The ResourceManager REST API’s allow the user to get information about the cluster - status on the cluster, metrics on the cluster, scheduler information, information about nodes in the cluster, and information about applications on the cluster.
To enable cross-origin support (CORS) for the RM only(without enabling it for the NM), please set the following configuration parameters:
In core-site.xml, add org.apache.hadoop.security.HttpCrossOriginFilterInitializer to hadoop.http.filter.initializers. In yarn-site.xml, set yarn.resourcemanager.webapp.cross-origin.enabled to true.
The cluster information resource provides overall information about the cluster.
Both of the following URI’s give you the cluster information.
* http://<rm http address:port>/ws/v1/cluster * http://<rm http address:port>/ws/v1/cluster/info
Item | Data Type | Description |
---|---|---|
id | long | The cluster id |
startedOn | long | The time the cluster started (in ms since epoch) |
state | string | The ResourceManager state - valid values are: NOTINITED, INITED, STARTED, STOPPED |
haState | string | The ResourceManager HA state - valid values are: INITIALIZING, ACTIVE, STANDBY, STOPPED |
resourceManagerVersion | string | Version of the ResourceManager |
resourceManagerBuildVersion | string | ResourceManager build string with build version, user, and checksum |
resourceManagerVersionBuiltOn | string | Timestamp when ResourceManager was built (in ms since epoch) |
hadoopVersion | string | Version of hadoop common |
hadoopBuildVersion | string | Hadoop common build string with build version, user, and checksum |
hadoopVersionBuiltOn | string | Timestamp when hadoop common was built(in ms since epoch) |
JSON response
HTTP Request:
GET http://<rm http address:port>/ws/v1/cluster/info
Response Header:
HTTP/1.1 200 OK Content-Type: application/json Transfer-Encoding: chunked Server: Jetty(6.1.26)
Response Body:
{ "clusterInfo": { "id":1324053971963, "startedOn":1324053971963, "state":"STARTED", "resourceManagerVersion":"0.23.1-SNAPSHOT", "resourceManagerBuildVersion":"0.23.1-SNAPSHOT from 1214049 by user1 source checksum 050cd664439d931c8743a6428fd6a693", "resourceManagerVersionBuiltOn":"Tue Dec 13 22:12:48 CST 2011", "hadoopVersion":"0.23.1-SNAPSHOT", "hadoopBuildVersion":"0.23.1-SNAPSHOT from 1214049 by user1 source checksum 11458df3bb77342dca5f917198fad328", "hadoopVersionBuiltOn":"Tue Dec 13 22:12:26 CST 2011" } }
XML response
HTTP Request:
Accept: application/xml GET http://<rm http address:port>/ws/v1/cluster/info
Response Header:
HTTP/1.1 200 OK Content-Type: application/xml Content-Length: 712 Server: Jetty(6.1.26)
Response Body:
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <clusterInfo> <id>1324053971963</id> <startedOn>1324053971963</startedOn> <state>STARTED</state> <resourceManagerVersion>0.23.1-SNAPSHOT</resourceManagerVersion> <resourceManagerBuildVersion>0.23.1-SNAPSHOT from 1214049 by user1 source checksum 050cd664439d931c8743a6428fd6a693</resourceManagerBuildVersion> <resourceManagerVersionBuiltOn>Tue Dec 13 22:12:48 CST 2011</resourceManagerVersionBuiltOn> <hadoopVersion>0.23.1-SNAPSHOT</hadoopVersion> <hadoopBuildVersion>0.23.1-SNAPSHOT from 1214049 by user1 source checksum 11458df3bb77342dca5f917198fad328</hadoopBuildVersion> <hadoopVersionBuiltOn>Tue Dec 13 22:12:48 CST 2011</hadoopVersionBuiltOn> </clusterInfo>
The cluster metrics resource provides some overall metrics about the cluster. More detailed metrics should be retrieved from the jmx interface.
Item | Data Type | Description |
---|---|---|
appsSubmitted | int | The number of applications submitted |
appsCompleted | int | The number of applications completed |
appsPending | int | The number of applications pending |
appsRunning | int | The number of applications running |
appsFailed | int | The number of applications failed |
appsKilled | int | The number of applications killed |
reservedMB | long | The amount of memory reserved in MB |
availableMB | long | The amount of memory available in MB |
allocatedMB | long | The amount of memory allocated in MB |
totalMB | long | The amount of total memory in MB |
reservedVirtualCores | long | The number of reserved virtual cores |
availableVirtualCores | long | The number of available virtual cores |
allocatedVirtualCores | long | The number of allocated virtual cores |
totalVirtualCores | long | The total number of virtual cores |
containersAllocated | int | The number of containers allocated |
containersReserved | int | The number of containers reserved |
containersPending | int | The number of containers pending |
totalNodes | int | The total number of nodes |
activeNodes | int | The number of active nodes |
lostNodes | int | The number of lost nodes |
unhealthyNodes | int | The number of unhealthy nodes |
decommissionedNodes | int | The number of nodes decommissioned |
rebootedNodes | int | The number of nodes rebooted |
JSON response
HTTP Request:
GET http://<rm http address:port>/ws/v1/cluster/metrics
Response Header:
HTTP/1.1 200 OK Content-Type: application/json Transfer-Encoding: chunked Server: Jetty(6.1.26)
Response Body:
{ "clusterMetrics": { "appsSubmitted":0, "appsCompleted":0, "appsPending":0, "appsRunning":0, "appsFailed":0, "appsKilled":0, "reservedMB":0, "availableMB":17408, "allocatedMB":0, "reservedVirtualCores":0, "availableVirtualCores":7, "allocatedVirtualCores":1, "containersAllocated":0, "containersReserved":0, "containersPending":0, "totalMB":17408, "totalVirtualCores":8, "totalNodes":1, "lostNodes":0, "unhealthyNodes":0, "decommissionedNodes":0, "rebootedNodes":0, "activeNodes":1 } }
XML response
HTTP Request:
GET http://<rm http address:port>/ws/v1/cluster/metrics Accept: application/xml
Response Header:
HTTP/1.1 200 OK Content-Type: application/xml Content-Length: 432 Server: Jetty(6.1.26)
Response Body:
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <clusterMetrics> <appsSubmitted>0</appsSubmitted> <appsCompleted>0</appsCompleted> <appsPending>0</appsPending> <appsRunning>0</appsRunning> <appsFailed>0</appsFailed> <appsKilled>0</appsKilled> <reservedMB>0</reservedMB> <availableMB>17408</availableMB> <allocatedMB>0</allocatedMB> <reservedVirtualCores>0</reservedVirtualCores> <availableVirtualCores>7</availableVirtualCores> <allocatedVirtualCores>1</allocatedVirtualCores> <containersAllocated>0</containersAllocated> <containersReserved>0</containersReserved> <containersPending>0</containersPending> <totalMB>17408</totalMB> <totalVirtualCores>8</totalVirtualCores> <totalNodes>1</totalNodes> <lostNodes>0</lostNodes> <unhealthyNodes>0</unhealthyNodes> <decommissionedNodes>0</decommissionedNodes> <rebootedNodes>0</rebootedNodes> <activeNodes>1</activeNodes> </clusterMetrics>
A scheduler resource contains information about the current scheduler configured in a cluster. It currently supports the Fifo, Capacity and Fair Scheduler. You will get different information depending on which scheduler is configured so be sure to look at the type information.
The capacity scheduler supports hierarchical queues. This one request will print information about all the queues and any subqueues they have. Queues that can actually have jobs submitted to them are referred to as leaf queues. These queues have additional data associated with them.
Item | Data Type | Description |
---|---|---|
type | string | Scheduler type - capacityScheduler |
capacity | float | Configured queue capacity in percentage relative to its parent queue |
usedCapacity | float | Used queue capacity in percentage |
maxCapacity | float | Configured maximum queue capacity in percentage relative to its parent queue |
queueName | string | Name of the queue |
queues | array of queues(JSON)/zero or more queue objects(XML) | A collection of queue resources |
Item | Data Type | Description |
---|---|---|
capacity | float | Configured queue capacity in percentage relative to its parent queue |
usedCapacity | float | Used queue capacity in percentage |
maxCapacity | float | Configured maximum queue capacity in percentage relative to its parent queue |
absoluteCapacity | float | Absolute capacity percentage this queue can use of entire cluster |
absoluteMaxCapacity | float | Absolute maximum capacity percentage this queue can use of the entire cluster |
absoluteUsedCapacity | float | Absolute used capacity percentage this queue is using of the entire cluster |
numApplications | int | The number of applications currently in the queue |
usedResources | string | A string describing the current resources used by the queue |
queueName | string | The name of the queue |
state | string of QueueState | The state of the queue |
queues | array of queues(JSON)/zero or more queue objects(XML) | A collection of sub-queue information. Omitted if the queue has no sub-queues. |
resourcesUsed | A single resource object | The total amount of resources used by this queue |
Item | Data Type | Description |
---|---|---|
type | String | type of the queue - capacitySchedulerLeafQueueInfo |
numActiveApplications | int | The number of active applications in this queue |
numPendingApplications | int | The number of pending applications in this queue |
numContainers | int | The number of containers being used |
maxApplications | int | The maximum number of applications this queue can have |
maxApplicationsPerUser | int | The maximum number of applications per user this queue can have |
maxActiveApplications | int | The maximum number of active applications this queue can have |
maxActiveApplicationsPerUser | int | The maximum number of active applications per user this queue can have |
userLimit | int | The minimum user limit percent set in the configuration |
userLimitFactor | float | The user limit factor set in the configuration |
users | array of users(JSON)/zero or more user objects(XML) | A collection of user objects containing resources used |
Item | Data Type | Description |
---|---|---|
username | String | The username of the user using the resources |
resourcesUsed | A single resource object | The amount of resources used by the user in this queue |
numActiveApplications | int | The number of active applications for this user in this queue |
numPendingApplications | int | The number of pending applications for this user in this queue |
Item | Data Type | Description |
---|---|---|
memory | int | The amount of memory used (in MB) |
vCores | int | The number of virtual cores |
JSON response
HTTP Request:
GET http://<rm http address:port>/ws/v1/cluster/scheduler
Response Header:
HTTP/1.1 200 OK Content-Type: application/json Transfer-Encoding: chunked Server: Jetty(6.1.26)
Response Body:
