JPH0476639A - Event processing time analysis system under on-line operation - Google Patents

Abstract

PURPOSE:To minimize adverse influence upon on-line performance by gathering information limited to an event regarding a specified task when performance analysis information is gathered. CONSTITUTION:When an on-line task 10 sends a certain SVC, an information gathering process routine call part 11 starts an information gathering process routine 22 on condition that a state flag is NO and a corresponding task ID is registered in a measured task ID list. Then the control is passed to an SVC processing part 12 after the information gathering process by the routine 22. The processing part 12 executes the process of an SVC process execution routine 12. In a system task/nontask part 13, an information gathering process routine 23 is called when an extracted event control block is an event to be measured to gather the ID of the task. In the task 13, an information gathering process routine call part 15 calls an information gathering process routine 24 to gather process results. A task dispatcher 16 calls an information processing routine 25 by an information processing routine call part 17 for the event to be measured to gather records, and then performs a dispatching process.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to an online event processing time analysis method, and more specifically, the present invention relates to an online event processing time analysis method.
This paper relates to a method that makes it possible to actually measure and analyze necessary data such as resource names and task names caused by problems in an environment where online services continue, in order to clarify the causes of long event execution/event wait times.

[Prior Art] Conventionally, there is a system program modification method as a method that enables actual measurement and analysis of necessary data in an environment where online services are continued. This method temporarily embeds a performance analysis information collection routine into a system program such as an operating system (system tasks/non-tasks and task dispatcher), and restores it once the online analysis is complete. be.

[Problems to be Solved by the Invention] In this system program modification method, since information collection processing is performed for all events, there is a problem that the information collection overhead is large and online performance is significantly reduced.

Furthermore, even if the system can tolerate this online performance degradation temporarily, it is necessary to interrupt the online service as the information collection routine is embedded in the system program running online or the program is replaced to remove it. .

Furthermore, there is also the problem that the embedding and removal of a large number of information gathering routines can easily lead to deterioration of online quality due to the introduction of program bugs.

The present invention aims to solve the problems of the prior art described above, and makes it possible to continue operating online services by eliminating the need to modify online programs, and to reduce I/O execution time and waiting time. The system automatically collects specific performance analysis information such as resource names and task names that caused an increase in performance while minimizing the deterioration of online performance, thereby allowing early responses to performance bottlenecks.

[Means for Solving the Problems] In order to achieve the above object, the present invention provides a system in which a processing request event from a running task to another is sent to an I/O system macro,
/ This is done by 5vcu lines such as memory and other resource reservation/occupation macros, and the transition of the task to the ready state is performed by P
In a computer system in which the O3T/GAP macros issue SVCs and the task bispatcher returns to the running state, a status flag indicating whether online processing performance is being measured or not, and the task to be measured. I
A task rD that holds D and an SVC management table that holds an information collection processing routine address in addition to the SVC processing routine address for each SVC are provided, and when an SVC is issued from an online task, the status flag is set to the performance measurement If the task ID is present in the task ID list, refer to the SVC table;
The first information collection processing routine is started, and the time and task I
The purpose is to collect D, SVC name, etc., and then execute the subsequent SVC processing routine.

When a system task/non-task that executes a processing request event such as I/O takes out an event control block (ECB) that stores a processing time request event from the waiting event queue, the task ID of the event control block is
The area is checked, and if it is a measurement target event (task ID is set), the second information collection process is started at the start of the event execution, and the time, task ID, resource name to be processed, and READ After collecting the execution event type such as /WRITE, the number of waiting ECBs, and the IDs of other waiting tasks, normal event execution is performed, and then, when the event is completed, a third information collection processing routine is started, The time, task ID, resource name to be processed, and event processing results (normal/abnormal, etc.) are collected, and in other cases, a normal event is directly executed.

In addition, the task dispatcher, at the dispatch trigger,
Check the task ID area of the event control block, and if it is a measurement target event, start the fourth information collection processing routine, collect the time, task ■D, and a disbatch completion record, and then perform a dispatch, In other cases, directly execute the dispatch.

