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tdenetwork/kdict/dict.cpp

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44 KiB

/* -------------------------------------------------------------
dict.cpp (part of The KDE Dictionary Client)
Copyright (C) 2000-2001 Christian Gebauer <gebauer@kde.org>
(C) by Matthias H<>lzer 1998
This file is distributed under the Artistic License.
See LICENSE for details.
-------------------------------------------------------------
JobData used for data transfer between Client and Interface
DictAsyncClient all network related stuff happens here in asynchrous thread
DictInterface interface for DictAsyncClient, job management
------------------------------------------------------------- */
#include <config.h>
#include "application.h"
#include "options.h"
#include "dict.h"
#include <tqregexp.h>
#include <tqtextcodec.h>
#include <klocale.h>
#include <kdebug.h>
#include <kmessagebox.h>
#include <kmdcodec.h>
#include <kextsock.h>
#include <ksocks.h>
#include <errno.h>
#include <unistd.h>
#include <fcntl.h>
#include <signal.h>
#include <stdlib.h>
//********* JobData ******************************************
JobData::JobData(QueryType Ntype,bool NnewServer,TQString const& Nserver,int Nport,
int NidleHold, int Ntimeout, int NpipeSize, TQString const& Nencoding, bool NAuthEnabled,
TQString const& Nuser, TQString const& Nsecret, unsigned int NheadLayout)
: type(Ntype), error(ErrNoErr), canceled(false), numFetched(0), newServer(NnewServer),server(Nserver), port(Nport),
timeout(Ntimeout), pipeSize(NpipeSize), idleHold(NidleHold), encoding(Nencoding), authEnabled(NAuthEnabled),
user(Nuser), secret(Nsecret), headLayout(NheadLayout)
{}
//********* DictAsyncClient *************************************
DictAsyncClient::DictAsyncClient(int NfdPipeIn, int NfdPipeOut)
: job(0L), inputSize(10000), fdPipeIn(NfdPipeIn),
fdPipeOut(NfdPipeOut), tcpSocket(-1), idleHold(0)
{
input = new char[inputSize];
}
DictAsyncClient::~DictAsyncClient()
{
if (-1!=tcpSocket)
doQuit();
delete [] input;
}
void* DictAsyncClient::startThread(void* pseudoThis)
{
DictAsyncClient* newthis = (DictAsyncClient*) (pseudoThis);
if (0!=pthread_setcanceltype(PTHREAD_CANCEL_ENABLE,NULL))
qWarning("pthread_setcanceltype failed!");
if (0!= pthread_setcanceltype(PTHREAD_CANCEL_ASYNCHRONOUS,NULL))
qWarning("pthread_setcanceltype failed!");
signal(SIGPIPE,SIG_IGN); // ignore sigpipe
newthis->waitForWork();
return NULL;
}
void DictAsyncClient::insertJob(JobData *newJob)
{
if (!job) // don't overwrite existing job pointer
job = newJob;
}
void DictAsyncClient::removeJob()
{
job = 0L;
}
void DictAsyncClient::waitForWork()
{
fd_set fdsR,fdsE;
timeval tv;
int selectRet;
char buf;
while (true) {
if (tcpSocket != -1) { // we are connected, hold the connection for xx secs
FD_ZERO(&fdsR);
FD_SET(fdPipeIn, &fdsR);
FD_SET(tcpSocket, &fdsR);
FD_ZERO(&fdsE);
FD_SET(tcpSocket, &fdsE);
tv.tv_sec = idleHold;
tv.tv_usec = 0;
selectRet = KSocks::self()->select(FD_SETSIZE, &fdsR, NULL, &fdsE, &tv);
if (selectRet == 0) {
doQuit(); // nothing happend...
} else {
if (((selectRet > 0)&&(!FD_ISSET(fdPipeIn,&fdsR)))||(selectRet == -1))
closeSocket();
}
}
do {
FD_ZERO(&fdsR);
FD_SET(fdPipeIn, &fdsR);
} while (select(FD_SETSIZE, &fdsR, NULL, NULL, NULL)<0); // don't get tricked by signals
clearPipe();
if (job) {
if ((tcpSocket!=-1)&&(job->newServer))
doQuit();
codec = TQTextCodec::codecForName(job->encoding.latin1());
input[0] = 0; //terminate string
thisLine = input;
nextLine = input;
inputEnd = input;
timeout = job->timeout;
idleHold = job->idleHold;
if (tcpSocket==-1)
openConnection();
if (tcpSocket!=-1) { // connection is ready
switch (job->type) {
case JobData::TDefine :
define();
break;
case JobData::TGetDefinitions :
getDefinitions();
break;
case JobData::TMatch :
match();
break;
case JobData::TShowDatabases :
showDatabases();
break;
case JobData::TShowDbInfo :
showDbInfo();
break;
case JobData::TShowStrategies :
showStrategies();
break;
case JobData::TShowInfo :
showInfo();
break;
case JobData::TUpdate :
update();
}
}
clearPipe();
}
if (write(fdPipeOut,&buf,1) == -1) // emit stopped signal
::perror( "waitForJobs()" );
}
}
void DictAsyncClient::define()
{
TQString command;
job->defines.clear();
TQStringList::iterator it;
for (it = job->databases.begin(); it != job->databases.end(); ++it) {
command = "define ";
command += *it;
command += " \"";
command += job->query;
command += "\"\r\n";
job->defines.append(command);
}
if (!getDefinitions())
return;
if (job->numFetched == 0) {
job->strategy = ".";
if (!match())
return;
job->result = TQString();
if (job->numFetched == 0) {
resultAppend("<body>\n<p class=\"heading\">\n");
resultAppend(i18n("No definitions found for \'%1'.").arg(job->query));
resultAppend("</p>\n</html></body>");
} else {
// html header...
