src/core/cgroup.h - systemd-stable - Rivoreo Source Code Repositories

 /* SPDX-License-Identifier: LGPL-2.1+ */
 #pragma once

 #include <stdbool.h>

 #include "cgroup-util.h"
 #include "cpu-set-util.h"
 #include "ip-address-access.h"
 #include "list.h"
 #include "time-util.h"

 typedef struct TasksMax {
         /* If scale == 0, just use value; otherwise, value / scale.
          * See tasks_max_resolve(). */
         uint64_t value;
         uint64_t scale;
 } TasksMax;

 #define TASKS_MAX_UNSET ((TasksMax) { .value = UINT64_MAX, .scale = 0 })

 static inline bool tasks_max_isset(const TasksMax *tasks_max) {
         return tasks_max->value != UINT64_MAX || tasks_max->scale != 0;
 }

 uint64_t tasks_max_resolve(const TasksMax *tasks_max);

 typedef struct CGroupContext CGroupContext;
 typedef struct CGroupDeviceAllow CGroupDeviceAllow;
 typedef struct CGroupIODeviceWeight CGroupIODeviceWeight;
 typedef struct CGroupIODeviceLimit CGroupIODeviceLimit;
 typedef struct CGroupIODeviceLatency CGroupIODeviceLatency;
 typedef struct CGroupBlockIODeviceWeight CGroupBlockIODeviceWeight;
 typedef struct CGroupBlockIODeviceBandwidth CGroupBlockIODeviceBandwidth;

 typedef enum CGroupDevicePolicy {
         /* When devices listed, will allow those, plus built-in ones, if none are listed will allow
          * everything. */
         CGROUP_DEVICE_POLICY_AUTO,

         /* Everything forbidden, except built-in ones and listed ones. */
         CGROUP_DEVICE_POLICY_CLOSED,

         /* Everything forbidden, except for the listed devices */
         CGROUP_DEVICE_POLICY_STRICT,

         _CGROUP_DEVICE_POLICY_MAX,
         _CGROUP_DEVICE_POLICY_INVALID = -1
 } CGroupDevicePolicy;

 struct CGroupDeviceAllow {
         LIST_FIELDS(CGroupDeviceAllow, device_allow);
         char *path;
         bool r:1;
         bool w:1;
         bool m:1;
 };

 struct CGroupIODeviceWeight {
         LIST_FIELDS(CGroupIODeviceWeight, device_weights);
         char *path;
         uint64_t weight;
 };

 struct CGroupIODeviceLimit {
         LIST_FIELDS(CGroupIODeviceLimit, device_limits);
         char *path;
         uint64_t limits[_CGROUP_IO_LIMIT_TYPE_MAX];
 };

 struct CGroupIODeviceLatency {
         LIST_FIELDS(CGroupIODeviceLatency, device_latencies);
         char *path;
         usec_t target_usec;
 };

 struct CGroupBlockIODeviceWeight {
         LIST_FIELDS(CGroupBlockIODeviceWeight, device_weights);
         char *path;
         uint64_t weight;
 };

 struct CGroupBlockIODeviceBandwidth {
         LIST_FIELDS(CGroupBlockIODeviceBandwidth, device_bandwidths);
         char *path;
         uint64_t rbps;
         uint64_t wbps;
 };

 struct CGroupContext {
         bool cpu_accounting;
         bool io_accounting;
         bool blockio_accounting;
         bool memory_accounting;
         bool tasks_accounting;
         bool ip_accounting;

         /* Configures the memory.oom.group attribute (on unified) */
         bool memory_oom_group;

         bool delegate;
         CGroupMask delegate_controllers;
         CGroupMask disable_controllers;

         /* For unified hierarchy */
         uint64_t cpu_weight;
         uint64_t startup_cpu_weight;
         usec_t cpu_quota_per_sec_usec;
         usec_t cpu_quota_period_usec;

         CPUSet cpuset_cpus;
         CPUSet cpuset_mems;

         uint64_t io_weight;
         uint64_t startup_io_weight;
         LIST_HEAD(CGroupIODeviceWeight, io_device_weights);
         LIST_HEAD(CGroupIODeviceLimit, io_device_limits);
         LIST_HEAD(CGroupIODeviceLatency, io_device_latencies);

         uint64_t default_memory_min;
         uint64_t default_memory_low;
         uint64_t memory_min;
         uint64_t memory_low;
         uint64_t memory_high;
         uint64_t memory_max;
         uint64_t memory_swap_max;

         bool default_memory_min_set;
         bool default_memory_low_set;
         bool memory_min_set;
         bool memory_low_set;

