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Tests: convert tabs to 8 spaces

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Signed-off-by: Ronnie Sahlberg <ronniesahlberg@gmail.com>
This commit is contained in:
Ronnie Sahlberg
2016-02-21 16:17:18 -08:00
parent 5a80c7b581
commit b4320bd76c
215 changed files with 13344 additions and 13344 deletions
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354
test-tool/test_modesense6_control.c
View File

@@ -28,213 +28,213 @@
void
test_modesense6_control(void)
{
struct scsi_mode_sense *ms;
struct scsi_mode_page *ap_page;
struct scsi_mode_page *ct_page;
struct scsi_task *ap_task = NULL;
struct scsi_task *ct_task = NULL;
struct scsi_mode_sense *ms;
struct scsi_mode_page *ap_page;
struct scsi_mode_page *ct_page;
struct scsi_task *ap_task = NULL;
struct scsi_task *ct_task = NULL;
logging(LOG_VERBOSE, LOG_BLANK_LINE);
logging(LOG_VERBOSE, "Test of MODESENSE6 CONTROL page");
logging(LOG_VERBOSE, LOG_BLANK_LINE);
logging(LOG_VERBOSE, "Test of MODESENSE6 CONTROL page");
logging(LOG_VERBOSE, "Fetch the CONTROL page via AllPages");
logging(LOG_VERBOSE, "Send MODESENSE6 command to fetch AllPages");
MODESENSE6(sd, &ap_task, 0, SCSI_MODESENSE_PC_CURRENT,
logging(LOG_VERBOSE, "Fetch the CONTROL page via AllPages");
logging(LOG_VERBOSE, "Send MODESENSE6 command to fetch AllPages");
MODESENSE6(sd, &ap_task, 0, SCSI_MODESENSE_PC_CURRENT,
SCSI_MODEPAGE_RETURN_ALL_PAGES, 0, 255,
EXPECT_STATUS_GOOD);
logging(LOG_VERBOSE, "[SUCCESS] All Pages fetched.");
logging(LOG_VERBOSE, "[SUCCESS] All Pages fetched.");
logging(LOG_VERBOSE, "Try to unmarshall the DATA-IN buffer.");
ms = scsi_datain_unmarshall(ap_task);
if (ms == NULL) {
logging(LOG_NORMAL, "[FAILED] failed to unmarshall mode sense "
"datain buffer");
CU_FAIL("[FAILED] Failed to unmarshall the data-in buffer.");
goto finished;
}
logging(LOG_VERBOSE, "[SUCCESS] Unmarshalling successful.");
logging(LOG_VERBOSE, "Try to unmarshall the DATA-IN buffer.");
ms = scsi_datain_unmarshall(ap_task);
if (ms == NULL) {
logging(LOG_NORMAL, "[FAILED] failed to unmarshall mode sense "
"datain buffer");
CU_FAIL("[FAILED] Failed to unmarshall the data-in buffer.");
goto finished;
}
logging(LOG_VERBOSE, "[SUCCESS] Unmarshalling successful.");
logging(LOG_VERBOSE, "Verify that mode data length is >= 3");
if (ms->mode_data_length >= 3) {
logging(LOG_VERBOSE, "[SUCCESS] Mode data length is >= 3");
} else {
logging(LOG_NORMAL, "[FAILED] Mode data length is < 3");
}
CU_ASSERT_TRUE(ms->mode_data_length >= 3);
logging(LOG_VERBOSE, "Verify that mode data length is >= 3");
if (ms->mode_data_length >= 3) {
logging(LOG_VERBOSE, "[SUCCESS] Mode data length is >= 3");
} else {
logging(LOG_NORMAL, "[FAILED] Mode data length is < 3");
}
CU_ASSERT_TRUE(ms->mode_data_length >= 3);
