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Signed-off-by: Wolfgang Denk <wd@denx.de>
563 lines
26 KiB
Text
563 lines
26 KiB
Text
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README for the Palm Treo 680.
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Copyright (C) 2013 Mike Dunn <mikedunn@newsguy.com>
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You may reproduce the contents of this file entirely or in part, but please
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credit me by name if you do. Thanks.
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Intro
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=====
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Yes, you can program u-boot onto the flash of your Palm Treo 680 so that u-boot
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(then Linux, Android, ...) runs at power-up. This document describes how, and
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gives some implementation details on this port of u-boot and describes how the
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Treo 680 boots from reset.
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But first, I probably don't need to tell you that after doing this, your phone
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will no longer run PalmOS. You *may* be able to later restore your phone to its
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original state by creating a backup image of the flash before writing u-boot
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(details below), but this is not heavily tested and should not be relied upon.
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There is also the possibility that something may go wrong during the process of
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programming u-boot, leaving you with a bricked phone. If you follow these
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instructions carefully this chance will be minimized, but I do not recommend
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that you program u-boot onto a phone that you can not afford to lose, and
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certainly not one that contains important data that is not backed up elsewhere.
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I AM NOT RESPONSIBLE FOR THE LOSS OF YOUR PHONE. DO THIS AT YOUR OWN RISK.
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Having said that, feel free to send me a note cursing me out if something does
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go wrong, but please tell me what happened exactly. For that matter, I'd love
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to hear from you if you succeed.
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Details on the SPL
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==================
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The docg4 features a 2k region at the start of its address space that interfaces
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to the system bus like a NOR flash. This allows the docg4 to function as a boot
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ROM. The Treo 680 uses this feature. The contents of this 2k region are
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write-protected and can not be reprogrammed. Fortunately, the code it contains
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does what we need to do, at least partially. After some essential hardware
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initialization (like the SDRAM controller), it runs an IPL (initial program
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loader) that copies 128K (no more, no less) from flash to a fixed address in
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SDRAM (0xa1700000) and jumps to it. 128K is too small for u-boot, so we use it
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to load a u-boot secondary program loader (SPL). But since our SPL only
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occupies a little over 1k, we can economize on flash usage by having the IPL
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load a portion of u-boot proper as well. We let the IPL load the first 128k of
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a concatenated spl + u-boot image, and because the SPL is placed before u-boot
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proper, the IPL jumps to the SPL, which copies the portion of u-boot that the
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IPL has already loaded to its correct SDRAM address, and then loads the
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remainder of u-boot and jumps to it.
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The docg4's "reliable mode"
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===========================
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This is a special mode of operation of the docg4's integrated controller whereby
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consecutive pairs of 2k regions are used in parallel (in some fashion) to store
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2k of data. In other words, the normal capacity is halved, but the data
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integrity is improved. In this mode, the data is read or written from pages in
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even-numbered 2k regions (regions starting at 0x000, 0x1000, 0x2000, ...). The
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odd-numbered 2k regions (regions starting at 0x800, 0x1800, 0x2800, ...) are
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transparently used in parallel. In reliable mode, the odd-numbered 2k regions
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are not meant to be read or written directly.
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Reliable mode is used by the IPL because there is not enough space in its 2k
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footprint to implement the BCH ecc algorithm. Data that is read while reliable
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mode is enabled must have been written in reliable mode, or the read fails.
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However, data written in reliable mode can also be read in normal mode (just not
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as reliably), but only from the even-numbered 2k regions; the odd-numbered 2k
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regions appear to contain junk, and will generate ecc errors. When the IPL and
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SPL read from flash, the odd-numbered 2k regions are explicitly skipped. The
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same is true for the flash_u-boot utility when it writes the u-boot image in
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reliable mode.
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The docg4 Linux driver supports writing in reliable mode (it is enabled by the
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module parameter), but not reading. However, the u-boot docg4_spl driver does
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read in reliable mode, in the same fashion as the IPL.