         LIST_HEAD(IPAddressAccessItem, ip_address_allow);
         LIST_HEAD(IPAddressAccessItem, ip_address_deny);

         char **ip_filters_ingress;
         char **ip_filters_egress;

         /* For legacy hierarchies */
         uint64_t cpu_shares;
         uint64_t startup_cpu_shares;

         uint64_t blockio_weight;
         uint64_t startup_blockio_weight;
         LIST_HEAD(CGroupBlockIODeviceWeight, blockio_device_weights);
         LIST_HEAD(CGroupBlockIODeviceBandwidth, blockio_device_bandwidths);

         uint64_t memory_limit;

         CGroupDevicePolicy device_policy;
         LIST_HEAD(CGroupDeviceAllow, device_allow);

         /* Common */
         TasksMax tasks_max;
 };

 /* Used when querying IP accounting data */
 typedef enum CGroupIPAccountingMetric {
         CGROUP_IP_INGRESS_BYTES,
         CGROUP_IP_INGRESS_PACKETS,
         CGROUP_IP_EGRESS_BYTES,
         CGROUP_IP_EGRESS_PACKETS,
         _CGROUP_IP_ACCOUNTING_METRIC_MAX,
         _CGROUP_IP_ACCOUNTING_METRIC_INVALID = -1,
 } CGroupIPAccountingMetric;

 /* Used when querying IO accounting data */
 typedef enum CGroupIOAccountingMetric {
         CGROUP_IO_READ_BYTES,
         CGROUP_IO_WRITE_BYTES,
         CGROUP_IO_READ_OPERATIONS,
         CGROUP_IO_WRITE_OPERATIONS,
         _CGROUP_IO_ACCOUNTING_METRIC_MAX,
         _CGROUP_IO_ACCOUNTING_METRIC_INVALID = -1,
 } CGroupIOAccountingMetric;

 typedef struct Unit Unit;
 typedef struct Manager Manager;

 usec_t cgroup_cpu_adjust_period(usec_t period, usec_t quota, usec_t resolution, usec_t max_period);

 void cgroup_context_init(CGroupContext *c);
 void cgroup_context_done(CGroupContext *c);
 void cgroup_context_dump(Unit *u, FILE* f, const char *prefix);

 void cgroup_context_free_device_allow(CGroupContext *c, CGroupDeviceAllow *a);
 void cgroup_context_free_io_device_weight(CGroupContext *c, CGroupIODeviceWeight *w);
 void cgroup_context_free_io_device_limit(CGroupContext *c, CGroupIODeviceLimit *l);
 void cgroup_context_free_io_device_latency(CGroupContext *c, CGroupIODeviceLatency *l);
 void cgroup_context_free_blockio_device_weight(CGroupContext *c, CGroupBlockIODeviceWeight *w);
 void cgroup_context_free_blockio_device_bandwidth(CGroupContext *c, CGroupBlockIODeviceBandwidth *b);

 int cgroup_add_device_allow(CGroupContext *c, const char *dev, const char *mode);

 CGroupMask unit_get_own_mask(Unit *u);
 CGroupMask unit_get_delegate_mask(Unit *u);
 CGroupMask unit_get_members_mask(Unit *u);
 CGroupMask unit_get_siblings_mask(Unit *u);
 CGroupMask unit_get_subtree_mask(Unit *u);
 CGroupMask unit_get_disable_mask(Unit *u);
 CGroupMask unit_get_ancestor_disable_mask(Unit *u);

 CGroupMask unit_get_target_mask(Unit *u);
 CGroupMask unit_get_enable_mask(Unit *u);

 void unit_invalidate_cgroup_members_masks(Unit *u);

 void unit_add_to_cgroup_realize_queue(Unit *u);

 const char *unit_get_realized_cgroup_path(Unit *u, CGroupMask mask);
 char *unit_default_cgroup_path(const Unit *u);
 int unit_set_cgroup_path(Unit *u, const char *path);
 int unit_pick_cgroup_path(Unit *u);

 int unit_realize_cgroup(Unit *u);
 void unit_release_cgroup(Unit *u);
 void unit_prune_cgroup(Unit *u);
 int unit_watch_cgroup(Unit *u);
 int unit_watch_cgroup_memory(Unit *u);

 void unit_add_to_cgroup_empty_queue(Unit *u);
 int unit_check_oom(Unit *u);

 int unit_attach_pids_to_cgroup(Unit *u, Set *pids, const char *suffix_path);

 int manager_setup_cgroup(Manager *m);
 void manager_shutdown_cgroup(Manager *m, bool delete);

 unsigned manager_dispatch_cgroup_realize_queue(Manager *m);

