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Project Earl Grey

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Brief introduction of concepts and architecture of open-source online game server library Earlgrey.

Publicado en: Tecnología
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Project Earl Grey

  1. 1. Earl Grey<br />Concepts & Architecture for Dummies<br />
  2. 2. What is it?<br />Online game server framework <br />Open source project with MIT license<br /><br />Still under development<br />
  3. 3. Keywords<br />Intel x86/x64 (Itanium)<br />Multi processor machine <br />Plenty of main memory<br />Windows Vista/2003 and newer (Official)<br />Windows XP/2000 (Non-official)<br />Standalone (Without third-party libraries)<br />Lock-free algorithm (Threading)<br />IO Completion Port (Network)<br />
  4. 4. Vision<br /> Provides basic functionalities and extensible architecture needed to build high performing, still solid online game servers<br />
  5. 5. Threading – Task analysis<br />Two different kinds of tasks<br />CPU-bound<br />takes a lot of CPU usages<br />takes computer resources just for a short time<br />Examples: HP calculation <br />IO-bound<br />takes relatively less CPU usages<br />takes computer resources for a long time<br />Examples: database operations<br />
  6. 6. Threading – Thread groups<br />CPU-bound  IOCP thread group <br />Client requests<br />IO-bound <br />Not yet implemented<br />Database operations<br />Logging operations (Separation from IO-bound thread group is being considered)<br />Main thread<br />Starts and ends the application<br />
  7. 7. Threading - Performance<br />Race condition<br />One resource / Multiple threads<br />Best solution is not to share it!<br />Cache invalidation<br />One task / Multiple processors<br />Best solution is to attach a thread to a specific processor <br />A task should be fully processed in a thread<br />Can’t depend on OS’ optimization<br />
  8. 8. Threading - Performance<br />CPU-bound thread group<br />No waiting!<br />Waiting means a thread unavailable<br />Posts IO-bound tasks to the IOCP thread group.<br />Message posting mechanism is required.<br />Request should be processed in a short time<br />A processor takes only one thread.<br />
  9. 9. Threading - Performance<br />IO-bound thread group<br />Waiting is inevitable for some kinds of operations.<br />Assign multiple threads to a processor<br />Best receipt should be decided by a hand or a some mechanism which is not yet developed.<br />
  10. 10. Threading - Performance<br />Each thread holds copies of read-only or no-need-to-be-shared resources.<br />Ex) Internal buffers of FromUnicode function.<br />Race condition is resolved by lock-free containers.<br />Traditional locking mechanism is still being used for one-time initialization of singleton instances.<br />Message posting mechanism<br />Each thread/thread group has its own roles.<br />Copying data usually results in better performance than just waiting for shared resources.<br />
  11. 11. Memory – GreedyAllocator<br />Global heap allocator.<br />Greedy?<br />Never return memory space to OS.<br />Structure is relatively simple  High performance. <br />Designed on the assumption that each application has a dedicated machine.<br />Not yet optimized<br />Cache line size<br />Large page size (if a processor supports)<br />
  12. 12. Memory – ThreadLocalAllocator<br />Minimize race conditions and waiting time.<br />Each thread has its own memory pool.<br />If a thread has shortage of memory space, send a request to a global heap allocator.<br />If thread A has plenty of memory space and thread B has shortage, a memory manager send a memory chunk from A to B.<br />Faster about 10 times than Windows’ low-fragmentation heap.<br />
  13. 13. Memory – StackAllocator<br />Allocates memory on the stack (_malloca).<br />Free allocated memory space automatically.<br />Allocation is super-fast.<br />Simple real-time check is implemented.<br />
  14. 14. Memory – Third-parties<br />TBBAllocator<br />Intel Threading Block Library<br />LFHAllocator<br />Low-fragmentation Heap Allocator<br />
  15. 15. Memory – STL support<br />x-containers/x-streams<br />Using a global heap allocator (GreedyAllocator)<br />Fast<br />xwstring, xwstringstream, xvector, and so on<br />auto-containers/auto-streams<br />Using a stack allocator (StackAllocator)<br />Super-fast<br />Life cycle of instances should be carefully considered<br />auto_wstring, auto_wstringstream, and so on<br />
  16. 16. Future tasks<br />Complete feature set of asynchronous networking.<br />Rich set of diagnostics<br />Rolling log file/DebugOutput loggings and so on <br />Integration with third-party libraries like log4cxx<br />Performance tuning (Ex. detecting a heavy request)<br />IO-bound thread group<br />Administration tool <br />Telnet-based tool for Win32 services<br />
  17. 17. Credit<br />Cover photo<br />