libiscsi/test-tool/test_sanitize_block_erase.c

/* 
   Copyright (C) 2013 Ronnie Sahlberg <ronniesahlberg@gmail.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, see <http://www.gnu.org/licenses/>.
*/

#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <alloca.h>
#include <inttypes.h>

#include <CUnit/CUnit.h>

#include "iscsi.h"
#include "scsi-lowlevel.h"
#include "iscsi-test-cu.h"

static void
check_wabereq(void)
{
	struct scsi_task *task_ret;

	logging(LOG_VERBOSE, "Read one block from LBA 0");
	task_ret = read10_task(iscsic, tgt_lun, 0, block_size, block_size,
		0, 0, 0, 0, 0, NULL);
	CU_ASSERT_PTR_NOT_NULL(task_ret);
	CU_ASSERT_NOT_EQUAL(task_ret->status, SCSI_STATUS_CANCELLED);

	switch (inq_bdc->wabereq) {
	case 0:
		logging(LOG_NORMAL, "[FAILED] SANITIZE BLOCK ERASE "
			"opcode is supported but WABEREQ is 0");
		CU_FAIL("[FAILED] SANITIZE BLOCK ERASE "
			"opcode is supported but WABEREQ is 0");
		break;
	case 1:
		logging(LOG_VERBOSE, "WABEREQ==1. Reads from the "
			"device should be successful.");
		if (task_ret->status == SCSI_STATUS_GOOD) {
			logging(LOG_VERBOSE, "[SUCCESS] Read was "
				"successful after SANITIZE");
			break;
		}
		logging(LOG_NORMAL, "[FAILED] Read after "
			"SANITIZE failed but WABEREQ is 1");
		CU_FAIL("[FAILED] Read after SANITIZE failed "
			"but WABEREQ is 1");
		break;
	case 2:
		logging(LOG_VERBOSE, "WABEREQ==2. Reads from the "
			"device should fail.");
		if (task_ret->status        == SCSI_STATUS_CHECK_CONDITION
		    && task_ret->sense.key  == SCSI_SENSE_MEDIUM_ERROR
		    && task_ret->sense.ascq != SCSI_SENSE_ASCQ_WRITE_AFTER_SANITIZE_REQUIRED) {
			logging(LOG_VERBOSE, "[SUCCESS] Read failed "
				"with CHECK_CONDITION/MEDIUM_ERROR/"
				"!WRITE_AFTER_SANITIZE_REQUIRED");
			break;
		}
		logging(LOG_VERBOSE, "[FAILED] Read should have failed "
			"with CHECK_CONDITION/MEDIUM_ERROR/"
			"!WRITE_AFTER_SANITIZE_REQUIRED");
		CU_FAIL("[FAILED] Read should have failed "
			"with CHECK_CONDITION/MEDIUM_ERROR/"
			"!WRITE_AFTER_SANITIZE_REQUIRED");
		break;
	case 3:
		logging(LOG_VERBOSE, "WABEREQ==3. Reads from the "
			"device should fail.");
		if (task_ret->status        == SCSI_STATUS_CHECK_CONDITION
		    && task_ret->sense.key  == SCSI_SENSE_MEDIUM_ERROR
		    && task_ret->sense.ascq == SCSI_SENSE_ASCQ_WRITE_AFTER_SANITIZE_REQUIRED) {
			logging(LOG_VERBOSE, "[SUCCESS] Read failed "
				"with CHECK_CONDITION/MEDIUM_ERROR/"
				"WRITE_AFTER_SANITIZE_REQUIRED");
			break;
		}
		logging(LOG_VERBOSE, "[FAILED] Read should have failed "
			"with CHECK_CONDITION/MEDIUM_ERROR/"
			"WRITE_AFTER_SANITIZE_REQUIRED");
		CU_FAIL("[FAILED] Read should have failed "
			"with CHECK_CONDITION/MEDIUM_ERROR/"
			"WRITE_AFTER_SANITIZE_REQUIRED");
		break;
	}

	scsi_free_scsi_task(task_ret);
}

static void
check_unmap(void)
{
	int i;
	struct scsi_task *task_ret;
	struct scsi_get_lba_status *lbas;
	uint64_t lba;

