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Dynogels is a DynamoDB data mapper for node.js. This project has been forked from Vogels and republished to npm under a different name.
npm install dynogels
First, you need to configure the AWS SDK with your credentials.
var dynogels = require('dynogels');
dynogels.AWS.config.loadFromPath('credentials.json');
When running on EC2 it's recommended to leverage EC2 IAM roles. If you have configured your instance to use IAM roles, Vogels will automatically select these credentials for use in your application, and you do not need to manually provide credentials in any other format.
var dynogels = require('dynogels');
dynogels.AWS.config.update({region: "REGION"}); // region must be set
You can also directly pass in your access key id, secret and region.
var dynogels = require('dynogels');
dynogels.AWS.config.update({accessKeyId: 'AKID', secretAccessKey: 'SECRET', region: "REGION"});
Currently the following region codes are available in Amazon:
Code | Name |
---|---|
ap-northeast-1 | Asia Pacific (Tokyo) |
ap-southeast-1 | Asia Pacific (Singapore) |
ap-southeast-2 | Asia Pacific (Sydney) |
eu-central-1 | EU (Frankfurt) |
eu-west-1 | EU (Ireland) |
sa-east-1 | South America (Sao Paulo) |
us-east-1 | US East (N. Virginia) |
us-west-1 | US West (N. California) |
us-west-2 | US West (Oregon) |
Models are defined through the toplevel define method.
var Account = dynogels.define('Account', {
hashKey : 'email',
// add the timestamp attributes (updatedAt, createdAt)
timestamps : true,
schema : {
email : Joi.string().email(),
name : Joi.string(),
age : Joi.number(),
roles : dynogels.types.stringSet(),
settings : {
nickname : Joi.string(),
acceptedTerms : Joi.boolean().default(false)
}
}
});
Models can also be defined with hash and range keys.
var BlogPost = dynogels.define('BlogPost', {
hashKey : 'email',
rangeKey : ‘title’,
schema : {
email : Joi.string().email(),
title : Joi.string(),
content : Joi.binary(),
tags : dynogels.types.stringSet(),
}
});
dynogels.createTables(function(err) {
if (err) {
console.log('Error creating tables: ', err);
} else {
console.log('Tables has been created');
}
});
When creating tables you can pass specific throughput settings or stream specification for any defined models.
dynogels.createTables({
'BlogPost': {readCapacity: 5, writeCapacity: 10},
'Account': {
readCapacity: 20,
writeCapacity: 4,
streamSpecification: {
streamEnabled: true,
streamViewType: 'NEW_IMAGE'
}
}
}, function(err) {
if (err) {
console.log('Error creating tables: ', err);
} else {
console.log('Tables has been created');
}
});
You can also pass operational options using the $dynogels
key:
pollingInterval
: When creating a table, Dynogels must poll the DynamoDB server to detect when table creation has completed. This option specifies the minimum poll interval, in milliseconds. (Default: 1000)dynogels.createTables({
$dynogels: { pollingInterval: 100 }
}, function(err) {
if (err) {
console.log('Error creating tables: ', err);
} else {
console.log('Tables has been created');
}
});
BlogPost.deleteTable(function(err) {
if (err) {
console.log('Error deleting table: ', err);
} else {
console.log('Table has been deleted');
}
});
Vogels provides the following schema types:
UUIDs can be declared for any attributes, including hash and range keys. By Default, the uuid will be automatically generated when attempting to create the model in DynamoDB.
var Tweet = dynogels.define('Tweet', {
hashKey : 'TweetID',
timestamps : true,
schema : {
TweetID : dynogels.types.uuid(),
content : Joi.string(),
}
});
You can configure dynogels to automatically add createdAt
and updatedAt
timestamp attributes when
saving and updating a model. updatedAt
will only be set when updating a record
and will not be set on initial creation of the model.
var Account = dynogels.define('Account', {
hashKey : 'email',
// add the timestamp attributes (updatedAt, createdAt)
timestamps : true,
schema : {
email : Joi.string().email(),
}
});
If you want dynogels to handle timestamps, but only want some of them, or want your timestamps to be called something else, you can override each attribute individually:
var Account = dynogels.define('Account', {
hashKey : 'email',
// enable timestamps support
timestamps : true,
// I don't want createdAt
createdAt: false,
// I want updatedAt to actually be called updateTimestamp
updatedAt: 'updateTimestamp'
schema : {
email : Joi.string().email(),
}
});
You can override the table name the model will use.
