stasis-bLSM/diskTreeComponent.h

193 lines
6.3 KiB
C
Raw Normal View History

/*
* diskTreeComponent.h
*
* Created on: Feb 18, 2010
* Author: sears
*/
#ifndef DISKTREECOMPONENT_H_
#define DISKTREECOMPONENT_H_
#include <stasis/transactional.h>
#include <stasis/operations.h>
#include <stasis/bufferManager.h>
#include <stasis/allocationPolicy.h>
#include <stasis/blobManager.h>
#include <stasis/page.h>
#include <stasis/truncation.h>
#include "datapage.h"
#include "tuplemerger.h"
#include "datatuple.h"
typedef struct RegionAllocConf_t
{
recordid regionList;
pageid_t regionCount;
pageid_t nextPage;
pageid_t endOfRegion;
pageid_t regionSize;
} RegionAllocConf_t;
struct indexnode_rec {
pageid_t ptr;
};
typedef pageid_t(*diskTreeComponent_page_allocator_t)(int, void *);
typedef void(*diskTreeComponent_page_deallocator_t)(int, void *);
class diskTreeComponent{
public:
diskTreeComponent(int xid): region_alloc(new DataPage<datatuple>::RegionAllocator(xid, 10000)) {create(xid);} // XXX shouldn't hardcode region size.
diskTreeComponent(int xid, recordid root, recordid state, recordid dp_state)
: tree_state(state),
root_rec(root),
region_alloc(new DataPage<datatuple>::RegionAllocator(xid, dp_state)) { lastLeaf = -1; }
private:
recordid create(int xid);
public:
void print_tree(int xid);
static void init_stasis();
static void deinit_stasis();
private:
static pageid_t alloc_region(int xid, void *conf);
public:
static pageid_t alloc_region_rid(int xid, void * ridp);
static void force_region_rid(int xid, recordid rid);
static pageid_t*list_region_rid(int xid, void * ridp, pageid_t * region_len, pageid_t * region_count);
static void dealloc_region_rid(int xid, recordid rid);
static void free_region_rid(int xid, recordid tree,
diskTreeComponent_page_deallocator_t dealloc,
void *allocator_state);
static void writeNodeRecord(int xid, Page *p, recordid &rid,
const byte *key, size_t keylen, pageid_t ptr);
static void writeRecord(int xid, Page *p, recordid &rid,
const byte *data, size_t datalen);
static void writeRecord(int xid, Page *p, slotid_t slot,
const byte *data, size_t datalen);
static const byte* readRecord(int xid, Page * p, recordid &rid);
static const byte* readRecord(int xid, Page * p, slotid_t slot, int64_t size);
static int32_t readRecordLength(int xid, Page *p, slotid_t slot);
//return the left-most leaf, these are not data pages, although referred to as leaf
static pageid_t findFirstLeaf(int xid, Page *root, int64_t depth);
//return the right-most leaf
static pageid_t findLastLeaf(int xid, Page *root, int64_t depth) ;
//reads the given record and returns the page id stored in it
static pageid_t lookupLeafPageFromRid(int xid, recordid rid);
//returns a record that stores the pageid where the given key should be in, i.e. if it exists
static recordid lookup(int xid, Page *node, int64_t depth, const byte *key,
size_t keySize);
//returns the id of the data page that could contain the given key
static pageid_t findPage(int xid, recordid tree, const byte *key, size_t keySize);
//appends a leaf page, val_page is the id of the leaf page
//rmLeafID --> rightmost leaf id
static recordid appendPage(int xid, recordid tree, pageid_t & rmLeafID,
const byte *key,size_t keySize,
diskTreeComponent_page_allocator_t allocator, void *allocator_state,
long val_page);
static recordid appendInternalNode(int xid, Page *p,
int64_t depth,
const byte *key, size_t key_len,
pageid_t val_page, pageid_t lastLeaf,
diskTreeComponent_page_allocator_t allocator,
void *allocator_state);
static recordid buildPathToLeaf(int xid, recordid root, Page *root_p,
int64_t depth, const byte *key, size_t key_len,
pageid_t val_page, pageid_t lastLeaf,
diskTreeComponent_page_allocator_t allocator,
void *allocator_state);
inline DataPage<datatuple>::RegionAllocator* get_alloc() { return region_alloc; }
/**
Initialize a page for use as an internal node of the tree.
*/
inline static void initializeNodePage(int xid, Page *p);
recordid &get_tree_state(){return tree_state;}
recordid &get_root_rec(){return root_rec;}
public:
const static RegionAllocConf_t REGION_ALLOC_STATIC_INITIALIZER;
const static int64_t DEPTH;
const static int64_t COMPARATOR;
const static int64_t FIRST_SLOT;
const static size_t root_rec_size;
const static int64_t PREV_LEAF;
const static int64_t NEXT_LEAF;
pageid_t lastLeaf;
private:
void print_tree(int xid, pageid_t pid, int64_t depth);
private:
recordid tree_state;
recordid root_rec;
DataPage<datatuple>::RegionAllocator* region_alloc;
};
typedef struct {
Page * p;
recordid current;
indexnode_rec *t;
int justOnePage;
} diskTreeComponentIterator_t;
class diskTreeComponentIterator
{
public:
static lladdIterator_t* open(int xid, recordid root);
static lladdIterator_t* openAt(int xid, recordid root, const byte* key, len_t keylen);
static int next(int xid, lladdIterator_t *it);
static void close(int xid, lladdIterator_t *it);
static inline size_t key (int xid, lladdIterator_t *it, byte **key)
{
diskTreeComponentIterator_t * impl = (diskTreeComponentIterator_t*)it->impl;
*key = (byte*)(impl->t+1);
return impl->current.size - sizeof(indexnode_rec);
}
static inline size_t value(int xid, lladdIterator_t *it, byte **value)
{
diskTreeComponentIterator_t * impl = (diskTreeComponentIterator_t*)it->impl;
*value = (byte*)&(impl->t->ptr);
return sizeof(impl->t->ptr);
}
static inline void tupleDone(int xid, void *it) { }
static inline void releaseLock(int xid, void *it) { }
};
#endif /* DISKTREECOMPONENT_H_ */