eb882f39f8
This commit corrects several typos in the comments found by misspell.
464 lines
21 KiB
Go
464 lines
21 KiB
Go
// Copyright (c) 2015-2016 The btcsuite developers
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// Use of this source code is governed by an ISC
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// license that can be found in the LICENSE file.
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// Parts of this interface were inspired heavily by the excellent boltdb project
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// at https://github.com/boltdb/bolt by Ben B. Johnson.
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package database2
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import (
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"github.com/btcsuite/btcd/wire"
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"github.com/btcsuite/btcutil"
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)
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// Cursor represents a cursor over key/value pairs and nested buckets of a
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// bucket.
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//
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// Note that open cursors are not tracked on bucket changes and any
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// modifications to the bucket, with the exception of Cursor.Delete, invalidates
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// the cursor. After invalidation, the cursor must be repositioned, or the keys
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// and values returned may be unpredictable.
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type Cursor interface {
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// Bucket returns the bucket the cursor was created for.
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Bucket() Bucket
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// Delete removes the current key/value pair the cursor is at without
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// invalidating the cursor.
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//
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// The interface contract guarantees at least the following errors will
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// be returned (other implementation-specific errors are possible):
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// - ErrIncompatibleValue if attempted when the cursor points to a
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// nested bucket
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// - ErrTxNotWritable if attempted against a read-only transaction
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// - ErrTxClosed if the transaction has already been closed
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Delete() error
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// First positions the cursor at the first key/value pair and returns
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// whether or not the pair exists.
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First() bool
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// Last positions the cursor at the last key/value pair and returns
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// whether or not the pair exists.
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Last() bool
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// Next moves the cursor one key/value pair forward and returns whether
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// or not the pair exists.
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Next() bool
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// Prev moves the cursor one key/value pair backward and returns whether
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// or not the pair exists.
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Prev() bool
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// Seek positions the cursor at the first key/value pair that is greater
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// than or equal to the passed seek key. Returns whether or not the
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// pair exists.
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Seek(seek []byte) bool
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// Key returns the current key the cursor is pointing to.
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Key() []byte
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// Value returns the current value the cursor is pointing to. This will
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// be nil for nested buckets.
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Value() []byte
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}
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// Bucket represents a collection of key/value pairs.
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type Bucket interface {
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// Bucket retrieves a nested bucket with the given key. Returns nil if
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// the bucket does not exist.
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Bucket(key []byte) Bucket
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// CreateBucket creates and returns a new nested bucket with the given
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// key.
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//
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// The interface contract guarantees at least the following errors will
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// be returned (other implementation-specific errors are possible):
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// - ErrBucketExists if the bucket already exists
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// - ErrBucketNameRequired if the key is empty
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// - ErrIncompatibleValue if the key is otherwise invalid for the
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// particular implementation
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// - ErrTxNotWritable if attempted against a read-only transaction
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// - ErrTxClosed if the transaction has already been closed
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CreateBucket(key []byte) (Bucket, error)
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// CreateBucketIfNotExists creates and returns a new nested bucket with
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// the given key if it does not already exist.
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//
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// The interface contract guarantees at least the following errors will
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// be returned (other implementation-specific errors are possible):
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// - ErrBucketNameRequired if the key is empty
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// - ErrIncompatibleValue if the key is otherwise invalid for the
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// particular implementation
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// - ErrTxNotWritable if attempted against a read-only transaction
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// - ErrTxClosed if the transaction has already been closed
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CreateBucketIfNotExists(key []byte) (Bucket, error)
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// DeleteBucket removes a nested bucket with the given key.
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//
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// The interface contract guarantees at least the following errors will
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// be returned (other implementation-specific errors are possible):
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// - ErrBucketNotFound if the specified bucket does not exist
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// - ErrTxNotWritable if attempted against a read-only transaction
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// - ErrTxClosed if the transaction has already been closed
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DeleteBucket(key []byte) error
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// ForEach invokes the passed function with every key/value pair in the
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// bucket. This does not include nested buckets or the key/value pairs
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// within those nested buckets.
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//
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// WARNING: It is not safe to mutate data while iterating with this
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// method. Doing so may cause the underlying cursor to be invalidated
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// and return unexpected keys and/or values.
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//
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// The interface contract guarantees at least the following errors will
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// be returned (other implementation-specific errors are possible):
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// - ErrTxClosed if the transaction has already been closed
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//
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// NOTE: The slices returned by this function are only valid during a
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// transaction. Attempting to access them after a transaction has ended
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// results in undefined behavior. Additionally, the slices must NOT
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// be modified by the caller. These constraints prevent additional data
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// copies and allows support for memory-mapped database implementations.