[Function] According to the present invention, the collection of performance analysis information is limited to events related to designated tasks, thereby minimizing the influence on online performance. In addition, by calling various information collection processing routines as necessary for SVC processing, system tasks/non-tasks, and task dispatchers, performance gains that cannot be obtained from log information can be obtained.
Concrete online raw data (names of resources, task names, etc. that caused an increase in I/O execution time or waiting time) that can reveal the direct cause of the problem can be obtained without modifying the online program.

[Example] An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a conceptual diagram of the method of the present invention, where /O is an event issuing task (running online task), 11 is an information collection processing routine calling section, 12 is an SVC processing section, 13 is a system task/non-task, 14 and 15 are separate information collection processing routine calling units; 16 is a task dispatcher; 1
7 is yet another information collection processing routine calling section. 2
1 is an SVC processing execution routine executed by the S■C processing unit 12, and 22 to 25 are each information collection processing routine calling unit 1.
1. This is an information collection processing routine called at +4.15.17.

26 is an event control block (ECB) that records processing request events that involve task waiting, such as I/O from tasks, resource reservation/occupation, and processing interruption for a certain period of time;
This is provided with an area for recording task ID information (initial value is zero glia). Reference numeral 27 indicates target resources such as files, terminals, communication partner tasks/computers, etc. 9 Although omitted in FIG.
SVC management that assigns an ID that can be uniquely identified within the system to each task, manages the measurement target task ID list in which the measurement target task IDs are registered in advance, and the correspondence between SVC numbers and SVC processing routine addresses, etc. It has a table. Details of the status flag, measurement target, task ID list, and SVC management table are shown in FIG. (a) is the performance measurement status flag 3], which is turned on and off at the online performance measurement start time and end time, respectively, based on instructions from the operator or automatic driving program.
Can be switched to FF.

In other words, "ON" indicates that performance is being measured (actual performance measurement is permitted), "○F"
FJ indicates that performance is not being measured (actual performance measurement is inhibited). (b) is a measurement target task ID list 32, in which the measurement target task ID (
A, R, etc.) are memorized. rNUL for unregistered areas
It's L.J.

(c) is the SVC management table 33, in which the type of SVC is represented by an SVC number, and for each SVC number, a resident/nonresident bit and an SVC routine address indicating a pointer to the corresponding SVC processing execution routine are registered. This SVC
etc., the information collection processing routine (
1) Register the information collection routine address indicating the pointer.

When an SVC is issued from online task/O,
In the information collection processing routine calling section]l, status flag 3 is set.
1. Refer to the task ID list table 32, and if the status flag 31 is No (actual performance measurement allowed) and the task ID is registered in the measurement target task ID list 32, use the SVC number as a key in the svcw management table. The information collection routine address is searched from 33 and the information collection processing routine (1) 22 is activated. After the information collection processing by the information collection processing routine (+) 22, the SVC processing unit 12
Pass control to. On the other hand, if the status flag 31 is 0FF (actual performance measurement inhibited), or if the status flag 3I is ON but the task ID is not stored in the task ID list 32, the information gathering process routine calling unit 11 performs the information gathering process. Routine (1) Immediately passes control to the SVC processing unit 12 without activating the routine 22. The processing flow of this information collection processing routine calling section 11 is shown in FIG.

In the information collection processing routine (+) 22, which corresponds to the SVC that causes the above processing request and is activated only when there is a processing request from a task that is undergoing performance evaluation and is the target of performance measurement, at least the time, task ID, etc. and SVC name.

The SVC processing unit 12 searches the SVC management table 33 for the SVC routine address based on the SVC number, starts the SVC processing execution routine 21, and executes the processing. In the SVC execution routine that processes I/O and the like in the SVC processing unit 12, task ID information is set in the event control block (ECB) 26.

