/**************************************************************************** ** ** Implementation of TQHttp and related classes. ** ** Created : 970521 ** ** Copyright (C) 1997-2008 Trolltech ASA. All rights reserved. ** ** This file is part of the network module of the TQt GUI Toolkit. ** ** This file may be used under the terms of the GNU General ** Public License versions 2.0 or 3.0 as published by the Free ** Software Foundation and appearing in the files LICENSE.GPL2 ** and LICENSE.GPL3 included in the packaging of this file. ** Alternatively you may (at your option) use any later version ** of the GNU General Public License if such license has been ** publicly approved by Trolltech ASA (or its successors, if any) ** and the KDE Free TQt Foundation. ** ** Please review the following information to ensure GNU General ** Public Licensing requirements will be met: ** http://trolltech.com/products/qt/licenses/licensing/opensource/. ** If you are unsure which license is appropriate for your use, please ** review the following information: ** http://trolltech.com/products/qt/licenses/licensing/licensingoverview ** or contact the sales department at sales@trolltech.com. ** ** This file may be used under the terms of the Q Public License as ** defined by Trolltech ASA and appearing in the file LICENSE.TQPL ** included in the packaging of this file. Licensees holding valid TQt ** Commercial licenses may use this file in accordance with the TQt ** Commercial License Agreement provided with the Software. ** ** This file is provided "AS IS" with NO WARRANTY OF ANY KIND, ** INCLUDING THE WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR ** A PARTICULAR PURPOSE. Trolltech reserves all rights not granted ** herein. ** **********************************************************************/ #include "tqhttp.h" #ifndef TQT_NO_NETWORKPROTOCOL_HTTP #include "tqsocket.h" #include "tqtextstream.h" #include "tqmap.h" #include "tqstring.h" #include "tqstringlist.h" #include "tqcstring.h" #include "tqbuffer.h" #include "tqurloperator.h" #include "tqtimer.h" #include "private/tqinternal_p.h" //#define TQHTTP_DEBUG class TQHttpPrivate { public: TQHttpPrivate() : state( TQHttp::Unconnected ), error( TQHttp::NoError ), hostname( TQString::null ), port( 0 ), toDevice( 0 ), postDevice( 0 ), bytesDone( 0 ), chunkedSize( -1 ), idleTimer( 0 ) { pending.setAutoDelete( TRUE ); } TQSocket socket; TQPtrList pending; TQHttp::State state; TQHttp::Error error; TQString errorString; TQString hostname; TQ_UINT16 port; TQByteArray buffer; TQIODevice* toDevice; TQIODevice* postDevice; uint bytesDone; uint bytesTotal; TQ_LONG chunkedSize; TQHttpRequestHeader header; bool readHeader; TQString headerStr; TQHttpResponseHeader response; int idleTimer; TQMembuf rba; }; class TQHttpRequest { public: TQHttpRequest() { id = ++idCounter; } virtual ~TQHttpRequest() { } virtual void start( TQHttp * ) = 0; virtual bool hasRequestHeader(); virtual TQHttpRequestHeader requestHeader(); virtual TQIODevice* sourceDevice() = 0; virtual TQIODevice* destinationDevice() = 0; int id; private: static int idCounter; }; int TQHttpRequest::idCounter = 0; bool TQHttpRequest::hasRequestHeader() { return FALSE; } TQHttpRequestHeader TQHttpRequest::requestHeader() { return TQHttpRequestHeader(); } /**************************************************** * * TQHttpNormalRequest * ****************************************************/ class TQHttpNormalRequest : public TQHttpRequest { public: TQHttpNormalRequest( const TQHttpRequestHeader &h, TQIODevice *d, TQIODevice *t ) : header(h), to(t) { is_ba = FALSE; data.dev = d; } TQHttpNormalRequest( const TQHttpRequestHeader &h, TQByteArray *d, TQIODevice *t ) : header(h), to(t) { is_ba = TRUE; data.ba = d; } ~TQHttpNormalRequest() { if ( is_ba ) delete data.ba; } void start( TQHttp * ); bool hasRequestHeader(); TQHttpRequestHeader requestHeader(); TQIODevice* sourceDevice(); TQIODevice* destinationDevice(); protected: TQHttpRequestHeader header; private: union { TQByteArray *ba; TQIODevice *dev; } data; bool is_ba; TQIODevice *to; }; void TQHttpNormalRequest::start( TQHttp *http ) { http->d->header = header; if ( is_ba ) { http->d->buffer = *data.ba; if ( http->d->buffer.size() > 0 ) http->d->header.setContentLength( http->d->buffer.size() ); http->d->postDevice = 0; } else { http->d->buffer = TQByteArray(); if ( data.dev && ( data.dev->isOpen() || data.dev->open(IO_ReadOnly) ) ) { http->d->postDevice = data.dev; if ( http->d->postDevice->size() > 0 ) http->d->header.setContentLength( http->d->postDevice->size() ); } else { http->d->postDevice = 0; } } if ( to && ( to->isOpen() || to->open(IO_WriteOnly) ) ) http->d->toDevice = to; else http->d->toDevice = 0; http->sendRequest(); } bool TQHttpNormalRequest::hasRequestHeader() { return TRUE; } TQHttpRequestHeader TQHttpNormalRequest::requestHeader() { return header; } TQIODevice* TQHttpNormalRequest::sourceDevice() { if ( is_ba ) return 0; return data.dev; } TQIODevice* TQHttpNormalRequest::destinationDevice() { return to; } /**************************************************** * * TQHttpPGHRequest * (like a TQHttpNormalRequest, but for the convenience * functions put(), get() and head() -- i.e. set the * host header field correctly before sending the * request) * ****************************************************/ class TQHttpPGHRequest : public TQHttpNormalRequest { public: TQHttpPGHRequest( const TQHttpRequestHeader &h, TQIODevice *d, TQIODevice *t ) : TQHttpNormalRequest( h, d, t ) { } TQHttpPGHRequest( const TQHttpRequestHeader &h, TQByteArray *d, TQIODevice *t ) : TQHttpNormalRequest( h, d, t ) { } ~TQHttpPGHRequest() { } void start( TQHttp * ); }; void TQHttpPGHRequest::start( TQHttp *http ) { header.setValue( "Host", http->d->hostname ); TQHttpNormalRequest::start( http ); } /**************************************************** * * TQHttpSetHostRequest * ****************************************************/ class TQHttpSetHostRequest : public TQHttpRequest { public: TQHttpSetHostRequest( const TQString &h, TQ_UINT16 p ) : hostname(h), port(p) { } void start( TQHttp * ); TQIODevice* sourceDevice() { return 0; } TQIODevice* destinationDevice() { return 0; } private: TQString hostname; TQ_UINT16 port; }; void TQHttpSetHostRequest::start( TQHttp *http ) { http->d->hostname = hostname; http->d->port = port; http->finishedWithSuccess(); } /**************************************************** * * TQHttpCloseRequest * ****************************************************/ class TQHttpCloseRequest : public TQHttpRequest { public: TQHttpCloseRequest() { } void start( TQHttp * ); TQIODevice* sourceDevice() { return 0; } TQIODevice* destinationDevice() { return 0; } }; void TQHttpCloseRequest::start( TQHttp *http ) { http->close(); } /**************************************************** * * TQHttpHeader * ****************************************************/ /*! \class TQHttpHeader tqhttp.h \brief The TQHttpHeader class contains header information for HTTP. \if defined(commercial) It is part of the TQt Enterprise Edition. \endif \ingroup io \module network In most cases you should use the more specialized derivatives of this class, TQHttpResponseHeader and TQHttpRequestHeader, rather than directly using TQHttpHeader. TQHttpHeader provides the HTTP header fields. A HTTP header field consists of a name followed by a colon, a single space, and the field value. (See RFC 1945.) Field names are case-insensitive. A typical header field looks like this: \code