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Encryption
Passwords uses Libsodium to encrypt and decrypt user data. Implementations of Libsodium are available for many different programming languages and usually provide a very similar api. The library also provides good performance and security while being comparably easy to use. E2E in Passwords is designed to be upgradeable which is why every part of it is implemented separately and has its own version information.
Type | Description |
---|---|
PWDv1r1 |
The standard master password challenge |
Type | Description |
---|---|
CSEv1r1 |
The standard CSE keychain |
The default CSE chosen by the user is set in user.encryption.cse
.
Type | Description |
---|---|
none |
An object without any client side encryption. Only available with SSE other than none
|
CSEv1r1 |
The standard CSE encryption. Can not be used for shared entities. |
The default CSE chosen by the user is set in user.encryption.sse
.
Type | Description |
---|---|
none |
An object without any server side encryption. Only available with CSE other than none
|
SSEv1r1 |
An object with first generation server side encryption. Uses a server key, user key and object key |
SSEv1r2 |
An object with second generation server side encryption. Uses the Nextcloud secret, user key and object key |
SSEv2r1 |
An object with secure server side encryption. SSEv2 uses a keychain which is remporarily decrypted with the challenge secret |
Type | Description |
---|---|
user-token |
A token where the user has to enter a code |
request-token |
A token where a second device or app is used for confirmation |
This diagram explains the process which is necessary to use encryption.
sequenceDiagram
participant User
participant Client
participant Server
loop Authentication
User->>Client: Requests login
Client->>Server: Requests session
Server->>Client: Challenge / Token
Client->>User: Requests password / token
User->>Client: Provides password / token
Client->>Client: Solves challenge
Client->>Server: Challenge solution / token
Server->>Server: Validates challenge / token
Server->>Client: Sends Keychain
end
Client->>Client: Decrypt keychain
Client->>Client: Initialize encryption
Client->>User: Report login success
loop Object decryption
Client->>Server: Requests objects
Server->>Client: Sends objects
Client->>Client: Decrypts objects
Client->>User: Shows objects
end
loop Object encryption
User->>Client: Changes objects
Client->>Client: Encrypts objects
Client->>Server: Sends objects
Server->>Client: Confirms changes
Client->>User: Shows changes
end
This diagram explains the process which is necessary to set up encryption
sequenceDiagram
participant User
participant Client
participant Server
User->>Client: Master password
Client->>Client: Create challenge
Client->>Server: Set challenge
Server->>Server: Set up SSEv2
Server->>Client: Success
Client->>Client: Create keychain
Client->>Server: Set keychain
Server->>Client: Success
Client->>User: Encryption enabled
Client->>Client: Encrypt objects
Client->>Server: Update objects
Server->>Client: Success
Client->>User: Shows objects
- When migrating objects without encryption, it is recommended to delete the old object and create a new one
This diagram explains the process which is necessary to change the users master password
sequenceDiagram
participant User
participant Client
participant Server
User->>Client: New password
Client->>Server: Get current challenge
Client->>Client: Solve challenge
Client->>Client: Create new challenge
Client->>Server: Set challenge
Server->>Server: Update SSEv2
Server->>Client: Success
Client->>Client: Add key to keychain
Client->>Server: Set keychain
Server->>Client: Success
Client->>User: Password changed