// . this should only be called by m_mcast when it has successfully sent to
// ALL hosts in group "groupId"
void gotReplyWrapper1 ( void *state , void *state2 ) {
Msg1 *THIS = (Msg1 *)state;
// print the error if any
if ( g_errno && g_errno != ETRYAGAIN )
log("net: Got bad reply when attempting to add data "
"to %s: %s",getDbnameFromId(THIS->m_rdbId),
mstrerror(g_errno));
//int32_t address = (int32_t)THIS->m_callback;
// if our list to send is exhausted then we're done!
if ( THIS->m_list->isExhausted() ) {
//if(g_conf.m_profilingEnabled){
// g_profiler.startTimer(address, __PRETTY_FUNCTION__);
//}
if ( THIS->m_callback ) THIS->m_callback ( THIS->m_state );
//if(g_conf.m_profilingEnabled){
// if(!g_profiler.endTimer(address, __PRETTY_FUNCTION__))
// log(LOG_WARN,"admin: Couldn't add the fn %" PRId32,
// (int32_t)address);
//}
return;
}
// otherwise we got more to send to groups
if ( THIS->sendSomeOfList() ) {
//if(g_conf.m_profilingEnabled){
// g_profiler.startTimer(address, __PRETTY_FUNCTION__);
//}
if ( THIS->m_callback ) THIS->m_callback ( THIS->m_state );
//if(g_conf.m_profilingEnabled){
// if(!g_profiler.endTimer(address, __PRETTY_FUNCTION__))
// log(LOG_WARN,"admin: Couldn't add the fn %" PRId32,
// (int32_t)address);
//}
return;
}
}
// . THIS Msg0 class must be alloc'd, i.e. not on the stack, etc.
// . if list is stored locally this tries to get it locally
// . otherwise tries to get the list from the network
// . returns false if blocked, true otherwise
// . sets g_errno on error
// . NOTE: i was having problems with queries being cached too long, you
// see the cache here is a NETWORK cache, so when the machines that owns
// the list updates it on disk it can't flush our cache... so use a small
// maxCacheAge of like , 30 seconds or so...
bool Msg0::getList ( int64_t hostId , // host to ask (-1 if none)
int32_t ip , // info on hostId
int16_t port ,
int32_t maxCacheAge , // max cached age in seconds
bool addToCache , // add net recv'd list to cache?
char rdbId , // specifies the rdb
collnum_t collnum ,
RdbList *list ,
const char *startKey ,
const char *endKey ,
int32_t minRecSizes , // use -1 for no max
void *state ,
void (* callback)(void *state ),//, RdbList *list ) ,
int32_t niceness ,
bool doErrorCorrection ,
bool includeTree ,
bool doMerge ,
int32_t firstHostId ,
int32_t startFileNum ,
int32_t numFiles ,
int64_t timeout ,
int64_t syncPoint ,
int32_t preferLocalReads ,
Msg5 *msg5 ,
bool isRealMerge ,
bool allowPageCache ,
bool forceLocalIndexdb ,
bool noSplit ,
int32_t forceParitySplit ) {
logTrace( g_conf.m_logTraceMsg0, "BEGIN. hostId: %" PRId64", rdbId: %d", hostId, (int)rdbId );
// warning
if ( collnum < 0 ) log(LOG_LOGIC,"net: NULL collection. msg0.");
// reset the list they passed us
list->reset();
// get keySize of rdb
m_ks = getKeySizeFromRdbId ( rdbId );
// if( g_conf.m_logTraceMsg0 )
// {
// log("%s:%s:%d: rdbId. [%d]", __FILE__,__func__,__LINE__, (int)rdbId);
// log("%s:%s:%d: m_ks.. [%d]", __FILE__,__func__,__LINE__, (int)m_ks);
// log("%s:%s:%d: hostId [%" PRId64"]", __FILE__,__func__,__LINE__, hostId);
// }
// if startKey > endKey, don't read anything
//if ( startKey > endKey ) return true;
if ( KEYCMP(startKey,endKey,m_ks)>0 ) { char *xx=NULL;*xx=0; }//rettrue
// . reset hostid if it is dead
// . this is causing UOR queries to take forever when we have a dead
if ( hostId >= 0 && g_hostdb.isDead ( hostId ) ) hostId = -1;
// no longer accept negative minrecsize
if ( minRecSizes < 0 ) {
g_errno = EBADENGINEER;
logTrace( g_conf.m_logTraceMsg0, "END" );
log(LOG_LOGIC, "net: msg0: Negative minRecSizes no longer supported.");
char *xx=NULL;*xx=0;
}
// remember these
m_state = state;
m_callback = callback;
m_list = list;
m_hostId = hostId;
m_niceness = niceness;
m_addToCache = addToCache;
// . these define our request 100%
KEYSET(m_startKey,startKey,m_ks);
KEYSET(m_endKey,endKey,m_ks);
m_minRecSizes = minRecSizes;
m_rdbId = rdbId;
m_collnum = collnum;// = coll;
m_isRealMerge = isRealMerge;
m_allowPageCache = allowPageCache;
// . group to ask is based on the first key
// . we only do 1 group per call right now
// . groupMask must turn on higher bits first (count downwards kinda)
// . titledb and spiderdb use special masks to get groupId
// if diffbot.cpp is reading spiderdb from each shard we have to
// get groupid from hostid here lest we core in getGroupId() below.
// it does that for dumping spiderdb to the client browser. they
// can download the whole enchilada.
if ( hostId >= 0 && m_rdbId == RDB_SPIDERDB )
m_shardNum = 0;
// did they force it? core until i figure out what this is
else if ( forceParitySplit >= 0 )
//m_groupId = g_hostdb.getGroupId ( forceParitySplit );
m_shardNum = forceParitySplit;
else
//m_groupId = getGroupId ( m_rdbId , startKey , ! noSplit );
m_shardNum = getShardNum ( m_rdbId , startKey );
// if we are looking up a termlist in posdb that is split by termid and
// not the usual docid then we have to set this posdb key bit that tells
// us that ...
if ( noSplit && m_rdbId == RDB_POSDB )
m_shardNum = g_hostdb.getShardNumByTermId ( startKey );
// how is this used?
if ( forceLocalIndexdb ) m_shardNum = getMyShardNum();
// if( g_conf.m_logTraceMsg0 ) log("%s:%s:%d: shardNum [%" PRId32"]", __FILE__,__func__, __LINE__, m_shardNum);
// . store these parameters
// . get a handle to the rdb in case we can satisfy locally
// . returns NULL and sets g_errno on error
QUICKPOLL((m_niceness));
Rdb *rdb = getRdbFromId ( m_rdbId );
if ( ! rdb ) return true;
// we need the fixedDataSize
m_fixedDataSize = rdb->getFixedDataSize();
m_useHalfKeys = rdb->useHalfKeys();
// . debug msg
// . Msg2 does this when checking for a cached compound list.
// compound lists do not actually exist, they are merges of smaller
// UOR'd lists.
if ( maxCacheAge != 0 && ! addToCache && (numFiles > 0 || includeTree)) {
log( LOG_LOGIC, "net: msg0: Weird. check but don't add... rdbid=%" PRId32".", ( int32_t ) m_rdbId );
}
// set this here since we may not call msg5 if list not local
//m_list->setFixedDataSize ( m_fixedDataSize );
// . now that we do load balancing we don't want to do a disk lookup
// even if local if we are merging or dumping
// . UNLESS g_conf.m_preferLocalReads is true
if ( preferLocalReads == -1 )
preferLocalReads = g_conf.m_preferLocalReads;
// . always prefer local for full split clusterdb
// . and keep the tfndb/titledb lookups in the same stripe
// . so basically we can't do biased caches if fully split
//if ( g_conf.m_fullSplit ) preferLocalReads = true;
preferLocalReads = true;
// it it stored locally?
bool isLocal = ( m_hostId == -1 && //g_hostdb.m_groupId == m_groupId );
m_shardNum == getMyShardNum() );
// only do local lookups if this is true
if ( ! preferLocalReads ) isLocal = false;
/*
int64_t singleDocIdQuery = 0LL;
if ( rdbId == RDB_POSDB ) {
int64_t d1 = g_posdb.getDocId(m_startKey);
int64_t d2 = g_posdb.getDocId(m_endKey);
if ( d1+1 == d2 ) singleDocIdQuery = d1;
}
// . try the LOCAL termlist cache
// . so when msg2 is evaluating a gbdocid:| query and it has to
// use msg0 to go across the network to get the same damn termlist
// over and over again for the same docid, this will help alot.
