libcryfs/implementations/onblocks/datanodestore/DataNodeStore.cpp

#include "DataInnerNode.h"
#include "DataLeafNode.h"
#include "DataNodeStore.h"
#include "messmer/blockstore/interface/BlockStore.h"
#include "messmer/blockstore/interface/Block.h"
#include "messmer/blockstore/utils/BlockStoreUtils.h"


using blockstore::BlockStore;
using blockstore::Block;
using blockstore::Key;
using std::unique_ptr;
using std::make_unique;
using std::runtime_error;

namespace blobstore {
namespace onblocks {
namespace datanodestore {

DataNodeStore::DataNodeStore(unique_ptr<BlockStore> blockstore, uint32_t blocksizeBytes)
: _blockstore(std::move(blockstore)), _layout(blocksizeBytes) {
}

DataNodeStore::~DataNodeStore() {
}

unique_ptr<DataNode> DataNodeStore::load(unique_ptr<Block> block) {
  assert(block->size() == _layout.blocksizeBytes());
  DataNodeView node(std::move(block));

  if (*node.Depth() == 0) {
    return unique_ptr<DataLeafNode>(new DataLeafNode(std::move(node)));
  } else if (*node.Depth() <= MAX_DEPTH) {
    return unique_ptr<DataInnerNode>(new DataInnerNode(std::move(node)));
  } else {
    throw runtime_error("Tree is to deep. Data corruption?");
  }
}

unique_ptr<DataInnerNode> DataNodeStore::createNewInnerNode(const DataNode &first_child) {
  assert(first_child.node().layout().blocksizeBytes() == _layout.blocksizeBytes());  // This might be violated if source is from a different DataNodeStore
  auto block = _blockstore->create(_layout.blocksizeBytes());
  return DataInnerNode::InitializeNewNode(std::move(block), first_child);
}

unique_ptr<DataLeafNode> DataNodeStore::createNewLeafNode() {
  auto block = _blockstore->create(_layout.blocksizeBytes());
  return DataLeafNode::InitializeNewNode(std::move(block));
}

unique_ptr<DataNode> DataNodeStore::load(const Key &key) {
  auto block = _blockstore->load(key);
  if (block == nullptr) {
    return nullptr;
  }
  return load(std::move(block));
}

unique_ptr<DataNode> DataNodeStore::createNewNodeAsCopyFrom(const DataNode &source) {
  assert(source.node().layout().blocksizeBytes() == _layout.blocksizeBytes());  // This might be violated if source is from a different DataNodeStore
  auto newBlock = blockstore::utils::copyToNewBlock(_blockstore.get(), source.node().block());
  return load(std::move(newBlock));
}

unique_ptr<DataNode> DataNodeStore::overwriteNodeWith(unique_ptr<DataNode> target, const DataNode &source) {
  assert(target->node().layout().blocksizeBytes() == _layout.blocksizeBytes());
  assert(source.node().layout().blocksizeBytes() == _layout.blocksizeBytes());
  Key key = target->key();
  {
    auto targetBlock = target->node().releaseBlock();
    target.reset();
    blockstore::utils::copyTo(targetBlock.get(), source.node().block());
  }
  return load(key);
}

void DataNodeStore::remove(unique_ptr<DataNode> node) {
  auto block = node->node().releaseBlock();
  node.reset();
  _blockstore->remove(std::move(block));
}

uint64_t DataNodeStore::numNodes() const {
  return _blockstore->numBlocks();
}

void DataNodeStore::removeSubtree(unique_ptr<DataNode> node) {
  DataInnerNode *inner = dynamic_cast<DataInnerNode*>(node.get());
  if (inner != nullptr) {
    for (int i = 0; i < inner->numChildren(); ++i) {
      auto child = load(inner->getChild(i)->key());
      removeSubtree(std::move(child));
    }
  }
  remove(std::move(node));
}

DataNodeLayout DataNodeStore::layout() const {
  return _layout;
}

}
}
}
Restrict datanodestore abstraction to a simple node store without tree operations like resizing 2015-01-22 23:37:03 +01:00			`#include "DataInnerNode.h"`
			`#include "DataLeafNode.h"`
			`#include "DataNodeStore.h"`
Switch to biicode 2015-02-17 00:40:34 +01:00			`#include "messmer/blockstore/interface/BlockStore.h"`
			`#include "messmer/blockstore/interface/Block.h"`
			`#include "messmer/blockstore/utils/BlockStoreUtils.h"`
Introduce DataNodeStore and refactor DataNode 2014-12-13 17:43:02 +01:00

