02
Sat, Nov
2 New Articles
  1. You are here:  
  2. Home
  3. Programming
  4. Programming - Other
  5. CL
  6. Simplify CL Global Message Monitoring

Simplify CL Global Message Monitoring

CL
Typography
  • Smaller Small Medium Big Bigger
  • Default Helvetica Segoe Georgia Times

There's probably nothing worse than having a cryptic, system-issued error message replace the entire screen of a user's display while he's trying to get his work done. Often, the error message requires a response. However, because the messages are usually difficult to interpret, the user can't determine the appropriate response. Even after a response is supplied, the message sometimes cascades into other messages.

These obtrusive, obnoxious error messages are often a result of CL programs not being written to deal with unexpected errors. And, even though a programmer can try, it is difficult to anticipate every possible error that may occur. Fortunately, IBM provided us with what is called program-level message monitoring (often referred to as global message monitoring).

There is a commonly accepted method for performing this type of monitoring, which I'll describe in the next section. It works but, as of V2R2, you can simplify the method with the use of APIs. What I'm offering you here is this simplified version bundled into a shell CL program (CLPGMSHELL, in 1) that you can use as a starting point for almost any CL program you write. It will provide you with a standard, efficient way for your programs to handle errors at the program level. I've also included some documentation features. If you already have your own standard documentation, simply remove the first section of comments from my shell.

There is a commonly accepted method for performing this type of monitoring, which I'll describe in the next section. It works but, as of V2R2, you can simplify the method with the use of APIs. What I'm offering you here is this simplified version bundled into a shell CL program (CLPGMSHELL, in Figure 1) that you can use as a starting point for almost any CL program you write. It will provide you with a standard, efficient way for your programs to handle errors at the program level. I've also included some documentation features. If you already have your own standard documentation, simply remove the first section of comments from my shell.

Global Monitoring

The key to global message monitoring is placing a Monitor Message (MONMSG) command after the last declare statement of your program. You supply a specific or generic message identifier. No matter what command in your program causes the generic or specific message ID to be issued, it will automatically be monitored. To further qualify the monitor, you can optionally specify a character string that is compared with the message data of the received message. For more information about monitoring messages in a CL program, refer to the CL Programmer's Guide (SC41-8077, CD-ROM QBKA7101).

The monitor I've defined so far traps all escape, notify and status error messages that aren't explicitly trapped at the command-level elsewhere in the program. Once trapped, the messages are normally sent back to the calling program. This is accomplished by using the EXEC parameter of the MONMSG command to cause a branch (GOTO) to a portion of your CL program that will explicitly send the messages to the caller. (GOTO is the only command that can be specified with a program-level MONMSG command.)

It is up to you to make the program-level MONMSG command monitor the messages you want to trap (CLPGMSHELL uses CPF0000 by default). You must use the ppphhhh format where "ppp" represents the licensed program (the first character is always alphabetic and can be followed by two alphanumerics), and "hhhh" represents the digits of the message ID in hexadecimal notation. Zeros in either two or all four of the rightmost positions cause generic message trapping to occur.

For example, the statement below traps any CPF21xx message (CPF2101, CPF2105, and so on) issued to your program and not monitored at the command level, and causes the program to branch to the ERRPROC tag:

 MONMSG MSGID(CPF2100) + EXEC(GOTO CMDLBL(ERRPROC))

At the ERRPROC label, CLPGMSHELL issues the Send Program Message (SNDPGMMSG) command to send information to the calling program. The generally accepted practice is to send all diagnostic messages that may have been issued, along with the last escape message, to the calling program's message queue. Before you can send these messages, you must first receive them. This process requires a program loop which receives and sends each diagnostic message until there are no more diagnostic messages to send. The loop is exited and the last escape message is sent as an escape message to cause the program to terminate. You can see this technique used in many of the CL programs in the QUSRTOOL library. Now for a better way.

