/usr/include/qpid/framing/FieldValue.h is in libqpidcommon2-dev 0.14-2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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#define _framing_FieldValue_h
/*
*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*
*/
#include "qpid/Exception.h"
#include "qpid/framing/amqp_types.h"
#include "qpid/framing/Buffer.h"
#include "qpid/framing/FieldTable.h"
#include "qpid/CommonImportExport.h"
#include <iostream>
#include <memory>
#include <vector>
#include <assert.h>
namespace qpid {
namespace framing {
/**
* Exception that is the base exception for all field table errors.
*
* \ingroup clientapi
*/
class QPID_COMMON_CLASS_EXTERN FieldValueException : public qpid::Exception {};
/**
* Exception thrown when we can't perform requested conversion
*
* \ingroup clientapi
*/
struct QPID_COMMON_CLASS_EXTERN InvalidConversionException : public FieldValueException {
InvalidConversionException() {}
};
class List;
/**
* Value that can appear in an AMQP field table
*
* \ingroup clientapi
*/
class QPID_COMMON_CLASS_EXTERN FieldValue {
public:
/*
* Abstract type for content of different types
*/
class Data {
public:
virtual ~Data() {};
virtual uint32_t encodedSize() const = 0;
virtual void encode(Buffer& buffer) = 0;
virtual void decode(Buffer& buffer) = 0;
virtual bool operator==(const Data&) const = 0;
virtual bool convertsToInt() const { return false; }
virtual bool convertsToString() const { return false; }
virtual int64_t getInt() const { throw InvalidConversionException();}
virtual std::string getString() const { throw InvalidConversionException(); }
virtual void print(std::ostream& out) const = 0;
};
FieldValue(): data(0) {};
// Default assignment operator is fine
void setType(uint8_t type);
QPID_COMMON_EXTERN uint8_t getType() const;
Data& getData() { return *data; }
uint32_t encodedSize() const { return 1 + data->encodedSize(); };
bool empty() const { return data.get() == 0; }
void encode(Buffer& buffer);
void decode(Buffer& buffer);
QPID_COMMON_EXTERN bool operator==(const FieldValue&) const;
QPID_COMMON_INLINE_EXTERN bool operator!=(const FieldValue& v) const { return !(*this == v); }
QPID_COMMON_EXTERN void print(std::ostream& out) const;
template <typename T> bool convertsTo() const { return false; }
template <typename T> T get() const { throw InvalidConversionException(); }
template <class T, int W> T getIntegerValue() const;
template <class T> T getIntegerValue() const;
template <class T, int W> T getFloatingPointValue() const;
template <int W> void getFixedWidthValue(unsigned char*) const;
template <class T> bool get(T&) const;
protected:
FieldValue(uint8_t t, Data* d): typeOctet(t), data(d) {}
QPID_COMMON_EXTERN static uint8_t* convertIfRequired(uint8_t* const octets, int width);
private:
uint8_t typeOctet;
std::auto_ptr<Data> data;
};
template <>
inline bool FieldValue::convertsTo<int>() const { return data->convertsToInt(); }
template <>
inline bool FieldValue::convertsTo<int64_t>() const { return data->convertsToInt(); }
template <>
inline bool FieldValue::convertsTo<std::string>() const { return data->convertsToString(); }
template <>
inline int FieldValue::get<int>() const { return static_cast<int>(data->getInt()); }
template <>
inline int64_t FieldValue::get<int64_t>() const { return data->getInt(); }
template <>
inline std::string FieldValue::get<std::string>() const { return data->getString(); }
inline std::ostream& operator<<(std::ostream& out, const FieldValue& v) {
v.print(out);
return out;
}
template <int width>
class FixedWidthValue : public FieldValue::Data {
uint8_t octets[width];
public:
FixedWidthValue() {}
FixedWidthValue(const uint8_t (&data)[width]) : octets(data) {}
FixedWidthValue(const uint8_t* const data)
{
for (int i = 0; i < width; i++) octets[i] = data[i];
}
FixedWidthValue(uint64_t v)
{
for (int i = width; i > 1; --i) {
octets[i-1] = (uint8_t) (0xFF & v); v >>= 8;
}
octets[0] = (uint8_t) (0xFF & v);
}
uint32_t encodedSize() const { return width; }
void encode(Buffer& buffer) { buffer.putRawData(octets, width); }
void decode(Buffer& buffer) { buffer.getRawData(octets, width); }
bool operator==(const Data& d) const {