// . ideally it'd be nice if the seo pipe in xmldoc.cpp can try to
// send the same gbdocid:xxxx docids to the same hosts. maybe hash
// based on docid into the list of hosts and if that host is busy
// just chain until we find someone not busy.
if ( singleDocIdQuery &&
getListFromTermListCache ( coll,
m_startKey,
m_endKey,
maxCacheAge,
list ) )
// found!
return true;
*/
// but always local if only one host
if ( g_hostdb.getNumHosts() == 1 ) isLocal = true;
// . if the group is local then do it locally
// . Msg5::getList() returns false if blocked, true otherwise
// . Msg5::getList() sets g_errno on error
// . don't do this if m_hostId was specified
if ( isLocal ) {
logTrace( g_conf.m_logTraceMsg0, "isLocal" );
if ( msg5 ) {
m_msg5 = msg5;
m_deleteMsg5 = false;
}
else {
try { m_msg5 = new ( Msg5 ); }
catch ( ... ) {
g_errno = ENOMEM;
log("net: Local alloc for disk read failed "
"while tring to read data for %s. "
"Trying remote request.",
getDbnameFromId(m_rdbId));
goto skip;
}
mnew ( m_msg5 , sizeof(Msg5) , "Msg0::Msg5" );
m_deleteMsg5 = true;
}
QUICKPOLL(m_niceness);
if ( ! m_msg5->getList ( rdbId,
m_collnum ,
m_list ,
m_startKey ,
m_endKey ,
m_minRecSizes ,
includeTree , // include Tree?
addToCache , // addToCache?
maxCacheAge ,
startFileNum ,
numFiles ,
this ,
gotListWrapper2 ,
niceness ,
doErrorCorrection ,
NULL , // cacheKeyPtr
0 , // retryNum
-1 , // maxRetries
true , // compensateForMerge
syncPoint ,
m_isRealMerge ,
m_allowPageCache ) ) {
logTrace( g_conf.m_logTraceMsg0, "END, return false" );
return false;
}
// nuke it
reset();
logTrace( g_conf.m_logTraceMsg0, "END, return true" );
return true;
}
skip:
// debug msg
if ( g_conf.m_logDebugQuery )
log(LOG_DEBUG,"net: msg0: Sending request for data to "
"shard=%" PRIu32" "
"listPtr=%" PTRFMT" minRecSizes=%" PRId32" termId=%" PRIu64" "
//"startKey.n1=%" PRIx32",n0=%" PRIx64" (niceness=%" PRId32")",
"startKey.n1=%" PRIx64",n0=%" PRIx64" (niceness=%" PRId32")",
//g_hostdb.makeHostId ( m_groupId ) ,
m_shardNum,
(PTRTYPE)m_list,
m_minRecSizes, g_posdb.getTermId(m_startKey) ,
//m_startKey.n1,m_startKey.n0 , (int32_t)m_niceness);
KEY1(m_startKey,m_ks),KEY0(m_startKey),
(int32_t)m_niceness);
char *replyBuf = NULL;
int32_t replyBufMaxSize = 0;
bool freeReply = true;
// . make a request with the info above (note: not in network order)
// . IMPORTANT!!!!! if you change this change
// Multicast.cpp::sleepWrapper1 too!!!!!!!!!!!!
// no, not anymore, we commented out that request peeking code
char *p = m_request;
*(int64_t *) p = syncPoint ; p += 8;
//*(key_t *) p = m_startKey ; p += sizeof(key_t);
//*(key_t *) p = m_endKey ; p += sizeof(key_t);
*(int32_t *) p = m_minRecSizes ; p += 4;
*(int32_t *) p = startFileNum ; p += 4;
*(int32_t *) p = numFiles ; p += 4;
*(int32_t *) p = maxCacheAge ; p += 4;
if ( p - m_request != RDBIDOFFSET ) { char *xx=NULL;*xx=0; }
*p = m_rdbId ; p++;
*p = addToCache ; p++;
*p = doErrorCorrection; p++;
*p = includeTree ; p++;
*p = (char)niceness ; p++;
*p = (char)m_allowPageCache; p++;
KEYSET(p,m_startKey,m_ks); ; p+=m_ks;
KEYSET(p,m_endKey,m_ks); ; p+=m_ks;
// NULL terminated collection name
//strcpy ( p , coll ); p += gbstrlen ( coll ); *p++ = '\0';
*(collnum_t *)p = m_collnum; p += sizeof(collnum_t);
m_requestSize = p - m_request;
// ask an individual host for this list if hostId is NOT -1
if ( m_hostId != -1 ) {
// get Host
Host *h = g_hostdb.getHost ( m_hostId );
if ( ! h ) {
g_errno = EBADHOSTID;
log(LOG_LOGIC,"net: msg0: Bad hostId of %" PRId64".", m_hostId);
logTrace( g_conf.m_logTraceMsg0, "END, return true. Bad hostId" );
return true;
}
// if niceness is 0, use the higher priority udpServer
UdpServer *us ;
uint16_t port;
QUICKPOLL(m_niceness);
us = &g_udpServer ; port = h->m_port ;
// . returns false on error and sets g_errno, true otherwise
// . calls callback when reply is received (or error)
// . we return true if it returns false
if ( ! us->sendRequest ( m_request ,
m_requestSize ,
0x00 , // msgType
h->m_ip ,
port ,
m_hostId ,
NULL , // the slotPtr
this ,
gotSingleReplyWrapper ,
timeout ,
-1 , // backoff
-1 , // maxwait
replyBuf ,
replyBufMaxSize ,
m_niceness ) ) { // cback niceness
logTrace( g_conf.m_logTraceMsg0, "END, return true. Request sent" );
return true;
}
// return false cuz it blocked
logTrace( g_conf.m_logTraceMsg0, "END, return false. sendRequest blocked" );
return false;
}
// timing debug
if ( g_conf.m_logTimingNet )
m_startTime = gettimeofdayInMilliseconds();
else
m_startTime = 0;
// . get the top int32_t of the key
// . i guess this will work for 128 bit keys... hmmmmm
int32_t keyTop = hash32 ( (char *)startKey , m_ks );
// . otherwise, multicast to a host in group "groupId"
// . returns false and sets g_errno on error
// . calls callback on completion
// . select first host to send to in group based on upper 32 bits
// of termId (m_startKey.n1)
// . need to send out to all the indexdb split hosts
m_numRequests = 0;
m_numReplies = 0;
//for ( int32_t i = 0; i < m_numSplit; i++ ) {
QUICKPOLL(m_niceness);
//int32_t gr;
char *buf;
buf = replyBuf;
// get the multicast
Multicast *m = &m_mcast;
if ( ! m->send ( m_request ,
m_requestSize,
0x00 , // msgType 0x00
false , // does multicast own request?
m_shardNum ,
false , // send to whole group?
//m_startKey.n1, // key is passed on startKey
keyTop , // key is passed on startKey
this , // state data
NULL , // state data
gotMulticastReplyWrapper0 ,
timeout*1000 , // timeout
niceness ,
firstHostId ,
buf ,
replyBufMaxSize ,
freeReply , // free reply buf?
true , // do disk load balancing?
maxCacheAge ,
//(key_t *)cacheKey ,
// multicast uses it for determining the best
// host to send the request to when doing
// disk load balancing. if the host has our
// data cached, then it will probably get to
// handle the request. for now let's just assume
// this is a 96-bit key. TODO: fix...
