TigerGraph's REST API endpoints exist on the REST++ and the GSQL server. REST++ (or RESTPP) is the TigerGraph customized REST server. Our API accepts URL-encoded query string parameters, JSON-encoded request bodies and returns JSON encoded responses. This user guide provides information on how to engage with our REST APIs: the introduction section explains how to send requests, pass parameters, and format request bodies, while the subsequent sections describe in detail each endpoint and its input and output.
To submit a request, send an HTTP request to the REST++ server or the GSQL server. By default, the REST++ server listens for requests at port 9000 and the GSQL server listens on port 14240. A request needs to specify five things:
The request method (GET
, POST
, PUT
, or DELETE
)
The endpoint address
Any required or optional request parameters in URL encoding
For POST
requests, a data payload (i.e., request body) in JSON encoding unless otherwise specified
In some cases, request header parameters
For requests that are sent to the GSQL server, the sender needs to provide TigerGraph user credentials for the request to be accepted. If authentication is enabled on the RESTPP server, a request token needs to be included in the request header as well.
In a test or development environment, the requester may be on the same server as REST++. In this case, the server IP is localhost.
TigerGraph's API endpoints accept parameters in URL encoding, which is straightforward in the case of string, number, and boolean values. However, some parameters are more complex and require specific formatting. The list below describes how to format the complex type parameter values when executing a query.
POST
requestsInput data for POST
requests should be in JSON format, unless the endpoint specifically accepts data in other formats. There are two ways to supply the data: inline or in a separate file.
The data should be formatted as a single string without linebreaks. If using curl, use the -d
option, followed by the JSON string.
The following example uses the POST /graph
endpoint to insert one User type vertex whose ID is "id6
" into the graph called "socialNet"
.
Often it will be more convenient for the input data to be in a separate file, especially if the data is large.
For curl, use --data-binary <path_to_file>
as in the example below:
Data of primitive types, including INT, UINT, FLOAT, DOUBLE, STRING, BOOL
, and DATETIME
, as well as arrays and objects, follow the standard JSON Data Interchange Syntax. This subsection describes how to format complex data types.
If a vertex has a composite key composed of N attributes, then N values must be provided for the "id"
. The values can be presented either as a JSON object with N key-value pairs, or as a JSON array with a list of N values in the same order as defined in the schema.
The example below shows the two methods for a vertex v
having a composite primary key composed of the three attributes id
, name
, and label.
SET
or BAG
of Vertices To describe a SET
or BAG
of vertices in JSON, use a JSON array with vertex objects nested in the SET
or BAG
array.
All TigerGraph REST responses are in JSON format. The output JSON object has four fields: "version"
, "error"
, "message"
, and "result"
.
"version"
- this field describes the version of the running TigerGraph instance.
"error"
- a boolean value to indicate if there is an error in processing the request. If there is an error, the "error"
field will be true
.
"message"
- the error message when there is an error. If a request is successful, the field will be an empty string or a brief message conveying the result of the request.
"results"
- this field contains the resulting data from the request. Details about the result of each built-in endpoint are described in the Built-in Endpoints section.
To make the JSON output more human-readable in the terminal, use the jq
command or Python json library built into most Linux installations:
By default, TigerGraph REST++ endpoints are public: anyone with access to the HTTP ports of the TigerGraph server can run your endpoints. When REST++ authentication is enabled, then a valid authorization token must be included in the header.
The REST++ server implements OAuth 2.0-style authorization as follows: Each user can create one or more secrets (unique pseudorandom strings). Each secret is associated with a particular user and the user's privileges for a particular graph. Anyone who has this secret can invoke a special REST endpoint to generate authorization tokens (other pseudorandom strings). An authorization token can then be used to perform TigerGraph database operations via other REST endpoints. Each token will expire after a certain period of time. The TigerGraph default lifetime for a token is 1 month.
Once REST++ authentication is enabled, a valid token should always be included in the HTTP header. If you are using curl to format and submit your REST++ requests, then use the following syntax:
Here is a sample request:
All requests made to the GSQL Server must be accompanied by your user credentials. You can use the curl -u
option to pass in the username and password of the TigerGraph user:
To keep your credentials more secure, one way to avoid having the user name and password on the command line is to instead use a .netrc file or a config file. If you are in interactive mode, you can also use the -u
option without specifying the password, and then curl will prompt for the password.
The maximum length for the request URL is 8K bytes, including the query string. Requests with a large parameter size should use a data payload file instead of inline data.
