#include #include #include #include #include #include #include #include #include #include #include #include #include "linux/usrp_e.h" // max length #define PKT_DATA_LENGTH 1016 static int packet_data_length; struct ring_buffer_info (*rxi)[]; struct ring_buffer_info (*txi)[]; __u8 *rx_buf; __u8 *tx_buf; static struct usrp_e_ring_buffer_size_t rb_size; static int fp; static u_int32_t crc_tab[256]; // CRC code from http://www.koders.com/c/fid699AFE0A656F0022C9D6B9D1743E697B69CE5815.aspx // GPLv2 static u_int32_t chksum_crc32_gentab(void) { unsigned long crc, poly; unsigned long i, j; poly = 0x04C11DB7L; for (i = 0; i < 256; i++) { crc = i; for (j = 8; j > 0; j--) { if (crc & 1) { crc = (crc >> 1) ^ poly; } else { crc >>= 1; } } crc_tab[i] = crc; // printf("crc_tab[%d] = %X\n", i , crc); } return 0; } struct timeval delta_time(struct timeval f, struct timeval s) { struct timeval d; if (f.tv_usec > s.tv_usec) { d.tv_usec = f.tv_usec - s.tv_usec; d.tv_sec = f.tv_sec - s.tv_sec; } else { d.tv_usec = f.tv_usec - s.tv_usec + 1e6; d.tv_sec = f.tv_sec - s.tv_sec - 1; } return d; } static void *read_thread(void *threadid) { unsigned int cnt; int rx_pkt_cnt, rb_read; unsigned int i; unsigned long crc, ck_sum; unsigned int rx_crc, pkt_len, pkt_seq; unsigned long bytes_transfered; struct timeval start_time; unsigned int prev_seq = 0; int first = 1; long tid; __u8 *p; tid = (long)threadid; printf("Greetings from the reading thread(%ld)!\n", tid); // IMPORTANT: must assume max length packet from fpga rx_pkt_cnt = 0; rb_read = 0; bytes_transfered = 0; gettimeofday(&start_time, NULL); while (1) { while (!((*rxi)[rb_read].flags & RB_USER)) { struct pollfd pfd; pfd.fd = fp; pfd.events = POLLIN; poll(&pfd, 1, -1); } (*rxi)[rb_read].flags = RB_USER_PROCESS; rx_pkt_cnt++; cnt = (*rxi)[rb_read].len; p = rx_buf + (rb_read * 2048); rx_crc = *(int *) &p[cnt-4]; crc = 0xFFFFFFFF; ck_sum = 0; pkt_len = *(unsigned int *) &p[0]; pkt_seq = *(unsigned int *) &p[4]; // printf("Pkt len = %X, pkt seq = %X, driver len = %X\n", pkt_len, pkt_seq, cnt); if (pkt_len != (cnt - 4)) printf("Packet length check fail, driver len = %ud, content = %ud\n", cnt, pkt_len); if (!first && (pkt_seq != (prev_seq + 1))) printf("Sequence number check fail, pkt_seq = %ud, prev_seq = %ud\n", pkt_seq, prev_seq); first = 0; prev_seq = pkt_seq; for (i = 0; i < cnt-4; i++) { ck_sum += p[i]; crc = ((crc >> 8) & 0x00FFFFFF) ^ crc_tab[(crc ^ p[i]) & 0xFF]; //printf("idx = %d, data = %X, crc = %X, ck_sum = %X\n", i, p[i], crc, ck_sum); // crc = ((crc >> 8) & 0x00FFFFFF) ^ // crc_tab[(crc ^ p[i+1]) & 0xFF]; //printf("idx = %d, data = %X, crc = %X\n", i, p[i+1],crc); } (*rxi)[rb_read].flags = RB_KERNEL; write(fp, NULL, 1); if (rx_crc != ck_sum) printf("Ck_sum eror, calc ck_sum = %lX, rx ck_sum = %X\n", ck_sum, rx_crc); #if 0 if (rx_crc != (crc & 0xFFFFFFFF)) { printf("CRC Error, calc crc: %X, rx_crc: %X\n", (crc & 0xFFFFFFFF), rx_crc); } #endif rb_read++; if (rb_read == rb_size.num_rx_frames) rb_read = 0; bytes_transfered += cnt; if (bytes_transfered > (100 * 1000000)) { struct timeval finish_time, d_time; float elapsed_seconds; gettimeofday(&finish_time, NULL); printf("sec = %ld, usec = %ld\n", finish_time.tv_sec, finish_time.tv_usec); d_time = delta_time(finish_time, start_time); elapsed_seconds = (float)d_time.tv_sec + ((float)d_time.tv_usec * 1e-6f); printf("Bytes transfered = %ld, elapsed seconds = %f\n", bytes_transfered, elapsed_seconds); printf("RX data transfer rate = %f K Samples/second\n", (float) bytes_transfered / (float) elapsed_seconds / 4000); start_time = finish_time; bytes_transfered = 0; } } return NULL; } static void *write_thread(void *threadid) { int i, tx_pkt_cnt, rb_write; int tx_len; unsigned long crc; unsigned long bytes_transfered; struct timeval start_time; unsigned int pkt_seq = 0; long tid; __u8 *p; tid = (long)threadid; printf("Greetings from the write thread(%ld)!