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|
# Building for Supported Renesas Boards
AGL supports building for several automotive
[Renesas](https://www.renesas.com/us/en/solutions/automotive.html) board kits.
Renesas is the number one supplier of vehicle control microcontrollers and
System on a Chip (SoC) products for the automotive industry.
This section provides the build and deploy steps you need to create an
image for the following Renesas platforms:
* [Renesas R-Car Starter Kit Pro Board](https://www.elinux.org/R-Car/Boards/M3SK)
* [Renesas R-Car Starter Kit Premier Board](https://www.elinux.org/R-Car/Boards/H3SK)
* [Renesas Salvator-X Board](https://www.elinux.org/R-Car/Boards/Salvator-X)
* [Renesas Kingfisher Infotainment Board](https://elinux.org/R-Car/Boards/Kingfisher)
**NOTE:** You can find similar information for the Pro and Premier board kits on the
[R-Car/Boards/Yocto-Gen3](https://elinux.org/R-Car/Boards/Yocto-Gen3) page.
The information on this page describes setup and build procedures for both these
Renesas development kits.
You can find more information on building images from these resources:
* [AGL-Devkit-Build-your-1st-AGL-Application.pdf](https://iot.bzh/download/public/2016/sdk/AGL-Devkit-Build-your-1st-AGL-Application.pdf)
Generic guide on how to build various application types (HTML5, native, Qt, QML, …) for AGL.
This is really about building an application and not the AGL image.
* [AGL-Devkit-HowTo_bake_a_service.pdf](https://iot.bzh/download/public/2016/bsp/AGL_Phase2-Devkit-HowTo_bake_a_service.pdf)
Generic guide on how to add a new service in the BSP.
Goes back to 2015 and uses Yocto 2.x.
Includes stuff on building an image but looks like the focus is really the service.
* [AGL-Kickstart-on-Renesas-Porter-Board.pdf](https://iot.bzh/download/public/2016/sdk/AGL-Kickstart-on-Renesas-Porter-board.pdf)
Guide on how to build an image for the Porter Board using AGL 2.0.
* [AGL-Devkit-Image-and-SDK-for-Porter.pdf](https://iot.bzh/download/public/2016/sdk/AGL-Devkit-Image-and-SDK-for-porter.pdf)
Guide on building an AGL image and SDK for the Porter board.
Uses Yocto 2.x.
## 1. Downloading Proprietary Drivers
Before setting up the build environment, you need to download proprietary drivers from the
[R-Car H3/M3 Software library and Technical document](https://www.renesas.com/us/en/solutions/automotive/rcar-download/rcar-demoboard-2.html)
site.
This download site supports the Pro and Premier board starter kits.
**NOTE:** Not sure what you do if you are using the Salvator-X or Kingfisher Infotainment boards.
Follow these steps to download the drivers you need:
1. **Determine the Files You Need:**
Run the ``setup_mm_packages.sh`` script as follows to
display the list of ZIP files containing the drivers you need.
Following is an example:
```bash
grep -rn ZIP_.= $AGL_TOP/meta-agl/meta-agl-bsp/meta-rcar-gen3/scripts/setup_mm_packages.sh
3:ZIP_1="R-Car_Gen3_Series_Evaluation_Software_Package_for_Linux-weston5-20190212.zip"
4:ZIP_2="R-Car_Gen3_Series_Evaluation_Software_Package_of_Linux_Drivers-weston5-20190212.zip"
```
The script's output identifies the files you need to download from the page and the example above correspond to the Happy Hallibut AGL revision (v8.0.0).
<!-- SPEC-2253 (gfx drivers copied from 3.19 on top of 3.15) - FIXME -->
***2019/05/24 : Rcar Graphics HOTFIX for BSP v3.15***
On the agl master branch, since the Rcar BSP v3.15 driver update, some graphics issues appeared. They have been fixed within the new v3.19 Renesas GFX binaries. To built correctly and use them on your AGL image, you have to add the following zip file into your download area : `R-Car_Gen3_Series_Evaluation_Software_Package_for_Linux-weston5-20190516.zip`.
This graphic package will be used by the `setup_mm_packages.sh` and it is available to download on the
[R-Car H3/M3 Software library and Technical document](https://www.renesas.com/us/en/solutions/automotive/rcar-download/rcar-demoboard-2.html)
website.
