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|
// SPDX-License-Identifier: GPL-3.0-or-later
#include <sys/resource.h>
#include "ebpf.h"
#include "ebpf_socket.h"
// ----------------------------------------------------------------------------
// ARAL vectors used to speed up processing
/*****************************************************************
*
* GLOBAL VARIABLES
*
*****************************************************************/
static char *socket_dimension_names[NETDATA_MAX_SOCKET_VECTOR] = { "received", "sent", "close",
"received", "sent", "retransmitted",
"connected_V4", "connected_V6", "connected_tcp",
"connected_udp"};
static char *socket_id_names[NETDATA_MAX_SOCKET_VECTOR] = { "tcp_cleanup_rbuf", "tcp_sendmsg", "tcp_close",
"udp_recvmsg", "udp_sendmsg", "tcp_retransmit_skb",
"tcp_connect_v4", "tcp_connect_v6", "inet_csk_accept_tcp",
"inet_csk_accept_udp" };
static ebpf_local_maps_t socket_maps[] = {{.name = "tbl_bandwidth",
.internal_input = NETDATA_COMPILED_CONNECTIONS_ALLOWED,
.user_input = NETDATA_MAXIMUM_CONNECTIONS_ALLOWED,
.type = NETDATA_EBPF_MAP_RESIZABLE | NETDATA_EBPF_MAP_PID,
.map_fd = ND_EBPF_MAP_FD_NOT_INITIALIZED},
{.name = "tbl_global_sock",
.internal_input = NETDATA_SOCKET_COUNTER,
.user_input = 0, .type = NETDATA_EBPF_MAP_STATIC,
.map_fd = ND_EBPF_MAP_FD_NOT_INITIALIZED},
{.name = "tbl_lports",
.internal_input = NETDATA_SOCKET_COUNTER,
.user_input = 0, .type = NETDATA_EBPF_MAP_STATIC,
.map_fd = ND_EBPF_MAP_FD_NOT_INITIALIZED},
{.name = "tbl_conn_ipv4",
.internal_input = NETDATA_COMPILED_CONNECTIONS_ALLOWED,
.user_input = NETDATA_MAXIMUM_CONNECTIONS_ALLOWED,
.type = NETDATA_EBPF_MAP_STATIC,
.map_fd = ND_EBPF_MAP_FD_NOT_INITIALIZED},
{.name = "tbl_conn_ipv6",
.internal_input = NETDATA_COMPILED_CONNECTIONS_ALLOWED,
.user_input = NETDATA_MAXIMUM_CONNECTIONS_ALLOWED,
.type = NETDATA_EBPF_MAP_STATIC,
.map_fd = ND_EBPF_MAP_FD_NOT_INITIALIZED},
{.name = "tbl_nv_udp",
.internal_input = NETDATA_COMPILED_UDP_CONNECTIONS_ALLOWED,
.user_input = NETDATA_MAXIMUM_UDP_CONNECTIONS_ALLOWED,
.type = NETDATA_EBPF_MAP_STATIC,
.map_fd = ND_EBPF_MAP_FD_NOT_INITIALIZED},
{.name = "socket_ctrl", .internal_input = NETDATA_CONTROLLER_END,
.user_input = 0,
.type = NETDATA_EBPF_MAP_CONTROLLER,
.map_fd = ND_EBPF_MAP_FD_NOT_INITIALIZED},
{.name = NULL, .internal_input = 0, .user_input = 0}};
static netdata_idx_t *socket_hash_values = NULL;
static netdata_syscall_stat_t socket_aggregated_data[NETDATA_MAX_SOCKET_VECTOR];
static netdata_publish_syscall_t socket_publish_aggregated[NETDATA_MAX_SOCKET_VECTOR];
static ebpf_bandwidth_t *bandwidth_vector = NULL;
pthread_mutex_t nv_mutex;
netdata_vector_plot_t inbound_vectors = { .plot = NULL, .next = 0, .last = 0 };
netdata_vector_plot_t outbound_vectors = { .plot = NULL, .next = 0, .last = 0 };
netdata_socket_t *socket_values;
ebpf_network_viewer_port_list_t *listen_ports = NULL;
struct config socket_config = { .first_section = NULL,
.last_section = NULL,
.mutex = NETDATA_MUTEX_INITIALIZER,
.index = { .avl_tree = { .root = NULL, .compar = appconfig_section_compare },
.rwlock = AVL_LOCK_INITIALIZER } };
netdata_ebpf_targets_t socket_targets[] = { {.name = "inet_csk_accept", .mode = EBPF_LOAD_TRAMPOLINE},
{.name = "tcp_retransmit_skb", .mode = EBPF_LOAD_TRAMPOLINE},
{.name = "tcp_cleanup_rbuf", .mode = EBPF_LOAD_TRAMPOLINE},
{.name = "tcp_close", .mode = EBPF_LOAD_TRAMPOLINE},
{.name = "udp_recvmsg", .mode = EBPF_LOAD_TRAMPOLINE},
{.name = "tcp_sendmsg", .mode = EBPF_LOAD_TRAMPOLINE},
{.name = "udp_sendmsg", .mode = EBPF_LOAD_TRAMPOLINE},
{.name = "tcp_v4_connect", .mode = EBPF_LOAD_TRAMPOLINE},
{.name = "tcp_v6_connect", .mode = EBPF_LOAD_TRAMPOLINE},
{.name = NULL, .mode = EBPF_LOAD_TRAMPOLINE}};
struct netdata_static_thread socket_threads = {
.name = "EBPF SOCKET READ",
.config_section = NULL,
.config_name = NULL,
.env_name = NULL,
.enabled = 1,
.thread = NULL,
.init_routine = NULL,
.start_routine = NULL
};
#ifdef LIBBPF_MAJOR_VERSION
/**
* Disable Probe
*
* Disable probes to use trampoline.
*
* @param obj is the main structure for bpf objects.
*/
static void ebpf_socket_disable_probes(struct socket_bpf *obj)
{
bpf_program__set_autoload(obj->progs.netdata_inet_csk_accept_kretprobe, false);
bpf_program__set_autoload(obj->progs.netdata_tcp_v4_connect_kretprobe, false);
bpf_program__set_autoload(obj->progs.netdata_tcp_v6_connect_kretprobe, false);
bpf_program__set_autoload(obj->progs.netdata_tcp_retransmit_skb_kprobe, false);
bpf_program__set_autoload(obj->progs.netdata_tcp_cleanup_rbuf_kprobe, false);
bpf_program__set_autoload(obj->progs.netdata_tcp_close_kprobe, false);
bpf_program__set_autoload(obj->progs.netdata_udp_recvmsg_kprobe, false);
bpf_program__set_autoload(obj->progs.netdata_udp_recvmsg_kretprobe, false);
bpf_program__set_autoload(obj->progs.netdata_tcp_sendmsg_kretprobe, false);
bpf_program__set_autoload(obj->progs.netdata_tcp_sendmsg_kprobe, false);
bpf_program__set_autoload(obj->progs.netdata_udp_sendmsg_kretprobe, false);
bpf_program__set_autoload(obj->progs.netdata_udp_sendmsg_kprobe, false);
bpf_program__set_autoload(obj->progs.netdata_socket_release_task_kprobe, false);
}
/**
* Disable Trampoline
*
* Disable trampoline to use probes.
*
* @param obj is the main structure for bpf objects.
*/
static void ebpf_socket_disable_trampoline(struct socket_bpf *obj)
{
bpf_program__set_autoload(obj->progs.netdata_inet_csk_accept_fentry, false);
bpf_program__set_autoload(obj->progs.netdata_tcp_v4_connect_fexit, false);
bpf_program__set_autoload(obj->progs.netdata_tcp_v6_connect_fexit, false);
bpf_program__set_autoload(obj->progs.netdata_tcp_retransmit_skb_fentry, false);
bpf_program__set_autoload(obj->progs.netdata_tcp_cleanup_rbuf_fentry, false);
bpf_program__set_autoload(obj->progs.netdata_tcp_close_fentry, false);
bpf_program__set_autoload(obj->progs.netdata_udp_recvmsg_fentry, false);
bpf_program__set_autoload(obj->progs.netdata_udp_recvmsg_fexit, false);
bpf_program__set_autoload(obj->progs.netdata_tcp_sendmsg_fentry, false);
bpf_program__set_autoload(obj->progs.netdata_tcp_sendmsg_fexit, false);
bpf_program__set_autoload(obj->progs.netdata_udp_sendmsg_fentry, false);
bpf_program__set_autoload(obj->progs.netdata_udp_sendmsg_fexit, false);
bpf_program__set_autoload(obj->progs.netdata_socket_release_task_fentry, false);
}
/**
* Set trampoline target.
*
* @param obj is the main structure for bpf objects.
*/
static void ebpf_set_trampoline_target(struct socket_bpf *obj)
{
bpf_program__set_attach_target(obj->progs.netdata_inet_csk_accept_fentry, 0,
socket_targets[NETDATA_FCNT_INET_CSK_ACCEPT].name);
bpf_program__set_attach_target(obj->progs.netdata_tcp_v4_connect_fexit, 0,
socket_targets[NETDATA_FCNT_TCP_V4_CONNECT].name);
bpf_program__set_attach_target(obj->progs.netdata_tcp_v6_connect_fexit, 0,
socket_targets[NETDATA_FCNT_TCP_V6_CONNECT].name);
bpf_program__set_attach_target(obj->progs.netdata_tcp_retransmit_skb_fentry, 0,
socket_targets[NETDATA_FCNT_TCP_RETRANSMIT].name);
bpf_program__set_attach_target(obj->progs.netdata_tcp_cleanup_rbuf_fentry, 0,
socket_targets[NETDATA_FCNT_CLEANUP_RBUF].name);
bpf_program__set_attach_target(obj->progs.netdata_tcp_close_fentry, 0, socket_targets[NETDATA_FCNT_TCP_CLOSE].name);
bpf_program__set_attach_target(obj->progs.netdata_udp_recvmsg_fentry, 0,
socket_targets[NETDATA_FCNT_UDP_RECEVMSG].name);
bpf_program__set_attach_target(obj->progs.netdata_udp_recvmsg_fexit, 0,
socket_targets[NETDATA_FCNT_UDP_RECEVMSG].name);
bpf_program__set_attach_target(obj->progs.netdata_tcp_sendmsg_fentry, 0,
socket_targets[NETDATA_FCNT_TCP_SENDMSG].name);
bpf_program__set_attach_target(obj->progs.netdata_tcp_sendmsg_fexit, 0,
socket_targets[NETDATA_FCNT_TCP_SENDMSG].name);
bpf_program__set_attach_target(obj->progs.netdata_udp_sendmsg_fentry, 0,
socket_targets[NETDATA_FCNT_UDP_SENDMSG].name);
bpf_program__set_attach_target(obj->progs.netdata_udp_sendmsg_fexit, 0,
socket_targets[NETDATA_FCNT_UDP_SENDMSG].name);
bpf_program__set_attach_target(obj->progs.netdata_socket_release_task_fentry, 0, EBPF_COMMON_FNCT_CLEAN_UP);
}
/**
* Disable specific trampoline
*
* Disable specific trampoline to match user selection.
*
* @param obj is the main structure for bpf objects.
* @param sel option selected by user.
*/
static inline void ebpf_socket_disable_specific_trampoline(struct socket_bpf *obj, netdata_run_mode_t sel)
{
if (sel == MODE_RETURN) {
bpf_program__set_autoload(obj->progs.netdata_tcp_sendmsg_fentry, false);
bpf_program__set_autoload(obj->progs.netdata_udp_sendmsg_fentry, false);
} else {
bpf_program__set_autoload(obj->progs.netdata_tcp_sendmsg_fexit, false);
bpf_program__set_autoload(obj->progs.netdata_udp_sendmsg_fexit, false);
}
}
/**
* Disable specific probe
*
* Disable specific probe to match user selection.
*
* @param obj is the main structure for bpf objects.
* @param sel option selected by user.
*/
static inline void ebpf_socket_disable_specific_probe(struct socket_bpf *obj, netdata_run_mode_t sel)
{
if (sel == MODE_RETURN) {
bpf_program__set_autoload(obj->progs.netdata_tcp_sendmsg_kprobe, false);
bpf_program__set_autoload(obj->progs.netdata_udp_sendmsg_kprobe, false);
} else {
bpf_program__set_autoload(obj->progs.netdata_tcp_sendmsg_kretprobe, false);
bpf_program__set_autoload(obj->progs.netdata_udp_sendmsg_kretprobe, false);
}
}
/**
* Attach probes
*
* Attach probes to targets.
*
* @param obj is the main structure for bpf objects.
* @param sel option selected by user.
*/
static int ebpf_socket_attach_probes(struct socket_bpf *obj, netdata_run_mode_t sel)
{
obj->links.netdata_inet_csk_accept_kretprobe = bpf_program__attach_kprobe(obj->progs.netdata_inet_csk_accept_kretprobe,
true,
socket_targets[NETDATA_FCNT_INET_CSK_ACCEPT].name);
int ret = libbpf_get_error(obj->links.netdata_inet_csk_accept_kretprobe);
if (ret)
return -1;
obj->links.netdata_tcp_v4_connect_kretprobe = bpf_program__attach_kprobe(obj->progs.netdata_tcp_v4_connect_kretprobe,
true,
socket_targets[NETDATA_FCNT_TCP_V4_CONNECT].name);
ret = libbpf_get_error(obj->links.netdata_tcp_v4_connect_kretprobe);
if (ret)
return -1;
obj->links.netdata_tcp_v6_connect_kretprobe = bpf_program__attach_kprobe(obj->progs.netdata_tcp_v6_connect_kretprobe,
true,
socket_targets[NETDATA_FCNT_TCP_V6_CONNECT].name);
ret = libbpf_get_error(obj->links.netdata_tcp_v6_connect_kretprobe);
if (ret)
return -1;
obj->links.netdata_tcp_retransmit_skb_kprobe = bpf_program__attach_kprobe(obj->progs.netdata_tcp_retransmit_skb_kprobe,
false,
socket_targets[NETDATA_FCNT_TCP_RETRANSMIT].name);
ret = libbpf_get_error(obj->links.netdata_tcp_retransmit_skb_kprobe);
if (ret)
return -1;
obj->links.netdata_tcp_cleanup_rbuf_kprobe = bpf_program__attach_kprobe(obj->progs.netdata_tcp_cleanup_rbuf_kprobe,
false,
socket_targets[NETDATA_FCNT_CLEANUP_RBUF].name);
ret = libbpf_get_error(obj->links.netdata_tcp_cleanup_rbuf_kprobe);
if (ret)
return -1;
obj->links.netdata_tcp_close_kprobe = bpf_program__attach_kprobe(obj->progs.netdata_tcp_close_kprobe,
false,
socket_targets[NETDATA_FCNT_TCP_CLOSE].name);
ret = libbpf_get_error(obj->links.netdata_tcp_close_kprobe);
if (ret)
return -1;
obj->links.netdata_udp_recvmsg_kprobe = bpf_program__attach_kprobe(obj->progs.netdata_udp_recvmsg_kprobe,
false,
socket_targets[NETDATA_FCNT_UDP_RECEVMSG].name);
ret = libbpf_get_error(obj->links.netdata_udp_recvmsg_kprobe);
if (ret)
return -1;
obj->links.netdata_udp_recvmsg_kretprobe = bpf_program__attach_kprobe(obj->progs.netdata_udp_recvmsg_kretprobe,
true,
socket_targets[NETDATA_FCNT_UDP_RECEVMSG].name);
ret = libbpf_get_error(obj->links.netdata_udp_recvmsg_kretprobe);
if (ret)
return -1;
if (sel == MODE_RETURN) {
obj->links.netdata_tcp_sendmsg_kretprobe = bpf_program__attach_kprobe(obj->progs.netdata_tcp_sendmsg_kretprobe,
true,
socket_targets[NETDATA_FCNT_TCP_SENDMSG].name);
ret = libbpf_get_error(obj->links.netdata_tcp_sendmsg_kretprobe);
if (ret)
return -1;
obj->links.netdata_udp_sendmsg_kretprobe = bpf_program__attach_kprobe(obj->progs.netdata_udp_sendmsg_kretprobe,
true,
socket_targets[NETDATA_FCNT_UDP_SENDMSG].name);
ret = libbpf_get_error(obj->links.netdata_udp_sendmsg_kretprobe);
if (ret)
return -1;
} else {
obj->links.netdata_tcp_sendmsg_kprobe = bpf_program__attach_kprobe(obj->progs.netdata_tcp_sendmsg_kprobe,
false,
socket_targets[NETDATA_FCNT_TCP_SENDMSG].name);
ret = libbpf_get_error(obj->links.netdata_tcp_sendmsg_kprobe);
if (ret)
return -1;
obj->links.netdata_udp_sendmsg_kprobe = bpf_program__attach_kprobe(obj->progs.netdata_udp_sendmsg_kprobe,
false,
socket_targets[NETDATA_FCNT_UDP_SENDMSG].name);
ret = libbpf_get_error(obj->links.netdata_udp_sendmsg_kprobe);
if (ret)
return -1;
}
obj->links.netdata_socket_release_task_kprobe = bpf_program__attach_kprobe(obj->progs.netdata_socket_release_task_kprobe,
false, EBPF_COMMON_FNCT_CLEAN_UP);
ret = libbpf_get_error(obj->links.netdata_socket_release_task_kprobe);
if (ret)
return -1;
return 0;
}
/**
* Set hash tables
*
* Set the values for maps according the value given by kernel.
*
* @param obj is the main structure for bpf objects.
*/
static void ebpf_socket_set_hash_tables(struct socket_bpf *obj)
{
socket_maps[NETDATA_SOCKET_TABLE_BANDWIDTH].map_fd = bpf_map__fd(obj->maps.tbl_bandwidth);
socket_maps[NETDATA_SOCKET_GLOBAL].map_fd = bpf_map__fd(obj->maps.tbl_global_sock);
socket_maps[NETDATA_SOCKET_LPORTS].map_fd = bpf_map__fd(obj->maps.tbl_lports);
socket_maps[NETDATA_SOCKET_TABLE_IPV4].map_fd = bpf_map__fd(obj->maps.tbl_conn_ipv4);
socket_maps[NETDATA_SOCKET_TABLE_IPV6].map_fd = bpf_map__fd(obj->maps.tbl_conn_ipv6);
socket_maps[NETDATA_SOCKET_TABLE_UDP].map_fd = bpf_map__fd(obj->maps.tbl_nv_udp);
socket_maps[NETDATA_SOCKET_TABLE_CTRL].map_fd = bpf_map__fd(obj->maps.socket_ctrl);
}
/**
* Adjust Map Size
*
* Resize maps according input from users.
*
* @param obj is the main structure for bpf objects.
