On 2022-10-27 18:40, Beau Belgrave wrote:
As part of the discussions for user_events aligned with user space tracers, it was determined that user programs should register a 32-bit value to set or clear a bit when an event becomes enabled. Currently a shared page is being used that requires mmap(). In this new model during the event registration from user programs 2 new values are specified. The first is the address to update when the event is either enabled or disabled. The second is the bit to set/clear to reflect the event being enabled. This allows for a local 32-bit value in user programs to support both kernel and user tracers. As an example, setting bit 31 for kernel tracers when the event becomes enabled allows for user tracers to use the other bits for ref counts or other flags. The kernel side updates the bit atomically, user programs need to also update these values atomically.
Nice!
User provided addresses must be aligned on a 32-bit boundary, this allows for single page checking and prevents odd behaviors such as a 32-bit value straddling 2 pages instead of a single page. When page faults are encountered they are done asyncly via a workqueue. If the page faults back in, the write update is attempted again. If the page cannot fault-in, then we log and wait until the next time the event is enabled/disabled. This is to prevent possible infinite loops resulting from bad user processes unmapping or changing protection values after registering the address.
I'll have a close look at this workqueue page fault scheme, probably next week.
NOTE: User programs that wish to have the enable bit shared across forks either need to use a MAP_SHARED allocated address or register a new address and file descriptor. If MAP_SHARED cannot be used or new registrations cannot be done, then it's allowable to use MAP_PRIVATE as long as the forked children never update the page themselves. Once the page has been updated, the page from the parent will be copied over to the child. This new copy-on-write page will not receive updates from the kernel until another registration has been performed with this new address.
This seems rather odd. I would expect that if a parent process registers some instrumentation using private mappings for enabled state through the user events ioctl, and then forks, the child process would seamlessly be traced by the user events ABI while being able to also change the enabled state from the userspace tracer libraries (which would trigger COW). Requiring the child to re-register to user events is rather odd.
What is preventing us from tracing the child without re-registration in this scenario ?
Thanks, Mathieu
Beau Belgrave (2): tracing/user_events: Use remote writes for event enablement tracing/user_events: Fixup enable faults asyncly include/linux/user_events.h | 10 +- kernel/trace/trace_events_user.c | 396 ++++++++++++++++++++----------- 2 files changed, 270 insertions(+), 136 deletions(-) base-commit: 23758867219c8d84c8363316e6dd2f9fd7ae3049
-- Mathieu Desnoyers EfficiOS Inc. https://www.efficios.com
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