Trait elrond_wasm::api::SendApiImpl
source · pub trait SendApiImpl: ManagedTypeApiImpl {
Show 28 methods
fn transfer_value_legacy<M>(
&self,
to: &Address,
amount: &BigUint<M>,
data: &BoxedBytes
)
where
M: ManagedTypeApi;
fn transfer_value_execute<M: ManagedTypeApi>(
&self,
to: &ManagedAddress<M>,
amount: &BigUint<M>,
gas_limit: u64,
endpoint_name: &ManagedBuffer<M>,
arg_buffer: &ManagedArgBuffer<M>
) -> Result<(), &'static [u8]>;
fn transfer_value_execute_legacy<M: ManagedTypeApi>(
&self,
to: &Address,
amount: &BigUint<M>,
gas_limit: u64,
endpoint_name: &BoxedBytes,
arg_buffer: &ArgBuffer
) -> Result<(), &'static [u8]>;
fn transfer_esdt_execute<M: ManagedTypeApi>(
&self,
to: &ManagedAddress<M>,
token: &TokenIdentifier<M>,
amount: &BigUint<M>,
gas_limit: u64,
endpoint_name: &ManagedBuffer<M>,
arg_buffer: &ManagedArgBuffer<M>
) -> Result<(), &'static [u8]>;
fn transfer_esdt_execute_legacy<M: ManagedTypeApi>(
&self,
to: &Address,
token: &TokenIdentifier<M>,
amount: &BigUint<M>,
gas_limit: u64,
endpoint_name: &BoxedBytes,
arg_buffer: &ArgBuffer
) -> Result<(), &'static [u8]>;
fn transfer_esdt_nft_execute<M: ManagedTypeApi>(
&self,
to: &ManagedAddress<M>,
token: &TokenIdentifier<M>,
nonce: u64,
amount: &BigUint<M>,
gas_limit: u64,
endpoint_name: &ManagedBuffer<M>,
arg_buffer: &ManagedArgBuffer<M>
) -> Result<(), &'static [u8]>;
fn transfer_esdt_nft_execute_legacy<M: ManagedTypeApi>(
&self,
to: &Address,
token: &TokenIdentifier<M>,
nonce: u64,
amount: &BigUint<M>,
gas_limit: u64,
endpoint_name: &BoxedBytes,
arg_buffer: &ArgBuffer
) -> Result<(), &'static [u8]>;
fn multi_transfer_esdt_nft_execute<M: ManagedTypeApi>(
&self,
to: &ManagedAddress<M>,
payments: &ManagedVec<M, EsdtTokenPayment<M>>,
gas_limit: u64,
endpoint_name: &ManagedBuffer<M>,
arg_buffer: &ManagedArgBuffer<M>
) -> Result<(), &'static [u8]>;
fn multi_transfer_esdt_nft_execute_legacy<M: ManagedTypeApi>(
&self,
to: &Address,
payments: &[EsdtTokenPayment<M>],
gas_limit: u64,
endpoint_name: &BoxedBytes,
arg_buffer: &ArgBuffer
) -> Result<(), &'static [u8]>;
fn async_call_raw<M: ManagedTypeApi>(
&self,
to: &ManagedAddress<M>,
amount: &BigUint<M>,
endpoint_name: &ManagedBuffer<M>,
arg_buffer: &ManagedArgBuffer<M>
) -> !;
fn async_call_raw_legacy<M: ManagedTypeApi>(
&self,
to: &Address,
amount: &BigUint<M>,
endpoint_name: &BoxedBytes,
arg_buffer: &ArgBuffer
) -> !;
fn create_async_call_raw(
&self,
to: Self::ManagedBufferHandle,
amount: Self::BigIntHandle,
endpoint_name: Self::ManagedBufferHandle,
arg_buffer: Self::ManagedBufferHandle,
success_callback: &'static str,
error_callback: &'static str,
gas: u64,
extra_gas_for_callback: u64,
callback_closure: Self::ManagedBufferHandle
);
fn deploy_contract<M: ManagedTypeApi>(
&self,
gas: u64,
amount: &BigUint<M>,
code: &ManagedBuffer<M>,
code_metadata: CodeMetadata,
arg_buffer: &ManagedArgBuffer<M>
) -> (ManagedAddress<M>, ManagedVec<M, ManagedBuffer<M>>);
fn deploy_contract_legacy<M: ManagedTypeApi>(
&self,
gas: u64,
amount: &BigUint<M>,
code: &BoxedBytes,
code_metadata: CodeMetadata,
arg_buffer: &ArgBuffer
) -> (ManagedAddress<M>, ManagedVec<M, ManagedBuffer<M>>);
fn deploy_from_source_contract<M: ManagedTypeApi>(
&self,
gas: u64,
amount: &BigUint<M>,
source_contract_address: &ManagedAddress<M>,
