Cloud FoundryThe Building of the Open PaaS         Derek Collison         July 27, 2011
What isCloud Foundry?
The OpenPlatform as a Service
What isPaaS?
Or morespecifically, an   aPaaS?
aPaaS• Application Platform as a Service• Applications and Services• Not VMs, Memory, Storage, CPU
What isOpenPaaS?
OpenPaaS• Multi-Language• Multi-Framework• Multi-Services• Multi-Cloud, Multi-IaaS• Hybrid - Public or Private or Both• Op...
OpenPaaS•   Multi-Language    •   Java, Scala, Ruby, Node, Erlang, PHP..•   Multi-Framework    •   Spring, Grails, Express...
The Open PaaS                                                                  .js                  Ap                    ...
What was our Goal?• Raise the unit of currency to the be  the application and its associated  services, not the infrastruc...
How was it Built?• Kernel and Orchestrator Shells •   Layered on top of IaaS• Kernel •   Core PaaS System• Orchestrator • ...
High Level    Clients (VMC, STS, Browser)             CF Kernel           Orchestrator               IaaSHardware - CPU/Me...
Basic Premises•   Assume failure•   Optimize for MTTR, not MTBF    •   MTTR = Mean Time To Recovery    •   MTBF = Mean Tim...
Basic Patterns• Event-Driven• Asynchronous• Non-blocking• Independent, Idempotent• Message passing• Eventually consistent
Basic Design•   All components loosely coupled    •   Few “Classes”, many “Instances”•   Messaging as foundation    •   Ad...
Kernel Components• All dynamically discoverable• Launch and scale in any order• Can come and go as needed• Monitor via HTT...
Kernel Components• Router• CloudController• DEA• HealthManager• Messaging System
Logical View                                                       BrowserVMC client    STS plugin                        ...
Messaging•   Addressing and Discovery    •   No static IPs or DNS lookups req’d    •   Just Layer 4•   Command and Control...
Router• Handles all HTTP traffic• Maintains distributed routing state• Routes URLs to applications• Distributes load among...
CloudController• Handles all state transitions• Deals with users, apps, and services• Packages and Stages applications• Bi...
HealthManager• Monitors the state• Initial value with realtime delta  updates to intended vs real• Determines drift• Compl...
DEA        (Droplet Execution Agent)•   Responsible for running all applications•   Monitors all applications    •   CPU, ...
Services•   One of the extensibility planes•   First class citizen•   Bound to applications•   Can be shared•   Services A...
Architecture
How does it all   work?
Pushing an App•   Client (VMC/STS) pushes meta-data to CC•   Client optionally pushes resource    signatures (diff analysi...
Architecture
Running an App•   CC asks DEAs for “help”•   First DEA back wins! Simple•   CC sends start request to selected DEA•   DEA ...
Architecture
DEAs answer?•   DEAs first determine YES or NO    •   correct runtime, options, memory, etc•   Then calculate a Delay Tain...
Scale up & down?• Exact steps as running the app the  first time• SHA1 taint helps avoid clustering• memory/cpu taint help...
Crashes?•   If your app stops and we did not tell it    to, that is a crash•   Crashed apps are immediately detected    by...
Architecture
Access to my App?•   All routers understand where all    instances of your application are running•   Will randomly pick b...
Thank You
Questions?dcollison@vmware.comderek.collison@gmail.com@derekcollison
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Cloud foundry - the building of the open paas presentation

  1. 1. Cloud FoundryThe Building of the Open PaaS Derek Collison July 27, 2011
  2. 2. What isCloud Foundry?
  3. 3. The OpenPlatform as a Service
  4. 4. What isPaaS?
  5. 5. Or morespecifically, an aPaaS?
  6. 6. aPaaS• Application Platform as a Service• Applications and Services• Not VMs, Memory, Storage, CPU
  7. 7. What isOpenPaaS?