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Details on the IPL and its data format
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======================================
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Starting from block 5 and counting upward, the IPL will search for and load the
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first two blocks it finds that contain a magic number in the oob of the first
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page of the block. The contents are loaded to SDRAM starting at address
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0xa1700000. After two blocks have been loaded, it jumps to 0xa1700000. The
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number of blocks loaded and the load address in SDRAM are hard-coded; only the
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flash offset of the blocks can vary at run-time (based on the presence of the
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magic number).
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In addition to using the docg4's reliable mode, the IPL expects each 512 byte
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page to be written redundantly in the subsequent page. The hardware is capable
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of detecting bit errors (but not correcting them), and if a bit error is
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detected when a page is read, the page contents are discarded and the subsequent
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page is read.
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Reliable mode reduces the capacity of a block by half, and the redundant pages
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reduce it by half again. As a result, the normal 256k capacity of a block is
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reduced to 64k for the purposes of the IPL/SPL.
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For the sake of simplicity and uniformity, the u-boot SPL mimics the operation
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of the IPL, and expects the image to be stored in the same format.
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Instructions on Programming u-boot to flash
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===========================================
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To program u-boot to your flash, you will need to boot the Linux kernel on your
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phone using a PalmOS bootloader such as cocoboot. The details of building and
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running Linux on your Treo (cross-compiling, creating a root filesystem,
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configuring the kernel, etc) are beyond the scope of this document. The
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remainder of this document describes in detail how to program u-boot to the
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flash using Linux running on the Treo.
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Hardware Prerequisites
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======================
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A Palm Treo 680:
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(dugh)
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A Palm usb cable:
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You'll need this to establish a usbtty console connection to u-boot from a
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desktop PC. Currently there is no support in u-boot for the pxa27x keypad
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(coming soon), so a serial link must be used for the console.
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These cables are still widely available if you don't already have one.
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A Linux desktop PC.
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You may be able to use Windows for the u-boot console if you have a usb driver
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that is compatible with the Linux usbserial driver, but for programming u-boot
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to flash, you'll really want to use a Linux PC.
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Treo-side Software Prerequisites
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================================
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Linux bootloader for PalmOS:
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Cocoboot is the only one I'm aware of. If you don't already have this, you
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can download it from
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https://download.enlightenment.org/misc/Illume/Treo-650/2008-11-13/sdcard-base.tar.gz
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which is a compressed tar archive of the contents of an sd card containing
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cocoboot. Use mkdosfs to create a fat16 filesystem on the first primary
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partition of the card, mount the partition, and extract the tar file to it.
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You will probably need to edit the cocoboot.conf file to customize the
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parameters passed to the kernel.
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Linux kernel:
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The kernel on the Treo 680 is still a little rough around the edges, and the
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official kernel frequently breaks on the Treo :( A development kernel
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specifically for the Treo 680 can be found on github:
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http://github.com/mike-dunn/linux-treo680
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The master branch of this tree has been tested on the Treo, and I recommend
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using this kernel for programming u-boot. As of this writing, there may be a
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bug in the docg4 nand flash driver that sometimes causes block erasures to
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fail. This has been fixed in the above tree.
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If you choose to use the official kernel, it must contain the docg4 driver that
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includes the reliable_mode module parameter. This was a later enhancement to
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the driver, and was merged to the kernel as of v3.8. Do not try to use an
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earlier kernel that contains the docg4 driver without support for writing in
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reliable mode. If you try to program u-boot to flash with the docg4 driver
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loaded without the reliable_mode parameter enabled, you *will* brick your
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phone!
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For the purpose of programming u-boot to flash, the following options must be
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enabled in the Treo kernel's .config:
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CONFIG_MTD=y
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CONFIG_MTD_CMDLINE_PARTS=y
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CONFIG_MTD_CHAR=y
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CONFIG_MTD_NAND_DOCG4=m
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Note that the docg4 nand driver is configured as a module, because we will
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want to load and unload it with reliable_mode enabled or disabled as needed.