{ "scheduler": { "schedulerInfo": { "capacity": 100.0, "maxCapacity": 100.0, "queueName": "root", "queues": { "queue": [ { "absoluteCapacity": 10.5, "absoluteMaxCapacity": 50.0, "absoluteUsedCapacity": 0.0, "capacity": 10.5, "maxCapacity": 50.0, "numApplications": 0, "queueName": "a", "queues": { "queue": [ { "absoluteCapacity": 3.15, "absoluteMaxCapacity": 25.0, "absoluteUsedCapacity": 0.0, "capacity": 30.000002, "maxCapacity": 50.0, "numApplications": 0, "queueName": "a1", "queues": { "queue": [ { "absoluteCapacity": 2.6775, "absoluteMaxCapacity": 25.0, "absoluteUsedCapacity": 0.0, "capacity": 85.0, "maxActiveApplications": 1, "maxActiveApplicationsPerUser": 1, "maxApplications": 267, "maxApplicationsPerUser": 267, "maxCapacity": 100.0, "numActiveApplications": 0, "numApplications": 0, "numContainers": 0, "numPendingApplications": 0, "queueName": "a1a", "resourcesUsed": { "memory": 0, "vCores": 0 }, "state": "RUNNING", "type": "capacitySchedulerLeafQueueInfo", "usedCapacity": 0.0, "usedResources": "<memory:0, vCores:0>", "userLimit": 100, "userLimitFactor": 1.0, "users": null }, { "absoluteCapacity": 0.47250003, "absoluteMaxCapacity": 25.0, "absoluteUsedCapacity": 0.0, "capacity": 15.000001, "maxActiveApplications": 1, "maxActiveApplicationsPerUser": 1, "maxApplications": 47, "maxApplicationsPerUser": 47, "maxCapacity": 100.0, "numActiveApplications": 0, "numApplications": 0, "numContainers": 0, "numPendingApplications": 0, "queueName": "a1b", "resourcesUsed": { "memory": 0, "vCores": 0 }, "state": "RUNNING", "type": "capacitySchedulerLeafQueueInfo", "usedCapacity": 0.0, "usedResources": "<memory:0, vCores:0>", "userLimit": 100, "userLimitFactor": 1.0, "users": null } ] }, "resourcesUsed": { "memory": 0, "vCores": 0 }, "state": "RUNNING", "usedCapacity": 0.0, "usedResources": "<memory:0, vCores:0>" }, { "absoluteCapacity": 7.35, "absoluteMaxCapacity": 50.0, "absoluteUsedCapacity": 0.0, "capacity": 70.0, "maxActiveApplications": 1, "maxActiveApplicationsPerUser": 100, "maxApplications": 735, "maxApplicationsPerUser": 73500, "maxCapacity": 100.0, "numActiveApplications": 0, "numApplications": 0, "numContainers": 0, "numPendingApplications": 0, "queueName": "a2", "resourcesUsed": { "memory": 0, "vCores": 0 }, "state": "RUNNING", "type": "capacitySchedulerLeafQueueInfo", "usedCapacity": 0.0, "usedResources": "<memory:0, vCores:0>", "userLimit": 100, "userLimitFactor": 100.0, "users": null } ] }, "resourcesUsed": { "memory": 0, "vCores": 0 }, "state": "RUNNING", "usedCapacity": 0.0, "usedResources": "<memory:0, vCores:0>" }, { "absoluteCapacity": 89.5, "absoluteMaxCapacity": 100.0, "absoluteUsedCapacity": 0.0, "capacity": 89.5, "maxCapacity": 100.0, "numApplications": 2, "queueName": "b", "queues": { "queue": [ { "absoluteCapacity": 53.7, "absoluteMaxCapacity": 100.0, "absoluteUsedCapacity": 0.0, "capacity": 60.000004, "maxActiveApplications": 1, "maxActiveApplicationsPerUser": 100, "maxApplications": 5370, "maxApplicationsPerUser": 537000, "maxCapacity": 100.0, "numActiveApplications": 1, "numApplications": 2, "numContainers": 0, "numPendingApplications": 1, "queueName": "b1", "resourcesUsed": { "memory": 0, "vCores": 0 }, "state": "RUNNING", "type": "capacitySchedulerLeafQueueInfo", "usedCapacity": 0.0, "usedResources": "<memory:0, vCores:0>", "userLimit": 100, "userLimitFactor": 100.0, "users": { "user": [ { "numActiveApplications": 0, "numPendingApplications": 1, "resourcesUsed": { "memory": 0, "vCores": 0 }, "username": "user2" }, { "numActiveApplications": 1, "numPendingApplications": 0, "resourcesUsed": { "memory": 0, "vCores": 0 }, "username": "user1" } ] } }, { "absoluteCapacity": 35.3525, "absoluteMaxCapacity": 100.0, "absoluteUsedCapacity": 0.0, "capacity": 39.5, "maxActiveApplications": 1, "maxActiveApplicationsPerUser": 100, "maxApplications": 3535, "maxApplicationsPerUser": 353500, "maxCapacity": 100.0, "numActiveApplications": 0, "numApplications": 0, "numContainers": 0, "numPendingApplications": 0, "queueName": "b2", "resourcesUsed": { "memory": 0, "vCores": 0 }, "state": "RUNNING", "type": "capacitySchedulerLeafQueueInfo", "usedCapacity": 0.0, "usedResources": "<memory:0, vCores:0>", "userLimit": 100, "userLimitFactor": 100.0, "users": null }, { "absoluteCapacity": 0.4475, "absoluteMaxCapacity": 100.0, "absoluteUsedCapacity": 0.0, "capacity": 0.5, "maxActiveApplications": 1, "maxActiveApplicationsPerUser": 100, "maxApplications": 44, "maxApplicationsPerUser": 4400, "maxCapacity": 100.0, "numActiveApplications": 0, "numApplications": 0, "numContainers": 0, "numPendingApplications": 0, "queueName": "b3", "resourcesUsed": { "memory": 0, "vCores": 0 }, "state": "RUNNING", "type": "capacitySchedulerLeafQueueInfo", "usedCapacity": 0.0, "usedResources": "<memory:0, vCores:0>", "userLimit": 100, "userLimitFactor": 100.0, "users": null } ] }, "resourcesUsed": { "memory": 0, "vCores": 0 }, "state": "RUNNING", "usedCapacity": 0.0, "usedResources": "<memory:0, vCores:0>" } ] }, "type": "capacityScheduler", "usedCapacity": 0.0 } } }
XML response
HTTP Request:
Accept: application/xml GET http://<rm http address:port>/ws/v1/cluster/scheduler
Response Header:
HTTP/1.1 200 OK Content-Type: application/xml Content-Length: 5778 Server: Jetty(6.1.26)
Response Body:
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <scheduler> <schedulerInfo xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:type="capacityScheduler"> <capacity>100.0</capacity> <usedCapacity>0.0</usedCapacity> <maxCapacity>100.0</maxCapacity> <queueName>root</queueName> <queues> <queue> <capacity>10.5</capacity> <usedCapacity>0.0</usedCapacity> <maxCapacity>50.0</maxCapacity> <absoluteCapacity>10.5</absoluteCapacity> <absoluteMaxCapacity>50.0</absoluteMaxCapacity> <absoluteUsedCapacity>0.0</absoluteUsedCapacity> <numApplications>0</numApplications> <usedResources><memory:0, vCores:0></usedResources> <queueName>a</queueName> <state>RUNNING</state> <queues> <queue> <capacity>30.000002</capacity> <usedCapacity>0.0</usedCapacity> <maxCapacity>50.0</maxCapacity> <absoluteCapacity>3.15</absoluteCapacity> <absoluteMaxCapacity>25.0</absoluteMaxCapacity> <absoluteUsedCapacity>0.0</absoluteUsedCapacity> <numApplications>0</numApplications> <usedResources><memory:0, vCores:0></usedResources> <queueName>a1</queueName> <state>RUNNING</state> <queues> <queue xsi:type="capacitySchedulerLeafQueueInfo"> <capacity>85.0</capacity> <usedCapacity>0.0</usedCapacity> <maxCapacity>100.0</maxCapacity> <absoluteCapacity>2.6775</absoluteCapacity> <absoluteMaxCapacity>25.0</absoluteMaxCapacity> <absoluteUsedCapacity>0.0</absoluteUsedCapacity> <numApplications>0</numApplications> <usedResources><memory:0, vCores:0></usedResources> <queueName>a1a</queueName> <state>RUNNING</state> <resourcesUsed> <memory>0</memory> <vCores>0</vCores> </resourcesUsed> <numActiveApplications>0</numActiveApplications> <numPendingApplications>0</numPendingApplications> <numContainers>0</numContainers> <maxApplications>267</maxApplications> <maxApplicationsPerUser>267</maxApplicationsPerUser> <maxActiveApplications>1</maxActiveApplications> <maxActiveApplicationsPerUser>1</maxActiveApplicationsPerUser> <userLimit>100</userLimit> <users/> <userLimitFactor>1.0</userLimitFactor> </queue> <queue xsi:type="capacitySchedulerLeafQueueInfo"> <capacity>15.000001</capacity> <usedCapacity>0.0</usedCapacity> <maxCapacity>100.0</maxCapacity> <absoluteCapacity>0.47250003</absoluteCapacity> <absoluteMaxCapacity>25.0</absoluteMaxCapacity> <absoluteUsedCapacity>0.0</absoluteUsedCapacity> <numApplications>0</numApplications> <usedResources><memory:0, vCores:0></usedResources> <queueName>a1b</queueName> <state>RUNNING</state> <resourcesUsed> <memory>0</memory> <vCores>0</vCores> </resourcesUsed> <numActiveApplications>0</numActiveApplications> <numPendingApplications>0</numPendingApplications> <numContainers>0</numContainers> <maxApplications>47</maxApplications> <maxApplicationsPerUser>47</maxApplicationsPerUser> <maxActiveApplications>1</maxActiveApplications> <maxActiveApplicationsPerUser>1</maxActiveApplicationsPerUser> <userLimit>100</userLimit> <users/> <userLimitFactor>1.0</userLimitFactor> </queue> </queues> <resourcesUsed> <memory>0</memory> <vCores>0</vCores> </resourcesUsed> </queue> <queue xsi:type="capacitySchedulerLeafQueueInfo"> <capacity>70.0</capacity> <usedCapacity>0.0</usedCapacity> <maxCapacity>100.0</maxCapacity> <absoluteCapacity>7.35</absoluteCapacity> <absoluteMaxCapacity>50.0</absoluteMaxCapacity> <absoluteUsedCapacity>0.0</absoluteUsedCapacity> <numApplications>0</numApplications> <usedResources><memory:0, vCores:0></usedResources> <queueName>a2</queueName> <state>RUNNING</state> <resourcesUsed> <memory>0</memory> <vCores>0</vCores> </resourcesUsed> <numActiveApplications>0</numActiveApplications> <numPendingApplications>0</numPendingApplications> <numContainers>0</numContainers> <maxApplications>735</maxApplications> <maxApplicationsPerUser>73500</maxApplicationsPerUser> <maxActiveApplications>1</maxActiveApplications> <maxActiveApplicationsPerUser>100</maxActiveApplicationsPerUser> <userLimit>100</userLimit> <users/> <userLimitFactor>100.0</userLimitFactor> </queue> </queues> <resourcesUsed> <memory>0</memory> <vCores>0</vCores> </resourcesUsed> </queue> <queue> <capacity>89.5</capacity> <usedCapacity>0.0</usedCapacity> <maxCapacity>100.0</maxCapacity> <absoluteCapacity>89.5</absoluteCapacity> <absoluteMaxCapacity>100.0</absoluteMaxCapacity> <absoluteUsedCapacity>0.0</absoluteUsedCapacity> <numApplications>2</numApplications> <usedResources><memory:0, vCores:0></usedResources> <queueName>b</queueName> <state>RUNNING</state> <queues> <queue xsi:type="capacitySchedulerLeafQueueInfo"> <capacity>60.000004</capacity> <usedCapacity>0.0</usedCapacity> <maxCapacity>100.0</maxCapacity> <absoluteCapacity>53.7</absoluteCapacity> <absoluteMaxCapacity>100.0</absoluteMaxCapacity> <absoluteUsedCapacity>0.0</absoluteUsedCapacity> <numApplications>2</numApplications> <usedResources><memory:0, vCores:0></usedResources> <queueName>b1</queueName> <state>RUNNING</state> <resourcesUsed> <memory>0</memory> <vCores>0</vCores> </resourcesUsed> <numActiveApplications>1</numActiveApplications> <numPendingApplications>1</numPendingApplications> <numContainers>0</numContainers> <maxApplications>5370</maxApplications> <maxApplicationsPerUser>537000</maxApplicationsPerUser> <maxActiveApplications>1</maxActiveApplications> <maxActiveApplicationsPerUser>100</maxActiveApplicationsPerUser> <userLimit>100</userLimit> <users> <user> <username>user2</username> <resourcesUsed> <memory>0</memory> <vCores>0</vCores> </resourcesUsed> <numPendingApplications>1</numPendingApplications> <numActiveApplications>0</numActiveApplications> </user> <user> <username>user1</username> <resourcesUsed> <memory>0</memory> <vCores>0</vCores> </resourcesUsed> <numPendingApplications>0</numPendingApplications> <numActiveApplications>1</numActiveApplications> </user> </users> <userLimitFactor>100.0</userLimitFactor> </queue> <queue xsi:type="capacitySchedulerLeafQueueInfo"> <capacity>39.5</capacity> <usedCapacity>0.0</usedCapacity> <maxCapacity>100.0</maxCapacity> <absoluteCapacity>35.3525</absoluteCapacity> <absoluteMaxCapacity>100.0</absoluteMaxCapacity> <absoluteUsedCapacity>0.0</absoluteUsedCapacity> <numApplications>0</numApplications> <usedResources><memory:0, vCores:0></usedResources> <queueName>b2</queueName> <state>RUNNING</state> <resourcesUsed> <memory>0</memory> <vCores>0</vCores> </resourcesUsed> <numActiveApplications>0</numActiveApplications> <numPendingApplications>0</numPendingApplications> <numContainers>0</numContainers> <maxApplications>3535</maxApplications> <maxApplicationsPerUser>353500</maxApplicationsPerUser> <maxActiveApplications>1</maxActiveApplications> <maxActiveApplicationsPerUser>100</maxActiveApplicationsPerUser> <userLimit>100</userLimit> <users/> <userLimitFactor>100.0</userLimitFactor> </queue> <queue xsi:type="capacitySchedulerLeafQueueInfo"> <capacity>0.5</capacity> <usedCapacity>0.0</usedCapacity> <maxCapacity>100.0</maxCapacity> <absoluteCapacity>0.4475</absoluteCapacity> <absoluteMaxCapacity>100.0</absoluteMaxCapacity> <absoluteUsedCapacity>0.0</absoluteUsedCapacity> <numApplications>0</numApplications> <usedResources><memory:0, vCores:0></usedResources> <queueName>b3</queueName> <state>RUNNING</state> <resourcesUsed> <memory>0</memory> <vCores>0</vCores> </resourcesUsed> <numActiveApplications>0</numActiveApplications> <numPendingApplications>0</numPendingApplications> <numContainers>0</numContainers> <maxApplications>44</maxApplications> <maxApplicationsPerUser>4400</maxApplicationsPerUser> <maxActiveApplications>1</maxActiveApplications> <maxActiveApplicationsPerUser>100</maxActiveApplicationsPerUser> <userLimit>100</userLimit> <users/> <userLimitFactor>100.0</userLimitFactor> </queue> </queues> <resourcesUsed> <memory>0</memory> <vCores>0</vCores> </resourcesUsed> </queue> </queues> </schedulerInfo> </scheduler>
