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# Bỏ qua thư mục build/
build/

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CMakeLists.txt Normal file
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cmake_minimum_required(VERSION 3.10)
project(xmlrpcpp)
set(CMAKE_CXX_STANDARD 17)
set(CMAKE_CXX_STANDARD_REQUIRED ON)
set(CMAKE_POSITION_INDEPENDENT_CODE ON)
if(CMAKE_COMPILER_IS_GNUCXX OR CMAKE_CXX_COMPILER_ID MATCHES "Clang")
add_compile_options(-Wall -Wextra -Wpedantic -fPIC)
endif()
add_library(xmlrpcpp
src/XmlRpcClient.cpp
src/XmlRpcDispatch.cpp
src/XmlRpcServer.cpp
src/XmlRpcServerConnection.cpp
src/XmlRpcServerMethod.cpp
src/XmlRpcSocket.cpp
src/XmlRpcSource.cpp
src/XmlRpcUtil.cpp
src/XmlRpcValue.cpp
)
target_include_directories(xmlrpcpp
PUBLIC
$<BUILD_INTERFACE:${CMAKE_CURRENT_SOURCE_DIR}/include>
$<INSTALL_INTERFACE:include/${PROJECT_NAME}>
)
install(TARGETS xmlrpcpp
ARCHIVE DESTINATION lib
LIBRARY DESTINATION lib
)
install(DIRECTORY include/
DESTINATION include/
)

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#ifndef _XMLRPC_H_
#define _XMLRPC_H_
//
// XmlRpc++ Copyright (c) 2002-2003 by Chris Morley
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
// License as published by the Free Software Foundation; either
// version 2.1 of the License, or (at your option) any later version.
//
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public
// License along with this library; if not, write to the Free Software
// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
//
#if defined(_MSC_VER)
# pragma warning(disable:4786) // identifier was truncated in debug info
#endif
#ifndef MAKEDEPEND
# include <string>
#endif
#include "XmlRpcClient.h"
#include "XmlRpcException.h"
#include "XmlRpcServer.h"
#include "XmlRpcServerMethod.h"
#include "XmlRpcValue.h"
#include "XmlRpcUtil.h"
namespace XmlRpc {
//! An interface allowing custom handling of error message reporting.
class XmlRpcErrorHandler {
public:
//! Returns a pointer to the currently installed error handling object.
static XmlRpcErrorHandler* getErrorHandler()
{ return _errorHandler; }
//! Specifies the error handler.
static void setErrorHandler(XmlRpcErrorHandler* eh)
{ _errorHandler = eh; }
//! Report an error. Custom error handlers should define this method.
virtual void error(const char* msg) = 0;
protected:
static XmlRpcErrorHandler* _errorHandler;
};
//! An interface allowing custom handling of informational message reporting.
class XmlRpcLogHandler {
public:
//! Returns a pointer to the currently installed message reporting object.
static XmlRpcLogHandler* getLogHandler()
{ return _logHandler; }
//! Specifies the message handler.
static void setLogHandler(XmlRpcLogHandler* lh)
{ _logHandler = lh; }
//! Returns the level of verbosity of informational messages. 0 is no output, 5 is very verbose.
static int getVerbosity()
{ return _verbosity; }
//! Specify the level of verbosity of informational messages. 0 is no output, 5 is very verbose.
static void setVerbosity(int v)
{ _verbosity = v; }
//! Output a message. Custom error handlers should define this method.
virtual void log(int level, const char* msg) = 0;
protected:
static XmlRpcLogHandler* _logHandler;
static int _verbosity;
};
//! Returns log message verbosity. This is short for XmlRpcLogHandler::getVerbosity()
int getVerbosity();
//! Sets log message verbosity. This is short for XmlRpcLogHandler::setVerbosity(level)
void setVerbosity(int level);
//! Version identifier
extern const char XMLRPC_VERSION[];
} // namespace XmlRpc
#endif // _XMLRPC_H_

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#ifndef _XMLRPCCLIENT_H_
#define _XMLRPCCLIENT_H_
//
// XmlRpc++ Copyright (c) 2002-2003 by Chris Morley
//
#if defined(_MSC_VER)
# pragma warning(disable:4786) // identifier was truncated in debug info
#endif
#ifndef MAKEDEPEND
# include <string>
#endif
#include "xmlrpcpp/XmlRpcDispatch.h"
#include "xmlrpcpp/XmlRpcSource.h"
namespace XmlRpc {
// Arguments and results are represented by XmlRpcValues
class XmlRpcValue;
//! A class to send XML RPC requests to a server and return the results.
class XmlRpcClient : public XmlRpcSource {
public:
// Static data
static const char REQUEST_BEGIN[];
static const char REQUEST_END_METHODNAME[];
static const char PARAMS_TAG[];
static const char PARAMS_ETAG[];
static const char PARAM_TAG[];
static const char PARAM_ETAG[];
static const char REQUEST_END[];
// Result tags
static const char METHODRESPONSE_TAG[];
static const char FAULT_TAG[];
//! Construct a client to connect to the server at the specified host:port address
//! @param host The name of the remote machine hosting the server
//! @param port The port on the remote machine where the server is listening
//! @param uri An optional string to be sent as the URI in the HTTP GET header
XmlRpcClient(const char* host, int port, const char* uri=0);
//! Destructor
virtual ~XmlRpcClient();
//! Execute the named procedure on the remote server.
//! @param method The name of the remote procedure to execute
//! @param params An array of the arguments for the method
//! @param result The result value to be returned to the client
//! @return true if the request was sent and a result received
//! (although the result might be a fault).
//!
//! Currently this is a synchronous (blocking) implementation (execute
//! does not return until it receives a response or an error). Use isFault()
//! to determine whether the result is a fault response.
bool execute(const char* method, XmlRpcValue const& params, XmlRpcValue& result);
//! Returns true if the result of the last execute() was a fault response.
bool isFault() const { return _isFault; }
// XmlRpcSource interface implementation
//! Close the connection
virtual void close();
//! Handle server responses. Called by the event dispatcher during execute.
//! @param eventType The type of event that occurred.
//! @see XmlRpcDispatch::EventType
virtual unsigned handleEvent(unsigned eventType);
protected:
// Execution processing helpers
virtual bool doConnect();
virtual bool setupConnection();
virtual bool generateRequest(const char* method, XmlRpcValue const& params);
virtual std::string generateHeader(std::string const& body);
virtual bool writeRequest();
virtual bool readHeader();
virtual bool readResponse();
virtual bool parseResponse(XmlRpcValue& result);
// Possible IO states for the connection
enum ClientConnectionState { NO_CONNECTION, CONNECTING, WRITE_REQUEST, READ_HEADER, READ_RESPONSE, IDLE };
ClientConnectionState _connectionState;
// Server location
std::string _host;
std::string _uri;
int _port;
// The xml-encoded request, http header of response, and response xml
std::string _request;
std::string _header;
std::string _response;
// Number of times the client has attempted to send the request
int _sendAttempts;
// Number of bytes of the request that have been written to the socket so far
int _bytesWritten;
// True if we are currently executing a request. If you want to multithread,
// each thread should have its own client.
bool _executing;
// True if the server closed the connection
bool _eof;
// True if a fault response was returned by the server
bool _isFault;
// Number of bytes expected in the response body (parsed from response header)
int _contentLength;
// Event dispatcher
XmlRpcDispatch _disp;
}; // class XmlRpcClient
} // namespace XmlRpc
#endif // _XMLRPCCLIENT_H_

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#ifndef _XMLRPCDISPATCH_H_
#define _XMLRPCDISPATCH_H_
//
// XmlRpc++ Copyright (c) 2002-2003 by Chris Morley
//
#if defined(_MSC_VER)
# pragma warning(disable:4786) // identifier was truncated in debug info
#endif
#ifndef MAKEDEPEND
# include <list>
#endif
namespace XmlRpc {
// An RPC source represents a file descriptor to monitor
class XmlRpcSource;
//! An object which monitors file descriptors for events and performs
//! callbacks when interesting events happen.
class XmlRpcDispatch {
public:
//! Constructor
XmlRpcDispatch();
~XmlRpcDispatch();
//! Values indicating the type of events a source is interested in
enum EventType {
ReadableEvent = 1, //!< data available to read
WritableEvent = 2, //!< connected/data can be written without blocking
Exception = 4 //!< uh oh
};
//! Monitor this source for the event types specified by the event mask
//! and call its event handler when any of the events occur.
//! @param source The source to monitor
//! @param eventMask Which event types to watch for. \see EventType
void addSource(XmlRpcSource* source, unsigned eventMask);
//! Stop monitoring this source.
//! @param source The source to stop monitoring
void removeSource(XmlRpcSource* source);
//! Modify the types of events to watch for on this source
void setSourceEvents(XmlRpcSource* source, unsigned eventMask);
//! Watch current set of sources and process events for the specified
//! duration (in ms, -1 implies wait forever, or until exit is called)
void work(double msTime);
//! Exit from work routine
void exit();
//! Clear all sources from the monitored sources list. Sources are closed.
void clear();
protected:
// helper
double getTime();
// A source to monitor and what to monitor it for
struct MonitoredSource {
MonitoredSource(XmlRpcSource* src, unsigned mask) : _src(src), _mask(mask) {}
XmlRpcSource* getSource() const { return _src; }
unsigned& getMask() { return _mask; }
XmlRpcSource* _src;
unsigned _mask;
};
// A list of sources to monitor
typedef std::list< MonitoredSource > SourceList;
// Sources being monitored
SourceList _sources;
// When work should stop (-1 implies wait forever, or until exit is called)
double _endTime;
bool _doClear;
bool _inWork;
};
} // namespace XmlRpc
#endif // _XMLRPCDISPATCH_H_

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#ifndef _XMLRPCEXCEPTION_H_
#define _XMLRPCEXCEPTION_H_
//
// XmlRpc++ Copyright (c) 2002-2003 by Chris Morley
//
#if defined(_MSC_VER)
# pragma warning(disable:4786) // identifier was truncated in debug info
#endif
#ifndef MAKEDEPEND
# include <string>
#endif
namespace XmlRpc {
//! A class representing an error.
//! If server methods throw this exception, a fault response is returned
//! to the client.
class XmlRpcException {
public:
//! Constructor
//! @param message A descriptive error message
//! @param code An integer error code
XmlRpcException(const std::string& message, int code=-1) :
_message(message), _code(code) {}
//! Return the error message.
const std::string& getMessage() const { return _message; }
//! Return the error code.
int getCode() const { return _code; }
private:
std::string _message;
int _code;
};
}
#endif // _XMLRPCEXCEPTION_H_

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#ifndef _XMLRPCSERVER_H_
#define _XMLRPCSERVER_H_
//
// XmlRpc++ Copyright (c) 2002-2003 by Chris Morley
//
#if defined(_MSC_VER)
# pragma warning(disable:4786) // identifier was truncated in debug info
#endif
#ifndef MAKEDEPEND
# include <map>
# include <string>
#endif
#include "xmlrpcpp/XmlRpcDispatch.h"
#include "xmlrpcpp/XmlRpcSource.h"
namespace XmlRpc {
// An abstract class supporting XML RPC methods
class XmlRpcServerMethod;
// Class representing connections to specific clients
class XmlRpcServerConnection;
// Class representing argument and result values
class XmlRpcValue;
//! A class to handle XML RPC requests
class XmlRpcServer : public XmlRpcSource {
public:
//! Create a server object.
XmlRpcServer();
//! Destructor.
virtual ~XmlRpcServer();
//! Specify whether introspection is enabled or not. Default is not enabled.
void enableIntrospection(bool enabled=true);
//! Add a command to the RPC server
void addMethod(XmlRpcServerMethod* method);
//! Remove a command from the RPC server
void removeMethod(XmlRpcServerMethod* method);
//! Remove a command from the RPC server by name
void removeMethod(const std::string& methodName);
//! Look up a method by name
XmlRpcServerMethod* findMethod(const std::string& name) const;
//! Create a socket, bind to the specified port, and
//! set it in listen mode to make it available for clients.
bool bindAndListen(int port, int backlog = 5);
//! Process client requests for the specified time
void work(double msTime);
//! Temporarily stop processing client requests and exit the work() method.
void exit();
//! Close all connections with clients and the socket file descriptor
void shutdown();
//! Introspection support
void listMethods(XmlRpcValue& result);
// XmlRpcSource interface implementation
//! Handle client connection requests
virtual unsigned handleEvent(unsigned eventType);
//! Remove a connection from the dispatcher
virtual void removeConnection(XmlRpcServerConnection*);
protected:
//! Accept a client connection request
virtual void acceptConnection();
//! Create a new connection object for processing requests from a specific client.
virtual XmlRpcServerConnection* createConnection(int socket);
// Whether the introspection API is supported by this server
bool _introspectionEnabled;
// Event dispatcher
XmlRpcDispatch _disp;
// Collection of methods. This could be a set keyed on method name if we wanted...
typedef std::map< std::string, XmlRpcServerMethod* > MethodMap;
MethodMap _methods;
// system methods
XmlRpcServerMethod* _listMethods;
XmlRpcServerMethod* _methodHelp;
};
} // namespace XmlRpc
#endif //_XMLRPCSERVER_H_

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#ifndef _XMLRPCSERVERCONNECTION_H_
#define _XMLRPCSERVERCONNECTION_H_
//
// XmlRpc++ Copyright (c) 2002-2003 by Chris Morley
//
#if defined(_MSC_VER)
# pragma warning(disable:4786) // identifier was truncated in debug info
#endif
#ifndef MAKEDEPEND
# include <string>
#endif
#include "xmlrpcpp/XmlRpcValue.h"
#include "xmlrpcpp/XmlRpcSource.h"
namespace XmlRpc {
// The server waits for client connections and provides methods
class XmlRpcServer;
class XmlRpcServerMethod;
//! A class to handle XML RPC requests from a particular client
class XmlRpcServerConnection : public XmlRpcSource {
public:
// Static data
static const char METHODNAME_TAG[];
static const char PARAMS_TAG[];
static const char PARAMS_ETAG[];
static const char PARAM_TAG[];
static const char PARAM_ETAG[];
static const std::string SYSTEM_MULTICALL;
static const std::string METHODNAME;
static const std::string PARAMS;
static const std::string FAULTCODE;
static const std::string FAULTSTRING;
//! Constructor
XmlRpcServerConnection(int fd, XmlRpcServer* server, bool deleteOnClose = false);
//! Destructor
virtual ~XmlRpcServerConnection();
// XmlRpcSource interface implementation
//! Handle IO on the client connection socket.
//! @param eventType Type of IO event that occurred. @see XmlRpcDispatch::EventType.
virtual unsigned handleEvent(unsigned eventType);
protected:
bool readHeader();
bool readRequest();
bool writeResponse();
// Parses the request, runs the method, generates the response xml.
virtual void executeRequest();
// Parse the methodName and parameters from the request.
std::string parseRequest(XmlRpcValue& params);
// Execute a named method with the specified params.
bool executeMethod(const std::string& methodName, XmlRpcValue& params, XmlRpcValue& result);
// Execute multiple calls and return the results in an array.
bool executeMulticall(const std::string& methodName, XmlRpcValue& params, XmlRpcValue& result);
// Construct a response from the result XML.
void generateResponse(std::string const& resultXml);
void generateFaultResponse(std::string const& msg, int errorCode = -1);
std::string generateHeader(std::string const& body);
// The XmlRpc server that accepted this connection
XmlRpcServer* _server;
// Possible IO states for the connection
enum ServerConnectionState { READ_HEADER, READ_REQUEST, WRITE_RESPONSE };
ServerConnectionState _connectionState;
// Request headers
std::string _header;
// Number of bytes expected in the request body (parsed from header)
int _contentLength;
// Request body
std::string _request;
// Response
std::string _response;
// Number of bytes of the response written so far
int _bytesWritten;
// Whether to keep the current client connection open for further requests
bool _keepAlive;
};
} // namespace XmlRpc
#endif // _XMLRPCSERVERCONNECTION_H_

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#ifndef _XMLRPCSERVERMETHOD_H_
#define _XMLRPCSERVERMETHOD_H_
//
// XmlRpc++ Copyright (c) 2002-2003 by Chris Morley
//
#if defined(_MSC_VER)
# pragma warning(disable:4786) // identifier was truncated in debug info
#endif
#ifndef MAKEDEPEND
# include <string>
#endif
namespace XmlRpc {
// Representation of a parameter or result value
class XmlRpcValue;
// The XmlRpcServer processes client requests to call RPCs
class XmlRpcServer;
//! Abstract class representing a single RPC method
class XmlRpcServerMethod {
public:
//! Constructor
XmlRpcServerMethod(std::string const& name, XmlRpcServer* server = 0);
//! Destructor
virtual ~XmlRpcServerMethod();
//! Returns the name of the method
std::string& name() { return _name; }
//! Execute the method. Subclasses must provide a definition for this method.
virtual void execute(XmlRpcValue& params, XmlRpcValue& result) = 0;
//! Returns a help string for the method.
//! Subclasses should define this method if introspection is being used.
virtual std::string help() { return std::string(); }
protected:
std::string _name;
XmlRpcServer* _server;
};
} // namespace XmlRpc
#endif // _XMLRPCSERVERMETHOD_H_

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#ifndef _XMLRPCSOCKET_H_
#define _XMLRPCSOCKET_H_
//
// XmlRpc++ Copyright (c) 2002-2003 by Chris Morley
//
#if defined(_MSC_VER)
# pragma warning(disable:4786) // identifier was truncated in debug info
#endif
#ifndef MAKEDEPEND
# include <string>
#endif
namespace XmlRpc {
//! A platform-independent socket API.
class XmlRpcSocket {
public:
//! Creates a stream (TCP) socket. Returns -1 on failure.
static int socket();
//! Closes a socket.
static void close(int socket);
//! Sets a stream (TCP) socket to perform non-blocking IO. Returns false on failure.
static bool setNonBlocking(int socket);
//! Read text from the specified socket. Returns false on error.
static bool nbRead(int socket, std::string& s, bool *eof);
//! Write text to the specified socket. Returns false on error.
static bool nbWrite(int socket, std::string& s, int *bytesSoFar);
// The next four methods are appropriate for servers.
//! Allow the port the specified socket is bound to to be re-bound immediately so
//! server re-starts are not delayed. Returns false on failure.
static bool setReuseAddr(int socket);
//! Bind to a specified port
static bool bind(int socket, int port);
//! Set socket in listen mode
static bool listen(int socket, int backlog);
//! Accept a client connection request
static int accept(int socket);
//! Connect a socket to a server (from a client)
static bool connect(int socket, std::string& host, int port);
//! Returns last errno
static int getError();
//! Returns message corresponding to last error
static std::string getErrorMsg();
//! Returns message corresponding to error
static std::string getErrorMsg(int error);
};
} // namespace XmlRpc
#endif

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#ifndef _XMLRPCSOURCE_H_
#define _XMLRPCSOURCE_H_
//
// XmlRpc++ Copyright (c) 2002-2003 by Chris Morley
//
#if defined(_MSC_VER)
# pragma warning(disable:4786) // identifier was truncated in debug info
#endif
namespace XmlRpc {
//! An RPC source represents a file descriptor to monitor
class XmlRpcSource {
public:
//! Constructor
//! @param fd The socket file descriptor to monitor.
//! @param deleteOnClose If true, the object deletes itself when close is called.
XmlRpcSource(int fd = -1, bool deleteOnClose = false);
//! Destructor
virtual ~XmlRpcSource();
//! Return the file descriptor being monitored.
int getfd() const { return _fd; }
//! Specify the file descriptor to monitor.
void setfd(int fd) { _fd = fd; }
//! Return whether the file descriptor should be kept open if it is no longer monitored.
bool getKeepOpen() const { return _keepOpen; }
//! Specify whether the file descriptor should be kept open if it is no longer monitored.
void setKeepOpen(bool b=true) { _keepOpen = b; }
//! Close the owned fd. If deleteOnClose was specified at construction, the object is deleted.
virtual void close();
//! Return true to continue monitoring this source
virtual unsigned handleEvent(unsigned eventType) = 0;
private:
// Socket. This should really be a SOCKET (an alias for unsigned int*) on windows...
int _fd;
// In the server, a new source (XmlRpcServerConnection) is created
// for each connected client. When each connection is closed, the
// corresponding source object is deleted.
bool _deleteOnClose;
// In the client, keep connections open if you intend to make multiple calls.
bool _keepOpen;
};
} // namespace XmlRpc
#endif //_XMLRPCSOURCE_H_

