#!/usr/bin/env python

r"""
This module provides functions which are useful to plug-ins call-point
programs that wish to make external robot program calls.
"""

import sys
import os
import subprocess
import re
import time
import imp

import gen_print as gp
import gen_valid as gv
import gen_misc as gm
import gen_cmd as gc

auto_base_path = "/afs/rchland.ibm.com/projects/esw/dvt/autoipl/"

base_path = \
    os.path.dirname(os.path.dirname(imp.find_module("gen_robot_print")[1])) +\
    os.sep


def init_robot_out_parms(extra_prefix=""):

    r"""
    Initialize robot output parms such as outputdir, output, etc.

    This function will set global values for the following robot output parms.

    outputdir, output, log, report, loglevel

    This function would typically be called prior to calling
    create_robot_cmd_string.
    """

    AUTOBOOT_OPENBMC_NICKNAME = gm.get_mod_global("AUTOBOOT_OPENBMC_NICKNAME")

    FFDC_DIR_PATH_STYLE = os.environ.get('FFDC_DIR_PATH_STYLE', '0')
    if FFDC_DIR_PATH_STYLE == '1':
        default_ffdc_dir_path = "/tmp/"
    else:
        default_ffdc_dir_path = base_path
    # Set values for call to create_robot_cmd_string.
    outputdir = gm.add_trailing_slash(os.environ.get("FFDC_DIR_PATH",
                                                     default_ffdc_dir_path))
    seconds = time.time()
    loc_time = time.localtime(seconds)
    time_string = time.strftime("%y%m%d.%H%M%S", loc_time)
    file_prefix = AUTOBOOT_OPENBMC_NICKNAME + "." + extra_prefix +\
        time_string + "."
    output = file_prefix + "output.xml"
    log = file_prefix + "log.html"
    report = file_prefix + "report.html"
    loglevel = "TRACE"

    # Make create_robot_cmd_string values global.
    gm.set_mod_global(outputdir)
    gm.set_mod_global(output)
    gm.set_mod_global(log)
    gm.set_mod_global(report)
    gm.set_mod_global(loglevel)


def init_robot_test_base_dir_path():

    r"""
    Initialize and validate the environment variable, ROBOT_TEST_BASE_DIR_PATH
    and set corresponding global variable ROBOT_TEST_RUNNING_FROM_SB.

    If ROBOT_TEST_BASE_DIR_PATH is already set, this function will merely
    validate it.  This function will also set environment variable
    ROBOT_TEST_RUNNING_FROM_SB when ROBOT_TEST_BASE_DIR_PATH is not pre-set.
    """

    # ROBOT_TEST_BASE_DIR_PATH will be set as follows:
    # This function will determine whether we are running in a user sandbox
    # or from a standard apolloxxx environment.
    # - User sandbox:
    # If there is a <developer's home dir>/git/openbmc-test-automation/,
    # ROBOT_TEST_BASE_DIR_PATH will be set to that path.  Otherwise, we set it
    # to <program dir path>/git/openbmc-test-automation/
    # - Not in user sandbox:
    # ROBOT_TEST_BASE_DIR_PATH will be set to <program dir
    # path>/git/openbmc-test-automation/

    ROBOT_TEST_BASE_DIR_PATH = os.environ.get('ROBOT_TEST_BASE_DIR_PATH', "")

    ROBOT_TEST_RUNNING_FROM_SB = \
        int(os.environ.get('ROBOT_TEST_RUNNING_FROM_SB', "0"))
    if ROBOT_TEST_BASE_DIR_PATH == "":
        # ROBOT_TEST_BASE_DIR_PATH was not set by user/caller.

        AUTOIPL_VERSION = os.environ.get('AUTOIPL_VERSION', '')

        if AUTOIPL_VERSION == "":
            ROBOT_TEST_BASE_DIR_PATH = base_path
        else:
            suffix = "git/openbmc-test-automation/"

            # Determine whether we're running out of a developer sandbox or
            # simply out of an apolloxxx/bin path.
            cmd_buf = 'dirname $(which gen_print.py)'
            gp.dpissuing(cmd_buf)
            sub_proc = \
                subprocess.Popen(cmd_buf, shell=True, stdout=subprocess.PIPE,
                                 stderr=subprocess.STDOUT)
            out_buf, err_buf = sub_proc.communicate()
            shell_rc = sub_proc.returncode
            executable_base_dir_path = out_buf.rstrip() + "/"

