usr.sbin/fwctl/fwdv.c

1.1  kiyohara /*	$NetBSD: fwdv.c,v 1.1 2005/07/11 15:35:25 kiyohara Exp $	*/
1.1  kiyohara /*
1.1  kiyohara  * Copyright (C) 2003
1.1  kiyohara  * 	Hidetoshi Shimokawa. All rights reserved.
1.1  kiyohara  *
1.1  kiyohara  * Redistribution and use in source and binary forms, with or without
1.1  kiyohara  * modification, are permitted provided that the following conditions
1.1  kiyohara  * are met:
1.1  kiyohara  * 1. Redistributions of source code must retain the above copyright
1.1  kiyohara  *    notice, this list of conditions and the following disclaimer.
1.1  kiyohara  * 2. Redistributions in binary form must reproduce the above copyright
1.1  kiyohara  *    notice, this list of conditions and the following disclaimer in the
1.1  kiyohara  *    documentation and/or other materials provided with the distribution.
1.1  kiyohara  * 3. All advertising materials mentioning features or use of this software
1.1  kiyohara  *    must display the following acknowledgement:
1.1  kiyohara  *
1.1  kiyohara  *	This product includes software developed by Hidetoshi Shimokawa.
1.1  kiyohara  *
1.1  kiyohara  * 4. Neither the name of the author nor the names of its contributors
1.1  kiyohara  *    may be used to endorse or promote products derived from this software
1.1  kiyohara  *    without specific prior written permission.
1.1  kiyohara  *
1.1  kiyohara  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
1.1  kiyohara  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
1.1  kiyohara  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
1.1  kiyohara  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
1.1  kiyohara  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
1.1  kiyohara  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
1.1  kiyohara  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
1.1  kiyohara  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
1.1  kiyohara  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
1.1  kiyohara  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
1.1  kiyohara  * SUCH DAMAGE.
1.1  kiyohara  *
1.1  kiyohara  * $FreeBSD: src/usr.sbin/fwcontrol/fwdv.c,v 1.5 2003/04/17 03:38:03 simokawa Exp $
1.1  kiyohara  */
1.1  kiyohara #include <sys/param.h>
1.1  kiyohara #include <sys/ioctl.h>
1.1  kiyohara #include <sys/time.h>
1.1  kiyohara #include <sys/types.h>
1.1  kiyohara #include <sys/uio.h>
1.1  kiyohara
1.1  kiyohara #if __FreeBSD_version >= 500000
1.1  kiyohara #include <arpa/inet.h>
1.1  kiyohara #endif
1.1  kiyohara
1.1  kiyohara #include <err.h>
1.1  kiyohara #include <errno.h>
1.1  kiyohara #include <unistd.h>
1.1  kiyohara #include <fcntl.h>
1.1  kiyohara #include <stdio.h>
1.1  kiyohara #include <stdlib.h>
