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Merge pull request #1730 from jjlin/attachment-upload-v2

Add support for v2 attachment upload APIs
Dieser Commit ist enthalten in:
Daniel García 2021-05-30 22:27:52 +02:00 committet von GitHub
Commit fc513413ea
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GPG-Schlüssel-ID: 4AEE18F83AFDEB23
4 geänderte Dateien mit 235 neuen und 41 gelöschten Zeilen

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@ -1,12 +1,11 @@
use std::collections::{HashMap, HashSet}; use std::collections::{HashMap, HashSet};
use std::path::Path; use std::path::{Path, PathBuf};
use chrono::{NaiveDateTime, Utc}; use chrono::{NaiveDateTime, Utc};
use rocket::{http::ContentType, request::Form, Data, Route}; use rocket::{http::ContentType, request::Form, Data, Route};
use rocket_contrib::json::Json; use rocket_contrib::json::Json;
use serde_json::Value; use serde_json::Value;
use data_encoding::HEXLOWER;
use multipart::server::{save::SavedData, Multipart, SaveResult}; use multipart::server::{save::SavedData, Multipart, SaveResult};
use crate::{ use crate::{
@ -40,8 +39,10 @@ pub fn routes() -> Vec<Route> {
post_ciphers_create, post_ciphers_create,
post_ciphers_import, post_ciphers_import,
get_attachment, get_attachment,
post_attachment, post_attachment_v2,
post_attachment_admin, post_attachment_v2_data,
post_attachment, // legacy
post_attachment_admin, // legacy
post_attachment_share, post_attachment_share,
delete_attachment_post, delete_attachment_post,
delete_attachment_post_admin, delete_attachment_post_admin,
@ -755,6 +756,12 @@ fn share_cipher_by_uuid(
Ok(Json(cipher.to_json(&headers.host, &headers.user.uuid, &conn))) Ok(Json(cipher.to_json(&headers.host, &headers.user.uuid, &conn)))
} }
/// v2 API for downloading an attachment. This just redirects the client to
/// the actual location of an attachment.
///
/// Upstream added this v2 API to support direct download of attachments from
/// their object storage service. For self-hosted instances, it basically just
/// redirects to the same location as before the v2 API.
#[get("/ciphers/<uuid>/attachment/<attachment_id>")] #[get("/ciphers/<uuid>/attachment/<attachment_id>")]
fn get_attachment(uuid: String, attachment_id: String, headers: Headers, conn: DbConn) -> JsonResult { fn get_attachment(uuid: String, attachment_id: String, headers: Headers, conn: DbConn) -> JsonResult {
match Attachment::find_by_id(&attachment_id, &conn) { match Attachment::find_by_id(&attachment_id, &conn) {
@ -764,16 +771,79 @@ fn get_attachment(uuid: String, attachment_id: String, headers: Headers, conn: D
} }
} }
#[post("/ciphers/<uuid>/attachment", format = "multipart/form-data", data = "<data>")] #[derive(Deserialize)]
fn post_attachment( #[allow(non_snake_case)]
struct AttachmentRequestData {
Key: String,
FileName: String,
FileSize: i32,
// We check org owner/admin status via is_write_accessible_to_user(),
// so we can just ignore this field.
//
// AdminRequest: bool,
}
enum FileUploadType {
Direct = 0,
// Azure = 1, // only used upstream
}
/// v2 API for creating an attachment associated with a cipher.
/// This redirects the client to the API it should use to upload the attachment.
/// For upstream's cloud-hosted service, it's an Azure object storage API.
/// For self-hosted instances, it's another API on the local instance.