  8. 8. OpenPaaS• Multi-Language• Multi-Framework• Multi-Services• Multi-Cloud, Multi-IaaS• Hybrid - Public or Private or Both• OpenSource
  9. 9. OpenPaaS• Multi-Language • Java, Scala, Ruby, Node, Erlang, PHP..• Multi-Framework • Spring, Grails, Express, Rails, Lift, MochiWeb• Multi-Services • MySQL, Postgres, MongoDB, Redis, RabbitMQ• Multi-Cloud, Multi-IaaS • vSphere, OpenStack, AWS, Eucalyptus
  10. 10. The Open PaaS .js Ap ce p Private lic rfa Clouds atData Services te io In n Se er r vid … vic Public o e Clouds Pr Msg Services In te ud rfa o Cl .COM ce Micro Other Services Clouds
  11. 11. What was our Goal?• Raise the unit of currency to the be the application and its associated services, not the infrastructure• Best of breed delivery platform for all modern applications and frameworks• Favor Choice and Openness• Simplicity and Speed
  12. 12. How was it Built?• Kernel and Orchestrator Shells • Layered on top of IaaS• Kernel • Core PaaS System• Orchestrator • Creation, management and orchestration of the infrastructure
  13. 13. High Level Clients (VMC, STS, Browser) CF Kernel Orchestrator IaaSHardware - CPU/Memory/Disk/Network
  14. 14. Basic Premises• Assume failure• Optimize for MTTR, not MTBF • MTTR = Mean Time To Recovery • MTBF = Mean Time Between Failures• Fail Fast• Self Healing• Horizontally Scalable Components• Distributed state, No single POF• Should be as simple as possible
  15. 15. Basic Patterns• Event-Driven• Asynchronous• Non-blocking• Independent, Idempotent• Message passing• Eventually consistent
  16. 16. Basic Design• All components loosely coupled • Few “Classes”, many “Instances”• Messaging as foundation • Addressing and Component Discovery • Command and Control• JSON payloads• HTTP or File/Blob for data transport
  17. 17. Kernel Components• All dynamically discoverable• Launch and scale in any order• Can come and go as needed• Monitor via HTTP and JSON• Location independent
  18. 18. Kernel Components• Router• CloudController• DEA• HealthManager• Messaging System
  19. 19. Logical View BrowserVMC client STS plugin (user app access) Routers CloudControllers App App HealthManager Services DEA Pool Messaging
  20. 20. Messaging• Addressing and Discovery • No static IPs or DNS lookups req’d • Just Layer 4• Command and Control• Central communication system• Dial tone, fire and forget• Protects *itself* at all costs• Idempotent semantics
  21. 21. Router• Handles all HTTP traffic• Maintains distributed routing state• Routes URLs to applications• Distributes load among instances• Realtime distributed updates to routing tables from DEAs
  22. 22. CloudController• Handles all state transitions• Deals with users, apps, and services• Packages and Stages applications• Binds Services to Applications• Presents external REST API
  23. 23. HealthManager• Monitors the state• Initial value with realtime delta updates to intended vs real• Determines drift• Complains to the CloudControllers when something is not correct• No power to change state itself
  24. 24. DEA (Droplet Execution Agent)• Responsible for running all applications• Monitors all applications • CPU, Mem, IO, Threads, Disk, FDs, etc• All apps look same to DEA, start and stop• “concept” of ability and desire to run an application • runtimes, options, cluster avoidance, memory/cpu• Alerts on any change in state of applications• Provides secure/constrained OS runtime • Hypervisor, Unix File and User, Linux Containers • Single or Multi-Tenant
  25. 25. Services• One of the extensibility planes• First class citizen• Bound to applications• Can be shared• Services API to discover, list, and provision• Direct access to service after provisioned• Easy way to bind any service to an app
  26. 26. Architecture
  27. 27. How does it all work?
  28. 28. Pushing an App• Client (VMC/STS) pushes meta-data to CC• Client optionally pushes resource signatures (diff analysis, sys wide)• Client pushes app resources to CC• CC puts app together• CC stages app asynchronously• CC binds and stages services• Droplet ready
  29. 29. Architecture
  30. 30. Running an App• CC asks DEAs for “help”• First DEA back wins! Simple• CC sends start request to selected DEA• DEA pushes the “green” button• DEA waits and monitors pid and ephemeral port for app to bind• When app is healthy, sends “register” message• Register message is seen by HM and Routers• Routers bind URL to host:port
  31. 31. Architecture
  32. 32. DEAs answer?• DEAs first determine YES or NO • correct runtime, options, memory, etc• Then calculate a Delay Taint • SHA hash of app instance • memory • cpu• This taint allows balancing and selection
  33. 33. Scale up & down?• Exact steps as running the app the first time• SHA1 taint helps avoid clustering• memory/cpu taint helps distribute as evenly as possible• Nothing pre-computed or strict
  34. 34. Crashes?• If your app stops and we did not tell it to, that is a crash• Crashed apps are immediately detected by DEA and message sent• Routers disconnect route• HM will signal a CC that something is wrong• CC will issue run sequence again
  35. 35. Architecture
  36. 36. Access to my App?• All routers understand where all instances of your application are running• Will randomly pick backend, not semantically aware.• Will remove routes that are stale or unhealthy• Session stickiness and replication available, but best to avoid if possible
  37. 37. Thank You
  38. 38. Questions?dcollison@vmware.comderek.collison@gmail.com@derekcollison

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