Timesys Getting Started Guide for PHYTEC phyCORE AM335x RDK

Introduction
Prerequisites
- Host Requirements
- Target Requirements
Preparing the Target
- Configuring Serial Communication
- Preparing the Secure Digital Card
Preparing the Host
Booting the Board
Additional Information
- Board Documentation
- Factory Documentation

Introduction

This document will describe in detail the procedures for booting a Linux kernel image and mounting a root file system from an SD Card on the PHYTEC phyCORE AM335x RDK.

Prerequisites

Host Requirements

To properly boot the PHYTEC phyCORE AM335x RDK using software from Timesys, your host machine must meet the following requirements:

Modern GNU/Linux Distribution. Timesys recommends one of the following distributions:
- Ubuntu (Most recent release or LTS)
- Fedora (Most recent release)
Root or sudo permission on the Development Host.
A copy of the Linux Kernel (uImage-3.2-ts-armv7l) and Root File System (rootfs.tar.gz) for the Target Board downloaded from Factory. These are found in the output directory of your online build, or in the directory build_armv7l-timesys-linux-<libc>/images/ on the command line.
A barebox image (barebox.bin) and MLO file. These are found in the output directory of your online build, or in the directory build_armv7l-timesys-linux-<libc>/images//bootloader on the command line.
An available RS232 Port on your Development Host.
A SD card slot or adapter on your Development Host.

Target Requirements

To boot the PHYTEC phyCORE AM335x RDK, you will need the following items:

PHYTEC phyCORE AM335x RDK
SD Card
Straight-through RS232 Cable
Ethernet Crossover Cable or Ethernet hub/switch and Ethernet Patch Cables

Once you have all of the necessary components, you should perform the following steps:

Connect the RS232 Cable to the UART0 port of the phyCORE AM335x RDK
If you are using a cross-over cable, connect the Ethernet port of the board to the second Ethernet port of your workstation.
Connect the power supply to your board.
Set aside the SD card, you will need to intialize it from the Development Host before booting the board.
Set the boot switches (S5). For SD boot, set the switches S5-1 to S5-8 to On On On On Off On Off Off, respectively.

Preparing the Target

Configuring Serial Communication

The phyCORE AM335x RDK uses a serial debug port to communicate with the host machine. The commands discussed in this section are meant to be performed by a privileged user account. This requires the root login or prepending each command with sudo.

Using Minicom

Start minicom on your host machine in configuration mode. As root:

# minicom -o -s -w
A menu of configuration should appear. Use the Down-arrow key to scroll down and select the Serial port setup option, and press Enter.
Verify that the listed serial port is the same one that is connected to the target board. If it is not, press A, and enter the correct device. This is /dev/ttyS0 on most Linux distributions.
Set the Bps/Par/Bits option by pressing the letter E and using the next menu to set the appropriate values. You press the key that corresponds to the value 115200, then press Enter.
Set Hardware flow control to No using the F key.
Set Software flow control to No using the G key.
Press Enter to return to the main configuration menu, and then press Esc to exit this menu.
Reset the board, and wait for a moment. If you do not see output from the board, press Enter several times until you see the prompt. If you do not see any output from the board, and have verified that the serial terminal connection is setup correctly, contact your board vendor.

TIP: If you experience an error similar to Device /dev/ttyS0 is locked when starting minicom, it usually means that another process is using the serial port (which is usually another instance of minicom). You can find the process that is currently using the serial port by executing the following:

# fuser /dev/ttyS0 /dev/ttyS0: 28358

# ps 28358 PID TTY STAT TIME COMMAND 28923 pts/0 S+ 0:00 minicom

This process can also be killed directly with fuser as root. Please use this command with caution:

# fuser -k /dev/ttyS0

Using GNU Screen

To quickly connect to a board using Gnu Screen, execute the following:

# screen /dev/ttyS0 115200

For more information about using screen, please consult the man page, or view the manual online at http://www.gnu.org/software/screen/manual/screen.html

Preparing the Secure Digital Card

The phyCORE AM335x RDK boots from an SD card. Some kits may be shipped with one that contains a sample kernel and RFS preloaded. We will be replacing these with the kernel and RFS from Factory. If you are using a blank SD card or have trouble replacing the software on the preloaded one, see Partitioning the SD Card. Otherwise, skip directly to Writing Boot Files to the SD Card.

