This document provides information about signing your Android applications prior to publishing them for mobile device users.
The Android system requires that all installed applications be digitally signed with a certificate whose private key is held by the application's developer. The Android system uses the certificate as a means of identifying the author of an application and establishing trust relationships between applications. The certificate is not used to control which applications the user can install. The certificate does not need to be signed by a certificate authority: it is perfectly allowable, and typical, for Android applications to use self-signed certificates.
The important points to understand about signing Android applications are:
zipalign
tool to optimize the final APK package.The Android system will not install or run an application that is not signed appropriately. This applies wherever the Android system is run, whether on an actual device or on the emulator. For this reason, you must set up signing for your application before you will be able to run or debug it on an emulator or device.
The Android SDK tools assist you in signing your applications when debugging. Both the ADT Plugin for Eclipse and the Ant build tool offer two signing modes — debug mode and release mode.
Once your application is signed, don't forget to run zipalign
on the APK
for additional optimization.
Some aspects of application signing may affect how you approach the development of your application, especially if you are planning to release multiple applications.
In general, the recommended strategy for all developers is to sign all of your applications with the same certificate, throughout the expected lifespan of your applications. There are several reasons why you should do so:
Another important consideration in determining your signing strategy is how to set the validity period of the key that you will use to sign your applications.
As you design your application, keep these points in mind and make sure to use a suitable certificate to sign your applications.
Before you begin, you should make sure that
Keytool is available to the SDK build
tools. In most cases, you can tell the SDK build tools how to find Keytool by setting
your JAVA_HOME
environment variable to references a suitable JDK.
Alternatively, you can add the JDK version of Keytool to your PATH
variable.
If you are developing on a version of Linux that originally came with GNU Compiler for
Java, make sure that the system is using the JDK version of Keytool, rather than the gcj
version. If Keytool is already in your PATH
, it might be pointing to a symlink at
/usr/bin/keytool
. In this case, check the symlink target to be sure it points
to the Keytool in the JDK.
If you will release your application to the public, you will also need to have the Jarsigner tool available on your machine. Both Jarsigner and Keytool are included in the JDK.
The Android build tools provide a debug signing mode that makes it easier for you to develop and debug your application, while still meeting the Android system requirement for signing your .apk. When using debug mode to build your app, the SDK tools invoke Keytool to automatically create a debug keystore and key. This debug key is then used to automatically sign the .apk, so you do not need to sign the package with your own key.
The SDK tools create the debug keystore/key with predetermined names/passwords:
If necessary, you can change the location/name of the debug keystore/key or supply a custom debug keystore/key to use. However, any custom debug keystore/key must use the same keystore/key names and passwords as the default debug key (as described above). (To do so in Eclipse/ADT, go to Windows > Preferences > Android > Build.)
Caution: You cannot release your application to the public when signed with the debug certificate.
If you are developing in Eclipse/ADT (and have set up Keytool as described above in
Basic Setup for Signing),
signing in debug mode is enabled by default. When you run or debug your
application, ADT signs the .apk with the debug certificate, runs zipalign
on the
package, then installs it on
the selected emulator or connected device. No specific action on your part is needed,
provided ADT has access to Keytool.
If you are using Ant to build your .apk files, debug signing mode
is enabled by using the debug
option with the ant
command
(assuming that you are using a build.xml
file generated by the
android
tool). When you run ant debug
to
compile your app, the build script generates a keystore/key and signs the .apk for you.
The script then also aligns the .apk with the zipalign
tool.
No other action on your part is needed. Read
Developing In Other IDEs: Building
in debug mode for more information.
The self-signed certificate used to sign your application in debug mode (the default on Eclipse/ADT and Ant builds) will have an expiration date of 365 days from its creation date.
When the certificate expires, you will get a build error. On Ant builds, the error looks like this:
debug: [echo] Packaging bin/samples-debug.apk, and signing it with a debug key... [exec] Debug Certificate expired on 8/4/08 3:43 PM
In Eclipse/ADT, you will see a similar error in the Android console.
To fix this problem, simply delete the debug.keystore
file.
The default storage location for AVDs is in ~/.android/avd
on OS X and Linux,
in C:\Documents and Settings\
on Windows XP, and in
C:\Users\
on Windows Vista.
The next time you build, the build tools will regenerate a new keystore and debug key.
Note that, if your development machine is using a non-Gregorian locale, the build tools may erroneously generate an already-expired debug certificate, so that you get an error when trying to compile your application. For workaround information, see the troubleshooting topic I can't compile my app because the build tools generated an expired debug certificate.