code_metadata: CodeMetadata,
arg_buffer: &ManagedArgBuffer<M>
) -> (ManagedAddress<M>, ManagedVec<M, ManagedBuffer<M>>);
fn deploy_from_source_contract_legacy<M: ManagedTypeApi>(
&self,
gas: u64,
amount: &BigUint<M>,
source_contract_address: &Address,
code_metadata: CodeMetadata,
arg_buffer: &ArgBuffer
) -> (ManagedAddress<M>, ManagedVec<M, ManagedBuffer<M>>);
fn upgrade_from_source_contract<M: ManagedTypeApi>(
&self,
sc_address: &ManagedAddress<M>,
gas: u64,
amount: &BigUint<M>,
source_contract_address: &ManagedAddress<M>,
code_metadata: CodeMetadata,
arg_buffer: &ManagedArgBuffer<M>
);
fn upgrade_from_source_contract_legacy<M: ManagedTypeApi>(
&self,
sc_address: &Address,
gas: u64,
amount: &BigUint<M>,
source_contract_address: &Address,
code_metadata: CodeMetadata,
arg_buffer: &ArgBuffer
);
fn upgrade_contract<M: ManagedTypeApi>(
&self,
sc_address: &ManagedAddress<M>,
gas: u64,
amount: &BigUint<M>,
code: &ManagedBuffer<M>,
code_metadata: CodeMetadata,
arg_buffer: &ManagedArgBuffer<M>
);
fn upgrade_contract_legacy<M: ManagedTypeApi>(
&self,
sc_address: &Address,
gas: u64,
amount: &BigUint<M>,
code: &BoxedBytes,
code_metadata: CodeMetadata,
arg_buffer: &ArgBuffer
);
fn execute_on_dest_context_raw<M: ManagedTypeApi>(
&self,
gas: u64,
address: &ManagedAddress<M>,
value: &BigUint<M>,
endpoint_name: &ManagedBuffer<M>,
arg_buffer: &ManagedArgBuffer<M>
) -> ManagedVec<M, ManagedBuffer<M>>;
fn execute_on_dest_context_raw_legacy<M: ManagedTypeApi>(
&self,
gas: u64,
address: &Address,
value: &BigUint<M>,
endpoint_name: &BoxedBytes,
arg_buffer: &ArgBuffer
) -> ManagedVec<M, ManagedBuffer<M>>;
fn execute_on_same_context_raw<M: ManagedTypeApi>(
&self,
gas: u64,
address: &ManagedAddress<M>,
value: &BigUint<M>,
endpoint_name: &ManagedBuffer<M>,
arg_buffer: &ManagedArgBuffer<M>
) -> ManagedVec<M, ManagedBuffer<M>>;
fn execute_on_same_context_raw_legacy<M: ManagedTypeApi>(
&self,
gas: u64,
address: &Address,
value: &BigUint<M>,
endpoint_name: &BoxedBytes,
arg_buffer: &ArgBuffer
) -> ManagedVec<M, ManagedBuffer<M>>;
fn execute_on_dest_context_readonly_raw<M: ManagedTypeApi>(
&self,
gas: u64,
address: &ManagedAddress<M>,
endpoint_name: &ManagedBuffer<M>,
arg_buffer: &ManagedArgBuffer<M>
) -> ManagedVec<M, ManagedBuffer<M>>;
fn execute_on_dest_context_readonly_raw_legacy<M: ManagedTypeApi>(
&self,
gas: u64,
address: &Address,
endpoint_name: &BoxedBytes,
arg_buffer: &ArgBuffer
) -> ManagedVec<M, ManagedBuffer<M>>;
fn clean_return_data(&self);
fn delete_from_return_data(&self, index: usize);
}
Expand description
API that groups methods that either send EGLD or ESDT, or that call other contracts.
Required Methods§
fn transfer_value_legacy<M>(
&self,
to: &Address,
amount: &BigUint<M>,
data: &BoxedBytes
)where
M: ManagedTypeApi,
sourcefn transfer_value_execute<M: ManagedTypeApi>(
&self,
to: &ManagedAddress<M>,
amount: &BigUint<M>,
gas_limit: u64,
endpoint_name: &ManagedBuffer<M>,
arg_buffer: &ManagedArgBuffer<M>
) -> Result<(), &'static [u8]>
fn transfer_value_execute<M: ManagedTypeApi>(
&self,
to: &ManagedAddress<M>,
amount: &BigUint<M>,
gas_limit: u64,
endpoint_name: &ManagedBuffer<M>,
arg_buffer: &ManagedArgBuffer<M>
) -> Result<(), &'static [u8]>
Sends EGLD to an address (optionally) and executes like an async call, but without callback.
