Documentation ¶
Overview ¶
Package shim provides APIs for the chaincode to access its state variables, transaction context and call other chaincodes.
Index ¶
- Constants
- func CreateCompositeKey(objectType string, attributes []string) (string, error)
- func Error(msg string) *peer.Response
- func GetMSPID() (string, error)
- func Start(cc Chaincode) error
- func StartInProc(chaincodename string, stream ClientStream, cc Chaincode) error
- func Success(payload []byte) *peer.Response
- type Chaincode
- type ChaincodeServer
- type ChaincodeStub
- func (s *ChaincodeStub) CreateCompositeKey(objectType string, attributes []string) (string, error)
- func (s *ChaincodeStub) DelPrivateData(collection string, key string) error
- func (s *ChaincodeStub) DelState(key string) error
- func (s *ChaincodeStub) GetArgs() [][]byte
- func (s *ChaincodeStub) GetArgsSlice() ([]byte, error)
- func (s *ChaincodeStub) GetBinding() ([]byte, error)
- func (s *ChaincodeStub) GetChannelID() string
- func (s *ChaincodeStub) GetCreator() ([]byte, error)
- func (s *ChaincodeStub) GetDecorations() map[string][]byte
- func (s *ChaincodeStub) GetFunctionAndParameters() (function string, params []string)
- func (s *ChaincodeStub) GetHistoryForKey(key string) (HistoryQueryIteratorInterface, error)
- func (s *ChaincodeStub) GetPrivateData(collection string, key string) ([]byte, error)
- func (s *ChaincodeStub) GetPrivateDataByPartialCompositeKey(collection, objectType string, attributes []string) (StateQueryIteratorInterface, error)
- func (s *ChaincodeStub) GetPrivateDataByRange(collection, startKey, endKey string) (StateQueryIteratorInterface, error)
- func (s *ChaincodeStub) GetPrivateDataHash(collection string, key string) ([]byte, error)
- func (s *ChaincodeStub) GetPrivateDataQueryResult(collection, query string) (StateQueryIteratorInterface, error)
- func (s *ChaincodeStub) GetPrivateDataValidationParameter(collection, key string) ([]byte, error)
- func (s *ChaincodeStub) GetQueryResult(query string) (StateQueryIteratorInterface, error)
- func (s *ChaincodeStub) GetQueryResultWithPagination(query string, pageSize int32, bookmark string) (StateQueryIteratorInterface, *peer.QueryResponseMetadata, error)
- func (s *ChaincodeStub) GetSignedProposal() (*peer.SignedProposal, error)
- func (s *ChaincodeStub) GetState(key string) ([]byte, error)
- func (s *ChaincodeStub) GetStateByPartialCompositeKey(objectType string, attributes []string) (StateQueryIteratorInterface, error)
- func (s *ChaincodeStub) GetStateByPartialCompositeKeyWithPagination(objectType string, keys []string, pageSize int32, bookmark string) (StateQueryIteratorInterface, *peer.QueryResponseMetadata, error)
- func (s *ChaincodeStub) GetStateByRange(startKey, endKey string) (StateQueryIteratorInterface, error)
- func (s *ChaincodeStub) GetStateByRangeWithPagination(startKey, endKey string, pageSize int32, bookmark string) (StateQueryIteratorInterface, *peer.QueryResponseMetadata, error)
- func (s *ChaincodeStub) GetStateValidationParameter(key string) ([]byte, error)
- func (s *ChaincodeStub) GetStringArgs() []string
- func (s *ChaincodeStub) GetTransient() (map[string][]byte, error)
- func (s *ChaincodeStub) GetTxID() string
- func (s *ChaincodeStub) GetTxTimestamp() (*timestamppb.Timestamp, error)
- func (s *ChaincodeStub) InvokeChaincode(chaincodeName string, args [][]byte, channel string) *peer.Response
- func (s *ChaincodeStub) PurgePrivateData(collection string, key string) error
- func (s *ChaincodeStub) PutPrivateData(collection string, key string, value []byte) error
- func (s *ChaincodeStub) PutState(key string, value []byte) error
- func (s *ChaincodeStub) SetEvent(name string, payload []byte) error
- func (s *ChaincodeStub) SetPrivateDataValidationParameter(collection, key string, ep []byte) error
- func (s *ChaincodeStub) SetStateValidationParameter(key string, ep []byte) error
- func (s *ChaincodeStub) SplitCompositeKey(compositeKey string) (string, []string, error)
- type ChaincodeStubInterface
- type ClientStream
- type CommonIterator
- type CommonIteratorInterface
- type Handler
- type HistoryQueryIterator
- type HistoryQueryIteratorInterface
- type PeerChaincodeStream
- type StateQueryIterator
- type StateQueryIteratorInterface
- type TLSProperties
Constants ¶
const ( // OK constant - status code less than 400, endorser will endorse it. // OK means init or invoke successfully. OK = 200 // ERRORTHRESHOLD constant - status code greater than or equal to 400 will be considered an error and rejected by endorser. ERRORTHRESHOLD = 400 // ERROR constant - default error value ERROR = 500 )
const ( StateQueryResult resultType = iota + 1 HistoryQueryResult )
TODO: Document constants
Constants ...