resultAppend("<body>\n<p class=\"heading\">\n");
resultAppend(i18n("No definitions found for \'%1\'. Perhaps you mean:").arg(job->query));
resultAppend("</p>\n<table width=\"100%\" cols=2>\n");
TQString lastDb;
TQStringList::iterator it;
for (it = job->matches.begin(); it != job->matches.end(); ++it) {
int pos = (*it).find(' ');
if (pos != -1) {
if (lastDb != (*it).left(pos)) {
if (lastDb.length() > 0)
resultAppend("</pre></td></tr>\n");
lastDb = (*it).left(pos);
resultAppend("<tr valign=top><td width=25%><pre><b>");
resultAppend(lastDb);
resultAppend(":</b></pre></td><td width=75%><pre>");
}
if ((*it).length() > (unsigned int)pos+2) {
resultAppend("<a href=\"http://define/");
resultAppend((*it).mid(pos+2, (*it).length()-pos-3));
resultAppend("\">");
resultAppend((*it).mid(pos+2, (*it).length()-pos-3));
resultAppend("</a> ");
}
}
}
resultAppend("\n</pre></td></tr></table>\n</body></html>");
job->numFetched = 0;
}
}
}
TQString htmlString(const TQString &raw)
{
unsigned int len=raw.length();
TQString ret;
for (unsigned int i=0; i<len; i++) {
switch (raw[i]) {
case '&' : ret += "&amp"; break;
case '<' : ret+="&lt;"; break;
case '>' : ret+="&gt;"; break;
default : ret+=raw[i];
}
}
return ret;
}
TQString generateDefineLink(const TQString &raw)
{
TQRegExp http("http://[^\\s<>()\"|\\[\\]{}]+");
TQRegExp ftp("ftp://[^\\s<>()\"|\\[\\]{}]+");
int matchPos=0, matchLen=0;
bool httpMatch=false;
TQString ret;
matchPos = http.search(raw);
matchLen = http.matchedLength();
if (-1 != matchPos) {
httpMatch = true;
} else {
matchPos = ftp.search(raw);
matchLen = ftp.matchedLength();
httpMatch = false;
}
if (-1 != matchPos) {
ret = htmlString(raw.left(matchPos));
ret += "<a href=\"http://";
if (httpMatch) {
ret += "realhttp/";
ret += raw.mid(matchPos+7, matchLen-7);
} else {
ret += "realftp/";
ret += raw.mid(matchPos+6, matchLen-6);
}
ret += "\">";
ret += htmlString(raw.mid(matchPos, matchLen));
ret += "</a>";
ret += htmlString(raw.right(raw.length()-matchLen-matchPos));
} else {
ret = "<a href=\"http://define/";
ret += raw;
ret += "\">";
ret += htmlString(raw);
ret += "</a>";
}
return ret;
}
bool DictAsyncClient::getDefinitions()
{
TQCString lastDb,bracketBuff;
TQStrList hashList;
char *s;
int defCount,response;
// html header...
resultAppend("<body>\n");
while (job->defines.count()>0) {
defCount = 0;
cmdBuffer = "";
do {
TQStringList::iterator it = job->defines.begin();
cmdBuffer += codec->fromUnicode(*it);
defCount++;
job->defines.remove(it);
} while ((job->defines.count()>0)&&((int)cmdBuffer.length()<job->pipeSize));
if (!sendBuffer())
return false;
for (;defCount > 0;defCount--) {
if (!getNextResponse(response))
return false;
switch (response) {
case 552: // define: 552 No match
break;
case 150: { // define: 150 n definitions retrieved - definitions follow
bool defineDone = false;
while (!defineDone) {
if (!getNextResponse(response))
return false;
switch (response) {
case 151: { // define: 151 word database name - text follows
char *db = strchr(thisLine, '\"');
if (db)
db = strchr(db+1, '\"');
char *dbdes = 0;
if (db) {
db+=2; // db points now on database name
dbdes = strchr(db,' ');
if (dbdes) {
dbdes[0] = 0; // terminate database name
dbdes+=2; // dbdes points now on database description
}
} else {
job->error = JobData::ErrServerError;
job->result = TQString();
resultAppend(thisLine);
doQuit();
return false;
}
int oldResPos = job->result.length();
if (((job->headLayout<2)&&(lastDb!=db))||(job->headLayout==2)) {
lastDb = db;
resultAppend("<p class=\"heading\">\n");
if (dbdes)
resultAppend(codec->toUnicode(dbdes,strlen(dbdes)-1));
resultAppend(" [<a href=\"http://dbinfo/");
resultAppend(db);
resultAppend("\">");
resultAppend(db);
resultAppend("</a>]</p>\n");
} else
if (job->headLayout==1)
resultAppend("<hr>\n");
resultAppend("<pre><p class=\"definition\">\n");
KMD5 context;
bool bodyDone = false;
while (!bodyDone) {
if (!getNextLine())
return false;
char *line = thisLine;
if (line[0]=='.') {
if (line[1]=='.')
