Attempting to boot Symbian^3 on the TMDSEVM3530 : Take 2

I’ve just received the USB/RS-232 adapter (which is based around the FTDI FT232BM chipset, and supported under Linux without any additional work), and connected it to the board’s UART1/2 port and my laptop using the null modem cable supplied with the board.

For the curious, dmesg reports:
[ 177.992226] usb 2-2: new full speed USB device using ohci_hcd and address 3
[ 1090.655407] usb 2-2: USB disconnect, address 3
[ 1160.036191] usb 2-2: new full speed USB device using ohci_hcd and address 4
[ 1160.656891] usbcore: registered new interface driver usbserial
[ 1160.656938] USB Serial support registered for generic
[ 1160.659703] usbcore: registered new interface driver usbserial_generic
[ 1160.659709] usbserial: USB Serial Driver core
[ 1160.676061] USB Serial support registered for FTDI USB Serial Device
[ 1160.677502] ftdi_sio 2-2:1.0: FTDI USB Serial Device converter detected
[ 1160.677628] usb 2-2: Detected FT232BM
[ 1160.677632] usb 2-2: Number of endpoints 2
[ 1160.677635] usb 2-2: Endpoint 1 MaxPacketSize 64
[ 1160.677639] usb 2-2: Endpoint 2 MaxPacketSize 64
[ 1160.677642] usb 2-2: Setting MaxPacketSize 64
[ 1160.694632] usb 2-2: FTDI USB Serial Device converter now attached to ttyUSB0
[ 1160.696459] usbcore: registered new interface driver ftdi_sio
[ 1160.696466] ftdi_sio: v1.6.0:USB FTDI Serial Converters Driver

sudo lsusb -v reports:

Bus 002 Device 004: ID 0403:6001 Future Technology Devices
    International, Ltd FT232 USB-Serial (UART) IC
Device Descriptor:
  bLength                18
  bDescriptorType         1
  bcdUSB               1.10
  bDeviceClass            0 (Defined at Interface level)
  bDeviceSubClass         0
  bDeviceProtocol         0
  bMaxPacketSize0         8
  idVendor           0x0403 Future Technology Devices
     International, Ltd
  idProduct          0x6001 FT232 USB-Serial (UART) IC
  bcdDevice            4.00
  iManufacturer           1 FTDI
  iProduct                2 USB-to-Serial
  iSerial                 3 FTE2QSKA
  bNumConfigurations      1
  Configuration Descriptor:
    bLength                 9
    bDescriptorType         2
    wTotalLength           32
    bNumInterfaces          1
    bConfigurationValue     1
    iConfiguration          0
    bmAttributes         0xa0
      (Bus Powered)
      Remote Wakeup
    MaxPower               44mA
    Interface Descriptor:
      bLength                 9
      bDescriptorType         4
      bInterfaceNumber        0
      bAlternateSetting       0
      bNumEndpoints           2
      bInterfaceClass       255 Vendor Specific Class
      bInterfaceSubClass    255 Vendor Specific Subclass
      bInterfaceProtocol    255 Vendor Specific Protocol
      iInterface              2 USB-to-Serial
      Endpoint Descriptor:
        bLength                 7
        bDescriptorType         5
        bEndpointAddress     0x81  EP 1 IN
        bmAttributes            2
          Transfer Type            Bulk
          Synch Type               None
          Usage Type               Data
        wMaxPacketSize     0x0040  1x 64 bytes
        bInterval               0
      Endpoint Descriptor:
        bLength                 7
        bDescriptorType         5
        bEndpointAddress     0x02  EP 2 OUT
        bmAttributes            2
          Transfer Type            Bulk
          Synch Type               None
          Usage Type               Data
        wMaxPacketSize     0x0040  1x 64 bytes
        bInterval               0
Device Status:     0x0000
(Bus Powered)

We can confirm that everything works by running cat /dev/ttyUSB0 from a BASH session, and powering on the board:

tyson@UmBongo:~$ cat /dev/ttyUSB0 

Texas Instruments X-Loader 1.47 (Jan 14 2011 - 15:43:28)
Starting X-loader on MMC
Reading boot sector

212836 Bytes Read from MMC
Starting OS Bootloader from MMC...
Starting OS Bootloader...

U-Boot 2010.06 (Jan 14 2011 - 15:43:45)

OMAP3430/3530-GP ES3.1, CPU-OPP2 L3-165MHz
OMAP3 EVM board + LPDDR/NAND
I2C:   ready
DRAM:  128 MiB
NAND:  256 MiB
*** Warning - bad CRC or NAND, using default environment

In:    serial
Out:   serial
Err:   serial
Read back SMSC id 0xffff0000
Die ID #2f7c000400000000040365fa1801900d
Net:   smc911x-0
Hit any key to stop autoboot:  0
mmc1 is available
reading boot.scr

421 bytes read
Running bootscript from mmc ...
## Executing script at 82000000
reading uImage

** Unable to read "uImage" from mmc 0:1 **
***** RootFS: /dev/mmcblk0p2 *****
Wrong Image Format for bootm command
ERROR: can't get kernel image!
OMAP3_EVM #

Obviously, since I renamed the uImage file on my Android SD card from earlier (to kuImage), the board fails to successfully boot Linux.