#[post("/ciphers/<uuid>/attachment/v2", data = "<data>")]
fn post_attachment_v2(
uuid: String, uuid: String,
data: Data, data: JsonUpcase<AttachmentRequestData>,
content_type: &ContentType,
headers: Headers, headers: Headers,
conn: DbConn, conn: DbConn,
nt: Notify,
) -> JsonResult { ) -> JsonResult {
let cipher = match Cipher::find_by_uuid(&uuid, &conn) { let cipher = match Cipher::find_by_uuid(&uuid, &conn) {
Some(cipher) => cipher,
None => err!("Cipher doesn't exist"),
};
if !cipher.is_write_accessible_to_user(&headers.user.uuid, &conn) {
err!("Cipher is not write accessible")
}
let attachment_id = crypto::generate_attachment_id();
let data: AttachmentRequestData = data.into_inner().data;
let attachment =
Attachment::new(attachment_id.clone(), cipher.uuid.clone(), data.FileName, data.FileSize, Some(data.Key));
attachment.save(&conn).expect("Error saving attachment");
let url = format!("/ciphers/{}/attachment/{}", cipher.uuid, attachment_id);
Ok(Json(json!({ // AttachmentUploadDataResponseModel
"Object": "attachment-fileUpload",
"AttachmentId": attachment_id,
"Url": url,
"FileUploadType": FileUploadType::Direct as i32,
"CipherResponse": cipher.to_json(&headers.host, &headers.user.uuid, &conn),
"CipherMiniResponse": null,
})))
}
/// Saves the data content of an attachment to a file. This is common code
/// shared between the v2 and legacy attachment APIs.
///
/// When used with the legacy API, this function is responsible for creating
/// the attachment database record, so `attachment` is None.
///
/// When used with the v2 API, post_attachment_v2() has already created the
/// database record, which is passed in as `attachment`.
fn save_attachment(
mut attachment: Option<Attachment>,
cipher_uuid: String,
data: Data,
content_type: &ContentType,
headers: &Headers,
conn: &DbConn,
nt: Notify,
) -> Result<Cipher, crate::error::Error> {
let cipher = match Cipher::find_by_uuid(&cipher_uuid, conn) {
Some(cipher) => cipher, Some(cipher) => cipher,
None => err_discard!("Cipher doesn't exist", data), None => err_discard!("Cipher doesn't exist", data),
}; };
@ -782,15 +852,18 @@ fn post_attachment(
err_discard!("Cipher is not write accessible", data) err_discard!("Cipher is not write accessible", data)
} }
let mut params = content_type.params(); // In the v2 API, the attachment record has already been created,
let boundary_pair = params.next().expect("No boundary provided"); // so the size limit needs to be adjusted to account for that.
let boundary = boundary_pair.1; let size_adjust = match &attachment {
None => 0, // Legacy API
Some(a) => a.file_size as i64, // v2 API
};
let size_limit = if let Some(ref user_uuid) = cipher.user_uuid { let size_limit = if let Some(ref user_uuid) = cipher.user_uuid {
match CONFIG.user_attachment_limit() { match CONFIG.user_attachment_limit() {
Some(0) => err_discard!("Attachments are disabled", data), Some(0) => err_discard!("Attachments are disabled", data),
Some(limit_kb) => { Some(limit_kb) => {
let left = (limit_kb * 1024) - Attachment::size_by_user(user_uuid, &conn); let left = (limit_kb * 1024) - Attachment::size_by_user(user_uuid, &conn) + size_adjust;
if left <= 0 { if left <= 0 {
err_discard!("Attachment size limit reached! Delete some files to open space", data) err_discard!("Attachment size limit reached! Delete some files to open space", data)
} }
@ -802,7 +875,7 @@ fn post_attachment(
match CONFIG.org_attachment_limit() { match CONFIG.org_attachment_limit() {
Some(0) => err_discard!("Attachments are disabled", data), Some(0) => err_discard!("Attachments are disabled", data),
Some(limit_kb) => { Some(limit_kb) => {
let left = (limit_kb * 1024) - Attachment::size_by_org(org_uuid, &conn); let left = (limit_kb * 1024) - Attachment::size_by_org(org_uuid, &conn) + size_adjust;
if left <= 0 { if left <= 0 {
err_discard!("Attachment size limit reached! Delete some files to open space", data) err_discard!("Attachment size limit reached! Delete some files to open space", data)
} }
@ -814,7 +887,12 @@ fn post_attachment(
err_discard!("Cipher is neither owned by a user nor an organization", data); err_discard!("Cipher is neither owned by a user nor an organization", data);
}; };
let base_path = Path::new(&CONFIG.attachments_folder()).join(&cipher.uuid); let mut params = content_type.params();
let boundary_pair = params.next().expect("No boundary provided");
let boundary = boundary_pair.1;
let base_path = Path::new(&CONFIG.attachments_folder()).join(&cipher_uuid);
let mut path = PathBuf::new();
let mut attachment_key = None; let mut attachment_key = None;
let mut error = None; let mut error = None;
@ -830,35 +908,81 @@ fn post_attachment(
} }
} }
"data" => { "data" => {
// This is provided by the client, don't trust it // In the legacy API, this is the encrypted filename
let name = field.headers.filename.expect("No filename provided"); // provided by the client, stored to the database as-is.
