# bffh.dhall BFFH uses [DHALL](https://dhall-lang.org/) for Config-File structure BFFH uses [RBAC](https://en.wikipedia.org/wiki/Role-based_access_control) for access control BFFH Config is in `bffh.dhall` file. ## General BFFH Config ### `listens` Contains the Addresses BFFH is listen for Connection for the API Default Port for BFFH is `59661` **Example:** ``` listens = [ { address = "127.0.0.1", port = Some 59661 } ] ``` ### `mqtt_url` Contains the Address for the MQTT Server BFFH connects to **Example:** ``` mqtt_url = "tcp://localhost:1883" ``` ### `db_path` Contains the Path for the internal Database BFFH uses. BFFH will create two files: `` and `-lock`. Make sure that BFFH has write access in the relevant directory **Example:** ``` db_path = "/tmp/bffh" ``` ## Permissions --- BFFH uses a Path-style string as permission format, separated by ".". So for example `this.is.a.permission` consists of the parts `this`, `is`, `a` and `permission`. When requireing permissions, such as in machines you always need to give an exact permission, so for example `test.write`. When granting permissions, such as in roles you can either give an exact permission or you can use the two wildcards `*` and `+`. These wildcards behave similar to regex or bash wildcards: - `*` grants all permissions in that subtree. So, `perms.read.*` will match for any of: - `perms.read` - `perms.read.machineA` - `perms.read.machineB` - `perms.read.machineC.manage` - `+` grants all permissions below that one. So, `perms.read.+` will match for any of: - `perms.read.machineA` - `perms.read.machineB` - `perms.read.machineC.manage` - **but not** `perms.read` Wildcards are probably most useful if you group you machines around them, e.g. your 3D-printers and your one bandsaw require: 1. Write permissions - `machines.printers.write.prusa.sl1` - `machines.printers.write.prusa.i3` - `machines.printers.write.anycubic` - `machines.bandsaws.write.bandsaw1` 1. Manage permissions - `machines.printers.manage.prusa.sl1` - `machines.printers.manage.prusa.i3` - `machines.printers.manage.anycubic` - `machines.bandsaws.manage.bandsaw1` 1. Admin permissions - `machines.printers` * For all printers - `machines.bandsaws` * For all bandsaws And you then give roles permissions like so: * Use any 3D printer: * `machines.printers.write.+` * Only allow use of the "cheap" printers * `machines.printers.write.anycubic.*` * `machines.printers.write.prusa.i3` * Allow managing of printers: * `machines.printers.+` * Allow administrating printers: * `machines.printers.*` This way if you buy a different anycubic and split the permissions to e.g. - `machines.printers.write.anycubic.i3` - `machines.printers.write.anycubic.megax` It still works out. ## Machine Config ### `machines` Contains list of machines Machines have different perission levels to interact with: * disclose: User can see the machine in machine list * read: User can read information about the machine and there state * write: User can use the machine * manage: User can interact with the machine as Manager (Check, ForceFree, ForceTransfer) Each machine must have an ID to reference the machine in other part of this config or over the API. And each machine must have a name. #### Optional Information To provide more information about the machine you can add it to the description or provid an external wiki link. Both attributes are only optional and do not need to be set. **Example:** ``` machines = { machine123 = { name = "Testmachine", description = Some "A test machine", wiki = "https://someurl" disclose = "lab.test.read", read = "lab.test.read", write = "lab.test.write", manage = "lab.test.admin" } } ``` "machine123" is in this case the "Machine-ID" ## Roles Config The roles are configured in the bffh.dhall. If the file "roles.toml" is existing in the directory, it can be deleted and can't be used to manage roles. ### `roles` Contains list of roles Roles have a list of permission and can be inherited. Permission can be wildcard in permission list. **Example:** ``` roles = { testrole = { permissions = [ "lab.test.*" ] }, somerole = { parents = ["testparent"], permissions = [ "lab.some.admin" ] }, testparent = { permissions = [ "lab.some.write", "lab.some.read", "lab.some.disclose" ] } } ``` ## Actors Config ### `actors` Contains list of actors Actors are defined by a module and one or more paramters Currenty supported actors: #### `Shelly Actor` This actor connects BFFH over an MQTT-Server to an shelly device. You need to set the `topic` parameter of the Shelly to the Shelly specific MQTT-Topic. [Find shelly topic here](https://shelly-api-docs.shelly.cloud/gen1/#shelly-plug-plugs-overview) **Example:** ``` actors = { Shelly_123 = { module = "Shelly", params = { topic = "shellyplug-s-123456" } } } ``` "Shelly_123" is in this case the "Actor-ID". #### `Process Actor` This actor makes it possible for you to connect your own Devices to BFFH. `cmd` = Path of executable `args` = Arguments for executable **Example:** ``` actors = { Bash = { module = "Process", params = { cmd = "./examples/actor.sh", args = "your ad could be here" } } } ``` #### `actor_connections` Connects the actor with a machine A machine can have multiple actors Use the "Machine-ID" and "Actor-ID". **Example:** ``` actor_connections = [ { machine = "Testmachine", actor = "Shelly_1234" }, { machine = "Another", actor = "Bash" }, { machine = "Yetmore", actor = "Bash2" } ] ```