// SPDX-License-Identifier: GPL-3.0-or-later #ifndef NETDATA_EBPF_H #define NETDATA_EBPF_H 1 #include #include #include // Necessary for stdtoul #define NETDATA_DEBUGFS "/sys/kernel/debug/tracing/" #define NETDATA_KALLSYMS "/proc/kallsyms" // Config files #define EBPF_GLOBAL_SECTION "global" #define EBPF_CFG_LOAD_MODE "ebpf load mode" #define EBPF_CFG_LOAD_MODE_DEFAULT "entry" #define EBPF_CFG_LOAD_MODE_RETURN "return" #define EBPF_MAX_MODE_LENGTH 6 #define EBPF_CFG_UPDATE_EVERY "update every" #define EBPF_CFG_PID_SIZE "pid table size" #define EBPF_CFG_APPLICATION "apps" #define EBPF_CFG_CGROUP "cgroups" /** * The RedHat magic number was got doing: * * 1797 = 7*256 + 5 * * For more details, please, read /usr/include/linux/version.h * in any Red Hat installation. */ #define NETDATA_MINIMUM_RH_VERSION 1797 /** * 2048 = 8*256 + 0 */ #define NETDATA_RH_8 2048 /** * Kernel Version * * Kernel versions are calculated using the following formula: * * VERSION = LINUX_VERSION_MAJOR*65536 + LINUX_VERSION_PATCHLEVEL*256 + LINUX_VERSION_SUBLEVEL * * Where LINUX_VERSION_MAJOR, LINUX_VERSION_PATCHLEVEL, and LINUX_VERSION_SUBLEVEL are extracted * from /usr/include/linux/version.h. * * LINUX_VERSION_SUBLEVEL has the maximum value 255, but linux can have more SUBLEVELS. * */ enum netdata_ebpf_kernel_versions { NETDATA_EBPF_KERNEL_4_11 = 264960, // 264960 = 4 * 65536 + 15 * 256 NETDATA_EBPF_KERNEL_4_15 = 265984, // 265984 = 4 * 65536 + 15 * 256 NETDATA_EBPF_KERNEL_4_17 = 266496, // 266496 = 4 * 65536 + 17 * 256 NETDATA_EBPF_KERNEL_5_0 = 327680, // 327680 = 5 * 65536 + 0 * 256 NETDATA_EBPF_KERNEL_5_10 = 330240, // 330240 = 5 * 65536 + 10 * 256 NETDATA_EBPF_KERNEL_5_11 = 330496, // 330240 = 5 * 65536 + 11 * 256 NETDATA_EBPF_KERNEL_5_15 = 331520 // 331520 = 5 * 65536 + 15 * 256 }; enum netdata_kernel_flag { NETDATA_V3_10 = 1 << 0, NETDATA_V4_14 = 1 << 1, NETDATA_V4_16 = 1 << 2, NETDATA_V4_18 = 1 << 3, NETDATA_V5_4 = 1 << 4, NETDATA_V5_10 = 1 << 5, NETDATA_V5_11 = 1 << 6, NETDATA_V5_15 = 1 << 7 }; enum netdata_kernel_idx { NETDATA_IDX_V3_10, NETDATA_IDX_V4_14, NETDATA_IDX_V4_16, NETDATA_IDX_V4_18, NETDATA_IDX_V5_4 , NETDATA_IDX_V5_10, NETDATA_IDX_V5_11, NETDATA_IDX_V5_15 }; #define NETDATA_IDX_STR_V3_10 "3.10" #define NETDATA_IDX_STR_V4_14 "4.14" #define NETDATA_IDX_STR_V4_16 "4.16" #define NETDATA_IDX_STR_V4_18 "4.18" #define NETDATA_IDX_STR_V5_4 "5.4" #define NETDATA_IDX_STR_V5_10 "5.10" #define NETDATA_IDX_STR_V5_11 "5.11" #define NETDATA_IDX_STR_V5_15 "5.15" /** * Minimum value has relationship with libbpf support. */ #define NETDATA_MINIMUM_EBPF_KERNEL NETDATA_EBPF_KERNEL_4_11 #define VERSION_STRING_LEN 256 #define EBPF_KERNEL_REJECT_LIST_FILE "ebpf_kernel_reject_list.txt" #define ND_EBPF_DEFAULT_MIN_PID 1U #define ND_EBPF_MAP_FD_NOT_INITIALIZED (int)-1 typedef struct ebpf_addresses { char *function; uint32_t hash; // We use long as address, because it matches system length unsigned long addr; } ebpf_addresses_t; extern char *ebpf_user_config_dir; extern char *ebpf_stock_config_dir; typedef struct ebpf_data { int *map_fd; char *kernel_string; uint32_t running_on_kernel; int isrh; } ebpf_data_t; typedef enum { MODE_RETURN = 0, // This attaches kprobe when the function returns MODE_DEVMODE, // This stores log given description about the errors raised MODE_ENTRY // This attaches kprobe when the function is called } netdata_run_mode_t; #define ND_EBPF_DEFAULT_PID_SIZE 32768U enum netdata_ebpf_map_type { NETDATA_EBPF_MAP_STATIC = 0, NETDATA_EBPF_MAP_RESIZABLE = 1, NETDATA_EBPF_MAP_CONTROLLER = 2, NETDATA_EBPF_MAP_CONTROLLER_UPDATED = 4, NETDATA_EBPF_MAP_PID = 8 }; enum netdata_controller { NETDATA_CONTROLLER_APPS_ENABLED, NETDATA_CONTROLLER_END }; typedef struct