In tracing, the buffering mode is the behavior of a trace provider when it fills its buffer. If a trace provider's buffer fills while a trace is running, you may get an incomplete trace.
The behavior of each trace provider is independent of other trace providers. If one trace provider fills its buffer, other trace providers can still continue to record trace events into their own buffers until the trace stops.
There are three buffering modes:
For information on the BufferingMode
for the fuchsia.tracing.provider
FIDL, see
BufferingMode
.
Oneshot
In this buffer mode, there is a single durable buffer. If the buffer of the tracing provider becomes full, then that trace provider stops recording events.
Circular
In this buffer mode, the trace buffer is divided into three pieces, the durable buffer and two rolling buffers. The durable buffer is for records important enough that they should not be lost. These include records for thread and string references.
When you start a trace, the tracing provider writes data to the first rolling buffer. Once one rolling buffer fills, the tracing provider writes data to the other rolling buffer.
If the durable buffer fills, then tracing for the tracing provider stops. This behavior does not affect other tracing providers.
Streaming
In this buffer mode, the trace buffer is divided into three pieces, the durable buffer and two rolling buffers. The durable buffer is for records important enough that they should not be lost. These include records for thread and string references.
When you start a trace, the tracing provider writes data to the first rolling buffer. Once one rolling buffer fills, the tracing provider notifies the trace manager that one rolling buffer is full and writes data to the other rolling buffer. If the other rolling buffer is not available, then data is dropped until the rolling buffer becomes available. A rolling buffer becomes unavailable between the point when it is filled and when the trace manager reports back that the buffer's contents have been saved.
The possibility of dropped data depends on the rate at which the tracing provider creates records and the rate at which the trace manager can save the buffers. Dropped data can result in a partially incomplete trace, but in most cases this is more desirable than affecting program performance by waiting for a buffer to be saved.
If the durable buffer fills, then tracing for the tracing provider stops. This behavior does not affect other tracing providers.