- Install nodejs
# If you have brew installed:
brew install node
# Alternative:
https://nodejs.org/dist/v10.16.3/node-v10.16.3.pkg
https://nodejs.org/dist/v10.16.3/node-v10.16.3-x86.msi
- Install serverless framework
npm install -g serverless
- Update the cli if you already have it installed
npm update -g serverless
- Create AWS account
- Log into your account
- Visit IAM Portal and click Users IAM Users
- Add user
serverless-cliand allowprogrammatic acccess
- For simplicity attach existing policy
AdministratorAccess
- Keep browser window with credentials open
- Configure aws credentials in serverless framework in your terminal
serverless config credentials --provider aws --key AKIAIOSFODNN7EXAMPLE --secret wJalrXUtnFEMI/K7MDENG/bPxRfiCYEXAMPLEKEY
- Close credentials browser window
- During the course we will work with a s3 bucket which must be unique through all aws regions / accounts.
siteName: :SERVERLESS-WORKSHOP-S3-BUCKET-PLACEHOLDER:
- There is a script which is able to exchange the bucket name easily
./rename-bucket serverless-workshop-devops-gathering-thomas-peitz
- Each folder in this git repository shows a working end state.
- You can do all stuff alone at home if it is to fast for you.
- The learnings after each stage are more important than the actual coding of yourself.
- Create a new directory and initialize a serverless app
- We will use ruby as language. In most parts the language is totally unimportant, feel free to spice up your experience by using a different language.
mkdir my-own-code;cd my-own-code
serverless create --template aws-ruby
-
Delete all comments in serverless.yml to see all your config at one glance
-
Deploy your new app
serverless deploy -v
- Test function locally
serverless invoke -f hello
- Let it greet yourself. Change code in handler.rb to greet yourself
def hello(event:, context:)
{ statusCode: 200, body: JSON.generate('Hello CHANGE_TO_YOUR_USERNAME :)') }
end
- Redeploy only the lambda function
serverless deploy -f hello
- Verify speed difference between deploying code / deploying whole cloudformation template
- Find and verify cloudformation template in aws interface and check which resources were created
- Show logs
serverless logs -f hello
- Let's talk about the potential of cost savings by increasing memory
- Delete your stack and recreate afterwards
serverless remove
serverless deploy
- We want to reach our application through HTTP Get on /hello
functions:
hello:
handler: handler.hello
events:
- http:
path: hello
method: get
- Redeploy whole stack
serverless deploy
- We just spawned our first api gateway together
- Verify api gateway in aws interace
- Get url of your functions
serverless info
- Discuss possibilites of api gateway
- We want to greet other persons as well. So lets add a GET Parameter to the function
params = event['queryStringParameters']
{ statusCode: 200, body: JSON.generate("Hello @InVision #{params['name']}") }
-
You can add error handling if you want For example event['queryStringParameters'] can be
nilif no params are attached to your request -
Try out get parameter
curl https://your-api-id.execute-api.eu-central-1.amazonaws.com/dev/hello?name=greta
- We need a frontend for our serverless app
- To deploy static sites with serverless framework, we need a plugin
serverless plugin install -n serverless-s3-sync
# or
cd part4;npm install
- Add plugin to serverless.yml
service: serverless-workshop-part-1
plugins:
- serverless-s3-sync
provider:
- Configure plugin - See directory part-4 serverless.yml for details.
- We add a new root element to the serverless.yml - Resources.
- We add a custom variable with a siteName (your s3 bucket)
- We configure which files to upload
custom:
siteName: :FIX_YOUR_BUCKET_NAME:
s3Sync:
- bucketName: ${self:custom.siteName}
localDir: static
resources:
Outputs:
Website:
Value: http://${self:custom.siteName}.s3-website.${self:provider.region}.amazonaws.com/
Resources:
StaticSite:
Type: AWS::S3::Bucket
Properties:
AccessControl: PublicRead
BucketName: ${self:custom.siteName}
WebsiteConfiguration:
IndexDocument: index.html
StaticSiteS3BucketPolicy:
Type: AWS::S3::BucketPolicy
Properties:
Bucket:
Ref: StaticSite
PolicyDocument:
Statement:
- Sid: PublicReadGetObject
Effect: Allow
Principal: "*"
Action:
- s3:GetObject
Resource:
Fn::Join: [
"", [
"arn:aws:s3:::",
{
"Ref": "StaticSite"
},
"/*"
]
]
-
Check out aws resources possibilities.
-
Create a
staticdirectory and add a index.html in the directory
<html>
<head>
</head>
<body>
<h1>Hello World</h1>
</body>
</html>
- Deploy everything
serverless deploy -v
- Get cloudformation outputs to get website url
sls info -v
- Change some text in index.html
- Redeploy only s3 files
sls s3sync
- Let's talk about cloudfront / s3 combination. Different possibilities e.g. netlify.