fn transfer_value_execute_legacy<M: ManagedTypeApi>(
&self,
to: &Address,
amount: &BigUint<M>,
gas_limit: u64,
endpoint_name: &BoxedBytes,
arg_buffer: &ArgBuffer
) -> Result<(), &'static [u8]>
sourcefn transfer_esdt_execute<M: ManagedTypeApi>(
&self,
to: &ManagedAddress<M>,
token: &TokenIdentifier<M>,
amount: &BigUint<M>,
gas_limit: u64,
endpoint_name: &ManagedBuffer<M>,
arg_buffer: &ManagedArgBuffer<M>
) -> Result<(), &'static [u8]>
fn transfer_esdt_execute<M: ManagedTypeApi>(
&self,
to: &ManagedAddress<M>,
token: &TokenIdentifier<M>,
amount: &BigUint<M>,
gas_limit: u64,
endpoint_name: &ManagedBuffer<M>,
arg_buffer: &ManagedArgBuffer<M>
) -> Result<(), &'static [u8]>
Sends ESDT to an address and executes like an async call, but without callback.
fn transfer_esdt_execute_legacy<M: ManagedTypeApi>(
&self,
to: &Address,
token: &TokenIdentifier<M>,
amount: &BigUint<M>,
gas_limit: u64,
endpoint_name: &BoxedBytes,
arg_buffer: &ArgBuffer
) -> Result<(), &'static [u8]>
sourcefn transfer_esdt_nft_execute<M: ManagedTypeApi>(
&self,
to: &ManagedAddress<M>,
token: &TokenIdentifier<M>,
nonce: u64,
amount: &BigUint<M>,
gas_limit: u64,
endpoint_name: &ManagedBuffer<M>,
arg_buffer: &ManagedArgBuffer<M>
) -> Result<(), &'static [u8]>
fn transfer_esdt_nft_execute<M: ManagedTypeApi>(
&self,
to: &ManagedAddress<M>,
token: &TokenIdentifier<M>,
nonce: u64,
amount: &BigUint<M>,
gas_limit: u64,
endpoint_name: &ManagedBuffer<M>,
arg_buffer: &ManagedArgBuffer<M>
) -> Result<(), &'static [u8]>
Sends ESDT NFT to an address and executes like an async call, but without callback.
fn transfer_esdt_nft_execute_legacy<M: ManagedTypeApi>(
&self,
to: &Address,
token: &TokenIdentifier<M>,
nonce: u64,
amount: &BigUint<M>,
gas_limit: u64,
endpoint_name: &BoxedBytes,
arg_buffer: &ArgBuffer
) -> Result<(), &'static [u8]>
fn multi_transfer_esdt_nft_execute<M: ManagedTypeApi>(
&self,
to: &ManagedAddress<M>,
payments: &ManagedVec<M, EsdtTokenPayment<M>>,
gas_limit: u64,
endpoint_name: &ManagedBuffer<M>,
arg_buffer: &ManagedArgBuffer<M>
) -> Result<(), &'static [u8]>
fn multi_transfer_esdt_nft_execute_legacy<M: ManagedTypeApi>(
&self,
to: &Address,
payments: &[EsdtTokenPayment<M>],
gas_limit: u64,
endpoint_name: &BoxedBytes,
arg_buffer: &ArgBuffer
) -> Result<(), &'static [u8]>
sourcefn async_call_raw<M: ManagedTypeApi>(
&self,
to: &ManagedAddress<M>,
amount: &BigUint<M>,
endpoint_name: &ManagedBuffer<M>,
arg_buffer: &ManagedArgBuffer<M>
) -> !
fn async_call_raw<M: ManagedTypeApi>(
&self,
to: &ManagedAddress<M>,
amount: &BigUint<M>,
endpoint_name: &ManagedBuffer<M>,
arg_buffer: &ManagedArgBuffer<M>
) -> !
Sends an asynchronous call to another contract. Calling this method immediately terminates tx execution. Using it directly is generally discouraged.
The data is expected to be of the form functionName@<arg1-hex>@<arg2-hex>@...
.
Use a HexCallDataSerializer
to prepare this field.
fn async_call_raw_legacy<M: ManagedTypeApi>(
&self,
to: &Address,
amount: &BigUint<M>,
endpoint_name: &BoxedBytes,
arg_buffer: &ArgBuffer
) -> !
fn create_async_call_raw(
&self,
to: Self::ManagedBufferHandle,
amount: Self::BigIntHandle,
endpoint_name: Self::ManagedBufferHandle,
arg_buffer: Self::ManagedBufferHandle,
success_callback: &'static str,
error_callback: &'static str,
gas: u64,
extra_gas_for_callback: u64,
callback_closure: Self::ManagedBufferHandle
)
sourcefn deploy_contract<M: ManagedTypeApi>(
&self,
gas: u64,
amount: &BigUint<M>,
code: &ManagedBuffer<M>,
code_metadata: CodeMetadata,
arg_buffer: &ManagedArgBuffer<M>
) -> (ManagedAddress<M>, ManagedVec<M, ManagedBuffer<M>>)
fn deploy_contract<M: ManagedTypeApi>(
&self,
gas: u64,
amount: &BigUint<M>,
code: &ManagedBuffer<M>,
code_metadata: CodeMetadata,
arg_buffer: &ManagedArgBuffer<M>
) -> (ManagedAddress<M>, ManagedVec<M, ManagedBuffer<M>>)
Deploys a new contract in the same shard.
