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// SPDX-License-Identifier: GPL-3.0-or-later
#include <sys/resource.h>
#include "ebpf.h"
#include "ebpf_cgroup.h"
ebpf_cgroup_target_t *ebpf_cgroup_pids = NULL;
static void *ebpf_mapped_memory = NULL;
int send_cgroup_chart = 0;
// --------------------------------------------------------------------------------------------------------------------
// Map shared memory
/**
* Map Shared Memory locally
*
* Map the shared memory for current process
*
* @param fd file descriptor returned after shm_open was called.
* @param length length of the shared memory
*
* @return It returns a pointer to the region mapped on success and MAP_FAILED otherwise.
*/
static inline void *ebpf_cgroup_map_shm_locally(int fd, size_t length)
{
void *value;
value = mmap(NULL, length, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0);
if (!value) {
netdata_log_error("Cannot map shared memory used between eBPF and cgroup, integration between processes won't happen");
close(shm_fd_ebpf_cgroup);
shm_fd_ebpf_cgroup = -1;
shm_unlink(NETDATA_SHARED_MEMORY_EBPF_CGROUP_NAME);
}
return value;
}
/**
* Unmap Shared Memory
*
* Unmap shared memory used to integrate eBPF and cgroup plugin
*/
void ebpf_unmap_cgroup_shared_memory()
{
munmap(ebpf_mapped_memory, shm_ebpf_cgroup.header->body_length);
}
/**
* Map cgroup shared memory
*
* Map cgroup shared memory from cgroup to plugin
*/
void ebpf_map_cgroup_shared_memory()
{
static int limit_try = 0;
static time_t next_try = 0;
if (shm_ebpf_cgroup.header || limit_try > NETDATA_EBPF_CGROUP_MAX_TRIES)
return;
time_t curr_time = time(NULL);
if (curr_time < next_try)
return;
limit_try++;
next_try = curr_time + NETDATA_EBPF_CGROUP_NEXT_TRY_SEC;
if (shm_fd_ebpf_cgroup < 0) {
shm_fd_ebpf_cgroup = shm_open(NETDATA_SHARED_MEMORY_EBPF_CGROUP_NAME, O_RDWR, 0660);
if (shm_fd_ebpf_cgroup < 0) {
if (limit_try == NETDATA_EBPF_CGROUP_MAX_TRIES)
netdata_log_error("Shared memory was not initialized, integration between processes won't happen.");
return;
}
}
// Map only header
void *mapped = (netdata_ebpf_cgroup_shm_header_t *) ebpf_cgroup_map_shm_locally(shm_fd_ebpf_cgroup,
sizeof(netdata_ebpf_cgroup_shm_header_t));
if (unlikely(mapped == SEM_FAILED)) {
return;
}
netdata_ebpf_cgroup_shm_header_t *header = mapped;
size_t length = header->body_length;
munmap(header, sizeof(netdata_ebpf_cgroup_shm_header_t));
if (length <= ((sizeof(netdata_ebpf_cgroup_shm_header_t) + sizeof(netdata_ebpf_cgroup_shm_body_t)))) {
return;
}
ebpf_mapped_memory = (void *)ebpf_cgroup_map_shm_locally(shm_fd_ebpf_cgroup, length);
if (unlikely(ebpf_mapped_memory == MAP_FAILED)) {
return;
}
shm_ebpf_cgroup.header = ebpf_mapped_memory;
shm_ebpf_cgroup.body = ebpf_mapped_memory + sizeof(netdata_ebpf_cgroup_shm_header_t);
shm_sem_ebpf_cgroup = sem_open(NETDATA_NAMED_SEMAPHORE_EBPF_CGROUP_NAME, O_CREAT, 0660, 1);
if (shm_sem_ebpf_cgroup == SEM_FAILED) {
netdata_log_error("Cannot create semaphore, integration between eBPF and cgroup won't happen");
limit_try = NETDATA_EBPF_CGROUP_MAX_TRIES + 1;
munmap(ebpf_mapped_memory, length);
shm_ebpf_cgroup.header = NULL;
shm_ebpf_cgroup.body = NULL;
close(shm_fd_ebpf_cgroup);
shm_fd_ebpf_cgroup = -1;
shm_unlink(NETDATA_SHARED_MEMORY_EBPF_CGROUP_NAME);
}
}
// --------------------------------------------------------------------------------------------------------------------
// Close and Cleanup
/**
* Clean Specific cgroup pid
*
* Clean all PIDs associated with cgroup.
