From ed35e2fb6a3e09832035f863807aa9a8a30bbc46 Mon Sep 17 00:00:00 2001 From: Andrzej Pietrasiewicz Date: Wed, 23 Jan 2019 08:40:55 +0100 Subject: [PATCH] examples: systemd: document triggering gt invocation from systemd Set example to be followed for integrating gt with systemd. Signed-off-by: Andrzej Pietrasiewicz --- examples/systemd/99-udc.rules | 5 + examples/systemd/README.rst | 305 ++++++++++++++++++++++++++++++++++ examples/systemd/gt.target | 6 + examples/systemd/gt@.service | 17 ++ 4 files changed, 333 insertions(+) create mode 100644 examples/systemd/99-udc.rules create mode 100644 examples/systemd/README.rst create mode 100644 examples/systemd/gt.target create mode 100644 examples/systemd/gt@.service diff --git a/examples/systemd/99-udc.rules b/examples/systemd/99-udc.rules new file mode 100644 index 0000000..26cd5e6 --- /dev/null +++ b/examples/systemd/99-udc.rules @@ -0,0 +1,5 @@ +# SPDX-License-Identifier: MIT or LGPL-2.1+ +# +# Copyright 2019 Collabora Ltd +# +SUBSYSTEM=="udc", ACTION=="add", TAG+="systemd", ENV{SYSTEMD_WANTS}+="gt.target" diff --git a/examples/systemd/README.rst b/examples/systemd/README.rst new file mode 100644 index 0000000..8ae9b03 --- /dev/null +++ b/examples/systemd/README.rst @@ -0,0 +1,305 @@ +SPDX-License-Identifier: CC-BY-SA-4.0 + +Copyright 2019 Collabora Ltd + +Author: Andrzej Pietrasiewicz + +=========================== +gt integration with systemd +=========================== + +----------------------------- +Automate your gadget creation +----------------------------- + +Purpose of this document +======================== + +The purpose of this document is to explain how gt can be integrated with +systemd. + +User story +========== + +The associated user story is as follows. There is a Linux-based device which +can act as a USB device - or as USB gadget in the Linux kernel's parlance. +Linux kernel running on the device provides only the modern configfs interface +for composing USB gadgets. What the user wants is to have systemd make a USB +gadget with a predefined composition up and running as soon as the underlying +hardware and configfs become available. While this task can be done using a +shell script, the user would be better off using a declarative-style +configuration file(s). The user decides to use gt and wants systemd to handle +everything for them. + +The idea +======== + +The idea is to have a udev rule fired when a UDC becomes available. This +document assumes there is only one UDC in the USB device's system, but see +discussion_. The rule then triggers reaching a systemd target unit which can +run gt service, which in turn loads appropriate gadget scheme, making the +gadget operational. This indirection via the target provides a way to use +systemctl enable and systemctl disable to manage hardware activation of the +service. Some scenarios which are more complex are possible, but see +discussion_. + +What is what of what? +===================== + +USB + Universal Serial Bus +USB host + A machine whose functionality is extended with attached USB devices +USB device + A machine which extends functionality of USB host, connected to it + with USB +USB gadget + USB device implementation in Linux kernel +configfs + A pseudo file system which is used to create entities in a running + Linux kernel. The lifetime of the entities is decided by userspace +gt + A friendly commandline tool for USB gadget creation and modification + which internally operates on configfs +gadget scheme + A declarative-style description presenting composition of a USB gadget +udev + A userspace daemon which receives events from the kernel and interprets + udev rule files to trigger appropriate activities +udev rule + A declarative specification of an activity and conditions which must be + met in order for the activity to be taken +systemd + A userspace daemon which orchestrates various aspects of a running + Linux system +systemd unit + A service, a socket, a device, a mount point, an automount point, + a swap file or partition, a start-up target, a watched file system + path, a timer controlled and supervised by systemd, a resource + management slice or a group of externally created processes, and its + accompanying specification +systemd unit template + A parametrized unit, which can be instantiated if actual parameter + values are provided by systemd +UDC + USB device controller. A piece of hardware required for the USB device + to function + +Udev rule +========= + +.. code-block:: console + + SUBSYSTEM=="udc", ACTION=="add", \ + TAG+="systemd", ENV{SYSTEMD_WANTS}+="gt.target" + + +The condition for taking the activity is that there is a kernel "add" event +from the "udc" subsystem, which means a new udc has just been made available. +The device in question is tagged with "systemd", which makes systemd +aware of the new device, and SYSTEMD_WANTS is set to the name of the target we +want to reach if the condition is met. + +Systemd +======= + +Target unit +----------- + +.. code-block:: console + + [Unit] + Description=Hardware activated USB gadget + +The target is a simple