0 , // *(key_t *)cacheKey ,
rdbId ,
minRecSizes ) )
{
log(LOG_ERROR, "net: Failed to send request for data from %s in shard "
"#%" PRIu32" over network: %s.",
getDbnameFromId(m_rdbId),m_shardNum, mstrerror(g_errno));
// but speed it up
m_errno = g_errno;
m->reset();
if ( m_numRequests > 0 ) {
logTrace( g_conf.m_logTraceMsg0, "END - returning false" );
return false;
}
logTrace( g_conf.m_logTraceMsg0, "END - returning true" );
return true;
}
m_numRequests++;
// we blocked
logTrace( g_conf.m_logTraceMsg0, "END - returning false, blocked" );
return false;
}
UdpStatistic::UdpStatistic(const UdpSlot &slot)
: m_transId(slot.getTransId()),
m_ip(slot.getIp()),
m_port(slot.getPort()),
m_msgType(slot.getMsgType()),
m_description(),
m_niceness(slot.getNiceness()),
m_convertedNiceness(slot.getConvertedNiceness()),
m_numDatagramRead(slot.getNumDgramsRead()),
m_numDatagramSent(slot.getNumDgramsSent()),
m_numAckRead(slot.getNumAcksRead()),
m_numAckSent(slot.getNumAcksSent()),
m_numPendingRead(slot.getDatagramsToRead()),
m_numPendingSend(slot.getDatagramsToSend()),
m_resendCount(slot.getResendCount()),
m_timeout(slot.getTimeout()),
m_startTime(slot.getStartTime()),
m_lastReadTime(slot.getLastReadTime()),
m_lastSendTime(slot.getLastSendTime()),
m_hasCallback(slot.hasCallback()),
m_hasCalledHandler(slot.hasCalledHandler()),
m_hasCalledCallback(slot.hasCalledCallback()),
m_extraInfo() {
char *buf;
int32_t bufSize;
if (slot.isIncoming()) {
buf = slot.m_readBuf;
bufSize = slot.m_readBufSize;
} else {
buf = slot.m_sendBuf;
bufSize = slot.m_sendBufSize;
}
switch (m_msgType) {
case msg_type_0:
if (buf && bufSize > RDBIDOFFSET) {
rdbid_t rdbId = static_cast<rdbid_t>(buf[RDBIDOFFSET]);
snprintf(m_description, sizeof(m_description), "get from %s", getDbnameFromId(rdbId));
}
break;
case msg_type_1:
if (buf) {
rdbid_t rdbId = static_cast<rdbid_t>(buf[0]);
snprintf(m_description, sizeof(m_description), "add to %s", getDbnameFromId(rdbId));
}
break;
case msg_type_4:
strcpy(m_description, "meta add");
break;
case msg_type_7:
strcpy(m_description, "inject");
break;
case msg_type_c:
strcpy(m_description, "getting ip");
break;
case msg_type_11:
strcpy(m_description, "ping");
break;
case msg_type_13:
if (buf && static_cast<size_t>(bufSize) >= sizeof(Msg13Request)) {
Msg13Request *r = reinterpret_cast<Msg13Request*>(buf);
snprintf(m_description, sizeof(m_description), "get %s", r->m_isRobotsTxt ? "web page" : "robot.txt");
}
break;
case msg_type_1f:
strcpy(m_description, "get remote log");
break;
case msg_type_20:
strcpy(m_description, "get summary");
break;
case msg_type_22:
strcpy(m_description, "get titlerec");
break;
case msg_type_25:
strcpy(m_description, "get link info");
break;
case msg_type_39:
strcpy(m_description, "get docids");
break;
case msg_type_3e:
strcpy(m_description, "sync parms");
break;
case msg_type_3f:
strcpy(m_description, "update parms");
break;
case msg_type_54:
strcpy(m_description, "proxy spider");
break;
case msg_type_c1:
strcpy(m_description, "get crawl info");
break;
case msg_type_fd:
strcpy(m_description, "proxy forward");
break;
case msg_type_dns:
strcpy(m_extraInfo, slot.getExtraInfo());
break;
}
}
// . THIS Msg0 class must be alloc'd, i.e. not on the stack, etc.
// . if list is stored locally this tries to get it locally
// . otherwise tries to get the list from the network
// . returns false if blocked, true otherwise
// . sets g_errno on error
// . NOTE: i was having problems with queries being cached too long, you
// see the cache here is a NETWORK cache, so when the machines that owns
// the list updates it on disk it can't flush our cache... so use a small
// maxCacheAge of like , 30 seconds or so...
bool Msg0::getList ( int64_t hostId , // host to ask (-1 if none)
int32_t ip , // info on hostId
int16_t port ,
int32_t maxCacheAge , // max cached age in seconds
bool addToCache , // add net recv'd list to cache?
char rdbId , // specifies the rdb
//char *coll ,
collnum_t collnum ,
RdbList *list ,
//key_t startKey ,
//key_t endKey ,
char *startKey ,
char *endKey ,
int32_t minRecSizes , // use -1 for no max
void *state ,
void (* callback)(void *state ),//, RdbList *list ) ,
int32_t niceness ,
bool doErrorCorrection ,
bool includeTree ,
bool doMerge ,
int32_t firstHostId ,
int32_t startFileNum ,
int32_t numFiles ,
int32_t timeout ,
int64_t syncPoint ,
int32_t preferLocalReads ,
Msg5 *msg5 ,
Msg5 *msg5b ,
bool isRealMerge ,
//#ifdef SPLIT_INDEXDB
bool allowPageCache ,
bool forceLocalIndexdb ,
bool noSplit , // doIndexdbSplit ,
int32_t forceParitySplit ) {
//#else
// bool allowPageCache ) {
//#endif
// this is obsolete! mostly, but we need it for PageIndexdb.cpp to
// show a "termlist" for a given query term in its entirety so you
// don't have to check each machine in the network. if this is true it
// means to query each split and merge the results together into a
// single unified termlist. only applies to indexdb/datedb.
//if ( doIndexdbSplit ) { char *xx = NULL; *xx = 0; }
// note this because if caller is wrong it hurts performance major!!
//if ( doIndexdbSplit )
// logf(LOG_DEBUG,"net: doing msg0 with indexdb split true");
// warning
if ( collnum < 0 ) log(LOG_LOGIC,"net: NULL collection. msg0.");
//if ( doIndexdbSplit ) { char *xx=NULL;*xx=0; }
// reset the list they passed us
list->reset();
// get keySize of rdb
m_ks = getKeySizeFromRdbId ( rdbId );
// if startKey > endKey, don't read anything
//if ( startKey > endKey ) return true;
if ( KEYCMP(startKey,endKey,m_ks)>0 ) { char *xx=NULL;*xx=0; }//rettrue
// . reset hostid if it is dead
// . this is causing UOR queries to take forever when we have a dead
if ( hostId >= 0 && g_hostdb.isDead ( hostId ) ) hostId = -1;
// no longer accept negative minrecsize
if ( minRecSizes < 0 ) {
g_errno = EBADENGINEER;
log(LOG_LOGIC,
"net: msg0: Negative minRecSizes no longer supported.");
char *xx=NULL;*xx=0;
return true;
}
// debug msg
//if ( niceness != 0 ) log("HEY start");
// ensure startKey last bit clear, endKey last bit set
//if ( (startKey.n0 & 0x01) == 0x01 )
// log("Msg0::getList: warning startKey lastbit set");
//if ( (endKey.n0 & 0x01) == 0x00 )
// log("Msg0::getList: warning endKey lastbit clear");
// remember these
m_state = state;
m_callback = callback;
m_list = list;
m_hostId = hostId;
m_niceness = niceness;
//m_ip = ip;
//m_port = port;
m_addToCache = addToCache;
// . these define our request 100%
//m_startKey = startKey;
//m_endKey = endKey;
KEYSET(m_startKey,startKey,m_ks);
KEYSET(m_endKey,endKey,m_ks);
m_minRecSizes = minRecSizes;
m_rdbId = rdbId;
m_collnum = collnum;// = coll;
m_isRealMerge = isRealMerge;
m_allowPageCache = allowPageCache;
// . group to ask is based on the first key
// . we only do 1 group per call right now
// . groupMask must turn on higher bits first (count downwards kinda)
// . titledb and spiderdb use special masks to get groupId
// if diffbot.cpp is reading spiderdb from each shard we have to
// get groupid from hostid here lest we core in getGroupId() below.
// it does that for dumping spiderdb to the client browser. they
// can download the whole enchilada.
if ( hostId >= 0 && m_rdbId == RDB_SPIDERDB )
m_shardNum = 0;
// did they force it? core until i figure out what this is
else if ( forceParitySplit >= 0 )
//m_groupId = g_hostdb.getGroupId ( forceParitySplit );
m_shardNum = forceParitySplit;
else
//m_groupId = getGroupId ( m_rdbId , startKey , ! noSplit );
m_shardNum = getShardNum ( m_rdbId , startKey );
// if we are looking up a termlist in posdb that is split by termid and
// not the usual docid then we have to set this posdb key bit that tells
// us that ...
if ( noSplit && m_rdbId == RDB_POSDB )
m_shardNum = g_hostdb.getShardNumByTermId ( startKey );
// how is this used?
//if ( forceLocalIndexdb ) m_groupId = g_hostdb.m_groupId;
if ( forceLocalIndexdb ) m_shardNum = getMyShardNum();
// . store these parameters
// . get a handle to the rdb in case we can satisfy locally
// . returns NULL and sets g_errno on error
QUICKPOLL((m_niceness));
Rdb *rdb = getRdbFromId ( m_rdbId );
if ( ! rdb ) return true;
// we need the fixedDataSize
m_fixedDataSize = rdb->getFixedDataSize();
m_useHalfKeys = rdb->useHalfKeys();
// . debug msg
// . Msg2 does this when checking for a cached compound list.
