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For a new grace period request, the RCU GP kthread transitions through following states: a. [RCU_GP_WAIT_GPS] -> [RCU_GP_DONE_GPS] The RCU_GP_WAIT_GPS state is where the GP kthread waits for a request for a new GP. Once it receives a request (for example, when a new RCU callback is queued), the GP kthread transitions to RCU_GP_DONE_GPS. b. [RCU_GP_DONE_GPS] -> [RCU_GP_ONOFF] Grace period initialization starts in rcu_gp_init(), which records the start of new GP in rcu_state.gp_seq and transitions to RCU_GP_ONOFF. c. [RCU_GP_ONOFF] -> [RCU_GP_INIT] The purpose of the RCU_GP_ONOFF state is to apply the online/offline information that was buffered for any CPUs that recently came online or went offline. This state is maintained in per-leaf rcu_node bitmasks, with the buffered state in ->qsmaskinitnext and the state for the upcoming GP in ->qsmaskinit. At the end of this RCU_GP_ONOFF state, each bit in ->qsmaskinit will correspond to a CPU that must pass through a quiescent state before the upcoming grace period is allowed to complete. However, a leaf rcu_node structure with an all-zeroes ->qsmaskinit cannot necessarily be ignored. In preemptible RCU, there might well be tasks still in RCU read-side critical sections that were first preempted while running on one of the CPUs managed by this structure. Such tasks will be queued on this structure's ->blkd_tasks list. Only after this list fully drains can this leaf rcu_node structure be ignored, and even then only if none of its CPUs have come back online in the meantime. Once that happens, the ->qsmaskinit masks further up the tree will be updated to exclude this leaf rcu_node structure. Once the ->qsmaskinitnext and ->qsmaskinit fields have been updated as needed, the GP kthread transitions to RCU_GP_INIT. d. [RCU_GP_INIT] -> [RCU_GP_WAIT_FQS] The purpose of the RCU_GP_INIT state is to copy each ->qsmaskinit to the ->qsmask field within each rcu_node structure. This copying is done breadth-first from the root to the leaves. Why not just copy directly from ->qsmaskinitnext to ->qsmask? Because the ->qsmaskinitnext masks can change in the meantime as additional CPUs come online or go offline. Such changes would result in inconsistencies in the ->qsmask fields up and down the tree, which could in turn result in too-short grace periods or grace-period hangs. These issues are avoided by snapshotting the leaf rcu_node structures' ->qsmaskinitnext fields into their ->qsmaskinit counterparts, generating a consistent set of ->qsmaskinit fields throughout the tree, and only then copying these consistent ->qsmaskinit fields to their ->qsmask counterparts. Once this initialization step is complete, the GP kthread transitions to RCU_GP_WAIT_FQS, where it waits to do a force-quiescent-state scan on the one hand or for the end of the grace period on the other. e. [RCU_GP_WAIT_FQS] -> [RCU_GP_DOING_FQS] The RCU_GP_WAIT_FQS state waits for one of three things: (1) An explicit request to do a force-quiescent-state scan, (2) The end of the grace period, or (3) A short interval of time, after which it will do a force-quiescent-state (FQS) scan. The explicit request can come from rcutorture or from any CPU that has too many RCU callbacks queued (see the qhimark kernel parameter and the RCU_GP_FLAG_OVLD flag). The aforementioned "short period of time" is specified by the jiffies_till_first_fqs boot parameter for a given grace period's first FQS scan and by the jiffies_till_next_fqs for later FQS scans. Either way, once the wait is over, the GP kthread transitions to RCU_GP_DOING_FQS. f. [RCU_GP_DOING_FQS] -> [RCU_GP_CLEANUP] The RCU_GP_DOING_FQS state performs an FQS scan. Each such scan carries out two functions for any CPU whose bit is still set in its leaf rcu_node structure's ->qsmask field, that is, for any CPU that has not yet reported a quiescent state for the current grace period: i. Report quiescent states on behalf of CPUs that have been observed to be idle (from an RCU perspective) since the beginning of the grace period. ii. If the current grace period is too old, take various actions to encourage holdout CPUs to pass through quiescent states, including enlisting the aid of any calls to cond_resched() and might_sleep(), and even including IPIing the holdout CPUs. These checks are skipped for any leaf rcu_node structure with a all-zero ->qsmask field, however such structures are subject to RCU priority boosting if there are tasks on a given structure blocking the current grace period. The end of the grace period is detected when the root rcu_node structure's ->qsmask is zero and when there are no longer any preempted tasks blocking the current grace period. (No, this last check is not redundant. To see this, consider an rcu_node tree having exactly one structure that serves as both root and leaf.) Once the end of the grace period is detected, the GP kthread transitions to RCU_GP_CLEANUP. g. [RCU_GP_CLEANUP] -> [RCU_GP_CLEANED] The RCU_GP_CLEANUP state marks the end of grace period by updating the rcu_state structure's ->gp_seq field and also all rcu_node structures' ->gp_seq field. As before, the rcu_node tree is traversed in breadth first order. Once this update is complete, the GP kthread transitions to the RCU_GP_CLEANED state. i. [RCU_GP_CLEANED] -> [RCU_GP_INIT] Once in the RCU_GP_CLEANED state, the GP kthread immediately transitions into the RCU_GP_INIT state. j. The role of timers. If there is at least one idle CPU, and if timers are not firing, the transition from RCU_GP_DOING_FQS to RCU_GP_CLEANUP will never happen. Timers can fail to fire for a number of reasons, including issues in timer configuration, issues in the timer framework, and failure to handle softirqs (for example, when there is a storm of interrupts). Whatever the reason, if the timers fail to fire, the GP kthread will never be awakened, resulting in RCU CPU stall warnings and eventually in OOM. However, an RCU CPU stall warning has a large number of potential causes, as documented in Documentation/RCU/stallwarn.rst. This commit therefore adds analysis to the RCU CPU stall-warning code to emit an additional message if the cause of the stall is likely to be timer failure. Signed-off-by: Neeraj Upadhyay <neeraju@codeaurora.org> Signed-off-by: Paul E. McKenney <paulmck@kernel.org> |
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.. | ||
Kconfig | ||
Kconfig.debug | ||
Makefile | ||
rcu_segcblist.c | ||
rcu_segcblist.h | ||
rcu.h | ||
rcuscale.c | ||
rcutorture.c | ||
refscale.c | ||
srcutiny.c | ||
srcutree.c | ||
sync.c | ||
tasks.h | ||
tiny.c | ||
tree_exp.h | ||
tree_plugin.h | ||
tree_stall.h | ||
tree.c | ||
tree.h | ||
update.c |