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bash-runner.sh

The Task

Task description : Bash script called 'runner.sh' that wraps any other command and outputs a summary of execution, similar to the ping command, with the following options:

					-c COUNT - Number of times to run the given command
					--failed-count N - Number of allowed failed command invocation attempts before giving up
					--net-trace - For each failed execution, create a ‘pcap’ file with the network traffic during the execution.
					--sys-trace - For each failed execution, create a log for each of the following values, measured during command execution:
						+ disk io
						+ memory
						+ processes/threads and cpu usage of the command
						+ network card package counters
					--call-trace - For each failed execution, add also a log with all the system calls ran by the command
					--log-trace - For each failed execution, add also the command output logs (stdout, stderr)
					--debug - Debug mode, show each instruction executed by the script


Basic functionality :-
---------------------
			- print a summary of the command return codes (how many times each return code happened).
			- even if/when the script was interrupted (via ctrl+c or 'kill')
			- return the most frequent return code when exiting


Implemented functions :-
------------------------
			+ functional options :
   				   -c COUNT
				     --failed-count N 
			+non-functional options :
				   --net-trace 
				   --sys-trace
				   --call-trace
				   --log-trace
				   --debug

Design & Development Process

		1) basic requirement 
				1.1) run any simple command by command-line 
				1.2) think about different cases : command execution fail , command execution success 
				1.3) look into the returned-code in each case 
				1.4) running a command n times in a loop and do the same previous steps (1.1-1.3)
				
				OS interrupts : trap & catch system signals , Get more info about "Linux Trap" ,  
      OS System process signals , and process management(stackOverFlow,LDAP,internet Online references & examples)

				1.5) create a simple function/method that do some echo
				1.6) create your own trap to catch "ctrl+c" , and see the behaviour in the same Linux shell
				1.7) test the all scenarios & cases to make sure that's functioning based on the OS Trap documentation & examples 

				**Note : Unix system by design doesn't allow any script/program to trap SIGKILL due to security reasons . 
				
				++ frequent returned-codes : think about some simple commands that do this target like :-
                sorting , uniq , counting etc,...
				
				++ command options/flags : in this current step , we need to look into the basic flags (count & failed allowed)
					a) try to look for "bash options  getopt" 
					b) read a simple examples , then try it in different shell/script till it work
					c) Think about how to combine the count's flags into the working example
						in case you get any error , try to search for the reason , and read the related explanation . 
					
				
				Now we are ready to implement the basic requirement .
				
				in this step , you need to develop one script that include all of the above requirement , 
                once it done - try to read and think about the code you wrote , 
                and try to cover the all cases before the first execution . 

				First execution :-  
      run the script , in case you face any syntax error then fix it before you start think about the possible cases .
				Hint : write a test-commands file , that include different commands that return randome return-code 
      (this will be the input for the final script)
					
					$ cat test_command.sh 
					#!/bin/bash
					
					ret="`echo $RANDOM % 3 | bc`"
					echo "sleep ${ret}sec"
					ls $ret
					sleep ${ret}
					exit   ${ret}



				
					i) running the script with all the needed inputs 
					$ ./runner.sh -c 5 --failed-count 2 test_command.sh
					sleep 0sec
					ls: 0: No such file or directory
					sleep 1sec
					ls: 1: No such file or directory
					sleep 0sec
					ls: 0: No such file or directory
					sleep 0sec
					ls: 0: No such file or directory
					sleep 2sec
					ls: 2: No such file or directory
					|------Return Codes Summary-----|
					|  Return-Code  |  Occurrence   |
					|-------------------------------|
					|	 0	|	 3	|
					|	 2	|	 1	|
					|	 1	|	 1	|
					|-------------------------------|
					 

					then you need to verify the Returned code of the main script is equal the same RC with high occurrence
					note $? is returned-code of the last command , so you need to run it immediately to get the RC of the main script  
					$ echo $?
					0

					
				
					ii) create a usage/help summary to be printed when the input isn't valid
					
					$ ./runner.sh -c 5 --failed-count 2                
					Usage: runner.sh [OPTION].... [command [arg ...]]
					
					-c COUNT            Number of times to run the given command
					--failed-count N    Number of allowed failed command invocation attempts before giving up
					--net-trace         For each failed execution, create a 'pcap' file with the network traffic during the execution.
					--sys-trace         For each failed execution, create a log for each of the following values, measured during command execution .
					--call-trace        For each failed execution, add also a log with all the system calls ran by the command
					--log-trace         For each failed execution, add also the command output logs (stdout, stderr)
					--debug             Debug mode, show each instruction executed by the script
					
					

					
	 2)develop all the available options :-
					
					debug             
    ------------------
      Debug mode, show each instruction executed by the script										     
      The point here is to enable debug into the main script , as it's ued in Linux to print 
										
