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This is the official Cloudant library for Node.js.
The best way to use the Cloudant client is to begin with your own Node.js project, and define this work as your dependency. In other words, put me in your package.json dependencies. The npm
tool can do this for you, from the command line:
$ npm install --save cloudant
Notice that your package.json will now reflect this package. Everything is working if you can run this command with no errors:
$ node -e 'require("cloudant"); console.log("Cloudant works");'
Cloudant works
Now it's time to begin doing real work with Cloudant and Node.js.
Initialize your Cloudant connection by supplying your account and password, and supplying a callback function to run when everything is ready.
// Load the Cloudant library.
var Cloudant = require('cloudant');
var me = 'nodejs'; // Set this to your own account
var password = process.env.cloudant_password;
// Initialize the library with my account.
var cloudant = Cloudant({account:me, password:password});
cloudant.db.list(function(err, allDbs) {
console.log('All my databases: %s', allDbs.join(', '))
});
Possible output (depending on your databases, of course):
All my databases: example_db, jasons_stuff, scores
Upper-case Cloudant
is this package you load using require()
, while lower-case cloudant
represents an authenticated, confirmed connection to your Cloudant service.
If you omit the "password" field, you will get an "anonymous" connection: a client that sends no authentication information (no passwords, no cookies, etc.)
To use the example code as-is, you must first install the dotenv
package from npm, then create a .env
file with your Cloudant credentials. For example:
npm install dotenv # Install ./node_modules/dotenv
echo "/.env" >> .gitignore # Do not track .env in the revision history
echo "cloudant_username=myaccount" > .env # Replace myaccount with your account name
echo "cloudant_password='secret'" >> .env # Replace secret with your password
Here is simple but complete example of working with data:
require('dotenv').load();
// Load the Cloudant library.
var Cloudant = require('cloudant');
// Initialize Cloudant with settings from .env
var username = process.env.cloudant_username || "nodejs";
var password = process.env.cloudant_password;
var cloudant = Cloudant({account:username, password:password});
// Remove any existing database called "alice".
cloudant.db.destroy('alice', function(err) {
// Create a new "alice" database.
cloudant.db.create('alice', function() {
// Specify the database we are going to use (alice)...
var alice = cloudant.db.use('alice')
// ...and insert a document in it.
alice.insert({ crazy: true }, 'rabbit', function(err, body, header) {
if (err) {
return console.log('[alice.insert] ', err.message);
}
console.log('You have inserted the rabbit.');
console.log(body);
});
});
});
If you run this example, you will see:
You have inserted the rabbit.
{ ok: true,
id: 'rabbit',
rev: '1-6e4cb465d49c0368ac3946506d26335d' }
You can find a further CRUD example in the example directory of this project.
To use Cloudant, require('cloudant')
in your code. That will return the initialization function. Run that function, passing your account name and password, and an optional callback. (And see the security note about placing your password into your source code.
In general, the common style is that Cloudant
(upper-case) is the package you load; wheareas cloudant
(lower-case) is your connection to your database--the result of calling Cloudant()
:
var Cloudant = require('cloudant');
var cloudant = Cloudant({account:me, password:password});
If you would prefer, you can also initialize Cloudant with a URL:
var Cloudant = require('cloudant')
var cloudant = Cloudant("https://MYUSERNAME:MYPASSWORD@MYACCOUNT.cloudant.com");
Running on Bluemix? You can initialize Cloudant directly from the VCAP_SERVICES
environment variable:
var Cloudant = require('cloudant');
var cloudant = Cloudant({instanceName: 'foo', vcapServices: JSON.parse(process.env.VCAP_SERVICES)});
Note, if you only have a single Cloudant service then specifying the instanceName
isn't required.
You can optionally provide a callback to the Cloudant initialization function. This will make the library automatically "ping" Cloudant to confirm the connection and that your credentials work.
Here is a simple example of initializing asychronously, using its optional callback parameter:
var Cloudant = require('cloudant');
var me = 'nodejs'; // Replace with your account.
var password = process.env.cloudant_password;
Cloudant({account:me, password:password}, function(err, cloudant) {
if (err) {
return console.log('Failed to initialize Cloudant: ' + err.message);
}
var db = cloudant.db.use("animals");
db.get("dog", function(err, data) {
// The rest of your code goes here. For example:
console.log("Found dog:", data);
});
});
After initialization, in general, callback functions receive three arguments:
err
- the error, if anybody
- the http response body from Cloudant, if no error.header
- the http response header from Cloudant, if no errorThe ping()
function is the only exception to this rule. It does not return headers since a "ping" is made from multiple requests to gather various bits of information.
