package tezt-tezos

The abstract representation of an unsigned operation.

The kind is necessary because it determines the watermark of an operation which is necessary for signing an operation. This type aims to be extended when other kinds of operations are added into this module.

make ~branch ?signer ~kind json client builds the representation of an unsigned operation.

json t gives the json representation of an unsigned operation.

hex ?(protocol=None) ?(signature=None) t client computes the binary representation of an operation as a hexadecimal string. If protocol is given, the binary representation is computed using the encoding of operation from the protocol. Otherwise, a call to the forge_operations RPC is done to compute the binary representation. If signature is given, the hexadecimal represents the signed version of the operation. client is used to construct the binary representation of t.

• parameter protocol

  controls whether the encoding of a protocol should be used to compute the binary representation of the operation rather than calling the forge_operations RPC to compute it.

• parameter signature

  controls whether a signature should be attached to the operation.

sign t client signs the raw representation of operation t by its signer (see make). client is used to construct the binary representation of t. Note that if no signer have been given to t the function returns Tezos_crypto.Signature.zero.

hash t client returns the hash of the operation

inject ?(request=`Inject) ?(force=false) ?(signature=None) ?(error=None) t injects an operation into the node. The node is extracted from the Client. If a node cannot be extracted, the injection fails. If the injection succeeds, the hash of the operation is returned.

• parameter request

  If `Inject, we do not wait the prevalidator to classify the operation. This can create some flakyness in the test but is needed to test corner cases. If `Notify, the function waits for the prevalidator to classify the operation. However, the nodes need to activate the debug events for the prevalidator.

• parameter force

  If true, the function succeeds even though the operation was classified with an error and was not propagated by the prevalidator. If false, the call fails if the prevalidator classified the operation with an error.

• parameter protocol

  Allow using the operation encoding rather than using the forge_operations RPC to compute the hexadecimal representation of the operations.

• parameter signature

  Allows to give manually the signature of the operation. The operation is signed when the signature is omitted.

• parameter error

  If the injection is expecting to fail, allows to specify the expected error.

Same as inject, but do not wait for the process to exit.

Run spawn_inject then capture two groups on stderr with rex.

inject_operations ?protocol ?request ?force ?error ?use_tmp_file ops client is similar as inject for a list of operations. This function calls the RPC RPC.post_private_injection_operations which is faster than calling the RPC used by inject several times. Note that this function should be used mainly when the time for injecting operations matters.

• parameter use_tmp_file

  see RPC.post_private_injection_operations for more information.

Craft a json representing the full operation, in a format that is compatible with the run_operation RPC (RPC.post_chain_block_helpers_scripts_run_operation).

This json contains many more fields than the one produced by the json function above.

The operation is signed with Tezos_crypto.Signature.zero, because the run_operation RPC skips signature checks anyway.

• parameter chain_id

  Allows to manually provide the chain_id. If omitted, the chain_id is retrieved via RPC using the provided client.

• parameter client

  The Client.t argument is used to retrieve the chain_id when it is not provided.

Craft a json representing the full operation, in a format that is compatible with the preapply/operations RPC (RPC.post_chain_block_helpers_preapply_operations).

This json contains many more fields than the one produced by the json function above.

Voting operations (validation pass 1): proposals and ballot.

Matches the client message for the Operation_quota_exceeded protocol error.

Matches the message produced by Operation_conflict {new_hash; needed_fee_in_mutez = Some fee} from src/lib_shell_services/validation_errors.

Captures new_hash and fee.

Matches the message produced by Rejected_by_full_mempool {hash; needed_fee_in_mutez = Some fee} from src/lib_shell_services/validation_errors.

Captures hash and fee.

manager_operation_content is an abstract type for manager operations. Values of this type can be constructed using the smart constructors below.

Unless mentioned otherwise, the default values for generic parameters of a manager operations are the following ones:

• Default counter is the successor of the counter of source.

• Default amount is 1 tez.

• Default fee is 1000 mutez.

• Default gas_limit is 1040 gas. Use a greater limit (e.g. ~1500) if the destination is not allocated, and ~1900 if the source will additionnaly be emptied.

