Hi Mathieu, On 8/26/20 6:45 PM, Mathieu Poirier wrote: > Following the work done here [1] this set provides support for the > remoteproc core to release resources associated with a remote processor > without having to switch it off. That way a platform driver can be removed > or the applcation processor power cycled while the remote processor is > still operating. > > I have not tested the solution because of the work involved in getting > a new firmware image to support the feature. I will do so once it is > determined that this is the right approach to follow. I just started watching your series. I also think that we have first to determine the approach that match meets the requirements of all companies. Here is my feeling, waiting more feedback from community: If I understand your approach correctly you propose that the application determines the firmware live-cycle. Depending on request, the remoteproc core performs a "shutdown" ( stop + unprepare) or a "detach". The platform driver can(or have to?) implement the stop and/or the detach. By default a preloaded firmware is detached and a "standard" firmware is stopped on kernel shutdown (rproc_del). As we have seen with the rproc cdev, it might not be simple to manage this in case of crash. For instance you can have a Firmware started by the boot-stages but which must be gracefully stopped in case of crash. Another approach would be to let the platform driver decides what should be done on the stop and prepare ops depending on the HW context. So the platform driver would be in charge of detaching the firmware. In this case the issue is to determine the state after stop. the information would be in platform driver. I would be more in flavor of the second one, because application would not have to be aware of the co-processor firmware life-cycle, and the firmware could expose its own constraints for shutdown. A third approach (or complementary approach): I don't know why i didn't think of it before... The attach/detach feature is quite similar to the regulator management. For regulator 2 DT properties exist[1]: - regulator-always-on: boolean, regulator should never be disabled - regulator-boot-on: bootloader/firmware enabled regulator It is a static configuration but could be implemented for both the attach and the detach in the core part. Else if a more dynamic management could be managed by the platform driver (depending on the loaded firmware). [1]https://elixir.bootlin.com/linux/v4.0/source/Documentation/devicetree/bindings/regulator/regulator.txt Thanks, Arnaud > > Applies cleanly on rproc-next (62b8f9e99329) > > Thanks, > Mathieu > > [1]. https://lkml.org/lkml/2020/7/14/1600 > > Mathieu Poirier (13): > remoteproc: Re-check state in rproc_shutdown() > remoteproc: Remove useless check in rproc_del() > remoteproc: Add new RPROC_ATTACHED state > remoteproc: Properly represent the attached state > remoteproc: Add new detach() remoteproc operation > remoteproc: Introduce function __rproc_detach() > remoteproc: Introduce function rproc_detach() > remoteproc: Rename function rproc_actuate() > remoteproc: Add return value to function rproc_shutdown() > remoteproc: Properly deal with a stop request when attached > remoteproc: Properly deal with detach request > remoteproc: Refactor rproc delete and cdev release path > remoteproc: Properly deal with a kernel panic when attached > > drivers/remoteproc/remoteproc_cdev.c | 18 ++- > drivers/remoteproc/remoteproc_core.c | 151 +++++++++++++++++++++----- > drivers/remoteproc/remoteproc_sysfs.c | 17 ++- > include/linux/remoteproc.h | 14 ++- > 4 files changed, 157 insertions(+), 43 deletions(-) >