CLPGMSHELL Highlights

By using two of the message APIs, the technique described above can be simplified. We can do away with the need to receive every message you want to send back to the caller, thus eliminating the loop. This is especially beneficial since CL doesn't directly support DO loops (you have to code GOTO tags).

Since I've already explained how global message monitoring works, I'm only going to give you an overview of how this program handles program-level messages. I will explain some of the highlights that make this program work. For more insight into the message-handling APIs, refer to the System Program- mer's Interface Reference manual (SC41-8223, CD-ROM QBKA8401) and to "More Powerful Message Subfiles" elsewhere in this issue.

The CLPGMSHELL basically has three working sections.

1. The declaration section, where the variables for the message APIs are declared.

2. The program-level monitor-one MONMSG command.

3. The error-handling section, where the messages are sent to the previous program's message queue.

The message APIs, like many other APIs, require parameter values to be expressed in binary form. In this program, I set up several required binary values by loading the hexadecimal representation of the binary value into a character variable. For example, notice the last variable declared, &STKCTR (program stack counter used by one of the APIs), where I load a binary value of 1 by using the hexadecimal representation of that value (X'00000001'). If I wanted to load a binary value of 10, I would have used hexadecimal value X'0000000A'.

The last-but most important-section is the error-handling section, where I exploit the power of two message APIs. It starts at the ERRPROC tag. The program calls the Move Program Message (QMHMOVPM) API to move all diagnostic messages to the previous program's message queue at once. No program loop has to be created to receive and send each message. The program then calls the Resend Escape Message (QMHRSNEM) API to send the last escape message to the previous program's message queue. Here again, there is no need to receive the message before we send it.

If any exception messages are issued within the error handler, they create the potential for an infinite loop. This is because the exception message will engage the program-level monitor and the program will branch to the ERRPROC tag. Since the same code that issued the exception message is executed again, the same error will be trapped again, and the program will repeat the same branch indefinitely.

To prevent this, the program sets an error flag on (logical variable &ERROR) the first time the error procedure is processed. If the error procedure is entered again, the error flag will be on and the program will branch to the ERRDONE tag. This causes the exception message to be resent via the QMHRSNEM API call.

It is possible, although unlikely, that the call could issue an exception message; therefore, I use a generic CPF0000 monitor at this statement. If this happens, an escape message CPF3CF2 is generated via the Send Program Message (SNDPGMMSG) command, which says that an error occurred while processing the API. I'm using SNDPGMMSG here instead of the API since if the program gets to here it means the API is failing.

One last thing-just in case the SNDPGMMSG fails (very, very unlikely), I use a generic monitor. If it fails, no escape message will be sent.

Starting Out on the Right Foot

With very little effort (or thought), you can include program-level message processing capabilities in your CL programs to easily and gracefully get information back to the calling program. The next time you write a CL program, start by including the CLPGMSHELL.

Richard Shaler is a senior technical editor at Midrange Computing.

