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esp-link/Makefile

371 lines
15 KiB

#
# Makefile for esp-link - https://github.com/jeelabs/esp-link
#
# Start by setting the directories for the toolchain a few lines down
# the default target will build the firmware images
# `make flash` will flash the esp serially
# `make wiflash` will flash the esp over wifi
# `VERBOSE=1 make ...` will print debug info
# `ESP_HOSTNAME=my.esp.example.com make wiflash` is an easy way to override a variable
#
# Makefile heavily adapted to esp-link and wireless flashing by Thorsten von Eicken
# Original from esphttpd and others...
# --------------- toolchain configuration ---------------
# Base directory for the compiler. Needs a / at the end.
# Typically you'll install https://github.com/pfalcon/esp-open-sdk
XTENSA_TOOLS_ROOT ?= $(abspath ../esp-open-sdk/xtensa-lx106-elf/bin)/
# Base directory of the ESP8266 SDK package, absolute
# Typically you'll download from Espressif's BBS, http://bbs.espressif.com/viewforum.php?f=5
SDK_BASE ?= $(abspath ../esp_iot_sdk_v1.3.0)
# Esptool.py path and port, only used for 1-time serial flashing
# Typically you'll use https://github.com/themadinventor/esptool
ESPTOOL ?= $(abspath ../esp-open-sdk/esptool/esptool.py)
ESPPORT ?= /dev/ttyUSB0
ESPBAUD ?= 460800
# --------------- chipset configuration ---------------
# Pick your flash size: "512KB", "1MB", or "4MB"
FLASH_SIZE ?= 4MB
ifeq ("$(FLASH_SIZE)","512KB")
# Winbond 25Q40 512KB flash, typ for esp-01 thru esp-11
ESP_SPI_SIZE ?= 0 # 0->512KB (256KB+256KB)
ESP_FLASH_MODE ?= 0 # 0->QIO
ESP_FLASH_FREQ_DIV ?= 0 # 0->40Mhz
ESP_FLASH_MAX ?= 241664 # max bin file for 512KB flash: 236KB
ET_FS ?= 4m # 4Mbit flash size in esptool flash command
ET_FF ?= 40m # 40Mhz flash speed in esptool flash command
ET_BLANK ?= 0x7E000 # where to flash blank.bin to erase wireless settings
else ifeq ("$(FLASH_SIZE)","1MB")
# ESP-01E
ESP_SPI_SIZE ?= 2 # 2->1MB (512KB+512KB)
