- Simulate JVM Application Faults
- Create experiments using the command-line mode
- Throw custom exceptions using the command-line mode
- Trigger garbage collection using the command-line mode
- Increase method latency using the command-line mode
- Modify return values of a method using the command-line mode
- Trigger faults by setting Byteman configuration files using the command-line mode
- Increase JVM stress using the command-line mode
- Create experiments using the service mode
- Create experiments using the command-line mode
- Throw custom exceptions using the service mode
- Trigger garbage collection using service mode
- Increase method latency using service mode
- Modify return values of a method using service mode
- Trigger faults by setting Byteman configuration files using service mode
- Increase JVM stress using the service mode
Version: 2.1.4
Simulate JVM Application Faults
Chaosd simulates the faults of JVM application through Byteman. The supported fault types are as follows:
- Throw custom exceptions
- Trigger garbage collection
- Increase method latency
- Modify return values of a method
- Trigger faults by setting Byteman configuration files
- Increase JVM pressure
This document describes how to use Chaosd to create the above fault types of JVM experiments.
Create experiments using the command-line mode
This section introduces how to create the experiments of JVM application faults using the command-line mode.
Before creating the experiment, you can run the following command line to see the types of JVM application faults supported by Chaosd:
chaosd attack jvm -h
The result is as follows:
JVM attack related commands
Usage:
chaosd attack jvm [command]
Available Commands:
exception throw specified exception for specified method
gc trigger GC for JVM
latency inject latency to specified method
return return specified value for specified method
rule-file inject fault with configured byteman rule file
stress inject stress to JVM
Flags:
-h, --help help for jvm
--pid int the pid of Java process which needs to attach
--port int the port of agent server (default 9288)
Global Flags:
--log-level string the log level of chaosd. The value can be 'debug', 'info', 'warn' and 'error'
--uid string the experiment ID
Use "chaosd attack jvm [command] --help" for more information about a command.
Throw custom exceptions using the command-line mode
Commands for throwing custom exceptions
To see the usage and configuration items of the command that throws custom exceptions, run the following command:
chaosd attack jvm exception --help
The result is as follows:
throw specified exception for specified method
Usage:
chaosd attack jvm exception [options] [flags]
Flags:
-c, --class string Java class name
--exception string the exception which needs to throw for action 'exception'
-h, --help help for exception
-m, --method string the method name in Java class
Global Flags:
--log-level string the log level of chaosd. The value can be 'debug', 'info', 'warn' and 'error'
--pid int the pid of Java process which needs to attach
--port int the port of agent server (default 9288)
--uid string the experiment ID
Configuration description for throwing custom exceptions
Configuration item | Abbreviation | Description | Value |
---|---|---|---|
class | c | The name of the Java class | string type, required |
exception | None | The thrown custom exception | string type, required |
method | m | The name of the method | string type, required to be configured |
pid | None | The Java process ID where the fault is to be injected | int type, required |
port | None | The port number attached to the Java process agent. The fault is injected into the Java process through this port number. | int type. The default value is 9288 . |
uid | None | The experiment ID | string type. This item is not required to be configured, because Chaosd randomly creates one. |
Example for throwing custom exceptions
chaosd attack jvm exception -c Main -m sayhello --exception 'java.io.IOException("BOOM")' --pid 30045
The result is as follows:
[2021/08/05 02:39:39.106 +00:00] [INFO] [jvm.go:208] ["byteman rule"] [rule="\nRULE Main-sayhello-exception-q6nd0\nCLASS Main\nMETHOD sayhello\nAT ENTRY\nIF true\nDO \n\tthrow new java.io.IOException(\"BOOM\");\nENDRULE\n"] [file=/tmp/rule.btm296930759]
Attack jvm successfully, uid: 26a45ae2-d395-46f5-a126-2b2c6c85ae9d
Trigger garbage collection using the command-line mode
Commands for triggering garbage collection
To see the usage and configuration items of the command that triggers garbage collection, run the following command:
chaosd attack jvm gc --help
trigger GC for JVM
Usage:
chaosd attack jvm gc [flags]
Flags:
-h, --help help for gc
Global Flags:
--log-level string the log level of chaosd. The value can be 'debug', 'info', 'warn' and 'error'
--pid int the pid of Java process which needs to attach
--port int the port of agent server (default 9288)
--uid string the experiment ID
Configuration description for triggering garbage collection
Configuration item | Abbreviation | Description | Value |
---|---|---|---|
pid | None | The Java process ID where the fault is to be injected | int type, required |
port | None | The port number attached to the Java process agent. The fault is injected into the Java process through this port number. | int type. The default value is 9288 . |
uid | None | The experiment ID | string type. This item is not required to be configured, because Chaosd randomly creates one. |
Example for triggering garbage collection
chaosd attack jvm gc --pid 89345
The result is as follows:
[2021/08/05 02:49:47.850 +00:00] [INFO] [jvm.go:208] ["byteman rule"] [rule="\nRULE --gc-u0mlf\nGC\nENDRULE\n"] [file=/tmp/rule.btm012481052]
Attack jvm successfully, uid: f360e70a-5359-49b6-8526-d7e0a3c6f696
Triggering garbage collection is a one-time operation, and the experiment does not require recovery.