// compound lists do not actually exist, they are merges of smaller
// UOR'd lists.
if ( maxCacheAge != 0 && ! addToCache && (numFiles > 0 || includeTree))
log(LOG_LOGIC,"net: msg0: "
"Weird. check but don't add... rdbid=%"INT32".",(int32_t)m_rdbId);
// set this here since we may not call msg5 if list not local
//m_list->setFixedDataSize ( m_fixedDataSize );
// . now that we do load balancing we don't want to do a disk lookup
// even if local if we are merging or dumping
// . UNLESS g_conf.m_preferLocalReads is true
if ( preferLocalReads == -1 )
preferLocalReads = g_conf.m_preferLocalReads;
// . always prefer local for full split clusterdb
// . and keep the tfndb/titledb lookups in the same stripe
// . so basically we can't do biased caches if fully split
//if ( g_conf.m_fullSplit ) preferLocalReads = true;
preferLocalReads = true;
// it it stored locally?
bool isLocal = ( m_hostId == -1 && //g_hostdb.m_groupId == m_groupId );
m_shardNum == getMyShardNum() );
// only do local lookups if this is true
if ( ! preferLocalReads ) isLocal = false;
/*
m_numSplit = 1;
if ( g_hostdb.m_indexSplits > 1 &&
( rdbId == RDB_POSDB || rdbId==RDB_DATEDB)&&
! forceLocalIndexdb && doIndexdbSplit ) {
isLocal = false;
//m_numSplit = INDEXDB_SPLIT;
m_numSplit = g_hostdb.m_indexSplits;
char *xx=NULL;*xx=0;
}
*/
/*
int64_t singleDocIdQuery = 0LL;
if ( rdbId == RDB_POSDB ) {
int64_t d1 = g_posdb.getDocId(m_startKey);
int64_t d2 = g_posdb.getDocId(m_endKey);
if ( d1+1 == d2 ) singleDocIdQuery = d1;
}
// . try the LOCAL termlist cache
// . so when msg2 is evaluating a gbdocid:| query and it has to
// use msg0 to go across the network to get the same damn termlist
// over and over again for the same docid, this will help alot.
// . ideally it'd be nice if the seo pipe in xmldoc.cpp can try to
// send the same gbdocid:xxxx docids to the same hosts. maybe hash
// based on docid into the list of hosts and if that host is busy
// just chain until we find someone not busy.
if ( singleDocIdQuery &&
getListFromTermListCache ( coll,
m_startKey,
m_endKey,
maxCacheAge,
list ) )
// found!
return true;
*/
// but always local if only one host
if ( g_hostdb.getNumHosts() == 1 ) isLocal = true;
// force a msg0 if doing a docid restrictive query like
// gbdocid:xxxx|<query> so we call cacheTermLists()
//if ( singleDocIdQuery ) isLocal = false;
// . if the group is local then do it locally
// . Msg5::getList() returns false if blocked, true otherwise
// . Msg5::getList() sets g_errno on error
// . don't do this if m_hostId was specified
if ( isLocal ) { // && !g_conf.m_interfaceMachine ) {
if ( msg5 ) {
m_msg5 = msg5;
m_deleteMsg5 = false;
}
else {
try { m_msg5 = new ( Msg5 ); }
catch ( ... ) {
g_errno = ENOMEM;
log("net: Local alloc for disk read failed "
"while tring to read data for %s. "
"Trying remote request.",
getDbnameFromId(m_rdbId));
goto skip;
}
mnew ( m_msg5 , sizeof(Msg5) , "Msg0" );
m_deleteMsg5 = true;
}
QUICKPOLL(m_niceness);
// same for msg5b
if ( msg5b ) {
m_msg5b = msg5b;
m_deleteMsg5b = false;
}
/*
else if ( m_rdbId == RDB_TITLEDB ) {
try { m_msg5b = new ( Msg5 ); }
catch ( ... ) {
g_errno = ENOMEM;
log("net: Local alloc for disk read failed "
"while tring to read data for %s. "
"Trying remote request. 2.",
getDbnameFromId(m_rdbId));
goto skip;
}
mnew ( m_msg5b , sizeof(Msg5) , "Msg0b" );
m_deleteMsg5b = true;
}
*/
QUICKPOLL(m_niceness);
if ( ! m_msg5->getList ( rdbId,
m_collnum ,
m_list ,
m_startKey ,
m_endKey ,
m_minRecSizes ,
includeTree , // include Tree?
addToCache , // addToCache?
maxCacheAge ,
startFileNum ,
numFiles ,
this ,
gotListWrapper2 ,
niceness ,
doErrorCorrection ,
NULL , // cacheKeyPtr
0 , // retryNum
-1 , // maxRetries
true , // compensateForMerge
syncPoint ,
NULL,//m_msg5b ,
m_isRealMerge ,
m_allowPageCache ) ) return false;
// nuke it
reset();
return true;
}
skip:
// debug msg
if ( g_conf.m_logDebugQuery )
log(LOG_DEBUG,"net: msg0: Sending request for data to "
"shard=%"UINT32" "
"listPtr=%"PTRFMT" minRecSizes=%"INT32" termId=%"UINT64" "
//"startKey.n1=%"XINT32",n0=%"XINT64" (niceness=%"INT32")",
"startKey.n1=%"XINT64",n0=%"XINT64" (niceness=%"INT32")",
//g_hostdb.makeHostId ( m_groupId ) ,
m_shardNum,
(PTRTYPE)m_list,
m_minRecSizes, g_posdb.getTermId(m_startKey) ,
//m_startKey.n1,m_startKey.n0 , (int32_t)m_niceness);
KEY1(m_startKey,m_ks),KEY0(m_startKey),
(int32_t)m_niceness);
char *replyBuf = NULL;
int32_t replyBufMaxSize = 0;
bool freeReply = true;
// adjust niceness for net transmission
bool realtime = false;
//if ( minRecSizes + 32 < TMPBUFSIZE ) realtime = true;
// if we're niceness 0 we need to pre-allocate for reply since it
// might be received within the asynchronous signal handler which
// cannot call mmalloc()
if ( realtime ) { // niceness <= 0 || netnice == 0 ) {
// . we should not get back more than minRecSizes bytes since
// we are now performing merges
// . it should not slow things down too much since the hashing
// is 10 times slower than merging anyhow...
// . CAUTION: if rdb is not fixed-datasize then this will
// not work for us! it can exceed m_minRecSizes.
replyBufMaxSize = m_minRecSizes ;
// . get a little extra to fix the error where we ask for 64
// but get 72
// . where is that coming from?
// . when getting titleRecs we often exceed the minRecSizes
// . ?Msg8? was having trouble. was int16_t 32 bytes sometimes.
replyBufMaxSize += 36;
// why add ten percent?
//replyBufMaxSize *= 110 ;
//replyBufMaxSize /= 100 ;
// make a buffer to hold the reply
//#ifdef SPLIT_INDEXDB
/*
if ( m_numSplit > 1 ) {
m_replyBufSize = replyBufMaxSize * m_numSplit;
replyBuf = (char *) mmalloc(m_replyBufSize, "Msg0");
m_replyBuf = replyBuf;
freeReply = false;
}
else
*/
//#endif
replyBuf = (char *) mmalloc(replyBufMaxSize , "Msg0");
// g_errno is set and we return true if it failed
if ( ! replyBuf ) {
log("net: Failed to pre-allocate %"INT32" bytes to hold "
"data read remotely from %s: %s.",
replyBufMaxSize,getDbnameFromId(m_rdbId),
mstrerror(g_errno));
return true;
}
}
// . make a request with the info above (note: not in network order)
// . IMPORTANT!!!!! if you change this change
// Multicast.cpp::sleepWrapper1 too!!!!!!!!!!!!
