/*
-Copyright (c) 2005-2006, John Hurst
+Copyright (c) 2005-2009, John Hurst
All rights reserved.
Redistribution and use in source and binary forms, with or without
#include <KM_error.h>
#include <string.h>
#include <string>
+#include <list>
namespace Kumu
{
+ // The version number declaration and explanation are in ../configure.ac
+ const char* Version();
+ // a class that represents the string form of a value
template <class T, int SIZE = 16>
class IntPrinter : public std::string
{
- protected:
+ KM_NO_COPY_CONSTRUCT(IntPrinter);
IntPrinter();
+
+ protected:
+ const char* m_format;
char m_strbuf[SIZE];
public:
- inline const char* c_str() { return m_strbuf; }
-
IntPrinter(const char* format, T value) {
- snprintf(m_strbuf, SIZE, format, value);
+ assert(format);
+ m_format = format;
+ snprintf(m_strbuf, SIZE, m_format, value);
+ }
+
+ inline operator const char*() { return m_strbuf; }
+ inline const char* c_str() { return m_strbuf; }
+ inline const char* set_value(T value) {
+ snprintf(m_strbuf, SIZE, m_format, value);
+ return m_strbuf;
}
};
i32_t hex2bin(const char* str, byte_t* buf, ui32_t buf_len, ui32_t* char_count);
// Convert a binary string to NULL-terminated UTF-8 hexadecimal, returns the buffer
- // if the binary buffer was large enough to hold the result. If the output buffer
+ // if the output buffer was large enough to hold the result. If the output buffer
// is too small or any of the pointer arguments are NULL, the subroutine will
// return 0.
//
//----------------------------------------------------------------
//
+ // an abstract base class that objects implement to serialize state
+ // to and from a binary stream.
class IArchive
{
public:
virtual ~IArchive(){}
- virtual bool HasValue() const = 0;
- virtual bool Archive(MemIOWriter* Writer) const = 0;
- virtual bool Unarchive(MemIOReader* Reader) = 0;
+ virtual bool HasValue() const = 0;
+ virtual ui32_t ArchiveLength() const = 0;
+ virtual bool Archive(MemIOWriter* Writer) const = 0;
+ virtual bool Unarchive(MemIOReader* Reader) = 0;
};
+ //
+ template <class T>
+ class ArchivableList : public std::list<T>, public IArchive
+ {
+ public:
+ ArchivableList() {}
+ virtual ~ArchivableList() {}
+
+ bool HasValue() const { return ! this->empty(); }
+
+ ui32_t ArchiveLength() const
+ {
+ ui32_t arch_size = sizeof(ui32_t);
+
+ typename ArchivableList<T>::const_iterator i = this->begin();
+ for ( ; i != this->end(); i++ )
+ arch_size += i->ArchiveLength();
+
+ return arch_size;
+ }
+
+ bool Unarchive(Kumu::MemIOReader* Reader)
+ {
+ if ( Reader == 0 ) return false;
+ ui32_t read_size = 0;
+ if ( ! Reader->ReadUi32BE(&read_size) ) return false;
+ for ( ui32_t i = 0; i < read_size; i++ )
+ {
+ T TmpTP;
+ if ( ! TmpTP.Unarchive(Reader) ) return false;
+ this->push_back(TmpTP);
+ }
+
+ return true;
+ }
+
+ bool Archive(Kumu::MemIOWriter* Writer) const
+ {
+ if ( Writer == 0 ) return false;
+ if ( ! Writer->WriteUi32BE(this->size()) ) return false;
+ typename ArchivableList<T>::const_iterator i = this->begin();
+ for ( ; i != this->end(); i++ )
+ if ( ! i->Archive(Writer) ) return false;
+
+ return true;
+ }
+ };
//
- // the base of all identifier classes
+ // the base of all identifier classes, Identifier is not usually used directly
+ // see UUID and SymmetricKey below for more detail.