By default, when you connect to your cloudant account (i.e. "me.cloudant.com"), you authenticate as the account owner (i.e. "me"). However, you can use Cloudant with any username and password. Just provide an additional "username" option when you initialize Cloudant. This will connect to your account, but using the username as the authenticated user. (And of course, use the appropriate password.)
var Cloudant = require('cloudant');
var me = "nodejs"; // Substitute with your Cloudant user account.
var otherUsername = "jhs"; // Substitute with some other Cloudant user account.
var otherPassword = process.env.other_cloudant_password;
Cloudant({account:me, username:otherUsername, password:otherPassword}, function(er, cloudant, reply) {
if (er) {
throw er;
}
console.log('Connected with username: %s', reply.userCtx.name);
});
If you use Cloudant Local, everything works exactly the same, except you provide a url parameter to indicate which server to use:
Cloudant({url:"companycloudant.local", username:"somebody", password:"somebody's secret"}, function(er, cloudant, reply) {
if (er)
throw er
console.log('Connected with username: %s', reply.userCtx.name)
})
This library can be used with one of these request
plugins:
default
- the default request library plugin. This uses Node.js's callbacks to communicate Cloudant's replies
back to your app and can be used to stream data using the Node.js Stream API.promises
- if you'd prefer to write code in the Promises style then the "promises" plugin turns each request into a Promise. This plugin cannot be used to
stream data because instead of returning the HTTP request, we are simply returning a Promise instead.retry
- on occasion, Cloudant's multi-tenant offerring may reply with an HTTP 429 response because you've exceed the number of API requests in a given amount of time.
The "retry" plugin will automatically retry your request with exponential back-off. The 'retry' plugin can be used to stream data.cookieauth
- this plugin will automatically swap your Cloudant credentials for a cookie transparently for you. It will handle the authentication for you
and ensure that the cookie is refreshed. The 'cookieauth' plugin can be used to stream data.When initialising the Cloudant library, you can opt to use the 'promises' plugin:
var cloudant = Cloudant({url: myurl, plugin:'promises'});
var mydb = cloudant.db.use('mydb');
Then the library will return a Promise for every asynchronous call:
mydb.list().then(function(data) {
console.log(data);
}).catch(function(err) {
console.log('something went wrong', err);
});
When initialising the Cloudant library, you can opt to use the 'retry' plugin:
var cloudant = Cloudant({url: myurl, plugin:'retry'});
var mydb = cloudant.db.use('mydb');
Then use the Cloudant library normally. You may also opt to configure the retry parameters:
var cloudant = Cloudant({url: myurl, plugin:'retry', retryAttempts:5, retryTimeout:1000 });
var mydb = cloudant.db.use('mydb');
When initialising the Cloudant library, you can opt to use the 'cookieauth' plugin:
var cloudant = Cloudant({url: myurl, plugin:'cookieauth'});
var mydb = cloudant.db.use('mydb');
mydb.get('mydoc', function(err, data) {
});
The above code will transparently call POST /_session
to exchange your credentials for a cookie and then call GET /mydoc
to fetch the document.
Subsequent calls to the same cloudant
instance will simply use cookie authentication from that point. The library will automatically ensure that the cookie remains
up-to-date by calling Cloudant on an hourly basis to refresh the cookie.
When initialising the Cloudant library, you can supply your own plugin function:
var doNothingPlugin = function(opts, callback) {
// don't do anything, just pretend that everything's ok.
callback(null, { statusCode:200 }, { ok: true});
};
var cloudant = Cloudant({url: myurl, plugin: doNothingPlugin});
Whenever the Cloudant library wishes to make an outgoing HTTP request, it will call your function instead of request
.
Cloudant is a wrapper around the Nano library and as such, Nano's documentation should be consulted for:
This library adds documentation for the following:
This feature interfaces with the Cloudant authorization API.
Use the authorization feature to generate new API keys to access your data. An API key is basically a username/password pair for granting others access to your data, without giving them the keys to the castle.
var Cloudant = require('cloudant');
var me = 'nodejs'; // Replace with your account.
var password = process.env.cloudant_password;
var cloudant = Cloudant({account:me, password:password});
cloudant.generate_api_key(function(er, api) {
if (er) {
throw er; // You probably want wiser behavior than this.
