The dreaded part of every site reliability engineer’s (SRE) job eventually: capacity planning. You know, the dance between all the stakeholders when deploying your applications. Did engineering really simulate the right load and do we understand how the application scales? Did product managers accurately estimate the amount of usage? Did we make architectural decisions that will keep us from meeting our SLA goals? And then the question that everyone will have to answer eventually: how much is this going to cost? This forces SREs to assume the roles of engineer, accountant and fortune teller.
The large cloud providers understood this a long time ago and so the term “cloud economics” was coined. Essentially this means: rent everything and only pay for what you need. I would say this message worked because we all love some cloud. It’s not a fad either. SREs can eliminate a lot of the downside when the initial infrastructure capacity discussion was maybe a little off. Being wrong is no longer devastating. Just add more of what you need and in the best cases, the services scale themselves — giving everyone a nice night’s sleep. All this without provisioning a server, which gave rise to the term “serverless.”
As serverless methodologies have burned through the application tiers, databases have turned out to be the last big thing to feel the heat of progress. No surprise though. Stateful workloads — as in information I really want to keep — is a much harder problem to solve than stateless workloads. The cloud providers have all released their own version of a serverless database, provided you agree to be locked into their walled garden. Open source has always served as the antidote for the dreaded lock-in, and there are really exciting things happening in the Apache Cassandra community in that regard.
#data #serverless #sponsored
In SSMS, we many of may noticed System Databases under the Database Folder. But how many of us knows its purpose?. In this article lets discuss about the System Databases in SQL Server.
Fig. 1 System Databases
There are five system databases, these databases are created while installing SQL Server.
#sql server #master system database #model system database #msdb system database #sql server system databases #ssms #system database #system databases in sql server #tempdb system database
A simple Boilerplate to Setup Authentication using Django-allauth, with a custom template for login and registration using
# clone the repo $ git clone https://github.com/yezz123/Django-Authentication # move to the project folder $ cd Django-Authentication
virtual environmentfor this project:
# creating pipenv environment for python 3 $ virtualenv venv # activating the pipenv environment $ cd venv/bin #windows environment you activate from Scripts folder # if you have multiple python 3 versions installed then $ source ./activate
SECRET_KEY = #random string DEBUG = #True or False ALLOWED_HOSTS = #localhost DATABASE_NAME = #database name (You can just use the default if you want to use SQLite) DATABASE_USER = #database user for postgres DATABASE_PASSWORD = #database password for postgres DATABASE_HOST = #database host for postgres DATABASE_PORT = #database port for postgres ACCOUNT_EMAIL_VERIFICATION = #mandatory or optional EMAIL_BACKEND = #email backend EMAIL_HOST = #email host EMAIL_HOST_PASSWORD = #email host password EMAIL_USE_TLS = # if your email use tls EMAIL_PORT = #email port
change all the environment variables in the
.env.sampleand don't forget to rename it to
After Setup the environment, you can run the project using the
Makefile provided in the project folder.
help: @echo "Targets:" @echo " make install" #install requirements @echo " make makemigrations" #prepare migrations @echo " make migrations" #migrate database @echo " make createsuperuser" #create superuser @echo " make run_server" #run the server @echo " make lint" #lint the code using black @echo " make test" #run the tests using Pytest
Includes preconfigured packages to kick start Django-Authentication by just setting appropriate configuration.
|django-allauth||Integrated set of Django applications addressing authentication, registration, account management as well as 3rd party (social) account authentication.|
|django-crispy-forms||django-crispy-forms provides you with a |
Source Code: https://github.com/yezz123/Django-Authentication
License: MIT License
Serverless M (or Serverless Modular) is a plugin for the serverless framework. This plugins helps you in managing multiple serverless projects with a single serverless.yml file. This plugin gives you a super charged CLI options that you can use to create new features, build them in a single file and deploy them all in parallel
Currently this plugin is tested for the below stack only
Make sure you have the serverless CLI installed
# Install serverless globally $ npm install serverless -g
To start the serverless modular project locally you can either start with es5 or es6 templates or add it as a plugin
# Step 1. Download the template $ sls create --template-url https://github.com/aa2kb/serverless-modular/tree/master/template/modular-es6 --path myModularService # Step 2. Change directory $ cd myModularService # Step 3. Create a package.json file $ npm init # Step 3. Install dependencies $ npm i serverless-modular serverless-webpack webpack --save-dev
# Step 1. Download the template $ sls create --template-url https://github.com/aa2kb/serverless-modular/tree/master/template/modular-es5 --path myModularService # Step 2. Change directory $ cd myModularService # Step 3. Create a package.json file $ npm init # Step 3. Install dependencies $ npm i serverless-modular --save-dev
If you dont want to use the templates above you can just add in your existing project
plugins: - serverless-modular
Now you are all done to start building your serverless modular functions
The serverless CLI can be accessed by
# Serverless Modular CLI $ serverless modular # shorthand $ sls m
Serverless Modular CLI is based on 4 main commands
sls m init
sls m feature
sls m function
sls m build
sls m deploy
sls m init
The serverless init command helps in creating a basic
.gitignore that is useful for serverless modular.
