Admin Controls
Pool Ownership¶
Pools created through the Factory are "owned" by the factory admin (DAO). Ownership can only be changed within the factory contract via commit_transfer_ownership and accept_transfer_ownership.
Amplification Coefficient / Gamma Admin Controls¶
More informations about the parameters here.
The appropriate value for A and gamma is dependent upon the type of coin being used within the pool, and is subject to optimisation and pool-parameter update based on the market history of the trading pair. It is possible to modify the parameters for a pool after it has been deployed. However, it requires a vote within the Curve DAO and must reach a 15% quorum.
ramp_A_gamma¶
CryptoSwap.ramp_A_gamma(future_A: uint256, future_gamma: uint256, future_time: uint256):
Guarded Method
This function is only callable by the admin of the Factory contract.
Function to ramp A and gamma parameter values linearly. A and gamma are packed within the same variable.
Emits: RampAgamma
| Input | Type | Description |
|---|---|---|
future_A | uint256 | future A value |
future_gamma | uint256 | future gamma value |
future_time | uint256 | timestamp at which the ramping will end |
Source code
event RampAgamma:
initial_A: uint256
future_A: uint256
initial_gamma: uint256
future_gamma: uint256
initial_time: uint256
future_time: uint256
@external
def ramp_A_gamma(
future_A: uint256, future_gamma: uint256, future_time: uint256
):
"""
@notice Initialise Ramping A and gamma parameter values linearly.
@dev Only accessible by factory admin, and only
@param future_A The future A value.
@param future_gamma The future gamma value.
@param future_time The timestamp at which the ramping will end.
"""
assert msg.sender == factory.admin() # dev: only owner
assert block.timestamp > self.initial_A_gamma_time + (MIN_RAMP_TIME - 1) # dev: ramp undergoing
assert future_time > block.timestamp + MIN_RAMP_TIME - 1 # dev: insufficient time
A_gamma: uint256[2] = self._A_gamma()
initial_A_gamma: uint256 = A_gamma[0] << 128
initial_A_gamma = initial_A_gamma | A_gamma[1]
assert future_A > MIN_A - 1
assert future_A < MAX_A + 1
assert future_gamma > MIN_GAMMA - 1
assert future_gamma < MAX_GAMMA + 1
ratio: uint256 = 10**18 * future_A / A_gamma[0]
assert ratio < 10**18 * MAX_A_CHANGE + 1
assert ratio > 10**18 / MAX_A_CHANGE - 1
ratio = 10**18 * future_gamma / A_gamma[1]
assert ratio < 10**18 * MAX_A_CHANGE + 1
assert ratio > 10**18 / MAX_A_CHANGE - 1
self.initial_A_gamma = initial_A_gamma
self.initial_A_gamma_time = block.timestamp
future_A_gamma: uint256 = future_A << 128
future_A_gamma = future_A_gamma | future_gamma
self.future_A_gamma_time = future_time
self.future_A_gamma = future_A_gamma
log RampAgamma(
A_gamma[0],
future_A,
A_gamma[1],
future_gamma,
block.timestamp,
future_time,
)
stop_ramp_A_gamma¶
CryptoSwap.stop_ramp_A_gamma():
Guarded Method
This function is only callable by the admin of the Factory contract.
Function to immediately stop ramping A and gamma parameters and set them to the current value.
Emits: StopRampA
Source code
event StopRampA:
current_A: uint256
current_gamma: uint256
time: uint256
@external
def stop_ramp_A_gamma():
"""
@notice Stop Ramping A and gamma parameters immediately.
@dev Only accessible by factory admin.
"""
assert msg.sender == factory.admin() # dev: only owner
A_gamma: uint256[2] = self._A_gamma()
current_A_gamma: uint256 = A_gamma[0] << 128
current_A_gamma = current_A_gamma | A_gamma[1]
self.initial_A_gamma = current_A_gamma
self.future_A_gamma = current_A_gamma
self.initial_A_gamma_time = block.timestamp
self.future_A_gamma_time = block.timestamp
# ------ Now (block.timestamp < t1) is always False, so we return saved A.
log StopRampA(A_gamma[0], A_gamma[1], block.timestamp)
Parameters¶
commit_new_parameters¶
CryptoSwap.commit_new_parameters(_new_mid_fee: uint256, _new_out_fee: uint256, _new_fee_gamma: uint256, _new_allowed_extra_profit: uint256, _new_adjustment_step: uint256, _new_ma_time: uint256):
Guarded Method
This function is only callable by the admin of the Factory contract.
Function to commit new parameters. The new parameters do not take immedaite effect.
Emits: CommitNewParameters
| Input | Type | Description |
|---|---|---|
_new_mid_fee | uint256 | new mid_fee value |
_new_out_fee | uint256 | new out_fee value |
_new_fee_gamma | uint256 | new fee_gamma value |
_new_allowed_extra_profit | uint256 | new allowed_extra_profit value |
_new_adjustment_step | uint256 | new adjustment_step value |
_new_ma_time | uint256 | new ma_time value |
Source code
event CommitNewParameters:
deadline: indexed(uint256)
mid_fee: uint256
out_fee: uint256
fee_gamma: uint256
allowed_extra_profit: uint256
adjustment_step: uint256
ma_time: uint256
future_packed_rebalancing_params: uint256
future_packed_fee_params: uint256
ADMIN_ACTIONS_DELAY: constant(uint256) = 3 * 86400
@external
def commit_new_parameters(
_new_mid_fee: uint256,
_new_out_fee: uint256,
_new_fee_gamma: uint256,
_new_allowed_extra_profit: uint256,
_new_adjustment_step: uint256,
_new_ma_time: uint256,
):
"""
@notice Commit new parameters.