}
console.log('API key: %s', api.key);
console.log('Password for this key: %s', api.password);
console.log('');
// Set the security for three users: nobody, nodejs, and the above API key.
// (The "nodejs" user is an example account that belongs to IBM Cloudant.)
var db = "animals";
var security = {
nobody: [],
nodejs : [ '_reader', '_writer', '_admin', '_replicator' ]
};
security[api.key] = [ '_reader', '_writer' ];
var my_database = cloudant.db.use(db);
my_database.set_security(security, function(er, result) {
if (er) {
throw er;
}
console.log('Set security for ' + db);
console.log(result);
console.log('');
// Or you can read the security settings from a database.
my_database.get_security(function(er, result) {
if (er) {
throw er;
}
console.log('Got security for ' + db);
console.log(result);
});
});
});
Output:
API key: thandoodstrenterprourete
Password for this key: Eivln4jPiLS8BoTxjXjVukDT
Set security for animals
{ ok: true }
Got security for animals
{ cloudant:
{ nobody: [],
thandoodstrenterprourete: [ '_reader', '_writer' ],
nodejs: [ '_reader', '_writer', '_admin', '_replicator' ] } }
See the Cloudant API for full details](https://docs.cloudant.com/api.html#authorization)
To use an API key, initialize a new Cloudant connection, and provide an additional "key" option when you initialize Cloudant. This will connect to your account, but using the "key" as the authenticated user. (And of course, use the appropriate password associated with the API key.)
var Cloudant = require('cloudant');
var cloudant = Cloudant({account:"me", key:api.key, password:api.password});
If you need to access your Cloudant database from a web application that is served from a domain other than your Cloudant account, you will need to enable CORS (Cross-origin resource sharing).
e.g. enable CORS from any domain:
cloudant.set_cors({ enable_cors: true, allow_credentials: true, origins: ["*"]}, function(err, data) {
console.log(err, data);
});
or enable access from a list of specified domains:
cloudant.set_cors({ enable_cors: true, allow_credentials: true, origins: [ "https://mydomain.com","https://mysubdomain.mydomain.com"]}, function(err, data) {
console.log(err, data);
});
or disable CORS access
cloudant.set_cors({ enable_cors: false, origins: [] }, function(err, data) {
console.log(err, data);
});
or to fetch the current CORS configuration
cloudant.get_cors(function(err, data) {
console.log(data);
});
Output:
{ enable_cors: true, allow_credentials: true, origins: [ '*' ] }
See https://docs.cloudant.com/api.html#cors for further details.
If you wish to access your Cloudant domain name (myaccount.cloudant.com) using a CNAME'd domain name (mysubdomain.mydomain.com) then you can instruct Cloudant to do so.
e.g. add a virtual host
cloudant.add_virtual_host({ host: "mysubdomain.mydomain.com", path: "/mypath"}, function(err, data) {
console.log(err, data);
});
e.g. view virtual host configuration
cloudant.get_virtual_hosts(function(err, data) {
console.log(err, data);
});
or delete a virtual host
cloudant.delete_virtual_host({ host: "mysubdomain.mydomain.com", path: "/mypath"}, function(err, data) {
console.log(err, data);
});
This feature interfaces with Cloudant's query functionality. See the Cloudant Query documentation for details.
As with Nano, when working with a database (as opposed to the root server), run the .db.use()
method.
var db = cloudant.db.use('my_db')
To see all the indexes in a database, call the database .index()
method with a callback function.
db.index(function(er, result) {
if (er) {
throw er;
}
console.log('The database has %d indexes', result.indexes.length);
for (var i = 0; i < result.indexes.length; i++) {
console.log(' %s (%s): %j', result.indexes[i].name, result.indexes[i].type, result.indexes[i].def);
}
result.should.have.a.property('indexes').which.is.an.Array;
done();
});
Example output:
The database has 3 indexes
_all_docs (special): {"fields":[{"_id":"asc"}]}
first-name (json): {"fields":[{"name":"asc"}]}
last-name (json): {"fields":[{"name":"asc"}]}
To create an index, use the same .index()
method but with an extra initial argument: the index definition. For example, to make an index on middle names in the data set:
var first_name = {name:'first-name', type:'json', index:{fields:['name']}}
db.index(first_name, function(er, response) {
if (er) {
throw er;
}
console.log('Index creation result: %s', response.result);
});
Output:
Index creation result: created
To query using the index, use the .find()
method.
db.find({selector:{name:'Alice'}}, function(er, result) {
if (er) {
throw er;
}
console.log('Found %d documents with name Alice', result.docs.length);
for (var i = 0; i < result.docs.length; i++) {
console.log(' Doc id: %s', result.docs[i]._id);
}
});
This feature interfaces with Cloudant's search functionality. See the Cloudant Search documentation for details.
