Make it easy for projects to depend on libxrpl by adding an `ALIAS`
target named `xrpl::libxrpl` for projects to link.
The name was chosen because:
* The current library target is named `xrpl_core`. There is no other
"non-core" library target against which we need to distinguish the
"core" library. We only export one library target, and it should just
be named after the project to keep things simple and predictable.
* Underscores in target or library names are generally discouraged.
* Every target exported in CMake should be prefixed with the project
name.
By adding an `ALIAS` target, existing consumers who use the `xrpl_core`
target will not be affected.
* In the future, there can be a migration plan to make `xrpl_core` the
`ALIAS` target (and `libxrpl` the "real" target, which will affect the
filename of the compiled binary), and eventually remove it entirely.
Also:
* Fix the Conan recipe so that consumers using Conan import a target
named `xrpl::libxrpl`. This way, every consumer can use the same
instructions.
* Document the two easiest methods to depend on libxrpl. Both have been
tested.
* See #4443.
When writing objects to the NodeStore, we need to convert them from
the in-memory format to the binary format used by the node store.
The conversion is handled by the `EncodedBlob` class, which is only
instantiated on the stack. Coupled with the fact that most objects
are under 1024 bytes in size, this presents an opportunity to elide
a memory allocation in a critical path.
This commit also simplifies the interface of `EncodedBlob` and
eliminates a subtle corner case that could result in dangling
pointers.
These changes are not expected to cause a significant reduction in
memory usage. The change avoids the use of a `std::shared_ptr` when
unnecessary and tries to use stack-based memory allocation instead
of the heap whenever possible.
This is a net gain both in terms of memory usage (lower
fragmentation) and performance (less work to do at runtime).
Introduces a conanfile.py (and a Conan recipe for RocksDB) to enable building the package with Conan, choosing more recent default versions of dependencies. It removes almost all of the CMake build files related to dependencies, and the configurations for Travis CI and GitLab CI. A new set of cross-platform build instructions are written in BUILD.md.
Includes example GitHub Actions workflow for each of Linux, macOS, Windows.
* Test on macos-12
We use the <concepts> library which was not added to Apple Clang until
version 13.1.6. The default Clang on macos-11 (the sometimes current
version of macos-latest) is 13.0.0, and the default Clang on macos-12 is
14.0.0.
Closes#4223.
The existing spinlock code, used to protect SHAMapInnerNode
child lists, has a mistake that can allow the same child to
be repeatedly locked under some circumstances.
The bug was in the `SpinBitLock::lock` loop condition check
and would result in the loop terminating early.
This commit fixes this and further simplifies the lock loop
making the correctness of the code easier to verify without
sacrificing performance.
It also promotes the spinlock class from an implementation
detail to a more general purpose, easier to use lock class
with clearer semantics. Two different lock types now allow
developers to easily grab either a single spinlock from an
a group of spinlocks (packed in an unsigned integer) or to
grab all of the spinlocks at once.
While this commit makes spinlocks more widely available to
developers, they are rarely the best tool for the job. Use
them judiciously and only after careful consideration.
The amendment increases the maximum sign of an account's signer
list from 8 to 32.
Like all new features, the associated amendment is configured with
a default vote of "no" and server operators will have to vote for
it explicitly if they believe it is useful.
* Abort background path finding when closed or disconnected
* Exit pathfinding job thread if there are no requests left
* Don't bother creating the path find job if there are no requests
* Refactor to remove circular dependency between InfoSub and PathRequest
The existing trust line caching code was suboptimal in that it stored
redundant information, pinned SLEs into memory and required multiple
memory allocations per cached object.
This commit eliminates redundant data, reducing the size of cached
objects and unpinning SLEs from memory, and uses value_types to
avoid the need for `std::shared_ptr`. As a result of these changes, the
effective size of a cached object, includes the overhead of the memory
allocator and the `std::shared_ptr` should be reduced by at least 64
bytes. This is significant, as there can easily be tens of millions
of these objects.
In order to preserve the Hooks ABI, it is important that field
values used for hooks be stable going forward.
This commit reserves the required codes so that they will not
be repurposed before Hooks can be proposed for inclusion in
the codebase.
