@@ -148,9 +148,18 @@ struct v4l2_subdev_io_pin_config {
* each pin being configured. This function could be called at times
* other than just subdevice initialization.
*
- * @init: initialize the sensor registers to some sort of reasonable default
- * values. Do not use for new drivers and should be removed in existing
- * drivers.
+ * @init: initialize the subdevice registers to some sort of reasonable default
+ * values. Do not use for new drivers (and should be removed in existing
+ * ones) for regular architectures where the image sensor is connected to
+ * the host receiver. For more complex architectures where the subdevice
+ * initialization should be deferred to the completion of the probe
+ * sequence of some intermediate component, or the communication bus
+ * requires configurations on the host side that depend on the completion
+ * of the probe sequence of the remote subdevices, the usage of this
+ * operation could be considered to allow the devices along the pipeline to
+ * probe and register in the media graph and to defer any operation that
+ * require actual access to the communication bus to their init() function
+ * implementation.
*
* @load_fw: load firmware.
*
The init() subdev core operation is deemed to be deprecated for new subdevice drivers. However it could prove useful for complex architectures to defer operation that require access to the communication bus if said bus is not available (or fully configured) at the time when the subdevice probe() function is run. As an example, the GMSL architecture requires the GMSL configuration link to be configured on the host side after the remote subdevice has completed its probe function. After the configuration on the host side has been performed, the subdevice registers can be accessed through the communication bus. In particular: HOST REMOTE probe() | ---------------------> | probe() { bus config() } |<--------------------| v4l2 async bound { bus config() call subdev init() |-------------------->| init() { access register on the bus() } |<------------------- } In the GMSL use case the bus configuration requires the enablement of the noise immunity threshold on the remote side which ensures reliability of communications in electrically noisy environments. After the subdevice has enabled the threshold at the end of its probe() sequence the host side shall compensate it with an higher signal amplitude. Once this sequence has completed the bus can be accessed with noise protection enabled and all the operations that require a considerable number of transactions on the bus (such as the image sensor configuration sequence) are run in the subdevice init() operation implementation. Signed-off-by: Jacopo Mondi <jacopo+renesas@jmondi.org> --- include/media/v4l2-subdev.h | 15 ++++++++++++--- 1 file changed, 12 insertions(+), 3 deletions(-)