- Amendment: fixDelegateV1_1
- In DelegateSet, disallow invalid PermissionValues like 0, and transaction values when the transaction's amendment is not enabled. Acts as if the transaction doesn't exist, which is the same thing older versions without the amendment will do.
- Payment burn/mint should disallow DEX currency exchange.
- Support MPT for Payment burn/mint.
* Add and Scale to VaultCreate
* Add round-trip calculation to VaultDeposit VaultWithdraw and VaultClawback
* Implement Number::truncate() for VaultClawback
* Add rounding to DepositWithdraw
* Disallow zero shares withdraw or deposit with tecPRECISION_LOSS
* Return tecPATH_DRY on overflow when converting shares/assets
* Remove empty shares MPToken in clawback or withdraw (except for vault owner)
* Implicitly create shares MPToken for vault owner in VaultCreate
* Review feedback: defensive checks in shares/assets calculations
---------
Co-authored-by: Ed Hennis <ed@ripple.com>
This is a major refactor of LedgerEntry.cpp. It adds a number of helper functions to make the code easier to maintain.
It also splits up the ledger and ledger_entry tests into different files, and cleans up the ledger_entry tests to make them easier to write and maintain.
This refactor also caught a few bugs in some of the other RPC processing, so those are fixed along the way.
This updates Boost to 1.88, which is needed because Clio wants to move to 1.88 as that fixes several ASAN false positives around coroutine usage. In order for Clio to move to newer boost, libXRPL needs to move too. Hence the changes in this PR. A lot has changed between 1.83 and 1.88 so there are lots of changes in the diff, especially in regards to Boost.Asio and coroutines in particular.
This change fixes the suite names all around the test files, to make them match to the folder name in which this test files are located. Also, the RCL test files are relocated to the consensus folder, because they are testing consensus functionality.
This change fixes an issue where the order of `PriceDataSeries` was out of sync between when `PriceOracle` was created and when it was updated. Although they are registered in the canonical order when updated, they are created using the order specified in the transaction; this change ensures that they are also registered in the canonical order when created.
#5224 added (among other things) a `VaultWithdraw` transaction that allows setting the recipient of the withdrawn funds in the `Destination` transaction field. This technically turns this transaction into a payment, and in some respect the implementation does follow payment rules, e.g. enforcement of `lsfRequireDestTag` or `lsfDepositAuth`, or that MPT transfer has destination `MPToken`. However for IOUs, it missed verification that the destination account has a trust line to the asset issuer. Since the default behavior of `accountSendIOU` is to create this trust line (if missing), this is what `VaultWithdraw` currently does. This is incorrect, since the `Destination` might not be interested in holding the asset in question; this basically enables spammy transfers. This change, therefore, removes automatic creation of a trust line to the `Destination` account in `VaultWithdraw`.
This change adds support for `DomainID` to existing transactions `MPTokenIssuanceCreate` and `MPTokenIssuanceSet`.
In #5224 `DomainID` was added as an access control mechanism for `SingleAssetVault`. The actual implementation of this feature lies in `MPToken` and `MPTokenIssuance`, hence it makes sense to enable the use of `DomainID` also in `MPTokenIssuanceCreate` and `MPTokenIssuanceSet`, following same rules as in Vault:
* `MPTokenIssuanceCreate` and `MPTokenIssuanceSet` can only set `DomainID` if flag `MPTRequireAuth` is set.
* `MPTokenIssuanceCreate` requires that `DomainID` be a non-zero, uint256 number.
* `MPTokenIssuanceSet` allows `DomainID` to be zero (or empty) in which case it will remove `DomainID` from the `MPTokenIssuance` object.
The change is amendment-gated by `SingleAssetVault`. This is a non-breaking change because `SingleAssetVault` amendment is `Supported::no`, i.e. at this moment considered a work in progress, which cannot be enabled on the network.
Due to rounding, the LPTokenBalance of the last LP might not match the LP's trustline balance. This was fixed for `AMMWithdraw` in `fixAMMv1_1` by adjusting the LPTokenBalance to be the same as the trustline balance. Since `AMMClawback` is also performing a withdrawal, we need to adjust LPTokenBalance as well in `AMMClawback.`
This change includes:
1. Refactored `verifyAndAdjustLPTokenBalance` function in `AMMUtils`, which both`AMMWithdraw` and `AMMClawback` call to adjust LPTokenBalance.
2. Added the unit test `testLastHolderLPTokenBalance` to test the scenario.
3. Modify the existing unit tests for `fixAMMClawbackRounding`.
Currently there is no easy way to track MPT related transactions for the issuer. This change allows MPT transactions to show up on issuer's AccountTx RPC (to align with how IOUs work).
The tests that ensure `tfInnerBatchTxn` won't block delegated transactions silently fail in `Delegate_test.cpp`. This change removes these cases from that file and adds them to `Batch_test.cpp` instead where they do not silently fail, because there the batch delegate results are explicitly checked. Moving them to that file further avoids refactoring many helper functions.
