- Generate Private Key From .pem File
- Public Private Key Encryption
- Generate Private Key From Pem File
- Openssl Generate Private Key From Pem File Free
Openssl rsa -in key.pem -outform PEM -pubout -out public.pem writing RSA key Generating a private EC key Generate an EC private key, of size 256, and output it to a file named key.pem. Generating the Public Key - Windows 1. At the command prompt, type the following: openssl rsa -in rsa.private -out rsa.public -pubout -outform PEM 2. The public key is saved in a file named rsa.public located in the same folder. Generating the Private Key - Linux 1. Open the Terminal. Navigate to the folder with the ListManager directory.
- Openssl rsa -in rsa.private -out rsa.public -pubout -outform PEM 2. The public key is saved in a file named rsa.public located in the same folder. Generating the Private Key - Linux 1. Open the Terminal. Navigate to the folder with the ListManager directory. Type the following: openssl genrsa -out rsa.private 1024 4.
- Sep 12, 2014 Note that if your PKCS12 file has multiple items in it (e.g. A certificate and private key), the PEM file that is created will contain all of the items in it. OpenSSL Version The openssl version command can be used to check which version you are running.
- As before, you can encrypt the private key by removing the -nodes flag from the command and/or add -nocerts or -nokeys to output only the private key or certificates. So, to generate a private key file, we can use this command: openssl pkcs12 -in INFILE.p12 -out OUTFILE.key -nodes -nocerts. And to create a file including only the certificates.
- (late but necroed) @Zoredache: Before 7.2 (in 2016, after this Q) ssh-keygen -l can't read a privatekey file, although other ssh-keygen (and ssh.) operations do.But when ssh-keygen generates a key it writes both the privatekey file e.g. Idrsa and a corresponding publickey file with.pub added e.g.
- Extracting certificate and private key information from a Personal Information Exchange (.pfx) file with OpenSSL: Open Windows File Explorer. Copy your.pfx file to a computer that has OpenSSL installed, notating the file path. Certificate.pfx files are usually password protected. Obtain the password for your.pfx file.
While Encrypting a File with a Password from the Command Line using OpenSSLis very useful in its own right, the real power of the OpenSSL library is itsability to support the use of public key cryptograph for encrypting orvalidating data in an unattended manner (where the password is not required toencrypt) is done with public keys.
The Commands to Run
Generate a 2048 bit RSA Key
Generate Private Key From .pem File
You can generate a public and private RSA key pair like this:
openssl genrsa -des3 -out private.pem 2048
That generates a 2048-bit RSA key pair, encrypts them with a password you provideand writes them to a file. You need to next extract the public key file. You willuse this, for instance, on your web server to encrypt content so that it canonly be read with the private key.
Export the RSA Public Key to a File
This is a command that is
openssl rsa -in private.pem -outform PEM -pubout -out public.pem
The -pubout
flag is really important. Be sure to include it.
Next open the public.pem
and ensure that it starts with-----BEGIN PUBLIC KEY-----
. This is how you know that this file is thepublic key of the pair and not a private key.
To check the file from the command line you can use the less
command, like this:
less public.pem
Do Not Run This, it Exports the Private Key
A previous version of the post gave this example in error.
openssl rsa -in private.pem -out private_unencrypted.pem -outform PEM
The error is that the -pubout
was dropped from the end of the command.That changes the meaning of the command from that of exporting the public keyto exporting the private key outside of its encrypted wrapper. Inspecting theoutput file, in this case private_unencrypted.pem
clearly shows that the keyis a RSA private key as it starts with -----BEGIN RSA PRIVATE KEY-----
.
Visually Inspect Your Key Files
It is important to visually inspect you private and public key files to makesure that they are what you expect. OpenSSL will clearly explain the nature ofthe key block with a -----BEGIN RSA PRIVATE KEY-----
or -----BEGIN PUBLIC KEY-----
.
You can use less to inspect each of your two files in turn:
less private.pem
to verify that it starts with a-----BEGIN RSA PRIVATE KEY-----
less public.pem
to verify that it starts with a-----BEGIN PUBLIC KEY-----
The next section shows a full example of what each key file should look like.
The Generated Key Files
The generated files are base64-encoded encryption keys in plain text format.If you select a password for your private key, its file will be encrypted withyour password. Be sure to remember this password or the key pair becomes useless.
The private.pem file looks something like this:
The public key, public.pem, file looks like:
Protecting Your Keys
Depending on the nature of the information you will protect, it’s important tokeep the private key backed up and secret. The public key can be distributedanywhere or embedded in your web application scripts, such as in your PHP,Ruby, or other scripts. Again, backup your keys!
