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https://github.com/lucacanali/sparkmeasure
This is the development repository for sparkMeasure, a tool and library designed for efficient analysis and troubleshooting of Apache Spark jobs. It focuses on easing the collection and examination of Spark metrics, making it a practical choice for both developers and data engineers.
https://github.com/lucacanali/sparkmeasure
apache-spark performance-metrics performance-troubleshooting python scala spark
Last synced: about 2 hours ago
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This is the development repository for sparkMeasure, a tool and library designed for efficient analysis and troubleshooting of Apache Spark jobs. It focuses on easing the collection and examination of Spark metrics, making it a practical choice for both developers and data engineers.
- Host: GitHub
- URL: https://github.com/lucacanali/sparkmeasure
- Owner: LucaCanali
- License: apache-2.0
- Created: 2017-03-16T20:53:26.000Z (almost 8 years ago)
- Default Branch: master
- Last Pushed: 2024-08-13T08:25:43.000Z (4 months ago)
- Last Synced: 2024-10-29T14:53:32.057Z (about 2 months ago)
- Topics: apache-spark, performance-metrics, performance-troubleshooting, python, scala, spark
- Language: Scala
- Homepage:
- Size: 1.86 MB
- Stars: 704
- Watchers: 34
- Forks: 145
- Open Issues: 2
-
Metadata Files:
- Readme: README.md
- License: LICENSE
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README
# SparkMeasure
[![Test](https://github.com/LucaCanali/sparkmeasure/actions/workflows/build_with_scala_and_python_tests.yml/badge.svg)](https://github.com/LucaCanali/sparkmeasure/actions/workflows/build_with_scala_and_python_tests.yml)
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[![PyPI](https://img.shields.io/pypi/v/sparkmeasure.svg)](https://pypi.org/project/sparkmeasure/)
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[![API Documentation](https://img.shields.io/badge/API-Documentation-brightgreen)](docs/Reference_SparkMeasure_API_and_Configs.md)### SparkMeasure is a tool for performance troubleshooting of Apache Spark jobs
SparkMeasure is a tool and library designed for efficient analysis and troubleshooting of
Apache Spark jobs. It focuses on easing the collection and examination of Spark metrics,
making it a practical choice for both developers and data engineers.
With sparkMeasure, users can obtain a clearer understanding of their Spark job performance,
facilitating smoother and more reliable data processing operations.### Key Features
- **Interactive Troubleshooting:** Ideal for real-time analysis of Spark workloads in notebooks
and spark-shell/pyspark environments.
- **Development & CI/CD Integration:** Facilitates testing, measuring, and comparing execution metrics
of Spark jobs under various configurations or code changes.
- **Batch Job Analysis:** With Flight Recorder mode sparkMeasure records and analyzes batch job metrics
for thorough inspection.
- **Monitoring Capabilities:** Seamlessly integrates with external systems like InfluxDB, Apache Kafka,
and Prometheus Push Gateway for extensive monitoring.
- **Educational Tool:** Serves as a practical example of implementing Spark Listeners for the collection
of detailed Spark task metrics.
