1#!/usr/bin/env python 2 3import sys 4try: 5 import __builtin__ 6except ImportError: 7 import builtins as __builtin__ 8import subprocess 9import os 10import argparse 11 12# python puts the program's directory path in sys.path[0]. In other words, 13# the user ordinarily has no way to override python's choice of a module from 14# its own dir. We want to have that ability in our environment. However, we 15# don't want to break any established python modules that depend on this 16# behavior. So, we'll save the value from sys.path[0], delete it, import our 17# modules and then restore sys.path to its original value. 18 19save_path_0 = sys.path[0] 20del sys.path[0] 21 22from gen_print import * 23from gen_valid import * 24from gen_arg import * 25from gen_plug_in import * 26from gen_cmd import * 27from gen_misc import * 28 29# Restore sys.path[0]. 30sys.path.insert(0, save_path_0) 31 32# Create parser object to process command line parameters and args. 33 34# Create parser object. 35parser = argparse.ArgumentParser( 36 usage='%(prog)s [OPTIONS]', 37 description="%(prog)s will process the plug-in packages passed to it." 38 + " A plug-in package is essentially a directory containing" 39 + " one or more call point programs. Each of these call point" 40 + " programs must have a prefix of \"cp_\". When calling" 41 + " %(prog)s, a user must provide a call_point parameter" 42 + " (described below). For each plug-in package passed," 43 + " %(prog)s will check for the presence of the specified call" 44 + " point program in the plug-in directory. If it is found," 45 + " %(prog)s will run it. It is the responsibility of the" 46 + " caller to set any environment variables needed by the call" 47 + " point programs.\n\nAfter each call point program" 48 + " has been run, %(prog)s will print the following values in" 49 + " the following formats for use by the calling program:\n" 50 + " failed_plug_in_name: <failed plug-in value," 51 + " if any>\n shell_rc: " 52 + "<shell return code value of last call point program - this" 53 + " will be printed in hexadecimal format. Also, be aware" 54 + " that if a call point program returns a value it will be" 55 + " shifted left 2 bytes (e.g. rc of 2 will be printed as" 56 + " 0x00000200). That is because the rightmost byte is" 57 + " reserved for errors in calling the call point program" 58 + " rather than errors generated by the call point program.>", 59 formatter_class=argparse.ArgumentDefaultsHelpFormatter, 60 prefix_chars='-+') 61 62# Create arguments. 63parser.add_argument( 64 'plug_in_dir_paths', 65 nargs='?', 66 default="", 67 help=plug_in_dir_paths_help_text + default_string) 68 69parser.add_argument( 70 '--call_point', 71 default="setup", 72 required=True, 73 help='The call point program name. This value must not include the' 74 + ' "cp_" prefix. For each plug-in package passed to this program,' 75 + ' the specified call_point program will be called if it exists in' 76 + ' the plug-in directory.' + default_string) 77 78parser.add_argument( 79 '--allow_shell_rc', 80 default="0x00000000", 81 help='The user may supply a value other than zero to indicate an' 82 + ' acceptable non-zero return code. For example, if this value' 83 + ' equals 0x00000200, it means that for each plug-in call point that' 84 + ' runs, a 0x00000200 will not be counted as a failure. See note' 85 + ' above regarding left-shifting of return codes.' + default_string) 86 87parser.add_argument( 88 '--stop_on_plug_in_failure', 89 default=1, 90 type=int, 91 choices=[1, 0], 92 help='If this parameter is set to 1, this program will stop and return ' 93 + 'non-zero if the call point program from any plug-in directory ' 94 + 'fails. Conversely, if it is set to false, this program will run ' 95 + 'the call point program from each and every plug-in directory ' 96 + 'regardless of their return values. Typical example cases where ' 97 + 'you\'d want to run all plug-in call points regardless of success ' 98 + 'or failure would be "cleanup" or "ffdc" call points.') 