target to be reached when the udev rule fires. +The service unit will use a "WantedBy" dependency to lend itself for being +managed with systemctl enable/disable. + +Service unit +------------ + +The unit file is named gt@.service and is a template unit. + +.. code-block:: console + + [Unit] + Description=Load USB gadget scheme + Requires=sys-kernel-config.mount + After=sys-kernel-config.mount + + [Service] + ExecStart=/bin/gt load %i.scheme %i + RemainAfterExit=yes + ExecStop=/bin/gt rm -rf %i + Type=simple + + [Install] + WantedBy=gt.target + +This unit is a template unit, so system administrator is supposed to issue + +.. code-block:: console + + systemctl enable gt@ + +This sets up appropriate symbolic links in gt.target.wants directory, which +in turn triggers executing the service unit the usual systemd way. + +The service itself uses gt to load gadget scheme with the name implied from +the template parameter, name the gadget accordingly and activate it. Upon +stopping it removes the gadget altogether. + +gt installation and configuration +================================= + +By default gt binary is installed in /bin, and its configuration file is +/etc/gt/gt.conf. The configuration file contains a few directives. The most +important ones in the context of gt integration with systemd are "lookup-path" +and "default-template-path", which must not be commented in order to take +effect, and which specify the paths where gadget schemes are read from and +stored to by default. Compiled-in defaults reflect the values suggested by +install-time comments in the config file. + +Gadget schemes +============== + +In this document two schemes are offered: + +* RNDIS ethernet + ACM serial +* ECM + +Please note that some of the values are placeholders which must be filled +in order for the scheme to be used. For this reason ready to use scheme files +are not provided with this document. +The scheme file name to be used by the setup described in this file must +correspond to what is used in the service unit in gt invocation +(e.g. default.scheme). A symbolic link to actual file can be used. + +RNDIS ethernet + ACM serial +--------------------------- + +.. code-block:: console + + attrs : + { + bcdUSB = 0x200; + bDeviceClass = ; + bDeviceSubClass = ; + bDeviceProtocol = ; + bMaxPacketSize0 = ; + idVendor = 0x1d6b; # Linux Foundation + idProduct = 0x104; # Multifunction composite gadget + bcdDevice = 0x100; + }; + os_descs : + { + use = 1; + qw_sign = "MSFT100"; + b_vendor_code = 0xcd; + }; + strings = ( + { + lang = 0x409; + manufacturer = ""; + product = ""; + } + ); + functions : + { + acm_usb0 : + { + instance = "usb0"; + type = "acm"; + }; + rndis_usb0 : + { + instance = "usb0"; + type = "rndis"; + os_descs = ( + { + interface = "rndis"; + compatible_id = "RNDIS"; + sub_compatible_id = ; + } ); + }; + }; + configs = ( + { + id = 1; + name = "c"; + attrs : + { + bmAttributes = 0x80; + bMaxPower = ; + }; + functions = ( + { + name = "acm.usb0"; + function = "acm_usb0"; + }, + { + name = "rndis.usb0"; + function = "rndis_usb0"; + } ); + } ); + +ECM ethernet +------------ + +.. code-block:: console + + attrs : + { + bcdUSB = 0x200; + bDeviceClass = ; + bDeviceSubClass = ; + bDeviceProtocol = ; + bMaxPacketSize0 = ; + idVendor = 0x0525; # NetChip + idProduct = 0xa4a1; # Ethernet Gadget, donated id + bcdDevice = 0x100; + }; + strings = ( + { + lang = 0x409; + manufacturer = ""; + product = ""; + } + ); + functions : + { + ecm_usb0 : + { + instance = "usb0"; + type = "ecm"; + }; + }; + configs = ( + { + id = 1; + name = "c"; + attrs : + { + bmAttributes = 0x80; + bMaxPower = ; + }; + functions = ( + { + name = "ecm.usb0"; + function = "ecm_usb0"; + } ); + } ); + +.. _discussion: + +Discussion +========== + +This document assumes there is only one UDC available in the gadget system. +If there are more, the first one to appear will cause reaching the gt.target, +so the first UDC becoming available will be used for running the gadget.service +on it. This might or might not be what you want. + +This document does not address the case where actual USB device functionality +is implemented in userspace on top of FunctionFS. Additional socket and +service units are probably needed for each such functionality. diff --git a/examples/systemd/gt.target b/examples/systemd/gt.target new file mode 100644 index 0000000..b3c20b9 --- /dev/null +++ b/examples/systemd/gt.target @@ -0,0 +1,6 @@ +# SPDX-License-Identifier: MIT or LGPL-2.1+ +# +# Copyright 2019 Collabora Ltd +# +[Unit] +Description=Hardware activated USB gadget diff --git a/examples/systemd/gt@.service b/examples/systemd/gt@.service new file mode 100644 index 0000000..1f73a19 --- /dev/null +++ b/examples/systemd/gt@.service @@ -0,0 +1,17 @@ +# SPDX-License-Identifier: MIT or LGPL-2.1+ +# +# Copyright 2019 Collabora Ltd +# +[Unit] +Description=Load USB gadget scheme +Requires=sys-kernel-config.mount +After=sys-kernel-config.mount + +[Service] +ExecStart=/bin/gt load %i.scheme %i +RemainAfterExit=yes +ExecStop=/bin/gt rm -rf %i +Type=simple + +[Install] +WantedBy=gt.target