* @param em structure with configuration
*/
static void ebpf_socket_adjust_map_size(struct socket_bpf *obj, ebpf_module_t *em)
{
ebpf_update_map_size(obj->maps.tbl_bandwidth, &socket_maps[NETDATA_SOCKET_TABLE_BANDWIDTH],
em, bpf_map__name(obj->maps.tbl_bandwidth));
ebpf_update_map_size(obj->maps.tbl_conn_ipv4, &socket_maps[NETDATA_SOCKET_TABLE_IPV4],
em, bpf_map__name(obj->maps.tbl_conn_ipv4));
ebpf_update_map_size(obj->maps.tbl_conn_ipv6, &socket_maps[NETDATA_SOCKET_TABLE_IPV6],
em, bpf_map__name(obj->maps.tbl_conn_ipv6));
ebpf_update_map_size(obj->maps.tbl_nv_udp, &socket_maps[NETDATA_SOCKET_TABLE_UDP],
em, bpf_map__name(obj->maps.tbl_nv_udp));
}
/**
* Load and attach
*
* Load and attach the eBPF code in kernel.
*
* @param obj is the main structure for bpf objects.
* @param em structure with configuration
*
* @return it returns 0 on success and -1 otherwise
*/
static inline int ebpf_socket_load_and_attach(struct socket_bpf *obj, ebpf_module_t *em)
{
netdata_ebpf_targets_t *mt = em->targets;
netdata_ebpf_program_loaded_t test = mt[NETDATA_FCNT_INET_CSK_ACCEPT].mode;
if (test == EBPF_LOAD_TRAMPOLINE) {
ebpf_socket_disable_probes(obj);
ebpf_set_trampoline_target(obj);
ebpf_socket_disable_specific_trampoline(obj, em->mode);
} else { // We are not using tracepoints for this thread.
ebpf_socket_disable_trampoline(obj);
ebpf_socket_disable_specific_probe(obj, em->mode);
}
int ret = socket_bpf__load(obj);
if (ret) {
fprintf(stderr, "failed to load BPF object: %d\n", ret);
return ret;
}
ebpf_socket_adjust_map_size(obj, em);
if (test == EBPF_LOAD_TRAMPOLINE) {
ret = socket_bpf__attach(obj);
} else {
ret = ebpf_socket_attach_probes(obj, em->mode);
}
if (!ret) {
ebpf_socket_set_hash_tables(obj);
ebpf_update_controller(socket_maps[NETDATA_SOCKET_TABLE_CTRL].map_fd, em);
}
return ret;
}
#endif
/*****************************************************************
*
* FUNCTIONS TO CLOSE THE THREAD
*
*****************************************************************/
/**
* Clean internal socket plot
*
* Clean all structures allocated with strdupz.
*
* @param ptr the pointer with addresses to clean.
*/
static inline void clean_internal_socket_plot(netdata_socket_plot_t *ptr)
{
freez(ptr->dimension_recv);
freez(ptr->dimension_sent);
freez(ptr->resolved_name);
freez(ptr->dimension_retransmit);
}
/**
* Clean socket plot
*
* Clean the allocated data for inbound and outbound vectors.
static void clean_allocated_socket_plot()
{
if (!network_viewer_opt.enabled)
return;
uint32_t i;
uint32_t end = inbound_vectors.last;
netdata_socket_plot_t *plot = inbound_vectors.plot;
for (i = 0; i < end; i++) {
clean_internal_socket_plot(&plot[i]);
}
clean_internal_socket_plot(&plot[inbound_vectors.last]);
end = outbound_vectors.last;
plot = outbound_vectors.plot;
for (i = 0; i < end; i++) {
clean_internal_socket_plot(&plot[i]);
}
clean_internal_socket_plot(&plot[outbound_vectors.last]);
}
*/
/**
* Clean network ports allocated during initialization.
*
* @param ptr a pointer to the link list.
static void clean_network_ports(ebpf_network_viewer_port_list_t *ptr)
{
if (unlikely(!ptr))
return;
while (ptr) {
ebpf_network_viewer_port_list_t *next = ptr->next;
freez(ptr->value);
freez(ptr);
ptr = next;
}
}
*/
/**
* Clean service names
*
* Clean the allocated link list that stores names.
*
* @param names the link list.
static void clean_service_names(ebpf_network_viewer_dim_name_t *names)
{
if (unlikely(!names))
return;
while (names) {
ebpf_network_viewer_dim_name_t *next = names->next;
freez(names->name);
freez(names);
names = next;
}
}
*/
/**
* Clean hostnames
*
* @param hostnames the hostnames to clean
static void clean_hostnames(ebpf_network_viewer_hostname_list_t *hostnames)
{
if (unlikely(!hostnames))
return;
while (hostnames) {
ebpf_network_viewer_hostname_list_t *next = hostnames->next;
freez(hostnames->value);
simple_pattern_free(hostnames->value_pattern);
freez(hostnames);
hostnames = next;
}
}
*/
/**
* Clean port Structure
*
* Clean the allocated list.
*
* @param clean the list that will be cleaned
*/
void clean_port_structure(ebpf_network_viewer_port_list_t **clean)
{
ebpf_network_viewer_port_list_t *move = *clean;
while (move) {
ebpf_network_viewer_port_list_t *next = move->next;
freez(move->value);
freez(move);
move = next;
}
*clean = NULL;
}
/**
* Clean IP structure
*
* Clean the allocated list.
*
* @param clean the list that will be cleaned
*/
static void clean_ip_structure(ebpf_network_viewer_ip_list_t **clean)
{
ebpf_network_viewer_ip_list_t *move = *clean;
while (move) {
ebpf_network_viewer_ip_list_t *next = move->next;
freez(move->value);
freez(move);
move = next;
}
*clean = NULL;
}
/**
* Socket Free
*
* Cleanup variables after child threads to stop
*
* @param ptr thread data.
*/
static void ebpf_socket_free(ebpf_module_t *em )
{
/* We can have thousands of sockets to clean, so we are transferring
* for OS the responsibility while we do not use ARAL here
freez(socket_hash_values);
freez(bandwidth_vector);
freez(socket_values);
clean_allocated_socket_plot();
freez(inbound_vectors.plot);
freez(outbound_vectors.plot);
clean_port_structure(&listen_ports);
clean_network_ports(network_viewer_opt.included_port);
clean_network_ports(network_viewer_opt.excluded_port);
clean_service_names(network_viewer_opt.names);
clean_hostnames(network_viewer_opt.included_hostnames);
clean_hostnames(network_viewer_opt.excluded_hostnames);
*/
pthread_mutex_destroy(&nv_mutex);
pthread_mutex_lock(&ebpf_exit_cleanup);
em->enabled = NETDATA_THREAD_EBPF_STOPPED;
pthread_mutex_unlock(&ebpf_exit_cleanup);
}
/**
* Socket exit
*
* Clean up the main thread.
*
* @param ptr thread data.
*/
static void ebpf_socket_exit(void *ptr)
{
ebpf_module_t *em = (ebpf_module_t *)ptr;
pthread_mutex_lock(&nv_mutex);
if (socket_threads.thread)
netdata_thread_cancel(*socket_threads.thread);
pthread_mutex_unlock(&nv_mutex);
ebpf_socket_free(em);
}
/**
* Socket cleanup
*
* Clean up allocated addresses.
*
* @param ptr thread data.
*/
void ebpf_socket_cleanup(void *ptr)
{
UNUSED(ptr);
}
/*****************************************************************
*
* PROCESS DATA AND SEND TO NETDATA
*
*****************************************************************/
/**
* Update publish structure before to send data to Netdata.
*
* @param publish the first output structure with independent dimensions
* @param tcp structure to store IO from tcp sockets
* @param udp structure to store IO from udp sockets
* @param input the structure with the input data.
*/
static void ebpf_update_global_publish(
netdata_publish_syscall_t *publish, netdata_publish_vfs_common_t *tcp, netdata_publish_vfs_common_t *udp,
netdata_syscall_stat_t *input)
{
netdata_publish_syscall_t *move = publish;
while (move) {
if (input->call != move->pcall) {
// This condition happens to avoid initial values with dimensions higher than normal values.
if (move->pcall) {
move->ncall = (input->call > move->pcall) ? input->call - move->pcall : move->pcall - input->call;
move->nbyte = (input->bytes > move->pbyte) ? input->bytes - move->pbyte : move->pbyte - input->bytes;
move->nerr = (input->ecall > move->nerr) ? input->ecall - move->perr : move->perr - input->ecall;
} else {
move->ncall = 0;
move->nbyte = 0;
move->nerr = 0;
}
move->pcall = input->call;
move->pbyte = input->bytes;
move->perr = input->ecall;
} else {
move->ncall = 0;
move->nbyte = 0;
move->nerr = 0;
}
input = input->next;
move = move->next;
}
tcp->write = -(long)publish[0].nbyte;
tcp->read = (long)publish[1].nbyte;
udp->write = -(long)publish[3].nbyte;
udp->read = (long)publish[4].nbyte;
}
/**
* Update Network Viewer plot data
*
* @param plot the structure where the data will be stored
* @param sock the last update from the socket
*/
static inline void update_nv_plot_data(netdata_plot_values_t *plot, netdata_socket_t *sock)
{
if (sock->ct != plot->last_time) {
plot->last_time = sock->ct;
plot->plot_recv_packets = sock->recv_packets;
plot->plot_sent_packets = sock->sent_packets;
plot->plot_recv_bytes = sock->recv_bytes;
plot->plot_sent_bytes = sock->sent_bytes;
plot->plot_retransmit = sock->retransmit;
}
sock->recv_packets = 0;
sock->sent_packets = 0;
sock->recv_bytes = 0;
sock->sent_bytes = 0;
sock->retransmit = 0;
}
/**
* Calculate Network Viewer Plot
*
* Do math with collected values before to plot data.
*/
static inline void calculate_nv_plot()
{
pthread_mutex_lock(&nv_mutex);
uint32_t i;
uint32_t end = inbound_vectors.next;
for (i = 0; i < end; i++) {
update_nv_plot_data(&inbound_vectors.plot[i].plot, &inbound_vectors.plot[i].sock);
}
inbound_vectors.max_plot = end;
// The 'Other' dimension is always calculated for the chart to have at least one dimension
update_nv_plot_data(&inbound_vectors.plot[inbound_vectors.last].plot,
&inbound_vectors.plot[inbound_vectors.last].sock);
end = outbound_vectors.next;
for (i = 0; i < end; i++) {
update_nv_plot_data(&outbound_vectors.plot[i].plot, &outbound_vectors.plot[i].sock);
}
outbound_vectors.max_plot = end;
/*
// The 'Other' dimension is always calculated for the chart to have at least one dimension
update_nv_plot_data(&outbound_vectors.plot[outbound_vectors.last].plot,
&outbound_vectors.plot[outbound_vectors.last].sock);
*/
pthread_mutex_unlock(&nv_mutex);
}
/**
* Network viewer send bytes
*
* @param ptr the structure with values to plot
* @param chart the chart name.
*/
static inline void ebpf_socket_nv_send_bytes(netdata_vector_plot_t *ptr, char *chart)
{
uint32_t i;
uint32_t end = ptr->last_plot;
netdata_socket_plot_t *w = ptr->plot;
collected_number value;
write_begin_chart(NETDATA_EBPF_FAMILY, chart);
for (i = 0; i < end; i++) {
value = ((collected_number) w[i].plot.plot_sent_bytes);
write_chart_dimension(w[i].dimension_sent, value);
value = (collected_number) w[i].plot.plot_recv_bytes;
write_chart_dimension(w[i].dimension_recv, value);
}
i = ptr->last;
value = ((collected_number) w[i].plot.plot_sent_bytes);
write_chart_dimension(w[i].dimension_sent, value);
value = (collected_number) w[i].plot.plot_recv_bytes;
write_chart_dimension(w[i].dimension_recv, value);
write_end_chart();
}
/**
* Network Viewer Send packets
*
* @param ptr the structure with values to plot
* @param chart the chart name.
*/
static inline void ebpf_socket_nv_send_packets(netdata_vector_plot_t *ptr, char *chart)
{
uint32_t i;
uint32_t end = ptr->last_plot;
netdata_socket_plot_t *w = ptr->plot;
collected_number value;
write_begin_chart(NETDATA_EBPF_FAMILY, chart);
for (i = 0; i < end; i++) {
value = ((collected_number)w[i].plot.plot_sent_packets);
write_chart_dimension(w[i].dimension_sent, value);
value = (collected_number) w[i].plot.plot_recv_packets;
write_chart_dimension(w[i].dimension_recv, value);
}
i = ptr->last;
value = ((collected_number)w[i].plot.plot_sent_packets);
write_chart_dimension(w[i].dimension_sent, value);
value = (collected_number)w[i].plot.plot_recv_packets;
write_chart_dimension(w[i].dimension_recv, value);
write_end_chart();
}
/**
* Network Viewer Send Retransmit
*
* @param ptr the structure with values to plot
* @param chart the chart name.
*/
static inline void ebpf_socket_nv_send_retransmit(netdata_vector_plot_t *ptr, char *chart)
{
uint32_t i;
uint32_t end = ptr->last_plot;
netdata_socket_plot_t *w = ptr->plot;
collected_number value;
write_begin_chart(NETDATA_EBPF_FAMILY, chart);
for (i = 0; i < end; i++) {
value = (collected_number) w[i].plot.plot_retransmit;
write_chart_dimension(w[i].dimension_retransmit, value);
}
i = ptr->last;
value = (collected_number)w[i].plot.plot_retransmit;
write_chart_dimension(w[i].dimension_retransmit, value);
write_end_chart();
}
/**
* Send network viewer data
*
* @param ptr the pointer to plot data
*/
static void ebpf_socket_send_nv_data(netdata_vector_plot_t *ptr)
{
if (!ptr->flags)
return;
if (ptr == (netdata_vector_plot_t *)&outbound_vectors) {
ebpf_socket_nv_send_bytes(ptr, NETDATA_NV_OUTBOUND_BYTES);
fflush(stdout);
ebpf_socket_nv_send_packets(ptr, NETDATA_NV_OUTBOUND_PACKETS);
fflush(stdout);
ebpf_socket_nv_send_retransmit(ptr, NETDATA_NV_OUTBOUND_RETRANSMIT);
fflush(stdout);
} else {
ebpf_socket_nv_send_bytes(ptr, NETDATA_NV_INBOUND_BYTES);
fflush(stdout);
ebpf_socket_nv_send_packets(ptr, NETDATA_NV_INBOUND_PACKETS);
fflush(stdout);
}
}
/**
* Send Global Inbound connection
*
* Send number of connections read per protocol.
*/
static void ebpf_socket_send_global_inbound_conn()
{
uint64_t udp_conn = 0;
uint64_t tcp_conn = 0;
ebpf_network_viewer_port_list_t *move = listen_ports;
while (move) {
if (move->protocol == IPPROTO_TCP)
tcp_conn += move->connections;
else
udp_conn += move->connections;
move = move->next;
}
write_begin_chart(NETDATA_EBPF_IP_FAMILY, NETDATA_INBOUND_CONNECTIONS);
write_chart_dimension(socket_publish_aggregated[NETDATA_IDX_INCOMING_CONNECTION_TCP].name, (long long) tcp_conn);
write_chart_dimension(socket_publish_aggregated[NETDATA_IDX_INCOMING_CONNECTION_UDP].name, (long long) udp_conn);
write_end_chart();
}
/**
* Send data to Netdata calling auxiliary functions.
*
* @param em the structure with thread information
*/
static void ebpf_socket_send_data(ebpf_module_t *em)
{
netdata_publish_vfs_common_t common_tcp;
netdata_publish_vfs_common_t common_udp;
ebpf_update_global_publish(socket_publish_aggregated, &common_tcp, &common_udp, socket_aggregated_data);
ebpf_socket_send_global_inbound_conn();
write_count_chart(NETDATA_TCP_OUTBOUND_CONNECTIONS, NETDATA_EBPF_IP_FAMILY,
&socket_publish_aggregated[NETDATA_IDX_TCP_CONNECTION_V4], 2);
// We read bytes from function arguments, but bandwidth is given in bits,
// so we need to multiply by 8 to convert for the final value.
write_count_chart(NETDATA_TCP_FUNCTION_COUNT, NETDATA_EBPF_IP_FAMILY, socket_publish_aggregated, 3);
write_io_chart(NETDATA_TCP_FUNCTION_BITS, NETDATA_EBPF_IP_FAMILY, socket_id_names[0],
common_tcp.read * 8/BITS_IN_A_KILOBIT, socket_id_names[1],
common_tcp.write * 8/BITS_IN_A_KILOBIT);
if (em->mode < MODE_ENTRY) {
write_err_chart(NETDATA_TCP_FUNCTION_ERROR, NETDATA_EBPF_IP_FAMILY, socket_publish_aggregated, 2);
}
write_count_chart(NETDATA_TCP_RETRANSMIT, NETDATA_EBPF_IP_FAMILY,
&socket_publish_aggregated[NETDATA_IDX_TCP_RETRANSMIT],1);
write_count_chart(NETDATA_UDP_FUNCTION_COUNT, NETDATA_EBPF_IP_FAMILY,
&socket_publish_aggregated[NETDATA_IDX_UDP_RECVBUF],2);
write_io_chart(NETDATA_UDP_FUNCTION_BITS, NETDATA_EBPF_IP_FAMILY,
socket_id_names[3], (long long)common_udp.read * 8/BITS_IN_A_KILOBIT,
socket_id_names[4], (long long)common_udp.write * 8/BITS_IN_A_KILOBIT);
if (em->mode < MODE_ENTRY) {
write_err_chart(NETDATA_UDP_FUNCTION_ERROR, NETDATA_EBPF_IP_FAMILY,
&socket_publish_aggregated[NETDATA_UDP_START], 2);
}
}
/**
* Sum values for pid
*
* @param root the structure with all available PIDs
*
* @param offset the address that we are reading
*
* @return it returns the sum of all PIDs
*/
long long ebpf_socket_sum_values_for_pids(struct ebpf_pid_on_target *root, size_t offset)
{
long long ret = 0;
while (root) {
int32_t pid = root->pid;
ebpf_socket_publish_apps_t *w = socket_bandwidth_curr[pid];
if (w) {
ret += get_value_from_structure((char *)w, offset);
}
root = root->next;
}
return ret;
}
/**
* Send data to Netdata calling auxiliary functions.
*
* @param em the structure with thread information
* @param root the target list.
