporter.hpp"
#include "TransporterCallback.hpp"
#include <TransporterRegistry.hpp>
#include "TransporterInternalDefinitions.hpp"
OSE_Receiver::OSE_Receiver(TransporterRegistry * tr,
int _recBufSize,
NodeId _localNodeId) {
theTransporterRegistry = tr;
recBufSize = _recBufSize;
recBufReadIndex = 0;
recBufWriteIndex = 0;
receiveBuffer = new union SIGNAL * [recBufSize];
waitStackCount = 0;
waitStackSize = _recBufSize;
waitStack = new union SIGNAL * [waitStackSize];
nextSigId = new Uint32[MAX_NTRANSPORTERS];
for (int i = 0; i < MAX_NTRANSPORTERS; i++)
nextSigId[i] = 0;
phantomCreated = false;
localNodeId = _localNodeId;
BaseString::snprintf(localHostName, sizeof(localHostName),
"ndb_node%d", localNodeId);
DEBUG("localNodeId = " << localNodeId << " -> localHostName = "
<< localHostName);
}
OSE_Receiver::~OSE_Receiver(){
while(recBufReadIndex != recBufWriteIndex){
free_buf(&receiveBuffer[recBufReadIndex]);
recBufReadIndex = (recBufReadIndex + 1) % recBufSize;
}
delete [] receiveBuffer;
destroyPhantom();
}
PROCESS
OSE_Receiver::createPhantom(){
redir.sig = 1;
redir.pid = current_process();
if(!phantomCreated){
phantomPid = create_process
(OS_PHANTOM, // Type
localHostName, // Name
NULL, // Entry point
0, // Stack size
0, // Prio - Not used
(OSTIME)0, // Timeslice - Not used
0, // Block - current block
&redir,
(OSVECTOR)0, // vector
(OSUSER)0); // user
phantomCreated = true;
DEBUG("Created phantom pid: " << hex << phantomPid);
}
return phantomPid;
}
void
OSE_Receiver::destroyPhantom(){
if(phantomCreated){
DEBUG("Destroying phantom pid: " << hex << phantomPid);
kill_proc(phantomPid);
phantomCreated = false;
}
}
static SIGSELECT PRIO_A_SIGNALS[] = { 6,
NDB_TRANSPORTER_PRIO_A,
NDB_TRANSPORTER_HUNT,
NDB_TRANSPORTER_CONNECT_REQ,
NDB_TRANSPORTER_CONNECT_REF,
NDB_TRANSPORTER_CONNECT_CONF,
NDB_TRANSPORTER_DISCONNECT_ORD
};
static SIGSELECT PRIO_B_SIGNALS[] = { 1,
NDB_TRANSPORTER_DATA
};
/**
* Check waitstack for signals that are next in sequence
* Put any found signal in receive buffer
* Returns true if one signal is found
*/
bool
OSE_Receiver::checkWaitStack(NodeId _nodeId){
for(int i = 0; i < waitStackCount; i++){
if (waitStack[i]->dataSignal.senderNodeId == _nodeId &&
waitStack[i]->dataSignal.sigId == nextSigId[_nodeId]){
ndbout_c("INFO: signal popped from waitStack, sigId = %d",
waitStack[i]->dataSignal.sigId);
if(isFull()){
ndbout_c("ERROR: receiveBuffer is full");
reportError(callbackObj, _nodeId, TE_RECEIVE_BUFFER_FULL);
return false;
}
// The next signal was found, put it in the receive buffer
insertReceiveBuffer(waitStack[i]);
// Increase sequence id, set it to the next expected id
nextSigId[_nodeId]++;
// Move signals below up one step
for(int j = i; j < waitStackCount-1; j++)
waitStack[j] = waitStack[j+1];
waitStack[waitStackCount] = NULL;
waitStackCount--;
// return true since signal was found
return true;
}
}
return false;
}
/**
* Clear waitstack for signals from node with _nodeId
*/
void
OSE_Receiver::clearWaitStack(NodeId _nodeId){
for(int i = 0; i < waitStackCount; i++){
if (waitStack[i]->dataSignal.senderNodeId == _nodeId){
// Free signal buffer
free_buf(&waitStack[i]);
// Move signals below up one step
for(int j = i; j < waitStackCount-1; j++)
waitStack[j] = waitStack[j+1];
waitStack[waitStackCount] = NULL;
waitStackCount--;
}
}
nextSigId[_nodeId] = 0;
}
inline
void
OSE_Receiver::insertWaitStack(union SIGNAL* _sig){
if (waitStackCount <= waitStackSize){
waitStack[waitStackCount] = _sig;
waitStackCount++;
} else {
ndbout_c("ERROR: waitStack is full");
reportError(callbackObj, localNodeId, TE_WAIT_STACK_FULL);
}
}
bool
OSE_Receiver::doReceive(Uint32 timeOutMillis) {
if(isFull())
return false;
union SIGNAL * sig = receive_w_tmo(0,
PRIO_A_SIGNALS);
if(sig == NIL){
sig = receive_w_tmo(timeOutMillis,
PRIO_B_SIGNALS);
if(sig == NIL)
return false;
}
DEBUG("Received signal: " << sig->sigNo << " "
<< sigNo2String(sig->sigNo));
switch(sig->sigNo){
case NDB_TRANSPORTER_PRIO_A:
{
OSE_Transporter * t = getTransporter(sig->dataSignal.senderNodeId);
if (t != 0 && t->isConnected()){
insertReceiveBuffer(sig);
} else {
free_buf(&sig);
}
}
break;
case NDB_TRANSPORTER_DATA:
{
OSE_Transporter * t = getTransporter(sig->dataSignal.senderNodeId);
if (t != 0 && t->isConnected()){
int nodeId = sig->dataSignal.senderNodeId;
Uint32 currSigId = sig->dataSignal.sigId;
/**
* Check if signal is the next in sequence
* nextSigId is always set to the next sigId to wait for
*/
if (nextSigId[nodeId] == currSigId){
// Insert in receive buffer
insertReceiveBuffer(sig);
// Increase sequence id, set it to the next expected id
nextSigId[nodeId]++;
// Check if there are any signal in the wait stack
if (waitStackCount > 0){
while(checkWaitStack(nodeId));
}
} else {
// Signal was not received in correct order
// Check values and put it in the waitStack
ndbout_c("WARNING: sigId out of order,"
" currSigId = %d, nextSigId = %d",
currSigId, nextSigId[nodeId]);
if (currSigId < nextSigId[nodeId]){
// Current recieved sigId was smaller than nextSigId
// There is no use to put it in the waitStack
ndbout_c("ERROR: recieved sigId was smaller than nextSigId");
reportError(callbackObj, nodeId, TE_TOO_SMALL_SIGID);
return false;
}
if (currSigId > (nextSigId[nodeId] + waitStackSize)){
// Current sigId was larger than nextSigId + size of waitStack
// we can never "save" so many signal's on the stack
ndbout_c("ERROR: currSigId > (nextSigId + size of waitStack)");
reportError(callbackObj, nodeId, TE_TOO_LARGE_SIGID);
return false;
}
// Insert in wait stack
insertWaitStack(sig);
}
} else {
free_buf(&sig);
}
}
break;
case NDB_TRANSPORTER_HUNT:
{
NdbTransporterHunt * s = (NdbTransporterHunt*)sig;
OSE_Transporter * t = getTransporter(s->remoteNodeId);
if(t != 0)
t->huntReceived(s);
free_buf(&sig);
}
break;
case NDB_TRANSPORTER_CONNECT_REQ:
{
NdbTransporterConnectReq * s = (NdbTransporterConnectReq*)sig;
OSE_Transporter * t = getTransporter(s->senderNodeId);
if(t != 0){
if(t->connectReq(s)){
clearWaitStack(s->senderNodeId);
clearRecvBuffer(s->senderNodeId);
}
}
free_buf(&sig);
}
break;
case NDB_TRANSPORTER_CONNECT_REF:
{
NdbTransporterConnectRef * s = (NdbTransporterConnectRef*)sig;
OSE_Transporter * t = getTransporter(s->senderNodeId);
if(t != 0){
if(t->connectRef(s)){
clearWaitStack(s->senderNodeId);
clearRecvBuffer(s->senderNodeId);
}
}
free_buf(&sig);
}
break;
case NDB_TRANSPORTER_CONNECT_CONF:
{
NdbTransporterConnectConf * s = (NdbTransporterConnectConf*)sig;
OSE_Transporter * t = getTransporter(s->senderNodeId);
if(t != 0){
if(t->connectConf(s)){
clearWaitStack(s->senderNodeId);
