Documentation ¶
Index ¶
- type BlockAndPvtData
- type BlockPvtData
- type ChaincodeLifecycleDetails
- type ChaincodeLifecycleInfo
- type CollConfigNotDefinedError
- type CollectionConfigInfo
- type CommitOptions
- type ConfigHistoryRetriever
- type DeployedChaincodeInfo
- type DeployedChaincodeInfoProvider
- type ErrCollectionConfigNotYetAvailable
- type HealthCheckRegistry
- type HistoryQueryExecutor
- type Initializer
- type InvalidCollNameError
- type MembershipInfoProvider
- type MissingBlockPvtdataInfo
- type MissingCollectionPvtDataInfo
- type MissingPvtData
- type MissingPvtDataInfo
- type MissingPvtDataTracker
- type NotFoundInIndexErr
- type PeerLedger
- type PeerLedgerProvider
- type PvtCollFilter
- type PvtNsCollFilter
- type PvtdataHashMismatch
- type QueryExecutor
- type QueryResultsIterator
- type SimpleQueryExecutor
- type StateListener
- type StateUpdateTrigger
- type StateUpdates
- type TxMissingPvtDataMap
- type TxPvtData
- type TxPvtDataMap
- type TxSimulationResults
- type TxSimulator
Constants ¶
This section is empty.
Variables ¶
This section is empty.
Functions ¶
This section is empty.
Types ¶
type BlockAndPvtData ¶
type BlockAndPvtData struct { Block *common.Block PvtData TxPvtDataMap MissingPvtData TxMissingPvtDataMap }
BlockAndPvtData encapsulates the block and a map that contains the tuples <seqInBlock, *TxPvtData> The map is expected to contain the entries only for the transactions that has associated pvt data
type BlockPvtData ¶
type BlockPvtData struct { BlockNum uint64 WriteSets TxPvtDataMap }
BlockPvtData contains the private data for a block
type ChaincodeLifecycleDetails ¶
type ChaincodeLifecycleDetails struct { Updated bool // true, if an existing chaincode is updated (false for newly deployed chaincodes). // Following attributes are meaningful only if 'Updated' is true HashChanged bool // true, if the chaincode code package is changed CollectionsUpdated []string // names of the collections that are either added or updated CollectionsRemoved []string // names of the collections that are removed }
ChaincodeLifecycleDetails captures the finer details of chaincode lifecycle event
type ChaincodeLifecycleInfo ¶
type ChaincodeLifecycleInfo struct { Name string Deleted bool Details *ChaincodeLifecycleDetails // Can contain finer details about lifecycle event that can be used for certain optimization }
ChaincodeLifecycleInfo captures the update info of a chaincode
type CollConfigNotDefinedError ¶
type CollConfigNotDefinedError struct {
Ns string
}
CollConfigNotDefinedError is returned whenever an operation is requested on a collection whose config has not been defined
func (*CollConfigNotDefinedError) Error ¶
func (e *CollConfigNotDefinedError) Error() string
type CollectionConfigInfo ¶
type CollectionConfigInfo struct { CollectionConfig *common.CollectionConfigPackage CommittingBlockNum uint64 }
CollectionConfigInfo encapsulates a collection config for a chaincode and its committing block number
type CommitOptions ¶
type CommitOptions struct {
FetchPvtDataFromLedger bool
}
CommitOptions encapsulates options associated with a block commit.