When your application is ready for release to other users, you must:
If you are developing in Eclipse with the ADT plugin, you can use the Export Wizard to perform the compile, sign, and align procedures. The Export Wizard even allows you to generate a new keystore and private key in the process. So if you use Eclipse, you can skip to Compile and sign with Eclipse ADT.
In preparation for signing your application, you must first ensure that you have a suitable private key with which to sign. A suitable private key is one that:
If you plan to publish your application(s) on Android Market, note that a validity period ending after 22 October 2033 is a requirement. You can not upload an application if it is signed with a key whose validity expires before that date.
The key may be self-signed. If you do not have a suitable key, you must generate one using Keytool. Make sure that you have Keytool available, as described in Basic Setup.
To generate a self-signed key with Keytool, use the keytool
command and pass any of the options listed below (and any others, as
needed).
Warning: Keep your private key secure. Before you run Keytool, make sure to read Securing Your Private Key for a discussion of how to keep your key secure and why doing so is critically important to you and to users. In particular, when you are generating your key, you should select strong passwords for both the keystore and key.
Keytool Option | Description |
---|---|
-genkey | Generate a key pair (public and private keys) |
-v | Enable verbose output. |
-alias <alias_name> | An alias for the key. Only the first 8 characters of the alias are used. |
-keyalg <alg> | The encryption algorithm to use when generating the key. Both DSA and RSA are supported. |
-keysize <size> | The size of each generated key (bits). If not supplied, Keytool uses a default key size of 1024 bits. In general, we recommend using a key size of 2048 bits or higher. |
-dname <name> | A Distinguished Name that describes who created the key. The value is used as the issuer and subject fields in the self-signed certificate. Note that you do not need to specify this option in the command line. If not supplied, Jarsigner prompts you to enter each of the Distinguished Name fields (CN, OU, and so on). |
-keypass <password> | The password for the key. As a security precaution, do not include this option in your command line. If not supplied, Keytool prompts you to enter the password. In this way, your password is not stored in your shell history. |
-validity <valdays> | The validity period for the key, in days. Note: A value of 10000 or greater is recommended. |
-keystore <keystore-name>.keystore | A name for the keystore containing the private key. |
-storepass <password> | A password for the keystore. As a security precaution, do not include this option in your command line. If not supplied, Keytool prompts you to enter the password. In this way, your password is not stored in your shell history. |
Here's an example of a Keytool command that generates a private key:
$ keytool -genkey -v -keystore my-release-key.keystore -alias alias_name -keyalg RSA -keysize 2048 -validity 10000
Running the example command above, Keytool prompts you to provide
passwords for the keystore and key, and to provide the Distinguished
Name fields for your key. It then generates the keystore as a file called
my-release-key.keystore
. The keystore and key are
protected by the passwords you entered. The keystore contains
a single key, valid for 10000 days. The alias is a name that you —
will use later, to refer to this keystore when signing your application.
For more information about Keytool, see the documentation at http://java.sun.com/j2se/1.5.0/docs/tooldocs/#security
In order to release your application to users, you must compile it in release mode. In release mode, the compiled application is not signed by default and you will need to sign it with your private key.
Caution: You can not release your application unsigned, or signed with the debug key.
To export an unsigned .apk from Eclipse, right-click the project in the Package
Explorer and select Android Tools > Export Unsigned Application
Package. Then specify the file location for the unsigned .apk.
(Alternatively, open your AndroidManifest.xml
file in Eclipse, open
the Overview tab, and click Export an unsigned .apk.)
Note that you can combine the compiling and signing steps with the Export Wizard. See Compiling and signing with Eclipse ADT.
If you are using Ant, you can enable release mode by using the release
option
with the ant
command. For example, if you are running Ant from the
directory containing your build.xml
file, the command would look like this:
ant release
By default, the build script compiles the application .apk without signing it. The output file
in your project bin/
will be <your_project_name>-unsigned.apk
.
Because the application .apk is still unsigned, you must manually sign it with your private
key and then align it using zipalign
.
However, the Ant build script can also perform the signing
and aligning for you, if you have provided the path to your keystore and the name of
your key alias in the project's build.properties
file. With this information provided,
the build script will prompt you for your keystore and alias password when you perform
ant release
, it will sign the package and then align it. The final output
file in bin/
will instead be
<your_project_name>-release.apk
. With these steps
automated for you, you're able to skip the manual procedures below (steps 3 and 4).
To learn how to specify your keystore and alias in the build.properties
file,
see Developing In Other
IDEs: Building in release mode.