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You will also need to specify mtd partitions on the kernel command line. In
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the instructions that follow, we will assume that the flash blocks to which
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u-boot will be programmed are defined by the second partition on the device.
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The u-boot config file (include/configs/palmtreo680.h) places the u-boot image
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at the start of block 6 (offset 0x180000), which is the first writable
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(non-protected) block on the flash (this is also where the PalmOS SPL starts).
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The u-boot image occupies four blocks, so to create the u-boot partition, pass
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this command line to the kernel:
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mtdparts=Msys_Diskonchip_G4:1536k(protected_part)ro,1024k(bootloader_part),-(filesys_part)
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This will create three partitions:
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protected_part: the first six blocks, which are read-only
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bootloader_part: the next four blocks, for the u-boot image
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filesys_part: the remainder of the device
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The mtdchar kernel device driver will use device nodes /dev/mtd0, /dev/mtd1,
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and /dev/mtd2 for these partitions, respectively. Ensure that your root file
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system at least has /dev/mtd1 if you are not running udev or mdev.
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Userspace Utilities:
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In addition to everything necessary to provide a useful userspace environment
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(busybox is indispensable, of course), you will need the mtd-utils package on
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your root filesystem. I use version 1.5.0 of mtd-utils, and I suggest you use
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this version as well, or at leat a version very close to this one, as
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mtd-utils has tended to be fluid.
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Note that busybox includes a version of mtd-utils. These are deficient and
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should not be used. When you run one of these utilities (nanddump, etc),
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ensure you are invoking the separate executable from mtd-utils, and not the
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one built into busybox. I recommend that you configure busybox with its
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mtd-utils disabled to avoid any possibility of confusion.
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You will also need to cross-compile the userspace Linux utility in
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tools/palmtreo680/flash_u-boot.c, which we will run on the Treo to perform the
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actual write of the u-boot image to flash. This utility links against libmtd
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from the mtd-utils package.
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Desktop PC-side Software Prerequisites
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======================================
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Terminal emulator application:
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minicom, kermit, etc.
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Linux kernel:
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Compiled with CONFIG_USB_SERIAL enabled. Build this as a module.
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Recommended (Not directly related to u-boot)
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============================================
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Working directly on the Treo's tiny screen and keypad is difficult and
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error-prone. I recommend that you log into the Linux kernel running on your
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Treo from your desktop PC using ethernet over usb. The desktop's kernel must be
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configured with CONFIG_USB_USBNET, CONFIG_USB_NET_CDCETHER, and
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CONFIG_USB_NET_CDC_SUBSET. The Treo's kernel will need CONFIG_USB_ETH, and its
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init script will need to start an ssh daemon like dropbear. Note that the usb0
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network interface will not appear on the desktop PC until the Treo kernel's usb
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ethernet gadget driver has initialized. You must wait for this to occur (watch
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the PC's kernel log) before you can assign usb0 an ip address and log in to the
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Treo. If you also build the Treo's kernel with CONFIG_IP_PNP enabled, you can
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pass its ip address on the kernel command line, and obviate the need to
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initialize the network interface in your init script.
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Having the Palm usb cable connected to the host has the added benefit of keeping
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power supplied to your Treo, reducing the drain on the battery. If something
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goes wrong while you're programming u-boot to the flash, you will have lots of
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time to correct it before the battery dies.
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I have encountered a situation where the kernel is sometimes unable to mount a
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root filesystem on the mmc card due to the mmc controller not initializing in
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time, (and CONFIG_MMC_UNSAFE_RESUME doesn't seem to help) so I recommend that
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you build a minimal root filesystem into the kernel using the kernel's initramfs
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feature (CONFIG_BLK_DEV_INITRD). If you want your root filesystem on the mmc
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card, your init script can mount and switch_root to the mmc card after a short
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sleep. But keep in mind that in this case you won't be able to use an mmc card
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to transfer files between your desktop and the Treo once Linux is running.
