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Release Notes for MongoDB 2.0

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  • Upgrading
  • Changes
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Although the major version number has changed, MongoDB 2.0 is a standard, incremental production release and works as a drop-in replacement for MongoDB 1.8.

Read through all release notes before upgrading, and ensure that no changes will affect your deployment.

If you create new indexes in 2.0, then downgrading to 1.8 is possible but you must reindex the new collections.

mongoimport and mongoexport now correctly adhere to the CSV spec for handling CSV input/output. This may break existing import/export workflows that relied on the previous behavior. For more information see SERVER-1097.

Journaling is enabled by default in 2.0 for 64-bit builds. If you still prefer to run without journaling, start mongod with the --nojournal run-time option. Otherwise, MongoDB creates journal files during startup. The first time you start mongod with journaling, you will see a delay as mongod creates new files. In addition, you may see reduced write throughput.

2.0 mongod instances are interoperable with 1.8 mongod instances; however, for best results, upgrade your deployments using the following procedures:

  1. Download the v2.0.x binaries from the MongoDB Download Page.

  2. Shutdown your mongod instance. Replace the existing binary with the 2.0.x mongod binary and restart MongoDB.

  1. Upgrade the secondary members of the set one at a time by shutting down the mongod and replacing the 1.8 binary with the 2.0.x binary from the MongoDB Download Page.

  2. To avoid losing the last few updates on failover you can temporarily halt your application (failover should take less than 10 seconds), or you can set write concern in your application code to confirm that each update reaches multiple servers.

  3. Use the rs.stepDown() to step down the primary to allow the normal failover procedure.

    rs.stepDown() and replSetStepDown provide for shorter and more consistent failover procedures than simply shutting down the primary directly.

    When the primary has stepped down, shut down its instance and upgrade by replacing the mongod binary with the 2.0.x binary.

  1. Upgrade all config server instances first, in any order. Since config servers use two-phase commit, shard configuration metadata updates will halt until all are up and running.

  2. Upgrade mongos routers in any order.

A compact command is now available for compacting a single collection and its indexes. Previously, the only way to compact was to repair the entire database.

When going to disk, the server will yield the write lock when writing data that is not likely to be in memory. The initial implementation of this feature now exists:

See SERVER-2563 for more information.

The specific operations yield in 2.0 are:

  • Updates by _id

  • Removes

  • Long cursor iterations

MongoDB 2.0 reduces the default stack size. This change can reduce total memory usage when there are many (e.g., 1000+) client connections, as there is a thread per connection. While portions of a thread's stack can be swapped out if unused, some operating systems do this slowly enough that it might be an issue. The default stack size is lesser of the system setting or 1MB.

v2.0 includes significant improvements to the index. Indexes are often 25% smaller and 25% faster (depends on the use case). When upgrading from previous versions, the benefits of the new index type are realized only if you create a new index or re-index an old one.

Dates are now signed, and the max index key size has increased slightly from 819 to 1024 bytes.

All operations that create a new index will result in a 2.0 index by default. For example:

  • Reindexing results on an older-version index results in a 2.0 index. However, reindexing on a secondary does not work in versions prior to 2.0. Do not reindex on a secondary. For a workaround, see SERVER-3866.

  • The repairDatabase command converts indexes to a 2.0 indexes.

To convert all indexes for a given collection to the 2.0 type, invoke the compact command.

Once you create new indexes, downgrading to 1.8.x will require a re-index of any indexes created using 2.0. See /tutorial/roll-back-to-v1.8-index.

Applications can now use authentication with sharded clusters.

In 2.0, mongos instances can now determine when a member of a replica set becomes "hidden" without requiring a restart. In 1.8, mongos if you reconfigured a member as hidden, you had to restart mongos to prevent queries from reaching the hidden member.

Each replica set member can now have a priority value consisting of a floating-point from 0 to 1000, inclusive. Priorities let you control which member of the set you prefer to have as primary the member with the highest priority that can see a majority of the set will be elected primary.

For example, suppose you have a replica set with three members, A, B, and C, and suppose that their priorities are set as follows:

  • A's priority is 2.

  • B's priority is 3.

  • C's priority is 1.

During normal operation, the set will always chose B as primary. If B becomes unavailable, the set will elect A as primary.

For more information, see the priority documentation.

