Documentation/driver-api/nvdimm/firmware-activate.rst - linux - Git at Google

 .. SPDX-License-Identifier: GPL-2.0

 ==================================
 NVDIMM Runtime Firmware Activation
 ==================================

 Some persistent memory devices run a firmware locally on the device /
 "DIMM" to perform tasks like media management, capacity provisioning,
 and health monitoring. The process of updating that firmware typically
 involves a reboot because it has implications for in-flight memory
 transactions. However, reboots are disruptive and at least the Intel
 persistent memory platform implementation, described by the Intel ACPI
 DSM specification [1], has added support for activating firmware at
 runtime.

 A native sysfs interface is implemented in libnvdimm to allow platform
 to advertise and control their local runtime firmware activation
 capability.

 The libnvdimm bus object, ndbusX, implements an ndbusX/firmware/activate
 attribute that shows the state of the firmware activation as one of 'idle',
 'armed', 'overflow', and 'busy'.

 - idle:
   No devices are set / armed to activate firmware

 - armed:
   At least one device is armed

 - busy:
   In the busy state armed devices are in the process of transitioning
   back to idle and completing an activation cycle.

 - overflow:
   If the platform has a concept of incremental work needed to perform
   the activation it could be the case that too many DIMMs are armed for
   activation. In that scenario the potential for firmware activation to
   timeout is indicated by the 'overflow' state.

 The 'ndbusX/firmware/activate' property can be written with a value of
 either 'live', or 'quiesce'. A value of 'quiesce' triggers the kernel to
 run firmware activation from within the equivalent of the hibernation
 'freeze' state where drivers and applications are notified to stop their
 modifications of system memory. A value of 'live' attempts
 firmware activation without this hibernation cycle. The
 'ndbusX/firmware/activate' property will be elided completely if no
 firmware activation capability is detected.

 Another property 'ndbusX/firmware/capability' indicates a value of
 'live' or 'quiesce', where 'live' indicates that the firmware
 does not require or inflict any quiesce period on the system to update
 firmware. A capability value of 'quiesce' indicates that firmware does
 expect and injects a quiet period for the memory controller, but 'live'
 may still be written to 'ndbusX/firmware/activate' as an override to
 assume the risk of racing firmware update with in-flight device and
 application activity. The 'ndbusX/firmware/capability' property will be
 elided completely if no firmware activation capability is detected.

 The libnvdimm memory-device / DIMM object, nmemX, implements
 'nmemX/firmware/activate' and 'nmemX/firmware/result' attributes to
 communicate the per-device firmware activation state. Similar to the
 'ndbusX/firmware/activate' attribute, the 'nmemX/firmware/activate'
 attribute indicates 'idle', 'armed', or 'busy'. The state transitions
 from 'armed' to 'idle' when the system is prepared to activate firmware,
 firmware staged + state set to armed, and 'ndbusX/firmware/activate' is
 triggered. After that activation event the nmemX/firmware/result
 attribute reflects the state of the last activation as one of:

 - none:
   No runtime activation triggered since the last time the device was reset

 - success:
   The last runtime activation completed successfully.

 - fail:
   The last runtime activation failed for device-specific reasons.

 - not_staged:
   The last runtime activation failed due to a sequencing error of the
   firmware image not being staged.

 - need_reset:
   Runtime firmware activation failed, but the firmware can still be
   activated via the legacy method of power-cycling the system.

 [1]: https://docs.pmem.io/persistent-memory/
	.. SPDX-License-Identifier: GPL-2.0

	==================================
	NVDIMM Runtime Firmware Activation
	==================================

	Some persistent memory devices run a firmware locally on the device /
	"DIMM" to perform tasks like media management, capacity provisioning,
	and health monitoring. The process of updating that firmware typically
	involves a reboot because it has implications for in-flight memory
	transactions. However, reboots are disruptive and at least the Intel
	persistent memory platform implementation, described by the Intel ACPI
	DSM specification [1], has added support for activating firmware at
	runtime.

	A native sysfs interface is implemented in libnvdimm to allow platform
	to advertise and control their local runtime firmware activation
	capability.

	The libnvdimm bus object, ndbusX, implements an ndbusX/firmware/activate
	attribute that shows the state of the firmware activation as one of 'idle',
	'armed', 'overflow', and 'busy'.

	- idle:
	No devices are set / armed to activate firmware

	- armed:
	At least one device is armed

	- busy:
	In the busy state armed devices are in the process of transitioning
	back to idle and completing an activation cycle.

	- overflow:
	If the platform has a concept of incremental work needed to perform
	the activation it could be the case that too many DIMMs are armed for
	activation. In that scenario the potential for firmware activation to
	timeout is indicated by the 'overflow' state.

	The 'ndbusX/firmware/activate' property can be written with a value of
	either 'live', or 'quiesce'. A value of 'quiesce' triggers the kernel to
	run firmware activation from within the equivalent of the hibernation
	'freeze' state where drivers and applications are notified to stop their
	modifications of system memory. A value of 'live' attempts
	firmware activation without this hibernation cycle. The
	'ndbusX/firmware/activate' property will be elided completely if no
	firmware activation capability is detected.

	Another property 'ndbusX/firmware/capability' indicates a value of
	'live' or 'quiesce', where 'live' indicates that the firmware
	does not require or inflict any quiesce period on the system to update
	firmware. A capability value of 'quiesce' indicates that firmware does
	expect and injects a quiet period for the memory controller, but 'live'
	may still be written to 'ndbusX/firmware/activate' as an override to
	assume the risk of racing firmware update with in-flight device and
	application activity. The 'ndbusX/firmware/capability' property will be
	elided completely if no firmware activation capability is detected.

	The libnvdimm memory-device / DIMM object, nmemX, implements
	'nmemX/firmware/activate' and 'nmemX/firmware/result' attributes to
	communicate the per-device firmware activation state. Similar to the
	'ndbusX/firmware/activate' attribute, the 'nmemX/firmware/activate'
	attribute indicates 'idle', 'armed', or 'busy'. The state transitions
	from 'armed' to 'idle' when the system is prepared to activate firmware,
	firmware staged + state set to armed, and 'ndbusX/firmware/activate' is
	triggered. After that activation event the nmemX/firmware/result
	attribute reflects the state of the last activation as one of:

	- none:
	No runtime activation triggered since the last time the device was reset

	- success:
	The last runtime activation completed successfully.

	- fail:
	The last runtime activation failed for device-specific reasons.

	- not_staged:
	The last runtime activation failed due to a sequencing error of the
	firmware image not being staged.

	- need_reset:
	Runtime firmware activation failed, but the firmware can still be
	activated via the legacy method of power-cycling the system.

	[1]: https://docs.pmem.io/persistent-memory/