Major Type 1, Minor Types 2 and 4 entries contain information about the end of a job and the end of a task. The format for both entries is identical.
If anonymous task accounting is in effect for a task, no EOT log entry is logged for that task. Certain resource usage statistics of the task are added to the resource usage statistics of the parent task. These statistics are reflected in words 11 through 15, 30 through 33, 39, 41 through 44, and 53 through 57 of the parent EOJ or EOT log entry. For further information about anonymous task accounting, refer to “Using Anonymous Task and File Accounting” in Section 1.
Use the EOJ or EOT option in LOGANALYZER to obtain a report about the end of jobs or the end of tasks.
The following table describes the format and contents of these entries.
Table 5–2. Major Type 1–Minor Type 2 (LOGEOJTYP) and 4 (LOGEOTYP)
Word Field Value Description
0–3 As described in Table 2–2, “First Four Log Entry Words Version 1 Format”
4 Task priority information [47:24] Job queue
[23:24] Priority 5 Task type
[47:01] Job restarted
[46:01] Task started by DMS Accessroutines; typically, by a DMS ABORT routine
[45:01] MCS started by data comm controller stack [15:16] Process type
0 Dependent task (PROCESS) 1 Coroutine (CALL)
2 Independent task (RUN) 3 Job stack
5 Process initiated by fork( ) function 6 Process initiated by exec( ) function 7 Process initiated by vfork( ) function 8 POSIX thread (pthread)
6 LINK to external name (standard form) 7 LINK to usercode (standard form) 8 LINK to charge code (standard form)
9 LINK to compiled name. Contains name of object code file if task was COMPILE or BIND; otherwise, value is zero. (standard form)
10 Task source and destination information [46:01] Origin is REMOTESPO [45:06] Destination MCS [39:01] Destination is REMOTE [38:15] Destination UNIT [21:06] Originating MCS [15:01] Origin is REMOTE [14:15] Originating UNIT
Major Type 1 – Job or Task Entry
Table 5–2. Major Type 1–Minor Type 2 (LOGEOJTYP) and 4 (LOGEOTYP)
Word Field Value Description
If [15:01] (above) is SET, the [14:15] field of this word contains a logical station number (LSN). If [15:01] is RESET, Word 35 of this entry contains the device number of the originating unit.
11 Effective processor time. This is the apparent time a processor was in use by a task. This value is returned by the ?TI and the A operator commands. It includes resource usage of any offspring using anonymous task accounting.
Effective time includes processor resources used for the task and processor throttling associated with the performance level.
The normalized processor time is returned in word 39. Refer to the description of word 39 for further details.
The measured processor time is returned in word 55. Refer to the description of word 55 for further details.
12 I/O time. This measurement includes resource usage of any offspring using anonymous task accounting. 13 Number of lines printed. This measurement includes
resource usage of any offspring using anonymous task accounting.
14 Number of cards read. This measurement includes resource usage of any offspring using anonymous task accounting.
16 Memory integral code, D1 stack 17 Memory integral data, D2 stack.
The memory integral is the average number of kilowords (1000 words) in use by a task per second. This value is calculated at deallocation by multiplying the number of words being deallocated by the number of clocks that have passed since allocation. The running total of the value is kept in the
COREINTEGRAL word of the Process Information Block (PIB).
