Send queries using REST API

Overview

Teradata Query Service is a REST API for Vantage that you can use to run standard SQL statements without managing client-side drivers. Use Query Service if you are looking to query and access the Analytics Database through a REST API.

This how-to provides examples of common use cases to help you get started with Query Service API.

Prerequisites

Before starting, make sure you have:

Access to a VantageCloud system where Query Service is provisioned, or a VantageCore with Query Service enabled connectivity. If you are an admin and need to install Query Service, see Query Service Installation, Configuration, and Usage Guide.

If you need a test instance of Vantage, you can provision one for free at https://clearscape.teradata.com.
Query Service hostname and system name
Authorization credentials to connect to the database

Having trouble with the prerequisites? Contact Teradata for setup information.

Query Service API examples

When using the examples, please keep in mind that:

The examples in this document use Python, and you can use these to create examples in your language of choice.
The examples provided here are complete and ready for you to use, although most require a little customization.
- The examples in this document use the URL https://<QS_HOSTNAME>:1443/.
- Replace the following variables with your own value:
  - <QS_HOSTNAME>: Server where Query Service is installed
  - <SYSTEM_NAME>: Preconfigured alias of the system
    
    If your Vantage instance is provided through ClearScape Analytics Experience,<QS_HOSTNAME>, is the host URL of your ClearScape Analytics Experience environment, <SYSTEM_NAME> is 'local'.

Connect to your Query Service instance

Provide valid credentials to access the target Analytics Database using HTTP Basic or JWT authentication.

HTTP Basic authentication

The database username and password are combined into a string ("username : password") which is then encoded using Base64. The API response contains the authorization method and encoded credentials.

Request

import requests
import json
import base64
requests.packages.urllib3.disable_warnings()

# run it from local.

db_user, db_password = 'dbc','dbc'
auth_encoded = db_user + ':' + db_password
auth_encoded = base64.b64encode(bytes(auth_encoded, 'utf-8'))
auth_str = 'Basic ' + auth_encoded.decode('utf-8')

print(auth_str)

headers = {
  'Content-Type': 'application/json',
  'Authorization': auth_str # base 64 encoded username:password
}

print(headers)

Response

Basic ZGJjOmRiYw==
{
  'Content-Type': 'application/json',
  'Authorization': 'Basic ZGJjOmRiYw=='
}

JWT authentication

Prerequisites:

The user must already exist in the database.
The database must be JWT enabled.

Request

import requests
import json
requests.packages.urllib3.disable_warnings()

# run it from local.

auth_encoded_jwt = "<YOUR_JWT_HERE>"
auth_str = "Bearer " + auth_encoded_jwt

headers = {
  'Content-Type': 'application/json',
  'Authorization': auth_str
}

print(headers)

Response

{'Content-Type': 'application/json', 'Authorization': 'Bearer <YOUR_JWT_HERE>'}

Make a simple API request with basic options

In the following example, the request includes:

SELECT * FROM DBC.DBCInfo: The query to the system with the alias <SYSTEM_NAME>.
'format': 'OBJECT': The format for response. The formats supported are: JSON object, JSON array, and CSV.

The JSON object format creates one JSON object per row where the column name is the field name, and the column value is the field value.
'includeColumns': true: The request to include column metadata, such as column names and types, in the response.
'rowLimit': 4: The number of rows to be returned from a query.

Request

url = 'https://<QS_HOSTNAME>:1443/systems/<SYSTEM_NAME>/queries'

payload = {
  'query': example_query, # 'SELECT * FROM DBC.DBCInfo;',
  'format': 'OBJECT',
  'includeColumns': True,
  'rowLimit': 4
}

payload_json = json.dumps(payload)

response = requests.request('POST', url, headers=headers, data=payload_json, verify=False)

num_rows = response.json().get('results')[0].get('rowCount')
print('NUMBER of ROWS', num_rows)
print('==========================================================')

print(response.json())