* Adds `tecNO_DELEGATE_PERMISSION` for unauthorized transactions sent by a delegated account.
* Returns `tecNO_TARGET` instead of `terNO_ACCOUNT` for the `DelegateSet` transaction if the delegated account does not exist.
* Fixes `tfFullyCanonicalSig` and `tfInnerBatchTxn` blocking transactions issue by adding `tfUniversal` in the permission related masks in `txFlags.h`
- Specification: https://github.com/XRPLF/XRPL-Standards/pull/272
- Amendment: `TokenEscrow`
- Enables escrowing of IOU and MPT tokens in addition to native XRP.
- Allows accounts to lock issued tokens (IOU/MPT) in escrow objects, with support for freeze, authorization, and transfer rates.
- Adds new ledger fields (`sfLockedAmount`, `sfIssuerNode`, etc.) to track locked balances for IOU and MPT escrows.
- Updates EscrowCreate, EscrowFinish, and EscrowCancel transaction logic to support IOU and MPT assets, including proper handling of trustlines and MPT authorization, transfer rates, and locked balances.
- Enforces invariant checks for escrowed IOU/MPT amounts.
- Extends GatewayBalances RPC to report locked (escrowed) balances.
The changes are focused on fixing NFT transactions bypassing the trustline authorization requirement and potential invariant violation when interacting with deep frozen trustlines.
* Add AMM bid/create/deposit/swap/withdraw/vote invariants:
- Deposit, Withdrawal invariants: `sqrt(asset1Balance * asset2Balance) >= LPTokens`.
- Bid: `sqrt(asset1Balance * asset2Balance) > LPTokens` and the pool balances don't change.
- Create: `sqrt(asset1Balance * assetBalance2) == LPTokens`.
- Swap: `asset1BalanceAfter * asset2BalanceAfter >= asset1BalanceBefore * asset2BalanceBefore`
and `LPTokens` don't change.
- Vote: `LPTokens` and pool balances don't change.
- All AMM and swap transactions: amounts and tokens are greater than zero, except on withdrawal if all tokens
are withdrawn.
* Add AMM deposit and withdraw rounding to ensure AMM invariant:
- On deposit, tokens out are rounded downward and deposit amount is rounded upward.
- On withdrawal, tokens in are rounded upward and withdrawal amount is rounded downward.
* Add Order Book Offer invariant to verify consumed amounts. Consumed amounts are less than the offer.
* Fix Bid validation. `AuthAccount` can't have duplicate accounts or the submitter account.
- Specification: [XRPLF/XRPL-Standards 56](https://github.com/XRPLF/XRPL-Standards/blob/master/XLS-0056d-batch/README.md)
- Amendment: `Batch`
- Implements execution of multiple transactions within a single batch transaction with four execution modes: `tfAllOrNothing`, `tfOnlyOne`, `tfUntilFailure`, and `tfIndependent`.
- Enables atomic multi-party transactions where multiple accounts can participate in a single batch, with up to 8 inner transactions and 8 batch signers per batch transaction.
- Inner transactions use `tfInnerBatchTxn` flag with zero fees, no signature, and empty signing public key.
- Inner transactions are applied after the outer batch succeeds via the `applyBatchTransactions` function in apply.cpp.
- Network layer prevents relay of transactions with `tfInnerBatchTxn` flag - each peer applies inner transactions locally from the batch.
- Batch transactions are excluded from AccountDelegate permissions but inner transactions retain full delegation support.
- Metadata includes `ParentBatchID` linking inner transactions to their containing batch for traceability and auditing.
- Extended STTx with batch-specific signature verification methods and added protocol structures (`sfRawTransactions`, `sfBatchSigners`).
- Specification: XRPLF/XRPL-Standards#239
- Amendment: `SingleAssetVault`
- Implements a vault feature used to store a fungible asset (XRP, IOU, or MPT, but not NFT) and to receive shares in the vault (an MPT) in exchange.
- A vault can be private or public.
- A private vault can use permissioned domains, subject to the `PermissionedDomains` amendment.
- Shares can be exchanged back into asset with `VaultWithdraw`.
- Permissions on the asset in the vault are transitively applied on shares in the vault.
- Issuer of the asset in the vault can clawback with `VaultClawback`.
- Extended `MPTokenIssuance` with `DomainID`, used by the permissioned domain on the vault shares.
Co-authored-by: John Freeman <jfreeman08@gmail.com>
This change implements the account permission delegation described in XLS-75d, see https://github.com/XRPLF/XRPL-Standards/pull/257.
* Introduces transaction-level and granular permissions that can be delegated to other accounts.
* Adds `DelegateSet` transaction to grant specified permissions to another account.
* Adds `ltDelegate` ledger object to maintain the permission list for delegating/delegated account pair.
* Adds an optional `Delegate` field in common fields, allowing a delegated account to send transactions on behalf of the delegating account within the granted permission scope. The `Account` field remains the delegating account; the `Delegate` field specifies the delegated account. The transaction is signed by the delegated account.
