nodescore/oscpack/osc/OscOutboundPacketStream.cpp

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/*
oscpack -- Open Sound Control (OSC) packet manipulation library
http://www.rossbencina.com/code/oscpack
Copyright (c) 2004-2013 Ross Bencina <rossb@audiomulch.com>
Permission is hereby granted, free of charge, to any person obtaining
a copy of this software and associated documentation files
(the "Software"), to deal in the Software without restriction,
including without limitation the rights to use, copy, modify, merge,
publish, distribute, sublicense, and/or sell copies of the Software,
and to permit persons to whom the Software is furnished to do so,
subject to the following conditions:
The above copyright notice and this permission notice shall be
included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR
ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF
CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
/*
The text above constitutes the entire oscpack license; however,
the oscpack developer(s) also make the following non-binding requests:
Any person wishing to distribute modifications to the Software is
requested to send the modifications to the original developer so that
they can be incorporated into the canonical version. It is also
requested that these non-binding requests be included whenever the
above license is reproduced.
*/
#include "OscOutboundPacketStream.h"
#if defined(__WIN32__) || defined(WIN32) || defined(_WIN32)
#include <malloc.h> // for alloca
#else
//#include <alloca.h> // alloca on Linux (also OSX)
#include <stdlib.h> // alloca on OSX and FreeBSD (and Linux?)
#endif
#include <cassert>
#include <cstring> // memcpy, memmove, strcpy, strlen
#include <cstddef> // ptrdiff_t
#include "OscHostEndianness.h"
#if defined(__BORLANDC__) // workaround for BCB4 release build intrinsics bug
namespace std {
using ::__strcpy__; // avoid error: E2316 '__strcpy__' is not a member of 'std'.
}
#endif
namespace osc{
static void FromInt32( char *p, int32 x )
{
#ifdef OSC_HOST_LITTLE_ENDIAN
union{
osc::int32 i;
char c[4];
} u;
u.i = x;
p[3] = u.c[0];
p[2] = u.c[1];
p[1] = u.c[2];
p[0] = u.c[3];
#else
*reinterpret_cast<int32*>(p) = x;
#endif
}
static void FromUInt32( char *p, uint32 x )
{
#ifdef OSC_HOST_LITTLE_ENDIAN
union{
osc::uint32 i;
char c[4];
} u;
u.i = x;
p[3] = u.c[0];
p[2] = u.c[1];
p[1] = u.c[2];
p[0] = u.c[3];
#else
*reinterpret_cast<uint32*>(p) = x;
#endif
}
static void FromInt64( char *p, int64 x )
{
#ifdef OSC_HOST_LITTLE_ENDIAN
union{
osc::int64 i;
char c[8];
} u;
u.i = x;
p[7] = u.c[0];
p[6] = u.c[1];
p[5] = u.c[2];
p[4] = u.c[3];
p[3] = u.c[4];
p[2] = u.c[5];
p[1] = u.c[6];
p[0] = u.c[7];
#else
*reinterpret_cast<int64*>(p) = x;
#endif
}
static void FromUInt64( char *p, uint64 x )
{
#ifdef OSC_HOST_LITTLE_ENDIAN
union{
osc::uint64 i;
char c[8];
} u;
u.i = x;
p[7] = u.c[0];
p[6] = u.c[1];
p[5] = u.c[2];
p[4] = u.c[3];
p[3] = u.c[4];
p[2] = u.c[5];
p[1] = u.c[6];
p[0] = u.c[7];
#else
*reinterpret_cast<uint64*>(p) = x;
#endif
}
// round up to the next highest multiple of 4. unless x is already a multiple of 4
static inline std::size_t RoundUp4( std::size_t x )
{
return (x + 3) & ~((std::size_t)0x03);
}
OutboundPacketStream::OutboundPacketStream( char *buffer, std::size_t capacity )
: data_( buffer )
, end_( data_ + capacity )
, typeTagsCurrent_( end_ )
, messageCursor_( data_ )
, argumentCurrent_( data_ )
, elementSizePtr_( 0 )
, messageIsInProgress_( false )
{
// sanity check integer types declared in OscTypes.h
// you'll need to fix OscTypes.h if any of these asserts fail
assert( sizeof(osc::int32) == 4 );
assert( sizeof(osc::uint32) == 4 );
assert( sizeof(osc::int64) == 8 );
assert( sizeof(osc::uint64) == 8 );
}
OutboundPacketStream::~OutboundPacketStream()
{
}
char *OutboundPacketStream::BeginElement( char *beginPtr )
{
if( elementSizePtr_ == 0 ){
elementSizePtr_ = reinterpret_cast<uint32*>(data_);
return beginPtr;
}else{
// store an offset to the old element size ptr in the element size slot
// we store an offset rather than the actual pointer to be 64 bit clean.