*/
void ebpf_socket_send_apps_data(ebpf_module_t *em, struct ebpf_target *root)
{
UNUSED(em);
struct ebpf_target *w;
collected_number value;
write_begin_chart(NETDATA_APPS_FAMILY, NETDATA_NET_APPS_CONNECTION_TCP_V4);
for (w = root; w; w = w->next) {
if (unlikely(w->exposed && w->processes)) {
value = ebpf_socket_sum_values_for_pids(w->root_pid, offsetof(ebpf_socket_publish_apps_t,
call_tcp_v4_connection));
write_chart_dimension(w->name, value);
}
}
write_end_chart();
write_begin_chart(NETDATA_APPS_FAMILY, NETDATA_NET_APPS_CONNECTION_TCP_V6);
for (w = root; w; w = w->next) {
if (unlikely(w->exposed && w->processes)) {
value = ebpf_socket_sum_values_for_pids(w->root_pid, offsetof(ebpf_socket_publish_apps_t,
call_tcp_v6_connection));
write_chart_dimension(w->name, value);
}
}
write_end_chart();
write_begin_chart(NETDATA_APPS_FAMILY, NETDATA_NET_APPS_BANDWIDTH_SENT);
for (w = root; w; w = w->next) {
if (unlikely(w->exposed && w->processes)) {
value = ebpf_socket_sum_values_for_pids(w->root_pid, offsetof(ebpf_socket_publish_apps_t,
bytes_sent));
// We multiply by 0.008, because we read bytes, but we display bits
write_chart_dimension(w->name, ((value)*8)/1000);
}
}
write_end_chart();
write_begin_chart(NETDATA_APPS_FAMILY, NETDATA_NET_APPS_BANDWIDTH_RECV);
for (w = root; w; w = w->next) {
if (unlikely(w->exposed && w->processes)) {
value = ebpf_socket_sum_values_for_pids(w->root_pid, offsetof(ebpf_socket_publish_apps_t,
bytes_received));
// We multiply by 0.008, because we read bytes, but we display bits
write_chart_dimension(w->name, ((value)*8)/1000);
}
}
write_end_chart();
write_begin_chart(NETDATA_APPS_FAMILY, NETDATA_NET_APPS_BANDWIDTH_TCP_SEND_CALLS);
for (w = root; w; w = w->next) {
if (unlikely(w->exposed && w->processes)) {
value = ebpf_socket_sum_values_for_pids(w->root_pid, offsetof(ebpf_socket_publish_apps_t,
call_tcp_sent));
write_chart_dimension(w->name, value);
}
}
write_end_chart();
write_begin_chart(NETDATA_APPS_FAMILY, NETDATA_NET_APPS_BANDWIDTH_TCP_RECV_CALLS);
for (w = root; w; w = w->next) {
if (unlikely(w->exposed && w->processes)) {
value = ebpf_socket_sum_values_for_pids(w->root_pid, offsetof(ebpf_socket_publish_apps_t,
call_tcp_received));
write_chart_dimension(w->name, value);
}
}
write_end_chart();
write_begin_chart(NETDATA_APPS_FAMILY, NETDATA_NET_APPS_BANDWIDTH_TCP_RETRANSMIT);
for (w = root; w; w = w->next) {
if (unlikely(w->exposed && w->processes)) {
value = ebpf_socket_sum_values_for_pids(w->root_pid, offsetof(ebpf_socket_publish_apps_t,
retransmit));
write_chart_dimension(w->name, value);
}
}
write_end_chart();
write_begin_chart(NETDATA_APPS_FAMILY, NETDATA_NET_APPS_BANDWIDTH_UDP_SEND_CALLS);
for (w = root; w; w = w->next) {
if (unlikely(w->exposed && w->processes)) {
value = ebpf_socket_sum_values_for_pids(w->root_pid, offsetof(ebpf_socket_publish_apps_t,
call_udp_sent));
write_chart_dimension(w->name, value);
}
}
write_end_chart();
write_begin_chart(NETDATA_APPS_FAMILY, NETDATA_NET_APPS_BANDWIDTH_UDP_RECV_CALLS);
for (w = root; w; w = w->next) {
if (unlikely(w->exposed && w->processes)) {
value = ebpf_socket_sum_values_for_pids(w->root_pid, offsetof(ebpf_socket_publish_apps_t,
call_udp_received));
write_chart_dimension(w->name, value);
}
}
write_end_chart();
}
/*****************************************************************
*
* FUNCTIONS TO CREATE CHARTS
*
*****************************************************************/
/**
* Create global charts
*
* Call ebpf_create_chart to create the charts for the collector.
*
* @param em a pointer to the structure with the default values.
*/
static void ebpf_create_global_charts(ebpf_module_t *em)
{
int order = 21070;
ebpf_create_chart(NETDATA_EBPF_IP_FAMILY,
NETDATA_INBOUND_CONNECTIONS,
"Inbound connections.",
EBPF_COMMON_DIMENSION_CONNECTIONS,
NETDATA_SOCKET_KERNEL_FUNCTIONS,
NULL,
NETDATA_EBPF_CHART_TYPE_LINE,
order++,
ebpf_create_global_dimension,
&socket_publish_aggregated[NETDATA_IDX_INCOMING_CONNECTION_TCP],
2, em->update_every, NETDATA_EBPF_MODULE_NAME_SOCKET);
ebpf_create_chart(NETDATA_EBPF_IP_FAMILY,
NETDATA_TCP_OUTBOUND_CONNECTIONS,
"TCP outbound connections.",
EBPF_COMMON_DIMENSION_CONNECTIONS,
NETDATA_SOCKET_KERNEL_FUNCTIONS,
NULL,
NETDATA_EBPF_CHART_TYPE_LINE,
order++,
ebpf_create_global_dimension,
&socket_publish_aggregated[NETDATA_IDX_TCP_CONNECTION_V4],
2, em->update_every, NETDATA_EBPF_MODULE_NAME_SOCKET);
ebpf_create_chart(NETDATA_EBPF_IP_FAMILY,
NETDATA_TCP_FUNCTION_COUNT,
"Calls to internal functions",
EBPF_COMMON_DIMENSION_CALL,
NETDATA_SOCKET_KERNEL_FUNCTIONS,
NULL,
NETDATA_EBPF_CHART_TYPE_LINE,
order++,
ebpf_create_global_dimension,
socket_publish_aggregated,
3, em->update_every, NETDATA_EBPF_MODULE_NAME_SOCKET);
ebpf_create_chart(NETDATA_EBPF_IP_FAMILY, NETDATA_TCP_FUNCTION_BITS,
"TCP bandwidth", EBPF_COMMON_DIMENSION_BITS,
NETDATA_SOCKET_KERNEL_FUNCTIONS,
NULL,
NETDATA_EBPF_CHART_TYPE_LINE,
order++,
ebpf_create_global_dimension,
socket_publish_aggregated,
2, em->update_every, NETDATA_EBPF_MODULE_NAME_SOCKET);
if (em->mode < MODE_ENTRY) {
ebpf_create_chart(NETDATA_EBPF_IP_FAMILY,
NETDATA_TCP_FUNCTION_ERROR,
"TCP errors",
EBPF_COMMON_DIMENSION_CALL,
NETDATA_SOCKET_KERNEL_FUNCTIONS,
NULL,
NETDATA_EBPF_CHART_TYPE_LINE,
order++,
ebpf_create_global_dimension,
socket_publish_aggregated,
2, em->update_every, NETDATA_EBPF_MODULE_NAME_SOCKET);
}
ebpf_create_chart(NETDATA_EBPF_IP_FAMILY,
NETDATA_TCP_RETRANSMIT,
"Packages retransmitted",
EBPF_COMMON_DIMENSION_CALL,
NETDATA_SOCKET_KERNEL_FUNCTIONS,
NULL,
NETDATA_EBPF_CHART_TYPE_LINE,
order++,
ebpf_create_global_dimension,
&socket_publish_aggregated[NETDATA_IDX_TCP_RETRANSMIT],
1, em->update_every, NETDATA_EBPF_MODULE_NAME_SOCKET);
ebpf_create_chart(NETDATA_EBPF_IP_FAMILY,
NETDATA_UDP_FUNCTION_COUNT,
"UDP calls",
EBPF_COMMON_DIMENSION_CALL,
NETDATA_SOCKET_KERNEL_FUNCTIONS,
NULL,
NETDATA_EBPF_CHART_TYPE_LINE,
order++,
ebpf_create_global_dimension,
&socket_publish_aggregated[NETDATA_IDX_UDP_RECVBUF],
2, em->update_every, NETDATA_EBPF_MODULE_NAME_SOCKET);
ebpf_create_chart(NETDATA_EBPF_IP_FAMILY, NETDATA_UDP_FUNCTION_BITS,
"UDP bandwidth", EBPF_COMMON_DIMENSION_BITS,
NETDATA_SOCKET_KERNEL_FUNCTIONS,
NULL,
NETDATA_EBPF_CHART_TYPE_LINE,
order++,
ebpf_create_global_dimension,
&socket_publish_aggregated[NETDATA_IDX_UDP_RECVBUF],
2, em->update_every, NETDATA_EBPF_MODULE_NAME_SOCKET);
if (em->mode < MODE_ENTRY) {
ebpf_create_chart(NETDATA_EBPF_IP_FAMILY,
NETDATA_UDP_FUNCTION_ERROR,
"UDP errors",
EBPF_COMMON_DIMENSION_CALL,
NETDATA_SOCKET_KERNEL_FUNCTIONS,
NULL,
NETDATA_EBPF_CHART_TYPE_LINE,
order++,
ebpf_create_global_dimension,
&socket_publish_aggregated[NETDATA_IDX_UDP_RECVBUF],
2, em->update_every, NETDATA_EBPF_MODULE_NAME_SOCKET);
}
}
/**
* Create apps charts
*
* Call ebpf_create_chart to create the charts on apps submenu.
*
* @param em a pointer to the structure with the default values.
* @param ptr a pointer for targets
*/
void ebpf_socket_create_apps_charts(struct ebpf_module *em, void *ptr)
{
struct ebpf_target *root = ptr;
int order = 20080;
ebpf_create_charts_on_apps(NETDATA_NET_APPS_CONNECTION_TCP_V4,
"Calls to tcp_v4_connection", EBPF_COMMON_DIMENSION_CONNECTIONS,
NETDATA_APPS_NET_GROUP,
NETDATA_EBPF_CHART_TYPE_STACKED,
order++,
ebpf_algorithms[NETDATA_EBPF_INCREMENTAL_IDX],
root, em->update_every, NETDATA_EBPF_MODULE_NAME_SOCKET);
ebpf_create_charts_on_apps(NETDATA_NET_APPS_CONNECTION_TCP_V6,
"Calls to tcp_v6_connection", EBPF_COMMON_DIMENSION_CONNECTIONS,
NETDATA_APPS_NET_GROUP,
NETDATA_EBPF_CHART_TYPE_STACKED,
order++,
ebpf_algorithms[NETDATA_EBPF_INCREMENTAL_IDX],
root, em->update_every, NETDATA_EBPF_MODULE_NAME_SOCKET);
ebpf_create_charts_on_apps(NETDATA_NET_APPS_BANDWIDTH_SENT,
"Bytes sent", EBPF_COMMON_DIMENSION_BITS,
NETDATA_APPS_NET_GROUP,
NETDATA_EBPF_CHART_TYPE_STACKED,
order++,
ebpf_algorithms[NETDATA_EBPF_INCREMENTAL_IDX],
root, em->update_every, NETDATA_EBPF_MODULE_NAME_SOCKET);
ebpf_create_charts_on_apps(NETDATA_NET_APPS_BANDWIDTH_RECV,
"bytes received", EBPF_COMMON_DIMENSION_BITS,
NETDATA_APPS_NET_GROUP,
NETDATA_EBPF_CHART_TYPE_STACKED,
order++,
ebpf_algorithms[NETDATA_EBPF_INCREMENTAL_IDX],
root, em->update_every, NETDATA_EBPF_MODULE_NAME_SOCKET);
ebpf_create_charts_on_apps(NETDATA_NET_APPS_BANDWIDTH_TCP_SEND_CALLS,
"Calls for tcp_sendmsg",
EBPF_COMMON_DIMENSION_CALL,
NETDATA_APPS_NET_GROUP,
NETDATA_EBPF_CHART_TYPE_STACKED,
order++,
ebpf_algorithms[NETDATA_EBPF_INCREMENTAL_IDX],
root, em->update_every, NETDATA_EBPF_MODULE_NAME_SOCKET);
ebpf_create_charts_on_apps(NETDATA_NET_APPS_BANDWIDTH_TCP_RECV_CALLS,
"Calls for tcp_cleanup_rbuf",
EBPF_COMMON_DIMENSION_CALL,
NETDATA_APPS_NET_GROUP,
NETDATA_EBPF_CHART_TYPE_STACKED,
order++,
ebpf_algorithms[NETDATA_EBPF_INCREMENTAL_IDX],
root, em->update_every, NETDATA_EBPF_MODULE_NAME_SOCKET);
ebpf_create_charts_on_apps(NETDATA_NET_APPS_BANDWIDTH_TCP_RETRANSMIT,
"Calls for tcp_retransmit",
EBPF_COMMON_DIMENSION_CALL,
NETDATA_APPS_NET_GROUP,
NETDATA_EBPF_CHART_TYPE_STACKED,
order++,
ebpf_algorithms[NETDATA_EBPF_INCREMENTAL_IDX],
root, em->update_every, NETDATA_EBPF_MODULE_NAME_SOCKET);
ebpf_create_charts_on_apps(NETDATA_NET_APPS_BANDWIDTH_UDP_SEND_CALLS,
"Calls for udp_sendmsg",
EBPF_COMMON_DIMENSION_CALL,
NETDATA_APPS_NET_GROUP,
NETDATA_EBPF_CHART_TYPE_STACKED,
order++,
ebpf_algorithms[NETDATA_EBPF_INCREMENTAL_IDX],
root, em->update_every, NETDATA_EBPF_MODULE_NAME_SOCKET);
ebpf_create_charts_on_apps(NETDATA_NET_APPS_BANDWIDTH_UDP_RECV_CALLS,
"Calls for udp_recvmsg",
EBPF_COMMON_DIMENSION_CALL,
NETDATA_APPS_NET_GROUP,
NETDATA_EBPF_CHART_TYPE_STACKED,
order++,
ebpf_algorithms[NETDATA_EBPF_INCREMENTAL_IDX],
root, em->update_every, NETDATA_EBPF_MODULE_NAME_SOCKET);
em->apps_charts |= NETDATA_EBPF_APPS_FLAG_CHART_CREATED;
}
/**
* Create network viewer chart
*
* Create common charts.
*
* @param id chart id
* @param title chart title
* @param units units label
* @param family group name used to attach the chart on dashboard
* @param order chart order
* @param update_every value to overwrite the update frequency set by the server.
* @param ptr plot structure with values.
*/
static void ebpf_socket_create_nv_chart(char *id, char *title, char *units,
char *family, int order, int update_every, netdata_vector_plot_t *ptr)
{
ebpf_write_chart_cmd(NETDATA_EBPF_FAMILY,
id,
title,
units,
family,
NETDATA_EBPF_CHART_TYPE_STACKED,
NULL,
order,
update_every,
NETDATA_EBPF_MODULE_NAME_SOCKET);
uint32_t i;
uint32_t end = ptr->last_plot;
netdata_socket_plot_t *w = ptr->plot;
for (i = 0; i < end; i++) {
fprintf(stdout, "DIMENSION %s '' incremental -1 1\n", w[i].dimension_sent);
fprintf(stdout, "DIMENSION %s '' incremental 1 1\n", w[i].dimension_recv);
}
end = ptr->last;
fprintf(stdout, "DIMENSION %s '' incremental -1 1\n", w[end].dimension_sent);
fprintf(stdout, "DIMENSION %s '' incremental 1 1\n", w[end].dimension_recv);
}
/**
* Create network viewer retransmit
*
* Create a specific chart.
*
* @param id the chart id
* @param title the chart title
* @param units the units label
* @param family the group name used to attach the chart on dashboard
* @param order the chart order
* @param update_every value to overwrite the update frequency set by the server.
* @param ptr the plot structure with values.
*/
static void ebpf_socket_create_nv_retransmit(char *id, char *title, char *units,
char *family, int order, int update_every, netdata_vector_plot_t *ptr)
{
ebpf_write_chart_cmd(NETDATA_EBPF_FAMILY,
id,
title,
units,
family,
NETDATA_EBPF_CHART_TYPE_STACKED,
NULL,
order,
update_every,
NETDATA_EBPF_MODULE_NAME_SOCKET);
uint32_t i;
uint32_t end = ptr->last_plot;
netdata_socket_plot_t *w = ptr->plot;
for (i = 0; i < end; i++) {
fprintf(stdout, "DIMENSION %s '' incremental 1 1\n", w[i].dimension_retransmit);
}
end = ptr->last;
fprintf(stdout, "DIMENSION %s '' incremental 1 1\n", w[end].dimension_retransmit);
}
/**
* Create Network Viewer charts
*
* Recreate the charts when new sockets are created.
*
* @param ptr a pointer for inbound or outbound vectors.
* @param update_every value to overwrite the update frequency set by the server.
*/
static void ebpf_socket_create_nv_charts(netdata_vector_plot_t *ptr, int update_every)
{
// We do not have new sockets, so we do not need move forward
if (ptr->max_plot == ptr->last_plot)
return;
ptr->last_plot = ptr->max_plot;
if (ptr == (netdata_vector_plot_t *)&outbound_vectors) {
ebpf_socket_create_nv_chart(NETDATA_NV_OUTBOUND_BYTES,
"Outbound connections (bytes).", EBPF_COMMON_DIMENSION_BYTES,
NETDATA_NETWORK_CONNECTIONS_GROUP,
21080,
update_every, ptr);
ebpf_socket_create_nv_chart(NETDATA_NV_OUTBOUND_PACKETS,
"Outbound connections (packets)",
EBPF_COMMON_DIMENSION_PACKETS,
NETDATA_NETWORK_CONNECTIONS_GROUP,
21082,
update_every, ptr);
ebpf_socket_create_nv_retransmit(NETDATA_NV_OUTBOUND_RETRANSMIT,
"Retransmitted packets",
EBPF_COMMON_DIMENSION_CALL,
NETDATA_NETWORK_CONNECTIONS_GROUP,
21083,
update_every, ptr);
} else {
ebpf_socket_create_nv_chart(NETDATA_NV_INBOUND_BYTES,
"Inbound connections (bytes)", EBPF_COMMON_DIMENSION_BYTES,
NETDATA_NETWORK_CONNECTIONS_GROUP,
21084,
update_every, ptr);
ebpf_socket_create_nv_chart(NETDATA_NV_INBOUND_PACKETS,
"Inbound connections (packets)",
EBPF_COMMON_DIMENSION_PACKETS,
NETDATA_NETWORK_CONNECTIONS_GROUP,
21085,
update_every, ptr);
}
ptr->flags |= NETWORK_VIEWER_CHARTS_CREATED;
}
/*****************************************************************
*
* READ INFORMATION FROM KERNEL RING
*
*****************************************************************/
/**
* Is specific ip inside the range
*
* Check if the ip is inside a IP range previously defined
*
* @param cmp the IP to compare
* @param family the IP family
*
* @return It returns 1 if the IP is inside the range and 0 otherwise
*/
static int ebpf_is_specific_ip_inside_range(union netdata_ip_t *cmp, int family)
{
if (!network_viewer_opt.excluded_ips && !network_viewer_opt.included_ips)
return 1;
uint32_t ipv4_test = htonl(cmp->addr32[0]);
ebpf_network_viewer_ip_list_t *move = network_viewer_opt.excluded_ips;
while (move) {
if (family == AF_INET) {
if (move->first.addr32[0] <= ipv4_test &&
ipv4_test <= move->last.addr32[0])
return 0;
} else {
if (memcmp(move->first.addr8, cmp->addr8, sizeof(union netdata_ip_t)) <= 0 &&
memcmp(move->last.addr8, cmp->addr8, sizeof(union netdata_ip_t)) >= 0) {
return 0;
}
}
move = move->next;
}
move = network_viewer_opt.included_ips;
while (move) {
if (family == AF_INET && move->ver == AF_INET) {
if (move->first.addr32[0] <= ipv4_test &&
move->last.addr32[0] >= ipv4_test)
return 1;
} else {
if (move->ver == AF_INET6 &&
memcmp(move->first.addr8, cmp->addr8, sizeof(union netdata_ip_t)) <= 0 &&
memcmp(move->last.addr8, cmp->addr8, sizeof(union netdata_ip_t)) >= 0) {
return 1;
}
}
move = move->next;
}
return 0;
}
/**
* Is port inside range
*
* Verify if the cmp port is inside the range [first, last].