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ForEach(func(k, v []byte) error) error
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// ForEachBucket invokes the passed function with the key of every
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// nested bucket in the current bucket. This does not include any
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// nested buckets within those nested buckets.
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//
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// WARNING: It is not safe to mutate data while iterating with this
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// method. Doing so may cause the underlying cursor to be invalidated
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// and return unexpected keys and/or values.
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//
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// The interface contract guarantees at least the following errors will
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// be returned (other implementation-specific errors are possible):
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// - ErrTxClosed if the transaction has already been closed
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//
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// NOTE: The keys returned by this function are only valid during a
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// transaction. Attempting to access them after a transaction has ended
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// results in undefined behavior. This constraint prevents additional
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// data copies and allows support for memory-mapped database
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// implementations.
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ForEachBucket(func(k []byte) error) error
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// Cursor returns a new cursor, allowing for iteration over the bucket's
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// key/value pairs and nested buckets in forward or backward order.
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//
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// You must seek to a position using the First, Last, or Seek functions
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// before calling the Next, Prev, Key, or Value functions. Failure to
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// do so will result in the same return values as an exhausted cursor,
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// which is false for the Prev and Next functions and nil for Key and
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// Value functions.
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Cursor() Cursor
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// Writable returns whether or not the bucket is writable.
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Writable() bool
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// Put saves the specified key/value pair to the bucket. Keys that do
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// not already exist are added and keys that already exist are
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// overwritten.
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//
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// The interface contract guarantees at least the following errors will
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// be returned (other implementation-specific errors are possible):
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// - ErrKeyRequired if the key is empty
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// - ErrIncompatibleValue if the key is the same as an existing bucket
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// - ErrTxNotWritable if attempted against a read-only transaction
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// - ErrTxClosed if the transaction has already been closed
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//
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// NOTE: The slices passed to this function must NOT be modified by the
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// caller. This constraint prevents the requirement for additional data
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// copies and allows support for memory-mapped database implementations.
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Put(key, value []byte) error
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// Get returns the value for the given key. Returns nil if the key does
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// not exist in this bucket. An empty slice is returned for keys that
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// exist but have no value assigned.
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//
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// NOTE: The value returned by this function is only valid during a
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// transaction. Attempting to access it after a transaction has ended
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// results in undefined behavior. Additionally, the value must NOT
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// be modified by the caller. These constraints prevent additional data
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// copies and allows support for memory-mapped database implementations.
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Get(key []byte) []byte
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// Delete removes the specified key from the bucket. Deleting a key
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// that does not exist does not return an error.
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//
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// The interface contract guarantees at least the following errors will
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// be returned (other implementation-specific errors are possible):
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// - ErrKeyRequired if the key is empty
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// - ErrIncompatibleValue if the key is the same as an existing bucket
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// - ErrTxNotWritable if attempted against a read-only transaction
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// - ErrTxClosed if the transaction has already been closed
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Delete(key []byte) error
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}
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// BlockRegion specifies a particular region of a block identified by the
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// specified hash, given an offset and length.
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type BlockRegion struct {
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Hash *wire.ShaHash
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Offset uint32
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Len uint32
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}
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// Tx represents a database transaction. It can either by read-only or
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// read-write. The transaction provides a metadata bucket against which all
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// read and writes occur.
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//
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// As would be expected with a transaction, no changes will be saved to the
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// database until it has been committed. The transaction will only provide a
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// view of the database at the time it was created. Transactions should not be
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// long running operations.
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type Tx interface {
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// Metadata returns the top-most bucket for all metadata storage.
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Metadata() Bucket
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// StoreBlock stores the provided block into the database. There are no
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// checks to ensure the block connects to a previous block, contains
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// double spends, or any additional functionality such as transaction
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// indexing. It simply stores the block in the database.
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//
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// The interface contract guarantees at least the following errors will
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// be returned (other implementation-specific errors are possible):
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// - ErrBlockExists when the block hash already exists
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// - ErrTxNotWritable if attempted against a read-only transaction
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// - ErrTxClosed if the transaction has already been closed
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//
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// Other errors are possible depending on the implementation.
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StoreBlock(block *btcutil.Block) error
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// HasBlock returns whether or not a block with the given hash exists
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// in the database.
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//
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// The interface contract guarantees at least the following errors will
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// be returned (other implementation-specific errors are possible):
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// - ErrTxClosed if the transaction has already been closed
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//
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// Other errors are possible depending on the implementation.
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HasBlock(hash *wire.ShaHash) (bool, error)
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// HasBlocks returns whether or not the blocks with the provided hashes
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// exist in the database.