After downloading and installing CuteCom (a Qt-based serial console utility), and configuring it to communicate with the board at 115200 baud, using 8 data bits, and without parity or software/hardware handshaking, the help command command can be issued to the board’s bootloader – which results in:

OMAP3_EVM # help
?       - alias for 'help'
base    - print or set address offset
bdinfo  - print Board Info structure
boot    - boot default, i.e., run 'bootcmd'
bootd   - boot default, i.e., run 'bootcmd'
bootm   - boot application image from memory
bootp   - boot image via network using BOOTP/TFTP protocol
cmp     - memory compare
coninfo - print console devices and information
cp      - memory copy
crc32   - checksum calculation
dhcp    - boot image via network using DHCP/TFTP protocol
echo    - echo args to console
editenv - edit environment variable
exit    - exit script
ext2load- load binary file from a Ext2 filesystem
ext2ls  - list files in a directory (default /)
false   - do nothing, unsuccessfully
fastboot- fastboot- use USB Fastboot protocol

fatinfo - print information about filesystem
fatload - load binary file from a dos filesystem
fatls   - list files in a directory (default /)
fsinfo  - print information about filesystems
fsload  - load binary file from a filesystem image
go      - start application at address 'addr'
help    - print command description/usage
i2c     - I2C sub-system
imxtract- extract a part of a multi-image
itest   - return true/false on integer compare
loadb   - load binary file over serial line (kermit mode)
loads   - load S-Record file over serial line
loady   - load binary file over serial line (ymodem mode)
loop    - infinite loop on address range
ls      - list files in a directory (default /)
md      - memory display
mm      - memory modify (auto-incrementing address)
mmc     - MMC sub-system
mtest   - simple RAM read/write test
mw      - memory write (fill)
nand    - NAND sub-system
nandecc - switch OMAP3 NAND ECC calculation algorithm
nboot   - boot from NAND device
nfs     - boot image via network using NFS protocol
nm      - memory modify (constant address)
ping    - send ICMP ECHO_REQUEST to network host
printenv- print environment variables
rarpboot- boot image via network using RARP/TFTP protocol
reset   - Perform RESET of the CPU
run     - run commands in an environment variable
saveenv - save environment variables to persistent storage
setenv  - set environment variables
showvar - print local hushshell variables
sleep   - delay execution for some time
source  - run script from memory
test    - minimal test like /bin/sh
tftpboot- boot image via network using TFTP protocol
true    - do nothing, successfully
version - print monitor version
OMAP3_EVM #

At this stage, it’s necessary to remove the SD card from the board, and attempt to copy a Symbian ROM image to it.

Unfortunately, after installing Android, it’s also necessary to resize the ~70MB primary partition in order to make it fit. The quickest way to do so would probably be to use GParted and a USB card reader, if you’re using Linux under a virtual machine (as opposed to rebooting into a Wubi installation, in order to use my laptop’s internal reader, which I was initially tempted to do).

An SD card prepared using the the tool from the aforementioned archive contains an x86 partition table, and 3 partitions (a 70.57MiB FAT32 boot partition, a 941.31MiB Ext3 root partition, and an 870.71MiB FAT32 data partition).

Since it is possible to reconstitute these partitions using that tool, and since they’re unnecessary for the Symbian Platform, we can remove the root and data partitions, and then resize the boot partition to be 512.97MiB in order to store the Symbian ROM with some allowances for future growth.

If that process fails with “GNU Parted cannot resize this partition to this size. We're working on it!“, then:

  • Mount the boot partition (usually sdb1)
  • Copy all of its contents to a convenient location
  • Unmount the partition
  • Remove the partition using GParted
  • Create a new 512.97MiB FAT32 partition with 0MiB free space preceding it
  • Mount the newly created boot partition
  • Copy the “boot.scr“, “MLO” and “u-boot.bin” files from earlier to said partition
  • Unmount the partition – if you’re using a VM, and want to copy the ROM using the host OS, instead of the guest OS

Now, we can attempt to copy “beagle.rom.img” from the “ROM Images” directory to the root of the boot partition as “uImage“, unmount the partition, and then insert the card back into the board.

Unfortunately, at this stage, although several LEDs on the board illuminate, I can’t see any output from it on the serial console – which leads me to suspect that the bootloader and firmware on the card isn’t being loaded. Testing using the Windows CE card lends credence to that thought.

Attempting to copy the x-load.bin.ift file from /OMAP35X/Boot_Images to the root of the boot partition also yields the same result.

After quickly making some raw sector dumps of both SD cards, I suspect that the structure of the x86 MBR/partition table, and the location of the boot partition is a factor in the ability to boot the board.

For comparison, file reports the following, for the Windows CE card:

dump: x86 boot sector, code offset 0x0, OEM-ID "MSDOS5.0", sectors/cluster 64, root entries 512, Media descriptor 0xf8, sectors/FAT 236, heads 64, hidden sectors 135, sectors 3858489 (volumes > 32 MB) , serial number 0x61636637, unlabeled, FAT (16 bit)

For the modified Android card, this is reported, instead:

dump2: x86 boot sector; partition 1: ID=0xb, starthead 32, startsector 2048, 1048576 sectors, code offset 0xb8

With that in mind, since I’ve got a complete raw backup of the Windows card that I can restore later; I’ll remove the EBOOTSD.NB0, MLO, and NK.BIN files, and copy over the Android boot files (modulo the Linux kernel binary), plus a Symbian ROM image.

Lo and behold, we now have X-Loader and U-Boot, which attempt to boot our “Linux” kernel into 0x82000000, but seem to get stuck afterwards.

After getting this far, I’ll probably take a break, and see if manual intervention at the bootloader prompt gets us any further, later. 🙂

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One Comment on “Attempting to boot Symbian^3 on the TMDSEVM3530 : Take 2”


  1. […] the OMAP3530 board, who have probably observed that I haven’t said much about it, after my last aborted attempt at getting Symbian^3 running on it might be interested in knowing that I’ve partially […]


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