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use traits::{Body, Vault};
/// Describes the internal permission layout of a vault
pub enum VaultType {
/// Create an all-powerful root user which can access everything
Administrated {
/// Set a root password
secret: String,
},
/// Similar to `Administrated`
/// but only allows a single-user for a vault
SoloUser { username: String, secret: String },
}
/// A shared initialisation generator for vaults
///
/// All vaults, regardless of backends
/// or persistence layer
/// share the same common principles
/// of users and permissions.
///
/// This means that intiailisation is shared,
/// regardless of what backend implements it.
///
/// A `VaultGenerator` takes arguments
/// for a generic backend,
/// calls functions provided by said backend
/// and then returns the actual backend.
pub struct Generator {
#[doc(hidden)]
pub name: Option<String>,
#[doc(hidden)]
pub location: Option<String>,
#[doc(hidden)]
pub user_type: Option<VaultType>,
}
impl Generator {
/// Start a new generator for a generic type
pub fn new() -> Self {
Self {
name: None,
location: None,
user_type: None,
}
}
pub fn path<N, L>(self, name: N, location: L) -> Self
where
N: Into<String>,
L: Into<String>,
{
Self {
name: Some(name.into()),
location: Some(location.into()),
..self
}
}
/// Specify the internal user permission structure for this vault
///
/// If you don't know what this means, please consult
/// the `VaultType` enum documentation
pub fn user_type(self, t: VaultType) -> Self {
Self {
user_type: Some(t),
..self
}
}
/// Finally call this function to construct the vault
pub fn finalise<V, B>(self) -> V
where
V: Vault<B>,
B: Body,
{
V::new(self)
}
}
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