clearRecvBuffer(s->senderNodeId);
}
}
free_buf(&sig);
}
break;
case NDB_TRANSPORTER_DISCONNECT_ORD:
{
NdbTransporterDisconnectOrd * s = (NdbTransporterDisconnectOrd*)sig;
OSE_Transporter * t = getTransporter(s->senderNodeId);
if(t != 0){
if(t->disconnectOrd(s)){
clearWaitStack(s->senderNodeId);
clearRecvBuffer(s->senderNodeId);
}
}
free_buf(&sig);
}
}
return true;
}
OSE_Transporter *
OSE_Receiver::getTransporter(NodeId nodeId){
if(theTransporterRegistry->theTransporterTypes[nodeId] != tt_OSE_TRANSPORTER)
return 0;
return (OSE_Transporter *)
theTransporterRegistry->theTransporters[nodeId];
}
void
OSE_Receiver::clearRecvBuffer(NodeId nodeId){
int tmpIndex = 0;
union SIGNAL** tmp = new union SIGNAL * [recBufSize];
/**
* Put all signal that I want to keep into tmp
*/
while(recBufReadIndex != recBufWriteIndex){
if(receiveBuffer[recBufReadIndex]->dataSignal.senderNodeId != nodeId){
tmp[tmpIndex] = receiveBuffer[recBufReadIndex];
tmpIndex++;
} else {
free_buf(&receiveBuffer[recBufReadIndex]);
}
recBufReadIndex = (recBufReadIndex + 1) % recBufSize;
}
/**
* Put all signals that I kept back into receiveBuffer
*/
for(int i = 0; i<tmpIndex; i++)
insertReceiveBuffer(tmp[i]);
delete [] tmp;
}
/* Copyright (C) 2003 MySQL AB
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
#ifndef OSE_RECEIVER_HPP
#define OSE_RECEIVER_HPP
#include "ose.h"
#include "OSE_Signals.hpp"
#include <kernel_types.h>
class OSE_Receiver {
public:
OSE_Receiver(class TransporterRegistry *,
int recBufSize,
NodeId localNodeId);
~OSE_Receiver();
bool hasData() const ;
bool isFull() const ;
Uint32 getReceiveData(NodeId * remoteNodeId,
Uint32 ** readPtr);
void updateReceiveDataPtr(Uint32 szRead);
bool doReceive(Uint32 timeOutMillis);
PROCESS createPhantom();
void destroyPhantom();
private:
class TransporterRegistry * theTransporterRegistry;
NodeId localNodeId;
char localHostName[255];
bool phantomCreated;
PROCESS phantomPid;
struct OS_redir_entry redir;
int recBufReadIndex;
int recBufWriteIndex;
int recBufSize;
union SIGNAL **receiveBuffer;
// Stack for signals that are received out of order
int waitStackCount;
int waitStackSize;
union SIGNAL** waitStack;
// Counters for the next signal id
Uint32* nextSigId;
class OSE_Transporter * getTransporter(NodeId nodeId);
void insertReceiveBuffer(union SIGNAL * _sig);
void clearRecvBuffer(NodeId _nodeId);
bool checkWaitStack(NodeId _nodeId);
void clearWaitStack(NodeId _nodeId);
void insertWaitStack(union SIGNAL* _sig);
};
inline
bool
OSE_Receiver::hasData () const {
return recBufReadIndex != recBufWriteIndex;
}
inline
bool
OSE_Receiver::isFull () const {
return ((recBufWriteIndex + 1) % recBufSize) == recBufWriteIndex;
}
inline
Uint32
OSE_Receiver::getReceiveData(NodeId * remoteNodeId,
Uint32 ** readPtr){
NdbTransporterData *s = (NdbTransporterData *)receiveBuffer[recBufReadIndex];
if(recBufReadIndex != recBufWriteIndex){
* remoteNodeId = s->senderNodeId;
* readPtr = &s->data[0];
return s->length;
}
return 0;
}
inline
void
OSE_Receiver::updateReceiveDataPtr(Uint32 bytesRead){
if(bytesRead != 0){
free_buf(&receiveBuffer[recBufReadIndex]);
recBufReadIndex = (recBufReadIndex + 1) % recBufSize;
}
}
inline
void
OSE_Receiver::insertReceiveBuffer(union SIGNAL * _sig){
receiveBuffer[recBufWriteIndex] = _sig;
recBufWriteIndex = (recBufWriteIndex + 1) % recBufSize;
}
#endif
/* Copyright (C) 2003 MySQL AB
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
#ifndef OSE_SIGNALS_HPP
#define OSE_SIGNALS_HPP
#include <ose.h>
#include <kernel_types.h>
#define NDB_TRANSPORTER_SIGBASE 3000
#define NDB_TRANSPORTER_DATA (NDB_TRANSPORTER_SIGBASE + 1) /* !-SIGNO(struct NdbTransporterData)-! */
#define NDB_TRANSPORTER_HUNT (NDB_TRANSPORTER_SIGBASE + 2) /* !-SIGNO(struct NdbTransporterHunt)-! */
#define NDB_TRANSPORTER_CONNECT_REQ (NDB_TRANSPORTER_SIGBASE + 3) /* !-SIGNO(struct NdbTransporterConnectReq)-! */
#define NDB_TRANSPORTER_CONNECT_REF (NDB_TRANSPORTER_SIGBASE + 4) /* !-SIGNO(struct NdbTransporterConnectRef)-! */
#define NDB_TRANSPORTER_CONNECT_CONF (NDB_TRANSPORTER_SIGBASE + 5) /* !-SIGNO(struct NdbTransporterConnectConf)-! */
#define NDB_TRANSPORTER_DISCONNECT_ORD (NDB_TRANSPORTER_SIGBASE + 6) /* !-SIGNO(struct NdbTransporterDisconnectOrd)-! */
#define NDB_TRANSPORTER_PRIO_A (NDB_TRANSPORTER_SIGBASE + 7)
inline
const char *
sigNo2String(SIGSELECT sigNo){
switch(sigNo){
case NDB_TRANSPORTER_PRIO_A:
return "PRIO_A_DATA";
break;
case NDB_TRANSPORTER_DATA:
return "PRIO_B_DATA";
break;
case NDB_TRANSPORTER_HUNT:
return "HUNT";
break;
case NDB_TRANSPORTER_CONNECT_REQ:
return "CONNECT_REQ";
break;
case NDB_TRANSPORTER_CONNECT_REF:
return "CONNECT_REF";
break;
case NDB_TRANSPORTER_CONNECT_CONF:
return "CONNECT_CONF";
break;
case NDB_TRANSPORTER_DISCONNECT_ORD:
return "DISCONNECT_ORD";
break;
}
return "UNKNOWN";
}
struct NdbTransporterData
{
SIGSELECT sigNo;
Uint32 sigId; // Sequence number for this signal
Uint32 senderNodeId;
Uint32 length;
Uint32 data[1];
};
struct NdbTransporterData_PrioA
{
SIGSELECT sigNo;
Uint32 sigId; // Sequence number for this signal
Uint32 senderNodeId;
Uint32 length;
Uint32 data[1];
};
struct NdbTransporterHunt
{
SIGSELECT sigNo;
NodeId remoteNodeId;
};
struct NdbTransporterConnectReq
{
SIGSELECT sigNo;
NodeId remoteNodeId;
NodeId senderNodeId;
};
struct NdbTransporterConnectConf
{
SIGSELECT sigNo;
NodeId remoteNodeId;
NodeId senderNodeId;
};
struct NdbTransporterConnectRef
{
SIGSELECT sigNo;
NodeId remoteNodeId;
NodeId senderNodeId;
Uint32 reason;
/**
* Node is not accepting connections
*/
static const Uint32 INVALID_STATE = 1;
};
struct NdbTransporterDisconnectOrd
{
SIGSELECT sigNo;
NodeId senderNodeId;
Uint32 reason;
/**
* Process died
*/
static const Uint32 PROCESS_DIED = 1;
/**
* Ndb disconnected
*/
static const Uint32 NDB_DISCONNECT = 2;
};
union SIGNAL
{
SIGSELECT sigNo;
struct NdbTransporterData dataSignal;
struct NdbTransporterData prioAData;
struct NdbTransporterHunt ndbHunt;
struct NdbTransporterConnectReq ndbConnectReq;
struct NdbTransporterConnectRef ndbConnectRef;
struct NdbTransporterConnectConf ndbConnectConf;
struct NdbTransporterDisconnectOrd ndbDisconnect;
};
#endif
This diff is collapsed.
/* Copyright (C) 2003 MySQL AB
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
//****************************************************************************
//
// AUTHOR
// Magnus Svensson
//
// NAME
// OSE_Transporter
//
// DESCRIPTION
// A OSE_Transporter instance is created when OSE-signal communication
// shall be used (user specified). It handles connect, disconnect,
// send and receive.
