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Technical details about most used ocean.py functions |
Ocean Instance Tech Details
At the beginning of most flows, we create an ocean
object, which is an instance of class Ocean
. It exposes useful information, including the following.
Constructor
- __init__(
self
,config_dict: Dict
,data_provider: Optional[Type] = None
)
The Ocean class is the entry point into Ocean Procol.
In order to initialize a Ocean object, you must provide config_dict
which is a Dictionary
instance and optionally a DataServiceProvider
instance.
Parameters
config_dict
:dict
which is mandatory and it contains the configuration as dictionary format.data_provider
:Optional[DataProvider]
which is optional with a default value of None. If it is not provided, the constructor will instantiate a new one from scratch.
Returns
None
Defined in
Source code
{% code overflow="wrap" %}
class Ocean:
"""The Ocean class is the entry point into Ocean Protocol."""
@enforce_types
def __init__(self, config_dict: Dict, data_provider: Optional[Type] = None) -> None:
"""Initialize Ocean class.
Usage: Make a new Ocean instance
`ocean = Ocean({...})`
This class provides the main top-level functions in ocean protocol:
1. Publish assets metadata and associated services
- Each asset is assigned a unique DID and a DID Document (DDO)
- The DDO contains the asset's services including the metadata
- The DID is registered on-chain with a URL of the metadata store
to retrieve the DDO from
`ddo = ocean.assets.create(metadata, publisher_wallet)`
2. Discover/Search ddos via the current configured metadata store (Aquarius)
- Usage:
`ddos_list = ocean.assets.search('search text')`
An instance of Ocean is parameterized by a `Config` instance.
:param config_dict: variable definitions
:param data_provider: `DataServiceProvider` instance
"""
config_errors = {}
for key, value in config_defaults.items():
if key not in config_dict:
config_errors[key] = "required"
continue
if not isinstance(config_dict[key], type(value)):
config_errors[key] = f"must be {type(value).__name__}"
if config_errors:
raise Exception(json.dumps(config_errors))
self.config_dict = config_dict
network_name = config_dict["NETWORK_NAME"]
check_network(network_name)
if not data_provider:
data_provider = DataServiceProvider
self.assets = OceanAssets(self.config_dict, data_provider)
self.compute = OceanCompute(self.config_dict, data_provider)
logger.debug("Ocean instance initialized: ")
{% endcode %}
Config Getter
- config(
self
) ->dict
It is a helper method for retrieving the user's configuration for ocean.py.
It can be called only by Ocean object and returns a python dictionary.
Returns
dict
Configuration fields as dictionary.
Defined in
Source code
@property
@enforce_types
def config(self) -> dict: # alias for config_dict
return self.config_dict
OCEAN Token Address
- OCEAN_address(
self
) ->str
It is a helper method for retrieving the OCEAN's token address.
It can be called only by Ocean object and returns the address as a string
.
Returns
str
OCEAN token address for that network.
Defined in
Source code
@property
@enforce_types
def OCEAN_address(self) -> str:
return get_ocean_token_address(self.config)
get_ocean_token_address
function is an utilitary function which gets the address from address.json
file
{% code overflow="wrap" %}
@enforce_types
def get_ocean_token_address(config_dict: dict) -> str:
"""Returns the Ocean token address for given network or web3 instance
Requires either network name or web3 instance.
"""
addresses = get_contracts_addresses(config_dict)
return Web3.toChecksumAddress(addresses.get("Ocean").lower()) if addresses else None
{% endcode %}
OCEAN Token Object
- OCEAN_token(
self
) ->DatatokenBase
- OCEAN(
self
) ->DatatokenBase
as alias for the above option
It is a helper method for retrieving the OCEAN token object (Datatoken class).
It can be called within Ocean class and returns the OCEAN Datatoken.
Returns
DatatokenBase
OCEAN token as DatatokenBase
object.
Defined in
Source code
@property
@enforce_types
def OCEAN_token(self) -> DatatokenBase:
return DatatokenBase.get_typed(self.config, self.OCEAN_address)
@property
@enforce_types
def OCEAN(self): # alias for OCEAN_token
return self.OCEAN_token
Data NFT Factory
- data_nft_factory(
self
) ->DataNFTFactoryContract
It is a property for getting Data NFT Factory
object for the singleton smart contract.