Simplify CL Global Message Monitoring

Figure 1 The CLPGMSHELL

 /*==================================================================*/ /* */ /* Program name: CLPGMSHELL */ /* */ /* Purpose: To be used as a CL shell that provides generic */ /* message handling. Moves all *DIAG and *ESCAPE */ /* messages to the previous program's message queue.*/ /* */ /* Author: Joe Programmer */ /* */ /* Date created: 99/99/99 */ /* */ /* Notes: Requires mainline code */ /* */ /* */ /*==================================================================*/ /* M o d i f i c a t i o n L o g */ /* ------------------------------- */ /* */ /* Date Ini Description */ /* -------- --- ------------------------------------------------- */ /* 99/99/99 */ /* */ /*==================================================================*/ PGM PARM() /* Declare parameter variables */ /* Declare program variables */ /* Declare error processing variables */ DCL VAR(&ERRBYTES) TYPE(*CHAR) LEN(4) + VALUE(X'00000000') DCL VAR(&ERROR) TYPE(*LGL) VALUE('0') DCL VAR(&MSGKEY) TYPE(*CHAR) LEN(4) DCL VAR(&MSGTYP) TYPE(*CHAR) LEN(10) VALUE('*DIAG') DCL VAR(&MSGTYPCTR) TYPE(*CHAR) LEN(4) + VALUE(X'00000001') DCL VAR(&PGMMSGQ) TYPE(*CHAR) LEN(10) VALUE('*') DCL VAR(&STKCTR) TYPE(*CHAR) LEN(4) + VALUE(X'00000001') /* Declare file */ /* Default monitoring */ MONMSG MSGID(CPF0000) EXEC(GOTO CMDLBL(ERRPROC)) /*==================================================================*/ /* Mainline */ /*==================================================================*/ /*==================================================================*/ /* Normal end of program */ /*==================================================================*/ /* Send completion messages here */ RETURN /*==================================================================*/ /* Error processing routine */ /*==================================================================*/ ERRPROC: IF COND(&ERROR) THEN(GOTO CMDLBL(ERRDONE)) ELSE CMD(CHGVAR VAR(&ERROR) VALUE('1')) /* Move all *DIAG messages to previous program queue */ CALL PGM(QMHMOVPM) PARM(&MSGKEY &MSGTYP + &MSGTYPCTR &PGMMSGQ &STKCTR &ERRBYTES) /* Resend last *ESCAPE message */ ERRDONE: CALL PGM(QMHRSNEM) PARM(&MSGKEY &ERRBYTES) MONMSG MSGID(CPF0000) EXEC(DO) SNDPGMMSG MSGID(CPF3CF2) MSGF(QCPFMSG) + MSGDTA('QMHRSNEM') MSGTYPE(*ESCAPE) MONMSG MSGID(CPF0000) ENDDO ENDPGM /*==================================================================*/
BLOG COMMENTS POWERED BY DISQUS

LATEST COMMENTS

Support MC Press Online

$

Book Reviews

Resource Center

  • SB Profound WC 5536 Have you been wondering about Node.js? Our free Node.js Webinar Series takes you from total beginner to creating a fully-functional IBM i Node.js business application. You can find Part 1 here. In Part 2 of our free Node.js Webinar Series, Brian May teaches you the different tooling options available for writing code, debugging, and using Git for version control. Brian will briefly discuss the different tools available, and demonstrate his preferred setup for Node development on IBM i or any platform. Attend this webinar to learn:

  • SB Profound WP 5539More than ever, there is a demand for IT to deliver innovation. Your IBM i has been an essential part of your business operations for years. However, your organization may struggle to maintain the current system and implement new projects. The thousands of customers we've worked with and surveyed state that expectations regarding the digital footprint and vision of the company are not aligned with the current IT environment.

  • SB HelpSystems ROBOT Generic IBM announced the E1080 servers using the latest Power10 processor in September 2021. The most powerful processor from IBM to date, Power10 is designed to handle the demands of doing business in today’s high-tech atmosphere, including running cloud applications, supporting big data, and managing AI workloads. But what does Power10 mean for your data center? In this recorded webinar, IBMers Dan Sundt and Dylan Boday join IBM Power Champion Tom Huntington for a discussion on why Power10 technology is the right strategic investment if you run IBM i, AIX, or Linux. In this action-packed hour, Tom will share trends from the IBM i and AIX user communities while Dan and Dylan dive into the tech specs for key hardware, including:

  • Magic MarkTRY the one package that solves all your document design and printing challenges on all your platforms. Produce bar code labels, electronic forms, ad hoc reports, and RFID tags – without programming! MarkMagic is the only document design and print solution that combines report writing, WYSIWYG label and forms design, and conditional printing in one integrated product. Make sure your data survives when catastrophe hits. Request your trial now!  Request Now.

  • SB HelpSystems ROBOT GenericForms of ransomware has been around for over 30 years, and with more and more organizations suffering attacks each year, it continues to endure. What has made ransomware such a durable threat and what is the best way to combat it? In order to prevent ransomware, organizations must first understand how it works.

