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errors.go
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errors.go
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/*
* Atree - Scalable Arrays and Ordered Maps
*
* Copyright Flow Foundation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package atree
import (
"errors"
"fmt"
"runtime/debug"
)
type ExternalError struct {
msg string
err error
}
func NewExternalError(err error, msg string) error {
return &ExternalError{msg: msg, err: err}
}
func (e *ExternalError) Error() string {
if e.msg == "" {
return e.err.Error()
}
return fmt.Sprintf("%s: %s", e.msg, e.err.Error())
}
func (e *ExternalError) Unwrap() error {
return e.err
}
type UserError struct {
err error
}
func NewUserError(err error) error {
return &UserError{err: err}
}
func (e *UserError) Error() string {
return e.err.Error()
}
func (e *UserError) Unwrap() error {
return e.err
}
type FatalError struct {
err error
}
func NewFatalError(err error) error {
return &FatalError{err: err}
}
func (e *FatalError) Error() string {
return e.err.Error()
}
func (e *FatalError) Unwrap() error {
return e.err
}
// SliceOutOfBoundsError is returned when index for array slice is out of bounds.
type SliceOutOfBoundsError struct {
startIndex uint64
endIndex uint64
min uint64
max uint64
}
// NewSliceOutOfBoundsError constructs a SliceOutOfBoundsError.
func NewSliceOutOfBoundsError(startIndex, endIndex, min, max uint64) error {
return NewUserError(
&SliceOutOfBoundsError{
startIndex: startIndex,
endIndex: endIndex,
min: min,
max: max,
},
)
}
func (e *SliceOutOfBoundsError) Error() string {
return fmt.Sprintf("slice [%d:%d] is out of bounds with range %d-%d", e.startIndex, e.endIndex, e.min, e.max)
}
// InvalidSliceIndexError is returned when array slice index is invalid, such as startIndex > endIndex
// This error can be returned even when startIndex and endIndex are both within bounds.
type InvalidSliceIndexError struct {
startIndex uint64
endIndex uint64
}
// NewInvalidSliceIndexError constructs an InvalidSliceIndexError
func NewInvalidSliceIndexError(startIndex, endIndex uint64) error {
return NewUserError(
&InvalidSliceIndexError{
startIndex: startIndex,
endIndex: endIndex,
},
)
}
func (e *InvalidSliceIndexError) Error() string {
return fmt.Sprintf("invalid slice index: %d > %d", e.startIndex, e.endIndex)
}
// IndexOutOfBoundsError is returned when get, insert or delete operation is attempted on an array index which is out of bounds
type IndexOutOfBoundsError struct {
index uint64
min uint64
max uint64
}
// NewIndexOutOfBoundsError constructs a IndexOutOfBoundsError
func NewIndexOutOfBoundsError(index, min, max uint64) error {
return NewUserError(
&IndexOutOfBoundsError{
index: index,
min: min,
max: max,
},
)
}
func (e *IndexOutOfBoundsError) Error() string {
return fmt.Sprintf("index %d is outside required range (%d-%d)", e.index, e.min, e.max)
}
// NotValueError is returned when we try to create Value objects from non-root slabs.
type NotValueError struct {
id SlabID
}
// NewNotValueError constructs a NotValueError.
func NewNotValueError(id SlabID) error {
return NewFatalError(&NotValueError{id: id})
}
func (e *NotValueError) Error() string {
return fmt.Sprintf("slab (%s) cannot be used to create Value object", e.id)
}
// DuplicateKeyError is returned when the duplicate key is found in the dictionary when none is expected.
type DuplicateKeyError struct {
key interface{}
}
func NewDuplicateKeyError(key interface{}) error {
return NewFatalError(&DuplicateKeyError{key: key})
}
func (e *DuplicateKeyError) Error() string {
return fmt.Sprintf("duplicate key (%s)", e.key)
}
// KeyNotFoundError is returned when the key not found in the dictionary
type KeyNotFoundError struct {
key interface{}
}
// NewKeyNotFoundError constructs a KeyNotFoundError
func NewKeyNotFoundError(key interface{}) error {
return NewUserError(&KeyNotFoundError{key: key})
}
func (e *KeyNotFoundError) Error() string {
return fmt.Sprintf("key (%s) not found", e.key)
}
// HashSeedUninitializedError is a fatal error returned when hash seed is uninitialized.
type HashSeedUninitializedError struct {
}
func NewHashSeedUninitializedError() error {
return NewFatalError(&HashSeedUninitializedError{})
}
func (e *HashSeedUninitializedError) Error() string {
return "uninitialized hash seed"
}
// HashError is a fatal error returned when hash calculation fails
type HashError struct {
err error
}
// NewHashError constructs a HashError
func NewHashError(err error) error {
return NewFatalError(&HashError{err: err})
}
func (e *HashError) Error() string {
return fmt.Sprintf("hasher error: %s", e.err.Error())
}
// SlabIDError is returned when slab id can't be created or it's invalid.
type SlabIDError struct {
msg string
}
// NewSlabIDError constructs a fatal error of SlabIDError.
func NewSlabIDError(msg string) error {
return NewFatalError(&SlabIDError{msg: msg})
}
// NewSlabIDErrorf constructs a fatal error of SlabIDError.
func NewSlabIDErrorf(msg string, args ...interface{}) error {
return NewSlabIDError(fmt.Sprintf(msg, args...))
