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https://github.com/XRPLF/rippled.git
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8483115637
- Add the LendingProtocol amendment
- Add Loan Broker and Loan ledger objects:
- Also add new SFields, Keylet functions, and an Invariant to verify no
illegal field modification
- Update list of "constant" fields from spec
- Also add a general check for all object types for the type and index
fields
- refactor: Check transaction flags in preflight0
- Adds a flagMask parameter to preflight1 so that it's impossible to
forget to check flags.
- Also adds a short hash prefix to all Transactor log messages.
- refactor: Generalize Transactor preflight:
- Derived classes no longer need to explicitly check amendments, nor
call into preflight1 or preflight2.
- implemeng LoanBrokerSet
- Transactions: LoanDelete, LoanManage, LoanDraw, LoanPay
- LoanBrokerSet creation mostly done. Need update.
- Also added a lookup table for pseudo account fields.
- Update changed field name.
- Modify modifiable fields in an update. Note there are only two.
- Add a node field to dirLink, defaulting sfOwnerNode, so other
relationships can be updated.
- Create some helper classes for transaction fields
- Test that they work by converting some of the existing classes
- Finish creating helper classes for JTx fields
- Also change the pseudo account field lookup to a function that uses
a switch
- Update tests, update pseudo-account checking
- Generalize some of the Invariant checks using macro files
- Valid ledger entry type
- Valid new account root and pseudo account check
- Enumerate transaction privileges for invariants
- Allows them to be defined in transactions.macro instead of needing to
scrutinize every existing Invariant class.
- List is not necessarily comprehensive, but does cover every check
where more than one transaction type is involved.
- Reserve a few values between Vault and Lending for future use
- Pseudo-account improvements
- Define pseudo-account fields with an sfield flag
- Pseudo-account invariant checks rules whenever a pseudo-account is
created or modified.
- Move some helper functions.
- Check the regular key in the pseudo-transaction invariant check.
- Transactor::checkSign will always fail for a pseudo-account, so even
if someone figures out how to get a good signature, it won't work.
- Fix account creation to check both amendments
- Add a validity range for sfDebtMaximum
- Change more "failed" messages. The goal here is to be able to search
the log for "failed" and ONLY get test failures.
- NoModifiedUnmodifiableFields and ValidPseudoAccounts
- Move the Invariants_test class into the test namespace
- Clang wants an explicit ctor to emplace in a vector
- Refactor: Add a Transactor base function to make it easier to get the
owner reserve increment as a fee.
- Refactor: Add an overload jtx::fee(increment) to pay an owner reserve.
- Initial implementation of LoanBrokerDelete
- Generalize the LoanBroker lifecycle test
- Refactor ApplyView::dirAdd to give access to low-level operations
- Takes a page from #5362, which may turn out to be useful!
- Start writing Loan Broker invariants and tests
- Specifically those mentioned for LoanBrokerDelete
- Move all detail namespaces to be under ripple
- Avoids problems with namespace collisions / ambiguous symbol issues
with unity builds, especially when adding or removing files.
- Add LoanBrokerCoverDeposit transaction
- Add LoanBrokerCoverWithdraw transaction
- Start writing tests for LoanBrokerCover*
- Add support for `Asset` and `MPTIssue` to some `jtx` helper classes
and functions (`balance`, `expectLine`)
- Add support for pseudo-accounts to `jtx::Account` by allowing directly
setting the AccountID without a matching key.
- Add Asset and MPTIssue support to more jtx objects / functions
- Unfortunately, to work around some ambiguous symbol compilation
errors, I had to change the implicit conversion from IOU to Asset to
a conversion from IOU to PrettyAsset, and add a more explicit
`asset()` function. This workaround only required changing two
existing tests, so seems acceptable.
- Ensure that an account is not deleted with an XRP balance
- Updates the AccountRootsDeletedClean invariant
- Finish up the Loan Broker tests
- Move inclusion of Transactor headers to transactions.macro
- Only need to update in one place when adding a new transaction.
