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trx-ecpri
Commit 431bebe4 authored by Joanne Hugé's avatar Joanne Hugé
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Use parameters from rf_driver config instead of macros

parent bdfdf896
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Showing with 181 additions and 189 deletions
trx_ecpri_dpdk.c
View file @ 431bebe4
......@@ -48,40 +48,19 @@
#include "private/trx_driver.h"
#include "utils.c"
#define EFREQ 10
//#define DEBUG // Enables / deactivates log_debug
#define TRACE 0
//#define TRACE_TX
#define TRACE_RX
//#define MONITOR
//#define MONITOR_EXIT
#define RECV_PPS_THRESHOLD (EFREQ * 100 * 9 / 10)
#define RECV_STOP_THRESHOLD 2
#define PPS_UPDATE_PERIOD INT64_C(1000000000)
//#define START_SENDING
//#define START_RECEIVING
#define PPS_UPDATE_PERIOD INT64_C(1000000000)
#define STAT_FRAME_INTERVAL INT64_C(EFREQ * 500)
//#define DST_ADDR_SYNTAX // Depends on DPDK version
#define RX_N_CHANNEL 1
#define TX_N_CHANNEL 4
#define FRAME_FREQ INT64_C(3840000) // Basic frame frequency
#define TX_PACKET_SIZE 262
#define RX_MAX_PACKET_SIZE 262
#define TX_ECPRI_PACKET_SIZE (TX_PACKET_SIZE - 14)
#define N_SAMPLES (32)
#define TRX_MAX_GROUP 1500
//#define TRX_BUF_MAX_SIZE 500000
//#define TXRX_BUF_MAX_SIZE 500000
#define TRX_BUF_MAX_SIZE 4000
#define TXRX_BUF_MAX_SIZE 4000
#define STATISTIC_REFRESH_RATE INT64_C(500 * 1000 * 1000)
#define STAT_INT_LEN "9"
typedef struct {
......@@ -102,6 +81,19 @@ typedef struct {
int statistic_affinity;
int ecpri_period;
int flow_id;
int frame_frequency;
int trx_buf_size;
int txrx_buf_size;
int trace_rx;
int trace_tx;
int trace_offset;
int monitor_pps;
int monitor_trigger_duration;
int start_sending;
int start_receiving;
int rx_n_channel;
int tx_n_channel;
int statistics_refresh_rate_ns;
int sample_rate;
} TRXEcpriState;
......@@ -137,9 +129,9 @@ typedef struct {
// Buffers
static ring_buffer_t rx_rbuf; // Received packets
static ring_buffer_t trxr_rbuf[RX_N_CHANNEL]; // Decoded IQ samples
static ring_buffer_t trxr_rbuf[4]; // Decoded IQ samples
static ring_buffer_t tx_rbuf; // Packets to send
static ring_buffer_t trxw_rbuf[TX_N_CHANNEL]; // Uncompressed IQ samples
static ring_buffer_t trxw_rbuf[4]; // Uncompressed IQ samples
static ring_buffer_t trxw_group_rbuf; // Group of IQ samples
// Counters
......@@ -161,12 +153,12 @@ static int first_trx_write = 1;
static uint8_t pkt_frame_full[1024];
#endif
#ifdef TRACE
static volatile int rx_trace_ready = 0;
static volatile int tx_trace_ready = 1;
static int64_t encode_counter_prev = 0;
static int64_t decode_counter_prev = 0;
#endif
static int recv_pps_threshold;
// Network
static volatile int seq_id;
......@@ -383,22 +375,18 @@ static void update_counter_pps(volatile counter_stat_t * c) {
static void update_counter(volatile counter_stat_t * c, int64_t v) {
c->counter += v;
}
#ifdef TRACE
