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You are not required to perform any additional steps to configure the Android server as it is preconfigured in WSO2 EMM.
Follow the instructions below to configure and build the Android client application:
Get a GIT clone of the Android Agent application from GitHub.
Update the Android Software Development Kit with the following:
SDK Versions 22 and 16.
Build Tools Version 22.0.1.
Install or update Android Support Library.
Install or update Google Play Services.
Install Google USB Driver, if you are on a Windows platform.
By default, the Android agent communicates with the server via HTTP
. Configure the following parameters to enable HTTPS
communication in the production environment.
- Configure the
SERVER_PORT
and SERVER_PROTOCOL
parameters in the Constants.java
class, which is in the org.wso2.emm.agent.utils
package. - Configure the
SERVER_PROTOCOL
parameter in the Constants.java
class, which is in the org.wso2.emm.agent.proxy.utils
package.
For more information see below:
Generating a BKS File
The Android agent must have the CA certificate inside the application when configuring the Secure Sockets Layer (SSL). The CA certificate is stored in a BKS (bouncycastle) file. Follow the steps given below to create and generate a BKS file:
Prerequisites
Step 1: Creating a BKS file
Navigate to the openssl.cnf
file of the OpenSSL installation.
Make a copy of the openssl.cnf
file, move it to another location, and configure the file to generate version 3 certificates as shown below:
[ v3_req ]
# Extensions to add to a certificate request
basicConstraints=CA:TRUE
keyUsage = Digital Signature, Key Encipherment
[ v3_ca ]
# Extensions for a typical CA
# PKIX recommendation.
subjectKeyIdentifier=hash
authorityKeyIdentifier=keyid:always,issuer
# This is what PKIX recommends but some broken software chokes on critical
# extensions.
basicConstraints = critical,CA:true
# So we do this instead.
#basicConstraints = CA:true
# Key usage: this is typical for a CA certificate. However since it will
# prevent it being used as an test self-signed certificate it is best
# left out by default.
keyUsage = Digital Signature, Certificate Sign, CRL Sign
In the location where you modified and saved the openssl.cnf
file, run the following commands to generate a self-signed Certificate Authority (CA) certificate (version 3) and convert the certificate to the.pem
format:
openssl genrsa -out <CA PRIVATE KEY> 4096
For example: openssl genrsa -out ca_private.key 4096
openssl req -new -key <CA PRIVATE KEY> -out <CA CSR>
For example: openssl req -new -key ca_private.key -out ca.csr
openssl x509 -req -days <DAYS> -in <CA CSR> -signkey <CA PRIVATE KEY> -out <CA CRT> -extensions v3_ca -extfile <PATH-TO-MODIFIED-openssl.cnf-FILE>
For example: openssl x509 -req -days 365 -in ca.csr -signkey ca_private.key -out ca.crt -extensions v3_ca -extfile ./openssl.cnf
openssl rsa -in <CA PRIVATE KEY> -text > <CA PRIVATE PEM>
For example: openssl rsa -in ca_private.key -text > ca_private.pem
openssl x509 -in <CA CRT> -out <CA CERT PEM>
For example: openssl x509 -in ca.crt -out ca_cert.pem
In the same location, run the following commands to generate a Registration Authority (RA) certificate (version 3), sign it with the CA, and convert the certificate to the .pem
format.
openssl genrsa -out <RA PRIVATE KEY> 4096
For example: openssl genrsa -out ra_private.key 4096
openssl req -new -key <RA PRIVATE KEY> -out <RA CSR>
For example: openssl req -new -key ra_private.key -out ra.csr
openssl x509 -req -days <DAYS> -in <RA CSR> -CA <CA CRT> -CAkey <CA PRIVATE KEY> -set_serial <SERIAL NO> -out <RA CRT> -extensions v3_req -extfile <PATH-TO-MODIFIED-
openssl.cnf-FILE
>
For example: openssl x509 -req -days 365 -in ra.csr -CA ca.crt -CAkey ca_private.key -set_serial 02 -out ra.crt -extensions v3_req -extfile ./openssl.cnf
openssl rsa -in <CA PRIVATE KEY> -text > <RA PRIVATE PEM>
For example: openssl rsa -in ra_private.key -text > ra_private.pem
openssl x509 -in <RA CRT> -out <RA CERT PEM>
For example: openssl x509 -in ra.crt -out ra_cert.pem
Generate the SSL certificate (version 3) based on your domain/IP address:
- Generate an RSA key.
openssl genrsa -out <RSA_key>.key 4096
For example:
openssl genrsa -out ia.key 4096
- Generate a CSR file.
openssl req -new -key <RSA_key>.key -out <CSR>.csr
For example:
openssl req -new -key ia.key -out ia.csr
Enter your server IP address/domain name (e.g., 192.168.1.157) as the Common Name else provisioning will fail. - Generate the SSL certificate.
openssl x509 -req -days 730 -in <CSR>.csr -CA ca_cert.pem -CAkey ca_private.pem -set_serial <serial number> -out ia.crt
For example:
openssl x509 -req -days 730 -in ia.csr -CA ca_cert.pem -CAkey ca_private.pem -set_serial 044324343 -out ia.crt
Export the SSL, CA, and RA files as PKCS12 files with an alias.