- Start implementing LoanSet transactor
- Add some more values and functions to make it easier to work with
basis point values / bips.
- Fix several earlier mistakes.
- Generalize the check*Sign functions to support CounterParty
- checkSign, checkSingleSign, and checkMultiSign in STTx and Transactor
- Start writing Loan tests
- Required adding support for counterparty signature to jtx framework:
arbitrary signature field destination, multiple signer callbacks
- Get Counterparty signing working
- Add more LoanSet unit tests, added LoanBroker LoanSequence field
- LoanSequence will prevent loan key collisions
- Change Loan object indexing, fix several broken LoanSet unit tests
- Loan objects will now only be indexed by LoanBrokerID and
LoanSequence, which is a new field in LoanBroker. Also changes
Loan.Sequence to Loan.LoanSequence to match up.
- Several tests weren't working because of `PrettyAsset` scaling. Also,
`PrettyAsset` calculations could overflow. Made that less likely by
changing the type of `scale_`.
- LoanSet will fail if an account tries to loan to itself.
- Ensure that an account is not deleted with a non-zero owner count
- Updates the AccountRootsDeletedClean invariant
- Add unit tests to create a Loan successfully
- Fix a few field initializations in LoanSet
- Refactor issuance validity check in VaultCreate
- Utility function: canAddHolding
- Call canAddHolding from any transactor that call addEmptyHolding
(LoanBrokerSet, LoanSet)
- Start implementing LoanManage transaction
- Also add a ValidLoan invariant
- Finish `LoanManage` functionality and tests, modulo LoanDraw/Pay
- Allow existing trust lines to loan brokers to be managed (by issuer)
- Implement LoanDelete, and fix a bunch of math errors in LoanManage
- Update to match latest spec: compute interest, LoanBroker reserves
- refactor: Define getFlagsMask in the base Transactor class
- Returns tfUniversalMask for most transactors
- Only transactors that use other flags need to override
- Implement LoanDraw, and made good progress on related tests
- Start implementing LoanPay transaction
- Implement LoanPay
- Also add an XRPL_ASSERT2, which splits the parts of the assert message
so I don't have to remember the proper formatting.
261 lines
8.6 KiB
C++
261 lines
8.6 KiB
C++
//------------------------------------------------------------------------------
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/*
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This file is part of rippled: https://github.com/ripple/rippled
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Copyright (c) 2012, 2013 Ripple Labs Inc.
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Permission to use, copy, modify, and/or distribute this software for any
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purpose with or without fee is hereby granted, provided that the above
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copyright notice and this permission notice appear in all copies.
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THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
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WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
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MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
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ANY SPECIAL , DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
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WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
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ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
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OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
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*/
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//==============================================================================
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#ifndef RIPPLE_PROTOCOL_PROTOCOL_H_INCLUDED
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#define RIPPLE_PROTOCOL_PROTOCOL_H_INCLUDED
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#include <xrpl/basics/ByteUtilities.h>
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#include <xrpl/basics/base_uint.h>
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#include <xrpl/basics/partitioned_unordered_map.h>
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#include <xrpl/basics/safe_cast.h>
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#include <xrpl/protocol/Units.h>
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#include <cstdint>
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namespace ripple {
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/** Protocol specific constants.
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This information is, implicitly, part of the protocol.
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@note Changing these values without adding code to the
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server to detect "pre-change" and "post-change"
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will result in a hard fork.
