claunia/libcdio-osx
Archived
1
0
Fork 0
Code Issues 2 Pull Requests Actions Packages Projects Releases Wiki Activity

glossary.texi: disctype additions/corrections

Browse Source 
mmc.c: start test of get_disctype, stylisting convention changes.
Warning: mmc_get_configuration and mmc_get_mode_select are broken.
This commit is contained in:
R. Bernstein
2010-02-08 07:38:42 -05:00
parent 2bc0c8c31c
commit ff23f198d7
2 changed files with 181 additions and 151 deletions
Download Patch File Download Diff File Expand all files Collapse all files

4
doc/glossary.texi
View File

@@ -328,8 +328,10 @@ Special burn programs are needed for writing to them.
@item DVD-R DL 0x15 (double layer)
@item DVD-R DL 0x16 (double layer, jump recording)
@item DVD+R 0x1a
@item DVD+R DL 0x2a (double layer)
@item DVD+RW DL 0x2a (double layer)
@item DVD+R DL 0x2b (double layer)
@item BD-R 0x41 (single or double layer, formatted or not)
@item HD DVD-ROM 0x50
@item HD DVD-R 0x51
@item HD DVD-RAM 0x52
@end table

328
test/driver/mmc.c
View File

@@ -42,47 +42,55 @@
/* The compiler warns if no prototypes are given before function definition */
static int tmmc_eject_load_cycle(CdIo_t *p_cdio, int flag);
static int test_eject_load_cycle(CdIo_t *p_cdio, unsigned int i_flag);
static int tmmc_eject_test_load(CdIo_t *p_cdio, int flag);
static int test_eject_test_load(CdIo_t *p_cdio, unsigned int i_flag);
static driver_return_code_t tmmc_get_disc_erasable(const CdIo_t *p_cdio,
static driver_return_code_t test_get_disc_erasable(const CdIo_t *p_cdio,
const char *psz_source,
int verbose);
bool verbose);
static int tmmc_handle_outcome(CdIo_t *p_cdio, int i_status,
static int test_get_disctype(CdIo_t *p_cdio, bool b_verbose);
static int test_handle_outcome(CdIo_t *p_cdio, int i_status,
int *sense_avail,
unsigned char sense_reply[18], int flag);
unsigned char sense_reply[18],
unsigned int i_flag);
static void tmmc_print_status_sense(int i_status, int sense_valid,
cdio_mmc_request_sense_t *, int flag);
static void test_print_status_sense(int i_status, int sense_valid,
cdio_mmc_request_sense_t *,
unsigned int i_flag);
static int tmmc_load_eject(CdIo_t *p_cdio, int *sense_avail,
unsigned char sense_reply[18], int flag);
static int tmmc_mode_select(CdIo_t *p_cdio,
static int test_load_eject(CdIo_t *p_cdio, int *sense_avail,
unsigned char sense_reply[18], unsigned int i_flag);
static int test_mode_select(CdIo_t *p_cdio,
int *sense_avail, unsigned char sense_reply[18],
unsigned char *p_buf, unsigned int i_size, int flag);
unsigned char *p_buf, unsigned int i_size,
unsigned int i_flag);
static int tmmc_mode_sense(CdIo_t *p_cdio, int *sense_avail,
static int test_mode_sense(CdIo_t *p_cdio, int *sense_avail,
unsigned char sense_reply[18],
int page_code, int subpage_code, int alloc_len,
unsigned char *buf, int *buf_fill, int flag);
unsigned char *buf, int *i_size,
unsigned int i_flag);
static int test_test_unit_ready(CdIo_t *p_cdio, int *sense_avail,
unsigned char sense_reply[18],
unsigned int i_flag);
static int test_wait_for_drive(CdIo_t *p_cdio, int max_tries,
unsigned int i_flag);
static int tmmc_test_unit_ready(CdIo_t *p_cdio, int *sense_avail,
unsigned char sense_reply[18], int flag);
static int tmmc_wait_for_drive(CdIo_t *p_cdio, int max_tries, int flag);
static int test_rwr_mode_page(CdIo_t *p_cdio, unsigned int i_flag);
static int tmmc_rwr_mode_page(CdIo_t *p_cdio, int flag);
static int tmmc_test(char *drive_path, int flag);
static int test_write(char *drive_path, unsigned int i_flag);
/* ------------------------- Helper functions ---------------------------- */
static driver_return_code_t
