Documentation ¶
Index ¶
- type Context
- type MapBasedPluginMapper
- type PluginMapper
- type PluginName
- type PluginValidator
- type PolicyEvaluator
- type QueryExecutorCreator
- type ResultsIteratorImpl
- type SerializedPolicy
- type StateFetcherImpl
- type StateImpl
- type Support
- type TxValidator
- type Validator
- type VsccValidatorImpl
- func (v *VsccValidatorImpl) GetInfoForValidate(chdr *common.ChannelHeader, ccID string) (*sysccprovider.ChaincodeInstance, *sysccprovider.ChaincodeInstance, []byte, ...)
- func (v *VsccValidatorImpl) VSCCValidateTx(seq int, payload *common.Payload, envBytes []byte, block *common.Block) (error, peer.TxValidationCode)
- func (v *VsccValidatorImpl) VSCCValidateTxForCC(ctx *Context) error
Constants ¶
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Variables ¶
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Functions ¶
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Types ¶
type Context ¶ added in v1.2.0
type Context struct { Seq int Envelope []byte TxID string Channel string VSCCName string Policy []byte Namespace string Block *common.Block }
Context defines information about a transaction that is being validated
type MapBasedPluginMapper ¶ added in v1.2.0
type MapBasedPluginMapper map[string]validation.PluginFactory
MapBasedPluginMapper maps plugin names to their corresponding factories
func (MapBasedPluginMapper) PluginFactoryByName ¶ added in v1.2.0
func (m MapBasedPluginMapper) PluginFactoryByName(name PluginName) validation.PluginFactory
PluginFactoryByName returns a plugin factory for the given plugin name, or nil if not found
type PluginMapper ¶ added in v1.2.0
type PluginMapper interface {
PluginFactoryByName(name PluginName) validation.PluginFactory
}
PluginMapper maps plugin names to their corresponding factory instance. Returns nil if the name isn't associated to any plugin.
type PluginName ¶ added in v1.2.0
type PluginName string
PluginName defines the name of the plugin as it appears in the configuration
type PluginValidator ¶ added in v1.2.0
type PluginValidator struct { sync.Mutex PluginMapper QueryExecutorCreator msp.IdentityDeserializer // contains filtered or unexported fields }
PluginValidator values transactions with validation plugins
func NewPluginValidator ¶ added in v1.2.0
func NewPluginValidator(pm PluginMapper, qec QueryExecutorCreator, deserializer msp.IdentityDeserializer, capabilities Capabilities) *PluginValidator
NewPluginValidator creates a new PluginValidator
func (*PluginValidator) ValidateWithPlugin ¶ added in v1.2.0
func (pv *PluginValidator) ValidateWithPlugin(ctx *Context) error
type PolicyEvaluator ¶ added in v1.2.0
type PolicyEvaluator struct {
msp.IdentityDeserializer
}
func (*PolicyEvaluator) DeserializeIdentity ¶ added in v1.2.0
func (id *PolicyEvaluator) DeserializeIdentity(serializedIdentity []byte) (Identity, error)
DeserializeIdentity unmarshals the given identity to msp.Identity
func (*PolicyEvaluator) Evaluate ¶ added in v1.2.0
func (id *PolicyEvaluator) Evaluate(policyBytes []byte, signatureSet []*common.SignedData) error
Evaluate takes a set of SignedData and evaluates whether this set of signatures satisfies the policy
type QueryExecutorCreator ¶ added in v1.2.0
type QueryExecutorCreator interface {
NewQueryExecutor() (ledger.QueryExecutor, error)
}
QueryExecutorCreator creates new query executors
type ResultsIteratorImpl ¶ added in v1.2.0
type ResultsIteratorImpl struct {
ledger2.ResultsIterator
}
func (*ResultsIteratorImpl) Next ¶ added in v1.2.0
func (it *ResultsIteratorImpl) Next() (QueryResult, error)
type SerializedPolicy ¶ added in v1.2.0
type SerializedPolicy []byte
SerializedPolicy defines a marshaled policy
func (SerializedPolicy) Bytes ¶ added in v1.2.0
func (sp SerializedPolicy) Bytes() []byte
Bytes returns te bytes of the SerializedPolicy