 Unit *manager_get_unit_by_cgroup(Manager *m, const char *cgroup);
 Unit *manager_get_unit_by_pid_cgroup(Manager *m, pid_t pid);
 Unit* manager_get_unit_by_pid(Manager *m, pid_t pid);

 uint64_t unit_get_ancestor_memory_min(Unit *u);
 uint64_t unit_get_ancestor_memory_low(Unit *u);

 int unit_search_main_pid(Unit *u, pid_t *ret);
 int unit_watch_all_pids(Unit *u);

 int unit_synthesize_cgroup_empty_event(Unit *u);

 int unit_get_memory_current(Unit *u, uint64_t *ret);
 int unit_get_tasks_current(Unit *u, uint64_t *ret);
 int unit_get_cpu_usage(Unit *u, nsec_t *ret);
 int unit_get_io_accounting(Unit *u, CGroupIOAccountingMetric metric, bool allow_cache, uint64_t *ret);
 int unit_get_ip_accounting(Unit *u, CGroupIPAccountingMetric metric, uint64_t *ret);

 int unit_reset_cpu_accounting(Unit *u);
 int unit_reset_ip_accounting(Unit *u);
 int unit_reset_io_accounting(Unit *u);
 int unit_reset_accounting(Unit *u);

 #define UNIT_CGROUP_BOOL(u, name)                       \
         ({                                              \
         CGroupContext *cc = unit_get_cgroup_context(u); \
         cc ? cc->name : false;                          \
         })

 bool manager_owns_host_root_cgroup(Manager *m);
 bool unit_has_host_root_cgroup(Unit *u);

 int manager_notify_cgroup_empty(Manager *m, const char *group);

 void unit_invalidate_cgroup(Unit *u, CGroupMask m);
 void unit_invalidate_cgroup_bpf(Unit *u);

 void manager_invalidate_startup_units(Manager *m);

 const char* cgroup_device_policy_to_string(CGroupDevicePolicy i) _const_;
 CGroupDevicePolicy cgroup_device_policy_from_string(const char *s) _pure_;

 bool unit_cgroup_delegate(Unit *u);

 int compare_job_priority(const void *a, const void *b);

 int unit_get_cpuset(Unit *u, CPUSet *cpus, const char *name);
	/* SPDX-License-Identifier: LGPL-2.1+ */
	#pragma once

	#include <stdbool.h>

	#include "cgroup-util.h"
	#include "cpu-set-util.h"
	#include "ip-address-access.h"
	#include "list.h"
	#include "time-util.h"

	typedef struct TasksMax {
	/* If scale == 0, just use value; otherwise, value / scale.
	* See tasks_max_resolve(). */
	uint64_t value;
	uint64_t scale;
	} TasksMax;

	#define TASKS_MAX_UNSET ((TasksMax) { .value = UINT64_MAX, .scale = 0 })

	static inline bool tasks_max_isset(const TasksMax *tasks_max) {
	return tasks_max->value != UINT64_MAX \|\| tasks_max->scale != 0;
	}

	uint64_t tasks_max_resolve(const TasksMax *tasks_max);

	typedef struct CGroupContext CGroupContext;
	typedef struct CGroupDeviceAllow CGroupDeviceAllow;
	typedef struct CGroupIODeviceWeight CGroupIODeviceWeight;
	typedef struct CGroupIODeviceLimit CGroupIODeviceLimit;
	typedef struct CGroupIODeviceLatency CGroupIODeviceLatency;
	typedef struct CGroupBlockIODeviceWeight CGroupBlockIODeviceWeight;
	typedef struct CGroupBlockIODeviceBandwidth CGroupBlockIODeviceBandwidth;

	typedef enum CGroupDevicePolicy {
	/* When devices listed, will allow those, plus built-in ones, if none are listed will allow
	* everything. */
	CGROUP_DEVICE_POLICY_AUTO,

	/* Everything forbidden, except built-in ones and listed ones. */
	CGROUP_DEVICE_POLICY_CLOSED,

	/* Everything forbidden, except for the listed devices */
	CGROUP_DEVICE_POLICY_STRICT,

