AccountBalanceRequest : An AccountBalanceRequest is utilized to make a balance request on the /account/balance endpoint. If the block_identifier is populated, a historical balance query should be performed.
AccountBalanceResponse : An AccountBalanceResponse is returned on the /account/balance endpoint. If an account has a balance for each AccountIdentifier describing it (ex: an ERC-20 token balance on a few smart contracts), an account balance request must be made with each AccountIdentifier. The coins field was removed and replaced by by /account/coins in v1.4.7.
AccountIdentifier : The account_identifier uniquely identifies an account within a network. All fields in the account_identifier are utilized to determine this uniqueness (including the metadata field, if populated).
Allow : Allow specifies supported Operation status, Operation types, and all possible error statuses. This Allow object is used by clients to validate the correctness of a Rosetta Server implementation. It is expected that these clients will error if they receive some response that contains any of the above information that is not specified here.
BalanceExemption : BalanceExemption indicates that the balance for an exempt account could change without a corresponding Operation. This typically occurs with staking rewards, vesting balances, and Currencies with a dynamic supply. Currently, it is possible to exempt an account from strict reconciliation by SubAccountIdentifier.Address or by Currency. This means that any account with SubAccountIdentifier.Address would be exempt or any balance of a particular Currency would be exempt, respectively. BalanceExemptions should be used sparingly as they may introduce significant complexity for integrators that attempt to reconcile all account balance changes. If your implementation relies on any BalanceExemptions, you MUST implement historical balance lookup (the ability to query an account balance at any BlockIdentifier).
Block : Blocks contain an array of Transactions that occurred at a particular BlockIdentifier. A hard requirement for blocks returned by Rosetta implementations is that they MUST be inalterable: once a client has requested and received a block identified by a specific BlockIndentifier, all future calls for that same BlockIdentifier must return the same block contents.
BlockEvent : BlockEvent represents the addition or removal of a BlockIdentifier from storage. Streaming BlockEvents allows lightweight clients to update their own state without needing to implement their own syncing logic.
BlockResponse : A BlockResponse includes a fully-populated block or a partially-populated block with a list of other transactions to fetch (other_transactions). As a result of the consensus algorithm of some blockchains, blocks can be omitted (i.e. certain block indices can be skipped). If a query for one of these omitted indices is made, the response should not include a Block object. It is VERY important to note that blocks MUST still form a canonical, connected chain of blocks where each block has a unique index. In other words, the PartialBlockIdentifier of a block after an omitted block should reference the last non-omitted block.
CoinChange : CoinChange is used to represent a change in state of a some coin identified by a coin_identifier. This object is part of the Operation model and must be populated for UTXO-based blockchains. Coincidentally, this abstraction of UTXOs allows for supporting both account-based transfers and UTXO-based transfers on the same blockchain (when a transfer is account-based, don’t populate this model).
ConstructionCombineRequest : ConstructionCombineRequest is the input to the /construction/combine endpoint. It contains the unsigned transaction blob returned by /construction/payloads and all required signatures to create a network transaction.
ConstructionCombineResponse : ConstructionCombineResponse is returned by /construction/combine. The network payload will be sent directly to the construction/submit endpoint.
ConstructionDeriveRequest : ConstructionDeriveRequest is passed to the /construction/derive endpoint. Network is provided in the request because some blockchains have different address formats for different networks. Metadata is provided in the request because some blockchains allow for multiple address types (i.e. different address for validators vs normal accounts).
ConstructionMetadataRequest : A ConstructionMetadataRequest is utilized to get information required to construct a transaction. The Options object used to specify which metadata to return is left purposely unstructured to allow flexibility for implementers. Options is not required in the case that there is network-wide metadata of interest.
ConstructionMetadataResponse : The ConstructionMetadataResponse returns network-specific metadata used for transaction construction. Optionally, the implementer can return the suggested fee associated with the transaction being constructed. The caller may use this info to adjust the intent of the transaction or to create a transaction with a different account that can pay the suggested fee. Suggested fee is an array in case fee payment must occur in multiple currencies.
ConstructionParseRequest : ConstructionParseRequest is the input to the /construction/parse endpoint. It allows the caller to parse either an unsigned or signed transaction.
ConstructionParseResponse : ConstructionParseResponse contains an array of operations that occur in a transaction blob. This should match the array of operations provided to /construction/preprocess and /construction/payloads.