It can be called within Ocean class and returns the DataNFTFactoryContract
instance.
Returns
DataNFTFactoryContract
Data NFT Factory contract object which access all the functionalities available from smart contracts in Python.
Defined in
Source code
{% code overflow="wrap" %}
@property
@enforce_types
def data_nft_factory(self) -> DataNFTFactoryContract:
return DataNFTFactoryContract(self.config, self._addr("ERC721Factory"))
{% endcode %}
Dispenser
- dispenser(
self
) ->Dispenser
Dispenser
is represented by a faucet for free data.
It is a property for getting Dispenser
object for the singleton smart contract.
It can be called within Ocean class and returns the Dispenser
instance.
Returns
Dispenser
Dispenser contract object which access all the functionalities available from smart contracts in Python.
Defined in
Source code
@property
@enforce_types
def dispenser(self) -> Dispenser:
return Dispenser(self.config, self._addr("Dispenser"))
Fixed Rate Exchange
- fixed_rate_exchange(
self
) ->FixedRateExchange
Exchange is used for priced data.
It is a property for getting FixedRateExchange
object for the singleton smart contract.
It can be called within Ocean class and returns the FixedRateExchange
instance.
Returns
FixedRateExchange
Fixed Rate Exchange contract object which access all the functionalities available from smart contracts in Python.
Defined in
Source code
@property
@enforce_types
def fixed_rate_exchange(self) -> FixedRateExchange:
return FixedRateExchange(self.config, self._addr("FixedPrice"))
NFT Token Getter
- get_nft_token(
self
,token_adress: str
) ->DataNFT
It is a getter for a specific data NFT object based on its checksumed address.
It can be called within Ocean class which returns the DataNFT
instance based on string token_address
specified as parameter.
Parameters
token_address
- string checksumed address of the NFT token that you are searching for.
Returns
DataNFT
Data NFT object which access all the functionalities available for ERC721 template in Python.
Defined in
Source code
@enforce_types
def get_nft_token(self, token_address: str) -> DataNFT:
"""
:param token_address: Token contract address, str
:return: `DataNFT` instance
"""
return DataNFT(self.config, token_address)
Datatoken Getter
- get_datatoken(
self
,token_address: str
) ->DatatokenBase
It is a getter for a specific datatoken
object based on its checksumed address.
It can be called within Ocean class with a string token_address
as parameter which returns the DatatokenBase
instance depending on datatoken's template index.
Parameters
token_address
- string checksumed address of the datatoken that you are searching for.
Returns
DatatokenBase
Datatoken object which access all the functionalities available for ERC20 templates in Python.
Defined in
Source code
@enforce_types
def get_datatoken(self, token_address: str) -> DatatokenBase:
"""
:param token_address: Token contract address, str
:return: `Datatoken1` or `Datatoken2` instance
"""
return DatatokenBase.get_typed(self.config, token_address)
User Orders Getter
- get_user_orders(
self
,address: str
,datatoken: str
) ->List[AttributeDict]
Returns the list of orders that were made by a certain user on a specific datatoken.
It can be called within Ocean class.
Parameters
address
- wallet address of that userdatatoken
- datatoken address
Returns
List[AttributeDict]
List of all the orders on that datatoken
done by the specified user
.
Defined in
Source code
{% code overflow="wrap" %}
@enforce_types
def get_user_orders(self, address: str, datatoken: str) -> List[AttributeDict]:
"""
:return: List of orders `[Order]`
"""
dt = DatatokenBase.get_typed(self.config_dict, datatoken)
_orders = []
for log in dt.get_start_order_logs(address):
a = dict(log.args.items())
a["amount"] = int(log.args.amount)
a["address"] = log.address
a["transactionHash"] = log.transactionHash
a = AttributeDict(a.items())
_orders.append(a)
return _orders
{% endcode %}
Provider Fees
- retrieve_provider_fees(
self
,ddo: DDO
,access_service: Service
,publisher_wallet
) ->dict
Calls Provider to compute provider fees as dictionary for access service.
Parameters
ddo
- the data asset which has the DDO objectaccess_service
- Service instance for the service that needs the provider feespublisher_wallet
- Wallet instance of the user that wants to retrieve the provider fees
Returns
dict
A dictionary which contains the following keys (providerFeeAddress
, providerFeeToken
, providerFeeAmount
, providerData
, v
, r
, s
, validUntil
).