static void trace_handler(struct timespec initial, TRXEcpriState * s) {
struct timespec next;
int ready = 1;
#ifdef TRACE_TX
ready &= tx_trace_ready;
#endif
#ifdef TRACE_RX
ready &= rx_trace_ready;
#endif
if(ready) {
int64_t d;
FILE * f;
char n[256];
uint8_t ones[14];
int start;
uint8_t ones[14];
for(int i = 0; i < 14; i++)
ones[i] = 0xff;
......@@ -406,15 +394,13 @@ static void trace_handler(struct timespec initial, TRXEcpriState * s) {
d = calcdiff_ns(next, initial);
log_info("TRACE", "Packets sent: %" PRIi64, sent_counter.counter);
log_info("TRACE", "Duration: %" PRIi64, d);
log_info("TRACE", "FRAME_FREQ: %" PRIi64, FRAME_FREQ);
usleep(1000 * 200);
#ifdef TRACE_TX
memset(n, '\0', 256);
sprintf(n, "%s/tx.trace", s->log_directory);
f = fopen(n, "wb+");
start = (TRACE + encode_counter_prev) % tx_rbuf.buf_len;
start = (s->trace_offset + encode_counter_prev) % tx_rbuf.buf_len;
log_info("TRACE", "Writing %d frames to tx.trace", (tx_rbuf.write_index + tx_rbuf.buf_len - start) % tx_rbuf.buf_len);
for(int i = start; i != tx_rbuf.write_index; i = (i + 1) % tx_rbuf.buf_len) {
fwrite(ones, 14, 1, f);
......@@ -425,20 +411,18 @@ static void trace_handler(struct timespec initial, TRXEcpriState * s) {
memset(n, '\0', 256);
sprintf(n, "%s/trxw.trace", s->log_directory);
f = fopen(n, "wb+");
start = (TRACE) % trxw_rbuf[0].buf_len;
start = (s->trace_offset) % trxw_rbuf[0].buf_len;
log_info("TRACE", "Writing %d frames to trxw.trace", (trxw_rbuf[0].write_index + trxw_rbuf[0].buf_len - start) % trxw_rbuf[0].buf_len);
for(int i = start; i != trxw_rbuf[0].write_index; i = (i + 1) % trxw_rbuf[0].buf_len) {
for(int j = 0; j < TX_N_CHANNEL; j++)
for(int j = 0; j < s->tx_n_channel; j++)
fwrite((uint8_t *) (((Complex *) trxw_rbuf[j].buffer) + i * trxw_rbuf[0].len), trxw_rbuf[0].len * sizeof(Complex), 1, f);
}
fclose(f);
#endif
#ifdef TRACE_RX
memset(n, '\0', 256);
sprintf(n, "%s/rx.trace", s->log_directory);
f = fopen(n, "wb+");
start = TRACE % rx_rbuf.buf_len;
start = s->trace_offset % rx_rbuf.buf_len;
log_info("TRACE", "Writing %d frames to rx.trace", (rx_rbuf.write_index + rx_rbuf.buf_len - start) % rx_rbuf.buf_len);
for(int i = start; i != rx_rbuf.write_index; i = (i + 1) % rx_rbuf.buf_len) {
fwrite(((uint8_t*) rx_rbuf.buffer) + i * rx_rbuf.len, rx_rbuf.len, 1, f);
......@@ -448,18 +432,16 @@ static void trace_handler(struct timespec initial, TRXEcpriState * s) {
memset(n, '\0', 256);
sprintf(n, "%s/trxr.trace", s->log_directory);
f = fopen(n, "wb+");
start = (TRACE + decode_counter_prev) % trxr_rbuf[0].buf_len;
start = (s->trace_offset + decode_counter_prev) % trxr_rbuf[0].buf_len;
log_info("TRACE", "Writing %d frames to trxr.trace", (trxr_rbuf[0].write_index + trxr_rbuf[0].buf_len - start) % trxr_rbuf[0].buf_len);
for(int i = start; i != trxr_rbuf[0].write_index; i = (i + 1) % trxr_rbuf[0].buf_len) {
for(int j = 0; j < RX_N_CHANNEL; j++)
for(int j = 0; j < s->rx_n_channel; j++)
