Manual browser: mb_read(9)
|MB(9)||Kernel Developer's Manual||MB(9)|
NAMEmb, mb_memory, mb_read, mb_write — memory barriers
DESCRIPTIONMany types of processor can execute instructions in a different order than issued by the compiler or assembler. On a uniprocessor system, out of order execution is transparent to the programmer, operating system and applications, as the processor must ensure that it is self consistent.
On multiprocessor systems, out of order execution can present a problem where locks are not used to guarantee atomicity of access, because loads and stores issued by any given processor can appear on the system bus (and thus appear to other processors) in an unpredictable order.
mb_memory(), mb_read(), and mb_write() can be used to control the order in which memory accesses occur, and thus the order in which those accesses become visible to other processors. They can be used to implement “lockless” access to data structures where the necessary barrier conditions are well understood.
Memory barriers can be computationally expensive, as they are considered “serializing” operations and may stall further execution until the processor has drained internal buffers and re-synchronized.
The memory barrier primitives control only the order of memory access. They provide no guarantee that stores have been flushed to the bus, or that loads have been made from the bus.
The memory barrier primitives are guaranteed only to prevent reordering of accesses to main memory. They do not provide any guarantee of ordering when used with device memory (for example, loads or stores to or from a PCI device). To guarantee ordering of access to device memory, the bus_dma(9) and bus_space(9) interfaces should be used.
- Issue a full memory barrier, ordering all memory accesses. Causes all loads and stores preceding the call to mb_memory() to complete before further memory accesses can be made.
- Issue a read memory barrier, ordering all loads from memory. Causes all loads preceding the call to mb_read() to complete before further loads can be made. Stores may be reordered ahead of or behind a call to mb_read().
- Issue a write memory barrier, ordering all stores to memory. Causes all stores preceding the call to mb_write() to complete before further stores can be made. Loads may be reordered ahead of or behind a call to mb_write().
HISTORYThe memory barrier primitives first appeared in NetBSD 5.0.
|January 2, 2011||NetBSD 7.0|