/* */ #include "AbstractSingleDiskAdaptor.h" #include "File.h" #include "AdaptiveFileAllocationIterator.h" #include "DiskWriter.h" #include "FileEntry.h" #include "TruncFileAllocationIterator.h" #include "WrDiskCacheEntry.h" #include "LogFactory.h" #ifdef HAVE_SOME_FALLOCATE #include "FallocFileAllocationIterator.h" #endif // HAVE_SOME_FALLOCATE namespace aria2 { AbstractSingleDiskAdaptor::AbstractSingleDiskAdaptor() : totalLength_(0), readOnly_(false) { } AbstractSingleDiskAdaptor::~AbstractSingleDiskAdaptor() = default; void AbstractSingleDiskAdaptor::initAndOpenFile() { diskWriter_->initAndOpenFile(totalLength_); } void AbstractSingleDiskAdaptor::openFile() { diskWriter_->openFile(totalLength_); } void AbstractSingleDiskAdaptor::closeFile() { diskWriter_->closeFile(); } void AbstractSingleDiskAdaptor::openExistingFile() { diskWriter_->openExistingFile(totalLength_); } void AbstractSingleDiskAdaptor::writeData(const unsigned char* data, size_t len, int64_t offset) { diskWriter_->writeData(data, len, offset); } ssize_t AbstractSingleDiskAdaptor::readData(unsigned char* data, size_t len, int64_t offset) { return diskWriter_->readData(data, len, offset); } ssize_t AbstractSingleDiskAdaptor::readDataDropCache(unsigned char* data, size_t len, int64_t offset) { auto rv = readData(data, len, offset); if (rv > 0) { diskWriter_->dropCache(len, offset); } return rv; } void AbstractSingleDiskAdaptor::writeCache(const WrDiskCacheEntry* entry) { for (auto& d : entry->getDataSet()) { A2_LOG_DEBUG(fmt("Cache flush goff=%" PRId64 ", len=%lu", d->goff, static_cast(d->len))); writeData(d->data + d->offset, d->len, d->goff); } } bool AbstractSingleDiskAdaptor::fileExists() { return File(getFilePath()).exists(); } int64_t AbstractSingleDiskAdaptor::size() { return File(getFilePath()).size(); } void AbstractSingleDiskAdaptor::truncate(int64_t length) { diskWriter_->truncate(length); } std::unique_ptr AbstractSingleDiskAdaptor::fileAllocationIterator() { switch (getFileAllocationMethod()) { #ifdef HAVE_SOME_FALLOCATE case (DiskAdaptor::FILE_ALLOC_FALLOC): return make_unique(diskWriter_.get(), size(), totalLength_); #endif // HAVE_SOME_FALLOCATE case (DiskAdaptor::FILE_ALLOC_TRUNC): return make_unique(diskWriter_.get(), size(), totalLength_); default: return make_unique(diskWriter_.get(), size(), totalLength_); } } void AbstractSingleDiskAdaptor::enableReadOnly() { diskWriter_->enableReadOnly(); readOnly_ = true; } void AbstractSingleDiskAdaptor::disableReadOnly() { diskWriter_->disableReadOnly(); readOnly_ = false; } void AbstractSingleDiskAdaptor::enableMmap() { diskWriter_->enableMmap(); } void AbstractSingleDiskAdaptor::cutTrailingGarbage() { if (File(getFilePath()).size() > totalLength_) { diskWriter_->truncate(totalLength_); } } void AbstractSingleDiskAdaptor::setDiskWriter( std::unique_ptr diskWriter) { diskWriter_ = std::move(diskWriter); } void AbstractSingleDiskAdaptor::setTotalLength(int64_t totalLength) { totalLength_ = totalLength; } } // namespace aria2