99 100parser.add_argument( 101 '--stop_on_non_zero_rc', 102 default=0, 103 type=int, 104 choices=[1, 0], 105 help='If this parm is set to 1 and a plug-in call point program returns ' 106 + 'a valid non-zero return code (see "allow_shell_rc" parm above),' 107 + ' this program will stop processing and return 0 (success). Since' 108 + ' this constitutes a successful exit, this would normally be used' 109 + ' where the caller wishes to stop processing if one of the plug-in' 110 + ' directory call point programs returns a special value indicating' 111 + ' that some special case has been found. An example might be in' 112 + ' calling some kind of "check_errl" call point program. Such a' 113 + ' call point program might return a 2 (i.e. 0x00000200) to indicate' 114 + ' that a given error log entry was found in an "ignore" list and is' 115 + ' therefore to be ignored. That being the case, no other' 116 + ' "check_errl" call point program would need to be called.' 117 + default_string) 118 119parser.add_argument( 120 '--mch_class', 121 default="obmc", 122 help=mch_class_help_text + default_string) 123 124# The stock_list will be passed to gen_get_options. We populate it with the 125# names of stock parm options we want. These stock parms are pre-defined by 126# gen_get_options. 127stock_list = [("test_mode", 0), ("quiet", 1), ("debug", 0)] 128 129 130def exit_function(signal_number=0, 131 frame=None): 132 r""" 133 Execute whenever the program ends normally or with the signals that we 134 catch (i.e. TERM, INT). 135 """ 136 137 dprint_executing() 138 dprint_var(signal_number) 139 140 qprint_pgm_footer() 141 142 143def signal_handler(signal_number, frame): 144 r""" 145 Handle signals. Without a function to catch a SIGTERM or SIGINT, our 146 program would terminate immediately with return code 143 and without 147 calling our exit_function. 148 """ 149 150 # Our convention is to set up exit_function with atexit.registr() so 151 # there is no need to explicitly call exit_function from here. 152 153 dprint_executing() 154 155 # Calling exit prevents us from returning to the code that was running 156 # when we received the signal. 157 exit(0) 158 159 160def validate_parms(): 161 r""" 162 Validate program parameters, etc. Return True or False accordingly. 163 """ 164 165 if not valid_value(call_point): 166 return False 167 168 global allow_shell_rc 169 if not valid_integer(allow_shell_rc): 170 return False 171 172 # Convert to hex string for consistency in printout. 173 allow_shell_rc = "0x%08x" % int(allow_shell_rc, 0) 174 set_pgm_arg(allow_shell_rc) 175 176 gen_post_validation(exit_function, signal_handler) 177 178 return True 179 180 181def run_pgm(plug_in_dir_path, 182 call_point, 183 allow_shell_rc): 184 r""" 185 Run the call point program in the given plug_in_dir_path. Return the 186 following: 187 rc The return code - 0 = PASS, 1 = FAIL. 188 shell_rc The shell return code returned by 189 process_plug_in_packages.py. 190 failed_plug_in_name The failed plug in name (if any). 191 192 Description of arguments: 193 plug_in_dir_path The directory path where the call_point 194 program may be located. 195 call_point The call point (e.g. "setup"). This 196 program will look for a program named 197 "cp_" + call_point in the 198 plug_in_dir_path. If no such call point 199 program is found, this function returns an 200 rc of 0 (i.e. success). 201 allow_shell_rc The user may supply a value other than 202 zero to indicate an acceptable non-zero 203 return code. For example, if this value 204 equals 0x00000200, it means that for each 205 plug-in call point that runs, a 0x00000200 206 will not be counted as a failure. See 207 note above regarding left-shifting of 208 return codes. 