registry

package
v4.0.1 Latest Latest
Warning

This package is not in the latest version of its module.

Go to latest
Published: Oct 3, 2024 License: Apache-2.0 Imports: 10 Imported by: 0

Documentation

Index

Constants

View Source
const (
	ErrRecursiveDecodersResolving            = libErr.Error("recursive decoders resolving")
	ErrErrorsTypeNotFound                    = libErr.Error("errors type not found")
	ErrErrorsTypeNotVariant                  = libErr.Error("errors type not a variant")
	ErrErrorFieldsRetrieval                  = libErr.Error("error fields retrieval")
	ErrCallsTypeNotFound                     = libErr.Error("calls type not found")
	ErrCallsTypeNotVariant                   = libErr.Error("calls type not a variant")
	ErrCallFieldsRetrieval                   = libErr.Error("call fields retrieval")
	ErrEventsTypeNotFound                    = libErr.Error("events type not found")
	ErrEventsTypeNotVariant                  = libErr.Error("events type not a variant")
	ErrEventFieldsRetrieval                  = libErr.Error("event fields retrieval")
	ErrFieldDecoderForRecursiveFieldNotFound = libErr.Error("field decoder for recursive field not found")
	ErrRecursiveFieldResolving               = libErr.Error("recursive field resolving")
	ErrFieldTypeNotFound                     = libErr.Error("field type not found")
	ErrFieldDecoderRetrieval                 = libErr.Error("field decoder retrieval")
	ErrCompactFieldTypeNotFound              = libErr.Error("compact field type not found")
	ErrCompositeTypeFieldsRetrieval          = libErr.Error("composite type fields retrieval")
	ErrArrayFieldTypeNotFound                = libErr.Error("array field type not found")
	ErrVectorFieldTypeNotFound               = libErr.Error("vector field type not found")
	ErrFieldTypeDefinitionNotSupported       = libErr.Error("field type definition not supported")
	ErrVariantTypeFieldsRetrieval            = libErr.Error("variant type fields decoding")
	ErrCompactTupleItemTypeNotFound          = libErr.Error("compact tuple item type not found")
	ErrCompactTupleItemFieldDecoderRetrieval = libErr.Error("compact tuple item field decoder retrieval")
	ErrCompactCompositeFieldTypeNotFound     = libErr.Error("compact composite field type not found")
	ErrCompactCompositeFieldDecoderRetrieval = libErr.Error("compact composite field decoder retrieval")
	ErrArrayItemFieldDecoderRetrieval        = libErr.Error("array item field decoder retrieval")
	ErrSliceItemFieldDecoderRetrieval        = libErr.Error("slice item field decoder retrieval")
	ErrTupleItemTypeNotFound                 = libErr.Error("tuple item type not found")
	ErrTupleItemFieldDecoderRetrieval        = libErr.Error("tuple item field decoder retrieval")
	ErrBitStoreTypeNotFound                  = libErr.Error("bit store type not found")
	ErrBitStoreTypeNotSupported              = libErr.Error("bit store type not supported")
	ErrBitOrderTypeNotFound                  = libErr.Error("bit order type not found")
	ErrBitOrderCreation                      = libErr.Error("bit order creation")
	ErrPrimitiveTypeNotSupported             = libErr.Error("primitive type not supported")
	ErrTypeFieldDecoding                     = libErr.Error("type field decoding")
	ErrVariantByteDecoding                   = libErr.Error("variant byte decoding")
	ErrVariantFieldDecoderNotFound           = libErr.Error("variant field decoder not found")
	ErrArrayItemDecoderNotFound              = libErr.Error("array item decoder not found")
	ErrArrayItemDecoding                     = libErr.Error("array item decoding")
	ErrSliceItemDecoderNotFound              = libErr.Error("slice item decoder not found")
	ErrSliceLengthDecoding                   = libErr.Error("slice length decoding")
	ErrSliceItemDecoding                     = libErr.Error("slice item decoding")
	ErrCompositeFieldDecoding                = libErr.Error("composite field decoding")
	ErrValueDecoding                         = libErr.Error("value decoding")
	ErrRecursiveFieldDecoderNotFound         = libErr.Error("recursive field decoder not found")
	ErrBitVecDecoding                        = libErr.Error("bit vec decoding")
	ErrNilTypeDecoder                        = libErr.Error("nil type decoder")
	ErrNilField                              = libErr.Error("nil field")
	ErrNilFieldDecoder                       = libErr.Error("nil field decoder")
	ErrDecodedFieldNotFound                  = libErr.Error("decoded field not found")
	ErrDecodedFieldValueTypeMismatch         = libErr.Error("decoded field value type mismatch")
	ErrDecodedFieldValueProcessingError      = libErr.Error("decoded field value processing error")
	ErrDecodedFieldValueNotAGenericSlice     = libErr.Error("decoded field value is not a generic slice")
	ErrExtrinsicFieldRetrieval               = libErr.Error("extrinsic field retrieval")
	ErrInvalidExtrinsicParams                = libErr.Error("invalid extrinsic params")
	ErrInvalidExtrinsicType                  = libErr.Error("invalid extrinsic type")
	ErrInvalidGenericExtrinsicType           = libErr.Error("invalid generic extrinsic type")
	ErrNilExtrinsicDecoder                   = libErr.Error("nil type decoder")
	ErrExtrinsicFieldNotFound                = libErr.Error("extrinsic field not found")
	ErrExtrinsicCompactLengthDecoding        = libErr.Error("extrinsic compact length decoding")
	ErrExtrinsicVersionDecoding              = libErr.Error("extrinsic version decoding")
	ErrUnexpectedExtrinsicParam              = libErr.Error("unexpected extrinsic param")
	ErrExtrinsicFieldDecoding                = libErr.Error("extrinsic field decoding")
)
View Source
const (
	ExtrinsicAddressName   = "Address"
	ExtrinsicSignatureName = "Signature"
	ExtrinsicExtraName     = "Extra"
	ExtrinsicCallName      = "Call"
)
View Source
const (
	// ExpectedExtrinsicParamsCount is the count of generic params that we expect for a
	// generic Extrinsic type from the metadata.
	//
	// The parameters are expected to be in the following order:
	// 1. Address
	// 2. Call
	// 3. Signature
	// 4. Extra
	ExpectedExtrinsicParamsCount = 4
)