ESP_FLASH_MODE ?= 0 # 0->QIO
ESP_FLASH_FREQ_DIV ?= 15 # 15->80MHz
ESP_FLASH_MAX ?= 503808 # max bin file for 1MB flash: 492KB
ET_FS ?= 8m # 8Mbit flash size in esptool flash command
ET_FF ?= 80m # 80Mhz flash speed in esptool flash command
ET_BLANK ?= 0xFE000 # where to flash blank.bin to erase wireless settings
else
# Winbond 25Q32 4MB flash, typ for esp-12
# Here we're using two partitions of approx 0.5MB because that's what's easily available in terms
# of linker scripts in the SDK. Ideally we'd use two partitions of approx 1MB, the remaining 2MB
# cannot be used for code (esp8266 limitation).
ESP_SPI_SIZE ?= 4 # 6->4MB (1MB+1MB) or 4->4MB (512KB+512KB)
ESP_FLASH_MODE ?= 0 # 0->QIO, 2->DIO
ESP_FLASH_FREQ_DIV ?= 15 # 15->80Mhz
ESP_FLASH_MAX ?= 503808 # max bin file for 512KB flash partition: 492KB
#ESP_FLASH_MAX ?= 1028096 # max bin file for 1MB flash partition: 1004KB
ET_FS ?= 32m # 32Mbit flash size in esptool flash command
ET_FF ?= 80m # 80Mhz flash speed in esptool flash command
ET_BLANK ?= 0x3FE000 # where to flash blank.bin to erase wireless settings
endif
# hostname or IP address for wifi flashing
ESP_HOSTNAME ?= esp-link
# The pin assignments below are used when the settings in flash are invalid, they
# can be changed via the web interface
# GPIO pin used to reset attached microcontroller, acative low
MCU_RESET_PIN ?= 12
# GPIO pin used with reset to reprogram MCU (ISP=in-system-programming, unused with AVRs), active low
MCU_ISP_PIN ?= 13
# GPIO pin used for "connectivity" LED, active low
LED_CONN_PIN ?= 0
# GPIO pin used for "serial activity" LED, active low
LED_SERIAL_PIN ?= 14
# --------------- esp-link version ---------------
# This queries git to produce a version string like "esp-link v0.9.0 2015-06-01 34bc76"
# If you don't have a proper git checkout or are on windows, then simply swap for the constant
# Steps to release: create release on github, git pull, git describe --tags to verify you're
# on the release tag, make release, upload esp-link.tgz into the release files
#VERSION ?= "esp-link custom version"
DATE := $(shell date '+%F %T')
BRANCH := $(shell git describe --tags)
SHA := $(shell if git diff --quiet HEAD; then git rev-parse --short HEAD | cut -d"/" -f 3; \
else echo "development"; fi)
VERSION ?=esp-link $(BRANCH) - $(DATE) - $(SHA)
# --------------- esp-link config options ---------------
# If CHANGE_TO_STA is set to "yes" the esp-link module will switch to station mode
# once successfully connected to an access point. Else it will stay in AP+STA mode.
CHANGE_TO_STA ?= yes
# --------------- esphttpd config options ---------------
# If GZIP_COMPRESSION is set to "yes" then the static css, js, and html files will be compressed
# with gzip before added to the espfs image and will be served with gzip Content-Encoding header.
# This could speed up the downloading of these files, but might break compatibility with older
# web browsers not supporting gzip encoding because Accept-Encoding is simply ignored.
# Enable this option if you have large static files to serve (for e.g. JQuery, Twitter bootstrap)
# By default only js, css and html files are compressed using heatshrink.
# If you have text based static files with different extensions what you want to serve compressed
# then you will need to add the extension to the following places:
# - Add the extension to this Makefile at the webpages.espfs target to the find command
# - Add the extension to the gzippedFileTypes array in the user/httpd.c file
#
# Adding JPG or PNG files (and any other compressed formats) is not recommended, because GZIP
# compression does not work effectively on compressed files.
#Static gzipping is disabled by default.
