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I have two ARM Cortex-M3 chips: STMF103C8T6 and STM32F103VET6.

When set to boot from RAM, initial state of STMF103C8T6 PC register is 0x20000108; 0x200001e0 for STM32F103VET6.

I am unable to find and information about these addresses in the datasheets. Why are they booted this way and where I can find some information about it?

Edit:

To clarify. When chip set to boot from flash, PC register points to the location of the Reset Handler. This address is provided in the reset vector table at address 0x0. But when chip set to boot from RAM, PC points to constant addresses, mentioned above.

Edit 2:

STMF103C8T6 disassembly:

20000000 <Vectors>:
20000000:       20005000        andcs   r5, r0, r0
20000004:       2000010f        andcs   r0, r0, pc, lsl #2
20000008:       2000010d        andcs   r0, r0, sp, lsl #2
2000000c:       2000010d        andcs   r0, r0, sp, lsl #2
20000010:       2000010d        andcs   r0, r0, sp, lsl #2
20000014:       2000010d        andcs   r0, r0, sp, lsl #2
20000018:       2000010d        andcs   r0, r0, sp, lsl #2
    ...
20000108:       f000 b801       b.w     2000010e <Reset_Handler>

2000010c <HardFault_Handler>:
2000010c:       e7fe            b.n     2000010c <HardFault_Handler>

2000010e <Reset_Handler>:
    ...

STM32F103VET6 disassembly:

20000000 <Vectors>:
20000000:       20005000        andcs   r5, r0, r0
20000004:       200001e7        andcs   r0, r0, r7, ror #3
20000008:       200001e5        andcs   r0, r0, r5, ror #3
2000000c:       200001e5        andcs   r0, r0, r5, ror #3
20000010:       200001e5        andcs   r0, r0, r5, ror #3
20000014:       200001e5        andcs   r0, r0, r5, ror #3
20000018:       200001e5        andcs   r0, r0, r5, ror #3
    ...
200001e0:       f000 b801       b.w     200001e6 <Reset_Handler>

200001e4 <HardFault_Handler>:
200001e4:       e7fe            b.n     200001e4 <HardFault_Handler>

200001e6 <Reset_Handler>:
    ...
16
  • 1
    What do you mean by "set to boot from RAM"? What are tool are you using and what option are you setting?
    – kkrambo
    Jun 22, 2018 at 13:47
  • 1
    The offset from 0x20000000 may be equal to the size of the interrupt vector table. Do the two chips have a different number of interrupt sources?
    – kkrambo
    Jun 22, 2018 at 13:51
  • @kkrambo STM32F1 chips use boot pins to control memory aliasing upon boot. I pull these pins to GND to alias 0x0 to FLASH, to Vcc to alias 0x0 to RAM. Reset Handler address is always located at 0x4 and supposed to be loaded to PC upon reboot. Why instead of doing this, CPU jumps to the end of reset vector?
    – Sergey
    Jun 22, 2018 at 14:30
  • 2
    This thread has some information.
    – kkrambo
    Jun 22, 2018 at 15:08
  • @kkrambo Thanks! That is exactly what I was looking for. Quick summary: this behavior is related to internal buses and those addresses are probably board specific.
    – Sergey
    Jun 22, 2018 at 16:22

1 Answer 1

4

I am unable to find and information about these addresses in the datasheets. Why are they booted this way and where I can find some information about it?

As far as I am aware, there is no official documentation from ST that so much as mentions this behavior, let alone explains it in any detail. The STM32F1 family reference manual states vaguely in section 3.4 ("Boot Configuration") that:

Due to its fixed memory map, the code area starts from address 0x0000 0000 (accessed through the ICode/DCode buses) while the data area (SRAM) starts from address 0x2000 0000 (accessed through the system bus). The Cortex®-M3 CPU always fetches the reset vector on the ICode bus, which implies to have the boot space available only in the code area (typically, Flash memory). STM32F10xxx microcontrollers implement a special mechanism to be able to boot also from SRAM and not only from main Flash memory and System memory.