Item | Data Type | Description |
---|---|---|
type | string | Scheduler type - fifoScheduler |
capacity | float | Queue capacity in percentage |
usedCapacity | float | Used queue capacity in percentage |
qstate | string | State of the queue - valid values are: STOPPED, RUNNING |
minQueueMemoryCapacity | int | Minimum queue memory capacity |
maxQueueMemoryCapacity | int | Maximum queue memory capacity |
numNodes | int | The total number of nodes |
usedNodeCapacity | int | The used node capacity |
availNodeCapacity | int | The available node capacity |
totalNodeCapacity | int | The total node capacity |
numContainers | int | The number of containers |
JSON response
HTTP Request:
GET http://<rm http address:port>/ws/v1/cluster/scheduler
Response Header:
HTTP/1.1 200 OK Content-Type: application/json Transfer-Encoding: chunked Server: Jetty(6.1.26)
Response Body:
{ "scheduler": { "schedulerInfo": { "type":"fifoScheduler", "capacity":1, "usedCapacity":"NaN", "qstate":"RUNNING", "minQueueMemoryCapacity":1024, "maxQueueMemoryCapacity":10240, "numNodes":0, "usedNodeCapacity":0, "availNodeCapacity":0, "totalNodeCapacity":0, "numContainers":0 } } }
XML response
HTTP Request:
GET http://<rm http address:port>/ws/v1/cluster/scheduler Accept: application/xml
Response Header:
HTTP/1.1 200 OK Content-Type: application/xml Content-Length: 432 Server: Jetty(6.1.26)
Response Body:
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <scheduler> <schedulerInfo xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:type="fifoScheduler"> <capacity>1.0</capacity> <usedCapacity>NaN</usedCapacity> <qstate>RUNNING</qstate> <minQueueMemoryCapacity>1024</minQueueMemoryCapacity> <maxQueueMemoryCapacity>10240</maxQueueMemoryCapacity> <numNodes>0</numNodes> <usedNodeCapacity>0</usedNodeCapacity> <availNodeCapacity>0</availNodeCapacity> <totalNodeCapacity>0</totalNodeCapacity> <numContainers>0</numContainers> </schedulerInfo> </scheduler>
Item | Data Type | Description |
---|---|---|
type | string | Scheduler type - fairScheduler |
rootQueue | The root queue object | A collection of root queue resources |
Item | Data Type | Description |
---|---|---|
maxApps | int | The maximum number of applications the queue can have |
minResources | A single resource object | The configured minimum resources that are guaranteed to the queue |
maxResources | A single resource object | The configured maximum resources that are allowed to the queue |
usedResources | A single resource object | The sum of resources allocated to containers within the queue |
fairResources | A single resource object | The queue’s fair share of resources |
clusterResources | A single resource object | The capacity of the cluster |
queueName | string | The name of the queue |
schedulingPolicy | string | The name of the scheduling policy used by the queue |
childQueues | array of queues(JSON)/queue objects(XML) | A collection of sub-queue information. Omitted if the queue has no childQueues. |
Item | Data Type | Description |
---|---|---|
type | string | type of the queue - fairSchedulerLeafQueueInfo |
numActiveApps | int | The number of active applications in this queue |
numPendingApps | int | The number of pending applications in this queue |
Item | Data Type | Description |
---|---|---|
memory | int | The amount of memory used (in MB) |
vCores | int | The number of virtual cores |
JSON response
HTTP Request:
GET http://<rm http address:port>/ws/v1/cluster/scheduler
Response Header:
HTTP/1.1 200 OK Content-Type: application/json Transfer-Encoding: chunked Server: Jetty(6.1.26)
Response Body:
{ "scheduler": { "schedulerInfo": { "rootQueue": { "childQueues": { "queue": [ { "clusterResources": { "memory": 8192, "vCores": 8 }, "fairResources": { "memory": 0, "vCores": 0 }, "maxApps": 2147483647, "maxResources": { "memory": 8192, "vCores": 8 }, "minResources": { "memory": 0, "vCores": 0 }, "numActiveApps": 0, "numPendingApps": 0, "queueName": "root.default", "schedulingPolicy": "fair", "type": "fairSchedulerLeafQueueInfo", "usedResources": { "memory": 0, "vCores": 0 } }, { "childQueues": { "queue": [ { "clusterResources": { "memory": 8192, "vCores": 8 }, "fairResources": { "memory": 10000, "vCores": 0 }, "maxApps": 2147483647, "maxResources": { "memory": 8192, "vCores": 8 }, "minResources": { "memory": 5000, "vCores": 0 }, "numActiveApps": 0, "numPendingApps": 0, "queueName": "root.sample_queue.sample_sub_queue", "schedulingPolicy": "fair", "type": "fairSchedulerLeafQueueInfo", "usedResources": { "memory": 0, "vCores": 0 } } ] }, "clusterResources": { "memory": 8192, "vCores": 8 }, "fairResources": { "memory": 10000, "vCores": 0 }, "maxApps": 50, "maxResources": { "memory": 8192, "vCores": 0 }, "minResources": { "memory": 10000, "vCores": 0 }, "queueName": "root.sample_queue", "schedulingPolicy": "fair", "usedResources": { "memory": 0, "vCores": 0 } } ], }, "clusterResources": { "memory": 8192, "vCores": 8 }, "fairResources": { "memory": 8192, "vCores": 8 }, "maxApps": 2147483647, "maxResources": { "memory": 8192, "vCores": 8 }, "minResources": { "memory": 0, "vCores": 0 }, "queueName": "root", "schedulingPolicy": "fair", "usedResources": { "memory": 0, "vCores": 0 } }, "type": "fairScheduler" } } }
XML response
HTTP Request:
GET http://<rm http address:port>/ws/v1/cluster/scheduler Accept: application/xml
Response Header:
HTTP/1.1 200 OK Content-Type: application/xml Content-Length: 2321 Server: Jetty(6.1.26)
Response Body:
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <scheduler> <schedulerInfo xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:type="fairScheduler"> <rootQueue> <maxApps>2147483647</maxApps> <minResources> <memory>0</memory> <vCores>0</vCores> </minResources> <maxResources> <memory>8192</memory> <vCores>8</vCores> </maxResources> <usedResources> <memory>0</memory> <vCores>0</vCores> </usedResources> <fairResources> <memory>8192</memory> <vCores>8</vCores> </fairResources> <clusterResources> <memory>8192</memory> <vCores>8</vCores> </clusterResources> <queueName>root</queueName> <schedulingPolicy>fair</schedulingPolicy> <childQueues> <queue xsi:type="fairSchedulerLeafQueueInfo"> <maxApps>2147483647</maxApps> <minResources> <memory>0</memory> <vCores>0</vCores> </minResources> <maxResources> <memory>8192</memory> <vCores>8</vCores> </maxResources> <usedResources> <memory>0</memory> <vCores>0</vCores> </usedResources> <fairResources> <memory>0</memory> <vCores>0</vCores> </fairResources> <clusterResources> <memory>8192</memory> <vCores>8</vCores> </clusterResources> <queueName>root.default</queueName> <schedulingPolicy>fair</schedulingPolicy> <numPendingApps>0</numPendingApps> <numActiveApps>0</numActiveApps> </queue> <queue> <maxApps>50</maxApps> <minResources> <memory>10000</memory> <vCores>0</vCores> </minResources> <maxResources> <memory>8192</memory> <vCores>0</vCores> </maxResources> <usedResources> <memory>0</memory> <vCores>0</vCores> </usedResources> <fairResources> <memory>10000</memory> <vCores>0</vCores> </fairResources> <clusterResources> <memory>8192</memory> <vCores>8</vCores> </clusterResources> <queueName>root.sample_queue</queueName> <schedulingPolicy>fair</schedulingPolicy> <childQueues> <queue xsi:type="fairSchedulerLeafQueueInfo"> <maxApps>2147483647</maxApps> <minResources> <memory>5000</memory> <vCores>0</vCores> </minResources> <maxResources> <memory>8192</memory> <vCores>8</vCores> </maxResources> <usedResources> <memory>0</memory> <vCores>0</vCores> </usedResources> <fairResources> <memory>10000</memory> <vCores>0</vCores> </fairResources> <clusterResources> <memory>8192</memory> <vCores>8</vCores> </clusterResources> <queueName>root.sample_queue.sample_sub_queue</queueName> <schedulingPolicy>fair</schedulingPolicy> <numPendingApps>0</numPendingApps> <numActiveApps>0</numActiveApps> </queue> </childQueues> </queue> </childQueues> </rootQueue> </schedulerInfo> </scheduler>
With the Applications API, you can obtain a collection of resources, each of which represents an application. When you run a GET operation on this resource, you obtain a collection of Application Objects.
Multiple parameters can be specified for GET operations. The started and finished times have a begin and end parameter to allow you to specify ranges. For example, one could request all applications that started between 1:00am and 2:00pm on 12/19/2011 with startedTimeBegin=1324256400&startedTimeEnd=1324303200. If the Begin parameter is not specified, it defaults to 0, and if the End parameter is not specified, it defaults to infinity.
* state [deprecated] - state of the application * states - applications matching the given application states, specified as a comma-separated list. * finalStatus - the final status of the application - reported by the application itself * user - user name * queue - queue name * limit - total number of app objects to be returned * startedTimeBegin - applications with start time beginning with this time, specified in ms since epoch * startedTimeEnd - applications with start time ending with this time, specified in ms since epoch * finishedTimeBegin - applications with finish time beginning with this time, specified in ms since epoch * finishedTimeEnd - applications with finish time ending with this time, specified in ms since epoch * applicationTypes - applications matching the given application types, specified as a comma-separated list. * applicationTags - applications matching any of the given application tags, specified as a comma-separated list.
When you make a request for the list of applications, the information will be returned as a collection of app objects. See also Application API for syntax of the app object.
