Github user srowen commented on a diff in the pull request:

    https://github.com/apache/spark/pull/12004#discussion_r113697831
  
    --- Diff: docs/cloud-integration.md ---
    @@ -0,0 +1,512 @@
    +---
    +layout: global
    +displayTitle: Integration with Cloud Infrastructures
    +title: Integration with Cloud Infrastructures
    +description: Introduction to cloud storage support in Apache Spark 
SPARK_VERSION_SHORT
    +---
    +<!---
    +  Licensed under the Apache License, Version 2.0 (the "License");
    +  you may not use this file except in compliance with the License.
    +  You may obtain a copy of the License at
    +
    +   http://www.apache.org/licenses/LICENSE-2.0
    +
    +  Unless required by applicable law or agreed to in writing, software
    +  distributed under the License is distributed on an "AS IS" BASIS,
    +  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
    +  See the License for the specific language governing permissions and
    +  limitations under the License. See accompanying LICENSE file.
    +-->
    +
    +* This will become a table of contents (this text will be scraped).
    +{:toc}
    +
    +## <a name="introduction"></a>Introduction
    +
    +
    +All the public cloud infrastructures, Amazon AWS, Microsoft Azure, Google 
GCS and others offer
    +persistent data storage systems, "object stores". These are not quite the 
same as classic file
    +systems: in order to scale to hundreds of Petabytes, without any single 
points of failure
    +or size limits, object stores, "blobstores", have a simpler model of `name 
=> data`.
    +
    +Apache Spark can read or write data in object stores for data access.
    +through filesystem connectors implemented in Apache Hadoop or provided by 
third-parties.
    +These libraries make the object stores look *almost* like filesystems, 
with directories and
    +operations on files (rename) and directories (create, rename, delete) 
which mimic
    +those of a classic filesystem. Because of this, Spark and Spark-based 
applications
    +can work with object stores, generally treating them as as if they were 
slower-but-larger filesystems.
    +
    +With these connectors, Apache Spark supports object stores as the source
    +of data for analysis, including Spark Streaming and DataFrames.
    +
    +
    +## <a name="quick_start"></a>Quick Start
    +
    +Provided the relevant libraries are on the classpath, and Spark is 
configured with your credentials,
    +objects in an object store can be can be read or written through URLs 
which uses the name of the
    +object store client as the schema and the bucket/container as the hostname.
    +
    +
    +### Dependencies
    +
    +The Spark application neeeds the relevant Hadoop libraries, which can
    +be done by including the `spark-hadoop-cloud` module for the specific 
version of spark used.
    +
    +The Spark application should include <code>hadoop-openstack</code> 
dependency, which can
    +be done by including the `spark-hadoop-cloud` module for the specific 
version of spark used.
    +For example, for Maven support, add the following to the 
<code>pom.xml</code> file:
    +
    +{% highlight xml %}
    +<dependencyManagement>
    +  ...
    +  <dependency>
    +    <groupId>org.apache.spark</groupId>
    +    <artifactId>spark-hadoop-cloud_2.11</artifactId>
    +    <version>${spark.version}</version>
    +  </dependency>
    +  ...
    +</dependencyManagement>
    +{% endhighlight %}
    +
    +If using the Scala 2.10-compatible version of Spark, the artifact is of 
course `spark-hadoop-cloud_2.10`.
    +
    +### Basic Use
    +
    +You can refer to data in an object store just as you would data in a 
filesystem, by
    +using a URL to the data in methods like `SparkContext.textFile()` to read 
data, 
    +`saveAsTextFile()` to write it back.
    +
    +
    +Because object stores are viewed by Spark as filesystems, object stores can
    +be used as the source or destination of any spark work —be it batch, 
SQL, DataFrame,
    +Streaming or something else.
    +
    +The steps to do so are as follows
    +
    +1. Use the full URI to refer to a bucket, including the prefix for the 
client-side library
    +to use. Example: `s3a://landsat-pds/scene_list.gz`
    +1. Have the Spark context configured with the authentication details of 
the object store.
    +In a YARN cluster, this may also be done in the `core-site.xml` file.
    +
    +
    +## <a name="output"></a>Object Stores as a substitute for HDFS
    +
    +As the examples show, you can write data to object stores. However, that 
does not mean
    +That they can be used as replacements for a cluster-wide filesystem.