	_CGROUP_DEVICE_POLICY_MAX,
	_CGROUP_DEVICE_POLICY_INVALID = -1
	} CGroupDevicePolicy;

	struct CGroupDeviceAllow {
	LIST_FIELDS(CGroupDeviceAllow, device_allow);
	char *path;
	bool r:1;
	bool w:1;
	bool m:1;
	};

	struct CGroupIODeviceWeight {
	LIST_FIELDS(CGroupIODeviceWeight, device_weights);
	char *path;
	uint64_t weight;
	};

	struct CGroupIODeviceLimit {
	LIST_FIELDS(CGroupIODeviceLimit, device_limits);
	char *path;
	uint64_t limits[_CGROUP_IO_LIMIT_TYPE_MAX];
	};

	struct CGroupIODeviceLatency {
	LIST_FIELDS(CGroupIODeviceLatency, device_latencies);
	char *path;
	usec_t target_usec;
	};

	struct CGroupBlockIODeviceWeight {
	LIST_FIELDS(CGroupBlockIODeviceWeight, device_weights);
	char *path;
	uint64_t weight;
	};

	struct CGroupBlockIODeviceBandwidth {
	LIST_FIELDS(CGroupBlockIODeviceBandwidth, device_bandwidths);
	char *path;
	uint64_t rbps;
	uint64_t wbps;
	};

	struct CGroupContext {
	bool cpu_accounting;
	bool io_accounting;
	bool blockio_accounting;
	bool memory_accounting;
	bool tasks_accounting;
	bool ip_accounting;

	/* Configures the memory.oom.group attribute (on unified) */
	bool memory_oom_group;

	bool delegate;
	CGroupMask delegate_controllers;
	CGroupMask disable_controllers;

	/* For unified hierarchy */
	uint64_t cpu_weight;
	uint64_t startup_cpu_weight;
	usec_t cpu_quota_per_sec_usec;
	usec_t cpu_quota_period_usec;

	CPUSet cpuset_cpus;
	CPUSet cpuset_mems;

	uint64_t io_weight;
	uint64_t startup_io_weight;
	LIST_HEAD(CGroupIODeviceWeight, io_device_weights);
	LIST_HEAD(CGroupIODeviceLimit, io_device_limits);
	LIST_HEAD(CGroupIODeviceLatency, io_device_latencies);

	uint64_t default_memory_min;
	uint64_t default_memory_low;
	uint64_t memory_min;
	uint64_t memory_low;
	uint64_t memory_high;
	uint64_t memory_max;
	uint64_t memory_swap_max;

	bool default_memory_min_set;
	bool default_memory_low_set;
	bool memory_min_set;
	bool memory_low_set;

	LIST_HEAD(IPAddressAccessItem, ip_address_allow);
	LIST_HEAD(IPAddressAccessItem, ip_address_deny);

	char **ip_filters_ingress;
	char **ip_filters_egress;

	/* For legacy hierarchies */
	uint64_t cpu_shares;
	uint64_t startup_cpu_shares;

	uint64_t blockio_weight;
	uint64_t startup_blockio_weight;
	LIST_HEAD(CGroupBlockIODeviceWeight, blockio_device_weights);
	LIST_HEAD(CGroupBlockIODeviceBandwidth, blockio_device_bandwidths);

	uint64_t memory_limit;

	CGroupDevicePolicy device_policy;
	LIST_HEAD(CGroupDeviceAllow, device_allow);

	/* Common */
	TasksMax tasks_max;
	};

	/* Used when querying IP accounting data */
	typedef enum CGroupIPAccountingMetric {
	CGROUP_IP_INGRESS_BYTES,
	CGROUP_IP_INGRESS_PACKETS,
	CGROUP_IP_EGRESS_BYTES,
	CGROUP_IP_EGRESS_PACKETS,
	_CGROUP_IP_ACCOUNTING_METRIC_MAX,
	_CGROUP_IP_ACCOUNTING_METRIC_INVALID = -1,
	} CGroupIPAccountingMetric;

	/* Used when querying IO accounting data */
	typedef enum CGroupIOAccountingMetric {
	CGROUP_IO_READ_BYTES,
	CGROUP_IO_WRITE_BYTES,
	CGROUP_IO_READ_OPERATIONS,
	CGROUP_IO_WRITE_OPERATIONS,
	_CGROUP_IO_ACCOUNTING_METRIC_MAX,
	_CGROUP_IO_ACCOUNTING_METRIC_INVALID = -1,
	} CGroupIOAccountingMetric;

	typedef struct Unit Unit;
	typedef struct Manager Manager;

	usec_t cgroup_cpu_adjust_period(usec_t period, usec_t quota, usec_t resolution, usec_t max_period);

	void cgroup_context_init(CGroupContext *c);
	void cgroup_context_done(CGroupContext *c);
	void cgroup_context_dump(Unit u, FILE f, const char *prefix);