1.1  kiyohara #include <string.h>
1.1  kiyohara
1.1  kiyohara #if defined(__FreeBSD__)
1.1  kiyohara #include <dev/firewire/firewire.h>
1.1  kiyohara #include <dev/firewire/iec68113.h>
1.1  kiyohara #elif defined(__NetBSD__)
1.1  kiyohara #include <dev/ieee1394/firewire.h>
1.1  kiyohara #include <dev/ieee1394/iec68113.h>
1.1  kiyohara #endif
1.1  kiyohara
1.1  kiyohara int dvrecv(int, char *, char, int);
1.1  kiyohara int dvsend(int, char *, char, int);
1.1  kiyohara
1.1  kiyohara #define DEBUG		0
1.1  kiyohara #define FIX_FRAME	1
1.1  kiyohara
1.1  kiyohara struct frac {
1.1  kiyohara 	int n,d;
1.1  kiyohara };
1.1  kiyohara
1.1  kiyohara struct frac frame_cycle[2]  = {
1.1  kiyohara 	{8000*100, 2997},	/* NTSC 8000 cycle / 29.97 Hz */
1.1  kiyohara 	{320, 1},		/* PAL  8000 cycle / 25 Hz */
1.1  kiyohara };
1.1  kiyohara int npackets[] = {
1.1  kiyohara 	250		/* NTSC */,
1.1  kiyohara 	300		/* PAL */
1.1  kiyohara };
1.1  kiyohara struct frac pad_rate[2]  = {
1.1  kiyohara 	{203, 2997},	/* = (8000 - 29.97 * 250)/(29.97 * 250) */
1.1  kiyohara 	{1, 15},	/* = (8000 - 25 * 300)/(25 * 300) */
1.1  kiyohara };
1.1  kiyohara char *system_name[] = {"NTSC", "PAL"};
1.1  kiyohara int frame_rate[] = {30, 25};
1.1  kiyohara
1.1  kiyohara #define PSIZE 512
1.1  kiyohara #define DSIZE 480
1.1  kiyohara #define NCHUNK 8
1.1  kiyohara
1.1  kiyohara #define NPACKET_R 256
1.1  kiyohara #define NPACKET_T 255
1.1  kiyohara #define TNBUF 100	/* XXX too large value causes block noise */
1.1  kiyohara #define NEMPTY 10	/* depends on TNBUF */
1.1  kiyohara #define RBUFSIZE (PSIZE * NPACKET_R)
1.1  kiyohara #define MAXBLOCKS (300)
1.1  kiyohara #define CYCLE_FRAC 0xc00
1.1  kiyohara
1.1  kiyohara int
1.1  kiyohara dvrecv(int d, char *filename, char ich, int count)
1.1  kiyohara {
1.1  kiyohara 	struct fw_isochreq isoreq;
1.1  kiyohara 	struct fw_isobufreq bufreq;
1.1  kiyohara 	struct dvdbc *dv;
1.1  kiyohara 	struct ciphdr *ciph;
1.1  kiyohara 	struct fw_pkt *pkt;
1.1  kiyohara 	char *pad, *buf;
1.1  kiyohara 	u_int32_t *ptr;
1.1  kiyohara 	int len, tlen, npad, fd, k, m, vec, system = -1, nb;
1.1  kiyohara 	int nblocks[] = {250 /* NTSC */, 300 /* PAL */};
1.1  kiyohara 	struct iovec wbuf[NPACKET_R];
1.1  kiyohara
1.1  kiyohara 	fd = open(filename, O_CREAT | O_WRONLY | O_TRUNC, 0660);
1.1  kiyohara 	buf = (char *)malloc(RBUFSIZE);
1.1  kiyohara 	pad = (char *)malloc(DSIZE*MAXBLOCKS);
1.1  kiyohara 	memset(pad, 0xff, DSIZE*MAXBLOCKS);
1.1  kiyohara 	bzero(wbuf, sizeof(wbuf));
1.1  kiyohara
1.1  kiyohara 	bufreq.rx.nchunk = NCHUNK;
1.1  kiyohara 	bufreq.rx.npacket = NPACKET_R;
1.1  kiyohara 	bufreq.rx.psize = PSIZE;
1.1  kiyohara 	bufreq.tx.nchunk = 0;
1.1  kiyohara 	bufreq.tx.npacket = 0;
1.1  kiyohara 	bufreq.tx.psize = 0;
