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https://github.com/0glabs/0g-chain.git
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3375484f79
* Use cosmossdk.io/errors for deprecated error methods * Update error registration with cosmossdk.io/errors * Use cosmossdk.io/math for deprecated sdk.Int alias * Fix modified proto file * Update sdk.Int usage in swap hooks * Update e2e test deprecated method usage
140 lines
5.6 KiB
Go
140 lines
5.6 KiB
Go
package keeper
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import (
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"fmt"
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errorsmod "cosmossdk.io/errors"
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sdkmath "cosmossdk.io/math"
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sdk "github.com/cosmos/cosmos-sdk/types"
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"github.com/kava-labs/kava/x/swap/types"
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)
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// Deposit creates a new pool or adds liquidity to an existing pool. For a pool to be created, a pool
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// for the coin denominations must not exist yet, and it must be allowed by the swap module parameters.
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//
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// When adding liquidity to an existing pool, the provided coins are considered to be the desired deposit
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// amount, and the actual deposited coins may be less than or equal to the provided coins. A deposit
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// will never be exceed the coinA and coinB amounts.
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//
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// The slippage is calculated using both the price and inverse price of the provided coinA and coinB.
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// Since adding liquidity is not directional, like a swap would be, using both the price (coinB/coinA),
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// and the inverse price (coinA/coinB), protects the depositor from a large deviation in their deposit.
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//
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// The amount deposited may only change by B' < B or A' < A -- either B depreciates, or A depreciates.
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// Therefore, slippage can be written as a function of this depreciation d. Where the new price is
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// B*(1-d)/A or A*(1-d)/B, and the inverse of each, and is A/(B*(1-d)) and B/(A*(1-d))
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// respectively.
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//
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// Since 1/(1-d) >= (1-d) for d <= 1, the maximum slippage is always in the appreciating price
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// A/(B*(1-d)) and B/(A*(1-d)). In other words, when the price of an asset depreciates, the
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// inverse price -- or the price of the other pool asset, appreciates by a larger amount.
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// It's this percent change we calculate and compare to the slippage limit provided.
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//
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// For example, if we have a pool with 100e6 ukava and 400e6 usdx. The ukava price is 4 usdx and the
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// usdx price is 0.25 ukava. If a depositor adds liquidity of 4e6 ukava and 14e6 usdx, a kava price of
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// 3.50 usdx and a usdx price of 0.29 ukava. This is a -12.5% slippage is the ukava price, and a 14.3%
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// slippage in the usdx price.
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//
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// These slippages can be calculated by S_B = ((A/B')/(A/B) - 1) and S_A ((B/A')/(B/A) - 1), simplifying to
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// S_B = (A/A' - 1), and S_B = (B/B' - 1). An error is returned when max(S_A, S_B) > slippageLimit.
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func (k Keeper) Deposit(ctx sdk.Context, depositor sdk.AccAddress, coinA sdk.Coin, coinB sdk.Coin, slippageLimit sdk.Dec) error {
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desiredAmount := sdk.NewCoins(coinA, coinB)
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poolID := types.PoolIDFromCoins(desiredAmount)
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poolRecord, found := k.GetPool(ctx, poolID)
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var (
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pool *types.DenominatedPool
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depositAmount sdk.Coins
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shares sdkmath.Int
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err error
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)
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if found {
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pool, depositAmount, shares, err = k.addLiquidityToPool(ctx, poolRecord, depositor, desiredAmount)
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} else {
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pool, depositAmount, shares, err = k.initializePool(ctx, poolID, depositor, desiredAmount)
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}
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if err != nil {
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return err
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}
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if depositAmount.AmountOf(coinA.Denom).IsZero() || depositAmount.AmountOf(coinB.Denom).IsZero() {
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return errorsmod.Wrap(types.ErrInsufficientLiquidity, "deposit must be increased")
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}
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if shares.IsZero() {
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return errorsmod.Wrap(types.ErrInsufficientLiquidity, "deposit must be increased")
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}
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maxPercentPriceChange := sdk.MaxDec(
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sdk.NewDecFromInt(desiredAmount.AmountOf(coinA.Denom)).Quo(sdk.NewDecFromInt(depositAmount.AmountOf(coinA.Denom))),
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sdk.NewDecFromInt(desiredAmount.AmountOf(coinB.Denom)).Quo(sdk.NewDecFromInt(depositAmount.AmountOf(coinB.Denom))),
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)
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slippage := maxPercentPriceChange.Sub(sdk.OneDec())
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if slippage.GT(slippageLimit) {
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return errorsmod.Wrapf(types.ErrSlippageExceeded, "slippage %s > limit %s", slippage, slippageLimit)
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}
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k.updatePool(ctx, poolID, pool)
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if shareRecord, hasExistingShares := k.GetDepositorShares(ctx, depositor, poolID); hasExistingShares {
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k.BeforePoolDepositModified(ctx, poolID, depositor, shareRecord.SharesOwned)
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k.updateDepositorShares(ctx, depositor, poolID, shareRecord.SharesOwned.Add(shares))
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} else {
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k.updateDepositorShares(ctx, depositor, poolID, shares)
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k.AfterPoolDepositCreated(ctx, poolID, depositor, shares)
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}
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err = k.bankKeeper.SendCoinsFromAccountToModule(ctx, depositor, types.ModuleAccountName, depositAmount)
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if err != nil {
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return err
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}
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ctx.EventManager().EmitEvent(
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sdk.NewEvent(
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types.EventTypeSwapDeposit,
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sdk.NewAttribute(types.AttributeKeyPoolID, poolID),
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sdk.NewAttribute(types.AttributeKeyDepositor, depositor.String()),
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sdk.NewAttribute(sdk.AttributeKeyAmount, depositAmount.String()),
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sdk.NewAttribute(types.AttributeKeyShares, shares.String()),
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),
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)
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return nil
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}
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func (k Keeper) depositAllowed(ctx sdk.Context, poolID string) bool {
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params := k.GetParams(ctx)
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for _, p := range params.AllowedPools {
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if poolID == types.PoolID(p.TokenA, p.TokenB) {
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return true
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}
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}
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return false
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}
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func (k Keeper) initializePool(ctx sdk.Context, poolID string, depositor sdk.AccAddress, reserves sdk.Coins) (*types.DenominatedPool, sdk.Coins, sdkmath.Int, error) {
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if allowed := k.depositAllowed(ctx, poolID); !allowed {
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return nil, sdk.Coins{}, sdk.ZeroInt(), errorsmod.Wrap(types.ErrNotAllowed, fmt.Sprintf("can not create pool '%s'", poolID))
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}
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pool, err := types.NewDenominatedPool(reserves)
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if err != nil {
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return nil, sdk.Coins{}, sdk.ZeroInt(), err
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}
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return pool, pool.Reserves(), pool.TotalShares(), nil
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}
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func (k Keeper) addLiquidityToPool(ctx sdk.Context, record types.PoolRecord, depositor sdk.AccAddress, desiredAmount sdk.Coins) (*types.DenominatedPool, sdk.Coins, sdkmath.Int, error) {
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pool, err := types.NewDenominatedPoolWithExistingShares(record.Reserves(), record.TotalShares)
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if err != nil {
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return nil, sdk.Coins{}, sdk.ZeroInt(), err
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}
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depositAmount, shares := pool.AddLiquidity(desiredAmount)
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return pool, depositAmount, shares, nil
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}
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