GZIP_COMPRESSION ?= yes
# If COMPRESS_W_YUI is set to "yes" then the static css and js files will be compressed with
# yui-compressor. This option works only when GZIP_COMPRESSION is set to "yes".
# http://yui.github.io/yuicompressor/
#Disabled by default.
COMPRESS_W_YUI ?= yes
YUI-COMPRESSOR ?= yuicompressor-2.4.8.jar
# If USE_HEATSHRINK is set to "yes" then the espfs files will be compressed with Heatshrink and
# decompressed on the fly while reading the file.
# Because the decompression is done in the esp8266, it does not require any support in the browser.
USE_HEATSHRINK ?= no
# -------------- End of config options -------------
# Output directors to store intermediate compiled files
# relative to the project directory
BUILD_BASE = build
FW_BASE = firmware
# name for the target project
TARGET = httpd
# espressif tool to concatenate sections for OTA upload using bootloader v1.2+
APPGEN_TOOL ?= gen_appbin.py
# which modules (subdirectories) of the project to include in compiling
MODULES = espfs httpd user serial
EXTRA_INCDIR = include . # lib/heatshrink/
# libraries used in this project, mainly provided by the SDK
LIBS = c gcc hal phy pp net80211 wpa main lwip
# compiler flags using during compilation of source files
CFLAGS = -Os -ggdb -std=c99 -Werror -Wpointer-arith -Wundef -Wall -Wl,-EL -fno-inline-functions \
-nostdlib -mlongcalls -mtext-section-literals -ffunction-sections -fdata-sections \
-D__ets__ -DICACHE_FLASH -D_STDINT_H -Wno-address -DFIRMWARE_SIZE=$(ESP_FLASH_MAX) \
-DMCU_RESET_PIN=$(MCU_RESET_PIN) -DMCU_ISP_PIN=$(MCU_ISP_PIN) \
-DLED_CONN_PIN=$(LED_CONN_PIN) -DLED_SERIAL_PIN=$(LED_SERIAL_PIN) \
-DVERSION="$(VERSION)"
# linker flags used to generate the main object file
LDFLAGS = -nostdlib -Wl,--no-check-sections -u call_user_start -Wl,-static -Wl,--gc-sections
# linker script used for the above linker step
LD_SCRIPT := build/eagle.esphttpd.v6.ld
LD_SCRIPT1 := build/eagle.esphttpd1.v6.ld
LD_SCRIPT2 := build/eagle.esphttpd2.v6.ld
# various paths from the SDK used in this project
SDK_LIBDIR = lib
SDK_LDDIR = ld
SDK_INCDIR = include include/json
SDK_TOOLSDIR = tools
# select which tools to use as compiler, librarian and linker
CC := $(XTENSA_TOOLS_ROOT)xtensa-lx106-elf-gcc
AR := $(XTENSA_TOOLS_ROOT)xtensa-lx106-elf-ar
LD := $(XTENSA_TOOLS_ROOT)xtensa-lx106-elf-gcc
OBJCP := $(XTENSA_TOOLS_ROOT)xtensa-lx106-elf-objcopy
OBJDP := $(XTENSA_TOOLS_ROOT)xtensa-lx106-elf-objdump
####
SRC_DIR := $(MODULES)
BUILD_DIR := $(addprefix $(BUILD_BASE)/,$(MODULES))
SDK_LIBDIR := $(addprefix $(SDK_BASE)/,$(SDK_LIBDIR))
SDK_LDDIR := $(addprefix $(SDK_BASE)/,$(SDK_LDDIR))
SDK_INCDIR := $(addprefix -I$(SDK_BASE)/,$(SDK_INCDIR))
SDK_TOOLS := $(addprefix $(SDK_BASE)/,$(SDK_TOOLSDIR))
APPGEN_TOOL := $(addprefix $(SDK_TOOLS)/,$(APPGEN_TOOL))
SRC := $(foreach sdir,$(SRC_DIR),$(wildcard $(sdir)/*.c))
OBJ := $(patsubst %.c,$(BUILD_BASE)/%.o,$(SRC)) $(BUILD_BASE)/espfs_img.o
LIBS := $(addprefix -l,$(LIBS))
APP_AR := $(addprefix $(BUILD_BASE)/,$(TARGET)_app.a)
USER1_OUT := $(addprefix $(BUILD_BASE)/,$(TARGET).user1.out)
USER2_OUT := $(addprefix $(BUILD_BASE)/,$(TARGET).user2.out)
INCDIR := $(addprefix -I,$(SRC_DIR))
EXTRA_INCDIR := $(addprefix -I,$(EXTRA_INCDIR))
MODULE_INCDIR := $(addsuffix /include,$(INCDIR))
V ?= $(VERBOSE)
ifeq ("$(V)","1")
Q :=
vecho := @true
else
Q := @
vecho := @echo
endif
ifeq ("$(GZIP_COMPRESSION)","yes")
CFLAGS += -DGZIP_COMPRESSION