content-type: text/html \endcode In the API the header field name is called the "key" and the content is called the "value". You can get and set a header field's value by using its key with value() and setValue(), e.g. \code header.setValue( "content-type", "text/html" ); TQString contentType = header.value( "content-type" ); \endcode Some fields are so common that getters and setters are provided for them as a convenient alternative to using \l value() and \l setValue(), e.g. contentLength() and contentType(), setContentLength() and setContentType(). Each header key has a \e single value associated with it. If you set the value for a key which already exists the previous value will be discarded. \sa TQHttpRequestHeader TQHttpResponseHeader */ /*! \fn int TQHttpHeader::majorVersion() const Returns the major protocol-version of the HTTP header. */ /*! \fn int TQHttpHeader::minorVersion() const Returns the minor protocol-version of the HTTP header. */ /*! Constructs an empty HTTP header. */ TQHttpHeader::TQHttpHeader() : valid( TRUE ) { } /*! Constructs a copy of \a header. */ TQHttpHeader::TQHttpHeader( const TQHttpHeader& header ) : valid( header.valid ) { values = header.values; } /*! Constructs a HTTP header for \a str. This constructor parses the string \a str for header fields and adds this information. The \a str should consist of one or more "\r\n" delimited lines; each of these lines should have the format key, colon, space, value. */ TQHttpHeader::TQHttpHeader( const TQString& str ) : valid( TRUE ) { parse( str ); } /*! Destructor. */ TQHttpHeader::~TQHttpHeader() { } /*! Assigns \a h and returns a reference to this http header. */ TQHttpHeader& TQHttpHeader::operator=( const TQHttpHeader& h ) { values = h.values; valid = h.valid; return *this; } /*! Returns TRUE if the HTTP header is valid; otherwise returns FALSE. A TQHttpHeader is invalid if it was created by parsing a malformed string. */ bool TQHttpHeader::isValid() const { return valid; } /*! \internal Parses the HTTP header string \a str for header fields and adds the keys/values it finds. If the string is not parsed successfully the TQHttpHeader becomes \link isValid() invalid\endlink. Returns TRUE if \a str was successfully parsed; otherwise returns FALSE. \sa toString() */ bool TQHttpHeader::parse( const TQString& str ) { TQStringList lst; int pos = str.find( '\n' ); if ( pos > 0 && str.at( pos - 1 ) == '\r' ) lst = TQStringList::split( "\r\n", str.stripWhiteSpace(), FALSE ); else lst = TQStringList::split( "\n", str.stripWhiteSpace(), FALSE ); if ( lst.isEmpty() ) return TRUE; TQStringList lines; TQStringList::Iterator it = lst.begin(); for( ; it != lst.end(); ++it ) { if ( !(*it).isEmpty() ) { if ( (*it)[0].isSpace() ) { if ( !lines.isEmpty() ) { lines.last() += " "; lines.last() += (*it).stripWhiteSpace(); } } else { lines.append( (*it) ); } } } int number = 0; it = lines.begin(); for( ; it != lines.end(); ++it ) { if ( !parseLine( *it, number++ ) ) { valid = FALSE; return FALSE; } } return TRUE; } /*! \internal */ void TQHttpHeader::setValid( bool v ) { valid = v; } /*! Returns the value for the entry with the given \a key. If no entry has this \a key, an empty string is returned. \sa setValue() removeValue() hasKey() keys() */ TQString TQHttpHeader::value( const TQString& key ) const { return values[ key.lower() ]; } /*! Returns a list of the keys in the HTTP header. \sa hasKey() */ TQStringList TQHttpHeader::keys() const { return values.keys(); } /*! Returns TRUE if the HTTP header has an entry with the given \a key; otherwise returns FALSE. \sa value() setValue() keys() */ bool TQHttpHeader::hasKey( const TQString& key ) const { return values.contains( key.lower() ); } /*! Sets the value of the entry with the \a key to \a value. If no entry with \a key exists, a new entry with the given \a key and \a value is created. If an entry with the \a key already exists, its value is discarded and replaced with the given \a value. \sa value() hasKey() removeValue() */ void TQHttpHeader::setValue( const TQString& key, const TQString& value ) { values[ key.lower() ] = value; } /*! Removes the entry with the key \a key from the HTTP header. \sa value() setValue() */ void TQHttpHeader::removeValue( const TQString& key ) { values.remove( key.lower() ); } /*! \internal Parses the single HTTP header line \a line which has the format key, colon, space, value, and adds key/value to the headers. The linenumber is \a number. Returns TRUE if the line was successfully parsed and the key/value added; otherwise returns FALSE. \sa parse() */ bool TQHttpHeader::parseLine( const TQString& line, int ) { int i = line.find( ":" ); if ( i == -1 ) return FALSE; values.insert( line.left( i ).stripWhiteSpace().lower(), line.mid( i + 1 ).stripWhiteSpace() ); return TRUE; } /*! Returns a string representation of the HTTP header. The string is suitable for use by the constructor that takes a TQString. It consists of lines with the format: key, colon, space, value, "\r\n". */ TQString TQHttpHeader::toString() const { if ( !isValid() ) return ""; TQString ret = ""; TQMap::ConstIterator it = values.begin(); for( ; it != values.end(); ++it ) ret += it.key() + ": " + it.data() + "\r\n"; return ret; } /*! Returns TRUE if the header has an entry for the special HTTP header field \c content-length; otherwise returns FALSE. \sa contentLength() setContentLength() */ bool TQHttpHeader::hasContentLength() const { return hasKey( "content-length" ); } /*! Returns the value of the special HTTP header field \c content-length. \sa setContentLength() hasContentLength() */ uint TQHttpHeader::contentLength() const { return values[ "content-length" ].toUInt(); } /*! Sets the value of the special HTTP header field \c content-length to \a len. \sa contentLength() hasContentLength() */ void TQHttpHeader::setContentLength( int len ) { values[ "content-length" ] = TQString::number( len ); } /*! Returns TRUE if the header has an entry for the the special HTTP header field \c content-type; otherwise returns FALSE. \sa contentType() setContentType() */ bool TQHttpHeader::hasContentType() const { return hasKey( "content-type" ); } /*! Returns the value of the special HTTP header field \c content-type. \sa setContentType() hasContentType() */ TQString TQHttpHeader::contentType() const { TQString type = values[ "content-type" ]; if ( type.isEmpty() ) return TQString::null; int pos = type.find( ";" ); if ( pos == -1 ) return type; return type.left( pos ).stripWhiteSpace(); } /*! Sets the value of the special HTTP header field \c content-type to \a type. \sa contentType() hasContentType() */ void TQHttpHeader::setContentType( const TQString& type ) { values[ "content-type" ] = type; } /**************************************************** * * TQHttpResponseHeader * ****************************************************/ /*! \class TQHttpResponseHeader tqhttp.h \brief The TQHttpResponseHeader class contains response header information for HTTP. \if defined(commercial) It is part of the TQt Enterprise Edition. \endif \ingroup io \module network This class is used by the TQHttp class to report the header information that the client received from the server. HTTP responses have a status code that indicates the status of the response. This code is a 3-digit integer result code (for details see to RFC 1945). In addition to the status code, you can also specify a human-readable text that describes the reason for the code ("reason phrase"). This class allows you to get the status