18 Termination condition. Contains the value of the HISTORY task attribute at the time of termination. For a description of the format of this word, refer to the Task Attributes Programming Reference Manual. 19 LINK to groupcode (standard form)
20 Currently unused 23 Elapsed time
24 LINK to access code (standard form) 25 Compiler information
Table 5–2. Major Type 1–Minor Type 2 (LOGEOJTYP) and 4 (LOGEOTYP)
Word Field Value Description
[46:01] Currently unused [45:01] Control program [44:01] DMS capable [43:01] No uplevel pointers [42:01] Privileged program [41:01] Library capable
[40:01] WFL: No global file equation [39:01] Privileged transparent [38:01] Suppressed
[37:01] Resident program [35:01] Accessroutines stack [33:01] Marked by ??HALT command [32:01] Locked program [31:08] Language type 0 ALGOL 1 COBOL 6 NEWP 8 DCALGOL 10 WFL 14 PASCAL 15 RPG 16 FORTRAN77 17 COBOL74 18 SORT 20 C 22 COBOL85 255 MCP ($MCP set)
[23:08] Compiler mark number and level number [15:01] Program has tasking privilege
[14:01] Program has security administrator privilege [12:01] Program has tasking transparent privilege [09:10] Compiler cycle number
26 LINK to real usercode (standard form) 27 LINK to real groupcode (standard form)
Major Type 1 – Job or Task Entry
Table 5–2. Major Type 1–Minor Type 2 (LOGEOJTYP) and 4 (LOGEOTYP)
Word Field Value Description
28 LINK to the value of the ITINERARY chain. The LENGTH field is in characters rather than words (a list of host names separated by commas).
29 Amount of time spent in the ready queue
30 Effective initial p-bit time. This is the apparent time a processor was handling initial p-bits for a task. It includes resource usage of any offspring using anonymous task accounting.
Effective time includes processor resources used for the task and processor throttling associated with the performance level.
The normalized initial p-bit time is returned in word 53. Refer to the description of word 53 for further details.
The measured initial p-bit time is returned in word 56. Refer to the description of word 56 for further details.
31 Number of initial p-bits for this task. This measurement includes resource usage of any offspring using anonymous task accounting.
32 Effective other p-bit time. This is the apparent time a processor was handling other p-bits for a task. It includes resource usage of any offspring using anonymous task accounting.
Effective time includes processor resources used for the task and processor throttling associated with the performance level.
The normalized other p-bit time is returned in word 54. Refer to the description of word 54 for further details.
The measured other p-bit time is returned in word 57. Refer to the description of word 57 for further details.
33 Number of other p-bits for this task. This measurement includes resource usage of any offspring using anonymous task accounting.
34 Time at which the task was initiated in TIME(6) format [47:16] Date (Obtain the Julian date in the form YYYYDDD by
adding 1,970,000 to the number found in this field.) [31:32] Entry time (Obtain the time of day in seconds by
multiplying the value in this field by 38.4 and dividing the product by 1,000,000.)
35 Contains the external device number of the
originating unit (if not a remote station; see word 10, field [14:15] of this entry).
Table 5–2. Major Type 1–Minor Type 2 (LOGEOJTYP) and 4 (LOGEOTYP)
Word Field Value Description
36 LINK to supplementary groupcodes. The format of the supplementary groupcodes is as follows: Word 0: Number of groupcodes in the list. Word 1–4: First groupcode
Word 5–8: Second groupcode Each groupcode is in standard form. 37 EOTIMPACTTIME
Amount of time other processors spent in ANSWER as a result of actions taken running this task. 38 EOTRESIZECOUNT
The number of resizes done by this task. 39 Normalized processor time. This reflects the
processor resources used by a task, independent of the performance level of the processor. It includes resource usage of any offspring using anonymous task accounting.
Normalized processor time is expressed in constant- value processor seconds that are not affected by the actual performance level of the processor. This time is an estimate and might have a small margin of error. The normalized processor time can be used with back-end process billing.
On MCPvm systems, normalized processor time is equal to the effective processor time returned in word 11. On all other systems, normalized processor time is returned.
40 Maximum number of actual segment descriptors (ASDs) used at any one time by the job/task
41 Integer count of tape volume assignments logged for the process. This measurement includes resource usage of any offspring using anonymous task accounting. This word contains the number of tape- file open operations (except those that follow a close operation with the RETAIN option), reel switches, and references to tape volumes in library maintenance COPY and ADD statements. All printer backup tape file opens are included in this count.
42 Integer count of requests for offline disk volumes that the operator readied or otherwise handled so that the job could proceed. This measurement includes resource usage of any offspring using anonymous task accounting.
Major Type 1 – Job or Task Entry
Table 5–2. Major Type 1–Minor Type 2 (LOGEOJTYP) and 4 (LOGEOTYP)
Word Field Value Description
43 Real number that measures the amount of permanent disk space the task or job used. This measurement includes resource usage of any offspring using anonymous task accounting. The number logged is the product of the average number of disk segments occupied by permanent disk files that the task had open times the number of seconds the job or task ran (elapsed time).