Item | Data Type | Description |
---|---|---|
app | array of app objects(JSON)/zero or more application objects(XML) | The collection of application objects |
JSON response
HTTP Request:
GET http://<rm http address:port>/ws/v1/cluster/apps
Response Header:
HTTP/1.1 200 OK Content-Type: application/json Transfer-Encoding: chunked Server: Jetty(6.1.26)
Response Body:
{ "apps": { "app": [ { "finishedTime" : 1326815598530, "amContainerLogs" : "http://host.domain.com:8042/node/containerlogs/container_1326815542473_0001_01_000001", "trackingUI" : "History", "state" : "FINISHED", "user" : "user1", "id" : "application_1326815542473_0001", "clusterId" : 1326815542473, "finalStatus" : "SUCCEEDED", "amHostHttpAddress" : "host.domain.com:8042", "amRPCAddress" : "host.domain.com:4201", "progress" : 100, "name" : "word count", "startedTime" : 1326815573334, "elapsedTime" : 25196, "diagnostics" : "", "trackingUrl" : "http://host.domain.com:8088/proxy/application_1326815542473_0001/jobhistory/job/job_1326815542473_1_1", "queue" : "default", "allocatedMB" : 0, "allocatedVCores" : 0, "runningContainers" : 0, "applicationType" : "MAPREDUCE", "applicationTags" : "", "memorySeconds" : 151730, "vcoreSeconds" : 103, "unmanagedApplication" : "false", "applicationPriority" : 0, "appNodeLabelExpression" : "", "amnodeLabelExpression" : "" }, { "finishedTime" : 1326815789546, "amContainerLogs" : "http://host.domain.com:8042/node/containerlogs/container_1326815542473_0002_01_000001", "trackingUI" : "History", "state" : "FINISHED", "user" : "user1", "id" : "application_1326815542473_0002", "clusterId" : 1326815542473, "finalStatus" : "SUCCEEDED", "amHostHttpAddress" : "host.domain.com:8042", "amRPCAddress" : "host.domain.com:4202", "progress" : 100, "name" : "Sleep job", "startedTime" : 1326815641380, "elapsedTime" : 148166, "diagnostics" : "", "trackingUrl" : "http://host.domain.com:8088/proxy/application_1326815542473_0002/jobhistory/job/job_1326815542473_2_2", "queue" : "default", "allocatedMB" : 0, "allocatedVCores" : 0, "runningContainers" : 1, "applicationType" : "YARN", "applicationTags" : "tag1", "memorySeconds" : 640064, "vcoreSeconds" : 442, "unmanagedApplication" : "false", "applicationPriority" : 0, "appNodeLabelExpression" : "", "amNodeLabelExpression" : "" } ] } }
XML response
HTTP Request:
GET http://<rm http address:port>/ws/v1/cluster/apps Accept: application/xml
Response Header:
HTTP/1.1 200 OK Content-Type: application/xml Content-Length: 2459 Server: Jetty(6.1.26)
Response Body:
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <apps> <app> <id>application_1326815542473_0001</id> <user>user1</user> <name>word count</name> <applicationType>MAPREDUCE</applicationType> <applicationTags></applicationTags> <queue>default</queue> <state>FINISHED</state> <finalStatus>SUCCEEDED</finalStatus> <progress>100.0</progress> <trackingUI>History</trackingUI> <trackingUrl>http://host.domain.com:8088/proxy/application_1326815542473_0001/jobhistory/job/job_1326815542473_1_1</trackingUrl> <diagnostics/> <clusterId>1326815542473</clusterId> <startedTime>1326815573334</startedTime> <finishedTime>1326815598530</finishedTime> <elapsedTime>25196</elapsedTime> <amContainerLogs>http://host.domain.com:8042/node/containerlogs/container_1326815542473_0001_01_000001</amContainerLogs> <amHostHttpAddress>host.domain.com:8042</amHostHttpAddress> <amRPCAddress>host.domain.com:4201</amRPCAddress> <allocatedMB>0</allocatedMB> <allocatedVCores>0</allocatedVCores> <runningContainers>0</runningContainers> <memorySeconds>151730</memorySeconds> <vcoreSeconds>103</vcoreSeconds> <unmanagedApplication>false</unmanagedApplication> <applicationPriority>0</applicationPriority> <appNodeLabelExpression></appNodeLabelExpression> <amNodeLabelExpression></amNodeLabelExpression> </app> <app> <id>application_1326815542473_0002</id> <user>user1</user> <name>Sleep job</name> <applicationType>YARN</applicationType> <applicationTags>tag1</applicationTags> <queue>default</queue> <state>FINISHED</state> <finalStatus>SUCCEEDED</finalStatus> <progress>100.0</progress> <trackingUI>History</trackingUI> <trackingUrl>http://host.domain.com:8088/proxy/application_1326815542473_0002/jobhistory/job/job_1326815542473_2_2</trackingUrl> <diagnostics/> <clusterId>1326815542473</clusterId> <startedTime>1326815641380</startedTime> <finishedTime>1326815789546</finishedTime> <elapsedTime>148166</elapsedTime> <amContainerLogs>http://host.domain.com:8042/node/containerlogs/container_1326815542473_0002_01_000001</amContainerLogs> <amHostHttpAddress>host.domain.com:8042</amHostHttpAddress> <amRPCAddress>host.domain.com:4202</amRPCAddress> <allocatedMB>0</allocatedMB> <allocatedVCores>0</allocatedVCores> <runningContainers>0</runningContainers> <memorySeconds>640064</memorySeconds> <vcoreSeconds>442</vcoreSeconds> <unmanagedApplication>false</unmanagedApplication> <applicationPriority>0</applicationPriority> <appNodeLabelExpression></appNodeLabelExpression> <amNodeLabelExpression></amNodeLabelExpression> </app> </apps>
With the Application Statistics API, you can obtain a collection of triples, each of which contains the application type, the application state and the number of applications of this type and this state in ResourceManager context. Note that with the performance concern, we currently only support at most one applicationType per query. We may support multiple applicationTypes per query as well as more statistics in the future. When you run a GET operation on this resource, you obtain a collection of statItem objects.
Two paramters can be specified. The parameters are case insensitive.
* states - states of the applications, specified as a comma-separated list. If states is not provided, the API will enumerate all application states and return the counts of them. * applicationTypes - types of the applications, specified as a comma-separated list. If applicationTypes is not provided, the API will count the applications of any application type. In this case, the response shows * to indicate any application type. Note that we only support at most one applicationType temporarily. Otherwise, users will expect an BadRequestException.
When you make a request for the list of statistics items, the information will be returned as a collection of statItem objects
Item | Data Type | Description |
---|---|---|
statItem | array of statItem objects(JSON)/zero or more statItem objects(XML) | The collection of statItem objects |
JSON response
HTTP Request:
GET http://<rm http address:port>/ws/v1/cluster/appstatistics?states=accepted,running,finished&applicationTypes=mapreduce
Response Header:
HTTP/1.1 200 OK Content-Type: application/json Transfer-Encoding: chunked Server: Jetty(6.1.26)
Response Body:
{ "appStatInfo": { "statItem": [ { "state" : "accepted", "type" : "mapreduce", "count" : 4 }, { "state" : "running", "type" : "mapreduce", "count" : 1 }, { "state" : "finished", "type" : "mapreduce", "count" : 7 } ] } }
XML response
HTTP Request:
GET http://<rm http address:port>/ws/v1/cluster/appstatistics?states=accepted,running,finished&applicationTypes=mapreduce Accept: application/xml
Response Header:
HTTP/1.1 200 OK Content-Type: application/xml Content-Length: 2459 Server: Jetty(6.1.26)
Response Body:
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <appStatInfo> <statItem> <state>accepted</state> <type>mapreduce</type> <count>4</count> </statItem> <statItem> <state>running</state> <type>mapreduce</type> <count>1</count> </statItem> <statItem> <state>finished</state> <type>mapreduce</type> <count>7</count> </statItem> </appStatInfo>
An application resource contains information about a particular application that was submitted to a cluster.
Use the following URI to obtain an app object, from a application identified by the appid value.
* http://<rm http address:port>/ws/v1/cluster/apps/{appid}
Note that depending on security settings a user might not be able to see all the fields.
Item | Data Type | Description |
---|---|---|
id | string | The application id |
user | string | The user who started the application |
name | string | The application name |
Application Type | string | The application type |
queue | string | The queue the application was submitted to |
state | string | The application state according to the ResourceManager - valid values are members of the YarnApplicationState enum: NEW, NEW_SAVING, SUBMITTED, ACCEPTED, RUNNING, FINISHED, FAILED, KILLED |
finalStatus | string | The final status of the application if finished - reported by the application itself - valid values are: UNDEFINED, SUCCEEDED, FAILED, KILLED |
progress | float | The progress of the application as a percent |
trackingUI | string | Where the tracking url is currently pointing - History (for history server) or ApplicationMaster |
trackingUrl | string | The web URL that can be used to track the application |
diagnostics | string | Detailed diagnostics information |
clusterId | long | The cluster id |
startedTime | long | The time in which application started (in ms since epoch) |
finishedTime | long | The time in which the application finished (in ms since epoch) |
elapsedTime | long | The elapsed time since the application started (in ms) |
amContainerLogs | string | The URL of the application master container logs |
amHostHttpAddress | string | The nodes http address of the application master |
amRPCAddress | string | The RPC address of the application master |
allocatedMB | int | The sum of memory in MB allocated to the application’s running containers |
allocatedVCores | int | The sum of virtual cores allocated to the application’s running containers |
runningContainers | int | The number of containers currently running for the application |
memorySeconds | long | The amount of memory the application has allocated (megabyte-seconds) |
vcoreSeconds | long | The amount of CPU resources the application has allocated (virtual core-seconds) |
unmanagedApplication | boolean | Is the application unmanaged. |
applicationPriority | int | priority of the submitted application |
appNodeLabelExpression | string | Node Label expression which is used to identify the nodes on which application’s containers are expected to run by default. |
amNodeLabelExpression | string | Node Label expression which is used to identify the node on which application’s AM container is expected to run. |
JSON response
HTTP Request:
GET http://<rm http address:port>/ws/v1/cluster/apps/application_1326821518301_0005
Response Header:
HTTP/1.1 200 OK Content-Type: application/json Transfer-Encoding: chunked Server: Jetty(6.1.26)
Response Body:
{ "app" : { "finishedTime" : 1326824991300, "amContainerLogs" : "http://host.domain.com:8042/node/containerlogs/container_1326821518301_0005_01_000001", "trackingUI" : "History", "state" : "FINISHED", "user" : "user1", "id" : "application_1326821518301_0005", "clusterId" : 1326821518301, "finalStatus" : "SUCCEEDED", "amHostHttpAddress" : "host.domain.com:8042", "amRPCAddress" : "host.domain.com:4201", "progress" : 100, "name" : "Sleep job", "applicationType" : "Yarn", "startedTime" : 1326824544552, "elapsedTime" : 446748, "diagnostics" : "", "trackingUrl" : "http://host.domain.com:8088/proxy/application_1326821518301_0005/jobhistory/job/job_1326821518301_5_5", "queue" : "a1", "memorySeconds" : 151730, "vcoreSeconds" : 103, "unmanagedApplication" : "false", "applicationPriority" : 0, "appNodeLabelExpression" : "", "amNodeLabelExpression" : "" } }
XML response
HTTP Request:
GET http://<rm http address:port>/ws/v1/cluster/apps/application_1326821518301_0005 Accept: application/xml
Response Header:
HTTP/1.1 200 OK Content-Type: application/xml Content-Length: 847 Server: Jetty(6.1.26)
Response Body:
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <app> <id>application_1326821518301_0005</id> <user>user1</user> <name>Sleep job</name> <queue>a1</queue> <state>FINISHED</state> <finalStatus>SUCCEEDED</finalStatus> <progress>100.0</progress> <trackingUI>History</trackingUI> <trackingUrl>http://host.domain.com:8088/proxy/application_1326821518301_0005/jobhistory/job/job_1326821518301_5_5</trackingUrl> <diagnostics/> <clusterId>1326821518301</clusterId> <startedTime>1326824544552</startedTime> <finishedTime>1326824991300</finishedTime> <elapsedTime>446748</elapsedTime> <amContainerLogs>http://host.domain.com:8042/node/containerlogs/container_1326821518301_0005_01_000001</amContainerLogs> <amHostHttpAddress>host.domain.com:8042</amHostHttpAddress> <amRPCAddress>host.domain.com:4201</amRPCAddress> <memorySeconds>151730</memorySeconds> <vcoreSeconds>103</vcoreSeconds> <unmanagedApplication>false</unmanagedApplication> <applicationPriority>0</applicationPriority> <appNodeLabelExpression></appNodeLabelExpression> <amNodeLabelExpression></amNodeLabelExpression> </app>
With the application attempts API, you can obtain a collection of resources that represent an application attempt. When you run a GET operation on this resource, you obtain a collection of App Attempt Objects.
When you make a request for the list of app attempts, the information will be returned as an array of app attempt objects.
appAttempts:
Item | Data Type | Description |
---|---|---|
appAttempt | array of app attempt objects(JSON)/zero or more app attempt objects(XML) | The collection of app attempt objects |
Item | Data Type | Description |
---|---|---|
id | string | The app attempt id |
nodeId | string | The node id of the node the attempt ran on |
nodeHttpAddress | string | The node http address of the node the attempt ran on |
logsLink | string | The http link to the app attempt logs |
containerId | string | The id of the container for the app attempt |
startTime | long | The start time of the attempt (in ms since epoch) |
JSON response
HTTP Request:
GET http://<rm http address:port>/ws/v1/cluster/apps/application_1326821518301_0005/appattempts
Response Header:
HTTP/1.1 200 OK Content-Type: application/json Transfer-Encoding: chunked Server: Jetty(6.1.26)
Response Body:
{ "appAttempts" : { "appAttempt" : [ { "nodeId" : "host.domain.com:8041", "nodeHttpAddress" : "host.domain.com:8042", "startTime" : 1326381444693, "id" : 1, "logsLink" : "http://host.domain.com:8042/node/containerlogs/container_1326821518301_0005_01_000001/user1", "containerId" : "container_1326821518301_0005_01_000001" } ] } }
XML response
HTTP Request:
GET http://<rm http address:port>/ws/v1/cluster/apps/application_1326821518301_0005/appattempts Accept: application/xml
Response Header:
HTTP/1.1 200 OK Content-Type: application/xml Content-Length: 575 Server: Jetty(6.1.26)
Response Body:
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <appAttempts> <appttempt> <nodeHttpAddress>host.domain.com:8042</nodeHttpAddress> <nodeId>host.domain.com:8041</nodeId> <id>1</id> <startTime>1326381444693</startTime> <containerId>container_1326821518301_0005_01_000001</containerId> <logsLink>http://host.domain.com:8042/node/containerlogs/container_1326821518301_0005_01_000001/user1</logsLink> </appAttempt> </appAttempts>
With the Nodes API, you can obtain a collection of resources, each of which represents a node. When you run a GET operation on this resource, you obtain a collection of Node Objects.
* states - the states of the node, specified as a comma-separated list, valid values are: NEW, RUNNING, UNHEALTHY, DECOMMISSIONING, DECOMMISSIONED, LOST, REBOOTED, SHUTDOWN
When you make a request for the list of nodes, the information will be returned as a collection of node objects. See also Node API for syntax of the node object.
