On May 6, 2014 5:56:00 PM GMT+01:00, Srinivas Pandruvada <srinivas.pandruvada@xxxxxxxxxxxxxxx> wrote:
Hi Jonathan, The Android user space has some capability to ask the supported hardware to enable buffering in hardware. I don't think that we can achieve this by current ABI. Do you want me to propose new ABI?
This is closely related to watershed events on buffers, both software and hardware. We had these back in the early days but the interface was fiddly. It used a couple of iio events to tell user space the watershed was passed. One suggestion from Arnd Bergmann was to use one of the less commonly used poll types to indicate this to user space. It was in a long system wide review he did not long after we entered staging. Looked like a neat idea as could coexist nicely with existing interfaces on the same buffer. Would definitely require a fair bit of documentation. Thread in question is around about: https://lkml.org/lkml/2011/3/16/190 Also note we already have hardware buffered devices pushing into software buffers (without a trigger) which effectively handle the same use case using existing interfaces. See the ti_am335x_adc driver. There is definitely room for something more controllable but it shouldn't be too focused on hardware buffering as makes sense for software buffers too! So to take a stab in the air we need some means of setting the watershed level (and a callback to pass this on to the hardware if that makes sense). The fiddly cases are going to be the corner cases such as when the length changes. what do you think?
" Android batch mode: batch(int handle, int flags, int64_t period_ns, int64_t max_report_latency) Enabling batch mode for a given sensor sets the delay between events. max_report_latency sets the maximum time by which events can be delayed and batched together before being reported to the applications. A value of zero disables batch mode for the given sensor. The period_ns parameter is equivalent to calling setDelay() -- this function both enables or disables the batch mode AND sets the event's period in nanoseconds. See setDelay() for a detailed explanation of the period_ns parameter.
Hmm. Max latency would just be a timeout on the poll. Period is a trigger characteristic or a hardware one if no explicit trigger is present. There is clearly ad
In non-batch mode, all sensor events must be reported as soon as they are detected. For example, an accelerometer activated at 50Hz will trigger interrupts 50 times per second. While in batch mode, sensor events do not need to be reported as soon as they are detected. They can be temporarily stored and reported in batches, as long as no event is delayed by more than maxReportingLatency nanoseconds. That is, all events since the previous batch are recorded and returned at once. This reduces the amount of interrupts sent to the SoC and allows the SoC to switch to a lower power mode (idle) while the sensor is capturing and batching data. setDelay() is not affected and it behaves as usual. Each event has a timestamp associated with it. The timestamp must be accurate and correspond to the time at which the event physically happened. Batching does not modify the behavior of poll(): batches from different sensors can be interleaved and split. As usual, all events from the same sensor are time-ordered. " Thanks, Srinivas
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