In the system task/non-task 13 that executes processing request events such as I/O, the event control block (E
CB) from the waiting event queue, first, the information collection processing routine calling unit 14 is activated. The task ID area of the event control block is checked, and if the event is a measurement target event (the task ID is set), the information collection processing routine (2) 2 is executed at the start of the event execution.
3, and collects at least the time, task UrD, resource name to be processed, execution event type such as READ/WRITE, number of waiting ECBs, and IDs of other waiting tasks. Thereafter, the system task/non-task 13 performs normal event execution, and then starts the information collection processing routine calling section 15. In the case of the same conditions as above, the information collection processing routine calling unit 15 calls the information collection processing routine (3) 24, and at a minimum records the time, task ID, processing target resource name, and event processing result (normal/abnormal, etc.). Collect.

In the task dispatcher 16, the information collection processing routine calling unit 17 is also activated in response to a dispatch trigger. Information collection processing routine call! II] 7 checks the task ID area of the event control block, and if it is an event to be measured, calls the information processing routine (4) 25,
At a minimum, the time, task ID, and dispatch completion record are collected, and then the dispatch is performed as usual.

Figure 4 shows the above information collection processing routine calling section! 4.15
．． 17 processing flows are collectively shown. Further, FIG. 5 shows the correspondence between each of the information collection processing routines (1) to (4) and the collected information.

6 and 7 show specific processing examples according to the present invention, where ■ is a task that issues an event such as I/O, ■ is an event control block, ■ is a system task or non-task,
■ indicates target resources such as files and terminals, and ■ indicates information collection processing routine groups (1) to (4), respectively.

For example, in online normal operation state, the status flag is O.
If the online task (ID=A) is in FF (non-performance measurement state) and an event occurs with the issuance of SVCα as a trigger, the original event response processing is as follows. That is, in FIG. 6, (i) the execution routine of SVCα writes the task ID information into the event control block (ECB) and transmits it to the system task/non-task → (ii) the system task/non-task Queuing of the event → (iii) Event execution start processing → (iv) Event execution result reception processing (If the error can be retried at this point, return to step (ul),
Event execution may be repeated several times) → (V
) Po5T notification request from the system task/non-task to the task dispatcher to the event issuer → (v
i) PO from task dispatcher to event issuer
It is executed according to the order of 3T processing.

On the other hand, during the performance measurement period, the status flag is online performance measurement in progress (ON), task ID = A is the measurement target, and the online task (ID = A) is SVCα
If this occurs, the steps (i) to (Vj) in FIG. 7 are executed. That is, (i) first, control is transferred to the information collection processing routine (]), where information related to the occurrence of the event is recorded in a memory buffer etc. → (11) next, SVCα
In the execution routine, record the task ID information in the ECB, transmit it to the system task/non-task, → (
iii) In response to this, the system task/non-task queues the event, → (iv) At the time of execution of the event from the measurement target task, the system task/non-task runs the information collection processing routine (2), Therefore, after recording the information related to the start of event execution to a memory buffer etc., perform the event execution start processing, → (V) When the event execution result from the measurement target task is received, the system task/non-task After running the information collection processing routine (3) and recording information related to event completion in a memory buffer etc., the original event reception processing is performed, and - (vi) System tasks/non-tasks send event information to the task dispatcher. PO to publisher
A 3T notification request is made, → (■) The task dispatcher runs the information collection processing routine (4), where collected information such as time, dispatcher execution display, and issuer task ID is recorded in a memory buffer, etc. , performs PO8T processing to the event issuer.

FIG. 8 shows an example of information collected online in each of the information collection processing routines (1) to (4) and an example of analysis thereof. Note that analysis processing is performed offline. in this way,
Event processing time can be analyzed without modifying the system program during online operation, and with information collection overhead limited to processing related to specific events.

Here, in conjunction with the control transfer between the information collection processing program and the above-mentioned information collection processing program, the original control transfer between programs needs to be performed as before. For this reason, although it is omitted in the figure for the sake of simplicity, it is natural that the handover information for control transfer between programs, such as the new and old PSWs and registers, is transferred to the original program call state (the next execution address is the relevant one). SVC
It has the function to save at the execution address of the processing program and revive it to that state after completion.