Defined in
Source code
{% code overflow="wrap" %}
@enforce_types
def retrieve_provider_fees(
self, ddo: DDO, access_service: Service, publisher_wallet
) -> dict:
initialize_response = DataServiceProvider.initialize(
ddo.did, access_service, consumer_address=publisher_wallet.address
)
initialize_data = initialize_response.json()
provider_fees = initialize_data["providerFee"]
return provider_fees
{% endcode %}
Compute Provider Fees
- retrieve_provider_fees_for_compute(
self
,datasets: List[ComputeInput]
,algorithm_data: Union[ComputeInput, AlgorithmMetadata]
,consumer_address: str
,compute_environment: str
,valid_until: int
) ->dict
Calls Provider to generate provider fees as dictionary for compute service.
Parameters
datasets
- list ofComputeInput
which contains the data assetsalgorithm_data
- necessary data for algorithm and it can be either aComputeInput
object, either just the algorithm metadata,AlgorithmMetadata
consumer_address
- address of the compute consumer wallet which is requesting the provider feescompute_environment
- id provided from the compute environment asstring
valid_until
- timestamp in UNIX miliseconds for the duration of provider fees for the compute service.
Returns
dict
A dictionary which contains the following keys (providerFeeAddress
, providerFeeToken
, providerFeeAmount
, providerData
, v
, r
, s
, validUntil
).
Defined in
Source code
{% code overflow="wrap" %}
@enforce_types
def retrieve_provider_fees_for_compute(
self,
datasets: List[ComputeInput],
algorithm_data: Union[ComputeInput, AlgorithmMetadata],
consumer_address: str,
compute_environment: str,
valid_until: int,
) -> dict:
initialize_compute_response = DataServiceProvider.initialize_compute(
[x.as_dictionary() for x in datasets],
algorithm_data.as_dictionary(),
datasets[0].service.service_endpoint,
consumer_address,
compute_environment,
valid_until,
)
return initialize_compute_response.json()
{% endcode %}
Ocean Compute
ocean.compute.start( self, consumer_wallet, dataset: ComputeInput, compute_environment: str, algorithm: Optional[ComputeInput] = None, algorithm_meta: Optional[AlgorithmMetadata] = None, algorithm_algocustomdata: Optional[dict] = None, additional_datasets: List[ComputeInput] = []) -> str
Starts a compute job.
It can be called within Ocean Compute class.
Params:
consumer_wallet
- theBrownie account
of consumer who pays & starts for compute job.dataset
-ComputeInput
object, each of them includes mandatory the DDO and service.compute_environment
-string
that represents the ID from the chosen C2D environment.additional_datasets
- list ofComputeInput
objects for additional datasets in case of starting a compute job for multiple datasets.
Optional params:
algorithm
-ComputeInput
object, each of them includes mandatory the DDO and service for algorithm.algorithm_meta
- either provide just the algorithm metadata asAlgorithmMetadata.
algorithm_algocustomedata
- additional user data for the algorithm as dictionary.
Return:
Returns a string type job ID.
@enforce_types
def start(
self,
consumer_wallet,
dataset: ComputeInput,
compute_environment: str,
algorithm: Optional[ComputeInput] = None,
algorithm_meta: Optional[AlgorithmMetadata] = None,
algorithm_algocustomdata: Optional[dict] = None,
additional_datasets: List[ComputeInput] = [],
) -> str:
metadata_cache_uri = self._config_dict.get("METADATA_CACHE_URI")
ddo = Aquarius.get_instance(metadata_cache_uri).get_ddo(dataset.did)
service = ddo.get_service_by_id(dataset.service_id)
assert (
ServiceTypes.CLOUD_COMPUTE == service.type
), "service at serviceId is not of type compute service."
consumable_result = is_consumable(
ddo,
service,
{"type": "address", "value": consumer_wallet.address},
with_connectivity_check=True,
)
if consumable_result != ConsumableCodes.OK:
raise AssetNotConsumable(consumable_result)
# Start compute job
job_info = self._data_provider.start_compute_job(
dataset_compute_service=service,
consumer=consumer_wallet,
dataset=dataset,
compute_environment=compute_environment,
algorithm=algorithm,
algorithm_meta=algorithm_meta,
algorithm_custom_data=algorithm_algocustomdata,
input_datasets=additional_datasets,
)
return job_info["jobId"]
ocean.compute.status(self, ddo: DDO, service: Service, job_id: str, wallet) -> Dict[str, Any]
Gets status of the compute job.