code and the reason phrase. \sa TQHttpRequestHeader TQHttp */ /*! Constructs an empty HTTP response header. */ TQHttpResponseHeader::TQHttpResponseHeader() { setValid( FALSE ); } /*! Constructs a HTTP response header with the status code \a code, the reason phrase \a text and the protocol-version \a majorVer and \a minorVer. */ TQHttpResponseHeader::TQHttpResponseHeader( int code, const TQString& text, int majorVer, int minorVer ) : TQHttpHeader(), statCode( code ), reasonPhr( text ), majVer( majorVer ), minVer( minorVer ) { } /*! Constructs a copy of \a header. */ TQHttpResponseHeader::TQHttpResponseHeader( const TQHttpResponseHeader& header ) : TQHttpHeader( header ), statCode( header.statCode ), reasonPhr( header.reasonPhr ), majVer( header.majVer ), minVer( header.minVer ) { } /*! Constructs a HTTP response header from the string \a str. The string is parsed and the information is set. The \a str should consist of one or more "\r\n" delimited lines; the first line should be the status-line (format: HTTP-version, space, status-code, space, reason-phrase); each of remaining lines should have the format key, colon, space, value. */ TQHttpResponseHeader::TQHttpResponseHeader( const TQString& str ) : TQHttpHeader() { parse( str ); } /*! Sets the status code to \a code, the reason phrase to \a text and the protocol-version to \a majorVer and \a minorVer. \sa statusCode() reasonPhrase() majorVersion() minorVersion() */ void TQHttpResponseHeader::setStatusLine( int code, const TQString& text, int majorVer, int minorVer ) { setValid( TRUE ); statCode = code; reasonPhr = text; majVer = majorVer; minVer = minorVer; } /*! Returns the status code of the HTTP response header. \sa reasonPhrase() majorVersion() minorVersion() */ int TQHttpResponseHeader::statusCode() const { return statCode; } /*! Returns the reason phrase of the HTTP response header. \sa statusCode() majorVersion() minorVersion() */ TQString TQHttpResponseHeader::reasonPhrase() const { return reasonPhr; } /*! Returns the major protocol-version of the HTTP response header. \sa minorVersion() statusCode() reasonPhrase() */ int TQHttpResponseHeader::majorVersion() const { return majVer; } /*! Returns the minor protocol-version of the HTTP response header. \sa majorVersion() statusCode() reasonPhrase() */ int TQHttpResponseHeader::minorVersion() const { return minVer; } /*! \reimp */ bool TQHttpResponseHeader::parseLine( const TQString& line, int number ) { if ( number != 0 ) return TQHttpHeader::parseLine( line, number ); TQString l = line.simplifyWhiteSpace(); if ( l.length() < 10 ) return FALSE; if ( l.left( 5 ) == "HTTP/" && l[5].isDigit() && l[6] == '.' && l[7].isDigit() && l[8] == ' ' && l[9].isDigit() ) { majVer = l[5].latin1() - '0'; minVer = l[7].latin1() - '0'; int pos = l.find( ' ', 9 ); if ( pos != -1 ) { reasonPhr = l.mid( pos + 1 ); statCode = l.mid( 9, pos - 9 ).toInt(); } else { statCode = l.mid( 9 ).toInt(); reasonPhr = TQString::null; } } else { return FALSE; } return TRUE; } /*! \reimp */ TQString TQHttpResponseHeader::toString() const { TQString ret( "HTTP/%1.%2 %3 %4\r\n%5\r\n" ); return ret.arg( majVer ).arg ( minVer ).arg( statCode ).arg( reasonPhr ).arg( TQHttpHeader::toString() ); } /**************************************************** * * TQHttpRequestHeader * ****************************************************/ /*! \class TQHttpRequestHeader tqhttp.h \brief The TQHttpRequestHeader class contains request header information for \if defined(commercial) It is part of the TQt Enterprise Edition. \endif HTTP. \if defined(commercial_edition) It is part of the TQt Enterprise Edition. \endif \ingroup io \module network This class is used in the TQHttp class to report the header information if the client requests something from the server. HTTP requests have a method which describes the request's action. The most common requests are "GET" and "POST". In addition to the request method the header also includes a request-URI to specify the location for the method to use. The method, request-URI and protocol-version can be set using a constructor or later using setRequest(). The values can be obtained using method(), path(), majorVersion() and minorVersion(). This class is a TQHttpHeader subclass so that class's functions, e.g. \link TQHttpHeader::setValue() setValue()\endlink, \link TQHttpHeader::value() value()\endlink, etc. are also available. \sa TQHttpResponseHeader TQHttp \important value() setValue() */ /*! Constructs an empty HTTP request header. */ TQHttpRequestHeader::TQHttpRequestHeader() : TQHttpHeader() { setValid( FALSE ); } /*! Constructs a HTTP request header for the method \a method, the request-URI \a path and the protocol-version \a majorVer and \a minorVer. */ TQHttpRequestHeader::TQHttpRequestHeader( const TQString& method, const TQString& path, int majorVer, int minorVer ) : TQHttpHeader(), m( method ), p( path ), majVer( majorVer ), minVer( minorVer ) { } /*! Constructs a copy of \a header. */ TQHttpRequestHeader::TQHttpRequestHeader( const TQHttpRequestHeader& header ) : TQHttpHeader( header ), m( header.m ), p( header.p ), majVer( header.majVer ), minVer( header.minVer ) { } /*! Constructs a HTTP request header from the string \a str. The \a str should consist of one or more "\r\n" delimited lines; the first line should be the request-line (format: method, space, request-URI, space HTTP-version); each of the remaining lines should have the format key, colon, space, value. */ TQHttpRequestHeader::TQHttpRequestHeader( const TQString& str ) : TQHttpHeader() { parse( str ); } /*! This function sets the request method to \a method, the request-URI to \a path and the protocol-version to \a majorVer and \a minorVer. \sa method() path() majorVersion() minorVersion() */ void TQHttpRequestHeader::setRequest( const TQString& method, const TQString& path, int majorVer, int minorVer ) { setValid( TRUE ); m = method; p = path; majVer = majorVer; minVer = minorVer; } /*! Returns the method of the HTTP request header. \sa path() majorVersion() minorVersion() setRequest() */ TQString TQHttpRequestHeader::method() const { return m; } /*! Returns the request-URI of the HTTP request header. \sa method() majorVersion() minorVersion() setRequest() */ TQString TQHttpRequestHeader::path() const { return p; } /*! Returns the major protocol-version of the HTTP request header. \sa minorVersion() method() path() setRequest() */ int TQHttpRequestHeader::majorVersion() const { return majVer; } /*! Returns the minor protocol-version of the HTTP request header. \sa majorVersion() method() path() setRequest() */ int TQHttpRequestHeader::minorVersion() const { return minVer; } /*! \reimp */ bool TQHttpRequestHeader::parseLine( const TQString& line, int number ) { if ( number != 0 ) return TQHttpHeader::parseLine( line, number ); TQStringList lst = TQStringList::split( " ", line.simplifyWhiteSpace() ); if ( lst.count() > 0 ) { m = lst[0]; if ( lst.count() > 1 ) { p = lst[1]; if ( lst.count() > 2 ) { TQString v = lst[2]; if ( v.length() >= 8 && v.left( 5 ) == "HTTP/" && v[5].isDigit() && v[6] == '.' && v[7].isDigit() ) { majVer = v[5].latin1() - '0'; minVer = v[7].latin1() - '0'; return TRUE; } } } } return FALSE; } /*! \reimp */ TQString TQHttpRequestHeader::toString() const { TQString first( "%1 %2"); TQString last(" HTTP/%3.