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winamp/Src/replicant/nsid3v2/frameheader.cpp

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2024-09-24 12:54:57 +00:00
#include "frameheader.h"
#include "util.h"
#include "values.h"
#include "nu/ByteReader.h"
#include "nu/ByteWriter.h"
#include <string.h>
#include "foundation/error.h"
/* === ID3v2 common === */
ID3v2::FrameHeader::FrameHeader(const ID3v2::Header &_header) : tagHeader(_header)
{
}
static bool CharOK(int8_t c)
{
if (c >= '0' && c <= '9')
return true;
if (c >= 'A' && c <= 'Z')
return true;
return false;
}
/* === ID3v2.2 === */
ID3v2_2::FrameHeader::FrameHeader(const ID3v2_2::FrameHeader &frame_header, const ID3v2::Header &_header) : ID3v2::FrameHeader(_header)
{
frameHeaderData = frame_header.frameHeaderData;
}
ID3v2_2::FrameHeader::FrameHeader(const ID3v2::Header &_header, const int8_t *id, int flags) : ID3v2::FrameHeader(_header)
{
memcpy(&frameHeaderData.id, id, 3);
frameHeaderData.id[3]=0;
memset(&frameHeaderData.size, 0, 3);
}
ID3v2_2::FrameHeader::FrameHeader(const ID3v2::Header &_header, const void *data) : ID3v2::FrameHeader(_header)
{
char temp_data[FrameHeader::SIZE];
if (tagHeader.Unsynchronised())
{
ID3v2::Util::UnsynchroniseTo(temp_data, data, sizeof(temp_data));
data = temp_data;
}
bytereader_value_t byte_reader;
bytereader_init(&byte_reader, data, FrameHeader::SIZE);
bytereader_read_n(&byte_reader, &frameHeaderData.id, 3);
frameHeaderData.id[3]=0;
bytereader_read_n(&byte_reader, &frameHeaderData.size, 3);
}
bool ID3v2_2::FrameHeader::IsValid() const
{
if (CharOK(frameHeaderData.id[0])
&& CharOK(frameHeaderData.id[1])
&& CharOK(frameHeaderData.id[2]))
return true;
return false;
}
const int8_t *ID3v2_2::FrameHeader::GetIdentifier() const
{
return frameHeaderData.id;
}
bool ID3v2_2::FrameHeader::Unsynchronised() const
{
return tagHeader.Unsynchronised();
}
uint32_t ID3v2_2::FrameHeader::FrameSize() const
{
return (frameHeaderData.size[0] << 16) | (frameHeaderData.size[1] << 8) | (frameHeaderData.size[2]);
}
void ID3v2_2::FrameHeader::SetSize(uint32_t data_size)
{
frameHeaderData.size[0] = data_size >> 16;
frameHeaderData.size[1] = data_size >> 8;
frameHeaderData.size[2] = data_size;
}
int ID3v2_2::FrameHeader::SerializedSize(uint32_t *written) const
{
if (tagHeader.Unsynchronised())
{
uint8_t data[SIZE];
bytewriter_s byte_writer;
bytewriter_init(&byte_writer, data, SIZE);
bytewriter_write_n(&byte_writer, frameHeaderData.id, 3);
bytewriter_write_n(&byte_writer, frameHeaderData.size, 3);
*written = ID3v2::Util::SynchronisedSize(data, SIZE);
}
else
{
*written = SIZE;
}
return NErr_Success;
}
int ID3v2_2::FrameHeader::Serialize(void *data) const
{
if (tagHeader.Unsynchronised())
{
uint8_t temp[SIZE];
bytewriter_s byte_writer;
bytewriter_init(&byte_writer, temp, SIZE);
bytewriter_write_n(&byte_writer, frameHeaderData.id, 3);
bytewriter_write_n(&byte_writer, frameHeaderData.size, 3);
ID3v2::Util::SynchroniseTo(data, temp, SIZE);
}
else
{
bytewriter_s byte_writer;
bytewriter_init(&byte_writer, data, SIZE);
bytewriter_write_n(&byte_writer, frameHeaderData.id, 3);
bytewriter_write_n(&byte_writer, frameHeaderData.size, 3);
}
return NErr_Success;
}
