This commit is contained in:
syuilo 2019-04-14 22:54:33 +09:00
parent b7ee42198c
commit a1f7b00981
No known key found for this signature in database
GPG key ID: BDC4C49D06AB9D69
6 changed files with 0 additions and 627 deletions

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@ -1,9 +0,0 @@
{
'targets': [
{
'target_name': 'crypto_key',
'sources': ['src/crypto_key.cc'],
'include_dirs': ['<!(node -e "require(\'nan\')")']
}
]
}

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@ -49,7 +49,6 @@ gulp.task('build:copy:views', () =>
gulp.task('build:copy', gulp.parallel('build:copy:views', () => gulp.task('build:copy', gulp.parallel('build:copy:views', () =>
gulp.src([ gulp.src([
'./build/Release/crypto_key.node',
'./src/const.json', './src/const.json',
'./src/server/web/views/**/*', './src/server/web/views/**/*',
'./src/**/assets/**/*', './src/**/assets/**/*',

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@ -12,7 +12,6 @@
"scripts": { "scripts": {
"start": "node ./index.js", "start": "node ./index.js",
"init": "node ./built/init.js", "init": "node ./built/init.js",
"migrate": "node ./built/migrate.js",
"build": "webpack && gulp build", "build": "webpack && gulp build",
"webpack": "webpack", "webpack": "webpack",
"watch": "webpack --watch", "watch": "webpack --watch",
@ -170,7 +169,6 @@
"mongodb": "3.2.3", "mongodb": "3.2.3",
"monk": "6.0.6", "monk": "6.0.6",
"ms": "2.1.1", "ms": "2.1.1",
"nan": "2.12.1",
"nested-property": "0.0.7", "nested-property": "0.0.7",
"node-fetch": "2.3.0", "node-fetch": "2.3.0",
"nodemailer": "6.1.0", "nodemailer": "6.1.0",

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@ -1,111 +0,0 @@
#include <nan.h>
#include <openssl/bio.h>
#include <openssl/buffer.h>
#include <openssl/crypto.h>
#include <openssl/pem.h>
#include <openssl/rsa.h>
#include <openssl/x509.h>
NAN_METHOD(extractPublic)
{
const auto sourceString = info[0]->ToString(Nan::GetCurrentContext()).ToLocalChecked();
if (!sourceString->IsOneByte()) {
Nan::ThrowError("Malformed character found");
return;
}
size_t sourceLength = sourceString->Length();
const auto sourceBuf = new char[sourceLength];
Nan::DecodeWrite(sourceBuf, sourceLength, sourceString);
const auto source = BIO_new_mem_buf(sourceBuf, sourceLength);
if (source == nullptr) {
Nan::ThrowError("Memory allocation failed");
delete[] sourceBuf;
return;
}
const auto rsa = PEM_read_bio_RSAPrivateKey(source, nullptr, nullptr, nullptr);
BIO_free(source);
delete[] sourceBuf;
if (rsa == nullptr) {
Nan::ThrowError("Decode failed");
return;
}
const auto destination = BIO_new(BIO_s_mem());
if (destination == nullptr) {
Nan::ThrowError("Memory allocation failed");
return;
}
const auto result = PEM_write_bio_RSAPublicKey(destination, rsa);
RSA_free(rsa);
if (result != 1) {
Nan::ThrowError("Public key extraction failed");
BIO_free(destination);
return;
}
char *pem;
const auto pemLength = BIO_get_mem_data(destination, &pem);
info.GetReturnValue().Set(Nan::Encode(pem, pemLength));
BIO_free(destination);
}
NAN_METHOD(generate)
{
const auto exponent = BN_new();
const auto mem = BIO_new(BIO_s_mem());
const auto rsa = RSA_new();
char *data;
long result;
if (exponent == nullptr || mem == nullptr || rsa == nullptr) {
Nan::ThrowError("Memory allocation failed");
goto done;
}
result = BN_set_word(exponent, 65537);
if (result != 1) {
Nan::ThrowError("Exponent setting failed");
goto done;
}
result = RSA_generate_key_ex(rsa, 2048, exponent, nullptr);
if (result != 1) {
Nan::ThrowError("Key generation failed");
goto done;
}
result = PEM_write_bio_RSAPrivateKey(mem, rsa, NULL, NULL, 0, NULL, NULL);
if (result != 1) {
Nan::ThrowError("Key export failed");
goto done;
}
result = BIO_get_mem_data(mem, &data);
info.GetReturnValue().Set(Nan::Encode(data, result));
done:
RSA_free(rsa);
BIO_free(mem);
BN_free(exponent);
}
NAN_MODULE_INIT(InitAll)
{
Nan::Set(target, Nan::New<v8::String>("extractPublic").ToLocalChecked(),