tmmc_get_disc_erasable(const CdIo_t *p_cdio, const char *psz_source,
int verbose)
test_get_disc_erasable(const CdIo_t *p_cdio, const char *psz_source,
bool verbose)
{
driver_return_code_t drc;
bool b_erasable = mmc_get_disc_erasable(p_cdio, &drc);
@@ -97,10 +105,10 @@ tmmc_get_disc_erasable(const CdIo_t *p_cdio, const char *psz_source,
/* @param flag bit0= verbose
*/
static void
tmmc_print_status_sense(int i_status, int sense_valid,
cdio_mmc_request_sense_t *p_sense, int flag)
test_print_status_sense(int i_status, int sense_valid,
cdio_mmc_request_sense_t *p_sense, unsigned int i_flag)
{
if (!(flag & 1))
if (!(i_flag & 1))
return;
fprintf(stderr, "return= %d , sense(%d)", i_status, sense_valid);
if (sense_valid >= 14)
@@ -116,13 +124,29 @@ tmmc_print_status_sense(int i_status, int sense_valid,
/* @param flag bit0= verbose
*/
static int
tmmc_handle_outcome(CdIo_t *p_cdio, int i_status,
int *sense_avail, unsigned char sense_reply[18], int flag)
test_get_disctype(CdIo_t *p_cdio, bool b_verbose)
{
cdio_mmc_disctype_t disctype;
driver_return_code_t i_status = mmc_get_disctype(p_cdio, 0, &disctype);
if (DRIVER_OP_SUCCESS == i_status) {
if (b_verbose)
fprintf(stderr, "test_disctype: type is 0x%X\n", disctype);
}
return DRIVER_OP_SUCCESS;
}
/* @param flag bit0= verbose
*/
static int
test_handle_outcome(CdIo_t *p_cdio, int i_status,
int *sense_avail, unsigned char sense_reply[18],
unsigned int i_flag)
{
cdio_mmc_request_sense_t *p_sense = NULL;
*sense_avail = mmc_last_cmd_sense(p_cdio, &p_sense);
tmmc_print_status_sense(i_status, *sense_avail, p_sense, flag & 1);
test_print_status_sense(i_status, *sense_avail, p_sense, i_flag & 1);
if (*sense_avail >= 18)
memcpy(sense_reply, p_sense, 18);
else
@@ -144,41 +168,42 @@ tmmc_handle_outcome(CdIo_t *p_cdio, int i_status,
@return return value of mmc_run_cmd()
*/
static int
tmmc_test_unit_ready(CdIo_t *p_cdio,
int *sense_avail, unsigned char sense_reply[18], int flag)
test_test_unit_ready(CdIo_t *p_cdio,
int *sense_avail, unsigned char sense_reply[18],
unsigned int i_flag)
{
int i_status;
if (flag & 1)
fprintf(stderr, "tmmc_test_unit_ready ... ");
if (i_flag & 1)
fprintf(stderr, "test_test_unit_ready ... ");
i_status = mmc_test_unit_ready(p_cdio, 0);
return tmmc_handle_outcome(p_cdio, i_status, sense_avail, sense_reply,
flag & 1);
return test_handle_outcome(p_cdio, i_status, sense_avail, sense_reply,
i_flag & 1);
}
/* OBTRUSIVE. PHYSICAL EFFECT: DANGER OF HUMAN INJURY */
/* @param flag bit0= verbose
bit1= Asynchronous operation
bit2= Load (else Eject)
@return return value of mmc_run_cmd()
/* @param i_flag bit0= verbose
bit1= Asynchronous operation
bit2= Load (else Eject)
@return return value of mmc_run_cmd()
*/
static int
tmmc_load_eject(CdIo_t *p_cdio, int *sense_avail,
unsigned char sense_reply[18], int flag)
test_load_eject(CdIo_t *p_cdio, int *sense_avail,
unsigned char sense_reply[18], unsigned int i_flag)
{
int i_status;
bool b_eject = !!(flag & 4);
bool b_immediate = !!(flag & 2);
bool b_eject = !!(i_flag & 4);
bool b_immediate = !!(i_flag & 2);
i_status = mmc_start_stop_unit(p_cdio, b_eject, b_immediate, 0, 0);
if (flag & 1)
fprintf(stderr, "tmmc_load_eject(0x%X) ... ", (unsigned int) flag);
if (i_flag & 1)
fprintf(stderr, "test_load_eject(0x%X) ... ", i_flag);
return tmmc_handle_outcome(p_cdio, i_status, sense_avail, sense_reply,
flag & 1);
return test_handle_outcome(p_cdio, i_status, sense_avail, sense_reply,
i_flag & 1);
}
@@ -193,37 +218,37 @@ tmmc_load_eject(CdIo_t *p_cdio, int *sense_avail,
The further bytes are the mode page, typically as of
MMC-5 7.2. There are meanwhile deprecated mode pages which
appear only in older versions of MMC.
