Public/General.ps1

#requires -Version 3.0

function Join-Parts {
    <#
            .SYNOPSIS
            Join strings with a specified separator.
            .DESCRIPTION
            Join strings with a specified separator.
            This strips out null values and any duplicate separator characters.
            See examples for clarification.
            .PARAMETER Separator
            Separator to join with
            .PARAMETER Parts
            Strings to join
            .EXAMPLE
            Join-Parts -Separator "/" this //should $Null /work/ /well
            # Output: this/should/work/well
            .EXAMPLE
            Join-Parts -Parts http://this.com, should, /work/, /wel
            # Output: http://this.com/should/work/wel
            .EXAMPLE
            Join-Parts -Separator "?" this ?should work ???well
            # Output: this?should?work?well
            .EXAMPLE
            $CouldBeOneOrMore = @( "JustOne" )
            Join-Parts -Separator ? -Parts CouldBeOneOrMore
            # Output JustOne
            # If you have an arbitrary count of parts coming in,
            # Unnecessary separators will not be added
            .NOTES
            Credit to Rob C. and Michael S. from this post:
            http://stackoverflow.com/questions/9593535/best-way-to-join-parts-with-a-separator-in-powershell
     
    #>

    [CmdletBinding()]
    param
    (
        [Parameter(Mandatory = $true, Position = 1)] [string] $Separator, 
        [Parameter(Mandatory = $false, Position = 2, ValueFromRemainingArguments = $true)] [string[]]$Parts = $null
    )

    return ( $Parts | Where-Object { $_ } | Foreach-Object { ( [string]$_ ).trim($Separator) } | Where-Object { $_ } ) -join $Separator
}

Function Add-Property {
    <#
            .SYNOPSIS
            Returns the HTTP header for the Databricks API including authentication etc.
            .DESCRIPTION
            Returns the HTTP header for the Databricks API including authentication etc.
            .EXAMPLE
            Get-DbRequestHeader
    #>

    [CmdletBinding()]
    param (
        [Parameter(Mandatory = $true, Position = 1, ValueFromPipeline = $true)] [hashtable] $Hashtable,
        [Parameter(Mandatory = $true, Position = 2)] [string] $Name,
        [Parameter(Mandatory = $true, Position = 3)] [object][AllowNull()] $Value,
        [Parameter(Mandatory = $false, Position = 4)] [bool] $AllowEmptyValue = $false,
        [Parameter(Mandatory = $false, Position = 5)] [object] $NullValue = $null,
        [Parameter(Mandatory = $false, Position = 6)] [switch] $Force
    )
    
    if ($Value -eq $null -or $Value -eq $NullValue) {
        Write-Verbose "Found a null-Value to add as $Name ..."
        if ($AllowEmptyValue) {
            Write-Verbose "Adding null-value ..."
            $Hashtable | Add-PropertyIfNotExists -Name $Name -Value $Value -Force:$Force
        }
        else {
            Write-Verbose "null-value is omitted."
            # do nothing as we do not add Empty values
        }
    }
    elseif ($Value.GetType().Name -eq 'Object[]') { # array
        Write-Verbose "Found an Array-Property to add as $Name ..."
        if ($Value.Count -gt 0 -or $AllowEmptyValue) {
            $Hashtable | Add-PropertyIfNotExists -Name $Name -Value $Value -Force:$Force
        }
    }
    elseif ($Value.GetType().Name -eq 'Hashtable') { # hashtable
        Write-Verbose "Found a Hashtable-Property to add as $Name ..."
        if ($Value.Count -gt 0 -or $AllowEmptyValue) {
            $Hashtable | Add-PropertyIfNotExists -Name $Name -Value $Value -Force:$Force
        }
    }
    elseif ($Value.GetType().Name -eq 'String') { # String
        Write-Verbose "Found a String-Property to add as $Name ..."
        if (-not [string]::IsNullOrEmpty($Value) -or $AllowEmptyValue) {
            $Hashtable | Add-PropertyIfNotExists -Name $Name -Value $Value -Force:$Force
        }
    }
    elseif ($Value.GetType().Name -eq 'Boolean') { # Boolean
        Write-Verbose "Found a Boolean-Property to add as $Name ..."

        $Hashtable | Add-PropertyIfNotExists -Name $Name -Value $Value.ToString().ToLower() -Force:$Force
    }
    else {
        Write-Verbose "Found a $($Value.GetType().Name)-Property to add as $Name ..."

