| Network Working Group | A. Bierman |
| Internet-Draft | YumaWorks |
| Intended status: Standards Track | M. Bjorklund |
| Expires: June 03, 2013 | Tail-f Systems |
| November 30, 2012 |
YANG-API Protocol
draft-bierman-netconf-yang-api-01
This document describes a RESTful protocol that provides a programmatic interface over HTTP for accessing data defined in YANG, using the datastores defined in NETCONF.
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There is a need for standard mechanisms to allow WEB applications to access the configuration data, operational data, and data-model specific protocol operations within a networking device, in a modular and extensible manner.
This document describes a RESTful protocol called YANG-API, running over HTTP [RFC2616], for accessing data defined in YANG [RFC6020], using datastores defined in NETCONF [RFC6241].
The NETCONF protocol defines configuration datastores and a set of Create, Retrieve, Update, Delete (CRUD) operations that can be used to access these datastores. The YANG language defines the syntax and semantics of datastore content and operational data. RESTful operations are used to access the hierarchical data within a datastore.
A RESTful API can be created that provides CRUD operations on a NETCONF datastore containing YANG-defined data. This can be done in a simplified manner, compatible with HTTP and RESTful design principles. Since NETCONF protocol operations are not relevant, the user should not need any prior knowledge of NETCONF in order to use the RESTful API.
Configuration data and state data are exposed as resources that can be retrieved with the GET method. Resources representing configuration data can be modified with the DELETE, PATCH, POST, and PUT methods. Data-model specific protocol operations defined with the YANG "rpc" statement can be invoked with the POST method.
The framework and meta-model used for a RESTful API does not need to mirror those used by the NETCONF protocol. It just needs to be compatible with NETCONF. A simplified framework and protocol is needed that utilizes the three NETCONF datastores (candidate, running, startup), but hides the complexity of multiple datastores from the client.
A simplified transaction model is needed that allows basic CRUD operations on a hierarchy of conceptual resources. This represents a limited subset of the transaction capabilities of the NETCONF protocol.
Applications that require more complex transaction capabilities might consider NETCONF instead of YANG-API. The following transaction features are not provided in YANG-API:
The RESTful API is not intended to replace NETCONF, but rather provide an additional simplified interface that follows RESTful principles and is compatible with a resource-oriented device abstraction. It is expected that applications that need the full feature set of NETCONF such as notifications will continue to use NETCONF.
The following figure shows the system components:
+-----------+ +-----------------+
| WEB app | <-------> | |
+-----------+ HTTP | network device |
| |
+-----------+ | +-----------+ |
| NMS app | <-------> | | datastore | |
+-----------+ NETCONF | +-----------+ |
+-----------------+
YANG-API combines the simplicity of a RESTful API over HTTP with the predictability and automation potential of a schema-driven API.
A RESTful client using YANG-API will not use any data modelling language to define the application-specific content of the API. The client would discover each new child resource as it traverses the URIs return as Location IDs to discover the server capabilities.
This approach has 3 significant weaknesses wrt/ control of complex networking devices:
YANG-API provides the YANG module capability information supported by the server, in case the client wants to use it. The URIs for custom protocol operations and datastore content are predictable, based on the YANG module definitions. Note that the YANG modules and predictable URIs are optional to use by the client. They can be completely ignored without any loss of protocol functionality.
Operational experience with CLI and SNMP indicates that operators learn the 'location' of specific service or device related data and do not expect such information to be arbitrary and discovered each time the client opens a management session to a server.
The keywords "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in BCP 14, [RFC2119].
The following terms are defined in [RFC6241]:
The following terms are defined in [RFC2616]:
The following terms are defined in [RFC6020]:
The following terms are used within this document:
This document defines the YANG-API protocol, a RESTful API for accessing conceptual datastores containing data defined with YANG language. YANG-API provides an application framework and meta-model, using HTTP operations.
The YANG-API resources are accessed via a set of URIs defined in this document. The set of YANG modules supported by the server will determine the additional data model specific operations and top-level data node resources available on the server.
The URI hierarchy for the YANG-API resources consists of an entry point and up to 4 top-level resources and/or fields. Refer to Section 5 for details on each URI.
/yang-api
/datastore
/<top-level-data-nodes> (config=true or false)
/modules
/module
/operations
/<custom protocol operations>
/version
The examples within this document use the non-normative example YANG module defined in Section 13.
This section shows some typical YANG-API message exchanges.
By default, when a resource is retrieved, all of its fields are returned, but none (if any) of the nested resources are returned. Also, the default encoding is JSON. Data resources are encoded according to the encoding rules in [I-D.lhotka-netmod-json].
The client starts by retrieving the top-level API resource, using the entry point URI "/yang‑api".
GET /yang-api HTTP/1.1 Host: example.com
The server might respond as follows. The "module" lines below are split for display purposes only:
HTTP/1.1 200 OK
Date: Mon, 23 Apr 2012 17:01:00 GMT
Server: example-server
Content-Type: application/vnd.yang.api+json
{
"yang-api": {
"modules": {
"module": [
"urn:ietf:params:xml:ns:yang:ietf-yang-api
?module=ietf-yang-api&revision=2012-05-27",
"example.com?module=example-jukebox
&revision=2012-05-30"
]
},
"version": "1.0"
}
}
To request that the response content to be encoded in XML, the "Accept" header can be used, as in this example request:
GET /yang-api HTTP/1.1 Host: example.com Accept: application/vnd.yang.api+xml
An alternate approach is provided using the "format" query parameter, as in this example request:
GET /yang-api?format=xml HTTP/1.1 Host: example.com
The server will return the same response either way, which might be as follows :
HTTP/1.1 200 OK Date: Mon, 23 Apr 2012 17:01:00 GMT Server: example-server Cache-Control: no-cache Pragma: no-cache Content-Type: application/vnd.yang.api+xml
<yang-api>
<modules> <!-- wrapped for display only -->
<module>urn:ietf:params:xml:ns:yang:ietf-yang-api
?module=ietf-yang-api
&revision=2012-05-27</module>
<module>example.com?module=example-jukebox
&revision=2012-05-30</module>
</modules>
<version>1.0</version>
</yang-api>
Refer to Section 3.3 for details on the GET operation.
To create a new "jukebox" resource, the client might send:
POST /yang-api/datastore/jukebox HTTP/1.1 Host: example.com
If the resource is created, the server might respond:
HTTP/1.1 201 Created Date: Mon, 23 Apr 2012 17:01:00 GMT Server: example-server Location: http://example.com/yang-api/datastore/jukebox Last-Modified: Mon, 23 Apr 2012 17:01:00 GMT ETag: b3a3e673be2
To create a new "artist" resource within the "jukebox" resource, the client might send the following request, Note that the arbitrary integer "index" is not provided, since it is an optional key:
POST /yang-api/datastore/jukebox/artist HTTP/1.1
Host: example.com
Content-Type: application/vnd.yang.data+json
{
"artist" : {
"name" : "The Foo Fighters"
}
}
If the resource is created, the server might respond:
HTTP/1.1 201 Created Date: Mon, 23 Apr 2012 17:02:00 GMT Server: example-server Location: http://example.com/yang-api/datastore/jukebox/artist/1 Last-Modified: Mon, 23 Apr 2012 17:02:00 GMT ETag: b3830f23a4c
To create a new "album" resource for this artist within the "jukebox" resource, the client might send the following request,
POST /yang-api/datastore/jukebox/artist/1/album HTTP/1.1
Host: example.com
Content-Type: application/vnd.yang.data+json
{
"album" : {
"name" : "Wasting Light",
"genre" : "example-jukebox:Alternative",
"year" : 2012
}
}
If the resource is created, the server might respond as follows. Note that the "Location" header line is wrapped for display purposes only:
HTTP/1.1 201 Created
Date: Mon, 23 Apr 2012 17:03:00 GMT
Server: example-server
Location: http://example.com/yang-api/datastore/
jukebox/artist/1/album/Wasting%20Light
Last-Modified: Mon, 23 Apr 2012 17:03:00 GMT
ETag: b8389233a4c
Refer to Section 3.4 for details on the POST operation.