fwrite((uint8_t *) (((Complex *) trxr_rbuf[j].buffer) + i * trxr_rbuf[0].len), trxr_rbuf[0].len * sizeof(Complex), 1, f);
}
fclose(f);
#endif
log_exit("", "Finished tracing");
}
}
#endif
static void *recv_thread(void *p) {
......@@ -502,20 +484,13 @@ static void *recv_thread(void *p) {
// Limit packets sent
if(recv_counter.counter >= target_counter) {
clock_gettime(CLOCK_TAI, &current);
if(i && calcdiff_ns(current, previous) < (1000 * 1000 * 10)) {
//for(int i = 0; i < 10000; i++)
// asm("NOP");
//usleep(10);
}
else {
target_counter += EFREQ;
if(!i || calcdiff_ns(current, previous) >= (1000 * 1000 * 10)) {
target_counter += s->frame_frequency / 100;
previous = current;
}
}
if(recv_counter.counter < target_counter) {
nb_rx = 1024;
//for(int i = 0; i < 700000; i++)
// asm("NOP");
usleep(200);
}
else
......@@ -542,17 +517,15 @@ static void *recv_thread(void *p) {
nr = nb_rx;
while((nc = rbuf_contiguous_copy(NULL, &rx_rbuf, nr))) {
#ifdef TRACE
#ifdef TRACE_RX
if((recv_counter.counter + nc) >= (rx_rbuf.buf_len + TRACE)) {
if(s->trace_rx) {
if((recv_counter.counter + nc) >= (rx_rbuf.buf_len + s->trace_offset)) {
rx_trace_ready = 1;
log_info("RECV_THREAD", "RX Trace ready");
pthread_exit(EXIT_SUCCESS);
} else if (rx_trace_ready) {
pthread_exit(EXIT_SUCCESS);
}
#endif
#endif
}
buf = ((uint8_t *) rx_rbuf.buffer) + (rx_rbuf.write_index * rx_rbuf.len);
for(int i = 0; i < nc; i++) {
......@@ -637,11 +610,9 @@ static void *encode_thread(void *p) {
cpu_set_t mask;
TRXEcpriState * s = (TRXEcpriState *) p;
#ifdef START_SENDING
int64_t target_counter = 0;
struct timespec next;
int reset_encode_counter = 1;
#endif
// Set thread CPU affinity
CPU_ZERO(&mask);
......@@ -655,19 +626,19 @@ static void *encode_thread(void *p) {
n = rbuf_write_amount(&tx_rbuf);
// Send empty frames until we receive something
#ifdef START_SENDING
if(s->start_sending) {
if(!sync_complete) {
if(i == 0)
clock_gettime(CLOCK_TAI, &next);
// Limit packets sent
if(encode_counter.counter > target_counter) {
int k = (encode_counter.counter - target_counter + EFREQ - 1) / EFREQ;
int k = (encode_counter.counter - target_counter + (s->frame_frequency / 100) - 1) / (s->frame_frequency / 100);
add_ns(&next, k * 1000 * 1000 * 10); // 10ms to send 38400 packets
clock_nanosleep(CLOCK_TAI, TIMER_ABSTIME, &next, NULL);
target_counter += k * EFREQ;
target_counter += k * s->frame_frequency / 100;
}
n = (n > TX_SYNC_BURST_SIZE) ? n : TX_SYNC_BURST_SIZE;
n = (n < EFREQ) ? n : EFREQ;
n = (n < (s->frame_frequency / 100)) ? n : (s->frame_frequency / 100);
for(int j = 0; j < n; j++) {
*((uint16_t *) (RBUF_WRITE0(tx_rbuf, uint8_t) + 6)) = htons(seq_id++);
rbuf_update_write_index(&tx_rbuf);
......@@ -675,12 +646,13 @@ static void *encode_thread(void *p) {
update_counter(&encode_counter, n);
}
else if (reset_encode_counter) {
if(s->trace_tx)
encode_counter_prev = encode_counter.counter;
encode_counter.counter = 0;