}
func (e *SlabIDError) Error() string {
return fmt.Sprintf("slab id error: %s", e.msg)
}
// SlabNotFoundError is always a fatal error returned when an slab is not found
type SlabNotFoundError struct {
slabID SlabID
err error
}
// NewSlabNotFoundError constructs a SlabNotFoundError
func NewSlabNotFoundError(slabID SlabID, err error) error {
return NewFatalError(&SlabNotFoundError{slabID: slabID, err: err})
}
// NewSlabNotFoundErrorf constructs a new SlabNotFoundError with error formating
func NewSlabNotFoundErrorf(slabID SlabID, msg string, args ...interface{}) error {
return NewSlabNotFoundError(slabID, fmt.Errorf(msg, args...))
}
func (e *SlabNotFoundError) Error() string {
return fmt.Sprintf("slab (%s) not found: %s", e.slabID.String(), e.err.Error())
}
// SlabSplitError is always a fatal error returned when splitting an slab has failed
type SlabSplitError struct {
err error
}
// NewSlabSplitError constructs a SlabSplitError
func NewSlabSplitError(err error) error {
return NewFatalError(&SlabSplitError{err: err})
}
// NewSlabSplitErrorf constructs a new SlabSplitError with error formating
func NewSlabSplitErrorf(msg string, args ...interface{}) error {
return NewSlabSplitError(fmt.Errorf(msg, args...))
}
func (e *SlabSplitError) Error() string {
return fmt.Sprintf("slab failed to split: %s", e.err.Error())
}
// SlabMergeError is always a fatal error returned when merging two slabs fails
type SlabMergeError struct {
err error
}
// NewSlabMergeError constructs a SlabMergeError
func NewSlabMergeError(err error) error {
return NewFatalError(&SlabMergeError{err: err})
}
// NewSlabMergeErrorf constructs a new SlabMergeError with error formating
func NewSlabMergeErrorf(msg string, args ...interface{}) error {
return NewSlabMergeError(fmt.Errorf(msg, args...))
}
func (e *SlabMergeError) Error() string {
return fmt.Sprintf("slabs failed to merge: %s", e.err.Error())
}
// SlabRebalanceError is always a fatal error returned when rebalancing a slab has failed
type SlabRebalanceError struct {
err error
}
// NewSlabRebalanceError constructs a SlabRebalanceError
func NewSlabRebalanceError(err error) error {
return NewFatalError(&SlabRebalanceError{err: err})
}
// NewSlabErrorf constructs a new SlabError with error formating
func NewSlabRebalanceErrorf(msg string, args ...interface{}) error {
return NewSlabRebalanceError(fmt.Errorf(msg, args...))
}
func (e *SlabRebalanceError) Error() string {
return fmt.Sprintf("slabs failed to rebalance: %s", e.err.Error())
}
// SlabError is a always fatal error returned when something is wrong with the content or type of the slab
// you can make this a fatal error by calling Fatal()
type SlabDataError struct {
err error
}
// NewSlabDataError constructs a SlabDataError
func NewSlabDataError(err error) error {
return NewFatalError(&SlabDataError{err: err})
}
// NewSlabDataErrorf constructs a new SlabError with error formating
func NewSlabDataErrorf(msg string, args ...interface{}) error {
return NewSlabDataError(fmt.Errorf(msg, args...))
}
func (e *SlabDataError) Error() string {
return fmt.Sprintf("slab data error: %s", e.err.Error())
}
// EncodingError is a fatal error returned when a encoding operation fails
type EncodingError struct {
err error
}
// NewEncodingError constructs a EncodingError
func NewEncodingError(err error) error {
return NewFatalError(&EncodingError{err: err})
}
// NewEncodingErrorf constructs a new EncodingError with error formating
func NewEncodingErrorf(msg string, args ...interface{}) error {
return NewEncodingError(fmt.Errorf(msg, args...))