Nan::GetFunction(Nan::New<v8::FunctionTemplate>(extractPublic)).ToLocalChecked());
Nan::Set(target, Nan::New<v8::String>("generate").ToLocalChecked(),
Nan::GetFunction(Nan::New<v8::FunctionTemplate>(generate)).ToLocalChecked());
}
NODE_MODULE(crypto_key, InitAll);

2
src/crypto_key.d.ts vendored
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@ -1,2 +0,0 @@
export function extractPublic(keypair: string): string;
export function generate(): string;

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@ -1,502 +0,0 @@
process.env.NODE_ENV = 'production';
import monk from 'monk';
import * as mongo from 'mongodb';
import * as fs from 'fs';
import * as uuid from 'uuid';
import chalk from 'chalk';
import config from './config';
import { initDb } from './db/postgre';
import { User } from './models/entities/user';
import { getRepository } from 'typeorm';
import generateUserToken from './server/api/common/generate-native-user-token';
import { DriveFile } from './models/entities/drive-file';
import { DriveFolder } from './models/entities/drive-folder';
import { InternalStorage } from './services/drive/internal-storage';
import { createTemp } from './misc/create-temp';
import { Note } from './models/entities/note';
import { Following } from './models/entities/following';
import { Poll } from './models/entities/poll';
import { PollVote } from './models/entities/poll-vote';
import { NoteFavorite } from './models/entities/note-favorite';
import { NoteReaction } from './models/entities/note-reaction';
import { UserPublickey } from './models/entities/user-publickey';
import { UserKeypair } from './models/entities/user-keypair';
import { extractPublic } from './crypto_key';
import { Emoji } from './models/entities/emoji';
import { toPuny as _toPuny } from './misc/convert-host';
import { UserProfile } from './models/entities/user-profile';
function toPuny(x: string | null): string | null {
if (x == null) return null;
return _toPuny(x);
}
const u = (config as any).mongodb.user ? encodeURIComponent((config as any).mongodb.user) : null;
const p = (config as any).mongodb.pass ? encodeURIComponent((config as any).mongodb.pass) : null;
const uri = `mongodb://${u && p ? `${u}:${p}@` : ''}${(config as any).mongodb.host}:${(config as any).mongodb.port}/${(config as any).mongodb.db}`;
const db = monk(uri);
let mdb: mongo.Db;
const test = false;
const limit = 500;
const nativeDbConn = async (): Promise<mongo.Db> => {
if (mdb) return mdb;
const db = await ((): Promise<mongo.Db> => new Promise((resolve, reject) => {
mongo.MongoClient.connect(uri, { useNewUrlParser: true }, (e: Error, client: any) => {
if (e) return reject(e);
resolve(client.db((config as any).mongodb.db));
});
}))();
mdb = db;
return db;
};
const _User = db.get<any>('users');
const _DriveFile = db.get<any>('driveFiles.files');
const _DriveFolder = db.get<any>('driveFolders');
const _Note = db.get<any>('notes');
const _Following = db.get<any>('following');
const _PollVote = db.get<any>('pollVotes');
const _Favorite = db.get<any>('favorites');
const _NoteReaction = db.get<any>('noteReactions');
const _Emoji = db.get<any>('emoji');
const getDriveFileBucket = async (): Promise<mongo.GridFSBucket> => {
const db = await nativeDbConn();
const bucket = new mongo.GridFSBucket(db, {
bucketName: 'driveFiles'
});
return bucket;
};
async function main() {
await initDb();
const Users = getRepository(User);
const UserProfiles = getRepository(UserProfile);
const DriveFiles = getRepository(DriveFile);
const DriveFolders = getRepository(DriveFolder);
const Notes = getRepository(Note);
const Followings = getRepository(Following);
const Polls = getRepository(Poll);
const PollVotes = getRepository(PollVote);
const NoteFavorites = getRepository(NoteFavorite);
const NoteReactions = getRepository(NoteReaction);
const UserPublickeys = getRepository(UserPublickey);
