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This adds dynamic partition computation support for Qi on GTA02. It's for compatability with existing GTA02 using U-Boot partition scheme where a bad block in the previous partition moves on the start of the next partition by one block. It's important that Qi has no private state, so we need to compute the NAND arrangement each boot. It turns out this is extremely fast using Qi's bad block code originally from Xinagfu. Signed-off-by: Andy Green <andy@openmoko.com> |
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.. | ||
include | ||
src | ||
tools | ||
6410-partition-sd.sh | ||
build | ||
config.mk | ||
dfu-qi | ||
gta02-qi.ocd | ||
Makefile | ||
openocd-openmoko-debug-6410.cfg | ||
README |
Qi == Qi (named by Alan Cox on Openmoko kernel list) is a minimal bootloader that "breathes life" into Linux. Its goal is to stay close to the minimum needed to "load" and then "boot" Linux -- no boot menus, additional peripheral init or private states. What's wrong with U-Boot, they keep telling people to not reinvent the wheel? ============================================================================= U-Boot is gradually becoming a simplified knockoff of Linux. After using it a while, it became clear we were cutting and pasting drivers into U-Boot from Linux, cutting them down and not having a plan to maintain the U-Boot versions as the Linux ones were changed. We decided that we would use full Linux for things that Linux is good at and only have the bootloader do the device init that is absolutely required before Linux can be pulled into memory and started. In practice since we had a working U-Boot implementation it meant cutting that right down to the bone (start.S mainly for s3c2442) and then building it up from scratch optimized to just do load and boot. Samsung - specific boot sequence ================================ Right now Qi supports Samsung "steppingstone" scheme devices, but in fact it's the same in processors like iMX31 that there is a small area of SRAM that is prepped with NAND content via ROM on the device. There's nothing that stops Qi use on processors without steppingstone, although the ATAG stuff assumes we deal with ARM based processor. Per-CPU Qi ========== Qi has a concept of a single bootloader binary created per CPU type. The different devices that use that CPU are all supported in the same binary. At runtime after the common init is done, Qi asks each supported device code in turn if it recognizes the device as being handled by it, the first one to reply that it knows the device gets to control the rest of the process. Consequently, there is NO build-time configuration file as found on U-Boot except a make env var that sets the CPU type being built, eg: make CPU=s3c6410 Booting Heuristics ================== Qi has one or more ways to fetch a kernel depending on the device it finds it is running on, for example on GTA02 it can use NAND and SD card devices. It goes through these device-specific storage devices in order and tries to boot the first viable kernel it finds, usually /boot/<uImage-device>.bin for example /boot/uImage-GTA02.bin. The default order for GTA02 is: 1st SD primary partition, 2nd primary partition, 3rd primary partition, NAND kernel partition. You can disable a rootfs for consideration for boot if you add a file /boot/noboot-<device>, eg, /boot/noboot-GTA02. This differs from renaming or deleting the kernel image because updating the kernel package would give you a working kernel again and allow boot, whereas the noboot indication will remain until you remove it. The kernel commandline used is associated with the storage device and partition, this allows the correct root= line to be arrived at without any work. If no kernel image can be found, Qi falls back to doing a memory test. Appending to commandline ======================== You can append to the Qi commandline by creating a file /boot/append-<device>, eg, /boot/append-GTA02 containing the additional kernel commandline you want. This means you can affect the boot per-rootfs, but that if you reimage the rootfs you at the same time define what is appeneded. Because these files are looked for with the <device> name in them, options can be selected depending on the device the rootfs is run on. Initrd support ============== Initrd or initramfs in separate file is supported to be loaded at given memory address in addition to kernel image. The ATAGs are issued accordingly. Interactive UI ============== Being minimalistic by its nature, Qi has very limited abilities to interact with a user. On GTA02 the red LED and the vibrator are used (if the battery is in good condition) to notify user of the following actions: The LED is turned on either on: - Successful partition mount - Successful kernel pull - Successful initramfs pull The LED is turned off and vibrator runs briefly either on: - Fail of kernel pull - Fail of initramfs pull - Fail of mount partition - Skipping of current boot possibility The LED is turned off either on: - Start of the kernel - Start of the mem test - Start of the kernel pull - Start of the initramfs pull If a user presses the AUX button after successful partition mount and before start of the kernel pull (that is, while the red LED is on), this boot possibility is skipped (and GTA02 owners can feel vibration). If a user holds the POWER button just before start of the kernel, debugging parameters are added to the kernel command line and a lot of information is output to the screen. Functional Differences from U-Boot on GTA02 =========================================== - Backlight and USB is not enabled until Linux starts after a few seconds - No startup splash screen - by default there is no boot spew on the LCM - On GTAxx boots from first uSD ext2 / 3 partition containing /boot/uImage-<devicename>.bin present, eg, /boot/uImage-GTA02.bin, it checks first three partitions in turn - On GTA01 and 02 if nothing is workable on the SD Card, or it is not present, Qi will try to boot from NAND - You can disable a partition for boot by creating /boot/noboot-<devicename>, eg, /boot/noboot-GTA02, it will skip it and check the next partition - Way faster - There is no concept of "staying in the bootloader". The bootloader exits to Linux as fast as possible, that's all it does.