- **Language Compatibility:** Fully supports Scala, Java, and Python, making it versatile for a wide range
of Spark applications.### Contents
- [Getting started with sparkMeasure](#getting-started-with-sparkmeasure)
- [Demo](#demo)
- [Examples of sparkMeasure on notebooks](#examples-of-sparkmeasure-on-notebooks)
- [Examples of sparkMeasure on the CLI](#examples-of-sparkmeasure-on-the-cli)
- [Command line example for Task Metrics](#command-line-example-for-task-metrics)
- [Configuration and setup](#spark-configuration)
- [Notes on Metrics](#notes-on-metrics)
- [Documentation and API reference](#documentation-api-and-examples)
- [Architecture diagram](#architecture-diagram)
- [Concepts and FAQ](#main-concepts-underlying-sparkmeasure-implementation)### Resources
- Blog on [building an Apache Spark Performance Lab](https://db-blog.web.cern.ch/node/195)
- [TPCDS PySpark](https://github.com/LucaCanali/Miscellaneous/tree/master/Performance_Testing/TPCDS_PySpark) - A tool you can use run TPCDS with PySpark, instrumented with sparkMeasure
- [Spark monitoring dashboard](https://github.com/cerndb/spark-dashboard) - A custom monitoring pipeline and dashboard for Spark
- [Introductory course on Apache Spark](https://sparktraining.web.cern.ch/)
- [Flamegraphs for profiling Spark jobs](https://github.com/LucaCanali/Miscellaneous/blob/master/Spark_Notes/Tools_Spark_Pyroscope_FlameGraph.md)
- [Notes on Apache Spark](https://github.com/LucaCanali/Miscellaneous/tree/master/Spark_Notes)Main author and contact: [email protected]
---
### Getting started with sparkMeasure#### Demo
[![Watch the video](https://www.youtube.com/s/desktop/050e6796/img/favicon_32x32.png) Watch sparkMeasure's getting started demo tutorial](https://www.youtube.com/watch?v=NEA1kkFcZWs)
#### Examples of sparkMeasure on notebooks
- Run locally or on hosted resources like Google Colab, Databricks, GitHub Codespaces, etc on Jupyter notebooks- [ Jupyter notebook on Google Colab Research](https://colab.research.google.com/github/LucaCanali/sparkMeasure/blob/master/examples/SparkMeasure_Jupyter_Colab_Example.ipynb)
- [ Scala notebook on Databricks](https://databricks-prod-cloudfront.cloud.databricks.com/public/4027ec902e239c93eaaa8714f173bcfc/2061385495597958/2910895789597333/442806354506758/latest.html)
- [ Python notebook on Databricks](https://databricks-prod-cloudfront.cloud.databricks.com/public/4027ec902e239c93eaaa8714f173bcfc/2061385495597958/2910895789597316/442806354506758/latest.html)
- [ Local Python/Jupyter Notebook](examples/SparkMeasure_Jupyter_Python_getting_started.ipynb)
#### Examples of sparkMeasure on the CLI
- Run locally or on hosted resources
- [![Open in GitHub Codespaces](https://github.com/codespaces/badge.svg)](https://codespaces.new/LucaCanali/sparkMeasure)
```
# Scala CLI
spark-shell --packages ch.cern.sparkmeasure:spark-measure_2.12:0.24val stageMetrics = ch.cern.sparkmeasure.StageMetrics(spark)
stageMetrics.runAndMeasure(spark.sql("select count(*) from range(1000) cross join range(1000) cross join range(1000)").show())
```
```
# Python CLI
# pip install pyspark
pip install sparkmeasure
pyspark --packages ch.cern.sparkmeasure:spark-measure_2.12:0.24from sparkmeasure import StageMetrics
stagemetrics = StageMetrics(spark)
stagemetrics.runandmeasure(globals(), 'spark.sql("select count(*) from range(1000) cross join range(1000) cross join range(1000)").show()')
```
The output should look like this:
```
+----------+
| count(1)|
+----------+
|1000000000|
+----------+Time taken: 3833 ms
Scheduling mode = FIFO
Spark Context default degree of parallelism = 8Aggregated Spark stage metrics:
numStages => 3
numTasks => 17
elapsedTime => 1112 (1 s)
stageDuration => 864 (0.9 s)
executorRunTime => 3358 (3 s)
executorCpuTime => 2168 (2 s)
executorDeserializeTime => 892 (0.9 s)
executorDeserializeCpuTime => 251 (0.3 s)
resultSerializationTime => 72 (72 ms)
jvmGCTime => 0 (0 ms)
shuffleFetchWaitTime => 0 (0 ms)
shuffleWriteTime => 36 (36 ms)
resultSize => 16295 (15.9 KB)
diskBytesSpilled => 0 (0 Bytes)
memoryBytesSpilled => 0 (0 Bytes)
peakExecutionMemory => 0
recordsRead => 2000
bytesRead => 0 (0 Bytes)
recordsWritten => 0
bytesWritten => 0 (0 Bytes)
shuffleRecordsRead => 8
shuffleTotalBlocksFetched => 8
shuffleLocalBlocksFetched => 8
shuffleRemoteBlocksFetched => 0
shuffleTotalBytesRead => 472 (472 Bytes)
shuffleLocalBytesRead => 472 (472 Bytes)
shuffleRemoteBytesRead => 0 (0 Bytes)
shuffleRemoteBytesReadToDisk => 0 (0 Bytes)
shuffleBytesWritten => 472 (472 Bytes)
shuffleRecordsWritten => 8Average number of active tasks => 3.0
Stages and their duration:
Stage 0 duration => 355 (0.4 s)
Stage 1 duration => 411 (0.4 s)
Stage 3 duration => 98 (98 ms)
```- Stage metrics collection mode has an optional memory report command
- this is new in sparkMeasure since version 0.21, it requires Spark versions 3.1 or higher
- note: this report makes use of per-stage memory (executor metrics) data which is sent by the
executors at each heartbeat to the driver, there could be a small delay or the order of
a few seconds between the end of the job and the time the last metrics value is received.