**NOTE:**
Be aware that **this package is added to the ones you need** (detected at step 1 just above) and only if you are using the 3.15 BSP of renesas.
2. **Find the Download Links:**
Find the appropriate download links on the
[R-Car H3/M3 Software library and Technical document](https://www.renesas.com/us/en/solutions/automotive/rcar-download/rcar-demoboard-2.html)
site.
The file pairs are grouped according to the Yocto Project version you are
using with the AGL software.
The Flounder release of AGL uses the 2.4 version of the Yocto Project (i.e. "Rocko").
3. **Download the Files:**
Start the download process by clicking the download link.
If you do not have an account with Renesas, you will be asked to register a free account.
You must register and follow the "Click Through" licensing process
in order to download these proprietary files.
If needed, follow the instructions to create the free account by providing the required
account information.
Once the account is registered and you are logged in, you can download the files.
**NOTE:**
You might have to re-access the
[original page](https://www.renesas.com/us/en/solutions/automotive/rcar-download/rcar-demoboard-2.html)
that contains the download links you need after creating the account and logging in.
4. **Create an Environment Variable to Point to Your Download Area:**
Create and export an environment variable named `XDG_DOWNLOAD_DIR` that points to
your download directory.
Here is an example:
```bash
$ export XDG_DOWNLOAD_DIR=$HOME/Downloads
```
5. **Be Sure the Files Have Rights:**
Be sure you have the necessary rights for the files you downloaded.
You can use the following command:
```bash
chmod a+4 $XDG_DOWNLOAD_DIR/*.zip
```
6. **Check to be Sure the Files are Downloaded and Have the Correct Rights:**
Do a quick listing of the files to ensure they are in the download directory and
they have the correct access rights.
Here is an example:
```bash
$ ls -l $XDG_DOWNLOAD_DIR/*.zip
-rw-r--r-- 1 iot bzh 5492251 5 avril 14:37 R-Car_Gen3_Series_Evaluation_Software_Package_for_Linux-weston5-20190212.zip
-rw-r--r-- 1 iot bzh 3440842 5 avril 14:37 R-Car_Gen3_Series_Evaluation_Software_Package_of_Linux_Drivers-weston5-20190212.zip
```
## 2. Getting More Software
1. **Get the `bmaptool`:**
Download this tool from the
[bmap-tools](https://build.opensuse.org/package/show/isv:LinuxAutomotive:AGL_Master/bmap-tools)
repository.
The site has pre-built packages (DEB or RPM) for the supported host
operating systems.
2. **Get Your Board Support Package (BSP) Version:**
Be sure to have the correct BSP version of the R-Car Starter Kit
based on the version of the AGL software you are using.
Use the following table to map the Renesas version to your AGL software:
| AGL Version| Renesas version |
|:-:|:-:|
| AGL master | 3.15.0 |
| AGL 7.0.0 | 3.9.0 |
| AGL 6.0.3, 6.0.4 | 3.9.0 |
| AGL 6.0.0, 6.0.1, 6.0.2 | 3.7.0 |
| AGL 5.0.x, 5.1.0| 2.23.1 |
| AGL 4.0.x |2.19.0 |
**NOTE:**
I don't know how the user uses this information.
I need more information.
## 3. Getting Your Hardware Together
Gather together this list of hardware items, which is not exhaustive.
Having these items ahead of time saves you from having to try and
collect hardware during development:
* Supported Starter Kit Gen3 board with its 5V power supply.
* Micro USB-A cable for serial console.
This cable is optional if you are using Ethernet and an SSH connection.
* USB 2.0 Hub. The hub is optional but makes it easy to connect multiple USB devices.
* Ethernet cable. The cable is optional if you are using a serial console.
* HDMI type D (Micro connector) cable and an associated display.
* 4 Gbyte minimum MicroSD Card. It is recommended that you use a class 10 type.
* USB touch screen device such as the GeChic 1502i/1503i. A touch screen device is optional.
**NOTE:** The Salvator-X Board has NDA restrictions.
Consequently, less documentation is available for this board both here and across the
Internet.