It can be called within Ocean Compute class.
Params:
ddo
- DDO offering the compute service of this jobservice
- Service object of computejob_id
- ID of the compute jobwallet
- Brownie account which initiated the compute job
Return:
A dictionary which contains the status for an existing compute job, keys are (ok, status, statusText)
.
{% code overflow="wrap" %}
@enforce_types
def status(self, ddo: DDO, service: Service, job_id: str, wallet) -> Dict[str, Any]:
"""
Gets job status.
:param ddo: DDO offering the compute service of this job
:param service: compute service of this job
:param job_id: str id of the compute job
:param wallet: Wallet instance
:return: dict the status for an existing compute job, keys are (ok, status, statusText)
"""
job_info = self._data_provider.compute_job_status(
ddo.did, job_id, service, wallet
)
job_info.update({"ok": job_info.get("status") not in (31, 32, None)})
return job_info
{% endcode %}
ocean.compute.result( self, ddo: DDO, service: Service, job_id: str, index: int, wallet ) -> Dict[str, Any]
Gets compute job result.
It can be called within Ocean Compute class.
Params:
ddo
- DDO offering the compute service of this jobservice
- Service object of computejob_id
- ID of the compute jobindex
- compute result indexwallet
- Brownie account which initiated the compute job
Return:
A dictionary wich contains the results/logs urls for an existing compute job, keys are (did, urls, logs)
.
{% code overflow="wrap" %}
@enforce_types
def result(
self, ddo: DDO, service: Service, job_id: str, index: int, wallet
) -> Dict[str, Any]:
"""
Gets job result.
:param ddo: DDO offering the compute service of this job
:param service: compute service of this job
:param job_id: str id of the compute job
:param index: compute result index
:param wallet: Wallet instance
:return: dict the results/logs urls for an existing compute job, keys are (did, urls, logs)
"""
result = self._data_provider.compute_job_result(job_id, index, service, wallet)
return result
{% endcode %}
ocean.compute.compute_job_result_logs( self, ddo: DDO, service: Service, job_id: str, wallet, log_type="output", ) -> Dict[str, Any]
Gets job output if exists.
It can be called within Ocean Compute class.
Params:
ddo
- DDO offering the compute service of this jobservice
- Service object of computejob_id
- ID of the compute jobwallet
- Brownie account which initiated the compute joblog_type
- string which selects what kind of logs to display. Default "output"
Return:
A dictionary which includes the results/logs urls for an existing compute job, keys are (did, urls, logs)
.
{% code overflow="wrap" %}
@enforce_types
def compute_job_result_logs(
self,
ddo: DDO,
service: Service,
job_id: str,
wallet,
log_type="output",
) -> Dict[str, Any]:
"""
Gets job output if exists.
:param ddo: DDO offering the compute service of this job
:param service: compute service of this job
:param job_id: str id of the compute job
:param wallet: Wallet instance
:return: dict the results/logs urls for an existing compute job, keys are (did, urls, logs)
"""
result = self._data_provider.compute_job_result_logs(
ddo, job_id, service, wallet, log_type
)
return result
{% endcode %}
ocean.compute.stop(self, ddo: DDO, service: Service, job_id: str, wallet) -> Dict[str, Any]
Attempts to stop the running compute job.
It can be called within Ocean Compute class.
Params:
ddo
- DDO offering the compute service of this jobservice
- Service object of computejob_id
- ID of the compute jobwallet
- Brownie account which initiated the compute job
Return:
A dictionary which contains the status for the stopped compute job, keys are (ok, status, statusText)
.
{% code overflow="wrap" %}
@enforce_types
def stop(self, ddo: DDO, service: Service, job_id: str, wallet) -> Dict[str, Any]:
"""
Attempt to stop the running compute job.