1.1  kiyohara 	if (ioctl(d, FW_SSTBUF, &bufreq) < 0) {
1.1  kiyohara 		err(1, "ioctl");
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	isoreq.ch = ich & 0x3f;
1.1  kiyohara 	isoreq.tag = (ich >> 6) & 3;
1.1  kiyohara
1.1  kiyohara 	if( ioctl(d, FW_SRSTREAM, &isoreq) < 0)
1.1  kiyohara        		err(1, "ioctl");
1.1  kiyohara
1.1  kiyohara 	k = m = 0;
1.1  kiyohara 	while (count <= 0 || k <= count) {
1.1  kiyohara #if 0
1.1  kiyohara 		tlen = 0;
1.1  kiyohara 		while ((len = read(d, buf + tlen, PSIZE
1.1  kiyohara 						/* RBUFSIZE - tlen */)) > 0) {
1.1  kiyohara 			if (len < 0) {
1.1  kiyohara 				if (errno == EAGAIN) {
1.1  kiyohara 					fprintf(stderr, "(EAGAIN)\n");
1.1  kiyohara 					fflush(stderr);
1.1  kiyohara 					if (len <= 0)
1.1  kiyohara 						continue;
1.1  kiyohara 				} else
1.1  kiyohara 					err(1, "read failed");
1.1  kiyohara 			}
1.1  kiyohara 			tlen += len;
1.1  kiyohara 			if ((RBUFSIZE - tlen) < PSIZE)
1.1  kiyohara 				break;
1.1  kiyohara 		};
1.1  kiyohara #else
1.1  kiyohara 		tlen = len = read(d, buf, RBUFSIZE);
1.1  kiyohara 		if (len < 0) {
1.1  kiyohara 			if (errno == EAGAIN) {
1.1  kiyohara 				fprintf(stderr, "(EAGAIN)\n");
1.1  kiyohara 				fflush(stderr);
1.1  kiyohara 				if (len <= 0)
1.1  kiyohara 					continue;
1.1  kiyohara 			} else
1.1  kiyohara 				err(1, "read failed");
1.1  kiyohara 		}
1.1  kiyohara #endif
1.1  kiyohara 		vec = 0;
1.1  kiyohara 		ptr = (u_int32_t *) buf;
1.1  kiyohara again:
1.1  kiyohara 		pkt = (struct fw_pkt *) ptr;
1.1  kiyohara #if DEBUG
1.1  kiyohara 		fprintf(stderr, "%08x %08x %08x %08x\n",
1.1  kiyohara 			htonl(ptr[0]), htonl(ptr[1]),
1.1  kiyohara 			htonl(ptr[2]), htonl(ptr[3]));
1.1  kiyohara #endif
1.1  kiyohara 		ciph = (struct ciphdr *)(ptr + 1);	/* skip iso header */
1.1  kiyohara 		if (ciph->fmt != CIP_FMT_DVCR)
1.1  kiyohara 			errx(1, "unknown format 0x%x", ciph->fmt);
1.1  kiyohara 		ptr = (u_int32_t *) (ciph + 1);		/* skip cip header */
1.1  kiyohara #if DEBUG
1.1  kiyohara 		if (ciph->fdf.dv.cyc != 0xffff && k == 0) {
1.1  kiyohara 			fprintf(stderr, "0x%04x\n", ntohs(ciph->fdf.dv.cyc));
1.1  kiyohara 		}
1.1  kiyohara #endif
1.1  kiyohara 		if (pkt->mode.stream.len <= sizeof(struct ciphdr))
1.1  kiyohara 			/* no payload */
1.1  kiyohara 			goto next;
1.1  kiyohara 		for (dv = (struct dvdbc *)ptr;
1.1  kiyohara 				(char *)dv < (char *)(ptr + ciph->len);
1.1  kiyohara 				dv+=6) {
1.1  kiyohara
1.1  kiyohara #if DEBUG
1.1  kiyohara 			fprintf(stderr, "(%d,%d) ", dv->sct, dv->dseq);
1.1  kiyohara #endif
1.1  kiyohara 			if  (dv->sct == DV_SCT_HEADER && dv->dseq == 0) {
1.1  kiyohara 				if (system < 0) {
1.1  kiyohara 					system = ciph->fdf.dv.fs;
1.1  kiyohara 					printf("%s\n", system_name[system]);