reset_encode_counter = 0;
seq_id = 0;
}
#endif
}
// If we have frames to encode (is there space in TX buffer)
// If there are frames from trx_write callback to encode
......@@ -695,17 +667,15 @@ static void *encode_thread(void *p) {
}
nb_frames = g->count > n ? n : g->count;
g->count -= nb_frames;
#ifdef TRACE
#ifdef TRACE_TX
if(sync_complete && (encode_counter.counter + nb_frames) >= (tx_rbuf.buf_len + TRACE)) {
if(s->trace_tx) {
if(sync_complete && (encode_counter.counter + nb_frames) >= (tx_rbuf.buf_len + s->trace_offset)) {
tx_trace_ready = 1;
log_info("ENCODE_THREAD", "TX Trace ready");
pthread_exit(EXIT_SUCCESS);
} else if (tx_trace_ready) {
pthread_exit(EXIT_SUCCESS);
}
#endif
#endif
}
if(g->zeroes) {
for(int j = 0; j < nb_frames; j++) {
memset(RBUF_WRITE0(tx_rbuf, uint8_t) + 8, 0x00, 240);
......@@ -720,14 +690,14 @@ static void *encode_thread(void *p) {
while((nc = rbuf_contiguous_copy(&trxw_rbuf[0], &tx_rbuf, nf))) {
Complex * iq_samples[4];
uint8_t * buf = RBUF_WRITE0(tx_rbuf, uint8_t) + 8;
for(int j = 0; j < TX_N_CHANNEL; j++)
for(int j = 0; j < s->tx_n_channel; j++)
iq_samples[j] = ((Complex *) trxw_rbuf[j].buffer) + (trxw_rbuf[0].read_index * trxw_rbuf[0].len);
for(int i = 0; i < nc; i++) {
for(int i = 0; i < TX_N_CHANNEL ; i++)
for(int i = 0; i < s->tx_n_channel ; i++)
encode_s64_b60_2(buf + i * 60, (float *) iq_samples[i]);
*((uint16_t *)(buf - 2)) = htons(seq_id++);
for(int j = 0; j < TX_N_CHANNEL; j++)
for(int j = 0; j < s->tx_n_channel; j++)
iq_samples[j] += trxw_rbuf[0].len;
buf += tx_rbuf.len;
}
......@@ -752,11 +722,9 @@ static void *decode_thread(void *p) {
cpu_set_t mask;
TRXEcpriState * s = (TRXEcpriState *) p;
#ifdef START_RECEIVING
struct timespec next;
int64_t target_counter = 0;
int reset_decode_counter = 1;
#endif
log_info("DECODE_THREAD", "Thread init");
// Set thread CPU affinity
......@@ -767,29 +735,30 @@ static void *decode_thread(void *p) {
for(int64_t i = 0;; i++) {
int n, nc;
#ifdef START_RECEIVING
if(s->start_receiving) {
if(!received_pkts) {
if(i == 0)
clock_gettime(CLOCK_TAI, &next);
// Limit packets sent
if(decode_counter.counter > target_counter) {
int k = (decode_counter.counter - target_counter + EFREQ - 1) / EFREQ;
int k = (decode_counter.counter - target_counter + (s->frame_frequency / 100) - 1) / (s->frame_frequency / 100);
add_ns(&next, k * 1000 * 1000 * 10); // 10ms to send 38400 packets
clock_nanosleep(CLOCK_TAI, TIMER_ABSTIME, &next, NULL);
target_counter += k * EFREQ;
target_counter += k * (s->frame_frequency / 100);
}
n = EFREQ;
n = (s->frame_frequency / 100);
for(int j = 0; j < n; j++)
rbuf_update_write_index(&trxr_rbuf[0]);
update_counter(&decode_counter, n);
continue;
}
else if (reset_decode_counter) {
if(s->trace_rx)
decode_counter_prev = decode_counter.counter;
decode_counter.counter = 0;
reset_decode_counter = 0;
}
#endif
}
while(!(n = rbuf_read_amount(&rx_rbuf))) {};
