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Berkeley DB Programmer's Reference Guide
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Berkeley DB Programmer's Reference Guide

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9/9/2013

Table of Contents

Conventions Used in this Book

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1. Introduction

An introduction to data management

Mapping the terrain: theory and practice

Data access and data management
Relational databases
Object-oriented databases
Network databases
Clients and servers

What is Berkeley DB?

Data Access Services
Data management services
Design

What Berkeley DB is not

Berkeley DB is not a relational database
Berkeley DB is not an object-oriented database
Berkeley DB is not a network database
Berkeley DB is not a database server

Do you need Berkeley DB?

What other services does Berkeley DB provide?

What does the Berkeley DB distribution include?

Where does Berkeley DB run?

The Berkeley DB products

Berkeley DB Data Store
Berkeley DB Concurrent Data Store
Berkeley DB Transactional Data Store
Berkeley DB High Availability

2. Access Method Configuration

What are the available access methods?

Btree
Hash
Heap
Queue
Recno

Selecting an access method

Btree or Heap?
Hash or Btree?
Queue or Recno?

Logical record numbers

General access method configuration

Selecting a page size
Selecting a cache size
Selecting a byte order
Duplicate data items
Non-local memory allocation

Btree access method specific configuration

Btree comparison
Btree prefix comparison
Minimum keys per page
Retrieving Btree records by logical record number
Compression

Hash access method specific configuration

Page fill factor
Specifying a database hash
Hash table size

Heap access method specific configuration

Queue and Recno access method specific configuration

Managing record-based databases
Selecting a Queue extent size
Flat-text backing files
Logically renumbering records

3. Access Method Operations

Database open

Opening multiple databases in a single file

Configuring databases sharing a file
Caching databases sharing a file
Locking in databases based on sharing a file

Partitioning databases

Specifying partition keys
Partitioning callback
Placing partition files

Retrieving records

Storing records

Deleting records

Database statistics

Database truncation

Database upgrade

Database verification and salvage

Flushing the database cache

Database close

Secondary indexes

Error Handling With Secondary Indexes

Foreign key indexes

Cursor operations

Retrieving records with a cursor
Storing records with a cursor
Deleting records with a cursor
Duplicating a cursor
Equality Join
Data item count
Cursor close

4. Access Method Wrapup

Data alignment

Retrieving and updating records in bulk

Bulk retrieval
Bulk updates
Bulk deletes

Partial record storage and retrieval

Storing C/C++ structures/objects

Retrieved key/data permanence for C/C++

Error support

Cursor stability

Database limits

Disk space requirements

Btree
Hash

Specifying a Berkeley DB schema using SQL DDL

Access method tuning

Access method FAQ

5. Java API

Java configuration
Compatibility
Java programming notes
Java FAQ

Compatibility

7. Standard Template Library API

Dbstl introduction

Standards compatible
Performance overhead
Portability

Dbstl typical use cases

Dbstl examples

Berkeley DB configuration

Registering database and environment handles
Truncate requirements
Auto commit support
Database and environment identity checks
Products, constructors and configurations

Using advanced Berkeley DB features with dbstl

Using bulk retrieval iterators
Using the DB_RMW flag
Using secondary index database and secondary containers

Using transactions in dbstl

Using dbstl in multithreaded applications

Working with primitive types

Storing strings

Store and Retrieve data or objects of complex types

Storing varying length objects
Storing arbitrary sequences
Notes

Dbstl persistence

Direct database get
Change persistence
Object life time and persistence

Dbstl container specific notes

db_vector specific notes
Associative container specific notes

Using dbstl efficiently

Using iterators efficiently
Using containers efficiently

Dbstl memory management

Freeing memory
Type specific notes

Dbstl miscellaneous notes

Special notes about trivial methods
Using correct container and iterator public types

Dbstl known issues

8. Berkeley DB Architecture

The big picture

Programming model

Programmatic APIs

C
C++
STL
Java
Dbm/Ndbm, Hsearch

Scripting languages

Perl
PHP
Tcl

Supporting utilities

9. The Berkeley DB Environment

Database environment introduction

Creating a database environment

Sizing a database environment

Opening databases within the environment

Error support

DB_CONFIG configuration file

File naming

Specifying file naming to Berkeley DB
Filename resolution in Berkeley DB
Examples

Shared memory regions

Remote filesystems

Environment FAQ

10. Berkeley DB Concurrent Data Store Applications

Concurrent Data Store introduction
Handling failure in Data Store and Concurrent Data Store applications
Architecting Data Store and Concurrent Data Store applications

11. Berkeley DB Transactional Data Store Applications

Transactional Data Store introduction

Why transactions?