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@ingroup protocol
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*/
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/** Smallest legal byte size of a transaction. */
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std::size_t constexpr txMinSizeBytes = 32;
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/** Largest legal byte size of a transaction. */
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std::size_t constexpr txMaxSizeBytes = megabytes(1);
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/** The maximum number of unfunded offers to delete at once */
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std::size_t constexpr unfundedOfferRemoveLimit = 1000;
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/** The maximum number of expired offers to delete at once */
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std::size_t constexpr expiredOfferRemoveLimit = 256;
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/** The maximum number of metadata entries allowed in one transaction */
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std::size_t constexpr oversizeMetaDataCap = 5200;
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/** The maximum number of entries per directory page */
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std::size_t constexpr dirNodeMaxEntries = 32;
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/** The maximum number of pages allowed in a directory */
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std::uint64_t constexpr dirNodeMaxPages = 262144;
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/** The maximum number of items in an NFT page */
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std::size_t constexpr dirMaxTokensPerPage = 32;
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/** The maximum number of owner directory entries for account to be deletable */
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std::size_t constexpr maxDeletableDirEntries = 1000;
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/** The maximum number of token offers that can be canceled at once */
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std::size_t constexpr maxTokenOfferCancelCount = 500;
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/** The maximum number of offers in an offer directory for NFT to be burnable */
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std::size_t constexpr maxDeletableTokenOfferEntries = 500;
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/** The maximum token transfer fee allowed.
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Token transfer fees can range from 0% to 50% and are specified in tenths of
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a basis point; that is a value of 1000 represents a transfer fee of 1% and
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a value of 10000 represents a transfer fee of 10%.
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Note that for extremely low transfer fees values, it is possible that the
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calculated fee will be 0.
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*/
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std::uint16_t constexpr maxTransferFee = 50000;
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/** There are 10,000 basis points (bips) in 100%.
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*
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* Basis points represent 0.01%.
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*
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* Given a value X, to find the amount for B bps,
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* use X * B / bipsPerUnity
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*
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* Example: If a loan broker has 999 XRP of debt, and must maintain 1,000 bps of
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* that debt as cover (10%), then the minimum cover amount is 999,000,000 drops
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* * 1000 / bipsPerUnity = 99,900,00 drops or 99.9 XRP.
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*
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* Given a percentage P, to find the number of bps that percentage represents,
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* use P * bipsPerUnity.
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*
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* Example: 50% is 0.50 * bipsPerUnity = 5,000 bps.
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*/
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Bips32 constexpr bipsPerUnity(100 * 100);
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TenthBips32 constexpr tenthBipsPerUnity(bipsPerUnity.value() * 10);
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constexpr Bips32
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percentageToBips(std::uint32_t percentage)
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{
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return Bips32(percentage * bipsPerUnity.value() / 100);
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}
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constexpr TenthBips32
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percentageToTenthBips(std::uint32_t percentage)
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{
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return TenthBips32(percentage * tenthBipsPerUnity.value() / 100);
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}
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template <typename T, class TBips>
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constexpr T
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bipsOfValue(T value, Bips<TBips> bips)
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{
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return value * bips.value() / bipsPerUnity.value();
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}
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template <typename T, class TBips>
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constexpr T
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tenthBipsOfValue(T value, TenthBips<TBips> bips)
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{
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return value * bips.value() / tenthBipsPerUnity.value();
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}
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/** The maximum management fee rate allowed by a loan broker in 1/10 bips.
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Valid values are between 0 and 10% inclusive.
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*/
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TenthBips16 constexpr maxManagementFeeRate(
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unsafe_cast<std::uint16_t>(percentageToTenthBips(10).value()));
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static_assert(maxManagementFeeRate == TenthBips16(std::uint16_t(10'000u)));
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/** The maximum coverage rate required of a loan broker in 1/10 bips.
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Valid values are between 0 and 100% inclusive.
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*/
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TenthBips32 constexpr maxCoverRate = percentageToTenthBips(100);
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static_assert(maxCoverRate == TenthBips32(100'000u));
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/** The maximum overpayment fee on a loan in 1/10 bips.
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*
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Valid values are between 0 and 100% inclusive.
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*/
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TenthBips32 constexpr maxOverpaymentFee = percentageToTenthBips(100);
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/** The maximum premium added to the interest rate for late payments on a loan
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* in 1/10 bips.