You can now "tag" replica set members to indicate their location. You can use these tags to design custom write rules across data centers, racks, specific servers, or any other architecture choice.

For example, an administrator can define rules such as "very important write" or customerData or "audit-trail" to replicate to certain servers, racks, data centers, etc. Then in the application code, the developer would say:

db.foo.insert(doc, {w : "very important write"})

which would succeed if it fulfilled the conditions the DBA defined for "very important write".

For more information, see Data Center Awareness.

Drivers may also support tag-aware reads. Instead of specifying slaveOk, you specify slaveOk with tags indicating which data-centers to read from. For details, see the Drivers documentation.

You can also set w to majority to ensure that the write propagates to a majority of nodes, effectively committing it. The value for "majority" will automatically adjust as you add or remove nodes from the set.

For more information, see Write Concern.

If the majority of servers in a set has been permanently lost, you can now force a reconfiguration of the set to bring it back online.

For more information see Reconfigure a Replica Set with Unavailable Members.

To minimize time without a primary, the rs.stepDown() method will now fail if the primary does not see a secondary within 10 seconds of its latest optime. You can force the primary to step down anyway, but by default it will return an error message.

See also Force a Member to Become Primary.

When you call the shutdown command, the primary will refuse to shut down unless there is a secondary whose optime is within 10 seconds of the primary. If such a secondary isn't available, the primary will step down and wait up to a minute for the secondary to be fully caught up before shutting down.

Note that to get this behavior, you must issue the shutdown command explicitly; sending a signal to the process will not trigger this behavior.

You can also force the primary to shut down, even without an up-to-date secondary available.

When repairDatabase or compact runs on a secondary, the secondary will automatically drop into "recovering" mode until the operation finishes. This prevents clients from trying to read from it while it's busy.

Indexing is now supported on documents which have multiple location objects, embedded either inline or in embedded documents. Additional command options are also supported, allowing results to return with not only distance but the location used to generate the distance.

For more information, see Multi-Location Documents for 2d Indexes.

Polygonal $within queries are also now supported for simple polygon shapes. For details, see the $within operator documentation.

  • Journaling is now enabled by default for 64-bit platforms. Use the --nojournal command line option to disable it.

  • The journal is now compressed for faster commits to disk.

  • A new --journalCommitInterval run-time option exists for specifying your own group commit interval. The default settings do not change.

  • A new { getLastError: { j: true } } option is available to wait for the group commit. The group commit will happen sooner when a client is waiting on {j: true}. If journaling is disabled, {j: true} is a no-op.

Set the continueOnError option for bulk inserts, in the driver, so that bulk insert will continue to insert any remaining documents even if an insert fails, as is the case with duplicate key exceptions or network interruptions. The getLastError command will report whether any inserts have failed, not just the last one. If multiple errors occur, the client will only receive the most recent getLastError results.

Note

For bulk inserts on sharded clusters, the getLastError command alone is insufficient to verify success. Applications should must verify the success of bulk inserts in application logic.

Using the new sharded flag, it is possible to send the result of a map/reduce to a sharded collection. Combined with the reduce or merge flags, it is possible to keep adding data to very large collections from map/reduce jobs.

For more information, see Map-Reduce and the mapReduce reference.

Map/reduce performance will benefit from the following:

  • Larger in-memory buffer sizes, reducing the amount of disk I/O needed during a job

  • Larger javascript heap size, allowing for larger objects and less GC

  • Supports pure JavaScript execution with the jsMode flag. See the mapReduce reference.

Allows the dot (.) to match all characters including new lines. This is in addition to the currently supported i, m and x. See $regex.

A special boolean $and query operator is now available.

The output of the validate command and the documents in the system.profile collection have both been enhanced to return information as BSON objects with keys for each value rather than as free-form strings.

You can define a custom prompt for the mongo shell. You can change the prompt at any time by setting the prompt variable to a string or a custom JavaScript function returning a string.

On startup, the shell will check for a .mongorc.js file in the user's home directory. The shell will execute this file after connecting to the database and before displaying the prompt.

If you would like the shell not to run the .mongorc.js file automatically, start the shell with --norc.

For more information, see the mongo reference.

In 2.0, when running with authentication (e.g. authorization) all database commands require authentication, except the following commands.

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Release Notes for MongoDB 2.2