// no, not anymore, we commented out that request peeking code
char *p = m_request;
*(int64_t *) p = syncPoint ; p += 8;
//*(key_t *) p = m_startKey ; p += sizeof(key_t);
//*(key_t *) p = m_endKey ; p += sizeof(key_t);
*(int32_t *) p = m_minRecSizes ; p += 4;
*(int32_t *) p = startFileNum ; p += 4;
*(int32_t *) p = numFiles ; p += 4;
*(int32_t *) p = maxCacheAge ; p += 4;
if ( p - m_request != RDBIDOFFSET ) { char *xx=NULL;*xx=0; }
*p = m_rdbId ; p++;
*p = addToCache ; p++;
*p = doErrorCorrection; p++;
*p = includeTree ; p++;
*p = (char)niceness ; p++;
*p = (char)m_allowPageCache; p++;
KEYSET(p,m_startKey,m_ks); ; p+=m_ks;
KEYSET(p,m_endKey,m_ks); ; p+=m_ks;
// NULL terminated collection name
//strcpy ( p , coll ); p += gbstrlen ( coll ); *p++ = '\0';
*(collnum_t *)p = m_collnum; p += sizeof(collnum_t);
m_requestSize = p - m_request;
// ask an individual host for this list if hostId is NOT -1
if ( m_hostId != -1 ) {
// get Host
Host *h = g_hostdb.getHost ( m_hostId );
if ( ! h ) {
g_errno = EBADHOSTID;
log(LOG_LOGIC,"net: msg0: Bad hostId of %"INT64".",
m_hostId);
return true;
}
// if niceness is 0, use the higher priority udpServer
UdpServer *us ;
uint16_t port;
QUICKPOLL(m_niceness);
//if ( niceness <= 0 || netnice == 0 ) {
//if ( realtime ) {
// us = &g_udpServer2; port = h->m_port2; }
//else {
us = &g_udpServer ; port = h->m_port ;
// . returns false on error and sets g_errno, true otherwise
// . calls callback when reply is received (or error)
// . we return true if it returns false
if ( ! us->sendRequest ( m_request ,
m_requestSize ,
0x00 , // msgType
h->m_ip ,
port ,
m_hostId ,
NULL , // the slotPtr
this ,
gotSingleReplyWrapper ,
timeout ,
-1 , // backoff
-1 , // maxwait
replyBuf ,
replyBufMaxSize ,
m_niceness ) ) // cback niceness
return true;
// return false cuz it blocked
return false;
}
// timing debug
if ( g_conf.m_logTimingNet )
m_startTime = gettimeofdayInMilliseconds();
else
m_startTime = 0;
//if ( m_rdbId == RDB_INDEXDB ) log("Msg0:: getting remote indexlist. "
// "termId=%"UINT64", "
// "groupNum=%"UINT32"",
// g_indexdb.getTermId(m_startKey) ,
// g_hostdb.makeHostId ( m_groupId ) );
/*
// make the cache key so we can see what remote host cached it, if any
char cacheKey[MAX_KEY_BYTES];
//key_t cacheKey = makeCacheKey ( startKey ,
makeCacheKey ( startKey ,
endKey ,
includeTree ,
minRecSizes ,
startFileNum ,
numFiles ,
cacheKey ,
m_ks );
*/
// . get the top int32_t of the key
// . i guess this will work for 128 bit keys... hmmmmm
int32_t keyTop = hash32 ( (char *)startKey , m_ks );
/*
// allocate space
if ( m_numSplit > 1 ) {
int32_t need = m_numSplit * sizeof(Multicast) ;
char *buf = (char *)mmalloc ( need,"msg0mcast" );
if ( ! buf ) return true;
m_mcasts = (Multicast *)buf;
for ( int32_t i = 0; i < m_numSplit ; i++ )
m_mcasts[i].constructor();
}
*/
// . otherwise, multicast to a host in group "groupId"
// . returns false and sets g_errno on error
// . calls callback on completion
// . select first host to send to in group based on upper 32 bits
// of termId (m_startKey.n1)
//#ifdef SPLIT_INDEXDB
// . need to send out to all the indexdb split hosts
m_numRequests = 0;
m_numReplies = 0;
//for ( int32_t i = 0; i < m_numSplit; i++ ) {
QUICKPOLL(m_niceness);
//int32_t gr;
char *buf;
/*
if ( m_numSplit > 1 ) {
gr = g_indexdb.getSplitGroupId ( baseGroupId, i );
buf = &replyBuf[i*replyBufMaxSize];
}
else {
*/
//gr = m_groupId;
buf = replyBuf;
//}
// get the multicast
Multicast *m = &m_mcast;
//if ( m_numSplit > 1 ) m = &m_mcasts[i];
if ( ! m->send ( m_request ,
//#else
// if ( ! m_mcast.send ( m_request ,
//#endif
m_requestSize,
0x00 , // msgType 0x00
false , // does multicast own request?
m_shardNum ,
//#ifdef SPLIT_INDEXDB
// gr , // group + offset
//#else
// m_groupId , // group to send to (groupKey)
//#endif
false , // send to whole group?
//m_startKey.n1, // key is passed on startKey
keyTop , // key is passed on startKey
this , // state data
NULL , // state data
gotMulticastReplyWrapper0 ,
timeout , // timeout in seconds (was 30)
niceness ,
realtime ,
firstHostId ,
//#ifdef SPLIT_INDEXDB
// &replyBuf[i*replyBufMaxSize] ,
//#else
// replyBuf ,
//#endif
buf ,
replyBufMaxSize ,
freeReply , // free reply buf?
true , // do disk load balancing?
maxCacheAge ,
//(key_t *)cacheKey ,
// multicast uses it for determining the best
// host to send the request to when doing
// disk load balancing. if the host has our
// data cached, then it will probably get to
// handle the request. for now let's just assume
// this is a 96-bit key. TODO: fix...
0 , // *(key_t *)cacheKey ,
rdbId ,
minRecSizes ) ) {
log("net: Failed to send request for data from %s in shard "
"#%"UINT32" over network: %s.",
getDbnameFromId(m_rdbId),m_shardNum, mstrerror(g_errno));
// no, multicast will free this when it is destroyed
//if (replyBuf) mfree ( replyBuf , replyBufMaxSize , "Msg22" );
// but speed it up
//#ifdef SPLIT_INDEXDB
m_errno = g_errno;
m->reset();
if ( m_numRequests > 0 )
return false;
//#else
// m_mcast.reset();
//#endif
return true;
}
//#ifdef SPLIT_INDEXDB
m_numRequests++;
//#endif
// we blocked
return false;
}
// . returns false if blocked, true otherwise
// . sets g_errno on error
// . dumps the RdbTree, m_tree, into m_file
// . also sets and writes the RdbMap for m_file
// . we methodically get RdbLists from the RdbTree
// . dumped recs are ordered by key if "orderedDump" was true in call to set()
// otherwise, lists are ordered by node #
// . we write each list of recs to the file until the whole tree has been done
// . we delete all records in list from the tree after we've written the list
// . if a cache was provided we incorporate the list into the cache before
// deleting it from the tree to keep the cache in sync. NO we do NOT!
// . called again by writeBuf() when it's done writing the whole list
bool RdbDump::dumpTree ( bool recall ) {
// set up some vars
//int32_t nextNode;
//key_t maxEndKey;
//maxEndKey.setMax();
char maxEndKey[MAX_KEY_BYTES];
KEYMAX(maxEndKey,m_ks);
// if dumping statsdb, we can only dump records 30 seconds old or
// more because Statsdb.cpp can "back modify" such records in the tree
// because it may have a query that took 10 seconds come in then it
// needs to add a partial stat to the last 10 stats for those 10 secs.
// we use Global time at this juncture
if ( m_rdb->m_rdbId == RDB_STATSDB ) {
int32_t nowSecs = getTimeGlobal();
StatKey *sk = (StatKey *)maxEndKey;
sk->m_zero = 0x01;
sk->m_labelHash = 0xffffffff;
// leave last 60 seconds in there just to be safe
sk->m_time1 = nowSecs - 60;
}
// this list will hold the list of nodes/recs from m_tree
m_list = &m_ourList;
// convert coll to collnum
//collnum_t collnum = g_collectiondb.getCollnum ( m_coll );
// a collnum of -1 is for collectionless rdbs
//if ( collnum < 0 ) {
// //if ( g_catdb->getRdb() == m_rdb )
// if ( ! m_rdb->m_isCollectionLess ) {
// char *xx=NULL;*xx=0; //return true;
// }
// g_errno = 0;
// collnum = 0;
//}
// getMemOccupiedForList2() can take some time, so breathe
int32_t niceness = 1;
loop:
// if the lastKey was the max end key last time then we're done
if ( m_rolledOver ) return true;
// this is set to -1 when we're done with our unordered dump
if ( m_nextNode == -1 ) return true;
// . NOTE: list's buffer space should be re-used!! (TODO)
// . "lastNode" is set to the last node # in the list
bool status = true;
//if ( ! m_orderedDump ) {
// status = ((RdbTree *)m_tree)->getListUnordered ( m_nextNode ,
// m_maxBufSize ,
// m_list ,
// &nextNode );
// // this is -1 when no more nodes are left
// m_nextNode = nextNode;
//}
// "lastKey" is set to the last key in the list
//else {
{
// can we remove neg recs?
// class RdbBase *base = m_rdb->getBase(m_collnum);
// bool removeNegRecs = false;
// if ( base->m_numFiles <= 0 ) removeNegRecs = true;
if ( recall ) goto skip;
// debug msg
//log("RdbDump:: getting list");
m_t1 = gettimeofdayInMilliseconds();
if(m_tree)
status = m_tree->getList ( m_collnum ,
m_nextKey ,
maxEndKey ,
m_maxBufSize , // max recSizes
m_list ,
&m_numPosRecs ,
&m_numNegRecs ,
m_useHalfKeys ,
niceness );
else if(m_buckets)
status = m_buckets->getList ( m_collnum,
m_nextKey ,
maxEndKey ,
m_maxBufSize , // max recSizes
m_list ,
&m_numPosRecs ,
&m_numNegRecs ,
m_useHalfKeys );
// don't dump out any neg recs if it is our first time dumping
// to a file for this rdb/coll. TODO: implement this later.
