GoByte Core has published an extensive Developer Guide to help new developers get started with the GoByte code base, and as a reference for experienced developers. This guide can be leveraged to quickly and efficiently integrate external applications with the GoByte ecosystem. Anyone can contribute to the guide by submitting an issue or pull request on GitHub. The documentation is available at:

The GoByte Core Team also maintains the GoByte Roadmap, which sets out delivery milestones for future releases of GoByte and includes specific technical details describing how the development team plans to realise each challenge. The GoByte Roadmap is complemented by the GoByte Improvement Proposals, which contain detailed technical explanations of proposed changes to the GoByte protocol itself.

The remaining sections available below describe practical steps to carry out common development tasks in GoByte.


A multi-phased fork, colloquially known as a “spork”, is a mechanism adopted from DASH used to safely deploy new features to the network through network-level variables to avoid the risk of unintended network forking during upgrades. It can also be used to disable certain features if a security vulnerability is discovered - see here for a brief introduction to sporks. This documentation describes the meaning of each spork currently existing on the network, and how to check their respective statuses.

Spork functions

Sporks are set using integer values. Many sporks may be set to a particular epoch datetime (number of seconds that have elapsed since January 1, 1970) to specify the time at which they will active. Enabled sporks are set to 0 (seconds until activation). This function is often used to set a spork enable date so far in the future that it is effectively disabled until changed. The following sporks currently exist on the network and serve functions as described below:

Governs the ability of GoByte clients to use InstandSend functionality.
If enabled, masternodes will reject blocks containing transactions in conflict with locked but unconfirmed InstandSend transactions.
Enforces the maximum value in GoByte that can be included in an InstantSend transaction.
Enables a new signature format for GoByte-specific network messages introduced in Dash 12.3. For more information, see here and here.
If enabled, miners must pay 65% of the block reward to a masternode currently pending selection or the block will be considered invalid.
If enabled, superblocks are verified and issued to pay proposal winners.
Controls whether masternodes running an older protocol version are considered eligible for payment. This can be used as an incentive to encourage masternodes to update.
Forces reindex of a specified number of blocks to recover from unintentional network forks.
Deprecated. No network function since block 614820.
Toggles whether masternodes with status are eligible for payment if status is WATCHDOG_EXPIRED, i.e. Sentinel is not running properly.
Controls whether deterministic masternodes are required. When activated, the legacy masternode list logic will no longer run and non-updated masternodes will not be eligible for payment.
Enables automatic transaction locking for transactions with less than a specified number of inputs, and removes the legacy InstantSend fee. Allows any node to request the transaction lock, not just the sending node.

Viewing spork status

The spork show and spork active commands issued in the debug window (or from gobyte-cli on a masternode) allow you to interact with sporks. You can open the debug window by selecting Tools > Debug console.


spork show and spork active output in the GoByte Core debug console

Version History

Full release notes and the version history of GoByte are available here: