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fuse-wsfs

fuse-wsfs combines libwebsockets and libfuse. It allows ot attach a remote filesystem via websockets.

Contents

Motivation

Many embedded devices, such as smart home or IoT devices are very limited regarding to their (non-volatile) memory resources. Such devices are typically comprised of an embedded linux and a small web server, providing an interface for maintenance purposes.

Some use cases, such as firmware update, require to transfer (larger) files to the device. The firmware file is often stored multiple times on the device:

  1. cached by the web server, e.g. lighttpd
  2. copied to locally, e.g. /tmp
  3. uncompressed, also to /tmp

Techniques like SquashFS help to avoid the third step, since the upgrade file can be mounted directly. RAUC shows the use of SquashFS within an update facility.
However at least one (unecessary) copy of the upload file is needed on the device.

To avoid Steps 1 and 2, it would be great to keep the update file entirely in web server, just like NFS or WebDAV. Unfortunately, NFS is not based on any protocol, natively usable by a web application. WebDAV is based on HTTP, but it needs a server providing the update file.

fuse-wsfs solves this problem by using the WebSocket protocol. The emdedded device runs a service, known as WSFS adapter, awaiting incoming connections, e.g. from a web browser. The browser acts as a file system provider, providing the update file to the device.

Concecpt

+---------------------+  +-------------+      +------+
| Filesystem Provider |  | wsfs daemon |      | user |
|  (e.g. Webbrowser)  |  |             |      |      |
+----------+----------+  +------+------+      +---+--+
           |                    |                 |
           |                  +-+-+               |
           |                  |   +--+            |
           |                  |   |  | fuse_mount |
           |                  |   +<-+            |
           |                  |   |               |
           |                  |   +--+            |
           |                  |   |  | start ws   |
           |                  |   +<-+            |
           |                  +-+-+               |
           |                    |                 |
         +-+-+     connect    +-+-+               |
         |   |--------------->|   |               |
         +-+-+                +-+-+               |
           |                    |                 |
           |                  +-+-+      ls     +-+-+
         +-+-+     readdir    |   |<------------+   |
         |   |<---------------+   |             |   |
         |   |                |   |             |   |
         |   |  readdir_resp  |   |             |   |
         |   +--------------->|   |   [., ..]   |   |
         +-+-+                |   +------------>|   |
           |                  +-+-+             +-+-+
           |                    |                 |

With fuse-wsfs it is possible to implement remote filesystems based on websockets. A reference implementation of such a daemon is provided within the examples. The picture above describes the workflow:

  • The websocket filesystem daemon (wsfs daemon) mounts a filesystem on startup.
    It starts the websocket server and waits for incoming connections.

  • A remote filesystem provider connects to wsfs daemon via websocket protocol.
    The example includes such a provider implemented in HTML and JavaScript.

  • Whenever the user makes filesystem requests, such as ls, the request is redirected via wsfs daemon to the connected filesystem provider

Currently all requests are initiated by wsfs daemon and responded by filesystem provider. This may change in future, e.g. when authentication is supported.

Similar Projects

Davfs2

davfs2 is a Linux file system driver that allows to mount a WebDAV resource. WebDAV is an extension to HTTP/1.1 that allows remote collaborative authoring of Web resources.

Unlike fuse-wsfs, davfs2 mounts a remote filesystem locally, that is provided by a WebDAV server. In contrast, fuse-wsfs starts a server awaiting client connections to attach the remote file system.

API

Requests, responses and notifications

There are three types of messages, used for communication between wsfs daemon and filesystem provider. All message types are encoded in JSON and strongly inspired by JSON-RPC.

Request

A request is used by a sender to invoke a method on the receiver. The sender awaits a response from the receiver. Since requests and responses can be sendet or answered in any order, an id is provided in each request to identify it.

{
  "method": <method_name>,
  "params": <params>,
  "id"    : <id>
}
Item Data type Description
method_name string name of the method to invoke
params array method specific parameters
id integer id, which is repeated in response

Response

A response is used to answer a prior request. There are two kinds of responses:

Successful Results
{
   "result": <result>,
   "id": <id>
}
Item Data type Description
result any request specific result
id integer id, same as request
Error notifications
{
   "error": {
     "code": <code>
   },
   "id": <id>
}
Item Data type Description
code integer error code
id integer id, same as request
Error codes
Symbolic name Code Description
GOOD 0 no error
BAD 1 generic error
BAD_NOTIMPLEMENTED 2 method not implemented
BAD_TIMEOUT 3 timeout occured
BAD_BUSY 4 resource busy
BAD_FORMAT 5 invalid formt
BAD_NOENTRY 101 invalid entry
BAD_NOACCESS 102 access not allowed

Notification

Notfications are used to inform a receiver about something. Unlike requests, notifications are not answered. Therefore, an id is not supplied.