//if ( removeNegRecs )
// m_list.removeNegRecs();
// if(!m_list->checkList_r ( false , // removeNegRecs?
// false , // sleep on problem?
// m_rdb->m_rdbId )) {
// log("db: list to dump is not sane!");
// char *xx=NULL;*xx=0;
// }
skip:
int64_t t2;
//key_t lastKey;
char *lastKey;
// if error getting list (out of memory?)
if ( ! status ) goto hadError;
// debug msg
t2 = gettimeofdayInMilliseconds();
log(LOG_INFO,"db: Get list took %"INT64" ms. "
"%"INT32" positive. %"INT32" negative.",
t2 - m_t1 , m_numPosRecs , m_numNegRecs );
// keep a total count for reporting when done
m_totalPosDumped += m_numPosRecs;
m_totalNegDumped += m_numNegRecs;
// . check the list we got from the tree for problems
// . ensures keys are ordered from lowest to highest as well
//#ifdef GBSANITYCHECK
if ( g_conf.m_verifyWrites ) {
char *s = "none";
if ( m_rdb ) s = getDbnameFromId(m_rdb->m_rdbId);
log("dump: verifying list before dumping (rdb=%s)",s);
m_list->checkList_r ( false , // removeNegRecs?
false , // sleep on problem?
m_rdb->m_rdbId );
}
// if list is empty, we're done!
if ( status && m_list->isEmpty() ) {
// consider that a rollover?
if ( m_rdb->m_rdbId == RDB_STATSDB )
m_rolledOver = true;
return true;
}
// get the last key of the list
lastKey = m_list->getLastKey();
// advance m_nextKey
//m_nextKey = lastKey ;
//m_nextKey += (uint32_t)1;
//if ( m_nextKey < lastKey ) m_rolledOver = true;
KEYSET(m_nextKey,lastKey,m_ks);
KEYADD(m_nextKey,1,m_ks);
if (KEYCMP(m_nextKey,lastKey,m_ks)<0) m_rolledOver = true;
// debug msg
//log(0,"RdbDump:lastKey.n1=%"UINT32",n0=%"UINT64"",lastKey.n1,lastKey.n0);
//log(0,"RdbDump:next.n1=%"UINT32",n0=%"UINT64"",m_nextKey.n1,m_nextKey.n0);
}
// . return true on error, g_errno should have been set
// . this is probably out of memory error
if ( ! status ) {
hadError:
log("db: Had error getting data for dump: %s. Retrying.",
mstrerror(g_errno));
// debug msg
//log("RdbDump::getList: sleeping and retrying");
// retry for the remaining two types of errors
if (!g_loop.registerSleepCallback(1000,this,tryAgainWrapper2)){
log(
"db: Retry failed. Could not register callback.");
return true;
}
// wait for sleep
return false;
}
// if list is empty, we're done!
if ( m_list->isEmpty() ) return true;
// . set m_firstKeyInQueue and m_lastKeyInQueue
// . this doesn't work if you're doing an unordered dump, but we should
// not allow adds when closing
m_lastKeyInQueue = m_list->getLastKey();
//m_firstKeyInQueue = m_list->getCurrentKey();
m_list->getCurrentKey(m_firstKeyInQueue);
// . write this list to disk
// . returns false if blocked, true otherwise
// . sets g_errno on error
// . if this blocks it should call us (dumpTree() back)
if ( ! dumpList ( m_list , m_niceness , false ) ) return false;
// close up shop on a write/dumpList error
if ( g_errno ) return true;
// . if dumpList() did not block then keep on truckin'
// . otherwise, wait for callback of dumpTree()
goto loop;
}
// . return false if blocked, true otherwise
// . sets g_errno on error
bool Msg1::sendData ( uint32_t shardNum, char *listData , int32_t listSize) {
// debug msg
//log("sendData: mcast=%" PRIu32" listSize=%" PRId32,
// (int32_t)&m_mcast,(int32_t)listSize);
// bail if this is an interface machine, don't write to the main
if ( g_conf.m_interfaceMachine ) return true;
// return true if no data
if ( listSize == 0 ) return true;
// how many hosts in this group
//int32_t numHosts = g_hostdb.getNumHostsPerShard();
// . NOTE: for now i'm removing this until I handle ETRYAGAIN errors
// properly... by waiting and retrying...
// . if this is local data just for us just do an addList to OUR rdb
/*
if ( groupId == g_hostdb.m_groupId && numHosts == 1 ) {
// this sets g_errno on error
Msg0 msg0;
Rdb *rdb = msg0.getRdb ( (char) m_rdbId );
if ( ! rdb ) return true;
// make a list from this data
RdbList list;
list.set (listData,listSize,listSize,rdb->getFixedDataSize(),
false) ; // ownData?
// this returns false and sets g_errno on error
rdb->addList ( &list );
// . if we got a ETRYAGAIN cuz the buffer we add to was full
// then we should sleep and try again!
// . return false cuz this blocks for a period of time
// before trying again
if ( g_errno == ETRYAGAIN ) {
// try adding again in 1 second
registerSleepCallback ( 1000, slot, tryAgainWrapper1 );
// return now
return false;
}
// . always return true cuz we did not block
// . g_errno may be set
return true;
}
*/
// if the data is being added to our group, don't send ourselves
// a msg1, if we can add it right now
// MDW: crap this is getting ETRYAGAIN and it isn't being tried again
// i guess and Spider.cpp fails to add to doledb but the doleiptable
// maintains a positive count, thereby hanging the spiders. let's
// just always go through multicast so it will auto-retry ETRYAGAIN
/*
bool sendToSelf = true;
if ( shardNum == getMyShardNum() &&
! g_conf.m_interfaceMachine ) {
// get the rdb to which it belongs, use Msg0::getRdb()
Rdb *rdb = getRdbFromId ( (char) m_rdbId );
if ( ! rdb ) goto skip;
// key size
int32_t ks = getKeySizeFromRdbId ( m_rdbId );
// reset g_errno
g_errno = 0;
// . make a list from this data
// . skip over the first 4 bytes which is the rdbId
// . TODO: embed the rdbId in the msgtype or something...
RdbList list;
// set the list
list.set ( listData ,
listSize ,
listData ,
listSize ,
rdb->getFixedDataSize() ,
false , // ownData?
rdb->useHalfKeys() ,
ks );
// note that
//log("msg1: local addlist niceness=%" PRId32,m_niceness);
// this returns false and sets g_errno on error
rdb->addList ( m_coll , &list , m_niceness );
// if titledb, add tfndb recs to map the title recs
//if ( ! g_errno && rdb == g_titledb.getRdb() && m_injecting )
// // this returns false and sets g_errno on error
// updateTfndb ( m_coll , &list , true , m_niceness);
// if no error, no need to use a Msg1 UdpSlot for ourselves
if ( ! g_errno ) sendToSelf = false;
else {
log("rdb: msg1 coll=%s rdb=%s had error: %s",
m_coll,rdb->m_dbname,mstrerror(g_errno));
// this is messing up generate catdb's huge rdblist add
// why did we put it in there??? from msg9b.cpp
//return true;
}
QUICKPOLL(m_niceness);
// if we're the only one in the group, bail, we're done
if ( ! sendToSelf &&
g_hostdb.getNumHostsPerShard() == 1 ) return true;
}
skip:
*/
// . make an add record request to multicast to a bunch of machines
// . this will alloc new space, returns NULL on failure
//char *request = makeRequest ( listData, listSize, groupId ,
//m_rdbId , &requestLen );
//int32_t collLen = strlen ( m_coll );
// . returns NULL and sets g_errno on error
// . calculate total size of the record
// . 1 byte for rdbId, 1 byte for flags,
// then collection NULL terminated, then list
int32_t requestLen = 1 + 1 + sizeof(collnum_t) + listSize ;
// make the request
char *request = (char *) mmalloc ( requestLen ,"Msg1" );
if ( ! request ) return true;
char *p = request;
// store the rdbId at top of request
*p++ = m_rdbId;
// then the flags
*p = 0;
if ( m_injecting ) *p |= 0x80;
p++;
// then collection name
//gbmemcpy ( p , m_coll , collLen );
//p += collLen;
//*p++ = '\0';
*(collnum_t *)p = m_collnum;
p += sizeof(collnum_t);
// sanity check
//if ( collLen <= 0 ) {
// log(LOG_LOGIC,"net: No collection specified for list add.");
// //g_process.shutdownAbort(true);
// g_errno = ENOCOLLREC;
// return true;
//}
//if ( m_deleteRecs ) request[1] |= 0x80;
//if ( m_overwriteRecs ) request[1] |= 0x40;
// store the list after coll
gbmemcpy ( p , listData , listSize );
QUICKPOLL(m_niceness);
// for small packets
//int32_t niceness = 2;
//if ( requestLen < TMPBUFSIZE - 32 ) niceness = 0;
//log("msg1: sending mcast niceness=%" PRId32,m_niceness);
// . multicast to all hosts in group "groupId"
// . multicast::send() returns false and sets g_errno on error
// . we return false if we block, true otherwise
// . will loop indefinitely if a host in this group is down
key_t k; k.setMin();
if ( m_mcast.send ( request , // sets mcast->m_msg to this
requestLen , // sets mcast->m_msgLen to this
msg_type_1 ,
true , // does multicast own msg?
shardNum , // group to send to (groupKey)
true , // send to whole group?