line++; // collapse double periode into one
else
if (line[1]==0)
bodyDone = true;
}
if (!bodyDone) {
context.update(TQCString(line));
if (!bracketBuff.isEmpty()) {
s = strchr(line,'}');
if (!s)
resultAppend(bracketBuff.data());
else {
s[0] = 0;
bracketBuff.remove(0,1); // remove '{'
bracketBuff += line;
line = s+1;
resultAppend(generateDefineLink(codec->toUnicode(bracketBuff)));
}
bracketBuff = "";
}
s = strchr(line,'{');
while (s) {
resultAppend(htmlString(codec->toUnicode(line,s-line)));
line = s;
s = strchr(line,'}');
if (s) {
s[0] = 0;
line++;
resultAppend(generateDefineLink(codec->toUnicode(line)));
line = s+1;
s = strchr(line,'{');
} else {
bracketBuff = line;
bracketBuff += "\n";
line = 0;
s = 0;
}
}
if (line) {
resultAppend(htmlString(codec->toUnicode(line)));
resultAppend("\n");
}
}
}
resultAppend("</p></pre>\n");
if (hashList.find(context.hexDigest())>=0) // duplicate??
job->result.truncate(oldResPos); // delete the whole definition
else {
hashList.append(context.hexDigest());
job->numFetched++;
}
break; }
case 250: { // define: 250 ok (optional timing information here)
defineDone = true;
break; }
default: {
handleErrors();
return false; }
}
}
break; }
default:
handleErrors();
return false;
}
}
}
resultAppend("</body></html>\n");
return true;
}
bool DictAsyncClient::match()
{
TQStringList::iterator it = job->databases.begin();
int response;
cmdBuffer = "";
while (it != job->databases.end()) {
int send = 0;
do {
cmdBuffer += "match ";
cmdBuffer += codec->fromUnicode(*(it));
cmdBuffer += " ";
cmdBuffer += codec->fromUnicode(job->strategy);
cmdBuffer += " \"";
cmdBuffer += codec->fromUnicode(job->query);
cmdBuffer += "\"\r\n";
send++;
++it;
} while ((it != job->databases.end())&&((int)cmdBuffer.length()<job->pipeSize));
if (!sendBuffer())
return false;
for (;send > 0;send--) {
if (!getNextResponse(response))
return false;
switch (response) {
case 552: // match: 552 No match
break;
case 152: { // match: 152 n matches found - text follows
bool matchDone = false;
while (!matchDone) {
if (!getNextLine())
return false;
char *line = thisLine;
if (line[0]=='.') {
if (line[1]=='.')
line++; // collapse double period into one
else
if (line[1]==0)
matchDone = true;
}
if (!matchDone) {
job->numFetched++;
job->matches.append(codec->toUnicode(line));
}
}
if (!nextResponseOk(250)) // match: "250 ok ..."
return false;
break; }
default:
handleErrors();
return false;
}
}
}
return true;
}
void DictAsyncClient::showDatabases()
{
cmdBuffer = "show db\r\n";
if (!sendBuffer())
return;
if (!nextResponseOk(110)) // show db: "110 n databases present - text follows "
return;
// html header...
resultAppend("<body>\n<p class=\"heading\">\n");
resultAppend(i18n("Available Databases:"));
resultAppend("\n</p>\n<table width=\"100%\" cols=2>\n");
bool done(false);
char *line;
while (!done) {
if (!getNextLine())
return;
line = thisLine;
if (line[0]=='.') {
if (line[1]=='.')
line++; // collapse double periode into one
else
if (line[1]==0)
done = true;
}
if (!done) {
resultAppend("<tr valign=top><td width=25%><pre><a href=\"http://dbinfo/");
char *space = strchr(line,' ');
if (space) {
resultAppend(codec->toUnicode(line,space-line));
resultAppend("\">");
resultAppend(codec->toUnicode(line,space-line));
resultAppend("</a></pre></td><td width=75%><pre>");
line = space+1;
if (line[0]=='"') {
line++; // remove double quote
char *quote = strchr(line, '\"');
if (quote)
quote[0]=0;
}
} else { // hmmm, malformated line...
resultAppend("\"></a></pre></td><td width=75%>");
}
resultAppend(line);
resultAppend("</pre></td></tr>\n");
}
}
resultAppend("</table>\n</body></html>");
if (!nextResponseOk(250)) // end of transmission: "250 ok ..."
return;
}
void DictAsyncClient::showDbInfo()
{
cmdBuffer = "show info ";
cmdBuffer += codec->fromUnicode(job->query);
cmdBuffer += "\r\n";
if (!sendBuffer())
return;
if (!nextResponseOk(112)) // show info db: "112 database information follows"
return;
// html header...
resultAppend("<body>\n<p class=\"heading\">\n");
resultAppend(i18n("Database Information [%1]:").arg(job->query));
resultAppend("</p>\n<pre><p class=\"definition\">\n");
bool done(false);
char *line;
while (!done) {
if (!getNextLine())
return;
line = thisLine;
if (line[0]=='.') {
if (line[1]=='.')
line++; // collapse double periode into one
else
if (line[1]==0)
done = true;
}
if (!done) {
resultAppend(line);
resultAppend("\n");
}
}
resultAppend("</p></pre>\n</body></html>");
if (!nextResponseOk(250)) // end of transmission: "250 ok ..."
return;
}
void DictAsyncClient::showStrategies()
{
cmdBuffer = "show strat\r\n";
if (!sendBuffer())
return;
if (!nextResponseOk(111)) // show strat: "111 n strategies present - text follows "
return;
// html header...
resultAppend("<body>\n<p class=\"heading\">\n");
resultAppend(i18n("Available Strategies:"));
resultAppend("\n</p>\n<table width=\"100%\" cols=2>\n");
bool done(false);
char *line;
while (!done) {
if (!getNextLine())
return;
line = thisLine;
if (line[0]=='.') {
if (line[1]=='.')