%4\r\n%5\r\n" ); return first.arg( m ).arg( p ) + last.arg( majVer ).arg( minVer ).arg( TQHttpHeader::toString()); } /**************************************************** * * TQHttp * ****************************************************/ /*! \class TQHttp tqhttp.h \brief The TQHttp class provides an implementation of the HTTP protocol. \if defined(commercial) It is part of the TQt Enterprise Edition. \endif \ingroup io \module network This class provides two different interfaces: one is the TQNetworkProtocol interface that allows you to use HTTP through the TQUrlOperator abstraction. The other is a direct interface to HTTP that allows you to have more control over the requests and that allows you to access the response header fields. Don't mix the two interfaces, since the behavior is not well-defined. If you want to use TQHttp with the TQNetworkProtocol interface, you do not use it directly, but rather through a TQUrlOperator, for example: \code TQUrlOperator op( "http://www.trolltech.com" ); op.get( "index.html" ); \endcode This code will only work if the TQHttp class is registered; to register the class, you must call tqInitNetworkProtocols() before using a TQUrlOperator with HTTP. The TQNetworkProtocol interface for HTTP only supports the operations operationGet() and operationPut(), i.e. TQUrlOperator::get() and TQUrlOperator::put(), if you use it with a TQUrlOperator. The rest of this descrption describes the direct interface to HTTP. The class works asynchronously, so there are no blocking functions. If an operation cannot be executed immediately, the function will still return straight away and the operation will be scheduled for later execution. The results of scheduled operations are reported via signals. This approach depends on the event loop being in operation. The operations that can be scheduled (they are called "requests" in the rest of the documentation) are the following: setHost(), get(), post(), head() and request(). All of these requests return a unique identifier that allows you to keep track of the request that is currently executed. When the execution of a request starts, the requestStarted() signal with the identifier is emitted and when the request is finished, the requestFinished() signal is emitted with the identifier and a bool that indicates if the request finished with an error. To make an HTTP request you must set up suitable HTTP headers. The following example demonstrates, how to request the main HTML page from the Trolltech home page (i.e. the URL http://www.trolltech.com/index.html): \code TQHttpRequestHeader header( "GET", "/index.html" ); header.setValue( "Host", "www.trolltech.com" ); http->setHost( "www.trolltech.com" ); http->request( header ); \endcode For the common HTTP requests \c GET, \c POST and \c HEAD, TQHttp provides the convenience functions get(), post() and head(). They already use a reasonable header and if you don't have to set special header fields, they are easier to use. The above example can also be written as: \code http->setHost( "www.trolltech.com" ); // id == 1 http->get( "/index.html" ); // id == 2 \endcode For this example the following sequence of signals is emitted (with small variations, depending on network traffic, etc.): \code requestStarted( 1 ) requestFinished( 1, FALSE ) requestStarted( 2 ) stateChanged( Connecting ) stateChanged( Sending ) dataSendProgress( 77, 77 ) stateChanged( Reading ) responseHeaderReceived( responseheader ) dataReadProgress( 5388, 0 ) readyRead( responseheader ) dataReadProgress( 18300, 0 ) readyRead( responseheader ) stateChanged( Connected ) requestFinished( 2, FALSE ) done( FALSE ) stateChanged( Closing ) stateChanged( Unconnected ) \endcode The dataSendProgress() and dataReadProgress() signals in the above example are useful if you want to show a \link TQProgressBar progressbar\endlink to inform the user about the progress of the download. The second argument is the total size of data. In certain cases it is not possible to know the total amount in advance, in which case the second argument is 0. (If you connect to a TQProgressBar a total of 0 results in a busy indicator.) When the response header is read, it is reported with the responseHeaderReceived() signal. The readyRead() signal tells you that there is data ready to be read. The amount of data can then be queried with the bytesAvailable() function and it can be read with the readBlock() or readAll() functions. If an error occurs during the execution of one of the commands in a sequence of commands, all the pending commands (i.e. scheduled, but not yet executed commands) are cleared and no signals are emitted for them. For example, if you have the following sequence of reqeusts \code http->setHost( "www.foo.bar" ); // id == 1 http->get( "/index.html" ); // id == 2 http->post( "register.html", data ); // id == 3 \endcode and the get() request fails because the host lookup fails, then the post() request is never executed and the signals would look like this: \code requestStarted( 1 ) requestFinished( 1, FALSE ) requestStarted( 2 ) stateChanged( HostLookup ) requestFinished( 2, TRUE ) done( TRUE ) stateChanged( Unconnected ) \endcode You can then get details about the error with the error() and errorString() functions. Note that only unexpected behaviour, like network failure is considered as an error. If the server response contains an error status, like a 404 response, this is reported as a normal response case. So you should always check the \link TQHttpResponseHeader::statusCode() status code \endlink of the response header. The functions currentId() and currentRequest() provide more information about the currently executing request. The functions hasPendingRequests() and clearPendingRequests() allow you to query and clear the list of pending requests. \sa \link network.html TQt Network Documentation \endlink TQNetworkProtocol, TQUrlOperator TQFtp */ /*! Constructs a TQHttp object. */ TQHttp::TQHttp() { init(); } /*! Constructs a TQHttp object. The parameters \a parent and \a name are passed on to the TQObject constructor. */ TQHttp::TQHttp( TQObject* parent, const char* name ) { if ( parent ) parent->insertChild( this ); setName( name ); init(); } /*! Constructs a TQHttp object. Subsequent requests are done by connecting to the server \a hostname on port \a port. The parameters \a parent and \a name are passed on to the TQObject constructor. \sa setHost() */ TQHttp::TQHttp( const TQString &hostname, TQ_UINT16 port, TQObject* parent, const char* name ) { if ( parent ) parent->insertChild( this ); setName( name ); init(); d->hostname = hostname; d->port = port; } void TQHttp::init() { bytesRead = 0; d = new TQHttpPrivate; d->errorString = tr( "Unknown error" ); connect( &d->socket, TQ_SIGNAL( connected() ), this, TQ_SLOT( slotConnected() ) ); connect( &d->socket, TQ_SIGNAL( connectionClosed() ), this, TQ_SLOT( slotClosed() ) ); connect( &d->socket, TQ_SIGNAL( delayedCloseFinished() ), this, TQ_SLOT( slotClosed() ) ); connect( &d->socket, TQ_SIGNAL( readyRead() ), this, TQ_SLOT( slotReadyRead() ) ); connect( &d->socket, TQ_SIGNAL( error(int) ), this, TQ_SLOT( slotError(int) ) ); connect( &d->socket, TQ_SIGNAL( bytesWritten(int) ), this, TQ_SLOT( slotBytesWritten(int) ) ); d->idleTimer = startTimer( 0 ); } /*! Destroys the TQHttp object. If there is an open connection, it is closed. */ TQHttp::~TQHttp() { abort(); delete d; } /*! \enum TQHttp::State This enum is used to specify the state the client is in: \value Unconnected There is no connection to the host. \value HostLookup A host name lookup is in progress. \value Connecting An attempt to connect to the host is in progress. \value Sending The client is sending