Enable HTTPS by using the -tls-certificate and -tls-key flags. Note that the support for HTTPS is limited to a small subset of the many possible TLS configuration options. Available options are TLSv1.3-only; TLSv1.3+TLSv1.2 with support cipher suites per the guidelines on Mozilla's SSL Configuration Generator; and TLSv1.2 with 256-bit AES ciphers only. Also note that the key file must not be encrypted/require a passphrase.
If your needs are more complex than provided for here, you will need to use a reverse proxy in front of tusd. This includes further fine-tuning of ciphers, and the addition of things like HSTS headers. More information about this topic, including sample configurations for Nginx and Apache, can be found in issue #86 and in the Apache example configuration; rationale for why HTTPS is supported at all can be found in issue #418.
Yes, it is absolutely possible to do so. Firstly, you should execute the tusd binary using the -behind-proxy flag indicating it to pay attention to special headers which are only relevant when used in conjunction with a proxy. Furthermore, there are additional details which should be kept in mind, depending on the used software:
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Disable request buffering. Nginx, for example, reads the entire incoming HTTP request, including its body, before sending it to the backend, by default. This behavior defeats the purpose of resumability where an upload is processed while it's being transfered. Therefore, such as feature should be disabled.
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Adjust maximum request size. Some proxies have default values for how big a request may be in order to protect your services. Be sure to check these settings to match the requirements of your application.
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Forward hostname and scheme. If the proxy rewrites the request URL, the tusd server does not know the original URL which was used to reach the proxy. This behavior can lead to situations, where tusd returns a redirect to a URL which can not be reached by the client. To avoid this confusion, you can explicitly tell tusd which hostname and scheme to use by supplying the
X-Forwarded-HostandX-Forwarded-Protoheaders.
Explicit examples for the above points can be found in the Nginx configuration which is used to power the tusd.tusdemo.net instace.
Yes, this is made possible by the hook system inside the tusd binary. It enables custom routines to be executed when certain events occurs, such as a new upload being created which can be handled by the pre-create hook. Inside the corresponding hook file, you can run your own validations against the provided upload metadata to determine whether the action is actually allowed or should be rejected by tusd. Please have a look at the corresponding documentation for a more detailed explanation.
Yes, you can absolutely do so without any modifications. However, there is one known problem: If you are using tusd inside VirtualBox (the default provider for Vagrant) and are storing the files inside a shared/synced folder, you might get TemporaryErrors (Lockfile created, but doesn't exist) when trying to upload. This happens because shared folders do not support hard links which are necessary for tusd. Please use another non-shared folder for storing files (see #201).
This error can occur when you are running tusd's disk storage on a file system which does not support hard links. These hard links are used to create lock files for ensuring that an upload's data is consistent. For example, this problem can happen when running tusd inside VirtualBox (see the answer above for more details) or when using file system interfaces to cloud storage providers (see #257). We recommend you to ensure that your file system supports hard links, use a different file system, or use one of tusd's cloud storage abilities. If the problem still persists, please open a bug report.
tusd allows any user to retrieve a previously uploaded file by issuing a HTTP GET request to the corresponding upload URL. This is possible as long as the uploaded files on the datastore have not been deleted or moved to another location. While it is a handy feature for debugging and testing your setup, we know that there are situations where you don't want to allow downloads or where you want more control about who downloads what. In these scenarios we recommend to place a proxy in front of tusd which takes on the task of access control or even preventing HTTP GET requests entirely. tusd has no feature built in for controling or disabling downloads on its own because the main focus is on accepting uploads, not serving files.
tusd will generate a unique ID for every upload, e.g. 1881febb4343e9b806cad2e676989c0d, which is also used as the filename for storing the upload. If you want to keep the original filename, e.g. my_image.png, you will have to rename the uploaded file manually after the upload is completed. One can use the post-finish hook to be notified once the upload is completed. The client must also be configured to add the filename to the upload's metadata, which can be accessed inside the hooks and used for the renaming operation.
Cross-Origin Resource Sharing (CORS) is a technique to allow sharing of data between websites, which are hosted on different origins/domains. This is a common task with tus where you have your main application running on https://example.org but your tus server is hosted at https://uploads.example.org. In this case, the tus server needs to support CORS to signal the browser that it will accept requests from https://example.org.
To make your setup easier, tusd already includes the necessary CORS configuration to allow communication with tus clients. By default, it will allow incoming requests from any origin. Following headers are allowed to be included into HTTP requests:
Authorization: Defined in RFC 2617, used in various HTTP authentication protocols.Origin: Defined in RFC 6454, used to specify the origin of a HTTP request. This header is often used to aid in HTTP security.X-Requested-With: Used to identify AJAX requests. See here for details.X-Request-ID: Correlates HTTP requests between a client and server. See here for details.X-HTTP-Method-Override: Requests a web application to override the method specified in the request with the method given in the header field. See here for details.Content-Type: Defined in RFC 2616, indicates the media type of the entity-body.Upload-Length: A tus specific header used to indicate the total size of an uploaded file. See here for details.Upload-Offset: A tus specific header used to indicate the starting byte that a PATCH should be used on to upload a chunk of a file. See here for details.Tus-Resumable: A tus specific header used to match the client version with the server version of the tus protocol. See here for details.Upload-Metadata: A tus specific header used for integrators to communicate general metadata between a client and server. See here for details.Upload-Defer-Length: A tus specific header used to communicate if the upload file size is not known during the HTTP request it is in. See here for details.Upload-Concat: A tus specific header used to indicate if the containing HTTP request is the final request for uploading a file or not. See here for details.
If you are looking for a way to communicate additional information from a client to a server, use the Upload-Metadata header.
Example usage with "minio"/S3 (AWS). Create the secrets:
printf "minio" | docker secret create minio-username -
printf "miniosecret" | docker secret create minio-password -Those commands create two secrets which are used inside the example docker-compose.yml file. The provided example assumes, that you also have a service named "minio" inside the same Docker Network. We just append a _FILE suffix to the corresponding environment variables. The contents of the mounted file will be added to the environment variable without _FILE suffix.