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#ifndef _XMLRPCUTIL_H_
#define _XMLRPCUTIL_H_
//
// XmlRpc++ Copyright (c) 2002-2003 by Chris Morley
//
#if defined(_MSC_VER)
# pragma warning(disable:4786) // identifier was truncated in debug info
#endif
#ifndef MAKEDEPEND
# include <string>
#endif
#if defined(_MSC_VER)
# define snprintf _snprintf
# define vsnprintf _vsnprintf
# define strcasecmp _stricmp
# define strncasecmp _strnicmp
#elif defined(__BORLANDC__)
# define strcasecmp stricmp
# define strncasecmp strnicmp
#endif
namespace XmlRpc {
//! Utilities for XML parsing, encoding, and decoding and message handlers.
class XmlRpcUtil {
public:
// hokey xml parsing
//! Returns contents between <tag> and </tag>, updates offset to char after </tag>
static std::string parseTag(const char* tag, std::string const& xml, int* offset);
//! Returns true if the tag is found and updates offset to the char after the tag
static bool findTag(const char* tag, std::string const& xml, int* offset);
//! Returns the next tag and updates offset to the char after the tag, or empty string
//! if the next non-whitespace character is not '<'
static std::string getNextTag(std::string const& xml, int* offset);
//! Returns true if the tag is found at the specified offset (modulo any whitespace)
//! and updates offset to the char after the tag
static bool nextTagIs(const char* tag, std::string const& xml, int* offset);
//! Convert raw text to encoded xml.
static std::string xmlEncode(const std::string& raw);
//! Convert encoded xml to raw text
static std::string xmlDecode(const std::string& encoded);
//! Dump messages somewhere
static void log(int level, const char* fmt, ...);
//! Dump error messages somewhere
static void error(const char* fmt, ...);
};
} // namespace XmlRpc
#endif // _XMLRPCUTIL_H_

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#ifndef _XMLRPCVALUE_H_
#define _XMLRPCVALUE_H_
//
// XmlRpc++ Copyright (c) 2002-2003 by Chris Morley
//
#if defined(_MSC_VER)
# pragma warning(disable:4786) // identifier was truncated in debug info
#endif
#ifndef MAKEDEPEND
# include <map>
# include <string>
# include <vector>
# include <time.h>
#endif
namespace XmlRpc {
//! RPC method arguments and results are represented by Values
// should probably refcount them...
class XmlRpcValue {
public:
enum Type {
TypeInvalid,
TypeBoolean,
TypeInt,
TypeDouble,
TypeString,
TypeDateTime,
TypeBase64,
TypeArray,
TypeStruct
};
// Non-primitive types
typedef std::vector<char> BinaryData;
typedef std::vector<XmlRpcValue> ValueArray;
typedef std::map<std::string, XmlRpcValue> ValueStruct;
//! Constructors
XmlRpcValue() : _type(TypeInvalid) { _value.asBinary = 0; }
XmlRpcValue(bool value) : _type(TypeBoolean) { _value.asBool = value; }
XmlRpcValue(int value) : _type(TypeInt) { _value.asInt = value; }
XmlRpcValue(double value) : _type(TypeDouble) { _value.asDouble = value; }
XmlRpcValue(std::string const& value) : _type(TypeString)
{ _value.asString = new std::string(value); }
XmlRpcValue(const char* value) : _type(TypeString)
{ _value.asString = new std::string(value); }
XmlRpcValue(struct tm* value) : _type(TypeDateTime)
{ _value.asTime = new struct tm(*value); }
XmlRpcValue(void* value, int nBytes) : _type(TypeBase64)
{
_value.asBinary = new BinaryData((char*)value, ((char*)value)+nBytes);
}
//! Construct from xml, beginning at *offset chars into the string, updates offset
XmlRpcValue(std::string const& xml, int* offset) : _type(TypeInvalid)
{ if ( ! fromXml(xml,offset)) _type = TypeInvalid; }
//! Copy
XmlRpcValue(XmlRpcValue const& rhs) : _type(TypeInvalid) { *this = rhs; }
//! Destructor (make virtual if you want to subclass)
/*virtual*/ ~XmlRpcValue() { invalidate(); }
//! Erase the current value
void clear() { invalidate(); }
// Operators
XmlRpcValue& operator=(XmlRpcValue const& rhs);
XmlRpcValue& operator=(int const& rhs) { return operator=(XmlRpcValue(rhs)); }
XmlRpcValue& operator=(double const& rhs) { return operator=(XmlRpcValue(rhs)); }
XmlRpcValue& operator=(const char* rhs) { return operator=(XmlRpcValue(std::string(rhs))); }
bool operator==(XmlRpcValue const& other) const;
bool operator!=(XmlRpcValue const& other) const;
operator bool&() { assertTypeOrInvalid(TypeBoolean); return _value.asBool; }
operator int&() { assertTypeOrInvalid(TypeInt); return _value.asInt; }
operator double&() { assertTypeOrInvalid(TypeDouble); return _value.asDouble; }
operator std::string&() { assertTypeOrInvalid(TypeString); return *_value.asString; }
operator BinaryData&() { assertTypeOrInvalid(TypeBase64); return *_value.asBinary; }
operator struct tm&() { assertTypeOrInvalid(TypeDateTime); return *_value.asTime; }
XmlRpcValue const& operator[](int i) const { assertArray(i+1); return _value.asArray->at(i); }
XmlRpcValue& operator[](int i) { assertArray(i+1); return _value.asArray->at(i); }
XmlRpcValue& operator[](std::string const& k) { assertStruct(); return (*_value.asStruct)[k]; }
XmlRpcValue& operator[](const char* k) { assertStruct(); std::string s(k); return (*_value.asStruct)[s]; }
// Accessors
//! Return true if the value has been set to something.
bool valid() const { return _type != TypeInvalid; }
//! Return the type of the value stored. \see Type.
Type const &getType() const { return _type; }
//! Return the size for string, base64, array, and struct values.
int size() const;
//! Specify the size for array values. Array values will grow beyond this size if needed.
void setSize(int size) { assertArray(size); }
//! Check for the existence of a struct member by name.
bool hasMember(const std::string& name) const;
//! Decode xml. Destroys any existing value.
bool fromXml(std::string const& valueXml, int* offset);
//! Encode the Value in xml
std::string toXml() const;
//! Write the value (no xml encoding)
std::ostream& write(std::ostream& os) const;
// Formatting
//! Return the format used to write double values.
static std::string const& getDoubleFormat() { return _doubleFormat; }
//! Specify the format used to write double values.
static void setDoubleFormat(const char* f) { _doubleFormat = f; }
protected:
// Clean up
void invalidate();
// Type checking
void assertTypeOrInvalid(Type t);
void assertArray(int size) const;
void assertArray(int size);
void assertStruct();
// XML decoding
bool boolFromXml(std::string const& valueXml, int* offset);
bool intFromXml(std::string const& valueXml, int* offset);
bool doubleFromXml(std::string const& valueXml, int* offset);
bool stringFromXml(std::string const& valueXml, int* offset);
bool timeFromXml(std::string const& valueXml, int* offset);
bool binaryFromXml(std::string const& valueXml, int* offset);
bool arrayFromXml(std::string const& valueXml, int* offset);
bool structFromXml(std::string const& valueXml, int* offset);
// XML encoding
std::string boolToXml() const;
std::string intToXml() const;
std::string doubleToXml() const;
std::string stringToXml() const;
std::string timeToXml() const;
std::string binaryToXml() const;
std::string arrayToXml() const;
std::string structToXml() const;
// Format strings
static std::string _doubleFormat;
// Type tag and values
Type _type;
// At some point I will split off Arrays and Structs into
// separate ref-counted objects for more efficient copying.
union {
bool asBool;
int asInt;
double asDouble;
struct tm* asTime;
std::string* asString;
BinaryData* asBinary;
ValueArray* asArray;
ValueStruct* asStruct;
} _value;
};
} // namespace XmlRpc
std::ostream& operator<<(std::ostream& os, XmlRpc::XmlRpcValue& v);
#endif // _XMLRPCVALUE_H_

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// base64.hpp
// Autor Konstantin Pilipchuk
// mailto:lostd@ukr.net
//
//
#if !defined(__BASE64_H_INCLUDED__)
#define __BASE64_H_INCLUDED__ 1
#ifndef MAKEDEPEND
# include <iterator>
#endif
static
int _base64Chars[]= {'A','B','C','D','E','F','G','H','I','J','K','L','M','N','O','P','Q','R','S','T','U','V','W','X','Y','Z',
'a','b','c','d','e','f','g','h','i','j','k','l','m','n','o','p','q','r','s','t','u','v','w','x','y','z',
'0','1','2','3','4','5','6','7','8','9',
'+','/' };
#define _0000_0011 0x03
#define _1111_1100 0xFC
#define _1111_0000 0xF0
#define _0011_0000 0x30
#define _0011_1100 0x3C
#define _0000_1111 0x0F
#define _1100_0000 0xC0
#define _0011_1111 0x3F
#define _EQUAL_CHAR (-1)
#define _UNKNOWN_CHAR (-2)
#define _IOS_FAILBIT std::ios_base::failbit
#define _IOS_EOFBIT std::ios_base::eofbit
#define _IOS_BADBIT std::ios_base::badbit
#define _IOS_GOODBIT std::ios_base::goodbit
// TEMPLATE CLASS base64_put
template<class _E = char, class _Tr = std::char_traits<_E> >
class base64
{
public:
typedef unsigned char byte_t;
typedef _E char_type;
typedef _Tr traits_type;
// base64 requires max line length <= 72 characters
// you can fill end of line
// it may be crlf, crlfsp, noline or other class like it
struct crlf
{
template<class _OI>
_OI operator()(_OI _To) const{
*_To = _Tr::to_char_type('\r'); ++_To;
*_To = _Tr::to_char_type('\n'); ++_To;
return (_To);
}
};
struct crlfsp
{
template<class _OI>
_OI operator()(_OI _To) const{
*_To = _Tr::to_char_type('\r'); ++_To;
*_To = _Tr::to_char_type('\n'); ++_To;
*_To = _Tr::to_char_type(' '); ++_To;
return (_To);
}
};
struct noline
{
template<class _OI>
_OI operator()(_OI _To) const{
return (_To);
}
};
struct three2four
{
void zero()
{
_data[0] = 0;
_data[1] = 0;
_data[2] = 0;
}
byte_t get_0() const
{
return _data[0];
}
byte_t get_1() const
{
return _data[1];
}
byte_t get_2() const
{
return _data[2];
}
void set_0(byte_t _ch)
{
_data[0] = _ch;
}
void set_1(byte_t _ch)
{
_data[1] = _ch;
}
void set_2(byte_t _ch)
{
_data[2] = _ch;
}
// 0000 0000 1111 1111 2222 2222
// xxxx xxxx xxxx xxxx xxxx xxxx
// 0000 0011 1111 2222 2233 3333
int b64_0() const {return (_data[0] & _1111_1100) >> 2;}
int b64_1() const {return ((_data[0] & _0000_0011) << 4) + ((_data[1] & _1111_0000)>>4);}
int b64_2() const {return ((_data[1] & _0000_1111) << 2) + ((_data[2] & _1100_0000)>>6);}
int b64_3() const {return (_data[2] & _0011_1111);}
void b64_0(int _ch) {_data[0] = ((_ch & _0011_1111) << 2) | (_0000_0011 & _data[0]);}
void b64_1(int _ch) {
_data[0] = ((_ch & _0011_0000) >> 4) | (_1111_1100 & _data[0]);
_data[1] = ((_ch & _0000_1111) << 4) | (_0000_1111 & _data[1]); }
void b64_2(int _ch) {
_data[1] = ((_ch & _0011_1100) >> 2) | (_1111_0000 & _data[1]);
_data[2] = ((_ch & _0000_0011) << 6) | (_0011_1111 & _data[2]); }
void b64_3(int _ch){
_data[2] = (_ch & _0011_1111) | (_1100_0000 & _data[2]);}
private:
byte_t _data[3];
};
template<class _II, class _OI, class _State, class _Endline>
_II put(_II _First, _II _Last, _OI _To, _State& _St, _Endline _Endl) const
{
three2four _3to4;
int line_octets = 0;
while(_First != _Last)
{
_3to4.zero();
// áåð¸ì ïî 3 ñèìâîëà
_3to4.set_0(*_First);
_First++;
if(_First == _Last)
{
*_To = _Tr::to_char_type(_base64Chars[_3to4.b64_0()]); ++_To;
*_To = _Tr::to_char_type(_base64Chars[_3to4.b64_1()]); ++_To;
*_To = _Tr::to_char_type('='); ++_To;
*_To = _Tr::to_char_type('='); ++_To;
goto __end;
}
_3to4.set_1(*_First);
_First++;
if(_First == _Last)
{
*_To = _Tr::to_char_type(_base64Chars[_3to4.b64_0()]); ++_To;
*_To = _Tr::to_char_type(_base64Chars[_3to4.b64_1()]); ++_To;
*_To = _Tr::to_char_type(_base64Chars[_3to4.b64_2()]); ++_To;
*_To = _Tr::to_char_type('='); ++_To;
goto __end;
}
_3to4.set_2(*_First);
_First++;
*_To = _Tr::to_char_type(_base64Chars[_3to4.b64_0()]); ++_To;
*_To = _Tr::to_char_type(_base64Chars[_3to4.b64_1()]); ++_To;
*_To = _Tr::to_char_type(_base64Chars[_3to4.b64_2()]); ++_To;
*_To = _Tr::to_char_type(_base64Chars[_3to4.b64_3()]); ++_To;
if(line_octets == 17) // base64 ïîçâîëÿåò äëèíó ñòðîêè íå áîëåå 72 ñèìâîëîâ
{
//_To = _Endl(_To);
*_To = '\n'; ++_To;
line_octets = 0;
}
else
++line_octets;
}
__end: ;
return (_First);
}
template<class _II, class _OI, class _State>
_II get(_II _First, _II _Last, _OI _To, _State& _St) const
{
three2four _3to4;
int _Char;
while(_First != _Last)
{
// Take octet
_3to4.zero();
// -- 0 --
// Search next valid char...
while((_Char = _getCharType(*_First)) < 0 && _Char == _UNKNOWN_CHAR)
{
if(++_First == _Last)
{
_St |= _IOS_FAILBIT|_IOS_EOFBIT; return _First; // unexpected EOF
}
}
if(_Char == _EQUAL_CHAR){
// Error! First character in octet can't be '='
_St |= _IOS_FAILBIT;
return _First;
}
else
_3to4.b64_0(_Char);
// -- 1 --
// Search next valid char...
while(++_First != _Last)
if((_Char = _getCharType(*_First)) != _UNKNOWN_CHAR)
break;
if(_First == _Last) {
_St |= _IOS_FAILBIT|_IOS_EOFBIT; // unexpected EOF
return _First;
}
if(_Char == _EQUAL_CHAR){
// Error! Second character in octet can't be '='
_St |= _IOS_FAILBIT;
return _First;
}
else
_3to4.b64_1(_Char);
// -- 2 --
// Search next valid char...
while(++_First != _Last)
if((_Char = _getCharType(*_First)) != _UNKNOWN_CHAR)
break;
if(_First == _Last) {
// Error! Unexpected EOF. Must be '=' or base64 character
_St |= _IOS_FAILBIT|_IOS_EOFBIT;
return _First;
}
if(_Char == _EQUAL_CHAR){
// OK!
_3to4.b64_2(0);
_3to4.b64_3(0);
// chek for EOF
if(++_First == _Last)
{
// Error! Unexpected EOF. Must be '='. Ignore it.
//_St |= _IOS_BADBIT|_IOS_EOFBIT;
_St |= _IOS_EOFBIT;
}
else
if(_getCharType(*_First) != _EQUAL_CHAR)
{
// Error! Must be '='. Ignore it.
//_St |= _IOS_BADBIT;
}
else
++_First; // Skip '='
// write 1 byte to output
*_To = (byte_t) _3to4.get_0();
return _First;
}
else
_3to4.b64_2(_Char);
// -- 3 --
// Search next valid char...
while(++_First != _Last)
if((_Char = _getCharType(*_First)) != _UNKNOWN_CHAR)
break;
if(_First == _Last) {
// Unexpected EOF. It's error. But ignore it.
//_St |= _IOS_FAILBIT|_IOS_EOFBIT;
_St |= _IOS_EOFBIT;
return _First;
}
if(_Char == _EQUAL_CHAR)
{
// OK!
_3to4.b64_3(0);
// write to output 2 bytes
*_To = (byte_t) _3to4.get_0();
*_To = (byte_t) _3to4.get_1();
++_First; // set position to next character
return _First;
}
else
_3to4.b64_3(_Char);
// write to output 3 bytes
*_To = (byte_t) _3to4.get_0();
*_To = (byte_t) _3to4.get_1();
*_To = (byte_t) _3to4.get_2();
++_First;
} // while(_First != _Last)
return (_First);
}
protected:
int _getCharType(int _Ch) const
{
if(_base64Chars[62] == _Ch)
return 62;
if(_base64Chars[63] == _Ch)
return 63;
if((_base64Chars[0] <= _Ch) && (_base64Chars[25] >= _Ch))
return _Ch - _base64Chars[0];
if((_base64Chars[26] <= _Ch) && (_base64Chars[51] >= _Ch))
return _Ch - _base64Chars[26] + 26;
if((_base64Chars[52] <= _Ch) && (_base64Chars[61] >= _Ch))
return _Ch - _base64Chars[52] + 52;
if(_Ch == _Tr::to_int_type('='))
return _EQUAL_CHAR;
return _UNKNOWN_CHAR;
}
};
#endif