endif
ifeq ("$(USE_HEATSHRINK)","yes")
CFLAGS += -DESPFS_HEATSHRINK
endif
ifeq ("$(CHANGE_TO_STA)","yes")
CFLAGS += -DCHANGE_TO_STA
endif
vpath %.c $(SRC_DIR)
define compile-objects
$1/%.o: %.c
$(vecho) "CC $$<"
$(Q) $(CC) $(INCDIR) $(MODULE_INCDIR) $(EXTRA_INCDIR) $(SDK_INCDIR) $(CFLAGS) -c $$< -o $$@
endef
.PHONY: all checkdirs clean webpages.espfs wiflash
all: echo_version checkdirs $(FW_BASE)/user1.bin $(FW_BASE)/user2.bin
echo_version:
@echo VERSION: $(VERSION)
$(USER1_OUT): $(APP_AR) $(LD_SCRIPT1)
$(vecho) "LD $@"
$(Q) $(LD) -L$(SDK_LIBDIR) -T$(LD_SCRIPT1) $(LDFLAGS) -Wl,--start-group $(LIBS) $(APP_AR) -Wl,--end-group -o $@
@echo Dump : $(OBJDP) -x $(USER1_OUT)
@echo Disass: $(OBJDP) -d -l -x $(USER1_OUT)
# $(Q) $(OBJDP) -x $(TARGET_OUT) | egrep espfs_img
$(USER2_OUT): $(APP_AR) $(LD_SCRIPT2)
$(vecho) "LD $@"
$(Q) $(LD) -L$(SDK_LIBDIR) -T$(LD_SCRIPT2) $(LDFLAGS) -Wl,--start-group $(LIBS) $(APP_AR) -Wl,--end-group -o $@
# $(Q) $(OBJDP) -x $(TARGET_OUT) | egrep espfs_img
$(FW_BASE):
$(vecho) "FW $@"
$(Q) mkdir -p $@
$(FW_BASE)/user1.bin: $(USER1_OUT) $(FW_BASE)
$(Q) $(OBJCP) --only-section .text -O binary $(USER1_OUT) eagle.app.v6.text.bin
$(Q) $(OBJCP) --only-section .data -O binary $(USER1_OUT) eagle.app.v6.data.bin
$(Q) $(OBJCP) --only-section .rodata -O binary $(USER1_OUT) eagle.app.v6.rodata.bin
$(Q) $(OBJCP) --only-section .irom0.text -O binary $(USER1_OUT) eagle.app.v6.irom0text.bin
ls -ls eagle*bin
$(Q) COMPILE=gcc PATH=$(XTENSA_TOOLS_ROOT):$(PATH) python $(APPGEN_TOOL) $(USER1_OUT) 2 $(ESP_FLASH_MODE) $(ESP_FLASH_FREQ_DIV) $(ESP_SPI_SIZE)
$(Q) rm -f eagle.app.v6.*.bin
$(Q) mv eagle.app.flash.bin $@
@echo "** user1.bin uses $$(stat -c '%s' $@) bytes of" $(ESP_FLASH_MAX) "available"
$(Q) if [ $$(stat -c '%s' $@) -gt $$(( $(ESP_FLASH_MAX) )) ]; then echo "$@ too big!"; false; fi
$(FW_BASE)/user2.bin: $(USER2_OUT) $(FW_BASE)
$(Q) $(OBJCP) --only-section .text -O binary $(USER2_OUT) eagle.app.v6.text.bin
$(Q) $(OBJCP) --only-section .data -O binary $(USER2_OUT) eagle.app.v6.data.bin
$(Q) $(OBJCP) --only-section .rodata -O binary $(USER2_OUT) eagle.app.v6.rodata.bin
$(Q) $(OBJCP) --only-section .irom0.text -O binary $(USER2_OUT) eagle.app.v6.irom0text.bin
$(Q) COMPILE=gcc PATH=$(XTENSA_TOOLS_ROOT):$(PATH) python $(APPGEN_TOOL) $(USER2_OUT) 2 $(ESP_FLASH_MODE) $(ESP_FLASH_FREQ_DIV) $(ESP_SPI_SIZE)
$(Q) rm -f eagle.app.v6.*.bin
$(Q) mv eagle.app.flash.bin $@
$(Q) if [ $$(stat -c '%s' $@) -gt $$(( $(ESP_FLASH_MAX) )) ]; then echo "$@ too big!"; false; fi
$(APP_AR): $(OBJ)
$(vecho) "AR $@"
$(Q) $(AR) cru $@ $^
checkdirs: $(BUILD_DIR)
$(BUILD_DIR):
$(Q) mkdir -p $@
wiflash: all
./wiflash $(ESP_HOSTNAME) $(FW_BASE)/user1.bin $(FW_BASE)/user2.bin
flash: all
$(Q) $(ESPTOOL) --port $(ESPPORT) --baud $(ESPBAUD) -fs $(ET_FS) -ff $(ET_FF) write_flash \
0x00000 "$(SDK_BASE)/bin/boot_v1.4(b1).bin" 0x01000 $(FW_BASE)/user1.bin \
$(ET_BLANK) $(SDK_BASE)/bin/blank.bin
yui/$(YUI-COMPRESSOR):
$(Q) mkdir -p yui
cd yui; wget https://github.com/yui/yuicompressor/releases/download/v2.4.8/$(YUI-COMPRESSOR)
ifeq ("$(COMPRESS_W_YUI)","yes")
$(BUILD_BASE)/espfs_img.o: yui/$(YUI-COMPRESSOR)
endif
$(BUILD_BASE)/espfs_img.o: html/ html/wifi/ espfs/mkespfsimage/mkespfsimage
$(Q) rm -rf html_compressed;
$(Q) cp -r html html_compressed;
$(Q) for file in `find html_compressed -type f -name "*.htm*"`; do \
cat html_compressed/head- $$file >$${file}-; \
mv $$file- $$file; \
done
ifeq ("$(COMPRESS_W_YUI)","yes")
$(Q) echo "Compression assets with yui-compressor. This may take a while..."