The only place these addresses and values are referenced at all is in some of their template startup files -- and even then, not all of them. The SPL startup files supplied for the ARM and IAR toolchains lack support for BootRAM; this functionality is only included in the startup files for the GCC and TrueSTUDIO toolchains.

Anyways. Here's my best analysis of the situation.

When a STM32F1 part is reset, the memory block starting at 0x00000000 is mapped based on the configuration of the BOOT pins. When it is set to boot from flash, that block is aliased to flash; when it is set to run from the bootloader, that block is aliased to a block of internal ROM (around or slightly below 0x1FFFF000). However, when it is set to boot from RAM, something very strange happens.

Instead of aliasing that memory block to SRAM, as you would expect, that memory block is aliased to a tiny (16 byte!) ROM. On a STM32F103C8 (medium density) part, this ROM has the contents:

20005000 20000109 20000004 20000004

This data is interpreted as a vector table:

  • The first word causes the stack pointer to be initialized to 0x20005000, which is at the top of RAM.

  • The second word is the reset vector, and is set to 0x20000108 (with the low bit set to enable Thumb mode). This address is in RAM as well, a few words beyond the end of the vector table, and it's where you're supposed to put the "magic" value 0xF108F85F. This is actually the instruction ldr.w pc, [pc, #-480], which loads the real reset vector from RAM and branches to it.

  • The third and fourth words are the NMI and hardfault vectors. They do not have the low bit set, so the processor will double-fault if either of these exceptions occurs while VTOR is still zero. Confusingly, the PC will be left pointing to the vector table in RAM.

The exact contents of this ROM vary slightly from part to part. For example, a F107 (connectivity line) has the ROM contents:

20005000 200001e1 20000004 20000004

which has the same initial SP, but a different initial PC. This is because this part has a larger vector table, and the medium-density address would be inside its vector table.

A full list of the locations and values used is:

  • Low/medium density: 0x0108 (value: 0xF108F85F)
  • Low/medium density value line: 0x01CC (value: 0xF1CCF85F)
    Note: ST's sample files give the same value as for low/medium density parts. I'm pretty sure this is wrong and have corrected it here, but I don't have any parts of this type to test with. I'd appreciate feedback to confirm if this works.
  • All others: 0x01E0 (value: 0xF1E0F85F)

Thankfully, this behavior seems to be largely unique to the F103/5/7 family. Newer parts use different methods to control booting which are much more consistent.

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  • It checks out. For 0x108 device actual command is ldr.w pc, [pc, #-264]; for 0x1e0 device it is ldr.w pc, [pc, #-480]. I've checked both magic numbers, chips do work. I don't have 0x01CC device, but I think it's safe to assume, that it will work also. Command for it is ldr.w pc, [pc, #-460].
    – Sergey
    Jun 25, 2018 at 20:43
  • So does this imply if not simply state that the bootloader sampling the boot pins branches to this address, if you happen to have the magic instruction it happens to mimic a "reset"? Meaning you could just have your entry point there for this mode. Or do we know that the magic value has to be there for this to work at all, it wont execute from ram if not found?
    – old_timer
    Jun 27, 2018 at 14:42
  • @old_timer No. The bootloader is not involved here -- the state of the BOOT pins controls what memory is mapped at 0x0, which affects its behavior on reset. I haven't tested the SRAM boot behavior with a different "magic instruction", but I'll try that in a bit and update my answer with results.
    – user149341
    Jun 27, 2018 at 19:48
  • one point being it is unlikely this is really done in logic, I think I have one of these parts at least and want to try this as well
    – old_timer
    Jun 27, 2018 at 20:37
  • @old_timer STM32F1 reference manual, §3.4: "The values on the BOOT pins are latched on the 4th rising edge of SYSCLK after a reset." That seems too early to be possible for code -- it'd take more than 4 clocks to enable a GPIO and read the pin values.
    – user149341
    Jun 27, 2018 at 23:28

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