;; stableswap-pool-usdh-usdcx-v-1-1
;; Implement Stableswap pool trait and use SIP 010 trait
(impl-trait .stableswap-pool-trait-v-1-4.stableswap-pool-trait)
(use-trait sip-010-trait .sip-010-trait-ft-standard-v-1-1.sip-010-trait)
;; Define fungible pool token
(define-fungible-token pool-token)
;; Error constants
(define-constant ERR_NOT_AUTHORIZED_SIP_010 (err u4))
(define-constant ERR_INVALID_PRINCIPAL_SIP_010 (err u5))
(define-constant ERR_NOT_AUTHORIZED (err u3001))
(define-constant ERR_INVALID_AMOUNT (err u3002))
(define-constant ERR_INVALID_PRINCIPAL (err u3003))
(define-constant ERR_POOL_NOT_CREATED (err u3004))
(define-constant ERR_POOL_DISABLED (err u3005))
(define-constant ERR_NOT_POOL_CONTRACT_DEPLOYER (err u3006))
;; Stableswap Core address and contract deployer address
(define-constant CORE_ADDRESS .stableswap-core-v-1-4)
(define-constant CONTRACT_DEPLOYER tx-sender)
;; Define all pool data vars
(define-data-var pool-id uint u0)
(define-data-var pool-name (string-ascii 32) "")
(define-data-var pool-symbol (string-ascii 32) "")
(define-data-var pool-uri (string-utf8 256) u"")
(define-data-var pool-created bool false)
(define-data-var creation-height uint u0)
(define-data-var pool-status bool false)
(define-data-var midpoint-manager principal tx-sender)
(define-data-var fee-address principal tx-sender)
(define-data-var x-token principal tx-sender)
(define-data-var y-token principal tx-sender)
(define-data-var x-balance uint u0)
(define-data-var y-balance uint u0)
(define-data-var d uint u0)
(define-data-var midpoint-primary-numerator uint u0)
(define-data-var midpoint-primary-denominator uint u0)
(define-data-var midpoint-withdraw-numerator uint u0)
(define-data-var midpoint-withdraw-denominator uint u0)
(define-data-var x-protocol-fee uint u0)
(define-data-var x-provider-fee uint u0)
(define-data-var y-protocol-fee uint u0)
(define-data-var y-provider-fee uint u0)
(define-data-var liquidity-fee uint u0)
(define-data-var amplification-coefficient uint u0)
(define-data-var convergence-threshold uint u2)
(define-data-var imbalanced-withdraws bool false)
(define-data-var last-midpoint-update uint u0)
(define-data-var withdraw-cooldown uint u0)
(define-data-var freeze-midpoint-manager bool false)
;; SIP 010 function to get token name
(define-read-only (get-name)
(ok (var-get pool-name))
)
;; SIP 010 function to get token symbol
(define-read-only (get-symbol)
(ok (var-get pool-symbol))
)
;; SIP 010 function to get token decimals
(define-read-only (get-decimals)
(ok u6)
)
;; SIP 010 function to get token uri
(define-read-only (get-token-uri)
(ok (some (var-get pool-uri)))
)
;; SIP 010 function to get total token supply
(define-read-only (get-total-supply)
(ok (ft-get-supply pool-token))
)
;; SIP 010 function to get token balance for an address
(define-read-only (get-balance (address principal))
(ok (ft-get-balance pool-token address))
)
;; Get all pool data
(define-read-only (get-pool)
(ok {
pool-id: (var-get pool-id),
pool-name: (var-get pool-name),
pool-symbol: (var-get pool-symbol),
pool-uri: (var-get pool-uri),
pool-created: (var-get pool-created),
creation-height: (var-get creation-height),
pool-status: (var-get pool-status),
core-address: CORE_ADDRESS,
midpoint-manager: (var-get midpoint-manager),
fee-address: (var-get fee-address),
x-token: (var-get x-token),
y-token: (var-get y-token),