Variables ¶
This section is empty.
Functions ¶
func CreateCompositeKey ¶
CreateCompositeKey ...
func GetMSPID ¶
GetMSPID returns the local mspid of the peer by checking the CORE_PEER_LOCALMSPID env var and returns an error if the env var is not set
func StartInProc ¶
func StartInProc(chaincodename string, stream ClientStream, cc Chaincode) error
StartInProc is an entry point for system chaincodes bootstrap. It is not an API for chaincodes.
Types ¶
type Chaincode ¶
type Chaincode interface { // Init is called during Instantiate transaction after the chaincode container // has been established for the first time, allowing the chaincode to // initialize its internal data Init(stub ChaincodeStubInterface) *peer.Response // Invoke is called to update or query the ledger in a proposal transaction. // Updated state variables are not committed to the ledger until the // transaction is committed. Invoke(stub ChaincodeStubInterface) *peer.Response }
Chaincode interface must be implemented by all chaincodes. The fabric runs the transactions by calling these functions as specified.
type ChaincodeServer ¶
type ChaincodeServer struct { // CCID should match chaincode's package name on peer CCID string // Addesss is the listen address of the chaincode server Address string // CC is the chaincode that handles Init and Invoke CC Chaincode // TLSProps is the TLS properties passed to chaincode server TLSProps TLSProperties // KaOpts keepalive options, sensible defaults provided if nil KaOpts *keepalive.ServerParameters }
ChaincodeServer encapsulates basic properties needed for a chaincode server
func (*ChaincodeServer) Connect ¶
func (cs *ChaincodeServer) Connect(stream peer.Chaincode_ConnectServer) error
Connect the bidi stream entry point called by chaincode to register with the Peer.
type ChaincodeStub ¶
type ChaincodeStub struct { TxID string ChannelID string // contains filtered or unexported fields }
ChaincodeStub is an object passed to chaincode for shim side handling of APIs.
func (*ChaincodeStub) CreateCompositeKey ¶
func (s *ChaincodeStub) CreateCompositeKey(objectType string, attributes []string) (string, error)
CreateCompositeKey documentation can be found in interfaces.go
func (*ChaincodeStub) DelPrivateData ¶
func (s *ChaincodeStub) DelPrivateData(collection string, key string) error
DelPrivateData documentation can be found in interfaces.go
func (*ChaincodeStub) DelState ¶
func (s *ChaincodeStub) DelState(key string) error
DelState documentation can be found in interfaces.go
func (*ChaincodeStub) GetArgs ¶
func (s *ChaincodeStub) GetArgs() [][]byte
GetArgs documentation can be found in interfaces.go
func (*ChaincodeStub) GetArgsSlice ¶
func (s *ChaincodeStub) GetArgsSlice() ([]byte, error)
GetArgsSlice documentation can be found in interfaces.go
func (*ChaincodeStub) GetBinding ¶
func (s *ChaincodeStub) GetBinding() ([]byte, error)
GetBinding documentation can be found in interfaces.go
func (*ChaincodeStub) GetChannelID ¶
func (s *ChaincodeStub) GetChannelID() string
GetChannelID returns the channel for the proposal
func (*ChaincodeStub) GetCreator ¶
func (s *ChaincodeStub) GetCreator() ([]byte, error)
GetCreator documentation can be found in interfaces.go
func (*ChaincodeStub) GetDecorations ¶
func (s *ChaincodeStub) GetDecorations() map[string][]byte
GetDecorations ...