			`using blockstore::BlockStore;`
			`using blockstore::Block;`
			`using blockstore::Key;`
			`using std::unique_ptr;`
			`using std::make_unique;`
			`using std::runtime_error;`

			`namespace blobstore {`
			`namespace onblocks {`
Move datanodestore classes into own c++ package and adapt BlobStoreOnBlocks to it 2014-12-13 19:17:08 +01:00			`namespace datanodestore {`
Introduce DataNodeStore and refactor DataNode 2014-12-13 17:43:02 +01:00
Make block size configureable in DataNodeStore -> this greatly speeds up our test cases, because they can use smaller blocks, which means less children per inner node 2015-02-25 22:30:48 +01:00			`DataNodeStore::DataNodeStore(unique_ptr<BlockStore> blockstore, uint32_t blocksizeBytes)`
			`: _blockstore(std::move(blockstore)), _layout(blocksizeBytes) {`
Introduce DataNodeStore and refactor DataNode 2014-12-13 17:43:02 +01:00			`}`

			`DataNodeStore::~DataNodeStore() {`
			`}`

Since blocks now store their keys, we don't need to store it somewhere else. 2015-01-24 22:27:14 +01:00			`unique_ptr<DataNode> DataNodeStore::load(unique_ptr<Block> block) {`
Make block size configureable in DataNodeStore -> this greatly speeds up our test cases, because they can use smaller blocks, which means less children per inner node 2015-02-25 22:30:48 +01:00			`assert(block->size() == _layout.blocksizeBytes());`
Introduce DataNodeStore and refactor DataNode 2014-12-13 17:43:02 +01:00			`DataNodeView node(std::move(block));`

			`if (*node.Depth() == 0) {`
Since blocks now store their keys, we don't need to store it somewhere else. 2015-01-24 22:27:14 +01:00			`return unique_ptr<DataLeafNode>(new DataLeafNode(std::move(node)));`
Introduce DataNodeStore and refactor DataNode 2014-12-13 17:43:02 +01:00			`} else if (*node.Depth() <= MAX_DEPTH) {`
Since blocks now store their keys, we don't need to store it somewhere else. 2015-01-24 22:27:14 +01:00			`return unique_ptr<DataInnerNode>(new DataInnerNode(std::move(node)));`
Introduce DataNodeStore and refactor DataNode 2014-12-13 17:43:02 +01:00			`} else {`
			`throw runtime_error("Tree is to deep. Data corruption?");`
			`}`
			`}`

Add testcases to DataLeafNodeTest 2014-12-13 17:58:11 +01:00			`unique_ptr<DataInnerNode> DataNodeStore::createNewInnerNode(const DataNode &first_child) {`
Make block size configureable in DataNodeStore -> this greatly speeds up our test cases, because they can use smaller blocks, which means less children per inner node 2015-02-25 22:30:48 +01:00			`assert(first_child.node().layout().blocksizeBytes() == _layout.blocksizeBytes()); // This might be violated if source is from a different DataNodeStore`
			`auto block = _blockstore->create(_layout.blocksizeBytes());`
Refactor initialization of DataLeafNode/DataInnerNode 2015-02-20 19:46:52 +01:00			`return DataInnerNode::InitializeNewNode(std::move(block), first_child);`
Introduce DataNodeStore and refactor DataNode 2014-12-13 17:43:02 +01:00			`}`

Add testcases to DataLeafNodeTest 2014-12-13 17:58:11 +01:00			`unique_ptr<DataLeafNode> DataNodeStore::createNewLeafNode() {`
Make block size configureable in DataNodeStore -> this greatly speeds up our test cases, because they can use smaller blocks, which means less children per inner node 2015-02-25 22:30:48 +01:00			`auto block = _blockstore->create(_layout.blocksizeBytes());`
Refactor initialization of DataLeafNode/DataInnerNode 2015-02-20 19:46:52 +01:00			`return DataLeafNode::InitializeNewNode(std::move(block));`
Introduce DataNodeStore and refactor DataNode 2014-12-13 17:43:02 +01:00			`}`