*reinterpret_cast<uint32*>(beginPtr) =
(uint32)(reinterpret_cast<char*>(elementSizePtr_) - data_);
elementSizePtr_ = reinterpret_cast<uint32*>(beginPtr);
return beginPtr + 4;
}
}
void OutboundPacketStream::EndElement( char *endPtr )
{
assert( elementSizePtr_ != 0 );
if( elementSizePtr_ == reinterpret_cast<uint32*>(data_) ){
elementSizePtr_ = 0;
}else{
// while building an element, an offset to the containing element's
// size slot is stored in the elements size slot (or a ptr to data_
// if there is no containing element). We retrieve that here
uint32 *previousElementSizePtr =
reinterpret_cast<uint32*>(data_ + *elementSizePtr_);
// then we store the element size in the slot. note that the element
// size does not include the size slot, hence the - 4 below.
std::ptrdiff_t d = endPtr - reinterpret_cast<char*>(elementSizePtr_);
// assert( d >= 4 && d <= 0x7FFFFFFF ); // assume packets smaller than 2Gb
uint32 elementSize = static_cast<uint32>(d - 4);
FromUInt32( reinterpret_cast<char*>(elementSizePtr_), elementSize );
// finally, we reset the element size ptr to the containing element
elementSizePtr_ = previousElementSizePtr;
}
}
bool OutboundPacketStream::ElementSizeSlotRequired() const
{
return (elementSizePtr_ != 0);
}
void OutboundPacketStream::CheckForAvailableBundleSpace()
{
std::size_t required = Size() + ((ElementSizeSlotRequired())?4:0) + 16;
if( required > Capacity() )
throw OutOfBufferMemoryException();
}
void OutboundPacketStream::CheckForAvailableMessageSpace( const char *addressPattern )
{
// plus 4 for at least four bytes of type tag
std::size_t required = Size() + ((ElementSizeSlotRequired())?4:0)
+ RoundUp4(std::strlen(addressPattern) + 1) + 4;
if( required > Capacity() )
throw OutOfBufferMemoryException();
}
void OutboundPacketStream::CheckForAvailableArgumentSpace( std::size_t argumentLength )
{
// plus three for extra type tag, comma and null terminator
std::size_t required = (argumentCurrent_ - data_) + argumentLength
+ RoundUp4( (end_ - typeTagsCurrent_) + 3 );
if( required > Capacity() )
throw OutOfBufferMemoryException();
}
void OutboundPacketStream::Clear()
{
typeTagsCurrent_ = end_;
messageCursor_ = data_;
argumentCurrent_ = data_;
elementSizePtr_ = 0;
messageIsInProgress_ = false;
}
std::size_t OutboundPacketStream::Capacity() const
{
return end_ - data_;
}
std::size_t OutboundPacketStream::Size() const
{
std::size_t result = argumentCurrent_ - data_;
if( IsMessageInProgress() ){
// account for the length of the type tag string. the total type tag
// includes an initial comma, plus at least one terminating \0
result += RoundUp4( (end_ - typeTagsCurrent_) + 2 );
}
return result;
}
const char *OutboundPacketStream::Data() const
{
return data_;
}
bool OutboundPacketStream::IsReady() const
{
return (!IsMessageInProgress() && !IsBundleInProgress());
}
bool OutboundPacketStream::IsMessageInProgress() const
{
return messageIsInProgress_;
}
bool OutboundPacketStream::IsBundleInProgress() const
{
return (elementSizePtr_ != 0);
}
OutboundPacketStream& OutboundPacketStream::operator<<( const BundleInitiator& rhs )
{
if( IsMessageInProgress() )
throw MessageInProgressException();
CheckForAvailableBundleSpace();
messageCursor_ = BeginElement( messageCursor_ );
std::memcpy( messageCursor_, "#bundle\0", 8 );
FromUInt64( messageCursor_ + 8, rhs.timeTag );
messageCursor_ += 16;
argumentCurrent_ = messageCursor_;
return *this;
}
