lnd/channeldb/paginate.go
2022-02-10 11:02:02 +01:00

140 lines
4.5 KiB
Go

package channeldb
import "github.com/lightningnetwork/lnd/kvdb"
type paginator struct {
// cursor is the cursor which we are using to iterate through a bucket.
cursor kvdb.RCursor
// reversed indicates whether we are paginating forwards or backwards.
reversed bool
// indexOffset is the index from which we will begin querying.
indexOffset uint64
// totalItems is the total number of items we allow in our response.
totalItems uint64
}
// newPaginator returns a struct which can be used to query an indexed bucket
// in pages.
func newPaginator(c kvdb.RCursor, reversed bool,
indexOffset, totalItems uint64) paginator {
return paginator{
cursor: c,
reversed: reversed,
indexOffset: indexOffset,
totalItems: totalItems,
}
}
// keyValueForIndex seeks our cursor to a given index and returns the key and
// value at that position.
func (p paginator) keyValueForIndex(index uint64) ([]byte, []byte) {
var keyIndex [8]byte
byteOrder.PutUint64(keyIndex[:], index)
return p.cursor.Seek(keyIndex[:])
}
// lastIndex returns the last value in our index, if our index is empty it
// returns 0.
func (p paginator) lastIndex() uint64 {
keyIndex, _ := p.cursor.Last()
if keyIndex == nil {
return 0
}
return byteOrder.Uint64(keyIndex)
}
// nextKey is a helper closure to determine what key we should use next when
// we are iterating, depending on whether we are iterating forwards or in
// reverse.
func (p paginator) nextKey() ([]byte, []byte) {
if p.reversed {
return p.cursor.Prev()
}
return p.cursor.Next()
}
// cursorStart gets the index key and value for the first item we are looking
// up, taking into account that we may be paginating in reverse. The index
// offset provided is *excusive* so we will start with the item after the offset
// for forwards queries, and the item before the index for backwards queries.
func (p paginator) cursorStart() ([]byte, []byte) {
indexKey, indexValue := p.keyValueForIndex(p.indexOffset + 1)
// If the query is specifying reverse iteration, then we must
// handle a few offset cases.
if p.reversed {
switch {
// This indicates the default case, where no offset was
// specified. In that case we just start from the last
// entry.
case p.indexOffset == 0:
indexKey, indexValue = p.cursor.Last()
// This indicates the offset being set to the very
// first entry. Since there are no entries before
// this offset, and the direction is reversed, we can
// return without adding any invoices to the response.
case p.indexOffset == 1:
return nil, nil
// If we have been given an index offset that is beyond our last
// index value, we just return the last indexed value in our set
// since we are querying in reverse. We do not cover the case
// where our index offset equals our last index value, because
// index offset is exclusive, so we would want to start at the
// value before our last index.
case p.indexOffset > p.lastIndex():
return p.cursor.Last()
// Otherwise we have an index offset which is within our set of
// indexed keys, and we want to start at the item before our
// offset. We seek to our index offset, then return the element
// before it. We do this rather than p.indexOffset-1 to account
// for indexes that have gaps.
default:
p.keyValueForIndex(p.indexOffset)
indexKey, indexValue = p.cursor.Prev()
}
}
return indexKey, indexValue
}
// query gets the start point for our index offset and iterates through keys
// in our index until we reach the total number of items required for the query
// or we run out of cursor values. This function takes a fetchAndAppend function
// which is responsible for looking up the entry at that index, adding the entry
// to its set of return items (if desired) and return a boolean which indicates
// whether the item was added. This is required to allow the paginator to
// determine when the response has the maximum number of required items.
func (p paginator) query(fetchAndAppend func(k, v []byte) (bool, error)) error {
indexKey, indexValue := p.cursorStart()
var totalItems int
for ; indexKey != nil; indexKey, indexValue = p.nextKey() {
// If our current return payload exceeds the max number
// of invoices, then we'll exit now.
if uint64(totalItems) >= p.totalItems {
break
}
added, err := fetchAndAppend(indexKey, indexValue)
if err != nil {
return err
}
// If we added an item to our set in the latest fetch and append
// we increment our total count.
if added {
totalItems++
}
}
return nil
}