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// SPDX-License-Identifier: GPL-3.0-or-later
#include "ebpf.h"
#include "ebpf_softirq.h"
struct config softirq_config = { .first_section = NULL,
.last_section = NULL,
.mutex = NETDATA_MUTEX_INITIALIZER,
.index = { .avl_tree = { .root = NULL, .compar = appconfig_section_compare },
.rwlock = AVL_LOCK_INITIALIZER } };
#define SOFTIRQ_MAP_LATENCY 0
static ebpf_local_maps_t softirq_maps[] = {
{
.name = "tbl_softirq",
.internal_input = NETDATA_SOFTIRQ_MAX_IRQS,
.user_input = 0,
.type = NETDATA_EBPF_MAP_STATIC,
.map_fd = ND_EBPF_MAP_FD_NOT_INITIALIZED
},
/* end */
{
.name = NULL,
.internal_input = 0,
.user_input = 0,
.type = NETDATA_EBPF_MAP_CONTROLLER,
.map_fd = ND_EBPF_MAP_FD_NOT_INITIALIZED
}
};
#define SOFTIRQ_TP_CLASS_IRQ "irq"
static ebpf_tracepoint_t softirq_tracepoints[] = {
{.enabled = false, .class = SOFTIRQ_TP_CLASS_IRQ, .event = "softirq_entry"},
{.enabled = false, .class = SOFTIRQ_TP_CLASS_IRQ, .event = "softirq_exit"},
/* end */
{.enabled = false, .class = NULL, .event = NULL}
};
// these must be in the order defined by the kernel:
// https://elixir.bootlin.com/linux/v5.12.19/source/include/trace/events/irq.h#L13
static softirq_val_t softirq_vals[] = {
{.name = "HI", .latency = 0},
{.name = "TIMER", .latency = 0},
{.name = "NET_TX", .latency = 0},
{.name = "NET_RX", .latency = 0},
{.name = "BLOCK", .latency = 0},
{.name = "IRQ_POLL", .latency = 0},
{.name = "TASKLET", .latency = 0},
{.name = "SCHED", .latency = 0},
{.name = "HRTIMER", .latency = 0},
{.name = "RCU", .latency = 0},
};
// tmp store for soft IRQ values we get from a per-CPU eBPF map.
static softirq_ebpf_val_t *softirq_ebpf_vals = NULL;
/**
* Cachestat Free
*
* Cleanup variables after child threads to stop
*
* @param ptr thread data.
*/
static void ebpf_softirq_free(ebpf_module_t *em)
{
pthread_mutex_lock(&ebpf_exit_cleanup);
em->enabled = NETDATA_THREAD_EBPF_STOPPING;
pthread_mutex_unlock(&ebpf_exit_cleanup);
for (int i = 0; softirq_tracepoints[i].class != NULL; i++) {
ebpf_disable_tracepoint(&softirq_tracepoints[i]);
}
freez(softirq_ebpf_vals);
pthread_mutex_lock(&ebpf_exit_cleanup);
em->enabled = NETDATA_THREAD_EBPF_STOPPED;
pthread_mutex_unlock(&ebpf_exit_cleanup);
}
/**
* Cleanup
*
* Clean up allocated memory.
*
* @param ptr thread data.
*/
static void softirq_cleanup(void *ptr)
{
ebpf_module_t *em = (ebpf_module_t *)ptr;
ebpf_softirq_free(em);
}
/*****************************************************************
* MAIN LOOP
*****************************************************************/
static void softirq_read_latency_map()
{
int fd = softirq_maps[SOFTIRQ_MAP_LATENCY].map_fd;
int i;
for (i = 0; i < NETDATA_SOFTIRQ_MAX_IRQS; i++) {
int test = bpf_map_lookup_elem(fd, &i, softirq_ebpf_vals);
if (unlikely(test < 0)) {
continue;
}
uint64_t total_latency = 0;
int cpu_i;
int end = ebpf_nprocs;
for (cpu_i = 0; cpu_i < end; cpu_i++) {
total_latency += softirq_ebpf_vals[cpu_i].latency/1000;
}
softirq_vals[i].latency = total_latency;
}
}
static void softirq_create_charts(int update_every)
{
ebpf_create_chart(
NETDATA_EBPF_SYSTEM_GROUP,
"softirq_latency",
"Software IRQ latency",
EBPF_COMMON_DIMENSION_MILLISECONDS,
"softirqs",
NULL,
NETDATA_EBPF_CHART_TYPE_STACKED,
NETDATA_CHART_PRIO_SYSTEM_SOFTIRQS+1,
NULL, NULL, 0, update_every,
NETDATA_EBPF_MODULE_NAME_SOFTIRQ
);
fflush(stdout);
}
static void softirq_create_dims()
{
uint32_t i;
for (i = 0; i < NETDATA_SOFTIRQ_MAX_IRQS; i++) {
ebpf_write_global_dimension(
softirq_vals[i].name, softirq_vals[i].name,
ebpf_algorithms[NETDATA_EBPF_INCREMENTAL_IDX]
);
}
}
static inline void softirq_write_dims()
{
uint32_t i;
for (i = 0; i < NETDATA_SOFTIRQ_MAX_IRQS; i++) {
write_chart_dimension(softirq_vals[i].name, softirq_vals[i].latency);
}
}
/**
* Main loop for this collector.
*/
static void softirq_collector(ebpf_module_t *em)
{
softirq_ebpf_vals = callocz(ebpf_nprocs, sizeof(softirq_ebpf_val_t));
// create chart and static dims.
pthread_mutex_lock(&lock);
softirq_create_charts(em->update_every);
softirq_create_dims();
ebpf_update_stats(&plugin_statistics, em);
ebpf_update_kernel_memory_with_vector(&plugin_statistics, em->maps);
pthread_mutex_unlock(&lock);
// loop and read from published data until ebpf plugin is closed.
heartbeat_t hb;
heartbeat_init(&hb);
int update_every = em->update_every;
int counter = update_every - 1;
//This will be cancelled by its parent
while (!ebpf_exit_plugin) {
(void)heartbeat_next(&hb, USEC_PER_SEC);
if (ebpf_exit_plugin || ++counter != update_every)
continue;
counter = 0;
softirq_read_latency_map();
pthread_mutex_lock(&lock);
// write dims now for all hitherto discovered IRQs.
write_begin_chart(NETDATA_EBPF_SYSTEM_GROUP, "softirq_latency");
softirq_write_dims();
write_end_chart();
pthread_mutex_unlock(&lock);
}
}
/*****************************************************************
* EBPF SOFTIRQ THREAD
*****************************************************************/
/**
* Soft IRQ latency thread.
*
* @param ptr a `ebpf_module_t *`.
* @return always NULL.
*/
void *ebpf_softirq_thread(void *ptr)
{
netdata_thread_cleanup_push(softirq_cleanup, ptr);
ebpf_module_t *em = (ebpf_module_t *)ptr;
em->maps = softirq_maps;
if (ebpf_enable_tracepoints(softirq_tracepoints) == 0) {
goto endsoftirq;
}
em->probe_links = ebpf_load_program(ebpf_plugin_dir, em, running_on_kernel, isrh, &em->objects);
if (!em->probe_links) {
goto endsoftirq;
}
softirq_collector(em);
endsoftirq:
ebpf_update_disabled_plugin_stats(em);
netdata_thread_cleanup_pop(1);
return NULL;
}
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