@dev Only accessible by factory admin.
@param _new_mid_fee The new mid fee.
@param _new_out_fee The new out fee.
@param _new_fee_gamma The new fee gamma.
@param _new_allowed_extra_profit The new allowed extra profit.
@param _new_adjustment_step The new adjustment step.
@param _new_ma_time The new ma time. ma_time is time_in_seconds/ln(2).
"""
assert msg.sender == Factory(self.factory).admin() # dev: only owner
assert self.admin_actions_deadline == 0 # dev: active action
_deadline: uint256 = block.timestamp + ADMIN_ACTIONS_DELAY
self.admin_actions_deadline = _deadline
# ----------------------------- Set fee params ---------------------------
new_mid_fee: uint256 = _new_mid_fee
new_out_fee: uint256 = _new_out_fee
new_fee_gamma: uint256 = _new_fee_gamma
current_fee_params: uint256[3] = self._unpack(self.packed_fee_params)
if new_out_fee < MAX_FEE + 1:
assert new_out_fee > MIN_FEE - 1 # dev: fee is out of range
else:
new_out_fee = current_fee_params[1]
if new_mid_fee > MAX_FEE:
new_mid_fee = current_fee_params[0]
assert new_mid_fee <= new_out_fee # dev: mid-fee is too high
if new_fee_gamma < 10**18:
assert new_fee_gamma > 0 # dev: fee_gamma out of range [1 .. 10**18]
else:
new_fee_gamma = current_fee_params[2]
self.future_packed_fee_params = self._pack(
[new_mid_fee, new_out_fee, new_fee_gamma]
)
# ----------------- Set liquidity rebalancing parameters -----------------
new_allowed_extra_profit: uint256 = _new_allowed_extra_profit
new_adjustment_step: uint256 = _new_adjustment_step
new_ma_time: uint256 = _new_ma_time
current_rebalancing_params: uint256[3] = self._unpack(self.packed_rebalancing_params)
if new_allowed_extra_profit > 10**18:
new_allowed_extra_profit = current_rebalancing_params[0]
if new_adjustment_step > 10**18:
new_adjustment_step = current_rebalancing_params[1]
if new_ma_time < 872542: # <----- Calculated as: 7 * 24 * 60 * 60 / ln(2)
assert new_ma_time > 86 # dev: MA time should be longer than 60/ln(2)
else:
new_ma_time = current_rebalancing_params[2]
self.future_packed_rebalancing_params = self._pack(
[new_allowed_extra_profit, new_adjustment_step, new_ma_time]
)
# ---------------------------------- LOG ---------------------------------
log CommitNewParameters(
_deadline,
new_mid_fee,
new_out_fee,
new_fee_gamma,
new_allowed_extra_profit,
new_adjustment_step,
new_ma_time,
)
apply_new_parameters¶
CryptoSwap.apply_new_parameters()
Function to apply the parameters from commit_new_parameters.
Emits: NewParameters
Source code
event NewParameters:
mid_fee: uint256
out_fee: uint256
fee_gamma: uint256
allowed_extra_profit: uint256
adjustment_step: uint256
ma_time: uint256
packed_rebalancing_params: public(uint256) # <---------- Contains rebalancing
# parameters allowed_extra_profit, adjustment_step, and ma_time.
future_packed_rebalancing_params: uint256
packed_fee_params: public(uint256) # <---- Packs mid_fee, out_fee, fee_gamma.
future_packed_fee_params: uint256
@external
@nonreentrant("lock")
def apply_new_parameters():
"""
@notice Apply committed parameters.
@dev Only callable after admin_actions_deadline.
"""
assert block.timestamp >= self.admin_actions_deadline # dev: insufficient time
assert self.admin_actions_deadline != 0 # dev: no active action
self.admin_actions_deadline = 0
packed_fee_params: uint256 = self.future_packed_fee_params
self.packed_fee_params = packed_fee_params
packed_rebalancing_params: uint256 = self.future_packed_rebalancing_params
self.packed_rebalancing_params = packed_rebalancing_params
rebalancing_params: uint256[3] = self._unpack(packed_rebalancing_params)
fee_params: uint256[3] = self._unpack(packed_fee_params)
log NewParameters(
fee_params[0],
fee_params[1],
fee_params[2],
rebalancing_params[0],
rebalancing_params[1],
rebalancing_params[2],
)
revert_new_parameters¶
CryptoSwap.revert_new_parameters() -> address: view
Function to revert the parameters changes.
Note
This function is only callable by the admin of the factory contract.
Source code
@external
def revert_new_parameters():
"""
@notice Revert committed parameters
@dev Only accessible by factory admin. Setting admin_actions_deadline to 0
ensures a revert in apply_new_parameters.
"""
assert msg.sender == Factory(self.factory).admin() # dev: only owner
self.admin_actions_deadline = 0
Info Methods¶
admin_actions_deadline¶
CryptoSwap.admin_actions_deadline() -> uint256: view
Getter for the admin actions deadline. This is the deadline until which new parameter changes can be applied. When committing new changes, there is a three-day timespan to apply them (ADMIN_ACTIONS_DELAY), otherwise the call will revert.
Returns: timestamp (uint256).
Source code
initial_A_gamma¶
CryptoSwap.initial_A_gamma() -> uint256: view
Getter for the initial A/gamma.
Returns: A/gamma (uint256).
initial_A_gamma_time¶
CryptoSwap.initial_A_gamma_time() -> uint256: view
Getter for the initial A/gamma time.
Returns: A/gamma time (uint256).
future_A_gamma¶
CryptoSwap.future_A_gamma() -> uint256: view
Getter for the future A/gamma.
Returns: future A/gamma (uint256).