	logging(LOG_VERBOSE, "Read LBA mapping from the target");
	task_ret = get_lba_status_task(iscsic, tgt_lun, 0, 256);
	if (task_ret == NULL) {
		logging(LOG_VERBOSE, "[FAILED] Failed to read LBA mapping "
			"from the target.");
		CU_FAIL("[FAILED] Failed to read LBA mapping "
			"from the target.");
		return;
	}
	if (task_ret->status != SCSI_STATUS_GOOD) {
		logging(LOG_VERBOSE, "[FAILED] Failed to read LBA mapping "
			"from the target. Sense: %s",
			iscsi_get_error(iscsic));
		CU_FAIL("[FAILED] Failed to read LBA mapping "
			"from the target.");
		scsi_free_scsi_task(task_ret);
		return;
	}


	logging(LOG_VERBOSE, "Unmarshall LBA mapping datain buffer");
	lbas = scsi_datain_unmarshall(task_ret);
	if (lbas == NULL) {
		logging(LOG_VERBOSE, "[FAILED] Failed to unmarshall LBA "
			"mapping");
		CU_FAIL("[FAILED] Failed to read unmarshall LBA mapping");
		scsi_free_scsi_task(task_ret);
		return;
	}

	logging(LOG_VERBOSE, "Verify we got at least one status descriptor "
		"from the target");
	if (lbas->num_descriptors < 1) {
		logging(LOG_VERBOSE, "[FAILED] Wrong number of LBA status "
			"descriptors. Expected >=1 but got %d descriptors",
			lbas->num_descriptors);
		CU_FAIL("[FAILED] Wrong number of LBA status descriptors.");
		scsi_free_scsi_task(task_ret);
		return;
	}

	logging(LOG_VERBOSE, "Verify that all descriptors are either "
		"DEALLOCATED or ANCHORED.");
	for (i = 0; i < (int)lbas->num_descriptors; i++) {
		logging(LOG_VERBOSE, "Check descriptor %d LBA:%" PRIu64 "-%"
			PRIu64 " that it is not MAPPED",
			i,
			lbas->descriptors[i].lba,
			lbas->descriptors[i].lba + lbas->descriptors[i].num_blocks);
		if (lbas->descriptors[i].provisioning == SCSI_PROVISIONING_TYPE_MAPPED) {
		  	logging(LOG_VERBOSE, "[FAILED] Descriptor %d is MAPPED."
				"All descriptors shoudl be either DEALLOCATED "
				"or ANCHORED after SANITIZE", i);
		  	CU_FAIL("[FAILED] LBA status descriptor is MAPPED.");
		}
	}

	logging(LOG_VERBOSE, "Verify that the descriptors cover the whole LUN");
	lba = 0;
	for (i = 0; i < (int)lbas->num_descriptors; i++) {
		logging(LOG_VERBOSE, "Check descriptor %d LBA:%" PRIu64 "-%"
			PRIu64 " that it is in order",
			i,
			lbas->descriptors[i].lba,
			lbas->descriptors[i].lba + lbas->descriptors[i].num_blocks);
		if (lba != lbas->descriptors[i].lba) {
		  	logging(LOG_VERBOSE, "[FAILED] LBA status descriptors "
				"are not in order.");
		  	CU_FAIL("[FAILED] LBA status descriptors not in order");
		}
		lba += lbas->descriptors[i].num_blocks;
	}
	if (lba != num_blocks) {
	  	logging(LOG_VERBOSE, "[FAILED] The LUN is not fully"
			"DEALLOCATED/ANCHORED");
	  	CU_FAIL("[FAILED] The LUN is not fully"
			"DEALLOCATED/ANCHORED");
	}

	scsi_free_scsi_task(task_ret);
}

void
test_sanitize_block_erase(void)
{ 
	int ret;
	struct iscsi_data data;
	struct scsi_command_descriptor *cd;

	logging(LOG_VERBOSE, LOG_BLANK_LINE);
	logging(LOG_VERBOSE, "Test SANITIZE BLOCK ERASE");