Combines four related changes:
1. "Decrease `shouldRelay` limit to 30s." Pretty self-explanatory. Currently, the limit is 5 minutes, by which point the `HashRouter` entry could have expired, making this transaction look brand new (and thus causing it to be relayed back to peers which have sent it to us recently).
2. "Give a transaction more chances to be retried." Will put a transaction into `LedgerMaster`'s held transactions if the transaction gets a `ter`, `tel`, or `tef` result. Old behavior was just `ter`.
* Additionally, to prevent a transaction from being repeatedly held indefinitely, it must meet some extra conditions. (Documented in a comment in the code.)
3. "Pop all transactions with sequential sequences, or tickets." When a transaction is processed successfully, currently, one held transaction for the same account (if any) will be popped out of the held transactions list, and queued up for the next transaction batch. This change pops all transactions for the account, but only if they have sequential sequences (for non-ticket transactions) or use a ticket. This issue was identified from interactions with @mtrippled's #4504, which was merged, but unfortunately reverted later by #4852. When the batches were spaced out, it could potentially take a very long time for a large number of held transactions for an account to get processed through. However, whether batched or not, this change will help get held transactions cleared out, particularly if a missing earlier transaction is what held them up.
4. "Process held transactions through existing NetworkOPs batching." In the current processing, at the end of each consensus round, all held transactions are directly applied to the open ledger, then the held list is reset. This bypasses all of the logic in `NetworkOPs::apply` which, among other things, broadcasts successful transactions to peers. This means that the transaction may not get broadcast to peers for a really long time (5 minutes in the current implementation, or 30 seconds with this first commit). If the node is a bottleneck (either due to network configuration, or because the transaction was submitted locally), the transaction may not be seen by any other nodes or validators before it expires or causes other problems.
This PR replaces the word `failed` with `failure` in any test names and renames some test files to fix MSVC warnings, so that it is easier to search through the test output to find tests that failed.
This change introduces a new fix amendment (`fixPayChanV1`) that prevents the creation of new `PaymentChannelCreate` transaction with a `CancelAfter` time less than the current ledger time. It piggy backs off of fix1571.
Once the amendment is activated, creating a new `PaymentChannel` will require that if you specify the `CancelAfter` time/value, that value must be greater than or equal to the current ledger time.
Currently users can create a payment channel where the `CancelAfter` time is before the current ledger time. This results in the payment channel being immediately closed on the next PaymentChannel transaction.
In preparation for a potential reference fee change we would like to verify that fee change works as expected. The first step is to fix all unit tests to be able to work with different reference fee values.
The codebase is filled with includes that are unused, and which thus can be removed. At the same time, the files often do not include all headers that contain the definitions used in those files. This change uses clang-format and clang-tidy to clean up the includes, with minor manual intervention to ensure the code compiles on all platforms.
- Drop duplicate outgoing TMGetLedger messages per peer
- Allow a retry after 30s in case of peer or network congestion.
- Addresses RIPD-1870
- (Changes levelization. That is not desirable, and will need to be fixed.)
- Drop duplicate incoming TMGetLedger messages per peer
- Allow a retry after 15s in case of peer or network congestion.
- The requestCookie is ignored when computing the hash, thus increasing
the chances of detecting duplicate messages.
- With duplicate messages, keep track of the different requestCookies
(or lack of cookie). When work is finally done for a given request,
send the response to all the peers that are waiting on the request,
sending one message per peer, including all the cookies and
a "directResponse" flag indicating the data is intended for the
sender, too.
- Addresses RIPD-1871
- Drop duplicate incoming TMLedgerData messages
- Addresses RIPD-1869
- Improve logging related to ledger acquisition
- Class "CanProcess" to keep track of processing of distinct items
---------
Co-authored-by: Valentin Balaschenko <13349202+vlntb@users.noreply.github.com>
Rewrites the code so that the lock is not held during the callback. Instead it locks twice, once before, and once after. This is safe due to the structure of the code, but is checked after the second lock. This allows mutex_ to be changed back to a regular mutex.
If the permissioned domains amendment XLS-80 is enabled before credentials XLS-70, then the permissioned domain users will not be able to match any credentials. The changes here prevent the creation of any permissioned domain objects if credentials are not enabled.
- spec: XRPLF/XRPL-Standards#220
- amendment: "DeepFreeze"
- implemented deep freeze spec to allow token issuers to prevent currency holders from being able to acquire more of these tokens.
- in combination with normal freeze, deep freeze effectively prevents any balance trust line balance change of a currency holder (except direct issuer <-> holder payments).
- added 2 new invariant checks to verify that deep freeze cannot be enacted without normal freeze and transfer is not frozen.
- made some fixes to existing freeze handling.
Co-authored-by: Ed Hennis <ed@ripple.com>
Co-authored-by: Howard Hinnant <howard.hinnant@gmail.com>