/* === ID3v2.3+ common === */
ID3v2_3::FrameHeaderBase::FrameHeaderBase(const ID3v2_3::FrameHeaderBase &frame_header_base, const ID3v2::Header &_header) : ID3v2::FrameHeader(_header)
{
memcpy(id, frame_header_base.id, 4);
size=frame_header_base.size;
flags[0] = frame_header_base.flags[0];
flags[1] = frame_header_base.flags[1];
}
ID3v2_3::FrameHeaderBase::FrameHeaderBase(const ID3v2::Header &_header) : ID3v2::FrameHeader(_header)
{
}
ID3v2_3::FrameHeaderBase::FrameHeaderBase(const ID3v2::Header &_header, const int8_t *_id, int _flags) : ID3v2::FrameHeader(_header)
{
memcpy(id, _id, 4);
size=0;
// TODO: flags
flags[0]=0;
flags[1]=0;
}
const int8_t *ID3v2_3::FrameHeaderBase::GetIdentifier() const
{
return id;
}
bool ID3v2_3::FrameHeaderBase::IsValid() const
{
if (CharOK(id[0])
&& CharOK(id[1])
&& CharOK(id[2])
&& CharOK(id[3]))
return true;
return false;
}
/* === ID3v2.3 === */
ID3v2_3::FrameHeader::FrameHeader(const ID3v2_3::FrameHeader &frame_header, const ID3v2::Header &tag_header) : ID3v2_3::FrameHeaderBase(frame_header, tag_header)
{
}
ID3v2_3::FrameHeader::FrameHeader(const ID3v2::Header &_header, const int8_t *id, int flags) : ID3v2_3::FrameHeaderBase(_header, id, flags)
{
}
ID3v2_3::FrameHeader::FrameHeader(const ID3v2::Header &_header, const void *data) : ID3v2_3::FrameHeaderBase(_header)
{
char temp_data[FrameHeaderBase::SIZE];
if (tagHeader.Unsynchronised())
{
ID3v2::Util::UnsynchroniseTo(temp_data, data, sizeof(temp_data));
data = temp_data;
}
bytereader_value_t byte_reader;
bytereader_init(&byte_reader, data, FrameHeaderBase::SIZE);
bytereader_read_n(&byte_reader, &id, 4);
size = bytereader_read_u32_be(&byte_reader);
bytereader_read_n(&byte_reader, &flags, 2);
}
int ID3v2_3::FrameHeaderBase::SerializedSize(uint32_t *written) const
{
if (tagHeader.Unsynchronised())
{
uint8_t data[SIZE];
bytewriter_s byte_writer;
bytewriter_init(&byte_writer, data, SIZE);
bytewriter_write_n(&byte_writer, id, 4);
bytewriter_write_u32_be(&byte_writer, size);
bytewriter_write_u8(&byte_writer, flags[0]);
bytewriter_write_u8(&byte_writer, flags[1]);
*written = ID3v2::Util::SynchronisedSize(data, SIZE);
}
else
{
*written = SIZE;
}
return NErr_Success;
}
int ID3v2_3::FrameHeaderBase::Serialize(void *data, uint32_t *written) const
{
if (tagHeader.Unsynchronised())
{
uint8_t temp[SIZE];
bytewriter_s byte_writer;
bytewriter_init(&byte_writer, temp, SIZE);
bytewriter_write_n(&byte_writer, id, 4);
bytewriter_write_u32_be(&byte_writer, size);
bytewriter_write_u8(&byte_writer, flags[0]);
bytewriter_write_u8(&byte_writer, flags[1]);
*written = ID3v2::Util::SynchroniseTo(data, temp, SIZE);
}
else
{
bytewriter_s byte_writer;
bytewriter_init(&byte_writer, data, SIZE);
bytewriter_write_n(&byte_writer, id, 4);
bytewriter_write_u32_be(&byte_writer, size);
bytewriter_write_u8(&byte_writer, flags[0]);
bytewriter_write_u8(&byte_writer, flags[1]);
*written = SIZE;
}
return NErr_Success;
}
uint32_t ID3v2_3::FrameHeader::FrameSize() const
{
return size;
}
bool ID3v2_3::FrameHeader::ReadOnly() const
{
return !!(flags[0] & (1<<5));
}
bool ID3v2_3::FrameHeader::Encrypted() const
{
return !!(flags[1] & (1<<6));
}
bool ID3v2_3::FrameHeader::Unsynchronised() const
{