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#include "xmlrpcpp/XmlRpcClient.h"
#include "xmlrpcpp/XmlRpcSocket.h"
#include "xmlrpcpp/XmlRpc.h"
#include <stdio.h>
#include <stdlib.h>
#include <cstring> // cho strncmp
#include <strings.h> // cho strncasecmp
using namespace XmlRpc;
// Static data
const char XmlRpcClient::REQUEST_BEGIN[] =
"<?xml version=\"1.0\"?>\r\n"
"<methodCall><methodName>";
const char XmlRpcClient::REQUEST_END_METHODNAME[] = "</methodName>\r\n";
const char XmlRpcClient::PARAMS_TAG[] = "<params>";
const char XmlRpcClient::PARAMS_ETAG[] = "</params>";
const char XmlRpcClient::PARAM_TAG[] = "<param>";
const char XmlRpcClient::PARAM_ETAG[] = "</param>";
const char XmlRpcClient::REQUEST_END[] = "</methodCall>\r\n";
const char XmlRpcClient::METHODRESPONSE_TAG[] = "<methodResponse>";
const char XmlRpcClient::FAULT_TAG[] = "<fault>";
XmlRpcClient::XmlRpcClient(const char* host, int port, const char* uri/*=0*/)
{
XmlRpcUtil::log(1, "XmlRpcClient new client: host %s, port %d.", host, port);
_host = host;
_port = port;
if (uri)
_uri = uri;
else
_uri = "/RPC2";
_connectionState = NO_CONNECTION;
_executing = false;
_eof = false;
// Default to keeping the connection open until an explicit close is done
setKeepOpen();
}
XmlRpcClient::~XmlRpcClient()
{
}
// Close the owned fd
void
XmlRpcClient::close()
{
XmlRpcUtil::log(4, "XmlRpcClient::close: fd %d.", getfd());
_connectionState = NO_CONNECTION;
_disp.exit();
_disp.removeSource(this);
XmlRpcSource::close();
}
// Clear the referenced flag even if exceptions or errors occur.
struct ClearFlagOnExit {
ClearFlagOnExit(bool& flag) : _flag(flag) {}
~ClearFlagOnExit() { _flag = false; }
bool& _flag;
};
// Execute the named procedure on the remote server.
// Params should be an array of the arguments for the method.
// Returns true if the request was sent and a result received (although the result
// might be a fault).
bool
XmlRpcClient::execute(const char* method, XmlRpcValue const& params, XmlRpcValue& result)
{
XmlRpcUtil::log(1, "XmlRpcClient::execute: method %s (_connectionState %d).", method, _connectionState);
// This is not a thread-safe operation, if you want to do multithreading, use separate
// clients for each thread. If you want to protect yourself from multiple threads
// accessing the same client, replace this code with a real mutex.
if (_executing)
return false;
_executing = true;
ClearFlagOnExit cf(_executing);
_sendAttempts = 0;
_isFault = false;
if ( ! setupConnection())
return false;
if ( ! generateRequest(method, params))
return false;
result.clear();
double msTime = -1.0; // Process until exit is called
_disp.work(msTime);
if (_connectionState != IDLE || ! parseResponse(result))
return false;
XmlRpcUtil::log(1, "XmlRpcClient::execute: method %s completed.", method);
_response = "";
return true;
}
// XmlRpcSource interface implementation
// Handle server responses. Called by the event dispatcher during execute.
unsigned
XmlRpcClient::handleEvent(unsigned eventType)
{
if (eventType == XmlRpcDispatch::Exception)
{
if (_connectionState == WRITE_REQUEST && _bytesWritten == 0)
XmlRpcUtil::error("Error in XmlRpcClient::handleEvent: could not connect to server (%s).",
XmlRpcSocket::getErrorMsg().c_str());
else
XmlRpcUtil::error("Error in XmlRpcClient::handleEvent (state %d): %s.",
_connectionState, XmlRpcSocket::getErrorMsg().c_str());
return 0;
}
if (_connectionState == WRITE_REQUEST)
if ( ! writeRequest()) return 0;
if (_connectionState == READ_HEADER)
if ( ! readHeader()) return 0;
if (_connectionState == READ_RESPONSE)
if ( ! readResponse()) return 0;
// This should probably always ask for Exception events too
return (_connectionState == WRITE_REQUEST)
? XmlRpcDispatch::WritableEvent : XmlRpcDispatch::ReadableEvent;
}
// Create the socket connection to the server if necessary
bool
XmlRpcClient::setupConnection()
{
// If an error occurred last time through, or if the server closed the connection, close our end
if ((_connectionState != NO_CONNECTION && _connectionState != IDLE) || _eof)
close();
_eof = false;
if (_connectionState == NO_CONNECTION)
if (! doConnect())
return false;
// Prepare to write the request
_connectionState = WRITE_REQUEST;
_bytesWritten = 0;
// Notify the dispatcher to listen on this source (calls handleEvent when the socket is writable)
_disp.removeSource(this); // Make sure nothing is left over
_disp.addSource(this, XmlRpcDispatch::WritableEvent | XmlRpcDispatch::Exception);
return true;
}
// Connect to the xmlrpc server
bool
XmlRpcClient::doConnect()
{
int fd = XmlRpcSocket::socket();
if (fd < 0)
{
XmlRpcUtil::error("Error in XmlRpcClient::doConnect: Could not create socket (%s).", XmlRpcSocket::getErrorMsg().c_str());
return false;
}
XmlRpcUtil::log(3, "XmlRpcClient::doConnect: fd %d.", fd);
this->setfd(fd);
// Don't block on connect/reads/writes
if ( ! XmlRpcSocket::setNonBlocking(fd))
{
this->close();
XmlRpcUtil::error("Error in XmlRpcClient::doConnect: Could not set socket to non-blocking IO mode (%s).", XmlRpcSocket::getErrorMsg().c_str());
return false;
}
if ( ! XmlRpcSocket::connect(fd, _host, _port))
{
this->close();
XmlRpcUtil::error("Error in XmlRpcClient::doConnect: Could not connect to server (%s).", XmlRpcSocket::getErrorMsg().c_str());
return false;
}
return true;
}
// Encode the request to call the specified method with the specified parameters into xml
bool
XmlRpcClient::generateRequest(const char* methodName, XmlRpcValue const& params)
{
std::string body = REQUEST_BEGIN;
body += methodName;
body += REQUEST_END_METHODNAME;
// If params is an array, each element is a separate parameter
if (params.valid()) {
body += PARAMS_TAG;
if (params.getType() == XmlRpcValue::TypeArray)
{
for (int i=0; i<params.size(); ++i) {
body += PARAM_TAG;
body += params[i].toXml();
body += PARAM_ETAG;
}
}
else
{
body += PARAM_TAG;
body += params.toXml();
body += PARAM_ETAG;
}
body += PARAMS_ETAG;
}
body += REQUEST_END;
std::string header = generateHeader(body);
XmlRpcUtil::log(4, "XmlRpcClient::generateRequest: header is %d bytes, content-length is %d.",
header.length(), body.length());
_request = header + body;
return true;
}
// Prepend http headers
std::string
XmlRpcClient::generateHeader(std::string const& body)
{
std::string header =
"POST " + _uri + " HTTP/1.1\r\n"
"User-Agent: ";
header += XMLRPC_VERSION;
header += "\r\nHost: ";
header += _host;
char buff[40];
sprintf(buff,":%d\r\n", _port);
header += buff;
header += "Content-Type: text/xml\r\nContent-length: ";
sprintf(buff,"%d\r\n\r\n", body.size());
return header + buff;
}
bool
XmlRpcClient::writeRequest()
{
if (_bytesWritten == 0)
XmlRpcUtil::log(5, "XmlRpcClient::writeRequest (attempt %d):\n%s\n", _sendAttempts+1, _request.c_str());
// Try to write the request
if ( ! XmlRpcSocket::nbWrite(this->getfd(), _request, &_bytesWritten)) {
XmlRpcUtil::error("Error in XmlRpcClient::writeRequest: write error (%s).",XmlRpcSocket::getErrorMsg().c_str());
return false;
}
XmlRpcUtil::log(3, "XmlRpcClient::writeRequest: wrote %d of %d bytes.", _bytesWritten, _request.length());
// Wait for the result
if (_bytesWritten == int(_request.length())) {
_header = "";
_response = "";
_connectionState = READ_HEADER;
}
return true;
}
// Read the header from the response
bool
XmlRpcClient::readHeader()
{
// Read available data
if ( ! XmlRpcSocket::nbRead(this->getfd(), _header, &_eof) ||
(_eof && _header.length() == 0)) {
// If we haven't read any data yet and this is a keep-alive connection, the server may
// have timed out, so we try one more time.
if (getKeepOpen() && _header.length() == 0 && _sendAttempts++ == 0) {
XmlRpcUtil::log(4, "XmlRpcClient::readHeader: re-trying connection");
XmlRpcSource::close();
_connectionState = NO_CONNECTION;
_eof = false;
return setupConnection();
}
XmlRpcUtil::error("Error in XmlRpcClient::readHeader: error while reading header (%s) on fd %d.",
XmlRpcSocket::getErrorMsg().c_str(), getfd());
return false;
}
XmlRpcUtil::log(4, "XmlRpcClient::readHeader: client has read %d bytes", _header.length());
char *hp = (char*)_header.c_str(); // Start of header
char *ep = hp + _header.length(); // End of string
char *bp = 0; // Start of body
char *lp = 0; // Start of content-length value
for (char *cp = hp; (bp == 0) && (cp < ep); ++cp) {
if ((ep - cp > 16) && (strncasecmp(cp, "Content-length: ", 16) == 0))
lp = cp + 16;
else if ((ep - cp > 4) && (strncmp(cp, "\r\n\r\n", 4) == 0))
bp = cp + 4;
else if ((ep - cp > 2) && (strncmp(cp, "\n\n", 2) == 0))
bp = cp + 2;
}
// If we haven't gotten the entire header yet, return (keep reading)
if (bp == 0) {
if (_eof) // EOF in the middle of a response is an error
{
XmlRpcUtil::error("Error in XmlRpcClient::readHeader: EOF while reading header");
return false; // Close the connection
}
return true; // Keep reading
}
// Decode content length
if (lp == 0) {
XmlRpcUtil::error("Error XmlRpcClient::readHeader: No Content-length specified");
return false; // We could try to figure it out by parsing as we read, but for now...
}
_contentLength = atoi(lp);
if (_contentLength <= 0) {
XmlRpcUtil::error("Error in XmlRpcClient::readHeader: Invalid Content-length specified (%d).", _contentLength);
return false;
}
XmlRpcUtil::log(4, "client read content length: %d", _contentLength);
// Otherwise copy non-header data to response buffer and set state to read response.
_response = bp;
_header = ""; // should parse out any interesting bits from the header (connection, etc)...
_connectionState = READ_RESPONSE;
return true; // Continue monitoring this source
}
bool
XmlRpcClient::readResponse()
{
// If we dont have the entire response yet, read available data
if (int(_response.length()) < _contentLength) {
if ( ! XmlRpcSocket::nbRead(this->getfd(), _response, &_eof)) {
XmlRpcUtil::error("Error in XmlRpcClient::readResponse: read error (%s).",XmlRpcSocket::getErrorMsg().c_str());
return false;
}
// If we haven't gotten the entire _response yet, return (keep reading)
if (int(_response.length()) < _contentLength) {
if (_eof) {
XmlRpcUtil::error("Error in XmlRpcClient::readResponse: EOF while reading response");
return false;
}
return true;
}
}
// Otherwise, parse and return the result
XmlRpcUtil::log(3, "XmlRpcClient::readResponse (read %d bytes)", _response.length());
XmlRpcUtil::log(5, "response:\n%s", _response.c_str());
_connectionState = IDLE;
return false; // Stop monitoring this source (causes return from work)
}
// Convert the response xml into a result value
bool
XmlRpcClient::parseResponse(XmlRpcValue& result)
{
// Parse response xml into result
int offset = 0;
if ( ! XmlRpcUtil::findTag(METHODRESPONSE_TAG,_response,&offset)) {
XmlRpcUtil::error("Error in XmlRpcClient::parseResponse: Invalid response - no methodResponse. Response:\n%s", _response.c_str());
return false;
}
// Expect either <params><param>... or <fault>...
if ((XmlRpcUtil::nextTagIs(PARAMS_TAG,_response,&offset) &&
XmlRpcUtil::nextTagIs(PARAM_TAG,_response,&offset)) ||
XmlRpcUtil::nextTagIs(FAULT_TAG,_response,&offset) && (_isFault = true))
{
if ( ! result.fromXml(_response, &offset)) {
XmlRpcUtil::error("Error in XmlRpcClient::parseResponse: Invalid response value. Response:\n%s", _response.c_str());
_response = "";
return false;
}
} else {
XmlRpcUtil::error("Error in XmlRpcClient::parseResponse: Invalid response - no param or fault tag. Response:\n%s", _response.c_str());
_response = "";
return false;
}
_response = "";
return result.valid();
}

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#include "xmlrpcpp/XmlRpcDispatch.h"
#include "xmlrpcpp/XmlRpcSource.h"
#include "xmlrpcpp/XmlRpcUtil.h"
#include <math.h>
#include <sys/timeb.h>
#if defined(_WINDOWS)
# include <winsock2.h>
# define USE_FTIME
# if defined(_MSC_VER)
# define timeb _timeb
# define ftime _ftime
# endif
#else
# include <sys/time.h>
#endif // _WINDOWS
using namespace XmlRpc;
XmlRpcDispatch::XmlRpcDispatch()
{
_endTime = -1.0;
_doClear = false;
_inWork = false;
}
XmlRpcDispatch::~XmlRpcDispatch()
{
}
// Monitor this source for the specified events and call its event handler
// when the event occurs
void
XmlRpcDispatch::addSource(XmlRpcSource* source, unsigned mask)
{
_sources.push_back(MonitoredSource(source, mask));
}
// Stop monitoring this source. Does not close the source.
void
XmlRpcDispatch::removeSource(XmlRpcSource* source)
{
for (SourceList::iterator it=_sources.begin(); it!=_sources.end(); ++it)
if (it->getSource() == source)
{
_sources.erase(it);
break;
}
}
// Modify the types of events to watch for on this source
void
XmlRpcDispatch::setSourceEvents(XmlRpcSource* source, unsigned eventMask)
{
for (SourceList::iterator it=_sources.begin(); it!=_sources.end(); ++it)
if (it->getSource() == source)
{
it->getMask() = eventMask;
break;
}
}
// Watch current set of sources and process events
void
XmlRpcDispatch::work(double timeout)
{
// Compute end time
_endTime = (timeout < 0.0) ? -1.0 : (getTime() + timeout);
_doClear = false;
_inWork = true;
// Only work while there is something to monitor
while (_sources.size() > 0) {
// Construct the sets of descriptors we are interested in
fd_set inFd, outFd, excFd;
FD_ZERO(&inFd);
FD_ZERO(&outFd);
FD_ZERO(&excFd);
int maxFd = -1; // Not used on windows
SourceList::iterator it;
for (it=_sources.begin(); it!=_sources.end(); ++it) {
int fd = it->getSource()->getfd();
if (it->getMask() & ReadableEvent) FD_SET(fd, &inFd);
if (it->getMask() & WritableEvent) FD_SET(fd, &outFd);
if (it->getMask() & Exception) FD_SET(fd, &excFd);
if (it->getMask() && fd > maxFd) maxFd = fd;
}
// Check for events
int nEvents;
if (timeout < 0.0)
nEvents = select(maxFd+1, &inFd, &outFd, &excFd, NULL);
else
{
struct timeval tv;
tv.tv_sec = (int)floor(timeout);
tv.tv_usec = ((int)floor(1000000.0 * (timeout-floor(timeout)))) % 1000000;
nEvents = select(maxFd+1, &inFd, &outFd, &excFd, &tv);
}
if (nEvents < 0)
{
XmlRpcUtil::error("Error in XmlRpcDispatch::work: error in select (%d).", nEvents);
_inWork = false;
return;
}
// Process events
for (it=_sources.begin(); it != _sources.end(); )
{
SourceList::iterator thisIt = it++;
XmlRpcSource* src = thisIt->getSource();
int fd = src->getfd();
unsigned newMask = (unsigned) -1;
if (fd <= maxFd) {
// If you select on multiple event types this could be ambiguous
if (FD_ISSET(fd, &inFd))
newMask &= src->handleEvent(ReadableEvent);
if (FD_ISSET(fd, &outFd))
newMask &= src->handleEvent(WritableEvent);
if (FD_ISSET(fd, &excFd))
newMask &= src->handleEvent(Exception);
if ( ! newMask) {
_sources.erase(thisIt); // Stop monitoring this one
if ( ! src->getKeepOpen())
src->close();
} else if (newMask != (unsigned) -1) {
thisIt->getMask() = newMask;
}
}
}
// Check whether to clear all sources
if (_doClear)
{
SourceList closeList = _sources;
_sources.clear();
for (SourceList::iterator it=closeList.begin(); it!=closeList.end(); ++it) {
XmlRpcSource *src = it->getSource();
src->close();
}
_doClear = false;
}
// Check whether end time has passed
if (0 <= _endTime && getTime() > _endTime)
break;
}
_inWork = false;
}
// Exit from work routine. Presumably this will be called from
// one of the source event handlers.
void
XmlRpcDispatch::exit()
{
_endTime = 0.0; // Return from work asap
}
// Clear all sources from the monitored sources list
void
XmlRpcDispatch::clear()
{
if (_inWork)
_doClear = true; // Finish reporting current events before clearing
else
{
SourceList closeList = _sources;
_sources.clear();
for (SourceList::iterator it=closeList.begin(); it!=closeList.end(); ++it)
it->getSource()->close();
}
}
double
XmlRpcDispatch::getTime()
{
#ifdef USE_FTIME
struct timeb tbuff;
ftime(&tbuff);
return ((double) tbuff.time + ((double)tbuff.millitm / 1000.0) +
((double) tbuff.timezone * 60));
#else
struct timeval tv;
struct timezone tz;
gettimeofday(&tv, &tz);
return (tv.tv_sec + tv.tv_usec / 1000000.0);
#endif /* USE_FTIME */
}