Note: replacing a resource is a fairly drastic operation. The PATCH operation is often more appropriate.
The album sub-resource is re-added here for example purposes only. To replace the "artist" resource contents, the client might send:
PUT /yang-api/datastore/jukebox/artist/1 HTTP/1.1
Host: example.com
If-Match: b3830f23a4c
Content-Type: application/vnd.yang.data+json
{
"artist" : {
"name" : "Foo Fighters",
"album" : {
"name" : "Wasting Light",
"genre" : "example-jukebox:Alternative",
"year" : 2012
}
}
}
If the resource is updated, the server might respond:
HTTP/1.1 204 No Content Date: Mon, 23 Apr 2012 17:04:00 GMT Server: example-server Last-Modified: Mon, 23 Apr 2012 17:04:00 GMT ETag: b27480aeda4c
Refer to Section 3.5 for details on the PUT operation.
To replace just the "year" field in the "album" resource, the client might send:
PATCH /yang-api/datastore/jukebox/artist/1/album/
Wasting%20Light/year HTTP/1.1
Host: example.com
If-Match: b8389233a4c
Content-Type: application/vnd.yang.data+json
{ "year" : 2011 }
If the resource is updated, the server might respond:
HTTP/1.1 204 No Content Date: Mon, 23 Apr 2012 17:49:30 GMT Server: example-server Last-Modified: Mon, 23 Apr 2012 17:49:30 GMT ETag: b2788923da4c
Refer to Section 3.6 for details on the PATCH operation.
To delete a resource such as the "album" resource, the client might send:
DELETE /yang-api/datastore/jukebox/artist/1/album/
Wasting%20Light HTTP/1.1
Host: example.com
If the resource is deleted, the server might respond:
HTTP/1.1 204 No Content Date: Mon, 23 Apr 2012 17:49:40 GMT Server: example-server
Refer to Section 3.7 for details on the DELETE operation.
To invoke a data-model specific operation via an operation resource, the POST operation is used. A client might send a "backup‑datastore" request as follows:
POST /yang-api/operations/backup-datastore HTTP/1.1 Host: example.com
The server might respond:
HTTP/1.1 204 No Content Date: Mon, 23 Apr 2012 17:50:00 GMT Server: example-server
Refer to Section 3.9 for details on using the POST operation with operation resources.
The YANG-API protocol defines a framework that can be used to implement a common API for configuration management. This section describes the components of the YANG-API framework.
The YANG-API protocol uses HTTP entities for messages. A single HTTP message corresponds to a single protocol operation. A message can perform a single task on a single resource, such as retrieving a resource or editing a resource. It cannot be used to combine multiple tasks. The client cannot provide multiple (possibly unrelated) edit operations within a single request, like the NETCONF <edit‑config> protocol operation.
The YANG-API protocol operates on a hierarchy of resources, starting with the top-level API resource itself. Each resource represents a manageable component within the device.
A resource can be considered a collection of conceptual data and the set of allowed operations on that data. It can contain child nodes that are either "fields" or other resources. The child resource types and operations allowed on them are data-model specific.
A resource has its own media type identifier, represented by the "Content‑Type" header in the HTTP response message. A resource can contain zero or more fields and zero or more resources. A resource can be created and deleted independently of its parent resource, as long as the parent resource exist.
A field is a child node defined within a resource. A field can contain zero or more fields and zero or more resources. A field cannot be created and deleted independently of its parent resource.
All YANG-API resources and fields are defined in this document except datastore contents and protocol operations. These resource types are defined with YANG data definition statements and the "rpc" statement. A default mapping is defined to differentiate sub-resources from fields within data resources.
The YANG-API protocol defines some application specific media types to identify each of the available resource types. The following table summarizes the purpose of each resource.
| Resource | Media Type |
|---|---|
| API | application/vnd.yang.api |
| Datastore | application/vnd.yang.datastore |
| Data | application/vnd.yang.data |
| Operation | application/vnd.yang.operation |
These resources are described in Section 5.
A client SHOULD start by retrieving the top-level API resource, using the entry point URI "/yang‑api".
The YANG-API protocol does not include a resource discovery mechanism. Instead, the definitions within the YANG modules advertised by the server are used to construct a predictable operation or data resource identifier.
The "depth" query parameter can be used to control how many descendant levels should be included when retrieving sub-resources. This parameter can be used with the GET operation to discover sub-resources within a particular resource.
Refer to Section 3.8.2 for more details on the "depth" parameter.
A conceptual "unified datastore" is used to simplify resource management for the client. The YANG-API datastore is a combination of the running configuration and any non-configuration data supported by the device. By default only configuration data is returned by a GET operation on the datastore contents.
The underlying NETCONF datastores can be used to implement the unified datastore, but the server design is not limited to the exact datastore procedures defined in NETCONF.
The "candidate" and "startup" datastores are not visible in the YANG-API protocol. Transaction management and configuration persistence are handled by the server and not controlled by the client.
The YANG-API protocol operates on a conceptual datastore defined with the YANG data modeling language. The server lists each YANG module it supports in the "/yang‑api/modules/module" field in the top-level API resource type, using the YANG module capability URI format defined in RFC 6020.
The conceptual datastore contents and data-model-specific operations are identified by the set of YANG module capability URIs. All YANG-API content identified as either a data resource or an operation resource is defined with the YANG language.
The classification of data as configuration or non-configuration is derived from the YANG "config" statement. Data retrieval with the GET operation can be filtered in several ways, including the "config" parameter to retrieve configuration or non-configuration data.
The classification of data as a resource or field within a resource is derived from the rules specified in Section 5.3.2.
Data ordering behavior is derived from the YANG "ordered‑by" statement. Editing mechanisms are provided to allow list or leaf-list resources to be inserted or moved in the same manner as NETCONF, and defined in YANG.
The server is not required to maintain system ordered data in any particular persistent order. The server SHOULD maintain the same data ordering for system ordered data until the next reboot or termination of the server.
The YANG-API datastore editing model is simple and direct, similar to the behavior of the ":writable‑running" capability in NETCONF.
Each YANG-API edit of a datastore resource is activated upon successful completion of the transaction. It is an implementation-specific matter how the server accomplishes a YANG-API edit request. For example, a server which only accepts edits through a candidate datastore may internally edit this datastore and perform the "commit" operation automatically.
Applications which need more control over the editing model might consider using NETCONF instead of YANG-API.
