* PATCH: Fix MMC boot in OMAP4 xload configurations
[not found] <5E5BF80D-E268-4688-8E16-5BF26FBD7D4D@yamaha.co.uk>
@ 2012-02-24 15:57 ` Mark Olleson
2012-02-24 16:18 ` Fwd: " Mark Olleson
0 siblings, 1 reply; 2+ messages in thread
From: Mark Olleson @ 2012-02-24 15:57 UTC (permalink / raw)
To: barebox
Sascha,
On 24 Feb 2012, at 07:23, Sascha Hauer wrote:
> Hi Mark,
>
> On Thu, Feb 23, 2012 at 04:53:28PM +0000, Mark Olleson wrote:
>> omap4_bootsrc() always returns OMAP_BOOTSRC_UNKNOWN when an OMAP4
>> xload image is built with pcm049_xload_defconfig. This is likely to
>> be the case for all OMAP4 xload configurations.
>>
>> This means that when the CPU is configured to boot from MMC1 with
>> boot[5:0], xload will load the second stage boot loader from NAND
>> flash (if present) rather than MMC1 as intended.
>>
>> omap4_bootsrc() reads data left behind towards the top of the SRAM by
>> the ROM-based boot-loader. This is the same SRAM into which the xload
>> image is loaded. The xload image is of a sufficient size that it
>> overwrites these locations, and OMAP4_TRACING_VECTOR3 always contains
>> 0.
>>
>> These locations are in fact trampled by data in the BSS section of the
>> image. The single largest item in there is FILE files[MAX_FILES].
>> This patch reduces the size of files[] considerably. The image now
>> JUST fits.
>
> Sorry, this is not even a short term solution, it will probably break
> very soon again.
I totally agree - this fixed me in the very short term, but we're sailing so close
to the wind here that changes in the any (few) modules that are used in these
configurations will break it again.
My patch was really a heads-up that we have an issue.
>
>>
>> Long term, a better solution would be to not rely on
>> OMAP4_TRACING_VECTOR3, and instead use the structure passed into the
>> xload by the ROM-based boot loader - which also indicates the boot
>> device. This wold allow us another 4kB of code before we overflow
>> the SRAM completely.
>
> That sounds interesting. I wasn't aware that the ROM passes a structure
> into the boot loader.
Cue quick check that this is actually in the public TRM! it is - at §27.4.8.4 - Image Execution.
The ROM boot-loader passes a pointer to a structure containing the data in a register at entry - what is not so obvious is where the structure is located. I think it's likely that it's on the ROM-loader's stack - which is also in SRAM, and also getting overwritten. Clearly the ROM loader doesn't have much in the way of functional decomposition if it still successfully boots after having its stack obliterated.
The TRM is quite explicit that the xload image shouldn't be any larger than 48KB in order to avoid the stack, tracing vector - and a set of exception vectors also located in-between - as it stands, we're coming in at about 52.5kB once the bss sections of image are accounted for.
> Another thing is that I still have the Thumb2 patches pending which are
> currently blocked by Jean-Christophe.
That will help a lot. Otherwise we're going to need to start the messy task of economising on space throughout the code-base.
Another solution that might work would be to configure SYSBOOT[5:0] as GPIO and determine the boot method that way. Not ideal as this will tell us the boot order and not the device that was actually used, but would mean that we could use the entire 56kB of SRAM and not have to worry about the tracing vectors.
Mark
Mark Olleson - Senior R&D Engineer
Technology Research & Development Group
Yamaha R&D Centre London
mark.olleson@yamaha.co.uk
Direct Line: +44 20 8987 0870
Switchboard: +44 20 8987 9595
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