\n", tid); rb_write = 0; tx_pkt_cnt = 0; bytes_transfered = 0; gettimeofday(&start_time, NULL); while (1) { tx_pkt_cnt++; p = tx_buf + (rb_write * 2048); // printf("p = %p\n", p); if (packet_data_length > 0) tx_len = packet_data_length; else tx_len = (random() & 0x1ff) + (2044 - 512); #if 0 if (tx_pkt_cnt == 512) { printf("."); fflush(stdout); } if (tx_pkt_cnt == 1024) { printf("'"); fflush(stdout); } if (tx_pkt_cnt == 1536) { printf(":"); fflush(stdout); tx_pkt_cnt = 0; } #endif // printf("Checking for space at rb entry = %d\n", rb_write); while (!((*txi)[rb_write].flags & RB_KERNEL)) { struct pollfd pfd; pfd.fd = fp; pfd.events = POLLOUT; poll(&pfd, 1, -1); } // printf("Got space\n"); for (i=8; i < tx_len-4; i++) { p[i] = i & 0xFF; } *(unsigned int *) &p[0] = tx_len-4; *(unsigned int *) &p[4] = pkt_seq; pkt_seq++; crc = 0xFFFFFFFF; for (i = 0; i < tx_len-4; i++) { // printf("%X ", p[i]); crc = ((crc >> 8) & 0x00FFFFFF) ^ crc_tab[(crc ^ p[i]) & 0xFF]; } *(unsigned int *) &p[tx_len-4] = crc; // printf("\n crc = %lX\n", crc); (*txi)[rb_write].len = tx_len; (*txi)[rb_write].flags = RB_USER; rb_write++; if (rb_write == rb_size.num_tx_frames) rb_write = 0; bytes_transfered += tx_len; if (bytes_transfered > (100 * 1000000)) { struct timeval finish_time, d_time; float elapsed_seconds; gettimeofday(&finish_time, NULL); d_time = delta_time(finish_time, start_time); elapsed_seconds = (float)d_time.tv_sec - ((float)d_time.tv_usec * 1e-6f); printf("Bytes transfered = %ld, elapsed seconds = %f\n", bytes_transfered, elapsed_seconds); printf("TX data transfer rate = %f K Samples/second\n", (float) bytes_transfered / (float) elapsed_seconds / 4000); start_time = finish_time; bytes_transfered = 0; } // sleep(1); } return NULL; } int main(int argc, char *argv[]) { pthread_t tx, rx; long int t=0; int fpga_config_flag ,decimation; int ret, map_size, page_size; void *rb; struct usrp_e_ctl16 d; struct sched_param s = { .sched_priority = 1 }; if (argc < 4) { printf("%s r|w|rw decimation data_size\n", argv[0]); return -1; } chksum_crc32_gentab(); decimation = atoi(argv[2]); packet_data_length = atoi(argv[3]); fp = open("/dev/usrp_e0", O_RDWR); printf("fp = %d\n", fp); page_size = getpagesize(); ret = ioctl(fp, USRP_E_GET_RB_INFO, &rb_size); map_size = (rb_size.num_pages_rx_flags + rb_size.num_pages_tx_flags) * page_size + (rb_size.num_rx_frames + rb_size.num_tx_frames) * (page_size >> 1); rb = mmap(0, map_size, PROT_READ|PROT_WRITE, MAP_SHARED, fp, 0); if (rb == MAP_FAILED) { perror("mmap failed"); return -1; } printf("rb = %p\n", rb); rxi = rb; rx_buf = rb + (rb_size.num_pages_rx_flags * page_size); txi = rb + (rb_size.num_pages_rx_flags * page_size) + (rb_size.num_rx_frames * page_size >> 1); tx_buf = rb + (rb_size.num_pages_rx_flags * page_size) + (rb_size.num_rx_frames * page_size >> 1) + (rb_size.num_pages_tx_flags * page_size); fpga_config_flag = (1<<8); if (strcmp(argv[1], "w") == 0) fpga_config_flag |= (1 << 11); else if (strcmp(argv[1], "r") == 0) fpga_config_flag |= (1 << 10); else if (strcmp(argv[1], "rw") == 0) fpga_config_flag |= ((1 << 10) | (1 << 11)); fpga_config_flag |= decimation; d.offset = 14; d.count = 1; d.buf[0] = fpga_config_flag; ioctl(fp, USRP_E_WRITE_CTL16, &d); sleep(1); // in case the kernel threads need time to start. FIXME if so sched_setscheduler(0, SCHED_RR, &s); if (fpga_config_flag & (1 << 10)) { if (pthread_create(&rx, NULL, read_thread, (void *) t)) { printf("Failed to create rx thread\n"); exit(-1); } } sleep(1); if (fpga_config_flag & (1 << 11)) { if (pthread_create(&tx, NULL, write_thread, (void *) t)) { printf("Failed to create tx thread\n"); exit(-1); } } sleep(10000); printf("Done sleeping\n"); return 0; }