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14646f641f62929736409ee8a2d0d07709389499
libcdio-osx/lib/_cdio_linux.c
rocky 14646f641f MSWindows: comment corrections 
_cdio_linux.c: perhaps closer to getting CD TEXT correct.
2004-07-15 02:24:29 +00:00

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/*
$Id: _cdio_linux.c,v 1.63 2004/07/15 02:24:29 rocky Exp $
Copyright (C) 2001 Herbert Valerio Riedel <hvr@gnu.org>
Copyright (C) 2002, 2003, 2004 Rocky Bernstein <rocky@panix.com>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
/* This file contains Linux-specific code and implements low-level
control of the CD drive.
*/
#ifdef HAVE_CONFIG_H
# include "config.h"
#endif
static const char _rcsid[] = "$Id: _cdio_linux.c,v 1.63 2004/07/15 02:24:29 rocky Exp $";
#include <string.h>
#include <cdio/sector.h>
#include <cdio/util.h>
#include <cdio/scsi_mmc.h>
#include <cdio/cdtext.h>
#include "cdtext_private.h"
#include "cdio_assert.h"
#include "cdio_private.h"
#ifdef HAVE_LINUX_CDROM
#if defined(HAVE_LINUX_VERSION_H)
# include <linux/version.h>
# if LINUX_VERSION_CODE >= KERNEL_VERSION(2,2,16)
# define __CDIO_LINUXCD_BUILD
# else
# error "You need a kernel greater than 2.2.16 to have CDROM support"
# endif
#else
# error "You need <linux/version.h> to have CDROM support"
#endif
#include <stdio.h>
#include <stdlib.h>
#include <errno.h>
#include <unistd.h>
#include <fcntl.h>
#include <mntent.h>
#include <linux/cdrom.h>
#include <scsi/scsi.h>
#include <scsi/sg.h>
#include <scsi/scsi_ioctl.h>
#include <sys/mount.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <sys/ioctl.h>
typedef struct cdrom_generic_command cgc_t;
#define TOTAL_TRACKS (env->tochdr.cdth_trk1)
#define FIRST_TRACK_NUM (env->tochdr.cdth_trk0)
typedef enum {
_AM_NONE,
_AM_IOCTL,
_AM_READ_CD,
_AM_READ_10
} access_mode_t;
typedef struct {
/* Things common to all drivers like this.
This must be first. */
generic_img_private_t gen;
/* Entry info for each track, add 1 for leadout. */
struct cdrom_tocentry tocent[CDIO_CD_MAX_TRACKS+1];
cdtext_t cdtext; /* CD-TEXT */
access_mode_t access_mode;
bool b_cdtext_init;
/* Some of the more OS specific things. */
cdtext_t cdtext_track[CDIO_CD_MAX_TRACKS+1]; /*CD-TEXT for each track*/
struct cdrom_tochdr tochdr;
} _img_private_t;
/* Some ioctl() errno values which occur when the tray is empty */
#define ERRNO_TRAYEMPTY(errno) \
((errno == EIO) || (errno == ENOENT) || (errno == EINVAL))
static access_mode_t
str_to_access_mode_linux(const char *psz_access_mode)
{
const access_mode_t default_access_mode = _AM_IOCTL;
if (NULL==psz_access_mode) return default_access_mode;
if (!strcmp(psz_access_mode, "IOCTL"))
return _AM_IOCTL;
else if (!strcmp(psz_access_mode, "READ_CD"))
return _AM_READ_CD;
else if (!strcmp(psz_access_mode, "READ_10"))
return _AM_READ_10;
else {
cdio_warn ("unknown access type: %s. Default IOCTL used.",
psz_access_mode);
return default_access_mode;
}
}
/* Check a drive to see if it is a CD-ROM
Return 1 if a CD-ROM. 0 if it exists but isn't a CD-ROM drive
and -1 if no device exists .