its request to the server. \value Reading The client's request has been sent and the client is reading the server's response. \value Connected The connection to the host is open, but the client is neither sending a request, nor waiting for a response. \value Closing The connection is closing down, but is not yet closed. (The state will be \c Unconnected when the connection is closed.) \sa stateChanged() state() */ /*! \enum TQHttp::Error This enum identifies the error that occurred. \value NoError No error occurred. \value HostNotFound The host name lookup failed. \value ConnectionRefused The server refused the connection. \value UnexpectedClose The server closed the connection unexpectedly. \value InvalidResponseHeader The server sent an invalid response header. \value WrongContentLength The client could not read the content correctly because an error with respect to the content length occurred. \value Aborted The request was aborted with abort(). \value UnknownError An error other than those specified above occurred. \sa error() */ /*! \fn void TQHttp::stateChanged( int state ) This signal is emitted when the state of the TQHttp object changes. The argument \a state is the new state of the connection; it is one of the \l State values. This usually happens when a request is started, but it can also happen when the server closes the connection or when a call to closeConnection() succeeded. \sa get() post() head() request() closeConnection() state() State */ /*! \fn void TQHttp::responseHeaderReceived( const TQHttpResponseHeader& resp ) This signal is emitted when the HTTP header of a server response is available. The header is passed in \a resp. \sa get() post() head() request() readyRead() */ /*! \fn void TQHttp::readyRead( const TQHttpResponseHeader& resp ) This signal is emitted when there is new response data to read. If you specified a device in the request where the data should be written to, then this signal is \e not emitted; instead the data is written directly to the device. The response header is passed in \a resp. You can read the data with the readAll() or readBlock() functions This signal is useful if you want to process the data in chunks as soon as it becomes available. If you are only interested in the complete data, just connect to the requestFinished() signal and read the data then instead. \sa get() post() request() readAll() readBlock() bytesAvailable() */ /*! \fn void TQHttp::dataSendProgress( int done, int total ) This signal is emitted when this object sends data to a HTTP server to inform it about the progress of the upload. \a done is the amount of data that has already arrived and \a total is the total amount of data. It is possible that the total amount of data that should be transferred cannot be determined, in which case \a total is 0.(If you connect to a TQProgressBar, the progress bar shows a busy indicator if the total is 0). \warning \a done and \a total are not necessarily the size in bytes, since for large files these values might need to be "scaled" to avoid overflow. \sa dataReadProgress() post() request() TQProgressBar::setProgress() */ /*! \fn void TQHttp::dataReadProgress( int done, int total ) This signal is emitted when this object reads data from a HTTP server to indicate the current progress of the download. \a done is the amount of data that has already arrived and \a total is the total amount of data. It is possible that the total amount of data that should be transferred cannot be determined, in which case \a total is 0.(If you connect to a TQProgressBar, the progress bar shows a busy indicator if the total is 0). \warning \a done and \a total are not necessarily the size in bytes, since for large files these values might need to be "scaled" to avoid overflow. \sa dataSendProgress() get() post() request() TQProgressBar::setProgress() */ /*! \fn void TQHttp::requestStarted( int id ) This signal is emitted when processing the request identified by \a id starts. \sa requestFinished() done() */ /*! \fn void TQHttp::requestFinished( int id, bool error ) This signal is emitted when processing the request identified by \a id has finished. \a error is TRUE if an error occurred during the processing; otherwise \a error is FALSE. \sa requestStarted() done() error() errorString() */ /*! \fn void TQHttp::done( bool error ) This signal is emitted when the last pending request has finished; (it is emitted after the last request's requestFinished() signal). \a error is TRUE if an error occurred during the processing; otherwise \a error is FALSE. \sa requestFinished() error() errorString() */ /*! Aborts the current request and deletes all scheduled requests. For the current request, the requestFinished() signal with the \c error argument \c TRUE is emitted. For all other requests that are affected by the abort(), no signals are emitted. Since this slot also deletes the scheduled requests, there are no requests left and the done() signal is emitted (with the \c error argument \c TRUE). \sa clearPendingRequests() */ void TQHttp::abort() { TQHttpRequest *r = d->pending.getFirst(); if ( r == 0 ) return; finishedWithError( tr("Request aborted"), Aborted ); clearPendingRequests(); d->socket.clearPendingData(); close(); } /*! Returns the number of bytes that can be read from the response content at the moment. \sa get() post() request() readyRead() readBlock() readAll() */ TQ_ULONG TQHttp::bytesAvailable() const { #if defined(TQHTTP_DEBUG) tqDebug( "TQHttp::bytesAvailable(): %d bytes", (int)d->rba.size() ); #endif return d->rba.size(); } /*! Reads \a maxlen bytes from the response content into \a data and returns the number of bytes read. Returns -1 if an error occurred. \sa get() post() request() readyRead() bytesAvailable() readAll() */ TQ_LONG TQHttp::readBlock( char *data, TQ_ULONG maxlen ) { if ( data == 0 && maxlen != 0 ) { #if defined(QT_CHECK_NULL) tqWarning( "TQHttp::readBlock: Null pointer error" ); #endif return -1; } if ( maxlen >= d->rba.size() ) maxlen = d->rba.size(); d->rba.consumeBytes( maxlen, data ); d->bytesDone += maxlen; #if defined(TQHTTP_DEBUG) tqDebug( "TQHttp::readBlock(): read %d bytes (%d bytes done)", (int)maxlen, d->bytesDone ); #endif return maxlen; } /*! Reads all the bytes from the response content and returns them. \sa get() post() request() readyRead() bytesAvailable() readBlock() */ TQByteArray TQHttp::readAll() { TQ_ULONG avail = bytesAvailable(); TQByteArray tmp( avail ); TQ_LONG read = readBlock( tmp.data(), avail ); tmp.resize( read ); return tmp; } /*! Returns the identifier of the HTTP request being executed or 0 if there is no request being executed (i.e. they've all finished). \sa currentRequest() */ int TQHttp::currentId() const { TQHttpRequest *r = d->pending.getFirst(); if ( r == 0 ) return 0; return r->id; } /*! Returns the request header of the HTTP request being executed. If the request is one issued by setHost() or closeConnection(), it returns an invalid request header, i.e. TQHttpRequestHeader::isValid() returns FALSE. \sa currentId() */ TQHttpRequestHeader TQHttp::currentRequest() const { TQHttpRequest *r = d->pending.getFirst(); if ( r != 0 && r->hasRequestHeader() ) return r->requestHeader(); return TQHttpRequestHeader(); } /*! Returns the TQIODevice pointer that is used as the data source of the HTTP request being executed. If there is no current request or if the request does not use an IO device as the data source, this function returns 0. This function can be used to delete the TQIODevice