var Event = dynogels.define('Event', {
hashKey : 'name',
schema : {
name : Joi.string(),
total : Joi.number()
},
tableName: 'deviceEvents'
});
if you set the tableName to a function, dynogels will use the result of the function as the active table to use. Useful for storing time series data.
var Event = dynogels.define('Event', {
hashKey : 'name',
schema : {
name : Joi.string(),
total : Joi.number()
},
// store monthly event data
tableName: function () {
var d = new Date();
return ['events', d.getFullYear(), d.getMonth() + 1].join('_');
}
});
After you've defined your model you can configure the table name to use. By default, the table name used will be the lowercased and pluralized version of the name you provided when defining the model.
Account.config({tableName: 'AccountsTable'});
You can also pass in a custom instance of the aws-sdk DynamoDB client
var dynamodb = new AWS.DynamoDB();
Account.config({dynamodb: dynamodb});
// or globally use custom DynamoDB instance
// all defined models will now use this driver
dynogels.dynamoDriver(dynamodb);
With your models defined, we can start saving them to DynamoDB.
Account.create({email: 'foo@example.com', name: 'Foo Bar', age: 21}, function (err, acc) {
console.log('created account in DynamoDB', acc.get('email'));
});
You can also first instantiate a model and then save it.
var acc = new Account({email: 'test@example.com', name: 'Test Example'});
acc.save(function (err) {
console.log('created account in DynamoDB', acc.get('email'));
});
Saving models that require range and hashkeys are identical to ones with only hashkeys.
BlogPost.create({
email: 'werner@example.com',
title: 'Expanding the Cloud',
content: 'Today, we are excited to announce the limited preview...'
}, function (err, post) {
console.log('created blog post', post.get('title'));
});
Pass an array of items and they will be saved in parallel to DynamoDB.
var item1 = {email: 'foo1@example.com', name: 'Foo 1', age: 10};
var item2 = {email: 'foo2@example.com', name: 'Foo 2', age: 20};
var item3 = {email: 'foo3@example.com', name: 'Foo 3', age: 30};
Account.create([item1, item2, item3], function (err, acccounts) {
console.log('created 3 accounts in DynamoDB', accounts);
});
Use expressions api to do conditional writes
var params = {};
params.ConditionExpression = '#i <> :x';
params.ExpressionAttributeNames = {'#i' : 'id'};
params.ExpressionAttributeValues = {':x' : 123};
User.create({id : 123, name : 'Kurt Warner' }, params, function (error, acc) { ... });
Use the overwrite
option to prevent over writing of existing records.
overwrite
is set to true, allowing create operations to overwrite existing records // setting overwrite to false will generate
// the same Condition Expression as in the previous example
User.create({id : 123, name : 'Kurt Warner' }, {overwrite : false}, function (error, acc) { ... });
When updating a model the hash and range key attributes must be given, all other attributes are optional
// update the name of the foo@example.com account
Account.update({email: 'foo@example.com', name: 'Bar Tester'}, function (err, acc) {
console.log('update account', acc.get('name'));
});
Model.update
accepts options to pass to DynamoDB when making the updateItem request
Account.update({email: 'foo@example.com', name: 'Bar Tester'}, {ReturnValues: 'ALL_OLD'}, function (err, acc) {
console.log('update account', acc.get('name')); // prints the old account name
});
// Only update the account if the current age of the account is 21
Account.update({email: 'foo@example.com', name: 'Bar Tester'}, {expected: {age: 22}}, function (err, acc) {
console.log('update account', acc.get('name'));
});
// setting an attribute to null will delete the attribute from DynamoDB
Account.update({email: 'foo@example.com', age: null}, function (err, acc) {
console.log('update account', acc.get('age')); // prints null
});
To ensure that an item exists before updating, use the expected
parameter to check the existence of the hash key. The hash key must exist for every DynamoDB item. This will return an error if the item does not exist.