type ConfigHistoryRetriever ¶
type ConfigHistoryRetriever interface { CollectionConfigAt(blockNum uint64, chaincodeName string) (*CollectionConfigInfo, error) MostRecentCollectionConfigBelow(blockNum uint64, chaincodeName string) (*CollectionConfigInfo, error) }
ConfigHistoryRetriever allow retrieving history of collection configs
type DeployedChaincodeInfo ¶
type DeployedChaincodeInfo struct { Name string Hash []byte Version string CollectionConfigPkg *common.CollectionConfigPackage }
DeployedChaincodeInfo encapsulates chaincode information from the deployed chaincodes
type DeployedChaincodeInfoProvider ¶
type DeployedChaincodeInfoProvider interface { Namespaces() []string UpdatedChaincodes(stateUpdates map[string][]*kvrwset.KVWrite) ([]*ChaincodeLifecycleInfo, error) ChaincodeInfo(chaincodeName string, qe SimpleQueryExecutor) (*DeployedChaincodeInfo, error) CollectionInfo(chaincodeName, collectionName string, qe SimpleQueryExecutor) (*common.StaticCollectionConfig, error) }
DeployedChaincodeInfoProvider is a dependency that is used by ledger to build collection config history LSCC module is expected to provide an implementation fo this dependencys
type ErrCollectionConfigNotYetAvailable ¶
ErrCollectionConfigNotYetAvailable is an error which is returned from the function ConfigHistoryRetriever.CollectionConfigAt() if the latest block number committed is lower than the block number specified in the request.
func (*ErrCollectionConfigNotYetAvailable) Error ¶
func (e *ErrCollectionConfigNotYetAvailable) Error() string
type HealthCheckRegistry ¶
type HealthCheckRegistry interface {
RegisterChecker(string, healthz.HealthChecker) error
}
type HistoryQueryExecutor ¶
type HistoryQueryExecutor interface { // GetHistoryForKey retrieves the history of values for a key. // The returned ResultsIterator contains results of type *KeyModification which is defined in protos/ledger/queryresult. GetHistoryForKey(namespace string, key string) (commonledger.ResultsIterator, error) }
HistoryQueryExecutor executes the history queries
type Initializer ¶
type Initializer struct { StateListeners []StateListener DeployedChaincodeInfoProvider DeployedChaincodeInfoProvider MembershipInfoProvider MembershipInfoProvider MetricsProvider metrics.Provider HealthCheckRegistry HealthCheckRegistry }
Initializer encapsulates dependencies for PeerLedgerProvider
type InvalidCollNameError ¶
type InvalidCollNameError struct {
Ns, Coll string
}
InvalidCollNameError is returned whenever an operation is requested on a collection whose name is invalid
func (*InvalidCollNameError) Error ¶
func (e *InvalidCollNameError) Error() string
type MembershipInfoProvider ¶
type MembershipInfoProvider interface { // AmMemberOf checks whether the current peer is a member of the given collection AmMemberOf(channelName string, collectionPolicyConfig *common.CollectionPolicyConfig) (bool, error) }
MembershipInfoProvider is a dependency that is used by ledger to determine whether the current peer is a member of a collection. Gossip module is expected to provide the dependency to ledger
type MissingBlockPvtdataInfo ¶
type MissingBlockPvtdataInfo map[uint64][]*MissingCollectionPvtDataInfo
MissingBlockPvtdataInfo is a map of transaction number (within the block) to MissingCollectionPvtDataInfo
type MissingCollectionPvtDataInfo ¶
type MissingCollectionPvtDataInfo struct {
Namespace, Collection string
}
MissingCollectionPvtDataInfo includes the name of the chaincode and collection for which private data is missing
type MissingPvtData ¶
MissingPvtData contains a namespace and collection for which the pvtData is not present. It also denotes whether the missing pvtData is eligible (i.e., whether the peer is member of the [namespace, collection]
type MissingPvtDataInfo ¶
type MissingPvtDataInfo map[uint64]MissingBlockPvtdataInfo
MissingPvtDataInfo is a map of block number to MissingBlockPvtdataInfo
func (MissingPvtDataInfo) Add ¶
func (missingPvtDataInfo MissingPvtDataInfo) Add(blkNum, txNum uint64, ns, coll string)
Add adds a missing data entry to the MissingPvtDataInfo Map
type MissingPvtDataTracker ¶
type MissingPvtDataTracker interface {
GetMissingPvtDataInfoForMostRecentBlocks(maxBlocks int) (MissingPvtDataInfo, error)
}
MissingPvtDataTracker allows getting information about the private data that is not missing on the peer
type NotFoundInIndexErr ¶
type NotFoundInIndexErr string
NotFoundInIndexErr is used to indicate missing entry in the index
func (NotFoundInIndexErr) Error ¶