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//
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// The interface contract guarantees at least the following errors will
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// be returned (other implementation-specific errors are possible):
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// - ErrTxClosed if the transaction has already been closed
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//
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// Other errors are possible depending on the implementation.
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HasBlocks(hashes []wire.ShaHash) ([]bool, error)
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// FetchBlockHeader returns the raw serialized bytes for the block
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// header identified by the given hash. The raw bytes are in the format
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// returned by Serialize on a wire.BlockHeader.
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//
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// It is highly recommended to use this function (or FetchBlockHeaders)
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// to obtain block headers over the FetchBlockRegion(s) functions since
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// it provides the backend drivers the freedom to perform very specific
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// optimizations which can result in significant speed advantages when
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// working with headers.
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//
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// The interface contract guarantees at least the following errors will
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// be returned (other implementation-specific errors are possible):
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// - ErrBlockNotFound if the requested block hash does not exist
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// - ErrTxClosed if the transaction has already been closed
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// - ErrCorruption if the database has somehow become corrupted
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//
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// NOTE: The data returned by this function is only valid during a
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// database transaction. Attempting to access it after a transaction
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// has ended results in undefined behavior. This constraint prevents
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// additional data copies and allows support for memory-mapped database
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// implementations.
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FetchBlockHeader(hash *wire.ShaHash) ([]byte, error)
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// FetchBlockHeaders returns the raw serialized bytes for the block
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// headers identified by the given hashes. The raw bytes are in the
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// format returned by Serialize on a wire.BlockHeader.
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//
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// It is highly recommended to use this function (or FetchBlockHeader)
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// to obtain block headers over the FetchBlockRegion(s) functions since
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// it provides the backend drivers the freedom to perform very specific
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// optimizations which can result in significant speed advantages when
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// working with headers.
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//
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// Furthermore, depending on the specific implementation, this function
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// can be more efficient for bulk loading multiple block headers than
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// loading them one-by-one with FetchBlockHeader.
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//
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// The interface contract guarantees at least the following errors will
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// be returned (other implementation-specific errors are possible):
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// - ErrBlockNotFound if any of the request block hashes do not exist
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// - ErrTxClosed if the transaction has already been closed
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// - ErrCorruption if the database has somehow become corrupted
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//
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// NOTE: The data returned by this function is only valid during a
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// database transaction. Attempting to access it after a transaction
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// has ended results in undefined behavior. This constraint prevents
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// additional data copies and allows support for memory-mapped database
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// implementations.
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FetchBlockHeaders(hashes []wire.ShaHash) ([][]byte, error)
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// FetchBlock returns the raw serialized bytes for the block identified
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// by the given hash. The raw bytes are in the format returned by
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// Serialize on a wire.MsgBlock.
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//
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// The interface contract guarantees at least the following errors will
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// be returned (other implementation-specific errors are possible):
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// - ErrBlockNotFound if the requested block hash does not exist
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// - ErrTxClosed if the transaction has already been closed
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// - ErrCorruption if the database has somehow become corrupted
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//
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// NOTE: The data returned by this function is only valid during a
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// database transaction. Attempting to access it after a transaction
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// has ended results in undefined behavior. This constraint prevents
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// additional data copies and allows support for memory-mapped database
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// implementations.
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FetchBlock(hash *wire.ShaHash) ([]byte, error)
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// FetchBlocks returns the raw serialized bytes for the blocks
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// identified by the given hashes. The raw bytes are in the format
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// returned by Serialize on a wire.MsgBlock.
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//
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// The interface contract guarantees at least the following errors will
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// be returned (other implementation-specific errors are possible):
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// - ErrBlockNotFound if the any of the requested block hashes do not
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// exist
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// - ErrTxClosed if the transaction has already been closed
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// - ErrCorruption if the database has somehow become corrupted
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//
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// NOTE: The data returned by this function is only valid during a
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// database transaction. Attempting to access it after a transaction
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// has ended results in undefined behavior. This constraint prevents
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// additional data copies and allows support for memory-mapped database
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// implementations.
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FetchBlocks(hashes []wire.ShaHash) ([][]byte, error)
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// FetchBlockRegion returns the raw serialized bytes for the given
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// block region.
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//
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// For example, it is possible to directly extract Bitcoin transactions
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// and/or scripts from a block with this function. Depending on the
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// backend implementation, this can provide significant savings by
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// avoiding the need to load entire blocks.
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//
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// The raw bytes are in the format returned by Serialize on a
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// wire.MsgBlock and the Offset field in the provided BlockRegion is
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// zero-based and relative to the start of the block (byte 0).