while(rbuf_write_amount(&trxr_rbuf[0]) < n) {};
......@@ -798,24 +767,22 @@ static void *decode_thread(void *p) {
uint8_t * buf = ((uint8_t *) rx_rbuf.buffer) + (rx_rbuf.read_index * rx_rbuf.len) + 22;
#ifdef TRACE
#ifdef TRACE_RX
if(received_pkts && ((decode_counter.counter + nc) >= (trxr_rbuf[0].buf_len + TRACE))) {
if(s->trace_rx) {
if(received_pkts && ((decode_counter.counter + nc) >= (trxr_rbuf[0].buf_len + s->trace_offset))) {
rx_trace_ready = 1;
log_info("DECODE_THREAD", "RX Trace ready");
pthread_exit(EXIT_SUCCESS);
} else if (rx_trace_ready) {
pthread_exit(EXIT_SUCCESS);
}
#endif
#endif
}
Complex * iq_samples[4];
for(int i = 0; i < RX_N_CHANNEL; i++)
for(int i = 0; i < s->rx_n_channel; i++)
iq_samples[i] = (((Complex *) trxr_rbuf[i].buffer) + (trxr_rbuf[0].write_index * trxr_rbuf[0].len));
for(int i = 0; i < nc; i++) {
for(int j = 0; j < RX_N_CHANNEL ; j++) {
for(int j = 0; j < s->rx_n_channel ; j++) {
decode_s64_b60_2((float *) (iq_samples[j] + i * 32), buf + j * 60 + i * rx_rbuf.len);
}
}
......@@ -831,9 +798,7 @@ static void *decode_thread(void *p) {
}
static void *statistic_thread(void *p) {
struct timespec next, initial;
#ifdef MONITOR
int64_t recv_stop = 0;
#endif
cpu_set_t mask;
TRXEcpriState * s = (TRXEcpriState *) p;
FILE * stats_file_desc;
......@@ -857,10 +822,9 @@ static void *statistic_thread(void *p) {
clock_gettime(CLOCK_TAI, &initial);
next = initial;
for(int64_t i = 0;; i++) {
add_ns(&next, STATISTIC_REFRESH_RATE);
#ifdef TRACE
add_ns(&next, s->statistics_refresh_rate_ns);
if(s->trace_rx)
trace_handler(initial, s);
#endif
print_stats(stats_file_desc, (i % 50) == 0);
#ifdef DEBUG
fprintf(stats_file_desc,
......@@ -885,19 +849,18 @@ static void *statistic_thread(void *p) {
update_counter_pps(&write_counter);
update_counter_pps(&encode_counter);
update_counter_pps(&sent_counter);
#ifdef MONITOR
if(recv_counter.pps > RECV_PPS_THRESHOLD) {
if(s->monitor_pps) {
if(recv_counter.pps > recv_pps_threshold) {
recv_pps_threshold_hit = 1;
}
if(recv_pps_threshold_hit && recv_counter.pps < RECV_PPS_THRESHOLD) {
if(recv_pps_threshold_hit && recv_counter.pps < recv_pps_threshold) {
struct timespec _ts;
int64_t ts;
clock_gettime(CLOCK_MONOTONIC, &_ts);
ts = ts_to_int(_ts);
if((recv_stop && ((ts - recv_stop) > RECV_STOP_THRESHOLD * INT64_C(1000000000)))) {
#ifdef MONITOR_EXIT
if((recv_stop && ((ts - recv_stop) > (s->monitor_trigger_duration) * INT64_C(1000000000)))) {
if(s->monitor_pps == 1)
log_exit("MONITOR", "Stopped recieving packets, restarting...");
#endif
log_info("MONITOR", "Stopped recieving packets, sending again...");
sync_complete = 0;
recv_stop = 0;
......@@ -905,7 +868,7 @@ static void *statistic_thread(void *p) {
if(!recv_stop)
recv_stop = ts;
}
#endif
}
clock_nanosleep(CLOCK_TAI, TIMER_ABSTIME, &next, NULL);
}
......@@ -1065,17 +1028,17 @@ int startdpdk(TRXEcpriState * s) {
init_counter(&encode_counter);
init_counter(&sent_counter);