- If you receive the error message java.util.NoSuchElementException: key not found,
retry running the report after waiting for a few seconds.
```
(scala)> stageMetrics.printMemoryReport
(python)> stagemetrics.print_memory_report()Additional stage-level executor metrics (memory usasge info):
Stage 0 JVMHeapMemory maxVal bytes => 322888344 (307.9 MB)
Stage 0 OnHeapExecutionMemory maxVal bytes => 0 (0 Bytes)
Stage 1 JVMHeapMemory maxVal bytes => 322888344 (307.9 MB)
Stage 1 OnHeapExecutionMemory maxVal bytes => 0 (0 Bytes)
Stage 3 JVMHeapMemory maxVal bytes => 322888344 (307.9 MB)
Stage 3 OnHeapExecutionMemory maxVal bytes => 0 (0 Bytes)
```#### Command line example for Task Metrics:
This is similar but slightly different from the example above as it collects metrics at the Task-level rather than Stage-level
```
# Scala CLI
spark-shell --packages ch.cern.sparkmeasure:spark-measure_2.12:0.24val taskMetrics = ch.cern.sparkmeasure.TaskMetrics(spark)
taskMetrics.runAndMeasure(spark.sql("select count(*) from range(1000) cross join range(1000) cross join range(1000)").show())
```
```
# Python CLI
# pip install pyspark
pip install sparkmeasure
pyspark --packages ch.cern.sparkmeasure:spark-measure_2.12:0.24from sparkmeasure import TaskMetrics
taskmetrics = TaskMetrics(spark)
taskmetrics.runandmeasure(globals(), 'spark.sql("select count(*) from range(1000) cross join range(1000) cross join range(1000)").show()')
```### Spark configuration
* Choose the sparkMeasure version suitable for your environment:
* For Spark 3.x, please use the latest version
* For Spark 2.4 and 2.3, use version 0.19
* For Spark 2.1 and 2.2, use version 0.16* Where to get sparkMeasure:
* [sparkMeasure on Maven Central](https://mvnrepository.com/artifact/ch.cern.sparkmeasure/spark-measure)
* Jars in sparkMeasure's [release notes](https://github.com/LucaCanali/sparkMeasure/releases/tag/v0.24)
* Bleeding edge jars as artifacts in [GitHub actions](https://github.com/LucaCanali/sparkMeasure/actions)
* Build jars from master using sbt: `sbt +package`* Choose your preferred method to include sparkMeasure in your Spark environment:
* `--packages ch.cern.sparkmeasure:spark-measure_2.12:0.24`
* `--jars /path/to/spark-measure_2.12-0.24.jar`
* `--jars https://github.com/LucaCanali/sparkMeasure/releases/download/v0.24/spark-measure_2.12-0.24.jar`
* `--conf spark.driver.extraClassPath=/path/to/spark-measure_2.12-0.24.jar`Examples:
* Spark with Scala 2.12:
- **Scala:** `spark-shell --packages ch.cern.sparkmeasure:spark-measure_2.12:0.24`
- **Python:** `pyspark --packages ch.cern.sparkmeasure:spark-measure_2.12:0.24`
- note: you also need `pip install sparkmeasure` to get the [Python wrapper API](https://pypi.org/project/sparkmeasure/)
* Spark with Scala 2.13:
- Scala: `spark-shell --packages ch.cern.sparkmeasure:spark-measure_2.13:0.24`
- Python: `pyspark --packages ch.cern.sparkmeasure:spark-measure_2.13:0.24`
- note: `pip install sparkmeasure` to get the Python wrapper API* Spark 2.4 and 2.3 with Scala 2.11:
