| iip | 16 |
|---|---|
| title | ICON Security Token Standard |
| author | Patrick Park (@cordiallys), Justin Hsiao (@icon2infiniti) |
| discussions-to | #16 |
| status | Draft |
| type | Standards Track |
| category | IRC |
| created | 2019-01-21 |
This document represents the standard protocol specification for the security token of ICON network.
The security token standard describes how to represent full ownership or split ownership of a particular asset. This standard is compatible with standard IRC2 token IIP-2 and inspired by several security token standards such as EIP-1400, and EIP-1410. Methods for Partially Fungible Tokens (PFT) was additionally written for grouping tokens into partition sets, and each partition is represented by a key-value format consisting of a unique key and balance. Through this standard, ownership of certain assets can be divided and represented, tracked, viewed, privately owned and transferred. It may also be entrusted to a third party provider and may be controlled under strict authorization.
The objective is to securitize and liquidate assets on the ICON blockchain, by issuing and managing security tokens. The standard supports legal document asserting the rights of tokenized assets on a blockchain, partition management with partially fungible tokens in tranche, and interfaces for managing operator privileges.
A Partially-Fungible Token allows attachment of metadata for a partial balance of a token holder. These partial balances are called partitions, which have an unique name and aa partial balance of the token.
Since security tokens entail rights and oblications either from investor or the issuer, the ability to connect legal documents with the relevant contracts or partitions is importannt.
The transfer of security token may fail for a variety of reasons. The reasons can be application specific, including failures such as KYC/AML invalidity, maximum number of investors reached, or partition state being non-transferable. An interface is needed to check whether the security tokens are transferable before the transfer and to return the reason for failures.
Security tokens may transfer or retrieve tokens and partitions from a regulatory authority or operator with regulatory consent even if they are not holders of the token. For example, if an investor has falsified the KYC/AML, an holder lost a key, or a fraudulent transaction that needs to be restored, operator permission to control the tokens or partitions of other holders is required.
class TokenStandard(ABC):
# ======================================================================
# IRC 2
# ======================================================================
@abstractmethod
def name(self) -> str:
pass
@abstractmethod
def symbol(self) -> str:
pass
@abstractmethod
def decimals(self) -> int:
pass
@abstractmethod
def totalSupply(self) -> int:
pass
@abstractmethod
def balanceOf(self, _owner: Address) -> int:
pass
# ======================================================================
# Token Information
# ======================================================================
@abstractmethod
def balanceOfByPartition(self, _partition: str, _owner: Address) -> int:
pass
@abstractmethod
def partitionsOf(self, _owner: Address) -> dict:
pass
# ======================================================================
# Document Management
# ======================================================================
@abstractmethod
def getDocument(self, _name: str) -> dict:
pass
@abstractmethod
def setDocument(self, _name: str, _uri: str, _document_hash: str) -> None:
pass
# ======================================================================
# Partition Token Transfer
# ======================================================================
@abstractmethod
def transferByPartition(self, _partition: str, _to: Address, _amount: int, _data: bytes = None) -> None:
pass
@abstractmethod
def operatorTransferByPartition(self, _partition: str, _from: Address, _to: Address, _amount: int, _data: bytes = None) -> None:
pass
# ======================================================================
# Operator Management
# ======================================================================
@abstractmethod
def authorizeOperator(self, _operator: Address) -> None:
pass
@abstractmethod
def revokeOperator(self, _operator: Address) -> None:
pass
@abstractmethod
def authorizeOperatorForPartition(self, _partition: str, _operator: Address) -> None:
pass
@abstractmethod
def revokeOperatorForPartition(self, _partition: str, _operator: Address) -> None:
pass
# ======================================================================
# Operator Information
# ======================================================================
@abstractmethod
def isOperator(self, _operator: Address, _owner: Address) -> bool:
pass
@abstractmethod
def isOperatorForPartition(self, _partition: str, _operator: Address, _owner: Address) -> bool:
pass
# ======================================================================
# Token Issuance
# ======================================================================
@abstractmethod
def issueByPartition(self, _partition: str, _to: Address, _amount: int, _data: bytes) -> None:
pass
# ======================================================================
# Token Redemption
# ======================================================================
@abstractmethod
def redeemByPartition(self, _partition: str, _from: Address, _amount: int, _data: bytes) -> None:
pass
# ======================================================================
# Transfer Validity
# ======================================================================
@abstractmethod
def canTransferByPartition(self, _partition: str, _to: Address, _amount: int, _data: bytes = None) -> str:
passReturns the name of the token.
@external(readonly=True)
def name(self) -> str:Returns the symbol of the token.