	void cgroup_context_free_device_allow(CGroupContext c, CGroupDeviceAllow a);
	void cgroup_context_free_io_device_weight(CGroupContext c, CGroupIODeviceWeight w);
	void cgroup_context_free_io_device_limit(CGroupContext c, CGroupIODeviceLimit l);
	void cgroup_context_free_io_device_latency(CGroupContext c, CGroupIODeviceLatency l);
	void cgroup_context_free_blockio_device_weight(CGroupContext c, CGroupBlockIODeviceWeight w);
	void cgroup_context_free_blockio_device_bandwidth(CGroupContext c, CGroupBlockIODeviceBandwidth b);

	int cgroup_add_device_allow(CGroupContext c, const char dev, const char *mode);

	CGroupMask unit_get_own_mask(Unit *u);
	CGroupMask unit_get_delegate_mask(Unit *u);
	CGroupMask unit_get_members_mask(Unit *u);
	CGroupMask unit_get_siblings_mask(Unit *u);
	CGroupMask unit_get_subtree_mask(Unit *u);
	CGroupMask unit_get_disable_mask(Unit *u);
	CGroupMask unit_get_ancestor_disable_mask(Unit *u);

	CGroupMask unit_get_target_mask(Unit *u);
	CGroupMask unit_get_enable_mask(Unit *u);

	void unit_invalidate_cgroup_members_masks(Unit *u);

	void unit_add_to_cgroup_realize_queue(Unit *u);

	const char unit_get_realized_cgroup_path(Unit u, CGroupMask mask);
	char unit_default_cgroup_path(const Unit u);
	int unit_set_cgroup_path(Unit u, const char path);
	int unit_pick_cgroup_path(Unit *u);

	int unit_realize_cgroup(Unit *u);
	void unit_release_cgroup(Unit *u);
	void unit_prune_cgroup(Unit *u);
	int unit_watch_cgroup(Unit *u);
	int unit_watch_cgroup_memory(Unit *u);

	void unit_add_to_cgroup_empty_queue(Unit *u);
	int unit_check_oom(Unit *u);

	int unit_attach_pids_to_cgroup(Unit u, Set pids, const char *suffix_path);

	int manager_setup_cgroup(Manager *m);
	void manager_shutdown_cgroup(Manager *m, bool delete);

	unsigned manager_dispatch_cgroup_realize_queue(Manager *m);

	Unit manager_get_unit_by_cgroup(Manager m, const char *cgroup);
	Unit manager_get_unit_by_pid_cgroup(Manager m, pid_t pid);
	Unit* manager_get_unit_by_pid(Manager *m, pid_t pid);

	uint64_t unit_get_ancestor_memory_min(Unit *u);
	uint64_t unit_get_ancestor_memory_low(Unit *u);

	int unit_search_main_pid(Unit u, pid_t ret);
	int unit_watch_all_pids(Unit *u);

	int unit_synthesize_cgroup_empty_event(Unit *u);

	int unit_get_memory_current(Unit u, uint64_t ret);
	int unit_get_tasks_current(Unit u, uint64_t ret);
	int unit_get_cpu_usage(Unit u, nsec_t ret);
	int unit_get_io_accounting(Unit u, CGroupIOAccountingMetric metric, bool allow_cache, uint64_t ret);
	int unit_get_ip_accounting(Unit u, CGroupIPAccountingMetric metric, uint64_t ret);

	int unit_reset_cpu_accounting(Unit *u);
	int unit_reset_ip_accounting(Unit *u);
	int unit_reset_io_accounting(Unit *u);
	int unit_reset_accounting(Unit *u);

	#define UNIT_CGROUP_BOOL(u, name) \
	({ \
	CGroupContext *cc = unit_get_cgroup_context(u); \
	cc ? cc->name : false; \
	})

	bool manager_owns_host_root_cgroup(Manager *m);
	bool unit_has_host_root_cgroup(Unit *u);

	int manager_notify_cgroup_empty(Manager m, const char group);

	void unit_invalidate_cgroup(Unit *u, CGroupMask m);
	void unit_invalidate_cgroup_bpf(Unit *u);

	void manager_invalidate_startup_units(Manager *m);

	const char* cgroup_device_policy_to_string(CGroupDevicePolicy i) _const_;
	CGroupDevicePolicy cgroup_device_policy_from_string(const char *s) _pure_;

	bool unit_cgroup_delegate(Unit *u);

	int compare_job_priority(const void a, const void b);

	int unit_get_cpuset(Unit u, CPUSet cpus, const char *name);