ConvertFrom-SecureString
Converts a secure string to an encrypted standard string.
Syntax
ConvertFrom-SecureString
[-SecureString] <SecureString>
[[-SecureKey] <SecureString>]
[<CommonParameters>]
ConvertFrom-SecureString
[-SecureString] <SecureString>
[-Key <Byte[]>]
[<CommonParameters>]
Description
The ConvertFrom-SecureString cmdlet converts a secure string (System.Security.SecureString)
into an encrypted standard string (System.String). Unlike a secure string, an encrypted standard
string can be saved in a file for later use. The encrypted standard string can be converted back to
its secure string format by using the ConvertTo-SecureString
cmdlet.
If an encryption key is specified by using the Key or SecureKey parameters, the Advanced Encryption Standard (AES) encryption algorithm is used. The specified key must have a length of 128, 192, or 256 bits because those are the key lengths supported by the AES encryption algorithm. If no key is specified, the Windows Data Protection API (DPAPI) is used to encrypt the standard string representation.
Examples
Example 1: Create a secure string
$SecureString = Read-Host -AsSecureString
This command creates a secure string from characters that you type at the command prompt. After
entering the command, type the string you want to store as a secure string. An asterisk (*
) is
displayed to represent each character that you type.
Example 2: Convert a secure string to an encrypted standard string
$StandardString = ConvertFrom-SecureString $SecureString
This command converts the secure string in the $SecureString
variable to an encrypted standard
string. The resulting encrypted standard string is stored in the $StandardString
variable.
Example 3: Convert a secure string to an encrypted standard string with a 192-bit key
$Key = (3,4,2,3,56,34,254,222,1,1,2,23,42,54,33,233,1,34,2,7,6,5,35,43)
$StandardString = ConvertFrom-SecureString $SecureString -Key $Key
These commands use the Advanced Encryption Standard (AES) algorithm to convert the secure string
stored in the $SecureString
variable to an encrypted standard string with a 192-bit key. The
resulting encrypted standard string is stored in the $StandardString
variable.
The first command stores a key in the $Key
variable. The key is an array of 24 decimal numerals,
each of which must be less than 256 to fit within a single unsigned byte.
Because each decimal numeral represents a single byte (8 bits), the key has 24 digits for a total of 192 bits (8 x 24). This is a valid key length for the AES algorithm.
The second command uses the key in the $Key
variable to convert the secure string to an encrypted
standard string.
Parameters
-Key
Specifies the encryption key as a byte array.
Type: | Byte[] |
Position: | Named |
Default value: | None |
Required: | False |
Accept pipeline input: | False |
Accept wildcard characters: | False |
-SecureKey
Specifies the encryption key as a secure string. The secure string value is converted to a byte array before being used as the key.
Type: | SecureString |
Position: | 1 |
Default value: | None |
Required: | False |
Accept pipeline input: | False |
Accept wildcard characters: | False |
-SecureString
Specifies the secure string to convert to an encrypted standard string.
Type: | SecureString |
Position: | 0 |
Default value: | None |
Required: | True |
Accept pipeline input: | True |
Accept wildcard characters: | False |
Inputs
You can pipe a SecureString object to ConvertFrom-SecureString.
Outputs
ConvertFrom-SecureString returns a standard string object.
Notes
- To create a secure string from characters that are typed at the command prompt, use the
AsSecureString parameter of the
Read-Host
cmdlet. - When you use the Key or SecureKey parameters to specify a key, the key length must be correct. For example, a key of 128 bits can be specified as a byte array of 16 decimal numerals. Similarly, 192-bit and 256-bit keys correspond to byte arrays of 24 and 32 decimal numerals, respectively.