line++; // collapse double periode into one
else
if (line[1]==0)
done = true;
}
if (!done) {
resultAppend("<tr valign=top><td width=25%><pre>");
char *space = strchr(line,' ');
if (space) {
resultAppend(codec->toUnicode(line,space-line));
resultAppend("</pre></td><td width=75%><pre>");
line = space+1;
if (line[0]=='"') {
line++; // remove double quote
char *quote = strchr(line, '\"');
if (quote)
quote[0]=0;
}
} else { // hmmm, malformated line...
resultAppend("</pre></td><td width=75%><pre>");
}
resultAppend(line);
resultAppend("</pre></td></tr>\n");
}
}
resultAppend("</table>\n</body></html>");
if (!nextResponseOk(250)) // end of transmission: "250 ok ..."
return;
}
void DictAsyncClient::showInfo()
{
cmdBuffer = "show server\r\n";
if (!sendBuffer())
return;
if (!nextResponseOk(114)) // show server: "114 server information follows"
return;
// html header...
resultAppend("<body>\n<p class=\"heading\">\n");
resultAppend(i18n("Server Information:"));
resultAppend("\n</p>\n<pre><p class=\"definition\">\n");
bool done(false);
char *line;
while (!done) {
if (!getNextLine())
return;
line = thisLine;
if (line[0]=='.') {
if (line[1]=='.')
line++; // collapse double periode into one
else
if (line[1]==0)
done = true;
}
if (!done) {
resultAppend(line);
resultAppend("\n");
}
}
resultAppend("</p></pre>\n</body></html>");
if (!nextResponseOk(250)) // end of transmission: "250 ok ..."
return;
}
void DictAsyncClient::update()
{
cmdBuffer = "show strat\r\nshow db\r\n";
if (!sendBuffer())
return;
if (!nextResponseOk(111)) // show strat: "111 n strategies present - text follows "
return;
bool done(false);
char *line;
while (!done) {
if (!getNextLine())
return;
line = thisLine;
if (line[0]=='.') {
if (line[1]=='.')
line++; // collapse double periode into one
else
if (line[1]==0)
done = true;
}
if (!done) {
char *space = strchr(line,' ');
if (space) space[0] = 0; // terminate string, hack ;-)
job->strategies.append(codec->toUnicode(line));
}
}
if (!nextResponseOk(250)) // end of transmission: "250 ok ..."
return;
if (!nextResponseOk(110)) // show db: "110 n databases present - text follows "
return;
done = false;
while (!done) {
if (!getNextLine())
return;
line = thisLine;
if (line[0]=='.') {
if (line[1]=='.')
line++; // collapse double periode into one
else
if (line[1]==0)
done = true;
}
if (!done) {
char *space = strchr(line,' ');
if (space) space[0] = 0; // terminate string, hack ;-)
job->databases.append(codec->toUnicode(line));
}
}
if (!nextResponseOk(250)) // end of transmission: "250 ok ..."
return;
}
// connect, handshake and authorization
void DictAsyncClient::openConnection()
{
if (job->server.isEmpty()) {
job->error = JobData::ErrBadHost;
return;
}
KExtendedSocket ks;
ks.setAddress(job->server, job->port);
ks.setTimeout(job->timeout);
if (ks.connect() < 0) {
if (ks.status() == IO_LookupError)
job->error = JobData::ErrBadHost;
else if (ks.status() == IO_ConnectError) {
job->result = TQString();
resultAppend(KExtendedSocket::strError(ks.status(), errno));
job->error = JobData::ErrConnect;
} else if (ks.status() == IO_TimeOutError)
job->error = JobData::ErrTimeout;
else {
job->result = TQString();
resultAppend(KExtendedSocket::strError(ks.status(), errno));
job->error = JobData::ErrCommunication;
}
closeSocket();
return;
}
tcpSocket = ks.fd();
ks.release();
if (!nextResponseOk(220)) // connect: "220 text capabilities msg-id"
return;
cmdBuffer = "client \"Kdict ";
cmdBuffer += KDICT_VERSION;
cmdBuffer += "\"\r\n";
if (job->authEnabled)
if (strstr(thisLine,"auth")) { // skip auth if not supported
char *msgId = strrchr(thisLine,'<');
if ((!msgId)||(!job->user.length())) {
job->error = JobData::ErrAuthFailed;
closeSocket();
return;
}
KMD5 context;
context.update(TQCString(msgId));
context.update(job->secret.local8Bit());
cmdBuffer += "auth " + job->user.local8Bit() + " ";
cmdBuffer += context.hexDigest();
cmdBuffer += "\r\n";
}
if (!sendBuffer())
return;
if (!nextResponseOk(250)) // client: "250 ok ..."
return;
if (job->authEnabled)
if (!nextResponseOk(230)) // auth: "230 Authentication successful"
return;
}
void DictAsyncClient::closeSocket()
{
if (-1 != tcpSocket) {
::close(tcpSocket);
tcpSocket = -1;
}
}
// send "quit" without timeout, without checks, close connection
void DictAsyncClient::doQuit()
{
fd_set fdsW;
timeval tv;
FD_ZERO(&fdsW);
FD_SET(tcpSocket, &fdsW);
tv.tv_sec = 0;
tv.tv_usec = 0;
int ret = KSocks::self()->select(FD_SETSIZE, NULL, &fdsW, NULL, &tv);
if (ret > 0) { // we can write...