in the slot connected to the requestFinished() signal. \sa currentDestinationDevice() post() request() */ TQIODevice* TQHttp::currentSourceDevice() const { TQHttpRequest *r = d->pending.getFirst(); if ( !r ) return 0; return r->sourceDevice(); } /*! Returns the TQIODevice pointer that is used as to store the data of the HTTP request being executed. If there is no current request or if the request does not store the data to an IO device, this function returns 0. This function can be used to delete the TQIODevice in the slot connected to the requestFinished() signal. \sa currentDestinationDevice() get() post() request() */ TQIODevice* TQHttp::currentDestinationDevice() const { TQHttpRequest *r = d->pending.getFirst(); if ( !r ) return 0; return r->destinationDevice(); } /*! Returns TRUE if there are any requests scheduled that have not yet been executed; otherwise returns FALSE. The request that is being executed is \e not considered as a scheduled request. \sa clearPendingRequests() currentId() currentRequest() */ bool TQHttp::hasPendingRequests() const { return d->pending.count() > 1; } /*! Deletes all pending requests from the list of scheduled requests. This does not affect the request that is being executed. If you want to stop this this as well, use abort(). \sa hasPendingRequests() abort() */ void TQHttp::clearPendingRequests() { TQHttpRequest *r = 0; if ( d->pending.count() > 0 ) r = d->pending.take( 0 ); d->pending.clear(); if ( r ) d->pending.append( r ); } /*! Sets the HTTP server that is used for requests to \a hostname on port \a port. The function does not block and returns immediately. The request is scheduled, and its execution is performed asynchronously. The function returns a unique identifier which is passed by requestStarted() and requestFinished(). When the request is started the requestStarted() signal is emitted. When it is finished the requestFinished() signal is emitted. \sa get() post() head() request() requestStarted() requestFinished() done() */ int TQHttp::setHost(const TQString &hostname, TQ_UINT16 port ) { return addRequest( new TQHttpSetHostRequest( hostname, port ) ); } /*! Sends a get request for \a path to the server set by setHost() or as specified in the constructor. \a path must be an absolute path like \c /index.html or an absolute URI like \c http://www.trolltech.com/index.html. If the IO device \a to is 0 the readyRead() signal is emitted every time new content data is available to read. If the IO device \a to is not 0, the content data of the response is written directly to the device. Make sure that the \a to pointer is valid for the duration of the operation (it is safe to delete it when the requestFinished() signal is emitted). The function does not block and returns immediately. The request is scheduled, and its execution is performed asynchronously. The function returns a unique identifier which is passed by requestStarted() and requestFinished(). When the request is started the requestStarted() signal is emitted. When it is finished the requestFinished() signal is emitted. \sa setHost() post() head() request() requestStarted() requestFinished() done() */ int TQHttp::get( const TQString& path, TQIODevice* to ) { TQHttpRequestHeader header( "GET", path ); header.setValue( "Connection", "Keep-Alive" ); return addRequest( new TQHttpPGHRequest( header, (TQIODevice*)0, to ) ); } /*! Sends a post request for \a path to the server set by setHost() or as specified in the constructor. \a path must be an absolute path like \c /index.html or an absolute URI like \c http://www.trolltech.com/index.html. The incoming data comes via the \a data IO device. If the IO device \a to is 0 the readyRead() signal is emitted every time new content data is available to read. If the IO device \a to is not 0, the content data of the response is written directly to the device. Make sure that the \a to pointer is valid for the duration of the operation (it is safe to delete it when the requestFinished() signal is emitted). The function does not block and returns immediately. The request is scheduled, and its execution is performed asynchronously. The function returns a unique identifier which is passed by requestStarted() and requestFinished(). When the request is started the requestStarted() signal is emitted. When it is finished the requestFinished() signal is emitted. \sa setHost() get() head() request() requestStarted() requestFinished() done() */ int TQHttp::post( const TQString& path, TQIODevice* data, TQIODevice* to ) { TQHttpRequestHeader header( "POST", path ); header.setValue( "Connection", "Keep-Alive" ); return addRequest( new TQHttpPGHRequest( header, data, to ) ); } /*! \overload \a data is used as the content data of the HTTP request. */ int TQHttp::post( const TQString& path, const TQByteArray& data, TQIODevice* to ) { TQHttpRequestHeader header( "POST", path ); header.setValue( "Connection", "Keep-Alive" ); return addRequest( new TQHttpPGHRequest( header, new TQByteArray(data), to ) ); } /*! Sends a header request for \a path to the server set by setHost() or as specified in the constructor. \a path must be an absolute path like \c /index.html or an absolute URI like \c http://www.trolltech.com/index.html. The function does not block and returns immediately. The request is scheduled, and its execution is performed asynchronously. The function returns a unique identifier which is passed by requestStarted() and requestFinished(). When the request is started the requestStarted() signal is emitted. When it is finished the requestFinished() signal is emitted. \sa setHost() get() post() request() requestStarted() requestFinished() done() */ int TQHttp::head( const TQString& path ) { TQHttpRequestHeader header( "HEAD", path ); header.setValue( "Connection", "Keep-Alive" ); return addRequest( new TQHttpPGHRequest( header, (TQIODevice*)0, 0 ) ); } /*! Sends a request to the server set by setHost() or as specified in the constructor. Uses the \a header as the HTTP request header. You are responsible for setting up a header that is appropriate for your request. The incoming data comes via the \a data IO device. If the IO device \a to is 0 the readyRead() signal is emitted every time new content data is available to read. If the IO device \a to is not 0, the content data of the response is written directly to the device. Make sure that the \a to pointer is valid for the duration of the operation (it is safe to delete it when the requestFinished() signal is emitted). The function does not block and returns immediately. The request is scheduled, and its execution is performed asynchronously. The function returns a unique identifier which is passed by requestStarted() and requestFinished(). When the request is started the requestStarted() signal is emitted. When it is finished the requestFinished() signal is emitted. \sa setHost() get() post() head() requestStarted() requestFinished() done() */ int TQHttp::request( const TQHttpRequestHeader &header, TQIODevice *data, TQIODevice *to ) { return addRequest( new TQHttpNormalRequest( header, data, to ) ); } /*! \overload \a data is used as the content data of the HTTP request. */ int TQHttp::request( const TQHttpRequestHeader &header, const TQByteArray &data, TQIODevice *to ) { return addRequest( new TQHttpNormalRequest( header, new TQByteArray(data), to ) ); } /*! Closes the connection; this is useful if you have a keep-alive connection and want to close it. For the requests issued with get(), post() and