Response

NUMBER of ROWS 4
==========================================================
{
  "queueDuration":7,
  "queryDuration":227,
  "results":[
    {
      "resultSet":True,
      "columns":[
        {
          "name":"DatabaseName",
          "type":"CHAR"
        },
        {
          "name":"USEDSPACE_IN_GB",
          "type":"FLOAT"
        },
        {
          "name":"MAXSPACE_IN_GB",
          "type":"FLOAT"
        },
        {
          "name":"Percentage_Used",
          "type":"FLOAT"
        },
        {
          "name":"REMAININGSPACE_IN_GB",
          "type":"FLOAT"
        }
      ],
      "data":[
        {
          "DatabaseName":"DBC",
          "USEDSPACE_IN_GB":317.76382541656494,
          "MAXSPACE_IN_GB":1510.521079641879,
          "Percentage_Used":21.03670247964377,
          "REMAININGSPACE_IN_GB":1192.757254225314
        },
        {
          "DatabaseName":"EM",
          "USEDSPACE_IN_GB":0.0007491111755371094,
          "MAXSPACE_IN_GB":11.546071618795395,
          "Percentage_Used":0.006488017745513208,
          "REMAININGSPACE_IN_GB":11.545322507619858
        },
        {
          "DatabaseName":"user10",
          "USEDSPACE_IN_GB":0.019153594970703125,
          "MAXSPACE_IN_GB":9.313225746154785,
          "Percentage_Used":0.20566016,
          "REMAININGSPACE_IN_GB":9.294072151184082
        },
        {
          "DatabaseName":"EMEM",
          "USEDSPACE_IN_GB":0.006140708923339844,
          "MAXSPACE_IN_GB":4.656612873077393,
          "Percentage_Used":0.13187072,
          "REMAININGSPACE_IN_GB":4.650472164154053
        },
        {
          "DatabaseName":"EMWork",
          "USEDSPACE_IN_GB":0.0,
          "MAXSPACE_IN_GB":4.656612873077393,
          "Percentage_Used":0.0,
          "REMAININGSPACE_IN_GB":4.656612873077393
        }
      ],
      "rowCount":4,
      "rowLimitExceeded":True
    }
  ]
}

For response parameters, see Query Service Installation, Configuration, and Usage Guide.

Request a response in CSV format

To return an API response in CSV format, set the format field in the request with the value CSV.

The CSV format contains only the query results and not response metadata. The response contains a line for each row, where each line contains the row columns separated by a comma. The following example returns the data as comma-separated values.

Request

# CSV with all rows included

url = 'https://<QS_HOSTNAME>:1443/systems/<SYSTEM_NAME>/queries'

payload = {
  'query': example_query, # 'SELECT * FROM DBC.DBCInfo;',
  'format': 'CSV',
  'includeColumns': True
}

payload_json = json.dumps(payload)

response = requests.request('POST', url, headers=headers, data=payload_json, verify=False)

print(response.text)

Response

DatabaseName,USEDSPACE_IN_GB,MAXSPACE_IN_GB,Percentage_Used,REMAININGSPACE_IN_GB
DBC                           ,317.7634754180908,1510.521079641879,21.036679308932754,1192.7576042237881
EM                            ,7.491111755371094E-4,11.546071618795395,0.006488017745513208,11.545322507619858
user10                        ,0.019153594970703125,9.313225746154785,0.20566016,9.294072151184082
EMEM                          ,0.006140708923339844,4.656612873077393,0.13187072,4.650472164154053
EMWork                        ,0.0,4.656612873077393,0.0,4.656612873077393
EMJI                          ,0.0,2.3283064365386963,0.0,2.3283064365386963
USER_NAME                     ,0.0,2.0,0.0,2.0
readonly                      ,0.0,0.9313225746154785,0.0,0.9313225746154785
aug12_db                      ,7.200241088867188E-5,0.9313225746154785,0.0077312,0.9312505722045898
SystemFe                      ,1.8024444580078125E-4,0.7450580596923828,0.024192,0.744877815246582
dbcmngr                       ,3.814697265625E-6,0.09313225746154785,0.004096,0.09312844276428223
EMViews                       ,0.027594566345214844,0.09313225746154785,29.62944,0.06553769111633301
tdwm                          ,6.732940673828125E-4,0.09313225746154785,0.722944,0.09245896339416504
Crashdumps                    ,0.0,0.06984921544790268,0.0,0.06984921544790268
SYSLIB                        ,0.006252288818359375,0.03725290298461914,16.78336,0.031000614166259766
SYSBAR                        ,4.76837158203125E-6,0.03725290298461914,0.0128,0.03724813461303711
SYSUDTLIB                     ,3.5381317138671875E-4,0.029802322387695312,1.1872,0.029448509216308594
External_AP                   ,0.0,0.01862645149230957,0.0,0.01862645149230957
SysAdmin                      ,0.002307891845703125,0.01862645149230957,12.3904,0.016318559646606445
KZXaDtQp                      ,0.0,0.009313225746154785,0.0,0.009313225746154785
s476QJ6O                      ,0.0,0.009313225746154785,0.0,0.009313225746154785
hTzz03i7                      ,0.0,0.009313225746154785,0.0,0.009313225746154785
Y5WYUUXj                      ,0.0,0.009313225746154785,0.0,0.009313225746154785