const UserKeypairs = getRepository(UserKeypair);
const Emojis = getRepository(Emoji);
async function migrateUser(user: any) {
await Users.save({
id: user._id.toHexString(),
createdAt: user.createdAt || new Date(),
username: user.username,
usernameLower: user.username.toLowerCase(),
host: toPuny(user.host),
token: generateUserToken(),
isAdmin: user.isAdmin || false,
name: user.name,
followersCount: user.followersCount || 0,
followingCount: user.followingCount || 0,
notesCount: user.notesCount || 0,
isBot: user.isBot || false,
isCat: user.isCat || false,
isVerified: user.isVerified || false,
inbox: user.inbox,
sharedInbox: user.sharedInbox,
uri: user.uri,
});
await UserProfiles.save({
userId: user._id.toHexString(),
description: user.description,
userHost: toPuny(user.host),
autoAcceptFollowed: true,
autoWatch: false,
password: user.password,
location: user.profile ? user.profile.location : null,
birthday: user.profile ? user.profile.birthday : null,
});
if (user.publicKey) {
await UserPublickeys.save({
userId: user._id.toHexString(),
keyId: user.publicKey.id,
keyPem: user.publicKey.publicKeyPem
});
}
if (user.keypair) {
await UserKeypairs.save({
userId: user._id.toHexString(),
publicKey: extractPublic(user.keypair),
privateKey: user.keypair,
});
}
}
async function migrateFollowing(following: any) {
await Followings.save({
id: following._id.toHexString(),
createdAt: new Date(),
followerId: following.followerId.toHexString(),
followeeId: following.followeeId.toHexString(),
// 非正規化
followerHost: following._follower ? toPuny(following._follower.host) : null,
followerInbox: following._follower ? following._follower.inbox : null,
followerSharedInbox: following._follower ? following._follower.sharedInbox : null,
followeeHost: following._followee ? toPuny(following._followee.host) : null,
followeeInbox: following._followee ? following._followee.inbox : null,
followeeSharedInbox: following._followee ? following._followee.sharedInbo : null
});
}
async function migrateDriveFolder(folder: any) {
await DriveFolders.save({
id: folder._id.toHexString(),
createdAt: folder.createdAt || new Date(),
name: folder.name,
parentId: folder.parentId ? folder.parentId.toHexString() : null,
});
}
async function migrateDriveFile(file: any) {
const user = await _User.findOne({
_id: file.metadata.userId
});
if (user == null) return;
if (file.metadata.storage && file.metadata.storage.key) { // when object storage
await DriveFiles.save({
id: file._id.toHexString(),
userId: user._id.toHexString(),
userHost: toPuny(user.host),
createdAt: file.uploadDate || new Date(),
md5: file.md5,
name: file.filename,
type: file.contentType,
properties: file.metadata.properties || {},
size: file.length,
url: file.metadata.url,
uri: file.metadata.uri,
accessKey: file.metadata.storage.key,
folderId: file.metadata.folderId ? file.metadata.folderId.toHexString() : null,
storedInternal: false,
isLink: false
});
} else if (!file.metadata.isLink) {
const [temp, clean] = await createTemp();
await new Promise(async (res, rej) => {
const bucket = await getDriveFileBucket();
const readable = bucket.openDownloadStream(file._id);
const dest = fs.createWriteStream(temp);
readable.pipe(dest);
readable.on('end', () => {
dest.end();
res();
});
});
const key = uuid.v4();
const url = InternalStorage.saveFromPath(key, temp);
await DriveFiles.save({
id: file._id.toHexString(),
userId: user._id.toHexString(),
userHost: toPuny(user.host),
createdAt: file.uploadDate || new Date(),
md5: file.md5,
name: file.filename,
type: file.contentType,
properties: file.metadata.properties,
size: file.length,
url: url,
uri: file.metadata.uri,
accessKey: key,
folderId: file.metadata.folderId ? file.metadata.folderId.toHexString() : null,
storedInternal: true,
isLink: false
});
clean();
} else {
await DriveFiles.save({
id: file._id.toHexString(),
userId: user._id.toHexString(),
userHost: toPuny(user.host),
