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authorRomain Forlot <romain.forlot@iot.bzh>2017-03-17 01:52:40 +0100
committerRomain Forlot <romain.forlot@iot.bzh>2017-03-17 01:52:40 +0100
commit3a9e5d4c0baad5ce652f83938ecd2e61063cb46d (patch)
tree434c8cb91fc3e390e2ebdb443d0202b7e193edc5 /README.md
parent008944a6ba6510d1011586bdabd774283366ebc1 (diff)
Improve READme instructions.
Change-Id: I8b507d3e34ed3d34680e6e15b7f97b7e17fc1c4f Signed-off-by: Romain Forlot <romain.forlot@iot.bzh>
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@@ -13,13 +13,15 @@ $ git submodule init
$ git submodule update
```
+- An [USB CAN adapter][USB_CAN] connected to OBD2 connector through the [right cable][OBD2_cable].
+
- Make sure you have installed the AGL generator else you aren't able to generate custom low-level CAN binding. Generator can be found [here][generator] with the attached instruction to install and run it. It will produce a *configuration-generated.cpp* file to paste in the source, *src/*, directory.
# Getting started
## Compile and install the binding
-AGL SDK environment correctly set, if you have an AGL target already running in your network, I encourage you to set the TARGET variable in the root CMakeLists.txt file. Then you can directly install the binding and source directory on your target system.
+With an AGL SDK environment correctly set, I encourage you to set the TARGET variable in the root CMakeLists.txt file if you have an AGL target already running in your network. Then you can directly build and install the binding and source directory on your target system.
Execute commands to get your binding compile :
@@ -34,34 +36,98 @@ And if you have set TARGET variable, you can install it on your AGL system :
```bash
$ make install
+[ 16%] Built target bitfield
+[ 27%] Built target isotp
+[ 40%] Built target openxc
+[ 48%] Built target uds
+[ 97%] Built target low-can-binding
+[100%] Built target widget
+Install the project...
+-- Install configuration: ""
+true
+{ "added": "low-can-binding@0.1" }
+```
+
+It's possible that you'll see the following message :
+
+```bash
+Error org.freedesktop.DBus.Error.Failed: "system error"
```
+It's because installation remove the binding before installing it. If it is the first time that you make the installation then you'll have this message in place of ***true***.
-If not, you will have to install it manually copying the *low-can-binding.wgt* file on your target, then from it execute the following commands :
+To install it manually, you need to copy the *low-can-binding.wgt* file on your target, then from it execute the following commands :
+
+On your host, to copy over the network :
+```bash
+$ scp low-can-binding.wgt root@<target_IP>:~
+```
+
+On the target, assuming ***wgt*** file is in the root home directory :
```bash
~# afm-util install low-can-binding.wgt
{ "added": "low-can-binding@0.1" }
```
+## Install AFB Websocket CLI client to test the binding.
-## Confiure system and binding
+You can test it using afb-client-demo CLI tool provided by the RPM package *libafbwsc-dev*. You can find this package in your build environment, using docker SDK recommended setup the file is */xdt/build/tmp/deploy/rpm/<your-target-arch>/*. Using Renesas RCar Gen2, porter board, you have to copy the file like this if your board is connected to your network and you know its IP address:
-Configure the binding specifying in the JSON configuration file the CAN device that the binding will to connect to. Edit file */var/lib/afm/applications/low-can-binding/0.1/can_buses.json* and change the CAN device name to the one you have :
+```bash
+$ scp /xdt/build/tmp/deploy/rpm/cortex15hf_neon/libafbwsc-dev-1.0-r0.cortexa15hf_neon.rpm root@<target_IP>:~
+```
-```json
-{
- "canbus": "vcan0"
-}
+Else, you have to copy into the SDcard with the AGL image installed on it.
+
+From the docker image copy RPM to the shared directory between docker image and your host:
+
+```bash
+$ cp /xdt/build/tmp/deploy/rpm/cortex15hf_neon/libafbwsc-dev-1.0-r0.cortexa15hf_neon.rpm ~/share
```
-If you have several CAN bus devices then use an array:
+Then plugin you SDcard in your Linux host (Windows can't read ext4 filesystem AGL runs on) and copy RPM file on it.