cmdBuffer = "quit\r\n";
int todo = cmdBuffer.length();
KSocks::self()->write(tcpSocket,&cmdBuffer.data()[0],todo);
}
closeSocket();
}
// used by getNextLine()
bool DictAsyncClient::waitForRead()
{
fd_set fdsR,fdsE;
timeval tv;
int ret;
do {
FD_ZERO(&fdsR);
FD_SET(fdPipeIn, &fdsR);
FD_SET(tcpSocket, &fdsR);
FD_ZERO(&fdsE);
FD_SET(tcpSocket, &fdsE);
FD_SET(fdPipeIn, &fdsE);
tv.tv_sec = timeout;
tv.tv_usec = 0;
ret = KSocks::self()->select(FD_SETSIZE, &fdsR, NULL, &fdsE, &tv);
} while ((ret<0)&&(errno==EINTR)); // don't get tricked by signals
if (ret == -1) { // select failed
if (job) {
job->result = TQString();
resultAppend(strerror(errno));
job->error = JobData::ErrCommunication;
}
closeSocket();
return false;
}
if (ret == 0) { // Nothing happend, timeout
if (job)
job->error = JobData::ErrTimeout;
doQuit();
return false;
}
if (ret > 0) {
if (FD_ISSET(fdPipeIn,&fdsR)) { // stop signal
doQuit();
return false;
}
if (FD_ISSET(tcpSocket,&fdsE)||FD_ISSET(fdPipeIn,&fdsE)) { // broken pipe, etc
if (job) {
job->result = TQString();
resultAppend(i18n("The connection is broken."));
job->error = JobData::ErrCommunication;
}
closeSocket();
return false;
}
if (FD_ISSET(tcpSocket,&fdsR)) // all ok
return true;
}
if (job) {
job->result = TQString();
job->error = JobData::ErrCommunication;
}
closeSocket();
return false;
}
// used by sendBuffer() & connect()
bool DictAsyncClient::waitForWrite()
{
fd_set fdsR,fdsW,fdsE;
timeval tv;
int ret;
do {
FD_ZERO(&fdsR);
FD_SET(fdPipeIn, &fdsR);
FD_SET(tcpSocket, &fdsR);
FD_ZERO(&fdsW);
FD_SET(tcpSocket, &fdsW);
FD_ZERO(&fdsE);
FD_SET(tcpSocket, &fdsE);
FD_SET(fdPipeIn, &fdsE);
tv.tv_sec = timeout;
tv.tv_usec = 0;
ret = KSocks::self()->select(FD_SETSIZE, &fdsR, &fdsW, &fdsE, &tv);
} while ((ret<0)&&(errno==EINTR)); // don't get tricked by signals
if (ret == -1) { // select failed
if (job) {
job->result = TQString();
resultAppend(strerror(errno));
job->error = JobData::ErrCommunication;
}
closeSocket();
return false;
}
if (ret == 0) { // nothing happend, timeout
if (job)
job->error = JobData::ErrTimeout;
closeSocket();
return false;
}
if (ret > 0) {
if (FD_ISSET(fdPipeIn,&fdsR)) { // stop signal
doQuit();
return false;
}
if (FD_ISSET(tcpSocket,&fdsR)||FD_ISSET(tcpSocket,&fdsE)||FD_ISSET(fdPipeIn,&fdsE)) { // broken pipe, etc
if (job) {
job->result = TQString();
resultAppend(i18n("The connection is broken."));
job->error = JobData::ErrCommunication;
}
closeSocket();
return false;
}
if (FD_ISSET(tcpSocket,&fdsW)) // all ok
return true;
}
if (job) {
job->result = TQString();
job->error = JobData::ErrCommunication;
}
closeSocket();
return false;
}
// remove start/stop signal
void DictAsyncClient::clearPipe()
{
fd_set fdsR;
timeval tv;
int selectRet;
char buf;
tv.tv_sec = 0;
tv.tv_usec = 0;
do {
FD_ZERO(&fdsR);
FD_SET(fdPipeIn,&fdsR);
if (1==(selectRet=select(FD_SETSIZE,&fdsR,NULL,NULL,&tv)))
if ( ::read(fdPipeIn, &buf, 1 ) == -1 )
::perror( "clearPipe()" );
} while (selectRet == 1);
}
bool DictAsyncClient::sendBuffer()
{
int ret;
int todo = cmdBuffer.length();
int done = 0;
while (todo > 0) {
if (!waitForWrite())
return false;
ret = KSocks::self()->write(tcpSocket,&cmdBuffer.data()[done],todo);
if (ret <= 0) {
if (job) {
job->result = TQString();
resultAppend(strerror(errno));
job->error = JobData::ErrCommunication;
}
closeSocket();
return false;
} else {
done += ret;
todo -= ret;
}
}
return true;
}
// set thisLine to next complete line of input
bool DictAsyncClient::getNextLine()
{
thisLine = nextLine;
nextLine = strstr(thisLine,"\r\n");
if (nextLine) { // there is another full line in the inputbuffer
nextLine[0] = 0; // terminate string
nextLine[1] = 0;
nextLine+=2;
return true;
}
unsigned int div = inputEnd-thisLine+1; // hmmm, I need to fetch more input from the server...