Before you begin, you should determine the name of your SD card on your host system. To do so:

Connect the SD card to your host system. Many modern systems have SD card slots on the case, or you can purchase a USB SD Card Reader for around $15 US.
Determine the device name of the SD Card. This can be done using dmesg. In the following example, the device is /dev/sdX, which contains one partition sdX1.

$ dmesg | tail [88050.184080] sd 4:0:0:0: [sdX] 1990656 512-byte hardware sectors: (1.01 GB/972 MiB) [88050.184821] sd 4:0:0:0: [sdX] Write Protect is off [88050.184824] sd 4:0:0:0: [sdX] Mode Sense: 03 00 00 00 [88050.184827] sd 4:0:0:0: [sdX] Assuming drive cache: write through [88050.185575] sd 4:0:0:0: [sdX] 1990656 512-byte hardware sectors: (1.01 GB/972 MiB) [88050.186323] sd 4:0:0:0: [sdX] Write Protect is off [88050.186325] sd 4:0:0:0: [sdX] Mode Sense: 03 00 00 00 [88050.186327] sd 4:0:0:0: [sdX] Assuming drive cache: write through [88050.186330] sdX: sdX1

Partitioning the SD card

If you want to use a different SD card or its contents become corrupted, you can use the fdisk tool to create two partitions on your SD card. Please note that all data on the card will be lost upon completion of these steps.

Unmount the partition if it was automounted by using the umount command.
$ umount /dev/sdX1
As root, run the fdisk utility on the drive.
$ sudo fdisk /dev/sdX
In fdisk, Delete the existing partition table and create a new one using the o command.
Command (m for help): o Building a new DOS disklabel with disk identifier 0x8b025602. Changes will remain in memory only, until you decide to write them. After that, of course, the previous content won't be recoverable.
Create a new primary partition using the n command. The first partition will be a FAT partition for storing the boot files. 64 MB is typically more than enough for this purpose.
Command (m for help): n Partition type: p primary (0 primary, 0 extended, 4 free) e extended Select (default p): p Partition number (1-4, default 1): 1 First sector (2048-30679039, default 2048): Using default value 2048 Last sector, +sectors or +sizeK,M,G (2048-30679039, default 30679039): +64M
Set the first partition as W95 FAT32 (LBA) using the t command and entering the Hex code c.

Command (m for help): t Selected partition 1 Hex code (type L to list codes): c
Set the bootable flag on the first partition using the a command.

Command (m for help): a Partition number (1-4): 1
Create a second primary partition using the n command. This partition will be a linux partition for storing the root filesystem. It will fill the rest of the SD card.

Command (m for help): n Command action e extended p primary partition (1-4) p Partition number (1-4, default 2): 2 First sector (133120-30679039, default 133120): Using default value 18432 Last sector, +sectors or +sizeK,M,G (133120-30679039, default 30679039): Using default value 30679039
Verify that the partition table is correct by using the p command. It should look similar to the following:

Command (m for help): p Disk /dev/sdX: 15.7 GB, 15707668480 bytes 64 heads, 32 sectors/track, 14980 cylinders, total 30679040 sectors Units = sectors of 1 * 512 = 512 bytes Sector size (logical/physical): 512 bytes / 512 bytes I/O size (minimum/optimal): 512 bytes / 512 bytes Disk identifier: 0x6eaae8f8 Device Boot Start End Blocks Id System /dev/sdX1 * 2048 133119 65536 c W95 FAT32 (LBA) /dev/sdX2 133120 30679039 14773960 83 Linux
This step will destroy all data on the SD Card - Write the partition table to the card using the w command.