return tagHeader.Unsynchronised();
}
bool ID3v2_3::FrameHeader::Grouped() const
{
return !!(flags[1] & (1 << 5));
}
bool ID3v2_3::FrameHeader::Compressed() const
{
return !!(flags[1] & (1 << 7));
}
bool ID3v2_3::FrameHeader::TagAlterPreservation() const
{
return !!(flags[0] & (1<<7));
}
bool ID3v2_3::FrameHeader::FileAlterPreservation() const
{
return !!(flags[0] & (1<<6));
}
void ID3v2_3::FrameHeader::ClearCompressed()
{
flags[1] &= ~(1 << 7);
}
void ID3v2_3::FrameHeader::SetSize(uint32_t data_size)
{
if (Compressed())
data_size+=4;
if (Grouped())
data_size++;
size = data_size;
}
/* === ID3v2.4 === */
ID3v2_4::FrameHeader::FrameHeader(const ID3v2_4::FrameHeader &frame_header, const ID3v2::Header &tag_header) : ID3v2_3::FrameHeaderBase(frame_header, tag_header)
{
}
ID3v2_4::FrameHeader::FrameHeader(const ID3v2::Header &_header, const int8_t *id, int flags) : ID3v2_3::FrameHeaderBase(_header, id, flags)
{
}
ID3v2_4::FrameHeader::FrameHeader(const ID3v2::Header &_header, const void *data) : ID3v2_3::FrameHeaderBase(_header)
{
bytereader_value_t byte_reader;
bytereader_init(&byte_reader, data, FrameHeaderBase::SIZE);
bytereader_read_n(&byte_reader, &id, 4);
size = bytereader_read_u32_be(&byte_reader);
bytereader_read_n(&byte_reader, &flags, 2);
}
uint32_t ID3v2_4::FrameHeader::FrameSize() const
{
// many programs write non-syncsafe sizes (iTunes is the biggest culprit)
// so we'll try to detect it. unfortunately this isn't foolproof
// ID3v2_4::Frame will have some additional checks
int mask = size & 0x80808080;
if (mask)
return size;
else
return ID3v2::Util::Int28To32(size);
}
bool ID3v2_4::FrameHeader::ReadOnly() const
{
return !!(flags[0] & (1<<4));
}
bool ID3v2_4::FrameHeader::Encrypted() const
{
return !!(flags[1] & (1<<3));
}
bool ID3v2_4::FrameHeader::Unsynchronised() const
{
return tagHeader.Unsynchronised() || !!(flags[1] & (1 << 1));
}
bool ID3v2_4::FrameHeader::FrameUnsynchronised() const
{
return !!(flags[1] & (1 << 1));
}
bool ID3v2_4::FrameHeader::DataLengthIndicated() const
{
return !!(flags[1] & (1 << 0));
}
bool ID3v2_4::FrameHeader::Compressed() const
{
return !!(flags[1] & (1 << 3));
}
bool ID3v2_4::FrameHeader::Grouped() const
{
return !!(flags[1] & (1 << 6));
}
bool ID3v2_4::FrameHeader::TagAlterPreservation() const
{
return !!(flags[0] & (1<<6));
}
bool ID3v2_4::FrameHeader::FileAlterPreservation() const
{
return !!(flags[0] & (1<<5));
}
void ID3v2_4::FrameHeader::ClearUnsynchronized()
{
flags[1] &= ~(1 << 1);
}
void ID3v2_4::FrameHeader::ClearCompressed()
{
flags[1] &= ~(1 << 3);
}
void ID3v2_4::FrameHeader::SetSize(uint32_t data_size)
{
if (Compressed() || DataLengthIndicated())
data_size+=4;
if (Grouped())
data_size++;
size = ID3v2::Util::Int32To28(data_size);
}
int ID3v2_4::FrameHeader::SerializedSize(uint32_t *written) const
{
*written = SIZE;
return NErr_Success;
}
int ID3v2_4::FrameHeader::Serialize(void *data, uint32_t *written) const
{
bytewriter_s byte_writer;
bytewriter_init(&byte_writer, data, SIZE);
bytewriter_write_n(&byte_writer, id, 4);
bytewriter_write_u32_be(&byte_writer, size);
bytewriter_write_u8(&byte_writer, flags[0]);
bytewriter_write_u8(&byte_writer, flags[1]);
*written = SIZE;
return NErr_Success;
}