Berkeley DB Reference Guide, Version 4.2.52
- Introduction
- An introduction to data management
- Mapping the terrain: theory and practice
- What is Berkeley DB?
- What Berkeley DB is not
- Do you need Berkeley DB?
- What other services does Berkeley DB provide?
- What does the Berkeley DB distribution include?
- Where does Berkeley DB run?
- Sleepycat Software's Berkeley DB products
- A Simple Access Method Tutorial
- Introduction
- Key/data pairs
- Object handles
- Error returns
- Opening a database
- Adding elements to a database
- Retrieving elements from a database
- Removing elements from a database
- Closing a database
- Access Method Configuration
- What are the available access methods?
- Selecting an access method
- 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
- Hash access method specific configuration
- Page fill factor
- Specifying a database hash
- Hash table size
- Queue and Recno access method specific configuration
- Managing record-based databases
- Selecting a Queue extent size
- Flat-text backing files
- Logically renumbering records
- Access Method Operations
- Access method operations
- Database open
- Opening multiple databases in a single file
- Retrieving records
- Storing records
- Deleting records
- Database statistics
- Database truncation
- Database upgrade
- Database verification and salvage
- Flushing the database cache
- Database close
- Secondary indices
- 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
- Access Method Wrapup
- Data alignment
- Retrieving records in bulk
- 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
- Access method tuning
- Access method FAQ
- Java Collections for Berkeley DB
- Introduction
- Basic - The shipment program
- Defining serialized key and value classes
- Opening and closing the database environment
- Opening and closing the class catalog
- Opening and closing database stores
- Creating bindings and collections
- Implementing the main program
- Using transactions
- Adding database items
- Retrieving database items
- Handling exceptions
- Index - Indices and foreign keys
- Opening secondary key indices
- Opening foreign key indices
- Creating indexed collections
- Retrieving items by index key
- Entity - Combining the key and value in a single object
- Defining entity classes
- Creating entity bindings
- Creating collections with entity bindings
- Using entities with collections
- Tuple - Compact ordered keys
- Using the tuple format
- Using tuples with key extractors
- Creating tuple key bindings
- Creating tuple-serial entity bindings
- Using sorted collections
- Serializable Entity - One serializable class for entities and values
- Using transient fields in an entity class
- Using transient fields in an entity binding
- Removing the redundant value classes
- Summary and next steps
- BDB Java API
- Introduction
- Using Data Formats and Bindings
- Access Methods and Transaction Options
- Using Stored Collections
- Java serialization data format and bindings
- BDB Java FAQ
- Java API
- Java configuration
- Compatibility
- Java programming notes
- Java FAQ
- Berkeley DB Architecture
- The big picture
- Programming model
- Programmatic APIs
- Scripting languages
- Supporting utilities
- The Berkeley DB Environment
- Database environment introduction
- Creating a database environment
- Opening databases within the environment
- Error support
- DB_CONFIG configuration file
- File naming
- Shared memory regions
- Security
- Encryption
- Remote filesystems
- Environment FAQ
- Berkeley DB Concurrent Data Store Applications
- Berkeley DB Concurrent Data Store applications
- Berkeley DB Transactional Data Store Applications
- Berkeley DB Transactional Data Store applications
- Why transactions?
- Terminology
- Application structure
- Opening the environment
- Opening the databases
- Recoverability and deadlock handling
- Atomicity
- Isolation
- Degrees of isolation
- Transactional cursors
- Nested transactions
- Environment infrastructure
- Deadlock detection
- Checkpoints
- Database and log file archival
- Log file removal
- Recovery procedures
- Hot failover
- Recovery and filesystem operations
- Berkeley DB recoverability
- Transaction tuning
- Transaction throughput
- Transaction FAQ
- Berkeley DB Replication
- Introduction
- Replication environment IDs
- Replication environment priorities
- Building replicated applications
- Building the communications infrastructure
- Connecting to a new site
- Initializing a new site
- Elections
- Log file only clients
- Transactional guarantees
- Network partitions
- Replication FAQ
- Ex_repquote: a replication example
- Ex_repquote: a TCP/IP based communication infrastructure
- Ex_repquote: putting it all together
- Distributed Transactions
- Introduction
- Building a Global Transaction Manager
- XA Introduction
- Configuring Berkeley DB with the Tuxedo System
- Frequently Asked Questions
- Application Specific Logging and Recovery
- Introduction
- Defining application-specific log records
- Automatically generated functions
- Application configuration
- Programmer Notes
- Signal handling
- Error returns to applications
- Environmental variables
- Multithreaded applications
- Berkeley DB handles
- Name spaces
- RAM-only configurations
- Disk drive caches
- Copying databases
- Compatibility with historic UNIX interfaces
- Run-time configuration
- Programmer notes FAQ
- The Locking Subsystem
- Berkeley DB and locking
- 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
- The Logging Subsystem
- Berkeley DB and logging
- Configuring logging
- Log file limits
- The Memory Pool Subsystem
- Berkeley DB and the memory pool
- Configuring the memory pool
- The Transaction Subsystem
- Berkeley DB and transactions
- Configuring transactions
- Transaction limits
- RPC Client/Server
- Introduction
- Client program
- Server program
- RPC FAQ
- Perl API
- Using Berkeley DB with Perl
- Tcl API
- Loading Berkeley DB with Tcl
- Using Berkeley DB with Tcl
- Tcl API programming notes
- Tcl error handling
- Tcl FAQ
- Dumping and Reloading Databases
- The db_dump and db_load utilities
- Dump output formats
- Loading text into databases
- System Installation Notes
- File utility /etc/magic information
- Building with multiple versions of Berkeley DB
- Building RPM distribution packages
- Debugging Applications
- Introduction
- Compile-time configuration
- Run-time error information
- Reviewing Berkeley DB log files
- Troubleshooting common Berkeley DB problems
- Building Berkeley DB for UNIX/POSIX systems
- Building for UNIX
- Configuring Berkeley DB
- Building a small memory footprint library
- Changing compile or load options
- Installing Berkeley DB
- Dynamic shared libraries
- Running the test suite under UNIX
- Architecture independent FAQ
- Architecture specific FAQs:
AIX,
FreeBSD,
HP-UX,
IRIX,
Linux,
Mac OS X,
OSF/1,
QNX,
SCO,
Solaris,
SunOS,
Ultrix
- Building Berkeley DB for Win32 systems
- Building for Win32
- Building a small memory footprint library on Windows
- Running the test suite under Windows
- Windows notes
- Windows FAQ
- Building Berkeley DB for VxWorks systems
- Building for VxWorks 5.4
- Building for VxWorks AE
- VxWorks notes
- VxWorks FAQ
- Upgrading Berkeley DB Applications
- Library version information
-
Upgrading Berkeley DB installations
-
Upgrading Berkeley DB 1.XX applications to Berkeley DB 2.0
-
Upgrading Berkeley DB 2.X.X applications to Berkeley DB 3.0
-
Upgrading Berkeley DB 3.0.X applications to Berkeley DB 3.1
-
Upgrading Berkeley DB 3.1.X applications to Berkeley DB 3.2
-
Upgrading Berkeley DB 3.2.X applications to Berkeley DB 3.3
-
Upgrading Berkeley DB 3.3.X applications to Berkeley DB 4.0
-
Upgrading Berkeley DB 4.0.X applications to Berkeley DB 4.1
-
Upgrading Berkeley DB 4.1.X applications to Berkeley DB 4.2
- Test Suite
- Running the test suite
- Test suite FAQ
- Distribution
- Porting Berkeley DB to new architectures
- Source code layout
- Additional References
- Additional references