Project Description
Applied the knowledge of Spark and Data Lakes to build an ETL pipeline for a Data Lake hosted on Amazon S3
we have to build an ETL Pipeline that extracts their data from S3 and process them using Spark and then load back into S3 in a set of Fact and Dimension Tables. This will allow analytics team to continue finding insights in what songs their users are listening. Will have to deploy this Spark process on a Cluster using AWS
https://towardsdatascience.com/how-to-create-and-run-an-emr-cluster-using-aws-cli-3a78977dc7f0
Project Datasets
Song Data Path --> s3://udacity-dend/song_data
Log Data Path --> s3://udacity-dend/log_data
Log Data JSON Path --> s3://udacity-dend/log_json_path.json
Song Dataset
The first dataset is a subset of real data from the Million Song Dataset(https://labrosa.ee.columbia.edu/millionsong/). Each file is in JSON format and contains metadata about a song and the artist of that song. The files are partitioned by the first three letters of each song's track ID. For example:
song_data/A/B/C/TRABCEI128F424C983.json song_data/A/A/B/TRAABJL12903CDCF1A.json
{"num_songs": 1, "artist_id": "ARJIE2Y1187B994AB7", "artist_latitude": null, "artist_longitude": null, "artist_location": "", "artist_name": "Line Renaud", "song_id": "SOUPIRU12A6D4FA1E1", "title": "Der Kleine Dompfaff", "duration": 152.92036, "year": 0}
The second dataset consists of log files in JSON format. The log files in the dataset with are partitioned by year and month. For example:
log_data/2018/11/2018-11-12-events.json log_data/2018/11/2018-11-13-events.json
And below is an example of what a single log file, 2018-11-13-events.json, looks like.
{"artist":"Pavement", "auth":"Logged In", "firstName":"Sylvie", "gender", "F", "itemInSession":0, "lastName":"Cruz", "length":99.16036, "level":"free", "location":"Klamath Falls, OR", "method":"PUT", "page":"NextSong", "registration":"1.541078e+12", "sessionId":345, "song":"Mercy:The Laundromat", "status":200, "ts":1541990258796, "userAgent":"Mozilla/5.0(Macintosh; Intel Mac OS X 10_9_4...)", "userId":10}
Schema for Song Play Analysis
A Star Schema would be required for optimized queries on song play queries
Fact Table
songplays - records in event data associated with song plays i.e. records with page NextSong songplay_id, start_time, user_id, level, song_id, artist_id, session_id, location, user_agent
Dimension Tables
users - users in the app user_id, first_name, last_name, gender, level
songs - songs in music database song_id, title, artist_id, year, duration
artists - artists in music database artist_id, name, location, lattitude, longitude
time - timestamps of records in songplays broken down into specific units start_time, hour, day, week, month, year, weekday
Project Template include three files:
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etl.py reads data from S3, processes that data using Spark and writes them back to S3
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dl.cfg contains AWS Credentials
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README.md provides discussion on your process and decisions
Load the credentials from dl.cfg Load the Data which are in JSON Files(Song Data and Log Data) After loading the JSON Files from S3 4.Use Spark process this JSON files and then generate a set of Fact and Dimension Tables Load back these dimensional process to S3 Final Instructions
Write correct keys in dl.cfg Open Terminal write the command "python etl.py" Should take about 2-4 mins in total