1.1  kiyohara 				}
1.1  kiyohara
1.1  kiyohara 				/* Fix DSF bit */
1.1  kiyohara 				if (system == 1 &&
1.1  kiyohara 					(dv->payload[0] & DV_DSF_12) == 0)
1.1  kiyohara 					dv->payload[0] |= DV_DSF_12;
1.1  kiyohara 				nb = nblocks[system];
1.1  kiyohara 				fprintf(stderr, "%d", k%10);
1.1  kiyohara #if FIX_FRAME
1.1  kiyohara 				if (m > 0 && m != nb) {
1.1  kiyohara 					/* padding bad frame */
1.1  kiyohara 					npad = ((nb - m) % nb);
1.1  kiyohara 					if (npad < 0)
1.1  kiyohara 						npad += nb;
1.1  kiyohara 					fprintf(stderr, "(%d blocks padded)",
1.1  kiyohara 								npad);
1.1  kiyohara 					npad *= DSIZE;
1.1  kiyohara 					wbuf[vec].iov_base = pad;
1.1  kiyohara 					wbuf[vec++].iov_len = npad;
1.1  kiyohara 					if (vec >= NPACKET_R) {
1.1  kiyohara 						writev(fd, wbuf, vec);
1.1  kiyohara 						vec = 0;
1.1  kiyohara 					}
1.1  kiyohara 				}
1.1  kiyohara #endif
1.1  kiyohara 				k++;
1.1  kiyohara 				if (k % frame_rate[system] == 0) {
1.1  kiyohara 					/* every second */
1.1  kiyohara 					fprintf(stderr, "\n");
1.1  kiyohara 				}
1.1  kiyohara 				fflush(stderr);
1.1  kiyohara 				m = 0;
1.1  kiyohara 			}
1.1  kiyohara 			if (k == 0 || (count > 0 && k > count))
1.1  kiyohara 				continue;
1.1  kiyohara 			m++;
1.1  kiyohara 			wbuf[vec].iov_base = (char *) dv;
1.1  kiyohara 			wbuf[vec++].iov_len = DSIZE;
1.1  kiyohara 			if (vec >= NPACKET_R) {
1.1  kiyohara 				writev(fd, wbuf, vec);
1.1  kiyohara 				vec = 0;
1.1  kiyohara 			}
1.1  kiyohara 		}
1.1  kiyohara 		ptr = (u_int32_t *)dv;
1.1  kiyohara next:
1.1  kiyohara 		if ((char *)ptr < buf + tlen)
1.1  kiyohara 			goto again;
1.1  kiyohara 		if (vec > 0)
1.1  kiyohara 			writev(fd, wbuf, vec);
1.1  kiyohara 	}
1.1  kiyohara 	close(fd);
1.1  kiyohara 	fprintf(stderr, "\n");
1.1  kiyohara 	return 0;
1.1  kiyohara }
1.1  kiyohara
1.1  kiyohara
1.1  kiyohara int
1.1  kiyohara dvsend(int d, char *filename, char ich, int count)
1.1  kiyohara {
1.1  kiyohara 	struct fw_isochreq isoreq;
1.1  kiyohara 	struct fw_isobufreq bufreq;
1.1  kiyohara 	struct dvdbc *dv;
1.1  kiyohara 	struct fw_pkt *pkt;
1.1  kiyohara 	int len, tlen, header, fd, frames, packets, vec, offset, nhdr, i;
1.1  kiyohara 	int system=-1, pad_acc, cycle_acc, cycle, f_cycle, f_frac;
1.1  kiyohara 	struct iovec wbuf[TNBUF*2 + NEMPTY];
1.1  kiyohara 	char *pbuf;
1.1  kiyohara 	u_int32_t iso_data, iso_empty, hdr[TNBUF + NEMPTY][3];
1.1  kiyohara 	struct ciphdr *ciph;
1.1  kiyohara 	struct timeval start, end;
1.1  kiyohara 	double rtime;
1.1  kiyohara
1.1  kiyohara 	cycle_acc = cycle = 0;
1.1  kiyohara
1.1  kiyohara 	fd = open(filename, O_RDONLY);
1.1  kiyohara 	pbuf = (char *)malloc(DSIZE * TNBUF);
1.1  kiyohara 	bzero(wbuf, sizeof(wbuf));
1.1  kiyohara
