/* SPDX-License-Identifier: LGPL-2.1-or-later */ #pragma once #include #include #include #include #include #include #include #include "constants.h" #include "pidref.h" #include "set.h" #define SYSTEMD_CGROUP_CONTROLLER_LEGACY "name=systemd" #define SYSTEMD_CGROUP_CONTROLLER_HYBRID "name=unified" #define SYSTEMD_CGROUP_CONTROLLER "_systemd" /* An enum of well known cgroup controllers */ typedef enum CGroupController { /* Original cgroup controllers */ CGROUP_CONTROLLER_CPU, CGROUP_CONTROLLER_CPUACCT, /* v1 only */ CGROUP_CONTROLLER_CPUSET, /* v2 only */ CGROUP_CONTROLLER_IO, /* v2 only */ CGROUP_CONTROLLER_BLKIO, /* v1 only */ CGROUP_CONTROLLER_MEMORY, CGROUP_CONTROLLER_DEVICES, /* v1 only */ CGROUP_CONTROLLER_PIDS, /* BPF-based pseudo-controllers, v2 only */ CGROUP_CONTROLLER_BPF_FIREWALL, CGROUP_CONTROLLER_BPF_DEVICES, CGROUP_CONTROLLER_BPF_FOREIGN, CGROUP_CONTROLLER_BPF_SOCKET_BIND, CGROUP_CONTROLLER_BPF_RESTRICT_NETWORK_INTERFACES, /* The BPF hook implementing RestrictFileSystems= is not defined here. * It's applied as late as possible in exec_invoke() so we don't block * our own unit setup code. */ _CGROUP_CONTROLLER_MAX, _CGROUP_CONTROLLER_INVALID = -EINVAL, } CGroupController; #define CGROUP_CONTROLLER_TO_MASK(c) (1U << (c)) /* A bit mask of well known cgroup controllers */ typedef enum CGroupMask { CGROUP_MASK_CPU = CGROUP_CONTROLLER_TO_MASK(CGROUP_CONTROLLER_CPU), CGROUP_MASK_CPUACCT = CGROUP_CONTROLLER_TO_MASK(CGROUP_CONTROLLER_CPUACCT), CGROUP_MASK_CPUSET = CGROUP_CONTROLLER_TO_MASK(CGROUP_CONTROLLER_CPUSET), CGROUP_MASK_IO = CGROUP_CONTROLLER_TO_MASK(CGROUP_CONTROLLER_IO), CGROUP_MASK_BLKIO = CGROUP_CONTROLLER_TO_MASK(CGROUP_CONTROLLER_BLKIO), CGROUP_MASK_MEMORY = CGROUP_CONTROLLER_TO_MASK(CGROUP_CONTROLLER_MEMORY), CGROUP_MASK_DEVICES = CGROUP_CONTROLLER_TO_MASK(CGROUP_CONTROLLER_DEVICES), CGROUP_MASK_PIDS = CGROUP_CONTROLLER_TO_MASK(CGROUP_CONTROLLER_PIDS), CGROUP_MASK_BPF_FIREWALL = CGROUP_CONTROLLER_TO_MASK(CGROUP_CONTROLLER_BPF_FIREWALL), CGROUP_MASK_BPF_DEVICES = CGROUP_CONTROLLER_TO_MASK(CGROUP_CONTROLLER_BPF_DEVICES), CGROUP_MASK_BPF_FOREIGN = CGROUP_CONTROLLER_TO_MASK(CGROUP_CONTROLLER_BPF_FOREIGN), CGROUP_MASK_BPF_SOCKET_BIND = CGROUP_CONTROLLER_TO_MASK(CGROUP_CONTROLLER_BPF_SOCKET_BIND), CGROUP_MASK_BPF_RESTRICT_NETWORK_INTERFACES = CGROUP_CONTROLLER_TO_MASK(CGROUP_CONTROLLER_BPF_RESTRICT_NETWORK_INTERFACES), /* All real cgroup v1 controllers */ CGROUP_MASK_V1 = CGROUP_MASK_CPU|CGROUP_MASK_CPUACCT|CGROUP_MASK_BLKIO|CGROUP_MASK_MEMORY|CGROUP_MASK_DEVICES|CGROUP_MASK_PIDS, /* All real cgroup v2 controllers */ CGROUP_MASK_V2 = CGROUP_MASK_CPU|CGROUP_MASK_CPUSET|CGROUP_MASK_IO|CGROUP_MASK_MEMORY|CGROUP_MASK_PIDS, /* All controllers we want to delegate in case of Delegate=yes. Which are pretty much the v2 controllers only, as delegation on v1 is not safe, and bpf stuff isn't a real controller */ CGROUP_MASK_DELEGATE = CGROUP_MASK_V2, /* All cgroup v2 BPF pseudo-controllers */ CGROUP_MASK_BPF = CGROUP_MASK_BPF_FIREWALL|CGROUP_MASK_BPF_DEVICES|CGROUP_MASK_BPF_FOREIGN|CGROUP_MASK_BPF_SOCKET_BIND|CGROUP_MASK_BPF_RESTRICT_NETWORK_INTERFACES, _CGROUP_MASK_ALL = CGROUP_CONTROLLER_TO_MASK(_CGROUP_CONTROLLER_MAX) - 1, } CGroupMask; static inline CGroupMask CGROUP_MASK_EXTEND_JOINED(CGroupMask mask) { /* We always mount "cpu" and "cpuacct" in the same hierarchy. Hence, when one bit is set also set the other */ if (mask & (CGROUP_MASK_CPU|CGROUP_MASK_CPUACCT)) mask |= (CGROUP_MASK_CPU|CGROUP_MASK_CPUACCT); return mask; } CGroupMask get_cpu_accounting_mask(void); bool cpu_accounting_is_cheap(void); /* Special values for all weight knobs on unified hierarchy */ #define CGROUP_WEIGHT_INVALID UINT64_MAX #define CGROUP_WEIGHT_IDLE UINT64_C(0) #define CGROUP_WEIGHT_MIN UINT64_C(1) #define CGROUP_WEIGHT_MAX UINT64_C(10000) #define CGROUP_WEIGHT_DEFAULT UINT64_C(100) #define CGROUP_LIMIT_MIN UINT64_C(0) #define CGROUP_LIMIT_MAX UINT64_MAX static inline bool CGROUP_WEIGHT_IS_OK(uint64_t x) { return x == CGROUP_WEIGHT_INVALID || (x >= CGROUP_WEIGHT_MIN && x <= CGROUP_WEIGHT_MAX); } /* IO limits on unified hierarchy */ typedef enum CGroupIOLimitType { CGROUP_IO_RBPS_MAX, CGROUP_IO_WBPS_MAX, CGROUP_IO_RIOPS_MAX, CGROUP_IO_WIOPS_MAX, _CGROUP_IO_LIMIT_TYPE_MAX, _CGROUP_IO_LIMIT_TYPE_INVALID = -EINVAL, } CGroupIOLimitType; extern const uint64_t cgroup_io_limit_defaults[_CGROUP_IO_LIMIT_TYPE_MAX]; const char* cgroup_io_limit_type_to_string(CGroupIOLimitType t) _const_; CGroupIOLimitType cgroup_io_limit_type_from_string(const char *s) _pure_; /* Special values for the cpu.shares attribute */ #define CGROUP_CPU_SHARES_INVALID UINT64_MAX #define CGROUP_CPU_SHARES_MIN UINT64_C(2) #define CGROUP_CPU_SHARES_MAX UINT64_C(262144) #define CGROUP_CPU_SHARES_DEFAULT UINT64_C(1024) static inline bool CGROUP_CPU_SHARES_IS_OK(uint64_t x) { return x == CGROUP_CPU_SHARES_INVALID || (x >= CGROUP_CPU_SHARES_MIN && x <= CGROUP_CPU_SHARES_MAX); } /* Special values for the special {blkio,io}.bfq.weight attribute */ #define CGROUP_BFQ_WEIGHT_INVALID UINT64_MAX #define CGROUP_BFQ_WEIGHT_MIN UINT64_C(1) #define CGROUP_BFQ_WEIGHT_MAX UINT64_C(1000) #define CGROUP_BFQ_WEIGHT_DEFAULT UINT64_C(100) /* Convert the normal io.weight value to io.bfq.weight */ static inline uint64_t BFQ_WEIGHT(uint64_t io_weight) { return io_weight <= CGROUP_WEIGHT_DEFAULT ? CGROUP_BFQ_WEIGHT_DEFAULT - (CGROUP_WEIGHT_DEFAULT - io_weight) * (CGROUP_BFQ_WEIGHT_DEFAULT - CGROUP_BFQ_WEIGHT_MIN) / (CGROUP_WEIGHT_DEFAULT - CGROUP_WEIGHT_MIN) : CGROUP_BFQ_WEIGHT_DEFAULT + (io_weight - CGROUP_WEIGHT_DEFAULT) * (CGROUP_BFQ_WEIGHT_MAX - CGROUP_BFQ_WEIGHT_DEFAULT) / (CGROUP_WEIGHT_MAX - CGROUP_WEIGHT_DEFAULT); } /* Special values for the blkio.weight attribute */ #define CGROUP_BLKIO_WEIGHT_INVALID UINT64_MAX #define CGROUP_BLKIO_WEIGHT_MIN UINT64_C(10) #define CGROUP_BLKIO_WEIGHT_MAX UINT64_C(1000) #define CGROUP_BLKIO_WEIGHT_DEFAULT UINT64_C(500) static inline bool CGROUP_BLKIO_WEIGHT_IS_OK(uint64_t x) { return x == CGROUP_BLKIO_WEIGHT_INVALID || (x >= CGROUP_BLKIO_WEIGHT_MIN && x <= CGROUP_BLKIO_WEIGHT_MAX); } typedef enum CGroupUnified { CGROUP_UNIFIED_UNKNOWN = -1, CGROUP_UNIFIED_NONE = 0, /* Both systemd and controllers on legacy */ CGROUP_UNIFIED_SYSTEMD = 1, /* Only systemd on unified */ CGROUP_UNIFIED_ALL = 2, /* Both systemd and controllers on unified */ } CGroupUnified; /* * General rules: * * We accept named hierarchies in the syntax "foo" and "name=foo". * * We expect that named hierarchies do not conflict in name with a * kernel hierarchy, modulo the "name=" prefix. * * We always generate "normalized" controller names, i.e. without the * "name=" prefix. * * We require absolute cgroup paths. When returning, we will always * generate paths with multiple adjacent / removed. */ int cg_path_open(const char *controller, const char *path); int