JMeter Load Testing
- Repo stars 136
- License MIT
- Author updated Live
- Author repo qaskills
- Domain
- Engineering · jmeter · load-testing · performance
- Compatible agents
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- Claude Code
- Cursor
- Windsurf
- Codex
- Aider
- Continue
- +1
- Trust score
- 100 / 100 · audit passed
- Author / version / license
- @PramodDutta · v1.0.0 · MIT
- Token usage
- Moderate
- Setup complexity
- Guided setup
- External API key
- Not required
- Operating systems
- Unspecified (assume cross-platform)
- Runtime requirements
- No special requirements
- Permissions
-
- Read-only
- Write / modify
- Shell exec
- Network behavior
- External requests
- Install commands
- 7 variants
Profile is derived at build time from SKILL.md and install vectors. Subject to drift from author intent.
---
name: JMeter Load Testing
description: Load and performance testing skill using Apache JMeter, covering test plans, thread groups, asse…
category: engineering
runtime: no special runtime
---
# JMeter Load Testing output preview
## PART A: Task fit
- Use case: Load and performance testing skill using Apache JMeter, covering test plans, thread groups, assertions, listeners, timers, and distributed testing. You are an expert performance engineer specializing in Apache JMeter. When the user asks you to create, review, or debug JMeter test plans, follow these detailed instructions. makes outbound network calls. Wor….
- Inputs: target material, constraints, expected output, and acceptance criteria.
- Evidence boundary: follow “Core Principles / Project Structure / Test Plan Structure” and do not present inference as author intent.
## PART B: Execution result
- **01** The card summarizes the use case; runtime output centers on “Load and performance testing skill using Apache JMeter, covering test plans, thread groups, assertions, listeners, timers, and distributed testing. You are an expert performance engineer specializing in Apache JMeter. When the user asks you to create, review, or debug JMeter test plans, follow these detailed instructions. makes outbound network calls. Wor…”.
- **02** When the source has headings, the agent prioritizes “Core Principles / Project Structure / Test Plan Structure” so the result follows the author’s structure.
- **03** Typical output includes task judgment, concrete steps, required commands or file edits, validation, and follow-up options.
- **04** Risk context follows the fingerprint: read files, write/modify files, run shell commands; may access external network resources; usually needs no extra API key.
## Running Rules
- read files, write/modify files, run shell commands; may access external network resources; usually needs no extra API key.
- Validate with a small sample before expanding scope.
- Return the result, validation criteria, and next iteration options. The source mentions slash commands such as `/login`, `/auth`, `/products`, `/cart`, `/checkout`; use them first when your agent supports command triggers.
Name target files or source material, expected output, forbidden changes, and whether network or shell access is allowed. Permission fingerprint: read files, write/modify files, run shell commands.
Start with a small task and check whether the result follows “Core Principles / Project Structure / Test Plan Structure”. Inspect diffs, logs, previews, or tests before expanding scope.
Confirm the final output includes a concrete result, evidence, and next action. If it stays generic, tighten inputs, boundaries, and acceptance criteria.
---
name: JMeter Load Testing
description: Load and performance testing skill using Apache JMeter, covering test plans, thread groups, asse…
category: engineering
source: PramodDutta/qaskills
---
# JMeter Load Testing
## When to use
- Load and performance testing skill using Apache JMeter, covering test plans, thread groups, assertions, listeners, tim…
- Use it when the task has clear inputs, repeatable steps, and validation criteria.
## What to provide
- Target material, scope, expected result, and forbidden changes.
- Whether network, commands, file writes, or external services are allowed.
## Execution rules
- Organize steps around “Core Principles / Project Structure / Test Plan Structure” and keep inference separate from source facts.
- read files, write/modify files, run shell commands; may access external network resources; usually needs no extra API key.
- Validate with a small sample before expanding the task.
## Output requirements
- Return the deliverable, key evidence, validation method, and next action.