// In the v2 API, this value doesn't matter, as it was
// already provided and stored via an earlier API call.
let encrypted_filename = field.headers.filename;
let file_name = HEXLOWER.encode(&crypto::get_random(vec![0; 10])); // This random ID is used as the name of the file on disk.
let path = base_path.join(&file_name); // In the legacy API, we need to generate this value here.
// In the v2 API, we use the value from post_attachment_v2().
let file_id = match &attachment {
Some(attachment) => attachment.id.clone(), // v2 API
None => crypto::generate_attachment_id(), // Legacy API
};
path = base_path.join(&file_id);
let size = let size =
match field.data.save().memory_threshold(0).size_limit(size_limit).with_path(path.clone()) { match field.data.save().memory_threshold(0).size_limit(size_limit).with_path(path.clone()) {
SaveResult::Full(SavedData::File(_, size)) => size as i32, SaveResult::Full(SavedData::File(_, size)) => size as i32,
SaveResult::Full(other) => { SaveResult::Full(other) => {
std::fs::remove_file(path).ok();
error = Some(format!("Attachment is not a file: {:?}", other)); error = Some(format!("Attachment is not a file: {:?}", other));
return; return;
} }
SaveResult::Partial(_, reason) => { SaveResult::Partial(_, reason) => {
std::fs::remove_file(path).ok();
error = Some(format!("Attachment size limit exceeded with this file: {:?}", reason)); error = Some(format!("Attachment size limit exceeded with this file: {:?}", reason));
return; return;
} }
SaveResult::Error(e) => { SaveResult::Error(e) => {
std::fs::remove_file(path).ok();
error = Some(format!("Error: {:?}", e)); error = Some(format!("Error: {:?}", e));
return; return;
} }
}; };
let mut attachment = Attachment::new(file_name, cipher.uuid.clone(), name, size); if let Some(attachment) = &mut attachment {
attachment.akey = attachment_key.clone(); // v2 API
attachment.save(&conn).expect("Error saving attachment");
// Check the actual size against the size initially provided by
// the client. Upstream allows +/- 1 MiB deviation from this
// size, but it's not clear when or why this is needed.
const LEEWAY: i32 = 1024 * 1024; // 1 MiB
let min_size = attachment.file_size - LEEWAY;
let max_size = attachment.file_size + LEEWAY;
if min_size <= size && size <= max_size {
if size != attachment.file_size {
// Update the attachment with the actual file size.
attachment.file_size = size;
attachment.save(conn).expect("Error updating attachment");
}
} else {
attachment.delete(conn).ok();
let err_msg = "Attachment size mismatch".to_string();
error!("{} (expected within [{}, {}], got {})", err_msg, min_size, max_size, size);
error = Some(err_msg);
}
} else {
// Legacy API
if encrypted_filename.is_none() {
error = Some("No filename provided".to_string());
return;
}
if attachment_key.is_none() {
error = Some("No attachment key provided".to_string());
return;
}
let attachment = Attachment::new(
file_id,
cipher_uuid.clone(),
encrypted_filename.unwrap(),
size,
attachment_key.clone(),
);
attachment.save(conn).expect("Error saving attachment");
}
} }
_ => error!("Invalid multipart name"), _ => error!("Invalid multipart name"),
} }
@ -866,11 +990,56 @@ fn post_attachment(
.expect("Error processing multipart data"); .expect("Error processing multipart data");
if let Some(ref e) = error { if let Some(ref e) = error {
std::fs::remove_file(path).ok();
err!(e); err!(e);
} }
nt.send_cipher_update(UpdateType::CipherUpdate, &cipher, &cipher.update_users_revision(&conn)); nt.send_cipher_update(UpdateType::CipherUpdate, &cipher, &cipher.update_users_revision(&conn));
Ok(cipher)
}
/// v2 API for uploading the actual data content of an attachment.
