5

Edited to add: I have now cross-posted this to the GNU ARM Embedded Toolchain site, as I am fairly certain that it's a linker bug.

Also, I have noticed that it seems to happen when the first program segment fits into the first page in the ELF file (i.e. its starting offset within its page is >= the number of bytes in the ELF header). In this case the segment erroneously gets extended downwards to the beginning of the file. This would explain why the problem disappears if the in-page offset of the start address is reduced from 0x80 to 0x40.


I am implementing a stand-alone OS for ARM Cortex M0, and I have a weird problem with the linker. Here is my source file OS.c, stripped down to illustrate the problem:

int EntryPoint (void) { return 99 ; }

And here is my linker script file OS.ld, simply assigning all code to the region starting at 0x10080:

MEMORY
  {
  NVM (rx) : ORIGIN = 0x10080, LENGTH = 0x1000
  }

SECTIONS
  {
  .text 0x10080 :
    {
    OS.o (.text)
    } > NVM
  }

I compile and link it:

arm-none-eabi-gcc.exe -march=armv6-m -mthumb -c OS.c
arm-none-eabi-gcc.exe -oOS.elf -Xlinker --script=OS.ld OS.o -nostartfiles -nodefaultlibs

And now when I list the program segments with readelf OS.elf -l, I get:

Elf file type is EXEC (Executable file)
Entry point 0x10080
There are 1 program headers, starting at offset 52

Program Headers:
  Type           Offset   VirtAddr   PhysAddr   FileSiz MemSiz  Flg Align
  LOAD           0x000000 0x00010000 0x00010000 0x0008c 0x0008c R E 0x10000

According to this, the one and only program segment starts at offset 0x000000 in the ELF output file, which is crazy: that region contains ELF header info irrelevant to the OS. And the physical start address is 0x00010000, which doesn't exist in my hardware.

But the weird thing is that if I change both instances of 0x10080 to 0x10040 in the linker script file, it works! I get:

Elf file type is EXEC (Executable file)
Entry point 0x10040
There are 1 program headers, starting at offset 52

Program Headers:
  Type           Offset   VirtAddr   PhysAddr   FileSiz MemSiz  Flg Align
  LOAD           0x010040 0x00010040 0x00010040 0x0000c 0x0000c R E 0x10000

Now the program segment is in the right place in the file, and has length 0x0000c instead of 0x0008c. Unfortunately address 0x00010040 doesn't exist in my hardware either, so this is not a solution.

Is this a bug in the GCC ARM compiler? Running it with --version gives:

arm-none-eabi-gcc.exe (GNU Tools for Arm Embedded Processors 7-2018-q2-update) 7.3.1 20180622 (release) [ARM/embedded-7-branch revision 261907]
7
  • I guess I have been seeing that for many years and not noticed this nuance, the elf file works just fine though with objcopy or openocd or other things like that. since you are using gcc to call ld instead of calling ld directly you should also include the version of ld you are using.
    – old_timer
    Jan 12, 2019 at 5:23
  • launchpad is there for legacy reasons yes? and is a place to get pre-builts, you should if anything to go binutils support for something like this. my binaries are built directly from sources and show the issue (for many years now a number of major revisions of gcc and/or a number of versions of binutils, possibly back to 1.x.x)
    – old_timer
    Jan 12, 2019 at 5:25
  • there are easier ways to get the entry point where you want it btw...imo...still interestingly will show this issue you described for certain addresses but not others.
    – old_timer
    Jan 12, 2019 at 5:27
  • @old_timer: The entry point is fine, I don't have a problem with that. The problem is that the code segment starts at a non-existent address. So when my own software reads the segment from the ELF file, it sees an invalid address. I have fixed my software to ignore this particular error, but it would be nice not to have to.
    – TonyK
    Jan 12, 2019 at 10:17
  • yep, been seeing this for years as mentioned, and agree with you that would be nice to understand. did you confirm the problem wasnt with readelf? (did you examine the elf file yourself?)
    – old_timer
    Jan 12, 2019 at 16:03

3 Answers 3

2

what you see might not be what you expect, but is nevertheless correct, IMHO.

ELF was created for System V. An OS that supports virtual memory and mmap() (a system call to map the contents of a file into memory).

You are looking at the ELF program header (not the section headers, see below). The program header is information to a (virtual memory capable) operation system's ELF loader about where it is supposed to mmap() the (complete) ELF file into virtual memory it prepared as process image. This OS would then just allocate one (or more) page(s) somewhere, call that (virtual) 0x10000 (for that process), map the file and jump to 0x10080 (the entry point).

For your second example, this would not work as you specified the (virtual) start address before the end of the ELF file's header (ELF header + program header + section headers), sot it cannot just map the file to a page boundary, making it more complicated (or even impossible) to the OS to do it's mmap() trick.

For your bare metal OS (that most likely doesn't support virtual memory, at least not on startup), the ELF program header's information is probably completely irrelevant.

You should probably rather look at the section headers, instead. They describe physical memory.

14
  • 1
    No, it's not right. If the page offset of the first region is less than the size of the ELF file header, then it gets mapped correctly to the second page in the file, at the correct offset within the page. The OS can still do its "map trick" if it wants, and my program can load the segment directly into existing memory.
    – TonyK
    Jan 25, 2019 at 19:58
  • I tried loading the individual sections instead of the program segments. But this leaves out initialised RAM data that the OS is supposed to copy from NVM into RAM at program startup. I was rather surprised by this, but I couldn't find a work-around.
    – TonyK
    Jan 25, 2019 at 20:00
  • By the way, I have jury-rigged a fix: I created an extra dummy segment in the linker script file, simply for the purpose of growing the ELF file header beyond 0x80 bytes. Now everything works hunky-dory, but I can't shake the feeling that I did something naughty.
    – TonyK
    Jan 25, 2019 at 20:05
  • your M0 doesn't have an MMU and - consequently - doesn't have virtual memory. I would assume you have no choice than loading the individual sections to physical memory.
    – mfro
    Jan 25, 2019 at 20:12
  • 1
    I can create this problem with different linker scripts that have no confusion or fancy features of any kind are incredibly simple. I have been able to somehow load files and run them from this weirdness not sure how at this point. the elf file is most definitely incorrect, the offset in the header is not filled in it is zero which points at ELF at the front of the there is no way to perceive this any other way than a bad file. subtle changes to the base address though will make this go away or come back again.
    – old_timer
    Jan 26, 2019 at 16:23
1

I had very similar issue with GNU linker for ARM Cortex-M platform (GNU ld (Atmel build: 508) 2.28.0.20170620). I had bootloader and application projects where linker from application was placing ELF headers in flash location where bootloader code is. I'm not an expert but this modification tricked my linker not to put ELF header in memory space before entry point address (will try to show on your example):

  1. redefine NVM space by including first 0x80 bytes

     NVM (rx) : ORIGIN = 0x10000, LENGTH = 0x1000+0x80
    
  2. in sections part add that offset:

     SECTIONS
     {
         .text :
         {
             . += 0x80;
             OS.o (.text)
         } > NVM
     }
    

I'm not sure if this can work in your case but perhaps can be used as a hint for others.

0

for arm gcc

arm-none-eabi-ld --help | grep page
  -n, --nmagic                Do not page align data
  -N, --omagic                Do not page align data, do not make text readonly
  -z common-page-size=SIZE    Set common page size to SIZE
  -z max-page-size=SIZE       Set maximum page size to SIZE

if you want your program header start address match the entry address just set LDFLAGS += -z max-page-size=0x80 or LDFLAGS += -n

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