            # Strip the "land.ibm.com" for truer comparison with
            # apollo_dir_path.
            executable_base_dir_path = \
                executable_base_dir_path.replace('land.ibm.com', '')

            apollo_dir_path = re.sub('land\.ibm\.com', '', auto_base_path) +\
                AUTOIPL_VERSION + "/bin/"

            developer_home_dir_path = re.sub('/sandbox.*', '',
                                             executable_base_dir_path)
            developer_home_dir_path = \
                gm.add_trailing_slash(developer_home_dir_path)
            gp.dprint_vars(executable_base_dir_path, developer_home_dir_path,
                           apollo_dir_path)

            ROBOT_TEST_RUNNING_FROM_SB = 0
            if executable_base_dir_path != apollo_dir_path:
                ROBOT_TEST_RUNNING_FROM_SB = 1
                gp.dprint_vars(ROBOT_TEST_RUNNING_FROM_SB)
                ROBOT_TEST_BASE_DIR_PATH = developer_home_dir_path + suffix
                if not os.path.isdir(ROBOT_TEST_BASE_DIR_PATH):
                    gp.dprint_timen("NOTE: Sandbox directory" +
                                    " ${ROBOT_TEST_BASE_DIR_PATH} does not" +
                                    " exist.")
                    # Fall back to the apollo dir path.
                    ROBOT_TEST_BASE_DIR_PATH = apollo_dir_path + suffix
            else:
                # Use to the apollo dir path.
                ROBOT_TEST_BASE_DIR_PATH = apollo_dir_path + suffix

    if not gv.valid_value(ROBOT_TEST_BASE_DIR_PATH):
        return False
    gp.dprint_vars(ROBOT_TEST_RUNNING_FROM_SB, ROBOT_TEST_BASE_DIR_PATH)
    if not gv.valid_dir_path(ROBOT_TEST_BASE_DIR_PATH):
        return False

    ROBOT_TEST_BASE_DIR_PATH = gm.add_trailing_slash(ROBOT_TEST_BASE_DIR_PATH)
    gm.set_mod_global(ROBOT_TEST_BASE_DIR_PATH)
    os.environ['ROBOT_TEST_BASE_DIR_PATH'] = ROBOT_TEST_BASE_DIR_PATH

    gm.set_mod_global(ROBOT_TEST_RUNNING_FROM_SB)
    os.environ['ROBOT_TEST_RUNNING_FROM_SB'] = str(ROBOT_TEST_RUNNING_FROM_SB)


raw_robot_file_search_path = "${ROBOT_TEST_BASE_DIR_PATH}:" +\
    "${ROBOT_TEST_BASE_DIR_PATH}tests:${ROBOT_TEST_BASE_DIR_PATH}extended:" +\
    "${ROBOT_TEST_BASE_DIR_PATH}scratch:${PATH}"


def init_robot_file_path(robot_file_path):

    r"""
    Determine full path name for the file path passed in robot_file_path and
    return it.

    If robot_file_path contains a fully qualified path name, this function
    will verify that the file exists.  If robot_file_path contains a relative
    path, this function will search for the file and set robot_file_path so
    that it contains the absolute path to the robot file.  This function will
    search for the robot file using the raw_robot_file_search_path (defined
    above).  Note that if ROBOT_TEST_BASE_DIR_PATH is not set, this function
    will call init_robot_test_base_dir_path to set it.

    Description of arguments:
    robot_file_path                 The absolute or relative path to a robot
                                    file.
    """

    if not gv.valid_value(robot_file_path):
        raise ValueError('Programmer error.')

    try:
        if ROBOT_TEST_BASE_DIR_PATH is NONE:
            init_robot_test_base_dir_path()
    except NameError:
        init_robot_test_base_dir_path()

    if not re.match(r".*\.(robot|py)$", robot_file_path):
        # No suffix so we'll assign one of "\.robot".
        robot_file_path = robot_file_path + ".robot"

    abs_path = 0
    if robot_file_path[0:1] == "/":
        abs_path = 1

    gp.dprint_vars(abs_path, robot_file_path)

    if not abs_path:
        cmd_buf = "echo -n \"" + raw_robot_file_search_path + "\""
        gp.dpissuing(cmd_buf)
        sub_proc = subprocess.Popen(cmd_buf, shell=True,
                                    stdout=subprocess.PIPE,
                                    stderr=subprocess.STDOUT)
        out_buf, err_buf = sub_proc.communicate()
        shell_rc = sub_proc.returncode
        robot_file_search_paths = out_buf
        gp.dpvar(robot_file_search_paths)

        robot_file_search_paths_list = robot_file_search_paths.split(':')
        for search_path in robot_file_search_paths_list:
            search_path = gm.add_trailing_slash(search_path)
            candidate_file_path = search_path + robot_file_path
            gp.dprint_var(candidate_file_path)
            if os.path.isfile(candidate_file_path):
                gp.dprint_timen("Found full path to " + robot_file_path + ".")
                robot_file_path = candidate_file_path
                break

    gp.dprint_var(robot_file_path)
    if not gv.valid_file_path(robot_file_path):
        raise ValueError('Programmer error.')