Item | Data Type | Description |
---|---|---|
node | array of node objects(JSON)/zero or more node objects(XML) | A collection of node objects |
JSON response
HTTP Request:
GET http://<rm http address:port>/ws/v1/cluster/nodes
Response Header:
HTTP/1.1 200 OK Content-Type: application/json Transfer-Encoding: chunked Server: Jetty(6.1.26)
Response Body:
{ "nodes": { "node": [ { "rack":"\/default-rack", "state":"NEW", "id":"h2:1235", "nodeHostName":"h2", "nodeHTTPAddress":"h2:2", "healthStatus":"Healthy", "lastHealthUpdate":1324056895432, "healthReport":"Healthy", "numContainers":0, "usedMemoryMB":0, "availMemoryMB":8192, "usedVirtualCores":0, "availableVirtualCores":8 }, { "rack":"\/default-rack", "state":"NEW", "id":"h1:1234", "nodeHostName":"h1", "nodeHTTPAddress":"h1:2", "healthStatus":"Healthy", "lastHealthUpdate":1324056895092, "healthReport":"Healthy", "numContainers":0, "usedMemoryMB":0, "availMemoryMB":8192, "usedVirtualCores":0, "availableVirtualCores":8 } ] } }
XML response
HTTP Request:
GET http://<rm http address:port>/ws/v1/cluster/nodes Accept: application/xml
Response Header:
HTTP/1.1 200 OK Content-Type: application/xml Content-Length: 1104 Server: Jetty(6.1.26)
Response Body:
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <nodes> <node> <rack>/default-rack</rack> <state>RUNNING</state> <id>h2:1234</id> <nodeHostName>h2</nodeHostName> <nodeHTTPAddress>h2:2</nodeHTTPAddress> <healthStatus>Healthy</healthStatus> <lastHealthUpdate>1324333268447</lastHealthUpdate> <healthReport>Healthy</healthReport> <numContainers>0</numContainers> <usedMemoryMB>0</usedMemoryMB> <availMemoryMB>5120</availMemoryMB> <usedVirtualCores>0</usedVirtualCores> <availableVirtualCores>8</availableVirtualCores> </node> <node> <rack>/default-rack</rack> <state>RUNNING</state> <id>h1:1234</id> <nodeHostName>h1</nodeHostName> <nodeHTTPAddress>h1:2</nodeHTTPAddress> <healthStatus>Healthy</healthStatus> <lastHealthUpdate>1324333268447</lastHealthUpdate> <healthReport>Healthy</healthReport> <numContainers>0</numContainers> <usedMemoryMB>0</usedMemoryMB> <availMemoryMB>5120</availMemoryMB> <usedVirtualCores>0</usedVirtualCores> <availableVirtualCores>8</availableVirtualCores> </node> </nodes>
A node resource contains information about a node in the cluster.
Use the following URI to obtain a Node Object, from a node identified by the nodeid value.
* http://<rm http address:port>/ws/v1/cluster/nodes/{nodeid}
Item | Data Type | Description |
---|---|---|
rack | string | The rack location of this node |
state | string | State of the node - valid values are: NEW, RUNNING, UNHEALTHY, DECOMMISSIONING, DECOMMISSIONED, LOST, REBOOTED, SHUTDOWN |
id | string | The node id |
nodeHostName | string | The host name of the node |
nodeHTTPAddress | string | The nodes HTTP address |
healthStatus | string | The health status of the node - Healthy or Unhealthy |
healthReport | string | A detailed health report |
lastHealthUpdate | long | The last time the node reported its health (in ms since epoch) |
usedMemoryMB | long | The total amount of memory currently used on the node (in MB) |
availMemoryMB | long | The total amount of memory currently available on the node (in MB) |
usedVirtualCores | long | The total number of vCores currently used on the node |
availableVirtualCores | long | The total number of vCores available on the node |
numContainers | int | The total number of containers currently running on the node |
JSON response
HTTP Request:
GET http://<rm http address:port>/ws/v1/cluster/nodes/h2:1235
Response Header:
HTTP/1.1 200 OK Content-Type: application/json Transfer-Encoding: chunked Server: Jetty(6.1.26)
Response Body:
{ "node": { "rack":"\/default-rack", "state":"NEW", "id":"h2:1235", "nodeHostName":"h2", "nodeHTTPAddress":"h2:2", "healthStatus":"Healthy", "lastHealthUpdate":1324056895432, "healthReport":"Healthy", "numContainers":0, "usedMemoryMB":0, "availMemoryMB":5120, "usedVirtualCores":0, "availableVirtualCores":8 } }
XML response
HTTP Request:
GET http://<rm http address:port>/ws/v1/cluster/node/h2:1235 Accept: application/xml
Response Header:
HTTP/1.1 200 OK Content-Type: application/xml Content-Length: 552 Server: Jetty(6.1.26)
Response Body:
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <node> <rack>/default-rack</rack> <state>NEW</state> <id>h2:1235</id> <nodeHostName>h2</nodeHostName> <nodeHTTPAddress>h2:2</nodeHTTPAddress> <healthStatus>Healthy</healthStatus> <lastHealthUpdate>1324333268447</lastHealthUpdate> <healthReport>Healthy</healthReport> <numContainers>0</numContainers> <usedMemoryMB>0</usedMemoryMB> <availMemoryMB>5120</availMemoryMB> <usedVirtualCores>0</usedVirtualCores> <availableVirtualCores>5120</availableVirtualCores> </node>
The setions below refer to APIs which allow to create and modify applications. These APIs are currently in alpha and may change in the future.
With the New Application API, you can obtain an application-id which can then be used as part of the Cluster Submit Applications API to submit applications. The response also includes the maximum resource capabilities available on the cluster.
This feature is currently in the alpha stage and may change in the future.
The NewApplication response contains the following elements:
Item | Data Type | Description |
---|---|---|
application-id | string | The newly created application id |
maximum-resource-capabilities | object | The maximum resource capabilities available on this cluster |
The maximum-resource-capabilites object contains the following elements:
Item | Data Type | Description |
---|---|---|
memory | int | The maxiumim memory available for a container |
vCores | int | The maximum number of cores available for a container |
JSON response
HTTP Request:
POST http://<rm http address:port>/ws/v1/cluster/apps/new-application
Response Header:
HTTP/1.1 200 OK Content-Type: application/json Transfer-Encoding: chunked Server: Jetty(6.1.26)
Response Body:
{ "application-id":"application_1404198295326_0003", "maximum-resource-capability": { "memory":8192, "vCores":32 } }
XML response
HTTP Request:
POST http://<rm http address:port>/ws/v1/cluster/apps/new-application
Response Header:
HTTP/1.1 200 OK Content-Type: application/xml Content-Length: 248 Server: Jetty(6.1.26)
Response Body:
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <NewApplication> <application-id>application_1404198295326_0003</application-id> <maximum-resource-capability> <memory>8192</memory> <vCores>32</vCores> </maximum-resource-capability> </NewApplication>
The Submit Applications API can be used to submit applications. In case of submitting applications, you must first obtain an application-id using the Cluster New Application API. The application-id must be part of the request body. The response contains a URL to the application page which can be used to track the state and progress of your application.
POST requests can be used to submit apps to the ResourceManager. As mentioned above, an application-id must be obtained first. Successful submissions result in a 202 response code and a Location header specifying where to get information about the app. Please note that in order to submit an app, you must have an authentication filter setup for the HTTP interface. The functionality requires that a username is set in the HttpServletRequest. If no filter is setup, the response will be an “UNAUTHORIZED” response.
Please note that this feature is currently in the alpha stage and may change in the future.
Item | Data Type | Description |
---|---|---|
application-id | string | The application id |
application-name | string | The application name |
queue | string | The name of the queue to which the application should be submitted |
priority | int | The priority of the application |
am-container-spec | object | The application master container launch context, described below |
unmanaged-AM | boolean | Is the application using an unmanaged application master |
max-app-attempts | int | The max number of attempts for this application |
resource | object | The resources the application master requires, described below |
application-type | string | The application type(MapReduce, Pig, Hive, etc) |
keep-containers-across-application-attempts | boolean | Should YARN keep the containers used by this application instead of destroying them |
application-tags | object | List of application tags, please see the request examples on how to speciy the tags |
Elements of the am-container-spec object
The am-container-spec object should be used to provide the container launch context for the application master.
Item | Data Type | Description |
---|---|---|
local-resources | object | Object describing the resources that need to be localized, described below |
environment | object | Environment variables for your containers, specified as key value pairs |
commands | object | The commands for launching your container, in the order in which they should be executed |
service-data | object | Application specific service data; key is the name of the auxiliary servce, value is base-64 encoding of the data you wish to pass |
credentials | object | The credentials required for your application to run, described below |
application-acls | objec | ACLs for your application; the key can be “VIEW_APP” or “MODIFY_APP”, the value is the list of users with the permissions |
Elements of the local-resources object
The object is a collection of key-value pairs. They key is an identifier for the resources to be localized and the value is the details of the resource. The elements of the value are described below:
Item | Data Type | Description |
---|---|---|
resource | string | Location of the resource to be localized |
type | string | Type of the resource; options are “ARCHIVE”, “FILE”, and “PATTERN” |
visibility | string | Visibility the resource to be localized; options are “PUBLIC”, “PRIVATE”, and “APPLICATION” |
size | long | Size of the resource to be localized |
timestamp | long | Timestamp of the resource to be localized |
Elements of the credentials object
The credentials object should be used to pass data required for the application to authenticate itself such as delegation-tokens and secrets.