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Another option for transfering files is to mount an nfs filesystem exported by
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the desktop PC. For greatest convenience, you can export the root filesystem
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itself from your desktop PC and switch_root to it in your init script. This
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will work if your initramfs init script contains a loop that waits for you to
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initialize the usb0 network interface on the desktop PC; e.g., loop while a ping
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to the desktop PC returns an error. After the loop exits, do the nfs mount and
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call switch_root. (You can not use the kernel nfsroot feature because the
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network will not be up when the kernel expects it to be; i.e., not until you
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configure the usb0 interface on the desktop.) Use the nfs 'nolock' option when
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mounting to avoid the need to run a portmapper like rpcbind.
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Preliminaries
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=============
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Once Linux is running on your Treo, you may want to perform a few sanity checks
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before programming u-boot. These checks will verify my assumptions regarding
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all the Treo 680s out there, and also ensure that the flash and mtd-utils are
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working correctly. If you are impatient and reckless, you may skip this
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section, but see disclaimer at the top of this file!
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Load the docg4 driver:
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$ modprobe docg4 ignore_badblocks=1 reliable_mode=1
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We tell the driver to use the docg4's "reliable mode" when writing because this
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is the format required by the IPL, which runs from power-up and loads the first
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portion of u-boot. We must ignore bad blocks because linux mtd uses out-of-band
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(oob) bytes to mark bad blocks, which will cause the blocks written by PalmOS to
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be misidentified as "bad" by libmtd.
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Check the kernel log to ensure that all's well:
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$ dmesg | tail
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<... snip ...>
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docg4 docg4: NAND device: 128MiB Diskonchip G4 detected
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3 cmdlinepart partitions found on MTD device Msys_Diskonchip_G4
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Creating 3 MTD partitions on "Msys_Diskonchip_G4":
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0x000000000000-0x000000180000 : "protected_part"
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0x000000180000-0x000000280000 : "bootloader_part"
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0x000000280000-0x000008000000 : "filesys_part"
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Ensure that the partition boundaries are as shown. (If no partitions are shown,
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did you remember to pass them to the kernel on the command line?) We will write
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u-boot to bootloader_part, which starts at offset 0x180000 (block 6) and spans 4
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256k blocks. This partition is accessed through the device node /dev/mtd1.
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The docg4 contains a read-only table that identifies blocks that were marked as
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bad at the factory. This table is in the page at offset 0x2000, which is within
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the partition protected_part (/dev/mtd0). There is a slight chance that one or
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more of the four blocks that we will use for u-boot is listed in the table, so
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use nanddump to inspect the table to see if this is the case:
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$ nanddump -p -l 512 -s 0x2000 -o /dev/mtd0
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ECC failed: 0
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ECC corrected: 0
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Number of bad blocks: 0
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Number of bbt blocks: 0
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Block size 262144, page size 512, OOB size 16
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Dumping data starting at 0x00002000 and ending at 0x00002200...
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0x00002000: ff ff ff ff ff ff ff ff ff ff ff ff ff ff ff ff
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<... snip ...>
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The format of the table is simple: one bit per block, with block numbers
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increasing from left to right, starting with block 0 as the most significant bit
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of the first byte. A bit will be clear if the corresponding block is bad. We
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want to use blocks 6 throgh 9, so both of the two least significant bits of the
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first byte must be set, as must the two most significant bits of the second
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byte. If this is not true in your case (you are very unlucky), you should use
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the first contiguous set of four good blocks after block 6, and adjust the
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partition boundaries accordingly. You will also have to change the value of
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CONFIG_SYS_NAND_U_BOOT_OFFS in include/configs/palmtreo680.h and recompile
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u-boot. Because the two blocks loaded by the IPL do not have to be contiguous,
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but our SPL expects them to be, you will need to erase any good blocks that are
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at an offset prior to CONFIG_SYS_NAND_U_BOOT_OFFS, so that the IPL does not find
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the magic number in oob and load it. Once you have done all this, the
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instructions in this file still apply, except that the instructions below for
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restoring the original PalmOS block contents may need to be modified.
