mirror of
https://github.com/superseriousbusiness/gotosocial.git
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dfdc473cef
* move finger to dereferencer * totally break GetRemoteAccount * start reworking finger func a bit * start reworking getRemoteAccount a bit * move mention parts to namestring * rework webfingerget * use util function to extract webfinger parts * use accountDomain * rework finger again, final form * just a real nasty commit, the worst * remove refresh from account * use new ASRepToAccount signature * fix incorrect debug call * fix for new getRemoteAccount * rework GetRemoteAccount * start updating tests to remove repetition * break a lot of tests Move shared test logic into the testrig, rather than having it scattered all over the place. This allows us to just mock the transport controller once, and have all tests use it (unless they need not to for some other reason). * fix up tests to use main mock httpclient * webfinger only if necessary * cheeky linting with the lads * update mentionName regex recognize instance accounts * don't finger instance accounts * test webfinger part extraction * increase default worker count to 4 per cpu * don't repeat regex parsing * final search for discovered accountDomain * be more permissive in namestring lookup * add more extraction tests * simplify GetParseMentionFunc * skip long search if local account * fix broken test
169 lines
6.9 KiB
Go
169 lines
6.9 KiB
Go
/*
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GoToSocial
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Copyright (C) 2021-2022 GoToSocial Authors admin@gotosocial.org
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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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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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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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*/
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package regexes
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import (
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"bytes"
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"fmt"
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"regexp"
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"sync"
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"mvdan.cc/xurls/v2"
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)
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const (
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users = "users"
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actors = "actors"
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statuses = "statuses"
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inbox = "inbox"
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outbox = "outbox"
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followers = "followers"
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following = "following"
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liked = "liked"
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// collections = "collections"
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// featured = "featured"
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publicKey = "main-key"
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follow = "follow"
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// update = "updates"
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blocks = "blocks"
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)
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const (
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maximumUsernameLength = 64
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maximumEmojiShortcodeLength = 30
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maximumHashtagLength = 30
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)
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var (
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schemes = `(http|https)://`
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// LinkScheme captures http/https schemes in URLs.
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LinkScheme = func() *regexp.Regexp {
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rgx, err := xurls.StrictMatchingScheme(schemes)
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if err != nil {
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panic(err)
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}
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return rgx
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}()
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mentionName = `^@([\w\-\.]+)(?:@([\w\-\.:]+))?$`
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// MentionName captures the username and domain part from a mention string
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// such as @whatever_user@example.org, returning whatever_user and example.org (without the @ symbols)
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MentionName = regexp.MustCompile(mentionName)
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// mention regex can be played around with here: https://regex101.com/r/G1oGR0/1
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mentionFinder = `(?:^|\s)(@\w+(?:@[a-zA-Z0-9_\-\.]+)?)`
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// MentionFinder extracts mentions from a piece of text.
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MentionFinder = regexp.MustCompile(mentionFinder)
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// hashtag regex can be played with here: https://regex101.com/r/bPxeca/1
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hashtagFinder = fmt.Sprintf(`(?:^|\s)(?:#*)(#[a-zA-Z0-9]{1,%d})(?:#|\b)`, maximumHashtagLength)
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// HashtagFinder finds possible hashtags in a string.
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// It returns just the string part of the hashtag, not the # symbol.
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HashtagFinder = regexp.MustCompile(hashtagFinder)
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emojiShortcode = fmt.Sprintf(`\w{2,%d}`, maximumEmojiShortcodeLength)
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// EmojiShortcode validates an emoji name.
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EmojiShortcode = regexp.MustCompile(fmt.Sprintf("^%s$", emojiShortcode))
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// emoji regex can be played with here: https://regex101.com/r/478XGM/1
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emojiFinderString = fmt.Sprintf(`(?:\b)?:(%s):(?:\b)?`, emojiShortcode)
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// EmojiFinder extracts emoji strings from a piece of text.
