#include "XmlRpcValue.h"
#include "XmlRpcException.h"
#include "XmlRpcUtil.h"
#include "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 NIL_TAG[] = "<nil/>";
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 == t1.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 == NIL_TAG)
result = nilFromXml(valueXml, offset);
else 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 TypeNil: return nilToXml();
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
}
// Nil
bool XmlRpcValue::nilFromXml(std::string const& /* valueXml */, int* /* offset */)
{
_type = TypeNil;
_value.asBinary = 0;
return true;
}
std::string XmlRpcValue::nilToXml() const
{
std::string xml = VALUE_TAG;
xml += NIL_TAG;
xml += VALUE_ETAG;
return xml;
}
// 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);
}