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200 lines
8.3 KiB
200 lines
8.3 KiB
Flashing esp-link
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=================
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### Hardware configuration for normal operation
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This firmware is designed for any esp8266 module.
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The recommended connections for an esp-01 module are:
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- URXD: connect to TX of microcontroller
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- UTXD: connect to RX of microcontroller
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- GPIO0: connect to RESET of microcontroller
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- GPIO2: optionally connect green LED to 3.3V (indicates wifi status)
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The recommended connections for an esp-12 module are:
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- URXD: connect to TX of microcontroller
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- UTXD: connect to RX of microcontroller
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- GPIO12: connect to RESET of microcontroller
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- GPIO13: connect to ISP of LPC/ARM microcontroller (not used with Arduino/AVR)
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- GPIO0: either a 1k-10k pull-up resistor to 3.3v or a green "conn" LED via a 1k-2.2k
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resistor to 3.3V (indicates wifi status)
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- GPIO2: either a 1k-10k pull-up resistor to 3.3v or a yellow "ser" LED via a 1k-2.2k
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resistor to 3.3V (indicates serial activity)
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At boot time the esp8266 ROM outputs a boot message on UTXD, this can cause problems to the attached
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microcontroller. If you need to avoid this, you can configure esp-link to swap the uart pins.
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You should then connect the esp-12 module as follows and choose the "swap_uart" pin assignment
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in the esp-link web interface:
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- GPIO13: connect to TX of microcontroller
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- GPIO15: connect to RX of microcontroller and use a pull-down to ensure proper booting
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- GPIO12: connect to RESET of microcontroller
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- GPIO14: connect to ISP of LPC/ARM microcontroller (not used with Arduino/AVR)
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- GPIO0: either a 1k-10k pull-up resistor to 3.3v or a green "conn" LED via a 1k-2.2k
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resistor to 3.3V (indicates wifi status)
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- GPIO2: either a 1k-10k pull-up resistor to 3.3v or a yellow "ser" LED via a 1k-2.2k
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resistor to 3.3V (indicates serial activity)
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The GPIO pin assignments can be changed dynamically in the web UI and are saved in flash.
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### Hardware configuration for flashing
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To flash firmware onto the esp8266 via the serial port the following must be observed:
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- GPIO0 must be low when reset ends to put the esp8266 into flash programming mode, it must be high
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to enter normal run mode
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- GPIO2 must be high (pull-up resistor)
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- GPIO15 must be low (pull-down resistor)
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### Initial serial flashing
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Download the latest [release](https://github.com/jeelabs/esp-link/releases) or use the
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`user1.bin` and `user2.bin` files that are produced by the build process.
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You will need to flash the bootloader, the firmware, blank wifi settings, and init data.
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Detailed instructions are provided in the release notes.
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_Important_: the firmware adapts to the size of the flash chip using information
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stored in the boot sector (address 0). This is the standard way that the esp8266 SDK detects
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the flash size. What this means is that you need to set this properly when you flash the bootloader.
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If you use esptool.py you can do it using the -ff and -fs options. See the end of this page for
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instructions on installing esptool.py.
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The short version for the serial flashing is:
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- flash `boot_v1.X.bin` from the official SDK or from the release tgz to `0x00000`
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- flash `blank.bin` from the official SDK or from the tgz to `0x3FE000`
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- flash `esp_init_data_default.bin` from the official SDK or from the tgz to `0x3FC000`
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- flash `user1.bin` to `0x01000`
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- be sure to use the commandline flags when flashing the bootloader to set the correct flash size
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- some of the addresses vary with flash chip size
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After the initial flashing if you want to update the firmware it is recommended to use the
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over-the-air update described further down. If you want to update serially you only need to
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reflash `user1.bin`.
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### 32Mbit / 4Mbyte module
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On Linux using esptool.py this turns into the following for a 32mbit=4MByte flash chip,
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such as an esp-12 module typically has (_substitute the appropriate release number and bootloader
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version number_):
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```
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curl -L https://github.com/jeelabs/esp-link/releases/download/v2.2.3/esp-link-v2.2.3.tgz | \
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tar xzf -
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cd esp-link-v2.2.3
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esptool.py --port /dev/ttyUSB0 --baud 230400 write_flash -fs 32m -ff 80m \
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0x00000 boot_v1.5.bin 0x1000 user1.bin \
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0x3FC000 esp_init_data_default.bin 0x3FE000 blank.bin
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```
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I use a high baud rate as shown above because I'm impatient, but that's not required.