Variables

This section is empty.

Functions

func GetDecodedFieldAsSliceOfType

func GetDecodedFieldAsSliceOfType[T any](
	decodedFields DecodedFields,
	fieldPredicateFn DecodedFieldPredicateFn,
) ([]T, error)

GetDecodedFieldAsSliceOfType returns the value of the field that matches the provided predicate func as a slice of the provided generic argument.

func GetDecodedFieldAsType

func GetDecodedFieldAsType[T any](
	decodedFields DecodedFields,
	fieldPredicateFn DecodedFieldPredicateFn,
) (T, error)

GetDecodedFieldAsType returns the value of the field that matches the provided predicate func as the provided generic argument.

func ProcessDecodedFieldValue

func ProcessDecodedFieldValue[T any](
	decodedFields DecodedFields,
	fieldPredicateFn DecodedFieldPredicateFn,
	valueProcessingFn DecodedValueProcessingFn[T],
) (T, error)

ProcessDecodedFieldValue applies the processing func to the value of the field that matches the provided predicate func.

Types

type ArrayDecoder

type ArrayDecoder struct {
	Length      uint
	ItemDecoder FieldDecoder
}

ArrayDecoder holds information about the length of the array and the FieldDecoder used for its items.

func (*ArrayDecoder) Decode

func (a *ArrayDecoder) Decode(decoder *scale.Decoder) (any, error)

type BitSequenceDecoder

type BitSequenceDecoder struct {
	FieldName string
	BitOrder  types.BitOrder
}

BitSequenceDecoder holds decoding information for a bit sequence.

func (*BitSequenceDecoder) Decode

func (b *BitSequenceDecoder) Decode(decoder *scale.Decoder) (any, error)

type CallRegistry

type CallRegistry map[types.CallIndex]*TypeDecoder

CallRegistry maps a call name to its TypeDecoder.

type CompositeDecoder

type CompositeDecoder struct {
	FieldName string
	Fields    []*Field
}

CompositeDecoder holds all the information required to decoder a struct/composite.

func (*CompositeDecoder) Decode

func (e *CompositeDecoder) Decode(decoder *scale.Decoder) (any, error)

type DecodedExtrinsic

type DecodedExtrinsic struct {
	Version       byte
	DecodedFields DecodedFields
}

DecodedExtrinsic is the type returned when an extrinsic is decoded.

func (DecodedExtrinsic) IsSigned

func (d DecodedExtrinsic) IsSigned() bool

IsSigned returns true if the extrinsic is signed.

type DecodedField

type DecodedField struct {
	Name        string
	Value       any
	LookupIndex int64
}

DecodedField holds the name, value and lookup index of a field that was decoded.

func (DecodedField) Encode

func (d DecodedField) Encode(encoder scale.Encoder) error

type DecodedFieldPredicateFn

type DecodedFieldPredicateFn func(fieldIndex int, field *DecodedField) bool

type DecodedFields

type DecodedFields []*DecodedField

type DecodedValueProcessingFn

type DecodedValueProcessingFn[T any] func(value any) (T, error)

type ErrorID

type ErrorID struct {
	ModuleIndex types.U8
	ErrorIndex  [4]types.U8
}

ErrorID is the type using for identifying an error in the metadata.

type ErrorRegistry

type ErrorRegistry map[ErrorID]*TypeDecoder

ErrorRegistry maps an error name to its TypeDecoder.

type EventRegistry

type EventRegistry map[types.EventID]*TypeDecoder

EventRegistry maps an event ID to its TypeDecoder.

type ExtrinsicDecoder

type ExtrinsicDecoder struct {
	Fields []*Field
}

ExtrinsicDecoder holds all the decoders for all the fields of an extrinsic.