for (ap_page = ms->pages; ap_page; ap_page = ap_page->next) {
if (ap_page->page_code == SCSI_MODEPAGE_CONTROL &&
ap_page->spf == 0) {
break;
}
}
if(ap_page == NULL) {
logging(LOG_NORMAL, "[WARNING] CONTROL page was not returned "
"from AllPages. All devices SHOULD implement this "
"page.");
}
for (ap_page = ms->pages; ap_page; ap_page = ap_page->next) {
if (ap_page->page_code == SCSI_MODEPAGE_CONTROL &&
ap_page->spf == 0) {
break;
}
}
if(ap_page == NULL) {
logging(LOG_NORMAL, "[WARNING] CONTROL page was not returned "
"from AllPages. All devices SHOULD implement this "
"page.");
}
logging(LOG_VERBOSE, "Fetch the CONTROL page directly");
logging(LOG_VERBOSE, "Send MODESENSE6 command to fetch CONTROL");
MODESENSE6(sd, &ct_task, 0, SCSI_MODESENSE_PC_CURRENT,
logging(LOG_VERBOSE, "Fetch the CONTROL page directly");
logging(LOG_VERBOSE, "Send MODESENSE6 command to fetch CONTROL");
MODESENSE6(sd, &ct_task, 0, SCSI_MODESENSE_PC_CURRENT,
SCSI_MODEPAGE_CONTROL, 0, 255,
EXPECT_STATUS_GOOD);
logging(LOG_VERBOSE, "[SUCCESS] CONTROL page fetched.");
logging(LOG_VERBOSE, "[SUCCESS] CONTROL page fetched.");
logging(LOG_VERBOSE, "Try to unmarshall the DATA-IN buffer.");
ms = scsi_datain_unmarshall(ct_task);
if (ms == NULL) {
logging(LOG_NORMAL, "[FAILED] failed to unmarshall mode sense "
"datain buffer");
CU_FAIL("[FAILED] Failed to unmarshall the data-in buffer.");
goto finished;
}
logging(LOG_VERBOSE, "[SUCCESS] Unmarshalling successful.");
logging(LOG_VERBOSE, "Try to unmarshall the DATA-IN buffer.");
ms = scsi_datain_unmarshall(ct_task);
if (ms == NULL) {
logging(LOG_NORMAL, "[FAILED] failed to unmarshall mode sense "
"datain buffer");
CU_FAIL("[FAILED] Failed to unmarshall the data-in buffer.");
goto finished;
}
logging(LOG_VERBOSE, "[SUCCESS] Unmarshalling successful.");
logging(LOG_VERBOSE, "Verify that mode data length is >= 3");
if (ms->mode_data_length >= 3) {
logging(LOG_VERBOSE, "[SUCCESS] Mode data length is >= 3");
} else {
logging(LOG_NORMAL, "[FAILED] Mode data length is < 3");
}
CU_ASSERT_TRUE(ms->mode_data_length >= 3);
logging(LOG_VERBOSE, "Verify that mode data length is >= 3");
if (ms->mode_data_length >= 3) {
logging(LOG_VERBOSE, "[SUCCESS] Mode data length is >= 3");
} else {
logging(LOG_NORMAL, "[FAILED] Mode data length is < 3");
}
CU_ASSERT_TRUE(ms->mode_data_length >= 3);
for (ct_page = ms->pages; ct_page; ct_page = ct_page->next) {
if (ct_page->page_code == SCSI_MODEPAGE_CONTROL) {
break;
}
}
if(ct_page == NULL) {
logging(LOG_NORMAL, "[WARNING] CONTROL page was not returned."
"All devices SHOULD implement this page.");
}
for (ct_page = ms->pages; ct_page; ct_page = ct_page->next) {
if (ct_page->page_code == SCSI_MODEPAGE_CONTROL) {
break;
}
}
if(ct_page == NULL) {
logging(LOG_NORMAL, "[WARNING] CONTROL page was not returned."