0 , // key is useless for us
this , // state data
NULL , // state data
gotReplyWrapper1 ,
multicast_msg1_senddata_timeout , // timeout
m_niceness , // niceness
-1 , // first host to try
NULL , // replyBuf = NULL ,
0 , // replyBufMaxSize = 0 ,
true , // freeReplyBuf = true ,
false , // doDiskLoadBalancing = false ,
-1 , // no max cache age limit
//(key_t)0 , // cache key
k , // cache key
RDB_NONE , // bogus rdbId
-1 , // unknown minRecSizes read size
true )) // sendToSelf ))
return false;
QUICKPOLL(m_niceness);
// g_errno should be set
log("net: Had error when sending request to add data to %s in shard "
"#%" PRIu32": %s.", getDbnameFromId(m_rdbId),shardNum,mstrerror(g_errno));
return true;
}
// . returns false if blocked, true otherwise
// . sets g_errno on error
// . if the list is sorted by keys this will be the most efficient
bool Msg1::sendSomeOfList ( ) {
// sanity check
if ( m_list->m_ks != 8 &&
m_list->m_ks != 12 &&
m_list->m_ks != 16 &&
m_list->m_ks != 24 ) {
g_process.shutdownAbort(true); }
// debug msg
//log("sendSomeOfList: mcast=%" PRIu32" exhausted=%" PRId32,
// (int32_t)&m_mcast,(int32_t)m_list->isExhausted());
loop:
// return true if list exhausted and nothing left to add
if ( m_list->isExhausted() ) return true;
// get key of the first record in the list
//key_t firstKey = m_list->getCurrentKey();
char firstKey[MAX_KEY_BYTES];
m_list->getCurrentKey(firstKey);
QUICKPOLL(m_niceness);
// get groupId from this key
//uint32_t groupId ;
// . use the new Hostdb.h inlined function
uint32_t shardNum = getShardNum ( m_rdbId , firstKey );
// point to start of data we're going to send
char *dataStart = m_list->getListPtr();
// how many records belong to the same group as "firstKey"
//key_t key;
char key[MAX_KEY_BYTES];
while ( ! m_list->isExhausted() ) {
//key = m_list->getCurrentKey();
m_list->getCurrentKey(key);
#ifdef GBSANITYCHECK
// no half bits in here!
// debug point
if ( m_list->useHalfKeys() &&
m_list->isHalfBitOn ( m_list->getCurrentRec() ) )
log(LOG_LOGIC,"net: msg1: Got half bit. Bad "
"engineer.");
#endif
// . if key belongs to same group as firstKey then continue
// . titledb now uses last bits of docId to determine groupId
// . but uses the top 32 bits of key still
// . spiderdb uses last 64 bits to determine groupId
// . tfndb now is like titledb(top 32 bits are top 32 of docId)
//if ( getGroupId(m_rdbId,key) != groupId ) goto done;
if ( getShardNum(m_rdbId,key) != shardNum ) goto done;
// . break so we don't send more than MAX_DGRAMS defined in
// UdpServer.cpp.
// . let's boost it from 16k to 64k for speed
if ( m_list->getListPtr() - dataStart > 64*1024 ) goto done;
// . point to next record
// . will point passed records if no more left!
QUICKPOLL(m_niceness);
//int32_t crec = m_list->getCurrentRecSize();
m_list->skipCurrentRecord();
// sanity check
if ( m_list->m_listPtr > m_list->m_listEnd ) {
g_process.shutdownAbort(true); }
}
done:
// now point to the end of the data
char *dataEnd = m_list->getListPtr();
// . if force local is true we force the data to be added locally
// . this fixes the bug we had from spiderdb since a key got corrupted
// just enough to put it into a different groupId (but not out
// of order) so we couldn't delete it cuz our delete keys would go
// elsewhere
if ( m_forceLocal && shardNum != getMyShardNum() &&
! g_conf.m_interfaceMachine ) {
// make the groupId local, our group
//groupId = g_hostdb.m_groupId;
// bitch about this to log it
log("net: Data does not belong in shard %" PRIu32", but adding "
"to %s anyway. Probable data corruption.",
(uint32_t)shardNum,getDbnameFromId(m_rdbId));
}
QUICKPOLL(m_niceness);
// sanity test for new rdbs
if ( m_list->m_fixedDataSize != getDataSizeFromRdbId(m_rdbId) ) {
g_process.shutdownAbort(true); }
// . now send this list to the host
// . this returns false if blocked, true otherwise
// . it also sets g_errno on error
// . if it blocked return false
if ( ! sendData ( shardNum , dataStart , dataEnd - dataStart ) )
return false;
// if there was an error return true
if ( g_errno ) return true;
// otherwise, keep adding
goto loop;
}
// . send an add command to all machines in the appropriate group
// . returns false if blocked, true otherwise
// . sets g_errno on error
// . groupId is -1 if we choose it automatically
// . if waitForReply is false we return true right away, but we can only
// launch MAX_MSG1S requests without waiting for replies, and
// when the reply does come back we do NOT call the callback
bool Msg1::addList ( RdbList *list ,
char rdbId ,
collnum_t collnum, // char *coll ,
void *state ,
void (* callback)(void *state) ,
bool forceLocal ,
int32_t niceness ,
bool injecting ,
bool waitForReply ,
bool *inTransit ) {
// warning
if ( collnum<0 ) log(LOG_LOGIC,"net: bad collection. msg1.cpp.");
// if list has no records in it return true
if ( ! list || list->isEmpty() ) return true;
// sanity check
if ( list->m_ks != 8 &&
list->m_ks != 12 &&
list->m_ks != 16 &&
list->m_ks != 24 ) {
g_process.shutdownAbort(true); }
// start at the beginning
list->resetListPtr();
// if caller does not want reply try to accomodate him
if ( ! waitForReply && list != &m_ourList ) {
Msg1 *Y = getMsg1();
if ( ! Y ) {
waitForReply = true;
log(LOG_DEBUG,"net: msg1: "
"No floating request slots "
"available for adding data. "
"Blocking on reply.");
goto skip;
}
// steal the list, we don't want caller to free it
gbmemcpy ( &Y->m_ourList , list , sizeof(RdbList) );
QUICKPOLL(niceness);
// if list is small enough use our buf
if ( ! list->m_ownData && list->m_listSize <= MSG1_BUF_SIZE ) {
gbmemcpy ( Y->m_buf , list->m_list , list->m_listSize );
Y->m_ourList.m_list = Y->m_buf;
Y->m_ourList.m_listEnd = Y->m_buf + list->m_listSize;
Y->m_ourList.m_alloc = NULL;
Y->m_ourList.m_ownData = false;
}
// otherwise, we cannot copy it and i don't want to mdup it...