func (*ChaincodeStub) GetFunctionAndParameters ¶
func (s *ChaincodeStub) GetFunctionAndParameters() (function string, params []string)
GetFunctionAndParameters documentation can be found in interfaces.go
func (*ChaincodeStub) GetHistoryForKey ¶
func (s *ChaincodeStub) GetHistoryForKey(key string) (HistoryQueryIteratorInterface, error)
GetHistoryForKey documentation can be found in interfaces.go
func (*ChaincodeStub) GetPrivateData ¶
func (s *ChaincodeStub) GetPrivateData(collection string, key string) ([]byte, error)
GetPrivateData documentation can be found in interfaces.go
func (*ChaincodeStub) GetPrivateDataByPartialCompositeKey ¶
func (s *ChaincodeStub) GetPrivateDataByPartialCompositeKey(collection, objectType string, attributes []string) (StateQueryIteratorInterface, error)
GetPrivateDataByPartialCompositeKey documentation can be found in interfaces.go
func (*ChaincodeStub) GetPrivateDataByRange ¶
func (s *ChaincodeStub) GetPrivateDataByRange(collection, startKey, endKey string) (StateQueryIteratorInterface, error)
GetPrivateDataByRange documentation can be found in interfaces.go
func (*ChaincodeStub) GetPrivateDataHash ¶
func (s *ChaincodeStub) GetPrivateDataHash(collection string, key string) ([]byte, error)
GetPrivateDataHash documentation can be found in interfaces.go
func (*ChaincodeStub) GetPrivateDataQueryResult ¶
func (s *ChaincodeStub) GetPrivateDataQueryResult(collection, query string) (StateQueryIteratorInterface, error)
GetPrivateDataQueryResult documentation can be found in interfaces.go
func (*ChaincodeStub) GetPrivateDataValidationParameter ¶
func (s *ChaincodeStub) GetPrivateDataValidationParameter(collection, key string) ([]byte, error)
GetPrivateDataValidationParameter documentation can be found in interfaces.go
func (*ChaincodeStub) GetQueryResult ¶
func (s *ChaincodeStub) GetQueryResult(query string) (StateQueryIteratorInterface, error)
GetQueryResult documentation can be found in interfaces.go
func (*ChaincodeStub) GetQueryResultWithPagination ¶
func (s *ChaincodeStub) GetQueryResultWithPagination(query string, pageSize int32, bookmark string) (StateQueryIteratorInterface, *peer.QueryResponseMetadata, error)
GetQueryResultWithPagination ...
func (*ChaincodeStub) GetSignedProposal ¶
func (s *ChaincodeStub) GetSignedProposal() (*peer.SignedProposal, error)
GetSignedProposal documentation can be found in interfaces.go
func (*ChaincodeStub) GetState ¶
func (s *ChaincodeStub) GetState(key string) ([]byte, error)
GetState documentation can be found in interfaces.go
func (*ChaincodeStub) GetStateByPartialCompositeKey ¶
func (s *ChaincodeStub) GetStateByPartialCompositeKey(objectType string, attributes []string) (StateQueryIteratorInterface, error)
GetStateByPartialCompositeKey documentation can be found in interfaces.go
func (*ChaincodeStub) GetStateByPartialCompositeKeyWithPagination ¶
func (s *ChaincodeStub) GetStateByPartialCompositeKeyWithPagination(objectType string, keys []string, pageSize int32, bookmark string) (StateQueryIteratorInterface, *peer.QueryResponseMetadata, error)
GetStateByPartialCompositeKeyWithPagination ...
func (*ChaincodeStub) GetStateByRange ¶
func (s *ChaincodeStub) GetStateByRange(startKey, endKey string) (StateQueryIteratorInterface, error)
GetStateByRange documentation can be found in interfaces.go
func (*ChaincodeStub) GetStateByRangeWithPagination ¶
func (s *ChaincodeStub) GetStateByRangeWithPagination(startKey, endKey string, pageSize int32, bookmark string) (StateQueryIteratorInterface, *peer.QueryResponseMetadata, error)
GetStateByRangeWithPagination ...