- Show weather data in user interface for Duesseldorf
- Delete hello function everywhere (serverless.yml and handler.rb)
- Create temperature function which outputs static value
def temperature(event:, context:)
{
statusCode: 200,
body: JSON.generate({temperature: 10})
}
end
- Create event handler which listens on /temperature on api gateway
functions:
temperature:
handler: handler.temperature
events:
- http:
path: temperature
method: get
- Allow cross-origin request through adding header in function output
{
statusCode: 200,
body: JSON.generate({temperature: 10}),
headers: {
'Access-Control-Allow-Origin': '*',
}
}
- You can retrieve your api gateway address via
sls info
endpoints:
GET - https://ns62gxv4s6.execute-api.eu-central-1.amazonaws.com/dev/temperature
- Update static/index.html with your api gateway address via update-api-gateway script in all workshop folders
./update-api-gateway 3i50ueo3he.execute-api.eu-central-1.amazonaws.com
- This will exchange the axios network call
axios.get('https://MY-OWN-API-GATEWAY-ADDRESS/dev/temperature')
- Deploy all via
serverless deploy
- Add tracing to our functions
provider:
name: aws
runtime: ruby2.5
stage: dev
region: eu-central-1
tracing:
lambda: true
- Visit AWS X-RAY dashboard
- Create new cloudwatch dashboard together - https://eu-central-1.console.aws.amazon.com/cloudwatch/home?region=eu-central-1#dashboards:
- Let's talk about costs of monitoring and how important it is
- Now we will add real data to the request and see latency rise
- Add real weather api call. Sponsored through metaweather api.
- Get your location id first e.g. "646099" for Düsseldorf Metaweather API Location search
- Api call to get data
https://www.metaweather.com/api/location/646099/
#!/bin/ruby
require 'json'
require 'httparty'
def temperature(event:, context:)
url = 'https://www.metaweather.com/api/location/646099/'
resp = HTTParty.get(url).parsed_response
temp = resp['consolidated_weather'].first['the_temp'].round(1)
{
statusCode: 200,
body: JSON.generate({temperature: temp}),
headers: {
'Access-Control-Allow-Origin': '*',
}
}
end
- Add httparty to Gemfile
source 'https://rubygems.org'
gem 'httparty'
- Add a gem layer to our serverless function
layers:
gemLayer:
path: ruby
functions:
temperature:
handler: handler.temperature
layers:
- {Ref: GemLayerLambdaLayer}
environment:
GEM_PATH: /opt/2.7.0
- Install gems locally, compiled through docker on linux
# If you get problems during the next step. Just rename directory ruby-layer to ruby. This is a ready directory to use.
docker run --rm -it -v $PWD:/var/gem_build -w /var/gem_build lambci/lambda:build-ruby2.7 bundle install --path=.
- Deploy everything
serverless deploy
- We would do a lot of api requests if people would reload page more frequently. Lets fix this through using DynamoDB for caching.
- Add table in serverless.yml
WeatherTable:
Type: AWS::DynamoDB::Table
Properties:
TableName: weather
AttributeDefinitions:
- AttributeName: locationId
AttributeType: N
KeySchema:
- AttributeName: locationId
KeyType: HASH
ProvisionedThroughput:
ReadCapacityUnits: 1
WriteCapacityUnits: 1
- Allow tables to be accessed by code
tracing:
lambda: true
iamRoleStatements:
- Effect: Allow
Action:
- dynamodb:PutItem
- dynamodb:Query
- dynamodb:Scan
- dynamodb:UpdateItem
- dynamodb:GetItem
Resource:
Fn::GetAtt:
- WeatherTable
- Arn
- Add dynamodb gem into Gemfile
gem 'aws-sdk-dynamodb'
- Require it in code
require 'aws-sdk-dynamodb'
DYNAMO_DB = Aws::DynamoDB::Client.new(region: 'eu-central-1')
- Install locally gems
bundle --no-deployment
- Update gem layer
docker run --rm -it -v $PWD:/var/gem_build -w /var/gem_build lambci/lambda:build-ruby2.5 bundle install --path=.
serverless deploy
- Refactor code to use db. Here an example:
#!/bin/ruby
require 'json'
require 'httparty'
require 'aws-sdk-dynamodb'
DYNAMO_DB = Aws::DynamoDB::Client.new(region: 'eu-central-1')
def temperature(event:, context:)
db_query = {
table_name: 'weather',
expression_attribute_values: {
':id' => 1
},
key_condition_expression: 'locationId = :id',
projection_expression: 'temperature',
}
resp = DYNAMO_DB.query(db_query)
temp = resp['items'].first['temperature'].to_f.round(1)
{
statusCode: 200,
body: JSON.generate({temperature: temp}),
headers: {
'Access-Control-Allow-Origin': '*',
}
}
end
-
Fill table with one value manually through AWS interface
-
Click
Create item
-
Insert item with type
Numbernamed temperature and a value
-
Verify your code works :)
-
Let's talk about cost / scaling of dynamodb.