RBUF_INIT(rx_rbuf, "RX ring buffer", TXRX_BUF_MAX_SIZE, RX_MAX_PACKET_SIZE, uint8_t);
RBUF_INIT(tx_rbuf, "TX ring buffer", TXRX_BUF_MAX_SIZE, TX_ECPRI_PACKET_SIZE, uint8_t);
for(int i = 0; i < TX_N_CHANNEL; i++) {
char s[256];
sprintf(s, "TRXWrite Ring Buffer %d", i);
RBUF_INIT(trxw_rbuf[i], s, TRX_BUF_MAX_SIZE, N_SAMPLES, Complex);
RBUF_INIT(rx_rbuf, "RX ring buffer", s->txrx_buf_size, RX_MAX_PACKET_SIZE, uint8_t);
RBUF_INIT(tx_rbuf, "TX ring buffer", s->txrx_buf_size, TX_ECPRI_PACKET_SIZE, uint8_t);
for(int i = 0; i < s->tx_n_channel; i++) {
char name[256];
sprintf(name, "TRXWrite Ring Buffer %d", i);
RBUF_INIT(trxw_rbuf[i], name, s->trx_buf_size, N_SAMPLES, Complex);
}
for(int i = 0; i < RX_N_CHANNEL; i++) {
char s[256];
sprintf(s, "TRXRead Ring Buffer %d", i);
RBUF_INIT(trxr_rbuf[i], s, TRX_BUF_MAX_SIZE, N_SAMPLES, Complex);
for(int i = 0; i < s->rx_n_channel; i++) {
char name[256];
sprintf(name, "TRXRead Ring Buffer %d", i);
RBUF_INIT(trxr_rbuf[i], name, s->trx_buf_size, N_SAMPLES, Complex);
}
RBUF_INIT(trxw_group_rbuf, "TRXGroupWrite ring buffer", TRX_MAX_GROUP, 1, sample_group_t);
......@@ -1128,9 +1091,9 @@ static int64_t prev_count = 0;
static void trx_ecpri_write(TRXState *s1, trx_timestamp_t timestamp, const void **__samples, int count, int tx_port_index, TRXWriteMetadata *md)
{
(void) s1;
int write_count; int64_t ts; sample_group_t * g; int nc; int nk = 0;
float ** _samples = (float **) __samples;
TRXEcpriState *s = s1->opaque;
write_count = count / M;
ts = timestamp / M;
......@@ -1147,17 +1110,15 @@ static void trx_ecpri_write(TRXState *s1, trx_timestamp_t timestamp, const void
return;
}
#ifdef TRACE
#ifdef TRACE_TX
if((write_counter.counter + write_count) >= (trxw_rbuf[0].buf_len + TRACE)) {
if(s->trace_tx) {
if((write_counter.counter + write_count) >= (trxw_rbuf[0].buf_len + s->trace_offset)) {
tx_trace_ready = 1;
log_info("TRX_ECPRI_WRITE", "TX Trace ready");
pthread_exit(EXIT_SUCCESS);
} else if (tx_trace_ready) {
pthread_exit(EXIT_SUCCESS);
}
#endif
#endif
}
if(first_trx_write) {
sample_group_t * g2 = RBUF_WRITE0(trxw_group_rbuf, sample_group_t);
......@@ -1174,7 +1135,7 @@ static void trx_ecpri_write(TRXState *s1, trx_timestamp_t timestamp, const void
while((nc = rbuf_contiguous_copy(NULL, &trxw_rbuf[0], write_count))) {
int len = nc * trxr_rbuf[0].len * sizeof(Complex);
if(__samples)
for(int i = 0; i < TX_N_CHANNEL; i++) {
for(int i = 0; i < s->tx_n_channel; i++) {
uint8_t * src = ((uint8_t*) _samples[i]) + len;
uint8_t * dst = ((uint8_t *) trxw_rbuf[i].buffer) + trxw_rbuf[0].write_index * trxw_rbuf[0].len * sizeof(Complex);
memcpy(dst, src, len);
......@@ -1190,11 +1151,11 @@ static void trx_ecpri_write(TRXState *s1, trx_timestamp_t timestamp, const void
static int trx_ecpri_read(TRXState *s1, trx_timestamp_t *ptimestamp, void **__samples, int count, int rx_port_index, TRXReadMetadata *md)
{
(void) s1;
int nc; int n;