func (*ChaincodeStub) GetStateValidationParameter ¶
func (s *ChaincodeStub) GetStateValidationParameter(key string) ([]byte, error)
GetStateValidationParameter documentation can be found in interfaces.go
func (*ChaincodeStub) GetStringArgs ¶
func (s *ChaincodeStub) GetStringArgs() []string
GetStringArgs documentation can be found in interfaces.go
func (*ChaincodeStub) GetTransient ¶
func (s *ChaincodeStub) GetTransient() (map[string][]byte, error)
GetTransient documentation can be found in interfaces.go
func (*ChaincodeStub) GetTxID ¶
func (s *ChaincodeStub) GetTxID() string
GetTxID returns the transaction ID for the proposal
func (*ChaincodeStub) GetTxTimestamp ¶
func (s *ChaincodeStub) GetTxTimestamp() (*timestamppb.Timestamp, error)
GetTxTimestamp documentation can be found in interfaces.go
func (*ChaincodeStub) InvokeChaincode ¶
func (s *ChaincodeStub) InvokeChaincode(chaincodeName string, args [][]byte, channel string) *peer.Response
InvokeChaincode documentation can be found in interfaces.go
func (*ChaincodeStub) PurgePrivateData ¶
func (s *ChaincodeStub) PurgePrivateData(collection string, key string) error
PurgePrivateData documentation can be found in interfaces.go
func (*ChaincodeStub) PutPrivateData ¶
func (s *ChaincodeStub) PutPrivateData(collection string, key string, value []byte) error
PutPrivateData documentation can be found in interfaces.go
func (*ChaincodeStub) PutState ¶
func (s *ChaincodeStub) PutState(key string, value []byte) error
PutState documentation can be found in interfaces.go
func (*ChaincodeStub) SetEvent ¶
func (s *ChaincodeStub) SetEvent(name string, payload []byte) error
SetEvent documentation can be found in interfaces.go
func (*ChaincodeStub) SetPrivateDataValidationParameter ¶
func (s *ChaincodeStub) SetPrivateDataValidationParameter(collection, key string, ep []byte) error
SetPrivateDataValidationParameter documentation can be found in interfaces.go
func (*ChaincodeStub) SetStateValidationParameter ¶
func (s *ChaincodeStub) SetStateValidationParameter(key string, ep []byte) error
SetStateValidationParameter documentation can be found in interfaces.go
func (*ChaincodeStub) SplitCompositeKey ¶
func (s *ChaincodeStub) SplitCompositeKey(compositeKey string) (string, []string, error)
SplitCompositeKey documentation can be found in interfaces.go
type ChaincodeStubInterface ¶
type ChaincodeStubInterface interface { // GetArgs returns the arguments intended for the chaincode Init and Invoke // as an array of byte arrays. GetArgs() [][]byte // GetStringArgs returns the arguments intended for the chaincode Init and // Invoke as a string array. Only use GetStringArgs if the client passes // arguments intended to be used as strings. GetStringArgs() []string // GetFunctionAndParameters returns the first argument as the function // name and the rest of the arguments as parameters in a string array. // Only use GetFunctionAndParameters if the client passes arguments intended // to be used as strings. GetFunctionAndParameters() (string, []string) // GetArgsSlice returns the arguments intended for the chaincode Init and // Invoke as a byte array GetArgsSlice() ([]byte, error) // GetTxID returns the tx_id of the transaction proposal, which is unique per // transaction and per client. See // https://godoc.org/github.com/hyperledger/fabric-protos-go-apiv2/common#ChannelHeader // for further details. GetTxID() string // GetChannelID returns the channel the proposal is sent to for chaincode to process. // This would be the channel_id of the transaction proposal (see // https://godoc.org/github.com/hyperledger/fabric-protos-go-apiv2/common#ChannelHeader ) // except where the chaincode is calling another on a different channel. GetChannelID() string // InvokeChaincode locally calls the specified chaincode `Invoke` using the // same transaction context; that is, chaincode calling chaincode doesn't // create a new transaction message. // If the called chaincode is on the same channel, it simply adds the called // chaincode read set and write set to the calling transaction. // If the called chaincode is on a different channel, // only the Response is returned to the calling chaincode; any PutState calls // from the called chaincode will not have any effect on the ledger; that is, // the called chaincode on a different channel will not have its read set // and write set applied to the transaction. Only the calling chaincode's // read set and write set will be applied to the transaction. Effectively // the called chaincode on a different channel is a `Query`, which does not // participate in state validation checks in subsequent commit phase. // If `channel` is empty, the caller's channel is assumed. InvokeChaincode(chaincodeName string, args [][]byte, channel string) *peer.Response // GetState returns the value of the specified `key` from the // ledger. Note that GetState doesn't read data from the writeset, which // has not been committed to the ledger. In other words, GetState doesn't // consider data modified by PutState that has not been committed. // If the key does not exist in the state database, (nil, nil) is returned. GetState(key string) ([]byte, error) // PutState puts the