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//
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// The interface contract guarantees at least the following errors will
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// be returned (other implementation-specific errors are possible):
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// - ErrBlockNotFound if the requested block hash does not exist
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// - ErrBlockRegionInvalid if the region exceeds the bounds of the
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// associated block
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// - ErrTxClosed if the transaction has already been closed
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// - ErrCorruption if the database has somehow become corrupted
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//
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// NOTE: The data returned by this function is only valid during a
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// database transaction. Attempting to access it after a transaction
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// has ended results in undefined behavior. This constraint prevents
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// additional data copies and allows support for memory-mapped database
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// implementations.
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FetchBlockRegion(region *BlockRegion) ([]byte, error)
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// FetchBlockRegions returns the raw serialized bytes for the given
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// block regions.
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//
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// For example, it is possible to directly extract Bitcoin transactions
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// and/or scripts from various blocks with this function. Depending on
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// the backend implementation, this can provide significant savings by
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// avoiding the need to load entire blocks.
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//
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// The raw bytes are in the format returned by Serialize on a
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// wire.MsgBlock and the Offset fields in the provided BlockRegions are
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// zero-based and relative to the start of the block (byte 0).
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//
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// The interface contract guarantees at least the following errors will
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// be returned (other implementation-specific errors are possible):
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// - ErrBlockNotFound if any of the requested block hashed do not
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// exist
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// - ErrBlockRegionInvalid if one or more region exceed the bounds of
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// the associated block
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// - ErrTxClosed if the transaction has already been closed
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// - ErrCorruption if the database has somehow become corrupted
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//
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// NOTE: The data returned by this function is only valid during a
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// database transaction. Attempting to access it after a transaction
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// has ended results in undefined behavior. This constraint prevents
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// additional data copies and allows support for memory-mapped database
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// implementations.
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FetchBlockRegions(regions []BlockRegion) ([][]byte, error)
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// ******************************************************************
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// Methods related to both atomic metadata storage and block storage.
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// ******************************************************************
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// Commit commits all changes that have been made to the metadata or
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// block storage. Depending on the backend implementation this could be
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// to a cache that is periodically synced to persistent storage or
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// directly to persistent storage. In any case, all transactions which
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// are started after the commit finishes will include all changes made
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// by this transaction. Calling this function on a managed transaction
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// will result in a panic.
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Commit() error
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// Rollback undoes all changes that have been made to the metadata or
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// block storage. Calling this function on a managed transaction will
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// result in a panic.
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Rollback() error
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}
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// DB provides a generic interface that is used to store bitcoin blocks and
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// related metadata. This interface is intended to be agnostic to the actual
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// mechanism used for backend data storage. The RegisterDriver function can be
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// used to add a new backend data storage method.
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//
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// This interface is divided into two distinct categories of functionality.
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//
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// The first category is atomic metadata storage with bucket support. This is
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// accomplished through the use of database transactions.
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//
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// The second category is generic block storage. This functionality is
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// intentionally separate because the mechanism used for block storage may or
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// may not be the same mechanism used for metadata storage. For example, it is
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// often more efficient to store the block data as flat files while the metadata
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// is kept in a database. However, this interface aims to be generic enough to
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// support blocks in the database too, if needed by a particular backend.
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type DB interface {
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// Type returns the database driver type the current database instance
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// was created with.
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Type() string
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// Begin starts a transaction which is either read-only or read-write
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// depending on the specified flag. Multiple read-only transactions
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// can be started simultaneously while only a single read-write
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// transaction can be started at a time. The call will block when
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// starting a read-write transaction when one is already open.
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//
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// NOTE: The transaction must be closed by calling Rollback or Commit on
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// it when it is no longer needed. Failure to do so can result in
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// unclaimed memory and/or inablity to close the database due to locks
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// depending on the specific database implementation.
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Begin(writable bool) (Tx, error)
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// View invokes the passed function in the context of a managed
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// read-only transaction. Any errors returned from the user-supplied
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// function are returned from this function.
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//
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// Calling Rollback or Commit on the transaction passed to the
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// user-supplied function will result in a panic.
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View(fn func(tx Tx) error) error
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// Update invokes the passed function in the context of a managed
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// read-write transaction. Any errors returned from the user-supplied
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// function will cause the transaction to be rolled back and are
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// returned from this function. Otherwise, the transaction is committed
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// when the user-supplied function returns a nil error.
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//
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// Calling Rollback or Commit on the transaction passed to the
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// user-supplied function will result in a panic.
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Update(fn func(tx Tx) error) error
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// Close cleanly shuts down the database and syncs all data. It will
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// block until all database transactions have been finalized (rolled
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// back or committed).
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Close() error
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}
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