• Default storage_limit is 257.

Michelson scripts and data in different representations.

Used when originating or calling contracts. Depending on the test, the user can provide:

• an EzJsonm value directly
• a Michelson value in a string
• a Michelson value in a file (mainly for Michelson scripts). In this case, files should have extension `.tz`, `.tez` or `.mic`
• a file storing directly the JSON representation. This is for instance useful to test contracts that fail at type-checking. Instead of Michelson, the user can generate the JSON and store it a file with a '.json' extension.

mk_reveal allows to construct a manager operation representing a public key revelation of an implicit account source.

• Default counter is the successor of the counter of source.
• Default fee is 1000 mutez.
• Default gas_limit is 1040 gas.
• Default storage_limit is 0.

mk_call allows to construct a manager operation representing a call to a smart contract entrypoint with a given parameter arg from an implicit account source.

• Default counter is the successor of the counter of source.
• Default amount is 0 tez.
• Default fee is 30_000 mutez.
• Default gas_limit is 30_000 gas.
• Default storage_limit is 1_500.

mk_origination allows to construct a manager operation representing a smart contract origination from an implicit account source.

• Default counter is the successor of the counter of source.
• Default init_balance is 0 tez.
• Default fee is 1_000_000 mutez.
• Default gas_limit is 100_000 gas.
• Default storage_limit is 10_000.

Returns the current counter of the given implicit account

Returns the next counter of the given implicit account

Returns branch if supplied as argument, or fetches and returns the default injection branch, i.e. head - 2.

sign_manager_op_bytes ~signer op_bytes signs op_bytes with signer's secret key and the watermark Generic_operation.

Same as sign_manager_op_bytes, but the input operation is given in hexadecimal representation and returns a signature in hexadecimal representation.

Forge an operation and returns the hexadecimal binary representation.

If the protocol argument is supplied, the operation is forged locally (using octez-codec), otherwise we call an RPC (.../helpers/forge/operations).

Inject a forged operation with its signature.

If the force argument (by default false) is true, then Tezt uses the RPC /private/injection/operation to allow for the injection of operations (which would be rejected by the default injection RPC).

The async argument, whose default value is false, is passed to the RPC during injection.

On success, the function returns the injected operation's hash.

forge_and_inject_operation allows to forge, sign and inject to a node, via the provided client, the list batch of managed operations. The forged operation is signed by the given signer account. Default branch is the one returned by RPC.get_branch client.

If the protocol argument is supplied, the operation is forged locally (using octez-codec), otherwise we call an RPC (.../helpers/forge/operations).

If the force argument (by default false) is true, then Tezt uses the RPC /private/injection/operation to allow for the injection of operations (which would be rejected by the default injection RPC).

The async argument, whose default value is false, is passed to the RPC during injection.

On success, the function returns the injected operation's hash.

inject_origination is a high-level wrapper that allows to construct an origination operation and inject it using the given client. The signer can be different from the source to be able to inject missigned operations.

See mk_origination and forge_and_inject_operation for the list of parameters and their default values.

inject_public_key_revelation is a high-level wrapper that allows to build public key reveal operations and to inject them using the given client. The signer can be different from the source to be able to inject missigned operations. Also, it is possible to provide a public_key that does not match the one of the signer or of the source.

See mk_reveal and forge_and_inject_operation for the list of parameters and their default values.

inject_transfer is a high-level wrapper that allows to build XTZ transfer operations and to inject it using the given client. The signer can be different from the source to be able to inject missigned operations.

See manager_operation_content and forge_and_inject_operation for the list of parameters and their default values.

inject_contract_call is a high-level wrapper that allows to build smart contracts calls operations and to inject it using the given client. The signer can be different from the source to be able to inject missigned operations.

See mk_call and forge_and_inject_operation for the list of parameters and their default values.

inject_transfers is a wrapper around inject_transfer to inject number_of_operations transfers with the same parameters. See inject_transfer for optional arguments.

inject_transfer_ticket constructs and injects a mangager operation representing a transfer ticket operation.