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#include "xmlrpcpp/XmlRpcServer.h"
#include "xmlrpcpp/XmlRpcServerConnection.h"
#include "xmlrpcpp/XmlRpcServerMethod.h"
#include "xmlrpcpp/XmlRpcSocket.h"
#include "xmlrpcpp/XmlRpcUtil.h"
#include "xmlrpcpp/XmlRpcException.h"
using namespace XmlRpc;
XmlRpcServer::XmlRpcServer()
{
_introspectionEnabled = false;
_listMethods = 0;
_methodHelp = 0;
}
XmlRpcServer::~XmlRpcServer()
{
this->shutdown();
_methods.clear();
delete _listMethods;
delete _methodHelp;
}
// Add a command to the RPC server
void
XmlRpcServer::addMethod(XmlRpcServerMethod* method)
{
_methods[method->name()] = method;
}
// Remove a command from the RPC server
void
XmlRpcServer::removeMethod(XmlRpcServerMethod* method)
{
MethodMap::iterator i = _methods.find(method->name());
if (i != _methods.end())
_methods.erase(i);
}
// Remove a command from the RPC server by name
void
XmlRpcServer::removeMethod(const std::string& methodName)
{
MethodMap::iterator i = _methods.find(methodName);
if (i != _methods.end())
_methods.erase(i);
}
// Look up a method by name
XmlRpcServerMethod*
XmlRpcServer::findMethod(const std::string& name) const
{
MethodMap::const_iterator i = _methods.find(name);
if (i == _methods.end())
return 0;
return i->second;
}
// Create a socket, bind to the specified port, and
// set it in listen mode to make it available for clients.
bool
XmlRpcServer::bindAndListen(int port, int backlog /*= 5*/)
{
int fd = XmlRpcSocket::socket();
if (fd < 0)
{
XmlRpcUtil::error("XmlRpcServer::bindAndListen: Could not create socket (%s).", XmlRpcSocket::getErrorMsg().c_str());
return false;
}
this->setfd(fd);
// Don't block on reads/writes
if ( ! XmlRpcSocket::setNonBlocking(fd))
{
this->close();
XmlRpcUtil::error("XmlRpcServer::bindAndListen: Could not set socket to non-blocking input mode (%s).", XmlRpcSocket::getErrorMsg().c_str());
return false;
}
// Allow this port to be re-bound immediately so server re-starts are not delayed
if ( ! XmlRpcSocket::setReuseAddr(fd))
{
this->close();
XmlRpcUtil::error("XmlRpcServer::bindAndListen: Could not set SO_REUSEADDR socket option (%s).", XmlRpcSocket::getErrorMsg().c_str());
return false;
}
// Bind to the specified port on the default interface
if ( ! XmlRpcSocket::bind(fd, port))
{
this->close();
XmlRpcUtil::error("XmlRpcServer::bindAndListen: Could not bind to specified port (%s).", XmlRpcSocket::getErrorMsg().c_str());
return false;
}
// Set in listening mode
if ( ! XmlRpcSocket::listen(fd, backlog))
{
this->close();
XmlRpcUtil::error("XmlRpcServer::bindAndListen: Could not set socket in listening mode (%s).", XmlRpcSocket::getErrorMsg().c_str());
return false;
}
XmlRpcUtil::log(2, "XmlRpcServer::bindAndListen: server listening on port %d fd %d", port, fd);
// Notify the dispatcher to listen on this source when we are in work()
_disp.addSource(this, XmlRpcDispatch::ReadableEvent);
return true;
}
// Process client requests for the specified time
void
XmlRpcServer::work(double msTime)
{
XmlRpcUtil::log(2, "XmlRpcServer::work: waiting for a connection");
_disp.work(msTime);
}
// Handle input on the server socket by accepting the connection
// and reading the rpc request.
unsigned
XmlRpcServer::handleEvent(unsigned mask)
{
acceptConnection();
return XmlRpcDispatch::ReadableEvent; // Continue to monitor this fd
}
// Accept a client connection request and create a connection to
// handle method calls from the client.
void
XmlRpcServer::acceptConnection()
{
int s = XmlRpcSocket::accept(this->getfd());
XmlRpcUtil::log(2, "XmlRpcServer::acceptConnection: socket %d", s);
if (s < 0)
{
//this->close();
XmlRpcUtil::error("XmlRpcServer::acceptConnection: Could not accept connection (%s).", XmlRpcSocket::getErrorMsg().c_str());
}
else if ( ! XmlRpcSocket::setNonBlocking(s))
{
XmlRpcSocket::close(s);
XmlRpcUtil::error("XmlRpcServer::acceptConnection: Could not set socket to non-blocking input mode (%s).", XmlRpcSocket::getErrorMsg().c_str());
}
else // Notify the dispatcher to listen for input on this source when we are in work()
{
XmlRpcUtil::log(2, "XmlRpcServer::acceptConnection: creating a connection");
_disp.addSource(this->createConnection(s), XmlRpcDispatch::ReadableEvent);
}
}
// Create a new connection object for processing requests from a specific client.
XmlRpcServerConnection*
XmlRpcServer::createConnection(int s)
{
// Specify that the connection object be deleted when it is closed
return new XmlRpcServerConnection(s, this, true);
}
void
XmlRpcServer::removeConnection(XmlRpcServerConnection* sc)
{
_disp.removeSource(sc);
}
// Stop processing client requests
void
XmlRpcServer::exit()
{
_disp.exit();
}
// Close the server socket file descriptor and stop monitoring connections
void
XmlRpcServer::shutdown()
{
// This closes and destroys all connections as well as closing this socket
_disp.clear();
}
// Introspection support
static const std::string LIST_METHODS("system.listMethods");
static const std::string METHOD_HELP("system.methodHelp");
static const std::string MULTICALL("system.multicall");
// List all methods available on a server
class ListMethods : public XmlRpcServerMethod
{
public:
ListMethods(XmlRpcServer* s) : XmlRpcServerMethod(LIST_METHODS, s) {}
void execute(XmlRpcValue& params, XmlRpcValue& result)
{
_server->listMethods(result);
}
std::string help() { return std::string("List all methods available on a server as an array of strings"); }
};
// Retrieve the help string for a named method
class MethodHelp : public XmlRpcServerMethod
{
public:
MethodHelp(XmlRpcServer* s) : XmlRpcServerMethod(METHOD_HELP, s) {}
void execute(XmlRpcValue& params, XmlRpcValue& result)
{
if (params[0].getType() != XmlRpcValue::TypeString)
throw XmlRpcException(METHOD_HELP + ": Invalid argument type");
XmlRpcServerMethod* m = _server->findMethod(params[0]);
if ( ! m)
throw XmlRpcException(METHOD_HELP + ": Unknown method name");
result = m->help();
}
std::string help() { return std::string("Retrieve the help string for a named method"); }
};
// Specify whether introspection is enabled or not. Default is enabled.
void
XmlRpcServer::enableIntrospection(bool enabled)
{
if (_introspectionEnabled == enabled)
return;
_introspectionEnabled = enabled;
if (enabled)
{
if ( ! _listMethods)
{
_listMethods = new ListMethods(this);
_methodHelp = new MethodHelp(this);
} else {
addMethod(_listMethods);
addMethod(_methodHelp);
}
}
else
{
removeMethod(LIST_METHODS);
removeMethod(METHOD_HELP);
}
}
void
XmlRpcServer::listMethods(XmlRpcValue& result)
{
int i = 0;
result.setSize(_methods.size()+1);
for (MethodMap::iterator it=_methods.begin(); it != _methods.end(); ++it)
result[i++] = it->first;
// Multicall support is built into XmlRpcServerConnection
result[i] = MULTICALL;
}

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#include "xmlrpcpp/XmlRpcServerConnection.h"
#include "xmlrpcpp/XmlRpcSocket.h"
#include "xmlrpcpp/XmlRpc.h"
#ifndef MAKEDEPEND
# include <stdio.h>
# include <stdlib.h>
#include <cstring> // cho strncmp
#include <strings.h> // cho strncasecmp
#endif
using namespace XmlRpc;
// Static data
const char XmlRpcServerConnection::METHODNAME_TAG[] = "<methodName>";
const char XmlRpcServerConnection::PARAMS_TAG[] = "<params>";
const char XmlRpcServerConnection::PARAMS_ETAG[] = "</params>";
const char XmlRpcServerConnection::PARAM_TAG[] = "<param>";
const char XmlRpcServerConnection::PARAM_ETAG[] = "</param>";
const std::string XmlRpcServerConnection::SYSTEM_MULTICALL = "system.multicall";
const std::string XmlRpcServerConnection::METHODNAME = "methodName";
const std::string XmlRpcServerConnection::PARAMS = "params";
const std::string XmlRpcServerConnection::FAULTCODE = "faultCode";
const std::string XmlRpcServerConnection::FAULTSTRING = "faultString";
// The server delegates handling client requests to a serverConnection object.
XmlRpcServerConnection::XmlRpcServerConnection(int fd, XmlRpcServer* server, bool deleteOnClose /*= false*/) :
XmlRpcSource(fd, deleteOnClose)
{
XmlRpcUtil::log(2,"XmlRpcServerConnection: new socket %d.", fd);
_server = server;
_connectionState = READ_HEADER;
_keepAlive = true;
}
XmlRpcServerConnection::~XmlRpcServerConnection()
{
XmlRpcUtil::log(4,"XmlRpcServerConnection dtor.");
_server->removeConnection(this);
}
// Handle input on the server socket by accepting the connection
// and reading the rpc request. Return true to continue to monitor
// the socket for events, false to remove it from the dispatcher.
unsigned
XmlRpcServerConnection::handleEvent(unsigned /*eventType*/)
{
if (_connectionState == READ_HEADER)
if ( ! readHeader()) return 0;
if (_connectionState == READ_REQUEST)
if ( ! readRequest()) return 0;
if (_connectionState == WRITE_RESPONSE)
if ( ! writeResponse()) return 0;
return (_connectionState == WRITE_RESPONSE)
? XmlRpcDispatch::WritableEvent : XmlRpcDispatch::ReadableEvent;
}
bool
XmlRpcServerConnection::readHeader()
{
// Read available data
bool eof;
if ( ! XmlRpcSocket::nbRead(this->getfd(), _header, &eof)) {
// Its only an error if we already have read some data
if (_header.length() > 0)
XmlRpcUtil::error("XmlRpcServerConnection::readHeader: error while reading header (%s).",XmlRpcSocket::getErrorMsg().c_str());
return false;
}
XmlRpcUtil::log(4, "XmlRpcServerConnection::readHeader: read %d bytes.", _header.length());
char *hp = (char*)_header.c_str(); // Start of header
char *ep = hp + _header.length(); // End of string
char *bp = 0; // Start of body
char *lp = 0; // Start of content-length value
char *kp = 0; // Start of connection value
for (char *cp = hp; (bp == 0) && (cp < ep); ++cp) {
if ((ep - cp > 16) && (strncasecmp(cp, "Content-length: ", 16) == 0))
lp = cp + 16;
else if ((ep - cp > 12) && (strncasecmp(cp, "Connection: ", 12) == 0))
kp = cp + 12;
else if ((ep - cp > 4) && (strncmp(cp, "\r\n\r\n", 4) == 0))
bp = cp + 4;
else if ((ep - cp > 2) && (strncmp(cp, "\n\n", 2) == 0))
bp = cp + 2;
}
// If we haven't gotten the entire header yet, return (keep reading)
if (bp == 0) {
// EOF in the middle of a request is an error, otherwise its ok
if (eof) {
XmlRpcUtil::log(4, "XmlRpcServerConnection::readHeader: EOF");
if (_header.length() > 0)
XmlRpcUtil::error("XmlRpcServerConnection::readHeader: EOF while reading header");
return false; // Either way we close the connection
}
return true; // Keep reading
}
// Decode content length
if (lp == 0) {
XmlRpcUtil::error("XmlRpcServerConnection::readHeader: No Content-length specified");
return false; // We could try to figure it out by parsing as we read, but for now...
}
_contentLength = atoi(lp);
if (_contentLength <= 0) {
XmlRpcUtil::error("XmlRpcServerConnection::readHeader: Invalid Content-length specified (%d).", _contentLength);
return false;
}
XmlRpcUtil::log(3, "XmlRpcServerConnection::readHeader: specified content length is %d.", _contentLength);
// Otherwise copy non-header data to request buffer and set state to read request.
_request = bp;
// Parse out any interesting bits from the header (HTTP version, connection)
_keepAlive = true;
if (_header.find("HTTP/1.0") != std::string::npos) {
if (kp == 0 || strncasecmp(kp, "keep-alive", 10) != 0)
_keepAlive = false; // Default for HTTP 1.0 is to close the connection
} else {
if (kp != 0 && strncasecmp(kp, "close", 5) == 0)
_keepAlive = false;
}
XmlRpcUtil::log(3, "KeepAlive: %d", _keepAlive);
_header = "";
_connectionState = READ_REQUEST;
return true; // Continue monitoring this source
}
bool
XmlRpcServerConnection::readRequest()
{
// If we dont have the entire request yet, read available data
if (int(_request.length()) < _contentLength) {
bool eof;
if ( ! XmlRpcSocket::nbRead(this->getfd(), _request, &eof)) {
XmlRpcUtil::error("XmlRpcServerConnection::readRequest: read error (%s).",XmlRpcSocket::getErrorMsg().c_str());
return false;
}
// If we haven't gotten the entire request yet, return (keep reading)
if (int(_request.length()) < _contentLength) {
if (eof) {
XmlRpcUtil::error("XmlRpcServerConnection::readRequest: EOF while reading request");
return false; // Either way we close the connection
}
return true;
}
}
// Otherwise, parse and dispatch the request
XmlRpcUtil::log(3, "XmlRpcServerConnection::readRequest read %d bytes.", _request.length());
//XmlRpcUtil::log(5, "XmlRpcServerConnection::readRequest:\n%s\n", _request.c_str());
_connectionState = WRITE_RESPONSE;
return true; // Continue monitoring this source
}
bool
XmlRpcServerConnection::writeResponse()
{
if (_response.length() == 0) {
executeRequest();
_bytesWritten = 0;
if (_response.length() == 0) {
XmlRpcUtil::error("XmlRpcServerConnection::writeResponse: empty response.");
return false;
}
}
// Try to write the response
if ( ! XmlRpcSocket::nbWrite(this->getfd(), _response, &_bytesWritten)) {
XmlRpcUtil::error("XmlRpcServerConnection::writeResponse: write error (%s).",XmlRpcSocket::getErrorMsg().c_str());
return false;
}
XmlRpcUtil::log(3, "XmlRpcServerConnection::writeResponse: wrote %d of %d bytes.", _bytesWritten, _response.length());
// Prepare to read the next request
if (_bytesWritten == int(_response.length())) {
_header = "";
_request = "";
_response = "";
_connectionState = READ_HEADER;
}
return _keepAlive; // Continue monitoring this source if true
}
// Run the method, generate _response string
void
XmlRpcServerConnection::executeRequest()
{
XmlRpcValue params, resultValue;
std::string methodName = parseRequest(params);
XmlRpcUtil::log(2, "XmlRpcServerConnection::executeRequest: server calling method '%s'",
methodName.c_str());
try {
if ( ! executeMethod(methodName, params, resultValue) &&
! executeMulticall(methodName, params, resultValue))
generateFaultResponse(methodName + ": unknown method name");
else
generateResponse(resultValue.toXml());
} catch (const XmlRpcException& fault) {
XmlRpcUtil::log(2, "XmlRpcServerConnection::executeRequest: fault %s.",
fault.getMessage().c_str());
generateFaultResponse(fault.getMessage(), fault.getCode());
}
}
// Parse the method name and the argument values from the request.
std::string
XmlRpcServerConnection::parseRequest(XmlRpcValue& params)
{
int offset = 0; // Number of chars parsed from the request
std::string methodName = XmlRpcUtil::parseTag(METHODNAME_TAG, _request, &offset);
if (methodName.size() > 0 && XmlRpcUtil::findTag(PARAMS_TAG, _request, &offset))
{
int nArgs = 0;
while (XmlRpcUtil::nextTagIs(PARAM_TAG, _request, &offset)) {
params[nArgs++] = XmlRpcValue(_request, &offset);
(void) XmlRpcUtil::nextTagIs(PARAM_ETAG, _request, &offset);
}
(void) XmlRpcUtil::nextTagIs(PARAMS_ETAG, _request, &offset);
}
return methodName;
}
// Execute a named method with the specified params.
bool
XmlRpcServerConnection::executeMethod(const std::string& methodName,
XmlRpcValue& params, XmlRpcValue& result)
{
XmlRpcServerMethod* method = _server->findMethod(methodName);
if ( ! method) return false;
method->execute(params, result);
// Ensure a valid result value
if ( ! result.valid())
result = std::string();
return true;
}
// Execute multiple calls and return the results in an array.
bool
XmlRpcServerConnection::executeMulticall(const std::string& methodName,
XmlRpcValue& params, XmlRpcValue& result)
{
if (methodName != SYSTEM_MULTICALL) return false;
// There ought to be 1 parameter, an array of structs
if (params.size() != 1 || params[0].getType() != XmlRpcValue::TypeArray)
throw XmlRpcException(SYSTEM_MULTICALL + ": Invalid argument (expected an array)");
int nc = params[0].size();
result.setSize(nc);
for (int i=0; i<nc; ++i) {
if ( ! params[0][i].hasMember(METHODNAME) ||
! params[0][i].hasMember(PARAMS)) {
result[i][FAULTCODE] = -1;
result[i][FAULTSTRING] = SYSTEM_MULTICALL +
": Invalid argument (expected a struct with members methodName and params)";
continue;
}
const std::string& methodName = params[0][i][METHODNAME];
XmlRpcValue& methodParams = params[0][i][PARAMS];
XmlRpcValue resultValue;
resultValue.setSize(1);
try {
if ( ! executeMethod(methodName, methodParams, resultValue[0]) &&
! executeMulticall(methodName, params, resultValue[0]))
{
result[i][FAULTCODE] = -1;
result[i][FAULTSTRING] = methodName + ": unknown method name";
}
else
result[i] = resultValue;
} catch (const XmlRpcException& fault) {
result[i][FAULTCODE] = fault.getCode();
result[i][FAULTSTRING] = fault.getMessage();
}
}
return true;
}
// Create a response from results xml
void
XmlRpcServerConnection::generateResponse(std::string const& resultXml)
{
const char RESPONSE_1[] =
"<?xml version=\"1.0\"?>\r\n"
"<methodResponse><params><param>\r\n\t";
const char RESPONSE_2[] =
"\r\n</param></params></methodResponse>\r\n";
std::string body = RESPONSE_1 + resultXml + RESPONSE_2;
std::string header = generateHeader(body);
_response = header + body;
XmlRpcUtil::log(5, "XmlRpcServerConnection::generateResponse:\n%s\n", _response.c_str());
}
// Prepend http headers
std::string
XmlRpcServerConnection::generateHeader(std::string const& body)
{
std::string header =
"HTTP/1.1 200 OK\r\n"
"Server: ";
header += XMLRPC_VERSION;
header += "\r\n"
"Content-Type: text/xml\r\n"
"Content-length: ";
char buffLen[40];
sprintf(buffLen,"%d\r\n\r\n", body.size());
return header + buffLen;
}
void
XmlRpcServerConnection::generateFaultResponse(std::string const& errorMsg, int errorCode)
{
const char RESPONSE_1[] =
"<?xml version=\"1.0\"?>\r\n"
"<methodResponse><fault>\r\n\t";
const char RESPONSE_2[] =
"\r\n</fault></methodResponse>\r\n";
XmlRpcValue faultStruct;
faultStruct[FAULTCODE] = errorCode;
faultStruct[FAULTSTRING] = errorMsg;
std::string body = RESPONSE_1 + faultStruct.toXml() + RESPONSE_2;
std::string header = generateHeader(body);
_response = header + body;
}

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#include "xmlrpcpp/XmlRpcServerMethod.h"
#include "xmlrpcpp/XmlRpcServer.h"
namespace XmlRpc {
XmlRpcServerMethod::XmlRpcServerMethod(std::string const& name, XmlRpcServer* server)
{
_name = name;
_server = server;
if (_server) _server->addMethod(this);
}
XmlRpcServerMethod::~XmlRpcServerMethod()
{
if (_server) _server->removeMethod(this);
}
} // namespace XmlRpc