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Next, use nanddump to verify that the PalmOS SPL is where we expect it to be.
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The SPL can be identified by a magic number in the oob bytes of the first page
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of each of the two blocks containing the SPL image. Pages are 512 bytes in
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size, so to dump the first page, plus the oob:
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$ nanddump -p -l 512 -s 0 -o /dev/mtd1
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ECC failed: 0
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ECC corrected: 0
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Number of bad blocks: 0
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Number of bbt blocks: 0
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Block size 262144, page size 512, OOB size 16
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Dumping data starting at 0x00000000 and ending at 0x00000200...
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0x00000000: 0a 00 00 ea 00 00 00 00 00 00 00 00 00 00 00 00
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<... snip ...>
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0x000001f0: 13 4c 21 60 13 4d 2a 69 13 4b 29 69 89 1a 99 42
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OOB Data: 42 49 50 4f 30 30 30 10 3a e2 00 92 be a0 11 ff
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Verify that the first seven bytes of oob data match those in the above line.
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(This is ASCII "BIPO000".)
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Do the same for the next block:
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$ nanddump -p -l 512 -s 0x40000 -o /dev/mtd1
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The first seven oob bytes in last line should read:
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OOB Data: 42 49 50 4f 30 30 31 81 db 8e 8f 46 07 9b 59 ff
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(This is ASCII "BIPO001".)
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For additional assurance, verify that the next block does *not* contain SPL
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data.
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$ nanddump -p -l 512 -s 0x80000 -o /dev/mtd1
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It doesn't matter what the oob contains, as long as the first four bytes are
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*not* ASCII "BIPO". PalmOS should only be using two blocks for the SPL
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(although we will need four for u-boot).
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If you want, you can back up the contents of bootloader_part to a file. You may
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be able to restore it later, if desired (see "Restoring PalmOS" below).
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$ nanddump -l 0x100000 -s 0 -o -f bootloader_part.orig /dev/mtd1
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nanddump will spew voluminous warnings about uncorrectable ecc errors. This is
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a consequence of reading pages that were written in reliable mode, and is
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expected (these should all occur on pages in odd-numbered 2k regions; i.e.,
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0x800, 0xa00, 0xc00, 0xe00, 0x1800, 0x1a00, ...). The size of the file
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bootloader_part.orig should be 1081344, which is 2048 pages, each of size 512
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plus 16 oob bytes. If you are using initramfs for the root filesystem, don't
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forget to copy the file to permanent storage, such as an mmc card.
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If all of the above went well, you can now program u-boot.
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Programming u-boot
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==================
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Our u-boot includes a small SPL that must be prepended to u-boot proper. From
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the base u-boot source directory on your desktop PC:
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$ cat spl/u-boot-spl.bin u-boot.bin > u-boot-concat.bin
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cd to the tools/palmtreo680/ directory, and cross-compile flash_u-boot.c for the
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Treo:
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$(CC) -o flash_u-boot $(CFLAGS) $(INCLUDEPATH) $(LIBPATH) flash_u-boot.c -lmtd
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Substitute variable values from your cross-compilation environment as
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appropriate. Note that it links to libmtd from mtd-utils, and this must be
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included in $(LIBPATH) and $(INCLUDEPATH).
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Transfer u-boot-concat.bin and the compiled flash_u-boot utility to the Treo's
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root filesystem. On the Treo, cd to the directory where these files were
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placed.
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Load the docg4 driver if you have not already done so.