Use explicit session to submit a query

Use explicit sessions when a transaction needs to span multiple requests or when using volatile tables. These sessions are only reused if you reference the sessions in a query request. The request is queued if a request references an explicit session already in use.

Create a session

Send a POST request to the /system/<SYSTEM_NAME>/sessions endpoint. The request creates a new database session and returns the session details as the response.

In the following example, the request includes 'auto_commit': True - the request to commit the query upon completion.

Request

# first create a session
url = 'https://<QS_HOSTNAME>:1443/systems/<SYSTEM_NAME>/sessions'

payload = {
  'auto_commit': True
}

payload_json = json.dumps(payload)

response = requests.request('POST', url, headers=headers, data=payload_json, verify=False)

print(response.text)

Response

{
  'sessionId': 1366010,
  'system': 'testsystem',
  'user': 'dbc',
  'tdSessionNo': 1626922,
  'createMode': 'EXPLICIT',
  'state': 'LOGGINGON',
  'autoCommit': true
}

Use the session created in Step 1 to submit queries

Send a POST request to the /system/<SYSTEM_NAME>/queries endpoint.

The request submits queries to the target system and returns the release and version number of the target system.

In the following example, the request includes:

SELECT * FROM DBC.DBCInfo: The query to the system with the alias <SYSTEM_NAME>.
'format': 'OBJECT': The format for response.
'Session' : <Session ID>: The session ID returned in Step 1 to create an explicit session.

Request

# use this session to submit queries afterwards

url = 'https://<QS_HOSTNAME>:1443/systems/<SYSTEM_NAME>/queries'

payload = {
  'query': 'SELECT * FROM DBC.DBCInfo;',
  'format': 'OBJECT',
  'session': 1366010 # <-- sessionId
}
payload_json = json.dumps(payload)

response = requests.request('POST', url, headers=headers, data=payload_json, verify=False)

print(response.text)

Response

{
  "queueDuration":6,
  "queryDuration":41,
  "results":[
    {
      "resultSet":true,
      "data":[
        {
          "InfoKey":"LANGUAGE SUPPORT MODE",
          "InfoData":"Standard"
        },
        {
          "InfoKey":"RELEASE",
          "InfoData":"15.10.07.02"
        },
        {
          "InfoKey":"VERSION",
          "InfoData":"15.10.07.02"
        }
      ],
      "rowCount":3,
      "rowLimitExceeded":false
    }
  ]
}

Use asynchronous queries

Use asynchronous queries when a system or network performance is affected by querying a large group of data or long running queries.

Submit asynchronous queries to the target system and retrieve a Query ID

Send a POST request to the /system/<SYSTEM_NAME>/queries endpoint.