1.1  kiyohara 	bufreq.rx.nchunk = 0;
1.1  kiyohara 	bufreq.rx.npacket = 0;
1.1  kiyohara 	bufreq.rx.psize = 0;
1.1  kiyohara 	bufreq.tx.nchunk = NCHUNK;
1.1  kiyohara 	bufreq.tx.npacket = NPACKET_T;
1.1  kiyohara 	bufreq.tx.psize = PSIZE;
1.1  kiyohara 	if (ioctl(d, FW_SSTBUF, &bufreq) < 0) {
1.1  kiyohara 		err(1, "ioctl");
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	isoreq.ch = ich & 0x3f;
1.1  kiyohara 	isoreq.tag = (ich >> 6) & 3;
1.1  kiyohara
1.1  kiyohara 	if( ioctl(d, FW_STSTREAM, &isoreq) < 0)
1.1  kiyohara        		err(1, "ioctl");
1.1  kiyohara
1.1  kiyohara 	iso_data = 0;
1.1  kiyohara 	pkt = (struct fw_pkt *) &iso_data;
1.1  kiyohara 	pkt->mode.stream.len = DSIZE + sizeof(struct ciphdr);
1.1  kiyohara 	pkt->mode.stream.sy = 0;
1.1  kiyohara 	pkt->mode.stream.tcode = FWTCODE_STREAM;
1.1  kiyohara 	pkt->mode.stream.chtag = ich;
1.1  kiyohara 	iso_empty = iso_data;
1.1  kiyohara 	pkt = (struct fw_pkt *) &iso_empty;
1.1  kiyohara 	pkt->mode.stream.len = sizeof(struct ciphdr);
1.1  kiyohara
1.1  kiyohara 	bzero(hdr[0], sizeof(hdr[0]));
1.1  kiyohara 	hdr[0][0] = iso_data;
1.1  kiyohara 	ciph = (struct ciphdr *)&hdr[0][1];
1.1  kiyohara 	ciph->src = 0;	 /* XXX */
1.1  kiyohara 	ciph->len = 120;
1.1  kiyohara 	ciph->dbc = 0;
1.1  kiyohara 	ciph->eoh1 = 1;
1.1  kiyohara 	ciph->fdf.dv.cyc = 0xffff;
1.1  kiyohara
1.1  kiyohara 	for (i = 1; i < TNBUF; i++) {
1.1  kiyohara 		bcopy(hdr[0], hdr[i], sizeof(hdr[0]));
1.1  kiyohara 	}
1.1  kiyohara
1.1  kiyohara 	gettimeofday(&start, NULL);
1.1  kiyohara #if DEBUG
1.1  kiyohara 	fprintf(stderr, "%08x %08x %08x\n",
1.1  kiyohara 			htonl(hdr[0]), htonl(hdr[1]), htonl(hdr[2]));
1.1  kiyohara #endif
1.1  kiyohara 	frames = 0;
1.1  kiyohara 	packets = 0;
1.1  kiyohara 	pad_acc = 0;
1.1  kiyohara 	while (1) {
1.1  kiyohara 		tlen = 0;
1.1  kiyohara 		while (tlen < DSIZE * TNBUF) {
1.1  kiyohara 			len = read(fd, pbuf + tlen, DSIZE * TNBUF - tlen);
1.1  kiyohara 			if (len <= 0) {
1.1  kiyohara 				if (tlen > 0)
1.1  kiyohara 					break;
1.1  kiyohara 				if (len < 0)
1.1  kiyohara 					warn("read");
1.1  kiyohara 				else
1.1  kiyohara 					printf("\nend of file\n");
1.1  kiyohara 				goto send_end;
1.1  kiyohara 			}
1.1  kiyohara 			tlen += len;
1.1  kiyohara 		}
1.1  kiyohara 		vec = 0;
1.1  kiyohara 		offset = 0;
1.1  kiyohara 		nhdr = 0;
1.1  kiyohara next:
1.1  kiyohara 		dv = (struct dvdbc *)(pbuf + offset * DSIZE);
1.1  kiyohara #if 0
1.1  kiyohara 		header = (dv->sct == 0 && dv->dseq == 0);
1.1  kiyohara #else
1.1  kiyohara 		header = (packets == 0 || packets % npackets[system] == 0);
1.1  kiyohara #endif
1.1  kiyohara
1.1  kiyohara 		ciph = (struct ciphdr *)&hdr[nhdr][1];
1.1  kiyohara 		if (header) {
1.1  kiyohara 			if (system < 0) {