Sometimes a server does not implement every operation for every resource. Sometimes data model requirements cause a node to implement a subset of the edit operations. For example, a server may not allow modification of a particular configuration data node after the parent resource has been created.
The OPTIONS operation can be used to identify which operations are supported by the server for a particular resource. For example, if the server will allow a data resource node to be created then the POST operation will be returned in the response.
Two "edit collision detection" mechanisms are provided in YANG-API, for datastore and data resources.
Note that the server is only required to maintain these fields for a datastore resource, not for individual data resources.
Example:
In this example, the server just supports the mandatory datastore last-changed timestamp. The client has previously retrieved the "Last‑Modified" header and has some value cached to provide in the following request to replace a list entry with key value "11":
PATCH /yang-api/datastore/jukebox/artist/1/album/
Wasting%20Light/year HTTP/1.1
Host: example.com
Accept: application/vnd.yang.data+json
If-Unmodified-Since: Mon, 23 Apr 2012 17:01:00 GMT
Content-Type: application/vnd.yang.data+json
{ "year" : "2011" }
In this example the datastore resource has changed since the time specified in the "If‑Unmodified‑Since" header. The server might respond:
HTTP/1.1 304 Not Modified Date: Mon, 23 Apr 2012 19:01:00 GMT Server: example-server Last-Modified: Mon, 23 Apr 2012 17:45:00 GMT ETag: b34aed893a4c
Datastore locking is not provided by YANG-API. An application that needs to make several changes to the running configuration datastore contents in sequence, without disturbance from other clients might consider using the NETCONF protocol instead of YANG-API.
Each YANG-API edit of a datastore resource is saved to non-volatile storage in an implementation-specific matter by the server. There is no guarantee that configuration changes are saved immediately, or that the saved configuration is always a mirror of the running configuration.
Applications which need more control over the persistence model might consider using NETCONF instead of YANG-API.
NETCONF has a rather complex defaults handling model for leafs. YANG-API attempts to avoid this complexity by restricting the operations that can be applied to a resource and fields within that resource.
The GET method returns only nodes that exist, which will be determined by the server. There is no mechanism for the client to ask the server for the default values that would be used for any nodes not present, but some default value is in use by the server. (There is no
retrieval mode like "with-defaults=report-all" in NETCONF.)
If a leaf definition has a default value, and the leaf has not been given a value yet, the server SHOULD NOT return any value for the leaf in the response for a GET operation.
Applications which need more control over the defaults model might consider using NETCONF instead of YANG-API.
The YANG-API protocol does not provide a complex transaction model that allows for multiple protocol operations, or even operations on multiple resources in one protocol operation. A very simple "one operation one one resource" per transaction model is used instead.
Applications which need more control over the transaction model might consider using NETCONF instead of YANG-API.
The YANG-API protocol is designed to be extensible for datastore content and data-model specific protocol operations. New protocol operations can be added without changing the entry point if they are optional and do not alter any existing operations.
Separate namespaces for each YANG module are used. Content encoded in XML will indicate the module using the "namespace" URI value in the YANG module. Content encoded in JSON will indicate the module using the module name specified in the YANG module. JSON encoding rules for module namespaces are specified in [I-D.lhotka-netmod-json].
The version of a resource instance is identified with an entity tag, as defined by HTTP. The version identifiers in this section apply to the version of the schema definition of a resource. There are two types of schema versioning information used in the YANG-API protocol:
The protocol version is identified by the string used for the well-known URI entry point "/yang‑api". This would be changed (e.g., "/yang‑api2") if non-backward compatible changes are ever needed. Minor version changes that do not break backward-compatibility will not cause the entry point to change.
The API "yang‑api/version" field can be used by the client to identify the exact version of the YANG-API protocol implemented by the server. This value will include the complete YANG-API protocol version. The "/yang‑api" entry point will only change (e.g., "/yang‑api2") if non-backward compatible changes are made to the protocol. The "/yang‑api/version" field MUST be updated every time the protocol specification is republished.
The resource definition version for a data or operation resource is a date string, which is the revision date of the YANG module that defines the resource. The resource version for all other resource types is a numeric string, defined by the "/yang‑api/version" field.
There are four types of filtering for retrieval of data resources in the YANG-API protocol.
Refer to Section 5.3.4 for details on data retrieval filtering.
The YANG-API protocol provides no granular access control for any content except for operation and data resources. The NETCONF Access Control Model (NACM) is defined in [RFC6536]. There is a specific mapping between YANG-API operations and NETCONF edit operations, defined in Table 1. The resource path also needs to be converted internally by the server to the corresponding YANG instance-identifier. Using this information, the server can apply the NACM access control rules to YANG-API messages.
The server MUST NOT allow any operation to any resources that the client is not authorized to access.
The YANG-API protocol uses HTTP methods to identify the CRUD operation requested for a particular resource or field within a resource. The following table shows how the YANG-API operations relate to NETCONF protocol operations:
| YANG-API | NETCONF |
|---|---|
| OPTIONS | none |
| HEAD | none |
| GET | <get-config>, <get> |
| POST | <edit-config> (operation="create") |
| PUT | <edit-config> (operation="replace") |
| PATCH | <edit-config> (operation="merge") |
| DELETE | <edit-config> (operation="delete") |
The NETCONF "remove" operation attribute is not supported by the HTTP DELETE method. The resource must exist or the DELETE operation will fail.
This section defines the YANG-API protocol usage for each HTTP method.
The OPTIONS method is sent by the client to discover which methods are supported by the server for a specific resource, or field within a resource. It is supported for all media types. Note that implementation of this operation is part of HTTP, and this section does not introduce any additional requirements.
The request MUST contain a request URI that contains at least the entry point component.
The server will return a "Status‑Line" header containing "204 No Content". and include the "Allow" header in the response. This header will be filled in, based on the target resource media type. Other headers MAY also be included in the response.
Example 1:
A client might request the methods supported for a data resource called "library"
OPTIONS /yang-api/datastore/jukebox/library HTTP/1.1 Host: example.com
The server might respond (for a config=true list):
HTTP/1.1 204 No Content Date: Mon, 23 Apr 2012 17:01:00 GMT Server: example-server Allow: OPTIONS,HEAD,GET,POST,PUT,PATCH,DELETE
Example 2:
A client might request the methods supported for a non-configuration leaf within a data resource:
OPTIONS /yang-api/datastore/jukebox/library/
song-count HTTP/1.1
Host: example.com
The server might respond:
HTTP/1.1 204 No Content Date: Mon, 23 Apr 2012 17:02:00 GMT Server: example-server Allow: OPTIONS,HEAD,GET
Example 3:
A client might request the methods supported for an operation resource called "play":
OPTIONS /yang-api/operations/play HTTP/1.1 Host: example.com
The server might respond:
HTTP/1.1 204 No Content Date: Mon, 23 Apr 2012 17:02:00 GMT Server: example-server Allow: POST
The HEAD operation is sent by the client to retrieve just the headers that would be returned for the comparable GET operation, without the response body. The HTTP HEAD method is used for this operation. It is supported for all resource types, except operation resources.
The request MUST contain a request URI that contains at least the entry point component.
The same query parameters supported by the GET operation are supported by the HEAD operation. For example, the "select" query parameter can be used to specify a field within the target resource.