44 Real number that measures the amount of temporary disk space the task or job used. This measurement includes resource usage of any offspring using anonymous task accounting. The number logged is the product of the average number of disk segments used for temporary disk storage times the number of seconds the task or job ran (elapsed time).
45 Maximum save memory used at any one time by the job/task
46 [38:39] Stack number 47–48 Credential handle
49 LINK to code file name (standard form) 50 LINK to releaseid (standard form)
51 Reserved 52 Reserved
53 Normalized initial p-bit time. This reflects the processor resources used by a task for handling initial p-bits, independent of the performance level of the processor. It includes resource usage of any offspring using anonymous task accounting.
Normalized initial p-bit time is expressed in constant- value processor seconds that are not affected by the actual performance level of the processor. This time is an estimate and might have a small margin of error. The normalized times can be used with back-end process billing.
On MCPvm systems, normalized initial p-bit time is equal to the effective initial p-bit time returned in word 30. On all other systems, normalized initial p-bit time is returned.
Table 5–2. Major Type 1–Minor Type 2 (LOGEOJTYP) and 4 (LOGEOTYP)
Word Field Value Description
54 Normalized other p-bit time. This reflects the processor resources used by a task for handling other p-bits, independent of the performance level of the processor. It includes resource usage of any offspring using anonymous task accounting.
Normalized other p-bit time is expressed in constant- value processor seconds that are not affected by the actual performance level of the processor. This time is an estimate and might have a small margin of error. The normalized times can be used with back-end process billing.
On MCPvm systems, normalized other p-bit time is equal to the effective other p-bit time returned in word 32. On all other systems, normalized other p-bit time is returned.
55 Measured processor time. This directly correlates with the processor times reported in the system- wide processor utilization counters. This time might be dependent on the processor performance level, depending on the system type. It includes resource usage of any offspring using anonymous task accounting.
56 Measured initial p-bit time. This directly correlates with the initial p-bit processor times reported in the system-wide processor utilization counters. This time might be dependent on the processor performance level, depending on the system type. It includes resource usage of any offspring using anonymous task accounting.
57 Measured other p-bit time. This directly correlates with the other p-bit processor times reported in the system-wide processor utilization counters. This time might be dependent on the processor performance level, depending on the system type. It includes resource usage of any offspring using anonymous task accounting.
58 Measured hold queue time. The amount of time the process spent in the hold queue. This measurement includes resource usage of any offspring using anonymous task accounting.
59 LINK to user alias associated with the real usercode (substandard form)
60 [31:16] Target processor set [15:16] Actual processor set
Major Type 1 – Job or Task Entry
Table 5–2. Major Type 1–Minor Type 2 (LOGEOJTYP) and 4 (LOGEOTYP)
Word Field Value Description
61 Measured hold time. The amount of time the process spent in the I/O and Enterprise Database Server hold queues. This measurement includes resource usage of any offspring using anonymous task accounting. The time is reported in 2.4-microsecond units. 62 EOTTRANSACTIONRX
The number of logical I/O reads. 63 EOTTRANSACTIONWX
The number of logical I/O writes. 64 EOTPHYSICALIOTRANSRX
The number of physical I/O reads. 65 EOTPHYSICALIOTRANSWX
The number of physical I/O writes.
66 The number of Enterprise Database Server read operations initiated by this task.
67 The number of Enterprise Database Server write operations initiated by this task.
68 The number of Enterprise Database Server
BEGINTRANSACTION operations initiated by this task. 69 The amount of time that the task was suspended by
Workload Manager.This measurement includes the amount of time any offspring using anonymous task accounting was suspended.
70 Reserved [47:08] Target Value
71 LINK to IDENTITY code file attribute (standard form) 72 LINK to source MCS name (standard form)
73 LINK to MPID task attribute (substandard form) 74 LINK to WORKLOADGROUP code file attribute
(standard form)
75 LINK to WORKLOADGROUP task attribute (substandard form)