Account.update(
{ email: 'foo@example.com', name: 'FooBar Testers' },
{ expected: { email: { Exists: true } } },
(err, acc) => {
console.log(acc.get('name')); // FooBar Testers
}
);
Account.update(
{ email: 'baz@example.com', name: 'Bar Tester' },
{ expected: { email: { Exists: true } } },
(err, acc) => {
console.log(err); // Condition Expression failed: no Account with that hash key
}
);
This is essentially short-hand for:
var params = {};
params.ConditionExpression = 'attribute_exists(#hashKey)';
params.ExpressionAttributeNames = { '#hashKey' : 'email' };
You can also pass what action to perform when updating a given attribute Use $add to increment or decrement numbers and add values to sets
Account.update({email : 'foo@example.com', age : {$add : 1}}, function (err, acc) {
console.log('incremented age by 1', acc.get('age'));
});
BlogPost.update({
email : 'werner@example.com',
title : 'Expanding the Cloud',
tags : {$add : 'cloud'}
}, function (err, post) {
console.log('added single tag to blog post', post.get('tags'));
});
BlogPost.update({
email : 'werner@example.com',
title : 'Expanding the Cloud',
tags : {$add : ['cloud', 'dynamodb']}
}, function (err, post) {
console.log('added tags to blog post', post.get('tags'));
});
$del will remove values from a given set
BlogPost.update({
email : 'werner@example.com',
title : 'Expanding the Cloud',
tags : {$del : 'cloud'}
}, function (err, post) {
console.log('removed cloud tag from blog post', post.get('tags'));
});
BlogPost.update({
email : 'werner@example.com',
title : 'Expanding the Cloud',
tags : {$del : ['aws', 'node']}
}, function (err, post) {
console.log('removed multiple tags', post.get('tags'));
});
Use the expressions api to update nested documents
var params = {};
params.UpdateExpression = 'SET #year = #year + :inc, #dir.titles = list_append(#dir.titles, :title), #act[0].firstName = :firstName ADD tags :tag';
params.ConditionExpression = '#year = :current';
params.ExpressionAttributeNames = {
'#year' : 'releaseYear',
'#dir' : 'director',
'#act' : 'actors'
};
params.ExpressionAttributeValues = {
':inc' : 1,
':current' : 2001,
':title' : ['The Man'],
':firstName' : 'Rob',
':tag' : dynogels.Set(['Sports', 'Horror'], 'S')
};
Movie.update({title : 'Movie 0', description : 'This is a description'}, params, function (err, mov) {});
You delete items in DynamoDB using the hashkey of model If your model uses both a hash and range key, then both need to be provided
Account.destroy('foo@example.com', function (err) {
console.log('account deleted');
});
// Destroy model using hash and range key
BlogPost.destroy('foo@example.com', 'Hello World!', function (err) {
console.log('post deleted')
});
BlogPost.destroy({email: 'foo@example.com', title: 'Another Post'}, function (err) {
console.log('another post deleted')
});
Model.destroy
accepts options to pass to DynamoDB when making the deleteItem request
Account.destroy('foo@example.com', {ReturnValues: 'ALL_OLD'}, function (err, acc) {
console.log('account deleted');
console.log('deleted account name', acc.get('name'));
});
Account.destroy('foo@example.com', {expected: {age: 22}}, function (err) {
console.log('account deleted if the age was 22');
});
Use expression apis to perform conditional deletes
var params = {};
params.ConditionExpression = '#v = :x';
params.ExpressionAttributeNames = {'#v' : 'version'};
params.ExpressionAttributeValues = {':x' : '2'};
User.destroy({id : 123}, params, function (err, acc) {});
The simpliest way to get an item from DynamoDB is by hashkey.
Account.get('test@example.com', function (err, acc) {
console.log('got account', acc.get('email'));
});
Perform the same get request, but this time peform a consistent read.
Account.get('test@example.com', {ConsistentRead: true}, function (err, acc) {
console.log('got account', acc.get('email'));
});
Model.get
accepts any options that DynamoDB getItem request supports. For
example:
Account.get('test@example.com', {ConsistentRead: true, AttributesToGet : ['name','age']}, function (err, acc) {
console.log('got account', acc.get('email'))
console.log(acc.get('name'));
console.log(acc.get('age'));
console.log(acc.get('email')); // prints null
});
Get a model using hash and range key.