        $Hashtable | Add-PropertyIfNotExists -Name $Name -Value $Value -Force:$Force
    }
}

Function Add-PropertyIfNotExists {
    [CmdletBinding()]
    param (
        [Parameter(Mandatory = $true, Position = 1, ValueFromPipeline = $true)] [hashtable] $Hashtable,
        [Parameter(Mandatory = $true, Position = 2)] [string] $Name,
        [Parameter(Mandatory = $true, Position = 3)][AllowNull()] [object] $Value,
        [Parameter(Mandatory = $false, Position = 4)] [switch] $Force
    )
    
    # if the property does not exist or -Force is specified, we set/overwrite the value
    if (($Hashtable.Keys -notcontains $Name) -or $Force) {
        $Hashtable[$Name] = $Value
    }
    else {
        throw "Property $Name already exists! Use -Force parameter to overwrite it!"    
    }
}


# Original Code from https://www.powershellgallery.com/packages/Carbon/2.1.0/Content/Functions%5CConvertTo-Base64.ps1
# Copied into here to avoid unnecessary dependencies
function ConvertTo-Base64 {
    <#
            .SYNOPSIS
            Converts a value to base-64 encoding.
            .DESCRIPTION
            For some reason. .NET makes encoding a string a two-step process. This function makes it a one-step process.
            You're actually allowed to pass in `$null` and an empty string. If you do, you'll get `$null` and an empty string back.
            .PARAMETER Value
            The value to encode as Base64 string. Also allows pipelined input!
            .PARAMETER Encoding
            The encoding to use to convert the Base64 bytes to a string. Default is [Text.Encoding]::UTF8
            .LINK
            ConvertFrom-Base64
            .EXAMPLE
            ConvertTo-Base64 -Value 'Encode me, please!'
            Encodes `Encode me, please!` into a base-64 string.
            .EXAMPLE
            ConvertTo-Base64 -Value 'Encode me, please!' -Encoding ([Text.Encoding]::ASCII)
            Shows how to specify a custom encoding in case your string isn't in Unicode text encoding.
            .EXAMPLE
            'Encode me!' | ConvertTo-Base64
            Converts `Encode me!` into a base-64 string.
    #>

    [CmdletBinding()]
    param(
        [Parameter(Mandatory = $true, ValueFromPipeline = $true)]
        [AllowNull()]
        [AllowEmptyString()]
        [string[]]
        # The value to base-64 encoding.
        $Value,
        
        [Text.Encoding] $Encoding = ([Text.Encoding]::UTF8)
    )
    
    begin {
        #Set-StrictMode -Version 'Latest'

        #Use-CallerPreference -Cmdlet $PSCmdlet -Session $ExecutionContext.SessionState
    }

    process {
        $Value | ForEach-Object {
            if ( $_ -eq $null ) {
                return $null
            }
            
            $bytes = $Encoding.GetBytes($_)
            [Convert]::ToBase64String($bytes)
        }
    }
}

# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

# Original Code from https://www.powershellgallery.com/packages/Carbon/2.1.0/Content/Functions%5CConvertFrom-Base64.ps1
# Copied into here to avoid unnecessary dependencies
function ConvertFrom-Base64 {
    <#
            .SYNOPSIS
            Converts a base-64 encoded string back into its original string.
            .DESCRIPTION
            For some reason. .NET makes encoding a string a two-step process. This function makes it a one-step process.
            You're actually allowed to pass in `$null` and an empty string. If you do, you'll get `$null` and an empty string back.
            .PARAMETER Value
            The Base64 value to decode to a string. Also allows pipelined input!
            .PARAMETER Encoding
            The encoding to use to convert the Base64 bytes to a string. Default is [Text.Encoding]::UTF8
            .LINK
            ConvertTo-Base64
            .EXAMPLE
            ConvertFrom-Base64 -Value 'RW5jb2RlIG1lLCBwbGVhc2Uh'
            Decodes `RW5jb2RlIG1lLCBwbGVhc2Uh` back into its original string.
            .EXAMPLE
            ConvertFrom-Base64 -Value 'RW5jb2RlIG1lLCBwbGVhc2Uh' -Encoding ([Text.Encoding]::ASCII)
            Shows how to specify a custom encoding in case your string isn't in Unicode text encoding.
            .EXAMPLE
            'RW5jb2RlIG1lIQ==' | ConvertTo-Base64
            Shows how you can pipeline input into `ConvertFrom-Base64`.
    #>

    [CmdletBinding()]
    param(
        [Parameter(Mandatory = $true, ValueFromPipeline = $true)]
        [AllowNull()]
        [AllowEmptyString()]
        [string[]]
        # The base-64 string to convert.
        $Value,
        
        [Text.Encoding]
        # The encoding to use. Default is Unicode.
        $Encoding = ([Text.Encoding]::UTF8)
    )
    
    begin {
        #Set-StrictMode -Version 'Latest'

        #Use-CallerPreference -Cmdlet $PSCmdlet -Session $ExecutionContext.SessionState
    }

    process {
        $Value | ForEach-Object {
            if ( $_ -eq $null ) {
                return $null
            }
            