- Scala: `spark-shell --packages ch.cern.sparkmeasure:spark-measure_2.11:0.19`
- Python: `pyspark --packages ch.cern.sparkmeasure:spark-measure_2.11:0.19`
- note: `pip install sparkmeasure==0.19` to get the Python wrapper API---
### Notes on Spark Metrics
Spark is instrumented with several metrics, collected at task execution, they are described in the documentation:
- [Spark Task Metrics docs](https://spark.apache.org/docs/latest/monitoring.html#executor-task-metrics)Some of the key metrics when looking at a sparkMeasure report are:
- **elapsedTime:** the time taken by the stage or task to complete (in millisec)
- **executorRunTime:** the time the executors spent running the task, (in millisec). Note this time is cumulative across all tasks executed by the executor.
- **executorCpuTime:** the time the executors spent running the task, (in millisec). Note this time is cumulative across all tasks executed by the executor.
- **jvmGCTime:** the time the executors spent in garbage collection, (in millisec).
- shuffle metrics: several metrics with details on the I/O and time spend on shuffle
- I/O metrics: details on the I/O (reads and writes). Note, currently there are no time-based metrics for I/O operations.To learn more about the metrics, I advise you set up your lab environment and run some tests to see the metrics in action.
A good place to start with is [TPCDS PySpark](https://github.com/LucaCanali/Miscellaneous/tree/master/Performance_Testing/TPCDS_PySpark) - A tool you can use run TPCDS with PySpark, instrumented with sparkMeasure---
### Documentation, API, and examples
SparkMeasure is one tool for many different use cases, languages, and environments:
* [![API Documentation](https://img.shields.io/badge/API-Documentation-brightgreen)](docs/Reference_SparkMeasure_API_and_Configs.md)
- [SparkMeasure's API and configurations](docs/Reference_SparkMeasure_API_and_Configs.md)* **Interactive mode**
Use sparkMeasure to collect and analyze Spark workload metrics in interactive mode when
working with shell or notebook environments, such as `spark-shell` (Scala), `PySpark` (Python) and/or
from `jupyter notebooks`.
- **[SparkMeasure on PySpark and Jupyter notebooks](docs/Python_shell_and_Jupyter.md)**
- **[SparkMeasure on Scala shell and notebooks](docs/Scala_shell_and_notebooks.md)**
* **Batch and code instrumentation**
Instrument your code with the sparkMeasure API, for collecting, saving,
and analyzing Spark workload metrics data. Examples and how-to guides:
- **[Instrument Spark-Python code](docs/Instrument_Python_code.md)**
- **[Instrument Spark-Scala code](docs/Instrument_Scala_code.md)**
- See also [Spark_CPU_memory_load_testkit](https://github.com/LucaCanali/Miscellaneous/tree/master/Performance_Testing/Spark_CPU_memory_load_testkit)
as an example of how to use sparkMeasure to instrument Spark code for performance testing.
* **Flight Recorder mode**:
SparkMeasure in flight recorder will collect metrics transparently, without any need for you
to change your code.