*/
static bool
cdio_is_cdrom(char *drive, char *mnttype)
{
bool is_cd=false;
int cdfd;
struct cdrom_tochdr tochdr;
/* If it doesn't exist, return -1 */
if ( !cdio_is_device_quiet_generic(drive) ) {
return(false);
}
/* If it does exist, verify that it's an available CD-ROM */
cdfd = open(drive, (O_RDONLY|O_NONBLOCK), 0);
if ( cdfd >= 0 ) {
if ( ioctl(cdfd, CDROMREADTOCHDR, &tochdr) != -1 ) {
is_cd = true;
}
close(cdfd);
}
/* Even if we can't read it, it might be mounted */
else if ( mnttype && (strcmp(mnttype, "iso9660") == 0) ) {
is_cd = true;
}
return(is_cd);
}
static char *
cdio_check_mounts(const char *mtab)
{
FILE *mntfp;
struct mntent *mntent;
mntfp = setmntent(mtab, "r");
if ( mntfp != NULL ) {
char *tmp;
char *mnt_type;
char *mnt_dev;
while ( (mntent=getmntent(mntfp)) != NULL ) {
mnt_type = malloc(strlen(mntent->mnt_type) + 1);
if (mnt_type == NULL)
continue; /* maybe you'll get lucky next time. */
mnt_dev = malloc(strlen(mntent->mnt_fsname) + 1);
if (mnt_dev == NULL) {
free(mnt_type);
continue;
}
strcpy(mnt_type, mntent->mnt_type);
strcpy(mnt_dev, mntent->mnt_fsname);
/* Handle "supermount" filesystem mounts */
if ( strcmp(mnt_type, "supermount") == 0 ) {
tmp = strstr(mntent->mnt_opts, "fs=");
if ( tmp ) {
free(mnt_type);
mnt_type = strdup(tmp + strlen("fs="));
if ( mnt_type ) {
tmp = strchr(mnt_type, ',');
if ( tmp ) {
*tmp = '\0';
}
}
}
tmp = strstr(mntent->mnt_opts, "dev=");
if ( tmp ) {
free(mnt_dev);
mnt_dev = strdup(tmp + strlen("dev="));
if ( mnt_dev ) {
tmp = strchr(mnt_dev, ',');
if ( tmp ) {
*tmp = '\0';
}
}
}
}
if ( strcmp(mnt_type, "iso9660") == 0 ) {
if (cdio_is_cdrom(mnt_dev, mnt_type) > 0) {
free(mnt_type);
endmntent(mntfp);
return mnt_dev;
}
}
free(mnt_dev);
free(mnt_type);
}
endmntent(mntfp);
}
return NULL;
}
static int
_set_bsize (int fd, unsigned int bsize)
{
struct cdrom_generic_command cgc;
struct
{
uint8_t reserved1;
uint8_t medium;
uint8_t reserved2;
uint8_t block_desc_length;
uint8_t density;
uint8_t number_of_blocks_hi;
uint8_t number_of_blocks_med;
uint8_t number_of_blocks_lo;
uint8_t reserved3;
uint8_t block_length_hi;
uint8_t block_length_med;
uint8_t block_length_lo;
} mh;
memset (&mh, 0, sizeof (mh));
memset (&cgc, 0, sizeof (struct cdrom_generic_command));
cgc.cmd[0] = 0x15;
cgc.cmd[1] = 1 << 4;
cgc.cmd[4] = 12;
cgc.buflen = sizeof (mh);
cgc.buffer = (void *) &mh;
cgc.data_direction = CGC_DATA_WRITE;
mh.block_desc_length = 0x08;
mh.block_length_hi = (bsize >> 16) & 0xff;
mh.block_length_med = (bsize >> 8) & 0xff;
mh.block_length_lo = (bsize >> 0) & 0xff;
return ioctl (fd, CDROM_SEND_PACKET, &cgc);
}
/* Packet driver to read mode2 sectors.
Can read only up to 25 blocks.
*/
static int
_read_sectors_mmc (int fd, void *buf, lba_t lba, int sector_type,
unsigned int nblocks)
{
cgc_t cgc;
memset (&cgc, 0, sizeof (cgc_t));
cgc.cmd[0] = CDIO_MMC_GPCMD_READ_CD;
CDIO_MMC_SET_READ_TYPE (cgc.cmd, sector_type);
CDIO_MMC_SET_READ_LBA (cgc.cmd, lba);
CDIO_MMC_SET_READ_LENGTH(cgc.cmd, nblocks);
CDIO_MMC_SET_MAIN_CHANNEL_SELECTION_BITS(cgc.cmd, CDIO_MMC_MCSB_ALL_HEADERS);
cgc.buflen = CDIO_CD_FRAMESIZE_RAW * nblocks;
cgc.buffer = buf;
#ifdef HAVE_LINUX_CDROM_TIMEOUT
cgc.timeout = 500;
#endif
cgc.data_direction = CGC_DATA_READ;
return ioctl (fd, CDROM_SEND_PACKET, &cgc);
return 0;
}
/* MMC driver to read audio sectors.
Can read only up to 25 blocks.
*/
static int
_read_audio_sectors_linux (void *user_data, void *buf, lsn_t lsn,
unsigned int nblocks)
{
_img_private_t *env = user_data;
return _read_sectors_mmc( env->gen.fd, buf, lsn,
CDIO_MMC_READ_TYPE_CDDA, nblocks);
}
/* Packet driver to read mode2 sectors.
Can read only up to 25 blocks.