*
* @param pt structure pid on target that will have your PRs removed
*/
static inline void ebpf_clean_specific_cgroup_pids(struct pid_on_target2 *pt)
{
while (pt) {
struct pid_on_target2 *next_pid = pt->next;
freez(pt);
pt = next_pid;
}
}
/**
* Remove Cgroup Update Target Update List
*
* Remove from cgroup target and update the link list
*/
static void ebpf_remove_cgroup_target_update_list()
{
ebpf_cgroup_target_t *next, *ect = ebpf_cgroup_pids;
ebpf_cgroup_target_t *prev = ebpf_cgroup_pids;
while (ect) {
next = ect->next;
if (!ect->updated) {
if (ect == ebpf_cgroup_pids) {
ebpf_cgroup_pids = next;
prev = next;
} else {
prev->next = next;
}
ebpf_clean_specific_cgroup_pids(ect->pids);
freez(ect);
} else {
prev = ect;
}
ect = next;
}
}
// --------------------------------------------------------------------------------------------------------------------
// Fill variables
/**
* Set Target Data
*
* Set local variable values according shared memory information.
*
* @param out local output variable.
* @param ptr input from shared memory.
*/
static inline void ebpf_cgroup_set_target_data(ebpf_cgroup_target_t *out, netdata_ebpf_cgroup_shm_body_t *ptr)
{
out->hash = ptr->hash;
snprintfz(out->name, 255, "%s", ptr->name);
out->systemd = ptr->options & CGROUP_OPTIONS_SYSTEM_SLICE_SERVICE;
out->updated = 1;
}
/**
* Find or create
*
* Find the structure inside the link list or allocate and link when it is not present.
*
* @param ptr Input from shared memory.
*
* @return It returns a pointer for the structure associated with the input.
*/
static ebpf_cgroup_target_t * ebpf_cgroup_find_or_create(netdata_ebpf_cgroup_shm_body_t *ptr)
{
ebpf_cgroup_target_t *ect, *prev;
for (ect = ebpf_cgroup_pids, prev = ebpf_cgroup_pids; ect; prev = ect, ect = ect->next) {
if (ect->hash == ptr->hash && !strcmp(ect->name, ptr->name)) {
ect->updated = 1;
return ect;
}
}
ebpf_cgroup_target_t *new_ect = callocz(1, sizeof(ebpf_cgroup_target_t));
ebpf_cgroup_set_target_data(new_ect, ptr);
if (!ebpf_cgroup_pids) {
ebpf_cgroup_pids = new_ect;
} else {
prev->next = new_ect;
}
return new_ect;
}
/**
* Update pid link list
*
* Update PIDs list associated with specific cgroup.
*
* @param ect cgroup structure where pids will be stored
* @param path file with PIDs associated to cgroup.
*/
static void ebpf_update_pid_link_list(ebpf_cgroup_target_t *ect, char *path)
{
procfile *ff = procfile_open_no_log(path, " \t:", PROCFILE_FLAG_DEFAULT);
if (!ff)
return;
ff = procfile_readall(ff);
if (!ff)
return;
size_t lines = procfile_lines(ff), l;
for (l = 0; l < lines ;l++) {
int pid = (int)str2l(procfile_lineword(ff, l, 0));
if (pid) {
struct pid_on_target2 *pt, *prev;
for (pt = ect->pids, prev = ect->pids; pt; prev = pt, pt = pt->next) {
if (pt->pid == pid)
break;
}
if (!pt) {
struct pid_on_target2 *w = callocz(1, sizeof(struct pid_on_target2));
w->pid = pid;
if (!ect->pids)
ect->pids = w;
else
prev->next = w;
}
}
}
procfile_close(ff);
}
/**
* Set remove var
*
* Set variable remove. If this variable is not reset, the structure will be removed from link list.
