Until now, a high weight invalid block can cause other valid, lower weight alternatives to be discarded. The solution to this problem is to track invalid blocks and quickly avoid them once discovered. This gives other valid alternative blocks the opportunity to become part of a valid chain, where they would otherwise have been discarded.
As with the block minter update, this will cause a fork when the highest weight block candidate is invalid. But it is likely that the fork would be short lived, assuming that the majority of nodes pick the valid chain.
If it has been more than 10 minutes since receiving the last valid block, but we have had at least one invalid block since then, this is indicative of a stuck chain due to no valid block candidates. In this case, we want to allow the block minter to mint an alternative candidate so that the chain can continue.
This would create a fork at the point of the invalid block, in which two chains (valid an invalid) would diverge. The valid chain could never rejoin the invalid one, however it's likely that the invalid chain would be discarded in favour of the valid one shortly after, on the assumption that the majority of nodes would have picked the valid one.
- Use the "{\"age\":30}" data to make the tests more similar to some real world data.
- Added tests to ensure that registering and orphaning works as expected.
Whilst not ideal, this is necessary to prevent the chain from getting stuck on future blocks due to duplicate name registrations. See Block535658.java for full details on this problem - this is simply a "catch-all" implementation of that class in order to futureproof this fix.
There is still a database inconsistency to be solved, as some nodes are failing to add a registered name to their Names table the first time around, but this will take some time. Once fixed, this commit could potentially be reverted.
Also added unit tests for both scenarios (same and different creator).
TLDR: this allows all past and future invalid blocks caused by NAME_ALREADY_REGISTERED (by the same creator) to now be valid.
This was accidentally missed out of the original code. Some pre-updated nodes on the network will be missing this index, but we can use the upcoming "auto-bootstrap" feature to get those back.
Now only skipping the HTLC redemption if the AT is finished and the balance has been redeemed by the buyer. This allows HTLCs to be refunded for ATs that have been refunded or cancelled.
Previously, if an error was returned from an Electrum server (such as "server busy") it would throw a NetworkException that would be caught outside of the server loop and cause the entire request to fail.
Instead of throwing an exception, I am now logging the error and returning null, in the same way we do for IOException and NoSuchElementException further up in the same method.
This allows the caller - most likely connectedRpc() - to move on to the next server in the list and try again.
This should fix an issue seen where a "server busy" response from a single server was essentially breaking our implementation, as we would give up altogether instead of trying another server.
This is a workaround for an UnsupportedOperationException thrown when using X2Go, due to PERPIXEL_TRANSLUCENT translucency being unsupported in splashDialog.setBackground(). We could choose to use a different version of the splash screen with an opaque background in these cases, but it is low priority.
Updated the "localeLang" files with new keys and removed old unused keys for English, German, Dutch, Italian, Finnish, Hungarian, Russian and Chinese translations
These are the same as the /lists/blacklist/address/{address} endpoints but allow a JSON array of addresses to be specified in the request body. They currently return true if
The ResourceList class creates or updates a list for the purpose of tracking resources on the Qortal network. This can be used for local blocking, or even for curating and sharing content lists. Lists are backed off to JSON files (in the lists folder) to ease sharing between nodes and users.
This first implementation allows access to an address blacklist only, but has been written in such a way that other lists can be easily added. This might be needed in the future, e.g. to blacklist a group, a poll, or some hosted data. It could also be used by community members to curate lists of favourite or problematic content, which could then be shared or even subscribed to on the chain by other users.
