PowerShell CLI 1.2 - Use Cases - Daily Plan Report

Starting Situation

• User might be interested to automatically receive reports about the daily plan that states what jobs are scheduled for what time.
  • The reports include the same information as available from the JOC Cockpit Daily Plan view.
  • The reports are provided as Excel® files similar to what is available for export from the JOC Cockpit Daily Plan view.
• The report can be scheduled on a daily basis or more frequently to provide ongoing information about completed tasks and outstanding tasks.

Use Cases

Report Daily Plan from a job

The PowerShell CLI is used by jobs to create reports. Two modules are applied for this purpose:

• the JobScheduler PowerShell Module
• a reporting PowerShell Module. This example makes use of the ImportExcel PowerShell Module that can be used to create Excel® reports on Windows and Linux.

The Get-JobSchedulerDailyPlan cmdlet is used to retrieve daily plan items and to forward them to the ImportExcel module within a job. Two flavors of the job are available for Windows and Linux. The difference is not about the handling of cmdlets or parameters but due to the fact that PowerShell is invoked differently on Windows and Linux. For Windows environments usually PowerShell is available with the OS, for Linux the job has to call pwsh to invoke the PowerShell.

Find a sample report: jobscheduler_reporting.xlsx

Please consider that below jobs are examples that have to be adjusted for your environment.

Windows Version

Download: report_daily_plan_windows.job.xml

<?xml version="1.0" encoding="UTF-8" ?>
<job title="Report Daily Plan" process_class="agent_windows">
  <script language="powershell"><![CDATA[
Import-Module $env:SCHEDULER_DATA/config/powershell/Modules/ImportExcel;
Import-Module $env:SCHEDULER_DATA/config/powershell/Modules/JobScheduler;

Connect-JS -Url $JOCCockpitUrl -Credential $JOCCockpitCredential | Out-Null;

# start mode mapping
$startModes = @{"0"="single start"; "1"="repeat start-start"; "2"="repeat end-start"};

# Dates in local time zone, output includes local date format
Get-JSDailyPlan -Timezone (Get-Timezone) `
                |  Select-Object -Property @{name="Job Chain/Job"; expression={ "$($_.jobChain)$($_.job)"}}, `
                                           @{name="Order ID"; expression={$_.orderId}}, `
                                           @{name="Status"; expression={$_.state._text}}, `
                                           @{name="Job Stream"; expression={$_.jobStream}}, `
                                           @{name="Late"; expression={$_.late}}, `
                                           @{name="Start Type"; expression={ $startModes[ "$($_.startMode)"] }}, `
                                           @{name="Repeat Interval"; expression={$_.period.repeat}}, `
                                           @{name="Planned Start Time"; expression={ Get-Date $_.plannedStartTime }}, `
                                           @{name="Expected End Time"; expression={ Get-Date $_.expectedEndTime }}, `
                                           @{name="Expected Duration (sec.)"; expression={ (New-Timespan -Start "$($_.plannedStartTime)" -End "$($_.expectedEndTime)").Seconds }}, `
                                           @{name="Start Time"; expression={ Get-Date $_.startTime }}, `
                                           @{name="End Time"; expression={ Get-Date $_.endTime }}, `
                                           @{name="Duration (sec.)"; expression={ (New-Timespan -Start "$($_.startTime)" -End "$($_.endTime)").Seconds }} `
                | Export-Excel -Path /tmp/jobscheduler_reporting.xlsx -WorksheetName "Daily-Plan" -ClearSheet;
				
Write-Output ".. report created: /tmp/jobscheduler_reporting.xls";
]]></script>
  <run_time/>
</job>