type StateFetcherImpl ¶ added in v1.2.0
type StateFetcherImpl struct {
QueryExecutorCreator
}
func (*StateFetcherImpl) FetchState ¶ added in v1.2.0
func (sf *StateFetcherImpl) FetchState() (State, error)
type StateImpl ¶ added in v1.2.0
type StateImpl struct {
ledger.QueryExecutor
}
type Support ¶
type Support interface { // Acquire implements semaphore-like acquire semantics Acquire(ctx context.Context, n int64) error // Release implements semaphore-like release semantics Release(n int64) // Ledger returns the ledger associated with this validator Ledger() ledger.PeerLedger // MSPManager returns the MSP manager for this channel MSPManager() msp.MSPManager // Apply attempts to apply a configtx to become the new config Apply(configtx *common.ConfigEnvelope) error // GetMSPIDs returns the IDs for the application MSPs // that have been defined in the channel GetMSPIDs(cid string) []string // Capabilities defines the capabilities for the application portion of this channel Capabilities() channelconfig.ApplicationCapabilities }
Support provides all of the needed to evaluate the VSCC
type TxValidator ¶ added in v1.2.0
implementation of Validator interface, keeps reference to the ledger to enable tx simulation and execution of vscc
func NewTxValidator ¶
func NewTxValidator(chainID string, support Support, sccp sysccprovider.SystemChaincodeProvider, pm PluginMapper) *TxValidator
NewTxValidator creates new transactions validator
func (*TxValidator) Validate ¶ added in v1.2.0
func (v *TxValidator) Validate(block *common.Block) error
Validate performs the validation of a block. The validation of each transaction in the block is performed in parallel. The approach is as follows: the committer thread starts the tx validation function in a goroutine (using a semaphore to cap the number of concurrent validating goroutines). The committer thread then reads results of validation (in orderer of completion of the goroutines) from the results channel. The goroutines perform the validation of the txs in the block and enqueue the validation result in the results channel. A few note-worthy facts:
- to keep the approach simple, the committer thread enqueues all transactions in the block and then moves on to reading the results.
- for parallel validation to work, it is important that the validation function does not change the state of the system. Otherwise the order in which validation is perform matters and we have to resort to sequential validation (or some locking). This is currently true, because the only function that affects state is when a config transaction is received, but they are guaranteed to be alone in the block. If/when this assumption is violated, this code must be changed.
type Validator ¶
Validator interface which defines API to validate block transactions and return the bit array mask indicating invalid transactions which didn't pass validation.
type VsccValidatorImpl ¶ added in v1.2.0
type VsccValidatorImpl struct {
// contains filtered or unexported fields
}
VsccValidatorImpl is the implementation used to call the vscc chaincode and validate block transactions
func (*VsccValidatorImpl) GetInfoForValidate ¶ added in v1.2.0
func (v *VsccValidatorImpl) GetInfoForValidate(chdr *common.ChannelHeader, ccID string) (*sysccprovider.ChaincodeInstance, *sysccprovider.ChaincodeInstance, []byte, error)
GetInfoForValidate gets the ChaincodeInstance(with latest version) of tx, vscc and policy from lscc
func (*VsccValidatorImpl) VSCCValidateTx ¶ added in v1.2.0
func (v *VsccValidatorImpl) VSCCValidateTx(seq int, payload *common.Payload, envBytes []byte, block *common.Block) (error, peer.TxValidationCode)
VSCCValidateTx executes vscc validation for transaction
func (*VsccValidatorImpl) VSCCValidateTxForCC ¶ added in v1.2.0
func (v *VsccValidatorImpl) VSCCValidateTxForCC(ctx *Context) error