*/
static int
_read_mode2_sectors_mmc (int fd, void *buf, lba_t lba,
unsigned int nblocks, bool b_read_10)
{
struct cdrom_generic_command cgc;
memset (&cgc, 0, sizeof (struct cdrom_generic_command));
CDIO_MMC_SET_COMMAND(cgc.cmd, b_read_10
? CDIO_MMC_GPCMD_READ_10 : CDIO_MMC_GPCMD_READ_CD);
CDIO_MMC_SET_READ_LBA(cgc.cmd, lba);
CDIO_MMC_SET_READ_LENGTH(cgc.cmd, nblocks);
if (!b_read_10) {
cgc.cmd[1] = 0; /* sector size mode2 */
cgc.cmd[9] = 0x58; /* 2336 mode2 */
}
cgc.buflen = M2RAW_SECTOR_SIZE * nblocks;
cgc.buffer = buf;
#ifdef HAVE_LINUX_CDROM_TIMEOUT
cgc.timeout = 500;
#endif
cgc.data_direction = CGC_DATA_READ;
if (b_read_10)
{
int retval;
if ((retval = _set_bsize (fd, M2RAW_SECTOR_SIZE)))
return retval;
if ((retval = ioctl (fd, CDROM_SEND_PACKET, &cgc)))
{
_set_bsize (fd, CDIO_CD_FRAMESIZE);
return retval;
}
if ((retval = _set_bsize (fd, CDIO_CD_FRAMESIZE)))
return retval;
}
else
return ioctl (fd, CDROM_SEND_PACKET, &cgc);
return 0;
}
static int
_read_mode2_sectors (int fd, void *buf, lba_t lba,
unsigned int nblocks, bool b_read_10)
{
unsigned int l = 0;
int retval = 0;
while (nblocks > 0)
{
const unsigned nblocks2 = (nblocks > 25) ? 25 : nblocks;
void *buf2 = ((char *)buf ) + (l * M2RAW_SECTOR_SIZE);
retval |= _read_mode2_sectors_mmc (fd, buf2, lba + l, nblocks2,
b_read_10);
if (retval)
break;
nblocks -= nblocks2;
l += nblocks2;
}
return retval;
}
/*!
Reads a single mode1 sector from cd device into data starting
from lsn. Returns 0 if no error.
*/
static int
_read_mode1_sector_linux (void *env, void *data, lsn_t lsn,
bool b_form2)
{
#if FIXED
char buf[M2RAW_SECTOR_SIZE] = { 0, };
struct cdrom_msf *msf = (struct cdrom_msf *) &buf;
msf_t _msf;
_img_private_t *_obj = env;
cdio_lba_to_msf (cdio_lsn_to_lba(lsn), &_msf);
msf->cdmsf_min0 = from_bcd8(_msf.m);
msf->cdmsf_sec0 = from_bcd8(_msf.s);
msf->cdmsf_frame0 = from_bcd8(_msf.f);
retry:
switch (_obj->access_mode)
{
case _AM_NONE:
cdio_warn ("no way to read mode1");
return 1;
break;
case _AM_IOCTL:
if (ioctl (_obj->gen.fd, CDROMREADMODE1, &buf) == -1)
{
perror ("ioctl()");
return 1;
/* exit (EXIT_FAILURE); */
}
break;
case _AM_READ_CD:
case _AM_READ_10:
if (_read_mode2_sectors (_obj->gen.fd, buf, lsn, 1,
(_obj->access_mode == _AM_READ_10)))
{
perror ("ioctl()");
if (_obj->access_mode == _AM_READ_CD)
{
cdio_info ("READ_CD failed; switching to READ_10 mode...");
_obj->access_mode = _AM_READ_10;
goto retry;
}
else
{
cdio_info ("READ_10 failed; switching to ioctl(CDROMREADMODE2) mode...");
_obj->access_mode = _AM_IOCTL;
goto retry;
}
return 1;
}
break;
}
memcpy (data, buf + CDIO_CD_SYNC_SIZE + CDIO_CD_HEADER_SIZE,
b_form2 ? M2RAW_SECTOR_SIZE: CDIO_CD_FRAMESIZE);
#else
return cdio_generic_read_form1_sector(env, data, lsn);
#endif
return 0;
}
/*!
Reads nblocks of mode2 sectors from cd device into data starting
from lsn.
Returns 0 if no error.
*/
static int
_read_mode1_sectors_linux (void *user_data, void *data, lsn_t lsn,
bool b_form2, unsigned int nblocks)
{
_img_private_t *env = user_data;
unsigned int i;
int retval;
unsigned int blocksize = b_form2 ? M2RAW_SECTOR_SIZE : CDIO_CD_FRAMESIZE;
for (i = 0; i < nblocks; i++) {
if ( (retval = _read_mode1_sector_linux (env,
((char *)data) + (blocksize * i),
lsn + i, b_form2)) )
return retval;
}
return 0;
}
/*!
Reads a single mode2 sector from cd device into data starting
from lsn. Returns 0 if no error.