//
//
//
//***************************************************************************/
#ifndef OSE_Transporter_H
#define OSE_Transporter_H
#include "Transporter.hpp"
#include "ose.h"
class OSE_Transporter : public Transporter {
friend class OSE_Receiver;
friend class TransporterRegistry;
public:
// Initialize member variables
OSE_Transporter(int prioASignalSize,
int prioBSignalSize,
NodeId localNodeId,
const char * lHostName,
NodeId remoteNodeId,
NodeId serverNodeId,
const char * rHostName,
int byteorder,
bool compression,
bool checksum,
bool signalId,
Uint32 reportFreq = 4096);
// Disconnect, delete send buffers and receive buffer
~OSE_Transporter();
/**
* Allocate buffers for sending and receiving
*/
bool initTransporter();
/**
* Connect
*/
virtual void doConnect();
/**
* Disconnect
*/
virtual void doDisconnect();
Uint32 * getWritePtr(Uint32 lenBytes, Uint32 prio);
void updateWritePtr(Uint32 lenBytes, Uint32 prio);
/**
* Retrieves the contents of the send buffers, copies it into
* an OSE signal and sends it. Until the send buffers are empty
*/
void doSend();
bool hasDataToSend() const {
return prioBSignal->dataSignal.length > 0;
}
protected:
/**
* Not implemented
* OSE uses async connect/disconnect
*/
virtual bool connectImpl(Uint32 timeOut){
return false;
}
/**
* Not implemented
* OSE uses async connect/disconnect
*/
virtual void disconnectImpl(){
}
private:
const bool isServer;
int maxPrioBDataSize;
/**
* Remote node name
* On same machine: ndb_node1
* On remote machine: rhost/ndb_node1
**/
PROCESS remoteNodePid;
OSATTREF remoteNodeRef;
char remoteNodeName[256];
Uint32 signalIdCounter;
int prioBSignalSize;
Uint32 * prioBInsertPtr;
union SIGNAL * prioBSignal;
struct NdbTransporterData * allocPrioASignal(Uint32 lenBytes) const;
/**
* Statistics
*/
Uint32 reportFreq;
Uint32 receiveCount;
Uint64 receiveSize;
Uint32 sendCount;
Uint64 sendSize;
void initSignals();
/**
* OSE Receiver callbacks
*/
void huntReceived(struct NdbTransporterHunt * sig);
bool connectReq(struct NdbTransporterConnectReq * sig);
bool connectRef(struct NdbTransporterConnectRef * sig);
bool connectConf(struct NdbTransporterConnectConf * sig);
bool disconnectOrd(struct NdbTransporterDisconnectOrd * sig);
enum OSETransporterState {
DISCONNECTED = 0,
WAITING_FOR_HUNT = 1,
WAITING_FOR_CONNECT_REQ = 2,
WAITING_FOR_CONNECT_CONF = 3,
CONNECTED = 4
} state;
};
// Define of OSE_Transporter_H
#endif
......@@ -22,12 +22,6 @@
#include <NdbSleep.h>
// End of stuff to be moved
#if defined NDB_OSE || defined NDB_SOFTOSE
#define inet_send inet_send
#else
#define inet_send send
#endif
#ifdef NDB_WIN32
class ndbstrerror
{
......@@ -221,22 +215,6 @@ TCP_Transporter::setSocketNonBlocking(NDB_SOCKET_TYPE socket){
bool
TCP_Transporter::sendIsPossible(struct timeval * timeout) {
#ifdef NDB_OSE
/**
* In OSE you cant do select without owning a socket,
* and since this method might be called by any thread in the api
* we choose not to implementet and always return true after sleeping
* a while.
*
* Note that this only sensible as long as the sockets are non blocking
*/
if(theSocket >= 0){
Uint32 timeOutMillis = timeout->tv_sec * 1000 + timeout->tv_usec / 1000;
NdbSleep_MilliSleep(timeOutMillis);
return true;
}
return false;
#else
if(theSocket != NDB_INVALID_SOCKET){
fd_set writeset;
FD_ZERO(&writeset);
......@@ -250,7 +228,6 @@ TCP_Transporter::sendIsPossible(struct timeval * timeout) {
return false;
}
return false;
#endif
}
Uint32
......@@ -334,7 +311,7 @@ TCP_Transporter::doSend() {
const char * const sendPtr = m_sendBuffer.sendPtr;
const Uint32 sizeToSend = m_sendBuffer.sendDataSize;
if (sizeToSend > 0){
const int nBytesSent = inet_send(theSocket, sendPtr, sizeToSend, 0);
const int nBytesSent = send(theSocket, sendPtr, sizeToSend, 0);
if (nBytesSent > 0) {
m_sendBuffer.bytesSent(nBytesSent);
......
......@@ -153,10 +153,6 @@ private:
Uint64 sendSize;
ReceiveBuffer receiveBuffer;
#if defined NDB_OSE || defined NDB_SOFTOSE
PROCESS theReceiverPid;
#endif
};
inline
......
......@@ -31,10 +31,6 @@
#define NDB_SCI_TRANSPORTER
#endif
#ifdef HAVE_NDB_OSE
#define NDB_OSE_TRANSPORTER
#endif
#ifdef DEBUG_TRANSPORTER
#define DEBUG(x) ndbout << x << endl
#else
......
......@@ -27,11 +27,6 @@
#include "TCP_Transporter.hpp"
#endif
#ifdef NDB_OSE_TRANSPORTER
#include "OSE_Receiver.hpp"
#include "OSE_Transporter.hpp"
#endif
#ifdef NDB_SCI_TRANSPORTER
#include "SCI_Transporter.hpp"
#endif
......@@ -95,7 +90,6 @@ TransporterRegistry::TransporterRegistry(void * callback,
theTCPTransporters = new TCP_Transporter * [maxTransporters];
theSCITransporters = new SCI_Transporter * [maxTransporters];
theSHMTransporters = new SHM_Transporter * [maxTransporters];
theOSETransporters = new OSE_Transporter * [maxTransporters];
theTransporterTypes = new TransporterType [maxTransporters];
theTransporters = new Transporter * [maxTransporters];
performStates = new PerformState [maxTransporters];
......@@ -106,21 +100,16 @@ TransporterRegistry::TransporterRegistry(void * callback,
nTCPTransporters = 0;
nSCITransporters = 0;
nSHMTransporters = 0;
nOSETransporters = 0;
// Initialize the transporter arrays
for (unsigned i=0; i<maxTransporters; i++) {
theTCPTransporters[i] = NULL;
theSCITransporters[i] = NULL;
theSHMTransporters[i] = NULL;
theOSETransporters[i] = NULL;
theTransporters[i] = NULL;
performStates[i] = DISCONNECTED;
ioStates[i] = NoHalt;
}
theOSEReceiver = 0;
theOSEJunkSocketSend = 0;
theOSEJunkSocketRecv = 0;
DBUG_VOID_RETURN;
}
......@@ -155,19 +144,11 @@ TransporterRegistry::~TransporterRegistry()
delete[] theTCPTransporters;
delete[] theSCITransporters;
delete[] theSHMTransporters;
delete[] theOSETransporters;
delete[] theTransporterTypes;
delete[] theTransporters;
delete[] performStates;
delete[] ioStates;
#ifdef NDB_OSE_TRANSPORTER
if(theOSEReceiver != NULL){
theOSEReceiver->destroyPhantom();
delete theOSEReceiver;
theOSEReceiver = 0;
}
#endif
if (m_mgm_handle)
ndb_mgm_destroy_handle(&m_mgm_handle);
......@@ -327,60 +308,6 @@ TransporterRegistry::createTCPTransporter(TransporterConfiguration *config) {
nTransporters++;
nTCPTransporters++;
#if defined NDB_OSE || defined NDB_SOFTOSE
t->theReceiverPid = theReceiverPid;
#endif
return true;
#else
return false;
#endif
}
bool
TransporterRegistry::createOSETransporter(TransporterConfiguration *conf) {
#ifdef NDB_OSE_TRANSPORTER
if(!nodeIdSpecified){
init(conf->localNodeId);
}
if(conf->localNodeId != localNodeId)
return false;
if(theTransporters[conf->remoteNodeId] != NULL)
return false;
if(theOSEReceiver == NULL){
theOSEReceiver = new OSE_Receiver(this,
10,
localNodeId);
}
OSE_Transporter * t = new OSE_Transporter(conf->ose.prioASignalSize,
conf->ose.prioBSignalSize,
localNodeId,
conf->localHostName,
conf->remoteNodeId,
conf->serverNodeId,
conf->remoteHostName,
conf->checksum,
conf->signalId);
if (t == NULL)
return false;
else if (!t->initTransporter()) {
delete t;
return false;
}
// Put the transporter in the transporter arrays
theOSETransporters[nOSETransporters] = t;
theTransporters[t->getRemoteNodeId()] = t;
theTransporterTypes[t->getRemoteNodeId()] = tt_OSE_TRANSPORTER;
performStates[t->getRemoteNodeId()] = DISCONNECTED;
nTransporters++;
nOSETransporters++;
return true;
#else
