mirror of
https://gitlab.com/fabinfra/fabaccess/bffh.git
synced 2024-11-26 00:24:55 +01:00
Start Database restructure
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parent
f997c93c23
commit
c25983d48c
@ -37,7 +37,7 @@ impl connection_capnp::bootstrap::Server for Connection {
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_: Params<permissions_params::Owned>,
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mut res: Results<permissions_results::Owned>
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) -> Promise<(), capnp::Error> {
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if let Some(user) = self.user {
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if self.user.is_some() {
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}
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@ -8,12 +8,13 @@ use std::convert::TryInto;
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use std::path::{Path, PathBuf};
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use std::fs;
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use std::io::Write;
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use std::sync::Arc;
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use flexbuffers;
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use serde::{Serialize, Deserialize};
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use slog::Logger;
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use lmdb::{Transaction, RwTransaction, Cursor};
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use lmdb::{Environment, Transaction, RwTransaction, Cursor};
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use crate::config::Settings;
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use crate::error::Result;
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@ -23,16 +24,78 @@ pub type UserIdentifier = u64;
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pub type RoleIdentifier = u64;
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pub type PermIdentifier = u64;
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pub struct PermissionsProvider {
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#[derive(Clone, Debug)]
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pub struct Permissions {
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pub inner: PermissionsDB,
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env: Arc<Environment>,
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}
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impl Permissions {
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pub fn new(inner: PermissionsDB, env: Arc<Environment>) -> Permissions {
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Permissions { inner, env }
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}
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pub fn check(&self, userID: UserIdentifier, permID: PermIdentifier) -> Result<bool> {
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let txn = self.env.begin_ro_txn()?;
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self.inner.check(&txn, userID, permID)
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}
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}
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/// A Person, from the Authorization perspective
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#[derive(Debug, Clone, PartialEq, Eq, Hash, Serialize, Deserialize)]
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struct User {
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name: String,
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/// A Person has N ≥ 0 roles.
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/// Persons are only ever given roles, not permissions directly
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roles: Vec<RoleIdentifier>
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}
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/// A "Role" from the Authorization perspective
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///
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/// You can think of a role as a bundle of permissions relating to other roles. In most cases a
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/// role represents a real-world education or apprenticeship, which gives a person the education
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/// necessary to use a machine safely.
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/// Roles are assigned permissions which in most cases evaluate to granting a person the right to
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/// use certain (potentially) dangerous machines.
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/// Using this indirection makes administration easier in certain ways; instead of maintaining
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/// permissions on users directly the user is given a role after having been educated on the safety
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/// of a machine; if later on a similar enough machine is put to use the administrator can just add
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/// the permission for that machine to an already existing role instead of manually having to
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/// assign to all users.
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#[derive(Debug, Clone, PartialEq, Eq, Hash, Serialize, Deserialize)]
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struct Role {
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name: String,
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/// A Role can have parents, inheriting all permissions
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///
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/// This makes situations where different levels of access are required easier: Each higher
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/// level of access sets the lower levels of access as parent, inheriting their permission; if
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/// you are allowed to manage a machine you are then also allowed to use it and so on
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parents: Vec<RoleIdentifier>,
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permissions: Vec<PermIdentifier>,
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}
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/// A Permission from the Authorization perspective
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///
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/// Permissions are rather simple flags. A person can have or not have a permission, dictated by
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/// its roles and the permissions assigned to those roles.
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#[derive(Debug, Clone, PartialEq, Eq, Hash, Serialize, Deserialize)]
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struct Perm {
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name: String,
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}
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#[derive(Clone, Debug)]
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pub struct PermissionsDB {
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log: Logger,
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roledb: lmdb::Database,
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permdb: lmdb::Database,
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userdb: lmdb::Database,
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}
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impl PermissionsProvider {
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impl PermissionsDB {
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pub fn new(log: Logger, roledb: lmdb::Database, permdb: lmdb::Database, userdb: lmdb::Database) -> Self {
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Self { log, roledb, permdb, userdb }
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PermissionsDB { log, roledb, permdb, userdb }
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}
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/// Check if a given user has the given permission
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@ -408,7 +471,7 @@ impl PermissionsProvider {
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}
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/// Initialize the access db by loading all the lmdb databases
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pub fn init(log: Logger, config: &Settings, env: &lmdb::Environment) -> std::result::Result<PermissionsProvider, crate::error::Error> {
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pub fn init(log: Logger, config: &Settings, env: Arc<lmdb::Environment>) -> std::result::Result<Permissions, crate::error::Error> {
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let mut flags = lmdb::DatabaseFlags::empty();
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flags.set(lmdb::DatabaseFlags::INTEGER_KEY, true);
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let roledb = env.create_db(Some("role"), flags)?;
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@ -418,49 +481,8 @@ pub fn init(log: Logger, config: &Settings, env: &lmdb::Environment) -> std::res
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let userdb = env.create_db(Some("user"), flags)?;
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debug!(&log, "Opened access database '{}' successfully.", "user");
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info!(&log, "Opened all access databases");
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return Ok(PermissionsProvider::new(log, roledb, permdb, userdb));
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}
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/// A Person, from the Authorization perspective
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#[derive(Debug, Clone, PartialEq, Eq, Hash, Serialize, Deserialize)]
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struct User {
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name: String,
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/// A Person has N ≥ 0 roles.
