Java implementation of the Tron Protocol
- What’s TRON?
- Building the Source Code
- Running java-tron
- Community
- Contribution
- Resources
- Integrity Check
- License
TRON is a project dedicated to building the infrastructure for a truly decentralized Internet.
-
Tron Protocol, one of the largest blockchain-based operating systems in the world, offers scalable, high-availability and high-throughput support that underlies all the decentralized applications in the TRON ecosystem.
-
Tron Virtual Machine (TVM) allows anyone to develop decentralized applications (DAPPs) for themselves or their communities with smart contracts thereby making decentralized crowdfunding and token issuance easier than ever.
TRON enables large-scale development and engagement. With over 2000 transactions per second (TPS), high concurrency, low latency, and massive data transmission. It is ideal for building decentralized entertainment applications. Free features and incentive systems allow developers to create premium app experiences for users.
Building java-tron requires git
package and 64-bit version of Oracle JDK 1.8
to be installed, other JDK versions are not supported yet. Make sure you operate on Linux
and MacOS
operating systems.
Clone the repo and switch to the master
branch
$ git clone https://github.com/tronprotocol/java-tron.git
$ cd java-tron
$ git checkout -t origin/master
then run the following command to build java-tron, the FullNode.jar
file can be found in java-tron/build/libs/
after build successfully.
$ ./gradlew clean build -x test
Running java-tron requires 64-bit version of Oracle JDK 1.8
to be installed, other JDK versions are not supported yet. Make sure you operate on Linux
and MacOS
operating systems.
Get the mainnet configuration file: main_net_config.conf, other network configuration files can be found here.
Minimum:
- CPU with 8 cores
- 16GB RAM
- 3TB free storage space to sync the Mainnet
Recommended:
- CPU with 16+ cores(32+ cores for a super representative)
- 32GB+ RAM(64GB+ for a super representative)
- High Performance SSD with at least 4TB free space
- 100+ MB/s download Internet service
Full node has full historical data, it is the entry point into the TRON network, it can be used by other processes as a gateway into the TRON network via HTTP and GRPC endpoints. You can interact with the TRON network through full node:transfer assets, deploy contracts, interact with contracts and so on. -c
parameter specifies a configuration file to run a full node:
$ nohup java -Xms9G -Xmx9G -XX:ReservedCodeCacheSize=256m \
-XX:MetaspaceSize=256m -XX:MaxMetaspaceSize=512m \
-XX:MaxDirectMemorySize=1G -XX:+PrintGCDetails \
-XX:+PrintGCDateStamps -Xloggc:gc.log \
-XX:+UseConcMarkSweepGC -XX:NewRatio=2 \
-XX:+CMSScavengeBeforeRemark -XX:+ParallelRefProcEnabled \
-XX:+HeapDumpOnOutOfMemoryError \
-XX:+UseCMSInitiatingOccupancyOnly -XX:CMSInitiatingOccupancyFraction=70 \
-jar FullNode.jar -c main_net_config.conf >> start.log 2>&1 &
Adding the --witness
parameter to the startup command, full node will run as a super representative node. The super representative node supports all the functions of the full node and also supports block production. Before running, make sure you have a super representative account and get votes from others. Once the number of obtained votes ranks in the top 27, your super representative node will participate in block production.
Fill in the private key of a super representative address into the localwitness
list in the main_net_config.conf
. Here is an example:
localwitness = [
<your_private_key>
]
then run the following command to start the node:
$ nohup java -Xms9G -Xmx9G -XX:ReservedCodeCacheSize=256m \
-XX:MetaspaceSize=256m -XX:MaxMetaspaceSize=512m \
-XX:MaxDirectMemorySize=1G -XX:+PrintGCDetails \
-XX:+PrintGCDateStamps -Xloggc:gc.log \
-XX:+UseConcMarkSweepGC -XX:NewRatio=2 \
-XX:+CMSScavengeBeforeRemark -XX:+ParallelRefProcEnabled \
-XX:+HeapDumpOnOutOfMemoryError \
-XX:+UseCMSInitiatingOccupancyOnly -XX:CMSInitiatingOccupancyFraction=70 \
-jar FullNode.jar --witness -c main_net_config.conf >> start.log 2>&1 &
An easier way to build and run java-tron is to use start.sh
. start.sh
is a quick start script written in the Shell language. You can use it to build and run java-tron quickly and easily.
Here are some common use cases of the scripting tool
- Use
start.sh
to start a full node with the downloadedFullNode.jar
- Use
start.sh
to download the latestFullNode.jar
and start a full node. - Use
start.sh
to download the latest source code and compile aFullNode.jar
and then start a full node.
For more details, please refer to the tool guide.
One of the quickest ways to get java-tron
up and running on your machine is by using Docker:
$ docker run -d --name="java-tron" \
-v /your_path/output-directory:/java-tron/output-directory \
-v /your_path/logs:/java-tron/logs \
-p 8090:8090 -p 18888:18888 -p 50051:50051 \
tronprotocol/java-tron \
-c /java-tron/config/main_net_config.conf
This will mount the output-directory
and logs
directories on the host, the docker.sh tool can also be used to simplify the use of docker, see more here.
Tron Developers & SRs is Tron's official Discord channel. Feel free to join this channel if you have any questions.
Core Devs Community is the Telegram channel for java-tron community developers. If you want to contribute to java-tron, please join this channel.
tronprotocol/allcoredev is the official Gitter channel for developers.
Thank you for considering to help out with the source code! If you'd like to contribute to java-tron, please see the Contribution Guide for more details.
- Medium java-tron's official technical articles are published there.
- Documentation java-tron's official technical documentation website.
- Test network A stable test network of TRON contributed by TRON community.
- Tronscan TRON network blockchain browser.
- Wallet-cli TRON network wallet using command line.
- TIP TRON Improvement Proposal (TIP) describes standards for the TRON network.
- TP TRON Protocol (TP) describes standards already implemented in TRON network but not published as a TIP.
- After January 3, 2023, the release files will be signed using a GPG key pair, and the correctness of the signature will be verified using the following public key:
pub: 1254 F859 D2B1 BD9F 66E7 107D F859 BCB4 4A28 290B uid: [email protected]
java-tron is released under the LGPLv3 license.