@param buf_fill Will return the number of actually read bytes resp. the
@param i_size Will return the number of actually read bytes resp. the
number of available bytes. See flag bit1.
@param flag bit0= verbose
bit1= Peek mode:
Reply number of available bytes in *buf_fill and not
Reply number of available bytes in *i_size and not
the number of actually read bytes.
@return return value of mmc_run_cmd(),
or other driver_return_code_t
*/
static driver_return_code_t
tmmc_mode_sense(CdIo_t *p_cdio, int *sense_avail,unsigned char sense_reply[18],
test_mode_sense(CdIo_t *p_cdio, int *sense_avail,unsigned char sense_reply[18],
int page_code, int subpage_code, int alloc_len,
unsigned char *buf, int *buf_fill, int flag)
unsigned char *buf, int *i_size, unsigned int i_flag)
{
driver_return_code_t i_status;
if (alloc_len < 10)
return DRIVER_OP_BAD_PARAMETER;
if (flag & 1)
fprintf(stderr, "tmmc_mode_sense(0x%X, %X, %d) ... ",
if (i_flag & 1)
fprintf(stderr, "test_mode_sense(0x%X, %X, %d) ... ",
(unsigned int) page_code, (unsigned int) subpage_code, alloc_len);
i_status = mmc_mode_sense_10(p_cdio, buf, alloc_len, page_code);
tmmc_handle_outcome(p_cdio, i_status, sense_avail, sense_reply, flag & 1);
test_handle_outcome(p_cdio, i_status, sense_avail, sense_reply, i_flag & 1);
if (DRIVER_OP_SUCCESS != i_status)
return i_status;
if (flag & 2)
*buf_fill = buf[9] + 10; /* MMC-5 7.2.3 */
if (i_flag & 2)
*i_size = buf[9] + 10; /* MMC-5 7.2.3 */
else
*buf_fill = buf[0] * 256 + buf[1] + 2; /* SPC-3 7.4.3, table 240 */
*i_size = buf[0] * 256 + buf[1] + 2; /* SPC-3 7.4.3, table 240 */
return i_status;
}
@@ -236,15 +261,15 @@ tmmc_mode_sense(CdIo_t *p_cdio, int *sense_avail,unsigned char sense_reply[18],
The further bytes are the mode page, typically as of
MMC-5 7.2. There are meanwhile deprecated mode pages which
appear only in older versions of MMC.
@param buf_fill The number of bytes in buf.
@param i_size The number of bytes in buf.
@param flag bit0= verbose
@return return value of mmc_run_cmd(),
or other driver_return_code_t
*/
static int
tmmc_mode_select(CdIo_t *p_cdio,
test_mode_select(CdIo_t *p_cdio,
int *sense_avail, unsigned char sense_reply[18],
unsigned char *p_buf, unsigned int i_size, int flag)
unsigned char *p_buf, unsigned int i_size, unsigned int i_flag)
{
int i_status, i;
#ifndef MODE_SELECT_FIXED
@@ -254,8 +279,8 @@ tmmc_mode_select(CdIo_t *p_cdio,
if (i_size < 10)
return DRIVER_OP_BAD_PARAMETER;
if (flag & 1) {
printf("tmmc_mode_select to drive: %d bytes\n", i_size);
if (i_flag & 1) {
printf("test_mode_select to drive: %d bytes\n", i_size);
for (i = 0; i < i_size; i++) {
printf("%2.2X ", (unsigned int) p_buf[i]);
if ((i % 20) == 19)
@@ -265,8 +290,8 @@ tmmc_mode_select(CdIo_t *p_cdio,
printf("\n");
}
if (flag & 1)
fprintf(stderr, "tmmc_mode_select(0x%X, %d, %d) ... ",
if (i_flag & 1)
fprintf(stderr, "test_mode_select(0x%X, %d, %d) ... ",
(unsigned int) p_buf[8], (unsigned int) p_buf[9], i_size);
#ifdef MODE_SELECT_FIXED
i_status = mmc_mode_select_10(p_cdio, p_buf, i_size, 0x10, 10000);
@@ -277,8 +302,8 @@ tmmc_mode_select(CdIo_t *p_cdio,
i_status = mmc_run_cmd(p_cdio, 10000, &cdb, SCSI_MMC_DATA_WRITE,
i_size, p_buf);
#endif
return tmmc_handle_outcome(p_cdio, i_status, sense_avail, sense_reply,
flag & 1);
return test_handle_outcome(p_cdio, i_status, sense_avail, sense_reply,
i_flag & 1);
}
/* --------------------------- Larger gestures ----------------------------- */
@@ -291,14 +316,15 @@ tmmc_mode_select(CdIo_t *p_cdio,
@return 1= all seems well , 0= minor failure , -1= severe failure
*/
static int
tmmc_wait_for_drive(CdIo_t *p_cdio, int max_tries, int flag)
test_wait_for_drive(CdIo_t *p_cdio, int max_tries, unsigned int i_flag)
{
int ret, i, sense_avail;
unsigned char sense_reply[18];
cdio_mmc_request_sense_t *p_sense_reply = (cdio_mmc_request_sense_t *) sense_reply;
cdio_mmc_request_sense_t *p_sense_reply =
(cdio_mmc_request_sense_t *) sense_reply;
for (i = 0; i < max_tries; i++) {
ret = tmmc_test_unit_ready(p_cdio, &sense_avail, sense_reply, flag & 1);
ret = test_test_unit_ready(p_cdio, &sense_avail, sense_reply, i_flag & 1);
if (ret == 0) /* Unit is ready */
return 1;
if (sense_avail < 18)
@@ -316,7 +342,7 @@ tmmc_wait_for_drive(CdIo_t *p_cdio, int max_tries, int flag)
/* Medium not present */;
if (!(flag & 2))
if (!(i_flag & 2))
return 1;
} else if (p_sense_reply->sense_key == 0 && sense_reply[12] == 0) {
@@ -332,7 +358,7 @@ tmmc_wait_for_drive(CdIo_t *p_cdio, int max_tries, int flag)
}
sleep(1);
}
fprintf(stderr, "tmmc_eject_load_cycle: Drive not ready after %d retries\n",
fprintf(stderr, "test_eject_load_cycle: Drive not ready after %d retries\n",
max_tries);
return -1;
}
@@ -340,34 +366,34 @@ tmmc_wait_for_drive(CdIo_t *p_cdio, int max_tries, int flag)
/* OBTRUSIVE , PHYSICAL EFFECT , DANGER OF HUMAN INJURY */
/* Eject, wait, load asynchronously, and watch by test unit ready loop.
@param flag bit0= verbose
bit1= expect media (do not end on no-media sense)
@return 1= all seems well , 0= minor failure , -1= severe failure
@param i_flag bit0= verbose
bit1= expect media (do not end on no-media sense)
@return 1= all seems well , 0= minor failure , -1= severe failure
*/
static int
tmmc_eject_load_cycle(CdIo_t *p_cdio, int flag)
test_eject_load_cycle(CdIo_t *p_cdio, unsigned int i_flag)
{
int ret, sense_avail;
unsigned char sense_reply[18];
/* Eject synchronously */
fprintf(stderr,
"tmmc_eject_load_cycle: WARNING: EJECTING THE TRAY !\n");
"test_eject_load_cycle: WARNING: EJECTING THE TRAY !\n");
sleep(2);
tmmc_load_eject(p_cdio, &sense_avail, sense_reply, 0 | (flag & 1));
test_load_eject(p_cdio, &sense_avail, sense_reply, 0 | (i_flag & 1));
fprintf(stderr,
"tmmc_eject_load_cycle: waiting for 5 seconds. DO NOT TOUCH THE TRAY !\n");
"test_eject_load_cycle: waiting for 5 seconds. DO NOT TOUCH THE TRAY !\n");
sleep(3);
/* Load asynchronously */
fprintf(stderr,
"tmmc_eject_load_cycle: WARNING: LOADING THE TRAY !\n");
"test_eject_load_cycle: WARNING: LOADING THE TRAY !\n");
sleep(2);
tmmc_load_eject(p_cdio, &sense_avail, sense_reply, 4 | 2 | (flag & 1));
test_load_eject(p_cdio, &sense_avail, sense_reply, 4 | 2 | (i_flag & 1));
/* Wait for drive attention */
ret = tmmc_wait_for_drive(p_cdio, 30, flag & 3);
ret = test_wait_for_drive(p_cdio, 30, i_flag & 3);
return ret;
}
@@ -378,43 +404,43 @@ tmmc_eject_load_cycle(CdIo_t *p_cdio, int flag)
@return 1= all seems well , 0= minor failure , -1= severe failure
*/
static int
tmmc_eject_test_load(CdIo_t *p_cdio, int flag)
test_eject_test_load(CdIo_t *p_cdio, unsigned int i_flag)
{
int ret, sense_avail;
unsigned char sense_reply[18];
/* Eject synchronously */
fprintf(stderr,
"tmmc_eject_test_load: WARNING: EJECTING THE TRAY !\n");
"test_eject_test_load: WARNING: EJECTING THE TRAY !\n");
sleep(2);
tmmc_load_eject(p_cdio, &sense_avail, sense_reply, 0 | (flag & 1));
test_load_eject(p_cdio, &sense_avail, sense_reply, 0 | (i_flag & 1));
fprintf(stderr,
"tmmc_eject_test_load: waiting for 5 seconds. DO NOT TOUCH THE TRAY !\n");
"test_eject_test_load: waiting for 5 seconds. DO NOT TOUCH THE TRAY !\n");
sleep(3);
ret = tmmc_test_unit_ready(p_cdio, &sense_avail, sense_reply, flag & 1);
ret = test_test_unit_ready(p_cdio, &sense_avail, sense_reply, i_flag & 1);
if (ret == 0) {
fprintf(stderr,
"tmmc_eject_test_load: Drive ready although tray ejected.\n");
"test_eject_test_load: Drive ready although tray ejected.\n");
fprintf(stderr,
"tmmc_eject_test_load: Test aborted. Tray will stay ejected.\n");
"test_eject_test_load: Test aborted. Tray will stay ejected.\n");
return -1;
}
if (ret == 0 || sense_avail < 18) {
fprintf(stderr,
"tmmc_eject_test_load: Only %d sense reply bytes returned. Expected >= 18.\n",
"test_eject_test_load: Only %d sense reply bytes returned. Expected >= 18.\n",
sense_avail);
fprintf(stderr,
"tmmc_eject_test_load: Test aborted. Tray will stay ejected.\n");
"test_eject_test_load: Test aborted. Tray will stay ejected.\n");
return -1;
}
/* Load synchronously */
fprintf(stderr,
"tmmc_eject_test_load: WARNING: LOADING THE TRAY !\n");
"test_eject_test_load: WARNING: LOADING THE TRAY !\n");
sleep(2);
tmmc_load_eject(p_cdio, &sense_avail, sense_reply, 4 | (flag & 1));
test_load_eject(p_cdio, &sense_avail, sense_reply, 4 | (i_flag & 1));
return 1;
}
@@ -427,36 +453,36 @@ tmmc_eject_test_load(CdIo_t *p_cdio, int flag)
@return 1= all seems well , 0= minor failure , -1= severe failure
*/
static int
tmmc_rwr_mode_page(CdIo_t *p_cdio, int flag)
test_rwr_mode_page(CdIo_t *p_cdio, unsigned int i_flag)
{
int ret, sense_avail, page_code = 5, subpage_code = 0, alloc_len, buf_fill;
int write_type, final_return = 1, new_write_type, old_buf_fill;
int ret, sense_avail, page_code = 5, subpage_code = 0, alloc_len, i_size;
int write_type, final_return = 1, new_write_type, old_i_size;
unsigned char sense_reply[18];
unsigned char buf[265], old_buf[265]; /* page size is max. 255 + 10 */
static char w_types[4][8] = {"Packet", "TAO", "SAO", "Raw"};
alloc_len = 10;
ret = tmmc_mode_sense(p_cdio, &sense_avail, sense_reply,
ret = test_mode_sense(p_cdio, &sense_avail, sense_reply,
page_code, subpage_code, alloc_len,
buf, &buf_fill, 2 | (flag & 1));
buf, &i_size, 2 | (i_flag & 1));
if (ret != 0) {
fprintf(stderr, "tmmc_rwr_mode_page: Cannot obtain mode page 05h.\n");
fprintf(stderr, "test_rwr_mode_page: Cannot obtain mode page 05h.\n");
return 0;
}
alloc_len = (buf_fill <= sizeof(buf)) ? buf_fill : sizeof(buf);
ret = tmmc_mode_sense(p_cdio, &sense_avail, sense_reply,
alloc_len = (i_size <= sizeof(buf)) ? i_size : sizeof(buf);
ret = test_mode_sense(p_cdio, &sense_avail, sense_reply,
page_code, subpage_code, alloc_len,
buf, &buf_fill, (flag & 1));
buf, &i_size, (i_flag & 1));
if (ret != 0) {
fprintf(stderr, "tmmc_rwr_mode_page: Cannot obtain mode page 05h.\n");
fprintf(stderr, "test_rwr_mode_page: Cannot obtain mode page 05h.\n");
return 0;
}
memcpy(old_buf, buf, sizeof(buf));
old_buf_fill = buf_fill;
old_i_size = i_size;
write_type = buf[10] & 0x0f;
if (flag & 1)
fprintf(stderr, "tmmc_rwr_mode_page: Write type = %d (%s)\n",
if (i_flag & 1)
fprintf(stderr, "test_rwr_mode_page: Write type = %d (%s)\n",
write_type, write_type < 4 ? w_types[write_type] : "Reserved");
/* Choose a conservative CD writer setting.