First, when working with a database (as opposed to the root server), run the .use()
method.
var db = cloudant.db.use('my_db')
In this example, we will begin with some data to search: a collection of books.
var books = [
{author:"Charles Dickens", title:"David Copperfield"},
{author:"David Copperfield", title:"Tales of the Impossible"},
{author:"Charles Dickens", title:"Great Expectation"}
]
db.bulk({docs:books}, function(er) {
if (er) {
throw er;
}
console.log('Inserted all documents');
});
To create a Cloudant Search index, create a design document the normal way you would with Nano, the database .insert()
method.
To see all the indexes in a database, call the database .index()
method with a callback function.
// Note, you can make a normal JavaScript function. It is not necessary
// for you to convert it to a string as with other languages and tools.
var book_indexer = function(doc) {
if (doc.author && doc.title) {
// This looks like a book.
index('title', doc.title);
index('author', doc.author);
}
}
var ddoc = {
_id: '_design/library',
indexes: {
books: {
analyzer: {name: 'standard'},
index : book_indexer
}
}
};
db.insert(ddoc, function (er, result) {
if (er) {
throw er;
}
console.log('Created design document with books index');
});
To query this index, use the database .search()
method. The first argument is the design document name, followed by the index name, and finally an object with your search parameters.
db.search('library', 'books', {q:'author:dickens'}, function(er, result) {
if (er) {
throw er;
}
console.log('Showing %d out of a total %d books by Dickens', result.rows.length, result.total_rows);
for (var i = 0; i < result.rows.length; i++) {
console.log('Document id: %s', result.rows[i].id);
}
});
This feature interfaces with Cloudant's geospatial features. See the Cloudant Geospatial documentation for details.
Begin with a database, and insert documents in GeoJSON format. Documents should have "type"
set to "Feature"
and also "geometry"
with a valid GeoJSON value. For example:
var db = cloudant.db.use('my_db')
var cities = [
{ "_id":"Boston",
"type":"Feature",
"geometry": {
"type":"Point","coordinates": [-71.063611, 42.358056]
}
},
{ "_id":"Houston",
"type":"Feature",
"geometry": {
"type":"Point","coordinates": [-95.383056, 29.762778]
}
},
{ "_id":"Ruston",
"type":"Feature",
"geometry": {
"type":"Point","coordinates": [-92.640556, 32.529722]
}
}
];
db.bulk({docs:cities}, function(er) {
if (er) {
throw er;
}
console.log('Inserted all cities');
});
To make a spatial index of these documents, create a design document with "st_indexes"
populated with a JavaScript indexing function.
// Note, you can make a normal JavaScript function. It is not necessary
// for you to convert it to a string as with other languages and tools.
var city_indexer = function(doc) {
if (doc.geometry && doc.geometry.coordinates) {
st_index(doc.geometry);
}
};
var ddoc = {
_id: '_design/city',
st_indexes: {
city_points: {
index: city_indexer
}
}
};
db.insert(ddoc, function (er, result) {
if (er) {
throw er;
}
console.log('Created design document with city index');
});
To query this index, use the database .geo()
method. The first argument is the design document name, followed by the index name, and finally an object with your search parameters.
// Find the city within 25km (15 miles) of Lexington, MA.
var query = {
lat:42.447222, lon:-71.225,
radius:25000,
include_docs:true
};
db.geo('city', 'city_points', query, function(er, result) {
if (er) {
throw er;
}
console.log('Cities found: %d', result.rows.length); // "Cities found: 1"
console.log(result.rows[0].doc._id); // "Boston"
});
Cloudant supports making requests using Cloudant's cookie authentication.
var Cloudant = require('cloudant');
var username = 'nodejs'; // Set this to your own account
var password = process.env.cloudant_password;
var cloudant = Cloudant({account:username, password:password});
// A global variable to store the cookies. Of course, you can store cookies any way you wish.
var cookies = {}
// In this example, we authenticate using the same username/userpass as above.
