261 lines
5.9 KiB
Go
261 lines
5.9 KiB
Go
// GoToSocial
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// Copyright (C) GoToSocial Authors admin@gotosocial.org
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// SPDX-License-Identifier: AGPL-3.0-or-later
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//
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// This program is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Affero General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// This program is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Affero General Public License for more details.
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//
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// You should have received a copy of the GNU Affero General Public License
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// along with this program. If not, see <http://www.gnu.org/licenses/>.
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package domain
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import (
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"fmt"
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"strings"
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"sync/atomic"
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"unsafe"
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"golang.org/x/exp/slices"
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)
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// Cache provides a means of caching domains in memory to reduce
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// load on an underlying storage mechanism, e.g. a database.
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//
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// The in-memory domain list is kept up-to-date by means of a passed
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// loader function during every call to .Matches(). In the case of
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// a nil internal domain list, the loader function is called to hydrate
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// the cache with the latest list of domains.
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//
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// The .Clear() function can be used to invalidate the cache,
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// e.g. when an entry is added / deleted from the database.
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type Cache struct {
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// atomically updated ptr value to the
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// current domain cache radix trie.
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rootptr unsafe.Pointer
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}
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// Matches checks whether domain matches an entry in the cache.
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// If the cache is not currently loaded, then the provided load
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// function is used to hydrate it.
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func (c *Cache) Matches(domain string, load func() ([]string, error)) (bool, error) {
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// Load the current root pointer value.
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ptr := atomic.LoadPointer(&c.rootptr)
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if ptr == nil {
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// Cache is not hydrated.
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//
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// Load domains from callback.
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domains, err := load()
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if err != nil {
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return false, fmt.Errorf("error reloading cache: %w", err)
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}
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// Allocate new radix trie
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// node to store matches.
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root := new(root)
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// Add each domain to the trie.
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for _, domain := range domains {
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root.Add(domain)
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}
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// Sort the trie.
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root.Sort()
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// Store the new node ptr.
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ptr = unsafe.Pointer(root)
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atomic.StorePointer(&c.rootptr, ptr)
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}
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// Look for a match in the trie node.
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return (*root)(ptr).Match(domain), nil
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}
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// Clear will drop the currently loaded domain list,
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// triggering a reload on next call to .Matches().
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func (c *Cache) Clear() {
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atomic.StorePointer(&c.rootptr, nil)
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}
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// String returns a string representation of stored domains in cache.
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func (c *Cache) String() string {
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if ptr := atomic.LoadPointer(&c.rootptr); ptr != nil {
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return (*root)(ptr).String()
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}
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return "<empty>"
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}
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// root is the root node in the domain cache radix trie. this is the singular access point to the trie.
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type root struct{ root node }
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// Add will add the given domain to the radix trie.
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func (r *root) Add(domain string) {
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r.root.add(strings.Split(domain, "."))
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}
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// Match will return whether the given domain matches
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// an existing stored domain in this radix trie.
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func (r *root) Match(domain string) bool {
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return r.root.match(strings.Split(domain, "."))
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}
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// Sort will sort the entire radix trie ensuring that
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// child nodes are stored in alphabetical order. This
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// MUST be done to finalize the domain cache in order
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// to speed up the binary search of node child parts.
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func (r *root) Sort() {
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r.root.sort()
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}
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// String returns a string representation of node (and its descendants).
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func (r *root) String() string {
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buf := new(strings.Builder)
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r.root.writestr(buf, "")
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return buf.String()
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}
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type node struct {
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part string
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child []*node
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}
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func (n *node) add(parts []string) {
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if len(parts) == 0 {
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panic("invalid domain")
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}
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for {
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// Pop next domain part.
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i := len(parts) - 1
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part := parts[i]
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parts = parts[:i]
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var nn *node
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// Look for existing child node
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// that matches next domain part.
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for _, child := range n.child {
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if child.part == part {
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nn = child
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break
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}
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}
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if nn == nil {
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// Alloc new child node.
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nn = &node{part: part}
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n.child = append(n.child, nn)
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}
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if len(parts) == 0 {
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// Drop all children here as
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// this is a higher-level domain
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// than that we previously had.
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nn.child = nil
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return
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}
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// Re-iter with
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// child node.
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n = nn
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}
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}
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func (n *node) match(parts []string) bool {
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for len(parts) > 0 {
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// Pop next domain part.
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i := len(parts) - 1
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part := parts[i]
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parts = parts[:i]
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// Look for existing child
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// that matches next part.
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nn := n.getChild(part)
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if nn == nil {
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// No match :(
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return false
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}
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if len(nn.child) == 0 {
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// It's a match!
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return true
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}
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// Re-iter with
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// child node.
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n = nn
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}
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// Ran out of parts
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// without a match.
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return false
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}
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// getChild fetches child node with given domain part string
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// using a binary search. THIS ASSUMES CHILDREN ARE SORTED.
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func (n *node) getChild(part string) *node {
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i, j := 0, len(n.child)
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for i < j {
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// avoid overflow when computing h
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h := int(uint(i+j) >> 1)
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// i ≤ h < j
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if n.child[h].part < part {
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// preserves:
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// n.child[i-1].part != part
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i = h + 1
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} else {
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// preserves:
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// n.child[h].part == part
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j = h
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}
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}
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if i >= len(n.child) || n.child[i].part != part {
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return nil // no match
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}
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return n.child[i]
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}
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func (n *node) sort() {
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// Sort this node's slice of child nodes.
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slices.SortFunc(n.child, func(i, j *node) bool {
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return i.part < j.part
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})
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// Sort each child node's children.
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for _, child := range n.child {
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child.sort()
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}
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}
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func (n *node) writestr(buf *strings.Builder, prefix string) {
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if prefix != "" {
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// Suffix joining '.'
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prefix += "."
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}
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// Append current part.
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prefix += n.part
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// Dump current prefix state.
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buf.WriteString(prefix)
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buf.WriteByte('\n')
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// Iterate through node children.
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for _, child := range n.child {
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child.writestr(buf, prefix)
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}
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}
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