The access control behavior is enforced as if the method was GET instead of HEAD. The server MUST respond the same as if the method was GET instead of HEAD, except that no response body is included.
Example:
The client might request the response headers for the default (JSON) representation of the "library" resource:
HEAD /yang-api/datastore/jukebox/library HTTP/1.1 Host: example.com
The server might respond:
HTTP/1.1 200 OK Date: Mon, 23 Apr 2012 17:02:40 GMT Server: example-server Content-Type: application/vnd.yang.data+json Cache-Control: no-cache Pragma: no-cache ETag: a74eefc993a2b Last-Modified: Mon, 23 Apr 2012 11:02:14 GMT
The GET operation is sent by the client to retrieve data and meta-data for a resource or field within a resource. The HTTP GET method is used for this operation. It is supported for all resource types, except operation resources. The request MUST contain a request URI that contains at least the entry point component.
The following query parameters are supported by the GET operation:
| Name | Section | Description |
|---|---|---|
| config | 3.8.1 | Request either configuration or non-configuration data |
| depth | 3.8.2 | Control the depth of a retrieval request |
| format | 3.8.3 | Request either JSON or XML content in the response |
| select | 3.8.6 | Specify a field within the target resource |
The server MUST NOT return any data resources or fields within any data resources for which the user does not have read privileges.
If the user is not authorized to read any portion of the target resource, an error response containing a "403 Forbidden" Status-Line is returned to the client.
If the user is authorized to read some but not all of the target resource, the unauthorized content is omitted from the response message body, and the authorized content is returned to the client.
Example:
The client might request the response headers for a JSON representation of the "library" resource:
GET /yang-api/datastore/jukebox/library/artist/
1/album HTTP/1.1
Host: example.com
The server might respond:
HTTP/1.1 200 OK
Date: Mon, 23 Apr 2012 17:02:40 GMT
Server: example-server
Content-Type: application/vnd.yang.data+json
Cache-Control: no-cache
Pragma: no-cache
ETag: a74eefc993a2b
Last-Modified: Mon, 23 Apr 2012 11:02:14 GMT
{
"album" : {
"name" : "Wasting Light",
"genre" : "example-jukebox:Alternative",
"year" : 2011
}
}
The POST operation is sent by the client for various reasons. The HTTP POST method is used for this purpose. The request MUST contain a request URI that contains a target resource that identifies one of the following resource types:
| Type | Description |
|---|---|
| Data | Create a configuration data resource |
| Operation | Invoke protocol operation |
| Transaction | Create a new transaction |
The following query parameters are supported by the POST operation:
| Name | Section | Description |
|---|---|---|
| insert | 3.8.4 | Specify where to insert a resource |
| point | 3.8.5 | Specify the insert point for a resource |
If the POST operation succeeds, a "200 OK" Status-Line is returned if there is no response message body, and a "204 No Content" Status-Line is returned if there is a response message body.
If the user is not authorized to invoke the target (operation) resource, or create the target resource, an error response containing a "403 Forbidden" Status-Line is returned to the client. All other error responses are handled according to the procedures defined in Section 6.
The PUT operation is sent by the client to replace the target resource.
The HTTP PUT method is used for this purpose. The request MUST contain a request URI that contains a target resource that identifies the data resource to replace.
The following query parameters are supported by the PUT operation:
| Name | Section | Description |
|---|---|---|
| insert | 3.8.4 | Specify where to move a resource |
| point | 3.8.5 | Specify the move point for a resource |
If the PUT operation succeeds, a "200 OK" Status-Line is returned, and there is no response message body.
If the user is not authorized to replace the target resource an error response containing a "403 Forbidden" Status-Line is returned to the client. All other error responses are handled according to the procedures defined in Section 6.
The PATCH operation uses the HTTP PATCH method defined in [RFC5789] to provide a "merge" editing mode for data resources. Instead of replacing all or part of the target resource, the supplied values are merged into the target resource.
If the PATCH operation succeeds, a "200 OK" Status-Line is returned, and there is no response message body.
If the user is not authorized to alter the target resource an error response containing a "403 Forbidden" Status-Line is returned to the client. All other error responses are handled according to the procedures defined in Section 6.
The DELETE operation uses the HTTP DELETE method to delete the target resource.
If the DELETE operation succeeds, a "200 OK" Status-Line is returned, and there is no response message body.
If the user is not authorized to delete the target resource then an error response containing a "403 Forbidden" Status-Line is returned to the client. All other error responses are handled according to the procedures defined in Section 6.
Each YANG-API operation allows zero or more query parameters to be present in the request URI. Refer to Section 3 for details on the query parameters used in the definition of each operation.
Query parameters can be given in any order. Each parameter can appear zero or one time. A default value may apply if the parameter is missing.
This section defines all the YANG-API query parameters.
The "config" parameter is used to specify whether configuration or non-configuration data is requested.
This parameter is only supported for the GET and HEAD methods. It is also only supported if the target resource is a data resource.
syntax: config= true | false
default: true
Example:
This example request by the client would retrieve only the non-configuration data nodes that exist within the second-level "library" resource.
GET /yang-api/datastore/jukebox/library?config=false HTTP/1.1 Host: example.com Accept: application/vnd.yang.data+xml
The server might respond:
HTTP/1.1 200 OK
Date: Mon, 23 Apr 2012 17:01:30 GMT
Server: example-server
Cache-Control: no-cache
Pragma: no-cache
Content-Type: application/vnd.yang.data+json
{
"library" : {
"artist-count" : 42,
"album-count" : 59,
"song-count" : 374
}
}
The "depth" parameter is used to specify the number of nest levels returned in a response for a GET operation. A nest-level consists of the target resource and any child nodes which are optional data nodes (anyxml, leaf, or leaf-list). A non-presence container is transparent when determining the nest level. A child node (which is not a non-presence container) within a non-presence container is used to determine the nest-level.
The start level is determined by the target resource for the operation.
syntax: depth=<range: 1..max> | unbounded
default: 1
Example:
This example operation would retrieve 2 levels of configuration data nodes that exist within the top-level "jukebox" resource.
GET /yang-api/datastore/jukebox?depth=2 HTTP/1.1 Host: example.com Accept: application/vnd.yang.data+json
The server might respond:
HTTP/1.1 200 OK
Date: Mon, 23 Apr 2012 17:11:30 GMT
Server: example-server
Cache-Control: no-cache
Pragma: no-cache
Content-Type: application/vnd.yang.data+json
{
"jukebox" : {
"library" : {
"artist" : {
"index" : 1,
"name" : "Foo Fighters"
}
},
"player" : {
"gap" : 0.5
}
}
}
The "format" parameter is used to specify the format of any content returned in the response. Note that the "Accept" header MAY be used instead of this parameter to identify the format desired in the response. For example:
GET /yang-api/datastore/routing HTTP/1.1 Host: example.com Accept: application/vnd.yang.data+xml
This example request would retrieve only the configuration data nodes that exist within the top-level "routing" resource, and retrieve them in XML encoding instead of JSON encoding.