    return robot_file_path


def get_robot_parm_names():

    r"""
    Return a list containing all of the long parm names (e.g. --outputdir)
    supported by the robot program.  Double dashes are not included in the
    names returned.
    """

    cmd_buf = "robot -h | egrep " +\
        "'^([ ]\-[a-zA-Z0-9])?[ ]+--[a-zA-Z0-9]+[ ]+' | sed -re" +\
        " s'/.*\-\-//g' -e s'/ .*//g' | sort -u"
    sub_proc = subprocess.Popen(cmd_buf, shell=True, stdout=subprocess.PIPE,
                                stderr=subprocess.STDOUT)
    out_buf, err_buf = sub_proc.communicate()
    shell_rc = sub_proc.returncode
    if shell_rc != 0:
        hex = 1
        print_var(shell_rc, hex)
        print(out_buf)

    return out_buf.split("\n")


def create_robot_cmd_string(robot_file_path, *parms):

    r"""
    Create a robot command string and return it.  On failure, return an empty
    string.

    Description of arguments:
    robot_file_path                 The path to the robot file to be run.
    parms                           The list of parms to be included in the
                                    command string.  The name of each variable
                                    in this list must be the same as the name
                                    of the corresponding parm.  This function
                                    figures out that name.  This function is
                                    also able to distinguish robot parms (e.g.
                                    --outputdir) from robot program parms (all
                                    other parms which will be passed as "-v
                                    PARM_NAME:parm_value")..

    Example:

    The following call to this function...
    cmd_buf = create_robot_cmd_string("tools/start_sol_console.robot",
    OPENBMC_HOST, quiet, test_mode, debug, outputdir, output, log, report)

    Would return a string something like this.
    robot -v OPENBMC_HOST:beye6 -v quiet:0 -v test_mode:1 -v debug:1
    --outputdir=/gsa/ausgsa/projects/a/autoipl/status
    --output=beye6.OS_Console.output.xml --log=beye6.OS_Console.log.html
    --report=beye6.OS_Console.report.html tools/start_sol_console.robot
    """

    robot_file_path = init_robot_file_path(robot_file_path)

    robot_parm_names = get_robot_parm_names()

    robot_parm_list = []

    stack_frame = 2
    ix = 2
    for arg in parms:
        parm = arg
        parm = gm.quote_bash_parm(gm.escape_bash_quotes(str(parm)))
        var_name = gp.get_arg_name(None, ix, stack_frame)
        if var_name in robot_parm_names:
            p_string = "--" + var_name + "=" + str(parm)
            robot_parm_list.append(p_string)
        else:
            p_string = "-v " + var_name + ":" + str(parm)
            robot_parm_list.append(p_string)
        ix += 1

    robot_cmd_buf = "robot " + ' '.join(robot_parm_list) + " " +\
        robot_file_path

    return robot_cmd_buf


def robot_cmd_fnc(robot_cmd_buf,
                  robot_jail=os.environ.get('ROBOT_JAIL', ''),
                  gzip=1):

    r"""
    Run the robot command string.

    This function will set the various PATH variables correctly so that you
    are running the proper version of all imported files, etc.

    Description of argument(s):
    robot_cmd_buf                   The complete robot command string.
    robot_jail                      Indicates that this is to run in "robot
                                    jail" meaning without visibility to any
                                    apolloxxx import files, programs, etc.
    gqip                            This indicates that the log, report and
                                    output files produced by robot should be
                                    gzipped to save space.
    """

    if not gv.valid_value(robot_cmd_buf):
        return False

    # Get globals set by init_robot_test_base_dir_path().
    module = sys.modules["__main__"]
    try:
        ROBOT_TEST_BASE_DIR_PATH = getattr(module, "ROBOT_TEST_BASE_DIR_PATH")
    except NameError:
        init_robot_test_base_dir_path()
        ROBOT_TEST_BASE_DIR_PATH = getattr(module, "ROBOT_TEST_BASE_DIR_PATH")