*/
static int
_read_mode2_sector_linux (void *user_data, void *data, lsn_t lsn,
bool b_form2)
{
char buf[M2RAW_SECTOR_SIZE] = { 0, };
struct cdrom_msf *msf = (struct cdrom_msf *) &buf;
msf_t _msf;
_img_private_t *env = user_data;
cdio_lba_to_msf (cdio_lsn_to_lba(lsn), &_msf);
msf->cdmsf_min0 = from_bcd8(_msf.m);
msf->cdmsf_sec0 = from_bcd8(_msf.s);
msf->cdmsf_frame0 = from_bcd8(_msf.f);
retry:
switch (env->access_mode)
{
case _AM_NONE:
cdio_warn ("no way to read mode2");
return 1;
break;
case _AM_IOCTL:
if (ioctl (env->gen.fd, CDROMREADMODE2, &buf) == -1)
{
perror ("ioctl()");
return 1;
/* exit (EXIT_FAILURE); */
}
break;
case _AM_READ_CD:
case _AM_READ_10:
if (_read_mode2_sectors (env->gen.fd, buf, lsn, 1,
(env->access_mode == _AM_READ_10)))
{
perror ("ioctl()");
if (env->access_mode == _AM_READ_CD)
{
cdio_info ("READ_CD failed; switching to READ_10 mode...");
env->access_mode = _AM_READ_10;
goto retry;
}
else
{
cdio_info ("READ_10 failed; switching to ioctl(CDROMREADMODE2) mode...");
env->access_mode = _AM_IOCTL;
goto retry;
}
return 1;
}
break;
}
if (b_form2)
memcpy (data, buf, M2RAW_SECTOR_SIZE);
else
memcpy (((char *)data), buf + CDIO_CD_SUBHEADER_SIZE, CDIO_CD_FRAMESIZE);
return 0;
}
/*!
Reads nblocks of mode2 sectors from cd device into data starting
from lsn.
Returns 0 if no error.
*/
static int
_read_mode2_sectors_linux (void *user_data, void *data, lsn_t lsn,
bool b_form2, unsigned int nblocks)
{
_img_private_t *env = user_data;
unsigned int i;
unsigned int i_blocksize = b_form2 ? M2RAW_SECTOR_SIZE : CDIO_CD_FRAMESIZE;
/* For each frame, pick out the data part we need */
for (i = 0; i < nblocks; i++) {
int retval;
if ( (retval = _read_mode2_sector_linux (env,
((char *)data) + (i_blocksize * i),
lsn + i, b_form2)) )
return retval;
}
return 0;
}
/*!
Return the size of the CD in logical block address (LBA) units.
*/
static uint32_t
_stat_size_linux (void *user_data)
{
_img_private_t *env = user_data;
struct cdrom_tocentry tocent;
uint32_t size;
tocent.cdte_track = CDIO_CDROM_LEADOUT_TRACK;
tocent.cdte_format = CDROM_LBA;
if (ioctl (env->gen.fd, CDROMREADTOCENTRY, &tocent) == -1)
{
perror ("ioctl(CDROMREADTOCENTRY)");
exit (EXIT_FAILURE);
}
size = tocent.cdte_addr.lba;
return size;
}
/*!
Set the arg "key" with "value" in the source device.
Currently "source" and "access-mode" are valid keys.
"source" sets the source device in I/O operations
"access-mode" sets the the method of CD access
0 is returned if no error was found, and nonzero if there as an error.
*/
static int
_set_arg_linux (void *user_data, const char key[], const char value[])
{
_img_private_t *env = user_data;
if (!strcmp (key, "source"))
{
if (!value)
return -2;
free (env->gen.source_name);
env->gen.source_name = strdup (value);
}
else if (!strcmp (key, "access-mode"))
{
return str_to_access_mode_linux(value);
}
else
return -1;
return 0;
}
/*!
Read and cache the CD's Track Table of Contents and track info.
Return false if successful or true if an error.
*/
static bool
_cdio_read_toc (_img_private_t *env)
{
int i;
/* read TOC header */
if ( ioctl(env->gen.fd, CDROMREADTOCHDR, &env->tochdr) == -1 ) {
cdio_warn("%s: %s\n",
"error in ioctl CDROMREADTOCHDR", strerror(errno));
return false;
}
/* read individual tracks */
for (i= FIRST_TRACK_NUM; i<=TOTAL_TRACKS; i++) {
env->tocent[i-FIRST_TRACK_NUM].cdte_track = i;
env->tocent[i-FIRST_TRACK_NUM].cdte_format = CDROM_MSF;
if ( ioctl(env->gen.fd, CDROMREADTOCENTRY,
&env->tocent[i-FIRST_TRACK_NUM]) == -1 ) {
cdio_warn("%s %d: %s\n",
"error in ioctl CDROMREADTOCENTRY for track",
i, strerror(errno));
return false;
}
/****
struct cdrom_msf0 *msf= &env->tocent[i-1].cdte_addr.msf;
fprintf (stdout, "--- track# %d (msf %2.2x:%2.2x:%2.2x)\n",
i, msf->minute, msf->second, msf->frame);
****/
}
/* read the lead-out track */
env->tocent[TOTAL_TRACKS].cdte_track = CDIO_CDROM_LEADOUT_TRACK;
env->tocent[TOTAL_TRACKS].cdte_format = CDROM_MSF;
if (ioctl(env->gen.fd, CDROMREADTOCENTRY,
&env->tocent[TOTAL_TRACKS]) == -1 ) {
cdio_warn("%s: %s\n",
"error in ioctl CDROMREADTOCENTRY for lead-out",
strerror(errno));
return false;
}
/*
struct cdrom_msf0 *msf= &env->tocent[TOTAL_TRACKS].cdte_addr.msf;
fprintf (stdout, "--- track# %d (msf %2.2x:%2.2x:%2.2x)\n",
i, msf->minute, msf->second, msf->frame);
*/
env->gen.toc_init = true;
return true;
}
#if 1
#define set_cdtext_field(FIELD) \
if( i_track == 0 ) \
env->cdtext.field[FIELD] = strdup(buffer); \
else \
env->cdtext_track[i_track-1].field[FIELD] \
= strdup(buffer); \
i_track++; \
idx = 0;
/*!
Get cdtext information for a CdIo object .
@param obj the CD object that may contain CD-TEXT information.
@return the CD-TEXT object or NULL if obj is NULL
or CD-TEXT information does not exist.
*/
static const cdtext_t *
_get_cdtext_linux (void *user_data)
{
_img_private_t *env = user_data;
int status;
struct scsi_cmd {
unsigned int inlen; /* Length of data written to device */
unsigned int outlen; /* Length of data read from device */
unsigned char cmd[10]; /* SCSI command (6 <= x <= 16) */
unsigned char wdata[5000]; /* Data read from device starts here
On error, sense buffer starts here */
} scsi_cmd;
memset( scsi_cmd.cmd, 0, sizeof(scsi_cmd.cmd) );
CDIO_MMC_SET_COMMAND(scsi_cmd.cmd, CDIO_MMC_GPCMD_READ_TOC);
scsi_cmd.cmd[1] = 0x02; /* MSF mode */
scsi_cmd.cmd[2] = 0x05; /* CD text */
CDIO_MMC_SET_READ_LENGTH(scsi_cmd.cmd, sizeof(scsi_cmd.wdata));
scsi_cmd.inlen = sizeof(scsi_cmd.cmd);
scsi_cmd.outlen = sizeof(scsi_cmd.wdata);
status = ioctl(env->gen.fd, SCSI_IOCTL_SEND_COMMAND, (void *)&scsi_cmd);
if (status != 0) {
cdio_warn ("CDTEXT reading failed: %s\n", strerror(errno));
return NULL;
} else {
CDText_data_t *pdata;
int i;
int j;
char buffer[256];
int idx;
int i_track;
printf("READ CDTEXT!\n");
memset( buffer, 0x00, sizeof(buffer) );
idx = 0;
pdata = (CDText_data_t *) (&scsi_cmd.wdata[4]);
for( i=0; i < CDIO_CDTEXT_MAX_PACK_DATA; i++ ) {
if( pdata->seq != i )
break;
if( (pdata->type >= 0x80)
&& (pdata->type <= 0x85) && (pdata->block == 0) ) {
i_track = pdata->i_track;
for( j=0; j < CDIO_CDTEXT_MAX_TEXT_DATA; j++ ) {
if( pdata->text[j] == 0x00 )
{
switch( pdata->type) {
case CDIO_CDTEXT_TITLE:
set_cdtext_field(CDTEXT_TITLE);
break;
case CDIO_CDTEXT_PERFORMER:
set_cdtext_field(CDTEXT_PERFORMER);
break;
case CDIO_CDTEXT_SONGWRITER:
set_cdtext_field(CDTEXT_SONGWRITER);
break;
case CDIO_CDTEXT_COMPOSER:
set_cdtext_field(CDTEXT_COMPOSER);
break;
case CDIO_CDTEXT_ARRANGER:
set_cdtext_field(CDTEXT_ARRANGER);
break;
case CDIO_CDTEXT_MESSAGE:
set_cdtext_field(CDTEXT_MESSAGE);
break;
case CDIO_CDTEXT_DISCID:
set_cdtext_field(CDTEXT_DISCID);
break;
case CDIO_CDTEXT_GENRE:
set_cdtext_field(CDTEXT_GENRE);
break;
}
}
else {
buffer[idx++] = pdata->text[j];
}
buffer[idx] = 0x00;
}
}
pdata++;
}
}
env->b_cdtext_init = true;
return &(env->cdtext);
}
#endif
/*
* Eject using SCSI commands. Return 1 if successful, 0 otherwise.
*/
static int
_eject_media_mmc(int fd)
{
int status;
struct sdata {
unsigned int inlen; /* input: Length of data written to device */
unsigned int outlen; /* input: Length of data read from device */
char cmd[10]; /* input: SCSI command (6 <= x <= 16) */
} scsi_cmd;
CDIO_MMC_SET_COMMAND(scsi_cmd.cmd, CDIO_MMC_GPCMD_ALLOW_MEDIUM_REMOVAL);
scsi_cmd.inlen = 0;
scsi_cmd.outlen = 0;
scsi_cmd.cmd[1] = 0;
scsi_cmd.cmd[2] = 0;
scsi_cmd.cmd[3] = 0;
scsi_cmd.cmd[4] = 0;
scsi_cmd.cmd[5] = 0;
status = ioctl(fd, SCSI_IOCTL_SEND_COMMAND, (void *)&scsi_cmd);
if (status != 0)
return status;
scsi_cmd.inlen = 0;
scsi_cmd.outlen = 0;
CDIO_MMC_SET_COMMAND(scsi_cmd.cmd, CDIO_MMC_GPCMD_START_STOP);
scsi_cmd.cmd[1] = 0;
scsi_cmd.cmd[2] = 0;
scsi_cmd.cmd[3] = 0;
scsi_cmd.cmd[4] = 1;
scsi_cmd.cmd[5] = 0;
status = ioctl(fd, SCSI_IOCTL_SEND_COMMAND, (void *)&scsi_cmd);
if (status != 0)
return status;
scsi_cmd.inlen = 0;
scsi_cmd.outlen = 0;
CDIO_MMC_SET_COMMAND(scsi_cmd.cmd, CDIO_MMC_GPCMD_START_STOP);
scsi_cmd.cmd[1] = 0;
scsi_cmd.cmd[2] = 0;
scsi_cmd.cmd[3] = 0;
scsi_cmd.cmd[4] = 2; /* eject */
scsi_cmd.cmd[5] = 0;
status = ioctl(fd, SCSI_IOCTL_SEND_COMMAND, (void *)&scsi_cmd);
if (status != 0)
return status;
/* force kernel to reread partition table when new disc inserted */
status = ioctl(fd, BLKRRPART);
return (status);
}
/*!
Eject media in CD drive.
Return 0 if success and 1 for failure, and 2 if no routine.
*/
static int
_eject_media_linux (void *user_data) {
_img_private_t *env = user_data;
int ret=2;
int status;
int fd;
close(env->gen.fd);
env->gen.fd = -1;
if ((fd = open (env->gen.source_name, O_RDONLY|O_NONBLOCK)) > -1) {
if((status = ioctl(fd, CDROM_DRIVE_STATUS, CDSL_CURRENT)) > 0) {
switch(status) {
case CDS_TRAY_OPEN:
if((ret = ioctl(fd, CDROMCLOSETRAY)) != 0) {
cdio_warn ("ioctl CDROMCLOSETRAY failed: %s\n", strerror(errno));
ret = 1;
}
break;
case CDS_DISC_OK:
if((ret = ioctl(fd, CDROMEJECT)) != 0) {
int eject_error = errno;
/* Try ejecting the MMC way... */
ret = _eject_media_mmc(fd);
if (0 != ret) {
cdio_warn("ioctl CDROMEJECT failed: %s\n", strerror(eject_error));
ret = 1;
}
}
break;
default:
cdio_warn ("Unknown CD-ROM (%d)\n", status);
ret = 1;
}
} else {
cdio_warn ("CDROM_DRIVE_STATUS failed: %s\n", strerror(errno));
ret=1;
}
close(fd);
return ret;
}
return 2;
}
/*!
Return the value associated with the key "arg".
*/
static const char *
_get_arg_linux (void *env, const char key[])
{
_img_private_t *_obj = env;
if (!strcmp (key, "source")) {
return _obj->gen.source_name;
} else if (!strcmp (key, "access-mode")) {
switch (_obj->access_mode) {
case _AM_IOCTL:
return "ioctl";
case _AM_READ_CD:
return "READ_CD";
case _AM_READ_10:
return "READ_10";
case _AM_NONE:
return "no access method";
}
}
return NULL;
}
/*!
Return the number of of the first track.
CDIO_INVALID_TRACK is returned on error.
*/
static track_t
_get_first_track_num_linux(void *user_data)
{
_img_private_t *env = user_data;
if (!env->gen.toc_init) _cdio_read_toc (env) ;
return FIRST_TRACK_NUM;
}
/*!
Return the media catalog number MCN.
Note: string is malloc'd so caller should free() then returned
string when done with it.
*/
static char *
_get_mcn_linux (const void *env) {
struct cdrom_mcn mcn;
const _img_private_t *_obj = env;
memset(&mcn, 0, sizeof(mcn));
if (ioctl(_obj->gen.fd, CDROM_GET_MCN, &mcn) != 0)
return NULL;
return strdup(mcn.medium_catalog_number);
}
/*!
Return the the kind of drive capabilities of device.
Note: string is malloc'd so caller should free() then returned
string when done with it.
*/
static cdio_drive_cap_t
_get_drive_cap_linux (const void *env) {
const _img_private_t *_obj = env;
int32_t i_drivetype;
i_drivetype = ioctl (_obj->gen.fd, CDROM_GET_CAPABILITY, CDSL_CURRENT);
if (i_drivetype < 0) return CDIO_DRIVE_CAP_ERROR;
/* If >= 0 we can safely cast as cdio_drive_cap_t and return */
return (cdio_drive_cap_t) i_drivetype;
}
/*!
Return the number of tracks in the current medium.
CDIO_INVALID_TRACK is returned on error.
*/
static track_t
_get_num_tracks_linux(void *user_data)
{
_img_private_t *env = user_data;
if (!env->gen.toc_init) _cdio_read_toc (env) ;
return TOTAL_TRACKS;
}
/*!
Get format of track.
*/
static track_format_t
_get_track_format_linux(void *user_data, track_t i_track)
{
_img_private_t *env = user_data;
if (i_track > (TOTAL_TRACKS+FIRST_TRACK_NUM) || i_track < FIRST_TRACK_NUM)
return TRACK_FORMAT_ERROR;
i_track -= FIRST_TRACK_NUM;
/* This is pretty much copied from the "badly broken" cdrom_count_tracks
in linux/cdrom.c.
*/
if (env->tocent[i_track].cdte_ctrl & CDIO_CDROM_DATA_TRACK) {
if (env->tocent[i_track].cdte_format == CDIO_CDROM_CDI_TRACK)
return TRACK_FORMAT_CDI;
else if (env->tocent[i_track].cdte_format == CDIO_CDROM_XA_TRACK)
return TRACK_FORMAT_XA;
else
return TRACK_FORMAT_DATA;
} else
return TRACK_FORMAT_AUDIO;
}
/*!
Return true if we have XA data (green, mode2 form1) or
XA data (green, mode2 form2). That is track begins:
sync - header - subheader
12 4 - 8
FIXME: there's gotta be a better design for this and get_track_format?
*/
static bool
_get_track_green_linux(void *user_data, track_t i_track)
{
_img_private_t *env = user_data;
if (!env->gen.toc_init) _cdio_read_toc (env) ;
if (i_track > (TOTAL_TRACKS+FIRST_TRACK_NUM) || i_track < FIRST_TRACK_NUM)
return false;
i_track -= FIRST_TRACK_NUM;
/* FIXME: Dunno if this is the right way, but it's what
I was using in cd-info for a while.
*/
return ((env->tocent[i_track].cdte_ctrl & 2) != 0);
}
/*!
Return the starting MSF (minutes/secs/frames) for track number
track_num in obj. Track numbers usually start at something
greater than 0, usually 1.
The "leadout" track is specified either by
using i_track LEADOUT_TRACK or the total tracks+1.
False is returned if there is no track entry.
*/
static bool
_get_track_msf_linux(void *user_data, track_t i_track, msf_t *msf)
{
_img_private_t *env = user_data;
if (NULL == msf) return false;
if (!env->gen.toc_init) _cdio_read_toc (env) ;
if (i_track == CDIO_CDROM_LEADOUT_TRACK)
i_track = TOTAL_TRACKS + FIRST_TRACK_NUM;
if (i_track > (TOTAL_TRACKS+FIRST_TRACK_NUM) || i_track < FIRST_TRACK_NUM) {
return false;
} else {
struct cdrom_msf0 *msf0= &env->tocent[i_track-FIRST_TRACK_NUM].cdte_addr.msf;
msf->m = to_bcd8(msf0->minute);
msf->s = to_bcd8(msf0->second);
msf->f = to_bcd8(msf0->frame);
return true;
}
}
/* checklist: /dev/cdrom, /dev/dvd /dev/hd?, /dev/scd? /dev/sr? */
static char checklist1[][40] = {
{"cdrom"}, {"dvd"}, {""}
};
static char checklist2[][40] = {
{"?a hd?"}, {"?0 scd?"}, {"?0 sr?"}, {""}
};
#endif /* HAVE_LINUX_CDROM */
/*!
Return an array of strings giving possible CD devices.
*/
char **
cdio_get_devices_linux (void)
{
#ifndef HAVE_LINUX_CDROM
return NULL;
#else
unsigned int i;
char drive[40];
char *ret_drive;
bool exists;
char **drives = NULL;
unsigned int num_drives=0;
/* Scan the system for CD-ROM drives.
*/
for ( i=0; strlen(checklist1[i]) > 0; ++i ) {
sprintf(drive, "/dev/%s", checklist1[i]);
if ( (exists=cdio_is_cdrom(drive, NULL)) > 0 ) {
cdio_add_device_list(&drives, drive, &num_drives);
}
}
/* Now check the currently mounted CD drives */
if (NULL != (ret_drive = cdio_check_mounts("/etc/mtab"))) {
cdio_add_device_list(&drives, ret_drive, &num_drives);
free(ret_drive);
}
/* Finally check possible mountable drives in /etc/fstab */
if (NULL != (ret_drive = cdio_check_mounts("/etc/fstab"))) {
cdio_add_device_list(&drives, ret_drive, &num_drives);
free(ret_drive);
}
/* Scan the system for CD-ROM drives.
Not always 100% reliable, so use the USE_MNTENT code above first.