OutboundPacketStream& OutboundPacketStream::operator<<( const BundleTerminator& rhs )
{
(void) rhs;
if( !IsBundleInProgress() )
throw BundleNotInProgressException();
if( IsMessageInProgress() )
throw MessageInProgressException();
EndElement( messageCursor_ );
return *this;
}
OutboundPacketStream& OutboundPacketStream::operator<<( const BeginMessage& rhs )
{
if( IsMessageInProgress() )
throw MessageInProgressException();
CheckForAvailableMessageSpace( rhs.addressPattern );
messageCursor_ = BeginElement( messageCursor_ );
std::strcpy( messageCursor_, rhs.addressPattern );
std::size_t rhsLength = std::strlen(rhs.addressPattern);
messageCursor_ += rhsLength + 1;
// zero pad to 4-byte boundary
std::size_t i = rhsLength + 1;
while( i & 0x3 ){
*messageCursor_++ = '\0';
++i;
}
argumentCurrent_ = messageCursor_;
typeTagsCurrent_ = end_;
messageIsInProgress_ = true;
return *this;
}
OutboundPacketStream& OutboundPacketStream::operator<<( const MessageTerminator& rhs )
{
(void) rhs;
if( !IsMessageInProgress() )
throw MessageNotInProgressException();
std::size_t typeTagsCount = end_ - typeTagsCurrent_;
if( typeTagsCount ){
char *tempTypeTags = (char*)alloca(typeTagsCount);
std::memcpy( tempTypeTags, typeTagsCurrent_, typeTagsCount );
// slot size includes comma and null terminator
std::size_t typeTagSlotSize = RoundUp4( typeTagsCount + 2 );
std::size_t argumentsSize = argumentCurrent_ - messageCursor_;
std::memmove( messageCursor_ + typeTagSlotSize, messageCursor_, argumentsSize );
messageCursor_[0] = ',';
// copy type tags in reverse (really forward) order
for( std::size_t i=0; i < typeTagsCount; ++i )
messageCursor_[i+1] = tempTypeTags[ (typeTagsCount-1) - i ];
char *p = messageCursor_ + 1 + typeTagsCount;
for( std::size_t i=0; i < (typeTagSlotSize - (typeTagsCount + 1)); ++i )
*p++ = '\0';
typeTagsCurrent_ = end_;
// advance messageCursor_ for next message
messageCursor_ += typeTagSlotSize + argumentsSize;
}else{
// send an empty type tags string
std::memcpy( messageCursor_, ",\0\0\0", 4 );
// advance messageCursor_ for next message
messageCursor_ += 4;
}
argumentCurrent_ = messageCursor_;
EndElement( messageCursor_ );
messageIsInProgress_ = false;
return *this;
}
OutboundPacketStream& OutboundPacketStream::operator<<( bool rhs )
{
CheckForAvailableArgumentSpace(0);
*(--typeTagsCurrent_) = (char)((rhs) ? TRUE_TYPE_TAG : FALSE_TYPE_TAG);
return *this;
}
OutboundPacketStream& OutboundPacketStream::operator<<( const NilType& rhs )
{
(void) rhs;
CheckForAvailableArgumentSpace(0);
*(--typeTagsCurrent_) = NIL_TYPE_TAG;
return *this;
}
OutboundPacketStream& OutboundPacketStream::operator<<( const InfinitumType& rhs )
{
(void) rhs;
CheckForAvailableArgumentSpace(0);
*(--typeTagsCurrent_) = INFINITUM_TYPE_TAG;
return *this;
}
OutboundPacketStream& OutboundPacketStream::operator<<( int32 rhs )
{
CheckForAvailableArgumentSpace(4);
*(--typeTagsCurrent_) = INT32_TYPE_TAG;
FromInt32( argumentCurrent_, rhs );
argumentCurrent_ += 4;
return *this;
}
OutboundPacketStream& OutboundPacketStream::operator<<( float rhs )
{
CheckForAvailableArgumentSpace(4);
*(--typeTagsCurrent_) = FLOAT_TYPE_TAG;
#ifdef OSC_HOST_LITTLE_ENDIAN
union{
float f;
char c[4];
} u;
u.f = rhs;
argumentCurrent_[3] = u.c[0];
argumentCurrent_[2] = u.c[1];
argumentCurrent_[1] = u.c[2];
argumentCurrent_[0] = u.c[3];
#else
*reinterpret_cast<float*>(argumentCurrent_) = rhs;
#endif
argumentCurrent_ += 4;
return *this;
}
