mirror of
https://github.com/overleaf/overleaf.git
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ee85d948e2
GitOrigin-RevId: ef2ef77e26df59d1af3df6dc664e284d3c70102d
294 lines
8.8 KiB
JavaScript
Executable file
294 lines
8.8 KiB
JavaScript
Executable file
#!/usr/bin/env node
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const { promisify } = require('util')
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const BPromise = require('bluebird')
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const commandLineArgs = require('command-line-args')
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const config = require('config')
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const fs = require('fs')
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const readline = require('readline')
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const { History } = require('overleaf-editor-core')
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const { knex, historyStore, persistor } = require('..')
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const projectKey = require('../lib/project_key')
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const MAX_POSTGRES_INTEGER = 2147483647
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const DEFAULT_BATCH_SIZE = 1000
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const MAX_RETRIES = 10
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const RETRY_DELAY_MS = 5000
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// Obtain a preconfigured GCS client through a non-documented property of
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// object-persistor. Sorry about that. We need the GCS client because we use
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// operations that are not implemented in object-persistor.
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const gcsClient = persistor.storage
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const globalBucket = gcsClient.bucket(config.get('blobStore.globalBucket'))
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const projectBucket = gcsClient.bucket(config.get('blobStore.projectBucket'))
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const delay = promisify(setTimeout)
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async function main() {
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const options = commandLineArgs([
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{ name: 'global-blobs', type: String },
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{ name: 'min-project-id', type: Number, defaultValue: 1 },
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{
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name: 'max-project-id',
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type: Number,
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defaultValue: MAX_POSTGRES_INTEGER,
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},
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{ name: 'batch-size', type: Number, defaultValue: DEFAULT_BATCH_SIZE },
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{ name: 'concurrency', type: Number, defaultValue: 1 },
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])
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if (!options['global-blobs']) {
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console.error(
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'You must specify a global blobs file with the --global-blobs option'
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)
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process.exit(1)
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}
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const globalBlobs = await readGlobalBlobs(options['global-blobs'])
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const minProjectId = options['min-project-id']
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const maxProjectId = options['max-project-id']
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const batchSize = options['batch-size']
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const concurrency = options.concurrency
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console.log(`Keeping ${globalBlobs.size} global blobs`)
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await run({ globalBlobs, minProjectId, maxProjectId, batchSize, concurrency })
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console.log('Done.')
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}
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async function readGlobalBlobs(filename) {
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const stream = fs.createReadStream(filename)
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const reader = readline.createInterface({
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input: stream,
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crlfDelay: Infinity,
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})
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const blobs = new Set()
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for await (const line of reader) {
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blobs.add(line.trim())
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}
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return blobs
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}
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async function run(options) {
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const { globalBlobs, minProjectId, maxProjectId, batchSize, concurrency } =
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options
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let batchStart = minProjectId
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while (batchStart <= maxProjectId) {
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let projectIds = await getProjectIds(batchStart, maxProjectId, batchSize)
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if (projectIds.length === 0) {
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break
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}
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const batchEnd = projectIds[projectIds.length - 1]
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console.log(`Processing projects ${batchStart} to ${batchEnd}`)
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const chunkIdsByProject = await getChunkIdsByProject(projectIds)
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let retries = 0
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while (true) {
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const results = await BPromise.map(
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projectIds,
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async projectId =>
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processProject(
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projectId,
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chunkIdsByProject.get(projectId),
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globalBlobs
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),
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{ concurrency }
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)
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const failedProjectIds = results
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.filter(result => !result.success)
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.map(result => result.projectId)
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if (failedProjectIds.length === 0) {
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// All projects were copied successfully. Carry on.
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break
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}
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// Some projects failed. Retry.