// load up blog post written by Werner, titled DynamoDB Keeps Getting Better and cheaper
BlogPost.get('werner@example.com', 'dynamodb-keeps-getting-better-and-cheaper', function (err, post) {
console.log('loaded post by range and hash key', post.get('content'));
});
Model.get
also supports passing an object which contains hash and range key
attributes to load up a model
BlogPost.get({email: 'werner@example.com', title: 'Expanding the Cloud'}, function (err, post) {
console.log('loded post', post.get('content'));
});
Use expressions api to select which attributes you want returned
User.get({ id : '123456789'},{ ProjectionExpression : 'email, age, settings.nickname' }, function (err, acc) {});
For models that use hash and range keys Vogels provides a flexible and chainable query api
// query for blog posts by werner@example.com
BlogPost
.query('werner@example.com')
.exec(callback);
// same as above, but load all results
BlogPost
.query('werner@example.com')
.loadAll()
.exec(callback);
// only load the first 5 posts by werner
BlogPost
.query('werner@example.com')
.limit(5)
.exec(callback);
// query for posts by werner where the tile begins with 'Expanding'
BlogPost
.query('werner@example.com')
.where('title').beginsWith('Expanding')
.exec(callback);
// return only the count of documents that begin with the title Expanding
BlogPost
.query('werner@example.com')
.where('title').beginsWith('Expanding')
.select('COUNT')
.exec(callback);
// query the first 10 posts by werner@example.com but only return
// the title and content from posts where the title starts with 'Expanding'
// WARNING: See notes below on the implementation of limit in DynamoDB
BlogPost
.query('werner@example.com')
.where('title').beginsWith('Expanding')
.attributes(['title', 'content'])
.limit(10)
.exec(callback);
// sorting by title ascending
BlogPost
.query('werner@example.com')
.ascending()
.exec(callback)
// sorting by title descending
BlogPost
.query('werner@example.com')
.descending()
.exec(callback)
// All query options are chainable
BlogPost
.query('werner@example.com')
.where('title').gt('Expanding')
.attributes(['title', 'content'])
.limit(10)
.ascending()
.loadAll()
.exec(callback);
// Traversing Map Data Types
Account
.query('werner@example.com')
.filter('settings.acceptedTerms').equals(true)
.exec(callback);
Warning, limit is applied first before the where filter. The limit value limits the scanned count, not the number of returned items. See #12
Vogels supports all the possible KeyConditions that DynamoDB currently supports.
BlogPost
.query('werner@example.com')
.where('title').equals('Expanding')
.exec();
// less than equals
BlogPost
.query('werner@example.com')
.where('title').lte('Expanding')
.exec();
// less than
BlogPost
.query('werner@example.com')
.where('title').lt('Expanding')
.exec();
// greater than
BlogPost
.query('werner@example.com')
.where('title').gt('Expanding')
.exec();
// greater than equals
BlogPost
.query('werner@example.com')
.where('title').gte('Expanding')
.exec();
// attribute doesn't exist
BlogPost
.query('werner@example.com')
.where('title').null()
.exec();
// attribute exists
BlogPost
.query('werner@example.com')
.where('title').exists()
.exec();
BlogPost
.query('werner@example.com')
.where('title').beginsWith('Expanding')
.exec();
BlogPost
.query('werner@example.com')
.where('title').between('foo@example.com', 'test@example.com')
.exec();
Query Filters allow you to further filter results on non-key attributes.
BlogPost
.query('werner@example.com')
.where('title').equals('Expanding')
.filter('tags').contains('cloud')
.exec();
Expression Filters also allow you to further filter results on non-key attributes.
BlogPost
.query('werner@example.com')
.filterExpression('#title < :t')
.expressionAttributeValues({ ':t' : 'Expanding' })
.expressionAttributeNames({ '#title' : 'title'})
.projectionExpression('#title, tag')
.exec();
See the queryFilter.js example for more examples of using query filters
First, define a model with a global secondary index.