## 4. Making Sure Your Build Environment is Correct
The
"[Initializing Your Build Environment](../image-workflow-initialize-build-environment.html#Initializing-your-build-environment)"
section presented generic information for setting up your build environment
using the `aglsetup.sh` script.
If you are building an image for a supported Renesas board,
you need to take steps to make sure your build host is set up correctly.
1. **Define Your Board:**
Depending on your Renesas board, define and export a `MACHINE` variable as follows:
| Board| `MACHINE` Setting |
|:-:|:-:|
| Starter Kit Pro/M3 | `MACHINE`=m3ulcb |
| Starter Kit Premier/H3 | `MACHINE`=h3ulcb |
| Salvator-X | `MACHINE`=h3-salvator-x |
For example, the following command defines and exports the `MACHINE` variable
for the Starter Kit Pro/M3 Board:
```bash
$ export MACHINE=m3ulcb
```
2. **Run the `aglsetup.sh` Script:**
Use the following commands to run the AGL Setup script:
```bash
$ cd $AGL_TOP
$ source meta-agl/scripts/aglsetup.sh -m $MACHINE -b build agl-devel agl-demo agl-netboot agl-appfw-smack agl-localdev
```
**NOTE:**
Running the `aglsetup.sh` script automatically places you in the
working directory (i.e. `$AGL_TOP/build`).
You can change this default behavior by adding the "-f" option to the
script's command line.
In the previous command, the "-m" option sets your machine to the previously
defined `MACHINE` variable.
The "-b" option defines your Build Directory, which is the
default `$AGL_TOP/build`.
Finally, the AGL features are provided to support building the AGL Demo image
for the Renesas board.
You can learn more about the AGL Features in the
"[Initializing Your Build Environment](../image-workflow-initialize-build-environment.html)"
section.
3. **Examine the Script's Log:**
Running the `aglsetup.sh` script creates the `setup.log` file, which is in
the `build/conf` folder.
You can examine this log to see the results of the script.
For example, suppose the graphics drivers were missing or could not be extracted
when you ran the script.
In case of missing graphics drivers, you could notice an error message
similar to the following:
```bash
[snip]
--- fragment /home/working/workspace_agl_master/meta-agl/templates/machine/h3ulcb/50_setup.sh
/home/working/workspace_agl_master /home/working/workspace_agl_master/build_gen3
The graphics and multimedia acceleration packages for
the R-Car Gen3 board can be downloaded from:
https://www.renesas.com/en-us/solutions/automotive/rcar-demoboard-2.html
These 2 files from there should be store in your'/home/devel/Downloads' directory.
R-Car_Gen3_Series_Evaluation_Software_Package_for_Linux-weston5-20190212.zip
R-Car_Gen3_Series_Evaluation_Software_Package_of_Linux_Drivers-weston5-20190212.zip
/home/working/workspace_agl_master/build_gen3
--- fragment /home/working/workspace_agl_master/meta-agl/templates/base/99_setup_EULAconf.sh
--- end of setup script
OK
Generating setup file: /home/working/workspace_agl_master/build_gen3/agl-init-build-env ... OK
------------ aglsetup.sh: Done
[snip]
```
If you encounter this issue, or any other unwanted behavior, you can fix the error
mentioned, remove the `$AGL_TOP/build` directory, and then re-launch the
`aglsetup.sh` again.
Here is another example that indicates the driver files could not be extracted from
the downloads directory:
```bash
[snip]
~/workspace_agl/build/conf $ cat setup.log
--- beginning of setup script
--- fragment /home/iotbzh/workspace_agl/meta-agl/templates/base/01_setup_EULAfunc.sh
--- fragment /home/iotbzh/workspace_agl/meta-agl/templates/machine/m3ulcb/50_setup.sh
~/workspace_agl ~/workspace_agl/build
ERROR: FILES "+/home/iotbzh/Downloads/R-Car_Gen3_Series_Evaluation_Software_Package_for_Linux-weston5-20190212.zip+" NOT EXTRACTING CORRECTLY
ERROR: FILES "+/home/iotbzh/Downloads/R-Car_Gen3_Series_Evaluation_Software_Package_of_Linux_Drivers-weston5-20190212.zip+" NOT EXTRACTING CORRECTLY
The graphics and multimedia acceleration packages for
the R-Car Gen3 board BSP can be downloaded from:
<https://www.renesas.com/us/en/solutions/automotive/rcar-download/rcar-demoboard-2.html>
These 2 files from there should be stored in your
'/home/iotbzh/Downloads' directory.