*/
void ebpf_reset_updated_var()
{
ebpf_cgroup_target_t *ect;
for (ect = ebpf_cgroup_pids; ect; ect = ect->next) {
ect->updated = 0;
}
}
/**
* Parse cgroup shared memory
*
* This function is responsible to copy necessary data from shared memory to local memory.
*/
void ebpf_parse_cgroup_shm_data()
{
static int previous = 0;
if (!shm_ebpf_cgroup.header || shm_sem_ebpf_cgroup == SEM_FAILED)
return;
sem_wait(shm_sem_ebpf_cgroup);
int i, end = shm_ebpf_cgroup.header->cgroup_root_count;
if (end <= 0) {
sem_post(shm_sem_ebpf_cgroup);
return;
}
pthread_mutex_lock(&mutex_cgroup_shm);
ebpf_remove_cgroup_target_update_list();
ebpf_reset_updated_var();
for (i = 0; i < end; i++) {
netdata_ebpf_cgroup_shm_body_t *ptr = &shm_ebpf_cgroup.body[i];
if (ptr->enabled) {
ebpf_cgroup_target_t *ect = ebpf_cgroup_find_or_create(ptr);
ebpf_update_pid_link_list(ect, ptr->path);
}
}
send_cgroup_chart = previous != shm_ebpf_cgroup.header->cgroup_root_count;
previous = shm_ebpf_cgroup.header->cgroup_root_count;
sem_post(shm_sem_ebpf_cgroup);
pthread_mutex_unlock(&mutex_cgroup_shm);
#ifdef NETDATA_DEV_MODE
netdata_log_info("Updating cgroup %d (Previous: %d, Current: %d)",
send_cgroup_chart, previous, shm_ebpf_cgroup.header->cgroup_root_count);
#endif
sem_post(shm_sem_ebpf_cgroup);
}
// --------------------------------------------------------------------------------------------------------------------
// Create charts
/**
* Create charts on systemd submenu
*
* @param id the chart id
* @param title the value displayed on vertical axis.
* @param units the value displayed on vertical axis.
* @param family Submenu that the chart will be attached on dashboard.
* @param charttype chart type
* @param order the chart order
* @param algorithm the algorithm used by dimension
* @param context add context for chart
* @param module chart module name, this is the eBPF thread.
* @param update_every value to overwrite the update frequency set by the server.
*/
void ebpf_create_charts_on_systemd(char *id, char *title, char *units, char *family, char *charttype, int order,
char *algorithm, char *context, char *module, int update_every)
{
ebpf_cgroup_target_t *w;
ebpf_write_chart_cmd(NETDATA_SERVICE_FAMILY, id, "", title, units, family, charttype, context,
order, update_every, module);
for (w = ebpf_cgroup_pids; w; w = w->next) {
if (unlikely(w->systemd) && unlikely(w->updated))
fprintf(stdout, "DIMENSION %s '' %s 1 1\n", w->name, algorithm);
}
}
// --------------------------------------------------------------------------------------------------------------------
// Cgroup main thread
/**
* CGROUP exit
*
* Clean up the main thread.
*
* @param ptr thread data.
*/
static void ebpf_cgroup_exit(void *ptr)
{
UNUSED(ptr);
}
/**
* Cgroup integratin
*
* Thread responsible to call functions responsible to sync data between plugins.
*
* @param ptr It is a NULL value for this thread.
*
* @return It always returns NULL.
*/
void *ebpf_cgroup_integration(void *ptr)
{
netdata_thread_cleanup_push(ebpf_cgroup_exit, ptr);
usec_t step = USEC_PER_SEC;
int counter = NETDATA_EBPF_CGROUP_UPDATE - 1;
heartbeat_t hb;
heartbeat_init(&hb);
//Plugin will be killed when it receives a signal
while (!ebpf_plugin_exit) {
(void)heartbeat_next(&hb, step);
// We are using a small heartbeat time to wake up thread,
// but we should not update so frequently the shared memory data
if (++counter >= NETDATA_EBPF_CGROUP_UPDATE) {
counter = 0;
if (!shm_ebpf_cgroup.header)
ebpf_map_cgroup_shared_memory();
else
ebpf_parse_cgroup_shm_data();
}
}
netdata_thread_cleanup_pop(1);
return NULL;
}
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