$(Q) for file in `find html_compressed -type f -name "*.js"`; do \
java -jar yui/$(YUI-COMPRESSOR) $$file --nomunge --line-break 40 -o $$file; \
done
$(Q) for file in `find html_compressed -type f -name "*.css"`; do \
java -jar yui/$(YUI-COMPRESSOR) $$file -o $$file; \
done
endif
$(Q) cd html_compressed; find . \! -name \*- | ../espfs/mkespfsimage/mkespfsimage > ../build/espfs.img; cd ..;
$(Q) ls -sl build/espfs.img
$(Q) cd build; $(OBJCP) -I binary -O elf32-xtensa-le -B xtensa --rename-section .data=.espfs \
espfs.img espfs_img.o; cd ..
# edit the loader script to add the espfs section to the end of irom with a 4 byte alignment.
# we also adjust the sizes of the segments 'cause we need more irom0
# in the end the only thing that matters wrt size is that the whole shebang fits into the
# 236KB available (in a 512KB flash)
ifeq ("$(FLASH_SIZE)","512KB")
build/eagle.esphttpd1.v6.ld: $(SDK_LDDIR)/eagle.app.v6.new.512.app1.ld
$(Q) sed -e '/\.irom\.text/{' -e 'a . = ALIGN (4);' -e 'a *(.espfs)' -e '}' \
-e '/^ irom0_0_seg/ s/2B000/38000/' \
$(SDK_LDDIR)/eagle.app.v6.new.512.app1.ld >$@
build/eagle.esphttpd2.v6.ld: $(SDK_LDDIR)/eagle.app.v6.new.512.app2.ld
$(Q) sed -e '/\.irom\.text/{' -e 'a . = ALIGN (4);' -e 'a *(.espfs)' -e '}' \
-e '/^ irom0_0_seg/ s/2B000/38000/' \
$(SDK_LDDIR)/eagle.app.v6.new.512.app2.ld >$@
else
build/eagle.esphttpd1.v6.ld: $(SDK_LDDIR)/eagle.app.v6.new.1024.app1.ld
$(Q) sed -e '/\.irom\.text/{' -e 'a . = ALIGN (4);' -e 'a *(.espfs)' -e '}' \
-e '/^ irom0_0_seg/ s/6B000/7C000/' \
$(SDK_LDDIR)/eagle.app.v6.new.1024.app1.ld >$@
build/eagle.esphttpd2.v6.ld: $(SDK_LDDIR)/eagle.app.v6.new.1024.app2.ld
$(Q) sed -e '/\.irom\.text/{' -e 'a . = ALIGN (4);' -e 'a *(.espfs)' -e '}' \
-e '/^ irom0_0_seg/ s/6B000/7C000/' \
$(SDK_LDDIR)/eagle.app.v6.new.1024.app2.ld >$@
endif
espfs/mkespfsimage/mkespfsimage: espfs/mkespfsimage/
$(Q) $(MAKE) -C espfs/mkespfsimage USE_HEATSHRINK="$(USE_HEATSHRINK)" GZIP_COMPRESSION="$(GZIP_COMPRESSION)"
release: all
$(Q) rm -rf release; mkdir -p release/esp-link
$(Q) cp $(FW_BASE)/user1.bin $(FW_BASE)/user2.bin $(SDK_BASE)/bin/blank.bin \
"$(SDK_BASE)/bin/boot_v1.4(b1).bin" wiflash release/esp-link
$(Q) tar zcf esp-link.tgz -C release esp-link
$(Q) rm -rf release
clean:
$(Q) rm -f $(APP_AR)
$(Q) rm -f $(TARGET_OUT)
$(Q) find $(BUILD_BASE) -type f | xargs rm -f
$(Q) make -C espfs/mkespfsimage/ clean
$(Q) rm -rf $(FW_BASE)
$(Q) rm -f webpages.espfs
ifeq ("$(COMPRESS_W_YUI)","yes")
$(Q) rm -rf html_compressed
endif
$(foreach bdir,$(BUILD_DIR),$(eval $(call compile-objects,$(bdir))))