* Remove Application & Database dependency in PerfLog. Replace it with
a callback passed into the constructor.
* Fixes the circular dependency between ripple/nodestore and ripple/basics
This commit implements partitioned unordered maps and makes it possible
to traverse such a map in parallel, allowing for more efficient use of
CPU resources.
The `CachedSLEs`, `TaggedCache`, and `KeyCache` classes make use of the
new functionality, which should improve performance.
The existing logic involves every server sending every transaction
that it receives to all its peers (except the one that it received
a transaction from).
This commit instead uses a randomized algorithm, where a node will
randomly select peers to relay a given transaction to, caching the
list of transaction hashes that are not relayed and forwading them
to peers once every second. Peers can then determine whether there
are transactions that they have not seen and can request them from
the node which has them.
It is expected that this feature will further reduce the bandwidth
needed to operate a server.
While most of the code associated with secp256k1 operations had
been migrated to libsecp256k1, the deterministic key derivation
code was still using calls to OpenSSL.
If merged, this commit replaces the OpenSSL-based routines with
new libsecp256k1-based implementations. No functional change is
expected and the change should be transparent.
This commit also removes several support classes and utility
functions that wrapped or adapted various OpenSSL types that
are no longer needed.
A tip of the hat to the original author of this truly superb
library, Dr. Pieter Wuille, and to all other contributors.
The existing class offered several constructors which were mostly
unnecessary. This commit eliminates all existing constructors and
introduces a single new one, taking a `Slice`.
The internal buffer is switched from `std::vector` to `Buffer` to
save a minimum of 8 bytes (plus the buffer slack that is inherent
in `std::vector`) per SHAMapItem instance.
Add support to allow multiple indepedent nodes to produce a binary identical
shard for a given range of ledgers. The advantage is that servers can use
content-addressable storage, and can more efficiently retrieve shards by
downloading from multiple peers at once and then verifying the integrity of
a shard by cross-checking its checksum with the checksum other servers report.
* Add a new operating mode to rippled called reporting mode
* Add ETL mechanism for a reporting node to extract data from a p2p node
* Add new gRPC methods to faciliate ETL
* Use Postgres in place of SQLite in reporting mode
* Add Cassandra as a nodestore option
* Update logic of RPC handlers when running in reporting mode
* Add ability to forward RPCs to a p2p node
- Add validation/proposal reduce-relay feature negotiation to
the handshake
- Make squelch duration proportional to a number of peers that
can be squelched
- Refactor makeRequest()/makeResponse() to facilitate handshake
unit-testing
- Fix compression enable flag for inbound peer
- Fix compression algorithm parsing in the header parser
- Fix squelch duration in onMessage(TMSquelch)
This commit fixes 3624, fixes 3639 and fixes 3641
This commit combines a number of cleanups, targeting both the
code structure and the code logic. Large changes include:
- Using more strongly-typed classes for SHAMap nodes, instead of relying
on runtime-time detection of class types. This change saves 16 bytes
of memory per node.
- Improving the interface of SHAMap::addGiveItem and SHAMap::addItem to
avoid the need for passing two bool arguments.
- Documenting the "copy-on-write" semantics that SHAMap uses to
efficiently track changes in individual nodes.
- Removing unused code and simplifying several APIs.
- Improving function naming.
- 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.
When attempting to load a validator list from a configured
site, attempt to reuse the last IP that was successfully
used if that IP is still present in the DNS response.
Otherwise, randomly select an IP address from the list of
IPs provided by the DNS system.
This commit fixes#3494.
With few exceptions, servers will typically receive multiple copies
of any given message from its directly connected peers. For servers
with several peers this can impact the processing latency and force
it to do redundant work. Proposal and validation messages are often
relayed with extremely high redundancy.
This commit, if merged, introduces experimental code that attempts
to optimize the relaying of proposals and validations by allowing
servers to instruct their peers to "squelch" delivery of selected
proposals and validations. Servers making squelching decisions by
a process that evaluates the fitness and performance of a given
server and randomly selecting a subset of the best candidates.
The experimental code is presently disabled and must be explicitly
enabled by server operators that wish to test it.
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