* This function expects only the last parameter as big endian.
*
* @param cmp the value to compare
*
* @return It returns 1 when cmp is inside and 0 otherwise.
*/
static int is_port_inside_range(uint16_t cmp)
{
// We do not have restrictions for ports.
if (!network_viewer_opt.excluded_port && !network_viewer_opt.included_port)
return 1;
// Test if port is excluded
ebpf_network_viewer_port_list_t *move = network_viewer_opt.excluded_port;
cmp = htons(cmp);
while (move) {
if (move->cmp_first <= cmp && cmp <= move->cmp_last)
return 0;
move = move->next;
}
// Test if the port is inside allowed range
move = network_viewer_opt.included_port;
while (move) {
if (move->cmp_first <= cmp && cmp <= move->cmp_last)
return 1;
move = move->next;
}
return 0;
}
/**
* Hostname matches pattern
*
* @param cmp the value to compare
*
* @return It returns 1 when the value matches and zero otherwise.
*/
int hostname_matches_pattern(char *cmp)
{
if (!network_viewer_opt.included_hostnames && !network_viewer_opt.excluded_hostnames)
return 1;
ebpf_network_viewer_hostname_list_t *move = network_viewer_opt.excluded_hostnames;
while (move) {
if (simple_pattern_matches(move->value_pattern, cmp))
return 0;
move = move->next;
}
move = network_viewer_opt.included_hostnames;
while (move) {
if (simple_pattern_matches(move->value_pattern, cmp))
return 1;
move = move->next;
}
return 0;
}
/**
* Is socket allowed?
*
* Compare destination addresses and destination ports to define next steps
*
* @param key the socket read from kernel ring
* @param family the family used to compare IPs (AF_INET and AF_INET6)
*
* @return It returns 1 if this socket is inside the ranges and 0 otherwise.
*/
int is_socket_allowed(netdata_socket_idx_t *key, int family)
{
if (!is_port_inside_range(key->dport))
return 0;
return ebpf_is_specific_ip_inside_range(&key->daddr, family);
}
/**
* Compare sockets
*
* Compare destination address and destination port.
* We do not compare source port, because it is random.
* We also do not compare source address, because inbound and outbound connections are stored in separated AVL trees.
*
* @param a pointer to netdata_socket_plot
* @param b pointer to netdata_socket_plot
*
* @return It returns 0 case the values are equal, 1 case a is bigger than b and -1 case a is smaller than b.
*/
static int ebpf_compare_sockets(void *a, void *b)
{
struct netdata_socket_plot *val1 = a;
struct netdata_socket_plot *val2 = b;
int cmp = 0;
// We do not need to compare val2 family, because data inside hash table is always from the same family
if (val1->family == AF_INET) { //IPV4
if (network_viewer_opt.included_port || network_viewer_opt.excluded_port)
cmp = memcmp(&val1->index.dport, &val2->index.dport, sizeof(uint16_t));
if (!cmp) {
cmp = memcmp(&val1->index.daddr.addr32[0], &val2->index.daddr.addr32[0], sizeof(uint32_t));
}
} else {
if (network_viewer_opt.included_port || network_viewer_opt.excluded_port)
cmp = memcmp(&val1->index.dport, &val2->index.dport, sizeof(uint16_t));
if (!cmp) {
cmp = memcmp(&val1->index.daddr.addr32, &val2->index.daddr.addr32, 4*sizeof(uint32_t));
}
}
return cmp;
}
/**
* Build dimension name
*
* Fill dimension name vector with values given
*
* @param dimname the output vector
* @param hostname the hostname for the socket.
* @param service_name the service used to connect.
* @param proto the protocol used in this connection
* @param family is this IPV4(AF_INET) or IPV6(AF_INET6)
*
* @return it returns the size of the data copied on success and -1 otherwise.
*/
static inline int ebpf_build_outbound_dimension_name(char *dimname, char *hostname, char *service_name,
char *proto, int family)
{
if (network_viewer_opt.included_port || network_viewer_opt.excluded_port)
return snprintf(dimname, CONFIG_MAX_NAME - 7, (family == AF_INET)?"%s:%s:%s_":"%s:%s:[%s]_",
service_name, proto, hostname);
return snprintf(dimname, CONFIG_MAX_NAME - 7, (family == AF_INET)?"%s:%s_":"%s:[%s]_",
proto, hostname);
}
/**
* Fill inbound dimension name
*
* Mount the dimension name with the input given
*
* @param dimname the output vector
* @param service_name the service used to connect.
* @param proto the protocol used in this connection
*
* @return it returns the size of the data copied on success and -1 otherwise.
*/
static inline int build_inbound_dimension_name(char *dimname, char *service_name, char *proto)
{
return snprintf(dimname, CONFIG_MAX_NAME - 7, "%s:%s_", service_name,
proto);
}
/**
* Fill Resolved Name
*
* Fill the resolved name structure with the value given.
* The hostname is the largest value possible, if it is necessary to cut some value, it must be cut.
*
* @param ptr the output vector
* @param hostname the hostname resolved or IP.
* @param length the length for the hostname.
* @param service_name the service name associated to the connection
* @param is_outbound the is this an outbound connection
*/
static inline void fill_resolved_name(netdata_socket_plot_t *ptr, char *hostname, size_t length,
char *service_name, int is_outbound)
{
if (length < NETDATA_MAX_NETWORK_COMBINED_LENGTH)
ptr->resolved_name = strdupz(hostname);
else {
length = NETDATA_MAX_NETWORK_COMBINED_LENGTH;
ptr->resolved_name = mallocz( NETDATA_MAX_NETWORK_COMBINED_LENGTH + 1);
memcpy(ptr->resolved_name, hostname, length);
ptr->resolved_name[length] = '\0';
}
char dimname[CONFIG_MAX_NAME];
int size;
char *protocol;
if (ptr->sock.protocol == IPPROTO_UDP) {
protocol = "UDP";
} else if (ptr->sock.protocol == IPPROTO_TCP) {
protocol = "TCP";
} else {
protocol = "ALL";
}
if (is_outbound)
size = ebpf_build_outbound_dimension_name(dimname, hostname, service_name, protocol, ptr->family);
else
size = build_inbound_dimension_name(dimname,service_name, protocol);
if (size > 0) {
strcpy(&dimname[size], "sent");
dimname[size + 4] = '\0';
ptr->dimension_sent = strdupz(dimname);
strcpy(&dimname[size], "recv");
ptr->dimension_recv = strdupz(dimname);
dimname[size - 1] = '\0';
ptr->dimension_retransmit = strdupz(dimname);
}
}
/**
* Mount dimension names
*
* Fill the vector names after to resolve the addresses
*
* @param ptr a pointer to the structure where the values are stored.
* @param is_outbound is a outbound ptr value?
*
* @return It returns 1 if the name is valid and 0 otherwise.
*/
int fill_names(netdata_socket_plot_t *ptr, int is_outbound)
{
char hostname[NI_MAXHOST], service_name[NI_MAXSERV];
if (ptr->resolved)
return 1;
int ret;
static int resolve_name = -1;
static int resolve_service = -1;
if (resolve_name == -1)
resolve_name = network_viewer_opt.hostname_resolution_enabled;
if (resolve_service == -1)
resolve_service = network_viewer_opt.service_resolution_enabled;
netdata_socket_idx_t *idx = &ptr->index;
char *errname = { "Not resolved" };
// Resolve Name
if (ptr->family == AF_INET) { //IPV4
struct sockaddr_in myaddr;
memset(&myaddr, 0 , sizeof(myaddr));
myaddr.sin_family = ptr->family;
if (is_outbound) {
myaddr.sin_port = idx->dport;
myaddr.sin_addr.s_addr = idx->daddr.addr32[0];
} else {
myaddr.sin_port = idx->sport;
myaddr.sin_addr.s_addr = idx->saddr.addr32[0];
}
ret = (!resolve_name)?-1:getnameinfo((struct sockaddr *)&myaddr, sizeof(myaddr), hostname,
sizeof(hostname), service_name, sizeof(service_name), NI_NAMEREQD);
if (!ret && !resolve_service) {
snprintf(service_name, sizeof(service_name), "%u", ntohs(myaddr.sin_port));
}
if (ret) {
// I cannot resolve the name, I will use the IP
if (!inet_ntop(AF_INET, &myaddr.sin_addr.s_addr, hostname, NI_MAXHOST)) {
strncpy(hostname, errname, 13);
}
snprintf(service_name, sizeof(service_name), "%u", ntohs(myaddr.sin_port));
ret = 1;
}
} else { // IPV6
struct sockaddr_in6 myaddr6;
memset(&myaddr6, 0 , sizeof(myaddr6));
myaddr6.sin6_family = AF_INET6;
if (is_outbound) {
myaddr6.sin6_port = idx->dport;
memcpy(myaddr6.sin6_addr.s6_addr, idx->daddr.addr8, sizeof(union netdata_ip_t));
} else {
myaddr6.sin6_port = idx->sport;
memcpy(myaddr6.sin6_addr.s6_addr, idx->saddr.addr8, sizeof(union netdata_ip_t));
}
ret = (!resolve_name)?-1:getnameinfo((struct sockaddr *)&myaddr6, sizeof(myaddr6), hostname,
sizeof(hostname), service_name, sizeof(service_name), NI_NAMEREQD);
if (!ret && !resolve_service) {
snprintf(service_name, sizeof(service_name), "%u", ntohs(myaddr6.sin6_port));
}
if (ret) {
// I cannot resolve the name, I will use the IP
if (!inet_ntop(AF_INET6, myaddr6.sin6_addr.s6_addr, hostname, NI_MAXHOST)) {
strncpy(hostname, errname, 13);
}
snprintf(service_name, sizeof(service_name), "%u", ntohs(myaddr6.sin6_port));
ret = 1;
}
}
fill_resolved_name(ptr, hostname,
strlen(hostname) + strlen(service_name)+ NETDATA_DOTS_PROTOCOL_COMBINED_LENGTH,
service_name, is_outbound);
if (resolve_name && !ret)
ret = hostname_matches_pattern(hostname);
ptr->resolved++;
return ret;
}
/**
* Fill last Network Viewer Dimension
*
* Fill the unique dimension that is always plotted.
*
* @param ptr the pointer for the last dimension
* @param is_outbound is this an inbound structure?
*/
static void fill_last_nv_dimension(netdata_socket_plot_t *ptr, int is_outbound)
{
char hostname[NI_MAXHOST], service_name[NI_MAXSERV];
char *other = { "other" };
// We are also copying the NULL bytes to avoid warnings in new compilers
strncpy(hostname, other, 6);
strncpy(service_name, other, 6);
ptr->family = AF_INET;
ptr->sock.protocol = 255;
ptr->flags = (!is_outbound)?NETDATA_INBOUND_DIRECTION:NETDATA_OUTBOUND_DIRECTION;
fill_resolved_name(ptr, hostname, 10 + NETDATA_DOTS_PROTOCOL_COMBINED_LENGTH, service_name, is_outbound);
#ifdef NETDATA_INTERNAL_CHECKS
info("Last %s dimension added: ID = %u, IP = OTHER, NAME = %s, DIM1 = %s, DIM2 = %s, DIM3 = %s",
(is_outbound)?"outbound":"inbound", network_viewer_opt.max_dim - 1, ptr->resolved_name,
ptr->dimension_recv, ptr->dimension_sent, ptr->dimension_retransmit);
#endif
}
/**
* Update Socket Data
*
* Update the socket information with last collected data
*
* @param sock
* @param lvalues
*/
static inline void update_socket_data(netdata_socket_t *sock, netdata_socket_t *lvalues)
{
sock->recv_packets = lvalues->recv_packets;
sock->sent_packets = lvalues->sent_packets;
sock->recv_bytes = lvalues->recv_bytes;
sock->sent_bytes = lvalues->sent_bytes;
sock->retransmit = lvalues->retransmit;
sock->ct = lvalues->ct;
}
/**
* Store socket inside avl
*
* Store the socket values inside the avl tree.
*
* @param out the structure with information used to plot charts.
* @param lvalues Values read from socket ring.
* @param lindex the index information, the real socket.
* @param family the family associated to the socket
* @param flags the connection flags
*/
static void store_socket_inside_avl(netdata_vector_plot_t *out, netdata_socket_t *lvalues,
netdata_socket_idx_t *lindex, int family, uint32_t flags)
{
netdata_socket_plot_t test, *ret ;
memcpy(&test.index, lindex, sizeof(netdata_socket_idx_t));
test.flags = flags;
ret = (netdata_socket_plot_t *) avl_search_lock(&out->tree, (avl_t *)&test);
if (ret) {
if (lvalues->ct != ret->plot.last_time) {
update_socket_data(&ret->sock, lvalues);
}
} else {
uint32_t curr = out->next;
uint32_t last = out->last;
netdata_socket_plot_t *w = &out->plot[curr];
int resolved;
if (curr == last) {
if (lvalues->ct != w->plot.last_time) {
update_socket_data(&w->sock, lvalues);
}
return;
} else {
memcpy(&w->sock, lvalues, sizeof(netdata_socket_t));
memcpy(&w->index, lindex, sizeof(netdata_socket_idx_t));
w->family = family;
resolved = fill_names(w, out != (netdata_vector_plot_t *)&inbound_vectors);
}
if (!resolved) {
freez(w->resolved_name);
freez(w->dimension_sent);
freez(w->dimension_recv);
freez(w->dimension_retransmit);
memset(w, 0, sizeof(netdata_socket_plot_t));
return;
}
w->flags = flags;
netdata_socket_plot_t *check ;
check = (netdata_socket_plot_t *) avl_insert_lock(&out->tree, (avl_t *)w);
if (check != w)
error("Internal error, cannot insert the AVL tree.");
#ifdef NETDATA_INTERNAL_CHECKS
char iptext[INET6_ADDRSTRLEN];
if (inet_ntop(family, &w->index.daddr.addr8, iptext, sizeof(iptext)))
info("New %s dimension added: ID = %u, IP = %s, NAME = %s, DIM1 = %s, DIM2 = %s, DIM3 = %s",
(out == &inbound_vectors)?"inbound":"outbound", curr, iptext, w->resolved_name,
w->dimension_recv, w->dimension_sent, w->dimension_retransmit);
#endif
curr++;
if (curr > last)
curr = last;
out->next = curr;
}
}
/**
* Compare Vector to store
*
* Compare input values with local address to select table to store.
*
* @param direction store inbound and outbound direction.
* @param cmp index read from hash table.
* @param proto the protocol read.
*
* @return It returns the structure with address to compare.
*/
netdata_vector_plot_t * select_vector_to_store(uint32_t *direction, netdata_socket_idx_t *cmp, uint8_t proto)
{
if (!listen_ports) {
*direction = NETDATA_OUTBOUND_DIRECTION;
return &outbound_vectors;
}
ebpf_network_viewer_port_list_t *move_ports = listen_ports;
while (move_ports) {
if (move_ports->protocol == proto && move_ports->first == cmp->sport) {
*direction = NETDATA_INBOUND_DIRECTION;
return &inbound_vectors;
}
move_ports = move_ports->next;
}
*direction = NETDATA_OUTBOUND_DIRECTION;
return &outbound_vectors;
}
/**
* Hash accumulator
*
* @param values the values used to calculate the data.
* @param key the key to store data.
* @param family the connection family
* @param end the values size.
*/
static void hash_accumulator(netdata_socket_t *values, netdata_socket_idx_t *key, int family, int end)
{
if (!network_viewer_opt.enabled || !is_socket_allowed(key, family))
return;
uint64_t bsent = 0, brecv = 0, psent = 0, precv = 0;
uint16_t retransmit = 0;
int i;
uint8_t protocol = values[0].protocol;
uint64_t ct = values[0].ct;
for (i = 1; i < end; i++) {
netdata_socket_t *w = &values[i];
precv += w->recv_packets;
psent += w->sent_packets;
brecv += w->recv_bytes;
bsent += w->sent_bytes;
retransmit += w->retransmit;
if (!protocol)
protocol = w->protocol;
if (w->ct != ct)
ct = w->ct;
}
values[0].recv_packets += precv;
values[0].sent_packets += psent;
values[0].recv_bytes += brecv;
values[0].sent_bytes += bsent;
values[0].retransmit += retransmit;
values[0].protocol = (!protocol)?IPPROTO_TCP:protocol;
values[0].ct = ct;
uint32_t dir;
netdata_vector_plot_t *table = select_vector_to_store(&dir, key, protocol);
store_socket_inside_avl(table, &values[0], key, family, dir);
}
/**
* Read socket hash table
*
* Read data from hash tables created on kernel ring.
*
* @param fd the hash table with data.
* @param family the family associated to the hash table
*
* @return it returns 0 on success and -1 otherwise.
*/
static void ebpf_read_socket_hash_table(int fd, int family)
{
netdata_socket_idx_t key = {};
netdata_socket_idx_t next_key = {};
netdata_socket_t *values = socket_values;
size_t length = ebpf_nprocs*sizeof(netdata_socket_t);
int test, end = (running_on_kernel < NETDATA_KERNEL_V4_15) ? 1 : ebpf_nprocs;
while (bpf_map_get_next_key(fd, &key, &next_key) == 0) {
// We need to reset the values when we are working on kernel 4.15 or newer, because kernel does not create
// values for specific processor unless it is used to store data. As result of this behavior one the next socket
// can have values from the previous one.
memset(values, 0, length);
test = bpf_map_lookup_elem(fd, &key, values);
if (test < 0) {
key = next_key;
continue;
}
hash_accumulator(values, &key, family, end);
key = next_key;
}
}
/**
* Fill Network Viewer Port list
*
* Fill the structure with values read from /proc or hash table.