pool-token: (as-contract tx-sender),
x-balance: (var-get x-balance),
y-balance: (var-get y-balance),
d: (var-get d),
midpoint-primary-numerator: (var-get midpoint-primary-numerator),
midpoint-primary-denominator: (var-get midpoint-primary-denominator),
midpoint-withdraw-numerator: (var-get midpoint-withdraw-numerator),
midpoint-withdraw-denominator: (var-get midpoint-withdraw-denominator),
total-shares: (ft-get-supply pool-token),
x-protocol-fee: (var-get x-protocol-fee),
x-provider-fee: (var-get x-provider-fee),
y-protocol-fee: (var-get y-protocol-fee),
y-provider-fee: (var-get y-provider-fee),
liquidity-fee: (var-get liquidity-fee),
amplification-coefficient: (var-get amplification-coefficient),
convergence-threshold: (var-get convergence-threshold),
imbalanced-withdraws: (var-get imbalanced-withdraws),
last-midpoint-update: (var-get last-midpoint-update),
withdraw-cooldown: (var-get withdraw-cooldown),
freeze-midpoint-manager: (var-get freeze-midpoint-manager)
})
)
;; Set pool uri via Stableswap Core
(define-public (set-pool-uri (uri (string-utf8 256)))
(let (
(caller contract-caller)
)
(begin
;; Assert that caller is core address before setting var
(asserts! (is-eq caller CORE_ADDRESS) ERR_NOT_AUTHORIZED)
(var-set pool-uri uri)
(ok true)
)
)
)
;; Set pool status via Stableswap Core
(define-public (set-pool-status (status bool))
(let (
(caller contract-caller)
)
(begin
;; Assert that caller is core address before setting var
(asserts! (is-eq caller CORE_ADDRESS) ERR_NOT_AUTHORIZED)
(var-set pool-status status)
(ok true)
)
)
)
;; Set midpoint manager via Stableswap Core
(define-public (set-midpoint-manager (manager principal))
(let (
(caller contract-caller)
)
(begin
;; Assert that caller is core address before setting var
(asserts! (is-eq caller CORE_ADDRESS) ERR_NOT_AUTHORIZED)
(var-set midpoint-manager manager)
(ok true)
)
)
)
;; Set fee address via Stableswap Core
(define-public (set-fee-address (address principal))
(let (
(caller contract-caller)
)
(begin
;; Assert that caller is core address before setting var
(asserts! (is-eq caller CORE_ADDRESS) ERR_NOT_AUTHORIZED)
(var-set fee-address address)
(ok true)
)
)
)
;; Set midpoint via Stableswap Core
(define-public (set-midpoint
(primary-numerator uint) (primary-denominator uint)
(withdraw-numerator uint) (withdraw-denominator uint)
)
(let (
(caller contract-caller)
)
(begin
;; Assert that caller is core address before setting vars
(asserts! (is-eq caller CORE_ADDRESS) ERR_NOT_AUTHORIZED)
(var-set midpoint-primary-numerator primary-numerator)
(var-set midpoint-primary-denominator primary-denominator)
(var-set midpoint-withdraw-numerator withdraw-numerator)
(var-set midpoint-withdraw-denominator withdraw-denominator)
(var-set last-midpoint-update stacks-block-height)
(ok true)
)
)
)
;; Set x fees via Stableswap Core
(define-public (set-x-fees (protocol-fee uint) (provider-fee uint))
(let (
(caller contract-caller)
)
(begin
;; Assert that caller is core address before setting vars
(asserts! (is-eq caller CORE_ADDRESS) ERR_NOT_AUTHORIZED)
(var-set x-protocol-fee protocol-fee)
(var-set x-provider-fee provider-fee)
(ok true)
)
)
)
;; Set y fees via Stableswap Core
(define-public (set-y-fees (protocol-fee uint) (provider-fee uint))
(let (
(caller contract-caller)
)
(begin
;; Assert that caller is core address before setting vars