Item | Data Type | Description |
---|---|---|
tokens | object | Tokens that you wish to pass to your application, specified as key-value pairs. The key is an identifier for the token and the value is the token(which should be obtained using the respective web-services) |
secrets | object | Secrets that you wish to use in your application, specified as key-value pairs. They key is an identifier and the value is the base-64 encoding of the secret |
Elements of the POST request body resource object
Item | Data Type | Description |
---|---|---|
memory | int | Memory required for each container |
vCores | int | Virtual cores required for each container |
JSON response
HTTP Request:
POST http://<rm http address:port>/ws/v1/cluster/apps Accept: application/json Content-Type: application/json { "application-id":"application_1404203615263_0001", "application-name":"test", "am-container-spec": { "local-resources": { "entry": [ { "key":"AppMaster.jar", "value": { "resource":"hdfs://hdfs-namenode:9000/user/testuser/DistributedShell/demo-app/AppMaster.jar", "type":"FILE", "visibility":"APPLICATION", "size": 43004, "timestamp": 1405452071209 } } ] }, "commands": { "command":"{{JAVA_HOME}}/bin/java -Xmx10m org.apache.hadoop.yarn.applications.distributedshell.ApplicationMaster --container_memory 10 --container_vcores 1 --num_containers 1 --priority 0 1><LOG_DIR>/AppMaster.stdout 2><LOG_DIR>/AppMaster.stderr" }, "environment": { "entry": [ { "key": "DISTRIBUTEDSHELLSCRIPTTIMESTAMP", "value": "1405459400754" }, { "key": "CLASSPATH", "value": "{{CLASSPATH}}<CPS>./*<CPS>{{HADOOP_CONF_DIR}}<CPS>{{HADOOP_COMMON_HOME}}/share/hadoop/common/*<CPS>{{HADOOP_COMMON_HOME}}/share/hadoop/common/lib/*<CPS>{{HADOOP_HDFS_HOME}}/share/hadoop/hdfs/*<CPS>{{HADOOP_HDFS_HOME}}/share/hadoop/hdfs/lib/*<CPS>{{HADOOP_YARN_HOME}}/share/hadoop/yarn/*<CPS>{{HADOOP_YARN_HOME}}/share/hadoop/yarn/lib/*<CPS>./log4j.properties" }, { "key": "DISTRIBUTEDSHELLSCRIPTLEN", "value": "6" }, { "key": "DISTRIBUTEDSHELLSCRIPTLOCATION", "value": "hdfs://hdfs-namenode:9000/user/testuser/demo-app/shellCommands" } ] } }, "unmanaged-AM":false, "max-app-attempts":2, "resource": { "memory":1024, "vCores":1 }, "application-type":"YARN", "keep-containers-across-application-attempts":false }
Response Header:
HTTP/1.1 202 Transfer-Encoding: chunked Location: http://<rm http address:port>/ws/v1/cluster/apps/application_1404203615263_0001 Content-Type: application/json Server: Jetty(6.1.26)
Response Body:
No response body
XML response
HTTP Request:
POST http://<rm http address:port>/ws/v1/cluster/apps Accept: application/xml Content-Type: application/xml <?xml version="1.0" encoding="UTF-8" standalone="yes"?> <application-submission-context> <application-id>application_1404204891930_0002</application-id> <application-name>test</application-name> <queue>testqueue</queue> <priority>3</priority> <am-container-spec> <local-resources> <entry> <key>example</key> <value> <resource>hdfs://hdfs-namenode:9000/user/testuser/DistributedShell/demo-app/AppMaster.jar</resource> <type>FILE</type> <visibility>APPLICATION</visibility> <size>43004</size> <timestamp>1405452071209</timestamp> </value> </entry> </local-resources> <environment> <entry> <key>DISTRIBUTEDSHELLSCRIPTTIMESTAMP</key> <value>1405459400754</value> </entry> <entry> <key>CLASSPATH</key> <value>{{CLASSPATH}}<CPS>./*<CPS>{{HADOOP_CONF_DIR}}<CPS>{{HADOOP_COMMON_HOME}}/share/hadoop/common/*<CPS>{{HADOOP_COMMON_HOME}}/share/hadoop/common/lib/*<CPS>{{HADOOP_HDFS_HOME}}/share/hadoop/hdfs/*<CPS>{{HADOOP_HDFS_HOME}}/share/hadoop/hdfs/lib/*<CPS>{{HADOOP_YARN_HOME}}/share/hadoop/yarn/*<CPS>{{HADOOP_YARN_HOME}}/share/hadoop/yarn/lib/*<CPS>./log4j.properties</value> </entry> <entry> <key>DISTRIBUTEDSHELLSCRIPTLEN</key> <value>6</value> </entry> <entry> <key>DISTRIBUTEDSHELLSCRIPTLOCATION</key> <value>hdfs://hdfs-namenode:9000/user/testuser/demo-app/shellCommands</value> </entry> </environment> <commands> <command>{{JAVA_HOME}}/bin/java -Xmx10m org.apache.hadoop.yarn.applications.distributedshell.ApplicationMaster --container_memory 10 --container_vcores 1 --num_containers 1 --priority 0 1><LOG_DIR>/AppMaster.stdout 2><LOG_DIR>/AppMaster.stderr</command> </commands> <service-data> <entry> <key>test</key> <value>dmFsdWUxMg</value> </entry> </service-data> <credentials> <tokens/> <secrets> <entry> <key>secret1</key> <value>c2VjcmV0MQ</value> </entry> </secrets> </credentials> <application-acls> <entry> <key>VIEW_APP</key> <value>testuser3, testuser4</value> </entry> <entry> <key>MODIFY_APP</key> <value>testuser1, testuser2</value> </entry> </application-acls> </am-container-spec> <unmanaged-AM>false</unmanaged-AM> <max-app-attempts>2</max-app-attempts> <resource> <memory>1024</memory> <vCores>1</vCores> </resource> <application-type>YARN</application-type> <keep-containers-across-application-attempts>false</keep-containers-across-application-attempts> <application-tags> <tag>tag 2</tag> <tag>tag1</tag> </application-tags> </application-submission-context>
Response Header:
HTTP/1.1 202 Transfer-Encoding: chunked Location: http://<rm http address:port>/ws/v1/cluster/apps/application_1404204891930_0002 Content-Type: application/xml Server: Jetty(6.1.26)
Response Body:
No response body
With the application state API, you can query the state of a submitted app as well kill a running app by modifying the state of a running app using a PUT request with the state set to “KILLED”. To perform the PUT operation, authentication has to be setup for the RM web services. In addition, you must be authorized to kill the app. Currently you can only change the state to “KILLED”; an attempt to change the state to any other results in a 400 error response. Examples of the unauthorized and bad request errors are below. When you carry out a successful PUT, the iniital response may be a 202. You can confirm that the app is killed by repeating the PUT request until you get a 200, querying the state using the GET method or querying for app information and checking the state. In the examples below, we repeat the PUT request and get a 200 response.
Please note that in order to kill an app, you must have an authentication filter setup for the HTTP interface. The functionality requires that a username is set in the HttpServletRequest. If no filter is setup, the response will be an “UNAUTHORIZED” response.
This feature is currently in the alpha stage and may change in the future.
When you make a request for the state of an app, the information returned has the following fields
Item | Data Type | Description |
---|---|---|
state | string | The application state - can be one of “NEW”, “NEW_SAVING”, “SUBMITTED”, “ACCEPTED”, “RUNNING”, “FINISHED”, “FAILED”, “KILLED” |
JSON responses
HTTP Request
GET http://<rm http address:port>/ws/v1/cluster/apps/application_1399397633663_0003/state
Response Header:
HTTP/1.1 200 OK Content-Type: application/json Transfer-Encoding: chunked Server: Jetty(6.1.26)
Response Body:
{ "state":"ACCEPTED" }
HTTP Request
PUT http://<rm http address:port>/ws/v1/cluster/apps/application_1399397633663_0003/state
Request Body:
{ "state":"KILLED" }
Response Header:
HTTP/1.1 202 Accepted Content-Type: application/json Transfer-Encoding: chunked Location: http://<rm http address:port>/ws/v1/cluster/apps/application_1399397633663_0003 Server: Jetty(6.1.26)
Response Body:
{ "state":"ACCEPTED" } PUT http://<rm http address:port>/ws/v1/cluster/apps/application_1399397633663_0003/state
Request Body:
{ "state":"KILLED" }
Response Header:
HTTP/1.1 200 OK Content-Type: application/json Transfer-Encoding: chunked Server: Jetty(6.1.26)
Response Body:
{ "state":"KILLED" }
XML responses
HTTP Request
GET http://<rm http address:port>/ws/v1/cluster/apps/application_1399397633663_0003/state
Response Header:
HTTP/1.1 200 OK Content-Type: application/xml Content-Length: 99 Server: Jetty(6.1.26)
Response Body:
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <appstate> <state>ACCEPTED</state> </appstate>
HTTP Request
PUT http://<rm http address:port>/ws/v1/cluster/apps/application_1399397633663_0003/state
Request Body:
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <appstate> <state>KILLED</state> </appstate>
Response Header:
HTTP/1.1 202 Accepted Content-Type: application/xml Content-Length: 794 Location: http://<rm http address:port>/ws/v1/cluster/apps/application_1399397633663_0003 Server: Jetty(6.1.26)
Response Body:
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <appstate> <state>ACCEPTED</state> </appstate>
HTTP Request
PUT http://<rm http address:port>/ws/v1/cluster/apps/application_1399397633663_0003/state
Request Body:
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <appstate> <state>KILLED</state> </appstate>
Response Header:
HTTP/1.1 200 OK Content-Type: application/xml Content-Length: 917 Server: Jetty(6.1.26)
Response Body:
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <appstate> <state>KILLED</state> </appstate>
Unauthorized Error Response
HTTP Request
PUT http://<rm http address:port>/ws/v1/cluster/apps/application_1399397633663_0003/state
Request Body:
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <appstate> <state>KILLED</state> </appstate>
Response Header:
HTTP/1.1 403 Unauthorized Server: Jetty(6.1.26)
Bad Request Error Response
HTTP Request
PUT http://<rm http address:port>/ws/v1/cluster/apps/application_1399397633663_0003/state
Request Body:
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <appstate> <state>RUNNING</state> </appstate>
Response Header:
HTTP/1.1 400 Content-Length: 295 Content-Type: application/xml Server: Jetty(6.1.26)
Response Body:
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <RemoteException> <exception>BadRequestException</exception> <message>java.lang.Exception: Only 'KILLED' is allowed as a target state.</message> <javaClassName>org.apache.hadoop.yarn.webapp.BadRequestException</javaClassName> </RemoteException>
With the application queue API, you can query the queue of a submitted app as well move a running app to another queue using a PUT request specifying the target queue. To perform the PUT operation, authentication has to be setup for the RM web services. In addition, you must be authorized to move the app. Currently you can only move the app if you’re using the Capacity scheduler or the Fair scheduler.
Please note that in order to move an app, you must have an authentication filter setup for the HTTP interface. The functionality requires that a username is set in the HttpServletRequest. If no filter is setup, the response will be an “UNAUTHORIZED” response.
This feature is currently in the alpha stage and may change in the future.
When you make a request for the state of an app, the information returned has the following fields
Item | Data Type | Description |
---|---|---|
queue | string | The application queue |
JSON responses
HTTP Request
GET http://<rm http address:port>/ws/v1/cluster/apps/application_1399397633663_0003/queue
Response Header:
HTTP/1.1 200 OK Content-Type: application/json Transfer-Encoding: chunked Server: Jetty(6.1.26)
Response Body:
{ "queue":"default" }
HTTP Request
PUT http://<rm http address:port>/ws/v1/cluster/apps/application_1399397633663_0003/queue
Request Body:
{ "queue":"test" }
Response Header:
HTTP/1.1 200 OK Content-Type: application/json Transfer-Encoding: chunked Server: Jetty(6.1.26)
Response Body:
{ "queue":"test" }
XML responses
HTTP Request
GET http://<rm http address:port>/ws/v1/cluster/apps/application_1399397633663_0003/queue
Response Header:
HTTP/1.1 200 OK Content-Type: application/xml Content-Length: 98 Server: Jetty(6.1.26)
Response Body:
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <appqueue> <queue>default</queue> </appqueue>
HTTP Request
PUT http://<rm http address:port>/ws/v1/cluster/apps/application_1399397633663_0003/queue
Request Body:
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <appqueue> <queue>test</queue> </appqueue>
Response Header:
HTTP/1.1 200 OK Content-Type: application/xml Content-Length: 95 Server: Jetty(6.1.26)
Response Body:
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <appqueue> <queue>test</queue> </appqueue>
With the application priority API, you can query the priority of a submitted app as well update priority of a running or accepted app using a PUT request specifying the target priority. To perform the PUT operation, authentication has to be setup for the RM web services. In addition, you must be authorized to update the app priority. Currently you can only update the app priority if you’re using the Capacity scheduler.
Please note that in order to update priority of an app, you must have an authentication filter setup for the HTTP interface. The functionality requires that a username is set in the HttpServletRequest. If no filter is setup, the response will be an “UNAUTHORIZED” response.
This feature is currently in the alpha stage and may change in the future.
When you make a request for the state of an app, the information returned has the following fields
Item | Data Type | Description |
---|---|---|
priority | int | The application priority |
JSON responses
HTTP Request
GET http://<rm http address:port>/ws/v1/cluster/apps/application_1399397633663_0003/priority
Response Header:
HTTP/1.1 200 OK Content-Type: application/json Transfer-Encoding: chunked Server: Jetty(6.1.26)
Response Body:
{ "priority":0 }
HTTP Request
PUT http://<rm http address:port>/ws/v1/cluster/apps/application_1399397633663_0003/priority
Request Body:
{ "priority":8 }
Response Header:
HTTP/1.1 200 OK Content-Type: application/json Transfer-Encoding: chunked Server: Jetty(6.1.26)
Response Body:
{ "priority":8 }
XML responses
HTTP Request
GET http://<rm http address:port>/ws/v1/cluster/apps/application_1399397633663_0003/priority
Response Header:
HTTP/1.1 200 OK Content-Type: application/xml Content-Length: 98 Server: Jetty(6.1.26)
Response Body:
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <applicationpriority> <priority>0</priority> </applicationpriority>
HTTP Request
PUT http://<rm http address:port>/ws/v1/cluster/apps/application_1399397633663_0003/priority
Request Body:
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <applicationpriority> <priority>8</priority> </applicationpriority>
Response Header:
HTTP/1.1 200 OK Content-Type: application/xml Content-Length: 95 Server: Jetty(6.1.26)
Response Body:
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <applicationpriority> <priority>8</priority> </applicationpriority>
The Delegation Tokens API can be used to create, renew and cancel YARN ResourceManager delegation tokens. All delegation token requests must be carried out on a Kerberos authenticated connection(using SPNEGO). Carrying out operations on a non-kerberos connection will result in a FORBIDDEN response. In case of renewing a token, only the renewer specified when creating the token can renew the token. Other users(including the owner) are forbidden from renewing tokens. It should be noted that when cancelling or renewing a token, the token to be cancelled or renewed is specified by setting a header.
This feature is currently in the alpha stage and may change in the future.
Use the following URI to create and cancel delegation tokens.
* http://<rm http address:port>/ws/v1/cluster/delegation-token
Use the following URI to renew delegation tokens.
* http://<rm http address:port>/ws/v1/cluster/delegation-token/expiration
The response from the delegation tokens API contains one of the fields listed below.