The "format" parameter is only supported for the GET and HEAD methods. It is supported for all YANG-API media types.
syntax: format= xml | json
default: json
Example:
GET /yang-api/datastore/routing?format=xml HTTP/1.1 Host: example.com
This example URI would retrieve only the configuration data nodes that exist within the top-level "routing" resource, and retrieve them in XML encoding instead of JSON encoding.
The "insert" parameter is used to specify how a resource should be inserted (or moved) within the user-ordered list or leaf-list data resource.
This parameter is only supported for the POST and PUT methods. It is also only supported if the target resource is a data resource, and that data represents a YANG list or leaf-list that is ordered by the user, not the system.
If the values "before" or "after" are used, then a "point" parameter for the insertion parameter MUST also be present.
syntax: insert= first | last | before | after
default: last
Example:
Request from client:
POST /yang-api/datastore/jukebox/library/artist/1/album
/Wasting%20Light/song?insert=first HTTP/1.1
Host: example.com
Content-Type: application/vnd.yang.data+json
{
"song" : {
"name" : "Bridge Burning",
"location" : "/media/bridge_burning.mp3",
"format" : "MP3",
"length" : 286
}
}
Response from server: 201 status
HTTP/1.1 201 Created
Date: Mon, 23 Apr 2012 13:01:20 GMT
Server: example-server
Last-Modified: Mon, 23 Apr 2012 13:01:20 GMT
Location: http://example.com/yang-api/datastore/jukebox
/library/artist/1/album?Wasting%20Light/song/1
ETag: eeeada438af
The "point" parameter is used to specify the insertion point for a data resource that is being created or moved within a user ordered list or leaf-list. It is ignored unless the "insert" query parameter is also present, and has the value "before" or "after".
This parameter contains the instance identifier of the resource, or field within a resource, to be used as the insertion point for a POST or PUT operation. It is encoded according to the rules defined in Section 5.3.1. There is no default for this parameter.
syntax: point= <instance-identifier of insertion point node>
Example:
In this example, the client is moving an existing "song" resource within an "album" resource after another song. The request URI is split for display purposes only.
Request from client:
PUT /yang-api/datastore/jukebox/library/artist/1/album/
Wasting%20Light/song/2?insert=after
&point=/yang-api/datastore/jukebox/library/artist/1/
album/Wasting%20Light/song/4 HTTP/1.1
Host: example.com
Response from server:
HTTP/1.1 204 No Content
Date: Mon, 23 Apr 2012 13:01:20 GMT
Server: example-server
Last-Modified: Mon, 23 Apr 2012 13:01:20 GMT
ETag: abcada438af
The "select" query parameter is used to specify an expression which can represent a subset of all data nodes within the target resource. It contains a relative path expression, using the target resource as the context node.
It is supported for all resource types except operation resources. The contents are encoded according to the "api‑select" rule defined in Section 5.3.1. This parameter is only allowed for GET and HEAD operations.
[FIXME: the syntax of the select string is still TBD; XPath, schema-identifier, regular expressions, something else]
Refer to Section 1.4.2 for example request messages using the "select" parameter.
The YANG-API also allows data-model specific protocol operations to be invoked using the POST method. The media type "vnd.yang.operation+xml" or "vnd.yang.operation+json" MUST be used in the "Content‑Type" field in the message header.
Data model specific operations are supported. The syntax and semantics of these operations exactly correspond to the YANG "rpc" statement definition for the operation.
Any input for a protocol operation is encoded in an element called "input", which corresponds to the <input> element in a NETCONF message. The child nodes of the "input" element are encoded according to the data definition statements in the input section of the "rpc" statement.
Any output for a protocol operation is encoded in an element called "output", which corresponds to the <rpc‑reply> element in a NETCONF message. The child nodes of the "output" element are encoded according to the data definition statements in the output section of the "rpc" statement.
This section describes the messages that are used in the YANG-API protocol.
Resources are represented with URIs following the structure for generic URIs in [RFC3986].
A YANG-API operation is derived from the HTTP method and the request URI, using the following conceptual fields:
<OP> /yang-api/<path>?<query>#<fragment>
^ ^ ^ ^ ^
| | | | |
method entry resource query fragment
M M O O I
M=mandatory, O=optional, I=ignored
<text> replaced by client with real values
The client SHOULD NOT assume the final structure of a URI path for a resource. Instead, existing resources can be discovered with the GET operation. When new resources are created by the client, a "Location" header is returned, which identifies the path of the newly created resource. The client MUST use this exact path identifier to access the resource once it has been created.
The "target" of an operation is a resource. The "path" field in the request URI represents the target resource for the operation.
There are several HTTP header lines utilized in YANG-API messages. Messages are not limited to the HTTP headers listed in this section.
HTTP defines which header lines are required for particular circumstances. Refer to each operation definition section in Section 3 for examples on how particular headers are used.
There are some request headers that are used within YANG-API, usually applied to data resources. The following tables summarize the headers most relevant in YANG-API message requests:
| Name | Description |
|---|---|
| Accept | Response Content-Types that are acceptable |
| Content-Type | The media type of the request body |
| Host | The host address of the server |
| If-Match | Only perform the action if the entity matches ETag |
| If-Modified-Since | Only perform the action if modified since time |
| If-Range | Only retrieve range if resource unchanged |
| If-Unmodified-Since | Only perform the action if un-modified since time |
| Range | Specify a range of data resource entries |
The following tables summarize the headers most relevant in YANG-API message responses:
| Name | Description |
|---|---|
| Allow | Valid actions when 405 error returned |
| Content-Type | The media type of the response body |
| Date | The date and time the message was sent |
| ETag | An identifier for a specific version of a resource |
| Last-Modified | The last modified date and time of a resource |
| Location | The resource identifier for a newly created resource |
YANG-API messages are encoded in HTTP according to RFC 2616. The "utf‑8" character set is used for all messages. YANG-API message content is sent in the HTTP message body.
Content is encoded in either JSON or XML format.
XML encoding rules for data nodes are defined in [RFC6020]. The same encoding rules are used for all XML content. XML attributes are not used and will be ignored if present in an XML-encoded message.
JSON encoding rules are defined in [I-D.lhotka-netmod-json]. Special encoding rules are needed to handle multiple module namespaces and provide consistent data type processing.
Request input content encoding format is identified with the Content-Type header. This field MUST be present if message input is sent by the client.
Response output content encoding format is identified with the Accept header, the "format" query parameter, or if neither is specified, the request input encoding format is used. If there was no request input, then the default output encoding is JSON. File extensions encoded in the request are not used to identify format encoding.
Each message represents some sort of resource access. An HTTP "Status‑Line" header line is returned for each request. If a 4xx or 5xx range status code is returned in the Status-Line, then the error information will be returned in the response, according to the format defined in Section 6.1.
Since the datastore contents change at unpredictable times, responses from a YANG-API server generally SHOULD NOT be cached.
The server SHOULD include a "Cache‑Control" header in every response that specifies whether the response should be cached. A "Pragma" header specifying "no‑cache" MAY also be sent in case the "Cache‑Control" header is not supported.
Instead of using HTTP caching, the client SHOULD track the "ETag" and/or "Last‑Modified" headers returned by the server for the datastore resource (or data resource if the server supports it).
A retrieval request for a resource can include headers such as "If‑None‑Match" or "If‑Modified‑Since" which will cause the server to return a "304 Not Modified" Status-Line if the resource has not changed.