Terminology

Handling failure in Transactional Data Store applications

Architecting Transactional Data Store applications

Opening the environment

Opening the databases

Recoverability and deadlock handling

Degrees of isolation

Snapshot Isolation

Transactional cursors

Nested transactions

Environment infrastructure

Deadlock detection

Checkpoints

Database and log file archival

Log file removal

Recovery procedures

Hot failover

Using Recovery on Journaling Filesystems

Recovery and filesystem operations

Berkeley DB recoverability

Transaction tuning

Transaction throughput

Transaction FAQ

12. Berkeley DB Replication

Replication introduction

Replication environment IDs

Replication environment priorities

Building replicated applications

Replication Manager methods

Base API Methods

Building the communications infrastructure

Connecting to a new site

Managing Replication Manager Group Membership

Adding Sites to a Replication Group
Removing Sites from a Replication Group
Primordial Startups
Upgrading Groups

Managing Replication Files

Running Replication Manager in multiple processes

One replication process and multiple subordinate processes
Persistence of local site network address configuration
Programming considerations
Handling failure
Other miscellaneous rules

Running Replication using the db_replicate Utility

One Replication Process and Multiple Subordinate Processes
Common Use Case
Avoiding Rollback
When to Consider an Integrated HA Application

Choosing a Replication Manager Ack Policy

Synchronizing with a master

Delaying client synchronization
Client-to-client synchronization
Blocked client operations
Clients too far out-of-date to synchronize

Initializing a new site

Bulk transfer

Transactional guarantees

Master Leases

Changing Group Size

Read your writes consistency

Getting a token
Token handling
Using a token to check or wait for a transaction

Using Replication Manager message channels

DB_CHANNEL
Sending messages over a message channel
Receiving messages

Special considerations for two-site replication groups

Network partitions

Replication FAQ

Ex_rep: a replication example

Ex_rep_base: a TCP/IP based communication infrastructure

Ex_rep_base: putting it all together

Ex_rep_chan: a Replication Manager channel example

13. Distributed Transactions

Introduction

Berkeley DB XA Implementation

Building a Global Transaction Manager

Communicating with multiple Berkeley DB environments
Recovering from GTM failure
Managing the Global Transaction ID (GID) name space
Maintaining state for each distributed transaction.
Recovering from the failure of a single environment
Recovering from GTM failure

XA Introduction

Configuring Berkeley DB with the Tuxedo System

Update the Resource Manager File in Tuxedo
Build the Transaction Manager Server
Update the UBBCONFIG File

Restrictions on XA Transactions

XA: Frequently Asked Questions

14. Application Specific Logging and Recovery

Introduction to application specific logging and recovery
Defining application-specific log records
Automatically generated functions
Application configuration

15. Programmer Notes

Signal handling

Error returns to applications

Environment variables

Multithreaded applications

Berkeley DB handles

Name spaces

C Language Name Space
Filesystem Name Space

Memory-only or Flash configurations

Disk drive caches

Copying or moving databases

Compatibility with historic UNIX interfaces

Run-time configuration

Performance Event Monitoring

Using the DTrace Provider
Using SystemTap
Example Scripts
Performance Events Reference

Programmer notes FAQ

16. The Locking Subsystem

Introduction to the locking subsystem
Configuring locking
Configuring locking: sizing the system
Standard lock modes
Deadlock detection
Deadlock detection using timers
Deadlock debugging
Locking granularity
Locking without transactions
Locking with transactions: two-phase locking
Berkeley DB Concurrent Data Store locking conventions
Berkeley DB Transactional Data Store locking conventions
Locking and non-Berkeley DB applications

17. The Logging Subsystem

Introduction to the logging subsystem
Configuring logging
Log file limits

18. The Memory Pool Subsystem

Introduction to the memory pool subsystem

Configuring the memory pool

Warming the memory pool

The warm_cache() function

19. The Transaction Subsystem

Introduction to the transaction subsystem

Configuring transactions

Transaction limits

Transaction IDs
Cursors
Multiple Threads of Control

20. Sequences

21. Berkeley DB Extensions: Tcl

Loading Berkeley DB with Tcl

Installing as a Tcl Package
Loading Berkeley DB with Tcl

Using Berkeley DB with Tcl

Tcl API programming notes

Tcl error handling

22. Berkeley DB Extensions

Using Berkeley DB with Apache
Using Berkeley DB with Perl
Using Berkeley DB with PHP

23. Dumping and Reloading Databases

The db_dump and db_load utilities
Dump output formats
Loading text into databases

24. Additional References

Additional references

Technical Papers on Berkeley DB
Background on Berkeley DB Features
Database Systems Theory

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