- In the next part we will update the value in the database automatically
- We will use a new event type for that:
schedulewhich allows to trigger a function periodically.
events:
- schedule: rate(1 minute)
- This is the whole function definition
updateTemperature:
handler: handler.updateTemperature
layers:
- {Ref: GemLayerLambdaLayer}
environment:
GEM_PATH: /opt/2.7.0
events:
- schedule: rate(1 minute)
- Then we will add some code to update the value in the dynamodb table
def updateTemperature(event:, context:)
url = 'https://www.metaweather.com/api/location/646099/'
resp = HTTParty.get(url).parsed_response
temp = resp['consolidated_weather'].first['the_temp'].round(1)
resp = DYNAMO_DB.update_item({
table_name: 'weather',
key: {
locationId: 1
},
update_expression: 'set temperature = :t',
expression_attribute_values: {':t' => temp }
})
puts resp.inspect
end
- After deploying the code via
serverless deploywe will verify the code is executed periodically through XRay.
- In our last step we will add SQS (Simple Queue Service) to our serverless application.
- In our mind we want to ensure that if we query more locations, we use our weather api effectively.
- In most cases APIs allow to get several values at once.
- For our API this is not the case but we will still use this pattern in the example.
- We will always get two locations at once and we will ensure that we are not running two api requests at once.
- First we add a new gem
aws-sdk-sqsto our Gemfile.
source 'https://rubygems.org'
gem 'httparty'
gem 'aws-sdk-dynamodb'
gem 'aws-sdk-sqs'
- Install locally gems
bundle --no-deployment
- Update gem layer
docker run --rm -it -v $PWD:/var/gem_build -w /var/gem_build lambci/lambda:build-ruby2.5 bundle install --path=.
serverless deploy
- We will require the sqs sdk in the code and create a client
require 'aws-sdk-sqs'
SQS = Aws::SQS::Client.new(region: 'eu-central-1')
- Create a SQS Queue in serverless.yml through resources definition
resources:
Resources:
WeatherQueue:
Type: "AWS::SQS::Queue"
Properties:
QueueName: "Weather"
VisibilityTimeout: 30
MessageRetentionPeriod: 60
RedrivePolicy:
deadLetterTargetArn:
"Fn::GetAtt":
- WeatherDeadLetterQueue
- Arn
maxReceiveCount: 1
- And allow functions to access the queue
iamRoleStatements:
- Effect: Allow
Action:
- sqs:ReceiveMessage
- sqs:SendMessage
Resource:
- Fn::GetAtt:
- WeatherQueue
- Arn
- We will add a new function, called generateList which will set to scheduled at every minute.
def generateList(event:, context:)
locationList = [646099,667931,638242,656958,2487956,766273]
delay = 0
locationList.each do |l|
sqs_message = { locationId: l}
SQS.send_message(queue_url: ENV['SQS_URL'], message_body: sqs_message.to_json, delay_seconds: delay)
delay += 10
end
return 'Finished'
end
- This function will take care to add messages into a queue
generateList:
handler: handler.generateList
layers:
- {Ref: GemLayerLambdaLayer}
environment:
GEM_PATH: /opt/2.7.0
SQS_URL: !Ref WeatherQueue
events:
- schedule: rate(5 minutes)
- Our old updateTemperature method will be rewritten to be triggered by SQS.
def updateTemperature(event:, context:)
event['Records'].each do |r|
event = JSON.parse(r['body'])
locationId = event['locationId']
url = "https://www.metaweather.com/api/location/#{locationId}/"
resp = HTTParty.get(url).parsed_response
temp = resp['consolidated_weather'].first['the_temp'].round(1)
resp = DYNAMO_DB.update_item({
table_name: 'weather',
key: {
locationId: locationId
},
update_expression: 'set temperature = :t',
expression_attribute_values: {':t' => temp }
})
puts resp.inspect
end
return 'Finished'
end
- In the serverless.yml we will use a new event type named
sqs
events:
- sqs:
arn:
Fn::GetAtt:
- WeatherQueue
- Arn
batchSize: 2
- Through
batchSize: 2we ensure our function always get two messages at once. could allow us to reduce api requests e.g. by getting two weather values through one api request. - Through reservedConcurrency we ensure that no more than x api requests are send concurrently.
updateTemperature:
reservedConcurrency: 1
- Through delay in sqs messages we show a different possibility to care for api limits. Each message would be consumed 10 seconds later and reduce load e.g. to an api service or to a database. For example dynamodb writes are pretty expensive. Through such a pattern we could reduce the load easily.
SQS.send_message(queue_url: ENV['SQS_URL'], message_body: sqs_message.to_json, delay_seconds: delay)
delay += 10
- Now testing a function becomes harder as we need to fake e.g. SQS Payloads
- Create a new directory
testand add aupdateTemperature.jsonin the folder
{
"Records": [
{
"body" : "{ \"locationId\": 646099}"
},
{
"body" : "{ \"locationId\": 667931}"
}
]
}
- You can test with your local payload via
serverless invoke local -f updateTemperature -p test/updatTemperature.json
- Let's talk about SQS pricing, how lambda binds to SQS and the costs when you do not have a Dead Letter Queue.
- Read about serverless costs https://medium.com/@amiram_26122/the-hidden-costs-of-serverless-6ced7844780b
- Try tuning your lambda costs via tool https://github.com/alexcasalboni/aws-lambda-power-tuning