:param ddo: DDO offering the compute service of this job
:param job_id: str id of the compute job
:param wallet: Wallet instance
:return: dict the status for the stopped compute job, keys are (ok, status, statusText)
"""
job_info = self._data_provider.stop_compute_job(
ddo.did, job_id, service, wallet
)
job_info.update({"ok": job_info.get("status") not in (31, 32, None)})
return job_info
{% endcode %}
ocean.compute.get_c2d_environments(self, service_endpoint: str, chain_id: int)
Get list of compute environments.
It can be called within Ocean Compute class.
Params:
service_endpoint
- string Provider URL that is stored in compute service.chain_id
- using Provider multichain,chain_id
is required to specify the network for your environment. It hasint
type.
Return:
A list of objects containing information about each compute environment. For each compute environment, these are the following keys: (id, feeToken, priceMin, consumerAddress, lastSeen, namespace, status)
.
{% code overflow="wrap" %}
@enforce_types
def get_c2d_environments(self, service_endpoint: str, chain_id: int):
return DataServiceProvider.get_c2d_environments(service_endpoint, chain_id)
{% endcode %}
ocean.compute.get_free_c2d_environment(self, service_endpoint: str, chain_id)
Get list of free compute environments.
Important thing is that not all Providers contain free environments (priceMin = 0
).
It can be called within Ocean Compute class.
Params:
service_endpoint
- string Provider URL that is stored in compute service.chain_id
- using Provider multichain,chain_id
is required to specify the network for your environment. It hasint
type.
Return:
A list of objects containing information about each compute environment. For each compute environment, these are the following keys: (id, feeToken, priceMin, consumerAddress, lastSeen, namespace, status)
.
{% code overflow="wrap" %}
@enforce_types
def get_free_c2d_environment(self, service_endpoint: str, chain_id):
environments = self.get_c2d_environments(service_endpoint, chain_id)
return next(env for env in environments if float(env["priceMin"]) == float(0))
{% endcode %}
Datatoken Interface
Dispenser utils:
datatoken.create_dispenser(self, tx_dict: dict, max_tokens: Optional[Union[int, str]] = None, max_balance: Optional[Union[int, str]] = None, with_mint: Optional[bool] = True)
Through datatoken, you can deploy a new dispenser schema which is used for creating free assets, because its behaviour is similar with a faucet. ⛲
It is implemented in DatatokenBase, inherited by Datatoken2, so it can be called within both instances.
Each parameter has the following meaning:
tx_dict
- is the configurationdictionary
for that specific transaction. Usually fordevelopment
we include just thefrom
wallet, but for remote networks, you can provide gas fees, required confirmations for that block etc. For more info, check Brownie docs.max_tokens
- maximum amount of tokens to dispense in wei. The default is a large number.max_balance
- maximum balance of requester in wei. The default is a large number.with_mint
- boolean,true
if we want to allow the dispenser to be a minter as default value
Return value is a hex string which denotes the transaction hash of dispenser deployment.
@enforce_types
def create_dispenser(
self,
tx_dict: dict,
max_tokens: Optional[Union[int, str]] = None,
max_balance: Optional[Union[int, str]] = None,
with_mint: Optional[bool] = True,
):
"""
For this datataken, create a dispenser faucet for free tokens.
This wraps the smart contract method Datatoken.createDispenser()
with a simpler interface.
:param: max_tokens - max # tokens to dispense, in wei
:param: max_balance - max balance of requester
:tx_dict: e.g. {"from": alice_wallet}
:return: tx
"""
# already created, so nothing to do
if self.dispenser_status().active:
return
# set max_tokens, max_balance if needed
max_tokens = max_tokens or MAX_UINT256
max_balance = max_balance or MAX_UINT256
# args for contract tx
dispenser_addr = get_address_of_type(self.config_dict, "Dispenser")
with_mint = with_mint # True -> can always mint more
allowed_swapper = ZERO_ADDRESS # 0 -> so anyone can call dispense
# do contract tx
tx = self.createDispenser(
dispenser_addr,
max_tokens,
max_balance,
with_mint,
allowed_swapper,
tx_dict,
)
return tx
datatoken.dispense(self, amount: Union[int, str], tx_dict: dict)
This function is used to retrieve funds or datatokens for an user who wants to start an order.
It is implemented in DatatokenBase, so it can be called within Datatoken class.