Further, although the examples of FIGS. 6 and 7 show examples of I/O event processing, the method of the present invention also includes the case of a macro that waits for a certain period of time. In other words, this includes event execution and execution completion processing by target resources and system tasks/non-tasks, and information collection processing routines (2) and (3).
) corresponds to a degenerate example in which the above is omitted.

In addition, in the embodiment shown in FIG. 1, each information collection processing routine is
○ By constructing a program with the same authority as S and adding the necessary functions, it is possible to collect information beyond the scope shown in Figure 8.

[Effects of the Invention] As described above, in the present invention, the collection of performance analysis information is limited to events related to designated tasks, thereby minimizing the influence on online performance. Furthermore, by subsequently editing and analyzing this collected information only in the offline system, the impact on online performance can be further reduced.

In addition, specific online raw data that cannot be obtained from log information and that can reveal the direct cause of performance bottlenecks (such as resource names and task names that caused increases in I/O execution time and waiting time) can be used in online programs. Since this can be obtained without any modification, the operation required to investigate the cause of the 5-performance bottleneck can be significantly reduced, and the problem can be resolved quickly.

In the future, as online system operations become more sophisticated, hardware and software will become larger and more complex, and event exchange will become more complex.Providing an early and simple method for investigating system performance problems related to event processing. is becoming increasingly important.

The present invention is positioned as a new method to meet this need.

[Brief explanation of the drawing]

Fig. 1 is a conceptual diagram of the method of the present invention, Fig. 2 is a detailed explanatory diagram of status tasks, measurement target task ID list, and SVC management table, and Figs. 3 and 4 are processing flow diagrams of the information collection processing routine calling section. , FIG. 5 is a diagram showing collected information of the information collection processing routine group, FIGS. 6 and 7 are diagrams showing a specific processing example according to FIG. 1, and FIG. 8 is a diagram showing specific processing results. . /O...Online task, 11,14,15゜17.Information collection processing routine calling unit, 12...SV
C processing unit, 13... system task/non-task,
16...Task dispatcher, 21.SVC processing execution routine, 22-25...Information collection processing routine. 2nd Figure 5 ■ Purpose Lpf ■ Futon class Toki, sword ＼, Yu (. Blade 1 Shishou 4-￥-

Claims (1)

[Claims] (1) A processing request event from a running task to another is I
This is done by issuing SVCs for /O type macros, macros for securing and occupying resources such as CPU/memory, etc., and the transition to the ready state of the task is performed by SVC of each POST type/GAP type macro.
A computer system in which VC is issued and return to a running state is performed by a task bispatcher, and a status flag indicating whether or not online processing performance is being measured;
A task ID list that holds the task IDs to be measured and an SVC management table that holds the information collection processing routine address in addition to the SVC processing routine address for each SVC are provided, and when an SVC is issued from an online task, the above-mentioned When the status flag indicates that performance is being measured and the task ID exists in the task ID list, the SVC table is referenced, the first information collection processing routine is started, and the time, task ID, SVC name, etc. In a computer system that collects and then executes SVC processing routines, system tasks/non-tasks that execute processing request events such as I/O wait for an event control block (ECB) that stores processing time request events. When taking out the event from the queue, the task ID area of the event control block is checked, and if the event is a measurement target event (task ID is set), a second information collection processing routine is started at the start of the event execution. After collecting the time, task ID, processing target resource name, execution event type such as READ/WRITE, number of waiting ECBs, and IDs of other waiting tasks, normal event execution is performed, and then, when the event is completed, Activate the third information collection processing routine to collect the time, task ID, processing target resource name, and event processing results (normal/abnormal, etc.); otherwise, directly execute the normal event, The task dispatcher checks the task ID area of the event control block at the dispatch trigger, and if the event is a measurement target event, starts the fourth information collection processing routine to collect the time, task ID, and dispatch completion record, and then An online event processing time analysis method is characterized in that dispatch is performed, and direct dispatch is performed in other cases.