@@ -474,60 +500,60 @@ tmmc_rwr_mode_page(CdIo_t *p_cdio, int flag)
buf[12] = 8; /* Data Block Type : CD-ROM Mode 1 */
buf[16] = 0; /* Session Format : "CD-DA or CD-ROM" */
ret = tmmc_mode_select(p_cdio, &sense_avail, sense_reply,
buf, buf_fill, flag & 1);
ret = test_mode_select(p_cdio, &sense_avail, sense_reply,
buf, i_size, i_flag & 1);
if (ret != 0) {
fprintf(stderr, "tmmc_rwr_mode_page: Cannot set mode page 05h.\n");
fprintf(stderr, "test_rwr_mode_page: Cannot set mode page 05h.\n");
if (ret == DRIVER_OP_NOT_PERMITTED) {
fprintf(stderr,
"tmmc_rwr_mode_page: DRIVER_OP_NOT_PERMITTED with MODE SELECT.\n");
"test_rwr_mode_page: DRIVER_OP_NOT_PERMITTED with MODE SELECT.\n");
return -1;
}
return 0;
}
/* Read mode page and check whether effect visible in buf[10] */
ret = tmmc_mode_sense(p_cdio, &sense_avail, sense_reply,
ret = test_mode_sense(p_cdio, &sense_avail, sense_reply,
page_code, subpage_code, alloc_len,
buf, &buf_fill, (flag & 1));
buf, &i_size, (i_flag & 1));
if (ret != 0) {
fprintf(stderr, "tmmc_rwr_mode_page: Cannot obtain mode page 05h.\n");
fprintf(stderr, "test_rwr_mode_page: Cannot obtain mode page 05h.\n");
final_return = final_return > 0 ? 0 : final_return;
} else if ((buf[10] & 0xf) != new_write_type) {
fprintf(stderr,
"tmmc_rwr_mode_page: Mode page did not get into effect. (due %d , is %d)\n",
"test_rwr_mode_page: Mode page did not get into effect. (due %d , is %d)\n",
new_write_type, buf[10] & 0xf);
/* One of my DVD burners does this if no media is loaded */
final_return = final_return > 0 ? 0 : final_return;
}
/* Restore old mode page */
ret = tmmc_mode_select(p_cdio, &sense_avail, sense_reply,
old_buf, old_buf_fill, flag & 1);
ret = test_mode_select(p_cdio, &sense_avail, sense_reply,
old_buf, old_i_size, i_flag & 1);
if (ret != 0) {
fprintf(stderr, "tmmc_rwr_mode_page: Cannot set mode page 05h.\n");
fprintf(stderr, "test_rwr_mode_page: Cannot set mode page 05h.\n");
if (ret == DRIVER_OP_NOT_PERMITTED) {
fprintf(stderr,
"tmmc_rwr_mode_page: DRIVER_OP_NOT_PERMITTED with MODE SELECT.\n");
"test_rwr_mode_page: DRIVER_OP_NOT_PERMITTED with MODE SELECT.\n");
return -1;
}
final_return = final_return > 0 ? 0 : final_return;
}
/* Read mode page and check whether old_buf is in effect again */
ret = tmmc_mode_sense(p_cdio, &sense_avail, sense_reply,
ret = test_mode_sense(p_cdio, &sense_avail, sense_reply,
page_code, subpage_code, alloc_len,
buf, &buf_fill, (flag & 1));
buf, &i_size, (i_flag & 1));
if (ret != 0) {
fprintf(stderr, "tmmc_rwr_mode_page: Cannot obtain mode page 05h.\n");
fprintf(stderr, "test_rwr_mode_page: Cannot obtain mode page 05h.\n");