The client MAY use the HEAD operation to retrieve just the message headers, which SHOULD include the "ETag" and "Last‑Modified" headers, if this meta-data is maintained for the target resource.
The resources used in the YANG-API protocol are identified by the "path" component in the request URI. Each operation is performed on a target resource.
The API resource contains the state and access points for the YANG-API features.
It is the top-level resource and has the media type "application/vnd.yang.api+xml" or "application/vnd.yang.api+json". It is accessible through the well-known URI "/yang‑api".
This resource has the following fields:
| Field Name | Description |
|---|---|
| datastore | Link to "datastore" resource |
| modules | YANG module capability URIs |
| operations | Data-model specific operations |
This mandatory resource represents the running configuration datastore and any non-configuration data available. It may be retrieved and edited directly. It cannot be created or deleted by the client. This resource type is defined in Section 5.2.
This mandatory field contains the identifiers for the YANG data model modules supported by the server. There MUST be exactly one instance of this field.
The server MUST maintain a last-modified timestamp for this field, and return the "Last‑Modified" header when this field is retrieved with the GET or HEAD methods.
This optional field provides access to the data-model specific protocol operations supported by the server. The server MAY omit this field if no data-model specific operations are advertised.
Any data-model specific operations defined in the YANG modules advertised by the server SHOULD be available as child nodes of this field.
This mandatory field contains one URI string for each YANG data model module supported by the server. There MUST be an instance of this field for every YANG module that is accessible via an operation resource or a data resource.
The server MAY maintain a last-modified timestamp for each instance of this resource, and return the "Last‑Modified" header when this resource is retrieved with the GET or HEAD methods. If not supported then the timestamp for the parent "modules" field MUST NOT be used instead.
The contents of this field are encoded with the "uri" derived type from the "ietf‑iana‑types" modules in [RFC6021].
There are additional encoding requirements for this field. The URI MUST follow the YANG module capability URI formatting defined in section 5.6.4 of [RFC6020].
In this example the client is retrieving the modules field from the server in the default JSON format:
GET /yang-api?select=modules HTTP/1.1 Host: example.com Accept: application/vnd.yang.api+json
The server might respond as follows. Note that the content below is split across multiple lines for display purposes only:
HTTP/1.1 200 OK
Date: Mon, 23 Apr 2012 17:01:00 GMT
Server: example-server
Cache-Control: no-cache
Pragma: no-cache
Last-Modified: Sun, 22 Apr 2012 01:00:14 GMT
Content-Type: application/vnd.yang.api+json
{
"yang-api": {
"modules": {
"module": [
"example.com?module=foo&revision=2012-01-02",
"example.com?module=bar&revision=2011-10-10"
"example.com?module=itf&revision=2011-10-10
&feature=restore"
]
}
}
}
This mandatory field identifies the specific version of the YANG-API protocol implemented by the server.
The same server-wide response MUST be returned each time this field is retrieved. It is assigned by the server when the server is started. The server MUST return the value "1.0" for this version of the YANG-API protocol.
This field is encoded with the rules for an "enumeration" data type, using the following leaf definition:
leaf version {
config false;
type enum {
enum "1.0" {
description
"Version 1.0 of the YANG-API protocol.";
}
}
}
A datastore resource represents the conceptual root of a tree of data resources.
The server MUST maintain a last-modified timestamp for this resource, and return the "Last‑Modified" header when this resource is retrieved with the GET or HEAD methods. Only changes to configuration data resources within the datastore affect this timestamp.
The server SHOULD maintain a resource entity tag for this resource, and return the "ETag" header when this resource is retrieved with the GET or HEAD methods. The resource entity tag SHOULD be changed to a new previously unused value if changes to any configuration data resources within the datastore are made.
A datastore resource can be retrieved with the GET operation, to retrieve either configuration data resources or non-configuration data resources within the datastore. The "config" query parameter is used to choose between them. Refer to Section 3.8.1 for more details.
The depth of the subtrees returned in retrieval operations can be controlled with the "depth" query parameter. The number of nest levels, starting at the target resource, can be specified, or an unlimited number can be returned. Refer to Section 3.8.2 for more details.
A datastore resource cannot be written directly with any edit operation. Only the configuration data resources within the datastore resource can be edited.
A data resource represents a YANG data node that is a descendant node of a datastore resource.
For configuration data resources, the server MAY maintain a last-modified timestamp for the resource, and return the "Last‑Modified" header when it is retrieved with the GET or HEAD methods.
For configuration data resources, the server MAY maintain a resource entity tag for the resource, and return the "ETag" header when it is retrieved as the target resource with the GET or HEAD methods. The resource entity tag SHOULD be changed to a new previously unused value if changes to the resource or any configuration field within the resource is altered.
A data resource can be retrieved with the GET operation, to retrieve either configuration data resources or non-configuration data resources within the target resource. The "config" query parameter is used to choose between them. Refer to Section 3.8.1 for more details.
The depth of the subtrees returned in retrieval operations can be controlled with the "depth" query parameter. The number of nest levels, starting at the target resource, can be specified, or an unlimited number can be returned. Refer to Section 3.8.2 for more details.
A configuration data resource can be altered by the client with some of all of the edit operations, depending on the target resource and the specific operation. Refer to Section 3 for more details on edit operations.
In YANG, data nodes are named with an absolute XPath expression, from the document root to the target resource. In YANG-API, URL friendly path expressions are used instead.
The YANG "instance‑identifier" (i-i) data type is represented in YANG-API with the path expression format defined in this section.
| Name | Comments |
|---|---|
| point | Insertion point is always a full i-i |
| path | Request URI path is a full or partial i-i |
The "path" component of the request URI contains the absolute path expression that identifies the target resource. The "select" query parameter is used to optionally identify the requested data nodes within the target resource to be retrieved in a GET operation.
A predictable location for a data resource is important, since applications will code to the YANG data model module, which uses static naming and defines an absolute path location for all data nodes.
A YANG-API data resource identifier is not an XPath expression. It is encoded from left to right, starting with the top-level data node, according to the "api‑path" rule in Section 5.3.1.1. The node name of each ancestor of the target resource node is encoded in order, ending with the node name for the target resource.
If the "select" is present, it is encoded, starting with a child node of the target resource, according to the "api‑select" rule defined in Section 5.3.1.1.
If a data node in the path expression is a YANG list node, then the key values for the list (if any) are encoded according to the "key‑value" rule. If the list node is the target resource, then the key values MAY be omitted, according to the operation. For example, the POST operation to create a new data resource for a list node does not allow the key values to be present in the request URI.
The key leaf values for a data resource representing a YANG list MUST be encoded as follows:
Notifications are not supported by YANG-API because they are not supported by HTTP. YANG notification statements are ignored by a YANG-API server.
Examples:
/yang-api/datastore/jukebox/library/artist/17&select=name /yang-api/datastore/newlist/17&select=nextlist/22/44/myleaf /yang-api/datastore/somelist/fred%20and%20wilma /yang-api/datastore/somelist/fred%20and%20wilma/address
The following ABNF syntax is used to construct YANG-API path identifiers:
api-path = "/" api-identifier
0*("/" (api-identifier | key-value ))
[FIXME: the syntax for the select string is still TBD]
api-select = api-identifier
0*("/" (api-identifier | key-value ))
api-identifier = [module-name ":"] identifier
module-name = identifier
key-value = string
;; An identifier MUST NOT start with
;; (('X'|'x') ('M'|'m') ('L'|'l'))
identifier = (ALPHA / "_")
*(ALPHA / DIGIT / "_" / "-" / ".")
string = <an unquoted string>
The data resources used in YANG-API are defined with YANG data definition statements.