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retries += 1
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if (retries > MAX_RETRIES) {
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console.log(
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`Too many retries processing projects ${batchStart} to ${batchEnd}. Giving up.`
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)
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process.exit(1)
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}
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console.log(`Retrying projects: ${failedProjectIds.join(', ')}`)
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await delay(RETRY_DELAY_MS)
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projectIds = failedProjectIds
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}
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// Set up next batch
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batchStart = batchEnd + 1
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}
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}
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async function getProjectIds(minProjectId, maxProjectId, batchSize) {
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const projectIds = await knex('chunks')
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.distinct('doc_id')
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.where('doc_id', '>=', minProjectId)
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.andWhere('doc_id', '<=', maxProjectId)
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.orderBy('doc_id')
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.limit(batchSize)
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.pluck('doc_id')
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return projectIds
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}
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async function getChunkIdsByProject(projectIds) {
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const chunks = await knex('chunks')
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.select('id', { projectId: 'doc_id' })
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.where('doc_id', 'in', projectIds)
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const chunkIdsByProject = new Map()
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for (const projectId of projectIds) {
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chunkIdsByProject.set(projectId, [])
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}
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for (const chunk of chunks) {
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chunkIdsByProject.get(chunk.projectId).push(chunk.id)
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}
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return chunkIdsByProject
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}
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async function processProject(projectId, chunkIds, globalBlobs) {
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try {
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const blobHashes = await getBlobHashes(projectId, chunkIds)
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const projectBlobHashes = blobHashes.filter(hash => !globalBlobs.has(hash))
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const gcsSizesByHash = new Map()
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for (const blobHash of projectBlobHashes) {
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const blobSize = await copyBlobInGcs(projectId, blobHash)
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if (blobSize != null) {
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gcsSizesByHash.set(blobHash, blobSize)
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}
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}
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const dbSizesByHash = await copyBlobsInDatabase(
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projectId,
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projectBlobHashes
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)
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compareBlobSizes(gcsSizesByHash, dbSizesByHash)
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return { projectId, success: true }
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} catch (err) {
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console.error(`Failed to process project ${projectId}:`, err.stack)
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return { projectId, success: false }
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}
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}
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function compareBlobSizes(gcsSizesByHash, dbSizesByHash) {
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// Throw an error if the database doesn't report as many blobs as GCS
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if (dbSizesByHash.size !== gcsSizesByHash.size) {
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throw new Error(
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`the database reported ${dbSizesByHash.size} blobs copied, but GCS reported ${gcsSizesByHash.size} blobs copied`
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)
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}
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const mismatches = []
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for (const [hash, dbSize] of dbSizesByHash.entries()) {
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if (gcsSizesByHash.get(hash) !== dbSize) {
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mismatches.push(hash)
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}
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}
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if (mismatches.length > 0) {
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throw new Error(`blob size mismatch for hashes: ${mismatches.join(', ')}`)
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}
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}
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async function getHistory(projectId, chunkId) {
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const rawHistory = await historyStore.loadRaw(projectId, chunkId)
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const history = History.fromRaw(rawHistory)
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return history
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}
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async function getBlobHashes(projectId, chunkIds) {
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const blobHashes = new Set()
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for (const chunkId of chunkIds) {
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const history = await getHistory(projectId, chunkId)
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history.findBlobHashes(blobHashes)
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}
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return Array.from(blobHashes)
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}
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async function copyBlobInGcs(projectId, blobHash) {
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const globalBlobKey = [
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blobHash.slice(0, 2),
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blobHash.slice(2, 4),
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blobHash.slice(4),
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].join('/')
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const projectBlobKey = [
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projectKey.format(projectId),
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blobHash.slice(0, 2),
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blobHash.slice(2),
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].join('/')
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const globalBlobObject = globalBucket.file(globalBlobKey)
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const projectBlobObject = projectBucket.file(projectBlobKey)
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// Check if the project blob exists
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let projectBlobMetadata = null
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try {
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;[projectBlobMetadata] = await projectBlobObject.getMetadata()
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} catch (err) {
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if (err.code !== 404) {
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throw err
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}
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}
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// Check that the blob exists
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let globalBlobMetadata = null
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try {
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;[globalBlobMetadata] = await globalBlobObject.getMetadata()
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} catch (err) {
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if (err.code !== 404) {
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throw err
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}
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}
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if (projectBlobMetadata) {
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// Project blob already exists. Compare the metadata if the global blob
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// also exists and return early.
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if (
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globalBlobMetadata != null &&
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(globalBlobMetadata.size !== projectBlobMetadata.size ||
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globalBlobMetadata.md5Hash !== projectBlobMetadata.md5Hash)
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) {
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throw new Error(
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`Project blob ${blobHash} in project ${projectId} doesn't match global blob`
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)
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}
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return null
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}
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await globalBlobObject.copy(projectBlobObject)
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// Paranoid check that the copy went well. The getMetadata() method returns
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// an array, with the metadata in first position.
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;[projectBlobMetadata] = await projectBlobObject.getMetadata()
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if (
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globalBlobMetadata.size !== projectBlobMetadata.size ||
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globalBlobMetadata.md5Hash !== projectBlobMetadata.md5Hash
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) {
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throw new Error(`Failed to copy blob ${blobHash} to project ${projectId})`)
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}
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return parseInt(projectBlobMetadata.size, 10)
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}
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async function copyBlobsInDatabase(projectId, blobHashes) {
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const blobSizesByHash = new Map()
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if (blobHashes.length === 0) {
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return blobSizesByHash
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}
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const binaryBlobHashes = blobHashes.map(hash => Buffer.from(hash, 'hex'))
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const result = await knex.raw(
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`INSERT INTO project_blobs (
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project_id, hash_bytes, byte_length, string_length
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)
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SELECT ?, hash_bytes, byte_length, string_length
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FROM blobs
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WHERE hash_bytes IN (${binaryBlobHashes.map(_ => '?').join(',')})
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ON CONFLICT (project_id, hash_bytes) DO NOTHING
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RETURNING hash_bytes, byte_length`,
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[projectId, ...binaryBlobHashes]
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)
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for (const row of result.rows) {
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blobSizesByHash.set(row.hash_bytes.toString('hex'), row.byte_length)
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}
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return blobSizesByHash
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}
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main()
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.then(() => {
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process.exit()
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})
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.catch(err => {
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console.error(err)
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process.exit(1)
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})
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