*
* @param out the structure where we will store data.
* @param value the ports we are listen to.
* @param proto the protocol used for this connection.
* @param in the structure with values read form different sources.
*/
static inline void fill_nv_port_list(ebpf_network_viewer_port_list_t *out, uint16_t value, uint16_t proto,
netdata_passive_connection_t *in)
{
out->first = value;
out->protocol = proto;
out->pid = in->pid;
out->tgid = in->tgid;
out->connections = in->counter;
}
/**
* Update listen table
*
* Update link list when it is necessary.
*
* @param value the ports we are listen to.
* @param proto the protocol used with port connection.
* @param in the structure with values read form different sources.
*/
void update_listen_table(uint16_t value, uint16_t proto, netdata_passive_connection_t *in)
{
ebpf_network_viewer_port_list_t *w;
if (likely(listen_ports)) {
ebpf_network_viewer_port_list_t *move = listen_ports, *store = listen_ports;
while (move) {
if (move->protocol == proto && move->first == value) {
move->pid = in->pid;
move->tgid = in->tgid;
move->connections = in->counter;
return;
}
store = move;
move = move->next;
}
w = callocz(1, sizeof(ebpf_network_viewer_port_list_t));
store->next = w;
} else {
w = callocz(1, sizeof(ebpf_network_viewer_port_list_t));
listen_ports = w;
}
fill_nv_port_list(w, value, proto, in);
#ifdef NETDATA_INTERNAL_CHECKS
info("The network viewer is monitoring inbound connections for port %u", ntohs(value));
#endif
}
/**
* Read listen table
*
* Read the table with all ports that we are listen on host.
*/
static void read_listen_table()
{
netdata_passive_connection_idx_t key = {};
netdata_passive_connection_idx_t next_key = {};
int fd = socket_maps[NETDATA_SOCKET_LPORTS].map_fd;
netdata_passive_connection_t value = {};
while (bpf_map_get_next_key(fd, &key, &next_key) == 0) {
int test = bpf_map_lookup_elem(fd, &key, &value);
if (test < 0) {
key = next_key;
continue;
}
// The correct protocol must come from kernel
update_listen_table(key.port, key.protocol, &value);
key = next_key;
memset(&value, 0, sizeof(value));
}
if (next_key.port && value.pid) {
// The correct protocol must come from kernel
update_listen_table(next_key.port, next_key.protocol, &value);
}
}
/**
* Socket read hash
*
* This is the thread callback.
* This thread is necessary, because we cannot freeze the whole plugin to read the data on very busy socket.
*
* @param ptr It is a NULL value for this thread.
*
* @return It always returns NULL.
*/
void *ebpf_socket_read_hash(void *ptr)
{
netdata_thread_cleanup_push(ebpf_socket_cleanup, ptr);
heartbeat_t hb;
heartbeat_init(&hb);
int fd_ipv4 = socket_maps[NETDATA_SOCKET_TABLE_IPV4].map_fd;
int fd_ipv6 = socket_maps[NETDATA_SOCKET_TABLE_IPV6].map_fd;
// This thread is cancelled from another thread
for (;;) {
(void)heartbeat_next(&hb, USEC_PER_SEC);
if (ebpf_exit_plugin)
break;
pthread_mutex_lock(&nv_mutex);
ebpf_read_socket_hash_table(fd_ipv4, AF_INET);
ebpf_read_socket_hash_table(fd_ipv6, AF_INET6);
pthread_mutex_unlock(&nv_mutex);
}
netdata_thread_cleanup_pop(1);
return NULL;
}
/**
* Read the hash table and store data to allocated vectors.
*/
static void read_hash_global_tables()
{
uint64_t idx;
netdata_idx_t res[NETDATA_SOCKET_COUNTER];
netdata_idx_t *val = socket_hash_values;
int fd = socket_maps[NETDATA_SOCKET_GLOBAL].map_fd;
for (idx = 0; idx < NETDATA_SOCKET_COUNTER; idx++) {
if (!bpf_map_lookup_elem(fd, &idx, val)) {
uint64_t total = 0;
int i;
int end = ebpf_nprocs;
for (i = 0; i < end; i++)
total += val[i];
res[idx] = total;
} else {
res[idx] = 0;
}
}
socket_aggregated_data[NETDATA_IDX_TCP_SENDMSG].call = res[NETDATA_KEY_CALLS_TCP_SENDMSG];
socket_aggregated_data[NETDATA_IDX_TCP_CLEANUP_RBUF].call = res[NETDATA_KEY_CALLS_TCP_CLEANUP_RBUF];
socket_aggregated_data[NETDATA_IDX_TCP_CLOSE].call = res[NETDATA_KEY_CALLS_TCP_CLOSE];
socket_aggregated_data[NETDATA_IDX_UDP_RECVBUF].call = res[NETDATA_KEY_CALLS_UDP_RECVMSG];
socket_aggregated_data[NETDATA_IDX_UDP_SENDMSG].call = res[NETDATA_KEY_CALLS_UDP_SENDMSG];
socket_aggregated_data[NETDATA_IDX_TCP_RETRANSMIT].call = res[NETDATA_KEY_TCP_RETRANSMIT];
socket_aggregated_data[NETDATA_IDX_TCP_CONNECTION_V4].call = res[NETDATA_KEY_CALLS_TCP_CONNECT_IPV4];
socket_aggregated_data[NETDATA_IDX_TCP_CONNECTION_V6].call = res[NETDATA_KEY_CALLS_TCP_CONNECT_IPV6];
socket_aggregated_data[NETDATA_IDX_TCP_SENDMSG].ecall = res[NETDATA_KEY_ERROR_TCP_SENDMSG];
socket_aggregated_data[NETDATA_IDX_TCP_CLEANUP_RBUF].ecall = res[NETDATA_KEY_ERROR_TCP_CLEANUP_RBUF];
socket_aggregated_data[NETDATA_IDX_UDP_RECVBUF].ecall = res[NETDATA_KEY_ERROR_UDP_RECVMSG];
socket_aggregated_data[NETDATA_IDX_UDP_SENDMSG].ecall = res[NETDATA_KEY_ERROR_UDP_SENDMSG];
socket_aggregated_data[NETDATA_IDX_TCP_CONNECTION_V4].ecall = res[NETDATA_KEY_ERROR_TCP_CONNECT_IPV4];
socket_aggregated_data[NETDATA_IDX_TCP_CONNECTION_V6].ecall = res[NETDATA_KEY_ERROR_TCP_CONNECT_IPV6];
socket_aggregated_data[NETDATA_IDX_TCP_SENDMSG].bytes = res[NETDATA_KEY_BYTES_TCP_SENDMSG];
socket_aggregated_data[NETDATA_IDX_TCP_CLEANUP_RBUF].bytes = res[NETDATA_KEY_BYTES_TCP_CLEANUP_RBUF];
socket_aggregated_data[NETDATA_IDX_UDP_RECVBUF].bytes = res[NETDATA_KEY_BYTES_UDP_RECVMSG];
socket_aggregated_data[NETDATA_IDX_UDP_SENDMSG].bytes = res[NETDATA_KEY_BYTES_UDP_SENDMSG];
}
/**
* Fill publish apps when necessary.
*
* @param current_pid the PID that I am updating
* @param eb the structure with data read from memory.
*/
void ebpf_socket_fill_publish_apps(uint32_t current_pid, ebpf_bandwidth_t *eb)
{
ebpf_socket_publish_apps_t *curr = socket_bandwidth_curr[current_pid];
if (!curr) {
curr = ebpf_socket_stat_get();
socket_bandwidth_curr[current_pid] = curr;
}
curr->bytes_sent = eb->bytes_sent;
curr->bytes_received = eb->bytes_received;
curr->call_tcp_sent = eb->call_tcp_sent;
curr->call_tcp_received = eb->call_tcp_received;
curr->retransmit = eb->retransmit;
curr->call_udp_sent = eb->call_udp_sent;
curr->call_udp_received = eb->call_udp_received;
curr->call_close = eb->close;
curr->call_tcp_v4_connection = eb->tcp_v4_connection;
curr->call_tcp_v6_connection = eb->tcp_v6_connection;
}
/**
* Bandwidth accumulator.
*
* @param out the vector with the values to sum
*/
void ebpf_socket_bandwidth_accumulator(ebpf_bandwidth_t *out)
{
int i, end = (running_on_kernel >= NETDATA_KERNEL_V4_15) ? ebpf_nprocs : 1;
ebpf_bandwidth_t *total = &out[0];
for (i = 1; i < end; i++) {
ebpf_bandwidth_t *move = &out[i];
total->bytes_sent += move->bytes_sent;
total->bytes_received += move->bytes_received;
total->call_tcp_sent += move->call_tcp_sent;
total->call_tcp_received += move->call_tcp_received;
total->retransmit += move->retransmit;
total->call_udp_sent += move->call_udp_sent;
total->call_udp_received += move->call_udp_received;
total->close += move->close;
total->tcp_v4_connection += move->tcp_v4_connection;
total->tcp_v6_connection += move->tcp_v6_connection;
}
}
/**
* Update the apps data reading information from the hash table
*/
static void ebpf_socket_update_apps_data()
{
int fd = socket_maps[NETDATA_SOCKET_TABLE_BANDWIDTH].map_fd;
ebpf_bandwidth_t *eb = bandwidth_vector;
uint32_t key;
struct ebpf_pid_stat *pids = ebpf_root_of_pids;
while (pids) {
key = pids->pid;
if (bpf_map_lookup_elem(fd, &key, eb)) {
pids = pids->next;
continue;
}
ebpf_socket_bandwidth_accumulator(eb);
ebpf_socket_fill_publish_apps(key, eb);
pids = pids->next;
}
}
/**
* Update cgroup
*
* Update cgroup data based in
*/
static void ebpf_update_socket_cgroup()
{
ebpf_cgroup_target_t *ect ;
ebpf_bandwidth_t *eb = bandwidth_vector;
int fd = socket_maps[NETDATA_SOCKET_TABLE_BANDWIDTH].map_fd;
pthread_mutex_lock(&mutex_cgroup_shm);
for (ect = ebpf_cgroup_pids; ect; ect = ect->next) {
struct pid_on_target2 *pids;
for (pids = ect->pids; pids; pids = pids->next) {
int pid = pids->pid;
ebpf_bandwidth_t *out = &pids->socket;
ebpf_socket_publish_apps_t *publish = &ect->publish_socket;
if (likely(socket_bandwidth_curr) && socket_bandwidth_curr[pid]) {
ebpf_socket_publish_apps_t *in = socket_bandwidth_curr[pid];
publish->bytes_sent = in->bytes_sent;
publish->bytes_received = in->bytes_received;
publish->call_tcp_sent = in->call_tcp_sent;
publish->call_tcp_received = in->call_tcp_received;
publish->retransmit = in->retransmit;
publish->call_udp_sent = in->call_udp_sent;
publish->call_udp_received = in->call_udp_received;
publish->call_close = in->call_close;
publish->call_tcp_v4_connection = in->call_tcp_v4_connection;
publish->call_tcp_v6_connection = in->call_tcp_v6_connection;
} else {
if (!bpf_map_lookup_elem(fd, &pid, eb)) {
ebpf_socket_bandwidth_accumulator(eb);
memcpy(out, eb, sizeof(ebpf_bandwidth_t));
publish->bytes_sent = out->bytes_sent;
publish->bytes_received = out->bytes_received;
publish->call_tcp_sent = out->call_tcp_sent;
publish->call_tcp_received = out->call_tcp_received;
publish->retransmit = out->retransmit;
publish->call_udp_sent = out->call_udp_sent;
publish->call_udp_received = out->call_udp_received;
publish->call_close = out->close;
publish->call_tcp_v4_connection = out->tcp_v4_connection;
publish->call_tcp_v6_connection = out->tcp_v6_connection;
}
}
}
}
pthread_mutex_unlock(&mutex_cgroup_shm);
}
/**
* Sum PIDs
*
* Sum values for all targets.
*
* @param fd structure used to store data
* @param pids input data
*/
static void ebpf_socket_sum_cgroup_pids(ebpf_socket_publish_apps_t *socket, struct pid_on_target2 *pids)
{
ebpf_socket_publish_apps_t accumulator;
memset(&accumulator, 0, sizeof(accumulator));
while (pids) {
ebpf_bandwidth_t *w = &pids->socket;
accumulator.bytes_received += w->bytes_received;
accumulator.bytes_sent += w->bytes_sent;
accumulator.call_tcp_received += w->call_tcp_received;
accumulator.call_tcp_sent += w->call_tcp_sent;
accumulator.retransmit += w->retransmit;
accumulator.call_udp_received += w->call_udp_received;
accumulator.call_udp_sent += w->call_udp_sent;
accumulator.call_close += w->close;
accumulator.call_tcp_v4_connection += w->tcp_v4_connection;
accumulator.call_tcp_v6_connection += w->tcp_v6_connection;
pids = pids->next;
}
socket->bytes_sent = (accumulator.bytes_sent >= socket->bytes_sent) ? accumulator.bytes_sent : socket->bytes_sent;
socket->bytes_received = (accumulator.bytes_received >= socket->bytes_received) ? accumulator.bytes_received : socket->bytes_received;
socket->call_tcp_sent = (accumulator.call_tcp_sent >= socket->call_tcp_sent) ? accumulator.call_tcp_sent : socket->call_tcp_sent;
socket->call_tcp_received = (accumulator.call_tcp_received >= socket->call_tcp_received) ? accumulator.call_tcp_received : socket->call_tcp_received;
socket->retransmit = (accumulator.retransmit >= socket->retransmit) ? accumulator.retransmit : socket->retransmit;
socket->call_udp_sent = (accumulator.call_udp_sent >= socket->call_udp_sent) ? accumulator.call_udp_sent : socket->call_udp_sent;
socket->call_udp_received = (accumulator.call_udp_received >= socket->call_udp_received) ? accumulator.call_udp_received : socket->call_udp_received;
socket->call_close = (accumulator.call_close >= socket->call_close) ? accumulator.call_close : socket->call_close;
socket->call_tcp_v4_connection = (accumulator.call_tcp_v4_connection >= socket->call_tcp_v4_connection) ?
accumulator.call_tcp_v4_connection : socket->call_tcp_v4_connection;
socket->call_tcp_v6_connection = (accumulator.call_tcp_v6_connection >= socket->call_tcp_v6_connection) ?
accumulator.call_tcp_v6_connection : socket->call_tcp_v6_connection;
}
/**
* Create specific socket charts
*
* Create charts for cgroup/application.
*
* @param type the chart type.
* @param update_every value to overwrite the update frequency set by the server.
*/
static void ebpf_create_specific_socket_charts(char *type, int update_every)
{
int order_basis = 5300;
ebpf_create_chart(type, NETDATA_NET_APPS_CONNECTION_TCP_V4,
"Calls to tcp_v4_connection",
EBPF_COMMON_DIMENSION_CONNECTIONS, NETDATA_CGROUP_NET_GROUP,
NETDATA_CGROUP_TCP_V4_CONN_CONTEXT,
NETDATA_EBPF_CHART_TYPE_LINE,
NETDATA_CHART_PRIO_CGROUPS_CONTAINERS + order_basis++,
ebpf_create_global_dimension,
&socket_publish_aggregated[NETDATA_IDX_TCP_CONNECTION_V4], 1,
update_every, NETDATA_EBPF_MODULE_NAME_SOCKET);
ebpf_create_chart(type, NETDATA_NET_APPS_CONNECTION_TCP_V6,
"Calls to tcp_v6_connection",
EBPF_COMMON_DIMENSION_CONNECTIONS, NETDATA_CGROUP_NET_GROUP,
NETDATA_CGROUP_TCP_V6_CONN_CONTEXT,
NETDATA_EBPF_CHART_TYPE_LINE,
NETDATA_CHART_PRIO_CGROUPS_CONTAINERS + order_basis++,
ebpf_create_global_dimension,
&socket_publish_aggregated[NETDATA_IDX_TCP_CONNECTION_V6], 1,
update_every, NETDATA_EBPF_MODULE_NAME_SOCKET);
ebpf_create_chart(type, NETDATA_NET_APPS_BANDWIDTH_RECV,
"Bytes received",
EBPF_COMMON_DIMENSION_CALL, NETDATA_CGROUP_NET_GROUP,
NETDATA_CGROUP_SOCKET_BYTES_RECV_CONTEXT,
NETDATA_EBPF_CHART_TYPE_LINE,
NETDATA_CHART_PRIO_CGROUPS_CONTAINERS + order_basis++,
ebpf_create_global_dimension,
&socket_publish_aggregated[NETDATA_IDX_TCP_CLEANUP_RBUF], 1,
update_every, NETDATA_EBPF_MODULE_NAME_SOCKET);
ebpf_create_chart(type, NETDATA_NET_APPS_BANDWIDTH_SENT,
"Bytes sent",
EBPF_COMMON_DIMENSION_CALL, NETDATA_CGROUP_NET_GROUP,
NETDATA_CGROUP_SOCKET_BYTES_SEND_CONTEXT,
NETDATA_EBPF_CHART_TYPE_LINE,
NETDATA_CHART_PRIO_CGROUPS_CONTAINERS + order_basis++,
ebpf_create_global_dimension,
socket_publish_aggregated, 1,
update_every, NETDATA_EBPF_MODULE_NAME_SOCKET);
ebpf_create_chart(type, NETDATA_NET_APPS_BANDWIDTH_TCP_RECV_CALLS,
"Calls to tcp_cleanup_rbuf.",
EBPF_COMMON_DIMENSION_CALL, NETDATA_CGROUP_NET_GROUP,
NETDATA_CGROUP_SOCKET_TCP_RECV_CONTEXT,
NETDATA_EBPF_CHART_TYPE_LINE,
NETDATA_CHART_PRIO_CGROUPS_CONTAINERS + order_basis++,
ebpf_create_global_dimension,
&socket_publish_aggregated[NETDATA_IDX_TCP_CLEANUP_RBUF], 1,
update_every, NETDATA_EBPF_MODULE_NAME_SOCKET);
ebpf_create_chart(type, NETDATA_NET_APPS_BANDWIDTH_TCP_SEND_CALLS,
"Calls to tcp_sendmsg.",
EBPF_COMMON_DIMENSION_CALL, NETDATA_CGROUP_NET_GROUP,
NETDATA_CGROUP_SOCKET_TCP_SEND_CONTEXT,
NETDATA_EBPF_CHART_TYPE_LINE,
NETDATA_CHART_PRIO_CGROUPS_CONTAINERS + order_basis++,
ebpf_create_global_dimension,
socket_publish_aggregated, 1,
update_every, NETDATA_EBPF_MODULE_NAME_SOCKET);
ebpf_create_chart(type, NETDATA_NET_APPS_BANDWIDTH_TCP_RETRANSMIT,
"Calls to tcp_retransmit.",
EBPF_COMMON_DIMENSION_CALL, NETDATA_CGROUP_NET_GROUP,
NETDATA_CGROUP_SOCKET_TCP_RETRANSMIT_CONTEXT,
NETDATA_EBPF_CHART_TYPE_LINE,
NETDATA_CHART_PRIO_CGROUPS_CONTAINERS + order_basis++,
ebpf_create_global_dimension,
&socket_publish_aggregated[NETDATA_IDX_TCP_RETRANSMIT], 1,
update_every, NETDATA_EBPF_MODULE_NAME_SOCKET);
ebpf_create_chart(type, NETDATA_NET_APPS_BANDWIDTH_UDP_SEND_CALLS,
"Calls to udp_sendmsg",
EBPF_COMMON_DIMENSION_CALL, NETDATA_CGROUP_NET_GROUP,
NETDATA_CGROUP_SOCKET_UDP_SEND_CONTEXT,
NETDATA_EBPF_CHART_TYPE_LINE,
NETDATA_CHART_PRIO_CGROUPS_CONTAINERS + order_basis++,
ebpf_create_global_dimension,
&socket_publish_aggregated[NETDATA_IDX_UDP_SENDMSG], 1,
update_every, NETDATA_EBPF_MODULE_NAME_SOCKET);
ebpf_create_chart(type, NETDATA_NET_APPS_BANDWIDTH_UDP_RECV_CALLS,
"Calls to udp_recvmsg",
EBPF_COMMON_DIMENSION_CALL, NETDATA_CGROUP_NET_GROUP,
NETDATA_CGROUP_SOCKET_UDP_RECV_CONTEXT,
NETDATA_EBPF_CHART_TYPE_LINE,
NETDATA_CHART_PRIO_CGROUPS_CONTAINERS + order_basis++,
ebpf_create_global_dimension,
&socket_publish_aggregated[NETDATA_IDX_UDP_RECVBUF], 1,
update_every, NETDATA_EBPF_MODULE_NAME_SOCKET);
}
/**
* Obsolete specific socket charts
*
* Obsolete charts for cgroup/application.