func (NotFoundInIndexErr) Error() string
type PeerLedger ¶
type PeerLedger interface { commonledger.Ledger // GetTransactionByID retrieves a transaction by id GetTransactionByID(txID string) (*peer.ProcessedTransaction, error) // GetBlockByHash returns a block given it's hash GetBlockByHash(blockHash []byte) (*common.Block, error) // GetBlockByTxID returns a block which contains a transaction GetBlockByTxID(txID string) (*common.Block, error) // GetTxValidationCodeByTxID returns reason code of transaction validation GetTxValidationCodeByTxID(txID string) (peer.TxValidationCode, error) // NewTxSimulator gives handle to a transaction simulator. // A client can obtain more than one 'TxSimulator's for parallel execution. // Any snapshoting/synchronization should be performed at the implementation level if required NewTxSimulator(txid string) (TxSimulator, error) // NewQueryExecutor gives handle to a query executor. // A client can obtain more than one 'QueryExecutor's for parallel execution. // Any synchronization should be performed at the implementation level if required NewQueryExecutor() (QueryExecutor, error) // NewHistoryQueryExecutor gives handle to a history query executor. // A client can obtain more than one 'HistoryQueryExecutor's for parallel execution. // Any synchronization should be performed at the implementation level if required NewHistoryQueryExecutor() (HistoryQueryExecutor, error) // GetPvtDataAndBlockByNum returns the block and the corresponding pvt data. // The pvt data is filtered by the list of 'ns/collections' supplied // A nil filter does not filter any results and causes retrieving all the pvt data for the given blockNum GetPvtDataAndBlockByNum(blockNum uint64, filter PvtNsCollFilter) (*BlockAndPvtData, error) // GetPvtDataByNum returns only the pvt data corresponding to the given block number // The pvt data is filtered by the list of 'ns/collections' supplied in the filter // A nil filter does not filter any results and causes retrieving all the pvt data for the given blockNum GetPvtDataByNum(blockNum uint64, filter PvtNsCollFilter) ([]*TxPvtData, error) // CommitWithPvtData commits the block and the corresponding pvt data in an atomic operation CommitWithPvtData(blockAndPvtdata *BlockAndPvtData, commitOpts *CommitOptions) error // Purge removes private read-writes set generated by endorsers at block height lesser than // a given maxBlockNumToRetain. In other words, Purge only retains private read-write sets // that were generated at block height of maxBlockNumToRetain or higher. PurgePrivateData(maxBlockNumToRetain uint64) error // PrivateDataMinBlockNum returns the lowest retained endorsement block height PrivateDataMinBlockNum() (uint64, error) //Prune prunes the blocks/transactions that satisfy the given policy Prune(policy commonledger.PrunePolicy) error // GetConfigHistoryRetriever returns the ConfigHistoryRetriever GetConfigHistoryRetriever() (ConfigHistoryRetriever, error) // CommitPvtDataOfOldBlocks commits the private data corresponding to already committed block // If hashes for some of the private data supplied in this function does not match // the corresponding hash present in the block, the unmatched private data is not // committed and instead the mismatch inforation is returned back CommitPvtDataOfOldBlocks(blockPvtData []*BlockPvtData) ([]*PvtdataHashMismatch, error) // GetMissingPvtDataTracker return the MissingPvtDataTracker GetMissingPvtDataTracker() (MissingPvtDataTracker, error) // DoesPvtDataInfoExist returns true when // (1) the ledger has pvtdata associated with the given block number (or) // (2) a few or all pvtdata associated with the given block number is missing but the // missing info is recorded in the ledger (or) // (3) the block is committed and does not contain any pvtData. DoesPvtDataInfoExist(blockNum uint64) (bool, error) }
PeerLedger differs from the OrdererLedger in that PeerLedger locally maintain a bitmask that tells apart valid transactions from invalid ones
type PeerLedgerProvider ¶
type PeerLedgerProvider interface { Initialize(initializer *Initializer) error // Create creates a new ledger with the given genesis block. // This function guarantees that the creation of ledger and committing the genesis block would an atomic action // The chain id retrieved from the genesis block is treated as a ledger id Create(genesisBlock *common.Block) (PeerLedger, error) // Open opens an already created ledger Open(ledgerID string) (PeerLedger, error) // Exists tells whether the ledger with given id exists Exists(ledgerID string) (bool, error) // List lists the ids of the existing ledgers List() ([]string, error) // Close closes the PeerLedgerProvider Close() }