Command (m for help): w The partition table has been altered! Calling ioctl() to re-read partition table. WARNING: If you have created or modified any DOS 6.x partitions, please see the fdisk manual page for additional information. Syncing disks.
Format the first partition of the SD card with a FAT filesystem using the mkfs.vfat tool.

$ sudo /sbin/mkfs.vfat -n boot /dev/sdX1
Format the second partition using an ext3 filesystem using the mkfs.ext3 tool.

$ sudo /sbin/mkfs.ext3 -L rfs /dev/sdX2

Writing Boot Files to the SD Card

Once you have a properly partitioned SD card, you can then populate it with the boot files generated by Factory.

The partitions are usually automounted under /media, but if not, you can use the mount command to mount the partition to an arbitrary location.

$ sudo mount /dev/sdX1 /media/boot $ sudo mount /dev/sdX2 /media/rfs
Copy the u-boot MLO and u-boot bootloader images into the vfat partition.

$ sudo cp MLO /media/boot/ $ sudo cp barebox.bin /media/boot/
Copy the kernel image into the boot partition.

$ sudo cp uImage-3.2-ts-armv7l /media/boot/linuximage
As root, extract the rootfs.tar.gz archive to the ext3 partition.

$ sudo tar xzf rootfs.tar.gz -C /media/rfs
Unmount all partitions.

$ sudo umount /dev/sdX1 $ sudo umount /dev/sdX2
Remove the card from the host machine, and insert it into the SD card slot on the phyCORE AM335x RDK.
Power on or reset the board.

Preparing the Host

No additional host setup is required to boot from SD.

Booting the Board

By default, Barebox is configured to boot the image from NAND flash. You must interrupt the boot process and manually boot from the SD card.

Ensure that the boot switch S5 is set to SD card boot (On On On On Off On Off Off).
Power up or reset the board.
Interrupt the boot process by pressing a key before the timer expires.

barebox 2013.07.0-PD13.1.2 MLO #1 Tue Jul 7 18:56:54 IST 2015 Board: Phytec phyCORE-AM335x omap-hsmmc omap4-hsmmc0: registered as omap4-hsmmc0 mci0: registered disk0 m25p80 m25p800: s25sl064p (8192 Kbytes) probe buswidth nand: ONFI param page 0 valid nand: ONFI flash detected ... nand: Manufacturer ID: 0x2c, Chip ID: 0xdc (Micron MT29F4G08ABADAH4), page size: 2048, OOB size: 64 booting from MMC barebox 2013.07.0-PD13.1.2 #1 Tue Jul 7 18:57:16 IST 2015 Board: Phytec phyCORE-AM335x omap-hsmmc omap4-hsmmc0: registered as omap4-hsmmc0 mci0: registered disk0 m25p80 m25p800: s25sl064p (8192 Kbytes) cpsw cpsw0: detected phy mask 0x5 mdio_bus: miibus0: probed eth0: got preset MAC address: D0:5F:B8:89:1A:CD I2C probe i2c-omap i2c-am33xx0: bus 0 rev0.11 at 100 kHz probe buswidth nand: ONFI param page 0 valid nand: ONFI flash detected ... nand: Manufacturer ID: 0x2c, Chip ID: 0xdc (Micron MT29F4G08ABADAH4), page size: 2048, OOB size: 64 malloc space: 0x83ff4000 -> 0x87ff3fff (size 64 MiB) running /env/bin/init... Hit m for menu or any other key to stop autoboot: 3
Run the boot mmc command to boot from the SD card.

barebox@Phytec phyCORE-AM335x:/ boot mmc

Additional Information

Board Documentation

http://phytec.com/wiki/index.php?title=PhyCORE-AM335x_Linux_BSP-PD13.1.2