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#include "xmlrpcpp/XmlRpcSocket.h"
#include "xmlrpcpp/XmlRpcUtil.h"
#ifndef MAKEDEPEND
#if defined(_WINDOWS)
# include <stdio.h>
# include <winsock2.h>
//# pragma lib(WS2_32.lib)
# define EINPROGRESS WSAEINPROGRESS
# define EWOULDBLOCK WSAEWOULDBLOCK
# define ETIMEDOUT WSAETIMEDOUT
#else
extern "C" {
# include <unistd.h>
# include <stdio.h>
# include <sys/types.h>
# include <sys/socket.h>
# include <netinet/in.h>
# include <netdb.h>
# include <errno.h>
# include <fcntl.h>
#include <cstring> // cho memset, memcpy
}
#endif // _WINDOWS
#endif // MAKEDEPEND
using namespace XmlRpc;
#if defined(_WINDOWS)
static void initWinSock()
{
static bool wsInit = false;
if (! wsInit)
{
WORD wVersionRequested = MAKEWORD( 2, 0 );
WSADATA wsaData;
WSAStartup(wVersionRequested, &wsaData);
wsInit = true;
}
}
#else
#define initWinSock()
#endif // _WINDOWS
// These errors are not considered fatal for an IO operation; the operation will be re-tried.
static inline bool
nonFatalError()
{
int err = XmlRpcSocket::getError();
return (err == EINPROGRESS || err == EAGAIN || err == EWOULDBLOCK || err == EINTR);
}
int
XmlRpcSocket::socket()
{
initWinSock();
return (int) ::socket(AF_INET, SOCK_STREAM, 0);
}
void
XmlRpcSocket::close(int fd)
{
XmlRpcUtil::log(4, "XmlRpcSocket::close: fd %d.", fd);
#if defined(_WINDOWS)
closesocket(fd);
#else
::close(fd);
#endif // _WINDOWS
}
bool
XmlRpcSocket::setNonBlocking(int fd)
{
#if defined(_WINDOWS)
unsigned long flag = 1;
return (ioctlsocket((SOCKET)fd, FIONBIO, &flag) == 0);
#else
return (fcntl(fd, F_SETFL, O_NONBLOCK) == 0);
#endif // _WINDOWS
}
bool
XmlRpcSocket::setReuseAddr(int fd)
{
// Allow this port to be re-bound immediately so server re-starts are not delayed
int sflag = 1;
return (setsockopt(fd, SOL_SOCKET, SO_REUSEADDR, (const char *)&sflag, sizeof(sflag)) == 0);
}
// Bind to a specified port
bool
XmlRpcSocket::bind(int fd, int port)
{
struct sockaddr_in saddr;
memset(&saddr, 0, sizeof(saddr));
saddr.sin_family = AF_INET;
saddr.sin_addr.s_addr = htonl(INADDR_ANY);
saddr.sin_port = htons((u_short) port);
return (::bind(fd, (struct sockaddr *)&saddr, sizeof(saddr)) == 0);
}
// Set socket in listen mode
bool
XmlRpcSocket::listen(int fd, int backlog)
{
return (::listen(fd, backlog) == 0);
}
int
XmlRpcSocket::accept(int fd)
{
struct sockaddr_in addr;
#if defined(_WINDOWS)
int
#else
socklen_t
#endif
addrlen = sizeof(addr);
return (int) ::accept(fd, (struct sockaddr*)&addr, &addrlen);
}
// Connect a socket to a server (from a client)
bool
XmlRpcSocket::connect(int fd, std::string& host, int port)
{
struct sockaddr_in saddr;
memset(&saddr, 0, sizeof(saddr));
saddr.sin_family = AF_INET;
struct hostent *hp = gethostbyname(host.c_str());
if (hp == 0) return false;
saddr.sin_family = hp->h_addrtype;
memcpy(&saddr.sin_addr, hp->h_addr, hp->h_length);
saddr.sin_port = htons((u_short) port);
// For asynch operation, this will return EWOULDBLOCK (windows) or
// EINPROGRESS (linux) and we just need to wait for the socket to be writable...
int result = ::connect(fd, (struct sockaddr *)&saddr, sizeof(saddr));
return result == 0 || nonFatalError();
}
// Read available text from the specified socket. Returns false on error.
bool
XmlRpcSocket::nbRead(int fd, std::string& s, bool *eof)
{
const int READ_SIZE = 4096; // Number of bytes to attempt to read at a time
char readBuf[READ_SIZE];
bool wouldBlock = false;
*eof = false;
while ( ! wouldBlock && ! *eof) {
#if defined(_WINDOWS)
int n = recv(fd, readBuf, READ_SIZE-1, 0);
#else
int n = read(fd, readBuf, READ_SIZE-1);
#endif
XmlRpcUtil::log(5, "XmlRpcSocket::nbRead: read/recv returned %d.", n);
if (n > 0) {
readBuf[n] = 0;
s.append(readBuf, n);
} else if (n == 0) {
*eof = true;
} else if (nonFatalError()) {
wouldBlock = true;
} else {
return false; // Error
}
}
return true;
}
// Write text to the specified socket. Returns false on error.
bool
XmlRpcSocket::nbWrite(int fd, std::string& s, int *bytesSoFar)
{
int nToWrite = int(s.length()) - *bytesSoFar;
char *sp = const_cast<char*>(s.c_str()) + *bytesSoFar;
bool wouldBlock = false;
while ( nToWrite > 0 && ! wouldBlock ) {
#if defined(_WINDOWS)
int n = send(fd, sp, nToWrite, 0);
#else
int n = write(fd, sp, nToWrite);
#endif
XmlRpcUtil::log(5, "XmlRpcSocket::nbWrite: send/write returned %d.", n);
if (n > 0) {
sp += n;
*bytesSoFar += n;
nToWrite -= n;
} else if (nonFatalError()) {
wouldBlock = true;
} else {
return false; // Error
}
}
return true;
}
// Returns last errno
int
XmlRpcSocket::getError()
{
#if defined(_WINDOWS)
return WSAGetLastError();
#else
return errno;
#endif
}
// Returns message corresponding to last errno
std::string
XmlRpcSocket::getErrorMsg()
{
return getErrorMsg(getError());
}
// Returns message corresponding to errno... well, it should anyway
std::string
XmlRpcSocket::getErrorMsg(int error)
{
char err[60];
snprintf(err,sizeof(err),"error %d", error);
return std::string(err);
}

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#include "xmlrpcpp/XmlRpcSource.h"
#include "xmlrpcpp/XmlRpcSocket.h"
#include "xmlrpcpp/XmlRpcUtil.h"
namespace XmlRpc {
XmlRpcSource::XmlRpcSource(int fd /*= -1*/, bool deleteOnClose /*= false*/)
: _fd(fd), _deleteOnClose(deleteOnClose), _keepOpen(false)
{
}
XmlRpcSource::~XmlRpcSource()
{
}
void
XmlRpcSource::close()
{
if (_fd != -1) {
XmlRpcUtil::log(2,"XmlRpcSource::close: closing socket %d.", _fd);
XmlRpcSocket::close(_fd);
XmlRpcUtil::log(2,"XmlRpcSource::close: done closing socket %d.", _fd);
_fd = -1;
}
if (_deleteOnClose) {
XmlRpcUtil::log(2,"XmlRpcSource::close: deleting this");
_deleteOnClose = false;
delete this;
}
}
} // namespace XmlRpc

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#include "xmlrpcpp/XmlRpcUtil.h"
#ifndef MAKEDEPEND
# include <ctype.h>
# include <iostream>
# include <stdarg.h>
# include <stdio.h>
# include <string.h>
#endif
#include "xmlrpcpp/XmlRpc.h"
using namespace XmlRpc;
//#define USE_WINDOWS_DEBUG // To make the error and log messages go to VC++ debug output
#ifdef USE_WINDOWS_DEBUG
#define WIN32_LEAN_AND_MEAN
#include <windows.h>
#endif
// Version id
const char XmlRpc::XMLRPC_VERSION[] = "XMLRPC++ 0.7";
// Default log verbosity: 0 for no messages through 5 (writes everything)
int XmlRpcLogHandler::_verbosity = 0;
// Default log handler
static class DefaultLogHandler : public XmlRpcLogHandler {
public:
void log(int level, const char* msg) {
#ifdef USE_WINDOWS_DEBUG
if (level <= _verbosity) { OutputDebugString(msg); OutputDebugString("\n"); }
#else
if (level <= _verbosity) std::cout << msg << std::endl;
#endif
}
} defaultLogHandler;
// Message log singleton
XmlRpcLogHandler* XmlRpcLogHandler::_logHandler = &defaultLogHandler;
// Default error handler
static class DefaultErrorHandler : public XmlRpcErrorHandler {
public:
void error(const char* msg) {
#ifdef USE_WINDOWS_DEBUG
OutputDebugString(msg); OutputDebugString("\n");
#else
std::cerr << msg << std::endl;
#endif
}
} defaultErrorHandler;
// Error handler singleton
XmlRpcErrorHandler* XmlRpcErrorHandler::_errorHandler = &defaultErrorHandler;
// Easy API for log verbosity
int XmlRpc::getVerbosity() { return XmlRpcLogHandler::getVerbosity(); }
void XmlRpc::setVerbosity(int level) { XmlRpcLogHandler::setVerbosity(level); }
void XmlRpcUtil::log(int level, const char* fmt, ...)
{
if (level <= XmlRpcLogHandler::getVerbosity())
{
va_list va;
char buf[1024];
va_start( va, fmt);
vsnprintf(buf,sizeof(buf)-1,fmt,va);
buf[sizeof(buf)-1] = 0;
XmlRpcLogHandler::getLogHandler()->log(level, buf);
}
}
void XmlRpcUtil::error(const char* fmt, ...)
{
va_list va;
va_start(va, fmt);
char buf[1024];
vsnprintf(buf,sizeof(buf)-1,fmt,va);
buf[sizeof(buf)-1] = 0;
XmlRpcErrorHandler::getErrorHandler()->error(buf);
}
// Returns contents between <tag> and </tag>, updates offset to char after </tag>
std::string
XmlRpcUtil::parseTag(const char* tag, std::string const& xml, int* offset)
{
if (*offset >= int(xml.length())) return std::string();
size_t istart = xml.find(tag, *offset);
if (istart == std::string::npos) return std::string();
istart += strlen(tag);
std::string etag = "</";
etag += tag + 1;
size_t iend = xml.find(etag, istart);
if (iend == std::string::npos) return std::string();
*offset = int(iend + etag.length());
return xml.substr(istart, iend-istart);
}
// Returns true if the tag is found and updates offset to the char after the tag
bool
XmlRpcUtil::findTag(const char* tag, std::string const& xml, int* offset)
{
if (*offset >= int(xml.length())) return false;
size_t istart = xml.find(tag, *offset);
if (istart == std::string::npos)
return false;
*offset = int(istart + strlen(tag));
return true;
}
// Returns true if the tag is found at the specified offset (modulo any whitespace)
// and updates offset to the char after the tag
bool
XmlRpcUtil::nextTagIs(const char* tag, std::string const& xml, int* offset)
{
if (*offset >= int(xml.length())) return false;
const char* cp = xml.c_str() + *offset;
int nc = 0;
while (*cp && isspace(*cp)) {
++cp;
++nc;
}
int len = int(strlen(tag));
if (*cp && (strncmp(cp, tag, len) == 0)) {
*offset += nc + len;
return true;
}
return false;
}
// Returns the next tag and updates offset to the char after the tag, or empty string
// if the next non-whitespace character is not '<'
std::string
XmlRpcUtil::getNextTag(std::string const& xml, int* offset)
{
if (*offset >= int(xml.length())) return std::string();
size_t pos = *offset;
const char* cp = xml.c_str() + pos;
while (*cp && isspace(*cp)) {
++cp;
++pos;
}
if (*cp != '<') return std::string();
std::string s;
do {
s += *cp;
++pos;
} while (*cp++ != '>' && *cp != 0);
*offset = int(pos);
return s;
}
// xml encodings (xml-encoded entities are preceded with '&')
static const char AMP = '&';
static const char rawEntity[] = { '<', '>', '&', '\'', '\"', 0 };
static const char* xmlEntity[] = { "lt;", "gt;", "amp;", "apos;", "quot;", 0 };
static const int xmlEntLen[] = { 3, 3, 4, 5, 5 };
// Replace xml-encoded entities with the raw text equivalents.
std::string
XmlRpcUtil::xmlDecode(const std::string& encoded)
{
std::string::size_type iAmp = encoded.find(AMP);
if (iAmp == std::string::npos)
return encoded;
std::string decoded(encoded, 0, iAmp);
std::string::size_type iSize = encoded.size();
decoded.reserve(iSize);
const char* ens = encoded.c_str();
while (iAmp != iSize) {
if (encoded[iAmp] == AMP && iAmp+1 < iSize) {
int iEntity;
for (iEntity=0; xmlEntity[iEntity] != 0; ++iEntity)
//if (encoded.compare(iAmp+1, xmlEntLen[iEntity], xmlEntity[iEntity]) == 0)
if (strncmp(ens+iAmp+1, xmlEntity[iEntity], xmlEntLen[iEntity]) == 0)
{
decoded += rawEntity[iEntity];
iAmp += xmlEntLen[iEntity]+1;
break;
}
if (xmlEntity[iEntity] == 0) // unrecognized sequence
decoded += encoded[iAmp++];
} else {
decoded += encoded[iAmp++];
}
}
return decoded;
}
// Replace raw text with xml-encoded entities.
std::string
XmlRpcUtil::xmlEncode(const std::string& raw)
{
std::string::size_type iRep = raw.find_first_of(rawEntity);
if (iRep == std::string::npos)
return raw;
std::string encoded(raw, 0, iRep);
std::string::size_type iSize = raw.size();
while (iRep != iSize) {
int iEntity;
for (iEntity=0; rawEntity[iEntity] != 0; ++iEntity)
if (raw[iRep] == rawEntity[iEntity])
{
encoded += AMP;
encoded += xmlEntity[iEntity];
break;
}
if (rawEntity[iEntity] == 0)
encoded += raw[iRep];
++iRep;
}
return encoded;
}