    +
    +The full details are covered in [Cloud Object Stores are Not Real 
Filesystems](#cloud_stores_are_not_filesystems).
    +
    +The brief summary is:
    +
    +| Object Store Connector      |  Replace HDFS? |
    +|-----------------------------|--------------------|
    +| `s3a://` `s3n://`  from the ASF   | No  |
    +| Amazon EMR `s3://`          | Yes |
    +| Microsoft Azure `wasb://`   | Yes |
    +| OpenStack `swift://`        | No  |
    +
    +It is possible to use any of the object stores as a destination of work, 
i.e. use
    +`saveAsTextFile()` or `save()` to save data there, but the commit process 
may be slow
    +and, unreliable in the presence of failures.
    +
    +It is faster and safer to use the cluster filesystem as the destination of 
Spark jobs,
    +using that data as the data for follow-on work. The final results can
    +be persisted in to the object store using `distcp`.
    +
    +#### <a name="checkpointing"></a>Spark Streaming and object stores
    +
    +Spark Streaming can monitor files added to object stores, by
    +creating a `FileInputDStream` DStream monitoring a path under a bucket 
through
    +`StreamingContext.textFileStream()`.
    +
    +
    +1. The time to scan for new files is proportional to the number of files
    +under the path —not the number of *new* files, and that it can become a 
slow operation.
    +The size of the window needs to be set to handle this.
    +
    +1. Files only appear in an object store once they are completely written; 
there
    +is no need for a worklow of write-then-rename to ensure that files aren't 
picked up
    +while they are still being written. Applications can write straight to the 
monitored directory.
    +
    +1. Streams should only be checkpointed to an object store considered 
compatible with
    +HDFS. Otherwise the checkpointing will be slow and potentially unreliable.
    +
    +### Recommended settings for writing to object stores
    +
    +Here are the settings to use when writing to object stores. This uses the 
"version 2" algorithm
    +for committing files —which does less renaming than the v1 algorithm. 
Speculative execution is
    +disabled to avoid multiple writers corrupting the output.
    +
    +```
    +spark.speculation false
    +spark.hadoop.mapreduce.fileoutputcommitter.algorithm.version 2
    +spark.hadoop.mapreduce.fileoutputcommitter.cleanup-failures.ignored true
    +```
    +
    +There's also the option of skipping the cleanup of temporary files in the 
output directory.
    +Enabling this option eliminates a small delay caused by listing and 
deleting any such files.
    +
    +```
    +spark.hadoop.mapreduce.fileoutputcommitter.cleanup.skipped true
    +```
    +
    +Bear in mind that storing temporary files can run up charges; Delete
    +directories called `"_temporary"` on a regular basis to avoid this.
    +
    +
    +### YARN Scheduler settings
    +
    +When running Spark in a YARN cluster running in EC2, turning off locality 
avoids any delays
    +waiting for the scheduler to find a node close to the data.
    +
    +```xml
    +  <property>
    +    <name>yarn.scheduler.capacity.node-locality-delay</name>
    +    <value>0</value>
    +  </property>
    +```
    +
    +This has to be set in the YARN cluster configuration, not in the Spark 
configuration.
    +
    +### Parquet I/O Settings
    +
    +For optimal performance when reading files saved in the Apache Parquet 
format,
    +read and write operations must be minimized, including generation of 
summary metadata,
    +and coalescing metadata from multiple files. The `filterPushdown` option
    +enables the Parquet library to optimize data reads itself, potentially 
saving bandwidth.
    +
    +```
    +spark.hadoop.parquet.enable.summary-metadata false
    +spark.sql.parquet.mergeSchema false
    +spark.sql.parquet.filterPushdown true
    +spark.sql.hive.metastorePartitionPruning true
    +```
    +
    +### ORC I/O Settings
    +
    +For optimal performance when reading files saved in the Apache ORC format,
    +read and write operations must be minimized. Here are the options to 
achieve this.
    +
    +
    +```
    +spark.sql.orc.filterPushdown true
    +spark.sql.orc.splits.include.file.footer true
    +spark.sql.orc.cache.stripe.details.size 10000
    +spark.sql.hive.metastorePartitionPruning true
    +```
    +
    +The `filterPushdown` option enables the ORC library to optimize data reads 
itself,
    +potentially saving bandwidth.