specified `key` and `value` into the transaction's // writeset as a data-write proposal. PutState doesn't effect the ledger // until the transaction is validated and successfully committed. // Simple keys must not be an empty string and must not start with a // null character (0x00) in order to avoid range query collisions with // composite keys, which internally get prefixed with 0x00 as composite // key namespace. In addition, if using CouchDB, keys can only contain // valid UTF-8 strings and cannot begin with an underscore ("_"). PutState(key string, value []byte) error // DelState records the specified `key` to be deleted in the writeset of // the transaction proposal. The `key` and its value will be deleted from // the ledger when the transaction is validated and successfully committed. DelState(key string) error // SetStateValidationParameter sets the key-level endorsement policy for `key`. SetStateValidationParameter(key string, ep []byte) error // GetStateValidationParameter retrieves the key-level endorsement policy // for `key`. Note that this will introduce a read dependency on `key` in // the transaction's readset. GetStateValidationParameter(key string) ([]byte, error) // GetStateByRange returns a range iterator over a set of keys in the // ledger. The iterator can be used to iterate over all keys // between the startKey (inclusive) and endKey (exclusive). // However, if the number of keys between startKey and endKey is greater than the // totalQueryLimit (defined in core.yaml), this iterator cannot be used // to fetch all keys (results will be capped by the totalQueryLimit). // The keys are returned by the iterator in lexical order. Note // that startKey and endKey can be empty string, which implies unbounded range // query on start or end. // Call Close() on the returned StateQueryIteratorInterface object when done. // The query is re-executed during validation phase to ensure result set // has not changed since transaction endorsement (phantom reads detected). GetStateByRange(startKey, endKey string) (StateQueryIteratorInterface, error) // GetStateByRangeWithPagination returns a range iterator over a set of keys in the // ledger. The iterator can be used to fetch keys between the startKey (inclusive) // and endKey (exclusive). // When an empty string is passed as a value to the bookmark argument, the returned // iterator can be used to fetch the first `pageSize` keys between the startKey // (inclusive) and endKey (exclusive). // When the bookmark is a non-emptry string, the iterator can be used to fetch // the first `pageSize` keys between the bookmark (inclusive) and endKey (exclusive). // Note that only the bookmark present in a prior page of query results (ResponseMetadata) // can be used as a value to the bookmark argument. Otherwise, an empty string must // be passed as bookmark. // The keys are returned by the iterator in lexical order. Note // that startKey and endKey can be empty string, which implies unbounded range // query on start or end. // Call Close() on the returned StateQueryIteratorInterface object when done. // This call is only supported in a read only transaction. GetStateByRangeWithPagination(startKey, endKey string, pageSize int32, bookmark string) (StateQueryIteratorInterface, *peer.QueryResponseMetadata, error) // GetStateByPartialCompositeKey queries the state in the ledger based on // a given partial composite key. This function returns an iterator // which can be used to iterate over all composite keys whose prefix matches // the given partial composite key. However, if the number of matching composite // keys is greater than the totalQueryLimit (defined in core.yaml), this iterator // cannot be used to fetch all matching keys (results will be limited by the totalQueryLimit). // The `objectType` and attributes are expected to have only valid utf8 strings and // should not contain U+0000 (nil byte) and U+10FFFF (biggest and unallocated code point). // See related functions SplitCompositeKey and CreateCompositeKey. // Call Close() on the returned StateQueryIteratorInterface object when done. // The query is re-executed during validation phase to ensure result set // has not changed since transaction endorsement (phantom reads detected). This function should be used only for // a partial composite key. For a full composite key, an iter with empty response // would be returned. GetStateByPartialCompositeKey(objectType string, keys []string) (StateQueryIteratorInterface, error) // GetStateByPartialCompositeKeyWithPagination queries the state in the ledger based on // a given partial composite key. This function returns an iterator // which can be used to iterate over the composite keys whose // prefix matches the given partial composite key. // When an empty string is passed as a value to the bookmark argument, the returned // iterator can be used to fetch the first `pageSize` composite keys whose prefix // matches the given partial composite key. // When the bookmark is a non-emptry string, the iterator can be used to fetch // the first `pageSize` keys between the bookmark (inclusive) and the last matching // composite key. // Note that only the bookmark