1

I'm currently trying to upload some code onto an LPC810, which is a Cortex-M0+ microcontroller. I have a simple progam I'm trying to use, which just blinks an LED on and off.

typedef unsigned int volatile * vp;

int main()
{
    *(vp) 0x4000C1C0 = 0xFFFFFFBFUL;
    *(vp) 0xA0002000 |= 1 << 2;
    for(;;) {
        *(vp) 0xA0002300 |= 1 << 2;
        volatile long wait = 240000;
        while (wait > 0) --wait;
    }
    return 0;
}

Edit: This file is called main.c.

I didn't write this code, but I know that it works. The problem is that when I compile this into a binary file to upload, it turns out to be on the order of 75 kiB! That's way too large for my microcontroller.

After running size on the elf file, there seems to be a bunch of extra functions and data being linked in. I'm using newlib.

Below is my Makefile. I'm sure that its probably something to do with my compiling/linking flags, but I've been unable to figure it out.

PROGRAM=hello
ARCH=arm-none-eabi

CC=$(ARCH)-gcc
CXX=$(ARCH)-g++
OBJCOPY=$(ARCH)-objcopy
OBJDUMP=$(ARCH)-objdump
NM=$(ARCH)-nm
SIZE=$(ARCH)-size

FLAGS=-pedantic-errors -Wall -Wextra -Werror -Wfatal-errors -O3 \
    -fdiagnostics-color -mcpu=cortex-m0plus -mthumb
CFLAGS=-std=c11 $(FLAGS)
CXXFLAGS=-std=c++14 $(FLAGS)
LDFLAGS=

OBJECTS=./obj/main.o

all: ./$(PROGRAM).hex

run: ./$(PROGRAM).hex
    sudo lpc21isp -wipe -verify -bin ./$(PROGRAM).hex /dev/ttyUSB0 115200 12000
    make clean

./$(PROGRAM).hex: ./$(PROGRAM).elf
    $(OBJCOPY) ./$(PROGRAM).elf -O binary ./$(PROGRAM).hex
    $(OBJDUMP) -D $< > $(PROGRAM).disasm
    $(NM) -n $(PROGRAM).elf > $(PROGRAM).sym
    $(SIZE) $(PROGRAM).elf

./$(PROGRAM).elf: $(OBJECTS)
    $(CC) $(FLAGS) $(LDFLAGS) $^ -o $@

./obj/%.o: ./src/%.s
    $(CC) $(FLAGS) -c $^ -o $@

./obj/%.o: ./src/%.c
    $(CC) $(CFLAGS) -c $^ -o $@

./obj/%.o: ./src/%.cpp
    $(CXX) $(CXXFLAGS) -c $^ -o $@

clean:
    rm $(OBJECTS) ./$(PROGRAM)*

I'm generating a binary file with a hex extension with this, so sorry about any confusion.

Any thoughts on how to fix this? Thanks for any help!

5
  • 1
    Do you need the standard library? You could compile with -nostdlib. You can also strip symbols with -s. This also may be helpful: Reducing Executable Size.
    – John
    Apr 24, 2015 at 17:44
  • @John The -s flag doesn't seem to do anything to the size. I don't need the standard library proper, but the -nostdlib flag also removes the linker script and other startup code that I do need. Besides that, that flag is what I need, but I haven't found a way around that problem. Still, thanks for the reply! Apr 24, 2015 at 17:58
  • 1
    After -nostdlib, you can add -lgcc, which should setup for main, but will not include exit handlers, etc. You may generate a mapfile -Map=project.map and look at what is linked (and why). Really if you are doing this and concerned, you should not use main(), but _start: and clear .bss yourself and setup the stack. Probably you need a custom linker file. They you will know when unintended floating point/div, etc are used. I have made ARM Linux user-space code <1k like this. I am sure there is code floating around for this CPU if you look hard enough. Apr 24, 2015 at 19:15
  • @artlessnoise I've tried that in the past but linkers have always gone a bit over my head. But, maybe it's time for me to give it a shot again though. I also tried those flags and renamed main to _start, but still being in C the linker probably didn't find it properly. When I launch the code, nothing happens, so it probably wasn't in the right spot in memory. I'll give a custom link script and startup files a shot again though, thanks. Apr 24, 2015 at 19:33
  • Here is the first thing that google LPC810 bare metal returns. It has a tar file with source that is doing exactly what I was talking about init.c; there are probably other examples... His blinking light code is about 512 bytes.. Apr 24, 2015 at 19:50

2 Answers 2

1

I'd like to suggest to link with linker option --gc-sections. This should strip all unused library stuff.

Thus, add -Wl,--gc-sections to your LDFLAGS.

However I am pretty sure that your compiler's output is not that big as you think. I assume that your binary file contains lots of zeros. Actually I assume you have less than 265 Bytes of payload and the rest is zero. This is because your output is linked not to address zero. Check your ELF file with arm-none-eabi -e hello.elf. (You're application code is there in section .text)

To fix this I am pretty sure you have to learn how linker scripts work. Checkout the manual "The GNU linker" for this.

1
  • Fortunately, I was able to get this up-and-running with a custom linker script, but I will try that flag in the future if the problem returns. And while I left the detail out, my programming tool (lpc21isp) complained about running out of sectors to program, so I think that it was actually large. As far as I could tell, it was newlib, my libc, that was causing the bloat. May 8, 2015 at 20:30
0

Optimize binaries for space with -Os, not -O3, strip symbols with -s, and get rid of the stdc++ libraries you are linking in (std=c++14), that's not even a C++ program!

1
  • I've tried -Os and it removes a couple bytes, but not much more (which is consistent with past experience). I'm still left with about 75k, -s has no effect at all, and the c++ flag is not activated because my file is main.c, not main.cpp, sorry for not specifying that. Instead, -std=c11 is active. Apr 24, 2015 at 18:08

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.