Not every data node defined in a YANG module should be treated as a resource. The YANG-API needs to know which YANG data nodes are resources, and which are fields within a resource.
For data resources, YANG-API uses a simple algorithm for defining resource boundaries, within the conceptual sub-trees described by YANG data definition statements.
All top-level data nodes are considered to be resources. For nodes within a top-level resource:
A non-configuration data node cannot be a separate resource from its parent. Only top-level data nodes are considered to be resources (which only support retrieval methods).
It is sometimes useful to have the server assign the key(s) for a new resource. The "Location" header will indicate the key value(s) that the server selected, so the client does not need to provide all the key leaf values.
It is useful to identify in the YANG data model module which key leafs are optional to provide, and which are not. The YANG extension statement "optional‑key" is provided to indicate that the leaf definition represents an optional key.
The client MAY provide a value for a key leaf in a POST operation. Refer to Section 8 for details on the "optional‑key" extension. Refer to Section 13 for usage examples of this YANG extension statement.
There are four types of filtering for retrieval of data resources. This section defines each mode.
The HTTP headers (such as "If‑Modified‑Since" and "If‑Match") can by used in for a request message for a GET operation to check a condition within the server state, such as the last time the datastore resource was modified, or the resource entity tag of the target resource.
If the condition is met according to the header definition, a "200 OK" Status-Line and the data requested is returned in the response message. If the condition is not met, a "304 Not Modified" Status-Line is returned in response message instead.
The "config" query parameter can be used with the GET operation to specify whether configuration or non-configuration data is requested. Refer to Section 3.8.1 for more details on the "config" query parameter.
The "Range" header is used to request a specific subset of the instances of a list or leaf-list data resource that are returned by the server for a retrieval operation. Normally, if the target resource in a request message does not specify an instance, then all instances are returned.
The YANG-API protocol uses the token "entries" instead of "bytes" as the range units.
The entries are numbered starting from "0". A list or leaf-list can change order between requests so the client needs to be aware of the data model semantics, and whether the list contents are stable enough to use the subset retrieval mechanism.
If the requested range cannot be returned because the range specification includes index values for entries that do not exist, then an error occurs, and the server MUST return a "416 Requested range not satisfiable" Status-Line.
If the range request can be satisfied, then a "200 OK" Status-Line is returned, and the response MUST include a "Content‑Range" header indicating which entries are returned. The response message body contains the data for the requested range of entries.
Example:
In this example, the client is requesting 5 "artist" resource entries, starting with the 10th entry:
Request from client:
GET /yang-api/datastore/jukebox/library/artist HTTP/1.1
Host: example.com
Accept: application/vnd.yang.data+json
Range: entries 10-14
Response from server:
HTTP/1.1 200 OK
Date: Mon, 23 Apr 2012 13:01:20 GMT
Cache-Control: no-cache
Pragma: no-cache
Content-Type: application/vnd.yang.data+json
Content-Range: entries 10-14
Server: example-server
Last-Modified: Mon, 23 Apr 2012 02:12:20 GMT
ETag: abcada438af
{
"artist" : {
// content removed for brevity
}
}
The "select" query parameter is used to specify a filter that should be applied to the target resource to request a subset of all possible descendant nodes within the target resource.
The format of the "select" parameter string is defined in Section 3.8.6. The set of nodes selected by the filter expression is applied to each context node identified by the target resource.
An operation resource represents an protocol operation defined with the YANG "rpc" statement.
All operation resources share the same module namespace as any top-level data resources, so the name of an operation resource cannot conflict with the name of a top-level data resource defined within the same module.
If 2 different YANG modules define the same "rpc" identifier, then the module name MUST be used in the request URI. For example, if "module‑A" and "module‑B" both defined a "reset" operation, then invoking the operation from "module‑A" would be requested as follows:
POST /yang-api/operations/module-A:reset HTTP/1.1 Server example.com
Any usage of an operation resource from the same module, with the same name, refers to the same "rpc" statement definition. This behavior can be used to design protocol operations that perform the same general function on different resource types.
If the "rpc" statement has an "input" section, then a message body MAY be sent by the client in the request, otherwise the request message MUST NOT include a message body. If the "rpc" statement has an "output" section, then a message body MAY be sent by the server in the response. Otherwise the server MUST NOT include a message body in the response message, and MUST send a "204 No Content" Status-Line instead.
If the "rpc" statement has an "input" section, then the "input" node is provided in the message body, corresponding to the YANG data definition statements within the "input" section.
Example:
The following YANG definition is used for the examples in this section.
rpc reboot {
input {
leaf delay {
units seconds;
type uint32;
default 0;
}
leaf message { type string; }
leaf language { type string; }
}
}
The client might send the following POST request message:
POST /yang-api/datastore/operations/reboot HTTP/1.1
Host: example.com
Content-Type: application/vnd.yang.data+json
{
"input" : {
"delay" : 600,
"message" : "Going down for system maintenance",
"language" : "en-US"
}
}
The server might respond:
HTTP/1.1 204 No Content Date: Mon, 25 Apr 2012 11:01:00 GMT Server: example-server
If the "rpc" statement has an "output" section, then the "output" node is provided in the message body, corresponding to the YANG data definition statements within the "output" section.
Example:
The following YANG definition is used for the examples in this section.
rpc get-reboot-info {
input {
leaf reboot-time {
units seconds;
type uint32;
}
leaf message { type string; }
leaf language { type string; }
}
}
The client might send the following POST request message:
POST /yang-api/datastore/operations/get-reboot-info HTTP/1.1 Host: example.com
The server might respond:
HTTP/1.1 200 OK
Date: Mon, 25 Apr 2012 11:10:30 GMT
Server: example-server
Content-Type: application/vnd.yang.data+json
{
"output" : {
"reboot-time" : 30,
"message" : "Going down for system maintenance",
"language" : "en-US"
}
}
The operation resources used in YANG-API are defined with YANG "rpc" statements. All "rpc" statements within a YANG module that are supported by the server are available as operation resources.
HTTP Status-Lines are used to report success or failure for YANG-API operations. The <rpc‑error> element returned in NETCONF error responses contains some useful information. This error information is adapted for use in YANG-API, and error information is returned for "4xx" class of status codes.