memmove(input,thisLine,div); // save last, incomplete line
thisLine = input;
inputEnd = input+div-1;
do {
if ((inputEnd-input) > 9000) {
job->error = JobData::ErrMsgTooLong;
closeSocket();
return false;
}
if (!waitForRead())
return false;
int received;
do {
received = KSocks::self()->read(tcpSocket, inputEnd, inputSize-(inputEnd-input)-1);
} while ((received<0)&&(errno==EINTR)); // don't get tricked by signals
if (received <= 0) {
job->result = TQString();
resultAppend(i18n("The connection is broken."));
job->error = JobData::ErrCommunication;
closeSocket();
return false;
}
inputEnd += received;
inputEnd[0] = 0; // terminate *char
} while (!(nextLine = strstr(thisLine,"\r\n")));
nextLine[0] = 0; // terminate string
nextLine[1] = 0;
nextLine+=2;
return true;
}
// reads next line and checks the response code
bool DictAsyncClient::nextResponseOk(int code)
{
if (!getNextLine())
return false;
if (strtol(thisLine,0L,0)!=code) {
handleErrors();
return false;
}
return true;
}
// reads next line and returns the response code
bool DictAsyncClient::getNextResponse(int &code)
{
if (!getNextLine())
return false;
code = strtol(thisLine,0L,0);
return true;
}
void DictAsyncClient::handleErrors()
{
int len = strlen(thisLine);
if (len>80)
len = 80;
job->result = TQString();
resultAppend(codec->toUnicode(thisLine,len));
switch (strtol(thisLine,0L,0)) {
case 420:
case 421:
job->error = JobData::ErrNotAvailable; // server unavailable
break;
case 500:
case 501:
job->error = JobData::ErrSyntax; // syntax error
break;
case 502:
case 503:
job->error = JobData::ErrCommandNotImplemented; // command not implemented
break;
case 530:
job->error = JobData::ErrAccessDenied; // access denied
break;
case 531:
job->error = JobData::ErrAuthFailed; // authentication failed
break;
case 550:
case 551:
job->error = JobData::ErrInvalidDbStrat; // invalid strategy/database
break;
case 554:
job->error = JobData::ErrNoDatabases; // no databases
break;
case 555:
job->error = JobData::ErrNoStrategies; // no strategies
break;
default:
job->error = JobData::ErrServerError;
}
doQuit();
}
void DictAsyncClient::resultAppend(const char* str)
{
if (job)
job->result += codec->toUnicode(str);
}
void DictAsyncClient::resultAppend(TQString str)
{
if (job)
job->result += str;
}
//********* DictInterface ******************************************
DictInterface::DictInterface()
: newServer(false), clientDoneInProgress(false)
{
if (::pipe(fdPipeIn ) == -1 ) {
perror( "Creating in pipe" );
KMessageBox::error(global->topLevel, i18n("Internal error:\nFailed to open pipes for internal communication."));
kapp->exit(1);
}
if (::pipe(fdPipeOut ) == -1 ) {
perror( "Creating out pipe" );
KMessageBox::error(global->topLevel, i18n("Internal error:\nFailed to open pipes for internal communication."));
kapp->exit(1);
}
if (-1 == fcntl(fdPipeIn[0],F_SETFL,O_NONBLOCK)) { // make socket non-blocking
perror("fcntl()");
KMessageBox::error(global->topLevel, i18n("Internal error:\nFailed to open pipes for internal communication."));
kapp->exit(1);
}
if (-1 == fcntl(fdPipeOut[0],F_SETFL,O_NONBLOCK)) { // make socket non-blocking
perror("fcntl()");
KMessageBox::error(global->topLevel, i18n("Internal error:\nFailed to open pipes for internal communication."));
kapp->exit(1);
}
notifier = new TQSocketNotifier(fdPipeIn[0],TQSocketNotifier::Read,this);
connect(notifier,TQT_SIGNAL(activated(int)),this,TQT_SLOT(clientDone()));
// initialize the KSocks stuff in the main thread, otherwise we get
// strange effects on FreeBSD
(void) KSocks::self();
client = new DictAsyncClient(fdPipeOut[0],fdPipeIn[1]);
if (0!=pthread_create(&threadID,0,&(client->startThread),client)) {
KMessageBox::error(global->topLevel, i18n("Internal error:\nUnable to create thread."));
kapp->exit(1);
}
jobList.setAutoDelete(true);
}
DictInterface::~DictInterface()
{
disconnect(notifier,TQT_SIGNAL(activated(int)),this,TQT_SLOT(clientDone()));
if (0!=pthread_cancel(threadID))
kdWarning() << "pthread_cancel failed!" << endl;
if (0!=pthread_join(threadID,NULL))
kdWarning() << "pthread_join failed!" << endl;
delete client;
if ( ::close( fdPipeIn[0] ) == -1 ) {
perror( "Closing fdPipeIn[0]" );
}
if ( ::close( fdPipeIn[1] ) == -1 ) {
perror( "Closing fdPipeIn[1]" );
}
if ( ::close( fdPipeOut[0] ) == -1 ) {
perror( "Closing fdPipeOut[0]" );
}
if ( ::close( fdPipeOut[1] ) == -1 ) {
perror( "Closing fdPipeOut[1]" );
}
}
// inform the client when server settings get changed
void DictInterface::serverChanged()
{
newServer = true;
}
// cancel all pending jobs
void DictInterface::stop()
{
if (jobList.isEmpty()) {
return;
} else {
while (jobList.count()>1) // not yet started jobs can be deleted directly
jobList.removeLast();
if (!clientDoneInProgress) {
jobList.getFirst()->canceled = true; // clientDone() now ignores the results of this job
char buf; // write one char in the pipe to the async thread
if (::write(fdPipeOut[1],&buf,1) == -1)
::perror( "stop()" );
}
}
}
void DictInterface::define(const TQString &query)
{
JobData *newJob = generateQuery(JobData::TDefine,query);
if (newJob)
insertJob(newJob);
}
void DictInterface::getDefinitions(TQStringList query)
{
JobData *newjob = new JobData(JobData::TGetDefinitions,newServer,global->server,global->port,
global->idleHold,global->timeout,global->pipeSize, global->encoding,global->authEnabled,
global->user,global->secret,global->headLayout);
newjob->defines = query;
newServer = false;
insertJob(newjob);
}
void DictInterface::match(const TQString &query)
{
JobData *newJob = generateQuery(JobData::TMatch,query);
if (newJob) {
if (global->currentStrategy == 0)
newJob->strategy = "."; // spell check strategy
else
newJob->strategy = global->strategies[global->currentStrategy].utf8();
insertJob(newJob);
}
}
// fetch detailed db info
void DictInterface::showDbInfo(const TQString &db)
{
TQString ndb = db.simplifyWhiteSpace(); // cleanup query string
if (ndb.isEmpty())
return;
if (ndb.length()>100) // shorten if necessary
ndb.truncate(100);
JobData *newjob = new JobData(JobData::TShowDbInfo,newServer,global->server,global->port,
global->idleHold,global->timeout,global->pipeSize, global->encoding,global->authEnabled,
global->user,global->secret,global->headLayout);
newServer = false;
newjob->query = ndb; // construct job...