present in a prior page of query result (ResponseMetadata) // can be used as a value to the bookmark argument. Otherwise, an empty string must // be passed as bookmark. // The `objectType` and attributes are expected to have only valid utf8 strings // and should not contain U+0000 (nil byte) and U+10FFFF (biggest and unallocated // code point). See related functions SplitCompositeKey and CreateCompositeKey. // Call Close() on the returned StateQueryIteratorInterface object when done. // This call is only supported in a read only transaction. This function should be used only for // a partial composite key. For a full composite key, an iter with empty response // would be returned. GetStateByPartialCompositeKeyWithPagination(objectType string, keys []string, pageSize int32, bookmark string) (StateQueryIteratorInterface, *peer.QueryResponseMetadata, error) // CreateCompositeKey combines the given `attributes` to form a composite // key. The objectType and attributes are expected to have only valid utf8 // strings and should not contain U+0000 (nil byte) and U+10FFFF // (biggest and unallocated code point). // The resulting composite key can be used as the key in PutState(). CreateCompositeKey(objectType string, attributes []string) (string, error) // SplitCompositeKey splits the specified key into attributes on which the // composite key was formed. Composite keys found during range queries // or partial composite key queries can therefore be split into their // composite parts. SplitCompositeKey(compositeKey string) (string, []string, error) // GetQueryResult performs a "rich" query against a state database. It is // only supported for state databases that support rich query, // e.g.CouchDB. The query string is in the native syntax // of the underlying state database. An iterator is returned // which can be used to iterate over all keys in the query result set. // However, if the number of keys in the query result set is greater than the // totalQueryLimit (defined in core.yaml), this iterator cannot be used // to fetch all keys in the query result set (results will be limited by // the totalQueryLimit). // The query is NOT re-executed during validation phase, phantom reads are // not detected. That is, other committed transactions may have added, // updated, or removed keys that impact the result set, and this would not // be detected at validation/commit time. Applications susceptible to this // should therefore not use GetQueryResult as part of transactions that update // ledger, and should limit use to read-only chaincode operations. GetQueryResult(query string) (StateQueryIteratorInterface, error) // GetQueryResultWithPagination performs a "rich" query against a state database. // It is only supported for state databases that support rich query, // e.g., CouchDB. The query string is in the native syntax // of the underlying state database. An iterator is returned // which can be used to iterate over keys in the query result set. // When an empty string is passed as a value to the bookmark argument, the returned // iterator can be used to fetch the first `pageSize` of query results. // When the bookmark is a non-emptry string, the iterator can be used to fetch // the first `pageSize` keys between the bookmark and the last key in the query result. // Note that only the bookmark present in a prior page of query results (ResponseMetadata) // can be used as a value to the bookmark argument. Otherwise, an empty string // must be passed as bookmark. // This call is only supported in a read only transaction. GetQueryResultWithPagination(query string, pageSize int32, bookmark string) (StateQueryIteratorInterface, *peer.QueryResponseMetadata, error) // GetHistoryForKey returns a history of key values across time. // For each historic key update, the historic value and associated // transaction id and timestamp are returned. The timestamp is the // timestamp provided by the client in the proposal header. // GetHistoryForKey requires peer configuration // core.ledger.history.enableHistoryDatabase to be true. // The query is NOT re-executed during validation phase, phantom reads are // not detected. That is, other committed transactions may have updated // the key concurrently, impacting the result set, and this would not be // detected at validation/commit time. Applications susceptible to this // should therefore not use GetHistoryForKey as part of transactions that // update ledger, and should limit use to read-only chaincode operations. // Starting in Fabric v2.0, the GetHistoryForKey chaincode API // will return results from newest to oldest in terms of ordered transaction // height (block height and transaction height within block). // This will allow applications to efficiently iterate through the top results // to understand recent changes to a key. GetHistoryForKey(key string) (HistoryQueryIteratorInterface, error) // GetPrivateData returns the value of the specified `key` from the specified // `collection`. Note that GetPrivateData doesn't read data from the // private writeset, which has not been committed to the `collection`. In // other words, GetPrivateData doesn't consider data modified