R-Car_Gen3_Series_Evaluation_Software_Package_for_Linux-weston5-20190212.zip
R-Car_Gen3_Series_Evaluation_Software_Package_of_Linux_Drivers-weston5-20190212.zip
ERROR: Script /home/iotbzh/workspace_agl/build/conf/setup.sh failed
[snip]
```
## 5. Checking Your Configuration
Aside from environment variables and parameters you establish through
running the `aglsetup.sh` script, you can ensure your build's configuration
is just how you want it by examining the `local.conf` configuration file.
You can find this configuration file in the Build Directory (e.g.
"$TOP_DIR/build/conf/local.conf").
In general, the defaults along with the configuration fragments the
`aglsetup.sh` script applies in the `local.conf` file are good enough.
However, you can customize aspects by editing the `local.conf` file.
See the
"[Customizing Your Build](../image-workflow-cust-build.html)"
section for common configurations you might want to consider.
**NOTE:** For detailed explanations of the configurations you can make
in the ``local.conf`` file, consult the
[Yocto Project Documentation](https://www.yoctoproject.org/docs/).
A quick way to see if you have the `$MACHINE` variable set correctly
is to use the following command:
```bash
grep -w -e "^MACHINE =" $AGL_TOP/build/conf/local.conf
```
Depending on the Renesas board you are using, you should see output
as follows:
```bash
MACHINE = "h3ulcb"
```
or
```bash
MACHINE = "m3ulcb"
```
or
```bash
MACHINE = "h3-salvator-x"
```
If you ran the `aglsetup.sh` script as described in the
"[Making Sure Your Build Environment is Correct](./renesas.html#4-making-sure-your-build-environment-is-correct)"
section earlier, the "agl-devel", "agl-demo", "agl-netboot", "agl-appfw-smack", and
"agl-localdev" AGL features will be in effect.
These features provide the following:
* A debugger (gdb)
* Some tweaks, including a disabled root password
* A SFTP server
* The TCF Agent for easier application deployment and remote debugging
* Some extra system tools such as USB and bluetooth
* Support for the AGL demo platform
* Network boot support through TFTP and NBD protocols
* [IoT.bzh](https://iot.bzh/en/) Application Framework plus
[SMACK](https://en.wikipedia.org/wiki/Smack_(software)) and
[Cynara](https://wiki.tizen.org/Security:Cynara)
* Support for local development including `localdev.inc` when present
## 6. Using BitBake
This section shows the `bitbake` command used to build the AGL image.
Before running BitBake to start your build, it is good to be reminded that AGL
does provide pre-built images for developers that work with supported hardware.
You can find these pre-built images on the
[AGL Download web site](https://download.automotivelinux.org/AGL/release).
For supported Renesas boards, the filenames have the following form:
```
<release-name>/<release-number>/m3ulcb-nogfx/deploy/images/m3ulcb/Image-m3ulcb.bin
```
Start the build using the `bitbake` command.
**NOTE:** An initial build can take many hours depending on your
CPU and and Internet connection speeds.
The build also takes approximately 100G-bytes of free disk space.
For this example, the target is "agl-demo-platform":
```bash
bitbake agl-demo-platform
```
The build process puts the resulting image in the Build Directory:
```
<build_directory>/tmp/deploy/images/$MACHINE
```
## 7. Booting the Image Using a MicroSD Card
To boot your image on the Renesas board, you need to do three things:
1. Update all firmware on the board.
2. Prepare the MicroSD card to you can boot from it.
3. Boot the board.
**NOTE:** For subsequent builds, you only have to re-write the MicroSD
card with a new image.
### Updating the Board's Firmware
Follow these steps to update the firmware:
1. **Update the Sample Loader and MiniMonitor:**
You only need to make these updates one time per device.
Follow the procedure found on the
eLinux.org wiki to update to at least version 3.02,
which is mandatory to run the AGL image ([R-car loader update](https://elinux.org/R-Car/Boards/Kingfisher#How_to_update_of_Sample_Loader_and_MiniMonitor)).