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*
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* Valid values are between 0 and 100% inclusive.
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*/
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TenthBips32 constexpr maxLateInterestRate = percentageToTenthBips(100);
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/** The maximum close interest rate charged for repaying a loan early in 1/10
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* bips.
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*
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* Valid values are between 0 and 100% inclusive.
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*/
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TenthBips32 constexpr maxCloseInterestRate = percentageToTenthBips(100);
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/** The maximum overpayment interest rate charged on loan overpayments in 1/10
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* bips.
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*
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* Valid values are between 0 and 100% inclusive.
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*/
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TenthBips32 constexpr maxOverpaymentInterestRate = percentageToTenthBips(100);
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/** The maximum length of a URI inside an NFT */
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std::size_t constexpr maxTokenURILength = 256;
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/** The maximum length of a Data element inside a DID */
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std::size_t constexpr maxDIDDocumentLength = 256;
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/** The maximum length of a URI inside a DID */
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std::size_t constexpr maxDIDURILength = 256;
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/** The maximum length of an Attestation inside a DID */
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std::size_t constexpr maxDIDAttestationLength = 256;
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/** The maximum length of a domain */
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std::size_t constexpr maxDomainLength = 256;
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/** The maximum length of a URI inside a Credential */
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std::size_t constexpr maxCredentialURILength = 256;
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/** The maximum length of a CredentialType inside a Credential */
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std::size_t constexpr maxCredentialTypeLength = 64;
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/** The maximum number of credentials can be passed in array */
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std::size_t constexpr maxCredentialsArraySize = 8;
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/** The maximum number of credentials can be passed in array for permissioned
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* domain */
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std::size_t constexpr maxPermissionedDomainCredentialsArraySize = 10;
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/** The maximum length of MPTokenMetadata */
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std::size_t constexpr maxMPTokenMetadataLength = 1024;
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/** The maximum amount of MPTokenIssuance */
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std::uint64_t constexpr maxMPTokenAmount = 0x7FFF'FFFF'FFFF'FFFFull;
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/** The maximum length of Data payload */
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std::size_t constexpr maxDataPayloadLength = 256;
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/** Vault withdrawal policies */
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std::uint8_t constexpr vaultStrategyFirstComeFirstServe = 1;
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/** Maximum recursion depth for vault shares being put as an asset inside
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* another vault; counted from 0 */
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std::uint8_t constexpr maxAssetCheckDepth = 5;
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/** A ledger index. */
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using LedgerIndex = std::uint32_t;
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/** A transaction identifier.
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The value is computed as the hash of the
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canonicalized, serialized transaction object.
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*/
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using TxID = uint256;
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/** The maximum number of trustlines to delete as part of AMM account
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* deletion cleanup.
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*/
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std::uint16_t constexpr maxDeletableAMMTrustLines = 512;
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/** The maximum length of a URI inside an Oracle */
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std::size_t constexpr maxOracleURI = 256;
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/** The maximum length of a Provider inside an Oracle */
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std::size_t constexpr maxOracleProvider = 256;
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/** The maximum size of a data series array inside an Oracle */
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std::size_t constexpr maxOracleDataSeries = 10;
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/** The maximum length of a SymbolClass inside an Oracle */
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std::size_t constexpr maxOracleSymbolClass = 16;
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/** The maximum allowed time difference between lastUpdateTime and the time
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of the last closed ledger
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*/
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std::size_t constexpr maxLastUpdateTimeDelta = 300;
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/** The maximum price scaling factor
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*/
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std::size_t constexpr maxPriceScale = 20;
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/** The maximum percentage of outliers to trim
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*/
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std::size_t constexpr maxTrim = 25;
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/** The maximum number of delegate permissions an account can grant
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*/
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std::size_t constexpr permissionMaxSize = 10;
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} // namespace ripple
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#endif
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