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/// Persons are only ever given roles, not permissions directly
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roles: Vec<RoleIdentifier>
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}
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/// A "Role" from the Authorization perspective
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///
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/// You can think of a role as a bundle of permissions relating to other roles. In most cases a
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/// role represents a real-world education or apprenticeship, which gives a person the education
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/// necessary to use a machine safely.
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/// Roles are assigned permissions which in most cases evaluate to granting a person the right to
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/// use certain (potentially) dangerous machines.
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/// Using this indirection makes administration easier in certain ways; instead of maintaining
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/// permissions on users directly the user is given a role after having been educated on the safety
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/// of a machine; if later on a similar enough machine is put to use the administrator can just add
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/// the permission for that machine to an already existing role instead of manually having to
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/// assign to all users.
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#[derive(Debug, Clone, PartialEq, Eq, Hash, Serialize, Deserialize)]
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struct Role {
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name: String,
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/// A Role can have parents, inheriting all permissions
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///
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/// This makes situations where different levels of access are required easier: Each higher
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/// level of access sets the lower levels of access as parent, inheriting their permission; if
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/// you are allowed to manage a machine you are then also allowed to use it and so on
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parents: Vec<RoleIdentifier>,
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permissions: Vec<PermIdentifier>,
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}
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/// A Permission from the Authorization perspective
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///
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/// Permissions are rather simple flags. A person can have or not have a permission, dictated by
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/// its roles and the permissions assigned to those roles.
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#[derive(Debug, Clone, PartialEq, Eq, Hash, Serialize, Deserialize)]
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struct Perm {
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name: String,
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let pdb = PermissionsDB::new(log, roledb, permdb, userdb);
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Ok(Permissions::new(pdb, env))
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}
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1
src/db/mod.rs
Normal file
1
src/db/mod.rs
Normal file
@ -0,0 +1 @@
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pub mod access;
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@ -142,7 +142,7 @@ impl Machine {
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pub fn request_use<T: Transaction>
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( &mut self
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, txn: &T
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, pp: &access::PermissionsProvider
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, pp: &access::PermissionsDB
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, who: access::UserIdentifier
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) -> Result<bool>
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{
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@ -256,7 +256,7 @@ impl MachinesProvider {
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}
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}
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pub fn init(log: Logger, config: &Settings, env: &lmdb::Environment) -> Result<MachinesProvider> {
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pub fn init(log: Logger, config: &Settings, env: Arc<lmdb::Environment>) -> Result<MachinesProvider> {
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let mut flags = lmdb::DatabaseFlags::empty();
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flags.set(lmdb::DatabaseFlags::INTEGER_KEY, true);
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let machdb = env.create_db(Some("machines"), flags)?;
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13
src/main.rs
13
src/main.rs
@ -8,7 +8,6 @@ extern crate capnp_rpc;
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extern crate async_trait;
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mod auth;
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mod access;
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mod modules;
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mod log;
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mod api;
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@ -19,6 +18,9 @@ mod connection;
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mod registries;
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mod network;
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mod schema;
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mod db;
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use db::access;
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use clap::{App, Arg};
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@ -143,8 +145,9 @@ fn main() -> Result<(), Error> {
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// Start loading the machine database, authentication system and permission system
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// All of those get a custom logger so the source of a log message can be better traced and
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// filtered
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let mdb = machine::init(log.new(o!("system" => "machines")), &config, &env);
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let pdb = access::init(log.new(o!("system" => "permissions")), &config, &env);
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let env = Arc::new(env);
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let mdb = machine::init(log.new(o!("system" => "machines")), &config, env.clone());
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let pdb = access::init(log.new(o!("system" => "permissions")), &config, env.clone());
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let authentication_f = auth::init(log.new(o!("system" => "authentication")), config.clone());
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// If --load or --dump is given we can stop at this point and load/dump the database and then
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@ -159,7 +162,7 @@ fn main() -> Result<(), Error> {
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let mut txn = env.begin_rw_txn()?;
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let path = path.to_path_buf();
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pdb?.load_db(&mut txn, path.clone())?;
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pdb?.inner.load_db(&mut txn, path.clone())?;
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mdb?.load_db(&mut txn, path)?;
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txn.commit();
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} else {
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@ -177,7 +180,7 @@ fn main() -> Result<(), Error> {
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let txn = env.begin_ro_txn()?;
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let path = path.to_path_buf();
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pdb?.dump_db(&txn, path.clone())?;
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pdb?.inner.dump_db(&txn, path.clone())?;
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mdb?.dump_db(&txn, path)?;
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} else {
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error!(log, "You must provide a directory path to dump into");
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