(asserts! (is-eq caller CORE_ADDRESS) ERR_NOT_AUTHORIZED)
(var-set y-protocol-fee protocol-fee)
(var-set y-provider-fee provider-fee)
(ok true)
)
)
)
;; Set liquidity fee via Stableswap Core
(define-public (set-liquidity-fee (fee uint))
(let (
(caller contract-caller)
)
(begin
;; Assert that caller is core address before setting var
(asserts! (is-eq caller CORE_ADDRESS) ERR_NOT_AUTHORIZED)
(var-set liquidity-fee fee)
(ok true)
)
)
)
;; Set amplification coefficient via Stableswap Core
(define-public (set-amplification-coefficient (coefficient uint))
(let (
(caller contract-caller)
)
(begin
;; Assert that caller is core address before setting var
(asserts! (is-eq caller CORE_ADDRESS) ERR_NOT_AUTHORIZED)
(var-set amplification-coefficient coefficient)
(ok true)
)
)
)
;; Set convergence threshold via Stableswap Core
(define-public (set-convergence-threshold (threshold uint))
(let (
(caller contract-caller)
)
(begin
;; Assert that caller is core address before setting var
(asserts! (is-eq caller CORE_ADDRESS) ERR_NOT_AUTHORIZED)
(var-set convergence-threshold threshold)
(ok true)
)
)
)
;; Set imbalanced withdraws via Stableswap Core
(define-public (set-imbalanced-withdraws (status bool))
(let (
(caller contract-caller)
)
(begin
;; Assert that caller is core address before setting var
(asserts! (is-eq caller CORE_ADDRESS) ERR_NOT_AUTHORIZED)
(var-set imbalanced-withdraws status)
(ok true)
)
)
)
;; Set withdraw cooldown via Stableswap Core
(define-public (set-withdraw-cooldown (cooldown uint))
(let (
(caller contract-caller)
)
(begin
;; Assert that caller is core address before setting var
(asserts! (is-eq caller CORE_ADDRESS) ERR_NOT_AUTHORIZED)
(var-set withdraw-cooldown cooldown)
(ok true)
)
)
)
;; Set freeze midpoint manager via Stableswap Core
(define-public (set-freeze-midpoint-manager)
(let (
(caller contract-caller)
)
(begin
;; Assert that caller is core address before setting var
(asserts! (is-eq caller CORE_ADDRESS) ERR_NOT_AUTHORIZED)
(var-set freeze-midpoint-manager true)
(ok true)
)
)
)
;; Update pool balances and d value via Stableswap Core
(define-public (update-pool-balances (x-bal uint) (y-bal uint) (d-val uint))
(let (
(caller contract-caller)
)
(begin
;; Assert that caller is core address before setting vars
(asserts! (is-eq caller CORE_ADDRESS) ERR_NOT_AUTHORIZED)
(var-set x-balance x-bal)
(var-set y-balance y-bal)
(var-set d d-val)
;; Print function data and return true
(print {action: "update-pool-balances", data: {x-balance: x-bal, y-balance: y-bal, d: d-val}})
(ok true)
)
)
)
;; SIP 010 transfer function that transfers pool token
(define-public (transfer
(amount uint)
(sender principal) (recipient principal)
(memo (optional (buff 34)))
)
(let (
(caller tx-sender)
)
(begin
;; Assert that caller is sender and addresses are standard principals
(asserts! (is-eq caller sender) ERR_NOT_AUTHORIZED_SIP_010)
(asserts! (is-standard sender) ERR_INVALID_PRINCIPAL_SIP_010)
(asserts! (is-standard recipient) ERR_INVALID_PRINCIPAL_SIP_010)
;; Try performing a pool token transfer and print memo
(try! (ft-transfer? pool-token amount sender recipient))
(match memo to-print (print to-print) 0x)
;; Print function data and return true
(print {
action: "transfer",
caller: caller,
data: {
sender: sender,
recipient: recipient,
amount: amount,
memo: memo
}
})
(ok true)
)
)
)