- Mark missing information as unknown; do not invent commands, platforms, or dependencies. The author source anchors workflow facts; repository files anchor sources and commands; Fluxly only adds fit, limitations, and quality judgment.
skill "JMeter Load Testing" {
input -> user goal + target files + boundaries + acceptance criteria
context -> Core Principles / Project Structure / Test Plan Structure
rules -> SKILL.md triggers / order / output contract
runtime -> no special runtime | read files, write/modify files, run shell commands | may access external network resources
guardrails -> usually needs no extra API key + small-sample validation + diff/log review
output -> copyable result + checklist + next iteration
} JMeter Load Testing Skill
You are an expert performance engineer specializing in Apache JMeter. When the user asks you to create, review, or debug JMeter test plans, follow these detailed instructions.
Core Principles
- Realistic load modeling -- Thread groups must simulate real user behavior with think times.
- Correlation -- Extract dynamic values (session IDs, tokens) from responses and reuse them.
- Parameterization -- Use CSV Data Set Config for test data; never hardcode user-specific values.
- Assertions everywhere -- Every sampler should have at least one assertion to verify correctness.
- Non-GUI execution -- Always run actual load tests from the command line, never the GUI.
Project Structure
jmeter/
test-plans/
smoke-test.jmx
load-test.jmx
stress-test.jmx
api-test.jmx
data/
users.csv
products.csv
payloads/
create-order.json
lib/
custom-plugins.jar
scripts/
run-load-test.sh
generate-report.sh
results/
.gitkeep
reports/
.gitkeep
jmeter.properties
Test Plan Structure
A well-organized JMeter test plan follows this hierarchy:
Test Plan
├── User Defined Variables
├── HTTP Request Defaults
├── HTTP Header Manager
├── HTTP Cookie Manager
├── CSV Data Set Config
├── Thread Group (User Flow)
│ ├── Transaction Controller (Login)
│ │ ├── HTTP Request (GET /login)
│ │ ├── HTTP Request (POST /auth/login)
│ │ ├── Response Assertion
│ │ ├── JSON Extractor (token)
│ │ └── JSR223 PostProcessor
│ ├── Constant Timer (Think Time)
│ ├── Transaction Controller (Browse Products)
│ │ ├── HTTP Request (GET /products)
│ │ └── Response Assertion
│ └── Transaction Controller (Checkout)
│ ├── HTTP Request (POST /cart)
│ ├── HTTP Request (POST /checkout)
│ └── Response Assertion
├── View Results Tree (debug only)
├── Summary Report
└── Backend Listener (InfluxDB)
Thread Group Configuration
Standard Load Test
<ThreadGroup guiclass="ThreadGroupGui" testclass="ThreadGroup" testname="Load Test Users">
<intProp name="ThreadGroup.num_threads">100</intProp>
<intProp name="ThreadGroup.ramp_time">300</intProp>
<boolProp name="ThreadGroup.scheduler">true</boolProp>
<stringProp name="ThreadGroup.duration">1800</stringProp>
<stringProp name="ThreadGroup.delay">0</stringProp>
<boolProp name="ThreadGroup.same_user_on_next_iteration">false</boolProp>
</ThreadGroup>
Stepping Thread Group (Ultimate Thread Group Plugin)
Use the Ultimate Thread Group plugin for complex ramp patterns:
- Start Threads Count -- Number of threads to add at each step
- Initial Delay -- Wait before starting this step
- Startup Time -- Time to ramp up these threads
- Hold Load For -- Duration to maintain these threads
- Shutdown Time -- Time to ramp down these threads
Example pattern for a load test:
| Start | Delay | Startup | Hold | Shutdown |
|---|---|---|---|---|
| 25 | 0s | 60s | 300s | 30s |
| 25 | 60s | 60s | 240s | 30s |
| 25 | 120s | 60s | 180s | 30s |
| 25 | 180s | 60s | 120s | 30s |
HTTP Request Defaults
Always configure HTTP Request Defaults at the test plan level:
Protocol: https
Server Name: ${BASE_URL}
Port Number: ${PORT}
Content Encoding: UTF-8
Implementation: HttpClient4
Connect Timeout: 5000
Response Timeout: 30000
Extractors and Correlation
JSON Extractor
Extract values from JSON responses:
Variable Names: auth_token
JSON Path Expressions: $.token
Match No.: 1
Default Values: NOT_FOUND
Regular Expression Extractor
For HTML or non-JSON responses:
Reference Name: csrf_token
Regular Expression: name="csrf_token" value="(.+?)"
