A platform-independent serial port access library for Java.
For usage examples, please refer to the Usage wiki.
In order to use the jSerialComm
library in your own project, you must simply
include the JAR file in your build path and import it like any other
Java package using import com.fazecast.jSerialComm.*;
.
Alternatively, you can automatically add jSerialComm
to your project as a
dependency from the Maven Central Repository
. Use the following dependency
declaration depending on your build system:
- Maven:
<dependency>
<groupId>com.fazecast</groupId>
<artifactId>jSerialComm</artifactId>
<version>[2.0.0,3.0.0)</version>
</dependency>
- Ivy:
<dependency org="com.fazecast" name="jSerialComm" rev="[2.0.0,3.0.0)"/>
- Groovy:
@Grab(group='com.fazecast', module='jSerialComm', version='[2.0.0,3.0.0)')
- Gradle:
compile 'com.fazecast:jSerialComm:[2.0.0,3.0.0)'
- Gradle (.kts):
compile("com.fazecast:jSerialComm:[2.0.0,3.0.0)")
- Buildr:
compile.with 'com.fazecast:jSerialComm:jar:[2.0.0,3.0.0)'
- Scala/SBT:
libraryDependencies += "com.fazecast" % "jSerialComm" % "[2.0.0,3.0.0)"
- Leiningen:
[com.fazecast/jSerialComm "[2.0.0,3.0.0)"]
If you are using Linux and this library does not appear to be working, ensure
that you have the correct permissions set to access the serial port on your system.
One way to test this is to run your application as root or by using the
sudo
command. If everything works, you will need to either run your
application as root
in the future or fix the permissions on your system.
For further instructions, refer to the Troubleshooting wiki.
On some very few systems which use custom ARM-based CPUs and/or have extremely
restrictive permissions, the library may be unable to determine that the
underlying system architecture is ARM. In this case, you can force the
library to disable its auto-detect functionality and instead directly specify
the architecture using the Java os.arch_full
system property. Acceptable
values for this property are currently one of: armv5
, armv6
,
armv6-hf
, armv7
, armv7-hf
, armv8_32
, armv8_64
,
x86
, or x86_64
.
An additional note for Linux users: If you are operating this library in
event-based mode, the LISTENING_EVENT_DATA_WRITTEN
event will never occur.
This is not a bug, but rather a limitation of the Linux operating system.
For other troubleshooting issues, please see if you can find an answer in either the Usage-Examples wiki or the Troubleshooting Wiki.
If your question is still not answered, feel free to open an issue report on this project's GitHub page, and we will be glad to look into it.
Building this library yourself is not advised (at least not for distribution)
since it requires native compilation across multiple platforms. It is
recommended to simply use the pre-built jSerialComm
library in your
application. For installation/usage instructions, please skip to the usage section.
If you do choose to build this library for your specific system, the recommended methodology is to use Gradle coupled with two Java SDKs, version 1.6 and version 9.0.4 (for backward compatibility).
Once the Java SDKs have been installed, ensure that you have an environment
variable called JDK_HOME
set to the base directory of your JDK 9.0.4
installation. Once this has been done, refer to the section corresponding to
your specific Operating System for further instructions.
Please note, if you would like to edit any of the source code or view it in an IDE (such as Eclipse), you can automatically build the Eclipse project files by entering the following on a command line or terminal from the base directory of this project:
gradle eclipse
You can then Import the project using the "Existing Project into Workspace" import tool in Eclipse. (Note that if you use Eclipse as an IDE, you will probably want to install the Eclipse CDT plugin for proper handling of the C source code).
Ensure that the following tools are installed on your Linux distribution:
# On some distros, these may be called multilib tools for gcc and binutils
gcc make glibc-devel.x86_64 glibc-devel.i686
Ensure that the JDK_HOME
environment variable has been set for the 9.0.4
version of your Java SDK. The correct directory can usually be found by entering
the following command:
readlink -f /usr/bin/java
Export the result of this command up to but not including the
/jre/...
portion using the export
command. For example, if
readlink
produced /usr/lib/jvm/java-9.0.4/jre/bin/java
as an output,
the export command would look like: export JDK_HOME=/usr/lib/jvm/java-9.0.4
Run the following commands:
cd src/main/c/Posix
make linux
cd ../../../..
gradle build
The resulting jSerialComm
library can be found in the project directory
build/libs
under the name jSerialComm-{VERSION}.jar
.
Ensure that you have a cross-compiler installed on your Linux distribution capable of compiling for both x86 and Sparc-based Solaris architectures. Instructions for creating such a toolchain can be found on the Solaris Cross-Compiler wiki.
Ensure that the JDK_HOME
environment variable has been set for the 9.0.4
version of your Java SDK. The correct directory can usually be found by entering
the following command:
readlink -f /usr/bin/java
Export the result of this command up to but not including the
/jre/...
portion using the export
command. For example, if
readlink
produced /usr/lib/jvm/java-9.0.4/jre/bin/java
as an output,
the export command would look like: export JDK_HOME=/usr/lib/jvm/java-9.0.4
Run the following commands:
cd src/main/c/Posix
make solaris
cd ../../../..
gradle build
The resulting jSerialComm
library can be found in the project directory
build/libs
under the name jSerialComm-{VERSION}.jar
.
Ensure that you have a cross-compiler installed on your Linux distribution
capable of compiling for ARM-based architectures. I prefer crosstool-ng
for this purpose.
Ensure that the JDK_HOME
environment variable has been set for the 9.0.4
version of your Java SDK. The correct directory can usually be found by entering
the following command:
readlink -f /usr/bin/java
Export the result of this command up to but not including the
/jre/...
portion using the export
command. For example, if
readlink
produced /usr/lib/jvm/java-9.0.4/jre/bin/java
as an output,
the export command would look like: export JDK_HOME=/usr/lib/jvm/java-9.0.4
Run the following commands:
cd src/main/c/Posix
make arm
cd ../../../..
gradle build
The resulting jSerialComm
library can be found in the project directory
build/libs
under the name jSerialComm-{VERSION}.jar
.
Ensure that the Android NDK is installed on your system. For purposes of these
instructions, assume that it is installed at {NDK_HOME}
.
Run the following commands in order:
cd src/main/c/Android
{NDK_HOME}/ndk-build
cd ../../../..
gradle build
The resulting jSerialComm
library can be found in the project directory
build/libs
under the name jSerialComm-{VERSION}.jar
Ensure that Xcode is installed on your system.
If it is not, it can be downloaded via the App Store. You must also make sure
that the Xcode Command Line Tools
are installed. This can be done by
entering the following command in a terminal: xcode-select --install
Run the following commands in order:
cd src/main/c/Posix
make osx
cd ../../../..
gradle build
The resulting jSerialComm
library can be found in the project directory
build/libs
under the name jSerialComm-{VERSION}.jar
Ensure that the Visual Studio C++ Compiler is installed on your system.
On Windows, the Visual Studio Compiler must be configured to build either 32- or 64-bit binaries but never both at the same time. Therefore, you will have to build binaries for the two architectures separately.
Open a command prompt and run the following command:
SET VC_DIRECTORY="C:\Program Files (x86)\Microsoft Visual Studio [version]\VC"
where [version]
matches the version of the Visual Studio C++ Compiler
that is installed.
Then run:
PUSHD src\main\c\Windows
%VC_DIRECTORY%\vcvarsall.bat x64
nmake win64
%VC_DIRECTORY%\vcvarsall.bat x86
nmake win32
POPD
gradle build
The resulting jSerialComm
library can be found in the project directory
build/libs
under the name jSerialComm-{VERSION}.jar