Each parameter has the following meaning:
amount
- amount of datatokens to be dispensed in wei (int or string format)tx_dict
- is the configurationdictionary
for that specific transaction. Usually fordevelopment
we include just thefrom
wallet, but for remote networks, you can provide gas fees, required confirmations for that block etc. For more info, check Brownie docs.
Return value is a hex string which denotes the transaction hash of dispensed datatokens, like a proof.
@enforce_types
def dispense(self, amount: Union[int, str], tx_dict: dict):
"""
Dispense free tokens via the dispenser faucet.
:param: amount - number of tokens to dispense, in wei
:tx_dict: e.g. {"from": alice_wallet}
:return: tx
"""
# args for contract tx
datatoken_addr = self.address
from_addr = (
tx_dict["from"].address
if hasattr(tx_dict["from"], "address")
else tx_dict["from"]
)
# do contract tx
tx = self._ocean_dispenser().dispense(
datatoken_addr, amount, from_addr, tx_dict
)
return tx
datatoken.dispense_and_order(self, consumer: str, service_index: int, provider_fees: dict, transaction_parameters: dict, consume_market_fees=None)
This function is used to retrieve funds or datatokens for an user who wants to start an order.
It is implemented in Datatoken2, so it can be called within Datatoken2 class (using the enterprise template).
Each parameter has the following meaning:
consumer
- address of the consumer wallet that needs fundingservice_index
- service index as int for identifying the service that you want to further callstart_order
.transaction_parameters
- is the configurationdictionary
for that specific transaction. Usually fordevelopment
we include just thefrom
wallet, but for remote networks, you can provide gas fees, required confirmations for that block etc. For more info, check Brownie docs.consume_market_fees
-TokenInfo
object which contains the consume market fee amount, address & token address. If it is not explicitly specified, by default it has an emptyTokenInfo
object.
Return value is a hex string which denotes the transaction hash of dispensed datatokens, like a proof of starting order.
def dispense_and_order(
self,
consumer: str,
service_index: int,
provider_fees: dict,
transaction_parameters: dict,
consume_market_fees=None,
) -> str:
if not consume_market_fees:
consume_market_fees = TokenFeeInfo()
buyer_addr = (
transaction_parameters["from"].address
if hasattr(transaction_parameters["from"], "address")
else transaction_parameters["from"]
)
bal = from_wei(self.balanceOf(buyer_addr))
if bal < 1.0:
dispenser_addr = get_address_of_type(self.config_dict, "Dispenser")
from ocean_lib.models.dispenser import Dispenser # isort: skip
dispenser = Dispenser(self.config_dict, dispenser_addr)
# catch key failure modes
st = dispenser.status(self.address)
active, allowedSwapper = st[0], st[6]
if not active:
raise ValueError("No active dispenser for datatoken")
if allowedSwapper not in [ZERO_ADDRESS, buyer_addr]:
raise ValueError(f"Not allowed. allowedSwapper={allowedSwapper}")
# Try to dispense. If other issues, they'll pop out
dispenser.dispense(
self.address, "1 ether", buyer_addr, transaction_parameters
)
return self.start_order(
consumer=ContractBase.to_checksum_address(consumer),
service_index=service_index,
provider_fees=provider_fees,
consume_market_fees=consume_market_fees,
transaction_parameters=transaction_parameters,
)
datatoken.dispenser_status(self) -> DispenserStatus
Returns a DispenserStatus
object returned from Dispenser.sol::status(dt_addr)
which is composed of:
- bool active
- address owner
- bool isMinter
- uint256 maxTokens
- uint256 maxBalance
- uint256 balance
- address allowedSwapper
These are Solidity return values & types, but uint256
means int in Python and address
is a string
instance.
For tips & tricks, check this section from the README.
It is implemented in DatatokenBase, inherited by Datatoken2, so it can be called within both instances.
@enforce_types
def dispenser_status(self):
""":return: DispenserStatus object"""
# import here to avoid circular import
from ocean_lib.models.dispenser import DispenserStatus
status_tup = self._ocean_dispenser().status(self.address)
return DispenserStatus(status_tup)
Fixed Rate Exchange utils:
datatoken.create_exchange(self, rate: Union[int, str], base_token_addr: str, tx_dict: dict, owner_addr: Optional[str] = None, publish_market_fee_collector: Optional[str] = None, publish_market_fee: Union[int, str] = 0, with_mint: bool = False, allowed_swapper: str = ZERO_ADDRESS, full_info: bool = False) -> Union[OneExchange, tuple]
It is implemented in DatatokenBase, inherited by Datatoken2, so it can be called within both instances.
