Download - Scalability in cloud applications
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Who am I?
Client requests
Is Cloud so different?
Cloud Services
• Cloud in general offers a lot of services that can make our life easier
• Cloud can offer more than machines scalability
• Cloud can help us to create application that are scalable in more than one point
How can we offer value in our solutions?
• Cloud in general offers a lot of services that can make our life easier
• Cloud can offer more than machines scalability
• Cloud can help us to create application that are scalable in more than one point
• We cannot offer a Cloud solution without knowing the environment
How can we offer value in our solutions?
Table Storage Service
• Stores any kind of serializable data• You don’t need any kind of complex data
structure or SQL knowledge.• Is not a relational database• In the same table you can have more than one
entity type• Each entity can have maximum 252 properties +
3 default• The maximum size of total tables cannot accede
100.000 GB (100TB)• The maximum size of an entity can be 1MB
Table Storage Service
Windows Azure Blob Storage
• Block blobs• Support multi-upload of blocks in parallel • When updating a block, the old version is not
override until you commit it• Can be used for large files
• Page blobs• Collection of pages of 512b• Can be accessed by an offset• Can be used when the content is changing
very often
• Maximum size 100TB
Windows Azure Blob Storage
• Relational database based on SQL Server• It is almost like SQL Server from on-premises • BUT:• We don’t have support for distributed
transactions• Each table have to contain at least one cluster
index• We cannot attach a database• We don’t have support for jobs
• Maximum size is 150 GB• Double check the total cost of a having a SQL
Database – there are a lot of times when we can use Table Storage Service
SQL Database
Queue Storage Service
• It is very similar with a named queue from Windows
• You can update the message from a queue• Support batches (maximum 32 messages on each
call)• Operations: peek, insert, delete, get • Remark: getting a message don’t remove the
message from queue• With some work you can even iterate in a queue• 500 - is the maximum number of messages that
can be processed per second• Message is persisted until someone will consume
it
Queue Storage Service
Service Bus
• Similar to Queue Storage Service• The order of the message is guaranteed• Death Letter support• Automatically counter for “number of retrives”• Duplicate messaging detection• Support for transaction, sessions • Are not as fast as Windows Azure Queues• The size of a Service Bus Queue is limited to 5 GB• Support for ACS (Access Control Service)• Any kind of serializable item can be added to the
queue• We can even add stream to a message queue (array of
bytes )
Service Bus Queue
• Multi-distribution mechanism for messages• Using Service Bus Queues we have 1 to 1
communication• Using Service Bus Topic we have 1 to n
communication• Each “listener” will receive each message from topic• Sessions, transaction, death letters are supported• Two ways for “listeners”
• Receive and delete• Peek and lock
• The message type is the same with Service Bus Queue – • BrokeredMessage
• Each message can contain 0 to n properties• We cannot update or add again the same message
Service Bus Topic
• Represent a communication bridge between cloud and on-premises world
• It is used with success when working with hybrid application
• Expose WCF services from on-premises servers using cloud
• Only one entry point• Requests are persisted even if the on-premises
server is down• We can control who access our services• The only thing that need to be changed is on the
configuration file of the server and client• We can only have request of type Fire And Forget
Service Bus Relay
Windows Azure Caching
• Nice feature: you pay only the machine computation• All the content is in the machine memory• 2 types of caching:
• Dedicated roles• Co-located roles (shared memory between application
and cache)• Cache cluster support (only in combination with a storage
account)• Maximum size of a cache is 14 GB (limited by the memory
size of VM role)• Each item can have an expiration date• Built in support for storing web session in the cache
Windows Azure Caching
• Offer build in caching mechanism• Can be accessed by anybody from
anywhere based on the namespace• Maximum size is 4 GB• Is more expensive than Windows Azure
Caching but can be accessed from any location
• This caching mechanism is offered as a service
• It is similar with Caching Server from on-premise servers
Caching Service
Azure Access Control Service (ACS)
• Provide us a mechanism to authenticate users from different identify providers: FB, Google, Y!, Live … even custom identify providers and Active Directory (2.0+)
• Is based on a claim based authentication • You never work with user credentials• Depending on the provider, you can access
different information about user • You don’t need anymore to implement a user
management mechanism • BUT, if you need, you will need to define roles
and store user id’s
Azure Access Control Service (ACS)
Shared Access Signature
• Provide a method to offer access to different resources from storage account
• You can provide access to resources without requiring a user to authenticate
• It is a simple way to control and manage who have access to your storage
• The base of this mechanism is a custom token• You can add, remove and change a SAS at
runtime• Each policy is defined by a unique id• The validity of a SAS can be limited (time base)
Shared Access Signature
Media Services
• The based action that can be done is: content streaming• Ingest – first step when content is uploaded (upload and
encryption)• Encoding – Process the media content (change the
encoding, converting and transform) – we can use only supported formats
• Protect – encryption of live streaming using a built-in mechanism
• Streaming – send content to consumers (even Apple HTTP Live Streaming is supported)
• Support for CDN (Azure and 3th party CDN’s are supported).