+ //
template <ui32_t SIZE>
class Identifier : public IArchive
{
- const Identifier& operator=(const Identifier& rhs);
-
protected:
bool m_HasValue;
byte_t m_Value[SIZE];
public:
Identifier() : m_HasValue(false) { memset(m_Value, 0, SIZE); }
Identifier(const byte_t* value) : m_HasValue(true) { memcpy(m_Value, value, SIZE); }
- Identifier(const Identifier& rhs) {
- if ( m_HasValue = rhs.m_HasValue )
- memcpy(m_Value, rhs.m_Value, SIZE);
+ Identifier(const Identifier& rhs) : IArchive() {
+ m_HasValue = rhs.m_HasValue;
+ memcpy(m_Value, rhs.m_Value, SIZE);
}
virtual ~Identifier() {}
+ const Identifier& operator=(const Identifier& rhs) {
+ m_HasValue = rhs.m_HasValue;
+ memcpy(m_Value, rhs.m_Value, SIZE);
+ return *this;
+ }
+
inline void Set(const byte_t* value) { m_HasValue = true; memcpy(m_Value, value, SIZE); }
+ inline void Reset() { m_HasValue = false; memset(m_Value, 0, SIZE); }
inline const byte_t* Value() const { return m_Value; }
inline ui32_t Size() const { return SIZE; }
- inline bool operator<(const Identifier& rhs) const
- {
- ui32_t test_size = xmin(rhs.Size(), SIZE);
- for ( ui32_t i = 0; i < test_size; i++ )
- {
- if ( m_Value[i] != rhs.m_Value[i] )
- return m_Value[i] < rhs.m_Value[i];
- }
+ inline bool operator<(const Identifier& rhs) const {
+ ui32_t test_size = xmin(rhs.Size(), SIZE);
- return false;
- }
+ for ( ui32_t i = 0; i < test_size; i++ )
+ {
+ if ( m_Value[i] != rhs.m_Value[i] )
+ return m_Value[i] < rhs.m_Value[i];
+ }
+
+ return false;
+ }
- inline bool operator==(const Identifier& rhs) const
- {
- if ( rhs.Size() != SIZE ) return false;
- return ( memcmp(m_Value, rhs.m_Value, SIZE) == 0 );
- }
+ inline bool operator==(const Identifier& rhs) const {
+ if ( rhs.Size() != SIZE ) return false;
+ return ( memcmp(m_Value, rhs.m_Value, SIZE) == 0 );
+ }
- inline bool operator!=(const Identifier& rhs) const
- {
- if ( rhs.Size() != SIZE ) return true;
- return ( memcmp(m_Value, rhs.m_Value, SIZE) != 0 );
- }
+ inline bool operator!=(const Identifier& rhs) const {
+ if ( rhs.Size() != SIZE ) return true;
+ return ( memcmp(m_Value, rhs.m_Value, SIZE) != 0 );
+ }
- inline bool DecodeHex(const char* str)
- {
- ui32_t char_count;
- m_HasValue = ( hex2bin(str, m_Value, SIZE, &char_count) == 0 );
- return m_HasValue;
- }
+ inline bool DecodeHex(const char* str) {
+ ui32_t char_count;
+ m_HasValue = ( hex2bin(str, m_Value, SIZE, &char_count) == 0 );
+ if ( m_HasValue && char_count != SIZE )
+ m_HasValue = false;
+ return m_HasValue;
+ }
- inline const char* EncodeHex(char* buf, ui32_t buf_len) const
- {
- return bin2hex(m_Value, SIZE, buf, buf_len);
- }
+ inline const char* EncodeHex(char* buf, ui32_t buf_len) const {
+ return bin2hex(m_Value, SIZE, buf, buf_len);
+ }
inline const char* EncodeString(char* str_buf, ui32_t buf_len) const {
return EncodeHex(str_buf, buf_len);
}
- inline bool DecodeBase64(const char* str)
- {
- ui32_t char_count;
- m_HasValue = ( base64decode(str, m_Value, SIZE, &char_count) == 0 );
- return m_HasValue;
- }
+ inline bool DecodeBase64(const char* str) {
+ ui32_t char_count;
+ m_HasValue = ( base64decode(str, m_Value, SIZE, &char_count) == 0 );
+ if ( m_HasValue && char_count != SIZE )
+ m_HasValue = false;
+ return m_HasValue;
+ }
- inline const char* EncodeBase64(char* buf, ui32_t buf_len) const
- {
- return base64encode(m_Value, SIZE, buf, buf_len);
- }
+ inline const char* EncodeBase64(char* buf, ui32_t buf_len) const {
+ return base64encode(m_Value, SIZE, buf, buf_len);
+ }
inline bool HasValue() const { return m_HasValue; }
+ inline ui32_t ArchiveLength() const { return SIZE; }
+
inline bool Unarchive(Kumu::MemIOReader* Reader) {
m_HasValue = Reader->ReadRaw(m_Value, SIZE);
return m_HasValue;
}
};
-
+
// UUID
//
const ui32_t UUID_Length = 16;
UUID(const byte_t* value) : Identifier<UUID_Length>(value) {}
UUID(const UUID& rhs) : Identifier<UUID_Length>(rhs) {}
virtual ~UUID() {}
-
- const UUID& operator=(const UUID& rhs) {
- if ( m_HasValue = rhs.m_HasValue )
- memcpy(m_Value, rhs.m_Value, UUID_Length);
- return *this;
+
+ inline const char* EncodeString(char* buf, ui32_t buf_len) const {
+ return bin2UUIDhex(m_Value, Size(), buf, buf_len);
}
inline const char* EncodeHex(char* buf, ui32_t buf_len) const {
}
};
- void GenRandomUUID(byte_t* buf);
+ void GenRandomUUID(byte_t* buf); // buf must be UUID_Length or longer