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#include "xmlrpcpp/XmlRpcValue.h"
#include "xmlrpcpp/XmlRpcException.h"
#include "xmlrpcpp/XmlRpcUtil.h"
#include "xmlrpcpp/base64.h"
#ifndef MAKEDEPEND
# include <iostream>
# include <ostream>
# include <stdlib.h>
# include <stdio.h>
#endif
namespace XmlRpc {
static const char VALUE_TAG[] = "<value>";
static const char VALUE_ETAG[] = "</value>";
static const char BOOLEAN_TAG[] = "<boolean>";
static const char BOOLEAN_ETAG[] = "</boolean>";
static const char DOUBLE_TAG[] = "<double>";
static const char DOUBLE_ETAG[] = "</double>";
static const char INT_TAG[] = "<int>";
static const char I4_TAG[] = "<i4>";
static const char I4_ETAG[] = "</i4>";
static const char STRING_TAG[] = "<string>";
static const char DATETIME_TAG[] = "<dateTime.iso8601>";
static const char DATETIME_ETAG[] = "</dateTime.iso8601>";
static const char BASE64_TAG[] = "<base64>";
static const char BASE64_ETAG[] = "</base64>";
static const char ARRAY_TAG[] = "<array>";
static const char DATA_TAG[] = "<data>";
static const char DATA_ETAG[] = "</data>";
static const char ARRAY_ETAG[] = "</array>";
static const char STRUCT_TAG[] = "<struct>";
static const char MEMBER_TAG[] = "<member>";
static const char NAME_TAG[] = "<name>";
static const char NAME_ETAG[] = "</name>";
static const char MEMBER_ETAG[] = "</member>";
static const char STRUCT_ETAG[] = "</struct>";
// Format strings
std::string XmlRpcValue::_doubleFormat("%f");
// Clean up
void XmlRpcValue::invalidate()
{
switch (_type) {
case TypeString: delete _value.asString; break;
case TypeDateTime: delete _value.asTime; break;
case TypeBase64: delete _value.asBinary; break;
case TypeArray: delete _value.asArray; break;
case TypeStruct: delete _value.asStruct; break;
default: break;
}
_type = TypeInvalid;
_value.asBinary = 0;
}
// Type checking
void XmlRpcValue::assertTypeOrInvalid(Type t)
{
if (_type == TypeInvalid)
{
_type = t;
switch (_type) { // Ensure there is a valid value for the type
case TypeString: _value.asString = new std::string(); break;
case TypeDateTime: _value.asTime = new struct tm(); break;
case TypeBase64: _value.asBinary = new BinaryData(); break;
case TypeArray: _value.asArray = new ValueArray(); break;
case TypeStruct: _value.asStruct = new ValueStruct(); break;
default: _value.asBinary = 0; break;
}
}
else if (_type != t)
throw XmlRpcException("type error");
}
void XmlRpcValue::assertArray(int size) const
{
if (_type != TypeArray)
throw XmlRpcException("type error: expected an array");
else if (int(_value.asArray->size()) < size)
throw XmlRpcException("range error: array index too large");
}
void XmlRpcValue::assertArray(int size)
{
if (_type == TypeInvalid) {
_type = TypeArray;
_value.asArray = new ValueArray(size);
} else if (_type == TypeArray) {
if (int(_value.asArray->size()) < size)
_value.asArray->resize(size);
} else
throw XmlRpcException("type error: expected an array");
}
void XmlRpcValue::assertStruct()
{
if (_type == TypeInvalid) {
_type = TypeStruct;
_value.asStruct = new ValueStruct();
} else if (_type != TypeStruct)
throw XmlRpcException("type error: expected a struct");
}
// Operators
XmlRpcValue& XmlRpcValue::operator=(XmlRpcValue const& rhs)
{
if (this != &rhs)
{
invalidate();
_type = rhs._type;
switch (_type) {
case TypeBoolean: _value.asBool = rhs._value.asBool; break;
case TypeInt: _value.asInt = rhs._value.asInt; break;
case TypeDouble: _value.asDouble = rhs._value.asDouble; break;
case TypeDateTime: _value.asTime = new struct tm(*rhs._value.asTime); break;
case TypeString: _value.asString = new std::string(*rhs._value.asString); break;
case TypeBase64: _value.asBinary = new BinaryData(*rhs._value.asBinary); break;
case TypeArray: _value.asArray = new ValueArray(*rhs._value.asArray); break;
case TypeStruct: _value.asStruct = new ValueStruct(*rhs._value.asStruct); break;
default: _value.asBinary = 0; break;
}
}
return *this;
}
// Predicate for tm equality
static bool tmEq(struct tm const& t1, struct tm const& t2) {
return t1.tm_sec == t2.tm_sec && t1.tm_min == t2.tm_min &&
t1.tm_hour == t2.tm_hour && t1.tm_mday == t2.tm_mday &&
t1.tm_mon == t2.tm_mon && t1.tm_year == t2.tm_year;
}
bool XmlRpcValue::operator==(XmlRpcValue const& other) const
{
if (_type != other._type)
return false;
switch (_type) {
case TypeBoolean: return ( !_value.asBool && !other._value.asBool) ||
( _value.asBool && other._value.asBool);
case TypeInt: return _value.asInt == other._value.asInt;
case TypeDouble: return _value.asDouble == other._value.asDouble;
case TypeDateTime: return tmEq(*_value.asTime, *other._value.asTime);
case TypeString: return *_value.asString == *other._value.asString;
case TypeBase64: return *_value.asBinary == *other._value.asBinary;
case TypeArray: return *_value.asArray == *other._value.asArray;
// The map<>::operator== requires the definition of value< for kcc
case TypeStruct: //return *_value.asStruct == *other._value.asStruct;
{
if (_value.asStruct->size() != other._value.asStruct->size())
return false;
ValueStruct::const_iterator it1=_value.asStruct->begin();
ValueStruct::const_iterator it2=other._value.asStruct->begin();
while (it1 != _value.asStruct->end()) {
const XmlRpcValue& v1 = it1->second;
const XmlRpcValue& v2 = it2->second;
if ( ! (v1 == v2))
return false;
it1++;
it2++;
}
return true;
}
default: break;
}
return true; // Both invalid values ...
}
bool XmlRpcValue::operator!=(XmlRpcValue const& other) const
{
return !(*this == other);
}
// Works for strings, binary data, arrays, and structs.
int XmlRpcValue::size() const
{
switch (_type) {
case TypeString: return int(_value.asString->size());
case TypeBase64: return int(_value.asBinary->size());
case TypeArray: return int(_value.asArray->size());
case TypeStruct: return int(_value.asStruct->size());
default: break;
}
throw XmlRpcException("type error");
}
// Checks for existence of struct member
bool XmlRpcValue::hasMember(const std::string& name) const
{
return _type == TypeStruct && _value.asStruct->find(name) != _value.asStruct->end();
}
// Set the value from xml. The chars at *offset into valueXml
// should be the start of a <value> tag. Destroys any existing value.
bool XmlRpcValue::fromXml(std::string const& valueXml, int* offset)
{
int savedOffset = *offset;
invalidate();
if ( ! XmlRpcUtil::nextTagIs(VALUE_TAG, valueXml, offset))
return false; // Not a value, offset not updated
int afterValueOffset = *offset;
std::string typeTag = XmlRpcUtil::getNextTag(valueXml, offset);
bool result = false;
if (typeTag == BOOLEAN_TAG)
result = boolFromXml(valueXml, offset);
else if (typeTag == I4_TAG || typeTag == INT_TAG)
result = intFromXml(valueXml, offset);
else if (typeTag == DOUBLE_TAG)
result = doubleFromXml(valueXml, offset);
else if (typeTag.empty() || typeTag == STRING_TAG)
result = stringFromXml(valueXml, offset);
else if (typeTag == DATETIME_TAG)
result = timeFromXml(valueXml, offset);
else if (typeTag == BASE64_TAG)
result = binaryFromXml(valueXml, offset);
else if (typeTag == ARRAY_TAG)
result = arrayFromXml(valueXml, offset);
else if (typeTag == STRUCT_TAG)
result = structFromXml(valueXml, offset);
// Watch for empty/blank strings with no <string>tag
else if (typeTag == VALUE_ETAG)
{
*offset = afterValueOffset; // back up & try again
result = stringFromXml(valueXml, offset);
}
if (result) // Skip over the </value> tag
XmlRpcUtil::findTag(VALUE_ETAG, valueXml, offset);
else // Unrecognized tag after <value>
*offset = savedOffset;
return result;
}
// Encode the Value in xml
std::string XmlRpcValue::toXml() const
{
switch (_type) {
case TypeBoolean: return boolToXml();
case TypeInt: return intToXml();
case TypeDouble: return doubleToXml();
case TypeString: return stringToXml();
case TypeDateTime: return timeToXml();
case TypeBase64: return binaryToXml();
case TypeArray: return arrayToXml();
case TypeStruct: return structToXml();
default: break;
}
return std::string(); // Invalid value
}
// Boolean
bool XmlRpcValue::boolFromXml(std::string const& valueXml, int* offset)
{
const char* valueStart = valueXml.c_str() + *offset;
char* valueEnd;
long ivalue = strtol(valueStart, &valueEnd, 10);
if (valueEnd == valueStart || (ivalue != 0 && ivalue != 1))
return false;
_type = TypeBoolean;
_value.asBool = (ivalue == 1);
*offset += int(valueEnd - valueStart);
return true;
}
std::string XmlRpcValue::boolToXml() const
{
std::string xml = VALUE_TAG;
xml += BOOLEAN_TAG;
xml += (_value.asBool ? "1" : "0");
xml += BOOLEAN_ETAG;
xml += VALUE_ETAG;
return xml;
}
// Int
bool XmlRpcValue::intFromXml(std::string const& valueXml, int* offset)
{
const char* valueStart = valueXml.c_str() + *offset;
char* valueEnd;
long ivalue = strtol(valueStart, &valueEnd, 10);
if (valueEnd == valueStart)
return false;
_type = TypeInt;
_value.asInt = int(ivalue);
*offset += int(valueEnd - valueStart);
return true;
}
std::string XmlRpcValue::intToXml() const
{
char buf[256];
snprintf(buf, sizeof(buf)-1, "%d", _value.asInt);
buf[sizeof(buf)-1] = 0;
std::string xml = VALUE_TAG;
xml += I4_TAG;
xml += buf;
xml += I4_ETAG;
xml += VALUE_ETAG;
return xml;
}
// Double
bool XmlRpcValue::doubleFromXml(std::string const& valueXml, int* offset)
{
const char* valueStart = valueXml.c_str() + *offset;
char* valueEnd;
double dvalue = strtod(valueStart, &valueEnd);
if (valueEnd == valueStart)
return false;
_type = TypeDouble;
_value.asDouble = dvalue;
*offset += int(valueEnd - valueStart);
return true;
}
std::string XmlRpcValue::doubleToXml() const
{
char buf[256];
snprintf(buf, sizeof(buf)-1, getDoubleFormat().c_str(), _value.asDouble);
buf[sizeof(buf)-1] = 0;
std::string xml = VALUE_TAG;
xml += DOUBLE_TAG;
xml += buf;
xml += DOUBLE_ETAG;
xml += VALUE_ETAG;
return xml;
}
// String
bool XmlRpcValue::stringFromXml(std::string const& valueXml, int* offset)
{
size_t valueEnd = valueXml.find('<', *offset);
if (valueEnd == std::string::npos)
return false; // No end tag;
_type = TypeString;
_value.asString = new std::string(XmlRpcUtil::xmlDecode(valueXml.substr(*offset, valueEnd-*offset)));
*offset += int(_value.asString->length());
return true;
}
std::string XmlRpcValue::stringToXml() const
{
std::string xml = VALUE_TAG;
//xml += STRING_TAG; optional
xml += XmlRpcUtil::xmlEncode(*_value.asString);
//xml += STRING_ETAG;
xml += VALUE_ETAG;
return xml;
}
// DateTime (stored as a struct tm)
bool XmlRpcValue::timeFromXml(std::string const& valueXml, int* offset)
{
size_t valueEnd = valueXml.find('<', *offset);
if (valueEnd == std::string::npos)
return false; // No end tag;
std::string stime = valueXml.substr(*offset, valueEnd-*offset);
struct tm t;
if (sscanf(stime.c_str(),"%4d%2d%2dT%2d:%2d:%2d",&t.tm_year,&t.tm_mon,&t.tm_mday,&t.tm_hour,&t.tm_min,&t.tm_sec) != 6)
return false;
t.tm_isdst = -1;
_type = TypeDateTime;
_value.asTime = new struct tm(t);
*offset += int(stime.length());
return true;
}
std::string XmlRpcValue::timeToXml() const
{
struct tm* t = _value.asTime;
char buf[20];
snprintf(buf, sizeof(buf)-1, "%4d%02d%02dT%02d:%02d:%02d",
t->tm_year,t->tm_mon,t->tm_mday,t->tm_hour,t->tm_min,t->tm_sec);
buf[sizeof(buf)-1] = 0;
std::string xml = VALUE_TAG;
xml += DATETIME_TAG;
xml += buf;
xml += DATETIME_ETAG;
xml += VALUE_ETAG;
return xml;
}
// Base64
bool XmlRpcValue::binaryFromXml(std::string const& valueXml, int* offset)
{
size_t valueEnd = valueXml.find('<', *offset);
if (valueEnd == std::string::npos)
return false; // No end tag;
_type = TypeBase64;
std::string asString = valueXml.substr(*offset, valueEnd-*offset);
_value.asBinary = new BinaryData();
// check whether base64 encodings can contain chars xml encodes...
// convert from base64 to binary
int iostatus = 0;
base64<char> decoder;
std::back_insert_iterator<BinaryData> ins = std::back_inserter(*(_value.asBinary));
decoder.get(asString.begin(), asString.end(), ins, iostatus);
*offset += int(asString.length());
return true;
}
std::string XmlRpcValue::binaryToXml() const
{
// convert to base64
std::vector<char> base64data;
int iostatus = 0;
base64<char> encoder;
std::back_insert_iterator<std::vector<char> > ins = std::back_inserter(base64data);
encoder.put(_value.asBinary->begin(), _value.asBinary->end(), ins, iostatus, base64<>::crlf());
// Wrap with xml
std::string xml = VALUE_TAG;
xml += BASE64_TAG;
xml.append(base64data.begin(), base64data.end());
xml += BASE64_ETAG;
xml += VALUE_ETAG;
return xml;
}
// Array
bool XmlRpcValue::arrayFromXml(std::string const& valueXml, int* offset)
{
if ( ! XmlRpcUtil::nextTagIs(DATA_TAG, valueXml, offset))
return false;
_type = TypeArray;
_value.asArray = new ValueArray;
XmlRpcValue v;
while (v.fromXml(valueXml, offset))
_value.asArray->push_back(v); // copy...
// Skip the trailing </data>
(void) XmlRpcUtil::nextTagIs(DATA_ETAG, valueXml, offset);
return true;
}
// In general, its preferable to generate the xml of each element of the
// array as it is needed rather than glomming up one big string.
std::string XmlRpcValue::arrayToXml() const
{
std::string xml = VALUE_TAG;
xml += ARRAY_TAG;
xml += DATA_TAG;
int s = int(_value.asArray->size());
for (int i=0; i<s; ++i)
xml += _value.asArray->at(i).toXml();
xml += DATA_ETAG;
xml += ARRAY_ETAG;
xml += VALUE_ETAG;
return xml;
}
// Struct
bool XmlRpcValue::structFromXml(std::string const& valueXml, int* offset)
{
_type = TypeStruct;
_value.asStruct = new ValueStruct;
while (XmlRpcUtil::nextTagIs(MEMBER_TAG, valueXml, offset)) {
// name
const std::string name = XmlRpcUtil::parseTag(NAME_TAG, valueXml, offset);
// value
XmlRpcValue val(valueXml, offset);
if ( ! val.valid()) {
invalidate();
return false;
}
const std::pair<const std::string, XmlRpcValue> p(name, val);
_value.asStruct->insert(p);
(void) XmlRpcUtil::nextTagIs(MEMBER_ETAG, valueXml, offset);
}
return true;
}
// In general, its preferable to generate the xml of each element
// as it is needed rather than glomming up one big string.
std::string XmlRpcValue::structToXml() const
{
std::string xml = VALUE_TAG;
xml += STRUCT_TAG;
ValueStruct::const_iterator it;
for (it=_value.asStruct->begin(); it!=_value.asStruct->end(); ++it) {
xml += MEMBER_TAG;
xml += NAME_TAG;
xml += XmlRpcUtil::xmlEncode(it->first);
xml += NAME_ETAG;
xml += it->second.toXml();
xml += MEMBER_ETAG;
}
xml += STRUCT_ETAG;
xml += VALUE_ETAG;
return xml;
}
// Write the value without xml encoding it
std::ostream& XmlRpcValue::write(std::ostream& os) const {
switch (_type) {
default: break;
case TypeBoolean: os << _value.asBool; break;
case TypeInt: os << _value.asInt; break;
case TypeDouble: os << _value.asDouble; break;
case TypeString: os << *_value.asString; break;
case TypeDateTime:
{
struct tm* t = _value.asTime;
char buf[20];
snprintf(buf, sizeof(buf)-1, "%4d%02d%02dT%02d:%02d:%02d",
t->tm_year,t->tm_mon,t->tm_mday,t->tm_hour,t->tm_min,t->tm_sec);
buf[sizeof(buf)-1] = 0;
os << buf;
break;
}
case TypeBase64:
{
int iostatus = 0;
std::ostreambuf_iterator<char> out(os);
base64<char> encoder;
encoder.put(_value.asBinary->begin(), _value.asBinary->end(), out, iostatus, base64<>::crlf());
break;
}
case TypeArray:
{
int s = int(_value.asArray->size());
os << '{';
for (int i=0; i<s; ++i)
{
if (i > 0) os << ',';
_value.asArray->at(i).write(os);
}
os << '}';
break;
}
case TypeStruct:
{
os << '[';
ValueStruct::const_iterator it;
for (it=_value.asStruct->begin(); it!=_value.asStruct->end(); ++it)
{
if (it!=_value.asStruct->begin()) os << ',';
os << it->first << ':';
it->second.write(os);
}
os << ']';
break;
}
}
return os;
}
} // namespace XmlRpc
// ostream
std::ostream& operator<<(std::ostream& os, XmlRpc::XmlRpcValue& v)
{
// If you want to output in xml format:
//return os << v.toXml();
return v.write(os);
}

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// FileClient.cpp : A simple xmlrpc client. Usage: FileClient serverHost serverPort xmlfile
// Reads an xmlrpc request from the specified xmlfile and calls the method on the server.
//
// Link against xmlrpc lib and whatever socket libs your system needs (ws2_32.lib on windows)
#include "XmlRpc.h"
#include <iostream>
#include <fstream>
#include <stdlib.h>
using namespace XmlRpc;
std::string parseRequest(std::string const& xml, XmlRpcValue& params);
int main(int argc, char* argv[])
{
if (argc != 4) {
std::cerr << "Usage: FileClient serverHost serverPort requestXmlFile\n";
return -1;
}
int port = atoi(argv[2]);
XmlRpc::setVerbosity(5);
XmlRpcClient c(argv[1], port);
//
std::ifstream infile(argv[3]);
if (infile.fail()) {
std::cerr << "Could not open file '" << argv[3] << "'.\n";
return -1;
}
// Suck in the file. This is a one-liner in good compilers (which vc++ 6 is not)...
infile.seekg(0L, std::ios::end);
long nb = infile.tellg();
infile.clear();
infile.seekg(0L);
char* b = new char[nb+1];
infile.read(b, nb);
b[nb] = 0;
std::cout << "Read file.\n";
// Find the methodName and parse the params
std::string s(b);
XmlRpcValue params;
std::string name = parseRequest(s, params);
if (name.empty()) {
std::cerr << "Could not parse file\n";
return -1;
}
for (;;) {
XmlRpcValue result;
std::cout << "Calling " << name << std::endl;
if (c.execute(name.c_str(), params, result))
std::cout << result << "\n\n";
else
std::cout << "Error calling '" << name << "'\n\n";
std::cout << "Again? [y]: ";
std::string ans;
std::cin >> ans;
if (ans != "" && ans != "y") break;
}
return 0;
}
//
std::string
parseRequest(std::string const& xml, XmlRpcValue& params)
{
const char METHODNAME_TAG[] = "<methodName>";
const char PARAMS_TAG[] = "<params>";
const char PARAMS_ETAG[] = "</params>";
const char PARAM_TAG[] = "<param>";
const char PARAM_ETAG[] = "</param>";
int offset = 0; // Number of chars parsed from the request
std::string methodName = XmlRpcUtil::parseTag(METHODNAME_TAG, xml, &offset);
XmlRpcUtil::log(3, "XmlRpcServerConnection::parseRequest: parsed methodName %s.", methodName.c_str());
if (! methodName.empty() && XmlRpcUtil::findTag(PARAMS_TAG, xml, &offset))
{
int nArgs = 0;
while (XmlRpcUtil::nextTagIs(PARAM_TAG, xml, &offset)) {
std::cout << "Parsing arg " << nArgs+1 << std::endl;
XmlRpcValue arg(xml, &offset);
if ( ! arg.valid()) {
std::cerr << "Invalid argument\n";
return std::string();
}
std::cout << "Adding arg " << nArgs+1 << " to params array." << std::endl;
params[nArgs++] = arg;
(void) XmlRpcUtil::nextTagIs(PARAM_ETAG, xml, &offset);
}
XmlRpcUtil::log(3, "XmlRpcServerConnection::parseRequest: parsed %d params.", nArgs);
(void) XmlRpcUtil::nextTagIs(PARAMS_ETAG, xml, &offset);
}
return methodName;
}

96
test/FileClient.dsp Normal file
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@ -0,0 +1,96 @@
# Microsoft Developer Studio Project File - Name="FileClient" - Package Owner=<4>
# Microsoft Developer Studio Generated Build File, Format Version 6.00
# ** DO NOT EDIT **
# TARGTYPE "Win32 (x86) Console Application" 0x0103
CFG=FileClient - Win32 Debug
!MESSAGE This is not a valid makefile. To build this project using NMAKE,
!MESSAGE use the Export Makefile command and run
!MESSAGE
!MESSAGE NMAKE /f "FileClient.mak".
!MESSAGE
!MESSAGE You can specify a configuration when running NMAKE
!MESSAGE by defining the macro CFG on the command line. For example:
!MESSAGE
!MESSAGE NMAKE /f "FileClient.mak" CFG="FileClient - Win32 Debug"
!MESSAGE
!MESSAGE Possible choices for configuration are:
!MESSAGE
!MESSAGE "FileClient - Win32 Release" (based on "Win32 (x86) Console Application")
!MESSAGE "FileClient - Win32 Debug" (based on "Win32 (x86) Console Application")
!MESSAGE
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CPP=cl.exe
RSC=rc.exe
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# ADD LINK32 xmlrpc.lib Ws2_32.lib kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib /nologo /subsystem:console /debug /machine:I386 /pdbtype:sept /libpath:"..\Debug"
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# Name "FileClient - Win32 Debug"
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SOURCE=.\FileClient.cpp
# End Source File
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164
test/FileClient.vcproj Normal file
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@ -0,0 +1,164 @@
<?xml version="1.0" encoding = "Windows-1252"?>
<VisualStudioProject
ProjectType="Visual C++"
Version="7.00"
Name="FileClient"
ProjectGUID="{C3B49855-CD45-448E-991E-3E4C9B02F465}"
SccProjectName=""
SccLocalPath="">
<Platforms>
<Platform
Name="Win32"/>
</Platforms>
<Configurations>
<Configuration
Name="Release|Win32"
OutputDirectory=".\Release"
IntermediateDirectory=".\Release"
ConfigurationType="1"
UseOfMFC="0"
ATLMinimizesCRunTimeLibraryUsage="FALSE"
CharacterSet="2">
<Tool
Name="VCCLCompilerTool"
InlineFunctionExpansion="1"
AdditionalIncludeDirectories="..\src"
PreprocessorDefinitions="WIN32,NDEBUG,_CONSOLE,_WINDOWS"
StringPooling="TRUE"
RuntimeLibrary="2"
EnableFunctionLevelLinking="TRUE"
PrecompiledHeaderFile=".\Release/FileClient.pch"
AssemblerListingLocation=".\Release/"
ObjectFile=".\Release/"
ProgramDataBaseFileName=".\Release/"
WarningLevel="3"
SuppressStartupBanner="TRUE"
CompileAs="0"
AdditionalOptions="">
<IntelOptions
Optimization="2"
InlineFuncExpansion="1"
OmitFramePtrs="1"
StringPooling="1"
RuntimeLibrary="2"
BufferSecurityCheck="1"
FunctionLevelLinking="1"
AllOptions="/c /I &quot;..\src&quot; /nologo /W3 /O2 /Ob1 /Oy /D &quot;WIN32&quot; /D &quot;NDEBUG&quot; /D &quot;_CONSOLE&quot; /D &quot;_WINDOWS&quot; /D &quot;_MBCS&quot; /GF /FD /EHsc /MD /GS /Gy /Fp&quot;.\Release/FileClient.pch&quot; /Fo&quot;.\Release/&quot; /Fd&quot;.\Release/&quot; /Gd"
MSOriginalAdditionalOptions=""/>
</Tool>
<Tool
Name="VCCustomBuildTool"/>
<Tool
Name="VCLinkerTool"
AdditionalOptions="/MACHINE:I386"
AdditionalDependencies="xmlrpc.lib Ws2_32.lib odbc32.lib odbccp32.lib"
OutputFile=".\Release/FileClient.exe"
LinkIncremental="1"
SuppressStartupBanner="TRUE"
AdditionalLibraryDirectories="..\release"
ProgramDatabaseFile=".\Release/FileClient.pdb"
SubSystem="1">
<IntelOptions
AllOptions="/NOLOGO /OUT:&quot;.\Release/FileClient.exe&quot; /INCREMENTAL:NO /LIBPATH:&quot;..\release&quot; xmlrpc.lib Ws2_32.lib odbc32.lib odbccp32.lib /PDB:&quot;.\Release/FileClient.pdb&quot; /SUBSYSTEM:CONSOLE /TLBID:1 /MACHINE:I386 kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib"
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</Tool>
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PreprocessorDefinitions="NDEBUG"
Culture="1033"/>
<Tool
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<Tool
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<IntelOptions
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OutputFile=".\Debug/FileClient.exe"
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AdditionalLibraryDirectories="..\Debug"
GenerateDebugInformation="TRUE"
ProgramDatabaseFile=".\Debug/FileClient.pdb"
SubSystem="1">
<IntelOptions
AllOptions="/NOLOGO /OUT:&quot;.\Debug/FileClient.exe&quot; /INCREMENTAL /LIBPATH:&quot;..\Debug&quot; xmlrpc.lib Ws2_32.lib odbc32.lib odbccp32.lib /DEBUG /PDB:&quot;.\Debug/FileClient.pdb&quot; /SUBSYSTEM:CONSOLE /TLBID:1 /MACHINE:I386 kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib"
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Culture="1033"/>
<Tool
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<Tool
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</Configurations>
<Files>
<Filter
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Filter="cpp;c;cxx;rc;def;r;odl;idl;hpj;bat">
<File
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</Files>
<Globals/>
</VisualStudioProject>