return false;
......@@ -548,17 +475,6 @@ TransporterRegistry::removeTransporter(NodeId nodeId) {
for(; ind<nSHMTransporters; ind++)
theSHMTransporters[ind-1] = theSHMTransporters[ind];
nSHMTransporters --;
#endif
break;
case tt_OSE_TRANSPORTER:
#ifdef NDB_OSE_TRANSPORTER
for(; ind < nOSETransporters; ind++)
if(theOSETransporters[ind]->getRemoteNodeId() == nodeId)
break;
ind++;
for(; ind<nOSETransporters; ind++)
theOSETransporters[ind-1] = theOSETransporters[ind];
nOSETransporters --;
#endif
break;
}
......@@ -742,11 +658,6 @@ TransporterRegistry::external_IO(Uint32 timeOutMillis) {
Uint32
TransporterRegistry::pollReceive(Uint32 timeOutMillis){
Uint32 retVal = 0;
#ifdef NDB_OSE_TRANSPORTER
retVal |= poll_OSE(timeOutMillis);
retVal |= poll_TCP(0);
return retVal;
#endif
if((nSCITransporters) > 0)
{
......@@ -824,18 +735,6 @@ TransporterRegistry::poll_SHM(Uint32 timeOutMillis)
}
#endif
#ifdef NDB_OSE_TRANSPORTER
Uint32
TransporterRegistry::poll_OSE(Uint32 timeOutMillis)
{
if(theOSEReceiver != NULL){
return theOSEReceiver->doReceive(timeOutMillis);
}
NdbSleep_MilliSleep(timeOutMillis);
return 0;
}
#endif
#ifdef NDB_TCP_TRANSPORTER
Uint32
TransporterRegistry::poll_TCP(Uint32 timeOutMillis)
......@@ -847,20 +746,8 @@ TransporterRegistry::poll_TCP(Uint32 timeOutMillis)
}
struct timeval timeout;
#ifdef NDB_OSE
// Return directly if there are no TCP transporters configured
if(timeOutMillis <= 1){
timeout.tv_sec = 0;
timeout.tv_usec = 1025;
} else {
timeout.tv_sec = timeOutMillis / 1000;
timeout.tv_usec = (timeOutMillis % 1000) * 1000;
}
#else
timeout.tv_sec = timeOutMillis / 1000;
timeout.tv_usec = (timeOutMillis % 1000) * 1000;
#endif
NDB_SOCKET_TYPE maxSocketValue = -1;
......@@ -908,33 +795,6 @@ TransporterRegistry::poll_TCP(Uint32 timeOutMillis)
void
TransporterRegistry::performReceive()
{
#ifdef NDB_OSE_TRANSPORTER
if(theOSEReceiver != 0)
{
while(theOSEReceiver->hasData())
{
NodeId remoteNodeId;
Uint32 * readPtr;
Uint32 sz = theOSEReceiver->getReceiveData(&remoteNodeId, &readPtr);
transporter_recv_from(callbackObj, remoteNodeId);
Uint32 szUsed = unpack(readPtr,
sz,
remoteNodeId,
ioStates[remoteNodeId]);
#ifdef DEBUG_TRANSPORTER
/**
* OSE transporter can handle executions of
* half signals
*/
assert(sz == szUsed);
#endif
theOSEReceiver->updateReceiveDataPtr(szUsed);
theOSEReceiver->doReceive(0);
// checkJobBuffer();
}
}
#endif
#ifdef NDB_TCP_TRANSPORTER
if(tcpReadSelectReply > 0)
{
......@@ -1009,66 +869,6 @@ TransporterRegistry::performSend()
int i;
sendCounter = 1;
#ifdef NDB_OSE_TRANSPORTER
for (int i = 0; i < nOSETransporters; i++)
{
OSE_Transporter *t = theOSETransporters[i];
if(is_connected(t->getRemoteNodeId()) &&& (t->isConnected()))
{
t->doSend();
}//if
}//for
#endif
#ifdef NDB_TCP_TRANSPORTER
#ifdef NDB_OSE
{
int maxSocketValue = 0;
// Needed for TCP/IP connections
// The writeset are used by select
fd_set writeset;
FD_ZERO(&writeset);
// Prepare for sending and receiving
for (i = 0; i < nTCPTransporters; i++) {
TCP_Transporter * t = theTCPTransporters[i];
// If the transporter is connected
if ((t->hasDataToSend()) && (t->isConnected())) {
const int socket = t->getSocket();
// Find the highest socket value. It will be used by select
if (socket > maxSocketValue) {
maxSocketValue = socket;
}//if
FD_SET(socket, &writeset);
}//if
}//for
// The highest socket value plus one
if(maxSocketValue == 0)
return;
maxSocketValue++;
struct timeval timeout = { 0, 1025 };
Uint32 tmp = select(maxSocketValue, 0, &writeset, 0, &timeout);
if (tmp == 0)
{
return;
}//if
for (i = 0; i < nTCPTransporters; i++) {
TCP_Transporter *t = theTCPTransporters[i];
const NodeId nodeId = t->getRemoteNodeId();
const int socket = t->getSocket();
if(is_connected(nodeId)){
if(t->isConnected() && FD_ISSET(socket, &writeset)) {
t->doSend();
}//if
}//if
}//for
}
#endif
#ifdef NDB_TCP_TRANSPORTER
for (i = m_transp_count; i < nTCPTransporters; i++)
{
......@@ -1091,7 +891,6 @@ TransporterRegistry::performSend()
m_transp_count++;
if (m_transp_count == nTCPTransporters) m_transp_count = 0;
#endif
#endif
#ifdef NDB_SCI_TRANSPORTER
//scroll through the SCI transporters,
// get each transporter, check if connected, send data
......@@ -1470,21 +1269,6 @@ void
TransporterRegistry::startReceiving()
{
DBUG_ENTER("TransporterRegistry::startReceiving");
#ifdef NDB_OSE_TRANSPORTER
if(theOSEReceiver != NULL){
theOSEReceiver->createPhantom();
}
#endif
#ifdef NDB_OSE
theOSEJunkSocketRecv = socket(AF_INET, SOCK_STREAM, 0);
#endif
#if defined NDB_OSE || defined NDB_SOFTOSE
theReceiverPid = current_process();
for(int i = 0; i<nTCPTransporters; i++)
theTCPTransporters[i]->theReceiverPid = theReceiverPid;
#endif
#ifdef NDB_SHM_TRANSPORTER
m_shm_own_pid = getpid();
......@@ -1513,41 +1297,20 @@ TransporterRegistry::startReceiving()
void
TransporterRegistry::stopReceiving(){
#ifdef NDB_OSE_TRANSPORTER
if(theOSEReceiver != NULL){
theOSEReceiver->destroyPhantom();
}
#endif
/**
* Disconnect all transporters, this includes detach from remote node
* and since that must be done from the same process that called attach
* it's done here in the receive thread
*/
disconnectAll();
#if defined NDB_OSE || defined NDB_SOFTOSE
if(theOSEJunkSocketRecv > 0)
close(theOSEJunkSocketRecv);
theOSEJunkSocketRecv = -1;
#endif
}
void
TransporterRegistry::startSending(){
#if defined NDB_OSE || defined NDB_SOFTOSE
theOSEJunkSocketSend = socket(AF_INET, SOCK_STREAM, 0);
#endif
}
void
TransporterRegistry::stopSending(){
#if defined NDB_OSE || defined NDB_SOFTOSE
if(theOSEJunkSocketSend > 0)
close(theOSEJunkSocketSend);
theOSEJunkSocketSend = -1;
#endif
}
NdbOut & operator <<(NdbOut & out, SignalHeader & sh){
......
......@@ -57,21 +57,6 @@ TCP_TransporterConfiguration tcpTemplate = {
true // signalId;
};
OSE_TransporterConfiguration oseTemplate = {
"", // remoteHostName;
"", // localHostName;
0, // remoteNodeId;
0, // localNodeId;
false, // compression;
true, // checksum;
true, // signalId;
0, // byteOrder;
2000, // prioASignalSize;
1000, // prioBSignalSize;
10
};
SHM_TransporterConfiguration shmTemplate = {
0, //remoteNodeId
0, //localNodeId;
......@@ -85,16 +70,12 @@ SHM_TransporterConfiguration shmTemplate = {
TransporterRegistry *tReg = 0;
#ifndef OSE_DELTA
#include <signal.h>
#endif
extern "C"
void
signalHandler(int signo){
#ifndef OSE_DELTA
::signal(13, signalHandler);
#endif
char buf[255];
sprintf(buf,"Signal: %d\n", signo);
ndbout << buf << endl;
......@@ -114,7 +95,6 @@ typedef void (* CreateTransporterFunc)(void * conf,
const char * localHostName,
const char * remoteHostName);
void createOSETransporter(void *, NodeId, NodeId, const char *, const char *);
void createSCITransporter(void *, NodeId, NodeId, const char *, const char *);
void createTCPTransporter(void *, NodeId, NodeId, const char *, const char *);
void createSHMTransporter(void *, NodeId, NodeId, const char *, const char *);
......@@ -172,9 +152,6 @@ main(int argc, const char **argv){
if(strcasecmp(type, "tcp") == 0){
func = createTCPTransporter;
confTemplate = &tcpTemplate;
} else if(strcasecmp(type, "ose") == 0){
func = createOSETransporter;
confTemplate = &oseTemplate;
} else if(strcasecmp(type, "sci") == 0){
func = createSCITransporter;
confTemplate = &sciTemplate;
......