func (*ExtrinsicDecoder) Decode

func (d *ExtrinsicDecoder) Decode(decoder *scale.Decoder) (*DecodedExtrinsic, error)

Decode is used to decode the fields of an extrinsic in the following order:

1. Address 2. Signature 3. Extra 4. Call

NOTE - the decoding order is different from the order of the Extrinsic parameters provided in the metadata.

func (*ExtrinsicDecoder) DecodeHex

func (d *ExtrinsicDecoder) DecodeHex(hexEncodedExtrinsic string) (*DecodedExtrinsic, error)

type Factory

type Factory interface {
	CreateCallRegistry(meta *types.Metadata) (CallRegistry, error)
	CreateErrorRegistry(meta *types.Metadata) (ErrorRegistry, error)
	CreateEventRegistry(meta *types.Metadata) (EventRegistry, error)
	CreateExtrinsicDecoder(meta *types.Metadata) (*ExtrinsicDecoder, error)
}

Factory is the interface responsible for generating the according registries from the metadata.

func NewFactory

func NewFactory(fieldOverrides ...FieldOverride) Factory

NewFactory creates a new Factory using the provided overrides, if any.

type FactoryMock

type FactoryMock struct {
	mock.Mock
}

FactoryMock is an autogenerated mock type for the Factory type

func NewFactoryMock

func NewFactoryMock(t NewFactoryMockT) *FactoryMock

NewFactoryMock creates a new instance of FactoryMock. It also registers a testing interface on the mock and a cleanup function to assert the mocks expectations.

func (*FactoryMock) CreateCallRegistry

func (_m *FactoryMock) CreateCallRegistry(meta *types.Metadata) (CallRegistry, error)

CreateCallRegistry provides a mock function with given fields: meta

func (*FactoryMock) CreateErrorRegistry

func (_m *FactoryMock) CreateErrorRegistry(meta *types.Metadata) (ErrorRegistry, error)

CreateErrorRegistry provides a mock function with given fields: meta

func (*FactoryMock) CreateEventRegistry

func (_m *FactoryMock) CreateEventRegistry(meta *types.Metadata) (EventRegistry, error)

CreateEventRegistry provides a mock function with given fields: meta

func (*FactoryMock) CreateExtrinsicDecoder

func (_m *FactoryMock) CreateExtrinsicDecoder(meta *types.Metadata) (*ExtrinsicDecoder, error)

CreateExtrinsicDecoder provides a mock function with given fields: meta

type Field

type Field struct {
	Name         string
	FieldDecoder FieldDecoder
	LookupIndex  int64
}

Field represents one field of a TypeDecoder.

func (*Field) Decode

func (f *Field) Decode(decoder *scale.Decoder) (*DecodedField, error)

type FieldDecoder

type FieldDecoder interface {
	Decode(decoder *scale.Decoder) (any, error)
}

FieldDecoder is the interface implemented by all the different types that are available.

type FieldOverride

type FieldOverride struct {
	FieldLookupIndex int64
	FieldDecoder     FieldDecoder
}

FieldOverride is used to override the default FieldDecoder for a particular type.

type NewFactoryMockT

type NewFactoryMockT interface {
	mock.TestingT
	Cleanup(func())
}

type NoopDecoder

type NoopDecoder struct{}

NoopDecoder is a FieldDecoder that does not decode anything. It comes in handy for nil tuples or variants with no inner types.

func (*NoopDecoder) Decode

func (n *NoopDecoder) Decode(_ *scale.Decoder) (any, error)

type RecursiveDecoder

type RecursiveDecoder struct {
	FieldDecoder FieldDecoder
}

RecursiveDecoder is a wrapper for a FieldDecoder that is recursive.

func (*RecursiveDecoder) Decode

func (r *RecursiveDecoder) Decode(decoder *scale.Decoder) (any, error)

type SliceDecoder

type SliceDecoder struct {
	ItemDecoder FieldDecoder
}

SliceDecoder holds a FieldDecoder for the items of a vector/slice.

func (*SliceDecoder) Decode

func (s *SliceDecoder) Decode(decoder *scale.Decoder) (any, error)

type TypeDecoder

type TypeDecoder struct {
	Name   string
	Fields []*Field
}

TypeDecoder holds all information required to decode a particular type.

func (*TypeDecoder) Decode

func (t *TypeDecoder) Decode(decoder *scale.Decoder) (DecodedFields, error)

type ValueDecoder

type ValueDecoder[T any] struct{}

ValueDecoder decodes a primitive type.

func (*ValueDecoder[T]) Decode

func (v *ValueDecoder[T]) Decode(decoder *scale.Decoder) (any, error)

type VariantDecoder

type VariantDecoder struct {
	FieldDecoderMap map[byte]FieldDecoder
}

VariantDecoder holds a FieldDecoder for each variant/enum.

func (*VariantDecoder) Decode

func (v *VariantDecoder) Decode(decoder *scale.Decoder) (any, error)

Directories

Path Synopsis

Jump to

Keyboard shortcuts

? : This menu
/ : Search site
f or F : Jump to
y or Y : Canonical URL