/// This route needs a rank specified so that Rocket prioritizes the
/// /ciphers/<uuid>/attachment/v2 route, which would otherwise conflict
/// with this one.
#[post("/ciphers/<uuid>/attachment/<attachment_id>", format = "multipart/form-data", data = "<data>", rank = 1)]
fn post_attachment_v2_data(
uuid: String,
attachment_id: String,
data: Data,
content_type: &ContentType,
headers: Headers,
conn: DbConn,
nt: Notify,
) -> EmptyResult {
let attachment = match Attachment::find_by_id(&attachment_id, &conn) {
Some(attachment) if uuid == attachment.cipher_uuid => Some(attachment),
Some(_) => err!("Attachment doesn't belong to cipher"),
None => err!("Attachment doesn't exist"),
};
save_attachment(attachment, uuid, data, content_type, &headers, &conn, nt)?;
Ok(())
}
/// Legacy API for creating an attachment associated with a cipher.
#[post("/ciphers/<uuid>/attachment", format = "multipart/form-data", data = "<data>")]
fn post_attachment(
uuid: String,
data: Data,
content_type: &ContentType,
headers: Headers,
conn: DbConn,
nt: Notify,
) -> JsonResult {
// Setting this as None signifies to save_attachment() that it should create
// the attachment database record as well as saving the data to disk.
let attachment = None;
let cipher = save_attachment(attachment, uuid, data, content_type, &headers, &conn, nt)?;
Ok(Json(cipher.to_json(&headers.host, &headers.user.uuid, &conn))) Ok(Json(cipher.to_json(&headers.host, &headers.user.uuid, &conn)))
} }

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@ -173,7 +173,7 @@ fn post_send_file(data: Data, content_type: &ContentType, headers: Headers, conn
// Create the Send // Create the Send
let mut send = create_send(data.data, headers.user.uuid.clone())?; let mut send = create_send(data.data, headers.user.uuid.clone())?;
let file_id: String = data_encoding::HEXLOWER.encode(&crate::crypto::get_random(vec![0; 32])); let file_id = crate::crypto::generate_send_id();
if send.atype != SendType::File as i32 { if send.atype != SendType::File as i32 {
err!("Send content is not a file"); err!("Send content is not a file");

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@ -3,6 +3,7 @@
// //
use std::num::NonZeroU32; use std::num::NonZeroU32;
use data_encoding::HEXLOWER;
use ring::{digest, hmac, pbkdf2}; use ring::{digest, hmac, pbkdf2};
use crate::error::Error; use crate::error::Error;
@ -28,8 +29,6 @@ pub fn verify_password_hash(secret: &[u8], salt: &[u8], previous: &[u8], iterati
// HMAC // HMAC
// //
pub fn hmac_sign(key: &str, data: &str) -> String { pub fn hmac_sign(key: &str, data: &str) -> String {
use data_encoding::HEXLOWER;
let key = hmac::Key::new(hmac::HMAC_SHA1_FOR_LEGACY_USE_ONLY, key.as_bytes()); let key = hmac::Key::new(hmac::HMAC_SHA1_FOR_LEGACY_USE_ONLY, key.as_bytes());
let signature = hmac::sign(&key, data.as_bytes()); let signature = hmac::sign(&key, data.as_bytes());
@ -52,6 +51,20 @@ pub fn get_random(mut array: Vec<u8>) -> Vec<u8> {
array array
} }
pub fn generate_id(num_bytes: usize) -> String {
HEXLOWER.encode(&get_random(vec![0; num_bytes]))
}
pub fn generate_send_id() -> String {
// Send IDs are globally scoped, so make them longer to avoid collisions.