            $bytes = [Convert]::FromBase64String($_)
            $Encoding.GetString($bytes)
        }
    }
}



function ConvertTo-Hashtable {
    <#
            .SYNOPSIS
            Converts a PowerShell object to a generic hashtable
            .DESCRIPTION
            Converts a PowerShell object to a generic hashtable
            .PARAMETER InputObject
            The object to convert to a hashtable
            .EXAMPLE
            'RW5jb2RlIG1lIQ==' | ConvertTo-Base64
            Shows how you can pipeline input into `ConvertFrom-Base64`.
    #>

    [CmdletBinding()]
    param (
        [Parameter(ValueFromPipeline = $true)] $InputObject
    )

    process {
        if ($InputObject -is [Hashtable]) { return $InputObject }
        
        if ($null -eq $InputObject) { return $null }

        if ($InputObject -is [System.Collections.IEnumerable] -and $InputObject -isnot [string]) {
            $collection = @(
                foreach ($object in $InputObject) { ConvertTo-Hashtable $object }
            )

            Write-Output -NoEnumerate $collection
        }
        elseif ($InputObject -is [PSCustomObject]) {
            $hash = @{ }

            foreach ($property in $InputObject.PSObject.Properties) {
                $hash[$property.Name] = ConvertTo-Hashtable $property.Value
            }

            $hash
        }
        else {
            $InputObject
        }
    }
}


function ConvertTo-UtcDate {
    <#
            .SYNOPSIS
            Converts a value to a UTC date
            .DESCRIPTION
            Converts a value to a UTC date. Usually used with timestamps
            .PARAMETER Timestamp
            An integer timestamp value. If it would be after year 2500, it is considered a Java Timestamp in milliseconds. Otherwise it will be considered a Unix Timestamp in seconds.
            .PARAMETER JavaTimestamp
            A JAVA Timestamp in milliseconds from 1970-01-01 00:00:00
            .PARAMETER UnixTimestamp
            A UNIX Timestamp in seconds from 1970-01-01 00:00:00
            .EXAMPLE
            ConvertTo-UtcDate -Timestamp 1544122801014
            # Output: Thursday, December 6, 2018 19:00:01
            .EXAMPLE
            ConvertTo-UtcDate -Timestamp 1544122801
            # Output: Thursday, December 6, 2018 19:00:01
            .EXAMPLE
            ConvertTo-UtcDate -JavaTimestamp 1544122801014
            # Output: Thursday, December 6, 2018 19:00:01
            .EXAMPLE
            ConvertTo-UtcDate -UnixTimestamp 1544122801
            # Output: Thursday, December 6, 2018 19:00:01
    #>

    [CmdletBinding()]
    param
    (
        [Parameter(Mandatory = $true, Position = 1, ParameterSetName = "Generic Timestamp")] [int64] $Timestamp,
        [Parameter(Mandatory = $true, Position = 1, ParameterSetName = "JAVA Timestamp")] [int64] $JavaTimestamp,
        [Parameter(Mandatory = $true, Position = 1, ParameterSetName = "UNIX Timestamp")] [int32] $UnixTimestamp
    )

    $baseDate1970 = Get-Date -Year 1970 -Month 1 -Day 1 -Hour 0 -Minute 0 -Second 0 -Millisecond 0
    
    switch ($PSCmdlet.ParameterSetName) { 
        "Generic Timestamp" { if ($Timestamp -lt 16756761599) { $Timestamp = $Timestamp * 1000 } } 
        "JAVA Timestamp" { $Timestamp = $JavaTimestamp }
        "UNIX Timestamp" { $Timestamp = $UnixTimestamp * 1000 } 
    } 
    
    $utcDate = $baseDate1970 + ([System.TimeSpan]::FromMilliSeconds($Timestamp))
    
    return $utcDate
}

function Get-CurrentScriptPath {
    <#
            .SYNOPSIS
            Returns the path of the current file. Works with PowerShell ISE and VSCode.
            .DESCRIPTION
            Returns the path of the current file. Works with PowerShell ISE and VSCode.
            .PARAMETER ParentPath
            Instead of the file path the path of the parent folder is returned.
            .EXAMPLE
            Get-CurrentScriptPath
            .EXAMPLE
            Get-CurrentScriptPath -ParentPath
    #>

    [CmdletBinding()]
    param (
        [Parameter(Mandatory = $false)] [switch] $ParentPath
    )

    $scriptPath = Switch ($Host.name){
        'Visual Studio Code Host' { split-path $psEditor.GetEditorContext().CurrentFile.Path }
        'Windows PowerShell ISE Host' {  Split-Path -Path $psISE.CurrentFile.FullPath }
        'ConsoleHost' { $PSScriptRoot }
    }

    if ($ParentPath) {
        return Split-Path -Parent $scriptPath
    }
    return $scriptPath
}