*
* @param type the chart type.
* @param update_every value to overwrite the update frequency set by the server.
*/
static void ebpf_obsolete_specific_socket_charts(char *type, int update_every)
{
int order_basis = 5300;
ebpf_write_chart_obsolete(type, NETDATA_NET_APPS_CONNECTION_TCP_V4, "Calls to tcp_v4_connection",
EBPF_COMMON_DIMENSION_CONNECTIONS, NETDATA_APPS_NET_GROUP,
NETDATA_EBPF_CHART_TYPE_LINE, NETDATA_SERVICES_SOCKET_TCP_V4_CONN_CONTEXT,
NETDATA_CHART_PRIO_CGROUPS_CONTAINERS + order_basis++, update_every);
ebpf_write_chart_obsolete(type, NETDATA_NET_APPS_CONNECTION_TCP_V6,"Calls to tcp_v6_connection",
EBPF_COMMON_DIMENSION_CONNECTIONS, NETDATA_APPS_NET_GROUP,
NETDATA_EBPF_CHART_TYPE_LINE, NETDATA_SERVICES_SOCKET_TCP_V6_CONN_CONTEXT,
NETDATA_CHART_PRIO_CGROUPS_CONTAINERS + order_basis++, update_every);
ebpf_write_chart_obsolete(type, NETDATA_NET_APPS_BANDWIDTH_RECV, "Bytes received",
EBPF_COMMON_DIMENSION_CALL, NETDATA_APPS_NET_GROUP,
NETDATA_EBPF_CHART_TYPE_LINE, NETDATA_SERVICES_SOCKET_BYTES_RECV_CONTEXT,
NETDATA_CHART_PRIO_CGROUPS_CONTAINERS + order_basis++, update_every);
ebpf_write_chart_obsolete(type, NETDATA_NET_APPS_BANDWIDTH_SENT,"Bytes sent",
EBPF_COMMON_DIMENSION_CALL, NETDATA_APPS_NET_GROUP,
NETDATA_EBPF_CHART_TYPE_LINE, NETDATA_SERVICES_SOCKET_BYTES_SEND_CONTEXT,
NETDATA_CHART_PRIO_CGROUPS_CONTAINERS + order_basis++, update_every);
ebpf_write_chart_obsolete(type, NETDATA_NET_APPS_BANDWIDTH_TCP_RECV_CALLS, "Calls to tcp_cleanup_rbuf.",
EBPF_COMMON_DIMENSION_CALL, NETDATA_APPS_NET_GROUP,
NETDATA_EBPF_CHART_TYPE_LINE, NETDATA_SERVICES_SOCKET_TCP_RECV_CONTEXT,
NETDATA_CHART_PRIO_CGROUPS_CONTAINERS + order_basis++, update_every);
ebpf_write_chart_obsolete(type, NETDATA_NET_APPS_BANDWIDTH_TCP_SEND_CALLS, "Calls to tcp_sendmsg.",
EBPF_COMMON_DIMENSION_CALL, NETDATA_APPS_NET_GROUP,
NETDATA_EBPF_CHART_TYPE_LINE, NETDATA_SERVICES_SOCKET_TCP_SEND_CONTEXT,
NETDATA_CHART_PRIO_CGROUPS_CONTAINERS + order_basis++, update_every);
ebpf_write_chart_obsolete(type, NETDATA_NET_APPS_BANDWIDTH_TCP_RETRANSMIT, "Calls to tcp_retransmit.",
EBPF_COMMON_DIMENSION_CALL, NETDATA_APPS_NET_GROUP,
NETDATA_EBPF_CHART_TYPE_LINE, NETDATA_SERVICES_SOCKET_TCP_RETRANSMIT_CONTEXT,
NETDATA_CHART_PRIO_CGROUPS_CONTAINERS + order_basis++, update_every);
ebpf_write_chart_obsolete(type, NETDATA_NET_APPS_BANDWIDTH_UDP_SEND_CALLS, "Calls to udp_sendmsg",
EBPF_COMMON_DIMENSION_CALL, NETDATA_APPS_NET_GROUP,
NETDATA_EBPF_CHART_TYPE_LINE, NETDATA_SERVICES_SOCKET_UDP_SEND_CONTEXT,
NETDATA_CHART_PRIO_CGROUPS_CONTAINERS + order_basis++, update_every);
ebpf_write_chart_obsolete(type, NETDATA_NET_APPS_BANDWIDTH_UDP_RECV_CALLS, "Calls to udp_recvmsg",
EBPF_COMMON_DIMENSION_CALL, NETDATA_APPS_NET_GROUP, NETDATA_EBPF_CHART_TYPE_LINE,
NETDATA_SERVICES_SOCKET_UDP_RECV_CONTEXT,
NETDATA_CHART_PRIO_CGROUPS_CONTAINERS + order_basis++, update_every);
}
/*
* Send Specific Swap data
*
* Send data for specific cgroup/apps.
*
* @param type chart type
* @param values structure with values that will be sent to netdata
*/
static void ebpf_send_specific_socket_data(char *type, ebpf_socket_publish_apps_t *values)
{
write_begin_chart(type, NETDATA_NET_APPS_CONNECTION_TCP_V4);
write_chart_dimension(socket_publish_aggregated[NETDATA_IDX_TCP_CONNECTION_V4].name,
(long long) values->call_tcp_v4_connection);
write_end_chart();
write_begin_chart(type, NETDATA_NET_APPS_CONNECTION_TCP_V6);
write_chart_dimension(socket_publish_aggregated[NETDATA_IDX_TCP_CONNECTION_V6].name,
(long long) values->call_tcp_v6_connection);
write_end_chart();
write_begin_chart(type, NETDATA_NET_APPS_BANDWIDTH_SENT);
write_chart_dimension(socket_publish_aggregated[NETDATA_IDX_TCP_SENDMSG].name,
(long long) values->bytes_sent);
write_end_chart();
write_begin_chart(type, NETDATA_NET_APPS_BANDWIDTH_RECV);
write_chart_dimension(socket_publish_aggregated[NETDATA_IDX_TCP_CLEANUP_RBUF].name,
(long long) values->bytes_received);
write_end_chart();
write_begin_chart(type, NETDATA_NET_APPS_BANDWIDTH_TCP_SEND_CALLS);
write_chart_dimension(socket_publish_aggregated[NETDATA_IDX_TCP_SENDMSG].name,
(long long) values->call_tcp_sent);
write_end_chart();
write_begin_chart(type, NETDATA_NET_APPS_BANDWIDTH_TCP_RECV_CALLS);
write_chart_dimension(socket_publish_aggregated[NETDATA_IDX_TCP_CLEANUP_RBUF].name,
(long long) values->call_tcp_received);
write_end_chart();
write_begin_chart(type, NETDATA_NET_APPS_BANDWIDTH_TCP_RETRANSMIT);
write_chart_dimension(socket_publish_aggregated[NETDATA_IDX_TCP_RETRANSMIT].name,
(long long) values->retransmit);
write_end_chart();
write_begin_chart(type, NETDATA_NET_APPS_BANDWIDTH_UDP_SEND_CALLS);
write_chart_dimension(socket_publish_aggregated[NETDATA_IDX_UDP_SENDMSG].name,
(long long) values->call_udp_sent);
write_end_chart();
write_begin_chart(type, NETDATA_NET_APPS_BANDWIDTH_UDP_RECV_CALLS);
write_chart_dimension(socket_publish_aggregated[NETDATA_IDX_UDP_RECVBUF].name,
(long long) values->call_udp_received);
write_end_chart();
}
/**
* Create Systemd Socket Charts
*
* Create charts when systemd is enabled
*
* @param update_every value to overwrite the update frequency set by the server.
**/
static void ebpf_create_systemd_socket_charts(int update_every)
{
int order = 20080;
ebpf_create_charts_on_systemd(NETDATA_NET_APPS_CONNECTION_TCP_V4,
"Calls to tcp_v4_connection", EBPF_COMMON_DIMENSION_CONNECTIONS,
NETDATA_APPS_NET_GROUP,
NETDATA_EBPF_CHART_TYPE_STACKED,
order++,
ebpf_algorithms[NETDATA_EBPF_INCREMENTAL_IDX],
NETDATA_SERVICES_SOCKET_TCP_V4_CONN_CONTEXT, NETDATA_EBPF_MODULE_NAME_SOCKET,
update_every);
ebpf_create_charts_on_systemd(NETDATA_NET_APPS_CONNECTION_TCP_V6,
"Calls to tcp_v6_connection", EBPF_COMMON_DIMENSION_CONNECTIONS,
NETDATA_APPS_NET_GROUP,
NETDATA_EBPF_CHART_TYPE_STACKED,
order++,
ebpf_algorithms[NETDATA_EBPF_INCREMENTAL_IDX],
NETDATA_SERVICES_SOCKET_TCP_V6_CONN_CONTEXT, NETDATA_EBPF_MODULE_NAME_SOCKET,
update_every);
ebpf_create_charts_on_systemd(NETDATA_NET_APPS_BANDWIDTH_RECV,
"Bytes received", EBPF_COMMON_DIMENSION_BITS,
NETDATA_APPS_NET_GROUP,
NETDATA_EBPF_CHART_TYPE_STACKED,
order++,
ebpf_algorithms[NETDATA_EBPF_INCREMENTAL_IDX],
NETDATA_SERVICES_SOCKET_BYTES_RECV_CONTEXT, NETDATA_EBPF_MODULE_NAME_SOCKET,
update_every);
ebpf_create_charts_on_systemd(NETDATA_NET_APPS_BANDWIDTH_SENT,
"Bytes sent", EBPF_COMMON_DIMENSION_BITS,
NETDATA_APPS_NET_GROUP,
NETDATA_EBPF_CHART_TYPE_STACKED,
order++,
ebpf_algorithms[NETDATA_EBPF_INCREMENTAL_IDX],
NETDATA_SERVICES_SOCKET_BYTES_SEND_CONTEXT, NETDATA_EBPF_MODULE_NAME_SOCKET,
update_every);
ebpf_create_charts_on_systemd(NETDATA_NET_APPS_BANDWIDTH_TCP_RECV_CALLS,
"Calls to tcp_cleanup_rbuf.",
EBPF_COMMON_DIMENSION_CALL,
NETDATA_APPS_NET_GROUP,
NETDATA_EBPF_CHART_TYPE_STACKED,
order++,
ebpf_algorithms[NETDATA_EBPF_INCREMENTAL_IDX],
NETDATA_SERVICES_SOCKET_TCP_RECV_CONTEXT, NETDATA_EBPF_MODULE_NAME_SOCKET,
update_every);
ebpf_create_charts_on_systemd(NETDATA_NET_APPS_BANDWIDTH_TCP_SEND_CALLS,
"Calls to tcp_sendmsg.",
EBPF_COMMON_DIMENSION_CALL,
NETDATA_APPS_NET_GROUP,
NETDATA_EBPF_CHART_TYPE_STACKED,
order++,
ebpf_algorithms[NETDATA_EBPF_INCREMENTAL_IDX],
NETDATA_SERVICES_SOCKET_TCP_SEND_CONTEXT, NETDATA_EBPF_MODULE_NAME_SOCKET,
update_every);
ebpf_create_charts_on_systemd(NETDATA_NET_APPS_BANDWIDTH_TCP_RETRANSMIT,
"Calls to tcp_retransmit",
EBPF_COMMON_DIMENSION_CALL,
NETDATA_APPS_NET_GROUP,
NETDATA_EBPF_CHART_TYPE_STACKED,
order++,
ebpf_algorithms[NETDATA_EBPF_INCREMENTAL_IDX],
NETDATA_SERVICES_SOCKET_TCP_RETRANSMIT_CONTEXT, NETDATA_EBPF_MODULE_NAME_SOCKET,
update_every);
ebpf_create_charts_on_systemd(NETDATA_NET_APPS_BANDWIDTH_UDP_SEND_CALLS,
"Calls to udp_sendmsg",
EBPF_COMMON_DIMENSION_CALL,
NETDATA_APPS_NET_GROUP,
NETDATA_EBPF_CHART_TYPE_STACKED,
order++,
ebpf_algorithms[NETDATA_EBPF_INCREMENTAL_IDX],
NETDATA_SERVICES_SOCKET_UDP_SEND_CONTEXT, NETDATA_EBPF_MODULE_NAME_SOCKET,
update_every);
ebpf_create_charts_on_systemd(NETDATA_NET_APPS_BANDWIDTH_UDP_RECV_CALLS,
"Calls to udp_recvmsg",
EBPF_COMMON_DIMENSION_CALL,
NETDATA_APPS_NET_GROUP,
NETDATA_EBPF_CHART_TYPE_STACKED,
order++,
ebpf_algorithms[NETDATA_EBPF_INCREMENTAL_IDX],
NETDATA_SERVICES_SOCKET_UDP_RECV_CONTEXT, NETDATA_EBPF_MODULE_NAME_SOCKET,
update_every);
}
/**
* Send Systemd charts
*
* Send collected data to Netdata.
*/
static void ebpf_send_systemd_socket_charts()
{
ebpf_cgroup_target_t *ect;
write_begin_chart(NETDATA_SERVICE_FAMILY, NETDATA_NET_APPS_CONNECTION_TCP_V4);
for (ect = ebpf_cgroup_pids; ect ; ect = ect->next) {
if (unlikely(ect->systemd) && unlikely(ect->updated)) {
write_chart_dimension(ect->name, (long long)ect->publish_socket.call_tcp_v4_connection);
}
}
write_end_chart();
write_begin_chart(NETDATA_SERVICE_FAMILY, NETDATA_NET_APPS_CONNECTION_TCP_V6);
for (ect = ebpf_cgroup_pids; ect ; ect = ect->next) {
if (unlikely(ect->systemd) && unlikely(ect->updated)) {
write_chart_dimension(ect->name, (long long)ect->publish_socket.call_tcp_v6_connection);
}
}
write_end_chart();
write_begin_chart(NETDATA_SERVICE_FAMILY, NETDATA_NET_APPS_BANDWIDTH_SENT);
for (ect = ebpf_cgroup_pids; ect ; ect = ect->next) {
if (unlikely(ect->systemd) && unlikely(ect->updated)) {
write_chart_dimension(ect->name, (long long)ect->publish_socket.bytes_sent);
}
}
write_end_chart();
write_begin_chart(NETDATA_SERVICE_FAMILY, NETDATA_NET_APPS_BANDWIDTH_RECV);
for (ect = ebpf_cgroup_pids; ect ; ect = ect->next) {
if (unlikely(ect->systemd) && unlikely(ect->updated)) {
write_chart_dimension(ect->name, (long long)ect->publish_socket.bytes_received);
}
}
write_end_chart();
write_begin_chart(NETDATA_SERVICE_FAMILY, NETDATA_NET_APPS_BANDWIDTH_TCP_SEND_CALLS);
for (ect = ebpf_cgroup_pids; ect ; ect = ect->next) {
if (unlikely(ect->systemd) && unlikely(ect->updated)) {
write_chart_dimension(ect->name, (long long)ect->publish_socket.call_tcp_sent);
}
}
write_end_chart();
write_begin_chart(NETDATA_SERVICE_FAMILY, NETDATA_NET_APPS_BANDWIDTH_TCP_RECV_CALLS);
for (ect = ebpf_cgroup_pids; ect ; ect = ect->next) {
if (unlikely(ect->systemd) && unlikely(ect->updated)) {
write_chart_dimension(ect->name, (long long)ect->publish_socket.call_tcp_received);
}
}
write_end_chart();
write_begin_chart(NETDATA_SERVICE_FAMILY, NETDATA_NET_APPS_BANDWIDTH_TCP_RETRANSMIT);
for (ect = ebpf_cgroup_pids; ect ; ect = ect->next) {
if (unlikely(ect->systemd) && unlikely(ect->updated)) {
write_chart_dimension(ect->name, (long long)ect->publish_socket.retransmit);
}
}
write_end_chart();
write_begin_chart(NETDATA_SERVICE_FAMILY, NETDATA_NET_APPS_BANDWIDTH_UDP_SEND_CALLS);
for (ect = ebpf_cgroup_pids; ect ; ect = ect->next) {
if (unlikely(ect->systemd) && unlikely(ect->updated)) {
write_chart_dimension(ect->name, (long long)ect->publish_socket.call_udp_sent);
}
}
write_end_chart();
write_begin_chart(NETDATA_SERVICE_FAMILY, NETDATA_NET_APPS_BANDWIDTH_UDP_RECV_CALLS);
for (ect = ebpf_cgroup_pids; ect ; ect = ect->next) {
if (unlikely(ect->systemd) && unlikely(ect->updated)) {
write_chart_dimension(ect->name, (long long)ect->publish_socket.call_udp_received);
}
}
write_end_chart();
}
/**
* Update Cgroup algorithm
*
* Change algorithm from absolute to incremental
*/
void ebpf_socket_update_cgroup_algorithm()
{
int i;
for (i = 0; i < NETDATA_MAX_SOCKET_VECTOR; i++) {
netdata_publish_syscall_t *ptr = &socket_publish_aggregated[i];
ptr->algorithm = ebpf_algorithms[NETDATA_EBPF_INCREMENTAL_IDX];
}
}
/**
* Send data to Netdata calling auxiliary functions.