				$ bash -x runner.sh : this will trace everything exeuted by the script from command-line

				control the debug into code by using : set +/- x 
				as enabling debug by : set -x 
				as disabling debug by : set +x

				in this task , we set a default debug to be disabled , 
				export DEBUG="set +x"                          ## disabled debug
										 
				And it changed in the getopts(when --debug passed to the script) , 
										 
				--debug)
				  	 # enable the debug options
					   export DEBUG="set -x"
						 shift
						 ;;
									
				Trigger debug mode : executing set +/-x  by ${DEBUG} immediately after parsing the options 
										
										# enable/disable the debug option depend on the input options (if --debug was passed)
										${DEBUG}
										 
					




					log-trace  
    --------------------
        For each failed execution, add also the command output logs (stdout, stderr) , 
          checking the options while parse opts in getopt 
										
										        --log-trace)
												 # trigger the log trace by printing the stdout & stderr to separate log files 
												 export LOG_TRACE="Y"
												 export LOG_OUT="${OUTPUT_DIR}/log_trace_`${TIME_SIGNUTURE}`.out"
												 export LOG_ERR="${OUTPUT_DIR}/log_trace_`${TIME_SIGNUTURE}`.err"
												 shift
												 ;;
										
					Holding a flag to determine that the log-trace enabled , also define two files name with timestamp , 
        the standard output/errors of the command will be redirected to those files  
					LOG_OUT - for the standard outputs , LOG_ERR for the standard errors 
										
										
					Trigger the log-trace : when executing the command and to redirect the command outputs to those files 
										
										# redirect the stdout & stderr to separate file in filesystem
										${COMMAND} 1>>${LOG_OUT}  2>>${LOG_ERR}

					
					
      sys-trace       
 ---------------------
        For each failed execution, create a log for each of the following values, measured during command execution:-
        
        --sys-trace)
          # triggering OPVA Extract  utility to generate system resources measured matrices : we used /opt/perf/bin/extract
          export SYS_TRACE="Y"
          shift
          ;;
					
        
        as the extract tool extract a data based on times so we saved start & end time  for each command execution .
										
										
					Trigger sys trace : checking the returned code of the executed command , and in case failed (return-code not zero) 
        then calling to the below function :
										
										exec_sys_trace() {
										
											export SYS_TRACE_OUT="${OUTPUT_DIR}/sys_trace_`${TIME_SIGNUTURE}`.out"
											[[ ${SYS_TRACE} ]] && /opt/perf/bin/extract -GDNUY -xp -b \"${START_DATE}\" -e \"${END_DATE}\"  -f ${SYS_TRACE_OUT}
										
										}
										
					then it will extract system resources values during the execution by start & end date :-
										
										# another case : if the execution failed - then trigger the sys-trace generation 
										[[ ${this_rc} != 0 ]] && exec_sys_trace 1>/dev/null 2>&1

												
											
						
											
					
					call-trace        
  -----------------------
  For each failed execution, add also a log with all the system calls ran by the command
  searching for "bash system calls" - http://www.tldp.org/LDP/lkmpg/2.4/html/x939.html
		parsing the options by getops and check if the flag --call-trace passed to the script input argument 

										        --call-trace)
													      # trigger the strace to generate call trace - we used /usr/bin/strace 
													       export CALL_TRACE="Y"
													       shift
													       ;;

					
					
				
					net-trace         
 ----------------------------
        For each failed execution, create a 'pcap' file with the network traffic during the execution.
					The implementation here isn't easy  , as it designed to capture the network traffic with 4000 packet (with background process) before execute the command 
         runner.sh ->  run tcpdump in background -->  execute the command ---> wait till tcpdump done & contiune with the next 
											 
											 
                                             # command executions loop - main invocations steps 
                                             # Test and check the executions time and allowed fails counters 
                                             while [[ ${execution_count} != ${COUNT} ]] && [[ ${failed_executions} != ${FAIL_COUNT} ]] ; do
                                             
                                                   export START_DATE=$(date +"%m/%d/%Y %H:%M:%S")
                                                   export CALL_TRACE_OUT="${OUTPUT_DIR}/call_trace_`${TIME_SIGNUTURE}`.out"
                                             
                                             
                                                    # if --net-trace enabled then trigger net traffic monitor
                                                    [[ ${NET_TRACE} ]] && exec_net_trace  1>/dev/null 2>&1  &
                                                    wait_pids="${wait_pids} $!"
											 
        and waiting to the tcpdump process to finish before flipping next execution by using "wait" :-

		      								wait ${wait_pids}
													export END_DATE=$(date +"%m/%d/%Y %H:%M:%S")

Top important topics

	+ getopt/getopts
	+ trap & system signals
	+ net-trace : by using /usr/sbin/tcpdump
	+ syst-trace : by vmstat & OPVA-HP extract tool 
	+ call-trace : by using /usr/bin/strace

Materials , Appendix

- stackoverflow : searched for
  - TLDP(The Linux Documentation Project) : http://tldp.org/guides.html
  - github : 

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