// However, you can use a different combination to authenticate as other users
// in your database. This can be useful for using a less-privileged account.
cloudant.auth(username, password, function(er, body, headers) {
if (er) {
return console.log('Error authenticating: ' + er.message);
}
console.log('Got cookie for %s: %s', username, headers['set-cookie']);
// Store the authentication cookie for later.
cookies[username] = headers['set-cookie'];
});
To reuse a cookie:
// (Presuming the "cookies" global from the above example is still in scope.)
var Cloudant = require('cloudant');
var username = 'nodejs'; // Set this to your own account
var other_cloudant = Cloudant({account:username, cookie:cookies[username]});
var alice = other_cloudant.db.use('alice')
alice.insert({_id:"my_doc"}, function (er, body, headers) {
if (er) {
return console.log('Failed to insert into alice database: ' + er.message);
}
// Change the cookie if Cloudant tells us to.
if (headers && headers['set-cookie']) {
cookies[username] = headers['set-cookie'];
}
});
Getting current session:
// (Presuming the "cookie" global from the above example is still in scope.)
var Cloudant = require('cloudant');
var username = 'nodejs'; // Set this to your own account
var cloudant = Cloudant({account:username, cookie:cookies[username]});
cloudant.session(function(er, session) {
if (er) {
return console.log('oh noes!');
}
console.log('user is %s and has these roles: %j',
session.userCtx.name, session.userCtx.roles);
});
If you wish to see further information about what the nodejs-cloudant library is doing, then its debugging output can be sent to the console by simply setting an environement variable:
export DEBUG=cloudant
# then run your Node.js application
Debug messages will be displayed to indicate each of the Cloudant-specific function calls.
If you want to see all debug messages, including calls made by the underlying nano
library and HTTP requests/responses sent, then simply change the environment variable to
export DEBUG=cloudant,nano
# then run your Node.js application
This will log every request and response as in the following example:
nano { method: 'POST', headers: { 'content-type': 'application/json', accept: 'application/json' }, uri: 'https://xxxx:yyyyy@xxxx.cloudant.com/woof', body: '{"a":1,"b":2}' } +3ms
nano { err: null, body: { ok: true, id: '98f178cb8f4fe089f70fa4c92a0c84b1', rev: '1-25f9b97d75a648d1fcd23f0a73d2776e' }, headers: { 'x-couch-request-id': '8220322dee', location: 'http://reader.cloudant.com/woof/98f178cb8f4fe089f70fa4c92a0c84b1', date: 'Mon, 07 Sep 2015 13:06:01 GMT', 'content-type': 'application/json', 'cache-control': 'must-revalidate', 'strict-transport-security': 'max-age=31536000', 'x-content-type-options': 'nosniff;', connection: 'close', statusCode: 201, uri: 'https://xxxx:yyyy@xxxx.cloudant.com/woof' } }
Note that credentials used in the requests are also written to the log.
Similarly, if you only want nano
-level debugging:
export DEBUG=nano
# then run your Node.js application
The environment variable can also be defined on the same line as the Node.js script you are running e.g.:
DEBUG="*" node myscript.js
Besides the account and password options, you can add an optionsl requestDefaults
value, which will initialize Request (the underlying HTTP library) as you need it.
// Use an HTTP proxy to connect to Cloudant.
var options =
{ "account" : "my_account"
, "password" : "secret"
, "requestDefaults": { "proxy": "http://localhost:8080" }
}
var cloudant = require('cloudant')(opts);
// Now using the HTTP proxy...
Please check Request for more information on the defaults. They support features like cookie jar, proxies, ssl, etc.
A very important configuration parameter if you have a high traffic website and are using Cloudant is setting up the pool.size
. By default, the node.js https global agent (client) has a certain size of active connections that can run simultaneously, while others are kept in a queue. Pooling can be disabled by setting the agent
property in requestDefaults
to false, or adjust the global pool size using:
var https = require('https')
https.globalAgent.maxSockets = 20
You can also increase the size in your calling context using requestDefaults
if this is problematic. refer to the Request documentation and examples for further clarification.
Here is an example of explicitly using the keep alive agent (installed using npm install agentkeepalive
), especially useful to limit your open sockets when doing high-volume access to Cloudant:
var HttpsAgent = require('agentkeepalive').HttpsAgent;
var myagent = new HttpsAgent({
maxSockets: 50,
maxKeepAliveRequests: 0,
maxKeepAliveTime: 30000
});
var cloudant = require('cloudant')({account:"me", password:"secret", requestDefaults:{agent:myagent}});
// Using Cloudant with myagent...