by PutPrivateData // that has not been committed. GetPrivateData(collection, key string) ([]byte, error) // GetPrivateDataHash returns the hash of the value of the specified `key` from the specified // `collection` GetPrivateDataHash(collection, key string) ([]byte, error) // PutPrivateData puts the specified `key` and `value` into the transaction's // private writeset. Note that only hash of the private writeset goes into the // transaction proposal response (which is sent to the client who issued the // transaction) and the actual private writeset gets temporarily stored in a // transient store. PutPrivateData doesn't effect the `collection` until the // transaction is validated and successfully committed. Simple keys must not // be an empty string and must not start with a null character (0x00) in order // to avoid range query collisions with composite keys, which internally get // prefixed with 0x00 as composite key namespace. In addition, if using // CouchDB, keys can only contain valid UTF-8 strings and cannot begin with an // an underscore ("_"). PutPrivateData(collection string, key string, value []byte) error // DelPrivateData records the specified `key` to be deleted in the private writeset // of the transaction. Note that only hash of the private writeset goes into the // transaction proposal response (which is sent to the client who issued the // transaction) and the actual private writeset gets temporarily stored in a // transient store. The `key` and its value will be deleted from the collection // when the transaction is validated and successfully committed. DelPrivateData(collection, key string) error // PurgePrivateData records the specified `key` to be purged in the private writeset // of the transaction. Note that only hash of the private writeset goes into the // transaction proposal response (which is sent to the client who issued the // transaction) and the actual private writeset gets temporarily stored in a // transient store. The `key` and its value will be deleted from the collection // when the transaction is validated and successfully committed, and will // subsequently be completely removed from the private data store (that maintains // the historical versions of private writesets) as a background operation. PurgePrivateData(collection, key string) error // SetPrivateDataValidationParameter sets the key-level endorsement policy // for the private data specified by `key`. SetPrivateDataValidationParameter(collection, key string, ep []byte) error // GetPrivateDataValidationParameter retrieves the key-level endorsement // policy for the private data specified by `key`. Note that this introduces // a read dependency on `key` in the transaction's readset. GetPrivateDataValidationParameter(collection, key string) ([]byte, error) // GetPrivateDataByRange returns a range iterator over a set of keys in a // given private collection. The iterator can be used to iterate over all keys // between the startKey (inclusive) and endKey (exclusive). // The keys are returned by the iterator in lexical order. Note // that startKey and endKey can be empty string, which implies unbounded range // query on start or end. // Call Close() on the returned StateQueryIteratorInterface object when done. // The query is re-executed during validation phase to ensure result set // has not changed since transaction endorsement (phantom reads detected). GetPrivateDataByRange(collection, startKey, endKey string) (StateQueryIteratorInterface, error) // GetPrivateDataByPartialCompositeKey queries the state in a given private // collection based on a given partial composite key. This function returns // an iterator which can be used to iterate over all composite keys whose prefix // matches the given partial composite key. The `objectType` and attributes are // expected to have only valid utf8 strings and should not contain // U+0000 (nil byte) and U+10FFFF (biggest and unallocated code point). // See related functions SplitCompositeKey and CreateCompositeKey. // Call Close() on the returned StateQueryIteratorInterface object when done. // The query is re-executed during validation phase to ensure result set // has not changed since transaction endorsement (phantom reads detected). This function should be used only for //a partial composite key. For a full composite key, an iter with empty response //would be returned. GetPrivateDataByPartialCompositeKey(collection, objectType string, keys []string) (StateQueryIteratorInterface, error) // GetPrivateDataQueryResult performs a "rich" query against a given private // collection. It is only supported for state databases that support rich query, // e.g.CouchDB. The query string is in the native syntax // of the underlying state database. An iterator is returned // which can be used to iterate (next) over the query result set. // The query is NOT re-executed during validation phase, phantom reads are // not detected. That is, other committed transactions may have added, // updated, or removed keys that impact the result set, and this would not // be detected at validation/commit time. Applications susceptible to this // should therefore not use