Item | Data Type | Description |
---|---|---|
token | string | The delegation token |
renewer | string | The user who is allowed to renew the delegation token |
owner | string | The owner of the delegation token |
kind | string | The kind of delegation token |
expiration-time | long | The expiration time of the token |
max-validity | long | The maximum validity of the token |
JSON response
HTTP Request:
POST http://<rm http address:port>/ws/v1/cluster/delegation-token Accept: application/json Content-Type: application/json { "renewer" : "test-renewer" }
Response Header
HTTP/1.1 200 OK WWW-Authenticate: Negotiate ... Date: Sat, 28 Jun 2014 18:08:11 GMT Server: Jetty(6.1.26) Set-Cookie: ... Content-Type: application/json
Response body
{ "token":"MgASY2xpZW50QEVYQU1QTEUuQ09NDHRlc3QtcmVuZXdlcgCKAUckiEZpigFHSJTKaQECFN9EMM9BzfPoDxu572EVUpzqhnSGE1JNX0RFTEVHQVRJT05fVE9LRU4A", "renewer":"test-renewer", "owner":"client@EXAMPLE.COM", "kind":"RM_DELEGATION_TOKEN", "expiration-time":1405153616489, "max-validity":1405672016489 }
XML response
HTTP Request
POST http://<rm http address:port>/ws/v1/cluster/delegation-token Accept: application/xml Content-Type: application/xml <delegation-token> <renewer>test-renewer</renewer> </delegation-token>
Response Header
HTTP/1.1 200 OK WWW-Authenticate: Negotiate ... Date: Sat, 28 Jun 2014 18:08:11 GMT Content-Length: 423 Server: Jetty(6.1.26) Set-Cookie: ... Content-Type: application/xml
Response Body
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <delegation-token> <token>MgASY2xpZW50QEVYQU1QTEUuQ09NDHRlc3QtcmVuZXdlcgCKAUckgZ8yigFHSI4jMgcCFDTG8X6XFFn2udQngzSXQL8vWaKIE1JNX0RFTEVHQVRJT05fVE9LRU4A</token> <renewer>test-renewer</renewer> <owner>client@EXAMPLE.COM</owner> <kind>RM_DELEGATION_TOKEN</kind> <expiration-time>1405153180466</expiration-time> <max-validity>1405671580466</max-validity> </delegation-token>
JSON response
HTTP Request:
POST http://<rm http address:port>/ws/v1/cluster/delegation-token/expiration Accept: application/json Hadoop-YARN-RM-Delegation-Token: MgASY2xpZW50QEVYQU1QTEUuQ09NDHRlc3QtcmVuZXdlcgCKAUbjqcHHigFHB7ZFxwQCFKWD3znCkDSy6SQIjRCLDydxbxvgE1JNX0RFTEVHQVRJT05fVE9LRU4A Content-Type: application/json
Response Header
HTTP/1.1 200 OK WWW-Authenticate: Negotiate ... Date: Sat, 28 Jun 2014 18:08:11 GMT Server: Jetty(6.1.26) Set-Cookie: ... Content-Type: application/json
Response body
{ "expiration-time":1404112520402 }
XML response
HTTP Request
POST http://<rm http address:port>/ws/v1/cluster/delegation-token/expiration Accept: application/xml Content-Type: application/xml Hadoop-YARN-RM-Delegation-Token: MgASY2xpZW50QEVYQU1QTEUuQ09NDHRlc3QtcmVuZXdlcgCKAUbjqcHHigFHB7ZFxwQCFKWD3znCkDSy6SQIjRCLDydxbxvgE1JNX0RFTEVHQVRJT05fVE9LRU4A
Response Header
HTTP/1.1 200 OK WWW-Authenticate: Negotiate ... Date: Sat, 28 Jun 2014 18:08:11 GMT Content-Length: 423 Server: Jetty(6.1.26) Set-Cookie: ... Content-Type: application/xml
Response Body
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <delegation-token> <expiration-time>1404112520402</expiration-time> </delegation-token>
HTTP Request
DELETE http://<rm http address:port>/ws/v1/cluster/delegation-token Hadoop-YARN-RM-Delegation-Token: MgASY2xpZW50QEVYQU1QTEUuQ09NDHRlc3QtcmVuZXdlcgCKAUbjqcHHigFHB7ZFxwQCFKWD3znCkDSy6SQIjRCLDydxbxvgE1JNX0RFTEVHQVRJT05fVE9LRU4A Accept: application/xml
Response Header
HTTP/1.1 200 OK WWW-Authenticate: Negotiate ... Date: Sun, 29 Jun 2014 07:25:18 GMT Transfer-Encoding: chunked Server: Jetty(6.1.26) Set-Cookie: ... Content-Type: application/xml
No response body.
This feature is in the alpha mode and may change in the future.
You can use delegation tokens to authenticate yourself when using YARN RM webservices. However, this requires setting the right configurations. The conditions for this are:
Hadoop is setup in secure mode with the authentication type set to kerberos.
Hadoop HTTP authentication is setup with the authentication type set to kerberos
Once setup, delegation tokens can be fetched using the web services listed above and used as shown in an example below:
PUT http://<rm http address:port>/ws/v1/cluster/apps/application_1399397633663_0003/state X-Hadoop-Delegation-Token: MgASY2xpZW50QEVYQU1QTEUuQ09NDHRlc3QtcmVuZXdlcgCKAUbjqcHHigFHB7ZFxwQCFKWD3znCkDSy6SQIjRCLDydxbxvgE1JNX0RFTEVHQVRJT05fVE9LRU4A Content-Type: application/json; charset=UTF8 { "state":"KILLED" }
The Cluster Reservation API can be used to list reservations. When listing reservations the user must specify the constraints in terms of a queue, reservation-id, start time or end time. The user must also specify whether or not to include the full resource allocations of the reservations being listed. The resulting page returns a response containing information related to the reservation such as the acceptance time, the user, the resource allocations, the reservation-id, as well as the reservation definition.
* queue - the queue name containing the reservations to be listed. if not set, this value will default to "default". * reservation-id - the reservation-id of the reservation which will be listed. If this parameter is present, start-time and end-time will be ignored. * start-time - reservations that end after this start-time will be listed. If unspecified or invalid, this will default to 0. * end-time - reservations that start after this end-time will be listed. If unspecified or invalid, this will default to Long.MaxValue. * include-resource-allocations - true or false. If true, the resource allocations of the reservation will be included in the response. If false, no resource allocations will be included in the response. This will default to false.
Item | Data Type | Description |
---|---|---|
reservations | array of ReservationInfo(JSON) / zero or more ReservationInfo objects(XML) | The reservations that are listed with the given query |
Item | Data Type | Description |
---|---|---|
acceptance-time | long | Time that the reservation was accepted |
resource-allocations | array of ResourceAllocationInfo(JSON) / zero or more ResourceAllocationInfo objects(XML) | Resource allocation information for the reservation |
reservation-id | A single ReservationId string | The unique reservation identifier |
reservation-definition | A single ReservationDefinition Object | A set of constraints representing the need for resources over time of a user |
user | string | User who made the reservation |
Item | Data Type | Description |
---|---|---|
resource | A single Resource object | The resources allocated for the reservation allocation |
startTime | long | Start time that the resource is allocated for |
endTime | long | End time that the resource is allocated for |
Item | Data Type | Description |
---|---|---|
memory | int | The memory allocated for the reservation allocation |
vCores | int | The number of cores allocated for the reservation allocation |
Item | Data Type | Description |
---|---|---|
arrival | long | The UTC time representation of the earliest time this reservation can be allocated from. |
deadline | long | The UTC time representation of the latest time within which this reservation can be allocated. |
reservation-name | string | A mnemonic name of the reservation (not a valid identifier). |
reservation-requests | object | A list of “stages” or phases of this reservation, each describing resource requirements and duration |
Item | Data Type | Description |
---|---|---|
reservation-request-interpreter | int | A numeric choice of how to interpret the set of ReservationRequest: 0 is an ANY, 1 for ALL, 2 for ORDER, 3 for ORDER_NO_GAP |
reservation-request | object | The description of the resource and time capabilities for a phase/stage of this reservation |
Item | Data Type | Description |
---|---|---|
duration | long | The duration of a ReservationRequest in milliseconds (amount of consecutive milliseconds a satisfiable allocation for this portion of the reservation should exist for). |
num-containers | int | The number of containers required in this phase of the reservation (capture the maximum parallelism of the job(s) in this phase). |
min-concurrency | int | The minimum number of containers that must be concurrently allocated to satisfy this allocation (capture min-parallelism, useful to express gang semantics). |
capability | object | Allows to specify the size of each container (memory, vCores). |
Get requests can be used to list reservations to the ResourceManager. As mentioned above, information pertaining to the reservation is returned upon success (in the body of the answer). Successful list requests result in a 200 response. Please note that in order to submit a reservation, you must have an authentication filter setup for the HTTP interface. the functionality requires that the username is set in the HttpServletRequest. If no filter is setup, the response will be an “UNAUTHORIZED” response. Please note that this feature is currently in the alpha stage and may change in the future.
JSON response
This request return all active reservations within the start time 1455159355000 and 1475160036000. Since include-resource-allocations is set to true, the full set of resource allocations will be included in the response.
HTTP Request:
GET http://<rm http address:port>/ws/v1/cluster/reservation/list?queue=dedicated&start-time=1455159355000&end-time=1475160036000&include-resource-allocations=true
Response Header:
HTTP/1.1 200 OK Content-Type: application/json Transfer-Encoding: chunked Cache-Control: no-cache Content-Encoding: gzip Pragma: no-cache,no-cache Server: Jetty(6.1.26)
Response Body:
{ "reservations": { "acceptance-time": "1455160008442", "user": "submitter", "resource-allocations": [ { "resource": { "memory": "0", "vCores": "0" }, "startTime": "1465541532000", "endTime": "1465542250000" }, { "resource": { "memory": "1024", "vCores": "1" }, "startTime": "1465542250000", "endTime": "1465542251000" }, { "resource": { "memory": "0", "vCores": "0" }, "startTime": "1465542251000", "endTime": "1465542252000" } ], "reservation-id": "reservation_1458852875788_0002", "reservation-definition": { "arrival": "1465541532000", "deadline": "1465542252000", "reservation-requests": { "reservation-request-interpreter": "0", "reservation-request": { "capability": { "memory": "1024", "vCores": "1" }, "min-concurrency": "1", "num-containers": "1", "duration": "60" } }, "reservation-name": "res_1" } } }
XML Response
HTTP Request:
GET http://<rm http address:port>/ws/v1/cluster/reservation/list?queue=dedicated&start-time=1455159355000&end-time=1475160036000&include-resource-allocations=true
Response Header:
HTTP/1.1 200 OK Content-Type: application/xml Content-length: 395 Cache-Control: no-cache Content-Encoding: gzip Pragma: no-cache,no-cache Server: Jetty(6.1.26)
Response Body:
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <reservationListInfo> <reservations> <acceptance-time>1455233661003</acceptance-time> <user>dr.who</user> <resource-allocations> <resource> <memory>0</memory> <vCores>0</vCores> </resource> <startTime>1465541532000</startTime> <endTime>1465542251000</endTime> </resource-allocations> <resource-allocations> <resource> <memory>1024</memory> <vCores>1</vCores> </resource> <startTime>1465542251000</startTime> <endTime>1465542252000</endTime> </resource-allocations> <reservation-id>reservation_1458852875788_0002</reservation-id> <reservation-definition> <arrival>1465541532000</arrival> <deadline>1465542252000</deadline> <reservation-requests> <reservation-request-interpreter>0</reservation-request-interpreter> <reservation-request> <capability> <memory>1024</memory> <vCores>1</vCores> </capability> <min-concurrency>1</min-concurrency> <num-containers>1</num-containers> <duration>60</duration> </reservation-request> </reservation-requests> <reservation-name>res_1</reservation-name> </reservation-definition> </reservations> </reservationListInfo>
Use the New Reservation API, to obtain a reservation-id which can then be used as part of the Cluster Reservation API Submit to submit reservations.
This feature is currently in the alpha stage and may change in the future.
The new-reservation response contains the following elements:
Item | Data Type | Description |
---|---|---|
reservation-id | string | The newly created reservation id |
JSON response
HTTP Request:
POST http://<rm http address:port>/ws/v1/cluster/reservation/new-reservation
Response Header:
HTTP/1.1 200 OK Content-Type: application/json Transfer-Encoding: chunked Server: Jetty(6.1.26)
Response Body:
{ "reservation-id":"reservation_1404198295326_0003" }
XML response
HTTP Request:
POST http://<rm http address:port>/ws/v1/cluster/reservation/new-reservation
Response Header:
HTTP/1.1 200 OK Content-Type: application/xml Content-Length: 248 Server: Jetty(6.1.26)
Response Body:
<?xml version="1.0" encoding="UTF-8" standalone="yes"?> <new-reservation> <reservation-id>reservation_1404198295326_0003</reservation-id> </new-reservation>
The Cluster Reservation API can be used to submit reservations. When submitting a reservation the user specifies the constraints in terms of resources, and time that is required. The resulting response is successful if the reservation can be made. If a reservation-id is used to submit a reservation multiple times, the request will succeed if the reservation definition is the same, but only one reservation will be created. If the reservation definition is different, the server will respond with an error response. When the reservation is made, the user can use the reservation-id used to submit the reservation to get access to the resources by specifying it as part of Cluster Submit Applications API.