const FixedWidthValue<width>* rhs = dynamic_cast< const FixedWidthValue<width>* >(&d);
if (rhs == 0) return false;
else return std::equal(&octets[0], &octets[width], &rhs->octets[0]);
}
bool convertsToInt() const { return true; }
int64_t getInt() const
{
int64_t v = 0;
for (int i = 0; i < width-1; ++i) {
v |= octets[i]; v <<= 8;
}
v |= octets[width-1];
return v;
}
uint8_t* rawOctets() { return octets; }
uint8_t* rawOctets() const { return octets; }
void print(std::ostream& o) const { o << "F" << width << ":"; };
};
template <class T, int W>
inline T FieldValue::getIntegerValue() const
{
FixedWidthValue<W>* const fwv = dynamic_cast< FixedWidthValue<W>* const>(data.get());
if (fwv) {
uint8_t* octets = fwv->rawOctets();
T v = 0;
for (int i = 0; i < W-1; ++i) {
v |= octets[i]; v <<= 8;
}
v |= octets[W-1];
return v;
} else {
throw InvalidConversionException();
}
}
template <class T>
inline T FieldValue::getIntegerValue() const
{
FixedWidthValue<1>* const fwv = dynamic_cast< FixedWidthValue<1>* const>(data.get());
if (fwv) {
uint8_t* octets = fwv->rawOctets();
return octets[0];
} else {
throw InvalidConversionException();
}
}
template <class T, int W>
inline T FieldValue::getFloatingPointValue() const {
FixedWidthValue<W>* const fwv = dynamic_cast< FixedWidthValue<W>* const>(data.get());
if (fwv) {
T value;
uint8_t* const octets = convertIfRequired(fwv->rawOctets(), W);
uint8_t* const target = reinterpret_cast<uint8_t*>(&value);
for (size_t i = 0; i < W; ++i) target[i] = octets[i];
return value;
} else {
throw InvalidConversionException();
}
}
template <int W> void FieldValue::getFixedWidthValue(unsigned char* value) const
{
FixedWidthValue<W>* const fwv = dynamic_cast< FixedWidthValue<W>* const>(data.get());
if (fwv) {
for (size_t i = 0; i < W; ++i) value[i] = fwv->rawOctets()[i];
} else {
throw InvalidConversionException();
}
}
template <>
inline float FieldValue::get<float>() const {
return getFloatingPointValue<float, 4>();
}
template <>
inline double FieldValue::get<double>() const {
return getFloatingPointValue<double, 8>();
}
template <>
class FixedWidthValue<0> : public FieldValue::Data {
public:
// Implicit default constructor is fine
uint32_t encodedSize() const { return 0; }
void encode(Buffer&) {};
void decode(Buffer&) {};
bool operator==(const Data& d) const {
const FixedWidthValue<0>* rhs = dynamic_cast< const FixedWidthValue<0>* >(&d);
return rhs != 0;
}
void print(std::ostream& o) const { o << "F0"; };
};
template <int lenwidth>
class VariableWidthValue : public FieldValue::Data {
std::vector<uint8_t> octets;
public:
VariableWidthValue() {}
VariableWidthValue(const std::vector<uint8_t>& data) : octets(data) {}
VariableWidthValue(const uint8_t* start, const uint8_t* end) : octets(start, end) {}
uint32_t encodedSize() const { return lenwidth + octets.size(); }
void encode(Buffer& buffer) {
buffer.putUInt<lenwidth>(octets.size());
if (octets.size() > 0)
buffer.putRawData(&octets[0], octets.size());
};
void decode(Buffer& buffer) {
uint32_t len = buffer.getUInt<lenwidth>();
octets.resize(len);
if (len > 0)
buffer.getRawData(&octets[0], len);
}
bool operator==(const Data& d) const {
const VariableWidthValue<lenwidth>* rhs = dynamic_cast< const VariableWidthValue<lenwidth>* >(&d);
if (rhs == 0) return false;
else return octets==rhs->octets;
}
bool convertsToString() const { return true; }
std::string getString() const { return std::string(octets.begin(), octets.end()); }
void print(std::ostream& o) const { o << "V" << lenwidth << ":" << octets.size() << ":"; };
};
template <class T>
class EncodedValue : public FieldValue::Data {
T value;
public:
EncodedValue() {}
EncodedValue(const T& v) : value(v) {}
T& getValue() { return value; }
const T& getValue() const { return value; }
uint32_t encodedSize() const { return value.encodedSize(); }
void encode(Buffer& buffer) {
value.encode(buffer);
};
void decode(Buffer& buffer) {
value.decode(buffer);
}
bool operator==(const Data& d) const {
const EncodedValue<T>* rhs = dynamic_cast< const EncodedValue<T>* >(&d);
if (rhs == 0) return false;
else return value==rhs->value;
}
void print(std::ostream& o) const { o << "[" << value << "]"; };
};
/**
* Accessor that can be used to get values of type FieldTable, Array
* and List.