void GenRandomValue(UUID&);
+ typedef ArchivableList<UUID> UUIDList;
+
// a self-wiping key container
//
const ui32_t SymmetricKey_Length = 16;
SymmetricKey(const byte_t* value) : Identifier<SymmetricKey_Length>(value) {}
SymmetricKey(const UUID& rhs) : Identifier<SymmetricKey_Length>(rhs) {}
virtual ~SymmetricKey() { memcpy(m_Value, NilKey, 16); m_HasValue = false; }
-
- const SymmetricKey& operator=(const SymmetricKey& rhs) {
- if ( m_HasValue = rhs.m_HasValue )
- memcpy(m_Value, rhs.m_Value, SymmetricKey_Length);
- return *this;
- }
};
void GenRandomValue(SymmetricKey&);
//
- // 2004-05-01T13:20:00-00:00
+ // 2004-05-01T13:20:00+00:00
const ui32_t DateTimeLen = 25; // the number of chars in the xs:dateTime format (sans milliseconds)
// UTC time+date representation
const Timestamp& operator=(const Timestamp& rhs);
bool operator<(const Timestamp& rhs) const;
+ bool operator>(const Timestamp& rhs) const;
bool operator==(const Timestamp& rhs) const;
bool operator!=(const Timestamp& rhs) const;
- // Write the timestamp value to the given buffer in the form 2004-05-01T13:20:00-00:00
+ // Write the timestamp value to the given buffer in the form 2004-05-01T13:20:00+00:00
// returns 0 if the buffer is smaller than DateTimeLen
const char* EncodeString(char* str_buf, ui32_t buf_len) const;
+ const char* EncodeStringWithOffset(char* str_buf, ui32_t buf_len,
+ i32_t offset_minutes = 0) const;
// decode and set value from string formatted by EncodeString
bool DecodeString(const char* datestr);
- // add the given number of days or hours to the timestamp value. Values less than zero
- // will cause the value to decrease
+ // Add the given number of days, hours, minutes, or seconds to the timestamp value.
+ // Values less than zero will cause the timestamp to decrease
void AddDays(i32_t);
void AddHours(i32_t);
-
- // Read and write the timestamp value as a byte string
- virtual bool HasValue() const;
- virtual bool Archive(MemIOWriter* Writer) const;
- virtual bool Unarchive(MemIOReader* Reader);
+ void AddMinutes(i32_t);
+ void AddSeconds(i32_t);
+
+ // Read and write the timestamp value as a byte string having
+ // the following format:
+ // | 16 bits int, big-endian | 8 bits | 8 bits | 8 bits | 8 bits | 8 bits |
+ // | Year A.D | Month(1-12) | Day(1-31) | Hour(0-23) | Minute(0-59) | Second(0-59) |
+ //
+ virtual bool HasValue() const;
+ virtual ui32_t ArchiveLength() const { return 8L; }
+ virtual bool Archive(MemIOWriter* Writer) const;
+ virtual bool Unarchive(MemIOReader* Reader);
+
+ // Get the number of seconds since the Unix epoch (1970-01-01T00:00:00+00:00)
+ long GetSecondsSinceEpoch(void) const;
};
//
- class ByteString
+ class ByteString : public IArchive
{
KM_NO_COPY_CONSTRUCT(ByteString);
ByteString(ui32_t cap);
virtual ~ByteString();
- // Sets the size of the internally allocated buffer.
- // Resets content Size to zero.
+ // Sets or resets the size of the internally allocated buffer.
Result_t Capacity(ui32_t cap);
Result_t Append(const ByteString&);
inline ui32_t Capacity() const { return m_Capacity; }
// returns a const pointer to the essence data
- inline const byte_t* RoData() const { return m_Data; }
+ inline const byte_t* RoData() const { assert(m_Data); return m_Data; }
// returns a non-const pointer to the essence data
- inline byte_t* Data() { return m_Data; }
+ inline byte_t* Data() { assert(m_Data); return m_Data; }
// set the length of the buffer's contents
inline ui32_t Length(ui32_t l) { return m_Length = l; }
// copy the given data into the ByteString, set Length value.
// Returns error if the ByteString is too small.
Result_t Set(const byte_t* buf, ui32_t buf_len);
+ Result_t Set(const ByteString& Buf);
+
+ inline virtual bool HasValue() const { return m_Length > 0; }
+
+ inline virtual ui32_t ArchiveLength() const { return m_Length; }
+
+ inline virtual bool Archive(MemIOWriter* Writer) const {
+ assert(Writer);
+ if ( ! Writer->WriteUi32BE(m_Length) ) return false;
+ if ( ! Writer->WriteRaw(m_Data, m_Length) ) return false;
+ return true;
+ }
+
+ inline virtual bool Unarchive(MemIOReader* Reader) {
+ assert(Reader);
+ ui32_t tmp_len;
+ if ( ! Reader->ReadUi32BE(&tmp_len) ) return false;
+ if ( KM_FAILURE(Capacity(tmp_len)) ) return false;
+ if ( ! Reader->ReadRaw(m_Data, tmp_len) ) return false;
+ m_Length = tmp_len;
+ return true;
+ }
};
} // namespace Kumu