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tor_multipath_voip/src/measure.c

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6.3 KiB
C
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#include "measure.h"
char* default_tag = "undefined";
void measure_params_init(struct measure_params* mp) {
mp->interval = 1000;
mp->max_measure = 3;
mp->tag = default_tag;
mp->payload_size = sizeof(struct measure_packet);
}
void measure_params_setpl (struct measure_params* mp, size_t plsize) {
if (plsize > sizeof(struct measure_packet)) {
mp->payload_size = plsize;
}
}
void measure_state_init(struct measure_params* mp, struct measure_state* ms) {
ms->mp_nin = 0;
ms->fd = 0;
uuid_generate (ms->uuid);
if (ms->log == NULL) {
if ((ms->log = malloc(sizeof(uint64_t) * mp->max_measure)) == NULL) {
perror("log malloc failed");
exit(EXIT_FAILURE);
}
}
memset(ms->log, 0, sizeof(uint64_t) * mp->max_measure);
if (ms->mp_out == NULL) {
if ((ms->mp_out = malloc(sizeof(char) * mp->payload_size)) == NULL) {
perror("payload malloc failed");
exit(EXIT_FAILURE);
}
}
memset(ms->mp_out, 0, mp->payload_size);
if (ms->mp_in == NULL) {
if ((ms->mp_in = malloc(sizeof(char) * mp->payload_size)) == NULL) {
perror("payload malloc failed");
exit(EXIT_FAILURE);
}
}
memset(ms->mp_in, 0, mp->payload_size);
char *my_msg = "Tu n'es pas tout a fait la misere,\nCar les levres les plus pauvres te denoncent\nPar un sourire.";
size_t msg_len = strlen(my_msg);
size_t cursor_msg = 0;
char* pl = (char*) ms->mp_out;
for (size_t i = sizeof(struct measure_packet); i < mp->payload_size; i++) {
pl[i] = my_msg[cursor_msg];
cursor_msg = (cursor_msg + 1) % msg_len;
}
}
void measure_parse(struct measure_params* mp, struct measure_state* ms, uint8_t verbose) {
struct timespec curr;
uint64_t micro_sec;
if (ms->mp_nin != mp->payload_size) {
fprintf(stderr, "read size: %ld, expected: %ld\n", ms->mp_nin, mp->payload_size);
int i;
fprintf(stderr, "received buffer:\n");
for (i = 0; i < mp->payload_size; i++) {
if (i > 0) fprintf(stderr, ":");
fprintf(stderr, "%02x", (unsigned char) ((char*)ms->mp_in)[i]);
}
fprintf(stderr, "\n");
fprintf(stderr, "local buffer (reference):\n");
for (i = 0; i < mp->payload_size; i++) {
if (i > 0) fprintf(stderr, ":");
fprintf(stderr, "%02X", (unsigned char) ((char*)ms->mp_out)[i]);
}
fprintf(stderr, "\n");
perror("read error, payload has wrong size");
}
if (clock_gettime(CLOCK_MONOTONIC, &curr) == -1){
perror("clock_gettime error");
exit(EXIT_FAILURE);
}
micro_sec = elapsed_micros (&ms->mp_in->emit_time, &curr);
if (ms->mp_in->counter <= mp->max_measure) {
ms->log[ms->mp_in->counter-1] = micro_sec;
} else {
verbose = 1;
fprintf(stderr, "measure will be ignored: counter=%lu, max_measure=%lu\n", ms->mp_in->counter, mp->max_measure);
}
if (verbose) {
uint8_t is_slow = ms->mp_in->flag >> 7;
uint8_t is_vanilla = (ms->mp_in->flag & 0x40) >> 6;
uint8_t link_id = ms->mp_in->flag & 0x3f;
printf(
"[%s] src=%d, id=%lu, owd=%luµs, flag=%d, link=%d, vanilla=%d\n",
current_human_datetime(),
ms->fd,
ms->mp_in->counter,
micro_sec,
is_slow,
link_id,
is_vanilla);
}