-```json
-{
- "canbus": [ "vcan0", "can0" ]
-}
+From you host, identify SDcard block device node here it is **sdc** with the correct capacity automounted by the desktop manager:
+
+```bash
+$ lsblk
+loop1 7:1 0 2G 0 loop
+└─docker-253:0-3146365-pool 253:3 0 100G 0 dm
+ └─docker-253:0-3146365-e9f80849a2681e18549d3a4238cbf031e44052e36cd88a0abf041804b799b61c
+ 253:4 0 10G 0 dm /var/lib/docker/devicemapper/mnt/e9f80849a2681e18549d3a4238cbf031e44052e36cd88a0abf041804b799b61c
+sdb 8:16 0 238.5G 0 disk
+├─sdb2 8:18 0 238G 0 part
+│ └─Shamash-agl 253:1 0 238G 0 lvm /home/claneys/Workspace/agl-docker
+└─sdb1 8:17 0 500M 0 part /boot
+sr0 11:0 1 1024M 0 rom
+loop0 7:0 0 100G 0 loop
+└─docker-253:0-3146365-pool 253:3 0 100G 0 dm
+ └─docker-253:0-3146365-e9f80849a2681e18549d3a4238cbf031e44052e36cd88a0abf041804b799b61c
+ 253:4 0 10G 0 dm /var/lib/docker/devicemapper/mnt/e9f80849a2681e18549d3a4238cbf031e44052e36cd88a0abf041804b799b61c
+sdc 8:32 1 14.9G 0 disk
+└─sdc1 8:33 1 2G 0 part /run/media/claneys/97f418a5-612f-44e9-b968-a19505695151
+sda 8:0 0 931.5G 0 disk
+├─sda2 8:2 0 500G 0 part
+│ ├─Shamash-home 253:2 0 150G 0 lvm /home
+│ └─Shamash-root 253:0 0 50G 0 lvm /
+└─sda1 8:1 0 16G 0 part [SWAP]
+```
+
+Copy, still from your host:
+
+**Careful : Make sure to sync IO with sync command before unplug your SDcard. It could be corrupted if removed before all pending IO aren't done.**
+
+```bash
+$ sudo cp ~/devel/docker/share/libafbwsc-dev-1.0-r0.cortexa15hf_neon.rpm /run/media/claneys/97f418a5-612f-44e9-b968-a19505695151/home/root
+$ sync
```
-Connected to the target load the virtual CAN device driver and set up a new vcan device :
+Insert the modified SDcard in your Porter board and boot from it. Your are ready to go.
+
+## Configure the AGL system
+
+### Virtual CAN device
+
+ Connected to the target, here is how to load the virtual CAN device driver and set up a new vcan device :
```bash
~# modprobe vcan
@@ -69,22 +135,129 @@ Connected to the target load the virtual CAN device driver and set up a new vcan
~# ip link set vcan0 up
```
-Or a real CAN bus device if on is present on your board (this instruction assuming a speed of 500000kbps for your device):
+### CAN device using the USB CAN adapter
+
+Using real connection to CAN bus of your car using the USB CAN adapter connected to the OBD2 connector. (this instruction assuming a speed of 500000kbps for your device, you can try supported bitrate like 125000, 250000 if 500000 doesn't work) :
```bash
~# modprobe can
-~# ip link set can0 up type can bitrate 500000
+~# ip link set can0 type can bitrate 500000
+~# ip link set can0 up
+~# ip link show can0
+ can0: <NOARP,UP,LOWER_UP,ECHO> mtu 16 qdisc pfifo_fast state UNKNOWN qlen 10
+ link/can
+ can state ERROR-ACTIVE (berr-counter tx 0 rx 0) restart-ms 0
+ bitrate 500000 sample-point 0.875
+ tq 125 prop-seg 6 phase-seg1 7 phase-seg2 2 sjw 1
+ sja1000: tseg1 1..16 tseg2 1..8 sjw 1..4 brp 1..64 brp-inc 1
+ clock 16000000
+```
+
+## Configure the binding
+
+Configure the binding specifying in the JSON configuration file the CAN device(s) that it will to connect to. Edit file */var/lib/afm/applications/low-can-binding/0.1/can_buses.json* and change the CAN device name to the one you have :
+
+```json
+{
+ "canbus": "can0"
+}
+```
+
+If you have several specify CAN bus devices using an array:
+
+```json
+{
+ "canbus": [ "vcan0", "can0" ]
+}
```
+
## Run it, test it, use it !
-You can run the binding using **afm-util** tool, it is the classic way to go :
+You can run the binding using **afm-util** tool, here is the classic way to go :
```bash
~# afm-util run low-can-binding@0.1
1
```
+
You can find instructions to use afm-util tool [here][afm-util], as well as documentation about Application Framework.