createdAt: file.uploadDate || new Date(),
md5: file.md5,
name: file.filename,
type: file.contentType,
properties: file.metadata.properties,
size: file.length,
url: file.metadata.url,
uri: file.metadata.uri,
accessKey: null,
folderId: file.metadata.folderId ? file.metadata.folderId.toHexString() : null,
storedInternal: false,
isLink: true
});
}
}
async function migrateNote(note: any) {
await Notes.save({
id: note._id.toHexString(),
createdAt: note.createdAt || new Date(),
text: note.text,
cw: note.cw || null,
tags: note.tags || [],
userId: note.userId.toHexString(),
viaMobile: note.viaMobile || false,
geo: note.geo,
appId: null,
visibility: note.visibility || 'public',
visibleUserIds: note.visibleUserIds ? note.visibleUserIds.map((id: any) => id.toHexString()) : [],
replyId: note.replyId ? note.replyId.toHexString() : null,
renoteId: note.renoteId ? note.renoteId.toHexString() : null,
userHost: null,
fileIds: note.fileIds ? note.fileIds.map((id: any) => id.toHexString()) : [],
localOnly: note.localOnly || false,
hasPoll: note.poll != null
});
if (note.poll) {
await Polls.save({
noteId: note._id.toHexString(),
choices: note.poll.choices.map((x: any) => x.text),
expiresAt: note.poll.expiresAt,
multiple: note.poll.multiple,
votes: note.poll.choices.map((x: any) => x.votes),
noteVisibility: note.visibility,
userId: note.userId.toHexString(),
userHost: null
});
}
}
async function migratePollVote(vote: any) {
await PollVotes.save({
id: vote._id.toHexString(),
createdAt: vote.createdAt,
noteId: vote.noteId.toHexString(),
userId: vote.userId.toHexString(),
choice: vote.choice
});
}
async function migrateNoteFavorite(favorite: any) {
await NoteFavorites.save({
id: favorite._id.toHexString(),
createdAt: favorite.createdAt,
noteId: favorite.noteId.toHexString(),
userId: favorite.userId.toHexString(),
});
}
async function migrateNoteReaction(reaction: any) {
await NoteReactions.save({
id: reaction._id.toHexString(),
createdAt: reaction.createdAt,
noteId: reaction.noteId.toHexString(),
userId: reaction.userId.toHexString(),
reaction: reaction.reaction
});
}
async function reMigrateUser(user: any) {
const u = await _User.findOne({
_id: new mongo.ObjectId(user.id)
});
const avatar = u.avatarId ? await DriveFiles.findOne(u.avatarId.toHexString()) : null;
const banner = u.bannerId ? await DriveFiles.findOne(u.bannerId.toHexString()) : null;
await Users.update(user.id, {
avatarId: avatar ? avatar.id : null,
bannerId: banner ? banner.id : null,
avatarUrl: avatar ? avatar.url : null,
bannerUrl: banner ? banner.url : null
});
}
async function migrateEmoji(emoji: any) {
await Emojis.save({
id: emoji._id.toHexString(),
updatedAt: emoji.createdAt,
aliases: emoji.aliases,
url: emoji.url,
uri: emoji.uri,
host: toPuny(emoji.host),
name: emoji.name
});
}
let allUsersCount = await _User.count({
deletedAt: { $exists: false }
});
if (test && allUsersCount > limit) allUsersCount = limit;
for (let i = 0; i < allUsersCount; i++) {
const user = await _User.findOne({
deletedAt: { $exists: false }
}, {
skip: i
});
try {
await migrateUser(user);
console.log(`USER (${i + 1}/${allUsersCount}) ${user._id} ${chalk.green('DONE')}`);
} catch (e) {
console.log(`USER (${i + 1}/${allUsersCount}) ${user._id} ${chalk.red('ERR')}`);
console.error(e);
}
}
let allFollowingsCount = await _Following.count();
if (test && allFollowingsCount > limit) allFollowingsCount = limit;
for (let i = 0; i < allFollowingsCount; i++) {
const following = await _Following.findOne({}, {
skip: i
});
try {
await migrateFollowing(following);
console.log(`FOLLOWING (${i + 1}/${allFollowingsCount}) ${following._id} ${chalk.green('DONE')}`);
} catch (e) {
console.log(`FOLLOWING (${i + 1}/${allFollowingsCount}) ${following._id} ${chalk.red('ERR')}`);
console.error(e);
}
}
let allDriveFoldersCount = await _DriveFolder.count();
if (test && allDriveFoldersCount > limit) allDriveFoldersCount = limit;