Increase method latency using the command-line mode
Commands for increasing method latency
To see the usage and configuration items of the command that increases method latency, run the following command:
chaosd attack jvm latency --help
The result is as follows:
inject latency to specified method
Usage:
chaosd attack jvm latency [options] [flags]
Flags:
-c, --class string Java class name
-h, --help help for latency
--latency int the latency duration, unit ms
-m, --method string the method name in Java class
Global Flags:
--log-level string the log level of chaosd. The value can be 'debug', 'info', 'warn' and 'error'
--pid int the pid of Java process which needs to attach
--port int the port of agent server (default 9288)
--uid string the experiment ID
Configuration description for increasing method latency
Configuration item | Abbreviation | Description | Value |
---|---|---|---|
class | c | The name of the Java class | string type, required |
latency | None | The duration of increasing method latency | int type, required. The unit is milisecond. |
method | m | The name of the method | string type, required |
pid | None | The Java process ID where the fault is to be injected | int type, required |
port | None | The port number attached to the Java process agent. The fault is injected into the Java process through this port number. | int type. The default value is 9288 . |
uid | None | The experiment ID | string type. This item is not required to be configured, because Chaosd randomly creates one. |
Example for increasing method latency
chaosd attack jvm latency --class Main --method sayhello --latency 5000 --pid 100840
The result is as follows:
[2021/08/05 03:08:50.716 +00:00] [INFO] [jvm.go:208] ["byteman rule"] [rule="\nRULE Main-sayhello-latency-hlib2\nCLASS Main\nMETHOD sayhello\nAT ENTRY\nIF true\nDO \n\tThread.sleep(5000);\nENDRULE\n"] [file=/tmp/rule.btm359997255]
[2021/08/05 03:08:51.155 +00:00] [INFO] [jvm.go:94] ["submit rules"] [output="install rule Main-sayhello-latency-hlib2\n\n"]
Attack jvm successfully, uid: bbe00c57-ac9d-4113-bf0c-2a6f184be261
Modify return values of a method using the command-line mode
Commands for modifying return values of a method
To see the usage and configuration items of the command that modifies return values of a method, run the following command:
chaosd attack jvm return --help
return specified value for specified method
Usage:
chaosd attack jvm return [options] [flags]
Flags:
-c, --class string Java class name
-h, --help help for return
-m, --method string the method name in Java class
--value string the return value for action 'return'. Only supports number and string types.