insertJob(newjob);
}
void DictInterface::showDatabases()
{
insertJob( new JobData(JobData::TShowDatabases,newServer,global->server,global->port,
global->idleHold,global->timeout,global->pipeSize, global->encoding,global->authEnabled,
global->user,global->secret,global->headLayout));
newServer = false;
}
void DictInterface::showStrategies()
{
insertJob( new JobData(JobData::TShowStrategies,newServer,global->server,global->port,
global->idleHold,global->timeout,global->pipeSize, global->encoding,global->authEnabled,
global->user,global->secret,global->headLayout));
newServer = false;
}
void DictInterface::showInfo()
{
insertJob( new JobData(JobData::TShowInfo,newServer,global->server,global->port,
global->idleHold,global->timeout,global->pipeSize, global->encoding,global->authEnabled,
global->user,global->secret,global->headLayout));
newServer = false;
}
// get info about databases & stratgies the server knows
void DictInterface::updateServer()
{
insertJob( new JobData(JobData::TUpdate,newServer,global->server,global->port,
global->idleHold,global->timeout,global->pipeSize, global->encoding,global->authEnabled,
global->user,global->secret,global->headLayout));
newServer = false;
}
// client-thread ended
void DictInterface::clientDone()
{
TQString message;
cleanPipes(); // read from pipe so that notifier doesn<73>t fire again
if (jobList.isEmpty()) {
kdDebug(5004) << "This shouldn<64>t happen, the client-thread signaled termination, but the job list is empty" << endl;
return; // strange..
}
clientDoneInProgress = true;
TQStringList::iterator it;
JobData* job = jobList.getFirst();
if (!job->canceled) { // non-interupted job?
if (JobData::ErrNoErr == job->error) {
switch (job->type) {
case JobData::TUpdate :
global->serverDatabases.clear();
for (it = job->databases.begin(); it != job->databases.end(); ++it)
global->serverDatabases.append(*it);
global->databases = global->serverDatabases;
for (int i = global->databaseSets.count()-1;i>=0;i--)
global->databases.prepend(global->databaseSets.at(i)->first());
global->databases.prepend(i18n("All Databases"));
global->currentDatabase = 0;
global->strategies.clear();
for (it = job->strategies.begin(); it != job->strategies.end(); ++it)
global->strategies.append(*it);
global->strategies.prepend(i18n("Spell Check"));
global->currentStrategy = 0;
message = i18n(" Received database/strategy list ");
emit stopped(message);
emit infoReady();
break;
case JobData::TDefine:
case JobData::TGetDefinitions:
if (job->type == JobData::TDefine) {
switch (job->numFetched) {
case 0:
message = i18n("No definitions found");
break;
case 1:
message = i18n("One definition found");
break;
default:
message = i18n("%1 definitions found").arg(job->numFetched);
}
} else {
switch (job->numFetched) {
case 0:
message = i18n(" No definitions fetched ");
break;
case 1:
message = i18n(" One definition fetched ");
break;
default:
message = i18n(" %1 definitions fetched ").arg(job->numFetched);
}
}
emit stopped(message);
emit resultReady(job->result, job->query);
break;
case JobData::TMatch:
switch (job->numFetched) {
case 0:
message = i18n(" No matching definitions found ");
break;
case 1:
message = i18n(" One matching definition found ");
break;
default:
message = i18n(" %1 matching definitions found ").arg(job->numFetched);
}
emit stopped(message);
emit matchReady(job->matches);
break;
default :
message = i18n(" Received information ");
emit stopped(message);
emit resultReady(job->result, job->query);
}
} else {
TQString errMsg;
switch (job->error) {
case JobData::ErrCommunication:
errMsg = i18n("Communication error:\n\n");
errMsg += job->result;
break;
case JobData::ErrTimeout:
errMsg = i18n("A delay occurred which exceeded the\ncurrent timeout limit of %1 seconds.\nYou can modify this limit in the Preferences Dialog.").arg(global->timeout);
break;
case JobData::ErrBadHost:
errMsg = i18n("Unable to connect to:\n%1:%2\n\nCannot resolve hostname.").arg(job->server).arg(job->port);
break;
case JobData::ErrConnect:
errMsg = i18n("Unable to connect to:\n%1:%2\n\n").arg(job->server).arg(job->port);
errMsg += job->result;
break;
case JobData::ErrRefused:
errMsg = i18n("Unable to connect to:\n%1:%2\n\nThe server refused the connection.").arg(job->server).arg(job->port);
break;
case JobData::ErrNotAvailable:
errMsg = i18n("The server is temporarily unavailable.");
break;
case JobData::ErrSyntax:
errMsg = i18n("The server reported a syntax error.\nThis shouldn't happen -- please consider\nwriting a bug report.");
break;