return final_return > 0 ? 0 : final_return;
} else if (memcmp(buf, old_buf, buf_fill) != 0) {
} else if (memcmp(buf, old_buf, i_size) != 0) {
fprintf(stderr,
"tmmc_rwr_mode_page: Mode page was not restored to old state.\n");
"test_rwr_mode_page: Mode page was not restored to old state.\n");
final_return = -1;
}
if (flag & 1)
printf("tmmc_rwr_mode_page: Mode page 2Ah restored to previous state\n");
if (i_flag & 1)
printf("test_rwr_mode_page: Mode page 2Ah restored to previous state\n");
return final_return;
}
@@ -554,9 +580,9 @@ tmmc_rwr_mode_page(CdIo_t *p_cdio, int flag)
else an proposal for an exit() value is returned
*/
static int
tmmc_test(char *drive_path, int flag)
test_write(char *drive_path, unsigned int i_flag)
{
int sense_avail = 0, ret, sense_valid, buf_fill, alloc_len = 10, verbose;
int sense_avail = 0, ret, sense_valid, i_size, alloc_len = 10, verbose;
int old_log_level;
unsigned char sense[18], buf[10];
CdIo_t *p_cdio;
@@ -578,7 +604,7 @@ tmmc_test(char *drive_path, int flag)
const char *scsi_tuple;
old_log_level = cdio_loglevel_default;
verbose = flag & 1;
verbose = i_flag & 1;
p_cdio = cdio_open_am(drive_path, DRIVER_DEVICE, "MMC_RDWR_EXCL");
if (!p_cdio)
@@ -606,9 +632,9 @@ tmmc_test(char *drive_path, int flag)
if (demand_scsi_tuple) {
fprintf(stderr, "Error: cdio_get_arg(\"scsi-tuple\") returns NULL.\n");
{ret = 6; goto ex;}
} else if (flag & 1)
} else if (i_flag & 1)
fprintf(stderr, "cdio_get_arg(\"scsi-tuple\") returns NULL.\n");
} else if (flag & 1)
} else if (i_flag & 1)
printf("Drive '%s' has cdio_get_arg(\"scsi-tuple\") = '%s'\n",
drive_path, scsi_tuple);
@@ -616,7 +642,7 @@ tmmc_test(char *drive_path, int flag)
/* Test availability of sense reply in case of unready drive.
E.g. if the tray is already ejected.
*/
ret = tmmc_test_unit_ready(p_cdio, &sense_avail, sense, !!verbose);
ret = test_test_unit_ready(p_cdio, &sense_avail, sense, !!verbose);
if (ret != 0 && sense_avail < 18) {
fprintf(stderr,
"Error: Drive not ready. Only %d sense bytes. Expected >= 18.\n",
@@ -625,8 +651,8 @@ tmmc_test(char *drive_path, int flag)
}
/* Cause sense reply failure by requesting inappropriate mode page 3Eh */
ret = tmmc_mode_sense(p_cdio, &sense_avail, sense,
0x3e, 0, alloc_len, buf, &buf_fill, !!verbose);
ret = test_mode_sense(p_cdio, &sense_avail, sense,
0x3e, 0, alloc_len, buf, &i_size, !!verbose);
if (ret != 0 && sense_avail < 18) {
fprintf(stderr,
"Error: An illegal command yields only %d sense bytes. Expected >= 18.\n",
@@ -637,7 +663,7 @@ tmmc_test(char *drive_path, int flag)
/* Test availability of sense reply in case of unready drive.
E.g. if the tray is already ejected.