......@@ -70,33 +70,14 @@ TCP_TransporterConfiguration tcpTemplate = {
true // signalId;
};
OSE_TransporterConfiguration oseTemplate = {
"", // remoteHostName;
"", // localHostName;
0, // remoteNodeId;
0, // localNodeId;
false, // compression;
true, // checksum;
true, // signalId;
0, // byteOrder;
2000, // prioASignalSize;
2000, // prioBSignalSize;
10 // Recv buf size
};
TransporterRegistry *tReg = 0;
#ifndef OSE_DELTA
#include <signal.h>
#endif
extern "C"
void
signalHandler(int signo){
#ifndef OSE_DELTA
::signal(13, signalHandler);
#endif
char buf[255];
sprintf(buf,"Signal: %d\n", signo);
ndbout << buf << endl;
......@@ -119,8 +100,6 @@ typedef void (* CreateTransporterFunc)(void * conf,
int sendBuf,
int recvBuf);
void
createOSETransporter(void*, NodeId, NodeId, const char*, const char*, int, int);
void
createTCPTransporter(void*, NodeId, NodeId, const char*, const char*, int, int);
void
......@@ -455,9 +434,6 @@ main(int argc, const char **argv){
if(strcasecmp(type, "tcp") == 0){
func = createTCPTransporter;
confTemplate = &tcpTemplate;
} else if(strcasecmp(type, "ose") == 0){
func = createOSETransporter;
confTemplate = &oseTemplate;
} else if(strcasecmp(type, "sci") == 0){
func = createSCITransporter;
confTemplate = &sciTemplate;
......@@ -631,43 +607,6 @@ checkJobBuffer() {
return 0;
}
void
createOSETransporter(void * _conf,
NodeId localNodeId,
NodeId remoteNodeId,
const char * localHostName,
const char * remoteHostName,
int sendBuf,
int recvBuf){
ndbout << "Creating OSE transporter from node "
<< localNodeId << "(" << localHostName << ") to "
<< remoteNodeId << "(" << remoteHostName << ")..." << endl;;
OSE_TransporterConfiguration * conf = (OSE_TransporterConfiguration*)_conf;
if(sendBuf != -1){
conf->prioBSignalSize = sendBuf;
}
if(recvBuf != -1){
conf->receiveBufferSize = recvBuf;
}
ndbout << "\tSendBufferSize: " << conf->prioBSignalSize << endl;
ndbout << "\tReceiveBufferSize: " << conf->receiveBufferSize << endl;
conf->localNodeId = localNodeId;
conf->localHostName = localHostName;
conf->remoteNodeId = remoteNodeId;
conf->remoteHostName = remoteHostName;
bool res = tReg->createTransporter(conf);
if(res)
ndbout << "... -- Success " << endl;
else
ndbout << "... -- Failure " << endl;
}
void
createSCITransporter(void * _conf,
NodeId localNodeId,
......
include .defs.mk
TYPE := ndbapi
BIN_TARGET := perfOSE
BIN_TARGET_ARCHIVES := perftransportertest transporter portlib
CCFLAGS_LOC += -I..
SOURCES = perfOSE.cpp
include $(NDB_TOP)/Epilogue.mk
......@@ -71,33 +71,14 @@ TCP_TransporterConfiguration tcpTemplate = {
true // signalId;
};
OSE_TransporterConfiguration oseTemplate = {
"", // remoteHostName;
"", // localHostName;
0, // remoteNodeId;
0, // localNodeId;
false, // compression;
true, // checksum;
true, // signalId;
0, // byteOrder;
2000, // prioASignalSize;
2000, // prioBSignalSize;
10 // Recv buf size
};
TransporterRegistry *tReg = 0;
#ifndef OSE_DELTA
#include <signal.h>
#endif
extern "C"
void
signalHandler(int signo){
#ifndef OSE_DELTA
::signal(13, signalHandler);
#endif
char buf[255];
sprintf(buf,"Signal: %d\n", signo);
ndbout << buf << endl;
......@@ -119,43 +100,6 @@ typedef void (* CreateTransporterFunc)(void * conf,
int sendBuf,
int recvBuf);
void
createOSETransporter(void * _conf,
NodeId localNodeId,
NodeId remoteNodeId,
const char * localHostName,
const char * remoteHostName,
int sendBuf,
int recvBuf){
ndbout << "Creating OSE transporter from node "
<< localNodeId << "(" << localHostName << ") to "
<< remoteNodeId << "(" << remoteHostName << ")..." << endl;;
OSE_TransporterConfiguration * conf = (OSE_TransporterConfiguration*)_conf;
if(sendBuf != -1){
conf->prioBSignalSize = sendBuf;
}
if(recvBuf != -1){
conf->receiveBufferSize = recvBuf;
}
ndbout << "\tSendBufferSize: " << conf->prioBSignalSize << endl;
ndbout << "\tReceiveBufferSize: " << conf->receiveBufferSize << endl;
conf->localNodeId = localNodeId;
conf->localHostName = localHostName;
conf->remoteNodeId = remoteNodeId;
conf->remoteHostName = remoteHostName;
bool res = tReg->createTransporter(conf);
if(res)
ndbout << "... -- Success " << endl;
else
ndbout << "... -- Failure " << endl;
}
void
createSCITransporter(void * _conf,
NodeId localNodeId,
......@@ -578,10 +522,6 @@ prioTransporterTest(TestType tt, const char * progName,
func = createTCPTransporter;
confTemplate = &tcpTemplate;
break;
case TestOSE:
func = createOSETransporter;
confTemplate = &oseTemplate;
break;
case TestSCI:
func = createSCITransporter;
confTemplate = &sciTemplate;
......
......@@ -20,7 +20,6 @@
enum TestType {
TestTCP,
TestOSE,
TestSCI,
TestSHM
};
......
......@@ -183,10 +183,5 @@ File_class::getName() const
int
File_class::flush() const
{
#if defined NDB_OSE || defined NDB_SOFTOSE
::fflush(m_file);
return ::fsync(::fileno(m_file));
#else
return ::fflush(m_file);;
#endif
}
This diff is collapsed.
......@@ -64,36 +64,3 @@ SocketOutputStream::println(const char * fmt, ...){
va_end(ap);
return ret;
}
#ifdef NDB_SOFTOSE
#include <dbgprintf.h>
int
SoftOseOutputStream::print(const char * fmt, ...){
va_list ap;
char buf[1000];
va_start(ap, fmt);
if (fmt != 0)
BaseString::vsnprintf(buf, sizeof(buf)-1, fmt, ap);
else
buf[0] = 0;
va_end(ap);
dbgprintf(buf);
}
int
SoftOseOutputStream::println(const char * fmt, ...){
va_list ap;
char buf[1000];
va_start(ap, fmt);
if (fmt != 0)
BaseString::vsnprintf(buf, sizeof(buf)-1, fmt, ap);
else
buf[0] = 0;
va_end(ap);
strcat(buf, "\n\r");
dbgprintf(buf);
}
#endif
......@@ -264,21 +264,6 @@ SocketServer::startSession(SessionInstance & si){
NDB_THREAD_PRIO_LOW);
}
static
bool
transfer(NDB_SOCKET_TYPE sock){
#if defined NDB_OSE || defined NDB_SOFTOSE
const PROCESS p = current_process();
const size_t ps = sizeof(PROCESS);
int res = setsockopt(sock, SOL_SOCKET, SO_OSEOWNER, &p, ps);
if(res != 0){
ndbout << "Failed to transfer ownership of socket" << endl;
return false;
}
#endif
return true;
}
void
SocketServer::foreachSession(void (*func)(SocketServer::Session*, void *), void *data)
{
......@@ -350,11 +335,6 @@ void*
sessionThread_C(void* _sc){
SocketServer::Session * si = (SocketServer::Session *)_sc;
if(!transfer(si->m_socket)){
si->m_stopped = true;
return 0;
}
/**
* may have m_stopped set if we're transforming a mgm
* connection into a transporter connection.
......
