#!/usr/bin/env python r""" This module contains functions having to do with machine state: get_state, check_state, wait_state, etc. The 'State' is a composite of many pieces of data. Therefore, the functions in this module define state as an ordered dictionary. Here is an example of some test output showing machine state: state: state[power]: 1 state[bmc]: HOST_BOOTED state[boot_progress]: FW Progress, Starting OS state[os_ping]: 1 state[os_login]: 1 state[os_run_cmd]: 1 Different users may very well have different needs when inquiring about state. In the future, we can add code to allow a user to specify which pieces of info they need in the state dictionary. Examples of such data might include uptime, state timestamps, boot side, etc. By using the wait_state function, a caller can start a boot and then wait for a precisely defined state to indicate that the boot has succeeded. If the boot fails, they can see exactly why by looking at the current state as compared with the expected state. """ import gen_print as gp import gen_robot_print as grp import gen_valid as gv import commands from robot.libraries.BuiltIn import BuiltIn import re # We need utils.robot to get keywords like "Get Power State". BuiltIn().import_resource("utils.robot") ############################################################################### def anchor_state(state): r""" Add regular expression anchors ("^" and "$") to the beginning and end of each item in the state dictionary passed in. Return the resulting dictionary. Description of Arguments: state A dictionary such as the one returned by the get_state() function. """ anchored_state = state for key, match_state_value in anchored_state.items(): anchored_state[key] = "^" + str(anchored_state[key]) + "$" return anchored_state ############################################################################### ############################################################################### def compare_states(state, match_state): r""" Compare 2 state dictionaries. Return True if the match and False if they don't. Note that the match_state dictionary does not need to have an entry corresponding to each entry in the state dictionary. But for each entry that it does have, the corresponding state entry will be checked for a match. Description of arguments: state A state dictionary such as the one returned by the get_state function. match_state A dictionary whose key/value pairs are "state field"/ "state value". The state value is interpreted as a regular expression. Every value in this dictionary is considered. If each and every one matches, the 2 dictionaries are considered to be matching. """ match = True for key, match_state_value in match_state.items(): try: if not re.match(match_state_value, str(state[key])): match = False break except KeyError: match = False break return match ############################################################################### ############################################################################### def get_os_state(os_host="", os_username="", os_password="", quiet=None): r""" Get component states for the operating system such as ping, login, etc, put them into a dictionary and return them to the caller. Description of arguments: os_host The DNS name or IP address of the operating system. This defaults to global ${OS_HOST}. os_username The username to be used to login to the OS. This defaults to global ${OS_USERNAME}. os_password The password to be used to login to the OS. This defaults to global ${OS_PASSWORD}. quiet Indicates whether status details (e.g. curl commands) should be written to the console. Defaults to either global value of ${QUIET} or to 1. """ quiet = grp.set_quiet_default(quiet, 1) # Set parm defaults where necessary and validate all parms. if os_host == "": os_host = BuiltIn().get_variable_value("${OS_HOST}") error_message = gv.svalid_value(os_host, var_name="os_host", invalid_values=[None, ""]) if error_message != "": BuiltIn().fail(gp.sprint_error(error_message)) if os_username == "": os_username = BuiltIn().get_variable_value("${OS_USERNAME}") error_message = gv.svalid_value(os_username, var_name="os_username", invalid_values=[None, ""]) if error_message != "": BuiltIn().fail(gp.sprint_error(error_message)) if os_password == "": os_password = BuiltIn().get_variable_value("${OS_PASSWORD}") error_message = gv.svalid_value(os_password, var_name="os_password", invalid_values=[None, ""]) if error_message != "": BuiltIn().fail(gp.sprint_error(error_message)) # See if the OS pings. cmd_buf = "ping -c 1 -w 2 " + os_host if not quiet: grp.rpissuing(cmd_buf) rc, out_buf = commands.getstatusoutput(cmd_buf) if rc == 0: pings = 1 else: pings = 0 # Open SSH connection to OS. cmd_buf = ["Open Connection", os_host] if not quiet: grp.rpissuing_keyword(cmd_buf) ix = BuiltIn().run_keyword(*cmd_buf) # Login to OS. cmd_buf = ["Login", os_username, os_password] if not quiet: grp.rpissuing_keyword(cmd_buf) status, msg = BuiltIn().run_keyword_and_ignore_error(*cmd_buf) if status == "PASS": login = 1 else: login = 0 if login: # Try running a simple command (uptime) on the OS. cmd_buf = ["Execute Command", "uptime", "return_stderr=True", "return_rc=True"] if not quiet: grp.rpissuing_keyword(cmd_buf) output, stderr_buf, rc = BuiltIn().run_keyword(*cmd_buf) if rc == 0 and stderr_buf == "": run_cmd = 1 else: run_cmd = 0 else: run_cmd = 0 # Create a dictionary containing the results of the prior commands. cmd_buf = ["Create Dictionary", "ping=${" + str(pings) + "}", "login=${" + str(login) + "}", "run_cmd=${" + str(run_cmd) + "}"] grp.rdpissuing_keyword(cmd_buf) os_state = BuiltIn().run_keyword(*cmd_buf) return os_state ############################################################################### ############################################################################### def get_state(openbmc_host="", openbmc_username="", openbmc_password="", os_host="", os_username="", os_password="", quiet=None): r""" Get component states such as power state, bmc state, etc, put them into a dictionary and return them to the caller. Description of arguments: openbmc_host The DNS name or IP address of the BMC. This defaults to global ${OPENBMC_HOST}. openbmc_username The username to be used to login to the BMC. This defaults to global ${OPENBMC_USERNAME}. openbmc_password The password to be used to login to the BMC. This defaults to global ${OPENBMC_PASSWORD}. os_host The DNS name or IP address of the operating system. This defaults to global ${OS_HOST}. os_username The username to be used to login to the OS. This defaults to global ${OS_USERNAME}. os_password The password to be used to login to the OS. This defaults to global ${OS_PASSWORD}. quiet Indicates whether status details (e.g. curl commands) should be written to the console. Defaults to either global value of ${QUIET} or to 1. """ quiet = grp.set_quiet_default(quiet, 1) # Set parm defaults where necessary and validate all parms. if openbmc_host == "": openbmc_host = BuiltIn().get_variable_value("${OPENBMC_HOST}") error_message = gv.svalid_value(openbmc_host, var_name="openbmc_host", invalid_values=[None, ""]) if error_message != "": BuiltIn().fail(gp.sprint_error(error_message)) if openbmc_username == "": openbmc_username = BuiltIn().get_variable_value("${OPENBMC_USERNAME}") error_message = gv.svalid_value(openbmc_username, var_name="openbmc_username", invalid_values=[None, ""]) if error_message != "": BuiltIn().fail(gp.sprint_error(error_message)) if openbmc_password == "": openbmc_password = BuiltIn().get_variable_value("${OPENBMC_PASSWORD}") error_message = gv.svalid_value(openbmc_password, var_name="openbmc_password", invalid_values=[None, ""]) if error_message != "": BuiltIn().fail(gp.sprint_error(error_message)) # Set parm defaults where necessary and validate all parms. NOTE: OS parms # are optional. if os_host == "": os_host = BuiltIn().get_variable_value("${OS_HOST}") if os_host is None: os_host = "" if os_username is "": os_username = BuiltIn().get_variable_value("${OS_USERNAME}") if os_username is None: os_username = "" if os_password is "": os_password = BuiltIn().get_variable_value("${OS_PASSWORD}") if os_password is None: os_password = "" # Get the component states. cmd_buf = ["Get Power State", "quiet=${" + str(quiet) + "}"] grp.rdpissuing_keyword(cmd_buf) power = BuiltIn().run_keyword(*cmd_buf) cmd_buf = ["Get BMC State", "quiet=${" + str(quiet) + "}"] grp.rdpissuing_keyword(cmd_buf) bmc = BuiltIn().run_keyword(*cmd_buf) cmd_buf = ["Get Boot Progress", "quiet=${" + str(quiet) + "}"] grp.rdpissuing_keyword(cmd_buf) boot_progress = BuiltIn().run_keyword(*cmd_buf) # Create composite state dictionary. cmd_buf = ["Create Dictionary", "power=${" + str(power) + "}", "bmc=" + bmc, "boot_progress=" + boot_progress] grp.rdpissuing_keyword(cmd_buf) state = BuiltIn().run_keyword(*cmd_buf) if os_host != "": # Create an os_up_match dictionary to test whether we are booted enough # to get operating system info. cmd_buf = ["Create Dictionary", "power=^${1}$", "bmc=^HOST_BOOTED$", "boot_progress=^FW Progress, Starting OS$"] grp.rdpissuing_keyword(cmd_buf) os_up_match = BuiltIn().run_keyword(*cmd_buf) os_up = compare_states(state, os_up_match) if os_up: # Get OS information... os_state = get_os_state(os_host=os_host, os_username=os_username, os_password=os_password, quiet=quiet) for key, state_value in os_state.items(): # Add each OS value to the state dictionary, pre-pending # "os_" to each key. new_key = "os_" + key state[new_key] = state_value return state ############################################################################### ############################################################################### def check_state(match_state, invert=0, print_string="", openbmc_host="", openbmc_username="", openbmc_password="", os_host="", os_username="", os_password="", quiet=None): r""" Check that the Open BMC