Template: $1$
Match No.: 1
Default Value: NOT_FOUND
Boundary Extractor
Simpler alternative to regex:
Reference Name: session_id
Left Boundary: sessionId=
Right Boundary: ;
Match No.: 1
Using Extracted Values
In subsequent requests:
Header: Authorization: Bearer ${auth_token}
URL Path: /api/users/${user_id}
Body: {"sessionId": "${session_id}"}
Assertions
Response Assertion
Apply to: Main sample only
Field to Test: Response Code
Pattern Matching Rules: Equals
Patterns to Test: 200
JSON Assertion
Assert JSON Path exists: $.data.id
Expected Value: (leave empty to just check existence)
Additionally assert value: false
Duration Assertion
Duration in milliseconds: 2000
Size Assertion
Apply to: Main sample only
Size to Assert: Response body
Type of Comparison: < (less than)
Size in bytes: 1048576
Timers
Constant Timer
Thread Delay: 1000
Gaussian Random Timer
More realistic than constant timers:
Deviation: 500
Constant Delay Offset: 2000
This produces delays between ~1000ms and ~3000ms with most around 2000ms.
Uniform Random Timer
Random Delay Maximum: 3000
Constant Delay Offset: 1000
Produces delays between 1000ms and 4000ms uniformly distributed.
Parameterization with CSV
CSV Data Set Config
Filename: data/users.csv
File Encoding: UTF-8
Variable Names: username,password,role
Ignore first line: true
Delimiter: ,
Allow quoted data: true
Recycle on EOF: true
Stop thread on EOF: false
Sharing mode: All threads
CSV File Format
username,password,role
user1@example.com,Pass123!,user
user2@example.com,Pass456!,user
admin@example.com,Admin789!,admin
JSR223 Scripting (Groovy)
Pre-Processor -- Generate Dynamic Data
import java.time.Instant
import java.util.UUID
vars.put("request_id", UUID.randomUUID().toString())
vars.put("timestamp", Instant.now().toString())
vars.put("random_email", "user_${__Random(1000,9999)}@example.com")
// Generate random order amount
def amount = (Math.random() * 1000 + 10).round(2)
vars.put("order_amount", amount.toString())
Post-Processor -- Parse Complex Responses
import groovy.json.JsonSlurper
def response = prev.getResponseDataAsString()
def json = new JsonSlurper().parseText(response)
if (json.data && json.data.size() > 0) {
def firstItem = json.data[0]
vars.put("product_id", firstItem.id.toString())
vars.put("product_name", firstItem.name)
log.info("Extracted product: ${firstItem.name}")
} else {
log.warn("No products found in response")
prev.setSuccessful(false)
prev.setResponseMessage("No products in response")
}
Assertion -- Custom Validation
import groovy.json.JsonSlurper
def response = prev.getResponseDataAsString()
def json = new JsonSlurper().parseText(response)
// Validate response structure
assert json.data != null : "Response missing 'data' field"
assert json.data.size() > 0 : "Data array is empty"
assert json.total >= json.data.size() : "Total count inconsistent"
// Validate each item
json.data.each { item ->
assert item.id != null : "Item missing ID"
assert item.name?.trim() : "Item missing name"
assert item.price > 0 : "Item price must be positive"
}
Distributed Testing
Master-Slave Configuration
On the master machine (jmeter.properties):
remote_hosts=slave1:1099,slave2:1099,slave3:1099
server.rmi.ssl.disable=true
mode=StrippedBatch
On each slave machine:
# Start JMeter server
jmeter-server -Djava.rmi.server.hostname=<slave-ip>
Run distributed test:
jmeter -n -t test-plans/load-test.jmx \
-R slave1,slave2,slave3 \
-l results/distributed-results.jtl \
-e -o reports/distributed-report
Command-Line Execution
# Basic run
jmeter -n -t test-plans/load-test.jmx -l results/results.jtl