}
func (e *EncodingError) Error() string {
return fmt.Sprintf("encoding error: %s", e.err.Error())
}
// DecodingError is a fatal error returned when a decoding operation fails
type DecodingError struct {
err error
}
// NewDecodingError constructs a DecodingError
func NewDecodingError(err error) error {
return NewFatalError(&DecodingError{err: err})
}
// NewDecodingErrorf constructs a new DecodingError with error formating
func NewDecodingErrorf(msg string, args ...interface{}) error {
return NewDecodingError(fmt.Errorf(msg, args...))
}
func (e *DecodingError) Error() string {
return fmt.Sprintf("decoding error: %s", e.err.Error())
}
// NotImplementedError is a fatal error returned when a method is called which is not yet implemented
// this is a temporary error
type NotImplementedError struct {
methodName string
}
// NewNotImplementedError constructs a NotImplementedError
func NewNotImplementedError(methodName string) error {
return NewFatalError(&NotImplementedError{methodName: methodName})
}
func (e *NotImplementedError) Error() string {
return fmt.Sprintf("method (%s) is not implemented.", e.methodName)
}
// HashLevelError is a fatal error returned when hash level is wrong.
type HashLevelError struct {
msg string
}
// NewHashLevelError constructs a HashLevelError
func NewHashLevelErrorf(msg string, args ...interface{}) error {
return NewFatalError(&HashLevelError{msg: fmt.Sprintf(msg, args...)})
}
func (e *HashLevelError) Error() string {
return fmt.Sprintf("atree hash level error: %s", e.msg)
}
// NotApplicableError is a fatal error returned when a not applicable method is called
type NotApplicableError struct {
typeName, interfaceName, methodName string
}
// NewNotApplicableError constructs a NotImplementedError
func NewNotApplicableError(typeName, interfaceName, methodName string) error {
return NewFatalError(
&NotApplicableError{
typeName: typeName,
interfaceName: interfaceName,
methodName: methodName,
})
}
func (e *NotApplicableError) Error() string {
return fmt.Sprintf("%s.%s is not applicable for type %s", e.interfaceName, e.methodName, e.typeName)
}
// UnreachableError is used by panic when unreachable code is reached.
// This is copied from Cadence.
type UnreachableError struct {
Stack []byte
}
func NewUnreachableError() error {
return NewFatalError(&UnreachableError{Stack: debug.Stack()})
}
func (e UnreachableError) Error() string {
return fmt.Sprintf("unreachable\n%s", e.Stack)
}
// CollisionLimitError is a fatal error returned when a noncryptographic hash collision
// would exceed collision limit (per digest per map) we enforce in the first level.
type CollisionLimitError struct {
collisionLimitPerDigest uint32 // limit <= 255 is recommended, larger values are useful for tests
}
// NewCollisionLimitError constructs a CollisionLimitError
func NewCollisionLimitError(collisionLimitPerDigest uint32) error {
return NewFatalError(&CollisionLimitError{collisionLimitPerDigest: collisionLimitPerDigest})
}
func (e *CollisionLimitError) Error() string {
return fmt.Sprintf("collision limit per digest %d already reached", e.collisionLimitPerDigest)
}
// MapElementCountError is a fatal error returned when element count is unexpected.
// It is an implemtation error.
type MapElementCountError struct {
msg string
}
// NewMapElementCountError constructs a MapElementCountError.
func NewMapElementCountError(msg string) error {
return NewFatalError(&MapElementCountError{msg: msg})
}
func (e *MapElementCountError) Error() string {
return e.msg
}
// ReadOnlyIteratorElementMutationError is the error returned when readonly iterator element is mutated.
type ReadOnlyIteratorElementMutationError struct {
containerValueID ValueID
elementValueID ValueID
}
// NewReadOnlyIteratorElementMutationError creates ReadOnlyIteratorElementMutationError.
func NewReadOnlyIteratorElementMutationError(containerValueID, elementValueID ValueID) error {
return NewFatalError(&ReadOnlyIteratorElementMutationError{
containerValueID: containerValueID,
elementValueID: elementValueID,
})
}
func (e *ReadOnlyIteratorElementMutationError) Error() string {
return fmt.Sprintf("element (%s) cannot be mutated because it is from readonly iterator of container (%s)", e.elementValueID, e.containerValueID)
}
func wrapErrorAsExternalErrorIfNeeded(err error) error {
return wrapErrorfAsExternalErrorIfNeeded(err, "")
}
func wrapErrorfAsExternalErrorIfNeeded(err error, msg string) error {
if err == nil {
return nil
}
var userError *UserError
var fatalError *FatalError
var externalError *ExternalError
if errors.As(err, &userError) ||
errors.As(err, &fatalError) ||
errors.As(err, &externalError) {
// No-op if err is already categorized.
return err
}
// Create new external error wrapping err with context.
return NewExternalError(err, msg)
}