ebpf_local_maps { char *name; uint32_t internal_input; uint32_t user_input; uint32_t type; int map_fd; } ebpf_local_maps_t; typedef struct ebpf_specify_name { char *program_name; char *function_to_attach; char *optional; bool retprobe; } ebpf_specify_name_t; typedef enum netdata_ebpf_load_mode { EBPF_LOAD_LEGACY, // Select legacy mode, this means we will load binaries EBPF_LOAD_CORE, // When CO-RE is used, it is necessary to use the souce code EBPF_LOAD_PLAY_DICE // Take a look on environment and choose the best option } netdata_ebpf_load_mode_t; typedef enum netdata_ebpf_program_loaded { EBPF_LOAD_PROBE, // Attach probes on targets EBPF_LOAD_RETPROBE, // Attach retprobes on targets EBPF_LOAD_TRACEPOINT, // This stores log given description about the errors raised EBPF_LOAD_TRAMPOLINE, // This attaches kprobe when the function is called } netdata_ebpf_program_loaded_t; typedef struct netdata_ebpf_targets { char *name; netdata_ebpf_program_loaded_t mode; } netdata_ebpf_targets_t; typedef struct ebpf_plugin_stats { // Load options uint32_t legacy; // Legacy codes uint32_t core; // CO-RE codes, this means we are using source code compiled. uint32_t threads; // Total number of threads uint32_t running; // total number of threads running uint32_t probes; // Number of kprobes loaded uint32_t retprobes; // Number of kretprobes loaded uint32_t tracepoints; // Number of tracepoints used uint32_t trampolines; // Number of trampolines used } ebpf_plugin_stats_t; typedef struct ebpf_module { const char *thread_name; const char *config_name; int enabled; void *(*start_routine)(void *); int update_every; int global_charts; int apps_charts; int cgroup_charts; netdata_run_mode_t mode; uint32_t thread_id; int optional; void (*apps_routine)(struct ebpf_module *em, void *ptr); ebpf_local_maps_t *maps; ebpf_specify_name_t *names; uint32_t pid_map_size; struct config *cfg; const char *config_file; uint64_t kernels; netdata_ebpf_load_mode_t load; netdata_ebpf_targets_t *targets; } ebpf_module_t; extern int ebpf_get_kernel_version(); extern int get_redhat_release(); extern int has_condition_to_run(int version); extern char *ebpf_kernel_suffix(int version, int isrh); extern struct bpf_link **ebpf_load_program(char *plugins_dir, ebpf_module_t *em, int kver, int is_rhf, struct bpf_object **obj); extern void ebpf_mount_config_name(char *filename, size_t length, char *path, const char *config); extern int ebpf_load_config(struct config *config, char *filename); extern void ebpf_update_module(ebpf_module_t *em); extern void ebpf_update_names(ebpf_specify_name_t *opt, ebpf_module_t *em); extern char *ebpf_find_symbol(char *search); extern void ebpf_load_addresses(ebpf_addresses_t *fa, int fd); extern void ebpf_fill_algorithms(int *algorithms, size_t length, int algorithm); extern char **ebpf_fill_histogram_dimension(size_t maximum); extern void ebpf_update_stats(ebpf_plugin_stats_t *report, ebpf_module_t *em); // Histogram #define NETDATA_EBPF_HIST_MAX_BINS 24UL #define NETDATA_DISK_MAX 256U #define NETDATA_DISK_HISTOGRAM_LENGTH (NETDATA_DISK_MAX * NETDATA_EBPF_HIST_MAX_BINS) typedef struct netdata_ebpf_histogram { char *name; char *title; int order; uint64_t histogram[NETDATA_EBPF_HIST_MAX_BINS]; } netdata_ebpf_histogram_t; extern void ebpf_histogram_dimension_cleanup(char **ptr, size_t length); // Tracepoint helpers // For more information related to tracepoints read https://www.kernel.org/doc/html/latest/trace/tracepoints.html extern int ebpf_is_tracepoint_enabled(char *subsys, char *eventname); extern int ebpf_enable_tracing_values(char *subsys, char *eventname); extern int ebpf_disable_tracing_values(char *subsys, char *eventname); #endif /* NETDATA_EBPF_H */