......@@ -36,7 +36,7 @@
#undef HAVE_PREAD
#endif
#if defined NDB_WIN32 || defined NDB_OSE || defined NDB_SOFTOSE
#if defined NDB_WIN32
#else
// For readv and writev
#include <sys/uio.h>
......@@ -60,11 +60,7 @@ void printErrorAndFlags(Uint32 used_flags);
#endif
// Define the size of the write buffer (for each thread)
#if defined NDB_SOFTOSE || defined NDB_OSE
#define WRITEBUFFERSIZE 65536
#else
#define WRITEBUFFERSIZE 262144
#endif
const char *actionName[] = {
"open",
......@@ -1142,7 +1138,6 @@ void printErrorAndFlags(Uint32 used_flags) {
case EOPNOTSUPP:
strcat(buf, "EOPNOTSUPP");
break;
#if !defined NDB_OSE && !defined NDB_SOFTOSE
case EMULTIHOP :
strcat(buf, "EMULTIHOP");
break;
......@@ -1155,7 +1150,6 @@ void printErrorAndFlags(Uint32 used_flags) {
case EOVERFLOW :
strcat(buf, "EOVERFLOW");
break;
#endif
case EROFS :
strcat(buf, "EROFS");
break;
......@@ -1188,9 +1182,6 @@ void printErrorAndFlags(Uint32 used_flags) {
break;
}
strcat(buf, "\" ");
#if defined NDB_OSE
strcat(buf, strerror(errno) << " ");
#endif
strcat(buf, " flags: ");
switch(used_flags & 3){
case O_RDONLY:
......@@ -1218,7 +1209,6 @@ void printErrorAndFlags(Uint32 used_flags) {
strcat(buf, "O_NONBLOCK, ");
if((used_flags & O_TRUNC)==O_TRUNC)
strcat(buf, "O_TRUNC, ");
#if !defined NDB_OSE && !defined NDB_SOFTOSE
if((used_flags & O_DSYNC)==O_DSYNC)
strcat(buf, "O_DSYNC, ");
if((used_flags & O_NDELAY)==O_NDELAY)
......@@ -1230,7 +1220,6 @@ void printErrorAndFlags(Uint32 used_flags) {
strcat(buf, "O_SYNC, ");
#endif
DEBUG(ndbout_c(buf));
#endif
}
#endif
......
......@@ -65,10 +65,6 @@
// T : item from the channel or zero if channel is empty.
//
#if defined NDB_OSE || defined NDB_SOFTOSE
#include "MemoryChannelOSE.hpp"
#else
#include "ErrorHandlingMacros.hpp"
#include "CircularIndex.hpp"
#include "NdbMutex.h"
......@@ -179,7 +175,5 @@ template <class T> T* MemoryChannel<T>::tryReadChannel()
return tmp;
}
#endif
#endif // MemoryChannel_H
/* Copyright (C) 2003 MySQL AB
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
#ifndef MemoryChannelOSE_H
#define MemoryChannelOSE_H
//===========================================================================
//
// .DESCRIPTION
// Pointer based communication channel for communication between two
// thread. It sends the pointer to the other signal via an OSE signal
//
// .TYPICAL USE:
// to communicate between threads.
//
// .EXAMPLE:
// See AsyncFile.C
//===========================================================================
//
//
// MemoryChannel( int size= 256);
// Constuctor
// Parameters:
// size : is ignored in OSE version
//
// void operator ++ ();
// increments the index with one, if size is reached it is set to zero
//
// virtual void write( T *t);
// Puts the item in the channel if the channel is full an error is reported.
// Parameters:
// t: pointer to item to put in the channel, after this the item
// is shared with the other thread.
// errors
// AFS_ERROR_CHANNALFULL, channel is full
//
// T* read();
// Reads a itemn from the channel, if channel is empty it blocks untill
// an item can be read.
// return
// T : item from the channel
//
// T* tryRead();
// Reads a item from the channel, if channel is empty it returns zero.
// return
// T : item from the channel or zero if channel is empty.
//
#include <ose.h>
#include "ErrorHandlingMacros.hpp"
#include "Error.hpp"
#include "NdbMutex.h"
#include "NdbCondition.h"
template <class T>
class MemoryChannel
{
public:
MemoryChannel( int size= 256);
virtual ~MemoryChannel( );
virtual void writeChannel( T *t);
T* readChannel();
T* tryReadChannel();
private:
PROCESS theReceiverPid;
};
template <class T> class MemoryChannelMultipleWriter:public MemoryChannel<T>
{
public:
MemoryChannelMultipleWriter( int size= 256);
~MemoryChannelMultipleWriter( );
void writeChannel( T *t);
private:
};
#define MEMCHANNEL_SIGBASE 5643
#define MEMCHANNEL_SIGNAL (MEMCHANNEL_SIGBASE + 1) /* !-SIGNO(struct MemChannelSignal)-! */
struct MemChannelSignal
{
SIGSELECT sigNo;
void* ptr;
};
union SIGNAL
{
SIGSELECT sigNo;
struct MemChannelSignal memChanSig;
};
template <class T> MemoryChannel<T>::MemoryChannel( int size )
{
// Default receiver for this channel is the creating process
theReceiverPid = current_process();
}
template <class T> MemoryChannel<T>::~MemoryChannel( )
{
}
template <class T> void MemoryChannel<T>::writeChannel( T *t)
{
union SIGNAL* sig;
sig = alloc(sizeof(struct MemChannelSignal), MEMCHANNEL_SIGNAL);
((struct MemChannelSignal*)sig)->ptr = t;
send(&sig, theReceiverPid);
}
template <class T> T* MemoryChannel<T>::readChannel()
{
T* tmp;
static const SIGSELECT sel_mem[] = {1, MEMCHANNEL_SIGNAL};
union SIGNAL* sig;
tmp = NULL; /* Default value */
sig = receive((SIGSELECT*)sel_mem);
if (sig != NIL){
if (sig->sigNo == MEMCHANNEL_SIGNAL){
tmp = (T*)(((struct MemChannelSignal*)sig)->ptr);
}else{
assert(1==0);
}
free_buf(&sig);
}
return tmp;
}
template <class T> T* MemoryChannel<T>::tryReadChannel()
{
T* tmp;
static const SIGSELECT sel_mem[] = {1, MEMCHANNEL_SIGNAL};
union SIGNAL* sig;
tmp = NULL; /* Default value */
sig = receive_w_tmo(0, (SIGSELECT*)sel_mem);
if (sig != NIL){
if (sig->sigNo == MEMCHANNEL_SIGNAL){
tmp = (T*)(((struct MemChannelSignal*)sig)->ptr);
}else{
assert(1==0);
}
free_buf(&sig);
}
return tmp;
}
#endif // MemoryChannel_H
......@@ -914,54 +914,6 @@ Uint32 Ndbfs::translateErrno(int aErrno)
return FsRef::fsErrUnknown;
}
}
#elif defined NDB_OSE || defined NDB_SOFTOSE
Uint32 Ndbfs::translateErrno(int aErrno)
{
switch (aErrno)
{
//permission denied
case EACCES:
case EROFS:
case ENXIO:
return FsRef::fsErrPermissionDenied;
//temporary not accessible
case EAGAIN:
case ETIMEDOUT:
case ENOLCK:
return FsRef::fsErrTemporaryNotAccessible;
//no space left on device
case ENFILE:
case EDQUOT:
case ENOSPC:
return FsRef::fsErrNoSpaceLeftOnDevice;
//none valid parameters
case EINVAL:
case EFBIG:
case EBADF:
case ENAMETOOLONG:
case EFAULT:
case EISDIR:
return FsRef::fsErrInvalidParameters;
//environment error
case EMLINK:
case ELOOP:
return FsRef::fsErrEnvironmentError;
//no more process resources
case EMFILE:
case ENOMEM:
return FsRef::fsErrNoMoreResources;
//no file
case ENOENT:
return FsRef::fsErrFileDoesNotExist;
case ERR_ReadUnderflow:
return FsRef::fsErrReadUnderflow;
default:
return FsRef::fsErrUnknown;
}
}
#else
Uint32 Ndbfs::translateErrno(int aErrno)
{
......
......@@ -540,7 +540,7 @@ systemInfo(const Configuration & config, const LogLevel & logLevel){
void
catchsigs(bool ignore){
#if !defined NDB_WIN32 && !defined NDB_SOFTOSE && !defined NDB_OSE
#if !defined NDB_WIN32
static const int signals_shutdown[] = {
#ifdef SIGBREAK
......
......@@ -140,14 +140,14 @@ NdbShutdown(NdbShutdownType type,
globalData.theRestartFlag = perform_stop;
bool restart = false;
#if ! ( defined NDB_OSE || defined NDB_SOFTOSE)
if((type != NST_Normal &&
globalEmulatorData.theConfiguration->stopOnError() == false) ||
type == NST_Restart) {
restart = true;
}
#endif
const char * shutting = "shutting down";
if(restart){
......@@ -278,7 +278,7 @@ NdbShutdown(NdbShutdownType type,
*/
if (type== NST_Watchdog){
g_eventLogger.info("Watchdog is killing system the hard way");
#if defined VM_TRACE && ( ! ( defined NDB_OSE || defined NDB_SOFTOSE) )
#if defined VM_TRACE
childAbort(-1,g_currentStartPhase);
#else
childExit(-1,g_currentStartPhase);
......