Explanations

• Line 2-3: The job is executed with a Windows Agent that is assigned by a process class. The job is of type "powershell" and will use the Powershell version provided with the server.
• Line 4-5: The required PowerShell modules are imported. They could be installed with any location in the file system
• Line 7: The Connect-JS cmdlet is used to authenticate with the JOC Cockpit REST Web Service. The required URL and credentials are specified in a PowerShell profile, see PowerShell CLI 1.2 - Use Cases - Credentials Management
• Line 10: For better readability of the report the start types of jobs are mapped to a textual representation (single start, cyclic start etc.).
• Line 13: The Get-JSDailyPlan cmdlet is called 
  • with the parameter -Timezone to specify to which timezone date values in the report should be converted. The parameter value -Timezone (Get-Timezone) specifies that the timezone of the Agent's server is used. Otherwise specify the desired timezone e.g. like this: -Timezone (Get-Timezone -Id 'GMT Standard Time'). Without using this parameter any date values are stored as UTC dates to the report.
  • optionally with additional parameters, e.g. to specify the date for which the report is created  A value -DateTo (Get-Date -Hour 0 -Minute 0 -Second 0).AddDays(8).ToUniversalTime() specifies that the report should cover the next 7 days (until midnight). Keep in mind that dates have to be specified for the UTC timezone. Without this parameter the report will be created for the next day.
  • see the Get-JSDailyPlan cmdlet for a full parameter reference.
• Line 14-26: From the output of the Get-JSDailyPlan cmdlet a number of properties are selected and and are specified for the sequence in which they should occur in the report. 
  • To add more speaking column headers the property names are mapped to a more readable textual representation.
  • Consider the handling of date formats in line 21, 22 and 24, 25. Use of the Get-Date cmdlet converts the output format of dates (not the timezone) to the default format that is in place on the Agent's server. Without using the Get-Date cmdlet any date values will be stored to the report in ISO format, e.g. 2020-12-31 10:11:12+02:00 for a date in the European central timezone that is UTC+1 in winter time and UTC+2 in summer time.
  • Lines 23, 26 introduce a new property, a calculated duration. From the start time and end time values of a planned start and optionally of a past start the difference in seconds is calculated and is forwarded to the report.
• Line 27: The list of properties per daily plan item is piped to the Export-Excel cmdlet that is available with the ImportExcel PowerShell Module. The report file name is specified and optionally the worksheet. For a full list of parameters see the ImportExcel PowerShell Module.

Linux Version

Download: report_daily_plan_linux.job.xml

<?xml version="1.0" encoding="UTF-8" ?>
<job title="Report Daily Plan" process_class="agent_linux">
  <script language="shell"><![CDATA[
pwsh -NoLogo -NonInteractive -Command '& {
    . $env:SCHEDULER_DATA/config/powershell/JobScheduler.PowerShell_profile.ps1;
    Import-Module $env:SCHEDULER_DATA/config/powershell/Modules/ImportExcel;
    Import-Module $env:SCHEDULER_DATA/config/powershell/Modules/JobScheduler;

    Connect-JS -Url $JOCCockpitUrl -Credential $JOCCockpitCredential | Out-Null;

    # start mode mapping
    $startModes = @{"0"="single start"; "1"="repeat start-start"; "2"="repeat end-start"};

    # Dates in local time zone, output includes local date format
    Get-JSDailyPlan -Timezone (Get-Timezone) `
                |  Select-Object -Property @{name="Job Chain/Job"; expression={ "$($_.jobChain)$($_.job)"}}, `
                                           @{name="Order ID"; expression={$_.orderId}}, `
                                           @{name="Status"; expression={$_.state._text}}, `
                                           @{name="Job Stream"; expression={$_.jobStream}}, `
                                           @{name="Late"; expression={$_.late}}, `
                                           @{name="Start Type"; expression={ $startModes[ "$($_.startMode)"] }}, `
                                           @{name="Repeat Interval"; expression={$_.period.repeat}}, `
                                           @{name="Planned Start Time"; expression={ Get-Date $_.plannedStartTime }}, `
                                           @{name="Expected End Time"; expression={ Get-Date $_.expectedEndTime }}, `
                                           @{name="Expected Duration (sec.)"; expression={ (New-Timespan -Start "$($_.plannedStartTime)" -End "$($_.expectedEndTime)").Seconds }}, `
                                           @{name="Start Time"; expression={ Get-Date $_.startTime }}, `
                                           @{name="End Time"; expression={ Get-Date $_.endTime }}, `
                                           @{name="Duration (sec.)"; expression={ (New-Timespan -Start "$($_.startTime)" -End "$($_.endTime)").Seconds }} `
                | Export-Excel -Path /tmp/jobscheduler_reporting.xlsx -WorksheetName "Daily-Plan" -ClearSheet;

    Write-Output ".. report created: /tmp/jobscheduler_reporting.xls";
}'
]]></script>
  <run_time/>
</job>

Explanations

• Basically the same explanations as for the Windows version of the job apply.
• Line 3: The PowerShell has to be invoked with pwsh. Consider that any subsequent PowerShell commands are quoted within a string that starts with line 3 and that ends with line 29. 
  • As the string is using a single quote all subsequent PowerShell commands make use of double quotes when required.
  • You could apply a different quoting style, however, quotes have to be consistent.
• Line 4: As an example a PowerShell profile is invoked that provides the variables for URL and credentials to access the JOC Cockpit REST Web Service. Such profiles can be stored in different locations and can be invoked automatically by pwsh on startup.