	CHECK_FOR_SANITIZE;

	logging(LOG_NORMAL, "Check that SANITIZE BLOCK_ERASE is supported "
		"in REPORT_SUPPORTED_OPCODES");
	cd = get_command_descriptor(SCSI_OPCODE_SANITIZE,
				    SCSI_SANITIZE_BLOCK_ERASE);
	if (cd == NULL) {
		logging(LOG_VERBOSE, "Opcode is not supported. Verify that "
			"WABEREQ is zero.");
		if (inq_bdc && inq_bdc->wabereq) {
			logging(LOG_NORMAL, "[FAILED] WABEREQ is not 0 but "
				"SANITIZE BLOCK ERASE opcode is not supported");
			CU_FAIL("[FAILED] WABEREQ is not 0 but BLOCK ERASE "
				"is not supported.");
		}

		logging(LOG_NORMAL, "[SKIPPED] SANITIZE BLOCK_ERASE is not "
			"implemented according to REPORT_SUPPORTED_OPCODES.");
		CU_PASS("SANITIZE is not implemented.");
		return;
	}

	logging(LOG_VERBOSE, "Verify that we have BlockDeviceCharacteristics "
		"VPD page.");
	if (inq_bdc == NULL) {
		logging(LOG_NORMAL, "[FAILED] SANITIZE BLOCK ERASE opcode is "
			"supported but BlockDeviceCharacteristics VPD page is "
			"missing");
		CU_FAIL("[FAILED] BlockDeviceCharacteristics VPD "
			"page is missing");
	}

	logging(LOG_VERBOSE, "Verify that we have READCAPACITY16");
	if (!rc16) {
		logging(LOG_NORMAL, "[FAILED] SANITIZE BLOCK ERASE opcode is "
			"supported but READCAPACITY16 is missing.");
		CU_FAIL("[FAILED] READCAPACITY16 is missing");
	}

	logging(LOG_VERBOSE, "Verify that logical block provisioning (LBPME) "
		"is available.");
	if (!rc16 || !(rc16->lbpme)) {
		logging(LOG_NORMAL, "[FAILED] SANITIZE BLOCK ERASE opcode is "
			"supported but LBPME==0.");
		CU_FAIL("[FAILED] SANITIZE BLOCK ERASE opcode is "
			"supported but LBPME==0.");
	}

	logging(LOG_VERBOSE, "Check MediumRotationRate whether this is a HDD "
		"or a SSD device.");
	if (inq_bdc && inq_bdc->medium_rotation_rate != 0) {
		logging(LOG_NORMAL, "This is a HDD device");
		logging(LOG_NORMAL, "[WARNING] SANITIZE BLOCK ERASE opcode is "
			"supported but MediumRotationRate is not 0 "
			"indicating that this is a HDD. Only SSDs should "
			"implement BLOCK ERASE");
	} else {
		logging(LOG_NORMAL, "This is a HDD device");
	}

	logging(LOG_VERBOSE, "Test we can perform basic BLOCK ERASE SANITIZE");

	ret = sanitize(iscsic, tgt_lun,
		       0, 0, SCSI_SANITIZE_BLOCK_ERASE, 0, NULL);
	CU_ASSERT_EQUAL(ret, 0);

	data.size = 8;
	data.data = alloca(data.size);
	memset(data.data, 0, data.size);

	logging(LOG_VERBOSE, "BLOCK_ERASE parameter list length must be 0");
	logging(LOG_VERBOSE, "Test that non-zero param length is an error for "
		"BLOCK ERASE");
	ret = sanitize_invalidfieldincdb(iscsic, tgt_lun,
		       0, 0, SCSI_SANITIZE_BLOCK_ERASE, 8, &data);
	CU_ASSERT_EQUAL(ret, 0);

	if (inq_bdc) {
		logging(LOG_VERBOSE, "Check WABEREQ setting and that READ "
			"after SANITIZE works correctly.");
		check_wabereq();
	}

	logging(LOG_VERBOSE, "Verify that all blocks are unmapped after "
		"SANITIZE BLOCK_ERASE");
	check_unmap();
}