+But you can't control nor interact with it because you don't know security token that **Application Framework** gave it at launch. So, to test it, it is better to launch the binding manually. In the following example, we will use port **1234** and left empty security token for testing purpose :
+
+```bash
+~# afb-daemon --ldpaths=/usr/lib/afb:/var/lib/afm/applications/low-can-binding/0.1/libs/ --rootdir=/var/lib/afm/applications/low-can-binding/0.1/ --port=1234 --token=
+NOTICE: binding [/usr/lib/afb/afb-dbus-binding.so] calling registering function afbBindingV1Register
+NOTICE: binding /usr/lib/afb/afb-dbus-binding.so loaded with API prefix dbus
+NOTICE: binding [/usr/lib/afb/authLogin.so] calling registering function afbBindingV1Register
+NOTICE: binding /usr/lib/afb/authLogin.so loaded with API prefix auth
+NOTICE: binding [/var/lib/afm/applications/low-can-binding/0.1/libs//low-can-binding.so] calling registering function afbBindingV1Register
+NOTICE: binding /var/lib/afm/applications/low-can-binding/0.1/libs//low-can-binding.so loaded with API prefix low-can
+NOTICE: Waiting port=1234 rootdir=/var/lib/afm/applications/low-can-binding/0.1/
+NOTICE: Browser URL= http:/*localhost:1234
+NOTICE: vcan0 device opened and reading {binding low-can}
+NOTICE: Initialized 1/1 can bus device(s) {binding low-can}
+```
+
+Then connect to the binding using previously installed ***AFB Websocket CLI*** tool :
+
+```bash
+~# afb-client-demo ws://localhost:1234/api?token=
+```
+
+You will be on an interactive session where you can pass ask directly to the binding API. Binding provide for the moment 2 verbs, subscribe and unsubscribe that can take argument by a JSON **event** object taking a CAN message name as value. To use the ***AFB Websocket CLI*** tool, a command line will be like the following :
+
+```
+<api> <verb> <arguments>
+```
+
+Where API will be : ***low-can***.
+Verb : ***subscribe*** or ***unsubscribe***
+Arguments : ***{ "event": "driver.doors.open" }***
+
+### Subscription and unsubscription
+
+You can ask to subscribe to chosen CAN event with a call to *subscribe* API verb with the CAN messages name as JSON argument. Example from a websocket session:
+
+```bash
+low-can subscribe { "event": "doors.driver.open" }
+ON-REPLY 1:low-can/subscribe: {"jtype":"afb-reply","request":{"status":"success","uuid":"a18fd375-b6fa-4c0e-a1d4-9d3955975ae8"}}
+```
+
+Subscription and unsubscription can take wildcard in their *event* value. To reveive all doors events :
+
+```bash
+low-can subscribe { "event" : "doors*" }
+ON-REPLY 1:low-can/subscribe: {"jtype":"afb-reply","request":{"status":"success","uuid":"511c872e-d7f3-4f3b-89c2-aa9a3e9fbbdb"}}
+```
+
+Then you will receive an event each time a CAN message is decoded for the event named *doors.driver.open*
+
+```
+ON-EVENT low-can/messages.doors.driver.open({"event":"low-can\/messages.doors.driver.open","data":{"name":"messages.doors.driver.open","value":true},"jtype":"afb-event"})
+```
+
+Notice that event shows you that the CAN event is named *messages.doors.driver.open* but you ask for event about *doors.driver.open*. This is because all CAN messages or diagnostic messages are prefixed by the JSON parent node name, **messages** for CAN messages and **diagnostic_messages** for diagnostic messages like OBD2. This will let you subscribe or unsubcribe to all signals at once, not recommended, and better make filter on subscribe operation based upon their type. Examples:
+
+```
+low-can subscribe { "event" : "*speed*" } --> will subscribe to all messages with speed in their name. Search will be make without prefix for it.
+low-can subscribe { "event" : "speed*" } --> will subscribe to all messages begin by speed in their name. Search will be make without prefix for it.
+low-can subscribe { "event" : "messages*speed*" } --> will subscribe to all CAN messages with speed in their name. Search will be on prefixed messages here.
+low-can subscribe { "event" : "messages*speed" } --> will subscribe to all CAN messages ending with speed in their name. Search will be on prefixed messages here.
+low-can subscribe { "event" : "diagnostic*speed*" } --> will subscribe to all diagnostic messages with speed in their name. Search will be on prefixed messages here.
+low-can subscribe { "event" : "diagnostic*speed" } --> will subscribe to all diagnostic messages ending with speed in their name. Search will be on prefixed messages here.
+```
+
+You can stop receiving event from it by unsubscribe the signal the same way you did for subscribe
+
+```bash
+low-can unsubscribe { "event": "doors.driver.open" }
+ON-REPLY 2:low-can/unsubscribe: {"jtype":"afb-reply","request":{"status":"success"}}
+low-can unsubscribe { "event" : "doors*" }
+ON-REPLY 3:low-can/unsubscribe: {"jtype":"afb-reply","request":{"status":"success"}}
+```
+
+[USB_CAN]: http://reference.com/ "USB CAN adapter recommended"
+[OBD2_cable]: http://foo.bar/ "OBD2<->DB9 recommended cable"
[SDK_instructions]: http://docs.iot.bzh/docs/getting_started/en/dev/reference/setup-sdk-environment.html "Setup SDK environment"
-[generator]: http://github.com/user/generator "AGL low level CAN binding Generator"
+[generator]: http://github.com/iotbzh/can-config-generator "AGL low level CAN binding Generator"
[afm-util]: http://docs.iot.bzh/docs/apis_services/en/dev/reference/af-main/afm-daemons.html#using-afm-util "afm-util usage" \ No newline at end of file