.gitignore for serverless modular looks like this
#node_modules node_modules #sm main functions sm.functions.yml #serverless file generated by build src/**/serverless.yml #main serverless directories generated for sls deploy .serverless #feature serverless directories generated sls deploy src/**/.serverless #serverless logs file generated for main sls deploy .sm.log #serverless logs file generated for feature sls deploy src/**/.sm.log #Webpack config copied in each feature src/**/webpack.config.js
The feature command helps in building new features for your project
This command comes with three options
--name: Specify the name you want for your feature
--remove: set value to true if you want to remove the feature
--basePath: Specify the basepath you want for your feature, this base path should be unique for all features. helps in running offline with offline plugin and for API Gateway
|--basePath||-p||❎||string||same as name|
Creating a basic feature
# Creating a jedi feature $ sls m feature -n jedi
Creating a feature with different base path
# A feature with different base path $ sls m feature -n jedi -p tatooine
Deleting a feature
# Anakin is going to delete the jedi feature $ sls m feature -n jedi -r true
The function command helps in adding new function to a feature
This command comes with four options
--name: Specify the name you want for your function
--feature: Specify the name of the existing feature
--path: Specify the path for HTTP endpoint helps in running offline with offline plugin and for API Gateway
--method: Specify the path for HTTP method helps in running offline with offline plugin and for API Gateway
|--path||-p||❎||string||same as name|
Creating a basic function
# Creating a cloak function for jedi feature $ sls m function -n cloak -f jedi
Creating a basic function with different path and method
# Creating a cloak function for jedi feature with custom path and HTTP method $ sls m function -n cloak -f jedi -p powers -m POST
The build command helps in building the project for local or global scope
This command comes with four options
--scope: Specify the scope of the build, use this with "--feature" tag
--feature: Specify the name of the existing feature you want to build
Saving build Config in serverless.yml
You can also save config in serverless.yml file
custom: smConfig: build: scope: local
all feature build (local scope)
# Building all local features $ sls m build
Single feature build (local scope)
# Building a single feature $ sls m build -f jedi -s local
All features build global scope
# Building all features with global scope $ sls m build -s global
The deploy command helps in deploying serverless projects to AWS (it uses
sls deploy command)
This command comes with four options
--sm-parallel: Specify if you want to deploy parallel (will only run in parallel when doing multiple deployments)
--sm-scope: Specify if you want to deploy local features or global
--sm-features: Specify the local features you want to deploy (comma separated if multiple)
Saving deploy Config in serverless.yml
You can also save config in serverless.yml file
custom: smConfig: deploy: scope: local parallel: true ignoreBuild: true
Deploy all features locally
# deploy all local features $ sls m deploy
Deploy all features globally
# deploy all global features $ sls m deploy --sm-scope global
Deploy single feature
# deploy all global features $ sls m deploy --sm-features jedi
Deploy Multiple features
# deploy all global features $ sls m deploy --sm-features jedi,sith,dark_side
Deploy Multiple features in sequence
# deploy all global features $ sls m deploy --sm-features jedi,sith,dark_side --sm-parallel false
Source Code: https://github.com/aa2kb/serverless-modular
License: MIT license
The pandemic has brought a period of transformation across businesses globally, pushing data and analytics to the forefront of decision making. Starting from enabling advanced data-driven operations to creating intelligent workflows, enterprise leaders have been looking to transform every part of their organisation.
SingleStore is one of the leading companies in the world, offering a unified database to facilitate fast analytics for organisations looking to embrace diverse data and accelerate their innovations. It provides an SQL platform to help companies aggregate, manage, and use the vast trove of data distributed across silos in multiple clouds and on-premise environments.
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In the past few years, especially after Amazon Web Services (AWS) introduced its Lambda platform, serverless architecture became the business realm’s buzzword. The increasing popularity of serverless applications saw market leaders like Netflix, Airbnb, Nike, etc., adopting the serverless architecture to handle their backend functions better. Moreover, serverless architecture’s market size is expected to reach a whopping $9.17 billion by the year 2023.