Remember, if the key goes away the data encrypted to it is gone. Keeping aprinted copy of the key material in a sealed envelope in a bank safety depositbox is a good way to protect important keys against loss due to fire or harddrive failure.
Oh, and one last thing.
If you, dear reader, were planning any funny business with the private key that I have just published here. Know that they were made especially for this series of blog posts. I do not use them for anything else.
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Finding your Private Key on Different Servers or Control Panels
Linux-Based (Apache, Nginx, LightHttpd)
Windows Operating Systems
Mac OS X
Tomcat
cPanel
WHM
Plesk
Synology NAS DSM
Webmin
VestaCP
DirectAdmin
Webuzo
What Is a Private Key?
What Is a Private Key?
You’ve received your SSL Certificate, and now you need to install it.
Firstly, let’s go through some basics. Public Key Infrastructure (PKI) security is about using two unique keys: the Public Key is encrypted within your SSL Certificate, while the Private Key is generated on your server and kept secret.
All the information sent from a browser to a website server is encrypted with the Public Key, and gets decrypted on the server side with the Private Key. Together the key pair keeps communication secured, and one key will not work without the other.
How do I get it?
The Private Key is generated with your Certificate Signing Request (CSR). The CSR is submitted to the Certificate Authority right after you activate your Certificate. The Private Key must be kept safe and secret on your server or device, because later you’ll need it for Certificate installation.
Note: all Certificates except Multi-Domains support Private Key generation in your browser. The key is always saved during SSL activation, we never receive this information. That’s why it’s important you save and back it up during the process if you use the in-browser automatic generation method. If the Private Key key file is lost, you’ll need to reissue your Certificate.
Can I generate a new Private Key for my Certificate if I lose the old one?
Yes. You can generate a new private key and CSR, or use the automatic CSR and key generation during Certificate reissue (this option is available for all Certificates except for the Multi-Domains).
What does the Private Key look like?
It looks like a block of encoded data, starting and ending with headers, such as —–BEGIN RSA PRIVATE KEY—– and —–END RSA PRIVATE KEY—–.
You may not get to see this code when generating your CSR. Usually, it gets generated in the background with the CSR, and is automatically saved on your server. The system also fills the corresponding field automatically during installation of your Certificate in some control panels, such as cPanel.
The way this works varies depending on your web server, control panel, or any other tools used for CSR generation. Select the one that applies to you in the following section for specific guidance.
Finding your Private Key on Different Servers or Control Panels
Public Private Key Encryption
Linux-based (Apache, NGINX, LightHttpd)
Normally, the CSR/RSA Private Key pairs on Linux-based operating systems are generated using the OpenSSL cryptographic engine, and saved as files with “.key” or “.pem” extensions on the server.
But no specific extensions are mandatory for text files in Linux, so the key file may have any name and extension, or no extension at all.
If you remember the whole name of the key file or at least part of it, you can use the following command in your console to find the file and its directory:
The slash symbol in this command implies that the search begins from the root directory of the server. This way you have more file options to view. The name of the file in between the single quotation marks should be the part of the name that you remember. To search for the file by extension, enter “*.key” to view all the files with the “.key” extension on your server.
Tip: often the name of the file corresponds to the domain name it was generated for e.g. “domain_tld.key” or “domain.tld.pem”.
Here’s another useful command that lets you search files by their content:
This command will return the absolute path to the Private Key file if it’s located on your server.
Windows Operating Systems (IIS, Exchange, Small Business server)
Windows servers don’t let you view the Private Key in plain text format. When you import your Certificate via MMC or IIS, the Private Key is bound to it automatically if the CSR/Key pair has been generated on the same server.
If you need to obtain the Private Key to install your Certificate on a different server, you can export the key in a password protected PFX (PKCS#12) file. To do that, open the MMC Certificates snap-in tools following these steps:
Win+R >> mmc.exe >> OK >> File >> Add/Remove Snap-in >> Certificates >> Add >> Computer account >> Next >> Local computer >> Finish >> OK
Next, go to Certificate Enrollment Requests >> Certificates (if you haven’t completed the Certificate request yet). If you’ve done that, you’d select Personal >> Certificates, then right-click the Certificate >> select All Tasks >> Export. The Export wizard will open, and give you instructions. You can find more detailed instructions here.
Once that’s done, you will see the .pfx file containing your Certificate, CA-Bundle, and Private Key. To extract the key, use this tool. Choose the PKCS12 to PEM option, then upload the file and enter your chosen password.
Mac OS X
The Keychain tool in the Server application of Mac OS X won’t allow you to access the Private Key via the graphic user interface. Instead use the Terminal, by opening /etc/certificates/ directory and clicking the file.
