To compile binarys for the ulp you need the ulp toolkit. Download it from https://github.com/espressif/binutils-esp32ulp/wiki#downloads
Then extract it, then add esp32ulp-elf-binutils/bin
to your PATH
ULP_S_SOURCES := main.S
ULP_APP_NAME := test
ULP_LD_SCRIPT := esp32.ulp.ld
SRC_PATH := src
BUILD_PATH := build
include $(ESPIDF)/components/ulp/Makefile.projbuild
ULP_ELF := $(ULP_APP_NAME).elf
ULP_MAP := $(ULP_ELF:.elf=.map)
ULP_SYM := $(ULP_ELF:.elf=.sym)
ULP_BIN := $(ULP_ELF:.elf=.bin)
ULP_EXPORTS_LD := $(ULP_ELF:.elf=.ld)
ULP_EXPORTS_HEADER := $(ULP_ELF:.elf=.h)
ULP_OBJECTS := $(notdir $(ULP_S_SOURCES:.S=.ulp.o))
ULP_DEP := $(notdir $(ULP_S_SOURCES:.S=.ulp.d)) $(ULP_LD_SCRIPT:.ld=.d)
ULP_PREPROCESSED := $(notdir $(ULP_S_SOURCES:.S=.ulp.pS))
ULP_LISTINGS := $(notdir $(ULP_S_SOURCES:.S=.ulp.lst))
.PHONY: all clean
all: $(BUILD_PATH) $(BUILD_PATH)/$(ULP_BIN)
clean:
rm -rf $(BUILD_PATH)
$(BUILD_PATH):
mkdir $@
# Generate preprocessed linker file.
$(BUILD_PATH)/$(ULP_APP_NAME).ld: $(SRC_PATH)/$(ULP_LD_SCRIPT)
cpp -P $< -o $@
# Generate preprocessed assembly files.
# To inspect these preprocessed files, add a ".PRECIOUS: %.ulp.pS" rule.
$(BUILD_PATH)/%.ulp.pS: $(SRC_PATH)/%.S
cpp $< -o $@
# Compiled preprocessed files into object files.
$(BUILD_PATH)/%.ulp.o: $(BUILD_PATH)/%.ulp.pS
$(ULP_AS) -al=$(patsubst %.ulp.o,%.ulp.lst,$@) -o $@ $<
# Link object files and generate map file
$(BUILD_PATH)/$(ULP_ELF): $(BUILD_PATH)/$(ULP_OBJECTS) $(BUILD_PATH)/$(ULP_APP_NAME).ld
$(ULP_LD) -o $@ -A elf32-esp32ulp -Map=$(BUILD_PATH)/$(ULP_MAP) -T $(BUILD_PATH)/$(ULP_APP_NAME).ld $<
# Dump the list of global symbols in a convenient format.
$(ULP_SYM): $(ULP_ELF)
$(ULP_NM) -g -f posix $< > $@
# Dump the binary for inclusion into the project
$(BUILD_PATH)/$(ULP_BIN): $(BUILD_PATH)/$(ULP_ELF)
$(ULP_OBJCOPY) -O binary $< $@
#define ULP_BIN_MAGIC 0x00706c75
#define HEADER_SIZE 12
#define CONFIG_ULP_COPROC_RESERVE_MEM 4096
MEMORY
{
ram(RW) : ORIGIN = 0, LENGTH = CONFIG_ULP_COPROC_RESERVE_MEM
}
SECTIONS
{
.text : AT(HEADER_SIZE)
{
*(.text)
} >ram
.data :
{
. = ALIGN(4);
*(.data)
} >ram
.bss :
{
. = ALIGN(4);
*(.bss)
} >ram
.header : AT(0)
{
LONG(ULP_BIN_MAGIC)
SHORT(LOADADDR(.text))
SHORT(SIZEOF(.text))
SHORT(SIZEOF(.data))
SHORT(SIZEOF(.bss))
}
}
move R3, 99
move R0, 10
# mem[R0+0] = R3
st R3, R0, 0
HALT
import esp32
import time
u = esp32.ULP()
with open('test.bin', 'rb') as f:
b = f.read()
u.load_binary(0,b)
u.run(0)