For this datatoken, create a single fixed-rate exchange (OneExchange).
This wraps the smart contract method Datatoken.createFixedRate()
with a simpler interface.
Main params:
rate
- how many base tokens does 1 datatoken cost? In wei or stringbase_token_addr
- e.g. OCEAN addresstx_dict
- is the configurationdictionary
for that specific transaction. Usually fordevelopment
we include just thefrom
wallet, but for remote networks, you can provide gas fees, required confirmations for that block etc. For more info, check Brownie docs.
Optional params, with good defaults:
owner_addr
- owner of the datatokenpublish_market_fee_collector
- fee going to publish market addresspublish_market_fee
- in wei or string, e.g.int(1e15)
or"0.001 ether"
with_mint
- should the exchange mint datatokens as needed (True
), or do they need to be supplied/allowed by participants like base token (False
)?allowed_swapper
- ifZERO_ADDRESS
, anyone can swapfull_info
- return justOneExchange
, or(OneExchange, <other info>)
Return
exchange
- OneExchange- (maybe)
tx_receipt
{% code overflow="wrap" %}
@enforce_types
def create_exchange(
self,
rate: Union[int, str],
base_token_addr: str,
tx_dict: dict,
owner_addr: Optional[str] = None,
publish_market_fee_collector: Optional[str] = None,
publish_market_fee: Union[int, str] = 0,
with_mint: bool = False,
allowed_swapper: str = ZERO_ADDRESS,
full_info: bool = False,
) -> Union[OneExchange, tuple]:
# import now, to avoid circular import
from ocean_lib.models.fixed_rate_exchange import OneExchange
FRE_addr = get_address_of_type(self.config_dict, "FixedPrice")
from_addr = (
tx_dict["from"].address
if hasattr(tx_dict["from"], "address")
else tx_dict["from"]
)
BT = Datatoken(self.config_dict, base_token_addr)
owner_addr = owner_addr or from_addr
publish_market_fee_collector = publish_market_fee_collector or from_addr
tx = self.contract.createFixedRate(
checksum_addr(FRE_addr),
[
checksum_addr(BT.address),
checksum_addr(owner_addr),
checksum_addr(publish_market_fee_collector),
checksum_addr(allowed_swapper),
],
[
BT.decimals(),
self.decimals(),
rate,
publish_market_fee,
with_mint,
],
tx_dict,
)
exchange_id = tx.events["NewFixedRate"]["exchangeId"]
FRE = self._FRE()
exchange = OneExchange(FRE, exchange_id)
if full_info:
return (exchange, tx)
return exchange
{% endcode %}
datatoken.buy_DT_and_order(self, consumer: str, service_index: int, provider_fees: dict, exchange: Any, transaction_parameters: dict, consume_market_fees=None, ) -> str:
This function is used to retrieve funds or datatokens for an user who wants to start an order.
It is implemented in Datatoken class and it is also inherited in Datatoken2 class.
Each parameter has the following meaning:
consumer
- address of the consumer wallet that needs fundingservice_index
- service index as int for identifying the service that you want to further callstart_order
.transaction_parameters
- is the configurationdictionary
for that specific transaction. Usually fordevelopment
we include just thefrom
wallet, but for remote networks, you can provide gas fees, required confirmations for that block etc. For more info, check Brownie docs.consume_market_fees
-TokenInfo
object which contains the consume market fee amount, address & token address. If it is not explicitly specified, by default it has an emptyTokenInfo
object.
Return value is a hex string for transaction hash which denotes the proof of starting order.