for (let i = 0; i < allDriveFoldersCount; i++) {
const folder = await _DriveFolder.findOne({}, {
skip: i
});
try {
await migrateDriveFolder(folder);
console.log(`FOLDER (${i + 1}/${allDriveFoldersCount}) ${folder._id} ${chalk.green('DONE')}`);
} catch (e) {
console.log(`FOLDER (${i + 1}/${allDriveFoldersCount}) ${folder._id} ${chalk.red('ERR')}`);
console.error(e);
}
}
let allDriveFilesCount = await _DriveFile.count({
'metadata._user.host': null,
'metadata.deletedAt': { $exists: false }
});
if (test && allDriveFilesCount > limit) allDriveFilesCount = limit;
for (let i = 0; i < allDriveFilesCount; i++) {
const file = await _DriveFile.findOne({
'metadata._user.host': null,
'metadata.deletedAt': { $exists: false }
}, {
skip: i
});
try {
await migrateDriveFile(file);
console.log(`FILE (${i + 1}/${allDriveFilesCount}) ${file._id} ${chalk.green('DONE')}`);
} catch (e) {
console.log(`FILE (${i + 1}/${allDriveFilesCount}) ${file._id} ${chalk.red('ERR')}`);
console.error(e);
}
}
let allNotesCount = await _Note.count({
'_user.host': null,
'metadata.deletedAt': { $exists: false }
});
if (test && allNotesCount > limit) allNotesCount = limit;
for (let i = 0; i < allNotesCount; i++) {
const note = await _Note.findOne({
'_user.host': null,
'metadata.deletedAt': { $exists: false }
}, {
skip: i
});
try {
await migrateNote(note);
console.log(`NOTE (${i + 1}/${allNotesCount}) ${note._id} ${chalk.green('DONE')}`);
} catch (e) {
console.log(`NOTE (${i + 1}/${allNotesCount}) ${note._id} ${chalk.red('ERR')}`);
console.error(e);
}
}
let allPollVotesCount = await _PollVote.count();
if (test && allPollVotesCount > limit) allPollVotesCount = limit;
for (let i = 0; i < allPollVotesCount; i++) {
const vote = await _PollVote.findOne({}, {
skip: i
});
try {
await migratePollVote(vote);
console.log(`VOTE (${i + 1}/${allPollVotesCount}) ${vote._id} ${chalk.green('DONE')}`);
} catch (e) {
console.log(`VOTE (${i + 1}/${allPollVotesCount}) ${vote._id} ${chalk.red('ERR')}`);
console.error(e);
}
}
let allNoteFavoritesCount = await _Favorite.count();
if (test && allNoteFavoritesCount > limit) allNoteFavoritesCount = limit;
for (let i = 0; i < allNoteFavoritesCount; i++) {
const favorite = await _Favorite.findOne({}, {
skip: i
});
try {
await migrateNoteFavorite(favorite);
console.log(`FAVORITE (${i + 1}/${allNoteFavoritesCount}) ${favorite._id} ${chalk.green('DONE')}`);
} catch (e) {
console.log(`FAVORITE (${i + 1}/${allNoteFavoritesCount}) ${favorite._id} ${chalk.red('ERR')}`);
console.error(e);
}
}
let allNoteReactionsCount = await _NoteReaction.count();
if (test && allNoteReactionsCount > limit) allNoteReactionsCount = limit;
for (let i = 0; i < allNoteReactionsCount; i++) {
const reaction = await _NoteReaction.findOne({}, {
skip: i
});
try {
await migrateNoteReaction(reaction);
console.log(`REACTION (${i + 1}/${allNoteReactionsCount}) ${reaction._id} ${chalk.green('DONE')}`);
} catch (e) {
console.log(`REACTION (${i + 1}/${allNoteReactionsCount}) ${reaction._id} ${chalk.red('ERR')}`);
console.error(e);
}
}
let allActualUsersCount = await Users.count();
if (test && allActualUsersCount > limit) allActualUsersCount = limit;
for (let i = 0; i < allActualUsersCount; i++) {
const [user] = await Users.find({
take: 1,
skip: i
});
try {
await reMigrateUser(user);
console.log(`RE:USER (${i + 1}/${allActualUsersCount}) ${user.id} ${chalk.green('DONE')}`);
} catch (e) {
console.log(`RE:USER (${i + 1}/${allActualUsersCount}) ${user.id} ${chalk.red('ERR')}`);
console.error(e);
}
}
const allEmojisCount = await _Emoji.count();
for (let i = 0; i < allEmojisCount; i++) {
const emoji = await _Emoji.findOne({}, {
skip: i
});
try {
await migrateEmoji(emoji);
console.log(`EMOJI (${i + 1}/${allEmojisCount}) ${emoji._id} ${chalk.green('DONE')}`);
} catch (e) {
console.log(`EMOJI (${i + 1}/${allEmojisCount}) ${emoji._id} ${chalk.red('ERR')}`);
console.error(e);
}
}
console.log('DONE :)');
}
main();