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## Why Do GCC Memory Barriers Fail to Guarantee Data Visibility in Shared-Memory IPC on x64?
## Why Do GCC Memory Barriers Fail to Guarantee Data Visibility in Shared-Memory IPC on x64?
Shared-Memory IPC Synchronization (Lock-Free)
Question:
Developers seek an effective synchronization mechanism for shared-memory IPC in a scenario involving multiple processes on an Intel x64 server with shared data in a circular buffer. They propose leveraging memory barriers to guarantee data visibility across CPUs for seamless read/write access. However, GCC memory barriers fail to meet expectations.
Answer:
Boost Interprocess's Single-Producer Single-Consumer (SPSC) queue, spsc_queue, offers a lock-free solution for shared-memory IPC queues.
Implementation:
-
Define Types:
Define custom types for managing shared memory and string allocation:- char_alloc: Allocator for shared memory
- shared_string: String with transparent memory allocation
- string_alloc: Allocator for shared_string
- ring_buffer: Boost SPSC queue for shared memory
-
Consumer:
- Open or create a shared memory segment and locate the shared queue if it exists.
- Continuously monitor the queue for pending jobs and process them.
-
Producer:
- Open or create a shared memory segment and locate the shared queue.
- Push messages onto the queue at regular intervals.
Example Usage:
Create two processes, a consumer and a producer, using the above implementation. The consumer monitors the queue while the producer pushes messages. Observe the seamless interprocess messaging in realtime or burst mode.
Advantages:
- Locks-free synchronization mechanism
- Memory visibility guaranteed through SPSC semantics
- Suitable for multi-process IPC scenarios
The above is the detailed content of ## Why Do GCC Memory Barriers Fail to Guarantee Data Visibility in Shared-Memory IPC on x64?. For more information, please follow other related articles on the PHP Chinese website!
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