2. **Update the Firmware Stack:**
You only need to update the firmware stack if you are
using the Eel or later (5.0) version of AGL software.
M3 and H3 Renesas board are AArch64 platforms.
As such, they have a firmware stack that is divided across: **ARM Trusted Firmware**, **OP-Tee** and **U-Boot**.
If you are using the Eel (5.0) version or later of the AGL software, you must update
the firmware using the **[h3ulcb][R-car h3ulcb firmware update](http://elinux.org/R-Car/Boards/H3SK#Flashing_firmware)**
or **[m3ulcb][R-car m3ulcb firmware update](https://elinux.org/R-Car/Boards/M3SK#Flashing_firmware)** links from the
[Embedded Linux Wiki](https://www.elinux.org/Main_Page) (i.e. `elinux.org`).
The table in the wiki lists the files you need to flash the firmware.
You can find these files in the following directory:
```bash
$AGL_TOP/build/tmp/deploy/images/$MACHINE
```
**NOTE:** The Salvator-X firmware update process is not documented on eLinux.
### Preparing the MicroSD Card
Plug the MicroSD card into your Build Host.
After plugging in the device, use the `dmesg` command as follows to
discover the device name:
```bash
$ dmesg | tail -4
[ 1971.462160] sd 6:0:0:0: [sdc] Mode Sense: 03 00 00 00
[ 1971.462277] sd 6:0:0:0: [sdc] No Caching mode page found
[ 1971.462278] sd 6:0:0:0: [sdc] Assuming drive cache: write through
[ 1971.463870] sdc: sdc1 sdc2
```
In the previous example, the MicroSD card is attached to the device `/dev/sdc`.
You can also use the `lsblk` command to show all your devices.
Here is an example that shows the MicroSD card as `/dev/sdc`:
```bash
$ lsblk
NAME MAJ:MIN RM SIZE RO TYPE MOUNTPOINT
sda 8:0 0 167,7G 0 disk
├─sda1 8:1 0 512M 0 part /boot/efi
├─sda2 8:2 0 159,3G 0 part /
└─sda3 8:3 0 7,9G 0 part [SWAP]
sdb 8:16 0 931,5G 0 disk
└─sdb1 8:17 0 931,5G 0 part /media/storage
sdc 8:32 1 14,9G 0 disk
├─sdc1 8:33 1 40M 0 part
└─sdc2 8:34 1 788M 0 part
```
**IMPORTANT NOTE:** Before re-writing any device on your Build Host, you need to
be sure you are actually writing to the removable MicroSD card and not some other
device.
Each computer is different and removable devices can change from time to time.
Consequently, you should repeat the previous operation with the MicroSD card to
confirm the device name every time you write to the card.
To summarize this example so far, we have the following:
* The first SATA drive is `/dev/sda`.
* `/dev/sdc` corresponds to the MicroSD card, and is also marked as a removable device.
You can see this in the output of the `lsblk` command where "1" appears in the "RM" column
for that device.
Now that you have identified the device you are going to be writing the image on,
you can use the `bmaptool` to copy the image to the MicroSD card.
Your desktop system might offer a choice to mount the MicroSD automatically
in some directory.
For this example, assume that the MicroSD card mount directory is stored in the
`$SDCARD` variable.
Following are example commands that write the image to the MicroSD card:
```bash
cd $AGL_TOP/build/tmp/deploy/images/$MACHINE
bmaptool copy ./agl-demo-platform-$MACHINE.wic.xz $SDCARD
```
Alternatively, you can leave the image in an uncompressed state and write it
to the MicroSD card:
```bash
sudo umount /dev/sdc
xzcat ./agl-demo-platform-$MACHINE.wic.xz | sudo dd of=$SDCARD bs=4M
sync
```
### Booting the Board
Follow these steps to boot the board:
1. Use the board's power switch to turn off the board.
2. Insert the MicroSD card into the board.
3. Verify that you have plugged in the following:
* An external monitor into the board's HDMI port
* An input device (e.g. keyboard, mouse, touchscreen, and so forth) into the board's USB ports.
4. Use the board's power switch to turn on the board.
After a few seconds, you will see the AGL splash screen on the display and you
will be able to log in at the console's terminal or using the graphic screen.