PeerLedgerProvider provides handle to ledger instances
type PvtCollFilter ¶
PvtCollFilter represents the set of the collection names (as keys of the map with value 'true')
type PvtNsCollFilter ¶
type PvtNsCollFilter map[string]PvtCollFilter
PvtNsCollFilter specifies the tuple <namespace, PvtCollFilter>
func NewPvtNsCollFilter ¶
func NewPvtNsCollFilter() PvtNsCollFilter
NewPvtNsCollFilter constructs an empty PvtNsCollFilter
func (PvtNsCollFilter) Add ¶
func (filter PvtNsCollFilter) Add(ns string, coll string)
Add adds a namespace-collection tuple to the filter
type PvtdataHashMismatch ¶
type PvtdataHashMismatch struct {
BlockNum, TxNum uint64
Namespace, Collection string
ExpectedHash []byte
}
PvtdataHashMismatch is used when the hash of private write-set does not match the corresponding hash present in the block See function `PeerLedger.CommitPvtData` for the usages
type QueryExecutor ¶
type QueryExecutor interface { SimpleQueryExecutor // GetStateMetadata returns the metadata for given namespace and key GetStateMetadata(namespace, key string) (map[string][]byte, error) // GetStateMultipleKeys gets the values for multiple keys in a single call GetStateMultipleKeys(namespace string, keys []string) ([][]byte, error) // GetStateRangeScanIteratorWithMetadata returns an iterator that contains all the key-values between given key ranges. // startKey is included in the results and endKey is excluded. An empty startKey refers to the first available key // and an empty endKey refers to the last available key. For scanning all the keys, both the startKey and the endKey // can be supplied as empty strings. However, a full scan should be used judiciously for performance reasons. // metadata is a map of additional query parameters // The returned ResultsIterator contains results of type *KV which is defined in protos/ledger/queryresult. GetStateRangeScanIteratorWithMetadata(namespace string, startKey, endKey string, metadata map[string]interface{}) (QueryResultsIterator, error) // ExecuteQuery executes the given query and returns an iterator that contains results of type specific to the underlying data store. // Only used for state databases that support query // For a chaincode, the namespace corresponds to the chaincodeId // The returned ResultsIterator contains results of type *KV which is defined in protos/ledger/queryresult. ExecuteQuery(namespace, query string) (commonledger.ResultsIterator, error) // ExecuteQueryWithMetadata executes the given query and returns an iterator that contains results of type specific to the underlying data store. // metadata is a map of additional query parameters // Only used for state databases that support query // For a chaincode, the namespace corresponds to the chaincodeId // The returned ResultsIterator contains results of type *KV which is defined in protos/ledger/queryresult. ExecuteQueryWithMetadata(namespace, query string, metadata map[string]interface{}) (QueryResultsIterator, error) // GetPrivateData gets the value of a private data item identified by a tuple <namespace, collection, key> GetPrivateData(namespace, collection, key string) ([]byte, error) // GetPrivateDataHash gets the hash of the value of a private data item identified by a tuple <namespace, collection, key> // Function `GetPrivateData` is only meaningful when it is invoked on a peer that is authorized to have the private data // for the collection <namespace, collection>. However, the function `GetPrivateDataHash` can be invoked on any peer // to get the hash of the current value GetPrivateDataHash(namespace, collection, key string) ([]byte, error) // GetPrivateDataMetadata gets the metadata of a private data item identified by a tuple <namespace, collection, key> GetPrivateDataMetadata(namespace, collection, key string) (map[string][]byte, error) // GetPrivateDataMetadataByHash gets the metadata of a private data item identified by a tuple <namespace, collection, keyhash> GetPrivateDataMetadataByHash(namespace, collection string, keyhash []byte) (map[string][]byte, error) // GetPrivateDataMultipleKeys gets the values for the multiple private data items in a single call GetPrivateDataMultipleKeys(namespace, collection string, keys []string) ([][]byte, error) // GetPrivateDataRangeScanIterator returns an iterator that contains