var GameScore = dynogels.define('GameScore', {
hashKey : 'userId',
rangeKey : 'gameTitle',
schema : {
userId : Joi.string(),
gameTitle : Joi.string(),
topScore : Joi.number(),
topScoreDateTime : Joi.date(),
wins : Joi.number(),
losses : Joi.number()
},
indexes : [{
hashKey : 'gameTitle', rangeKey : 'topScore', name : 'GameTitleIndex', type : 'global'
}]
});
Now we can query against the global index
GameScore
.query('Galaxy Invaders')
.usingIndex('GameTitleIndex')
.descending()
.exec(callback);
When can also configure the attributes projected into the index. By default all attributes will be projected when no Projection pramater is present
var GameScore = dynogels.define('GameScore', {
hashKey : 'userId',
rangeKey : 'gameTitle',
schema : {
userId : Joi.string(),
gameTitle : Joi.string(),
topScore : Joi.number(),
topScoreDateTime : Joi.date(),
wins : Joi.number(),
losses : Joi.number()
},
indexes : [{
hashKey : 'gameTitle',
rangeKey : 'topScore',
name : 'GameTitleIndex',
type : 'global',
projection: { NonKeyAttributes: [ 'wins' ], ProjectionType: 'INCLUDE' } //optional, defaults to ALL
}]
});
Filter items against the configured rangekey for the global index.
GameScore
.query('Galaxy Invaders')
.usingIndex('GameTitleIndex')
.where('topScore').gt(1000)
.descending()
.exec(function (err, data) {
console.log(_.map(data.Items, JSON.stringify));
});
First, define a model using a local secondary index
var BlogPost = dynogels.define('Account', {
hashKey : 'email',
rangeKey : 'title',
schema : {
email : Joi.string().email(),
title : Joi.string(),
content : Joi.binary(),
PublishedDateTime : Joi.date()
},
indexes : [{
hashKey : 'email', rangeKey : 'PublishedDateTime', type : 'local', name : 'PublishedIndex'
}]
});
Now we can query for blog posts using the secondary index
BlogPost
.query('werner@example.com')
.usingIndex('PublishedIndex')
.descending()
.exec(callback);
Could also query for published posts, but this time return oldest first
BlogPost
.query('werner@example.com')
.usingIndex('PublishedIndex')
.ascending()
.exec(callback);
Finally lets load all published posts sorted by publish date
BlogPost
.query('werner@example.com')
.usingIndex('PublishedIndex')
.descending()
.loadAll()
.exec(callback);
Learn more about secondary indexes
Vogels provides a flexible and chainable api for scanning over all your items This api is very similar to the query api.
// scan all accounts, returning the first page or results
Account.scan().exec(callback);
// scan all accounts, this time loading all results
// note this will potentially make several calls to DynamoDB
// in order to load all results
Account
.scan()
.loadAll()
.exec(callback);
// Load 20 accounts
Account
.scan()
.limit(20)
.exec();
// Load All accounts, 20 at a time per request
Account
.scan()
.limit(20)
.loadAll()
.exec();
// Load accounts which match a filter
// only return email and created attributes
// and return back the consumed capacity the request took
Account
.scan()
.where('email').gte('f@example.com')
.attributes(['email','created'])
.returnConsumedCapacity()
.exec();
// Load All accounts, if settings.acceptedTerms is true
Account
.scan()
.where('settings.acceptedTerms').equals(true)
.exec();
// Returns number of matching accounts, rather than the matching accounts themselves
Account
.scan()
.where('age').gte(21)
.select('COUNT')
.exec();
// Start scan using start key
Account
.scan()
.where('age').notNull()
.startKey('foo@example.com')
.exec()
Vogels supports all the possible Scan Filters that DynamoDB currently supports.
// equals
Account
.scan()
.where('name').equals('Werner')
.exec();
// not equals
Account
.scan()
.where('name').ne('Werner')
.exec();
// less than equals
Account
.scan()
.where('name').lte('Werner')
.exec();
// less than
Account
.scan()
.where('name').lt('Werner')
.exec();
// greater than equals
Account
.scan()
.where('name').gte('Werner')
.exec();
// greater than
Account
.scan()
.where('name').gt('Werner')
.exec();
// name attribute doesn't exist
Account
.scan()
.where('name').null()
.exec();
// name attribute exists
Account
.scan()
.where('name').notNull()
.exec();
// contains
Account
.scan()
.where('name').contains('ner')
.exec();
// not contains
Account
.scan()
.where('name').notContains('ner')
.exec();
// in
Account
.scan()
.where('name').in(['foo@example.com', 'bar@example.com'])
.exec();
// begins with
Account
.scan()
.where('name').beginsWith('Werner')
.exec();
// between
Account
.scan()
.where('name').between('Bar', 'Foo')
.exec();
// multiple filters
Account
.scan()
.where('name').equals('Werner')
.where('age').notNull()
.exec();
You can also use the new expressions api when filtering scans
User.scan()
.filterExpression('#age BETWEEN :low AND :high AND begins_with(#email, :e)')
.expressionAttributeValues({ ':low' : 18, ':high' : 22, ':e' : 'test1'})
.expressionAttributeNames({ '#age' : 'age', '#email' : 'email'})
.projectionExpression('#age, #email')
.exec();
Parallel scans increase the throughput of your table scans. The parallel scan operation is identical to the scan api. The only difference is you must provide the total number of segments
Caution you can easily consume all your provisioned throughput with this api
var totalSegments = 8;
Account.parallelScan(totalSegments)
.where('age').gte(18)
.attributes('age')
.exec(callback);
// Load All accounts
Account
.parallelScan(totalSegments)
.exec()
More info on Parallel Scans
Model.getItems
allows you to load multiple models with a single request to DynamoDB.
