The digest for a transaction (its transaction ID, or tid) is
computed once upon constructed when the STTx is deserialized.
Subsequent calls to retrieve the digest use the cached value.
Any code which modifies the STTx and then attempts to
retrieve the digest will terminate the process with a
logic error contract violation.
* Nested types removed
* All STTx are contained as const
(Except in transaction sign, which must modify)
* tid in STTx is computed once on deserialization
* All checks flow through ripple::checkValidity, which transparently caches result flags.
* All external transaction submission code paths use checkValidity.
* SF_SIGGOOD flag no longer appears outside of HashRouter / checkValidity.
* Validity can be forced in known or trusted scenarios.
* Remove ripple::RippleMutex and ripple::RippleRecursiveMutex
and use std::mutex and std::recursive_mutex respectively.
* Use std::lock_guard instead of std::unique_lock when the
additional features of std::unique_lock are not needed.
Randomize the initial transaction execution order for closed
ledgers based on the hash of the consensus set. Transaction
processing change will take effect October 27, 2015 at
11:00 AM Pacific time.
The server's open ledger is now an instance of the OpenView
class, managed by an instance of the OpenLedger class. This
should improve the performance of operations on open ledgers
because they are no longer Ledger/SHAMap operation.
Eventually multisign will need to be enabled onto the network, at
which point compiling it in or out will no longer be an option.
In preparation, the compile guards are removed and multisign is
being enabled with a Feature.
You can locally enable a Feature using your config file. To
enable multisign with your config file add a section like this:
[features]
MultiSign
The exact spelling and capitalization of both "features" and
"MultiSign" is important. If you don't get those right multisign
will not be enabled.
There is a minor issue. The "sign_for" and "submit_multisigned"
RPC commands are only enabled if multisign is enabled. However
those commands are still shown in the help message even if
multisign is disabled. This is because the code that produces
the help message doesn't read the config file (where the Features
are kept). This problem will become irrelevant once multisign is
enabled onto the network.
* Consider ledgers incompatible based on last valid ledger
* Test against even ledgers not acquired yet
* Don't validate an incompatible ledger
* Don't switch to an incompatible ledger
* Protect against an unreasonably small quorum
* Remove ltCURRENT
* Change getOwnerInfo
* Use ReadView in TransactionSign
* Change AcceptedLedger and ProposedTransaction to use ReadView
* Change RPC::accounts
An instance of Rules provides information on the tx
processing rules in a particular ledger.
* OpenView allows rules to be set on construction.
Conflicts:
src/ripple/unity/ledger.cpp
This implements the tracking of when an amendment achieved a majority
in the ledger, ensuring that there's always network-wide agreement
on which amendments have achieved a majority and how long they've
held it.
* New fields
* Change transactor changes
* AmendmentTable API and implementation changes
* Update amendment enabled status on validated ledgers
* Reinstate support for ledger sequence in fee transactions
The View hierarchy of classes is reorganized to include new
classes with member functions moved and renamed, to solve
defects in the original design:
OpenView accumulates raw state and tx changes and
can be applied to the base. ApplyView accumulates changes
for a single transaction, including metadata, and can be
applied to an OpenView. The Sandbox allows changes with
the option to apply or throw them out. The PaymentSandbox
provides a sandbox with account credit deferral.
Call sites are changed to use the class appropriate for
the task.
The OpenLedger class encapsulates the functionality of
maintaining the open ledger. It uses an OpenView with the
last closed ledger as its base. Routines are provided to
modify the open ledger to add new transactions, and to
accept a new last closed ledger. Business logic for
performing transaction retries is rewritten to fit this
framework and used in the implementation of accept.
When the RIPPLE_OPEN_LEDGER macro is set to 1 (BeastConfig.h),
the global Application OpenLedger singleton maintains
its open ledger in parallel by applying new transactions
and accepting new last closed ledgers. In the current
implementation this does not affect transaction processing
but logs any differences in the results as compared to
the original code.
Logging shows an occasional mismatch in what the OpenLedger
builds versus the original code, usually an OfferCreate
which gets a terINSUF_RESERVE instead of tesSUCCESS.
When the last closed ledger jumps, transactions from the
old open ledger and local transactions need to be applied
to the new open ledger or else transactions could get lost
locally (but still relayed, and therefore make it into a ledger).
A harmful effect is that rippled will report that the transaction
was not applied even when it was, making robust transaction
submission malfunction.