Export the SSL file as a PKCS12 file with "wso2carbo
n" as the alias.
openssl pkcs12 -export -out <KEYSTORE>.p12 -inkey <RSA_key>.key -in ia.crt -CAfile ca_cert.pem -name "<alias>"
For example:
openssl pkcs12 -export -out KEYSTORE.p12 -inkey ia.key -in ia.crt -CAfile ca_cert.pem -name "wso2carbon"
- Export the CA file as a PKCS12 file with an alias.
openssl pkcs12 -export -out <CA>.p12 -inkey <CA private key>.pem -in <CA Cert>.pem -name "<alias>"
For example:
openssl pkcs12 -export -out ca.p12 -inkey ca_private.pem -in ca_cert.pem -name "cacert"
In the above example, cacert
has been used as the CA alias. - Export the RA file as a PKCS12 file with an alias.
openssl pkcs12 -export -out <RA>.p12 -inkey <RA private key>.pem -in <RA Cert>.pem -chain -CAfile <CA cert>.pem -name "<alias>"
For example:
openssl pkcs12 -export -out ra.p12 -inkey ra_private.pem -in ra_cert.pem -chain -CAfile ca_cert.pem -name "racert"
In the above example, racert
has been used as the RA alias.
- Copy the three P12 files to the
<EMM_HOME>/repository/resources/security
directory. - Import the generated P12 files as follows:
Import the generated <KEYSTORE>.p12
file into the wso2carbon.jks
and client-truststore.jks
in the <EMM_HOME>/repository/resources/security
directory.
keytool -importkeystore -srckeystore <KEYSTORE>.p12 -srcstoretype PKCS12 -destkeystore <wso2carbon.jks/client-truststore.jks>
For example:
keytool -importkeystore -srckeystore KEYSTORE.p12 -srcstoretype PKCS12 -destkeystore wso2carbon.jks
keytool -importkeystore -srckeystore KEYSTORE.p12 -srcstoretype PKCS12 -destkeystore client-truststore.jks
Import the generated <CA>.p12
and <RA>.p12
files into the wso2certs.jks
file, which is in the <EMM_HOME>/repository/resources/security
directory.
keytool -importkeystore -srckeystore <CA/RA>.p12 -srcstoretype PKCS12 -destkeystore wso2emm.jks
For example:
keytool -importkeystore -srckeystore ca.p12 -srcstoretype PKCS12 -destkeystore wso2certs.jks
Enter the keystore password as wso2carbon
and keystore key password as cacert
.
keytool -importkeystore -srckeystore ra.p12 -srcstoretype PKCS12 -destkeystore wso2certs.jks
Enter the keystore password as wso2carbon
and keystore key password as racert
.
Step 2: Generating a BKS file
Generate the BKS file:
keytool -noprompt -import -v -trustcacerts -alias 'openssl x509 -inform PEM -subject_hash -noout -in ca_cert.pem' -file ca_cert.pem -keystore emm_truststore.bks -storetype BKS -providerclass org.bouncycastle.jce.provider.BouncyCastleProvider -providerpath bcprov-jdk16-146.jar -storepass 'wso2carbon'
If you are using an SSL certificate by a trusted authority such as GoDaddy, the cert.crt
defined in the command should be the interim certificate.
Example:
keytool -noprompt -import -v -trustcacerts -alias godaddy -file cert.crt -keystore emm_truststore.bks -storetype BKS -providerclass org.bouncycastle.jce.provider.BouncyCastleProvider -providerpath bcprov-jdk16-146.jar -storepass 'wso2carbon'
Optionally, view the list of certificates in the BKS form using the following command:
keytool -list -v -keystore "emm_truststore.bks" -provider org.bouncycastle.jce.provider.BouncyCastleProvider -providerpath "bcprov-jdk16-1.46.jar" -storetype BKS -storepass "wso2carbon"
- Copy the generated
emm_truststore.bks
file to the Android res/raw
folder. - Navigate to the C
onstants.java
file, which is in the Android folder and configure the following:- Provide the
HTTPS_HOST_IP
as the value for the SERVER_PORT
parameter.
Example: 9443
. - Change the
SERVER_PROTOCOL
to https://
. - Provide the BKS file password as the value for the
TRUSTSTORE_PASSWORD
parameter.
public static boolean DEBUG_MODE_ENABLED = false;
public static boolean LOCAL_NOTIFICATIONS_ENABLED = true;
public static boolean GCM_ENABLED = false;
public static String SERVER_IP = "";
public static String SERVER_PORT = "9443";
public static String SERVER_PROTOCOL = "https://";
public static String API_VERSION = "1.0.0";
public static String SERVER_APP_ENDPOINT = "/EMM/api/";
public static String OAUTH_ENDPOINT = "/oauth2/token";
public static String SENDER_ID_ENDPOINT = "devices/sender_id/";
public static String IS_REGISTERED_ENDPOINT = "devices/isregistered/";
public static String LICENSE_ENDPOINT = "devices/license/";
public static String REGISTER_ENDPOINT = "devices/register/";
public static String UNREGISTER_ENDPOINT = "devices/unregister/";
public static String NOTIFICATION_ENDPOINT = "notifications/pendingOperations/";
public static String SERVER_URL = SERVER_PROTOCOL + SERVER_IP + ":"
+ SERVER_PORT + SERVER_APP_ENDPOINT;
public static final String TRUSTSTORE_PASSWORD = "";
public static final String EULA_TITLE = "POLICY AGREEMENT";
Import the project on Android Studio, clean and build the project.
Run the project on a device.
What's next