* Metrics can be saved to a file, locally, or to a Hadoop-compliant filesystem
* or you can write metrics in near-realtime to the following sinks: InfluxDB, Apache Kafka, Prometheus PushPushgateway
* More details:
- **[Flight Recorder mode with file sink](docs/Flight_recorder_mode_FileSink.md)**
- **[Flight Recorder mode with InfluxDB sink](docs/Flight_recorder_mode_InfluxDBSink.md)**
- **[Flight Recorder mode with Apache Kafka sink](docs/Flight_recorder_mode_KafkaSink.md)**
- **[Flight Recorder mode with Prometheus Pushgateway sink](docs/Flight_recorder_mode_PrometheusPushgatewaySink.md)*** **Additional documentation and examples**:
- Presentations at Spark/Data+AI Summit:
- [Performance Troubleshooting Using Apache Spark Metrics](https://databricks.com/session_eu19/performance-troubleshooting-using-apache-spark-metrics)
- [Apache Spark Performance Troubleshooting at Scale, Challenges, Tools, and Methodologies](http://canali.web.cern.ch/docs/Spark_Summit_2017EU_Performance_Luca_Canali_CERN.pdf)
- Blog articles:
- [2018: SparkMeasure, a tool for performance troubleshooting of Apache Spark workloads](https://db-blog.web.cern.ch/blog/luca-canali/2018-08-sparkmeasure-tool-performance-troubleshooting-apache-spark-workloads),
- [2017: SparkMeasure blog post](http://db-blog.web.cern.ch/blog/luca-canali/2017-03-measuring-apache-spark-workload-metrics-performance-troubleshooting)
- [TODO list and known issues](docs/TODO_and_issues.md)
- [TPCDS-PySpark](https://github.com/LucaCanali/Miscellaneous/tree/master/Performance_Testing/TPCDS_PySpark)
a tool for running the TPCDS benchmark workload with PySpark and instrumented with sparkMeasure---
### Architecture diagram
![sparkMeasure architecture diagram](docs/sparkMeasure_architecture_diagram.png)---
### Main concepts underlying sparkMeasure implementation
* The tool is based on the Spark Listener interface. Listeners transport Spark executor
[Task Metrics](https://github.com/LucaCanali/Miscellaneous/blob/master/Spark_Notes/Spark_TaskMetrics.md)
data from the executor to the driver.
They are a standard part of Spark instrumentation, used by the Spark Web UI and History Server for example.
* The tool is built on multiple modules implemented as classes
* metrics collection and processing can be at the Stage-level or Task-level. The user chooses which mode to use with the API.
* metrics are can be buffered into memory for real-time reporting, or they can be dumped to an external
system in the "flight recorder mode".
* supported external systems are File Systems supported by the Hadoop API, InfluxDB, Apache Kafka, Prometheus Pushgateway.
* Metrics are flattened and collected into local memory structures in the driver (ListBuffer of a custom case class).
* sparkMeasure in flight recorder mode when using one between the InfluxDB sink, Apache Kafka sink, and Prometheus Pushgateway sink, does not buffer,
but rather writes the collected metrics directly
* Metrics processing:
* metrics can be aggregated into a report showing the cumulative values for each metric
* aggregated metrics can also be returned as a Scala Map or Python dictionary
* metrics can be converted into a Spark DataFrame for custom querying
* Metrics data and reports can be saved for offline analysis.### FAQ:
- Why measuring performance with workload metrics instrumentation rather than just using execution time measurements?
- When measuring just the jobs' elapsed time, you treat your workload as "a black box" and most often this does
not allow you to understand the root causes of performance regression.
With workload metrics you can (attempt to) go further in understanding and perform root cause analysis,
bottleneck identification, and resource usage measurement.- What are Apache Spark task metrics and what can I use them for?
- Apache Spark measures several details of each task execution, including run time, CPU time,
information on garbage collection time, shuffle metrics, and task I/O.
See also Spark documentation for a description of the
[Spark Task Metrics](https://spark.apache.org/docs/latest/monitoring.html#executor-task-metrics)- How is sparkMeasure different from Web UI/Spark History Server and EventLog?