all the key-values between given key ranges. // startKey is included in the results and endKey is excluded. An empty startKey refers to the first available key // and an empty endKey refers to the last available key. For scanning all the keys, both the startKey and the endKey // can be supplied as empty strings. However, a full scan shuold be used judiciously for performance reasons. // The returned ResultsIterator contains results of type *KV which is defined in protos/ledger/queryresult. GetPrivateDataRangeScanIterator(namespace, collection, startKey, endKey string) (commonledger.ResultsIterator, error) // ExecuteQuery executes the given query and returns an iterator that contains results of type specific to the underlying data store. // Only used for state databases that support query // For a chaincode, the namespace corresponds to the chaincodeId // The returned ResultsIterator contains results of type *KV which is defined in protos/ledger/queryresult. ExecuteQueryOnPrivateData(namespace, collection, query string) (commonledger.ResultsIterator, error) // Done releases resources occupied by the QueryExecutor Done() }
QueryExecutor executes the queries Get* methods are for supporting KV-based data model. ExecuteQuery method is for supporting a rich datamodel and query support
ExecuteQuery method in the case of a rich data model is expected to support queries on latest state, historical state and on the intersection of state and transactions
type QueryResultsIterator ¶
type QueryResultsIterator interface { commonledger.ResultsIterator // GetBookmarkAndClose returns a paging bookmark and releases resources occupied by the iterator GetBookmarkAndClose() string }
QueryResultsIterator - an iterator for query result set
type SimpleQueryExecutor ¶
type SimpleQueryExecutor interface { // GetState gets the value for given namespace and key. For a chaincode, the namespace corresponds to the chaincodeId GetState(namespace string, key string) ([]byte, error) // GetStateRangeScanIterator returns an iterator that contains all the key-values between given key ranges. // startKey is included in the results and endKey is excluded. An empty startKey refers to the first available key // and an empty endKey refers to the last available key. For scanning all the keys, both the startKey and the endKey // can be supplied as empty strings. However, a full scan should be used judiciously for performance reasons. // The returned ResultsIterator contains results of type *KV which is defined in protos/ledger/queryresult. GetStateRangeScanIterator(namespace string, startKey string, endKey string) (commonledger.ResultsIterator, error) }
SimpleQueryExecutor encapsulates basic functions
type StateListener ¶
type StateListener interface { InterestedInNamespaces() []string HandleStateUpdates(trigger *StateUpdateTrigger) error StateCommitDone(channelID string) }
StateListener allows a custom code for performing additional stuff upon state change for a perticular namespace against which the listener is registered. This helps to perform custom tasks other than the state updates. A ledger implemetation is expected to invoke Function `HandleStateUpdates` once per block and the `stateUpdates` parameter passed to the function captures the state changes caused by the block for the namespace. The actual data type of stateUpdates depends on the data model enabled. For instance, for KV data model, the actual type would be proto message `github.com/hyperledger/fabric/protos/ledger/rwset/kvrwset.KVWrite` Function `HandleStateUpdates` is expected to be invoked before block is committed and if this function returns an error, the ledger implementation is expected to halt block commit operation and result in a panic
type StateUpdateTrigger ¶
type StateUpdateTrigger struct { LedgerID string StateUpdates StateUpdates CommittingBlockNum uint64 CommittedStateQueryExecutor SimpleQueryExecutor PostCommitQueryExecutor SimpleQueryExecutor }
StateUpdateTrigger encapsulates the information and helper tools that may be used by a StateListener
type StateUpdates ¶
type StateUpdates map[string]interface{}
StateUpdates is the generic type to represent the state updates
type TxMissingPvtDataMap ¶
type TxMissingPvtDataMap map[uint64][]*MissingPvtData
TxMissingPvtDataMap is a map from txNum to the list of missing pvtData
type TxPvtData ¶
type TxPvtData struct { SeqInBlock uint64 WriteSet *rwset.TxPvtReadWriteSet }
TxPvtData encapsulates the transaction number and pvt write-set for a transaction