head(), TQHttp sets the connection to be keep-alive. You can also do this using the header you pass to the request() function. TQHttp only closes the connection to the HTTP server if the response header requires it to do so. The function does not block and returns immediately. The request is scheduled, and its execution is performed asynchronously. The function returns a unique identifier which is passed by requestStarted() and requestFinished(). When the request is started the requestStarted() signal is emitted. When it is finished the requestFinished() signal is emitted. If you want to close the connection immediately, you have to use abort() instead. \sa stateChanged() abort() requestStarted() requestFinished() done() */ int TQHttp::closeConnection() { return addRequest( new TQHttpCloseRequest() ); } int TQHttp::addRequest( TQHttpRequest *req ) { d->pending.append( req ); if ( d->pending.count() == 1 ) // don't emit the requestStarted() signal before the id is returned TQTimer::singleShot( 0, this, TQ_SLOT(startNextRequest()) ); return req->id; } void TQHttp::startNextRequest() { TQHttpRequest *r = d->pending.getFirst(); if ( r == 0 ) return; d->error = NoError; d->errorString = tr( "Unknown error" ); if ( bytesAvailable() ) readAll(); // clear the data emit requestStarted( r->id ); r->start( this ); } void TQHttp::sendRequest() { if ( d->hostname.isNull() ) { finishedWithError( tr("No server set to connect to"), UnknownError ); return; } killIdleTimer(); // Do we need to setup a new connection or can we reuse an // existing one ? if ( d->socket.peerName() != d->hostname || d->socket.peerPort() != d->port || d->socket.state() != TQSocket::Connection ) { setState( TQHttp::Connecting ); d->socket.connectToHost( d->hostname, d->port ); } else { slotConnected(); } } void TQHttp::finishedWithSuccess() { TQHttpRequest *r = d->pending.getFirst(); if ( r == 0 ) return; emit requestFinished( r->id, FALSE ); d->pending.removeFirst(); if ( d->pending.isEmpty() ) { emit done( FALSE ); } else { startNextRequest(); } } void TQHttp::finishedWithError( const TQString& detail, int errorCode ) { TQHttpRequest *r = d->pending.getFirst(); if ( r == 0 ) return; d->error = (Error)errorCode; d->errorString = detail; emit requestFinished( r->id, TRUE ); d->pending.clear(); emit done( TRUE ); } void TQHttp::slotClosed() { if ( d->state == Closing ) return; if ( d->state == Reading ) { if ( d->response.hasKey( "content-length" ) ) { // We got Content-Length, so did we get all bytes? if ( d->bytesDone+bytesAvailable() != d->response.contentLength() ) { finishedWithError( tr("Wrong content length"), WrongContentLength ); } } } else if ( d->state == Connecting || d->state == Sending ) { finishedWithError( tr("Server closed connection unexpectedly"), UnexpectedClose ); } d->postDevice = 0; setState( Closing ); d->idleTimer = startTimer( 0 ); } void TQHttp::slotConnected() { if ( d->state != Sending ) { d->bytesDone = 0; setState( Sending ); } TQString str = d->header.toString(); d->bytesTotal = str.length(); d->socket.writeBlock( str.latin1(), d->bytesTotal ); #if defined(TQHTTP_DEBUG) tqDebug( "TQHttp: write request header:\n---{\n%s}---", str.latin1() ); #endif if ( d->postDevice ) { d->bytesTotal += d->postDevice->size(); } else { d->bytesTotal += d->buffer.size(); d->socket.writeBlock( d->buffer.data(), d->buffer.size() ); d->buffer = TQByteArray(); // save memory } } void TQHttp::slotError( int err ) { d->postDevice = 0; if ( d->state == Connecting || d->state == Reading || d->state == Sending ) { switch ( err ) { case TQSocket::ErrConnectionRefused: finishedWithError( tr("Connection refused"), ConnectionRefused ); break; case TQSocket::ErrHostNotFound: finishedWithError( tr("Host %1 not found").arg(d->socket.peerName()), HostNotFound ); break; default: finishedWithError( tr("HTTP request failed"), UnknownError ); break; } } close(); } void TQHttp::slotBytesWritten( int written ) { d->bytesDone += written; emit dataSendProgress( d->bytesDone, d->bytesTotal ); if ( !d->postDevice ) return; if ( d->socket.bytesToWrite() == 0 ) { int max = TQMIN( 4096, d->postDevice->size() - d->postDevice->at() ); TQByteArray arr( max ); int n = d->postDevice->readBlock( arr.data(), max ); if ( n != max ) { tqWarning("Could not read enough bytes from the device"); close(); return; } if ( d->postDevice->atEnd() ) { d->postDevice = 0; } d->socket.writeBlock( arr.data(), max ); } } void TQHttp::slotReadyRead() { if ( d->state != Reading ) { setState( Reading ); d->buffer = TQByteArray(); d->readHeader = TRUE; d->headerStr = ""; d->bytesDone = 0; d->chunkedSize = -1; } while ( d->readHeader ) { bool end = FALSE; TQString tmp; while ( !end && d->socket.canReadLine() ) { tmp = d->socket.readLine(); if ( tmp == "\r\n" || tmp == "\n" ) end = TRUE; else d->headerStr += tmp; } if ( !end ) return; #if defined(TQHTTP_DEBUG) tqDebug( "TQHttp: read response header:\n---{\n%s}---", d->headerStr.latin1() ); #endif d->response = TQHttpResponseHeader( d->headerStr ); d->headerStr = ""; #if defined(TQHTTP_DEBUG) tqDebug( "TQHttp: read response header:\n---{\n%s}---", d->response.toString().latin1() ); #endif // Check header if ( !d->response.isValid() ) { finishedWithError( tr("Invalid HTTP response header"), InvalidResponseHeader ); close(); return; } // The 100-continue header is ignored, because when using the // POST method, we send both the request header and data in // one chunk. if (d->response.statusCode() != 100) { d->readHeader = FALSE; if ( d->response.hasKey( "transfer-encoding" ) && d->response.value( "transfer-encoding" ).lower().contains( "chunked" ) ) d->chunkedSize = 0; emit responseHeaderReceived( d->response ); } } if ( !d->readHeader ) { bool everythingRead = FALSE; if ( currentRequest().method() == "HEAD" ) { everythingRead = TRUE; } else { TQ_ULONG n = d->socket.bytesAvailable(); TQByteArray *arr = 0; if ( d->chunkedSize != -1 ) { // transfer-encoding is chunked for ( ;; ) { // get chunk size if ( d->chunkedSize == 0 ) { if ( !d->socket.canReadLine() ) break; TQString sizeString = d->socket.readLine(); int tPos = sizeString.find( ';' ); if ( tPos != -1 ) sizeString.truncate( tPos ); bool ok; d->chunkedSize = sizeString.toInt( &ok, 16 ); if ( !ok ) { finishedWithError( tr("Invalid HTTP chunked body"), WrongContentLength ); close(); delete arr; return; } if ( d->chunkedSize == 0 ) // last-chunk d->chunkedSize = -2; } // read trailer while ( d->chunkedSize == -2 && d->socket.canReadLine() ) { TQString read = d->socket.readLine(); if ( read == "\r\n" || read == "\n" ) d->chunkedSize = -1; } if ( d->chunkedSize == -1 ) { everythingRead = TRUE; break; } // make sure that you can read the terminating CRLF, // otherwise wait until next time... n = d->socket.bytesAvailable(); if ( n == 0 ) break; if ( (TQ_LONG)n == d->chunkedSize || (TQ_LONG)n == d->chunkedSize+1 ) { n = d->chunkedSize - 1; if ( n == 0 ) break; } // read data uint toRead = TQMIN( (TQ_LONG)n, (d->chunkedSize < 0 ? (TQ_LONG)n : d->chunkedSize) ); if ( !arr ) arr = new TQByteArray( 0 ); uint oldArrSize = arr->size(); arr->resize( oldArrSize + toRead ); TQ_LONG read = d->socket.readBlock( arr->data()+oldArrSize, toRead ); arr->resize( oldArrSize + read ); d->chunkedSize -= read; if ( d->chunkedSize == 0 && n - read >= 2 ) { // read terminating CRLF char tmp[2]; d->socket.readBlock( tmp, 2 ); if ( tmp[0] != '\r' || tmp[1] != '\n' ) { finishedWithError( tr("Invalid HTTP chunked body"), WrongContentLength ); close(); return; } } } } else if ( d->response.hasContentLength() ) { n = TQMIN( d->response.contentLength() - d->bytesDone, n ); if ( n > 0 ) { arr = new TQByteArray( n ); TQ_LONG read = d->socket.readBlock( arr->data(), n ); arr->resize( read ); } if ( d->bytesDone + bytesAvailable() + n == d->response.contentLength() ) everythingRead = TRUE; } else if ( n > 0 ) { // workaround for VC++ bug TQByteArray temp = d->socket.readAll(); arr = new TQByteArray( temp ); } if ( arr ) { n = arr->size(); if ( d->toDevice ) { d->toDevice->writeBlock( arr->data(), n ); delete arr; d->bytesDone += n; #if defined(TQHTTP_DEBUG) tqDebug( "TQHttp::slotReadyRead(): read %ld bytes (%d bytes done)", n, d->bytesDone ); #endif if ( d->response.hasContentLength() ) emit dataReadProgress( d->bytesDone, d->response.contentLength() ); else emit dataReadProgress( d->bytesDone, 0 ); } else { d->rba.append( arr ); #if defined(TQHTTP_DEBUG) tqDebug( "TQHttp::slotReadyRead(): read %ld bytes (%ld bytes done)", n, d->bytesDone + bytesAvailable() ); #endif if ( d->response.hasContentLength() ) emit dataReadProgress( d->bytesDone + bytesAvailable(), d->response.contentLength() ); else emit dataReadProgress( d->bytesDone + bytesAvailable(), 0 ); emit readyRead( d->response ); } } } if ( everythingRead ) { // Handle "Connection: close" if ( d->response.value("connection").lower() == "close" ) { close(); } else { setState( Connected ); // Start a timer, so that we emit the keep alive signal // "after" this method returned. d->idleTimer = startTimer( 0 ); } } } } /*! Returns the current state of the object. When the state changes, the stateChanged() signal is emitted. \sa State stateChanged() */ TQHttp::State TQHttp::state() const { return d->state; } /*! Returns the last error that occurred. This is useful to find out what happened when receiving a requestFinished() or a done() signal with the \c error argument \c TRUE. If you start a new request, the error status is reset to \c NoError. */ TQHttp::Error TQHttp::error() const { return d->error; } /*! Returns a human-readable description of the last error that occurred. This is useful to present a error message to the user when receiving a requestFinished() or a done() signal with the \c error argument \c TRUE. */ TQString TQHttp::errorString() const { return d->errorString; } /*! \reimp */ void TQHttp::timerEvent( TQTimerEvent *e ) { if ( e->timerId() == d->idleTimer ) { killTimer( d->idleTimer ); d->idleTimer = 0; if ( d->state == Connected ) { finishedWithSuccess(); } else if ( d->state != Unconnected ) { setState( Unconnected ); finishedWithSuccess(); } } else { TQObject::timerEvent( e ); } } void TQHttp::killIdleTimer() { killTimer( d->idleTimer ); d->idleTimer = 0; } void TQHttp::setState( int s ) { #if defined(TQHTTP_DEBUG) tqDebug( "TQHttp state changed %d -> %d", d->state, s ); #endif d->state = (State)s; emit stateChanged( s ); } void TQHttp::close() { // If no connection is open -> ignore if ( d->state == Closing || d->state == Unconnected ) return; d->postDevice = 0; setState( Closing ); // Already closed ? if ( !d->socket.isOpen() ) { d->idleTimer = startTimer( 0 ); } else { // Close now. d->socket.close(); // Did close succeed immediately ? if ( d->socket.state() == TQSocket::Idle ) { // Prepare to emit the requestFinished() signal. d->idleTimer = startTimer( 0 ); } } } /********************************************************************** * * TQHttp implementation of the TQNetworkProtocol interface * *********************************************************************/ /*! \reimp */ int TQHttp::supportedOperations() const { return OpGet | OpPut; } /*! \reimp */ void TQHttp::operationGet( TQNetworkOperation *op ) { connect( this, TQ_SIGNAL(readyRead(const TQHttpResponseHeader&)), this, TQ_SLOT(clientReply(const TQHttpResponseHeader&)) ); connect( this, TQ_SIGNAL(done(bool)), this, TQ_SLOT(clientDone(bool)) ); connect( this, TQ_SIGNAL(stateChanged(int)), this, TQ_SLOT(clientStateChanged(int)) ); bytesRead = 0; op->setState( StInProgress ); TQUrl u( operationInProgress()->arg( 0 ) ); TQHttpRequestHeader header( "GET", u.encodedPathAndQuery(), 1, 0 ); header.setValue( "Host", u.host() ); setHost( u.host(), u.port() != -1 ? u.port() : 80 ); request( header ); } /*! \reimp */ void TQHttp::operationPut( TQNetworkOperation *op ) { connect( this, TQ_SIGNAL(readyRead(const TQHttpResponseHeader&)), this, TQ_SLOT(clientReply(const TQHttpResponseHeader&)) ); connect( this, TQ_SIGNAL(done(bool)), this, TQ_SLOT(clientDone(bool)) ); connect( this, TQ_SIGNAL(stateChanged(int)), this, TQ_SLOT(clientStateChanged(int)) ); bytesRead = 0; op->setState( StInProgress ); TQUrl u( operationInProgress()->arg( 0 ) ); TQHttpRequestHeader header( "POST", u.encodedPathAndQuery(), 1, 0 ); header.setValue( "Host", u.host() ); setHost( u.host(), u.port() != -1 ? u.port() : 80 ); request( header, op->rawArg(1) ); } void TQHttp::clientReply( const TQHttpResponseHeader &rep ) { TQNetworkOperation *op = operationInProgress(); if ( op ) { if ( rep.statusCode() >= 400 && rep.statusCode() < 600 ) { op->setState( StFailed ); op->setProtocolDetail( TQString("%1 %2").arg(rep.statusCode()).arg(rep.reasonPhrase()) ); switch ( rep.statusCode() ) { case 401: case 403: case 405: op->setErrorCode( ErrPermissionDenied ); break; case 404: op->setErrorCode(ErrFileNotExisting ); break; default: if ( op->operation() == OpGet ) op->setErrorCode( ErrGet ); else op->setErrorCode( ErrPut ); break; } } // ### In cases of an error, should we still emit the data() signals? if ( op->operation() == OpGet && bytesAvailable() > 0 ) { TQByteArray ba = readAll(); emit data( ba, op ); bytesRead += ba.size(); if ( rep.hasContentLength() ) { emit dataTransferProgress( bytesRead, rep.contentLength(), op ); } } } } void TQHttp::clientDone( bool err ) { disconnect( this, TQ_SIGNAL(readyRead(const TQHttpResponseHeader&)), this, TQ_SLOT(clientReply(const TQHttpResponseHeader&)) ); disconnect( this, TQ_SIGNAL(done(bool)), this, TQ_SLOT(clientDone(bool)) ); disconnect( this, TQ_SIGNAL(stateChanged(int)), this, TQ_SLOT(clientStateChanged(int)) ); if ( err ) { TQNetworkOperation *op = operationInProgress(); if ( op ) { op->setState( TQNetworkProtocol::StFailed ); op->setProtocolDetail( errorString() ); switch ( error() ) { case ConnectionRefused: op->setErrorCode( ErrHostNotFound ); break; case HostNotFound: op->setErrorCode( ErrHostNotFound ); break; default: if ( op->operation() == OpGet ) op->setErrorCode( ErrGet ); else op->setErrorCode( ErrPut ); break; } emit finished( op ); } } else { TQNetworkOperation *op = operationInProgress(); if ( op ) { if ( op->state() != StFailed ) { op->setState( TQNetworkProtocol::StDone ); op->setErrorCode( TQNetworkProtocol::NoError ); } emit finished( op ); } } } void TQHttp::clientStateChanged( int state ) { if ( url() ) { switch ( (State)state ) { case Connecting: emit connectionStateChanged( ConHostFound, tr( "Host %1 found" ).arg( url()->host() ) ); break; case Sending: emit connectionStateChanged( ConConnected, tr( "Connected to host %1" ).arg( url()->host() ) ); break; case Unconnected: emit connectionStateChanged( ConClosed, tr( "Connection to %1 closed" ).arg( url()->host() ) ); break; default: break; } } else { switch ( (State)state ) { case Connecting: emit connectionStateChanged( ConHostFound, tr( "Host found" ) ); break; case Sending: emit connectionStateChanged( ConConnected, tr( "Connected to host" ) ); break; case Unconnected: emit connectionStateChanged( ConClosed, tr( "Connection closed" ) ); break; default: break; } } } #endif