## 8. Setting Up the Serial Console
Setting up the Serial Console involves the following:
* Installing a serial client on your build host
* Connecting your build host to your Renesas board's serial port
* Powering on the board to get a shell at the console
* Configuring U-Boot parameters
* Logging into the console
* Determining the board's IP address
### Installing a Serial Client on Your Build Host
You need to install a serial client on your build host.
Some examples are
[GNU Screen](https://en.wikipedia.org/wiki/GNU_Screen),
[picocom](https://linux.die.net/man/8/picocom),
and
[Minicom](https://en.wikipedia.org/wiki/Minicom).
Of these three, "picocom" has less dependencies and is therefore
considered the "lightest" solution.
### Connecting Your Build Host to Your Renesas Board's Serial Port
You need to physically connect your build host to the Renesas board using
a USB cable from the host to the serial CP2102 USP port (i.e. Micro USB-A port)
on the Renesas board.
Once you connect the board, determine the device created for the serial link.
Use the ``dmesg`` command on your build host.
Here is an example:
```bash
dmesg | tail 9
[2097783.287091] usb 2-1.5.3: new full-speed USB device number 24 using ehci-pci
[2097783.385857] usb 2-1.5.3: New USB device found, idVendor=0403, idProduct=6001
[2097783.385862] usb 2-1.5.3: New USB device strings: Mfr=1, Product=2, SerialNumber=3
[2097783.385864] usb 2-1.5.3: Product: FT232R USB UART
[2097783.385866] usb 2-1.5.3: Manufacturer: FTDI
[2097783.385867] usb 2-1.5.3: SerialNumber: AK04WWCE
[2097783.388288] ftdi_sio 2-1.5.3:1.0: FTDI USB Serial Device converter detected
[2097783.388330] usb 2-1.5.3: Detected FT232RL
[2097783.388658] usb 2-1.5.3: FTDI USB Serial Device converter now attached to ttyUSB0
```
The device created is usually "/dev/ttyUSB0".
However, the number might vary depending on other USB serial ports connected to the host.
To use the link, you need to launch the client.
Here are three commands, which vary based on the serial client, that show
how to launch the client:
```bash
$ picocom -b 115200 /dev/ttyUSB0
```
or
```bash
$ minicom -b 115200 -D /dev/ttyUSB0
```
or
```bash
$ screen /dev/ttyUSB0 115200
```
### Powering on the Board to Get a Shell at the Console
Both the Pro and Premier kits (e.g.
[m3ulcb](https://elinux.org/R-Car/Boards/M3SK) and
[h3ulcb](https://elinux.org/R-Car/Boards/H3SK#Hardware)) have nine
switches (SW1 through SW9).
To power on the board, "short-press" SW8, which is the power switch.
Following, is console output for the power on process for each kit:
**h3ulcb:**
```bash
NOTICE: BL2: R-Car Gen3 Initial Program Loader(CA57) Rev.1.0.7
NOTICE: BL2: PRR is R-Car H3 ES1.1
NOTICE: BL2: LCM state is CM
NOTICE: BL2: DDR1600(rev.0.15)
NOTICE: BL2: DRAM Split is 4ch
NOTICE: BL2: QoS is Gfx Oriented(rev.0.30)
NOTICE: BL2: AVS setting succeeded. DVFS_SetVID=0x52
NOTICE: BL2: Lossy Decomp areas
NOTICE: Entry 0: DCMPAREACRAx:0x80000540 DCMPAREACRBx:0x570
NOTICE: Entry 1: DCMPAREACRAx:0x40000000 DCMPAREACRBx:0x0
NOTICE: Entry 2: DCMPAREACRAx:0x20000000 DCMPAREACRBx:0x0
NOTICE: BL2: v1.1(release):41099f4
NOTICE: BL2: Built : 19:20:52, Jun 9 2016
NOTICE: BL2: Normal boot
NOTICE: BL2: dst=0xe63150c8 src=0x8180000 len=36(0x24)
NOTICE: BL2: dst=0x43f00000 src=0x8180400 len=3072(0xc00)
NOTICE: BL2: dst=0x44000000 src=0x81c0000 len=65536(0x10000)
NOTICE: BL2: dst=0x44100000 src=0x8200000 len=524288(0x80000)
NOTICE: BL2: dst=0x49000000 src=0x8640000 len=1048576(0x100000)
U-Boot 2015.04 (Jun 09 2016 - 19:21:52)
CPU: Renesas Electronics R8A7795 rev 1.1
Board: H3ULCB
I2C: ready
DRAM: 3.9 GiB
MMC: sh-sdhi: 0, sh-sdhi: 1
In: serial
Out: serial
Err: serial
Net: Board Net Initialization Failed
No ethernet found.
