95 lines
3.5 KiB
C++
95 lines
3.5 KiB
C++
#include "parallelaccessdatatreestore/DataTreeRef.h"
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#include "BlobOnBlocks.h"
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#include "datanodestore/DataLeafNode.h"
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#include "utils/Math.h"
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#include <cmath>
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using std::unique_ptr;
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using std::function;
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using blobstore::onblocks::datanodestore::DataLeafNode;
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using blobstore::onblocks::datanodestore::DataNodeLayout;
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using blockstore::Key;
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namespace blobstore {
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namespace onblocks {
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using parallelaccessdatatreestore::DataTreeRef;
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BlobOnBlocks::BlobOnBlocks(unique_ptr<DataTreeRef> datatree)
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: _datatree(std::move(datatree)) {
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}
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BlobOnBlocks::~BlobOnBlocks() {
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}
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uint64_t BlobOnBlocks::size() const {
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return _datatree->numStoredBytes();
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}
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void BlobOnBlocks::resize(uint64_t numBytes) {
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_datatree->resizeNumBytes(numBytes);
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}
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void BlobOnBlocks::traverseLeaves(uint64_t beginByte, uint64_t sizeBytes, function<void (uint64_t, DataLeafNode *leaf, uint32_t, uint32_t)> func) const {
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uint64_t endByte = beginByte + sizeBytes;
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uint32_t firstLeaf = beginByte / _datatree->maxBytesPerLeaf();
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uint32_t endLeaf = utils::ceilDivision(endByte, _datatree->maxBytesPerLeaf());
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bool traversingOutOfRange = _datatree->numStoredBytes() < endByte; //TODO numBytes() inefficient
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_datatree->traverseLeaves(firstLeaf, endLeaf, [&func, beginByte, endByte, endLeaf, traversingOutOfRange](DataLeafNode *leaf, uint32_t leafIndex) {
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uint64_t indexOfFirstLeafByte = leafIndex * leaf->maxStoreableBytes();
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uint32_t dataBegin = utils::maxZeroSubtraction(beginByte, indexOfFirstLeafByte);
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uint32_t dataEnd = std::min((uint64_t)leaf->maxStoreableBytes(), endByte - indexOfFirstLeafByte);
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if (leafIndex == endLeaf-1 && traversingOutOfRange) {
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// If we are traversing an area that didn't exist before, then the last leaf was just created with a wrong size. We have to fix it.
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leaf->resize(dataEnd);
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}
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func(indexOfFirstLeafByte, leaf, dataBegin, dataEnd-dataBegin);
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});
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}
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void BlobOnBlocks::read(void *target, uint64_t offset, uint64_t count) const {
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assert(offset <= _datatree->numStoredBytes() && offset + count <= size());
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uint64_t read = tryRead(target, offset, count);
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assert(read == count);
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}
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uint64_t BlobOnBlocks::tryRead(void *target, uint64_t offset, uint64_t count) const {
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//TODO Quite inefficient to call size() here, because that has to traverse the tree
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uint64_t realCount = std::max(UINT64_C(0), std::min(count, size()-offset));
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traverseLeaves(offset, realCount, [target, offset] (uint64_t indexOfFirstLeafByte, const DataLeafNode *leaf, uint32_t leafDataOffset, uint32_t leafDataSize) {
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//TODO Simplify formula, make it easier to understand
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leaf->read((uint8_t*)target + indexOfFirstLeafByte - offset + leafDataOffset, leafDataOffset, leafDataSize);
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});
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return realCount;
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}
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void BlobOnBlocks::write(const void *source, uint64_t offset, uint64_t size) {
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traverseLeaves(offset, size, [source, offset] (uint64_t indexOfFirstLeafByte, DataLeafNode *leaf, uint32_t leafDataOffset, uint32_t leafDataSize) {
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//TODO Simplify formula, make it easier to understand
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leaf->write((uint8_t*)source + indexOfFirstLeafByte - offset + leafDataOffset, leafDataOffset, leafDataSize);
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});
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}
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void BlobOnBlocks::flush() {
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_datatree->flush();
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}
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void BlobOnBlocks::resizeIfSmallerThan(uint64_t neededSize) {
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//TODO This is inefficient, because size() and resizeNumBytes() both traverse the tree. Better: _datatree->ensureMinSize(x)
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if (neededSize > size()) {
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_datatree->resizeNumBytes(neededSize);
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}
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}
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Key BlobOnBlocks::key() const {
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return _datatree->key();
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}
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unique_ptr<DataTreeRef> BlobOnBlocks::releaseTree() {
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return std::move(_datatree);
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}
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}
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}
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