Unlike async_call_raw
, the deployment is synchronous and tx execution continues afterwards.
Also unlike async_call_raw
, it uses an argument buffer to pass arguments
If the deployment fails, Option::None is returned
fn deploy_contract_legacy<M: ManagedTypeApi>(
&self,
gas: u64,
amount: &BigUint<M>,
code: &BoxedBytes,
code_metadata: CodeMetadata,
arg_buffer: &ArgBuffer
) -> (ManagedAddress<M>, ManagedVec<M, ManagedBuffer<M>>)
sourcefn deploy_from_source_contract<M: ManagedTypeApi>(
&self,
gas: u64,
amount: &BigUint<M>,
source_contract_address: &ManagedAddress<M>,
code_metadata: CodeMetadata,
arg_buffer: &ManagedArgBuffer<M>
) -> (ManagedAddress<M>, ManagedVec<M, ManagedBuffer<M>>)
fn deploy_from_source_contract<M: ManagedTypeApi>(
&self,
gas: u64,
amount: &BigUint<M>,
source_contract_address: &ManagedAddress<M>,
code_metadata: CodeMetadata,
arg_buffer: &ManagedArgBuffer<M>
) -> (ManagedAddress<M>, ManagedVec<M, ManagedBuffer<M>>)
Deploys a new contract in the same shard by re-using the code of an already deployed source contract. The deployment is done synchronously and the new contract’s address is returned. If the deployment fails, Option::None is returned
fn deploy_from_source_contract_legacy<M: ManagedTypeApi>(
&self,
gas: u64,
amount: &BigUint<M>,
source_contract_address: &Address,
code_metadata: CodeMetadata,
arg_buffer: &ArgBuffer
) -> (ManagedAddress<M>, ManagedVec<M, ManagedBuffer<M>>)
fn upgrade_from_source_contract<M: ManagedTypeApi>(
&self,
sc_address: &ManagedAddress<M>,
gas: u64,
amount: &BigUint<M>,
source_contract_address: &ManagedAddress<M>,
code_metadata: CodeMetadata,
arg_buffer: &ManagedArgBuffer<M>
)
fn upgrade_from_source_contract_legacy<M: ManagedTypeApi>(
&self,
sc_address: &Address,
gas: u64,
amount: &BigUint<M>,
source_contract_address: &Address,
code_metadata: CodeMetadata,
arg_buffer: &ArgBuffer
)
sourcefn upgrade_contract<M: ManagedTypeApi>(
&self,
sc_address: &ManagedAddress<M>,
gas: u64,
amount: &BigUint<M>,
code: &ManagedBuffer<M>,
code_metadata: CodeMetadata,
arg_buffer: &ManagedArgBuffer<M>
)
fn upgrade_contract<M: ManagedTypeApi>(
&self,
sc_address: &ManagedAddress<M>,
gas: u64,
amount: &BigUint<M>,
code: &ManagedBuffer<M>,
code_metadata: CodeMetadata,
arg_buffer: &ManagedArgBuffer<M>
)
Upgrades a child contract of the currently executing contract. The upgrade is synchronous, and the current transaction will fail if the upgrade fails. The child contract’s new init function will be called with the provided arguments
fn upgrade_contract_legacy<M: ManagedTypeApi>(
&self,
sc_address: &Address,
gas: u64,
amount: &BigUint<M>,
code: &BoxedBytes,
code_metadata: CodeMetadata,
arg_buffer: &ArgBuffer
)
sourcefn execute_on_dest_context_raw<M: ManagedTypeApi>(
&self,
gas: u64,
address: &ManagedAddress<M>,
value: &BigUint<M>,
endpoint_name: &ManagedBuffer<M>,
arg_buffer: &ManagedArgBuffer<M>
) -> ManagedVec<M, ManagedBuffer<M>>
fn execute_on_dest_context_raw<M: ManagedTypeApi>(
&self,
gas: u64,
address: &ManagedAddress<M>,
value: &BigUint<M>,
endpoint_name: &ManagedBuffer<M>,
arg_buffer: &ManagedArgBuffer<M>
) -> ManagedVec<M, ManagedBuffer<M>>
Same shard, in-line execution of another contract.