Cloudant is minimalistic but you can add your own features with cloudant.request(opts, callback)
For example, to create a function to retrieve a specific revision of the rabbit
document:
function getrabbitrev(rev, callback) {
cloudant.request({ db: 'alice',
doc: 'rabbit',
method: 'get',
params: { rev: rev }
}, callback)
}
getrabbitrev('4-2e6cdc4c7e26b745c2881a24e0eeece2', function(err, body) {
if (!err)
console.log(body)
})
You can pipe in Cloudant like in any other stream. for example if our rabbit
document has an attachment with name picture.png
(with a picture of our white rabbit, of course!) you can pipe it to a writable stream
See the Attachment Functions section for examples of piping to and from attachments.
This is an open-source library, published under the Apache 2.0 license. We very much welcome contributions to the project so if you would like to contribute (even if it's fixing a typo in the README!) simply
If you're not confident about being able to fix a problem yourself, or want to simply report an issue then please.
To join the effort developing this project, start from our GitHub page: https://github.com/cloudant/nodejs-cloudant
First clone this project from GitHub, and then install its dependencies using npm.
$ git clone https://github.com/cloudant/nodejs-cloudant
$ npm install
We use npm to handle running the test suite. To run the comprehensive test suite, just run npm test
.
or after adding a new test you can run it individually (with verbose output) using:
npm test-verbose
This runs against a local "mock" web server, called Nock. However the test suite can also run against a live Cloudant service. I have registered "nodejs.cloudant.com" for this purpose.
$ npm test-live
Get the password from Jason somehow, and set it a file called .env
at the root of this project:
cloudant_password=thisisthepassword
If you work on this project plus another one, your best bet is to clone from GitHub and then link this project to your other one. With linking, your other project depends on this one; but instead of a proper install, npm basically symlinks this project into the right place.
Go to this project and "link" it into the global namespace (sort of an "export").
$ cd cloudant
$ npm link
/Users/jhs/.nvm/v0.10.25/lib/node_modules/cloudant -> /Users/jhs/src/cloudant/nodejs-cloudant
Go to your project and "link" it into there (sort of an "import").
$ cd ../my-project
$ npm link cloudant
/Users/jhs/src/my-project/node_modules/cloudant -> /Users/jhs/.nvm/v0.10.25/lib/node_modules/cloudant -> /Users/jhs/src/cloudant/nodejs-cloudant
Now your project has the dependency in place, however you can work on both of them in tandem.
DO NOT hard-code your password and commit it to Git. Storing your password directly in your source code (even in old commits) is a serious security risk to your data. Whoever gains access to your software will now also have read, write, and delete access to your data. Think about GitHub security bugs, or contractors, or disgruntled employees, or lost laptops at a conference. If you check in your password, all of these situations become major liabilities. (Also, note that if you follow these instructions, the export
command with your password will likely be in your .bash_history
now, which is kind of bad. However, if you input a space before typing the command, it will not be stored in your history.)
Here is simple but complete example of working with data:
var Cloudant = require('cloudant')
var me = 'nodejs' // Set this to your own account
var password = process.env.cloudant_password
Cloudant({account:me, password:password}, function(er, cloudant) {
if (er)
return console.log('Error connecting to Cloudant account %s: %s', me, er.message)
// Clean up the database we created previously.
cloudant.db.destroy('alice', function() {
// Create a new database.
cloudant.db.create('alice', function() {
// specify the database we are going to use
var alice = cloudant.db.use('alice')
// and insert a document in it
alice.insert({ crazy: true }, 'rabbit', function(err, body, header) {
if (err)
return console.log('[alice.insert] ', err.message)
console.log('you have inserted the rabbit.')
console.log(body)
})
})
})
})
If you run this example, you will see:
you have inserted the rabbit.
{ ok: true,
id: 'rabbit',
rev: '1-6e4cb465d49c0368ac3946506d26335d' }
Copyright (c) 2016 IBM Cloudant, Inc. All rights reserved.
Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.
1.9.0 (2017-10-20)
{silent: true}
to dotenv to prevent .env
warnings.FAQs
Cloudant Node.js client
The npm package cloudant receives a total of 3,564 weekly downloads. As such, cloudant popularity was classified as popular.
We found that cloudant demonstrated a not healthy version release cadence and project activity because the last version was released a year ago. It has 4 open source maintainers collaborating on the project.
Did you know?
Socket for GitHub automatically highlights issues in each pull request and monitors the health of all your open source dependencies. Discover the contents of your packages and block harmful activity before you install or update your dependencies.
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