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EmojiFinder = regexp.MustCompile(emojiFinderString)
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// usernameString defines an acceptable username on this instance
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usernameString = fmt.Sprintf(`[a-z0-9_]{2,%d}`, maximumUsernameLength)
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// Username can be used to validate usernames of new signups
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Username = regexp.MustCompile(fmt.Sprintf(`^%s$`, usernameString))
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userPathString = fmt.Sprintf(`^?/%s/(%s)$`, users, usernameString)
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// UserPath parses a path that validates and captures the username part from eg /users/example_username
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UserPath = regexp.MustCompile(userPathString)
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publicKeyPath = fmt.Sprintf(`^?/%s/(%s)/%s`, users, usernameString, publicKey)
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// PublicKeyPath parses a path that validates and captures the username part from eg /users/example_username/main-key
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PublicKeyPath = regexp.MustCompile(publicKeyPath)
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inboxPath = fmt.Sprintf(`^/?%s/(%s)/%s$`, users, usernameString, inbox)
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// InboxPath parses a path that validates and captures the username part from eg /users/example_username/inbox
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InboxPath = regexp.MustCompile(inboxPath)
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outboxPath = fmt.Sprintf(`^/?%s/(%s)/%s$`, users, usernameString, outbox)
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// OutboxPath parses a path that validates and captures the username part from eg /users/example_username/outbox
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OutboxPath = regexp.MustCompile(outboxPath)
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actorPath = fmt.Sprintf(`^?/%s/(%s)$`, actors, usernameString)
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// ActorPath parses a path that validates and captures the username part from eg /actors/example_username
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ActorPath = regexp.MustCompile(actorPath)
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followersPath = fmt.Sprintf(`^/?%s/(%s)/%s$`, users, usernameString, followers)
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// FollowersPath parses a path that validates and captures the username part from eg /users/example_username/followers
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FollowersPath = regexp.MustCompile(followersPath)
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followingPath = fmt.Sprintf(`^/?%s/(%s)/%s$`, users, usernameString, following)
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// FollowingPath parses a path that validates and captures the username part from eg /users/example_username/following
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FollowingPath = regexp.MustCompile(followingPath)
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followPath = fmt.Sprintf(`^/?%s/(%s)/%s/(%s)$`, users, usernameString, follow, ulid)
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// FollowPath parses a path that validates and captures the username part and the ulid part
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// from eg /users/example_username/follow/01F7XT5JZW1WMVSW1KADS8PVDH
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FollowPath = regexp.MustCompile(followPath)
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ulid = `[0123456789ABCDEFGHJKMNPQRSTVWXYZ]{26}`
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// ULID parses and validate a ULID.
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ULID = regexp.MustCompile(fmt.Sprintf(`^%s$`, ulid))
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likedPath = fmt.Sprintf(`^/?%s/(%s)/%s$`, users, usernameString, liked)
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// LikedPath parses a path that validates and captures the username part from eg /users/example_username/liked
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LikedPath = regexp.MustCompile(likedPath)
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likePath = fmt.Sprintf(`^/?%s/(%s)/%s/(%s)$`, users, usernameString, liked, ulid)
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// LikePath parses a path that validates and captures the username part and the ulid part
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// from eg /users/example_username/like/01F7XT5JZW1WMVSW1KADS8PVDH
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LikePath = regexp.MustCompile(likePath)
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statusesPath = fmt.Sprintf(`^/?%s/(%s)/%s/(%s)$`, users, usernameString, statuses, ulid)
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// StatusesPath parses a path that validates and captures the username part and the ulid part
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// from eg /users/example_username/statuses/01F7XT5JZW1WMVSW1KADS8PVDH
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// The regex can be played with here: https://regex101.com/r/G9zuxQ/1
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StatusesPath = regexp.MustCompile(statusesPath)
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blockPath = fmt.Sprintf(`^/?%s/(%s)/%s/(%s)$`, users, usernameString, blocks, ulid)
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// BlockPath parses a path that validates and captures the username part and the ulid part
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// from eg /users/example_username/blocks/01F7XT5JZW1WMVSW1KADS8PVDH
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BlockPath = regexp.MustCompile(blockPath)
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)
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// bufpool is a memory pool of byte buffers for use in our regex utility functions.
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var bufpool = sync.Pool{
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New: func() any {
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buf := bytes.NewBuffer(make([]byte, 0, 512))
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return buf
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},
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}
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// ReplaceAllStringFunc will call through to .ReplaceAllStringFunc in the provided regex, but provide you a clean byte buffer for optimized string writes.
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func ReplaceAllStringFunc(rgx *regexp.Regexp, src string, repl func(match string, buf *bytes.Buffer) string) string {
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buf := bufpool.Get().(*bytes.Buffer) //nolint
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defer bufpool.Put(buf)
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return rgx.ReplaceAllStringFunc(src, func(match string) string {
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buf.Reset() // reset use
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return repl(match, buf)
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})
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}
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