85
test/HelloClient.cpp Normal file
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@ -0,0 +1,85 @@
// HelloClient.cpp : A simple xmlrpc client. Usage: HelloClient serverHost serverPort
// Link against xmlrpc lib and whatever socket libs your system needs (ws2_32.lib
// on windows)
#include "XmlRpc.h"
#include <iostream>
using namespace XmlRpc;
int main(int argc, char* argv[])
{
if (argc != 3) {
std::cerr << "Usage: HelloClient serverHost serverPort\n";
return -1;
}
int port = atoi(argv[2]);
//XmlRpc::setVerbosity(5);
// Use introspection API to look up the supported methods
XmlRpcClient c(argv[1], port);
XmlRpcValue noArgs, result;
if (c.execute("system.listMethods", noArgs, result))
std::cout << "\nMethods:\n " << result << "\n\n";
else
std::cout << "Error calling 'listMethods'\n\n";
// Use introspection API to get the help string for the Hello method
XmlRpcValue oneArg;
oneArg[0] = "Hello";
if (c.execute("system.methodHelp", oneArg, result))
std::cout << "Help for 'Hello' method: " << result << "\n\n";
else
std::cout << "Error calling 'methodHelp'\n\n";
// Call the Hello method
if (c.execute("Hello", noArgs, result))
std::cout << result << "\n\n";
else
std::cout << "Error calling 'Hello'\n\n";
// Call the HelloName method
oneArg[0] = "Chris";
if (c.execute("HelloName", oneArg, result))
std::cout << result << "\n\n";
else
std::cout << "Error calling 'HelloName'\n\n";
// Add up an array of numbers
XmlRpcValue numbers;
numbers[0] = 33.33;
numbers[1] = 112.57;
numbers[2] = 76.1;
std::cout << "numbers.size() is " << numbers.size() << std::endl;
if (c.execute("Sum", numbers, result))
std::cout << "Sum = " << double(result) << "\n\n";
else
std::cout << "Error calling 'Sum'\n\n";
// Test the "no such method" fault
if (c.execute("NoSuchMethod", numbers, result))
std::cout << "NoSuchMethod call: fault: " << c.isFault() << ", result = " << result << std::endl;
else
std::cout << "Error calling 'Sum'\n";
// Test the multicall method. It accepts one arg, an array of structs
XmlRpcValue multicall;
multicall[0][0]["methodName"] = "Sum";
multicall[0][0]["params"][0] = 5.0;
multicall[0][0]["params"][1] = 9.0;
multicall[0][1]["methodName"] = "NoSuchMethod";
multicall[0][1]["params"][0] = "";
multicall[0][2]["methodName"] = "Sum";
// Missing params
multicall[0][3]["methodName"] = "Sum";
multicall[0][3]["params"][0] = 10.5;
multicall[0][3]["params"][1] = 12.5;
if (c.execute("system.multicall", multicall, result))
std::cout << "\nmulticall result = " << result << std::endl;
else
std::cout << "\nError calling 'system.multicall'\n";
return 0;
}

96
test/HelloClient.dsp Normal file
View File

@ -0,0 +1,96 @@
# Microsoft Developer Studio Project File - Name="HelloClient" - Package Owner=<4>
# Microsoft Developer Studio Generated Build File, Format Version 6.00
# ** DO NOT EDIT **
# TARGTYPE "Win32 (x86) Console Application" 0x0103
CFG=HelloClient - Win32 Debug
!MESSAGE This is not a valid makefile. To build this project using NMAKE,
!MESSAGE use the Export Makefile command and run
!MESSAGE
!MESSAGE NMAKE /f "HelloClient.mak".
!MESSAGE
!MESSAGE You can specify a configuration when running NMAKE
!MESSAGE by defining the macro CFG on the command line. For example:
!MESSAGE
!MESSAGE NMAKE /f "HelloClient.mak" CFG="HelloClient - Win32 Debug"
!MESSAGE
!MESSAGE Possible choices for configuration are:
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# ADD LINK32 xmlrpc.lib Ws2_32.lib kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib /nologo /subsystem:console /debug /machine:I386 /pdbtype:sept /libpath:"..\Debug"
!ENDIF
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@ -0,0 +1,164 @@
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test/HelloServer.cpp Normal file
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@ -0,0 +1,82 @@
// HelloServer.cpp : Simple XMLRPC server example. Usage: HelloServer serverPort
//
#include "XmlRpc.h"
#include <iostream>
#include <stdlib.h>
using namespace XmlRpc;
// The server
XmlRpcServer s;
// No arguments, result is "Hello".
class Hello : public XmlRpcServerMethod
{
public:
Hello(XmlRpcServer* s) : XmlRpcServerMethod("Hello", s) {}
void execute(XmlRpcValue& params, XmlRpcValue& result)
{
result = "Hello";
}
std::string help() { return std::string("Say hello"); }
} hello(&s); // This constructor registers the method with the server
// One argument is passed, result is "Hello, " + arg.
class HelloName : public XmlRpcServerMethod
{
public:
HelloName(XmlRpcServer* s) : XmlRpcServerMethod("HelloName", s) {}
void execute(XmlRpcValue& params, XmlRpcValue& result)
{
std::string resultString = "Hello, ";
resultString += std::string(params[0]);
result = resultString;
}
} helloName(&s);
// A variable number of arguments are passed, all doubles, result is their sum.
class Sum : public XmlRpcServerMethod
{
public:
Sum(XmlRpcServer* s) : XmlRpcServerMethod("Sum", s) {}
void execute(XmlRpcValue& params, XmlRpcValue& result)
{
int nArgs = params.size();
double sum = 0.0;
for (int i=0; i<nArgs; ++i)
sum += double(params[i]);
result = sum;
}
} sum(&s);
int main(int argc, char* argv[])
{
if (argc != 2) {
std::cerr << "Usage: HelloServer serverPort\n";
return -1;
}
int port = atoi(argv[1]);
XmlRpc::setVerbosity(5);
// Create the server socket on the specified port
s.bindAndListen(port);
// Enable introspection
s.enableIntrospection(true);
// Wait for requests indefinitely
s.work(-1.0);
return 0;
}

96
test/HelloServer.dsp Normal file
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@ -0,0 +1,96 @@
# Microsoft Developer Studio Project File - Name="HelloServer" - Package Owner=<4>
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# ** DO NOT EDIT **
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# ADD LINK32 xmlrpc.lib Ws2_32.lib kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib /nologo /subsystem:console /debug /machine:I386 /pdbtype:sept /libpath:"..\Debug"
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164
test/HelloServer.vcproj Normal file
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@ -0,0 +1,164 @@
<?xml version="1.0" encoding = "Windows-1252"?>
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26
test/Makefile Normal file
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@ -0,0 +1,26 @@
# makefile written for gnu make
CXX = /usr/local/gcc-3.1/bin/g++
SRC = ../src
CPPFLAGS = -I$(SRC)
DEBUG = -g
#OPTIMIZE = -O2
GCCWARN = -Wall -Wstrict-prototypes
CXXFLAGS = $(DEBUG) $(GCCWARN) $(OPTIMIZE) $(INCLUDES)
LIB = ../libXmlRpc.a
# Add your system-dependent network libs here
# Solaris: -lsocket -lnsl
SYSTEMLIBS =
LDLIBS = $(SYSTEMLIBS) $(LIB)
TESTS = HelloClient HelloServer TestBase64Client TestBase64Server TestValues TestXml Validator
all: $(TESTS)
$(TESTS): $(LIB)
clean:
rm -f *.o
rm -f $(TESTS)

45
test/TestBase64Client.cpp Normal file
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@ -0,0 +1,45 @@
// TestBase64Client.cpp : A simple xmlrpc client that returns a png file
// encoded as base64 data to the client.
//
// Usage: TestBase64Client serverHost serverPort outputfile
// Requests a png file from the specified server and saves it in outputfile.
// Link against xmlrpc lib and whatever socket libs your system needs (ws2_32.lib on windows)
#include "XmlRpc.h"
#include <iostream>
#include <fstream>
#include <stdlib.h>
using namespace XmlRpc;
int main(int argc, char* argv[])
{
if (argc != 4) {
std::cerr << "Usage: TestBase64Client serverHost serverPort outputFile\n";
return -1;
}
int port = atoi(argv[2]);
//XmlRpc::setVerbosity(5);
XmlRpcClient c(argv[1], port);
XmlRpcValue noArgs, result;
if (c.execute("TestBase64", noArgs, result))
{
const XmlRpcValue::BinaryData& data = result;
std::ofstream outfile(argv[3], std::ios::binary | std::ios::trunc);
if (outfile.fail())
std::cerr << "Error opening " << argv[3] << " for output.\n";
else
{
int n = int(data.size());
for (int i=0; i<n; ++i)
outfile << data[i];
}
}
else
std::cout << "Error calling 'TestBase64'\n\n";
return 0;
}

96
test/TestBase64Client.dsp Normal file
View File

@ -0,0 +1,96 @@
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164
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68
test/TestBase64Server.cpp Normal file
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@ -0,0 +1,68 @@
// TestBase64Server.cpp : Simple XMLRPC server example. Usage: TestBase64Server serverPort
//
#if defined(_MSC_VER)
# pragma warning(disable:4786) // identifier was truncated in debug info
#endif
#include <iostream>
#include <fstream>
#include <algorithm>
#include <stdlib.h>
#include "XmlRpc.h"
using namespace XmlRpc;
// The server
XmlRpcServer s;
// No arguments, result is Base64-encoded pngnow.png data.
class TestBase64 : public XmlRpcServerMethod
{
public:
TestBase64(XmlRpcServer* s) : XmlRpcServerMethod("TestBase64", s) {}
void execute(XmlRpcValue& params, XmlRpcValue& result)
{
std::ifstream infile("pngnow.png", std::ios::binary);
if (infile.fail())
infile.open("../pngnow.png", std::ios::binary);
if (infile.fail())
result = "Could not open file pngnow.png";
else {
XmlRpcValue::BinaryData& data = result;
int n = 0;
for (;; ++n) {
char c = infile.get();
if (infile.eof()) break;
data.push_back(c);
}
std::cerr << "Read " << n << " bytes from pngnow.png\n";
}
}
} TestBase64(&s); // This constructor registers the method with the server
int main(int argc, char* argv[])
{
if (argc != 2) {
std::cerr << "Usage: TestBase64Server serverPort\n";
return -1;
}
int port = atoi(argv[1]);
//XmlRpc::setVerbosity(5);
// Create the server socket on the specified port
s.bindAndListen(port);
// Wait for requests indefinitely
s.work(-1.0);
return 0;
}

96
test/TestBase64Server.dsp Normal file
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@ -0,0 +1,96 @@
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164
test/TestBase64Server.vcproj Normal file
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test/TestValues.cpp Normal file
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// TestValues.cpp : Test XML encoding and decoding of XmlRpcValues.
#include <stdlib.h>
#include "XmlRpcValue.h"
#include <assert.h>
#include <iostream>
using namespace XmlRpc;
void testBoolean()
{
XmlRpcValue booleanFalse(false);
XmlRpcValue booleanTrue(true);
int offset = 0;
XmlRpcValue booleanFalseXml("<value><boolean>0</boolean></value>", &offset);
offset = 0;
XmlRpcValue booleanTrueXml("<value><boolean>1</boolean></value>", &offset);
assert(booleanFalse != booleanTrue);
assert(booleanFalse == booleanFalseXml);
assert(booleanFalse != booleanTrueXml);
if (bool(booleanFalse))
assert(false);
if ( ! bool(booleanTrue))
assert(false);
}
// Int
void testInt()
{
XmlRpcValue int0(0);
XmlRpcValue int1(1);
XmlRpcValue int10(10);
XmlRpcValue int_1(-1);
int offset = 0;
XmlRpcValue int0Xml("<value><int>0</int></value>", &offset);
offset = 0;
XmlRpcValue int9Xml("<value><i4>9</i4></value>", &offset);
assert(int0 == int0Xml);
assert(int(int10) - int(int1) == int(int9Xml));
assert(9 == int(int9Xml));
assert(int(int10) + int(int_1) == int(int9Xml));
}
void testDouble()
{
// Double
XmlRpcValue d(43.7);
int offset = 0;
XmlRpcValue dXml("<value><double>56.3</double></value>", &offset);
assert(double(d) + double(dXml) == 100.0); // questionable practice...
}
void testString()
{
// String
XmlRpcValue s("Now is the time <&");
char csxml[] = "<value><string>Now is the time &lt;&amp;</string></value>";
std::string ssxml = csxml;
int offset = 0;
XmlRpcValue vscXml(csxml, &offset);
offset = 0;
XmlRpcValue vssXml(ssxml, &offset);
assert(s == vscXml);
assert(s == vssXml);
offset = 0;
XmlRpcValue fromXml(vssXml.toXml(), &offset);
assert(s == fromXml);
// Empty or blank strings with no <string> tags
std::string emptyStringXml("<value></value>");
offset = 0;
XmlRpcValue emptyStringVal1(emptyStringXml, &offset);
XmlRpcValue emptyStringVal2("");
assert(emptyStringVal1 == emptyStringVal2);
emptyStringXml = "<value> </value>";
offset = 0;
XmlRpcValue blankStringVal(emptyStringXml, &offset);
assert(std::string(blankStringVal) == " ");
}
void testDateTime()
{
// DateTime
int offset = 0;
XmlRpcValue dateTime("<value><dateTime.iso8601>19040101T03:12:35</dateTime.iso8601></value>", &offset);
struct tm &t = dateTime;
assert(t.tm_year == 1904 && t.tm_min == 12);
}
void testArray(XmlRpcValue const& d)
{
// Array
XmlRpcValue a;
a.setSize(4);
a[0] = 1;
a[1] = std::string("two");
a[2] = 43.7;
a[3] = "four";
assert(int(a[0]) == 1);
assert(a[2] == d);
char csaXml[] =
"<value><array>\n"
" <data>\n"
" <value><i4>1</i4></value> \n"
" <value> <string>two</string></value>\n"
" <value><double>43.7</double></value>\n"
" <value>four</value>\n"
" </data>\n"
"</array></value>";
int offset = 0;
XmlRpcValue aXml(csaXml, &offset);
assert(a == aXml);
}
void testStruct()
{
// Struct
XmlRpcValue struct1;
struct1["i4"] = 1;
struct1["str"] = "two";
struct1["d"] = 43.7;
XmlRpcValue a;
a.setSize(4);
a[0] = 1;
a[1] = std::string("two");
a[2] = 43.7;
a[3] = "four";
assert(struct1["d"] == a[2]);
char csStructXml[] =
"<value><struct>\n"
" <member>\n"
" <name>i4</name> \n"
" <value><i4>1</i4></value> \n"
" </member>\n"
" <member>\n"
" <name>d</name> \n"
" <value><double>43.7</double></value>\n"
" </member>\n"
" <member>\n"
" <name>str</name> \n"
" <value> <string>two</string></value>\n"
" </member>\n"
"</struct></value>";
int offset = 0;
XmlRpcValue structXml(csStructXml, &offset);
assert(struct1 == structXml);
XmlRpcValue astruct;
astruct["array"] = a;
assert(astruct["array"][2] == struct1["d"]);
for (int i=0; i<10; i++) {
XmlRpcValue Event;
Event["Name"] = "string";
Event.clear();
const int NELMTS = 100;
int ii;
for (ii=0; ii< NELMTS; ++ii) {
char buf[40];
sprintf(buf,"%d", ii);
Event[std::string(buf)] = buf;
}
Event.clear();
for (ii=0; ii< NELMTS; ++ii) {
char buf[40];
sprintf(buf,"%d", ii);
if (ii != NELMTS/2)
Event[std::string(buf)] = ii;
else
for (int jj=0; jj< NELMTS; ++jj) {
char bufj[40];
sprintf(bufj,"%d", jj);
Event[std::string(buf)][std::string(bufj)] = bufj;
}
}
for (ii=0; ii< NELMTS; ++ii) {
char buf[40];
sprintf(buf,"%d", ii);
if (ii != NELMTS/2)
assert(Event[std::string(buf)] == XmlRpcValue(ii));
else
assert(Event[std::string(buf)].size() == NELMTS);
}
}
}
int main(int argc, char* argv[])
{
testBoolean();
testInt();
testDouble();
testString();
testDateTime();
testArray(43.7);
testStruct();
return 0;
}

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// TestValues.cpp : Test XML encoding and decoding of XmlRpcValues.
#define _CRTDBG_MAP_ALLOC
#include <stdlib.h>
#include <crtdbg.h>
#include "XmlRpcValue.h"
#include <assert.h>
#include <iostream>
using namespace XmlRpc;
void testBoolean()
{
XmlRpcValue booleanFalse(false);
XmlRpcValue booleanTrue(true);
int offset = 0;
XmlRpcValue booleanFalseXml("<value><boolean>0</boolean></value>", &offset);
offset = 0;
XmlRpcValue booleanTrueXml("<value><boolean>1</boolean></value>", &offset);
assert(booleanFalse != booleanTrue);
assert(booleanFalse == booleanFalseXml);
assert(booleanFalse == booleanFalseXml);
if (booleanFalse)
assert(false);
if (booleanTrue)
assert( ! false);
else
assert(false);
}
// Int
void testInt()
{
XmlRpcValue int0(0);
XmlRpcValue int1(1);
XmlRpcValue int10(10);
XmlRpcValue int_1(-1);
int offset = 0;
XmlRpcValue int0Xml("<value><int>0</int></value>", &offset);
offset = 0;
XmlRpcValue int9Xml("<value><i4>9</i4></value>", &offset);
assert(int0 == int0Xml);
assert(int(int10) - int(int1) == int(int9Xml));
assert(9 == int(int9Xml));
assert(int(int10) + int(int_1) == int(int9Xml));
}
void testDouble()
{
// Double
XmlRpcValue d(43.7);
int offset = 0;
XmlRpcValue dXml("<value><double>56.3</double></value>", &offset);
assert(double(d) + double(dXml) == 100.0); // questionable practice...
}
void testString()
{
// String
XmlRpcValue s("Now is the time <&");
char csxml[] = "<value><string>Now is the time &lt;&amp;</string></value>";
std::string ssxml = csxml;
int offset = 0;
XmlRpcValue vscXml(csxml, &offset);
offset = 0;
XmlRpcValue vssXml(ssxml, &offset);
assert(s == vscXml);
assert(s == vssXml);
offset = 0;
XmlRpcValue fromXml(vssXml.toXml(), &offset);
assert(s == fromXml);
// Empty or blank strings with no <string> tags
std::string emptyStringXml("<value></value>");
offset = 0;
XmlRpcValue emptyStringVal1(emptyStringXml, &offset);
XmlRpcValue emptyStringVal2("");
assert(emptyStringVal1 == emptyStringVal2);
emptyStringXml = "<value> </value>";
offset = 0;
XmlRpcValue blankStringVal(emptyStringXml, &offset);
assert(std::string(blankStringVal) == " ");
}
void testDateTime()
{
// DateTime
int offset = 0;
XmlRpcValue dateTime("<value><dateTime.iso8601>19040101T03:12:35</dateTime.iso8601></value>", &offset);
struct tm &t = dateTime;
assert(t.tm_year == 1904 && t.tm_min == 12);
}
void testArray(XmlRpcValue const& d)
{
// Array
XmlRpcValue a;
a.setSize(4);
a[0] = 1;
a[1] = std::string("two");
a[2] = 43.7;
a[3] = "four";
assert(int(a[0]) == 1);
assert(a[2] == d);
char csaXml[] =
"<value><array>\n"
" <data>\n"
" <value><i4>1</i4></value> \n"
" <value> <string>two</string></value>\n"
" <value><double>43.7</double></value>\n"
" <value>four</value>\n"
" </data>\n"
"</array></value>";
int offset = 0;
XmlRpcValue aXml(csaXml, &offset);
assert(a == aXml);
}
void testStruct()
{
// Struct
XmlRpcValue struct1;
struct1["i4"] = 1;
struct1["str"] = "two";
struct1["d"] = 43.7;
XmlRpcValue a;
a.setSize(4);
a[0] = 1;
a[1] = std::string("two");
a[2] = 43.7;
a[3] = "four";
assert(struct1["d"] == a[2]);
char csStructXml[] =
"<value><struct>\n"
" <member>\n"
" <name>i4</name> \n"
" <value><i4>1</i4></value> \n"
" </member>\n"
" <member>\n"
" <name>d</name> \n"
" <value><double>43.7</double></value>\n"
" </member>\n"
" <member>\n"
" <name>str</name> \n"
" <value> <string>two</string></value>\n"
" </member>\n"
"</struct></value>";
int offset = 0;
XmlRpcValue structXml(csStructXml, &offset);
assert(struct1 == structXml);
XmlRpcValue astruct;
astruct["array"] = a;
assert(astruct["array"][2] == struct1["d"]);
for (int i=0; i<10; i++) {
XmlRpcValue Event;
Event["Name"] = "string";
Event.clear();
const int NELMTS = 100;
int ii;
for (ii=0; ii< NELMTS; ++ii) {
char buf[40];
sprintf(buf,"%d", ii);
Event[buf] = buf;
}
Event.clear();
for (ii=0; ii< NELMTS; ++ii) {
char buf[40];
sprintf(buf,"%d", ii);
if (ii != NELMTS/2)
Event[buf] = ii;
else
for (int jj=0; jj< NELMTS; ++jj) {
char bufj[40];
sprintf(bufj,"%d", jj);
Event[buf][bufj] = bufj;
}
}
for (ii=0; ii< NELMTS; ++ii) {
char buf[40];
sprintf(buf,"%d", ii);
if (ii != NELMTS/2)
assert(Event[buf] == XmlRpcValue(ii));
else
assert(Event[buf].size() == NELMTS);
}
}
}
int main(int argc, char* argv[])
{
_CrtDumpMemoryLeaks();
_CrtCheckMemory( );
testBoolean();
_CrtDumpMemoryLeaks();
_CrtCheckMemory( );
testInt();
_CrtDumpMemoryLeaks();
_CrtCheckMemory( );
testDouble();
_CrtDumpMemoryLeaks();
_CrtCheckMemory( );
testString();
_CrtDumpMemoryLeaks();
_CrtCheckMemory( );
testDateTime();
_CrtDumpMemoryLeaks();
_CrtCheckMemory( );
testArray(43.7);
_CrtDumpMemoryLeaks();
_CrtCheckMemory( );
testStruct();
_CrtDumpMemoryLeaks();
_CrtCheckMemory( );
return 0;
}

