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shadow

shadow is a simple HTTP server for serving files, especially large files. The video below shows two clients making the requests to server to fetch a 2GB file.

simplescreenrecorder-2024-07-26_09.45.12.mp4

Another video below shows fetching a 11.5 GB file. The time taken to fetch that file in chunks of 200 MB is around 2 minutes (its very fast, beacause it was tested locally :P). The video also shows that the baseline memory consumption of the process is around 400 MB \o/

simplescreenrecorder-2024-07-26_12.1.mp4

Supported HTTP Methods

It supports the following HTTP Methods

  1. HEAD
  2. GET
    • Simple GET requests loads the entire file into memory and sends that back in HTTP response
    • HTTP Range Request, This fetches the file partially. Useful for serving large files without worrying about memory

Installation

To install and run Shadow, follow these steps:

  1. Clone the repository:

    git clone https://github.com/yourusername/shadow.git
    cd shadow
  2. Compile the server:

    gcc -o shadow server.c -pthread
  3. Run the server:

    ./shadow

    The server spins up on the port 8082

Usage

Once the server is running, you can use clients like curl, web browser or the toy client.py to fetch files. For eg:

  • To fetch the headers of a file:
    curl -I http://localhost:8082/yourfile

Note, yourfile needs to be the full path to the file you are requesting. In case you aren't sure if a file exists - use the HEAD request to verify that.

Server Information

To get the server information, use HEAD request.

  • Request
    curl -I http://localhost:8082
  • Response
    HTTP/1.1 200 OK
    Content-Length: 4096
    Accept-Ranges: bytes
    Content-Type: application/octet-stream

The Accept-Ranges response header signifies that fetching a partial files is allowed by the server.

Get the entire file

To get the complete file, issue a GET request with the full path of the file as URI

  • Request
    curl http://localhost:8082/var/www/test_file.png  -H "Authorization: secret" >> file.png
  • Response
    HTTP/1.1 200 OK
    Content-Length: 2048
    Content-Type: application/octet-stream
    
    <PAYLOAD>

The above request fetches the file from server and stores it in file.png file on the client.

This method is not recommened for fetching large files.

In this method, the server loads the entire file into it's memory and then add the binary data to the payload. If the file is too large and if the server does not have enough memory, it'll die.

Get a part of the file (Recommened for large files)

To get a part of the file, issue a GET request with the Range Header specifying what data you want from the file. The full path of the file needs to be given as URI. This is possible due to the HTTP Range Requests.

  • Request
    curl http://localhost:8082/var/www/test_file.png  -H "Authorization: secret" -H "Range: bytes=0-50000" >> file.png
  • Response
    HTTP/1.1 206 Partial Content
    Content-Length: 50001
    Content-Type: application/octet-stream
    Content-Range: bytes 0-50000/125246
    
    <PAYLOAD>

This request fetches the partial file content. Clients can use this method to fetch file in chunks so that server does not run out of memory. It is client's responsibility to stitch the chunks to form the whole file.

A sample client is provided to do the same.

  • Install Sample Client
    pip -r requirements.txt
  • Run the client
    python client.py http://localhost:8082/tmp/upload_test /tmp/upload_test /tmp/upload_test_2 102400
    This requests the upload_test file from server in chunks of 100MB and stores it in this location /tmp/upload_test_2 on client computer.

Design Overview

The goal for this project was to create an HTTP server that can server large files (~10GB). There were two approaches to do it:

  1. Fetch the entire file
    • Client can issue a single GET request, server loads the entire file in it's memory and sends that value in the HTTP Response
    • This approach is good for files with small sizes, but for larger files - memory becomes a constraint. The server would need to have memory equivalent to the size of the file request. This requirement is hard to satisfy and can result in server getting OOM'ed
    • shadow supports GET requests, but I recommend to use the GET request with Range headers (described later) to fetch file
  2. Fetch the file in chunks
    • HTTP Transfer Encoding
      • In this method, client requests a file and server established a long living connection and does the processing on it;s end to split the file in chunks and sends it to client. The client will then merge all the chunks to create the requested file.
      • The problem with this approach is that server is now responsible for processing the file and maintaining a complex state for each connection. This method also does not allow client the ability to resume downloads or do what they might seem fit with the data they are requesting. The extra responsibility on server and the clients not having flexibility to handle the file they are requestion seemed like a bad option and I dropped this idea.
    • HTTP Range Headers
      • In this method, client can request any range of data for the file they are requesting. This allows us to treat the server as dumb and give the flexibility to client to request the data they need. This method would also allow the clients to maintain the metadata of the file they are downloading and resume download in case of any interruption.
      • Looking around few other solutions, I realized that this method is used by Youtube and AWS both use this approach to allow downloading on large files. This coupled with the pro's of having a dumb server made me choose this as the right approach to solve this solution

Some of the ideas used while implementing this solution directly comes from my learning that I had when I was working on the 1 Billion row challenge in Rust in which I was able to optimize the program to read and process 1 billion rows in just 9 seconds.

Production Ready

Though, shadow is not "yet" production read, but if we were to use this in production then we need to make sure that there are no single point of failure. There are two areas where this can happen: "Storage Layer" and "Application Layer".

  1. Application Layer: We need to have additional instances/replicas of shadow running such that if one were to fail - the requests can be routed to other. Extra shadow instances can also help in load balancing.
  2. Storage Layer: The data that shadow serves needs to be safe and as such - we would need a way to make sure that the data is properly replicated and managed. I think this is where Ceph RADOS will help.

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HTTP server for serving large files

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