"All devices SHOULD implement this page.");
}
if (ap_page == NULL && ct_page != NULL) {
logging(LOG_NORMAL, "[FAILED] CONTROL page was not returned "
"from AllPages.");
CU_FAIL("[FAILED] CONTROL page is missing from AllPages");
goto finished;
}
if (ap_page == NULL && ct_page != NULL) {
logging(LOG_NORMAL, "[FAILED] CONTROL page was not returned "
"from AllPages.");
CU_FAIL("[FAILED] CONTROL page is missing from AllPages");
goto finished;
}
if (ap_page != NULL && ct_page == NULL) {
logging(LOG_NORMAL, "[FAILED] CONTROL page is only available "
"from AllPages but not directly.");
CU_FAIL("[FAILED] CONTROL page is missing");
goto finished;
}
if (ap_page != NULL && ct_page == NULL) {
logging(LOG_NORMAL, "[FAILED] CONTROL page is only available "
"from AllPages but not directly.");
CU_FAIL("[FAILED] CONTROL page is missing");
goto finished;
}
if (ct_page == NULL) {
logging(LOG_NORMAL, "[SKIPPED] CONTROL page is not "
"implemented.");
CU_PASS("CONTROL page is not implemented.");
goto finished;
}
if (ct_page == NULL) {
logging(LOG_NORMAL, "[SKIPPED] CONTROL page is not "
"implemented.");
CU_PASS("CONTROL page is not implemented.");
goto finished;
}
logging(LOG_VERBOSE, "Verify that the two pages are identical.");
logging(LOG_VERBOSE, "Verify that the two pages are identical.");
logging(LOG_VERBOSE, "Check TST field");
CU_ASSERT_EQUAL(ct_page->control.tst, ap_page->control.tst);
logging(LOG_VERBOSE, "Check TMF_ONLY field");
CU_ASSERT_EQUAL(ct_page->control.tmf_only, ap_page->control.tmf_only);
logging(LOG_VERBOSE, "Check dpicz field");
CU_ASSERT_EQUAL(ct_page->control.dpicz, ap_page->control.dpicz);
logging(LOG_VERBOSE, "Check d_sense field");
CU_ASSERT_EQUAL(ct_page->control.d_sense, ap_page->control.d_sense);
logging(LOG_VERBOSE, "Check gltsd field");
CU_ASSERT_EQUAL(ct_page->control.gltsd, ap_page->control.gltsd);
logging(LOG_VERBOSE, "Check rlec field");
CU_ASSERT_EQUAL(ct_page->control.rlec, ap_page->control.rlec);
logging(LOG_VERBOSE, "Check queue_algorithm_modifier field");
CU_ASSERT_EQUAL(ct_page->control.queue_algorithm_modifier,
ap_page->control.queue_algorithm_modifier);
logging(LOG_VERBOSE, "Check nuar field");
CU_ASSERT_EQUAL(ct_page->control.nuar, ap_page->control.nuar);
logging(LOG_VERBOSE, "Check qerr field");
CU_ASSERT_EQUAL(ct_page->control.qerr, ap_page->control.qerr);
logging(LOG_VERBOSE, "Check vs field");
CU_ASSERT_EQUAL(ct_page->control.vs, ap_page->control.vs);
logging(LOG_VERBOSE, "Check rac field");
CU_ASSERT_EQUAL(ct_page->control.rac, ap_page->control.rac);
logging(LOG_VERBOSE, "Check ua_intlck_ctrl field");
CU_ASSERT_EQUAL(ct_page->control.ua_intlck_ctrl,
ap_page->control.ua_intlck_ctrl);
logging(LOG_VERBOSE, "Check swp field");
CU_ASSERT_EQUAL(ct_page->control.swp, ap_page->control.swp);
logging(LOG_VERBOSE, "Check ato field");
CU_ASSERT_EQUAL(ct_page->control.ato, ap_page->control.ato);
logging(LOG_VERBOSE, "Check tas field");
CU_ASSERT_EQUAL(ct_page->control.tas, ap_page->control.tas);
logging(LOG_VERBOSE, "Check atmpe field");
CU_ASSERT_EQUAL(ct_page->control.atmpe, ap_page->control.atmpe);
logging(LOG_VERBOSE, "Check rwwp field");