;; Transfer tokens from this pool contract via Stableswap Core
(define-public (pool-transfer (token-trait <sip-010-trait>) (amount uint) (recipient principal))
(let (
(token-contract (contract-of token-trait))
(caller contract-caller)
)
(begin
;; Assert that caller is core address before transferring tokens
(asserts! (is-eq caller CORE_ADDRESS) ERR_NOT_AUTHORIZED)
;; Assert that token and recipient addresses are standard principals
(asserts! (is-standard token-contract) ERR_INVALID_PRINCIPAL)
(asserts! (is-standard recipient) ERR_INVALID_PRINCIPAL)
;; Assert that amount is greater than 0
(asserts! (> amount u0) ERR_INVALID_AMOUNT)
;; Try to transfer amount of token from pool contract to recipient
(try! (as-contract (contract-call? token-trait transfer amount tx-sender recipient none)))
;; Print function data and return true
(print {action: "pool-transfer", data: {token: token-contract, amount: amount, recipient: recipient}})
(ok true)
)
)
)
;; Mint pool token to an address via Stableswap Core
(define-public (pool-mint (amount uint) (address principal))
(let (
(caller contract-caller)
)
(begin
;; Assert that caller is core address before minting tokens
(asserts! (is-eq caller CORE_ADDRESS) ERR_NOT_AUTHORIZED)
;; Assert that address is standard principal and amount is greater than 0
(asserts! (is-standard address) ERR_INVALID_PRINCIPAL)
(asserts! (> amount u0) ERR_INVALID_AMOUNT)
;; Try to mint amount pool tokens to address
(try! (ft-mint? pool-token amount address))
;; Print function data and return true
(print {action: "pool-mint", data: {amount: amount, address: address}})
(ok true)
)
)
)
;; Burn pool token from an address via Stableswap Core
(define-public (pool-burn (amount uint) (address principal))
(let (
(caller contract-caller)
)
(begin
;; Assert that caller is core address before burning tokens
(asserts! (is-eq caller CORE_ADDRESS) ERR_NOT_AUTHORIZED)
;; Assert that address is standard principal and amount is greater than 0
(asserts! (is-standard address) ERR_INVALID_PRINCIPAL)
(asserts! (> amount u0) ERR_INVALID_AMOUNT)
;; Try to burn amount pool tokens from address
(try! (ft-burn? pool-token amount address))
;; Print function data and return true
(print {action: "pool-burn", data: {amount: amount, address: address}})
(ok true)
)
)
)
;; Create pool using this pool contract via Stableswap Core
(define-public (create-pool
(x-token-contract principal) (y-token-contract principal)
(midpoint-mgr principal) (fee-addr principal) (core-caller principal)
(coefficient uint)
(threshold uint)
(id uint)
(name (string-ascii 32)) (symbol (string-ascii 32))
(uri (string-utf8 256))
(status bool)
)
(let (
(caller contract-caller)
)
(begin
;; Assert that caller is core address and core caller is contract deployer before setting vars
(asserts! (is-eq caller CORE_ADDRESS) ERR_NOT_AUTHORIZED)
(asserts! (is-eq core-caller CONTRACT_DEPLOYER) ERR_NOT_POOL_CONTRACT_DEPLOYER)
(var-set pool-id id)
(var-set pool-name name)
(var-set pool-symbol symbol)
(var-set pool-uri uri)
(var-set pool-created true)
(var-set creation-height burn-block-height)
(var-set pool-status status)
(var-set x-token x-token-contract)
(var-set y-token y-token-contract)
(var-set midpoint-manager midpoint-mgr)
(var-set fee-address fee-addr)
(var-set amplification-coefficient coefficient)
(var-set convergence-threshold threshold)
(ok true)
)
)
)