OutboundPacketStream& OutboundPacketStream::operator<<( char rhs )
{
CheckForAvailableArgumentSpace(4);
*(--typeTagsCurrent_) = CHAR_TYPE_TAG;
FromInt32( argumentCurrent_, rhs );
argumentCurrent_ += 4;
return *this;
}
OutboundPacketStream& OutboundPacketStream::operator<<( const RgbaColor& rhs )
{
CheckForAvailableArgumentSpace(4);
*(--typeTagsCurrent_) = RGBA_COLOR_TYPE_TAG;
FromUInt32( argumentCurrent_, rhs );
argumentCurrent_ += 4;
return *this;
}
OutboundPacketStream& OutboundPacketStream::operator<<( const MidiMessage& rhs )
{
CheckForAvailableArgumentSpace(4);
*(--typeTagsCurrent_) = MIDI_MESSAGE_TYPE_TAG;
FromUInt32( argumentCurrent_, rhs );
argumentCurrent_ += 4;
return *this;
}
OutboundPacketStream& OutboundPacketStream::operator<<( int64 rhs )
{
CheckForAvailableArgumentSpace(8);
*(--typeTagsCurrent_) = INT64_TYPE_TAG;
FromInt64( argumentCurrent_, rhs );
argumentCurrent_ += 8;
return *this;
}
OutboundPacketStream& OutboundPacketStream::operator<<( const TimeTag& rhs )
{
CheckForAvailableArgumentSpace(8);
*(--typeTagsCurrent_) = TIME_TAG_TYPE_TAG;
FromUInt64( argumentCurrent_, rhs );
argumentCurrent_ += 8;
return *this;
}
OutboundPacketStream& OutboundPacketStream::operator<<( double rhs )
{
CheckForAvailableArgumentSpace(8);
*(--typeTagsCurrent_) = DOUBLE_TYPE_TAG;
#ifdef OSC_HOST_LITTLE_ENDIAN
union{
double f;
char c[8];
} u;
u.f = rhs;
argumentCurrent_[7] = u.c[0];
argumentCurrent_[6] = u.c[1];
argumentCurrent_[5] = u.c[2];
argumentCurrent_[4] = u.c[3];
argumentCurrent_[3] = u.c[4];
argumentCurrent_[2] = u.c[5];
argumentCurrent_[1] = u.c[6];
argumentCurrent_[0] = u.c[7];
#else
*reinterpret_cast<double*>(argumentCurrent_) = rhs;
#endif
argumentCurrent_ += 8;
return *this;
}
OutboundPacketStream& OutboundPacketStream::operator<<( const char *rhs )
{
CheckForAvailableArgumentSpace( RoundUp4(std::strlen(rhs) + 1) );
*(--typeTagsCurrent_) = STRING_TYPE_TAG;
std::strcpy( argumentCurrent_, rhs );
std::size_t rhsLength = std::strlen(rhs);
argumentCurrent_ += rhsLength + 1;
// zero pad to 4-byte boundary
std::size_t i = rhsLength + 1;
while( i & 0x3 ){
*argumentCurrent_++ = '\0';
++i;
}
return *this;
}
OutboundPacketStream& OutboundPacketStream::operator<<( const Symbol& rhs )
{
CheckForAvailableArgumentSpace( RoundUp4(std::strlen(rhs) + 1) );
*(--typeTagsCurrent_) = SYMBOL_TYPE_TAG;
std::strcpy( argumentCurrent_, rhs );
std::size_t rhsLength = std::strlen(rhs);
argumentCurrent_ += rhsLength + 1;
// zero pad to 4-byte boundary
std::size_t i = rhsLength + 1;
while( i & 0x3 ){
*argumentCurrent_++ = '\0';
++i;
}
return *this;
}
OutboundPacketStream& OutboundPacketStream::operator<<( const Blob& rhs )
{
CheckForAvailableArgumentSpace( 4 + RoundUp4(rhs.size) );
*(--typeTagsCurrent_) = BLOB_TYPE_TAG;
FromUInt32( argumentCurrent_, rhs.size );
argumentCurrent_ += 4;
std::memcpy( argumentCurrent_, rhs.data, rhs.size );
argumentCurrent_ += rhs.size;
// zero pad to 4-byte boundary
unsigned long i = rhs.size;
while( i & 0x3 ){
*argumentCurrent_++ = '\0';
++i;
}
return *this;
}
OutboundPacketStream& OutboundPacketStream::operator<<( const ArrayInitiator& rhs )
{
(void) rhs;
CheckForAvailableArgumentSpace(0);
*(--typeTagsCurrent_) = ARRAY_BEGIN_TYPE_TAG;
return *this;
}
OutboundPacketStream& OutboundPacketStream::operator<<( const ArrayTerminator& rhs )
{
(void) rhs;
CheckForAvailableArgumentSpace(0);
*(--typeTagsCurrent_) = ARRAY_END_TYPE_TAG;
return *this;
}
} // namespace osc