POST requests can be used to submit reservations to the ResourceManager. As mentioned above, a reservation-id is returned upon success (in the body of the answer). Successful submissions result in a 200 response. Please note that in order to submit a reservation, you must have an authentication filter setup for the HTTP interface. The functionality requires that a username is set in the HttpServletRequest. If no filter is setup, the response will be an “UNAUTHORIZED” response.
Please note that this feature is currently in the alpha stage and may change in the future.
Item | Data Type | Description |
---|---|---|
queue | string | The (reservable) queue you are submitting to |
reservation-definition | object | A set of constraints representing the need for resources over time of a user. |
reservation-id | string | The reservation id to use to submit the reservation. |
Elements of the reservation-definition object
Item | Data Type | Description |
---|---|---|
arrival | long | The UTC time representation of the earliest time this reservation can be allocated from. |
deadline | long | The UTC time representation of the latest time within which this reservation can be allocated. |
reservation-name | string | A mnemonic name of the reservation (not a valid identifier). |
reservation-requests | object | A list of “stages” or phases of this reservation, each describing resource requirements and duration |
Elements of the reservation-requests object
Item | Data Type | Description |
---|---|---|
reservation-request-interpreter | int | A numeric choice of how to interpret the set of ReservationRequest: 0 is an ANY, 1 for ALL, 2 for ORDER, 3 for ORDER_NO_GAP |
reservation-request | object | The description of the resource and time capabilities for a phase/stage of this reservation |
Elements of the reservation-request object
Item | Data Type | Description |
---|---|---|
duration | long | The duration of a ReservationRequeust in milliseconds (amount of consecutive milliseconds a satisfiable allocation for this portion of the reservation should exist for). |
num-containers | int | The number of containers required in this phase of the reservation (capture the maximum parallelism of the job(s) in this phase). |
min-concurrency | int | The minimum number of containers that must be concurrently allocated to satisfy this allocation (capture min-parallelism, useful to express gang semantics). |
capability | object | Allows to specify the size of each container (memory, vCores). |
Elements of the capability object
Item | Data Type | Description |
---|---|---|
memory | int | the number of MB of memory for this container |
vCores | int | the number of virtual cores for this container |
JSON response
This examples contains a reservation composed of two stages (alternative to each other as the reservation-request-interpreter is set to 0), so that the first is shorter and “taller” and “gang” with exactly 220 containers for 60 seconds, while the second alternative is longer with 120 seconds duration and less tall with 110 containers (and a min-concurrency of 1 container, thus no gang semantics).
HTTP Request:
POST http://rmdns:8088/ws/v1/cluster/reservation/submit Content-Type: application/json { "queue" : "dedicated", "reservation-id":"reservation_1404198295326_0003" "reservation-definition" : { "arrival" : 1765541532000, "deadline" : 1765542252000, "reservation-name" : "res_1", "reservation-requests" : { "reservation-request-interpreter" : 0, "reservation-request" : [ { "duration" : 60000, "num-containers" : 220, "min-concurrency" : 220, "capability" : { "memory" : 1024, "vCores" : 1 } }, { "duration" : 120000, "num-containers" : 110, "min-concurrency" : 1, "capability" : { "memory" : 1024, "vCores" : 1 } } ] } } }
Response Header:
200 OK Cache-Control: no-cache Expires: Thu, 17 Dec 2015 23:36:34 GMT, Thu, 17 Dec 2015 23:36:34 GMT Date: Thu, 17 Dec 2015 23:36:34 GMT, Thu, 17 Dec 2015 23:36:34 GMT Pragma: no-cache, no-cache Content-Type: application/xml Content-Encoding: gzip Content-Length: 137 Server: Jetty(6.1.26)
Response Body:
No response body
XML response
HTTP Request:
POST http://rmdns:8088/ws/v1/cluster/reservation/submit Accept: application/xml Content-Type: application/xml <reservation-submission-context> <queue>dedicated</queue> <reservation-id>reservation_1404198295326_0003</reservation-id> <reservation-definition> <arrival>1765541532000</arrival> <deadline>1765542252000</deadline> <reservation-name>res_1</reservation-name> <reservation-requests> <reservation-request-interpreter>0</reservation-request-interpreter> <reservation-request> <duration>60000</duration> <num-containers>220</num-containers> <min-concurrency>220</min-concurrency> <capability> <memory>1024</memory> <vCores>1</vCores> </capability> </reservation-request> <reservation-request> <duration>120000</duration> <num-containers>110</num-containers> <min-concurrency>1</min-concurrency> <capability> <memory>1024</memory> <vCores>1</vCores> </capability> </reservation-request> </reservation-requests> </reservation-definition> </reservation-submission-context>
Response Header:
200 OK Cache-Control: no-cache Expires: Thu, 17 Dec 2015 23:49:21 GMT, Thu, 17 Dec 2015 23:49:21 GMT Date: Thu, 17 Dec 2015 23:49:21 GMT, Thu, 17 Dec 2015 23:49:21 GMT Pragma: no-cache, no-cache Content-Type: application/xml Content-Encoding: gzip Content-Length: 137 Server: Jetty(6.1.26)
Response Body:
No response body
The Cluster Reservation API Update can be used to update existing reservations.Update of a Reservation works similarly to submit described above, but the user submits the reservation-id of an existing reservation to be updated. The semantics is a try-and-swap, successful operation will modify the existing reservation based on the requested update parameter, while a failed execution will leave the existing reservation unchanged.
POST requests can be used to update reservations to the ResourceManager. Successful submissions result in a 200 response, indicate in-place update of the existing reservation (id does not change). Please note that in order to update a reservation, you must have an authentication filter setup for the HTTP interface. The functionality requires that a username is set in the HttpServletRequest. If no filter is setup, the response will be an “UNAUTHORIZED” response.
Please note that this feature is currently in the alpha stage and may change in the future.
Item | Data Type | Description |
---|---|---|
reservation-id | string | The id of the reservation to be updated (the system automatically looks up the right queue from this) |
reservation-definition | object | A set of constraints representing the need for resources over time of a user. |
Elements of the reservation-definition object
Item | Data Type | Description |
---|---|---|
arrival | long | The UTC time representation of the earliest time this reservation can be allocated from. |
deadline | long | The UTC time representation of the latest time within which this reservation can be allocated. |
reservation-name | string | A mnemonic name of the reservation (not a valid identifier). |
reservation-requests | object | A list of “stages” or phases of this reservation, each describing resource requirements and duration |
Elements of the reservation-requests object
Item | Data Type | Description |
---|---|---|
reservation-request-interpreter | int | A numeric choice of how to interpret the set of ReservationRequest: 0 is an ANY, 1 for ALL, 2 for ORDER, 3 for ORDER_NO_GAP |
reservation-request | object | The description of the resource and time capabilities for a phase/stage of this reservation |
Elements of the reservation-request object
Item | Data Type | Description |
---|---|---|
duration | long | The duration of a ReservationRequeust in milliseconds (amount of consecutive milliseconds a satisfiable allocation for this portion of the reservation should exist for). |
num-containers | int | The number of containers required in this phase of the reservation (capture the maximum parallelism of the job(s) in this phase). |
min-concurrency | int | The minimum number of containers that must be concurrently allocated to satisfy this allocation (capture min-parallelism, useful to express gang semantics). |
capability | object | Allows to specify the size of each container (memory, vCores). |
Elements of the capability object
Item | Data Type | Description |
---|---|---|
memory | int | the number of MB of memory for this container |
vCores | int | the number of virtual cores for this container |
JSON response
This examples updates an existing reservation identified by reservation_1449259268893_0005 with two stages (in order as the reservation-request-interpreter is set to 2), with the first stage being a “gang” of 10 containers for 5 minutes (min-concurrency of 10 containers) followed by a 50 containers for 10 minutes(min-concurrency of 1 container, thus no gang semantics).
HTTP Request:
POST http://rmdns:8088/ws/v1/cluster/reservation/update Accept: application/json Content-Type: application/json { "reservation-id" : "reservation_1449259268893_0005", "reservation-definition" : { "arrival" : 1765541532000, "deadline" : 1765542252000, "reservation-name" : "res_1", "reservation-requests" : { "reservation-request-interpreter" : 2, "reservation-request" : [ { "duration" : 300000, "num-containers" : 10, "min-concurrency" : 10, "capability" : { "memory" : 1024, "vCores" : 1 } }, { "duration" : 60000, "num-containers" : 50, "min-concurrency" : 1, "capability" : { "memory" : 1024, "vCores" : 1 } } ] } } }
Response Header:
200 OK Cache-Control: no-cache Expires: Thu, 17 Dec 2015 23:36:34 GMT, Thu, 17 Dec 2015 23:36:34 GMT Date: Thu, 17 Dec 2015 23:36:34 GMT, Thu, 17 Dec 2015 23:36:34 GMT Pragma: no-cache, no-cache Content-Type: application/json Content-Encoding: gzip Content-Length: 137 Server: Jetty(6.1.26)
Response Body:
No response body
XML response
HTTP Request:
POST http://rmdns:8088/ws/v1/cluster/reservation/update Accept: application/xml Content-Type: application/xml <reservation-update-context> <reservation-id>reservation_1449259268893_0005</reservation-id> <reservation-definition> <arrival>1765541532000</arrival> <deadline>1765542252000</deadline> <reservation-name>res_1</reservation-name> <reservation-requests> <reservation-request-interpreter>2</reservation-request-interpreter> <reservation-request> <duration>300000</duration> <num-containers>10</num-containers> <min-concurrency>10</min-concurrency> <capability> <memory>1024</memory> <vCores>1</vCores> </capability> </reservation-request> <reservation-request> <duration>60000</duration> <num-containers>50</num-containers> <min-concurrency>1</min-concurrency> <capability> <memory>1024</memory> <vCores>1</vCores> </capability> </reservation-request> </reservation-requests> </reservation-definition> </reservation-update-context>
Response Header:
200 OK Cache-Control: no-cache Expires: Thu, 17 Dec 2015 23:49:21 GMT, Thu, 17 Dec 2015 23:49:21 GMT Date: Thu, 17 Dec 2015 23:49:21 GMT, Thu, 17 Dec 2015 23:49:21 GMT Pragma: no-cache, no-cache Content-Type: application/xml Content-Encoding: gzip Content-Length: 137 Server: Jetty(6.1.26)
Response Body:
No response body
The Cluster Reservation API Delete can be used to delete existing reservations.Delete works similar to update. The requests contains the reservation-id, and if successful the reservation is cancelled, otherwise the reservation remains in the system.
POST requests can be used to delete reservations to the ResourceManager. Successful submissions result in a 200 response, indicating that the delete succeeded. Please note that in order to delete a reservation, you must have an authentication filter setup for the HTTP interface. The functionality requires that a username is set in the HttpServletRequest. If no filter is setup, the response will be an “UNAUTHORIZED” response.
Please note that this feature is currently in the alpha stage and may change in the future.
Item | Data Type | Description |
---|---|---|
reservation-id | string | The id of the reservation to be deleted (the system automatically looks up the right queue from this) |
JSON response
This examples deletes an existing reservation identified by reservation_1449259268893_0006
HTTP Request:
POST http://10.200.91.98:8088/ws/v1/cluster/reservation/delete Accept: application/json Content-Type: application/json { "reservation-id" : "reservation_1449259268893_0006" }
Response Header:
200 OK Cache-Control: no-cache Expires: Fri, 18 Dec 2015 01:31:05 GMT, Fri, 18 Dec 2015 01:31:05 GMT Date: Fri, 18 Dec 2015 01:31:05 GMT, Fri, 18 Dec 2015 01:31:05 GMT Pragma: no-cache, no-cache Content-Type: application/json Content-Encoding: gzip Transfer-Encoding: chunked Server: Jetty(6.1.26)
Response Body:
No response body
XML response
HTTP Request:
POST http://10.200.91.98:8088/ws/v1/cluster/reservation/delete Accept: application/xml Content-Type: application/xml <reservation-delete-context> <reservation-id>reservation_1449259268893_0006</reservation-id> </reservation-delete-context>
Response Header:
200 OK Cache-Control: no-cache Expires: Fri, 18 Dec 2015 01:33:23 GMT, Fri, 18 Dec 2015 01:33:23 GMT Date: Fri, 18 Dec 2015 01:33:23 GMT, Fri, 18 Dec 2015 01:33:23 GMT Pragma: no-cache, no-cache Content-Type: application/xml Content-Encoding: gzip Content-Length: 101 Server: Jetty(6.1.26)
Response Body:
No response body