CU_ASSERT_EQUAL(ct_page->control.rwwp, ap_page->control.rwwp);
logging(LOG_VERBOSE, "Check autoload_mode field");
CU_ASSERT_EQUAL(ct_page->control.autoload_mode,
ap_page->control.autoload_mode);
logging(LOG_VERBOSE, "Check busy_timeout_period field");
CU_ASSERT_EQUAL(ct_page->control.busy_timeout_period,
ap_page->control.busy_timeout_period);
logging(LOG_VERBOSE, "Check extended_selftest_completion_time field");
CU_ASSERT_EQUAL(ct_page->control.extended_selftest_completion_time,
ap_page->control.extended_selftest_completion_time);
logging(LOG_VERBOSE, "Check TST field");
CU_ASSERT_EQUAL(ct_page->control.tst, ap_page->control.tst);
logging(LOG_VERBOSE, "Check TMF_ONLY field");
CU_ASSERT_EQUAL(ct_page->control.tmf_only, ap_page->control.tmf_only);
logging(LOG_VERBOSE, "Check dpicz field");
CU_ASSERT_EQUAL(ct_page->control.dpicz, ap_page->control.dpicz);
logging(LOG_VERBOSE, "Check d_sense field");
CU_ASSERT_EQUAL(ct_page->control.d_sense, ap_page->control.d_sense);
logging(LOG_VERBOSE, "Check gltsd field");
CU_ASSERT_EQUAL(ct_page->control.gltsd, ap_page->control.gltsd);
logging(LOG_VERBOSE, "Check rlec field");
CU_ASSERT_EQUAL(ct_page->control.rlec, ap_page->control.rlec);
logging(LOG_VERBOSE, "Check queue_algorithm_modifier field");
CU_ASSERT_EQUAL(ct_page->control.queue_algorithm_modifier,
ap_page->control.queue_algorithm_modifier);
logging(LOG_VERBOSE, "Check nuar field");
CU_ASSERT_EQUAL(ct_page->control.nuar, ap_page->control.nuar);
logging(LOG_VERBOSE, "Check qerr field");
CU_ASSERT_EQUAL(ct_page->control.qerr, ap_page->control.qerr);
logging(LOG_VERBOSE, "Check vs field");
CU_ASSERT_EQUAL(ct_page->control.vs, ap_page->control.vs);
logging(LOG_VERBOSE, "Check rac field");
CU_ASSERT_EQUAL(ct_page->control.rac, ap_page->control.rac);
logging(LOG_VERBOSE, "Check ua_intlck_ctrl field");
CU_ASSERT_EQUAL(ct_page->control.ua_intlck_ctrl,
ap_page->control.ua_intlck_ctrl);
logging(LOG_VERBOSE, "Check swp field");
CU_ASSERT_EQUAL(ct_page->control.swp, ap_page->control.swp);
logging(LOG_VERBOSE, "Check ato field");
CU_ASSERT_EQUAL(ct_page->control.ato, ap_page->control.ato);
logging(LOG_VERBOSE, "Check tas field");
CU_ASSERT_EQUAL(ct_page->control.tas, ap_page->control.tas);
logging(LOG_VERBOSE, "Check atmpe field");
CU_ASSERT_EQUAL(ct_page->control.atmpe, ap_page->control.atmpe);
logging(LOG_VERBOSE, "Check rwwp field");
CU_ASSERT_EQUAL(ct_page->control.rwwp, ap_page->control.rwwp);
logging(LOG_VERBOSE, "Check autoload_mode field");
CU_ASSERT_EQUAL(ct_page->control.autoload_mode,
ap_page->control.autoload_mode);
logging(LOG_VERBOSE, "Check busy_timeout_period field");
CU_ASSERT_EQUAL(ct_page->control.busy_timeout_period,
ap_page->control.busy_timeout_period);
logging(LOG_VERBOSE, "Check extended_selftest_completion_time field");
CU_ASSERT_EQUAL(ct_page->control.extended_selftest_completion_time,
ap_page->control.extended_selftest_completion_time);
logging(LOG_VERBOSE, "Verify that the values are sane.");
logging(LOG_VERBOSE, "Check that TST is 0 or 1.");
if (ct_page->control.tst > 1) {
logging(LOG_NORMAL, "[FAILED] TST value is invalid. Must be "
"0, 1 but was %d", ct_page->control.tst);