float ** _samples = (float **) __samples;
int read_count = (count / M);
int offset = 0;
TRXEcpriState *s = s1->opaque;
log_debug("TRX_ECPRI_READ", "count = %ld (%li)", read_count, read_counter.counter);
......@@ -1205,7 +1166,7 @@ static int trx_ecpri_read(TRXState *s1, trx_timestamp_t *ptimestamp, void **__sa
n = read_count;
while((nc = rbuf_contiguous_copy(&trxr_rbuf[0], NULL, n))) {
int len = nc * trxr_rbuf[0].len * sizeof(Complex);
for(int i = 0; i < RX_N_CHANNEL; i++ ) {
for(int i = 0; i < s->rx_n_channel; i++ ) {
uint8_t * dst = (uint8_t*) (_samples[i] + offset);
uint8_t * src = ((uint8_t *) trxr_rbuf[i].buffer) + trxr_rbuf[0].read_index * trxr_rbuf[0].len * sizeof(Complex);
memcpy(dst, src, len);
......@@ -1458,19 +1419,50 @@ int trx_driver_init(TRXState *s1)
s->statistic_affinity = (int) val;
trx_get_param_double(s1, &val, "flow_id");
s->flow_id = (int) val;
trx_get_param_double(s1, &val, "frame_frequency");
s->frame_frequency = (int) val;
trx_get_param_double(s1, &val, "trx_buf_size");
s->trx_buf_size = (int) val;
trx_get_param_double(s1, &val, "txrx_buf_size");
s->txrx_buf_size = (int) val;
trx_get_param_double(s1, &val, "trace_rx");
s->trace_rx = (int) val;
trx_get_param_double(s1, &val, "trace_tx");
s->trace_tx = (int) val;
trx_get_param_double(s1, &val, "trace_offset");
s->trace_offset = (int) val;
trx_get_param_double(s1, &val, "monitor_pps");
s->monitor_pps = (int) val;
trx_get_param_double(s1, &val, "monitor_trigger_duration");
s->monitor_trigger_duration = (int) val;
trx_get_param_double(s1, &val, "start_sending");
s->start_sending = (int) val;
trx_get_param_double(s1, &val, "start_receiving");
s->start_receiving = (int) val;
trx_get_param_double(s1, &val, "rx_n_channel");
s->rx_n_channel = (int) val;
trx_get_param_double(s1, &val, "tx_n_channel");
s->tx_n_channel = (int) val;
trx_get_param_double(s1, &val, "statistics_refresh_rate_ns");
s->statistics_refresh_rate_ns = (int) val;
trx_get_param_double(s1, &val, "ecpri_period");
if(((int) val) == 0) {
fprintf(stderr, "ecpri_period parameter can't be null\n");
return -1;
}
s->ecpri_period = (int) val;
if(s->ecpri_period == 0)
log_exit("TRX_ECPRI", "ecpri_period parameter can't be null\n");
if(s->rx_n_channel == 0)
log_exit("TRX_ECPRI", "rx_n_channel parameter can't be null\n");
if(s->tx_n_channel == 0)
log_exit("TRX_ECPRI", "tx_n_channel parameter can't be null\n");
s->re_mac = (uint8_t *) trx_get_param_string(s1, "re_mac");
s->rec_mac = (uint8_t *) trx_get_param_string(s1, "rec_mac");
s->rec_if = (uint8_t *) trx_get_param_string(s1, "rec_if");
s->dpdk_options = trx_get_param_string(s1, "dpdk_options");
s->log_directory = (uint8_t *) trx_get_param_string(s1, "log_directory");
recv_pps_threshold = (s->frame_frequency * 9 / 10);
s1->opaque = s;
s1->trx_end_func = trx_ecpri_end;
s1->trx_write_func2 = trx_ecpri_write;
......
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