cg_cgroupid_open(int fsfd, uint64_t id); typedef enum CGroupFlags { CGROUP_SIGCONT = 1 << 0, CGROUP_IGNORE_SELF = 1 << 1, CGROUP_DONT_SKIP_UNMAPPED = 1 << 2, CGROUP_NO_PIDFD = 1 << 3, } CGroupFlags; int cg_enumerate_processes(const char *controller, const char *path, FILE **ret); int cg_read_pid(FILE *f, pid_t *ret, CGroupFlags flags); int cg_read_pidref(FILE *f, PidRef *ret, CGroupFlags flags); int cg_read_event(const char *controller, const char *path, const char *event, char **ret); int cg_enumerate_subgroups(const char *controller, const char *path, DIR **ret); int cg_read_subgroup(DIR *d, char **ret); typedef int (*cg_kill_log_func_t)(const PidRef *pid, int sig, void *userdata); int cg_kill(const char *path, int sig, CGroupFlags flags, Set *s, cg_kill_log_func_t kill_log, void *userdata); int cg_kill_kernel_sigkill(const char *path); int cg_kill_recursive(const char *path, int sig, CGroupFlags flags, Set *s, cg_kill_log_func_t kill_log, void *userdata); int cg_split_spec(const char *spec, char **ret_controller, char **ret_path); int cg_mangle_path(const char *path, char **ret); int cg_get_path(const char *controller, const char *path, const char *suffix, char **ret); int cg_get_path_and_check(const char *controller, const char *path, const char *suffix, char **ret); int cg_pid_get_path(const char *controller, pid_t pid, char **ret); int cg_pidref_get_path(const char *controller, const PidRef *pidref, char **ret); int cg_is_threaded(const char *path); int cg_is_delegated(const char *path); int cg_is_delegated_fd(int fd); int cg_has_coredump_receive(const char *path); typedef enum { CG_KEY_MODE_GRACEFUL = 1 << 0, } CGroupKeyMode; int cg_set_attribute(const char *controller, const char *path, const char *attribute, const char *value); int cg_get_attribute(const char *controller, const char *path, const char *attribute, char **ret); int cg_get_keyed_attribute_full(const char *controller, const char *path, const char *attribute, char **keys, char **values, CGroupKeyMode mode); static inline int cg_get_keyed_attribute( const char *controller, const char *path, const char *attribute, char **keys, char **ret_values) { return cg_get_keyed_attribute_full(controller, path, attribute, keys, ret_values, 0); } static inline int cg_get_keyed_attribute_graceful( const char *controller, const char *path, const char *attribute, char **keys, char **ret_values) { return cg_get_keyed_attribute_full(controller, path, attribute, keys, ret_values, CG_KEY_MODE_GRACEFUL); } int cg_get_attribute_as_uint64(const char *controller, const char *path, const char *attribute, uint64_t *ret); /* Does a parse_boolean() on the attribute contents and sets ret accordingly */ int cg_get_attribute_as_bool(const char *controller, const char *path, const char *attribute, bool *ret); int cg_get_owner(const char *path, uid_t *ret_uid); int cg_set_xattr(const char *path, const char *name, const void *value, size_t size, int flags); int cg_get_xattr(const char *path, const char *name, void *value, size_t size); int cg_get_xattr_malloc(const char *path, const char *name, char **ret); /* Returns negative on error, and 0 or 1 on success for the bool value */ int cg_get_xattr_bool(const char *path, const char *name); int cg_remove_xattr(const char *path, const char *name); int cg_is_empty(const char *controller, const char *path); int cg_is_empty_recursive(const char *controller, const