			`unique_ptr<DataNode> DataNodeStore::load(const Key &key) {`
Added some test cases for shrinking trees 2015-02-23 16:21:02 +01:00			`auto block = _blockstore->load(key);`
			`if (block == nullptr) {`
			`return nullptr;`
			`}`
			`return load(std::move(block));`
Introduce DataNodeStore and refactor DataNode 2014-12-13 17:43:02 +01:00			`}`

Implement copying DataNode blocks and finish DataTree::addDataLeaf implementation 2015-01-24 01:59:42 +01:00			`unique_ptr<DataNode> DataNodeStore::createNewNodeAsCopyFrom(const DataNode &source) {`
Make block size configureable in DataNodeStore -> this greatly speeds up our test cases, because they can use smaller blocks, which means less children per inner node 2015-02-25 22:30:48 +01:00			`assert(source.node().layout().blocksizeBytes() == _layout.blocksizeBytes()); // This might be violated if source is from a different DataNodeStore`
Implement copying DataNode blocks and finish DataTree::addDataLeaf implementation 2015-01-24 01:59:42 +01:00			`auto newBlock = blockstore::utils::copyToNewBlock(_blockstore.get(), source.node().block());`
Since blocks now store their keys, we don't need to store it somewhere else. 2015-01-24 22:27:14 +01:00			`return load(std::move(newBlock));`
Implement copying DataNode blocks and finish DataTree::addDataLeaf implementation 2015-01-24 01:59:42 +01:00			`}`

Implement tree shrinking and some test cases for it 2015-02-22 19:30:42 +01:00			`unique_ptr<DataNode> DataNodeStore::overwriteNodeWith(unique_ptr<DataNode> target, const DataNode &source) {`
Make block size configureable in DataNodeStore -> this greatly speeds up our test cases, because they can use smaller blocks, which means less children per inner node 2015-02-25 22:30:48 +01:00			`assert(target->node().layout().blocksizeBytes() == _layout.blocksizeBytes());`
			`assert(source.node().layout().blocksizeBytes() == _layout.blocksizeBytes());`
Implement tree shrinking and some test cases for it 2015-02-22 19:30:42 +01:00			`Key key = target->key();`
			`{`
			`auto targetBlock = target->node().releaseBlock();`
			`target.reset();`
			`blockstore::utils::copyTo(targetBlock.get(), source.node().block());`
			`}`
			`return load(key);`
			`}`

			`void DataNodeStore::remove(unique_ptr<DataNode> node) {`
			`auto block = node->node().releaseBlock();`
			`node.reset();`
			`_blockstore->remove(std::move(block));`
			`}`

Added test cases shrinking down full trees to one-leaf trees 2015-02-23 21:06:45 +01:00			`uint64_t DataNodeStore::numNodes() const {`
			`return _blockstore->numBlocks();`
			`}`

Implement removing trees and write some test cases for DataTreeStore 2015-02-24 22:44:10 +01:00			`void DataNodeStore::removeSubtree(unique_ptr<DataNode> node) {`
Make block size configureable in DataNodeStore -> this greatly speeds up our test cases, because they can use smaller blocks, which means less children per inner node 2015-02-25 22:30:48 +01:00			`DataInnerNode inner = dynamic_cast<DataInnerNode>(node.get());`
			`if (inner != nullptr) {`
			`for (int i = 0; i < inner->numChildren(); ++i) {`
			`auto child = load(inner->getChild(i)->key());`
			`removeSubtree(std::move(child));`
			`}`
			`}`
			`remove(std::move(node));`
			`}`

			`DataNodeLayout DataNodeStore::layout() const {`
			`return _layout;`
			`}`
Implement removing trees and write some test cases for DataTreeStore 2015-02-24 22:44:10 +01:00
Introduce DataNodeStore and refactor DataNode 2014-12-13 17:43:02 +01:00			`}`
			`}`
Move datanodestore classes into own c++ package and adapt BlobStoreOnBlocks to it 2014-12-13 19:17:08 +01:00			`}`