......@@ -101,15 +101,6 @@ ThreadConfig::scanTimeQueue()
void ThreadConfig::ipControlLoop()
{
#if defined NDB_OSE || defined NDB_SOFTOSE
//--------------------------------------------------------------------
// To let the Cello Watchdog do it's work NDB must sleep a short
// period every 10 minutes. If this is not done, the watchdog will
// reboot the board NDB is running on when the load is high.
//--------------------------------------------------------------------
int loopCounter = 0;
#endif
//--------------------------------------------------------------------
// initialise the counter that keeps track of the current millisecond
//--------------------------------------------------------------------
......@@ -117,18 +108,6 @@ void ThreadConfig::ipControlLoop()
Uint32 i = 0;
while (globalData.theRestartFlag != perform_stop) {
#if defined NDB_OSE || defined NDB_SOFTOSE
loopCounter++;
if(loopCounter > 1000){
//--------------------------------------------------------------------
// This is done to allow OSE do a context switch to let the watchdog
// do it's stuff.
//--------------------------------------------------------------------
NdbSleep_MilliSleep(1);
loopCounter = 0;
}
#endif
Uint32 timeOutMillis = 0;
if (LEVEL_IDLE == globalData.highestAvailablePrio) {
//--------------------------------------------------------------------
......
......@@ -39,7 +39,7 @@ class ConfigInfo;
* - Connections between nodes and computers the nodes will execute on.
*
* The following categories (sections) of configuration parameters exists:
* - COMPUTER, DB, MGM, API, TCP, SCI, SHM, OSE
* - COMPUTER, DB, MGM, API, TCP, SCI, SHM
*
*/
......
......@@ -66,8 +66,7 @@ ConfigInfo::m_sectionNames[]={
"TCP",
"SCI",
"SHM",
"OSE"
"SHM"
};
const int ConfigInfo::m_noOfSectionNames =
sizeof(m_sectionNames)/sizeof(char*);
......@@ -112,12 +111,10 @@ ConfigInfo::m_SectionRules[] = {
{ "TCP", checkConnectionSupport, 0 },
{ "SHM", checkConnectionSupport, 0 },
{ "SCI", checkConnectionSupport, 0 },
{ "OSE", checkConnectionSupport, 0 },
{ "TCP", transformConnection, 0 },
{ "SHM", transformConnection, 0 },
{ "SCI", transformConnection, 0 },
{ "OSE", transformConnection, 0 },
{ DB_TOKEN, fixNodeHostname, 0 },
{ API_TOKEN, fixNodeHostname, 0 },
......@@ -129,8 +126,6 @@ ConfigInfo::m_SectionRules[] = {
{ "SHM", fixNodeId, "NodeId2" },
{ "SCI", fixNodeId, "NodeId1" },
{ "SCI", fixNodeId, "NodeId2" },
{ "OSE", fixNodeId, "NodeId1" },
{ "OSE", fixNodeId, "NodeId2" },
{ "TCP", fixHostname, "HostName1" },
{ "TCP", fixHostname, "HostName2" },
......@@ -140,8 +135,6 @@ ConfigInfo::m_SectionRules[] = {
{ "SCI", fixHostname, "HostName2" },
{ "SHM", fixHostname, "HostName1" },
{ "SHM", fixHostname, "HostName2" },
{ "OSE", fixHostname, "HostName1" },
{ "OSE", fixHostname, "HostName2" },
{ "TCP", fixPortNumber, 0 }, // has to come after fixHostName
{ "SHM", fixPortNumber, 0 }, // has to come after fixHostName
......@@ -165,7 +158,6 @@ ConfigInfo::m_SectionRules[] = {
{ "TCP", checkConnectionConstraints, 0 },
{ "SHM", checkConnectionConstraints, 0 },
{ "SCI", checkConnectionConstraints, 0 },
{ "OSE", checkConnectionConstraints, 0 },
{ "TCP", checkTCPConstraints, "HostName1" },
{ "TCP", checkTCPConstraints, "HostName2" },
......@@ -182,8 +174,7 @@ ConfigInfo::m_SectionRules[] = {
{ "TCP", saveInConfigValues, 0 },
{ "SHM", saveInConfigValues, 0 },
{ "SCI", saveInConfigValues, 0 },
{ "OSE", saveInConfigValues, 0 }
{ "SCI", saveInConfigValues, 0 }
};
const int ConfigInfo::m_NoOfRules = sizeof(m_SectionRules)/sizeof(SectionRule);
......@@ -2147,150 +2138,7 @@ const ConfigInfo::ParamInfo ConfigInfo::m_ParamInfo[] = {
false,
ConfigInfo::CI_STRING,
UNDEFINED,
0, 0 },
/****************************************************************************
* OSE
***************************************************************************/
{
CFG_SECTION_CONNECTION,
"OSE",
"OSE",
"Connection section",
ConfigInfo::CI_USED,
false,
ConfigInfo::CI_SECTION,
(const char *)CONNECTION_TYPE_OSE,
0, 0
},
{
CFG_CONNECTION_HOSTNAME_1,
"HostName1",
"OSE",
"Name of computer on one side of the connection",
ConfigInfo::CI_USED,
false,
ConfigInfo::CI_STRING,
UNDEFINED,
0, 0 },
{
CFG_CONNECTION_HOSTNAME_2,
"HostName2",
"OSE",
"Name of computer on one side of the connection",
ConfigInfo::CI_USED,
false,
ConfigInfo::CI_STRING,
UNDEFINED,
0, 0 },
{
CFG_CONNECTION_NODE_1,
"NodeId1",
"OSE",
"Id of node ("DB_TOKEN_PRINT", "API_TOKEN_PRINT" or "MGM_TOKEN_PRINT") on one side of the connection",
ConfigInfo::CI_USED,
false,
ConfigInfo::CI_INT,
MANDATORY,
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_CONNECTION_NODE_2,
"NodeId2",
"OSE",
"Id of node ("DB_TOKEN_PRINT", "API_TOKEN_PRINT" or "MGM_TOKEN_PRINT") on one side of the connection",
ConfigInfo::CI_USED,
false,
ConfigInfo::CI_INT,
UNDEFINED,
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_CONNECTION_SEND_SIGNAL_ID,
"SendSignalId",
"OSE",
"Sends id in each signal. Used in trace files.",
ConfigInfo::CI_USED,
false,
ConfigInfo::CI_BOOL,
"true",
"false",
"true" },
{
CFG_CONNECTION_CHECKSUM,
"Checksum",
"OSE",
"If checksum is enabled, all signals between nodes are checked for errors",
ConfigInfo::CI_USED,
false,
ConfigInfo::CI_BOOL,
"false",
"false",
"true" },
{
CFG_OSE_PRIO_A_SIZE,
"PrioASignalSize",
"OSE",
"Size of priority A signals (in bytes)",
ConfigInfo::CI_USED,
false,
ConfigInfo::CI_INT,
"1000",
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_OSE_PRIO_B_SIZE,
"PrioBSignalSize",
"OSE",
"Size of priority B signals (in bytes)",
ConfigInfo::CI_USED,
false,
ConfigInfo::CI_INT,
"1000",
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_OSE_RECEIVE_ARRAY_SIZE,
"ReceiveArraySize",
"OSE",
"Number of OSE signals checked for correct ordering (in no of OSE signals)",
ConfigInfo::CI_USED,
false,
ConfigInfo::CI_INT,
"10",
"0",
STR_VALUE(MAX_INT_RNIL) },
{
CFG_CONNECTION_NODE_1_SYSTEM,
"NodeId1_System",
"OSE",
"System for node 1 in connection",
ConfigInfo::CI_INTERNAL,
false,
ConfigInfo::CI_STRING,
UNDEFINED,
0, 0 },
{
CFG_CONNECTION_NODE_2_SYSTEM,
"NodeId2_System",
"OSE",
"System for node 2 in connection",
ConfigInfo::CI_INTERNAL,
false,
ConfigInfo::CI_STRING,
UNDEFINED,
0, 0 },
0, 0 }
};
const int ConfigInfo::m_NoOfParams = sizeof(m_ParamInfo) / sizeof(ParamInfo);
......@@ -2835,12 +2683,7 @@ checkConnectionSupport(InitConfigFileParser::Context & ctx, const char * data)
error= 1;
#endif
}
else if (strcasecmp("OSE",ctx.fname) == 0)
{
#ifndef NDB_OSE_TRANSPORTER
error= 1;
#endif
}
if (error)
{
ctx.reportError("Binary not compiled with this connection support, "
......
......@@ -37,11 +37,7 @@
#include <NdbAutoPtr.hpp>
#if defined NDB_OSE || defined NDB_SOFTOSE
#include <efs.h>
#else
#include <ndb_mgmclient.hpp>
#endif
#undef DEBUG
#define DEBUG(x) ndbout << x << endl;
......@@ -212,15 +208,6 @@ int main(int argc, char** argv)
start:
glob= new MgmGlobals;
/**
* OSE specific. Enable shared ownership of file system resources.
