Introduction
- This paper presents the design of a new Web server architecture called the asymmetric multi-process event-driven (AMPED) architecture, and evaluates the performance of an implementation of this architecture, the Flash Web server.
- 在这之前,主要存在3种不同的web server architecture
- The single-process event-driven (SPED) architecture
- The multi-process (MP) architecture
- The multi-threaded (MT) architecture
Simplified Request Processing Steps
- All of these steps involve operations that can potentially block.
- read data or accept connections from a socket may block if the expected data has not yet arrived from the client.
- write to a socket may block if the TCP send buffers are full due to limited network capacity.
- test a file’s validity (using stat()) or open the file (using open()) can block until any necessary disk accesses complete.
- reading a file (using read()) or accessing
data from a memory-mapped file region can block while data is read from disk.
3种不同的web server architecture存在的问题
-
The single-process event-driven (SPED) architecture
- single process of execution.
- using non-blocking system calls to perform I/O operations(An operation like select or poll).
- non-blocking read and write operations work as expected on network sockets and pipes, but may actually block when used on disk files.
- read,write,open and stat operations may still be blocking.
- single process of execution.
-
The multi-process (MP) architecture
- each process handles one request.
- disadvantages
- each process has its separate address space.
- cannot share data: separate cache.
- context switch overhead(上下文切换所带来的开销).
-
The multi-threaded (MT) architecture
- each thread handles one request.
- advantages
- one address space: all threads share one cache.
- less context switch overhead.
- OS has to support kernel threads
Asymmetric Multi Process Event Driven
- Combination of MP and SPED.
- Use non-blocking calls to perform network and pipe operations.
- Use helper process to perform blocking disk I/O operations,Helper process can be a separate thread or process.
- Master and Helper process communicate through IPC
- Master and Helper mmap() the same request file.
- Helper process reads file from disk and brings into memory.
- Helper notifies master that file is ready.
- Avoid data transfer between processes.
Flash web server
- Implementation of the AMPED architecture.
- Uses aggressive caching
- The helper processes are responsible for performing
pathname translations and for bringing disk blocks into memory. - Response header caching
- Caching of already mapped files.
- The helper processes are responsible for performing
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