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$ modprobe docg4 ignore_badblocks=1 reliable_mode=1
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Erase the blocks to which we will write u-boot:
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$ flash_erase /dev/mtd1 0x00 4
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|
|
If no errors are reported, write u-boot to the flash:
|
|
|
|
$ ./flash_u-boot u-boot-concat.bin /dev/mtd1
|
|
|
|
You can use nanddump (see above) to verify that the data was written. This
|
|
time, "BIPO" should be seen in the first four oob bytes of the first page of all
|
|
four blocks in /dev/mtd1; i.e., at offsets 0x00000, 0x40000, 0x80000, 0xc0000.
|
|
|
|
Shutdown linux, remove and re-insert the battery, hold your breath...
|
|
|
|
|
|
Enjoying u-boot
|
|
===============
|
|
|
|
After you insert the battery, the u-boot splash screen should appear on the lcd
|
|
after a few seconds. With the usb cable connecting the Treo to your PC, in the
|
|
kernel log of your PC you should see
|
|
|
|
<6>usb 3-1: New USB device found, idVendor=0525, idProduct=a4a6
|
|
<6>usb 3-1: New USB device strings: Mfr=1, Product=2, SerialNumber=3
|
|
<6>usb 3-1: Product: U-Boot 2013.01-00167-gd62ef56-dirty
|
|
<6>usb 3-1: Manufacturer: Das U-Boot
|
|
|
|
Load the usbserial module on your desktop PC:
|
|
|
|
$ modprobe usbserial vendor=0x0525 product=0xa4a6
|
|
|
|
and run your favorite terminal emulation utility (minicom, kermit, etc) with the
|
|
serial device set to /dev/ttyUSB0 (assuming this is your only usb serial
|
|
device). You should be at the u-boot console (type 'help').
|
|
|
|
There is not much that is unique about using u-boot on the palm treo 680.
|
|
Kernels can be loaded from mmc, flash, and from the desktop PC via kermit. You
|
|
can expand the size of the second partition on the flash to contain a kernel, or
|
|
else put the kernel(s) in their own partition.
|
|
|
|
Nand commands work as expected, with the excepton that blocks not written by the
|
|
linux mtd subsystem may be misidentified by the u-boot docg4 driver as "bad" if
|
|
they contain data in the oob bytes. This will be the case for the blocks
|
|
containing the u-boot image, for example. To work around this, use 'nand scrub'
|
|
instead of 'nand erase' to erase these blocks, and 'nand read.raw' to read them
|
|
to memory. (It would be useful if u-boot's nand commands provided a way to
|
|
explicitly ignore "bad" blocks, because read.raw does not perform ecc.) The
|
|
'nand dump' command will read these "bad" blocks, however.
|
|
|
|
Currently u-boot itself can only be programmed to flash from Linux; there is no
|
|
support for reliable mode in u-boot's docg4 flash driver. This should be
|
|
corrected soon.
|
|
|
|
|
|
Customizing
|
|
===========
|
|
|
|
If you change u-boot's configuration significantly (adding or removing
|
|
features), you may have to adjust the value of CONFIG_SYS_NAND_U_BOOT_SIZE.
|
|
This is the size of the concatenated spl + u-boot image, and tells the SPL how
|
|
many flash blocks it needs to load. It will be rounded up to the next 64k
|
|
boundary (the spl flash block capacity), so it does not have to be exact, but
|
|
you must ensure that it is not less than the actual image size. If it is larger
|
|
than the image, blocks may be needlessly loaded, but if too small, u-boot may
|
|
only be partially loaded, resulting in a boot failure (bricked phone), so better
|
|
to be too large. The flash_u-boot utility will work with any size image and
|
|
write the required number of blocks, provided that the partition is large
|
|
enough.