GetPrivateDataQueryResult as part of transactions that update // ledger, and should limit use to read-only chaincode operations. GetPrivateDataQueryResult(collection, query string) (StateQueryIteratorInterface, error) // GetCreator returns `SignatureHeader.Creator` (e.g. an identity) // of the `SignedProposal`. This is the identity of the agent (or user) // submitting the transaction. GetCreator() ([]byte, error) // GetTransient returns the `ChaincodeProposalPayload.Transient` field. // It is a map that contains data (e.g. cryptographic material) // that might be used to implement some form of application-level // confidentiality. The contents of this field, as prescribed by // `ChaincodeProposalPayload`, are supposed to always // be omitted from the transaction and excluded from the ledger. GetTransient() (map[string][]byte, error) // GetBinding returns the transaction binding, which is used to enforce a // link between application data (like those stored in the transient field // above) to the proposal itself. This is useful to avoid possible replay // attacks. GetBinding() ([]byte, error) // GetDecorations returns additional data (if applicable) about the proposal // that originated from the peer. This data is set by the decorators of the // peer, which append or mutate the chaincode input passed to the chaincode. GetDecorations() map[string][]byte // GetSignedProposal returns the SignedProposal object, which contains all // data elements part of a transaction proposal. GetSignedProposal() (*peer.SignedProposal, error) // GetTxTimestamp returns the timestamp when the transaction was created. This // is taken from the transaction ChannelHeader, therefore it will indicate the // client's timestamp and will have the same value across all endorsers. GetTxTimestamp() (*timestamppb.Timestamp, error) // SetEvent allows the chaincode to set an event on the response to the // proposal to be included as part of a transaction. The event will be // available within the transaction in the committed block regardless of the // validity of the transaction. // Only a single event can be included in a transaction, and must originate // from the outer-most invoked chaincode in chaincode-to-chaincode scenarios. // The marshaled ChaincodeEvent will be available in the transaction's ChaincodeAction.events field. SetEvent(name string, payload []byte) error }
ChaincodeStubInterface is used by deployable chaincode apps to access and modify their ledgers
type ClientStream ¶
type ClientStream interface { PeerChaincodeStream CloseSend() error }
ClientStream supports the (original) chaincode-as-client interaction pattern
type CommonIterator ¶
type CommonIterator struct {
// contains filtered or unexported fields
}
CommonIterator documentation can be found in interfaces.go
func (*CommonIterator) Close ¶
func (iter *CommonIterator) Close() error
Close documentation can be found in interfaces.go
func (*CommonIterator) HasNext ¶
func (iter *CommonIterator) HasNext() bool
HasNext documentation can be found in interfaces.go
type CommonIteratorInterface ¶
type CommonIteratorInterface interface { // HasNext returns true if the range query iterator contains additional keys // and values. HasNext() bool // Close closes the iterator. This should be called when done // reading from the iterator to free up resources. Close() error }
CommonIteratorInterface allows a chaincode to check whether any more result to be fetched from an iterator and close it when done.
type Handler ¶
type Handler struct {
// contains filtered or unexported fields
}
Handler handler implementation for shim side of chaincode.
type HistoryQueryIterator ¶
type HistoryQueryIterator struct {
*CommonIterator
}
HistoryQueryIterator documentation can be found in interfaces.go
func (*HistoryQueryIterator) Next ¶
func (iter *HistoryQueryIterator) Next() (*queryresult.KeyModification, error)
Next ...
type HistoryQueryIteratorInterface ¶
type HistoryQueryIteratorInterface interface { // Inherit HasNext() and Close() CommonIteratorInterface // Next returns the next key and value in the history query iterator. Next() (*queryresult.KeyModification, error) }
HistoryQueryIteratorInterface allows a chaincode to iterate over a set of key/value pairs returned by a history query.
type PeerChaincodeStream ¶
type PeerChaincodeStream interface { Send(*peer.ChaincodeMessage) error Recv() (*peer.ChaincodeMessage, error) }
PeerChaincodeStream is the common stream interface for Peer - chaincode communication. Both chaincode-as-server and chaincode-as-client patterns need to support this
type StateQueryIterator ¶
type StateQueryIterator struct {
*CommonIterator
}
StateQueryIterator documentation can be found in interfaces.go
func (*StateQueryIterator) Next ¶
func (iter *StateQueryIterator) Next() (*queryresult.KV, error)
Next ...
type StateQueryIteratorInterface ¶
type StateQueryIteratorInterface interface { // Inherit HasNext() and Close() CommonIteratorInterface // Next returns the next key and value in the range and execute query iterator. Next() (*queryresult.KV, error) }
StateQueryIteratorInterface allows a chaincode to iterate over a set of key/value pairs returned by range and execute query.