  • SB HelpSystems ROBOT GenericIT security is a top priority for businesses around the world, but most IBM i pros don’t know where to begin—and most cybersecurity experts don’t know IBM i. In this session, Robin Tatam explores the business impact of lax IBM i security, the top vulnerabilities putting IBM i at risk, and the steps you can take to protect your organization. If you’re looking to avoid unexpected downtime or corrupted data, you don’t want to miss this session.

  • SB HelpSystems ROBOT GenericCan you trust all of your users all of the time? A typical end user receives 16 malicious emails each month, but only 17 percent of these phishing campaigns are reported to IT. Once an attack is underway, most organizations won’t discover the breach until six months later. A staggering amount of damage can occur in that time. Despite these risks, 93 percent of organizations are leaving their IBM i systems vulnerable to cybercrime. In this on-demand webinar, IBM i security experts Robin Tatam and Sandi Moore will reveal:

  • FORTRA Disaster protection is vital to every business. Yet, it often consists of patched together procedures that are prone to error. From automatic backups to data encryption to media management, Robot automates the routine (yet often complex) tasks of iSeries backup and recovery, saving you time and money and making the process safer and more reliable. Automate your backups with the Robot Backup and Recovery Solution. Key features include:

  • FORTRAManaging messages on your IBM i can be more than a full-time job if you have to do it manually. Messages need a response and resources must be monitored—often over multiple systems and across platforms. How can you be sure you won’t miss important system events? Automate your message center with the Robot Message Management Solution. Key features include:

  • FORTRAThe thought of printing, distributing, and storing iSeries reports manually may reduce you to tears. Paper and labor costs associated with report generation can spiral out of control. Mountains of paper threaten to swamp your files. Robot automates report bursting, distribution, bundling, and archiving, and offers secure, selective online report viewing. Manage your reports with the Robot Report Management Solution. Key features include:

  • FORTRAFor over 30 years, Robot has been a leader in systems management for IBM i. With batch job creation and scheduling at its core, the Robot Job Scheduling Solution reduces the opportunity for human error and helps you maintain service levels, automating even the biggest, most complex runbooks. Manage your job schedule with the Robot Job Scheduling Solution. Key features include:

  • LANSA Business users want new applications now. Market and regulatory pressures require faster application updates and delivery into production. Your IBM i developers may be approaching retirement, and you see no sure way to fill their positions with experienced developers. In addition, you may be caught between maintaining your existing applications and the uncertainty of moving to something new.

  • LANSAWhen it comes to creating your business applications, there are hundreds of coding platforms and programming languages to choose from. These options range from very complex traditional programming languages to Low-Code platforms where sometimes no traditional coding experience is needed. Download our whitepaper, The Power of Writing Code in a Low-Code Solution, and:

  • LANSASupply Chain is becoming increasingly complex and unpredictable. From raw materials for manufacturing to food supply chains, the journey from source to production to delivery to consumers is marred with inefficiencies, manual processes, shortages, recalls, counterfeits, and scandals. In this webinar, we discuss how:

  • The MC Resource Centers bring you the widest selection of white papers, trial software, and on-demand webcasts for you to choose from. >> Review the list of White Papers, Trial Software or On-Demand Webcast at the MC Press Resource Center. >> Add the items to yru Cart and complet he checkout process and submit

  • Profound Logic Have you been wondering about Node.js? Our free Node.js Webinar Series takes you from total beginner to creating a fully-functional IBM i Node.js business application.

  • SB Profound WC 5536Join us for this hour-long webcast that will explore:

  • Fortra IT managers hoping to find new IBM i talent are discovering that the pool of experienced RPG programmers and operators or administrators with intimate knowledge of the operating system and the applications that run on it is small. This begs the question: How will you manage the platform that supports such a big part of your business? This guide offers strategies and software suggestions to help you plan IT staffing and resources and smooth the transition after your AS/400 talent retires. Read on to learn: