#include "config.h"
#include "SharedBuffer.h"
#include <algorithm>
#include <wtf/unicode/UTF8.h>
#if USE(SOUP)
#include "GUniquePtrSoup.h"
#endif
namespace WebCore {
SharedBuffer::SharedBuffer(const char* data, size_t size)
{
append(data, size);
}
SharedBuffer::SharedBuffer(const unsigned char* data, size_t size)
{
append(reinterpret_cast<const char*>(data), size);
}
SharedBuffer::SharedBuffer(FileSystem::MappedFileData&& fileData)
: m_size(fileData.size())
{
m_segments.append({0, DataSegment::create(WTFMove(fileData))});
}
SharedBuffer::SharedBuffer(Vector<char>&& data)
{
append(WTFMove(data));
}
RefPtr<SharedBuffer> SharedBuffer::createWithContentsOfFile(const String& filePath)
{
bool mappingSuccess;
FileSystem::MappedFileData mappedFileData(filePath, mappingSuccess);
if (!mappingSuccess)
return SharedBuffer::createFromReadingFile(filePath);
return adoptRef(new SharedBuffer(WTFMove(mappedFileData)));
}
Ref<SharedBuffer> SharedBuffer::create(Vector<char>&& vector)
{
return adoptRef(*new SharedBuffer(WTFMove(vector)));
}
Ref<SharedBuffer> SharedBuffer::create(Vector<uint8_t>&& vector)
{
return adoptRef(*new SharedBuffer { vector.data(), vector.size() });
}
void SharedBuffer::combineIntoOneSegment() const
{
#if !ASSERT_DISABLED
#endif
if (m_segments.size() <= 1)
return;
Vector<char> combinedData;
combinedData.reserveInitialCapacity(m_size);
for (const auto& segment : m_segments)
combinedData.append(segment.segment->data(), segment.segment->size());
ASSERT(combinedData.size() == m_size);
m_segments.clear();
m_segments.append({0, DataSegment::create(WTFMove(combinedData))});
ASSERT(m_segments.size() == 1);
ASSERT(internallyConsistent());
}
const char* SharedBuffer::data() const
{
if (!m_segments.size())
return nullptr;
combineIntoOneSegment();
ASSERT(internallyConsistent());
return m_segments[0].segment->data();
}
SharedBufferDataView SharedBuffer::getSomeData(size_t position) const
{
RELEASE_ASSERT(position < m_size);
auto comparator = [](const size_t& position, const DataSegmentVectorEntry& entry) {
return position < entry.beginPosition;
};
const DataSegmentVectorEntry* element = std::upper_bound(m_segments.begin(), m_segments.end(), position, comparator);
element--; return { element->segment.copyRef(), position - element->beginPosition };
}
RefPtr<ArrayBuffer> SharedBuffer::tryCreateArrayBuffer() const
{
RefPtr<ArrayBuffer> arrayBuffer = ArrayBuffer::createUninitialized(static_cast<unsigned>(size()), sizeof(char));
if (!arrayBuffer) {
WTFLogAlways("SharedBuffer::tryCreateArrayBuffer Unable to create buffer. Requested size was %zu x %lu\n", size(), sizeof(char));
return nullptr;
}
size_t position = 0;
for (const auto& segment : m_segments) {
memcpy(static_cast<char*>(arrayBuffer->data()) + position, segment.segment->data(), segment.segment->size());
position += segment.segment->size();
}
ASSERT(position == m_size);
ASSERT(internallyConsistent());
return arrayBuffer;
}
void SharedBuffer::append(const SharedBuffer& data)
{
ASSERT(!m_hasBeenCombinedIntoOneSegment);
m_segments.reserveCapacity(m_segments.size() + data.m_segments.size());
for (const auto& element : data.m_segments) {
m_segments.uncheckedAppend({m_size, element.segment.copyRef()});
m_size += element.segment->size();
}
ASSERT(internallyConsistent());
}
void SharedBuffer::append(const char* data, size_t length)