ConstructionPayloadsRequest : ConstructionPayloadsRequest is the request to /construction/payloads. It contains the network, a slice of operations, and arbitrary metadata that was returned by the call to /construction/metadata. Optionally, the request can also include an array of PublicKeys associated with the AccountIdentifiers returned in ConstructionPreprocessResponse.
ConstructionPayloadsResponse : ConstructionTransactionResponse is returned by /construction/payloads. It contains an unsigned transaction blob (that is usually needed to construct the a network transaction from a collection of signatures) and an array of payloads that must be signed by the caller.
ConstructionPreprocessRequest : ConstructionPreprocessRequest is passed to the /construction/preprocess endpoint so that a Rosetta implementation can determine which metadata it needs to request for construction. Metadata provided in this object should NEVER be a product of live data (i.e. the caller must follow some network-specific data fetching strategy outside of the Construction API to populate required Metadata). If live data is required for construction, it MUST be fetched in the call to /construction/metadata.
ConstructionPreprocessResponse : ConstructionPreprocessResponse contains options that will be sent unmodified to /construction/metadata. If it is not necessary to make a request to /construction/metadata, options should be omitted. Some blockchains require the PublicKey of particular AccountIdentifiers to construct a valid transaction. To fetch these PublicKeys, populate required_public_keys with the AccountIdentifiers associated with the desired PublicKeys. If it is not necessary to retrieve any PublicKeys for construction, required_public_keys should be omitted.
Currency : Currency is composed of a canonical Symbol and Decimals. This Decimals value is used to convert an Amount.Value from atomic units (Satoshis) to standard units (Bitcoins).
Error : Instead of utilizing HTTP status codes to describe node errors (which often do not have a good analog), rich errors are returned using this object. Both the code and message fields can be individually used to correctly identify an error. Implementations MUST use unique values for both fields.
EventsBlocksRequest : EventsBlocksRequest is utilized to fetch a sequence of BlockEvents indicating which blocks were added and removed from storage to reach the current state.
MempoolTransactionResponse : A MempoolTransactionResponse contains an estimate of a mempool transaction. It may not be possible to know the full impact of a transaction in the mempool (ex: fee paid).
NetworkOptionsResponse : NetworkOptionsResponse contains information about the versioning of the node and the allowed operation statuses, operation types, and errors.
NetworkStatusResponse : NetworkStatusResponse contains basic information about the node’s view of a blockchain network. It is assumed that any BlockIdentifier.Index less than or equal to CurrentBlockIdentifier.Index can be queried. If a Rosetta implementation prunes historical state, it should populate the optional oldest_block_identifier field with the oldest block available to query. If this is not populated, it is assumed that the genesis_block_identifier is the oldest queryable block. If a Rosetta implementation performs some pre-sync before it is possible to query blocks, sync_status should be populated so that clients can still monitor healthiness. Without this field, it may appear that the implementation is stuck syncing and needs to be terminated.
Operation : Operations contain all balance-changing information within a transaction. They are always one-sided (only affect 1 AccountIdentifier) and can succeed or fail independently from a Transaction. Operations are used both to represent on-chain data (Data API) and to construct new transactions (Construction API), creating a standard interface for reading and writing to blockchains.
PartialBlockIdentifier : When fetching data by BlockIdentifier, it may be possible to only specify the index or hash. If neither property is specified, it is assumed that the client is making a request at the current block.
PublicKey : PublicKey contains a public key byte array for a particular CurveType encoded in hex. Note that there is no PrivateKey struct as this is NEVER the concern of an implementation.
RelatedTransaction : The related_transaction allows implementations to link together multiple transactions. An unpopulated network identifier indicates that the related transaction is on the same network.
SearchTransactionsResponse : SearchTransactionsResponse contains an ordered collection of BlockTransactions that match the query in SearchTransactionsRequest. These BlockTransactions are sorted from most recent block to oldest block.
Signature : Signature contains the payload that was signed, the public keys of the keypairs used to produce the signature, the signature (encoded in hex), and the SignatureType. PublicKey is often times not known during construction of the signing payloads but may be needed to combine signatures properly.
SigningPayload : SigningPayload is signed by the client with the keypair associated with an AccountIdentifier using the specified SignatureType. SignatureType can be optionally populated if there is a restriction on the signature scheme that can be used to sign the payload.
SubAccountIdentifier : An account may have state specific to a contract address (ERC-20 token) and/or a stake (delegated balance). The sub_account_identifier should specify which state (if applicable) an account instantiation refers to.
SubNetworkIdentifier : In blockchains with sharded state, the SubNetworkIdentifier is required to query some object on a specific shard. This identifier is optional for all non-sharded blockchains.