generate_id(32) // 256 bits
}
pub fn generate_attachment_id() -> String {
// Attachment IDs are scoped to a cipher, so they can be smaller.
generate_id(10) // 80 bits
}
pub fn generate_token(token_size: u32) -> Result<String, Error> { pub fn generate_token(token_size: u32) -> Result<String, Error> {
// A u64 can represent all whole numbers up to 19 digits long. // A u64 can represent all whole numbers up to 19 digits long.
if token_size > 19 { if token_size > 19 {

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@ -1,3 +1,5 @@
use std::io::ErrorKind;
use serde_json::Value; use serde_json::Value;
use super::Cipher; use super::Cipher;
@ -12,7 +14,7 @@ db_object! {
pub struct Attachment { pub struct Attachment {
pub id: String, pub id: String,
pub cipher_uuid: String, pub cipher_uuid: String,
pub file_name: String, pub file_name: String, // encrypted
pub file_size: i32, pub file_size: i32,
pub akey: Option<String>, pub akey: Option<String>,
} }
@ -20,13 +22,13 @@ db_object! {
/// Local methods /// Local methods
impl Attachment { impl Attachment {
pub const fn new(id: String, cipher_uuid: String, file_name: String, file_size: i32) -> Self { pub const fn new(id: String, cipher_uuid: String, file_name: String, file_size: i32, akey: Option<String>) -> Self {
Self { Self {
id, id,
cipher_uuid, cipher_uuid,
file_name, file_name,
file_size, file_size,
akey: None, akey,
} }
} }
@ -34,18 +36,17 @@ impl Attachment {
format!("{}/{}/{}", CONFIG.attachments_folder(), self.cipher_uuid, self.id) format!("{}/{}/{}", CONFIG.attachments_folder(), self.cipher_uuid, self.id)
} }
pub fn get_url(&self, host: &str) -> String {
format!("{}/attachments/{}/{}", host, self.cipher_uuid, self.id)
}
pub fn to_json(&self, host: &str) -> Value { pub fn to_json(&self, host: &str) -> Value {
use crate::util::get_display_size;
let web_path = format!("{}/attachments/{}/{}", host, self.cipher_uuid, self.id);
let display_size = get_display_size(self.file_size);
json!({ json!({
"Id": self.id, "Id": self.id,
"Url": web_path, "Url": self.get_url(host),
"FileName": self.file_name, "FileName": self.file_name,
"Size": self.file_size.to_string(), "Size": self.file_size.to_string(),
"SizeName": display_size, "SizeName": crate::util::get_display_size(self.file_size),
"Key": self.akey, "Key": self.akey,
"Object": "attachment" "Object": "attachment"
}) })
@ -91,7 +92,7 @@ impl Attachment {
} }
} }
pub fn delete(self, conn: &DbConn) -> EmptyResult { pub fn delete(&self, conn: &DbConn) -> EmptyResult {
db_run! { conn: { db_run! { conn: {
crate::util::retry( crate::util::retry(
|| diesel::delete(attachments::table.filter(attachments::id.eq(&self.id))).execute(conn), || diesel::delete(attachments::table.filter(attachments::id.eq(&self.id))).execute(conn),
@ -99,8 +100,19 @@ impl Attachment {
) )
.map_res("Error deleting attachment")?; .map_res("Error deleting attachment")?;
crate::util::delete_file(&self.get_file_path())?; let file_path = &self.get_file_path();
match crate::util::delete_file(file_path) {
// Ignore "file not found" errors. This can happen when the
// upstream caller has already cleaned up the file as part of
// its own error handling.
Err(e) if e.kind() == ErrorKind::NotFound => {
debug!("File '{}' already deleted.", file_path);
Ok(()) Ok(())
}
Err(e) => Err(e.into()),
_ => Ok(()),
}
}} }}
} }