CU_FAIL("[FAILED] TST is invalid.");
}
logging(LOG_VERBOSE, "Check that QUEUE_ALGORITHM_MODIFIER is "
"0, 1 or >7");
if (ct_page->control.queue_algorithm_modifier > 1 &&
ct_page->control.queue_algorithm_modifier < 8) {
logging(LOG_NORMAL, "[FAILED] QUEUE_ALGORITHM_MODIFIER value "
"is invalid. Must be 0, 1 or >7 but was %d",
ct_page->control.queue_algorithm_modifier);
CU_FAIL("[FAILED] QUEUE_ALGORITHM_MODIFIER is invalid.");
}
logging(LOG_VERBOSE, "Verify that the values are sane.");
logging(LOG_VERBOSE, "Check that TST is 0 or 1.");
if (ct_page->control.tst > 1) {
logging(LOG_NORMAL, "[FAILED] TST value is invalid. Must be "
"0, 1 but was %d", ct_page->control.tst);
CU_FAIL("[FAILED] TST is invalid.");
}
logging(LOG_VERBOSE, "Check that QUEUE_ALGORITHM_MODIFIER is "
"0, 1 or >7");
if (ct_page->control.queue_algorithm_modifier > 1 &&
ct_page->control.queue_algorithm_modifier < 8) {
logging(LOG_NORMAL, "[FAILED] QUEUE_ALGORITHM_MODIFIER value "
"is invalid. Must be 0, 1 or >7 but was %d",
ct_page->control.queue_algorithm_modifier);
CU_FAIL("[FAILED] QUEUE_ALGORITHM_MODIFIER is invalid.");
}
logging(LOG_VERBOSE, "Check that QERR is not 2");
if (ct_page->control.qerr == 2) {
logging(LOG_NORMAL, "[FAILED] QERR value "
"is invalid. Can not be 2");
CU_FAIL("[FAILED] QERR is invalid.");
}
logging(LOG_VERBOSE, "Check that QERR is not 2");
if (ct_page->control.qerr == 2) {
logging(LOG_NORMAL, "[FAILED] QERR value "
"is invalid. Can not be 2");
CU_FAIL("[FAILED] QERR is invalid.");
}
logging(LOG_VERBOSE, "Check that UA_INTLCK_CTRL is not 1");
if (ct_page->control.ua_intlck_ctrl == 1) {
logging(LOG_NORMAL, "[FAILED] UA_INTLCK_CTRL value "
"is invalid. Can not be 1");
CU_FAIL("[FAILED] UA_INTLCK_CTRL is invalid.");
}
logging(LOG_VERBOSE, "Check that UA_INTLCK_CTRL is not 1");
if (ct_page->control.ua_intlck_ctrl == 1) {
logging(LOG_NORMAL, "[FAILED] UA_INTLCK_CTRL value "
"is invalid. Can not be 1");
CU_FAIL("[FAILED] UA_INTLCK_CTRL is invalid.");
}
logging(LOG_VERBOSE, "Check that AUTOLOAD is 0, 1 or 2");
if (ct_page->control.autoload_mode > 2) {
logging(LOG_NORMAL, "[FAILED] AUTOLOAD value "
"is invalid. Must be 0, 1 or 2 but was %d",
ct_page->control.autoload_mode);
CU_FAIL("[FAILED] AUTOLOAD is invalid.");
}
logging(LOG_VERBOSE, "Check that AUTOLOAD is 0, 1 or 2");
if (ct_page->control.autoload_mode > 2) {
logging(LOG_NORMAL, "[FAILED] AUTOLOAD value "
"is invalid. Must be 0, 1 or 2 but was %d",
ct_page->control.autoload_mode);
CU_FAIL("[FAILED] AUTOLOAD is invalid.");
}
logging(LOG_VERBOSE, "Check that BUSY_TIMEOUT_PERIOD is specified");
if (ct_page->control.busy_timeout_period == 0) {
logging(LOG_NORMAL, "[WARNING] BUSY_TIMEOUT_PERIOD is "
"undefined.");
}
logging(LOG_VERBOSE, "Check that BUSY_TIMEOUT_PERIOD is specified");
if (ct_page->control.busy_timeout_period == 0) {
logging(LOG_NORMAL, "[WARNING] BUSY_TIMEOUT_PERIOD is "
"undefined.");
}
finished:
if (ap_task != NULL) {
scsi_free_scsi_task(ap_task);
}
if (ct_task != NULL) {
scsi_free_scsi_task(ct_task);
}
if (ap_task != NULL) {
scsi_free_scsi_task(ap_task);
}
if (ct_task != NULL) {
scsi_free_scsi_task(ct_task);
}
}