• Supported devices: Android, iOS, ,Mac, Windows Phone, Windows 8, X-box, embedded devices, dedicated devices
Media Services
Computing Services
• Can be used to develop web-application• Support different technologies (PHP,
node.js, .NET)• MySQL support • Low cost support – shared mode • Reserved mode – dedicated instance• Git support and a very fast rollback mechanism• Web.config – doesn’t need to contain Azure
configuration• Each site runs in an isolated environment
Windows Azure Websites
• Used to host application composed from multiple tiers
• Each web-role is scalable independently• In comparison with Azure Websites, a lot of
custom configuration can be done• Network isolation• Support for startup tasks• For example we can run a bat that make a
custom configuration to our firewall or install specific applications
• Any kind of framework can be used in this machines
Web Roles
• Perfect place to run long running task• Can be used with success with web-roles for tasks that run
in background• Cannot be used to host a web application• In the moment when the “WHEN(TRUE)” ends the worker
role process stop• Can be seen as a process that can execute a specific type
for an infinite period of time
Worker role
• Can be used to install any kind of operating system from Windows to Linux
• Built-in support and images available for different versions of Linux and Windows.
• Custom machines can be created with our own VHD• Built-in support for MongoDB, MySQL, Cassandra• Migration from on-premises to cloud and cloud to on-
premises can be done using VHD
Virtual Machine
Windows Azure Mobile Services
Messaging mechanism
• Windows Azure Queues • Windows Azure Service Bus Queues• Windows Azure Service Bus Topics
Messaging mechanism
More messages – What should we do?
• Cloud has is own limits• Cloud services are like other services
More messages – What should we do?
• Split the messages to more than one messaging service• Based on the type• Based on the source• Based on an attribute
Caching solutions
• Windows Azure AppFabric Cache• Cache is seen as a service• For consumer, the location of the cache is not
relevant• Windows Azure Cache• The cache is unique per instance • Cannot be synchronized between machines in
real time• Local cache• In-memory cache
Caching solutions
Storing binary data
Storing binary data
Storing binary data
• Images, ISO and binary content• Can be stored with success on blobs• CDNs • Direct access to data (security SAS)
• Videos • Blobs • Windows Azure Media Services
Storing binary data
• For cases where we need to write logs or audit data we can use with success:• Windows Azure Table + SAS
• Storing any kind of data in a non relational database• Windows Azure Table + SAS
• Storing relational data• SQL Azure
Storing information
• Can we expose WCF Services from a private network (on-premises) into a safe way?
• Can we guaranty that no request will be lost?
• Can we expose services in a manner to be 99% up even if our servers are up only 90% of time?
WCF Services
• Can we expose WCF Services from a private network (on-premises) into a safe way?
• Can we guaranty that no request will be lost?
• Can we expose services in a manner to be 99% up even if our servers are up only 90% of time?
• Windows Azure Service Bus Relay
WCF Services
• We have a web application that has long running task
• Each task take more than 5 seconds to execute
• How we can scale?
Long running task
• We have a web application that has long running task
• Each task take more than 5 seconds to execute
• How we can scale?• Long running request can run on a worker role, that can
scale independent• The result can be send to web-role using queues• Client can be notified using Web Sockets or SignalR
Long running task