When you have an application package that is ready to be signed, you can do sign it using the Jarsigner tool. Make sure that you have Jarsigner available on your machine, as described in Basic Setup. Also, make sure that the keystore containing your private key is available.
To sign your application, you run Jarsigner, referencing both the application's .apk and the keystore containing the private key with which to sign the .apk. The table below shows the options you could use.
Jarsigner Option | Description |
---|---|
-keystore <keystore-name>.keystore | The name of the keystore containing your private key. |
-verbose | Enable verbose output. |
-storepass <password> | The password for the keystore. As a security precaution, do not include this option in your command line unless you are working at a secure computer. If not supplied, Jarsigner prompts you to enter the password. In this way, your password is not stored in your shell history. |
-keypass <password> | The password for the private key. As a security precaution, do not include this option in your command line unless you are working at a secure computer. If not supplied, Jarsigner prompts you to enter the password. In this way, your password is not stored in your shell history. |
Here's how you would use Jarsigner to sign an application package called
my_application.apk
, using the example keystore created above.
$ jarsigner -verbose -keystore my-release-key.keystore my_application.apk alias_name
Running the example command above, Jarsigner prompts you to provide passwords for the keystore and key. It then modifies the .apk in-place, meaning the .apk is now signed. Note that you can sign an .apk multiple times with different keys.
To verify that your .apk is signed, you can use a command like this:
$ jarsigner -verify my_signed.apk
If the .apk is signed properly, Jarsigner prints "jar verified". If you want more details, you can try one of these commands:
$ jarsigner -verify -verbose my_application.apk
or
$ jarsigner -verify -verbose -certs my_application.apk
The command above, with the -certs
option added, will show you the
"CN=" line that describes who created the key.
Note: If you see "CN=Android Debug", this means the .apk was signed with the debug key generated by the Android SDK. If you intend to release your application, you must sign it with your private key instead of the debug key.
For more information about Jarsigner, see the documentation at http://java.sun.com/j2se/1.5.0/docs/tooldocs/#security
Once you have signed the .apk with your private key, run zipalign
on the file.
This tool ensures that all uncompressed data starts with a particular byte alignment,
relative to the start of the file. Ensuring alignment at 4-byte boundaries provides
a performance optimization when installed on a device. When aligned, the Android
system is able to read files with mmap()
, even if
they contain binary data with alignment restrictions, rather than copying all
of the data from the package. The benefit is a reduction in the amount of
RAM consumed by the running application.
The zipalign
tool is provided with the Android SDK, inside the
tools/
directory. To align your signed .apk, execute:
zipalign -v 4 your_project_name-unaligned.apk your_project_name.apk
The -v
flag turns on verbose output (optional). 4
is the
byte-alignment (don't use anything other than 4). The first file argument is
your signed .apk (the input) and the second file is the destination .apk file (the output).
If you're overriding an existing .apk, add the -f
flag.
Caution: Your input .apk must be signed with your
private key before you optimize the package with zipalign
.
If you sign it after using zipalign
, it will undo the alignment.
For more information, read about the zipalign tool.
If you are using Eclipse with the ADT plugin, you can use the Export Wizard to
export a signed .apk (and even create a new keystore,
if necessary). The Export Wizard performs all the interaction with
the Keytool and Jarsigner for you, which allows you to sign the package using a GUI
instead of performing the manual procedures to compile, sign,
and align, as discussed above. Once the wizard has compiled and signed your package,
it will also perfom package alignment with zipalign
.
Because the Export Wizard uses both Keytool and Jarsigner, you should
ensure that they are accessible on your computer, as described above
in the Basic Setup for Signing.
To create a signed and aligned .apk in Eclipse:
The Export Android Application wizard now starts, which will guide you through the process of signing your application, including steps for selecting the private key with which to sign the .apk (or creating a new keystore and private key).
Maintaining the security of your private key is of critical importance, both to you and to the user. If you allow someone to use your key, or if you leave your keystore and passwords in an unsecured location such that a third-party could find and use them, your authoring identity and the trust of the user are compromised.
If a third party should manage to take your key without your knowledge or permission, that person could sign and distribute applications that maliciously replace your authentic applications or corrupt them. Such a person could also sign and distribute applications under your identity that attack other applications or the system itself, or corrupt or steal user data.
Your reputation as a developer entity depends on your securing your private key properly, at all times, until the key is expired. Here are some tips for keeping your key secure:
-storepass
and -keypass
options at the command line.
If you do so, your passwords will be available in your shell history,
which any user on your computer could access.-storepass
and -keypass
options at the command line. In general, if you follow common-sense precautions when generating, using, and storing your key, it will remain secure.