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### 4Mbit / 512Kbyte module
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```
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curl -L https://github.com/jeelabs/esp-link/releases/download/v2.2.3/esp-link-v2.2.3.tgz | \
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tar xzf -
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cd esp-link-v2.2.3
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esptool.py --port /dev/ttyUSB0 --baud 460800 write_flash -fs 4m -ff 40m \
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0x00000 boot_v1.5.bin 0x1000 user1.bin \
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0x7C000 esp_init_data_default.bin 0x7E000 blank.bin
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```
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The `-fs 4m -ff40m` options say 4Mbits and 40Mhz as opposed to 32Mbits at 80Mhz for the 4MByte
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flash modules. Note the different address for esp_init_data_default.bin and blank.bin
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(the SDK stores its wifi settings near the end of flash, so it changes with flash size).
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For __8Mbit / 1MByte__ modules the addresses are 0xFC000 and 0xFE000.
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## Updating the firmware over-the-air
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This firmware supports over-the-air (OTA) flashing for modules with 1MByte or more flash,
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so you do not have to deal with serial flashing again after the initial one!
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The recommended way to flash is to use `make wiflash`
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if you are also building the firmware and `./wiflash` if you are downloading firmware binaries.
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The resulting commandlines are:
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```
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ESP_HOSTNAME=192.168.1.5 make wiflash
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```
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or assuming mDNS is working:
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```
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ESP_HOSTNAME=esp-link.local make wiflash
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```
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or using wiflash.sh:
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```
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./wiflash.sh <esp-hostname> user1.bin user2.bin
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```
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The flashing, restart, and re-associating with your wireless network takes about 15 seconds
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and is fully automatic. The first 1MB of flash are divided into two 512KB partitions allowing for new
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code to be uploaded into one partition while running from the other. This is the official
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OTA upgrade method supported by the SDK, except that the firmware is POSTed to the module
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using curl as opposed to having the module download it from a cloud server. On a module with
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512KB flash there is only space for one partition and thus no way to do an OTA update.
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If you need to clear the wifi settings you need to reflash the `blank.bin`
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using the serial method.
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The flash configuration and the OTA upgrade process is described in more detail
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in [FLASH.md](FLASH.md).
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## Installing esptool.py on Linux
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On Linux use [esptool.py](https://github.com/themadinventor/esptool) to flash the esp8266.
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If you're a little python challenged then the following install instructions might help:
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- Install ez_setup with the following two commands (I believe this will do something
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reasonable if you already have it):
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wget https://bootstrap.pypa.io/ez_setup.py
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python ez_setup.py
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- Install esptool.py:
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git clone https://github.com/themadinventor/esptool.git
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cd esptool
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python setup.py install
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cd ..
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esptool.py -h
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## Installing esptool.py on Windows
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Esptool is a pythin pgm that works just fine on windows. These instructions assume that git and
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python are available from the commandline.
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Start a command line, clone esptool, and run `python setup.py install` in esptool's
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directory (this step needs to be done only once):
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```
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> git clone https://github.com/themadinventor/esptool.git
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Cloning into 'esptool'...
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remote: Counting objects: 268, done.
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emote: Total 268 (delta 0), reused 0 (delta 0), pack-reused 268
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Receiving objects: 100% (268/268), 99.66 KiB | 0 bytes/s, done.
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Resolving deltas: 100% (142/142), done.
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Checking connectivity... done.
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> cd esptool
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> python setup.py install
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running install
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...
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...
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...
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Finished processing dependencies for esptool==0.1.0
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```
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Download and unzip the latest esp-link release package, and start a commandline
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in that directory. The command to run is pretty much the same as for linux.
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Adjust the path to esptool and the COM port if you don't have the ESP on COM12. 460800
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baud worked just fine for me, writing at ~260kbit/s instead of ~80kbit/s.
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```
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>python "../esptool/esptool.py" --port COM12 --baud 115200 write_flash \
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--flash_freq 80m --flash_mode qio --flash_size 32m \
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0x0000 boot_v1.6.bin 0x1000 user1.bin \
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0x3FC000 esp_init_data_default.bin 0x3FE000 blank.bin
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Connecting...
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Erasing flash...
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Wrote 3072 bytes at 0x00000000 in 0.3 seconds (79.8 kbit/s)...
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Erasing flash...
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Wrote 438272 bytes at 0x00001000 in 43.4 seconds (80.7 kbit/s)...
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Erasing flash...
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Wrote 1024 bytes at 0x003fc000 in 0.1 seconds (83.6 kbit/s)...
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Erasing flash...
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Wrote 4096 bytes at 0x003fe000 in 0.4 seconds (83.4 kbit/s)...
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Leaving...
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```
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