- sparkMeasure uses the same ListenerBus infrastructure used to collect data for the Web UI and Spark EventLog.
- Spark collects metrics and other execution details and exposes them via the Web UI.
- Notably, Task execution metrics are also available through the [REST API](https://spark.apache.org/docs/latest/monitoring.html#rest-api)
- In addition, Spark writes all details of the task execution in the EventLog file
(see config of `spark.eventlog.enabled` and `spark.eventLog.dir`)
- The EventLog is used by the Spark History server + other tools and programs that can read and parse
the EventLog file(s) for workload analysis and performance troubleshooting, see a [proof-of-concept example of reading the EventLog with Spark SQL](https://github.com/LucaCanali/Miscellaneous/blob/master/Spark_Notes/Spark_EventLog.md)
- There are key differences that motivate this development:
- sparkMeasure can collect data at the stage completion-level, which is more lightweight than measuring
all the tasks, in case you only need to compute aggregated performance metrics. When needed,
sparkMeasure can also collect data at the task granularity level.
- sparkMeasure has an API that makes it simple to add instrumentation/performance measurements
in notebooks and in application code for Scala, Java, and Python.
- sparkMeasure collects data in a flat structure, which makes it natural to use Spark SQL for
workload data analysis/
- sparkMeasure can sink metrics data into external systems (Filesystem, InfluxDB, Apache Kafka, Prometheus Pushgateway)- What are known limitations and gotchas?
- sparkMeasure does not collect all the data available in the EventLog
- See also the [TODO and issues doc](docs/TODO_and_issues.md)
- The currently available Spark task metrics can give you precious quantitative information on
resources used by the executors, however there do not allow to fully perform time-based analysis of
the workload performance, notably they do not expose the time spent doing I/O or network traffic.
- Metrics are collected on the driver, which could become a bottleneck. This is an issues affecting tools
based on Spark ListenerBus instrumentation, such as the Spark WebUI.
In addition, note that sparkMeasure in the current version buffers all data in the driver memory.
The notable exception is when using the Flight recorder mode with InfluxDB or
Apache Kafka or Prometheus Pushgateway sink, in this case metrics are directly sent to InfluxDB/Kafka/Prometheus Pushgateway.
- Task metrics values are collected by sparkMeasure only for successfully executed tasks. Note that
resources used by failed tasks are not collected in the current version. The notable exception is
with the Flight recorder mode with InfluxDB or Apache Kafka or Prometheus Pushgateway sink.
- sparkMeasure collects and processes data in order of stage and/or task completion. This means that
the metrics data is not available in real-time, but rather with a delay that depends on the workload
and the size of the data. Moreover, performance data of jobs executing at the same time can be mixed.
This can be a noticeable issue if you run workloads with many concurrent jobs.
- Task metrics are collected by Spark executors running on the JVM, resources utilized outside the
JVM are currently not directly accounted for (notably the resources used when running Python code
inside the python.daemon in the case of Python UDFs with PySpark).- When should I use Stage-level metrics and when should I use Task-level metrics?
- Use stage metrics whenever possible as they are much more lightweight. Collect metrics at
the task granularity if you need the extra information, for example if you want to study
effects of skew, long tails and task stragglers.- How can I save/sink the collected metrics?
- You can print metrics data and reports to standard output or save them to files, using
a locally mounted filesystem or a Hadoop compliant filesystem (including HDFS).
Additionally, you can sink metrics to external systems (such as Prometheus Pushgateway).
The Flight Recorder mode can sink to InfluxDB, Apache Kafka or Prometheus Pushgateway.- How can I process metrics data?
- You can use Spark to read the saved metrics data and perform further post-processing and analysis.
See the also [Notes on metrics analysis](docs/Notes_on_metrics_analysis.md).- How can I contribute to sparkMeasure?
- SparkMeasure has already profited from users submitting PR contributions. Additional contributions are welcome.
See the [TODO_and_issues list](docs/TODO_and_issues.md) for a list of known issues and ideas on what
you can contribute.