Hit any key to stop autoboot: 0
=>
```
**m3ulcb:**
```
NOTICE: BL2: R-Car Gen3 Initial Program Loader(CA57) Rev.1.0.14
NOTICE: BL2: PRR is R-Car M3 Ver1.0
NOTICE: BL2: Board is Starter Kit Rev1.0
NOTICE: BL2: Boot device is HyperFlash(80MHz)
NOTICE: BL2: LCM state is CM
NOTICE: BL2: AVS setting succeeded. DVFS_SetVID=0x52
NOTICE: BL2: DDR1600(rev.0.22)NOTICE: [COLD_BOOT]NOTICE: ..0
NOTICE: BL2: DRAM Split is 2ch
NOTICE: BL2: QoS is default setting(rev.0.17)
NOTICE: BL2: Lossy Decomp areas
NOTICE: Entry 0: DCMPAREACRAx:0x80000540 DCMPAREACRBx:0x570
NOTICE: Entry 1: DCMPAREACRAx:0x40000000 DCMPAREACRBx:0x0
NOTICE: Entry 2: DCMPAREACRAx:0x20000000 DCMPAREACRBx:0x0
NOTICE: BL2: v1.3(release):4eef9a2
NOTICE: BL2: Built : 00:25:19, Aug 25 2017
NOTICE: BL2: Normal boot
NOTICE: BL2: dst=0xe631e188 src=0x8180000 len=512(0x200)
NOTICE: BL2: dst=0x43f00000 src=0x8180400 len=6144(0x1800)
NOTICE: BL2: dst=0x44000000 src=0x81c0000 len=65536(0x10000)
NOTICE: BL2: dst=0x44100000 src=0x8200000 len=524288(0x80000)
NOTICE: BL2: dst=0x50000000 src=0x8640000 len=1048576(0x100000)
U-Boot 2015.04-dirty (Aug 25 2017 - 10:55:49)
CPU: Renesas Electronics R8A7796 rev 1.0
Board: M3ULCB
I2C: ready
DRAM: 1.9 GiB
MMC: sh-sdhi: 0, sh-sdhi: 1
In: serial
Out: serial
Err: serial
Net: ravb
Hit any key to stop autoboot: 0
=>
```
## 9. Setting-up U-boot
### Configuring U-Boot Parameters
Follow these steps to configure the board to use the MicroSD card as the
boot device and also to set the screen resolution:
1. As the board is powering up, press any key to stop the autoboot process.
You need to press a key quickly as you have just a few seconds in which to
press a key.
2. Once the autoboot process is interrupted, use the board's serial console to
enter **printenv** to check if you have correct parameters for booting your board:
Here is an example using the **h3ulcb** board:
```
=> printenv
baudrate=115200
bootargs=console=ttySC0,115200 root=/dev/mmcblk1p1 rootwait ro rootfstype=ext4
bootcmd=run load_ker; run load_dtb; booti 0x48080000 - 0x48000000
bootdelay=3
fdt_high=0xffffffffffffffff
initrd_high=0xffffffffffffffff
load_dtb=ext4load mmc 0:1 0x48000000 /boot/r8a7795-h3ulcb.dtb
load_ker=ext4load mmc 0:1 0x48080000 /boot/Image
stderr=serial
stdin=serial
stdout=serial
ver=U-Boot 2015.04 (Jun 09 2016 - 19:21:52)
Environment size: 648/131068 bytes
```
Here is a second example using the **m3ulcb** board:
```
=> printenv
baudrate=115200
bootargs=console=ttySC0,115200 root=/dev/mmcblk1p1 rootwait ro rootfstype=ext4
bootcmd=run load_ker; run load_dtb; booti 0x48080000 - 0x48000000
bootdelay=3
fdt_high=0xffffffffffffffff
filesize=cdeb
initrd_high=0xffffffffffffffff
load_dtb=ext4load mmc 0:1 0x48000000 /boot/r8a7796-m3ulcb.dtb
load_ker=ext4load mmc 0:1 0x48080000 /boot/Image
stderr=serial
stdin=serial
stdout=serial
ver=U-Boot 2015.04 (Nov 30 2016 - 18:25:18)
Environment size: 557/131068 bytes
```
3. To boot your board using the MicroSD card, be sure your environment is set up
as follows:
```
