open-cas-linux/test/smoke_test/incremental_load/01

#!/bin/bash
#
# Copyright(c) 2012-2020 Intel Corporation
# SPDX-License-Identifier: BSD-3-Clause-Clear
#

# The line below specified that line under it should be used as the test's short description when launching test via run_tests script.
# The text should not be longer than 80 chars - if it is, the script will strip addititonal characters
# DESCRIPTION Try add 3 cores to pool, try load cache and check if cache is running

# The line below says that this test should be included in BVT - it will be launched, when we use "./run_tests -b"
# USE_IN_BVT
# USE_IN_NIGHTLY

# Standard beginning for every test - get the main tests directory and
# link the cas_lib file for CAS API, then use "start_test $*" to pass params
# and do other necessary checks and setup
TESTS_DIR="$(dirname $0)/../"
. $TESTS_DIR/cas_lib
start_test $*

# This is where the real test starts

# Use CACHE_DEVICE and CORE_DEVICE provided by configuration file and remove partitions from those devices
TARGET_DEVICE_OPTION="$CACHE_DEVICE" remove_partitions
TARGET_DEVICE_OPTION="$CORE_DEVICE" remove_partitions

# Create primary partition 2000M size on CACHE_DEVICE
TARGET_DEVICE_OPTION="$CACHE_DEVICE" PARTITION_SIZE_OPTION="2000M" PARTITION_IDS_OPTION="1" make_primary_partitions
# Create primary partition 4000M size on CORE_DEVICE
TARGET_DEVICE_OPTION="$CORE_DEVICE" PARTITION_SIZE_OPTION="4000M" PARTITION_IDS_OPTION="1 2 3" make_primary_partitions

# Prepare cache on CACHE_DEVICE1 (/dev/sdd1, e.g.) and add core device using CORE_DEVICE1, CORE_DEVICE2 and CORE_DEVICE3 (/dev/sde1, /dev/sde2, /dev/sde3, e.g)
CACHE_ID_OPTION="1" CACHE_DEVICE_OPTION="${CACHE_DEVICE}-part1" start_cache
CACHE_ID_OPTION="1" CORE_DEVICE_OPTION="${CORE_DEVICE}-part1" add_core
CACHE_ID_OPTION="1" CORE_DEVICE_OPTION="${CORE_DEVICE}-part2" add_core
CACHE_ID_OPTION="1" CORE_DEVICE_OPTION="${CORE_DEVICE}-part3" add_core

DEVICE_ID_OPTION="${CACHE_DEVICE}-part1" DEMANDED_STATE_OPTION="Running" check_device_state
DEVICE_ID_OPTION="${DEVICE_NAME}1-1" DEMANDED_STATE_OPTION="Active" check_device_state
DEVICE_ID_OPTION="${DEVICE_NAME}1-2" DEMANDED_STATE_OPTION="Active" check_device_state
DEVICE_ID_OPTION="${DEVICE_NAME}1-3" DEMANDED_STATE_OPTION="Active" check_device_state

# Stop prepared setup
CACHE_ID_OPTION="1" stop_cache

# Add cores to pool, then load cache and check if cache is running
# Try to add core devices and check their states
CACHE_ID_OPTION="1" CORE_DEVICE_OPTION="${CORE_DEVICE}-part1" CORE_ID_OPTION="1" try_add_core
DEVICE_ID_OPTION="${CORE_DEVICE}-part1" DEMANDED_STATE_OPTION="Detached" check_device_state

CACHE_ID_OPTION="1" CORE_DEVICE_OPTION="${CORE_DEVICE}-part2" CORE_ID_OPTION="2" try_add_core
DEVICE_ID_OPTION="${CORE_DEVICE}-part2" DEMANDED_STATE_OPTION="Detached" check_device_state

CACHE_ID_OPTION="1" CORE_DEVICE_OPTION="${CORE_DEVICE}-part3" CORE_ID_OPTION="3" try_add_core
DEVICE_ID_OPTION="${CORE_DEVICE}-part3" DEMANDED_STATE_OPTION="Detached" check_device_state


# Try to load cache device, check if it is running and if all cores status is appropirate
CACHE_ID_OPTION="1" CACHE_DEVICE_OPTION="${CACHE_DEVICE}-part1" CACHE_LOAD_METADATA_OPTION="y" start_cache
DEVICE_ID_OPTION="${CACHE_DEVICE}-part1" DEMANDED_STATE_OPTION="Running" check_device_state
DEVICE_ID_OPTION="${DEVICE_NAME}1-1" DEMANDED_STATE_OPTION="Active" check_device_state
DEVICE_ID_OPTION="${DEVICE_NAME}1-2" DEMANDED_STATE_OPTION="Active" check_device_state
DEVICE_ID_OPTION="${DEVICE_NAME}1-3" DEMANDED_STATE_OPTION="Active" check_device_state


# Stop prepared setup
CACHE_ID_OPTION="1" stop_cache

# Always return 0 at the end of the test - if at any point something has failed
# in the API functions, test will end and return a proper result.
# If you need to check other things during the test and end the test earlier, you
# should end the test using "end_test $retval" function
end_test 0