Anton Vorontsov wrote: Hi Anton, > > Sorry, I didn't comment on the first version. So my comments for > this version is below. Note, I only briefly looked in the code, > thus the comments are really superficial. > > So... this subsystem is _huge_. And so it needs documentation. Yes, > the code is well commented, much thanks for this. But the > documentation is needed, for example, to answer these simple > questions: > > - What userspace interface the subsystem provides (i.e. for use with > userspace tools). > - What kernel interface the subsystem provides (i.e. for use with > in-kernel drivers, for example touchscreens). > - What is iio_ring (as I see it, is one of basic concepts of this > subsystem), I'd like to see description of its basic usage. > - What is struct iio_event_data, what is event's "id"? How it is used > across subsystem? > > There is a lot of questions more. Of course, half the questions I'll > answer myself through reading the code... But you really need to > describe basic ideas of 2431-LOC-subsystem. > > Something like Documentation/gpio.txt would work. Agreed, sorry about that - docs are about half written and should probably have finished them off before I posted the patch. I'll try and get a first version cleaned up and posted today. Main issue at the moment is getting example code into a state where it isn't too dependent on the exact board setup I'm testing on. > On the subsystem itself. I would recommend you to split the > industrialio_{core,rtc,ring,ptimer_board_info} into separate modules > (if possible) and into separate patches (for better reviewing). > > Few more comments below. > > [...] >> + >> +#define INIT_IIO_RING_BUFFER(ring_buf, _bytes_per_datum, _length) { \ >> + (ring_buf)->size = _bytes_per_datum; \ >> + (ring_buf)->length = _length; \ >> + (ring_buf)->loopcount = 0; \ >> + (ring_buf)->shared_ev_pointer.ev_p = 0; \ >> + (ring_buf)->shared_ev_pointer.lock = \ >> + __SPIN_LOCK_UNLOCKED((ring_buf) \ >> + ->shared_ev_pointer->loc); \ >> + } > > Is it possible to convert this into function? Good point. No idea why I did it like that! > [...] >> + /* Event control attributes */ >> + struct attribute_group *event_attrs; >> + /* The character device related elements */ >> + struct iio_event_interface *event_interfaces; >> + >> +/* Software Ring Buffer >> + - for now assuming only makes sense to have a single ring */ > > These comments are really hard to parse. Try to turn off syntax > highlighting (if you use), and see the result. It is really > unreadable. > > So, I'd suggest to use kernel doc syntax to describe the fields. > > For example, I very like how include/linux/mtd/nand.h is commented. > It is in kernel doc, plus explains what fields are > internal/driver-specific/e.t.c. Thanks for the pointer, I'll do that. > [...] >> + IIO_DEVICE_ATTR(z_gain, _mode, _show, _store, _addr) >> + > > Why such a generic subsystem should be aware of X/Y/Z? ADC can measure > strength of wind, for example. But in fact it measures voltage and/or > current. Yes, it is convenient to tell user what exactly chip is > supposed to measure, but it is chip (and thus driver) specific, > subsystem should only provides means to expose that information, but > it should not be aware of what exactly we're measuring. At least that is > how I imagine the ADC subsystem. I'd argue this is actually connected to improving the usability of the system. I would envision that the set of definitions (probably broken out into specific headers for different classes of device) and will grow considerably. If a particular parameter is available in say 2 drivers, or looks like it will be, then it will get moved to the main headers rather than being driver specific. The basic advantages of doing it this way are concerned with user readability. If we know the device is an accelerometer rather than a general ADC is would be silly to have the user guessing which of the inputs are accelerations rather than say temperature readings. Clearly there are issues with definitions of axes on these devices but that will be something to clear up by clear documentation (pick a standard and stick to it!). Clearly there are cases, for example where an accelerometer is attached via a generic ADC in which we don't have the inherent ability to identify the inputs from the generic adc driver. Given this is a common setup, there may well be some scope for custom drivers for any common sensor circuits or indeed providing a way specifying this in a board config. It will be interesting to see how this pans out. What I also forgot to mention alongside the patches is that each driver should be accompanied by a userspace header file providing conversion function to real world units as appropriate. This is clearly required to interpret the data coming out of the ring buffers (which will always be as raw as possible). There is also the question of whether the outputs in sysfs of say acceleration should be converted to SI units or left as raw readings. For now I'm inclined to leave them raw as the calibration of such sensors within systems is fairly complex and often done as an offline process. However I'm definitely open to other opinions on this. Thanks for taking a look and providing feedback. -- Jonathan Cameron