/* SPDX-License-Identifier: GPL-2.0 */ #ifndef __TASK_LOCAL_DATA_BPF_H #define __TASK_LOCAL_DATA_BPF_H /* * Task local data is a library that facilitates sharing per-task data * between user space and bpf programs. * * * USAGE * * A TLD, an entry of data in task local data, first needs to be created by the * user space. This is done by calling user space API, TLD_DEFINE_KEY() or * tld_create_key(), with the name of the TLD and the size. * * TLD_DEFINE_KEY(prio, "priority", sizeof(int)); * * or * * void func_call(...) { * tld_key_t prio, in_cs; * * prio = tld_create_key("priority", sizeof(int)); * in_cs = tld_create_key("in_critical_section", sizeof(bool)); * ... * * A key associated with the TLD, which has an opaque type tld_key_t, will be * initialized or returned. It can be used to get a pointer to the TLD in the * user space by calling tld_get_data(). * * In a bpf program, tld_object_init() first needs to be called to initialized a * tld_object on the stack. Then, TLDs can be accessed by calling tld_get_data(). * The API will try to fetch the key by the name and use it to locate the data. * A pointer to the TLD will be returned. It also caches the key in a task local * storage map, tld_key_map, whose value type, struct tld_keys, must be defined * by the developer. * * struct tld_keys { * tld_key_t prio; * tld_key_t in_cs; * }; * * SEC("struct_ops") * void prog(struct task_struct task, ...) * { * struct tld_object tld_obj; * int err, *p; * * err = tld_object_init(task, &tld_obj); * if (err) * return; * * p = tld_get_data(&tld_obj, prio, "priority", sizeof(int)); * if (p) * // do something depending on *p */ #include #include #define TLD_ROUND_MASK(x, y) ((__typeof__(x))((y) - 1)) #define TLD_ROUND_UP(x, y) ((((x) - 1) | TLD_ROUND_MASK(x, y)) + 1) #define TLD_MAX_DATA_CNT (__PAGE_SIZE / sizeof(struct tld_metadata) - 1) #ifndef TLD_NAME_LEN #define TLD_NAME_LEN 62 #endif #ifndef TLD_KEY_MAP_CREATE_RETRY #define TLD_KEY_MAP_CREATE_RETRY 10 #endif typedef struct { __s16 off; } tld_key_t; struct tld_metadata { char name[TLD_NAME_LEN]; __u16 size; }; struct tld_meta_u { __u8 cnt; __u16 size; struct tld_metadata metadata[TLD_MAX_DATA_CNT]; }; struct tld_data_u { __u64 start; /* offset of tld_data_u->data in a page */ char data[__PAGE_SIZE - sizeof(__u64)]; }; struct tld_map_value { struct tld_data_u __uptr *data; struct tld_meta_u __uptr *meta; }; typedef struct tld_uptr_dummy { struct tld_data_u data[0]; struct tld_meta_u meta[0]; } *tld_uptr_dummy_t; struct tld_object { struct tld_map_value *data_map; struct tld_keys *key_map; /* * Force the compiler to generate the actual definition of tld_meta_u * and tld_data_u in BTF. Without it, tld_meta_u and u_tld_data will * be BTF_KIND_FWD. */ tld_uptr_dummy_t dummy[0]; }; /* * Map value of tld_key_map for caching keys. Must be defined by the developer. * Members should be tld_key_t and passed to the 3rd argument of tld_fetch_key(). */ struct tld_keys; struct { __uint(type, BPF_MAP_TYPE_TASK_STORAGE); __uint(map_flags, BPF_F_NO_PREALLOC); __type(key, int); __type(value, struct tld_map_value); } tld_data_map SEC(".maps"); struct { __uint(type, BPF_MAP_TYPE_TASK_STORAGE); __uint(map_flags, BPF_F_NO_PREALLOC); __type(key, int); __type(value, struct tld_keys); } tld_key_map SEC(".maps"); /** * tld_object_init() - Initialize a tld_object. * * @task: The task_struct of the target task * @tld_obj: A pointer to a tld_object to be initialized * * Return 0 on success; -ENODATA if the user space did not initialize task local data * for the current task through tld_get_data(); -ENOMEM if the creation of tld_key_map * fails */ __attribute__((unused)) static int tld_object_init(struct task_struct *task, struct tld_object *tld_obj) { int i; tld_obj->data_map = bpf_task_storage_get(&tld_data_map, task, 0, 0); if (!tld_obj->data_map) return -ENODATA; bpf_for(i, 0, TLD_KEY_MAP_CREATE_RETRY) { tld_obj->key_map = bpf_task_storage_get(&tld_key_map, task, 0, BPF_LOCAL_STORAGE_GET_F_CREATE); if (likely(tld_obj->key_map)) break; } if (!tld_obj->key_map) return -ENOMEM; return 0; } /* * Return the offset of TLD if @name is found. Otherwise, return the current TLD count * using the nonpositive range so that the next tld_get_data() can skip fetching key if * no new TLD is added or start comparing name from the first newly added TLD. */ __attribute__((unused)) static int __tld_fetch_key(struct tld_object *tld_obj, const char *name, int i_start) { struct tld_metadata *metadata; int i, cnt, start, off = 0; if (!tld_obj->data_map || !tld_obj->data_map->data || !tld_obj->data_map->meta) return 0; start = tld_obj->data_map->data->start; cnt = tld_obj->data_map->meta->cnt; metadata = tld_obj->data_map->meta->metadata; bpf_for(i, 0, cnt) { if (i >= TLD_MAX_DATA_CNT) break; if (i >= i_start && !bpf_strncmp(metadata[i].name, TLD_NAME_LEN, name)) return start + off; off += TLD_ROUND_UP(metadata[i].size, 8); } return -cnt; } /** * tld_get_data() - Retrieve a pointer to the TLD associated with the name. * * @tld_obj: A pointer to a valid tld_object initialized by tld_object_init() * @key: The cached key of the TLD in tld_key_map * @name: The name of the key associated with a TLD * @size: The size of the TLD. Must be a known constant value * * Return a pointer to the TLD associated with @name; NULL if not found or @size is too * big. @key is used to cache the key if the TLD is found to speed up subsequent calls. * It should be defined as an member of tld_keys of tld_key_t type by the developer. */ #define tld_get_data(tld_obj, key, name, size) \ ({ \ void *data = NULL, *_data = (tld_obj)->data_map->data; \ long off = (tld_obj)->key_map->key.off; \ int cnt; \ \ if (likely(_data)) { \ if (likely(off > 0)) { \ barrier_var(off); \ if (likely(off < __PAGE_SIZE - size)) \ data = _data + off; \ } else { \ cnt = -(off); \ if (likely((tld_obj)->data_map->meta) && \ cnt < (tld_obj)->data_map->meta->cnt) { \ off = __tld_fetch_key(tld_obj, name, cnt); \ (tld_obj)->key_map->key.off = off; \ \ if (likely(off < __PAGE_SIZE - size)) { \ barrier_var(off); \ if (off > 0) \ data = _data + off; \ } \ } \ } \ } \ data; \ }) #endif