| .. SPDX-License-Identifier: GPL-2.0 |
| |
| .. _GPIO_LINEEVENT_DATA_READ: |
| |
| ************************ |
| GPIO_LINEEVENT_DATA_READ |
| ************************ |
| |
| .. warning:: |
| This ioctl is part of chardev_v1.rst and is obsoleted by |
| gpio-v2-line-event-read.rst. |
| |
| Name |
| ==== |
| |
| GPIO_LINEEVENT_DATA_READ - Read edge detection events from a line event. |
| |
| Synopsis |
| ======== |
| |
| ``int read(int event_fd, void *buf, size_t count)`` |
| |
| Arguments |
| ========= |
| |
| ``event_fd`` |
| The file descriptor of the GPIO character device, as returned in the |
| :c:type:`request.fd<gpioevent_request>` by gpio-get-lineevent-ioctl.rst. |
| |
| ``buf`` |
| The buffer to contain the :c:type:`events<gpioevent_data>`. |
| |
| ``count`` |
| The number of bytes available in ``buf``, which must be at |
| least the size of a :c:type:`gpioevent_data`. |
| |
| Description |
| =========== |
| |
| Read edge detection events for a line from a line event. |
| |
| Edge detection must be enabled for the input line using either |
| ``GPIOEVENT_REQUEST_RISING_EDGE`` or ``GPIOEVENT_REQUEST_FALLING_EDGE``, or |
| both. Edge events are then generated whenever edge interrupts are detected on |
| the input line. |
| |
| Edges are defined in terms of changes to the logical line value, so an inactive |
| to active transition is a rising edge. If ``GPIOHANDLE_REQUEST_ACTIVE_LOW`` is |
| set then logical polarity is the opposite of physical polarity, and |
| ``GPIOEVENT_REQUEST_RISING_EDGE`` then corresponds to a falling physical edge. |
| |
| The kernel captures and timestamps edge events as close as possible to their |
| occurrence and stores them in a buffer from where they can be read by |
| userspace at its convenience using `read()`. |
| |
| The source of the clock for :c:type:`event.timestamp<gpioevent_data>` is |
| ``CLOCK_MONOTONIC``, except for kernels earlier than Linux 5.7 when it was |
| ``CLOCK_REALTIME``. There is no indication in the :c:type:`gpioevent_data` |
| as to which clock source is used, it must be determined from either the kernel |
| version or sanity checks on the timestamp itself. |
| |
| Events read from the buffer are always in the same order that they were |
| detected by the kernel. |
| |
| The size of the kernel event buffer is fixed at 16 events. |
| |
| The buffer may overflow if bursts of events occur quicker than they are read |
| by userspace. If an overflow occurs then the most recent event is discarded. |
| Overflow cannot be detected from userspace. |
| |
| To minimize the number of calls required to copy events from the kernel to |
| userspace, `read()` supports copying multiple events. The number of events |
| copied is the lower of the number available in the kernel buffer and the |
| number that will fit in the userspace buffer (``buf``). |
| |
| The `read()` will block if no event is available and the ``event_fd`` has not |
| been set **O_NONBLOCK**. |
| |
| The presence of an event can be tested for by checking that the ``event_fd`` is |
| readable using `poll()` or an equivalent. |
| |
| Return Value |
| ============ |
| |
| On success the number of bytes read, which will be a multiple of the size of |
| a :c:type:`gpio_lineevent_data` event. |
| |
| On error -1 and the ``errno`` variable is set appropriately. |
| Common error codes are described in error-codes.rst. |