SyncStatus : SyncStatus is used to provide additional context about an implementation’s sync status. This object is often used by implementations to indicate healthiness when block data cannot be queried until some sync phase completes or cannot be determined by comparing the timestamp of the most recent block with the current time.
TransactionIdentifierResponse : TransactionIdentifierResponse contains the transaction_identifier of a transaction that was submitted to either /construction/hash or /construction/submit.
BlockEventType : BlockEventType determines if a BlockEvent represents the addition or removal of a block.
BlockEventType determines if a BlockEvent represents the addition or removal of a block.
CoinAction : CoinActions are different state changes that a Coin can undergo. When a Coin is created, it is coin_created. When a Coin is spent, it is coin_spent. It is assumed that a single Coin cannot be created or spent more than once.
CoinActions are different state changes that a Coin can undergo. When a Coin is created, it is coin_created. When a Coin is spent, it is coin_spent. It is assumed that a single Coin cannot be created or spent more than once.
Direction : Used by RelatedTransaction to indicate the direction of the relation (i.e. cross-shard/cross-network sends may reference backward to an earlier transaction and async execution may reference forward). Can be used to indicate if a transaction relation is from child to parent or the reverse.
Used by RelatedTransaction to indicate the direction of the relation (i.e. cross-shard/cross-network sends may reference backward to an earlier transaction and async execution may reference forward). Can be used to indicate if a transaction relation is from child to parent or the reverse.
ExemptionType : ExemptionType is used to indicate if the live balance for an account subject to a BalanceExemption could increase above, decrease below, or equal the computed balance. * greater_or_equal: The live balance may increase above or equal the computed balance. This typically occurs with staking rewards that accrue on each block. * less_or_equal: The live balance may decrease below or equal the computed balance. This typically occurs as balance moves from locked to spendable on a vesting account. * dynamic: The live balance may increase above, decrease below, or equal the computed balance. This typically occurs with tokens that have a dynamic supply.
ExemptionType is used to indicate if the live balance for an account subject to a BalanceExemption could increase above, decrease below, or equal the computed balance. * greater_or_equal: The live balance may increase above or equal the computed balance. This typically occurs with staking rewards that accrue on each block. * less_or_equal: The live balance may decrease below or equal the computed balance. This typically occurs as balance moves from locked to spendable on a vesting account. * dynamic: The live balance may increase above, decrease below, or equal the computed balance. This typically occurs with tokens that have a dynamic supply.
Operator : Operator is used by query-related endpoints to determine how to apply conditions. If this field is not populated, the default and value will be used.
Operator is used by query-related endpoints to determine how to apply conditions. If this field is not populated, the default and value will be used.
SignatureType : SignatureType is the type of a cryptographic signature. * ecdsa: r (32-bytes) || s (32-bytes) - 64 bytes * ecdsa_recovery: r (32-bytes) || s (32-bytes) || v (1-byte) - 65 bytes * ed25519: R (32-byte) || s (32-bytes) - 64 bytes * schnorr_1: r (32-bytes) || s (32-bytes) - 64 bytes (schnorr signature implemented by Zilliqa where both r and s are scalars encoded as 32-bytes values, most significant byte first.) * schnorr_poseidon: r (32-bytes) || s (32-bytes) where s = Hash(1st pk || 2nd pk || r) - 64 bytes (schnorr signature w/ Poseidon hash function implemented by O(1) Labs where both r and s are scalars encoded as 32-bytes values, least significant byte first. https://github.com/CodaProtocol/signer-reference/blob/master/schnorr.ml )
SignatureType is the type of a cryptographic signature. * ecdsa: r (32-bytes) || s (32-bytes) - 64 bytes * ecdsa_recovery: r (32-bytes) || s (32-bytes) || v (1-byte) - 65 bytes * ed25519: R (32-byte) || s (32-bytes) - 64 bytes * schnorr_1: r (32-bytes) || s (32-bytes) - 64 bytes (schnorr signature implemented by Zilliqa where both r and s are scalars encoded as 32-bytes values, most significant byte first.) * schnorr_poseidon: r (32-bytes) || s (32-bytes) where s = Hash(1st pk || 2nd pk || r) - 64 bytes (schnorr signature w/ Poseidon hash function implemented by O(1) Labs where both r and s are scalars encoded as 32-bytes values, least significant byte first. https://github.com/CodaProtocol/signer-reference/blob/master/schnorr.ml )