*/
template <class T>
inline bool FieldValue::get(T& t) const
{
const EncodedValue<T>* v = dynamic_cast< EncodedValue<T>* >(data.get());
if (v != 0) {
t = v->getValue();
return true;
} else {
try {
t = get<T>();
return true;
} catch (const InvalidConversionException&) {
return false;
}
}
}
class Str8Value : public FieldValue {
public:
QPID_COMMON_EXTERN Str8Value(const std::string& v);
};
class Str16Value : public FieldValue {
public:
QPID_COMMON_EXTERN Str16Value(const std::string& v);
};
class Var16Value : public FieldValue {
public:
QPID_COMMON_EXTERN Var16Value(const std::string& v, uint8_t code);
};
class Var32Value : public FieldValue {
public:
QPID_COMMON_EXTERN Var32Value(const std::string& v, uint8_t code);
};
class Struct32Value : public FieldValue {
public:
QPID_COMMON_EXTERN Struct32Value(const std::string& v);
};
class FloatValue : public FieldValue
{
public:
QPID_COMMON_EXTERN FloatValue(float f);
};
class DoubleValue : public FieldValue
{
public:
QPID_COMMON_EXTERN DoubleValue(double f);
};
/*
* Basic integer value encodes as signed 32 bit
*/
class IntegerValue : public FieldValue {
public:
QPID_COMMON_EXTERN IntegerValue(int v);
};
class TimeValue : public FieldValue {
public:
QPID_COMMON_EXTERN TimeValue(uint64_t v);
};
class Integer64Value : public FieldValue {
public:
QPID_COMMON_EXTERN Integer64Value(int64_t v);
};
class Unsigned64Value : public FieldValue {
public:
QPID_COMMON_EXTERN Unsigned64Value(uint64_t v);
};
class FieldTableValue : public FieldValue {
public:
typedef FieldTable ValueType;
QPID_COMMON_EXTERN FieldTableValue(const FieldTable&);
};
class ArrayValue : public FieldValue {
public:
QPID_COMMON_EXTERN ArrayValue(const Array&);
};
class VoidValue : public FieldValue {
public:
QPID_COMMON_EXTERN VoidValue();
};
class BoolValue : public FieldValue {
public:
QPID_COMMON_EXTERN BoolValue(bool);
};
class Unsigned8Value : public FieldValue {
public:
QPID_COMMON_EXTERN Unsigned8Value(uint8_t);
};
class Unsigned16Value : public FieldValue {
public:
QPID_COMMON_EXTERN Unsigned16Value(uint16_t);
};
class Unsigned32Value : public FieldValue {
public:
QPID_COMMON_EXTERN Unsigned32Value(uint32_t);
};
class Integer8Value : public FieldValue {
public:
QPID_COMMON_EXTERN Integer8Value(int8_t);
};
class Integer16Value : public FieldValue {
public:
QPID_COMMON_EXTERN Integer16Value(int16_t);
};
typedef IntegerValue Integer32Value;
class ListValue : public FieldValue {
public:
typedef List ValueType;
QPID_COMMON_EXTERN ListValue(const List&);
};
class UuidValue : public FieldValue {
public:
QPID_COMMON_EXTERN UuidValue(const unsigned char*);
};
template <class T>
bool getEncodedValue(FieldTable::ValuePtr vptr, T& value)
{
if (vptr) {
const EncodedValue<T>* ev = dynamic_cast< EncodedValue<T>* >(&(vptr->getData()));
if (ev != 0) {
value = ev->getValue();
return true;
}
}
return false;
}
}} // qpid::framing
#endif
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