|
|
|
|
As the first writable block on the device, block 6 seems to make the most sense
|
|
as the flash offset for writing u-boot (and this is where PalmOS places its
|
|
SPL). But you can place it elsewhere if you like. If you do, you need to
|
|
adjust CONFIG_SYS_NAND_U_BOOT_OFFS accordingly, and you must ensure that blocks
|
|
preceeding the ones containing u-boot do *not* have the magic number in oob (the
|
|
IPL looks for this). In other words, make sure that any blocks that previously
|
|
contained the u-boot image or PalmOS SPL are erased (and optionally written with
|
|
something else) so that the IPL does not load it. Also make sure that the new
|
|
u-boot starting offset is at the start of a flash partition (check the kernel
|
|
log after loading the docg4 driver), and pass the corresponding mtd device file
|
|
to the flash_u-boot utility.
|
|
|
|
The u-boot built-in default environment is used because a writable environment
|
|
in flash did not seem worth the cost of a 256k flash block. But adding this
|
|
should be straightforward.
|
|
|
|
|
|
Restoring PalmOS
|
|
================
|
|
|
|
If you backed up the contents of bootloader_part flash partition earlier, you
|
|
should be able to restore it with the shell script shown below. The first two
|
|
blocks of data contain the PalmOS SPL and were written in reliable mode, whereas
|
|
the next two blocks were written in normal mode, so the script has to load and
|
|
unload the docg4 driver. Make sure that the mtd-utils nandwrite and flash_erase
|
|
are in your path (and are not those from busybox). Also double-check that the
|
|
backup image file bootloader_part.orig is exactly 1081344 bytes in length. If
|
|
not, it was not backed up correctly. Run the script as:
|
|
|
|
./restore_bootpart bootloader_part.orig /dev/mtd1
|
|
|
|
The script will take a minute or so to run. When it finishes, you may want to
|
|
verify with nanddump that the data looks correct before you cycle power, because
|
|
if the backup or restore failed, your phone will be bricked. Note that as a
|
|
consequence of reliable mode, the odd-numbered 2k regions in the first two
|
|
blocks will not exactly match the contents of the backup file, (so unfortunately
|
|
we can't simply dump the flash contents to a file and do a binary diff with the
|
|
original back-up image to verify that it was restored correctly). Also,
|
|
nanddump will report uncorrectable ecc errors when it reads those regions.
|
|
|
|
#!/bin/sh
|
|
|
|
if [ $# -ne 2 ]; then
|
|
echo "usage: $0: <image file> <mtd device node>"
|
|
exit 1
|
|
fi
|
|
|
|
# reliable mode used for the first two blocks
|
|
modprobe -r docg4
|
|
modprobe docg4 ignore_badblocks=1 reliable_mode=1 || exit 1
|
|
|
|
# erase all four blocks
|
|
flash_erase $2 0 4
|
|
|
|
# Program the first two blocks in reliable mode.
|
|
# 2k (4 pages) is written at a time, skipping alternate 2k regions
|
|
# Note that "2k" is 2112 bytes, including 64 oob bytes
|
|
file_ofs=0
|
|
flash_ofs=0
|
|
page=0
|
|
while [ $page -ne 1024 ]; do
|
|
dd if=$1 bs=2112 skip=$file_ofs count=1 | nandwrite -o -n -s $flash_ofs $2 - || exit 1
|
|
file_ofs=$((file_ofs+2))
|
|
flash_ofs=$((flash_ofs+0x1000))
|
|
page=$((page+8))
|
|
done;
|
|
|
|
# normal mode used for the next two blocks
|
|
modprobe -r docg4
|
|
modprobe docg4 ignore_badblocks=1 || exit 1
|
|
dd if=$1 bs=1 skip=$file_ofs count=540672 | nandwrite -o -n -s 0x80000 $2 - || exit 1
|
|
modprobe -r docg4
|
|
|
|
TODO
|
|
====
|
|
|
|
- Keypad support.
|
|
- Interactive boot menu using keypad and lcd.
|
|
- Add reliable mode support to the u-boot docg4 driver.
|
|
- U-boot command that will write a new image to the bootloader partition in
|
|
flash.
|
|
- Linux FTD support.
|