else if ( ! list->m_ownData ) {
log(LOG_LOGIC,"net: msg1: List must own data. Bad "
"engineer.");
g_process.shutdownAbort(true);
}
// lastly, if it was a clean steal, don't let list free it
else list->m_ownData = false;
// reset m_listPtr and m_listPtrHi so we pass the isExhausted()
// check in sendSomeOfList() below
Y->m_ourList.resetListPtr();
// sanity test
if ( Y->m_ourList.isExhausted() ) {
log(LOG_LOGIC,"net: msg1: List is exhausted. "
"Bad engineer.");
g_process.shutdownAbort(true); }
// now re-call
bool inTransit;
bool status = Y->addList ( &Y->m_ourList ,
rdbId ,
collnum ,
Y , // state
returnMsg1 , // callback
forceLocal ,
niceness ,
injecting ,
waitForReply ,
&inTransit ) ;
// if we really blocked return false
if ( ! status ) return false;
// otherwise, it may have returned true because waitForReply
// is false, but the request may still be in transit
if ( inTransit ) return true;
// debug msg
//log("did not block, listSize=%" PRId32,m->m_ourList.m_listSize);
// we did it without blocking, but it is still in transit
// unless there was an error
if ( g_errno ) log("net: Adding data to %s had error: %s.",
getDbnameFromId(rdbId),
mstrerror(g_errno));
// otherwise, if not in transit and no g_errno then it must
// have really completed without blocking. in which case
// we are done with "Y"
returnMsg1 ( (void *)Y );
return true;
}
skip:
// remember these vars
m_list = list;
m_rdbId = rdbId;
m_collnum = collnum;
m_state = state;
m_callback = callback;
m_forceLocal = forceLocal;
m_niceness = niceness;
m_injecting = injecting;
m_waitForReply = waitForReply;
QUICKPOLL(niceness);
// reset m_listPtr to point to first record again
list->resetListPtr();
// is the request in transit? assume not (assume did not block)
if ( inTransit ) *inTransit = false;
// . not all records in the list may belong to the same group
// . records should be sorted by key so we don't need to sort them
// . if this did not block, return true
if ( sendSomeOfList ( ) ) return true;
// it is in transit
if ( inTransit ) *inTransit = true;
// if we should waitForReply return false
if ( m_waitForReply ) return false;
// tell caller we did not block on the reply, even though we did
return true;
}
// . returns false if blocked, true otherwise
// . sets g_errno on error
// . if the list is sorted by keys this will be the most efficient
bool Msg1::sendSomeOfList ( ) {
// sanity check
if ( m_list->m_ks != 8 &&
m_list->m_ks != 12 &&
m_list->m_ks != 16 &&
m_list->m_ks != 24 ) {
char *xx=NULL;*xx=0; }
// debug msg
//log("sendSomeOfList: mcast=%lu exhausted=%li",
// (long)&m_mcast,(long)m_list->isExhausted());
loop:
// return true if list exhausted and nothing left to add
if ( m_list->isExhausted() ) return true;
// get key of the first record in the list
//key_t firstKey = m_list->getCurrentKey();
char firstKey[MAX_KEY_BYTES];
m_list->getCurrentKey(firstKey);
QUICKPOLL(m_niceness);
// get groupId from this key
//unsigned long groupId ;
// . use the new Hostdb.h inlined function
uint32_t shardNum = getShardNum ( m_rdbId , firstKey );
// . default is to use top bits of the key
// . but if we're adding to titledb use last bits in the top of key
// . but if we're adding to spiderdb we use the last long in the key
// . tfndb urlRec key same as titleRec key
/*
if ( m_rdbId == RDB_INDEXDB )
groupId = g_indexdb.getGroupIdFromKey((key_t *)firstKey);
else if ( m_rdbId == RDB_DATEDB )
groupId = g_datedb.getGroupIdFromKey((key128_t *)firstKey);
else if ( m_rdbId == RDB_TITLEDB)
groupId = g_titledb.getGroupIdFromKey((key_t *)firstKey);
else if ( m_rdbId == RDB_CHECKSUMDB)
groupId = g_checksumdb.getGroupId ( firstKey );
else if ( m_rdbId == RDB_SPIDERDB )
groupId = g_spiderdb.getGroupId ( (key_t *)firstKey );
else if ( m_rdbId == RDB_TFNDB )
groupId = g_tfndb.getGroupId ( (key_t *)firstKey );
else if ( m_rdbId == RDB_CLUSTERDB )
groupId = g_clusterdb.getGroupIdFromKey((key_t *)firstKey);
else if ( m_rdbId == RDB2_INDEXDB2 )
groupId = g_indexdb.getGroupIdFromKey((key_t *)firstKey);
else if ( m_rdbId == RDB2_DATEDB2 )
groupId = g_datedb.getGroupIdFromKey((key128_t *)firstKey);
else if ( m_rdbId == RDB2_TITLEDB2)
groupId = g_titledb.getGroupIdFromKey((key_t *)firstKey);
else if ( m_rdbId == RDB2_CHECKSUMDB2)
groupId = g_checksumdb.getGroupId ( firstKey );
else if ( m_rdbId == RDB2_SPIDERDB2 )
groupId = g_spiderdb.getGroupId ( (key_t *)firstKey );
else if ( m_rdbId == RDB2_TFNDB2 )
groupId = g_tfndb.getGroupId ( (key_t *)firstKey );
else if ( m_rdbId == RDB2_CLUSTERDB2 )
groupId = g_clusterdb.getGroupIdFromKey((key_t *)firstKey);
//else groupId=firstKey.n1 & g_hostdb.m_groupMask;
else groupId = (((key_t *)firstKey)->n1) & g_hostdb.m_groupMask;
*/
// point to start of data we're going to send
char *dataStart = m_list->getListPtr();
// how many records belong to the same group as "firstKey"
//key_t key;
char key[MAX_KEY_BYTES];
while ( ! m_list->isExhausted() ) {
//key = m_list->getCurrentKey();
m_list->getCurrentKey(key);
#ifdef _SANITYCHECK_
// no half bits in here!
// debug point
if ( m_list->useHalfKeys() &&
m_list->isHalfBitOn ( m_list->getCurrentRec() ) )
log(LOG_LOGIC,"net: msg1: Got half bit. Bad "
"engineer.");
#endif
// . if key belongs to same group as firstKey then continue
// . titledb now uses last bits of docId to determine groupId
// . but uses the top 32 bits of key still
// . spiderdb uses last 64 bits to determine groupId
// . tfndb now is like titledb(top 32 bits are top 32 of docId)
//if ( getGroupId(m_rdbId,key) != groupId ) goto done;
if ( getShardNum(m_rdbId,key) != shardNum ) goto done;
/*
switch ( m_rdbId ) {
case RDB_TITLEDB:
if(g_titledb.getGroupIdFromKey((key_t *)key)!=groupId)
goto done;
break;
case RDB_CHECKSUMDB:
if(g_checksumdb.getGroupId ( key)!=groupId)
goto done;
break;
case RDB_SPIDERDB:
if ( g_spiderdb.getGroupId ((key_t *)key) != groupId)
goto done;
break;
case RDB_TFNDB:
if ( g_tfndb.getGroupId ((key_t *)key) != groupId)
goto done;
break;
case RDB_CLUSTERDB:
if(g_clusterdb.getGroupIdFromKey((key_t *)key)!=groupId)
goto done;
break;
case RDB_DATEDB:
if(g_datedb.getGroupIdFromKey((key128_t *)key)!=groupId)
goto done;
break;
case RDB_INDEXDB:
if(g_indexdb.getGroupIdFromKey((key_t *)key)!=groupId)
goto done;
break;
//default:if ((key.n1&g_hostdb.m_groupMask) != groupId)
default: if ( ((((key_t *)key)->n1) & g_hostdb.m_groupMask) !=
groupId)
goto done;
}
*/
// . break so we don't send more than MAX_DGRAMS defined in
// UdpServer.cpp.
// . let's boost it from 16k to 64k for speed
if ( m_list->getListPtr() - dataStart > 64*1024 ) goto done;
// . point to next record
// . will point passed records if no more left!
QUICKPOLL(m_niceness);
//long crec = m_list->getCurrentRecSize();
m_list->skipCurrentRecord();
// sanity check
if ( m_list->m_listPtr > m_list->m_listEnd ) {
char *xx=NULL;*xx=0; }
}
done:
// now point to the end of the data
char *dataEnd = m_list->getListPtr();
// . if force local is true we force the data to be added locally
// . this fixes the bug we had from spiderdb since a key got corrupted
// just enough to put it into a different groupId (but not out
// of order) so we couldn't delete it cuz our delete keys would go
// elsewhere
if ( m_forceLocal && shardNum != getMyShardNum() &&
! g_conf.m_interfaceMachine ) {
// make the groupId local, our group
//groupId = g_hostdb.m_groupId;
// bitch about this to log it
log("net: Data does not belong in shard %lu, but adding "
"to %s anyway. Probable data corruption.",
(unsigned long)shardNum,getDbnameFromId(m_rdbId));
}
QUICKPOLL(m_niceness);
// sanity test for new rdbs
if ( m_list->m_fixedDataSize != getDataSizeFromRdbId(m_rdbId) ) {
char *xx=NULL;*xx=0; }
// little debug thing for genCatdb from msg9b's huge list add
//if ( m_list->m_listSize > 10000000 )
// log("msg1: adding chunk @ %li of %li bytes",
// (long)(dataStart - m_list->m_list) ,
// (long)m_list->m_listSize );
// . now send this list to the host
// . this returns false if blocked, true otherwise
// . it also sets g_errno on error
// . if it blocked return false
if ( ! sendData ( shardNum , dataStart , dataEnd - dataStart ) )
return false;
// if there was an error return true
if ( g_errno ) return true;
// otherwise, keep adding
goto loop;
}