DynamoDB limits the number of items you can get to 100 or 1MB of data for a single request. Vogels automatically handles splitting up into multiple requests to load all items.
Account.getItems(['foo@example.com','bar@example.com', 'test@example.com'], function (err, accounts) {
console.log('loaded ' + accounts.length + ' accounts'); // prints loaded 3 accounts
});
// For models with range keys you must pass in objects of hash and range key attributes
var postKey1 = {email : 'test@example.com', title : 'Hello World!'};
var postKey2 = {email : 'test@example.com', title : 'Another Post'};
BlogPost.getItems([postKey1, postKey2], function (err, posts) {
console.log('loaded posts');
});
Model.getItems
accepts options which will be passed to DynamoDB when making the batchGetItem request
// Get both accounts, using a consistent read
Account.getItems(['foo@example.com','bar@example.com'], {ConsistentRead: true}, function (err, accounts) {
console.log('loaded ' + accounts.length + ' accounts'); // prints loaded 2 accounts
});
dynogels supports a basic streaming api in addition to the callback
api for query
, scan
, and parallelScan
operations.
var stream = Account.parallelScan(4).exec();
stream.on('readable', function () {
console.log('single parallel scan response', stream.read());
});
stream.on('end', function () {
console.log('Parallel scan of accounts finished');
});
var querystream = BlogPost.query('werner@dynogels.com').loadAll().exec();
querystream.on('readable', function () {
console.log('single query response', stream.read());
});
querystream.on('end', function () {
console.log('query for blog posts finished');
});
dynogels supports dynamic table names, useful for storing time series data.
var Event = dynogels.define('Event', {
hashKey : 'name',
schema : {
name : Joi.string(),
total : Joi.number()
},
// store monthly event data
tableName: function () {
var d = new Date();
return ['events', d.getFullYear(), d.getMonth() + 1].join('_');
}
});
A logger that implements info
and warn
methods (e.g Bunyan or Winston)
can be provided to either dynogels itself or individual models:
const logger = require('winston');
logger.level = 'warn';
dynogels.log = logger; // enabled WARN log level on all tables
const accountLogger = require('winston');
accountLogger.level = 'info';
var Account = dynogels.define('Account', {
hashKey: 'email',
log: accountLogger
}); // INFO level on account table
var dynogels = require('dynogels');
var Account = dynogels.define('Account', {
hashKey : 'email',
// add the timestamp attributes (updatedAt, createdAt)
timestamps : true,
schema : {
email : Joi.string().email(),
name : Joi.string().required(),
age : Joi.number(),
}
});
Account.create({email: 'test@example.com', name : 'Test Account'}, function (err, acc) {
console.log('created account at', acc.get('created')); // prints created Date
acc.set({age: 22});
acc.update(function (err) {
console.log('updated account age');
});
});
See the examples for more working sample code.
Dynogels is provided as-is, free of charge. For support, you have a few choices:
(The MIT License)
Copyright (c) 2016 Ryan Fitzgerald
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
FAQs
DynamoDB data mapper
The npm package dynogels receives a total of 1,647 weekly downloads. As such, dynogels popularity was classified as popular.
We found that dynogels demonstrated a not healthy version release cadence and project activity because the last version was released a year ago. It has 1 open source maintainer collaborating on the project.
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