{
ASSERT(!m_hasBeenCombinedIntoOneSegment);
Vector<char> vector;
vector.append(data, length);
m_segments.append({m_size, DataSegment::create(WTFMove(vector))});
m_size += length;
ASSERT(internallyConsistent());
}
void SharedBuffer::append(Vector<char>&& data)
{
ASSERT(!m_hasBeenCombinedIntoOneSegment);
auto dataSize = data.size();
m_segments.append({m_size, DataSegment::create(WTFMove(data))});
m_size += dataSize;
ASSERT(internallyConsistent());
}
void SharedBuffer::clear()
{
m_size = 0;
m_segments.clear();
ASSERT(internallyConsistent());
}
Ref<SharedBuffer> SharedBuffer::copy() const
{
Ref<SharedBuffer> clone = adoptRef(*new SharedBuffer);
clone->m_size = m_size;
clone->m_segments.reserveInitialCapacity(m_segments.size());
for (const auto& element : m_segments)
clone->m_segments.uncheckedAppend({element.beginPosition, element.segment.copyRef()});
ASSERT(clone->internallyConsistent());
ASSERT(internallyConsistent());
return clone;
}
#if !ASSERT_DISABLED
bool SharedBuffer::internallyConsistent() const
{
size_t position = 0;
for (const auto& element : m_segments) {
if (element.beginPosition != position)
return false;
position += element.segment->size();
}
return position == m_size;
}
#endif
const char* SharedBuffer::DataSegment::data() const
{
auto visitor = WTF::makeVisitor(
[](const Vector<char>& data) { return data.data(); },
#if USE(CF)
[](const RetainPtr<CFDataRef>& data) { return reinterpret_cast<const char*>(CFDataGetBytePtr(data.get())); },
#endif
#if USE(SOUP)
[](const GUniquePtr<SoupBuffer>& data) { return data->data; },
#endif
[](const FileSystem::MappedFileData& data) { return reinterpret_cast<const char*>(data.data()); }
);
return WTF::visit(visitor, m_immutableData);
}
#if !USE(CF)
void SharedBuffer::hintMemoryNotNeededSoon() const
{
}
#endif
size_t SharedBuffer::DataSegment::size() const
{
auto visitor = WTF::makeVisitor(
[](const Vector<char>& data) { return data.size(); },
#if USE(CF)
[](const RetainPtr<CFDataRef>& data) { return CFDataGetLength(data.get()); },
#endif
#if USE(SOUP)
[](const GUniquePtr<SoupBuffer>& data) { return static_cast<size_t>(data->length); },
#endif
[](const FileSystem::MappedFileData& data) { return data.size(); }
);
return WTF::visit(visitor, m_immutableData);
}
SharedBufferDataView::SharedBufferDataView(Ref<SharedBuffer::DataSegment>&& segment, size_t positionWithinSegment)
: m_positionWithinSegment(positionWithinSegment)
, m_segment(WTFMove(segment))
{
ASSERT(positionWithinSegment < m_segment->size());
}
size_t SharedBufferDataView::size() const
{
return m_segment->size() - m_positionWithinSegment;
}
const char* SharedBufferDataView::data() const
{
return m_segment->data() + m_positionWithinSegment;
}
RefPtr<SharedBuffer> utf8Buffer(const String& string)
{
const int length = string.length();
Vector<char> buffer(length * 3);
char* p = buffer.data();
WTF::Unicode::ConversionResult result;
if (length) {
if (string.is8Bit()) {
const LChar* d = string.characters8();
result = WTF::Unicode::convertLatin1ToUTF8(&d, d + length, &p, p + buffer.size());
} else {
const UChar* d = string.characters16();
result = WTF::Unicode::convertUTF16ToUTF8(&d, d + length, &p, p + buffer.size(), true);
}
if (result != WTF::Unicode::conversionOK)
return nullptr;
}
buffer.shrink(p - buffer.data());
return SharedBuffer::create(WTFMove(buffer));
}
}