Global Flags:
--log-level string the log level of chaosd. The value can be 'debug', 'info', 'warn' and 'error'
--pid int the pid of Java process which needs to attach
--port int the port of agent server (default 9288)
--uid string the experiment ID
Configuration description for modifying return values of a method
Configuration item | Abbreviation | Description | Value |
---|---|---|---|
class | c | The name of the Java class | string type, required to be configured |
method | m | The name of the method | string type, required to be configured |
value | None | Specifies the return value of the method | string type, required to be configured. Currently, the item can be numeric and string types. If the item (return value) is string, double quotes are required, like “chaos”. |
pid | None | The Java process ID where the fault is needed to be injected | int type, required to be configured |
port | None | The port number attached to the Java process agent. The faults is injected into the Java process through this port number. | int type. The default value is 9288 . |
uid | None | The experiment ID | string type. This item is not required to be configured, because Chaosd randomly creates one. |
Example for simulating the scenario of modifying return values of a method
chaosd attack jvm return --class Main --method getnum --value 999 --pid 112694
The result is as follows:
[2021/08/05 03:35:10.603 +00:00] [INFO] [jvm.go:208] ["byteman rule"] [rule="\nRULE Main-getnum-return-i6gb7\nCLASS Main\nMETHOD getnum\nAT ENTRY\nIF true\nDO \n\treturn 999;\nENDRULE\n"] [file=/tmp/rule.btm051982059]
[2021/08/05 03:35:10.820 +00:00] [INFO] [jvm.go:94] ["submit rules"] [output="install rule Main-getnum-return-i6gb7\n\n"]
Attack jvm successfully, uid: e2f204f6-4bed-4d92-aade-2b4a47b02e5d
Trigger faults by setting Byteman configuration files using the command-line mode
You can set the fault rules in the Byteman rule configuration file, and then inject the faults by specifying the path of the configuration file using Chaosd. Regarding the Byteman rule configuration, refer to byteman-rule-language.
Commands for triggering faults by setting Byteman configuration files
To see the usage and configuration items of the command that triggers faults by setting Byteman configuration files, run the following command:
chaosd attack jvm rule-file --help
The result is as follows:
inject fault with configured byteman rule file
Usage:
chaosd attack jvm rule-file [options] [flags]
Flags:
-h, --help help for rule-file
-p, --path string the path of configured byteman rule file
Global Flags:
--log-level string the log level of chaosd, the value can be 'debug', 'info', 'warn' and 'error'
--pid int the pid of Java process which needs to attach
--port int the port of agent server (default 9288)
--uid string the experiment ID
Configuration description for triggering faults by setting Byteman configuration files
Configuration item | Abbreviation | Description | Value |
---|---|---|---|
path | None | Specifies the path of the Byteman configuration file | string type, required |
pid | None | The Java process ID where the fault is to be injected | int type, required |
port | None | The port number attached to the Java process agent. The fault is injected into the Java process through this port number. | int type. The default value is 9288 . |
uid | None | The experiment ID | string type. This item is not required to be configured, because Chaosd randomly creates one. |
Example for triggering faults by setting Byteman configuration files
First, based on the specific Java program and referring to the Byteman rule language, write a rule configuration file. For example:
RULE modify return value
CLASS Main
METHOD getnum
AT ENTRY
IF true
DO
return 9999
ENDRULE
Then, save the configuration file to the return.btm
file. After that, run the following command to inject faults.
chaosd attack jvm rule-file -p ./return.btm --pid 112694
The result is as follows:
[2021/08/05 03:45:40.757 +00:00] [INFO] [jvm.go:152] ["rule file data:RULE modify return value\nCLASS Main\nMETHOD getnum\nAT ENTRY\nIF true\nDO\n return 9999\nENDRULE\n"]
[2021/08/05 03:45:41.011 +00:00] [INFO] [jvm.go:94] ["submit rules"] [output="install rule modify return value\n\n"]
Attack jvm successfully, uid: 5ca2e06d-a7c6-421d-bb67-0c9908bac17a
Increase JVM stress using the command-line mode
Commands for increasing JVM stress
To see the usage and configuration items of the command that increases JVM stress, run the following command:
chaosd attack jvm stress --help
The result is as follows:
inject stress to JVM
Usage:
chaosd attack jvm stress [options] [flags]
Flags:
--cpu-count int the CPU core number
-h, --help help for stress
--mem-type int the memory type to be allocated. The value can be 'stack' or 'heap'.