case JobData::ErrCommandNotImplemented:
errMsg = i18n("A command that Kdict needs isn't\nimplemented on the server.");
break;
case JobData::ErrAccessDenied:
errMsg = i18n("Access denied.\nThis host is not allowed to connect.");
break;
case JobData::ErrAuthFailed:
errMsg = i18n("Authentication failed.\nPlease enter a valid username and password.");
break;
case JobData::ErrInvalidDbStrat:
errMsg = i18n("Invalid database/strategy.\nYou probably need to use Server->Get Capabilities.");
break;
case JobData::ErrNoDatabases:
errMsg = i18n("No databases available.\nIt is possible that you need to authenticate\nwith a valid username/password combination to\ngain access to any databases.");
break;
case JobData::ErrNoStrategies:
errMsg = i18n("No strategies available.");
break;
case JobData::ErrServerError:
errMsg = i18n("The server sent an unexpected reply:\n\"%1\"\nThis shouldn't happen, please consider\nwriting a bug report").arg(job->result);
break;
case JobData::ErrMsgTooLong:
errMsg = i18n("The server sent a response with a text line\nthat was too long.\n(RFC 2229: max. 1024 characters/6144 octets)");
break;
case JobData::ErrNoErr: // make compiler happy
errMsg = i18n("No Errors");
}
message = i18n(" Error ");
emit stopped(message);
KMessageBox::error(global->topLevel, errMsg);
}
} else {
message = i18n(" Stopped ");
emit stopped(message);
}
clientDoneInProgress = false;
client->removeJob();
jobList.removeFirst(); // this job is now history
if (!jobList.isEmpty()) // work to be done?
startClient(); // => restart client
}
JobData* DictInterface::generateQuery(JobData::QueryType type, TQString query)
{
query = query.simplifyWhiteSpace(); // cleanup query string
if (query.isEmpty())
return 0L;
if (query.length()>300) // shorten if necessary
query.truncate(300);
query = query.replace(TQRegExp("[\"\\]"), ""); // remove remaining illegal chars...
if (query.isEmpty())
return 0L;
JobData *newjob = new JobData(type,newServer,global->server,global->port,
global->idleHold,global->timeout,global->pipeSize, global->encoding, global->authEnabled,
global->user,global->secret,global->headLayout);
newServer = false;
newjob->query = query; // construct job...
if (global->currentDatabase == 0) // all databases
newjob->databases.append("*");
else {
if ((global->currentDatabase > 0)&& // database set
(global->currentDatabase < global->databaseSets.count()+1)) {
for (int i = 0;i<(int)global->serverDatabases.count();i++)
if ((global->databaseSets.at(global->currentDatabase-1))->findIndex(global->serverDatabases[i])>0)
newjob->databases.append(global->serverDatabases[i].utf8().data());
if (newjob->databases.count()==0) {
KMessageBox::sorry(global->topLevel, i18n("Please select at least one database."));
delete newjob;
return 0L;
}
} else { // one database
newjob->databases.append(global->databases[global->currentDatabase].utf8().data());
}
}
return newjob;
}
void DictInterface::insertJob(JobData* job)
{
if (jobList.isEmpty()) { // Client has nothing to do, start directly
jobList.append(job);
startClient();
} else { // there are other pending jobs...
stop();
jobList.append(job);
}
}
// start client-thread
void DictInterface::startClient()
{
cleanPipes();
if (jobList.isEmpty()) {
kdDebug(5004) << "This shouldn<64>t happen, startClient called, but clientList is empty" << endl;
return;
}
client->insertJob(jobList.getFirst());
char buf; // write one char in the pipe to the async thread
if (::write(fdPipeOut[1],&buf,1) == -1)
::perror( "startClient()" );
TQString message;
switch (jobList.getFirst()->type) {
case JobData::TDefine:
case JobData::TGetDefinitions:
case JobData::TMatch:
message = i18n(" Querying server... ");
break;
case JobData::TShowDatabases:
case JobData::TShowStrategies:
case JobData::TShowInfo:
case JobData::TShowDbInfo:
message = i18n(" Fetching information... ");
break;
case JobData::TUpdate:
message = i18n(" Updating server information... ");
break;
}
emit started(message);
}
// empty the pipes, so that notifier stops firing
void DictInterface::cleanPipes()
{
fd_set rfds;
struct timeval tv;
int ret;
char buf;
tv.tv_sec = 0;
tv.tv_usec = 0;
do {
FD_ZERO(&rfds);
FD_SET(fdPipeIn[0],&rfds);
if (1==(ret=select(FD_SETSIZE,&rfds,NULL,NULL,&tv)))
if ( ::read(fdPipeIn[0], &buf, 1 ) == -1 )
::perror( "cleanPipes" );
} while (ret == 1);
do {
FD_ZERO(&rfds);
FD_SET(fdPipeOut[0],&rfds);
if (1==(ret=select(FD_SETSIZE,&rfds,NULL,NULL,&tv)))
if ( ::read(fdPipeOut[0], &buf, 1 ) == -1 )
::perror( "cleanPipes" );
} while (ret == 1);
}
//--------------------------------
#include "dict.moc"