@enforce_types
def buy_DT_and_order(
self,
consumer: str,
service_index: int,
provider_fees: dict,
exchange: Any,
transaction_parameters: dict,
consume_market_fees=None,
) -> str:
fre_address = get_address_of_type(self.config_dict, "FixedPrice")
# import now, to avoid circular import
from ocean_lib.models.fixed_rate_exchange import OneExchange
if not consume_market_fees:
consume_market_fees = TokenFeeInfo()
if not isinstance(exchange, OneExchange):
exchange = OneExchange(fre_address, exchange)
exchange.buy_DT(
datatoken_amt=to_wei(1),
consume_market_fee_addr=consume_market_fees.address,
consume_market_fee=consume_market_fees.amount,
tx_dict=transaction_parameters,
)
return self.start_order(
consumer=ContractBase.to_checksum_address(consumer),
service_index=service_index,
provider_fees=provider_fees,
consume_market_fees=consume_market_fees,
transaction_parameters=transaction_parameters,
)
datatoken.get_exchanges(self) -> list
Returns List[OneExchange]
- all the exchanges for this datatoken.
It is implemented in DatatokenBase, inherited by Datatoken2, so it can be called within both instances.
{% code overflow="wrap" %}
@enforce_types
def get_exchanges(self) -> list:
"""return List[OneExchange] - all the exchanges for this datatoken"""
# import now, to avoid circular import
from ocean_lib.models.fixed_rate_exchange import OneExchange
FRE = self._FRE()
addrs_and_exchange_ids = self.getFixedRates()
exchanges = [
OneExchange(FRE, exchange_id) for _, exchange_id in addrs_and_exchange_ids
]
return exchanges
{% endcode %}
Orders:
datatoken.start_order( self, consumer: str, service_index: int, provider_fees: dict, transaction_parameters: dict, consume_market_fees=None, ) -> str
Starting order of a certain datatoken.
It is implemented in Datatoken class and it is also inherited in Datatoken2 class.
Each parameter has the following meaning:
consumer
- address of the consumer wallet that needs fundingservice_index
- service index as int for identifying the service that you want to applystart_order
.provider_fees
- dictionary which includes provider fees generated wheninitialize
endpoint fromProvider
was called.transaction_parameters
- is the configurationdictionary
for that specific transaction. Usually fordevelopment
we include just thefrom
wallet, but for remote networks, you can provide gas fees, required confirmations for that block etc. For more info, check Brownie docs.consume_market_fees
-TokenInfo
object which contains the consume market fee amount, address & token address. If it is not explicitly specified, by default it has an emptyTokenInfo
object.
Return value is a hex string for transaction hash which denotes the proof of starting order.
@enforce_types
def start_order(
self,
consumer: str,
service_index: int,
provider_fees: dict,
transaction_parameters: dict,
consume_market_fees=None,
) -> str:
if not consume_market_fees:
consume_market_fees = TokenFeeInfo()
return self.contract.startOrder(
checksum_addr(consumer),
service_index,
(
checksum_addr(provider_fees["providerFeeAddress"]),
checksum_addr(provider_fees["providerFeeToken"]),
int(provider_fees["providerFeeAmount"]),
provider_fees["v"],
provider_fees["r"],
provider_fees["s"],
provider_fees["validUntil"],
provider_fees["providerData"],
),
consume_market_fees.to_tuple(),
transaction_parameters,
)
datatoken.reuse_order(self, order_tx_id: Union[str, bytes], provider_fees: dict, transaction_parameters: dict) -> str
Reusing an order from a certain datatoken.
It is implemented in Datatoken class and it is also inherited in Datatoken2 class.
Each parameter has the following meaning:
order_tx_id
- transaction hash of a previous order, string or bytes format.provider_fees
- dictionary which includes provider fees generated wheninitialize
endpoint fromProvider
was called.transaction_parameters
- is the configurationdictionary
for that specific transaction. Usually fordevelopment
we include just thefrom
wallet, but for remote networks, you can provide gas fees, required confirmations for that block etc. For more info, check Brownie docs.
Return value is a hex string for transaction hash which denotes the proof of reusing order.
@enforce_types
def reuse_order(
self,
order_tx_id: Union[str, bytes],
provider_fees: dict,
transaction_parameters: dict,
) -> str:
return self.contract.reuseOrder(
order_tx_id,
(
checksum_addr(provider_fees["providerFeeAddress"]),
checksum_addr(provider_fees["providerFeeToken"]),
int(provider_fees["providerFeeAmount"]),
provider_fees["v"],
provider_fees["r"],
provider_fees["s"],
provider_fees["validUntil"],
provider_fees["providerData"],
),
transaction_parameters,
)