Its name should be something like “*.key.pem”. And the terminal commands to open the file are: cd /etc/certificates/ , then ls , and sudo nano test.key.pem.
Note: to check if the Private Key matches your Certificate, go here. Then paste the Certificate and the Private Key text codes into the required fields and click Match.
Tomcat
If your Tomcat SSL connector is configured in JSSE style, the Private Key must be in a password-protected keystore file with a .jks or .keystore extension. This file, unlike most other cases, is created before the CSR. To extract the Private Key, you’ll need to convert the keystore into a PFX file with the following command:
Tips:
- “Keystore.jks” should be replaced with your actual keystore name,
- “keystore.p12” will be the name of the PKCS12 file you will receive,
- <jkskeyalias>, <jkspassword> and <keypassword> are the alias (key and keystore passwords that were entered during keystore generation),
- <jkskeyalias>, <jkspassword> and <keypassword> should be replaced with your JKS file alias, its password, and Private Key password.
- <newp12password> and <newkeypassword> should be replaced with the passwords you set for your new PKCS12 file and the Private Key.
After the PKCS12 file is generated, you can convert it to a PEM file with separated CRT, CA-Bundle and KEY files using this tool. Alternatively, use the following command in the terminal:
“Private.key” can be replaced with any key file title you like.
cPanel
Generate Private Key From Pem File
- SSL/TLS Manager
a) The simplest way to get the appropriate key used during SSL installation is reflected in the below picture:
b) Alternatively, you can find the Private key in the Private keys section of the SSL/TLS Manager, which can be located in the cPanel main menu. You will see all the Private Keys ever generated in your cPanel. To view the code of the key, click View & Edit. If there are several keys in that menu, you can copy each of them to find a match with your Certificate code by using this tool. - File manager
On the homepage of your cPanel, click File manager. Find the folder named “ssl” in the folder tree to the left (see screenshot). That folder will contain another folder named “keys”. This key folder also contains all the keys ever generated in your cPanel.
WHM
WHM stores your private keys and CSR codes in the SSL Storage Manager menu. On the homepage, click SSL/TLS >> SSL Storage Manager. To view the Private Key, click the magnifier icon next to the relevant key in the Key column.
Plesk
Click Domains >> your domain >> SSL/TLS Certificates. You’ll see a page like the one shown below. The key icon with the message “Private key part supplied” means there is a matching key on your server.
To get it in plain text format, click the name and scroll down the page until you see the key code. Alternatively, click the green arrow icon on the right. This will download a PEM file, containing your Private Key, Certificate and CA-Bundle files (if they were previously imported to the server). The files can be opened in any text editor, such as Notepad.
Synology NAS DSM
When generating a CSR in Synology DSM, the Private Key is provided to you in a zip file on the last step. The key code is contained within a server.key file, that can be opened with a text editor, such as Notepad.
Openssl Generate Private Key From Pem File Free
Webmin
Webmin works as a graphic user interface (GUI) on top of the command-line interface. There is also a file manager called Filemin, that you can use to browse the server file system and find your Private Key file. Alternatively, go to Others >> Command Shell and run the find or grep command, which you can find in the Linux Operating Systems section above.
VestaCP
Your Private Key needs to be saved during CSR generation, as it will not be available via the graphic user interface.
That said, you may be able to retrieve your Private Key via SSH. It is saved as a temporary file in the “/tmp” folder. The path to the file will look something like this: “/tmp/tmp.npAnkmWFcu/domain.com.key”.
Note: the files in the /tmp directory are deleted every time your server is rebooted, so this is not a safe place to store your Private Key.
To get the path to your key file, use this Linux command:
Where you see “domain.com”, replace this with the actual domain name you generated the CSR for.
The path to your key file can also be found using the grep command:
DirectAdmin
In the up-to-date version of DirectAdmin, your Private Key is saved on the server. Access it in the “Paste a pre-generated Certificate and key” field during installation.
If that section is empty, it may mean the CSR and key were generated elsewhere, or the key was not saved in DirectAdmin due to a glitch. If a glitch happened, try retrieving the key via SSH. Usually it is saved in this directory:
/usr/local/directadmin/data/users/<user>/domains/<domain>.key
Note: <user> and <domain> are your DirectAdmin details.
Webuzo
On the homepage, find the SSL management section by clicking the Private Keys button. This will display a list of all the Private Keys generated in Webuzo. To see the key code, click the pencil icon to the right under the Option column, as shown in the screenshot below:
To sum up, ways to find your private key fully depend on the interface of the web server where you generate the CSR. If the methods described above did not help you find the private key for your certificate, the only solution would be to generate a new CSR/private key pair and reissue your certificate and to make sure that the key is saved on your server/local computer this time.