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author | Petr Mladek <pmladek@suse.com> | 2019-10-30 16:43:12 +0100 |
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committer | Petr Mladek <pmladek@suse.com> | 2019-11-01 13:08:24 +0100 |
commit | e553d2a53d47853b3f1780fd65f8259672daabed (patch) | |
tree | 488ac0f22db78af1a6ff16f82e5537ee887d2da9 /Documentation/livepatch | |
parent | 92c9abf5e57500ea7dc59a55273aa7850b631bda (diff) | |
download | linux-stable-e553d2a53d47853b3f1780fd65f8259672daabed.tar.gz linux-stable-e553d2a53d47853b3f1780fd65f8259672daabed.tar.bz2 linux-stable-e553d2a53d47853b3f1780fd65f8259672daabed.zip |
livepatch: Documentation of the new API for tracking system state changes
Documentation explaining the motivation, capabilities, and usage
of the new API for tracking system state changes.
Link: http://lkml.kernel.org/r/20191030154313.13263-5-pmladek@suse.com
To: Jiri Kosina <jikos@kernel.org>
Cc: Kamalesh Babulal <kamalesh@linux.vnet.ibm.com>
Cc: Nicolai Stange <nstange@suse.de>
Cc: live-patching@vger.kernel.org
Cc: linux-kernel@vger.kernel.org
Acked-by: Miroslav Benes <mbenes@suse.cz>
Acked-by: Joe Lawrence <joe.lawrence@redhat.com>
Acked-by: Josh Poimboeuf <jpoimboe@redhat.com>
Signed-off-by: Petr Mladek <pmladek@suse.com>
Diffstat (limited to 'Documentation/livepatch')
-rw-r--r-- | Documentation/livepatch/index.rst | 1 | ||||
-rw-r--r-- | Documentation/livepatch/system-state.rst | 167 |
2 files changed, 168 insertions, 0 deletions
diff --git a/Documentation/livepatch/index.rst b/Documentation/livepatch/index.rst index 17674a9e21b2..525944063be7 100644 --- a/Documentation/livepatch/index.rst +++ b/Documentation/livepatch/index.rst @@ -12,6 +12,7 @@ Kernel Livepatching cumulative-patches module-elf-format shadow-vars + system-state .. only:: subproject and html diff --git a/Documentation/livepatch/system-state.rst b/Documentation/livepatch/system-state.rst new file mode 100644 index 000000000000..c6d127c2d9aa --- /dev/null +++ b/Documentation/livepatch/system-state.rst @@ -0,0 +1,167 @@ +==================== +System State Changes +==================== + +Some users are really reluctant to reboot a system. This brings the need +to provide more livepatches and maintain some compatibility between them. + +Maintaining more livepatches is much easier with cumulative livepatches. +Each new livepatch completely replaces any older one. It can keep, +add, and even remove fixes. And it is typically safe to replace any version +of the livepatch with any other one thanks to the atomic replace feature. + +The problems might come with shadow variables and callbacks. They might +change the system behavior or state so that it is no longer safe to +go back and use an older livepatch or the original kernel code. Also +any new livepatch must be able to detect what changes have already been +done by the already installed livepatches. + +This is where the livepatch system state tracking gets useful. It +allows to: + + - store data needed to manipulate and restore the system state + + - define compatibility between livepatches using a change id + and version + + +1. Livepatch system state API +============================= + +The state of the system might get modified either by several livepatch callbacks +or by the newly used code. Also it must be possible to find changes done by +already installed livepatches. + +Each modified state is described by struct klp_state, see +include/linux/livepatch.h. + +Each livepatch defines an array of struct klp_states. They mention +all states that the livepatch modifies. + +The livepatch author must define the following two fields for each +struct klp_state: + + - *id* + + - Non-zero number used to identify the affected system state. + + - *version* + + - Number describing the variant of the system state change that + is supported by the given livepatch. + +The state can be manipulated using two functions: + + - *klp_get_state(patch, id)* + + - Get struct klp_state associated with the given livepatch + and state id. + + - *klp_get_prev_state(id)* + + - Get struct klp_state associated with the given feature id and + already installed livepatches. + +2. Livepatch compatibility +========================== + +The system state version is used to prevent loading incompatible livepatches. +The check is done when the livepatch is enabled. The rules are: + + - Any completely new system state modification is allowed. + + - System state modifications with the same or higher version are allowed + for already modified system states. + + - Cumulative livepatches must handle all system state modifications from + already installed livepatches. + + - Non-cumulative livepatches are allowed to touch already modified + system states. + +3. Supported scenarios +====================== + +Livepatches have their life-cycle and the same is true for the system +state changes. Every compatible livepatch has to support the following +scenarios: + + - Modify the system state when the livepatch gets enabled and the state + has not been already modified by a livepatches that are being + replaced. + + - Take over or update the system state modification when is has already + been done by a livepatch that is being replaced. + + - Restore the original state when the livepatch is disabled. + + - Restore the previous state when the transition is reverted. + It might be the original system state or the state modification + done by livepatches that were being replaced. + + - Remove any already made changes when error occurs and the livepatch + cannot get enabled. + +4. Expected usage +================= + +System states are usually modified by livepatch callbacks. The expected +role of each callback is as follows: + +*pre_patch()* + + - Allocate *state->data* when necessary. The allocation might fail + and *pre_patch()* is the only callback that could stop loading + of the livepatch. The allocation is not needed when the data + are already provided by previously installed livepatches. + + - Do any other preparatory action that is needed by + the new code even before the transition gets finished. + For example, initialize *state->data*. + + The system state itself is typically modified in *post_patch()* + when the entire system is able to handle it. + + - Clean up its own mess in case of error. It might be done by a custom + code or by calling *post_unpatch()* explicitly. + +*post_patch()* + + - Copy *state->data* from the previous livepatch when they are + compatible. + + - Do the actual system state modification. Eventually allow + the new code to use it. + + - Make sure that *state->data* has all necessary information. + + - Free *state->data* from replaces livepatches when they are + not longer needed. + +*pre_unpatch()* + + - Prevent the code, added by the livepatch, relying on the system + state change. + + - Revert the system state modification.. + +*post_unpatch()* + + - Distinguish transition reverse and livepatch disabling by + checking *klp_get_prev_state()*. + + - In case of transition reverse, restore the previous system + state. It might mean doing nothing. + + - Remove any not longer needed setting or data. + +.. note:: + + *pre_unpatch()* typically does symmetric operations to *post_patch()*. + Except that it is called only when the livepatch is being disabled. + Therefore it does not need to care about any previously installed + livepatch. + + *post_unpatch()* typically does symmetric operations to *pre_patch()*. + It might be called also during the transition reverse. Therefore it + has to handle the state of the previously installed livepatches. |