Why use serverless computing?
As a business it is best to approach a professional mobile app development company to build apps that are deployed on various servers; nevertheless, businesses should understand that the benefits of the serverless applications lie in the possibility it promises ideal business implementations and not in the hype created by cloud vendors. With the serverless architecture, the developers can easily code arbitrary codes on-demand without worrying about the underlying hardware.
But as is the case with all game-changing trends, many businesses opt for serverless applications just for the sake of being up-to-date with their peers without thinking about the actual need of their business.
The serverless applications work well with stateless use cases, the cases which execute cleanly and give the next operation in a sequence. On the other hand, the serverless architecture is not fit for predictable applications where there is a lot of reading and writing in the backend system.
Another benefit of working with the serverless software architecture is that the third-party service provider will charge based on the total number of requests. As the number of requests increases, the charge is bound to increase, but then it will cost significantly less than a dedicated IT infrastructure.
Defining serverless software architecture
In serverless software architecture, the application logic is implemented in an environment where operating systems, servers, or virtual machines are not visible. Although where the application logic is executed is running on any operating system which uses physical servers. But the difference here is that managing the infrastructure is the soul of the service provider and the mobile app developer focuses only on writing the codes.
There are two different approaches when it comes to serverless applications. They are
Backend as a service (BaaS)
Function as a service (FaaS)
Moreover, other examples of third-party services are Autho, AWS Cognito (authentication as a service), Amazon Kinesis, Keen IO (analytics as a service), and many more.
FaaS serverless architecture is majorly used with microservices architecture as it renders everything to the organization. AWS Lambda, Google Cloud functions, etc., are some of the examples of FaaS implementation.
Pros of Serverless applications
There are specific ways in which serverless applications can redefine the way business is done in the modern age and has some distinct advantages over the traditional could platforms. Here are a few –
🔹 Highly Scalable
The flexible nature of the serverless architecture makes it ideal for scaling the applications. The serverless application’s benefit is that it allows the vendor to run each of the functions in separate containers, allowing optimizing them automatically and effectively. Moreover, unlike in the traditional cloud, one doesn’t need to purchase a certain number of resources in serverless applications and can be as flexible as possible.
As the organizations don’t need to spend hundreds and thousands of dollars on hardware, they don’t need to pay anything to the engineers to maintain the hardware. The serverless application’s pricing model is execution based as the organization is charged according to the executions they have made.
The company that uses the serverless applications is allotted a specific amount of time, and the pricing of the execution depends on the memory required. Different types of costs like presence detection, access authorization, image processing, etc., associated with a physical or virtual server is completely eliminated with the serverless applications.
🔹 Focuses on user experience
As the companies don’t always think about maintaining the servers, it allows them to focus on more productive things like developing and improving customer service features. A recent survey says that about 56% of the users are either using or planning to use the serverless applications in the coming six months.
Moreover, as the companies would save money with serverless apps as they don’t have to maintain any hardware system, it can be then utilized to enhance the level of customer service and features of the apps.
🔹 Ease of migration
It is easy to get started with serverless applications by porting individual features and operate them as on-demand events. For example, in a CMS, a video plugin requires transcoding video for different formats and bitrates. If the organization wished to do this with a WordPress server, it might not be a good fit as it would require resources dedicated to serving pages rather than encoding the video.
Moreover, the benefits of serverless applications can be used optimally to handle metadata encoding and creation. Similarly, serverless apps can be used in other plugins that are often prone to critical vulnerabilities.
Cons of serverless applications
Despite having some clear benefits, serverless applications are not specific for every single use case. We have listed the top things that an organization should keep in mind while opting for serverless applications.
🔹 Complete dependence on third-party vendor
In the realm of serverless applications, the third-party vendor is the king, and the organizations have no options but to play according to their rules. For example, if an application is set in Lambda, it is not easy to port it into Azure. The same is the case for coding languages. In present times, only Python developers and Node.js developers have the luxury to choose between existing serverless options.
Therefore, if you are planning to consider serverless applications for your next project, make sure that your vendor has everything needed to complete the project.
🔹 Challenges in debugging with traditional tools
It isn’t easy to perform debugging, especially for large enterprise applications that include various individual functions. Serverless applications use traditional tools and thus provide no option to attach a debugger in the public cloud. The organization can either do the debugging process locally or use logging for the same purpose. In addition to this, the DevOps tools in the serverless application do not support the idea of quickly deploying small bits of codes into running applications.
#serverless-application #serverless #serverless-computing #serverless-architeture #serverless-application-prosand-cons