ms->mp_nin = 0;
}
struct measure_packet* measure_generate(struct measure_params* mp, struct measure_state* ms) {
ms->mp_out->counter++;
ms->mp_out->flag = 0;
if (clock_gettime(CLOCK_MONOTONIC, &ms->mp_out->emit_time) == -1) {
perror("clock_gettime error");
exit(EXIT_FAILURE);
}
return ms->mp_out;
}
void measure_next_tick(struct measure_params *mp, struct measure_state* ms, struct timespec *next) {
//struct measure_packet *head = (struct measure_packet*) ms->payload_rcv;
struct timespec now = {0}, *sent_at = &ms->mp_in->emit_time;
if (clock_gettime(CLOCK_MONOTONIC, &now) == -1) {
perror("clock_gettime error");
exit(EXIT_FAILURE);
}
memcpy(next, sent_at, sizeof(struct timespec));
while(!timespec_gt (next, &now)) {
next->tv_nsec += mp->interval * 1000000L;
if (next->tv_nsec > ONE_SEC) {
next->tv_sec += next->tv_nsec / ONE_SEC;
next->tv_nsec = next->tv_nsec % ONE_SEC;
}
ms->mp_out->counter++;
}
ms->mp_out->counter--;
printf("interval: %ld\n", mp->interval);
printf("sent_at: sec=%ld nsec=%ld \n", (uint64_t) sent_at->tv_sec, (uint64_t) sent_at->tv_nsec);
printf("now: sec=%ld nsec=%ld \n", (uint64_t) now.tv_sec, (uint64_t) now.tv_nsec);
printf("next: sec=%ld nsec=%ld \n", (uint64_t) next->tv_sec, (uint64_t) next->tv_nsec);
}
void measure_state_free (struct measure_state* ms) {
free(ms->mp_in);
free(ms->mp_out);
free(ms->log);
uuid_clear(ms->uuid);
}
int cmpuint64t(const void* u1, const void* u2) {
const uint64_t *i1 = u1;
const uint64_t *i2 = u2;
return *i1 < *i2 ? -1 : 1;
}
void measure_summary(struct measure_params* mp, struct measure_state* ms) {
char uuidstr[128];
uuid_unparse (ms->uuid, uuidstr);
fprintf(stdout, "tag,uuid,metric,value\n");
uint64_t* real_log = ms->log;
uint64_t real_log_size = mp->max_measure;
// cut beginning
while (real_log[0] == 0 && real_log_size > 0) {
real_log = &(real_log[1]);
real_log_size--;
}
printf("[summary] cutted %lu values at beginning\n", mp->max_measure - real_log_size);
// cut end
while (real_log[real_log_size-1] == 0 && real_log_size > 0) {
real_log_size--;
}
printf("[summary] cutted %lu values in total\n", mp->max_measure - real_log_size);
uint64_t min = real_log[0];
fprintf(stdout, "%s,%s,min,%lu\n", mp->tag, uuidstr, min);
uint64_t max = real_log[real_log_size-1];
fprintf(stdout, "%s,%s,max,%lu\n", mp->tag, uuidstr, max);
uint64_t med = real_log[(int)(0.50 * (real_log_size - 1))];
fprintf(stdout, "%s,%s,med,%lu\n", mp->tag, uuidstr, med);
uint64_t q25 = real_log[(int)(0.25 * (real_log_size - 1))];
fprintf(stdout, "%s,%s,q25,%lu\n", mp->tag, uuidstr, q25);
uint64_t q75 = real_log[(int)(0.75 * (real_log_size - 1))];
fprintf(stdout, "%s,%s,q75,%lu\n", mp->tag, uuidstr, q75);
uint64_t q99 = real_log[(int)(0.99 * (real_log_size - 1))];
fprintf(stdout, "%s,%s,q99,%lu\n", mp->tag, uuidstr, q99);
qsort (real_log, real_log_size, sizeof(uint64_t), cmpuint64t);
double avg = 0;
for (int i = 0; i < real_log_size-1; i++) {
avg += ((double) real_log[i]) / ((double) (real_log_size - 1));
}
fprintf(stdout, "%s,%s,avg,%f\n", mp->tag, uuidstr, avg);
}
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