SD_EVENT_ADD_MEMORY_PRESSURE(3) | sd_event_add_memory_pressure | SD_EVENT_ADD_MEMORY_PRESSURE(3) |
NAME
sd_event_add_memory_pressure, sd_event_source_set_memory_pressure_type, sd_event_source_set_memory_pressure_period, sd_event_trim_memory - Add and configure an event source run as result of memory pressure
SYNOPSIS
#include <systemd/sd-event.h>
typedef struct sd_event_source sd_event_source;
int sd_event_add_memory_pressure(sd_event *event, sd_event_source **ret_source, sd_event_handler_t handler, void *userdata);
int sd_event_source_set_memory_pressure_type(sd_event_source *source, const char *type);
int sd_event_source_set_memory_pressure_period(sd_event_source *source, uint64_t threshold_usec, uint64_t window_usec);
int sd_event_trim_memory(void);
DESCRIPTION
sd_event_add_memory_pressure() adds a new event source that is triggered whenever memory pressure is seen. This functionality is built around the Linux kernel's Pressure Stall Information (PSI)[1] logic.
Expects an event loop object as first parameter, and returns the allocated event source object in the second parameter, on success. The handler parameter is a function to call when memory pressure is seen, or NULL. The handler function will be passed the userdata pointer, which may be chosen freely by the caller. The handler may return negative to signal an error (see below), other return values are ignored. If handler is NULL, a default handler that compacts allocation caches maintained by libsystemd as well as glibc (via malloc_trim(3)) will be used.
To destroy an event source object use sd_event_source_unref(3), but note that the event source is only removed from the event loop when all references to the event source are dropped. To make sure an event source does not fire anymore, even if it is still referenced, disable the event source using sd_event_source_set_enabled(3) with SD_EVENT_OFF.
If the second parameter of sd_event_add_memory_pressure() is NULL no reference to the event source object is returned. In this case the event source is considered "floating", and will be destroyed implicitly when the event loop itself is destroyed.
The event source will fire according to the following logic:
Or in other words: preferably any explicit configuration passed in by an invoking service manager (or similar) is used as notification source, before falling back to local notifications of the service, and finally to global notifications of the system.
Well-behaving services and applications are recommended to react to memory pressure events by executing one or more of the following operations, in order to ensure optimal behaviour even on loaded and resource-constrained systems:
Any of the suggested operations should help easing memory pressure situations and allowing the system to make progress by reclaiming the memory for other purposes.
This event source typically fires on memory pressure stalls, i.e. when operational latency above a configured threshold already has been seen. This should be taken into consideration when discussing whether later latency to re-aquire any released resources is acceptable: it's usually more important to think of the latencies that already happened than those coming up in future.
The sd_event_source_set_memory_pressure_type() and sd_event_source_set_memory_pressure_period() functions can be used to fine-tune the PSI parameters for pressure notifications. The former takes either "some", "full" as second parameter, the latter takes threshold and period times in microseconds as parameters. For details about these three parameters see the PSI documentation. Note that these two calls must be invoked immediately after allocating the event source, as they must be configured before polling begins. Also note that these calls will fail if memory pressure parameterization has been passed in via the $MEMORY_PRESSURE_WATCH/$MEMORY_PRESSURE_WRITE environment variables (or in other words: configuration supplied by a service manager wins over internal settings).
The sd_event_trim_memory() function releases various internal allocation caches maintained by libsystemd and then invokes glibc's malloc_trim(3). This makes the operation executed when the handler function parameter of sd_event_add_memory_pressure is passed as NULL directly accessible for invocation at any time (see above). This function will log a structured log message at LOG_DEBUG level (with message ID f9b0be465ad540d0850ad32172d57c21) about the memory pressure operation.
For further details see Memory Pressure Handling in systemd[2].
RETURN VALUE
On success, these functions return 0 or a positive integer. On failure, they return a negative errno-style error code.
Errors
Returned errors may indicate the following problems:
-ENOMEM
Added in version 254.
-EINVAL
Added in version 254.
-EHOSTDOWN
Added in version 254.
-EBADMSG
Added in version 254.
-ENOTTY
Added in version 254.
-EOPNOTSUPP
Added in version 254.
-EBUSY
Added in version 254.
-ESTALE
Added in version 254.
-ECHILD
Added in version 254.
-EDOM
Added in version 254.
NOTES
Functions described here are available as a shared library, which can be compiled against and linked to with the libsystemd pkg-config(1) file.
The code described here uses getenv(3), which is declared to be not multi-thread-safe. This means that the code calling the functions described here must not call setenv(3) from a parallel thread. It is recommended to only do calls to setenv() from an early phase of the program when no other threads have been started.
HISTORY
sd_event_add_memory_pressure(), sd_event_source_set_memory_pressure_type(), sd_event_source_set_memory_pressure_period(), and sd_event_trim_memory() were added in version 254.
SEE ALSO
systemd(1), sd-event(3), sd_event_new(3), sd_event_add_io(3), sd_event_add_time(3), sd_event_add_child(3), sd_event_add_inotify(3), sd_event_add_defer(3), sd_event_source_set_enabled(3), sd_event_source_set_description(3), sd_event_source_set_userdata(3), sd_event_source_set_floating(3)
NOTES
- 1.
- Pressure Stall Information (PSI)
- 2.
- Memory Pressure Handling in systemd
systemd 257 |