This change reorganizes the `tx/transactors` directory for consistency and discoverability. There are no behavioral changes, this is a pure refactor. Underscores were chosen as the way to separate multi-words as this is the more popular option in C++ projects.
Specific changes:
- Rename all subdirectories to lowercase/snake_case (`AMM` → `amm`, `Check` → `check`, `NFT` → `nft`, `PermissionedDomain` → `permissioned_domain`, etc.)
- Merge `AMM/` and `Offer/` into `dex/`, including `PermissionedDEXHelpers`
- Rename `MPT/` → `token/`, absorbing `SetTrust` and `Clawback`
- Move top-level transactors into named groups: `account/`, `bridge/`, `credentials/`, `did/`, `escrow/`, `oracle/`, `payment/`, `payment_channel/`, `system/`
- Update all include paths across the codebase and `transactions.macro`
This change renames all occurrences of `namespace ripple` and `ripple::` to `namespace xrpl` and `xrpl::`, respectively, as well as the names of test suites. It also provides a script to allow developers to replicate the changes in their local branch or fork to avoid conflicts.
Per XLS-0095, we are taking steps to rename ripple(d) to xrpl(d).
This change specifically removes all copyright notices referencing Ripple, XRPLF, and certain affiliated contributors upon mutual agreement, so the notice in the LICENSE.md file applies throughout. Copyright notices referencing external contributions remain as-is. Duplicate verbiage is also removed.
- 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`).
* `account_objects` returns an invalid field error if `type` is not supported.
This includes objects an account can't own, or which are unsupported by `account_objects`
* Includes:
* Amendments
* Directory Node
* Fee Settings
* Ledger Hashes
* Negative UNL
* fix "account_nfts" with unassociated marker returning issue
* create unit test for fixing nft page invalid marker not returning error
add more test
change test name
create unit test
* fix "account_nfts" with unassociated marker returning issue
* fix "account_nfts" with unassociated marker returning issue
* fix "account_nfts" with unassociated marker returning issue
* fix "account_nfts" with unassociated marker returning issue
* fix "account_nfts" with unassociated marker returning issue
* fix "account_nfts" with unassociated marker returning issue
* fix "account_nfts" with unassociated marker returning issue
* fix "account_nfts" with unassociated marker returning issue
* [FOLD] accumulated review suggestions
* move BEAST check out of lambda function
---------
Authored-by: Scott Schurr <scott@ripple.com>
Implement native support for W3C DIDs.
Add a new ledger object: `DID`.
Add two new transactions:
1. `DIDSet`: create or update the `DID` object.
2. `DIDDelete`: delete the `DID` object.
This meets the requirements specified in the DID v1.0 specification
currently recommended by the W3C Credentials Community Group.
The DID format for the XRP Ledger conforms to W3C DID standards.
The objects can be created and owned by any XRPL account holder.
The transactions can be integrated by any service, wallet, or application.
A bridge connects two blockchains: a locking chain and an issuing
chain (also called a mainchain and a sidechain). Both are independent
ledgers, with their own validators and potentially their own custom
transactions. Importantly, there is a way to move assets from the
locking chain to the issuing chain and a way to return those assets from
the issuing chain back to the locking chain: the bridge. This key
operation is called a cross-chain transfer. A cross-chain transfer is
not a single transaction. It happens on two chains, requires multiple
transactions, and involves an additional server type called a "witness".
A bridge does not exchange assets between two ledgers. Instead, it locks
assets on one ledger (the "locking chain") and represents those assets
with wrapped assets on another chain (the "issuing chain"). A good model
to keep in mind is a box with an infinite supply of wrapped assets.
Putting an asset from the locking chain into the box will release a
wrapped asset onto the issuing chain. Putting a wrapped asset from the
issuing chain back into the box will release one of the existing locking
chain assets back onto the locking chain. There is no other way to get
assets into or out of the box. Note that there is no way for the box to
"run out of" wrapped assets - it has an infinite supply.
Co-authored-by: Gregory Popovitch <greg7mdp@gmail.com>
- Update amm_info to fetch AMM by amm account id.
- This is an additional way to retrieve an AMM object.
- Alternatively, AMM can still be fetched by the asset pair as well.
- Add owner directory entry for AMM object.
Context:
- Add back the AMM object directory entry, which was deleted by #4626.
- This fixes `account_objects` for `amm` type.
The API would allow seeds (and public keys) to be used in place of
accounts at several locations in the API. For example, when calling
account_info, you could pass `"account": "foo"`. The string "foo" is
treated like a seed, so the method returns `actNotFound` (instead of
`actMalformed`, as most developers would expect). In the early days,
this was a convenience to make testing easier. However, it allows for
poor security practices, so it is no longer a good idea. Allowing a
secret or passphrase is now considered a bug. Previously, it was
controlled by the `strict` option on some methods. With this commit,
since the API does not interpret `account` as `seed`, the option
`strict` is no longer needed and is removed.
Removing this behavior from the API is a [breaking
change](https://xrpl.org/request-formatting.html#breaking-changes). One
could argue that it shouldn't be done without bumping the API version;
however, in this instance, there is no evidence that anyone is using the
API in the "legacy" way. Furthermore, it is a potential security hole,
as it allows users to send secrets to places where they are not needed,
where they could end up in logs, error messages, etc. There's no reason
to take such a risk with a seed/secret, since only the public address is
needed.
Resolves: #3329, #3330, #4337
BREAKING CHANGE: Remove non-strict account parsing (#3330)
- Include NFTokenPages in account_objects to make it easier to
understand an account's Owner Reserve and simplify app development.
- Update related tests and documentation.
- Fix#4347.
For info about the Owner Reserve, see https://xrpl.org/reserves.html
---------
Co-authored-by: Scott Schurr <scott@ripple.com>
Co-authored-by: Ed Hennis <ed@ripple.com>
Support for 'out-of-sequence' transaction execution was introduced
in commit 7724cca384.
The changes in that commit were gated under a feature but there was
no corresponding amendment introduced that would allow the network
to vote on this amendment.
This commit introduces 'TicketBatch' amendment as the amendment
that is associated with the tickets feature. If the amendment is
enabled, it will activate support for tickets.
This commit also removes several workarounds that are no longer
needed in unit tests.
- Simplify and consolidate code for parsing hex input.
- Replace beast::endian::order with boost::endian::order.
- Simplify CountedObject code.
- Remove pre-C++17 workarounds in favor of C++17 based solutions.
- Improve `base_uint` and simplify its hex-parsing interface by
consolidating the `SexHex` and `SetHexExact` methods into one
API: `parseHex` which forces callers to verify the result of
the operation; as a result some public-facing API endpoints
may now return errors when passed values that were previously
accepted.
- Remove the simple fallback implementations of SHA2 and RIPEMD
introduced to reduce our dependency on OpenSSL. The code is
slow and rarely, if ever, exercised and we rely on OpenSSL
functionality for Boost.ASIO as well.
Tickets are a mechanism to allow for the "out-of-order" execution of
transactions on the XRP Ledger.
This commit, if merged, reworks the existing support for tickets and
introduces support for 'ticket batching', completing the feature set
needed for tickets.
The code is gated under the newly-introduced `TicketBatch` amendment
and the `Tickets` amendment, which is not presently active on the
network, is being removed.
The specification for this change can be found at:
https://github.com/xrp-community/standards-drafts/issues/16
Collecting the returned and expected values in sets only works if there are no
duplicates. The implementation is changed to use sorted vectors to fix this case.
