First, you have to know which level of readout protection you want to set (refer e.g. to section 3.7.3 of the STM32F4 reference manual):
- RDP level 1: This level is reversible. Once you disable it, the system memory is mass-erased and you can re-program
- RDP level 2: This level is irreversible and disables the debug interface altogether. The only way of updating your firmware is via some bootloader mechanism.
Usually you want to activate RDP level 1. In order to avoid mistakes that will certainly brick the microcontroller, I will not show how to enable RDP level 2 in this answer. Refer to the reference manual for details.
Activating it using OpenOCD
The activation feature is actually built-in into OpenOCD using the
lock command. Just like executing the
program command to flash your firmware, you can use the
stm32f1x lock command (or
stm32f2x lock for STM32F2/F4) to activate it.
A typical OpenOCD configuration file would look like this (you need to flash the correct firmware before running this):
# Set RDP to level 1
stm32f1x lock 0
Note that the readout-protection will only be in effect once the microcontroller is reset or powered off (that's why there's a second reset in the command sequence).
A typical OpenOCD call could look like this:
openocd -d0 -f stlink-v2.cfg -f ocd-stm32f0.cfg -f ocd-lock.cfg
ocd-lock.cfg contains the command sequence shown above.
Once activated, you can verify that the RDP is active by trying to flash the MCU using your usual programming command sequence
Deactivating it is just as simple: Just use
stm32f1x unlock (or
stm32f2x unlock for F2/F4 devices) like this:
# Set RDP to level 0
stm32f1x unlock 0
How secure is it?
That's a tough question that can't really be answered without additional information. One summary answer I can give is that it's pretty secure if you assume the protection has no inherent bugs and someone uses software tools only.
One of the most popular methods of resetting the RDP bit without mass-erasing the flash is to disable the RDP with a laser. Given the fact that the STM32 family is not a family of dedicated security microcontrollers with specific countermeasures, this is rather easy if you have the right equipment and sufficient experience in this area. Even some specific security MCUs have some security issues, see e.g. the Security from the IC backside talk. However, most low-level attackers will usually refrain from the cost of doing so.