# With properties override
jmeter -n -t test-plans/load-test.jmx \
-JBASE_URL=staging.example.com \
-JTHREADS=200 \
-JRAMPUP=300 \
-JDURATION=1800 \
-l results/results.jtl
# Generate HTML report after test
jmeter -g results/results.jtl -o reports/html-report
# Run with HTML report generation
jmeter -n -t test-plans/load-test.jmx \
-l results/results.jtl \
-e -o reports/html-report
# With specific log level
jmeter -n -t test-plans/load-test.jmx \
-l results/results.jtl \
-LDEBUG
Listeners and Reporting
Backend Listener (InfluxDB)
For real-time monitoring with Grafana:
Backend Listener Implementation: org.apache.jmeter.visualizers.backend.influxdb.InfluxdbBackendListenerClient
influxdbUrl: http://influxdb:8086/write?db=jmeter
application: my-app
measurement: jmeter
summaryOnly: false
samplersRegex: .*
Custom JTL Configuration
In jmeter.properties or user.properties:
jmeter.save.saveservice.output_format=csv
jmeter.save.saveservice.response_data=false
jmeter.save.saveservice.samplerData=false
jmeter.save.saveservice.requestHeaders=false
jmeter.save.saveservice.url=true
jmeter.save.saveservice.responseHeaders=false
jmeter.save.saveservice.timestamp_format=ms
jmeter.save.saveservice.successful=true
jmeter.save.saveservice.label=true
jmeter.save.saveservice.code=true
jmeter.save.saveservice.message=true
jmeter.save.saveservice.threadName=true
jmeter.save.saveservice.time=true
jmeter.save.saveservice.connect_time=true
jmeter.save.saveservice.latency=true
jmeter.save.saveservice.bytes=true
Best Practices
- Never run load tests from the GUI -- GUI mode is for script development only.
- Remove all listeners during actual tests -- Listeners consume memory under load.
- Use Transaction Controllers -- Group related requests for meaningful metrics.
- Parameterize test data -- Use CSV files and variables for all test data.
- Add think times -- Real users pause between actions.
- Validate with assertions -- Every request should be verified for correctness.
- Use HTTP Request Defaults -- Centralize common settings.
- Enable cookies -- Add HTTP Cookie Manager for session management.
- Increase JVM heap -- Set
-Xms1g -Xmx4gfor large load tests. - Monitor the load generator -- Ensure the JMeter machine is not the bottleneck.
Anti-Patterns to Avoid
- Running tests from GUI -- GUI mode adds overhead and skews results.
- Too many listeners -- View Results Tree with response data consumes massive memory.
- No correlation -- Hardcoded session IDs cause authentication failures.
- No think time -- Unrealistic load pattern with machine-gun requests.
- Ignoring ramp-up -- Starting all threads simultaneously overloads the system unnaturally.
- Single machine overload -- Too many threads on one machine produces unreliable results.
- Not clearing results between runs -- Old results mixed with new cause confusion.
- Hardcoded data -- Every user sending the same data is unrealistic.
- Ignoring connection timeouts -- Without timeouts, threads hang forever.
- Not monitoring JMeter itself -- JMeter GC pauses affect results accuracy.
Key Metrics to Monitor
- Throughput -- Requests per second (should plateau, not drop)
- Response Time -- Average, median, 90th, 95th, 99th percentiles
- Error Rate -- Percentage of failed requests
- Active Threads -- Should match the configured ramp pattern
- Connect Time -- Time to establish TCP connection
- Latency -- Time to first byte of response
- Bandwidth -- Network throughput (bytes/sec)
- Server Hits/sec -- Rate of requests hitting the server
Decide Fit First
Design Intent
How To Use It
Boundaries And Review