*
* @param update_every value to overwrite the update frequency set by the server.
*/
static void ebpf_socket_send_cgroup_data(int update_every)
{
if (!ebpf_cgroup_pids)
return;
pthread_mutex_lock(&mutex_cgroup_shm);
ebpf_cgroup_target_t *ect;
for (ect = ebpf_cgroup_pids; ect ; ect = ect->next) {
ebpf_socket_sum_cgroup_pids(&ect->publish_socket, ect->pids);
}
int has_systemd = shm_ebpf_cgroup.header->systemd_enabled;
if (has_systemd) {
if (send_cgroup_chart) {
ebpf_create_systemd_socket_charts(update_every);
}
ebpf_send_systemd_socket_charts();
}
for (ect = ebpf_cgroup_pids; ect ; ect = ect->next) {
if (ect->systemd)
continue;
if (!(ect->flags & NETDATA_EBPF_CGROUP_HAS_SOCKET_CHART)) {
ebpf_create_specific_socket_charts(ect->name, update_every);
ect->flags |= NETDATA_EBPF_CGROUP_HAS_SOCKET_CHART;
}
if (ect->flags & NETDATA_EBPF_CGROUP_HAS_SOCKET_CHART && ect->updated) {
ebpf_send_specific_socket_data(ect->name, &ect->publish_socket);
} else {
ebpf_obsolete_specific_socket_charts(ect->name, update_every);
ect->flags &= ~NETDATA_EBPF_CGROUP_HAS_SOCKET_CHART;
}
}
pthread_mutex_unlock(&mutex_cgroup_shm);
}
/*****************************************************************
*
* FUNCTIONS WITH THE MAIN LOOP
*
*****************************************************************/
/**
* Main loop for this collector.
*
* @param em the structure with thread information
*/
static void socket_collector(ebpf_module_t *em)
{
heartbeat_t hb;
heartbeat_init(&hb);
uint32_t network_connection = network_viewer_opt.enabled;
if (network_connection) {
socket_threads.thread = mallocz(sizeof(netdata_thread_t));
socket_threads.start_routine = ebpf_socket_read_hash;
netdata_thread_create(socket_threads.thread, socket_threads.name,
NETDATA_THREAD_OPTION_DEFAULT, ebpf_socket_read_hash, em);
}
int cgroups = em->cgroup_charts;
if (cgroups)
ebpf_socket_update_cgroup_algorithm();
int socket_global_enabled = em->global_charts;
int update_every = em->update_every;
int counter = update_every - 1;
while (!ebpf_exit_plugin) {
(void)heartbeat_next(&hb, USEC_PER_SEC);
if (ebpf_exit_plugin || ++counter != update_every)
continue;
counter = 0;
netdata_apps_integration_flags_t socket_apps_enabled = em->apps_charts;
if (socket_global_enabled) {
read_listen_table();
read_hash_global_tables();
}
pthread_mutex_lock(&collect_data_mutex);
if (socket_apps_enabled)
ebpf_socket_update_apps_data();
if (cgroups)
ebpf_update_socket_cgroup();
if (network_connection)
calculate_nv_plot();
pthread_mutex_lock(&lock);
if (socket_global_enabled)
ebpf_socket_send_data(em);
if (socket_apps_enabled & NETDATA_EBPF_APPS_FLAG_CHART_CREATED)
ebpf_socket_send_apps_data(em, apps_groups_root_target);
#ifdef NETDATA_DEV_MODE
if (ebpf_aral_socket_pid)
ebpf_send_data_aral_chart(ebpf_aral_socket_pid, em);
#endif
if (cgroups)
ebpf_socket_send_cgroup_data(update_every);
fflush(stdout);
if (network_connection) {
// We are calling fflush many times, because when we have a lot of dimensions
// we began to have not expected outputs and Netdata closed the plugin.
pthread_mutex_lock(&nv_mutex);
ebpf_socket_create_nv_charts(&inbound_vectors, update_every);
fflush(stdout);
ebpf_socket_send_nv_data(&inbound_vectors);
ebpf_socket_create_nv_charts(&outbound_vectors, update_every);
fflush(stdout);
ebpf_socket_send_nv_data(&outbound_vectors);
pthread_mutex_unlock(&nv_mutex);
}
pthread_mutex_unlock(&lock);
pthread_mutex_unlock(&collect_data_mutex);
}
}
/*****************************************************************
*
* FUNCTIONS TO START THREAD
*
*****************************************************************/
/**
* Allocate vectors used with this thread.
* We are not testing the return, because callocz does this and shutdown the software
* case it was not possible to allocate.
*
* @param apps is apps enabled?
*/
static void ebpf_socket_allocate_global_vectors(int apps)
{
memset(socket_aggregated_data, 0 ,NETDATA_MAX_SOCKET_VECTOR * sizeof(netdata_syscall_stat_t));
memset(socket_publish_aggregated, 0 ,NETDATA_MAX_SOCKET_VECTOR * sizeof(netdata_publish_syscall_t));
socket_hash_values = callocz(ebpf_nprocs, sizeof(netdata_idx_t));
if (apps) {
ebpf_socket_aral_init();
socket_bandwidth_curr = callocz((size_t)pid_max, sizeof(ebpf_socket_publish_apps_t *));
bandwidth_vector = callocz((size_t)ebpf_nprocs, sizeof(ebpf_bandwidth_t));
}
socket_values = callocz((size_t)ebpf_nprocs, sizeof(netdata_socket_t));
if (network_viewer_opt.enabled) {
inbound_vectors.plot = callocz(network_viewer_opt.max_dim, sizeof(netdata_socket_plot_t));
outbound_vectors.plot = callocz(network_viewer_opt.max_dim, sizeof(netdata_socket_plot_t));
}
}
/**
* Initialize Inbound and Outbound
*
* Initialize the common outbound and inbound sockets.
*/
static void initialize_inbound_outbound()
{
inbound_vectors.last = network_viewer_opt.max_dim - 1;
outbound_vectors.last = inbound_vectors.last;
fill_last_nv_dimension(&inbound_vectors.plot[inbound_vectors.last], 0);
fill_last_nv_dimension(&outbound_vectors.plot[outbound_vectors.last], 1);
}
/*****************************************************************
*
* EBPF SOCKET THREAD
*
*****************************************************************/
/**
* Fill Port list
*
* @param out a pointer to the link list.
* @param in the structure that will be linked.
*/
static inline void fill_port_list(ebpf_network_viewer_port_list_t **out, ebpf_network_viewer_port_list_t *in)
{
if (likely(*out)) {
ebpf_network_viewer_port_list_t *move = *out, *store = *out;
uint16_t first = ntohs(in->first);
uint16_t last = ntohs(in->last);
while (move) {
uint16_t cmp_first = ntohs(move->first);
uint16_t cmp_last = ntohs(move->last);
if (cmp_first <= first && first <= cmp_last &&
cmp_first <= last && last <= cmp_last ) {
info("The range/value (%u, %u) is inside the range/value (%u, %u) already inserted, it will be ignored.",
first, last, cmp_first, cmp_last);
freez(in->value);
freez(in);
return;
} else if (first <= cmp_first && cmp_first <= last &&
first <= cmp_last && cmp_last <= last) {
info("The range (%u, %u) is bigger than previous range (%u, %u) already inserted, the previous will be ignored.",
first, last, cmp_first, cmp_last);
freez(move->value);
move->value = in->value;
move->first = in->first;
move->last = in->last;
freez(in);
return;
}
store = move;
move = move->next;
}
store->next = in;
} else {
*out = in;
}
#ifdef NETDATA_INTERNAL_CHECKS
info("Adding values %s( %u, %u) to %s port list used on network viewer",
in->value, ntohs(in->first), ntohs(in->last),
(*out == network_viewer_opt.included_port)?"included":"excluded");
#endif
}
/**
* Parse Service List
*
* @param out a pointer to store the link list
* @param service the service used to create the structure that will be linked.
*/
static void parse_service_list(void **out, char *service)
{
ebpf_network_viewer_port_list_t **list = (ebpf_network_viewer_port_list_t **)out;
struct servent *serv = getservbyname((const char *)service, "tcp");
if (!serv)
serv = getservbyname((const char *)service, "udp");
if (!serv) {
info("Cannot resolv the service '%s' with protocols TCP and UDP, it will be ignored", service);
return;
}
ebpf_network_viewer_port_list_t *w = callocz(1, sizeof(ebpf_network_viewer_port_list_t));
w->value = strdupz(service);
w->hash = simple_hash(service);
w->first = w->last = (uint16_t)serv->s_port;
fill_port_list(list, w);
}
/**
* Netmask
*
* Copied from iprange (https://github.com/firehol/iprange/blob/master/iprange.h)
*
* @param prefix create the netmask based in the CIDR value.
*
* @return
*/
static inline in_addr_t netmask(int prefix) {
if (prefix == 0)
return (~((in_addr_t) - 1));
else
return (in_addr_t)(~((1 << (32 - prefix)) - 1));
}
/**
* Broadcast
*
* Copied from iprange (https://github.com/firehol/iprange/blob/master/iprange.h)
*
* @param addr is the ip address
* @param prefix is the CIDR value.
*
* @return It returns the last address of the range
*/
static inline in_addr_t broadcast(in_addr_t addr, int prefix)
{
return (addr | ~netmask(prefix));
}
/**
* Network
*
* Copied from iprange (https://github.com/firehol/iprange/blob/master/iprange.h)
*
* @param addr is the ip address
* @param prefix is the CIDR value.
*
* @return It returns the first address of the range.
*/
static inline in_addr_t ipv4_network(in_addr_t addr, int prefix)
{
return (addr & netmask(prefix));
}
/**
* IP to network long
*
* @param dst the vector to store the result
* @param ip the source ip given by our users.
* @param domain the ip domain (IPV4 or IPV6)
* @param source the original string
*
* @return it returns 0 on success and -1 otherwise.
*/
static inline int ip2nl(uint8_t *dst, char *ip, int domain, char *source)
{
if (inet_pton(domain, ip, dst) <= 0) {
error("The address specified (%s) is invalid ", source);
return -1;
}
return 0;
}
/**
* Get IPV6 Last Address
*
* @param out the address to store the last address.
* @param in the address used to do the math.
* @param prefix number of bits used to calculate the address
*/
static void get_ipv6_last_addr(union netdata_ip_t *out, union netdata_ip_t *in, uint64_t prefix)
{
uint64_t mask,tmp;
uint64_t ret[2];
memcpy(ret, in->addr32, sizeof(union netdata_ip_t));
if (prefix == 128) {
memcpy(out->addr32, in->addr32, sizeof(union netdata_ip_t));
return;
} else if (!prefix) {
ret[0] = ret[1] = 0xFFFFFFFFFFFFFFFF;
memcpy(out->addr32, ret, sizeof(union netdata_ip_t));
return;
} else if (prefix <= 64) {
ret[1] = 0xFFFFFFFFFFFFFFFFULL;
tmp = be64toh(ret[0]);
if (prefix > 0) {
mask = 0xFFFFFFFFFFFFFFFFULL << (64 - prefix);
tmp |= ~mask;
}
ret[0] = htobe64(tmp);
} else {
mask = 0xFFFFFFFFFFFFFFFFULL << (128 - prefix);
tmp = be64toh(ret[1]);
tmp |= ~mask;
ret[1] = htobe64(tmp);
}
memcpy(out->addr32, ret, sizeof(union netdata_ip_t));
}
/**
* Calculate ipv6 first address
*
* @param out the address to store the first address.
* @param in the address used to do the math.
* @param prefix number of bits used to calculate the address
*/
static void get_ipv6_first_addr(union netdata_ip_t *out, union netdata_ip_t *in, uint64_t prefix)
{
uint64_t mask,tmp;
uint64_t ret[2];
memcpy(ret, in->addr32, sizeof(union netdata_ip_t));
if (prefix == 128) {
memcpy(out->addr32, in->addr32, sizeof(union netdata_ip_t));
return;
} else if (!prefix) {
ret[0] = ret[1] = 0;
memcpy(out->addr32, ret, sizeof(union netdata_ip_t));
return;
} else if (prefix <= 64) {
ret[1] = 0ULL;
tmp = be64toh(ret[0]);
if (prefix > 0) {
mask = 0xFFFFFFFFFFFFFFFFULL << (64 - prefix);
tmp &= mask;
}
ret[0] = htobe64(tmp);
} else {
mask = 0xFFFFFFFFFFFFFFFFULL << (128 - prefix);
tmp = be64toh(ret[1]);
tmp &= mask;
ret[1] = htobe64(tmp);
}
memcpy(out->addr32, ret, sizeof(union netdata_ip_t));
}
/**
* Is ip inside the range
*
* Check if the ip is inside a IP range
*
* @param rfirst the first ip address of the range
* @param rlast the last ip address of the range
* @param cmpfirst the first ip to compare
* @param cmplast the last ip to compare
* @param family the IP family
*
* @return It returns 1 if the IP is inside the range and 0 otherwise
*/
static int ebpf_is_ip_inside_range(union netdata_ip_t *rfirst, union netdata_ip_t *rlast,
union netdata_ip_t *cmpfirst, union netdata_ip_t *cmplast, int family)
{
if (family == AF_INET) {
if ((rfirst->addr32[0] <= cmpfirst->addr32[0]) && (rlast->addr32[0] >= cmplast->addr32[0]))
return 1;
} else {
if (memcmp(rfirst->addr8, cmpfirst->addr8, sizeof(union netdata_ip_t)) <= 0 &&
memcmp(rlast->addr8, cmplast->addr8, sizeof(union netdata_ip_t)) >= 0) {
return 1;
}
}
return 0;
}
/**
* Fill IP list
*
* @param out a pointer to the link list.
* @param in the structure that will be linked.
* @param table the modified table.
*/
void ebpf_fill_ip_list(ebpf_network_viewer_ip_list_t **out, ebpf_network_viewer_ip_list_t *in, char *table)
{
#ifndef NETDATA_INTERNAL_CHECKS
UNUSED(table);
#endif
if (in->ver == AF_INET) { // It is simpler to compare using host order
in->first.addr32[0] = ntohl(in->first.addr32[0]);
in->last.addr32[0] = ntohl(in->last.addr32[0]);
}
if (likely(*out)) {
ebpf_network_viewer_ip_list_t *move = *out, *store = *out;
while (move) {
if (in->ver == move->ver &&
ebpf_is_ip_inside_range(&move->first, &move->last, &in->first, &in->last, in->ver)) {
info("The range/value (%s) is inside the range/value (%s) already inserted, it will be ignored.",
in->value, move->value);
freez(in->value);
freez(in);
return;
}
store = move;
move = move->next;
}
store->next = in;
} else {
*out = in;
}
#ifdef NETDATA_INTERNAL_CHECKS
char first[256], last[512];
if (in->ver == AF_INET) {
info("Adding values %s: (%u - %u) to %s IP list \"%s\" used on network viewer",
in->value, in->first.addr32[0], in->last.addr32[0],
(*out == network_viewer_opt.included_ips)?"included":"excluded",
table);
} else {
if (inet_ntop(AF_INET6, in->first.addr8, first, INET6_ADDRSTRLEN) &&
inet_ntop(AF_INET6, in->last.addr8, last, INET6_ADDRSTRLEN))
info("Adding values %s - %s to %s IP list \"%s\" used on network viewer",
first, last,
(*out == network_viewer_opt.included_ips)?"included":"excluded",
table);
}
#endif
}
/**
* Parse IP List
*
* Parse IP list and link it.