type TxPvtDataMap ¶
TxPvtDataMap is a map from txNum to the pvtData
type TxSimulationResults ¶
type TxSimulationResults struct { PubSimulationResults *rwset.TxReadWriteSet PvtSimulationResults *rwset.TxPvtReadWriteSet }
TxSimulationResults captures the details of the simulation results
func (*TxSimulationResults) ContainsPvtWrites ¶
func (txSim *TxSimulationResults) ContainsPvtWrites() bool
ContainsPvtWrites returns true if the simulation results include the private writes
func (*TxSimulationResults) GetPubSimulationBytes ¶
func (txSim *TxSimulationResults) GetPubSimulationBytes() ([]byte, error)
GetPubSimulationBytes returns the serialized bytes of public readwrite set
func (*TxSimulationResults) GetPvtSimulationBytes ¶
func (txSim *TxSimulationResults) GetPvtSimulationBytes() ([]byte, error)
GetPvtSimulationBytes returns the serialized bytes of private readwrite set
type TxSimulator ¶
type TxSimulator interface { QueryExecutor // SetState sets the given value for the given namespace and key. For a chaincode, the namespace corresponds to the chaincodeId SetState(namespace string, key string, value []byte) error // DeleteState deletes the given namespace and key DeleteState(namespace string, key string) error // SetMultipleKeys sets the values for multiple keys in a single call SetStateMultipleKeys(namespace string, kvs map[string][]byte) error // SetStateMetadata sets the metadata associated with an existing key-tuple <namespace, key> SetStateMetadata(namespace, key string, metadata map[string][]byte) error // DeleteStateMetadata deletes the metadata (if any) associated with an existing key-tuple <namespace, key> DeleteStateMetadata(namespace, key string) error // ExecuteUpdate for supporting rich data model (see comments on QueryExecutor above) ExecuteUpdate(query string) error // SetPrivateData sets the given value to a key in the private data state represented by the tuple <namespace, collection, key> SetPrivateData(namespace, collection, key string, value []byte) error // SetPrivateDataMultipleKeys sets the values for multiple keys in the private data space in a single call SetPrivateDataMultipleKeys(namespace, collection string, kvs map[string][]byte) error // DeletePrivateData deletes the given tuple <namespace, collection, key> from private data DeletePrivateData(namespace, collection, key string) error // SetPrivateDataMetadata sets the metadata associated with an existing key-tuple <namespace, collection, key> SetPrivateDataMetadata(namespace, collection, key string, metadata map[string][]byte) error // DeletePrivateDataMetadata deletes the metadata associated with an existing key-tuple <namespace, collection, key> DeletePrivateDataMetadata(namespace, collection, key string) error // GetTxSimulationResults encapsulates the results of the transaction simulation. // This should contain enough detail for // - The update in the state that would be caused if the transaction is to be committed // - The environment in which the transaction is executed so as to be able to decide the validity of the environment // (at a later time on a different peer) during committing the transactions // Different ledger implementation (or configurations of a single implementation) may want to represent the above two pieces // of information in different way in order to support different data-models or optimize the information representations. // Returned type 'TxSimulationResults' contains the simulation results for both the public data and the private data. // The public data simulation results are expected to be used as in V1 while the private data simulation results are expected // to be used by the gossip to disseminate this to the other endorsers (in phase-2 of sidedb) GetTxSimulationResults() (*TxSimulationResults, error) }
TxSimulator simulates a transaction on a consistent snapshot of the 'as recent state as possible' Set* methods are for supporting KV-based data model. ExecuteUpdate method is for supporting a rich datamodel and query support
Directories ¶
Path | Synopsis |
---|---|
history/historydb/historyleveldb/fakes
Code generated by counterfeiter.
|
Code generated by counterfeiter. |
txmgmt/queryutil/mock
Code generated by counterfeiter.
|
Code generated by counterfeiter. |
txmgmt/statedb/mock
Code generated by counterfeiter.
|
Code generated by counterfeiter. |
Code generated by counterfeiter.
|
Code generated by counterfeiter. |
mock
Code generated by counterfeiter.
|
Code generated by counterfeiter. |