    +
    +The `spark.sql.orc.splits.include.file.footer` option means that the ORC 
file footer information,
    +is passed around with the file information —so eliminating the need to 
reread this data.
    +
    +## <a name="authenticating"></a>Authenticating with Object Stores
    +
    +Apart from the special case of public read-only data, all object stores
    +require callers to authenticate themselves.
    +To do this, the Spark context must be configured with the authentication
    +details of the object store.
    +
    +1. In a YARN cluster, this may be done automatically in the 
`core-site.xml` file.
    +1. When Spark is running in cloud infrastructure (for example, on Amazon 
EC2, Google Cloud or
    +Microsoft Azure), the authentication details may be automatically derived 
from information
    +available to the VM.
    +1. `spark-submit` automatically picks up the contents of `AWS_ACCESS_KEY` 
and `AWS_SECRET_KEY`
    +environment variables and sets the associated configuration parameters 
for`s3n` and `s3a`
    +to these values. This essentially propagates the values across the Spark 
cluster.
    +1. Authentication details may be manually added to the Spark configuration
    +1. Alternatively, they can be programmatically added. *Important: never 
put authentication
    +secrets in source code. They will be compromised*.
    +
    +It is critical that the credentials used to access object stores are kept 
secret. Not only can
    +they be abused to run up compute charges, they can be used to read and 
alter private data.
    +
    +1. If adding login details to a spark configuration file, do not share 
this file, including
    +attaching to bug reports or committing it to SCM repositories.
    +1. Have different accounts for access to the storage for each application,
    +each with access rights restricted to those object storage 
buckets/containers used by the
    +application.
    +1. If the object store supports any form of session credential (e.g. 
Amazon's STS), issue
    +session credentials for the expected lifetime of the application.
    +1. When using a version of Spark with with Hadoop 2.8+ libraries, consider 
using Hadoop
    +credential files to store secrets, referencing
    +these files in the relevant ID/secret properties of the XML configuration 
file.
    +
    +
    +## <a name="object_stores"></a>Object stores and Their Library Dependencies
    +
    +The different object stores supported by Spark depend on specific Hadoop 
versions,
    +and require specific Hadoop JARs and dependent Java libraries on the 
classpath.
    +
    +<table class="table">
    +  <tr><th>Schema</th><th>Store</th><th>Details</th></tr>
    +  <tr>
    +    <td><code>s3a://</code></td>
    +    <td>Amazon S3</a>
    +    <td>
    +    Recommended S3 client for Spark releases built on Apache Hadoop 2.7 or 
later.
    +    </td>
    +  </tr>
    +  <tr>
    +    <td><code>s3n://</code></td>
    +    <td>Amazon S3</a>
    +    <td>
    +    Deprected S3 client; only use for Spark releases built on Apache 
Hadoop 2.6 or earlier.
    +    </td>
    +  </tr>
    +  <tr>
    +    <td><code>s3://</code></td>
    +    <td>Amazon S3 on Amazon EMR</a>
    +    <td>
    +    Amazon's own S3 client; use only and exclusivley in Amazon EMR.
    +    </td>
    +  </tr>
    +  <tr>
    +    <td><code>wasb://</code></td>
    +    <td>Azure Storage</a>
    +    <td>
    +    Client for Microsoft Azure Storage; since Hadoop 2.7.
    +    </td>
    +  </tr>
    +  <tr>
    +    <td><code>swift://</code></td>
    +    <td>OpenStack Swift</a>
    +    <td>
    +    Client for OpenStack Swift object stores.
    +    </td>
    +  </tr>
    +  <tr>
    +    <td><code>gs://</code></td>
    +    <td>Google Cloud Storage</a>
    +    <td>
    +    Google's client for their cloud object store.
    +    </td>
    +  </tr>
    +</table>
    +
    +
    +### <a name="working_with_amazon_s3"></a>Working with Amazon S3
    +
    +Amazon's S3 object store is probably the most widely used object store 
—it is also the one
    --- End diff --
    
    "store -it" -> "store. It"


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