Global Flags:
--log-level string the log level of chaosd. The value can be 'debug', 'info', 'warn' and 'error'
--pid int the pid of Java process which needs to attach
--port int the port of agent server (default 9288)
--uid string the experiment ID
Configuration description for increasing JVM stress
Configuration item | Abbreviation | Description | Value |
---|---|---|---|
cpu-count | None | The number of CPU cores used for increasing JVM stress | int type. You must configure one item between cpu-count and mem-type . |
mem-type | None | The type of OOM | string type. Currently, both ‘stack’ and ‘heap’ OOM types are supported. You must configure one item between cpu-count and mem-type . |
pid | None | The Java process ID where the fault is to be injected | int type, required |
port | None | The port number attached to the Java process agent. The fault is injected into the Java process through this port number. | int type. The default value is 9288 . |
uid | None | The experiment ID | string type. This item is not required to be configured, because Chaosd randomly creates one. |
Example for increasing JVM stress
chaosd attack jvm stress --cpu-count 2 --pid 123546
The result is as follows:
[2021/08/05 03:59:51.256 +00:00] [INFO] [jvm.go:208] ["byteman rule"] [rule="\nRULE --stress-jfeiu\nSTRESS CPU\nCPUCOUNT 2\nENDRULE\n"] [file=/tmp/rule.btm773062009]
[2021/08/05 03:59:51.613 +00:00] [INFO] [jvm.go:94] ["submit rules"] [output="install rule --stress-jfeiu\n\n"]
Attack jvm successfully, uid: b9b997b5-0a0d-4f1f-9081-d52a32318b84
Create experiments using the service mode
You can follow the instructions below to create experiments using the service mode.
Execute Chaosd in service mode:
chaosd server --port 31767
Send HTTP POST request to the
/api/attack/{uid}
path of Chaosd service.curl -X POST 172.16.112.130:31767/api/attack/jvm -H "Content-Type:application/json" -d '{fault-configuration}'
For the
fault-configuration
part in the above command, you need to configure it according to the fault types. For the corresponding parameters, refer to the parameters and examples of each fault type in the following sections.
note
When running an experiment, remember to save the UID information of the experiment. When you want to end the experiment corresponding to the UID, you need to send an HTTP DELETE request to the /api/attack/{uid}
path of Chaosd service.
Throw custom exceptions using the service mode
Parameters for throwing custom exceptions
Parameter | Description | Value |
---|---|---|
action | The action of the experiment | Set to “exception” |
class | The name of the Java class | string type, required |
exception | The thrown custom exception | string type, required |
method | The name of the method | string type, required |
pid | The Java process ID where the fault is to be injected | int type, required |
port | The port number attached to the Java process agent. The faults is injected into the Java process through this port number. | int type. The default value is 9288 . |
uid | The experiment ID | string type. This item is not required to be configured, because Chaosd randomly creates one. |
Example for throwing custom exceptions using the service mode
curl -X POST 172.16.112.130:31767/api/attack/jvm -H "Content-Type:application/json" -d '{"action":"exception","class":"Main","method":"sayhello","exception":"java.io.IOException(\"BOOM\")","pid":1828622}'
The result is as follows:
{"status":200,"message":"attack successfully","uid":"c3c519bf-819a-4a7b-97fb-e3d0814481fa"}
Trigger garbage collection using service mode
Parameters for triggering garbage collection
Parameter | Description | Value |
---|---|---|
action | The action of the experiment | Set to “gc” |
pid | The Java process ID where the fault is to be injected | int type, required |
port | The port number attached to the Java process agent. The fault is injected into the Java process through this port number. | int type. The default value is 9288 . |
uid | The experiment ID | string type. This item is not required to be configured, because Chaosd randomly creates one. |
Example for triggering garbage collection using the service mode
curl -X POST 172.16.112.130:31767/api/attack/jvm -H "Content-Type:application/json" -d '{"action":"gc","pid":1828622}'
The result is as follows:
{"status":200,"message":"attack successfully","uid":"c3c519bf-819a-4a7b-97fb-e3d0814481fa"}
Triggering garbage collection is a one-time operation. The experiment does not require recovery.