machine's composite state matches the specified state. On success, this keyword returns the machine's composite state as a dictionary. Description of arguments: match_state A dictionary whose key/value pairs are "state field"/ "state value". The state value is interpreted as a regular expression. Example call from robot: ${match_state}= Create Dictionary power=^1$ ... bmc=^HOST_BOOTED$ ... boot_progress=^FW Progress, Starting OS$ ${state}= Check State &{match_state} invert If this flag is set, this function will succeed if the states do NOT match. print_string This function will print this string to the console prior to getting the state. openbmc_host The DNS name or IP address of the BMC. This defaults to global ${OPENBMC_HOST}. openbmc_username The username to be used to login to the BMC. This defaults to global ${OPENBMC_USERNAME}. openbmc_password The password to be used to login to the BMC. This defaults to global ${OPENBMC_PASSWORD}. os_host The DNS name or IP address of the operating system. This defaults to global ${OS_HOST}. os_username The username to be used to login to the OS. This defaults to global ${OS_USERNAME}. os_password The password to be used to login to the OS. This defaults to global ${OS_PASSWORD}. quiet Indicates whether status details should be written to the console. Defaults to either global value of ${QUIET} or to 1. """ quiet = grp.set_quiet_default(quiet, 1) grp.rprint(print_string) # Initialize state. state = get_state(openbmc_host=openbmc_host, openbmc_username=openbmc_username, openbmc_password=openbmc_password, os_host=os_host, os_username=os_username, os_password=os_password, quiet=quiet) if not quiet: grp.rprint_var(state) match = compare_states(state, match_state) if invert and match: fail_msg = "The current state of the machine matches the match" +\ " state:\n" + gp.sprint_varx("state", state) BuiltIn().fail("\n" + gp.sprint_error(fail_msg)) elif not invert and not match: fail_msg = "The current state of the machine does NOT match the" +\ " match state:\n" +\ gp.sprint_varx("state", state) BuiltIn().fail("\n" + gp.sprint_error(fail_msg)) return state ############################################################################### ############################################################################### def wait_state(match_state=(), wait_time="1 min", interval="1 second", invert=0, openbmc_host="", openbmc_username="", openbmc_password="", os_host="", os_username="", os_password="", quiet=None): r""" Wait for the Open BMC machine's composite state to match the specified state. On success, this keyword returns the machine's composite state as a dictionary. Description of arguments: match_state A dictionary whose key/value pairs are "state field"/ "state value". See check_state (above) for details. wait_time The total amount of time to wait for the desired state. This value may be expressed in Robot Framework's time format (e.g. 1 minute, 2 min 3 s, 4.5). interval The amount of time between state checks. This value may be expressed in Robot Framework's time format (e.g. 1 minute, 2 min 3 s, 4.5). invert If this flag is set, this function will for the state of the machine to cease to match the match state. openbmc_host The DNS name or IP address of the BMC. This defaults to global ${OPENBMC_HOST}. openbmc_username The username to be used to login to the BMC. This defaults to global ${OPENBMC_USERNAME}. openbmc_password The password to be used to login to the BMC. This defaults to global ${OPENBMC_PASSWORD}. os_host The DNS name or IP address of the operating system. This defaults to global ${OS_HOST}. os_username The username to be used to login to the OS. This defaults to global ${OS_USERNAME}. os_password The password to be used to login to the OS. This defaults to global ${OS_PASSWORD}. quiet Indicates whether status details should be written to the console. Defaults to either global value of ${QUIET} or to 1. """ quiet = grp.set_quiet_default(quiet, 1) if not quiet: if invert: alt_text = "cease to " else: alt_text = "" grp.rprint_timen("Checking every " + str(interval) + " for up to " + str(wait_time) + " for the state of the machine to " + alt_text + "match the state shown below.") grp.rprint_var(match_state) if quiet: print_string="" else: print_string="#" cmd_buf = ["Check State", match_state, "invert=${" + str(invert) + "}", "print_string=" + print_string, "openbmc_host=" + openbmc_host, "openbmc_username=" + openbmc_username, "openbmc_password=" + openbmc_password, "os_host=" + os_host, "os_username=" + os_username, "os_password=" + os_password, "quiet=${1}"] grp.rdpissuing_keyword(cmd_buf) state = BuiltIn().wait_until_keyword_succeeds(wait_time, interval, *cmd_buf) if not quiet: grp.rprintn() if invert: grp.rprint_timen("The states no longer match:") else: grp.rprint_timen("The states match:") grp.rprint_var(state) return state ###############################################################################