    ROBOT_TEST_RUNNING_FROM_SB = \
        gm.get_mod_global("ROBOT_TEST_RUNNING_FROM_SB")

    if robot_jail == "":
        if ROBOT_TEST_RUNNING_FROM_SB:
            robot_jail = 0
        else:
            robot_jail = 1

    robot_jail = int(robot_jail)
    ROBOT_JAIL = os.environ.get('ROBOT_JAIL', '')
    gp.dprint_vars(ROBOT_TEST_BASE_DIR_PATH, ROBOT_TEST_RUNNING_FROM_SB,
                   ROBOT_JAIL, robot_jail)

    # Save PATH and PYTHONPATH to be restored later.
    os.environ["SAVED_PYTHONPATH"] = os.environ.get("PYTHONPATH", "")
    os.environ["SAVED_PATH"] = os.environ.get("PATH", "")

    if robot_jail:
        PYTHONPATH = ROBOT_TEST_BASE_DIR_PATH + "lib"
        NEW_PATH_LIST = [ROBOT_TEST_BASE_DIR_PATH + "bin"]
        # Coding special case to preserve python27_path.
        python27_path = "/opt/rh/python27/root/usr/bin"
        PATH_LIST = os.environ.get("PATH", "").split(":")
        if python27_path in PATH_LIST:
            NEW_PATH_LIST.append(python27_path)
        NEW_PATH_LIST.extend(["/usr/local/sbin", "/usr/local/bin", "/usr/sbin",
                              "/usr/bin", "/sbin", "/bin"])
        PATH = ":".join(NEW_PATH_LIST)
    else:
        PYTHONPATH = os.environ.get('PYTHONPATH', '') + ":" +\
            ROBOT_TEST_BASE_DIR_PATH + "lib/"
        PATH = os.environ.get('PATH', '') + ":" + ROBOT_TEST_BASE_DIR_PATH +\
            "bin/"

    os.environ['PYTHONPATH'] = PYTHONPATH
    os.environ['PATH'] = PATH
    gp.dprint_vars(PATH, PYTHONPATH)

    os.environ['FFDC_DIR_PATH_STYLE'] = os.environ.get('FFDC_DIR_PATH_STYLE',
                                                       '1')

    test_mode = getattr(module, "test_mode")

    gp.qpissuing(robot_cmd_buf, test_mode)
    if test_mode:
        os.environ["PATH"] = os.environ.get("SAVED_PATH", "")
        os.environ["PYTHONPATH"] = os.environ.get("SAVED_PYTHONPATH", "")
        return True

    if quiet:
        DEVNULL = open(os.devnull, 'wb')
        stdout = DEVNULL
    else:
        stdout = None
    sub_proc = subprocess.Popen(robot_cmd_buf, stdout=stdout, shell=True)
    sub_proc.communicate()
    shell_rc = sub_proc.returncode
    if shell_rc != 0:
        hex = 1
        gp.pvar(shell_rc, hex)
        os.environ["PATH"] = os.environ.get("SAVED_PATH", "")
        os.environ["PYTHONPATH"] = os.environ.get("SAVED_PYTHONPATH", "")
        return False

    os.environ["PATH"] = os.environ.get("SAVED_PATH", "")
    os.environ["PYTHONPATH"] = os.environ.get("SAVED_PYTHONPATH", "")

    if not gzip:
        return True

    # gzip the output files.
    # Retrieve the parms from the robot command buffer.
    robot_cmd_buf_dict = gc.parse_command_string(robot_cmd_buf)
    # Get prefix from the log parm.
    prefix = re.sub('log\.html$', '', robot_cmd_buf_dict['log'])
    gp.qprintn()
    rc, outbuf = gc.cmd_fnc("cd " + robot_cmd_buf_dict['outputdir'] +
                            " ; gzip " + robot_cmd_buf_dict['output'] +
                            " " + robot_cmd_buf_dict['log'] +
                            " " + robot_cmd_buf_dict['report'])

    outputdir = gm.add_trailing_slash(robot_cmd_buf_dict['outputdir'])
    Output = outputdir + robot_cmd_buf_dict['output'] + ".gz"
    Log = outputdir + robot_cmd_buf_dict['log'] + ".gz"
    Report = outputdir + robot_cmd_buf_dict['report'] + ".gz"
    gp.qprintn("\ngzipped output:")
    gp.qpvars(0, 9, Output, Log, Report)

    return True