Increase method latency using service mode
Parameters for increasing method latency
Parameter | Description | Value |
---|---|---|
action | The action of the experiment | Set to “latency” |
class | The name of the Java class | string type, required |
latency | The duration of increasing method latency | int type, required. The unit is milisecond. |
method | The name of the method | string type, required |
pid | The Java process ID where the fault is to be injected | int type, required |
port | The Java process ID where the fault is needed to be injected | int type, required |
uid | The experiment ID | string type. This item is not required to be configured, because Chaosd randomly creates one. |
Example for increasing method latency using the service mode
curl -X POST 172.16.112.130:31767/api/attack/jvm -H "Content-Type:application/json" -d '{"action":"latency","class":"Main","method":"sayhello","latency":5000,"pid":1828622}'
The result is as follows:
{"status":200,"message":"attack successfully","uid":"a551206c-960d-4ac5-9056-518e512d4d0d"}
Modify return values of a method using service mode
Parameters for modifying return values of a method
Parameter | Description | Value |
---|---|---|
action | The action of the experiment | Set to “return” |
class | The name of the Java class | string type, required |
method | The name of the method | string type, required |
value | Specifies the return value of the method | string type, required. Currently, the item can be numeric and string types. If the item (return value) is string, double quotes are required, like “chaos”. |
pid | The Java process ID where the fault is to be injected | int type, required |
port | The port number attached to the Java process agent. The fault is injected into the Java process through this port number. | int type. The default value is 9288 . |
uid | The experiment ID | string type. This item is not required to be configured, because Chaosd randomly creates one. |
Example for modifying return values of a method using the service mode
curl -X POST 172.16.112.130:31767/api/attack/jvm -H "Content-Type:application/json" -d '{"action":"return","class":"Main","method":"getnum","value":"999","pid":1828622}'
The result is as follows:
{"status":200,"message":"attack successfully","uid":"a551206c-960d-4ac5-9056-518e512d4d0d"}
Trigger faults by setting Byteman configuration files using service mode
You can set the fault rules according to the Byteman rule configuration. Regarding to the Byteman rule configuration, refer to byteman-rule-language.
Parameters for triggering faults by setting Byteman configuration files
Parameter | Description | Value |
---|---|---|
action | The action of the experiment | Set to “rule-data” |
rule-data | Specifies the Byteman configuration data | string type, required |
pid | The Java process ID where the fault is to be injected | int type, required |
port | The port number attached to the Java process agent. The fault is injected into the Java process through this port number. | int type. The default value is 9288 . |
uid | The experiment ID | string type. This item is not required to be configured, because Chaosd randomly creates one. |
Example for triggering faults by setting Byteman configuration files using the service mode
First, based on the specific Java program and referring to the Byteman rule language, write a rule configuration file. For example:
RULE modify return value
CLASS Main
METHOD getnum
AT ENTRY
IF true
DO
return 9999
ENDRULE
Then, escape the line breaks in the configuration file to the newline character “\n”, and use the escaped text as the value of “rule-data”. Run the following command:
curl -X POST 127.0.0.1:31767/api/attack/jvm -H "Content-Type:application/json" -d '{"action":"rule-data","pid":30045,"rule-data":"\nRULE modify return value\nCLASS Main\nMETHOD getnum\nAT ENTRY\nIF true\nDO return 9999\nENDRULE\n"}'
The result is as follows:
{"status":200,"message":"attack successfully","uid":"a551206c-960d-4ac5-9056-518e512d4d0d"}
Increase JVM stress using the service mode
Parameters for increasing JVM stress
Parameter | Description | Value | |
---|---|---|---|
action | The action of the experiment | Set to “stress” | |
cpu-count | The number of CPU cores used for increasing CPU stress | int type. You must configure one item between cpu-count and mem-type . | |
mem-type | The type of OOM | string type. Currently, both ‘stack’ and ‘heap’ OOM types are supported. You must configure one item between cpu-count and mem-type . | |
pid | None | The Java process ID where the fault is to be injected | int type, required |
port | None | The port number attached to the Java process agent. The fault is injected into the Java process through this port number. | int type. The default value is 9288 . |
uid | None | The experiment ID | string type. This item is not required to be configured, because Chaosd randomly creates one. |
Example for increasing JVM stress using the service mode
curl -X POST 172.16.112.130:31767/api/attack/jvm -H "Content-Type:application/json" -d '{"action":"stress","cpu-count":1,"pid":1828622}'
The result is as follows:
{"status":200,"message":"attack successfully","uid":"a551206c-960d-4ac5-9056-518e512d4d0d"}