The maximum size for a request body, including the payload file, is set by the system parameter Nginx.ClientMaxBodySize
. The default value is 200 (in MB). To increase this limit, use the following gadmin
command:
The upper limit of this setting is 1024 MB. Raising the size limit for the data payload buffer reduces the memory available for other operations, so be cautious about increasing this limit.
By default, an HTTP request in the TigerGraph system times out after 16 seconds. to customize this timeout limit for a particular query instance, you can set the GSQL-TIMEOUT parameter in the request header. If you are using curl to submit your RESTPP request, the syntax would be the following:
You can specify the response size limit of an HTTP request with the following header:
If the response size is larger than the given limit, an error message will be returned instead of the actual query result:
curl
optionsRequest examples in this guide are made using curl
. Below is a list of curl
options used in our code examples:
-d <data>
Sends the specified data in a POST
request to the HTTP server in the same way that a browser does when a user has filled in an HTML form and presses the submit button. This will cause curl to pass the data to the server using the content-type application/x-www-form-urlencoded
.
If you start the data with the character @
, the rest should be a filepath from which to read the data. The command curl -d @foobar
will read data from a file named foobar
.
--data-binary <data>
Sends data with a POST
request exactly as specified with no extra processing.
--fail
Makes curl fail silently (no output at all) on server errors.
This is mostly done to enable scripts etc. to better deal with failed attempts. In normal cases when an HTTP server fails to deliver a document, it returns an HTML document stating so (which often also describes why and more). This flag will prevent curl from outputting that and return error 22.
-H <header>
Extra header to include in the request when sending HTTP to a server. You may specify any number of extra headers.
TigerGraph APIs use headers to specify size and time limits, as well as to provide RESTPP authentication tokens.
-s
Silent or quiet mode. Don't show a progress meter or error messages. It will still output the data you ask for, potentially even to the terminal/stdout unless you redirect it.
-u <user:password>
Submits the specified user name and password for server authentication.
-X <request_method>
Specifies a custom request method to use when communicating with the HTTP server. If this option is not used, curl will make a GET
request by default.
Parameter type
Description
Example
SET
or BAG
of primitives
Assign multiple values to the same parameter name.
A SET<INT>
parameter named p1
is assigned 3 integers:
p1=1&p1=5&p1=10
VERTEX
with a defined type
Use the primary key of the vertex.
A VERTEX<person>
parameter namedvp
is assigned a vertex whose ID is "person2"
:
vp=person2
VERTEX
without a defined type
Use <parameter_name>.<parameter_type>
to specify the type of the parameter, and also provide the primary key of the vertex.
A VERTEX
parameter named va
is assigned a person
type vertex whose ID is"person1"
va=person1&va.type=person
SET
or BAG
of vertices with a defined type
Same as a SET
or BAG
of primitives, where the value for each element is the primary key of the vertex.
A SET<VERTEX<person>>
parameter named vp
is assigned two vertices with IDs person3
and person4
:
vp=person3&vp=person4
SET
or BAG
of vertices without a defined type
The SET
or BAG
must be treated as an array, specifying the order of the elements with indices [0]
, [1]
, etc.
A SET<VERTEX>
parameter named vp
is assigned a person
type vertex with an ID of person1
and a post
type vertex with an ID of 11
:
vp[0]=person1&vp[0].type=person&vp[1]=11&vp[1].type=post
Data type
Description
Example
SET
, LIST
or BAG
of primitives
Use a JSON array of primitive values.
A set of primitive values:
[0.5, 0,6, 0.7]
VERTEX
Use a JSON object that has anid
field
whose value is the primary key of the
vertex and a"type"
field whose value
is the type of the vertex.
A person
vertex with an ID of "Tom"
:
{"id": "Tom", "type": "person"}
MAP
Use a JSON object that has two JSON
arrays with keys keyList
and
valueList
, each containing the
keys and the values of the map respectively.
The order of items in the valueList should correspond to the order of items in the keyList.
A map of nations and their capitals:
{
"keyList": ["England", "Germany"],
"valueList": ["London", "Berlin"]
}
User-Defined Type (UDT)
Use a JSON object that has two JSON
arrays with keys keyList
and
valueList
. The keyList
array contains the field names of the tuple, and the valueList
array contains the values of the fields.
The order of items in the valueList should correspond to the order of items in the keyList.
Tuple schema definition:
TYPEDEF TUPLE <name STRING, age INT> person
A person
tuple written in JSON:
{"keyList: ["name", "age"], "valueList": ["Sam", 24]}