1.1  kiyohara 				system = ((dv->payload[0] & DV_DSF_12) != 0);
1.1  kiyohara 				printf("%s\n", system_name[system]);
1.1  kiyohara 				cycle = 1;
1.1  kiyohara 				cycle_acc = frame_cycle[system].d * cycle;
1.1  kiyohara 			}
1.1  kiyohara 			fprintf(stderr, "%d", frames % 10);
1.1  kiyohara 			frames ++;
1.1  kiyohara 			if (count > 0 && frames > count)
1.1  kiyohara 				break;
1.1  kiyohara 			if (frames % frame_rate[system] == 0)
1.1  kiyohara 				fprintf(stderr, "\n");
1.1  kiyohara 			fflush(stderr);
1.1  kiyohara 			f_cycle = (cycle_acc / frame_cycle[system].d) & 0xf;
1.1  kiyohara 			f_frac = (cycle_acc % frame_cycle[system].d
1.1  kiyohara 					* CYCLE_FRAC) / frame_cycle[system].d;
1.1  kiyohara #if 0
1.1  kiyohara 			ciph->fdf.dv.cyc = htons(f_cycle << 12 | f_frac);
1.1  kiyohara #else
1.1  kiyohara 			ciph->fdf.dv.cyc = htons(cycle << 12 | f_frac);
1.1  kiyohara #endif
1.1  kiyohara 			cycle_acc += frame_cycle[system].n;
1.1  kiyohara 			cycle_acc %= frame_cycle[system].d * 0x10;
1.1  kiyohara
1.1  kiyohara 		} else {
1.1  kiyohara 			ciph->fdf.dv.cyc = 0xffff;
1.1  kiyohara 		}
1.1  kiyohara 		ciph->dbc = packets++ % 256;
1.1  kiyohara 		pad_acc += pad_rate[system].n;
1.1  kiyohara 		if (pad_acc >= pad_rate[system].d) {
1.1  kiyohara 			pad_acc -= pad_rate[system].d;
1.1  kiyohara 			bcopy(hdr[nhdr], hdr[nhdr+1], sizeof(hdr[0]));
1.1  kiyohara 			hdr[nhdr][0] = iso_empty;
1.1  kiyohara 			wbuf[vec].iov_base = (char *)hdr[nhdr];
1.1  kiyohara 			wbuf[vec++].iov_len = sizeof(hdr[0]);
1.1  kiyohara 			nhdr ++;
1.1  kiyohara 			cycle ++;
1.1  kiyohara 		}
1.1  kiyohara 		hdr[nhdr][0] = iso_data;
1.1  kiyohara 		wbuf[vec].iov_base = (char *)hdr[nhdr];
1.1  kiyohara 		wbuf[vec++].iov_len = sizeof(hdr[0]);
1.1  kiyohara 		wbuf[vec].iov_base = (char *)dv;
1.1  kiyohara 		wbuf[vec++].iov_len = DSIZE;
1.1  kiyohara 		nhdr ++;
1.1  kiyohara 		cycle ++;
1.1  kiyohara 		offset ++;
1.1  kiyohara 		if (offset * DSIZE < tlen)
1.1  kiyohara 			goto next;
1.1  kiyohara
1.1  kiyohara again:
1.1  kiyohara 		len = writev(d, wbuf, vec);
1.1  kiyohara 		if (len < 0) {
1.1  kiyohara 			if (errno == EAGAIN) {
1.1  kiyohara 				fprintf(stderr, "(EAGAIN)\n");
1.1  kiyohara 				fflush(stderr);
1.1  kiyohara 				goto again;
1.1  kiyohara 			}
1.1  kiyohara 			err(1, "write failed");
1.1  kiyohara 		}
1.1  kiyohara 	}
1.1  kiyohara 	close(fd);
1.1  kiyohara 	fprintf(stderr, "\n");
1.1  kiyohara send_end:
1.1  kiyohara 	gettimeofday(&end, NULL);
1.1  kiyohara 	rtime = end.tv_sec - start.tv_sec
1.1  kiyohara 			+ (end.tv_usec - start.tv_usec) * 1e-6;
1.1  kiyohara 	fprintf(stderr, "%d frames, %.2f secs, %.2f frames/sec\n",
1.1  kiyohara 			frames, rtime, frames/rtime);
1.1  kiyohara 	return 0;
1.1  kiyohara }