*/
ret = tmmc_test_unit_ready(p_cdio, &sense_avail, sense, !!verbose);
ret = test_test_unit_ready(p_cdio, &sense_avail, sense, !!verbose);
if (ret != 0 && sense_avail < 18) {
fprintf(stderr,
"Error: Drive not ready. Only %d sense bytes. Expected >= 18.\n",
@@ -646,8 +672,8 @@ tmmc_test(char *drive_path, int flag)
}
/* Cause sense reply failure by requesting inappropriate mode page 3Eh */
ret = tmmc_mode_sense(p_cdio, &sense_avail, sense,
0x3e, 0, alloc_len, buf, &buf_fill, !!verbose);
ret = test_mode_sense(p_cdio, &sense_avail, sense,
0x3e, 0, alloc_len, buf, &i_size, !!verbose);
if (ret != 0 && sense_avail < 18) {
fprintf(stderr,
"Error: Deliberately illegal command yields only %d sense bytes. Expected >= 18.\n",
@@ -658,20 +684,20 @@ tmmc_test(char *drive_path, int flag)
if (emul_lack_of_wperm) { /* To check behavior with lack of w-permission */
fprintf(stderr,
"tmmc_test: SIMULATING LACK OF WRITE CAPABILITIES by access mode IOCTL\n");
"test_test: SIMULATING LACK OF WRITE CAPABILITIES by access mode IOCTL\n");
cdio_destroy(p_cdio);
p_cdio = cdio_open_am(drive_path, DRIVER_DEVICE, "IOCTL");
}
/* Test write permission */ /* Try whether a mode page 2Ah can be set */
ret = tmmc_rwr_mode_page(p_cdio, !!verbose);
ret = test_rwr_mode_page(p_cdio, !!verbose);
if (ret <= 0) {
if (ret < 0) {
fprintf(stderr, "Error: tmmc_rwr_mode_page() had severe failure.\n");
fprintf(stderr, "Error: test_rwr_mode_page() had severe failure.\n");
{ret = 3; goto ex;}
}
fprintf(stderr, "Warning: tmmc_rwr_mode_page() had minor failure.\n");
fprintf(stderr, "Warning: test_rwr_mode_page() had minor failure.\n");
}
@@ -679,37 +705,37 @@ tmmc_test(char *drive_path, int flag)
/* More surely provoke a non-trivial sense reply */
if (test_cycle_with_media) {
/* Eject, wait, load, watch by test unit ready loop */
ret = tmmc_eject_load_cycle(p_cdio, 2 | !!verbose);
ret = test_eject_load_cycle(p_cdio, 2 | !!verbose);
if (ret <= 0) {
if (ret < 0) {
fprintf(stderr,
"Error: tmmc_eject_load_cycle() had severe failure.\n");
"Error: test_eject_load_cycle() had severe failure.\n");
{ret = 4; goto ex;}
}
fprintf(stderr,
"Warning: tmmc_eject_load_cycle() had minor failure.\n");
"Warning: test_eject_load_cycle() had minor failure.\n");
}
} else {
/* Eject, test for proper unreadiness, load */
ret = tmmc_eject_test_load(p_cdio, !!verbose);
ret = test_eject_test_load(p_cdio, !!verbose);
if (ret <= 0) {
if (ret < 0) {
fprintf(stderr,
"Error: tmmc_eject_test_load() had severe failure.\n");
"Error: test_eject_test_load() had severe failure.\n");
{ret = 5; goto ex;}
}
fprintf(stderr,
"Warning: tmmc_eject_test_load() had minor failure.\n");
"Warning: test_eject_test_load() had minor failure.\n");
}
/* Wait for drive attention */
tmmc_wait_for_drive(p_cdio, 15, 2 | !!verbose);
test_wait_for_drive(p_cdio, 15, 2 | !!verbose);
}
}
/* How are we, finally ? */
ret = tmmc_test_unit_ready(p_cdio, &sense_valid, sense, !!verbose);
if ((flag & 1) && ret != 0 && sense[2] == 2 && sense[12] == 0x3a)
fprintf(stderr, "tmmc_test: Note: No loaded media detected.\n");
ret = test_test_unit_ready(p_cdio, &sense_valid, sense, !!verbose);
if ((i_flag & 1) && ret != 0 && sense[2] == 2 && sense[12] == 0x3a)
fprintf(stderr, "test_unit_ready: Note: No loaded media detected.\n");
ret = 0;
}
@@ -760,11 +786,13 @@ main(int argc, const char *argv[])
exit(1);
}
drc = tmmc_get_disc_erasable(p_cdio, psz_source, b_verbose);
drc = test_get_disc_erasable(p_cdio, psz_source, b_verbose);
if (DRIVER_OP_SUCCESS != drc) {
printf("Got status %d back from get_disc_erasable(%s)\n",
drc, psz_source);
}
drc = test_get_disctype(p_cdio, b_verbose);
if ( psz_have_mmc
&& 0 == strncmp("true", psz_have_mmc, sizeof("true")) ) {
@@ -777,7 +805,7 @@ main(int argc, const char *argv[])
psz_source, scsi_tuple);
/* Test the MMC enhancements of version 0.83 in december 2009 */
ret = tmmc_test(ppsz_drives[0],
ret = test_write(ppsz_drives[0],
cdio_loglevel_default == CDIO_LOG_DEBUG);
if (ret != 0) exit(ret + 16);
}