*/
for ( i=0; strlen(checklist2[i]) > 0; ++i ) {
unsigned int j;
char *insert;
exists = true;
for ( j=checklist2[i][1]; exists; ++j ) {
sprintf(drive, "/dev/%s", &checklist2[i][3]);
insert = strchr(drive, '?');
if ( insert != NULL ) {
*insert = j;
}
if ( (exists=cdio_is_cdrom(drive, NULL)) > 0 ) {
cdio_add_device_list(&drives, drive, &num_drives);
}
}
}
cdio_add_device_list(&drives, NULL, &num_drives);
return drives;
#endif /*HAVE_LINUX_CDROM*/
}
/*!
Return a string containing the default CD device.
*/
char *
cdio_get_default_device_linux(void)
{
#ifndef HAVE_LINUX_CDROM
return NULL;
#else
unsigned int i;
char drive[40];
bool exists;
char *ret_drive;
/* Scan the system for CD-ROM drives.
*/
for ( i=0; strlen(checklist1[i]) > 0; ++i ) {
sprintf(drive, "/dev/%s", checklist1[i]);
if ( (exists=cdio_is_cdrom(drive, NULL)) > 0 ) {
return strdup(drive);
}
}
/* Now check the currently mounted CD drives */
if (NULL != (ret_drive = cdio_check_mounts("/etc/mtab")))
return ret_drive;
/* Finally check possible mountable drives in /etc/fstab */
if (NULL != (ret_drive = cdio_check_mounts("/etc/fstab")))
return ret_drive;
/* Scan the system for CD-ROM drives.
Not always 100% reliable, so use the USE_MNTENT code above first.
*/
for ( i=0; strlen(checklist2[i]) > 0; ++i ) {
unsigned int j;
char *insert;
exists = true;
for ( j=checklist2[i][1]; exists; ++j ) {
sprintf(drive, "/dev/%s", &checklist2[i][3]);
insert = strchr(drive, '?');
if ( insert != NULL ) {
*insert = j;
}
if ( (exists=cdio_is_cdrom(drive, NULL)) > 0 ) {
return(strdup(drive));
}
}
}
return NULL;
#endif /*HAVE_LINUX_CDROM*/
}
/*!
Initialization routine. This is the only thing that doesn't
get called via a function pointer. In fact *we* are the
ones to set that up.
*/
CdIo *
cdio_open_linux (const char *psz_source_name)
{
return cdio_open_am_linux(psz_source_name, NULL);
}
/*!
Initialization routine. This is the only thing that doesn't
get called via a function pointer. In fact *we* are the
ones to set that up.
*/
CdIo *
cdio_open_am_linux (const char *psz_orig_source, const char *access_mode)
{
#ifdef HAVE_LINUX_CDROM
CdIo *ret;
_img_private_t *_data;
char *psz_source;
cdio_funcs _funcs = {
.eject_media = _eject_media_linux,
.free = cdio_generic_free,
.get_arg = _get_arg_linux,
.get_cdtext = _get_cdtext_linux,
.get_devices = cdio_get_devices_linux,
.get_default_device = cdio_get_default_device_linux,
.get_drive_cap = _get_drive_cap_linux,
.get_first_track_num= _get_first_track_num_linux,
.get_mcn = _get_mcn_linux,
.get_num_tracks = _get_num_tracks_linux,
.get_track_format = _get_track_format_linux,
.get_track_green = _get_track_green_linux,
.get_track_lba = NULL, /* This could be implemented if need be. */
.get_track_msf = _get_track_msf_linux,
.lseek = cdio_generic_lseek,
.read = cdio_generic_read,
.read_audio_sectors = _read_audio_sectors_linux,
.read_mode1_sector = _read_mode1_sector_linux,
.read_mode1_sectors = _read_mode1_sectors_linux,
.read_mode2_sector = _read_mode2_sector_linux,
.read_mode2_sectors = _read_mode2_sectors_linux,
.set_arg = _set_arg_linux,
.stat_size = _stat_size_linux
};
_data = _cdio_malloc (sizeof (_img_private_t));
_data->access_mode = str_to_access_mode_linux(access_mode);
_data->gen.init = false;
_data->gen.fd = -1;
_data->b_cdtext_init = false;
if (NULL == psz_orig_source) {
psz_source=cdio_get_default_device_linux();
if (NULL == psz_source) return NULL;
_set_arg_linux(_data, "source", psz_source);
free(psz_source);
} else {
if (cdio_is_device_generic(psz_orig_source))
_set_arg_linux(_data, "source", psz_orig_source);
else {
/* The below would be okay if all device drivers worked this way. */
#if 0
cdio_info ("source %s is a not a device", psz_orig_source);
#endif
return NULL;
}
}
ret = cdio_new (_data, &_funcs);
if (ret == NULL) return NULL;
if (cdio_generic_init(_data))
return ret;
else {
cdio_generic_free (_data);
return NULL;
}
#else
return NULL;
#endif /* HAVE_LINUX_CDROM */
}
bool
cdio_have_linux (void)
{
#ifdef HAVE_LINUX_CDROM
return true;
#else
return false;
#endif /* HAVE_LINUX_CDROM */
}
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