Add a `NetworkID` field to help prevent replay attacks on and from
side-chains.
The new field must be used when the server is using a network id > 1024.
To preserve legacy behavior, all chains with a network ID less than 1025
retain the existing behavior. This includes Mainnet, Testnet, Devnet,
and hooks-testnet. If `sfNetworkID` is present in any transaction
submitted to any of the nodes on one of these chains, then
`telNETWORK_ID_MAKES_TX_NON_CANONICAL` is returned.
Since chains with a network ID less than 1025, including Mainnet, retain
the existing behavior, there is no need for an amendment.
The `NetworkID` helps to prevent replay attacks because users specify a
`NetworkID` field in every transaction for that chain.
This change introduces a new UINT32 field, `sfNetworkID` ("NetworkID").
There are also three new local error codes for transaction results:
- `telNETWORK_ID_MAKES_TX_NON_CANONICAL`
- `telREQUIRES_NETWORK_ID`
- `telWRONG_NETWORK`
To learn about the other transaction result codes, see:
https://xrpl.org/transaction-results.html
Local error codes were chosen because a transaction is not necessarily
malformed if it is submitted to a node running on the incorrect chain.
This is a local error specific to that node and could be corrected by
switching to a different node or by changing the `network_id` on that
node. See:
https://xrpl.org/connect-your-rippled-to-the-xrp-test-net.html
In addition to using `NetworkID`, it is still generally recommended to
use different accounts and keys on side-chains. However, people will
undoubtedly use the same keys on multiple chains; for example, this is
common practice on other blockchain networks. There are also some
legitimate use cases for this.
A `app.NetworkID` test suite has been added, and `core.Config` was
updated to include some network_id tests.
The `Ledger` class contains two `SHAMap` instances: the state and
transaction maps. Previously, the maps were dynamically allocated using
`std::make_shared` despite the fact that they did not require lifetime
management separate from the lifetime of the `Ledger` instance to which
they belong.
The two `SHAMap` instances are now regular member variables. Some smart
pointers and dynamic memory allocation was avoided by using stack-based
alternatives.
Commit 3 of 3 in #4218.
The `SHAMapItem` class contains a variable-sized buffer that
holds the serialized data associated with a particular item
inside a `SHAMap`.
Prior to this commit, the buffer for the serialized data was
allocated separately. Coupled with the fact that most instances
of `SHAMapItem` were wrapped around a `std::shared_ptr` meant
that an instantiation might result in up to three separate
memory allocations.
This commit switches away from `std::shared_ptr` for `SHAMapItem`
and uses `boost::intrusive_ptr` instead, allowing the reference
count for an instance to live inside the instance itself. Coupled
with using a slab-based allocator to optimize memory allocation
for the most commonly sized buffers, the net result is significant
memory savings. In testing, the reduction in memory usage hovers
between 400MB and 650MB. Other scenarios might result in larger
savings.
In performance testing with NFTs, this commit reduces memory size by
about 15% sustained over long duration.
Commit 2 of 3 in #4218.
When instantiating a large amount of fixed-sized objects on the heap
the overhead that dynamic memory allocation APIs impose will quickly
become significant.
In some cases, allocating a large amount of memory at once and using
a slabbing allocator to carve the large block into fixed-sized units
that are used to service requests for memory out will help to reduce
memory fragmentation significantly and, potentially, improve overall
performance.
This commit introduces a new `SlabAllocator<>` class that exposes an
API that is _similar_ to the C++ concept of an `Allocator` but it is
not meant to be a general-purpose allocator.
It should not be used unless profiling and analysis of specific memory
allocation patterns indicates that the additional complexity introduced
will improve the performance of the system overall, and subsequent
profiling proves it.
A helper class, `SlabAllocatorSet<>` simplifies handling of variably
sized objects that benefit from slab allocations.
This commit incorporates improvements suggested by Greg Popovitch
(@greg7mdp).
Commit 1 of 3 in #4218.
Add Clio-specific JSS constants to ensure a common vocabulary of
keywords in Clio and this project. By providing visibility of the full
API keyword namespace, it reduces the likelihood of developers
introducing minor variations on names used by Clio, or unknowingly
claiming a keyword that Clio has already claimed. This change moves this
project slightly away from having only the code necessary for running
the core server, but it is a step toward the goal of keeping this
server's and Clio's APIs similar. The added JSS constants are annotated
to indicate their relevance to Clio.
Clio can be found here: https://github.com/XRPLF/clio
Signed-off-by: ledhed2222 <ledhed2222@users.noreply.github.com>
fixXahauV2
* refactor tsh
* add uritoken mint/cancel tsh
* add flags to hookexections meta and nonce to hookemissions meta
Co-authored-by: Richard Holland <richard.holland@starstone.co.nz>
* add features to `server_definitions`
* clang-format
* Update RPCCall.cpp
* only return features without params
* clang-format
* include features in hashed value
* clang-format
* rework features addition to server_defintions to be cached at flag ledgers
* fix clang, duplicate hash key
---------
Co-authored-by: Richard Holland <richard.holland@starstone.co.nz>
* modify the way server_version int is built to include build number
* clang
* Update BuildInfo_test.cpp
* clang-format
* Update BuildInfo_test.cpp
* clang-format
* Update BuildInfo_test.cpp
---------
Co-authored-by: Denis Angell <dangell@transia.co>