setenv bootargs console=ttySC0,115200 ignore_loglevel vmalloc=384M video=HDMI-A-1:1920x1080-32@60 root=/dev/mmcblk1p1 rw rootfstype=ext4 rootwait rootdelay=2
setenv bootcmd run load_ker\; run load_dtb\; booti 0x48080000 - 0x48000000
setenv load_ker ext4load mmc 0:1 0x48080000 /boot/Image
```
4. Depending on the board type, the BSP version, and the existence of
a Kingfisher board, make sure your ``load_dtb`` is set as follows:
**h3ulcb with BSP version greater than or equal to 2.19**:
```
setenv load_dtb ext4load mmc 0:1 0x48000000 /boot/r8a7795-es1-h3ulcb.dtb
```
**h3ulcb with BSP version less than 2.19**:
```
setenv load_dtb ext4load mmc 0:1 0x48000000 /boot/r8a7795-h3ulcb.dtb
```
**m3ulcb**:
```bash
setenv load_dtb ext4load mmc 0:1 0x48000000 /boot/r8a7796-m3ulcb.dtb
```
**m3ulcb with a Kingfisher board**:
```bash
setenv load_dtb ext4load mmc 0:1 0x48000000 /boot/r8a7796-m3ulcb-kf.dtb
```
**h3ulcb with a Kingfisher board**:
```bash
setenv load_dtb ext4load mmc 0:1 0x48000000 /boot/r8a7795-es1-h3ulcb-kf.dtb
```
5. Save the boot environment:
```bash
saveenv
```
6. Boot the board:
```
run bootcmd
```
## 10. Troubleshooting
### Logging Into the Console
Once the board boots, you should see the
[Wayland display](https://en.wikipedia.org/wiki/Wayland_(display_server_protocol))
on the external monitor.
A login prompt should appear as follows depending on your board:
**h3ulcb**:
```bash
Automotive Grade Linux ${AGL_VERSION} h3ulcb ttySC0
h3ulcb login: root
```
**m3ulcb**:
```bash
Automotive Grade Linux ${AGL_VERSION} m3ulcb ttySC0
m3ulcb login: root
```
At the prompt, login by using `root` as the login.
The password is "empty" so you should not be prompted for the password.
### Determining the Board's IP Address
If your board is connected to a local network using Ethernet and
if a DHCP server is able to distribute IP addresses,
you can determine the board's IP address and log in using `ssh`.
Here is an example for the **m3ulcb** board:
```bash
m3ulcb login: root
Last login: Tue Dec 6 09:55:15 UTC 2016 on tty2
root@m3ulcb:~# ip -4 a
1: lo: <LOOPBACK,UP,LOWER_UP> mtu 65536 qdisc noqueue state UNKNOWN group default
inet 127.0.0.1/8 scope host lo
valid_lft forever preferred_lft forever
3: eth0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc pfifo_fast state UP group default qlen 1000
inet 10.0.0.27/24 brd 10.0.0.255 scope global eth0
valid_lft forever preferred_lft forever
root@m3ulcb:~#
```
In the previous example, IP address is 10.0.0.27.
Once you know the address, you can use `ssh` to login.
Following is an example that shows logging into SSH and then
displaying the contents of the `/etc/os-release` file:
```bash
$ ssh root@10.0.0.27
Last login: Tue Dec 6 10:01:11 2016 from 10.0.0.13
root@m3ulcb:~# cat /etc/os-release
ID="poky-agl"
NAME="Automotive Grade Linux"
VERSION="3.0.0+snapshot-20161202 (chinook)"
VERSION_ID="3.0.0-snapshot-20161202"
PRETTY_NAME="Automotive Grade Linux 3.0.0+snapshot-20161202 (chinook)"
```
**NOTE:** More generics troubleshooting can be found here : [Generic issues](../troubleshooting.html)
|