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// TestXml.cpp : Test XML encoding and decoding.
// The characters <>&'" are illegal in xml and must be encoded.
#define WIN32_LEAN_AND_MEAN // Exclude rarely-used stuff from Windows headers
#include <iostream>
// If you are using MSVC++6, you should update <string> to fix
// BUG: getline Template Function Reads Extra Character
#include <string>
#include <assert.h>
#include <stdlib.h>
#include "XmlRpcUtil.h"
using namespace XmlRpc;
int main(int argc, char* argv[])
{
// Basic tests
std::string empty;
assert(empty == XmlRpcUtil::xmlEncode(empty));
assert(empty == XmlRpcUtil::xmlDecode(empty));
assert(empty == XmlRpcUtil::xmlEncode(""));
assert(empty == XmlRpcUtil::xmlDecode(""));
std::string raw("<>&'\"");
assert(XmlRpcUtil::xmlDecode(XmlRpcUtil::xmlEncode(raw)) == raw);
std::cout << "Basic tests passed.\n";
// Interactive tests
std::string s;
for (;;) {
std::cout << "\nEnter line of raw text to encode:\n";
std::getline(std::cin, s);
if (s.empty()) break;
std::cout << XmlRpcUtil::xmlEncode(s) << std::endl;
}
for (;;) {
std::cout << "\nEnter line of xml-encoded text to decode:\n";
std::getline(std::cin, s);
if (s.empty()) break;
std::cout << XmlRpcUtil::xmlDecode(s) << std::endl;
}
return 0;
}

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test/Validator.cpp Normal file
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@ -0,0 +1,207 @@
// Validator.cpp : XMLRPC server based on the compliancy test at validator.xmlrpc.com.
//
#include "XmlRpc.h"
using namespace XmlRpc;
#include <iostream>
XmlRpcServer s;
// One argument is passed, an array of structs, each with a member named curly with
// an integer value. Return the sum of those values.
class ArrayOfStructsTest : public XmlRpcServerMethod
{
public:
ArrayOfStructsTest(XmlRpcServer* s) : XmlRpcServerMethod("validator1.arrayOfStructsTest", s) {}
void execute(XmlRpcValue& params, XmlRpcValue& result)
{
std::cerr << "ArrayOfStructsTest\n";
XmlRpcValue& arg1 = params[0];
int n = arg1.size(), sum = 0;
for (int i=0; i<n; ++i)
sum += int(arg1[i]["curly"]);
result = sum;
}
} arrayOfStructsTest(&s);
// This handler takes a single parameter, a string, that contains any number of predefined
// entities, namely <, >, &, ' and ".
// The handler must return a struct that contains five fields, all numbers: ctLeftAngleBrackets,
// ctRightAngleBrackets, ctAmpersands, ctApostrophes, ctQuotes.
// To validate, the numbers must be correct.
class CountTheEntities : public XmlRpcServerMethod
{
public:
CountTheEntities(XmlRpcServer* s) : XmlRpcServerMethod("validator1.countTheEntities", s) {}
void execute(XmlRpcValue& params, XmlRpcValue& result)
{
std::cerr << "CountTheEntities\n";
std::string& arg = params[0];
int ctLeftAngleBrackets = 0;
int ctRightAngleBrackets = 0;
int ctAmpersands = 0;
int ctApostrophes = 0;
int ctQuotes = 0;
int n = int(arg.length());
for (int i=0; i<n; ++i)
switch (arg[i])
{
case '<': ++ctLeftAngleBrackets; break;
case '>': ++ctRightAngleBrackets; break;
case '&': ++ctAmpersands; break;
case '\'': ++ctApostrophes; break;
case '\"': ++ctQuotes; break;
}
result["ctLeftAngleBrackets"] = ctLeftAngleBrackets;
result["ctRightAngleBrackets"] = ctRightAngleBrackets;
result["ctAmpersands"] = ctAmpersands;
result["ctApostrophes"] = ctApostrophes;
result["ctQuotes"] = ctQuotes;
}
} countTheEntities(&s);
// This handler takes a single parameter, a struct, containing at least three elements
// named moe, larry and curly, all <i4>s. Your handler must add the three numbers and
// return the result.
class EasyStructTest : public XmlRpcServerMethod
{
public:
EasyStructTest(XmlRpcServer* s) : XmlRpcServerMethod("validator1.easyStructTest", s) {}
void execute(XmlRpcValue& params, XmlRpcValue& result)
{
std::cerr << "EasyStructTest\n";
XmlRpcValue& arg1 = params[0];
int sum = int(arg1["moe"]) + int(arg1["larry"]) + int(arg1["curly"]);
result = sum;
}
} easyStructTest(&s);
// This handler takes a single parameter, a struct. Your handler must return the struct.
class EchoStructTest : public XmlRpcServerMethod
{
public:
EchoStructTest(XmlRpcServer* s) : XmlRpcServerMethod("validator1.echoStructTest", s) {}
void execute(XmlRpcValue& params, XmlRpcValue& result)
{
std::cerr << "EchoStructTest\n";
result = params[0];
}
} echoStructTest(&s);
// This handler takes six parameters, and returns an array containing all the parameters.
class ManyTypesTest : public XmlRpcServerMethod
{
public:
ManyTypesTest(XmlRpcServer* s) : XmlRpcServerMethod("validator1.manyTypesTest", s) {}
void execute(XmlRpcValue& params, XmlRpcValue& result)
{
std::cerr << "ManyTypesTest\n";
result = params;
}
} manyTypesTest(&s);
// This handler takes a single parameter, which is an array containing between 100 and
// 200 elements. Each of the items is a string, your handler must return a string
// containing the concatenated text of the first and last elements.
class ModerateSizeArrayCheck : public XmlRpcServerMethod
{
public:
ModerateSizeArrayCheck(XmlRpcServer* s) : XmlRpcServerMethod("validator1.moderateSizeArrayCheck", s) {}
void execute(XmlRpcValue& params, XmlRpcValue& result)
{
std::cerr << "ModerateSizeArrayCheck\n";
std::string s = params[0][0];
s += params[0][params[0].size()-1];
result = s;
}
} moderateSizeArrayCheck(&s);
// This handler takes a single parameter, a struct, that models a daily calendar.
// At the top level, there is one struct for each year. Each year is broken down
// into months, and months into days. Most of the days are empty in the struct
// you receive, but the entry for April 1, 2000 contains a least three elements
// named moe, larry and curly, all <i4>s. Your handler must add the three numbers
// and return the result.
class NestedStructTest : public XmlRpcServerMethod
{
public:
NestedStructTest(XmlRpcServer* s) : XmlRpcServerMethod("validator1.nestedStructTest", s) {}
void execute(XmlRpcValue& params, XmlRpcValue& result)
{
std::cerr << "NestedStructTest\n";
XmlRpcValue& dayStruct = params[0]["2000"]["04"]["01"];
int sum = int(dayStruct["moe"]) + int(dayStruct["larry"]) + int(dayStruct["curly"]);
result = sum;
}
} nestedStructTest(&s);
// This handler takes one parameter, and returns a struct containing three elements,
// times10, times100 and times1000, the result of multiplying the number by 10, 100 and 1000.
class SimpleStructReturnTest : public XmlRpcServerMethod
{
public:
SimpleStructReturnTest(XmlRpcServer* s) : XmlRpcServerMethod("validator1.simpleStructReturnTest", s) {}
void execute(XmlRpcValue& params, XmlRpcValue& result)
{
std::cerr << "SimpleStructReturnTest\n";
int n = params[0];
result["times10"] = n * 10;
result["times100"] = n * 100;
result["times1000"] = n * 1000;
}
} simpleStructReturnTest(&s);
int main(int argc, char* argv[])
{
if (argc != 2) {
std::cerr << "Usage: Validator port\n";
return -1;
}
int port = atoi(argv[1]);
XmlRpc::setVerbosity(5);
// Create the server socket on the specified port
s.bindAndListen(port);
// Wait for requests indefinitely
s.work(-1.0);
return 0;
}

95
test/Validator.dsp Normal file
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@ -0,0 +1,95 @@
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OutputDirectory=".\Debug"
IntermediateDirectory=".\Debug"
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ATLMinimizesCRunTimeLibraryUsage="FALSE"
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Name="VCCLCompilerTool"
Optimization="0"
AdditionalIncludeDirectories="..\src"
PreprocessorDefinitions="WIN32,_DEBUG,_CONSOLE,_WINDOWS"
BasicRuntimeChecks="3"
RuntimeLibrary="3"
PrecompiledHeaderFile=".\Debug/Validator.pch"
AssemblerListingLocation=".\Debug/"
ObjectFile=".\Debug/"
ProgramDataBaseFileName=".\Debug/"
WarningLevel="3"
SuppressStartupBanner="TRUE"
DebugInformationFormat="4"
CompileAs="0"
AdditionalOptions="">
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RuntimeLibrary="3"
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MSOriginalAdditionalOptions=""/>
</Tool>
<Tool
Name="VCCustomBuildTool"/>
<Tool
Name="VCLinkerTool"
AdditionalOptions="/MACHINE:I386"
AdditionalDependencies="xmlrpc.lib WS2_32.lib odbc32.lib odbccp32.lib"
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SuppressStartupBanner="TRUE"
AdditionalLibraryDirectories="..\debug"
GenerateDebugInformation="TRUE"
ProgramDatabaseFile=".\Debug/Validator.pdb"
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255
test/arrayOfStructsTest.xml Normal file
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<?xml version="1.0"?>
<methodCall>
<methodName>validator1.arrayOfStructsTest</methodName>
<params>
<param>
<value><array>
<data>
<value>
<struct>
<member>
<name>curly</name>
<value>
<i4>-84</i4>
</value>
</member>
<member>
<name>larry</name>
<value>
<i4>87</i4>
</value>
</member>
<member>
<name>moe</name>
<value>
<i4>77</i4>
</value>
</member>
</struct>
</value>
<value>
<struct>
<member>
<name>curly</name>
<value>
<i4>-46</i4>
</value>
</member>
<member>
<name>larry</name>
<value>
<i4>27</i4>
</value>
</member>
<member>
<name>moe</name>
<value>
<i4>33</i4>
</value>
</member>
</struct>
</value>
<value>
<struct>
<member>
<name>curly</name>
<value>
<i4>-70</i4>
</value>
</member>
<member>
<name>larry</name>
<value>
<i4>89</i4>
</value>
</member>
<member>
<name>moe</name>
<value>
<i4>30</i4>
</value>
</member>
</struct>
</value>
<value>
<struct>
<member>
<name>curly</name>
<value>
<i4>-90</i4>
</value>
</member>
<member>
<name>larry</name>
<value>
<i4>42</i4>
</value>
</member>
<member>
<name>moe</name>
<value>
<i4>6</i4>
</value>
</member>
</struct>
</value>
<value>
<struct>
<member>
<name>curly</name>
<value>
<i4>-28</i4>
</value>
</member>
<member>
<name>larry</name>
<value>
<i4>96</i4>
</value>
</member>
<member>
<name>moe</name>
<value>
<i4>92</i4>
</value>
</member>
</struct>
</value>
<value>
<struct>
<member>
<name>curly</name>
<value>
<i4>-31</i4>
</value>
</member>
<member>
<name>larry</name>
<value>
<i4>81</i4>
</value>
</member>
<member>
<name>moe</name>
<value>
<i4>85</i4>
</value>
</member>
</struct>
</value>
<value>
<struct>
<member>
<name>curly</name>
<value>
<i4>-18</i4>
</value>
</member>
<member>
<name>larry</name>
<value>
<i4>62</i4>
</value>
</member>
<member>
<name>moe</name>
<value>
<i4>9</i4>
</value>
</member>
</struct>
</value>
<value>
<struct>
<member>
<name>curly</name>
<value>
<i4>-98</i4>
</value>
</member>
<member>
<name>larry</name>
<value>
<i4>79</i4>
</value>
</member>
<member>
<name>moe</name>
<value>
<i4>66</i4>
</value>
</member>
</struct>
</value>
<value>
<struct>
<member>
<name>curly</name>
<value>
<i4>-3</i4>
</value>
</member>
<member>
<name>larry</name>
<value>
<i4>59</i4>
</value>
</member>
<member>
<name>moe</name>
<value>
<i4>80</i4>
</value>
</member>
</struct>
</value>
<value>
<struct>
<member>
<name>curly</name>
<value>
<i4>-83</i4>
</value>
</member>
<member>
<name>larry</name>
<value>
<i4>27</i4>
</value>
</member>
<member>
<name>moe</name>
<value>
<i4>19</i4>
</value>
</member>
</struct>
</value>
<value>
<struct>
<member>
<name>curly</name>
<value>
<i4>-85</i4>
</value>
</member>
<member>
<name>larry</name>
<value>
<i4>4</i4>
</value>
</member>
<member>
<name>moe</name>
<value>
<i4>16</i4>
</value>
</member>
</struct>
</value>
</data>
</array></value>
</param>
</params>
</methodCall>

10
test/countTheEntities.xml Normal file
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<?xml version="1.0"?>
<methodCall>
<methodName>validator1.countTheEntities</methodName>
<params>
<param>
<value>&'<p"dgt"&>'<&"'<s>>ehv<j><>iu'<<<y"'>qo>"z"f<l&'"akn<&r'c'wbm&&x''</value>
</param>
</params>
</methodCall>

29
test/easyStructTest.xml Normal file
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@ -0,0 +1,29 @@
<?xml version="1.0"?>
<methodCall>
<methodName>validator1.easyStructTest</methodName>
<params>
<param>
<value><struct>
<member>
<name>curly</name>
<value>
<i4>-78</i4>
</value>
</member>
<member>
<name>larry</name>
<value>
<i4>23</i4>
</value>
</member>
<member>
<name>moe</name>
<value>
<i4>38</i4>
</value>
</member>
</struct></value>
</param>
</params>
</methodCall>

9
test/echo.xml Normal file
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@ -0,0 +1,9 @@
<?xml version="1.0"?>
<methodCall>
<methodName>echo</methodName>
<params>
<param><value><string>Hello Chris</string></value></param>
<param><value><i4>123</i4></value></param>
</params>
</methodCall>

261
test/echoStructTest.xml Normal file
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@ -0,0 +1,261 @@
<?xml version="1.0"?>
<methodCall>
<methodName>validator1.echoStructTest</methodName>
<params>
<param>
<value><struct>
<member>
<name>substruct0</name>
<value>
<struct>
<member>
<name>curly</name>
<value>
<i4>-76</i4>
</value>
</member>
<member>
<name>larry</name>
<value>
<i4>31</i4>
</value>
</member>
<member>
<name>moe</name>
<value>
<i4>44</i4>
</value>
</member>
</struct>
</value>
</member>
<member>
<name>substruct1</name>
<value>
<struct>
<member>
<name>curly</name>
<value>
<i4>-9</i4>
</value>
</member>
<member>
<name>larry</name>
<value>
<i4>42</i4>
</value>
</member>
<member>
<name>moe</name>
<value>
<i4>57</i4>
</value>
</member>
</struct>
</value>
</member>
<member>
<name>substruct2</name>
<value>
<struct>
<member>
<name>curly</name>
<value>
<i4>-15</i4>
</value>
</member>
<member>
<name>larry</name>
<value>
<i4>69</i4>
</value>
</member>
<member>
<name>moe</name>
<value>
<i4>78</i4>
</value>
</member>
</struct>
</value>
</member>
<member>
<name>substruct3</name>
<value>
<struct>
<member>
<name>curly</name>
<value>
<i4>-91</i4>
</value>
</member>
<member>
<name>larry</name>
<value>
<i4>66</i4>
</value>
</member>
<member>
<name>moe</name>
<value>
<i4>4</i4>
</value>
</member>
</struct>
</value>
</member>
<member>
<name>substruct4</name>
<value>
<struct>
<member>
<name>curly</name>
<value>
<i4>-47</i4>
</value>
</member>
<member>
<name>larry</name>
<value>
<i4>66</i4>
</value>
</member>
<member>
<name>moe</name>
<value>
<i4>8</i4>
</value>
</member>
</struct>
</value>
</member>
<member>
<name>substruct5</name>
<value>
<struct>
<member>
<name>curly</name>
<value>
<i4>-68</i4>
</value>
</member>
<member>
<name>larry</name>
<value>
<i4>26</i4>
</value>
</member>
<member>
<name>moe</name>
<value>
<i4>87</i4>
</value>
</member>
</struct>
</value>
</member>
<member>
<name>substruct6</name>
<value>
<struct>
<member>
<name>curly</name>
<value>
<i4>-59</i4>
</value>
</member>
<member>
<name>larry</name>
<value>
<i4>20</i4>
</value>
</member>
<member>
<name>moe</name>
<value>
<i4>74</i4>
</value>
</member>
</struct>
</value>
</member>
<member>
<name>substruct7</name>
<value>
<struct>
<member>
<name>curly</name>
<value>
<i4>-57</i4>
</value>
</member>
<member>
<name>larry</name>
<value>
<i4>30</i4>
</value>
</member>
<member>
<name>moe</name>
<value>
<i4>75</i4>
</value>
</member>
</struct>
</value>
</member>
<member>
<name>substruct8</name>
<value>
<struct>
<member>
<name>curly</name>
<value>
<i4>-34</i4>
</value>
</member>
<member>
<name>larry</name>
<value>
<i4>33</i4>
</value>
</member>
<member>
<name>moe</name>
<value>
<i4>30</i4>
</value>
</member>
</struct>
</value>
</member>
<member>
<name>substruct9</name>
<value>
<struct>
<member>
<name>curly</name>
<value>
<i4>-64</i4>
</value>
</member>
<member>
<name>larry</name>
<value>
<i4>98</i4>
</value>
</member>
<member>
<name>moe</name>
<value>
<i4>17</i4>
</value>
</member>
</struct>
</value>
</member>
</struct></value>
</param>
</params>
</methodCall>

1
test/pngnow.png Normal file
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‰PNG