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OAM Tiler

This code is meant to run through Amazon EMR as a two step process for tiling.

To run it as a standalone process, see run-emr.sh below.

Chunk

The chunk.py is a pyspark application that runs code which takes a set of images and converts them into 1024 by 1024 tiled GeoTiffs according to the mercator tile zoom level that matches the source image's resolution closest.

There is a single input argument, which is the local or s3 path to a JSON file that specifies the request. The request JSON looks like this:

{
    "jobId": "emr-test-job-full",
    "target": "s3://oam-tiles/oam-tiler-test-emr-full",
    "images": [
        "http://hotosm-oam.s3.amazonaws.com/356f564e3a0dc9d15553c17cf4583f21-12.tif",
        "http://oin-astrodigital.s3.amazonaws.com/LC81420412015111LGN00_bands_432.TIF"
    ],
    "workspace": "s3://workspace-oam-hotosm-org/emr-test-job-full"
}

In this input, we see that we have two input images. The order of the images in the images array will determine the priority of the images in the later mosaic step; images that have a lower index (higher on the list) will take priority over images that have a higher index (lower on the list). So in this example, the pixels of 356f564e3a0dc9d15553c17cf4583f21-12.tif would be overlayed on top of the pixels of LC81420412015111LGN00_bands_432.TIF (356f564e3a0dc9d15553c17cf4583f21-12.tif would be "above" LC81420412015111LGN00_bands_432.TIF).

This set of chunked imagery is dumped into a working folder inside an S3 bucket, determined by the workspace field in the input JSON.

Also placed in that folder is a step1_result.json object that looks like the following:

{
    "jobId": "emr-test-job-full",
    "target": "s3://oam-tiles/oam-tiler-test-emr-full",
    "tileSize": 1024,
    "input": [
        {
            "gridBounds": {
                "rowMax": 27449,
                "colMax": 48278,
                "colMin": 48269,
                "rowMin": 27438
            },
            "tiles": "s3://workspace-oam-hotosm-org/emr-test-job-full/356f564e3a0dc9d15553c17cf4583f21-12",
            "zoom": 16,
            "extent": {
                "xmin": 85.1512716462415,
                "ymin": 28.028055072893892,
                "ymax": 28.079387757442355,
                "xmax": 85.20296835795914
            }
        },
        {
            "gridBounds": {
                "rowMax": 434,
                "colMax": 753,
                "colMin": 746,
                "rowMin": 427
            },
            "tiles": "s3://workspace-oam-hotosm-org/emr-test-job-full/LC81420412015111LGN00_bands_432.TIF",
            "zoom": 10,
            "extent": {
                "xmin": 82.52879450382254,
                "ymin": 26.359556467334755,
                "ymax": 28.486769014205997,
                "xmax": 84.86307565466431
            }
        }
    ]
}

Mosaic

The Mosaic step is a Scala Spark application that reads in the GeoTiffs and result information from the previous step and performs the mosaicing. It outputs a set of web mercator z/x/y 256 x 256 PNG tiles to the target s3 or local directory.

To build the JAR that is to be uploaded and referenced in the EMR step, go into the mosaic folder and run:

./sbt assembly

Then do something like:

aws s3 cp target/scala-2.10/... s3://oam-server-tiler/emr/mosaic.jar

Running

There are shell scripts that will run this against EM in the root of the repository. It uses the awscli tool to run EMR commands.

upload-code.sh

This will build the JAR file for the mosaic step and upload the chunk.py and mosaic.jar to the appropriate place in s3.

launch-cluster.sh

This will launch a long-running EMR cluster to run steps against. This is useful for testing, when you want to avoid waiting for a cluster to be bootstrapped while running jobs in a row.

This will output a cluster id, which should be set into the add-step* scripts so that they run against the correct cluster.

add-steps.sh, add-step1.sh, add-step2.sh

This will run the tiling process against a long-running cluster deployed with launch-cluster.sh. Just make sure to set the correct CLUSTER_ID at the top. Also, make sure to set the NUM_EXECUTORS and EXECUTOR_MEMORY correctly, based on the number of nodes in the cluster (one executor per core per worker node). 2304m is the amount of memory to give one executor for the 4-core m3.xlarge nodes.

Also, you'll need to set REQUEST_URI and WORKSPACE_URI, which set the request for the chunk step and the location of the workspace for the second step, respectively.

run-emr.sh

This is how to run a one-off, standalone tiling job. To change the number of nodes in the cluster, the spot instance bid price, instance types, job id, and (most importantly) input imagery, edit it before running. To see status, use the EMR console. When steps are complete, imagery will have been pushed to the path specified in target (in the job configuration).

How to connect to UIs in EMR

Follow these instructions: Namely set up the ssh tunnel using: http://docs.aws.amazon.com/ElasticMapReduce/latest/DeveloperGuide/emr-ssh-tunnel.html

ssh -i ~/mykeypair.pem -N -D 8157 hadoop@ec2-###-##-##-###.compute-1.amazonaws.com

Use foxyproxy to set up proxy forwarding; instructions are found here: http://docs.aws.amazon.com/ElasticMapReduce/latest/DeveloperGuide/emr-connect-master-node-proxy.html However, use the following foxyproxy settings instead of the one listed in that doc (this enables getting to the Spark UI)

<?xml version="1.0" encoding="UTF-8"?>
<foxyproxy>
   <proxies>
      <proxy name="emr-socks-proxy" id="56835462" notes="" enabled="true" color="#0055E5" mode="manual" autoconfMode="pac" lastresort="false">
         <manualconf host="localhost" port="8157" socksversion="5" isSocks="true" />
         <autoconf url="" reloadPac="false" loadNotification="true" errorNotification="true" autoReload="false" reloadFreqMins="60" disableOnBadPAC="true" />
         <matches>
            <match enabled="true" name="*ec2*.amazonaws.com*" isRegex="false" pattern="*ec2*.amazonaws.com*" reload="true" autoReload="false" isBlackList="false" isMultiLine="false" fromSubscription="false" caseSensitive="false" />
            <match enabled="true" name="*ec2*.compute*" isRegex="false" pattern="*ec2*.compute*" reload="true" autoReload="false" isBlackList="false" isMultiLine="false" fromSubscription="false" caseSensitive="false" />
            <match enabled="true" name="10.*" isRegex="false" pattern="http://10.*" reload="true" autoReload="false" isBlackList="false" isMultiLine="false" fromSubscription="false" caseSensitive="false" />
            <match enabled="true" name="*ec2.internal*" isRegex="false" pattern="*ec2.internal*" reload="true" autoReload="false" isBlackList="false" isMultiLine="false" fromSubscription="false" caseSensitive="false" />
            <match enabled="true" name="*compute.internal*" isRegex="false" pattern="*compute.internal*" reload="true" autoReload="false" isBlackList="false" isMultiLine="false" fromSubscription="false" caseSensitive="false" />
         </matches>
      </proxy>
   </proxies>
</foxyproxy>

After foxyproxy is enabled and the SSH tunnel is set up, you can click on the Resource Manager in the AWS UI for the cluster, which takes you to the YARN UI. For a running job, there will be an Tracking UI Application Master link all the way to the right for that job. Click on that, and it should bring up the Spark UI.

Timing Notes:

10 m3.xlarge worker nodes and 1 m3.xlarge master at spot prices (around 5 cents an hour) About 4 cents, 40 cents for workers, 4 cents for master. Tiling job for under 50 cents. 9.5 G of imagery. (32 images) 13 minutes of processing ~15 minutes of spin up time for cluster

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DEPRECATED: OAM Server Tiler. See marblecutter-openaerialmap instead

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