{
  "method": <method_name>,
  "params": <params>
}
Item Data type Description
method_name string name of the method to invoke
params array method specific parameters

Requests

lookup

Retrieve information about a filesystem entry by name.

wsfs daemon: {"method": "lookup", "params": [<parent>, <name>], "id": <id>}
fs provider: {"result": {
    "inode": <inode>,
    "mode" : <mode>,
    "type" : <type>,
    "size" : <size>,
    "atime": <atime>,
    "mtime": <mtime>,
    "ctime": <ctime>
    }, "id": <id>}
Item Data type Description
parent integer inode of parent directory (1 = root)
name string name of the filesystem object to look up
inode integer inode of the filesystem object
mode integer unix file mode
type "file" or "dir" type of filesystem object
size integer required for files; file size in bytes
atime integer optional; unix time of last access
mtime integer optional; unix time of last modification
ctime intefer optional; unix time of last metadata change

getattr

Get file attributes.

wsfs daemon: {"method": "getattr", "params": [<inode>], "id": <id>}
fs provider: {"result": {
    "mode" : <mode>,
    "type" : <type>,
    "size" : <size>,
    "atime": <atime>,
    "mtime": <mtime>,
    "ctime": <ctime>
    }, "id": <id>}
Item Data type Description
inode integer inode of the filesystem object
mode integer unix file mode
type "file" or "dir" type of filesystem object
size integer required for files; file size in bytes
atime integer optional; unix time of last access
mtime integer optional; unix time of last modification
ctime intefer optional; unix time of last metadata change

readdir

Read directory contents.
Result is an array of name-inode pairs for each entry. The generic entries "." and ".." should also be provided.

wsfs daemon: {"method": "readdir", "params": [<dir_inode>], "id": <id>}
fs provider: {"result": [
    {"name": <name>, "inode": <inode>},
    ...
    ], "id": <id>}
Item Data type Description
dir_inode integer inode of the directory to read
name integer name of the entry
inode integer inode of the entry

open

Open a file.

wsfs daemon: {"method": "readdir", "params": [<inode>, <flags>], "id": <id>}
fs provider: {"result": {"handle": <handle>}, "id": <id>}
Item Data type Description
inode integer inode of the file
flags integer access mode flags (see below)
handle integer handle of the file
Flags
Symbolic name Code Description
O_ACCMODE 0x003 access mode mask
O_RDONLY 0x000 open for reading only
O_WRONLY 0x001 open for writing only
O_RDWR 0x002 open for reading an writing
O_CREAT 0x040 create (a new) file
O_EXCL 0x080 open file exclusivly
O_TRUNC 0x200 open file to truncate
O_APPEND 0x400 open file to append

close

Informs filesystem provider, that a file is closed.
Since close is a notification, it cannot fail.

wsfs daemon: {"method": "close", "params": [<inode>, <handle>, <flags>], "id": <id>}
Item Data type Description
inode integer inode of the file
handle integer handle of the file
flags integer access mode flags (see open)

read

Read from an open file.

wsfs daemon: {"method": "close", "params": [<inode>, <handle>, <offset>, <length>], "id": <id>}
fs provider: {"result": {
    "data": <data>,
    "format": <format>,
    "count": <count>
    }, "id": <id>}
Item Data type Description
inode integer inode of the file
handle integer handle of the file
offset integer Offet to start read operation
length integer Max. number of bytes to read
data integer handle of the file
format string Encoding of data (see below)
count integer Actual number of bytes read
Format
Format Description
"identiy" Use data as is; note that JSON strings are UTF-8 encoded
"base64" data is base64 encoded

Build and run

To install dependencies, see below.

cd fuse-wsfs
mkdir .build
cd .build
cmake ..
mkdir test
./wsfsd -m test --document_root=../exmaple/daemon/www --port=4711

Build options

By default, unit tests and example application are enabled. You can disable them using the following cmake options:

  • WITHOUT_TESTS: disable tests
    cmake -DWITHOUT_TESTS=ON ..

  • WITHOUT_EXAMPLE: disable example cmake -DWITHOUD_EXAMPLE=ON ..

Dependencies

Installation from source

libfuse

wget -O fuse-3.1.1.tar.gz https://github.com/libfuse/libfuse/archive/fuse-3.1.1.tar.gz
tar -xf fuse-3.1.1.tar.gz
cd libfuse-fuse-3.1.1
./makeconf.sh
./configure
make
sudo make install

libwebsockets

wget -O libwebsockets-3.1.0.tar.gz https://github.com/warmcat/libwebsockets/archive/v3.1.0.tar.gz
tar -xf libwebsockets-3.1.0.tar.gz
cd libwebsockets-3.1.0
mkdir .build
cd .build
cmake ..
make
sudo make install

Jansson

wget -O libjansson-2.12.tar.gz https://github.com/akheron/jansson/archive/v2.12.tar.gz
tar -xf libjansson-2.12.tar.gz
cd jansson-2.12
mkdir .build
cd .build
cmake ..
make
sudo make install

GoogleTest

Installation of GoogleTest is optional fuse-wsfs library, but required to compile tests.

wget -O gtest-1.8.1.tar.gz https://github.com/google/googletest/archive/release-1.8.1.tar.gz
tar -xf gtest-1.8.1.tar.gz
cd googletest-release-1.8.1
mkdir .build
cd .build
cmake ..
make
sudo make install