* This is needed in order to use the cluster log since the events
* from the cluster is written from the 'ndb_receive'(NDBAPI) thread/process.
*/
#if defined NDB_OSE || defined NDB_SOFTOSE
efs_segment_share();
#endif
global_mgmt_server_check = 1;
if (opt_interactive ||
......@@ -349,7 +336,6 @@ int main(int argc, char** argv)
g_RestartServer= false;
glob->socketServer->startServer();
#if ! defined NDB_OSE && ! defined NDB_SOFTOSE
if(opt_interactive) {
BaseString con_str;
if(glob->interface_name)
......@@ -359,7 +345,6 @@ int main(int argc, char** argv)
Ndb_mgmclient com(con_str.c_str(), 1);
while(g_StopServer != true && read_and_execute(&com, "ndb_mgm> ", 1));
} else
#endif
{
while(g_StopServer != true)
NdbSleep_MilliSleep(500);
......
......@@ -46,15 +46,7 @@ void*
runClusterMgr_C(void * me)
{
((ClusterMgr*) me)->threadMain();
/**
* Sleep to allow another thread that is not exiting to take control
* of signals allocated by this thread
*
* see Ndb::~Ndb() in Ndbinit.cpp
*/
#ifdef NDB_OSE
NdbSleep_MilliSleep(50);
#endif
return NULL;
}
......
......@@ -162,18 +162,6 @@ Ndb::~Ndb()
delete theImpl;
/**
* This sleep is to make sure that the transporter
* send thread will come in and send any
* signal buffers that this thread may have allocated.
* If that doesn't happen an error will occur in OSE
* when trying to restore a signal buffer allocated by a thread
* that have been killed.
*/
#ifdef NDB_OSE
NdbSleep_MilliSleep(50);
#endif
#ifdef POORMANSPURIFY
#ifdef POORMANSGUI
ndbout << "cnewSignals=" << cnewSignals << endl;
......
......@@ -398,7 +398,7 @@ TransporterFacade::start_instance(int nodeId,
* This due to the fact that a socket connection might have
* been closed in between a select and a corresponding send
*/
#if !defined NDB_OSE && !defined NDB_SOFTOSE && !defined NDB_WIN32
#if !defined NDB_WIN32
signal(SIGPIPE, SIG_IGN);
#endif
......
......@@ -459,9 +459,6 @@ Ndb_cluster_connection_impl::init_nodes_vector(Uint32 nodeid,
group--; // upgrade group value
break;
}
case CONNECTION_TYPE_OSE:{
break;
}
}
m_impl.m_all_nodes.push_back(Node(group,remoteNodeId));
DBUG_PRINT("info",("saved %d %d", group,remoteNodeId));
......
......@@ -472,25 +472,12 @@ NDB_COMMAND(acid, "acid", "acid", "acid", 65535)
}
NdbSchemaOp* pNdbSchemaOp = NULL ;
VerifyMethodPtr(pNdbSchemaOp, pNdbSchemaCon, getNdbSchemaOp());
#if defined NDB_OSE || defined NDB_SOFTOSE
VerifyMethodInt(pNdbSchemaOp, createTable(
c_szWarehouse,
(4+4+4+12)*1.02*g_nWarehouseCount/1024+1,
TupleKey,
(4+14)*g_nWarehouseCount/8/1024+1,
All,
6,
78,
80,
1,
false));
#else
VerifyMethodInt(pNdbSchemaOp, createTable(
c_szWarehouse,
(4+4+4+12)*1.02*g_nWarehouseCount/1024+1,
TupleKey,
(4+14)*g_nWarehouseCount/8/1024+1));
#endif
VerifyMethodInt(pNdbSchemaOp, createAttribute(c_szWarehouseNumber, TupleKey, 32, 1, UnSigned, MMBased, false));
VerifyMethodInt(pNdbSchemaOp, createAttribute(c_szWarehouseSum, NoKey, 32, 1, UnSigned, MMBased, false));
VerifyMethodInt(pNdbSchemaOp, createAttribute(c_szWarehouseCount, NoKey, 32, 1, UnSigned, MMBased, false));
......@@ -499,26 +486,13 @@ NDB_COMMAND(acid, "acid", "acid", "acid", 65535)
pNdbSchemaCon= NdbSchemaCon::startSchemaTrans(pNdb);
VerifyMethodPtr(pNdbSchemaOp, pNdbSchemaCon, getNdbSchemaOp());
#if defined NDB_OSE || defined NDB_SOFTOSE
VerifyMethodInt(pNdbSchemaOp, createTable(
c_szDistrict,
(4+4+4+4+12)*1.02*g_nWarehouseCount*g_nDistrictPerWarehouse/1024+1,
TupleKey,
(4+4+14)*g_nWarehouseCount*g_nDistrictPerWarehouse/8/1024+1,
All,
6,
78,
80,
1,
false));
#else
VerifyMethodInt(pNdbSchemaOp, createTable(
c_szDistrict,
(4+4+4+4+12)*1.02*g_nWarehouseCount*g_nDistrictPerWarehouse/1024+1,
TupleKey,
(4+4+14)*g_nWarehouseCount*g_nDistrictPerWarehouse/8/1024+1));
#endif
VerifyMethodInt(pNdbSchemaOp, createAttribute(c_szDistrictWarehouseNumber, TupleKey, 32, 1, UnSigned, MMBased, false));
VerifyMethodInt(pNdbSchemaOp, createAttribute(c_szDistrictNumber, TupleKey, 32, 1, UnSigned, MMBased, false));
VerifyMethodInt(pNdbSchemaOp, createAttribute(c_szDistrictSum, NoKey, 32, 1, UnSigned, MMBased, false));
......
......@@ -63,9 +63,6 @@ Revision history:
ErrorData * flexHammerErrorData;
#if defined NDB_OSE || defined NDB_SOFTOSE
#include <outfmt.h>
#endif
#define MAXSTRLEN 16
#define MAXATTR 64
......@@ -775,24 +772,11 @@ createTables(Ndb* pMyNdb)
} // if
// Create tables, rest of parameters are default right now
#if defined NDB_OSE || defined NDB_SOFTOSE
check = MySchemaOp->createTable(tableName[i],
8, // Table Size
TupleKey, // Key Type
40, // Nr of Pages
All,
6,
78,
80,
1,
false);
#else
check = MySchemaOp->createTable(tableName[i],
8, // Table Size
TupleKey, // Key Type
40); // Nr of Pages
#endif
if (check == -1) {
// Clean up opened schema transaction
NdbSchemaCon::closeSchemaTrans(MySchemaTransaction);
......
......@@ -776,23 +776,11 @@ static int createTables(Ndb* pMyNdb)
return (-1);
} // if
#if defined NDB_OSE || defined NDB_SOFTOSE
check = MySchemaOp->createTable(tableName[i - 1],
8, // Table Size
TupleKey, // Key Type
40, // Nr of Pages
All,
6,
78,
80,
1,
false);
#else
check = MySchemaOp->createTable(tableName[i - 1]
,8 // Table Size
,TupleKey // Key Type
,40); // Nr of Pages
#endif
if (check == -1) {
NdbSchemaCon::closeSchemaTrans(MySchemaTransaction);
return -1;
......
......@@ -96,24 +96,11 @@ NDB_COMMAND(initronja, "initronja", "initronja", "initronja", 65535){
if(!MySchemaTransaction) goto error_handler;
MySchemaOp = MySchemaTransaction->getNdbSchemaOp();
if(!MySchemaOp) goto error_handler;
#if defined NDB_OSE || defined NDB_SOFTOSE
check = MySchemaOp->createTable( "SHORT_REC"
,8 // Table Size
,TupleKey // Key Type
,40 // Nr of Pages
,All
,6
,78
,80
,1
,false);
#else
check = MySchemaOp->createTable( "SHORT_REC"
,8 // Table Size
,TupleKey // Key Type
,40 // Nr of Pages
);
#endif
if (check == -1) goto error_handler;
ndbout << "Key attribute..." ;
......@@ -159,24 +146,11 @@ NDB_COMMAND(initronja, "initronja", "initronja", "initronja", 65535){
MySchemaOp = MySchemaTransaction->getNdbSchemaOp();
if(!MySchemaOp) goto error_handler;
#if defined NDB_OSE || defined NDB_SOFTOSE
check = MySchemaOp->createTable( "LONG_REC"
,8 // Table Size
,TupleKey // Key Type
,40 // Nr of Pages
,All
,6
,78
,80
,1
,false);
#else
check = MySchemaOp->createTable( "LONG_REC"
,8 // Table Size
,TupleKey // Key Type
,40 // Nr of Pages
);
#endif
if (check == -1) goto error_handler;
......
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