char *path); int cg_get_root_path(char **path); int cg_path_get_cgroupid(const char *path, uint64_t *ret); int cg_fd_get_cgroupid(int fd, uint64_t *ret); int cg_path_get_session(const char *path, char **ret_session); int cg_path_get_owner_uid(const char *path, uid_t *ret_uid); int cg_path_get_unit(const char *path, char **ret_unit); int cg_path_get_unit_path(const char *path, char **ret_unit); int cg_path_get_user_unit(const char *path, char **ret_unit); int cg_path_get_machine_name(const char *path, char **ret_machine); int cg_path_get_slice(const char *path, char **ret_slice); int cg_path_get_user_slice(const char *path, char **ret_slice); int cg_shift_path(const char *cgroup, const char *cached_root, const char **ret_shifted); int cg_pid_get_path_shifted(pid_t pid, const char *cached_root, char **ret_cgroup); int cg_pid_get_session(pid_t pid, char **ret_session); int cg_pid_get_owner_uid(pid_t pid, uid_t *ret_uid); int cg_pid_get_unit(pid_t pid, char **ret_unit); int cg_pidref_get_unit(const PidRef *pidref, char **ret); int cg_pid_get_user_unit(pid_t pid, char **ret_unit); int cg_pid_get_machine_name(pid_t pid, char **ret_machine); int cg_pid_get_slice(pid_t pid, char **ret_slice); int cg_pid_get_user_slice(pid_t pid, char **ret_slice); int cg_path_decode_unit(const char *cgroup, char **ret_unit); bool cg_needs_escape(const char *p); int cg_escape(const char *p, char **ret); char* cg_unescape(const char *p) _pure_; bool cg_controller_is_valid(const char *p); int cg_slice_to_path(const char *unit, char **ret); int cg_mask_supported(CGroupMask *ret); int cg_mask_supported_subtree(const char *root, CGroupMask *ret); int cg_mask_from_string(const char *s, CGroupMask *ret); int cg_mask_to_string(CGroupMask mask, char **ret); int cg_kernel_controllers(Set **controllers); bool cg_ns_supported(void); bool cg_freezer_supported(void); bool cg_kill_supported(void); int cg_all_unified(void); int cg_hybrid_unified(void); int cg_unified_controller(const char *controller); int cg_unified_cached(bool flush); static inline int cg_unified(void) { return cg_unified_cached(true); } const char* cgroup_controller_to_string(CGroupController c) _const_; CGroupController cgroup_controller_from_string(const char *s) _pure_; bool is_cgroup_fs(const struct statfs *s); bool fd_is_cgroup_fs(int fd); typedef enum ManagedOOMMode { MANAGED_OOM_AUTO, MANAGED_OOM_KILL, _MANAGED_OOM_MODE_MAX, _MANAGED_OOM_MODE_INVALID = -EINVAL, } ManagedOOMMode; const char* managed_oom_mode_to_string(ManagedOOMMode m) _const_; ManagedOOMMode managed_oom_mode_from_string(const char *s) _pure_; typedef enum ManagedOOMPreference { MANAGED_OOM_PREFERENCE_NONE = 0, MANAGED_OOM_PREFERENCE_AVOID = 1, MANAGED_OOM_PREFERENCE_OMIT = 2, _MANAGED_OOM_PREFERENCE_MAX, _MANAGED_OOM_PREFERENCE_INVALID = -EINVAL, } ManagedOOMPreference; const char* managed_oom_preference_to_string(ManagedOOMPreference a) _const_; ManagedOOMPreference managed_oom_preference_from_string(const char *s) _pure_; /* The structure to pass to name_to_handle_at() on cgroupfs2 */ typedef union { struct file_handle file_handle; uint8_t space[offsetof(struct file_handle, f_handle) + sizeof(uint64_t)]; } cg_file_handle; #define CG_FILE_HANDLE_INIT \ (cg_file_handle) { \ .file_handle.handle_bytes = sizeof(uint64_t), \ .file_handle.handle_type = FILEID_KERNFS, \ } #define CG_FILE_HANDLE_CGROUPID(fh) (*(uint64_t*) (fh).file_handle.f_handle)