In the following example, the request includes:
- SELECT * FROM DBC.DBCInfo: The query to the system with the alias <SYSTEM_NAME>.
- 'format': 'OBJECT': The format for response.
- 'spooled_result_set': True: The indication that the request is asynchronous.
Request

## Run async query . url = 'https://<QS_HOSTNAME>:1443/systems/<SYSTEM_NAME>/queries' payload = { 'query': 'SELECT * FROM DBC.DBCInfo;', 'format': 'OBJECT', 'spooled_result_set': True } payload_json = json.dumps(payload) response = requests.request('POST', url, headers=headers, data=payload_json, verify=False) print(response.text)
Response

{"id":1366025}

Get query details using the ID retrieved from Step 1

Send a GET request to the /system/<SYSTEM_NAME>/queries/<queryID> endpoint, replacing <queryID> with the ID retrieved from Step 1.

The request returns the details of the specific query, including queryState, queueOrder, queueDuration, and so on. For a complete list of the response fields and their descriptions, see Query Service Installation, Configuration, and Usage Guide.

Request

## response for async query .

url = 'https://<QS_HOSTNAME>:1443/systems/<SYSTEM_NAME>/queries/1366025'

payload_json = json.dumps(payload)
response = requests.request('GET', url, headers=headers, verify=False)

print(response.text)

Response

{
  "queryId":1366025,
  "query":"SELECT * FROM DBC.DBCInfo;",
  "batch":false,
  "system":"testsystem",
  "user":"dbc",
  "session":1366015,
  "queryState":"RESULT_SET_READY",
  "queueOrder":0,
  "queueDuration":6,
  "queryDuration":9,
  "statusCode":200,
  "resultSets":{

  },
  "counts":{

  },
  "exceptions":{

  },
  "outParams":{

  }
}

View resultset for asynchronous query

Send a GET request to the /system/<SYSTEM_NAME>/queries/<queryID>/results endpoint, replacing <queryID> with the ID retrieved from Step 1. The request returns an array of the result sets and update counts produced by the submitted query.

Request

url = 'https://<QS_HOSTNAME>:1443/systems/<SYSTEM_NAME>/queries/1366025/results'

payload_json = json.dumps(payload)
response = requests.request('GET', url, headers=headers, verify=False)

print(response.text)

Response

{
  "queueDuration":6,
  "queryDuration":9,
  "results":[
    {
      "resultSet":true,
      "data":[
        {
          "InfoKey":"LANGUAGE SUPPORT MODE",
          "InfoData":"Standard"
        },
        {
          "InfoKey":"RELEASE",
          "InfoData":"15.10.07.02"
        },
        {
          "InfoKey":"VERSION",
          "InfoData":"15.10.07.02"
        }
      ],
      "rowCount":3,
      "rowLimitExceeded":false
    }
  ]
}

Get a list of active or queued queries

Send a GET request to the /system/<SYSTEM_NAME>/queries endpoint. The request returns the IDs of active queries.

Request

url = 'https://<QS_HOSTNAME>:1443/systems/<SYSTEM_NAME>/queries'

payload={}

response = requests.request('GET', url, headers=headers, data=payload, verify=False)

print(response.json())

Response

[
  {
    "queryId": 12516087,
    "query": "SELECt * from dbcmgr.AlertRequest;",
    "batch": false,
    "system": "BasicTestSys",
    "user": "dbc",
    "session": 12516011,
    "queryState": "REST_SET_READY",
    "queueOrder": 0,
    "queueDurayion": 3,
    "queryDuration": 3,
    "statusCode": 200,
    "resultSets": {},
    "counts": {},
    "exceptions": {},
    "outparams": {}
  },
  {
    "queryId": 12516088,
    "query": "SELECt * from dbc.DBQLAmpDataTbl;",
    "batch": false,
    "system": "BasicTestSys",
    "user": "dbc",
    "session": 12516011,
    "queryState": "REST_SET_READY",
    "queueOrder": 0,
    "queueDurayion": 3,
    "queryDuration": 3,
    "statusCode": 200,
    "resultSets": {},
    "counts": {},
    "exceptions": {},
    "outparams": {}
  }
]

Resources

Features, examples, and references: Query Service Installation, Configuration, and Usage Guide
Query Service API OpenAPI Specification

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