The following table summarizes the return status codes used specifically by YANG-API operations:
| Status-Line | Description |
|---|---|
| 100 Continue | POST accepted, 201 should follow |
| 200 OK | Success with response body |
| 201 Created | POST to create a resource success |
| 202 Accepted | POST to create a resource accepted |
| 204 No Content | Success without response body |
| 304 Not Modified | Conditional operation not done |
| 400 Bad Request | Invalid request message |
| 403 Forbidden | Access to resource denied |
| 404 Not Found | Resource target or resource node not found |
| 405 Method Not Allowed | Method not allowed for target resource |
| 409 Conflict | Resource or lock in use |
| 413 Request Entity Too Large | too-big error |
| 414 Request-URI Too Large | too-big error |
| 415 Unsupported Media Type | non YANG-API media type |
| 416 Requested range not satisfiable | If-Range error |
| 500 Internal Server Error | operation-failed |
| 501 Not Implemented | unknown-operation |
| 503 Service Unavailable | Recoverable server error |
Since an operation resource is defined with a YANG "rpc" statement, a mapping between the NETCONF <error‑tag> value and the HTTP status code is needed. The specific error condition and response code to use are data-model specific and might be contained in the YANG "description" statement for the "rpc" statement.
| <error‑tag> | status code |
|---|---|
| in-use | 409 |
| invalid-value | 400 |
| too-big | 413 |
| missing-attribute | 400 |
| bad-attribute | 400 |
| unknown-attribute | 400 |
| bad-element | 400 |
| unknown-element | 400 |
| unknown-namespace | 400 |
| access-denied | 403 |
| lock-denied | 409 |
| resource-denied | 409 |
| rollback-failed | 500 |
| data-exists | 409 |
| data-missing | 409 |
| operation-not-supported | 501 |
| operation-failed | 500 |
| partial-operation | 500 |
| malformed-message | 400 |
When an error occurs for a request message on a data resource or an operation resource, and a "4xx" class of status codes (except for status code "403"), then the server SHOULD send a response body containing the information described by the following YANG data definition statement:
container errors {
config false;
list error {
reference "RFC 6241, Section 4.3";
leaf error-type {
mandatory true;
type enumeration {
enum transport;
enum rpc;
enum protocol;
enum application;
}
}
leaf error-tag {
mandatory true;
type string;
}
leaf error-app-tag {
type string;
}
leaf error-path {
type string; // YANG-API encoded instance-identifier
}
leaf error-message {
type string;
}
container error-info {
// anyxml content here
}
}
}
Example:
The following example shows an error returned for an "lock‑denied" error on a datastore resource.
POST /yang-api/operations/lock-datastore HTTP/1.1 Host: example.com
The server might respond:
HTTP/1.1 409 Conflict
Date: Mon, 23 Apr 2012 17:11:00 GMT
Server: example-server
Content-Type: application/vnd.yang.api+json
{
"errors": {
"error": {
"error-type": "protocol",
"error-tag": "lock-denied",
"error-message": "Lock failed, lock is already held",
}
}
}
TBD
RFC Ed.: update the date below with the date of RFC publication and remove this note.
<CODE BEGINS> file "ietf-yang-api@2012-11-30.yang"
module ietf-yang-api {
namespace "urn:ietf:params:xml:ns:yang:ietf-yang-api";
prefix "api";
organization
"IETF NETCONF (Network Configuration) Working Group";
contact
"Editor: Andy Bierman
<mailto:andy@yumaworks.com>
Editor: Martin Bjorklund
<mailto:mbj@tail-f.com>";
description
"This module contains a collection of YANG language extensions
to describe REST API Resources using YANG data definition
statements.
Copyright (c) 2012 IETF Trust and the persons identified as
authors of the code. All rights reserved.
Redistribution and use in source and binary forms, with or
without modification, is permitted pursuant to, and subject
to the license terms contained in, the Simplified BSD License
set forth in Section 4.c of the IETF Trust's Legal Provisions
Relating to IETF Documents
(http://trustee.ietf.org/license-info).
This version of this YANG module is part of RFC XXXX; see
the RFC itself for full legal notices.";
// RFC Ed.: replace XXXX with actual RFC number and remove this
// note.
// RFC Ed.: remove this note
// Note: extracted from draft-bierman-netconf-yang-api-01.txt
// RFC Ed.: update the date below with the date of RFC publication
// and remove this note.
revision 2012-11-30 {
description
"Initial revision.";
reference
"RFC XXXX: YANG-API Protocol.";
}
/*
* Extensions
*/
extension optional-key {
description
"This extension is used to allow the client to create
a new instance of a resource without providing a
value for the key leaf containing this statement.
This extension is ignored for NETCONF, and only
applies to YANG-API resources and fields.
This extension is ignored unless it appears
directly within a 'leaf' data definition statement.";
}
}
<CODE ENDS>
This document registers one URI in the IETF XML registry [RFC3688]. Following the format in RFC 3688, the following registration is requested to be made.
URI: urn:ietf:params:xml:ns:yang:ietf-yang-api
Registrant Contact: The NETMOD WG of the IETF.
XML: N/A, the requested URI is an XML namespace.
This document registers one YANG module in the YANG Module Names registry [RFC6020].
name: ietf-yang-api namespace: urn:ietf:params:xml:ns:yang:ietf-yang-api prefix: api reference: RFC XXXX
TBD
-- RFC Ed.: remove this section before publication.
module example-jukebox {
namespace "http://example.com/ns/example-jukebox";
prefix "jbox";
import ietf-yang-api { prefix api; }
organization "Example, Inc.";
description "Example Jukebox Data Model Module";
revision "2012-05-30";
identity genre {
description "Base for all genre types";
}
// abbreviated list of genre classifications
identity Alternative {
base genre;
}
identity Blues {
base genre;
}
identity Country {
base genre;
}
identity Jazz {
base genre;
}
identity Pop {
base genre;
}
identity Rock {
base genre;
}
container jukebox {
presence
"An empty container indicates that the jukebox
service is available";
container library {
list artist {
key index;
unique name;
leaf index {
api:optional-key;
type uint32;
description
"Optional key used instead of natural key for
example. Also rare but possible artists with
the same name are really different entities.";
}
leaf name {
type string;
}
list album {
key name;
leaf name {
type string {
length "1 .. max";
}
}
leaf genre {
type identityref { base genre; }
}
leaf year {
type uint16 {
range "1900 .. max";
}
}
list song {
api:optional-key;
key index;
ordered-by user;
leaf index {
type uint32;
}
leaf name {
mandatory true;
type string;
}
leaf location {
mandatory true;
type string;
}
leaf format {
type string;
}
leaf length {
units "seconds";
type uint32;
}
}
}
}
leaf artist-count {
config false;
type uint32;
units "songs";
description "Number of artists in the library";
}
leaf album-count {
config false;
type uint32;
units "albums";
description "Number of albums in the library";
}
leaf song-count {
type uint32;
units "songs";
description "Number of songs in the library";
}
}
list playlist {
description
"Example configuration data resource";
key name;
leaf name {
type string;
}
leaf description {
type string;
}
list song {
description
"Example nested configuration data resource";
ordered-by user;
key index;
leaf index {
api:optional-key;
type uint32;
}
leaf id {
mandatory true;
type instance-identifier;
description
"Song identifier. Must identify an instance of
/jukebox/library/artist/album/song.
The id is not the key to allow duplicates
in a playlist";
}
}
}
container player {
leaf gap {
description "Time gap between each song";
units "tenths of seconds";
type decimal64 {
fraction-digits 1;
range "0.0 .. 2.0";
}
}
}
}
rpc play {
description "Control function for the jukebox player";
input {
leaf playlist {
type string;
mandatory true;
description "playlist name";
}
leaf song-number {
type uint32;
mandatory true;
description "Song number in playlist to play";
}
}
}
}