*
* @param out a pointer to store the link list
* @param ip the value given as parameter
*/
static void ebpf_parse_ip_list(void **out, char *ip)
{
ebpf_network_viewer_ip_list_t **list = (ebpf_network_viewer_ip_list_t **)out;
char *ipdup = strdupz(ip);
union netdata_ip_t first = { };
union netdata_ip_t last = { };
char *is_ipv6;
if (*ip == '*' && *(ip+1) == '\0') {
memset(first.addr8, 0, sizeof(first.addr8));
memset(last.addr8, 0xFF, sizeof(last.addr8));
is_ipv6 = ip;
clean_ip_structure(list);
goto storethisip;
}
char *end = ip;
// Move while I cannot find a separator
while (*end && *end != '/' && *end != '-') end++;
// We will use only the classic IPV6 for while, but we could consider the base 85 in a near future
// https://tools.ietf.org/html/rfc1924
is_ipv6 = strchr(ip, ':');
int select;
if (*end && !is_ipv6) { // IPV4 range
select = (*end == '/') ? 0 : 1;
*end++ = '\0';
if (*end == '!') {
info("The exclusion cannot be in the second part of the range %s, it will be ignored.", ipdup);
goto cleanipdup;
}
if (!select) { // CIDR
select = ip2nl(first.addr8, ip, AF_INET, ipdup);
if (select)
goto cleanipdup;
select = (int) str2i(end);
if (select < NETDATA_MINIMUM_IPV4_CIDR || select > NETDATA_MAXIMUM_IPV4_CIDR) {
info("The specified CIDR %s is not valid, the IP %s will be ignored.", end, ip);
goto cleanipdup;
}
last.addr32[0] = htonl(broadcast(ntohl(first.addr32[0]), select));
// This was added to remove
// https://app.codacy.com/manual/netdata/netdata/pullRequest?prid=5810941&bid=19021977
UNUSED(last.addr32[0]);
uint32_t ipv4_test = htonl(ipv4_network(ntohl(first.addr32[0]), select));
if (first.addr32[0] != ipv4_test) {
first.addr32[0] = ipv4_test;
struct in_addr ipv4_convert;
ipv4_convert.s_addr = ipv4_test;
char ipv4_msg[INET_ADDRSTRLEN];
if(inet_ntop(AF_INET, &ipv4_convert, ipv4_msg, INET_ADDRSTRLEN))
info("The network value of CIDR %s was updated for %s .", ipdup, ipv4_msg);
}
} else { // Range
select = ip2nl(first.addr8, ip, AF_INET, ipdup);
if (select)
goto cleanipdup;
select = ip2nl(last.addr8, end, AF_INET, ipdup);
if (select)
goto cleanipdup;
}
if (htonl(first.addr32[0]) > htonl(last.addr32[0])) {
info("The specified range %s is invalid, the second address is smallest than the first, it will be ignored.",
ipdup);
goto cleanipdup;
}
} else if (is_ipv6) { // IPV6
if (!*end) { // Unique
select = ip2nl(first.addr8, ip, AF_INET6, ipdup);
if (select)
goto cleanipdup;
memcpy(last.addr8, first.addr8, sizeof(first.addr8));
} else if (*end == '-') {
*end++ = 0x00;
if (*end == '!') {
info("The exclusion cannot be in the second part of the range %s, it will be ignored.", ipdup);
goto cleanipdup;
}
select = ip2nl(first.addr8, ip, AF_INET6, ipdup);
if (select)
goto cleanipdup;
select = ip2nl(last.addr8, end, AF_INET6, ipdup);
if (select)
goto cleanipdup;
} else { // CIDR
*end++ = 0x00;
if (*end == '!') {
info("The exclusion cannot be in the second part of the range %s, it will be ignored.", ipdup);
goto cleanipdup;
}
select = str2i(end);
if (select < 0 || select > 128) {
info("The CIDR %s is not valid, the address %s will be ignored.", end, ip);
goto cleanipdup;
}
uint64_t prefix = (uint64_t)select;
select = ip2nl(first.addr8, ip, AF_INET6, ipdup);
if (select)
goto cleanipdup;
get_ipv6_last_addr(&last, &first, prefix);
union netdata_ip_t ipv6_test;
get_ipv6_first_addr(&ipv6_test, &first, prefix);
if (memcmp(first.addr8, ipv6_test.addr8, sizeof(union netdata_ip_t)) != 0) {
memcpy(first.addr8, ipv6_test.addr8, sizeof(union netdata_ip_t));
struct in6_addr ipv6_convert;
memcpy(ipv6_convert.s6_addr, ipv6_test.addr8, sizeof(union netdata_ip_t));
char ipv6_msg[INET6_ADDRSTRLEN];
if(inet_ntop(AF_INET6, &ipv6_convert, ipv6_msg, INET6_ADDRSTRLEN))
info("The network value of CIDR %s was updated for %s .", ipdup, ipv6_msg);
}
}
if ((be64toh(*(uint64_t *)&first.addr32[2]) > be64toh(*(uint64_t *)&last.addr32[2]) &&
!memcmp(first.addr32, last.addr32, 2*sizeof(uint32_t))) ||
(be64toh(*(uint64_t *)&first.addr32) > be64toh(*(uint64_t *)&last.addr32)) ) {
info("The specified range %s is invalid, the second address is smallest than the first, it will be ignored.",
ipdup);
goto cleanipdup;
}
} else { // Unique ip
select = ip2nl(first.addr8, ip, AF_INET, ipdup);
if (select)
goto cleanipdup;
memcpy(last.addr8, first.addr8, sizeof(first.addr8));
}
ebpf_network_viewer_ip_list_t *store;
storethisip:
store = callocz(1, sizeof(ebpf_network_viewer_ip_list_t));
store->value = ipdup;
store->hash = simple_hash(ipdup);
store->ver = (uint8_t)(!is_ipv6)?AF_INET:AF_INET6;
memcpy(store->first.addr8, first.addr8, sizeof(first.addr8));
memcpy(store->last.addr8, last.addr8, sizeof(last.addr8));
ebpf_fill_ip_list(list, store, "socket");
return;
cleanipdup:
freez(ipdup);
}
/**
* Parse IP Range
*
* Parse the IP ranges given and create Network Viewer IP Structure
*
* @param ptr is a pointer with the text to parse.
*/
static void ebpf_parse_ips(char *ptr)
{
// No value
if (unlikely(!ptr))
return;
while (likely(ptr)) {
// Move forward until next valid character
while (isspace(*ptr)) ptr++;
// No valid value found
if (unlikely(!*ptr))
return;
// Find space that ends the list
char *end = strchr(ptr, ' ');
if (end) {
*end++ = '\0';
}
int neg = 0;
if (*ptr == '!') {
neg++;
ptr++;
}
if (isascii(*ptr)) { // Parse port
ebpf_parse_ip_list((!neg)?(void **)&network_viewer_opt.included_ips:
(void **)&network_viewer_opt.excluded_ips,
ptr);
}
ptr = end;
}
}
/**
* Parse port list
*
* Parse an allocated port list with the range given
*
* @param out a pointer to store the link list
* @param range the informed range for the user.
*/
static void parse_port_list(void **out, char *range)
{
int first, last;
ebpf_network_viewer_port_list_t **list = (ebpf_network_viewer_port_list_t **)out;
char *copied = strdupz(range);
if (*range == '*' && *(range+1) == '\0') {
first = 1;
last = 65535;
clean_port_structure(list);
goto fillenvpl;
}
char *end = range;
//Move while I cannot find a separator
while (*end && *end != ':' && *end != '-') end++;
//It has a range
if (likely(*end)) {
*end++ = '\0';
if (*end == '!') {
info("The exclusion cannot be in the second part of the range, the range %s will be ignored.", copied);
freez(copied);
return;
}
last = str2i((const char *)end);
} else {
last = 0;
}
first = str2i((const char *)range);
if (first < NETDATA_MINIMUM_PORT_VALUE || first > NETDATA_MAXIMUM_PORT_VALUE) {
info("The first port %d of the range \"%s\" is invalid and it will be ignored!", first, copied);
freez(copied);
return;
}
if (!last)
last = first;
if (last < NETDATA_MINIMUM_PORT_VALUE || last > NETDATA_MAXIMUM_PORT_VALUE) {
info("The second port %d of the range \"%s\" is invalid and the whole range will be ignored!", last, copied);
freez(copied);
return;
}
if (first > last) {
info("The specified order %s is wrong, the smallest value is always the first, it will be ignored!", copied);
freez(copied);
return;
}
ebpf_network_viewer_port_list_t *w;
fillenvpl:
w = callocz(1, sizeof(ebpf_network_viewer_port_list_t));
w->value = copied;
w->hash = simple_hash(copied);
w->first = (uint16_t)htons((uint16_t)first);
w->last = (uint16_t)htons((uint16_t)last);
w->cmp_first = (uint16_t)first;
w->cmp_last = (uint16_t)last;
fill_port_list(list, w);
}
/**
* Read max dimension.
*
* Netdata plot two dimensions per connection, so it is necessary to adjust the values.
*
* @param cfg the configuration structure
*/
static void read_max_dimension(struct config *cfg)
{
int maxdim ;
maxdim = (int) appconfig_get_number(cfg,
EBPF_NETWORK_VIEWER_SECTION,
EBPF_MAXIMUM_DIMENSIONS,
NETDATA_NV_CAP_VALUE);
if (maxdim < 0) {
error("'maximum dimensions = %d' must be a positive number, Netdata will change for default value %ld.",
maxdim, NETDATA_NV_CAP_VALUE);
maxdim = NETDATA_NV_CAP_VALUE;
}
maxdim /= 2;
if (!maxdim) {
info("The number of dimensions is too small (%u), we are setting it to minimum 2", network_viewer_opt.max_dim);
network_viewer_opt.max_dim = 1;
return;
}
network_viewer_opt.max_dim = (uint32_t)maxdim;
}
/**
* Parse Port Range
*
* Parse the port ranges given and create Network Viewer Port Structure
*
* @param ptr is a pointer with the text to parse.
*/
static void parse_ports(char *ptr)
{
// No value
if (unlikely(!ptr))
return;
while (likely(ptr)) {
// Move forward until next valid character
while (isspace(*ptr)) ptr++;
// No valid value found
if (unlikely(!*ptr))
return;
// Find space that ends the list
char *end = strchr(ptr, ' ');
if (end) {
*end++ = '\0';
}
int neg = 0;
if (*ptr == '!') {
neg++;
ptr++;
}
if (isdigit(*ptr)) { // Parse port
parse_port_list((!neg)?(void **)&network_viewer_opt.included_port:(void **)&network_viewer_opt.excluded_port,
ptr);
} else if (isalpha(*ptr)) { // Parse service
parse_service_list((!neg)?(void **)&network_viewer_opt.included_port:(void **)&network_viewer_opt.excluded_port,
ptr);
} else if (*ptr == '*') { // All
parse_port_list((!neg)?(void **)&network_viewer_opt.included_port:(void **)&network_viewer_opt.excluded_port,
ptr);
}
ptr = end;
}
}
/**
* Link hostname
*
* @param out is the output link list
* @param in the hostname to add to list.
*/
static void link_hostname(ebpf_network_viewer_hostname_list_t **out, ebpf_network_viewer_hostname_list_t *in)
{
if (likely(*out)) {
ebpf_network_viewer_hostname_list_t *move = *out;
for (; move->next ; move = move->next ) {
if (move->hash == in->hash && !strcmp(move->value, in->value)) {
info("The hostname %s was already inserted, it will be ignored.", in->value);
freez(in->value);
simple_pattern_free(in->value_pattern);
freez(in);
return;
}
}
move->next = in;
} else {
*out = in;
}
#ifdef NETDATA_INTERNAL_CHECKS
info("Adding value %s to %s hostname list used on network viewer",
in->value,
(*out == network_viewer_opt.included_hostnames)?"included":"excluded");
#endif
}
/**
* Link Hostnames
*
* Parse the list of hostnames to create the link list.
* This is not associated with the IP, because simple patterns like *example* cannot be resolved to IP.
*
* @param out is the output link list
* @param parse is a pointer with the text to parser.
*/
static void link_hostnames(char *parse)
{
// No value
if (unlikely(!parse))
return;
while (likely(parse)) {
// Find the first valid value
while (isspace(*parse)) parse++;
// No valid value found
if (unlikely(!*parse))
return;
// Find space that ends the list
char *end = strchr(parse, ' ');
if (end) {
*end++ = '\0';
}
int neg = 0;
if (*parse == '!') {
neg++;
parse++;
}
ebpf_network_viewer_hostname_list_t *hostname = callocz(1 , sizeof(ebpf_network_viewer_hostname_list_t));
hostname->value = strdupz(parse);
hostname->hash = simple_hash(parse);
hostname->value_pattern = simple_pattern_create(parse, NULL, SIMPLE_PATTERN_EXACT, true);
link_hostname((!neg)?&network_viewer_opt.included_hostnames:&network_viewer_opt.excluded_hostnames,
hostname);
parse = end;
}
}
/**
* Parse network viewer section
*
* @param cfg the configuration structure
*/
void parse_network_viewer_section(struct config *cfg)
{
read_max_dimension(cfg);
network_viewer_opt.hostname_resolution_enabled = appconfig_get_boolean(cfg,
EBPF_NETWORK_VIEWER_SECTION,
EBPF_CONFIG_RESOLVE_HOSTNAME,
CONFIG_BOOLEAN_NO);
network_viewer_opt.service_resolution_enabled = appconfig_get_boolean(cfg,
EBPF_NETWORK_VIEWER_SECTION,
EBPF_CONFIG_RESOLVE_SERVICE,
CONFIG_BOOLEAN_NO);
char *value = appconfig_get(cfg, EBPF_NETWORK_VIEWER_SECTION, EBPF_CONFIG_PORTS, NULL);
parse_ports(value);
if (network_viewer_opt.hostname_resolution_enabled) {
value = appconfig_get(cfg, EBPF_NETWORK_VIEWER_SECTION, EBPF_CONFIG_HOSTNAMES, NULL);
link_hostnames(value);
} else {
info("Name resolution is disabled, collector will not parser \"hostnames\" list.");
}
value = appconfig_get(cfg, EBPF_NETWORK_VIEWER_SECTION,
"ips", "!127.0.0.1/8 10.0.0.0/8 172.16.0.0/12 192.168.0.0/16 fc00::/7 !::1/128");
ebpf_parse_ips(value);
}
/**
* Link dimension name
*
* Link user specified names inside a link list.
*
* @param port the port number associated to the dimension name.
* @param hash the calculated hash for the dimension name.
* @param name the dimension name.
*/
static void link_dimension_name(char *port, uint32_t hash, char *value)
{
int test = str2i(port);
if (test < NETDATA_MINIMUM_PORT_VALUE || test > NETDATA_MAXIMUM_PORT_VALUE){
error("The dimension given (%s = %s) has an invalid value and it will be ignored.", port, value);
return;
}
ebpf_network_viewer_dim_name_t *w;
w = callocz(1, sizeof(ebpf_network_viewer_dim_name_t));
w->name = strdupz(value);
w->hash = hash;
w->port = (uint16_t) htons(test);
ebpf_network_viewer_dim_name_t *names = network_viewer_opt.names;
if (unlikely(!names)) {
network_viewer_opt.names = w;
} else {
for (; names->next; names = names->next) {
if (names->port == w->port) {
info("Duplicated definition for a service, the name %s will be ignored. ", names->name);
freez(names->name);
names->name = w->name;
names->hash = w->hash;
freez(w);
return;
}
}
names->next = w;
}
#ifdef NETDATA_INTERNAL_CHECKS
info("Adding values %s( %u) to dimension name list used on network viewer", w->name, htons(w->port));
#endif
}
/**
* Parse service Name section.
*
* This function gets the values that will be used to overwrite dimensions.
*
* @param cfg the configuration structure
*/
void parse_service_name_section(struct config *cfg)
{
struct section *co = appconfig_get_section(cfg, EBPF_SERVICE_NAME_SECTION);
if (co) {
struct config_option *cv;
for (cv = co->values; cv ; cv = cv->next) {
link_dimension_name(cv->name, cv->hash, cv->value);
}
}
// Always associated the default port to Netdata
ebpf_network_viewer_dim_name_t *names = network_viewer_opt.names;
if (names) {
uint16_t default_port = htons(19999);
while (names) {
if (names->port == default_port)
return;
names = names->next;
}
}
char *port_string = getenv("NETDATA_LISTEN_PORT");
if (port_string) {
// if variable has an invalid value, we assume netdata is using 19999
int default_port = str2i(port_string);
if (default_port > 0 && default_port < 65536)
link_dimension_name(port_string, simple_hash(port_string), "Netdata");
}
}
void parse_table_size_options(struct config *cfg)
{
socket_maps[NETDATA_SOCKET_TABLE_BANDWIDTH].user_input = (uint32_t) appconfig_get_number(cfg,
EBPF_GLOBAL_SECTION,
EBPF_CONFIG_BANDWIDTH_SIZE, NETDATA_MAXIMUM_CONNECTIONS_ALLOWED);
socket_maps[NETDATA_SOCKET_TABLE_IPV4].user_input = (uint32_t) appconfig_get_number(cfg,
EBPF_GLOBAL_SECTION,
EBPF_CONFIG_IPV4_SIZE, NETDATA_MAXIMUM_CONNECTIONS_ALLOWED);
socket_maps[NETDATA_SOCKET_TABLE_IPV6].user_input = (uint32_t) appconfig_get_number(cfg,
EBPF_GLOBAL_SECTION,
EBPF_CONFIG_IPV6_SIZE, NETDATA_MAXIMUM_CONNECTIONS_ALLOWED);
socket_maps[NETDATA_SOCKET_TABLE_UDP].user_input = (uint32_t) appconfig_get_number(cfg,
EBPF_GLOBAL_SECTION,
EBPF_CONFIG_UDP_SIZE, NETDATA_MAXIMUM_UDP_CONNECTIONS_ALLOWED);
}
/*
* Load BPF
*
* Load BPF files.
*
* @param em the structure with configuration
*/
static int ebpf_socket_load_bpf(ebpf_module_t *em)
{
int ret = 0;
if (em->load & EBPF_LOAD_LEGACY) {
em->probe_links = ebpf_load_program(ebpf_plugin_dir, em, running_on_kernel, isrh, &em->objects);
if (!em->probe_links) {
ret = -1;
}
}
#ifdef LIBBPF_MAJOR_VERSION
else {
socket_bpf_obj = socket_bpf__open();
if (!socket_bpf_obj)
ret = -1;
else
ret = ebpf_socket_load_and_attach(socket_bpf_obj, em);
}
#endif
if (ret) {
error("%s %s", EBPF_DEFAULT_ERROR_MSG, em->thread_name);
}
return ret;
}
/**
* Socket thread
*
* Thread used to generate socket charts.
*
* @param ptr a pointer to `struct ebpf_module`
*
* @return It always return NULL
*/
void *ebpf_socket_thread(void *ptr)
{
netdata_thread_cleanup_push(ebpf_socket_exit, ptr);
ebpf_module_t *em = (ebpf_module_t *)ptr;
em->maps = socket_maps;
parse_table_size_options(&socket_config);
if (pthread_mutex_init(&nv_mutex, NULL)) {
error("Cannot initialize local mutex");
goto endsocket;
}
ebpf_socket_allocate_global_vectors(em->apps_charts);
if (network_viewer_opt.enabled) {
memset(&inbound_vectors.tree, 0, sizeof(avl_tree_lock));
memset(&outbound_vectors.tree, 0, sizeof(avl_tree_lock));
avl_init_lock(&inbound_vectors.tree, ebpf_compare_sockets);
avl_init_lock(&outbound_vectors.tree, ebpf_compare_sockets);
initialize_inbound_outbound();
}
if (running_on_kernel < NETDATA_EBPF_KERNEL_5_0)
em->mode = MODE_ENTRY;
#ifdef LIBBPF_MAJOR_VERSION
ebpf_adjust_thread_load(em, default_btf);
#endif
if (ebpf_socket_load_bpf(em)) {
pthread_mutex_unlock(&lock);
goto endsocket;
}
int algorithms[NETDATA_MAX_SOCKET_VECTOR] = {
NETDATA_EBPF_ABSOLUTE_IDX, NETDATA_EBPF_ABSOLUTE_IDX, NETDATA_EBPF_ABSOLUTE_IDX,
NETDATA_EBPF_ABSOLUTE_IDX, NETDATA_EBPF_ABSOLUTE_IDX, NETDATA_EBPF_ABSOLUTE_IDX,
NETDATA_EBPF_ABSOLUTE_IDX, NETDATA_EBPF_ABSOLUTE_IDX, NETDATA_EBPF_INCREMENTAL_IDX,
NETDATA_EBPF_INCREMENTAL_IDX
};
ebpf_global_labels(
socket_aggregated_data, socket_publish_aggregated, socket_dimension_names, socket_id_names,
algorithms, NETDATA_MAX_SOCKET_VECTOR);
pthread_mutex_lock(&lock);
ebpf_create_global_charts(em);
ebpf_update_stats(&plugin_statistics, em);
ebpf_update_kernel_memory_with_vector(&plugin_statistics, em->maps);
#ifdef NETDATA_DEV_MODE
if (ebpf_aral_socket_pid)
ebpf_statistic_create_aral_chart(NETDATA_EBPF_SOCKET_ARAL_NAME, em);
#endif
pthread_mutex_unlock(&lock);
socket_collector(em);
endsocket:
ebpf_update_disabled_plugin_stats(em);
netdata_thread_cleanup_pop(1);
return NULL;
}
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