209 """ 210 211 rc = 0 212 failed_plug_in_name = "" 213 shell_rc = 0x00000000 214 215 plug_in_name = os.path.basename(os.path.normpath(plug_in_dir_path)) 216 cp_prefix = "cp_" 217 plug_in_pgm_path = plug_in_dir_path + cp_prefix + call_point 218 if not os.path.exists(plug_in_pgm_path): 219 # No such call point in this plug in dir path. This is legal so we 220 # return 0, etc. 221 return rc, shell_rc, failed_plug_in_name 222 223 print("------------------------------------------------- Starting plug-" 224 + "in -----------------------------------------------") 225 226 print_timen("Running " + plug_in_name + "/" + cp_prefix + call_point + ".") 227 228 stdout = 1 - quiet 229 if AUTOBOOT_OPENBMC_NICKNAME != "": 230 auto_status_file_prefix = AUTOBOOT_OPENBMC_NICKNAME + "." 231 else: 232 auto_status_file_prefix = "" 233 auto_status_file_prefix += plug_in_name + ".cp_" + call_point 234 status_dir_path =\ 235 add_trailing_slash(os.environ.get("STATUS_DIR_PATH", 236 os.environ['HOME'] 237 + "/status/")) 238 if not os.path.isdir(status_dir_path): 239 AUTOBOOT_EXECDIR = \ 240 add_trailing_slash(os.environ.get("AUTOBOOT_EXECDIR", "")) 241 status_dir_path = AUTOBOOT_EXECDIR + "logs/" 242 if not os.path.exists(status_dir_path): 243 os.makedirs(status_dir_path) 244 status_file_name = auto_status_file_prefix + "." + file_date_time_stamp() \ 245 + ".status" 246 auto_status_file_subcmd = "auto_status_file.py --status_dir_path=" \ 247 + status_dir_path + " --status_file_name=" + status_file_name \ 248 + " --quiet=1 --show_url=1 --prefix=" \ 249 + auto_status_file_prefix + " --stdout=" + str(stdout) + " " 250 251 cmd_buf = "PATH=" + plug_in_dir_path.rstrip("/") + ":${PATH} ; " +\ 252 auto_status_file_subcmd + cp_prefix + call_point 253 print_issuing(cmd_buf) 254 255 sub_proc = subprocess.Popen(cmd_buf, shell=True) 256 sub_proc.communicate() 257 shell_rc = sub_proc.returncode 258 # Shift to left. 259 shell_rc *= 0x100 260 if shell_rc != 0 and shell_rc != allow_shell_rc: 261 rc = 1 262 failed_plug_in_name = plug_in_name + "/" + cp_prefix + call_point 263 if shell_rc != 0: 264 failed_plug_in_name = plug_in_name + "/" + cp_prefix + call_point 265 if failed_plug_in_name != "" and not stdout: 266 # Use tail to avoid double-printing of status_file_url. 267 shell_cmd("tail -n +2 " + status_dir_path + status_file_name, quiet=1, 268 print_output=1) 269 270 print("------------------------------------------------- Ending plug-in" 271 + " -------------------------------------------------") 272 if failed_plug_in_name != "": 273 print_var(failed_plug_in_name) 274 print_var(shell_rc, hexa()) 275 276 return rc, shell_rc, failed_plug_in_name 277 278 279def main(): 280 r""" 281 This is the "main" function. The advantage of having this function vs 282 just doing this in the true mainline is that you can: 283 - Declare local variables 284 - Use "return" instead of "exit". 285 - Indent 4 chars like you would in any function. 286 This makes coding more consistent, i.e. it's easy to move code from here 287 into a function and vice versa. 288 """ 289 290 if not gen_get_options(parser, stock_list): 291 return False 292 293 if not validate_parms(): 294 return False 295 296 qprint_pgm_header() 297 298 # Access program parameter globals. 299 global plug_in_dir_paths 300 global mch_class 301 global allow_shell_rc 302 global stop_on_plug_in_failure 303 global stop_on_non_zero_rc 304 305 plug_in_packages_list = return_plug_in_packages_list(plug_in_dir_paths, 306 mch_class) 307 308 qprint_var(plug_in_packages_list) 309 qprint("\n") 310 311 allow_shell_rc = int(allow_shell_rc, 0) 312 shell_rc = 0 313 failed_plug_in_name = "" 314 315 global AUTOBOOT_OPENBMC_NICKNAME 316 AUTOBOOT_OPENBMC_NICKNAME = os.environ.get("AUTOBOOT_OPENBMC_NICKNAME", "") 317 318 ret_code = 0 319 for plug_in_dir_path in plug_in_packages_list: 320 rc, shell_rc, failed_plug_in_name = \ 321 run_pgm(plug_in_dir_path, call_point, allow_shell_rc) 322 if rc != 0: 323 ret_code = 1 324 if stop_on_plug_in_failure: 325 break 326 if shell_rc != 0 and stop_on_non_zero_rc: 327 qprint_time("Stopping on non-zero shell return code as requested" 328 + " by caller.\n") 329 break 330 331 if ret_code == 0: 332 return True 333 else: 334 print_error("At least one plug-in failed.\n") 335 return False 336 337 338# Main 339 340if not main(): 341 exit(1) 342