@external(readonly=True)
def symbol(self) -> str:Returns the number of decimals to the token uses
@external(readonly=True)
def decimals(self) -> int:Returns the total token supply
@external(readonly=True)
def totalSupply(self) -> int:Retruns the account balance of all partitions of the account address _owner.
@external(readonly=True)
def balanceOf(self, _owner: Address) -> int:Returns the balance of the partition _partition of the account address _owner.
@external(readonly=True)
def balanceOfByPartition(self, _partition: str, _owner: Address) -> int:Returns the partition information of the account address _owner. The information of partition consists of the name for the partition and the associated token amount.
@external(readonly=True)
def partitionsOf(self, _owner: Address) -> dict:Returns information of the document _name.
@external(readonly=True)
def getDocument(self, _name: str) -> dict:Sets information of document by the unique _name. Raw documentation is organized offchain. _uri and _document_hash are stored on the blockchain to prevent forgery.
Examples of documents may include legal rights, transfer provisions, sales term, etc.
@external
def setDocument(self, _name: str, _uri: str, _document_hash: str) -> None:Transfers _partition to a specific account with _to. You should call self.msg.sender to initiate transfer when the _amount of the _partition is sufficient. The @eventlog TransferByPartition should be called on transferByPartition calls.
@external
def transferByPartition(self, _partition: str, _to: Address, _amount: int, _data: bytes = None) -> None:Transfers _partition from the account_from to the account _to. The @eventlog TransferByPartition should be called on transferByPartition calls. Must throw if message sender is not an authorized operator.
@external
def operatorTransferByPartition(self, _partition: str, _from: Address, _to: Address, _amount: int, _data: bytes = None) -> None:Grants _operator control to the issued token. The @eventlog AuthorizeOperator must be triggered when granting access control.
def authorizeOperator(self, _operator: Address) -> None:Revokes the control granted to the _operator. The @eventlog RevokeOperator must be triggered when revoking access control.
def revokeOperator(self, _operator: Address) -> None:Grants _operator the control to the partition _partition of the account _owner. The @eventlog AuthorizeOperatorForPartition must be triggered when granting control.
def authorizeOperatorForPartition(self, _partition: str, _operator: Address) -> None:Revokes the control of _partition from _owner granted to _operator. The @eventlog RevokeOperatorForPartition must be triggered when revoking access control.
def revokeOperatorForPartition(self, _partition: str, _operator: Address) -> None:Returns whether _operator has access control to token.
@external(readonly=True)
def isOperator(self, _operator: Address, _owner: Address) -> bool:Returns whether _operator has access control to _partition of `_owner.
@external(readonly=True)
def isOperatorForPartition(self, _partition: str, _operator: Address, _owner: Address) -> bool:Issues tokens of _partition to the account _to in the amount of _amount. Specific metadata can be attached in _data. The _partition and balance quantity of the account _to must be changed together. The issueByPartition method must be controlled by the contract owner.
The @eventlog IssueByPartition for this method should be triggered when calling the IssueByPartition method.
def issueByPartition(self, _partition: str, _to: Address, _amount: int, _data: bytes) -> None:Redeems the tokens from _partition of account _from by _amount. At the time of redemption, _from’s total balance should also be changed. The redeem method must be controlled and by the contract owner. When invoking the redeemByPartition method, @eventlog RedeemByPartition for this method should be triggered.
def redeemByPartition(self, _partition: str, _from: Address, _amount: int, _data: bytes) -> None:The standard provides an on-chain function to determine whether a transfer will succeed, and return details indicating the reason if the transfer is not valid.
@external
def canTransferByPartition(self, _partition: str, _to: Address, _amount: int, _data: bytes = None) -> str:@eventlog(indexed=2)
def TransferByPartition(self, _partition: str, _operator: Address, _from: Address, _to: Address, _amount: int, _data: bytes):
pass@eventlog(indexed=3)
def IssueByPartition(self, _partition: str, _to: Address, _amount: int, _data: bytes):
pass@eventlog(indexed=3)
def RedeemByPartition(self, _partition: str, _operator: Address, _owner: Address, _amount: int, _data: bytes):
pass@eventlog(indexed=2)
def AuthorizeOperator(self, _operator: Address, _sender: Address):
pass@eventlog(indexed=2)
def RevokeOperator(self, _operator: Address, _sender: Address):
pass@eventlog(indexed=3)
def AuthorizeOperatorForPartition(self, _owner: Address, _partition: str, _operator: Address):
pass@eventlog(indexed=3)
def RevokeOperatorForPartition(self, _owner: Address, _partition: str, _operator: Address):
pass@eventlog(indexed=3)
def SetDocument(self, _name: str, _uri: str, _document_hash: str):
passCopyright and related rights waived via CC0.