ARCHIVE/rippled
1
0
Fork 0
mirror of https://github.com/XRPLF/rippled.git synced 2025-11-18 18:15:50 +00:00
Code Issues Packages Projects Releases Wiki Activity
Files
5656f83290d8539ec27806bdcc8cc78e5aa77f2f
rippled/include/xrpl/protocol/XRPAmount.h
Ed Hennis 8483115637 Lending protocol implementation (XLS-0066) 
- 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.
2025-05-14 15:28:42 +01:00

312 lines
7.3 KiB
C++
Raw Blame History

//------------------------------------------------------------------------------
/*
This file is part of rippled: https://github.com/ripple/rippled
Copyright (c) 2012, 2013 Ripple Labs Inc.
Permission to use, copy, modify, and/or distribute this software for any
purpose with or without fee is hereby granted, provided that the above
copyright notice and this permission notice appear in all copies.
THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
ANY SPECIAL , DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
//==============================================================================
#ifndef RIPPLE_PROTOCOL_XRPAMOUNT_H_INCLUDED
#define RIPPLE_PROTOCOL_XRPAMOUNT_H_INCLUDED
#include <xrpl/basics/Number.h>
#include <xrpl/basics/contract.h>
#include <xrpl/beast/utility/Zero.h>
#include <xrpl/json/json_value.h>
#include <xrpl/protocol/Units.h>
#include <boost/multiprecision/cpp_int.hpp>
#include <boost/operators.hpp>
#include <cstdint>
#include <optional>
#include <string>
#include <type_traits>
namespace ripple {
class XRPAmount : private boost::totally_ordered<XRPAmount>,
private boost::additive<XRPAmount>,
private boost::equality_comparable<XRPAmount, std::int64_t>,
private boost::additive<XRPAmount, std::int64_t>
{
public:
using unit_type = unit::dropTag;
using value_type = std::int64_t;
private:
value_type drops_;
public:
XRPAmount() = default;
constexpr XRPAmount(XRPAmount const& other) = default;
constexpr XRPAmount&
operator=(XRPAmount const& other) = default;
// Round to nearest, even on tie.
explicit XRPAmount(Number const& x) : XRPAmount(static_cast<value_type>(x))
{
}
constexpr XRPAmount(beast::Zero) : drops_(0)
{
}
constexpr XRPAmount&
operator=(beast::Zero)
{
drops_ = 0;
return *this;
}
constexpr explicit XRPAmount(value_type drops) : drops_(drops)
{
}
XRPAmount&
operator=(value_type drops)
{
drops_ = drops;
return *this;
}
constexpr XRPAmount
operator*(value_type const& rhs) const
{
return XRPAmount{drops_ * rhs};
}
friend constexpr XRPAmount
operator*(value_type lhs, XRPAmount const& rhs)
{
// multiplication is commutative
return rhs * lhs;
}
XRPAmount&
operator+=(XRPAmount const& other)
{
drops_ += other.drops();
return *this;
}
XRPAmount&
operator-=(XRPAmount const& other)
{
drops_ -= other.drops();
return *this;
}
XRPAmount&
operator+=(value_type const& rhs)
{
drops_ += rhs;
return *this;
}
XRPAmount&
operator-=(value_type const& rhs)
{
drops_ -= rhs;
return *this;
}
XRPAmount&
operator*=(value_type const& rhs)
{
drops_ *= rhs;
return *this;
}
XRPAmount
operator-() const
{
return XRPAmount{-drops_};
}
bool
operator==(XRPAmount const& other) const
{
return drops_ == other.drops_;
}
bool
operator==(value_type other) const
{
return drops_ == other;
}
bool
operator<(XRPAmount const& other) const
{
return drops_ < other.drops_;
}
/** Returns true if the amount is not zero */
explicit constexpr
operator bool() const noexcept
{
return drops_ != 0;
}
operator Number() const noexcept
{
return drops();
}
/** Return the sign of the amount */
constexpr int
signum() const noexcept
{
return (drops_ < 0) ? -1 : (drops_ ? 1 : 0);
}
/** Returns the number of drops */
constexpr value_type
drops() const
{
return drops_;
}
constexpr double
decimalXRP() const;
template <class Dest>
std::optional<Dest>
dropsAs() const
{
if ((drops_ > std::numeric_limits<Dest>::max()) ||
(!std::numeric_limits<Dest>::is_signed && drops_ < 0) ||
(std::numeric_limits<Dest>::is_signed &&
drops_ < std::numeric_limits<Dest>::lowest()))
{
return std::nullopt;
}
return static_cast<Dest>(drops_);
}
template <class Dest>
Dest
dropsAs(Dest defaultValue) const
{
return dropsAs<Dest>().value_or(defaultValue);
}
template <class Dest>
Dest
dropsAs(XRPAmount defaultValue) const
{
return dropsAs<Dest>().value_or(defaultValue.drops());
}
/* Clips a 64-bit value to a 32-bit JSON number. It is only used
* in contexts that don't expect the value to ever approach
* the 32-bit limits (i.e. fees and reserves).
*/
Json::Value
jsonClipped() const
{
static_assert(
std::is_signed_v<value_type> && std::is_integral_v<value_type>,
"Expected XRPAmount to be a signed integral type");
constexpr auto min = std::numeric_limits<Json::Int>::min();
constexpr auto max = std::numeric_limits<Json::Int>::max();
if (drops_ < min)
return min;
if (drops_ > max)
return max;
return static_cast<Json::Int>(drops_);
}
/** Returns the underlying value. Code SHOULD NOT call this
function unless the type has been abstracted away,
e.g. in a templated function.
*/
constexpr value_type
value() const
{
return drops_;
}
friend std::istream&
operator>>(std::istream& s, XRPAmount& val)
{
s >> val.drops_;
return s;
}
static XRPAmount
minPositiveAmount()
{
return XRPAmount{1};
}
};
/** Number of drops per 1 XRP */
constexpr XRPAmount DROPS_PER_XRP{1'000'000};
constexpr double
XRPAmount::decimalXRP() const
{
return static_cast<double>(drops_) / DROPS_PER_XRP.drops();
}
// Output XRPAmount as just the drops value.
template <class Char, class Traits>
std::basic_ostream<Char, Traits>&
operator<<(std::basic_ostream<Char, Traits>& os, XRPAmount const& q)
{
return os << q.drops();
}
inline std::string
to_string(XRPAmount const& amount)
{
return std::to_string(amount.drops());
}
inline XRPAmount
mulRatio(
XRPAmount const& amt,
std::uint32_t num,
std::uint32_t den,
bool roundUp)
{
using namespace boost::multiprecision;
if (!den)
Throw<std::runtime_error>("division by zero");
int128_t const amt128(amt.drops());
auto const neg = amt.drops() < 0;
auto const m = amt128 * num;
auto r = m / den;
if (m % den)
{
if (!neg && roundUp)
r += 1;
if (neg && !roundUp)
r -= 1;
}
if (r > std::numeric_limits<XRPAmount::value_type>::max())
Throw<std::overflow_error>("XRP mulRatio overflow");
return XRPAmount(r.convert_to<XRPAmount::value_type>());
}
} // namespace ripple
#endif // RIPPLE_BASICS_XRPAMOUNT_H_INCLUDED
Reference in New Issue View Git Blame Copy Permalink