I'm about to start a new project on a classical STM32L4 based product. I have a good experience in ARM developpement but not in STM32 specifically. I am wondering what is the quality and performance of the STM32 HAL and low level drivers provided by STmicro (in the package STM32Cube). I'd like to gather developpers experience and feedback on the topic. Basically I'd like to know if you are happy with this code or on the contrary if you encounter some issues, if some of you developped their own drivers for some reasons, etc... Thank you !

closed as primarily opinion-based by Samuel Liew Jul 17 at 4:01

Many good questions generate some degree of opinion based on expert experience, but answers to this question will tend to be almost entirely based on opinions, rather than facts, references, or specific expertise. If this question can be reworded to fit the rules in the help center, please edit the question.

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    Quality of vendor supplied libraries? medium usually, just look at the code yourself (a simple glance should solidify your answer). Performance, poor, often written to cover several families, very bloated, some percentage of the code that executes is not for your chip and not completely if-then-elsed out. Speaking in general not specifically any one particular chip vendor... – old_timer Apr 3 '18 at 3:43
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    professionally you should be able to use the libraries or not use the libraries, you should periodically try each of the vendors solutions as well as just read the manual (when choosing the path for the next project). You own the code including the library you chose, your boss wont care that they have to eat 10,000 units because you wanted to save time by using someone elses code, your responsibility, you own it you look at the libraries and bless them/own them. – old_timer Apr 3 '18 at 3:45
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    I also find it easier to just read the manual and program the registers than try to get the libraries to work. Sometimes you have to dive into their code to find bugs in the manual, but while in there you find you are really glad you didnt use the library...speaking generically again...ST documentation is pretty good, not the best (pretty close), definitely not the worst. – old_timer Apr 3 '18 at 3:50

After the transition from smaller 8-bit microcontrollers to ARM, I've started to use the HAL library on STM32 right away and had a more or less satisfying experience. But it comes with an overhead like already stated and a quite large set of poorly documented functionality. That can lead to some confusion.

However, the big advantage of using the HAL over hand-written-code-from-scratch was the level of abstraction it provides. That came in handy when I needed switch from one type of STM32 to another; and also when I needed to get things up and running quickly. - I've used quite similar code on a couple of very different types / families of STM32 micros (L0, L1, F1, F4, F7); it actually worked most of the time. Using the HAL library made the transition much less painful, than when you need to know the exact memory map and register layout of the specific micro...

With that said, I need to admit that I'm still a newbie when it comes to modern embedded software and I'm still learning, after about 2 years of prototyping work on different STM32 based projects (hobby and professional). I still need to learn more about the provided LL code, for example.

Entering the embedded field with a different software background, using HAL level code instead of twiddeling single bits of different registers in the right sequence, and taking all the different restrictions into account to get for example basic UART / SPI / I2C communication working, eased things up quite a bit for me. IMHO, the STM32 HAL lies in a middleground between pure hand written code and what mbed does for example (C++ / vender-agnostic abstraction (as far as I know)). - It tames the complex beast to an acceptable level, so that an average software developer like me can handle it. That comes with some trade-offs, like already mentioned by others...

After all, the STM32 HAL also kind of serves as a boiler plate code repository, that can sometimes be easier to read/understand than the cryptic reference manual in some cases. - Using HAL code generated by STM32CubeMX always gave me a much smoother start at bring-up time, when I needed quickly test a new board. It can also help to experiment and test things out. And when a performance critical part needs to be hand-optimized later on, then that will still be possible after setting up a project, or even incrementally adjusting it with STM32CubeMX. You can mix handwritten code with HAL code.

Some problems recognized since 2016:

  • Some constants, structs and function signatures changed when new code updates were released by ST. Things seem to be in constant development.

  • Lack of good documentation (comments in code files) and clean example code (too specific, also not well documented).

  • Convoluted, sometimes inefficient code.

  • Spelling errors.


I do not like HAL for many reasons:

  1. It gives pseudo developers false feeling that they do not have to know how their hardware works.
  2. Time spent learning HAL may be longer (and usually is) than needed to understand how the hardware works.
  3. Horrible overhead
  4. Many errors.

But on the other hand I use HAL (actually deeply modified by me) to control two peripherals USB & Ethernet as writing could take too much time. But as I wrote before I know how does it work on the hardware/low level and modified it for my liking.

  • Yes, you are right! Peripherals like USB and Ethernet are too complex to write drivers from scratch. But I really don't understand that someone control GPIOs, UART, SPI, and other simple peripherals with HAL. In case of own driver you have absolute control over peripheral. – vlk Apr 1 '18 at 18:48
  • Thank you for your answer. Could you elaborate on points 3 and 4 ? – Guillaume Petitjean Apr 1 '18 at 18:49
  • Also, what about the low level drivers provided by STMicro – Guillaume Petitjean Apr 1 '18 at 18:49
  • About point 1, isn't it exactly the purpose of an HAL in general ? :) – Guillaume Petitjean Apr 1 '18 at 18:52
  • 3. to make abstract layer almost always add some overhead, direct peripheral registers configuration need much less code and will also faster. – vlk Apr 1 '18 at 19:03

I personally do not like HAL library for following reasons.

  1. It takes up much memory in my controller, I really do not have space where i would fit in Bootloader and Application and here i need to add 2 HAL overheads as well ( one in Bootloader and another in Application).
  2. It internally uses interrupts ( i am pretty sure it does)
  3. It is not bug free , i once tried version 1.0 and failed horribly.
  4. Debugging is pain , You never know where the bug is, in your application or in HAL.

What I liked by ST was Standard Peripheral Library, it was just assembly to C converter and very easy to use.

  • #2 is not correct, HAL does not use interrupts unless you explicitly ask it to. – Richard at ImageCraft May 28 at 7:42
  • #2 is incorrect. #3 is any software bug free? you are setting the bar a bit high there. #4 that is the case with anyone's code. – Tarick Welling Jul 4 at 9:10

I love the HAL and Cube, but you have to read the drivers and be prepared to suffer. I used to wiggle bits like the naysayers, you can pick your poison. In my situation, if I use the HAL, I can sucker a real programmer into maintaining my code. Say no more, I'm in on the HAL. Be forewarned, the Cube simply creates an approximation of something that works.

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