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387 lines
15 KiB
387 lines
15 KiB
.. _wipy_general:
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General information about the WiPy
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==================================
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No floating point support
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-------------------------
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Due to space reasons, there's no floating point support, and no math module. This
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means that floating point numbers cannot be used anywhere in the code, and that
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all divisions must be performed using '//' instead of '/'. Example::
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>>> r = 4 // 2 # this will work
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>>> r = 4 / 2 # this WON'T
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Before applying power
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---------------------
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.. warning::
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The GPIO pins of the WiPy are NOT 5V tolerant, connecting them to voltages higher
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than 3.6V will cause irreparable damage to the board. ADC pins, when configured
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in analog mode cannot withstand voltages above 1.8V. Keep these considerations in
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mind when wiring your electronics.
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WLAN default behaviour
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----------------------
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When the WiPy boots with the default factory configuration starts in Access Point
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mode with ``ssid`` that starts with: ``wipy-wlan`` and ``key: www.wipy.io``.
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Connect to this network and the WiPy will be reachable at ``192.168.1.1``. In order
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to gain access to the interactive prompt, open a telnet session to that IP address on
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the default port (23). You will be asked for credentials:
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``login: micro`` and ``password: python``
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.. _wipy_telnet:
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Telnet REPL
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-----------
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Linux stock telnet works like a charm (also on OSX), but other tools like putty
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work quite well too. The default credentials are: **user:** ``micro``, **password:** ``python``.
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See :class:`network.Server` for info on how to change the defaults.
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For instance, on a linux shell (when connected to the WiPy in AP mode)::
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$ telnet 192.168.1.1
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.. _wipy_filesystem:
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Local file system and FTP access
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--------------------------------
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There is a small internal file system (a drive) on the WiPy, called ``/flash``,
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which is stored within the external serial flash memory. If a micro SD card
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is hooked-up and mounted, it will be available as well.
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When the WiPy starts up, it always boots from the ``boot.py`` located in the
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``/flash`` file system. On boot up, the current directory is ``/flash``.
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The file system is accessible via the native FTP server running in the WiPy.
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Open your FTP client of choice and connect to:
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**url:** ``ftp://192.168.1.1``, **user:** ``micro``, **password:** ``python``
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See :class:`network.Server` for info on how to change the defaults.
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The recommended clients are: Linux stock FTP (also in OSX), Filezilla and FireFTP.
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For example, on a linux shell::
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$ ftp 192.168.1.1
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The FTP server on the WiPy doesn't support active mode, only passive, therefore,
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if using the native unix ftp client, just after logging in do::
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ftp> passive
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Besides that, the FTP server only supports one data connection at a time. Check out
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the Filezilla settings section below for more info.
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FileZilla settings
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------------------
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Do not use the quick connect button, instead, open the site manager and create a new
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configuration. In the ``General`` tab make sure that encryption is set to: ``Only use
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plain FTP (insecure)``. In the Transfer Settings tab limit the max number of connections
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to one, otherwise FileZilla will try to open a second command connection when retrieving
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and saving files, and for simplicity and to reduce code size, only one command and one
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data connections are possible. Other FTP clients might behave in a similar way.
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.. _wipy_firmware_upgrade:
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Upgrading the firmware Over The Air
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-----------------------------------
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OTA software updates can be performed through the FTP server. Upload the ``mcuimg.bin`` file
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to: ``/flash/sys/mcuimg.bin`` it will take around 6s. You won't see the file being stored
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inside ``/flash/sys/`` because it's actually saved bypassing the user file system, so it
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ends up inside the internal **hidden** file system, but rest assured that it was successfully
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transferred, and it has been signed with a MD5 checksum to verify its integrity. Now, reset
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the WiPy by pressing the switch on the board, or by typing::
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>>> import machine
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>>> machine.reset()
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Software updates can be found in: https://github.com/wipy/wipy/releases (**Binaries.zip**).
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It's always recommended to update to the latest software, but make sure to
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read the **release notes** before.
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.. note::
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The ``bootloader.bin`` found inside ``Binaries.zip`` is there only for reference, it's not
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needed for the Over The Air update.
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In order to check your software version, do::
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>>> import os
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>>> os.uname().release
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If the version number is lower than the latest release found in
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`the releases <https://github.com/wipy/wipy/releases>`_, go ahead and update your WiPy!
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.. _wipy_boot_modes:
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Boot modes and safe boot
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------------------------
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If you power up normally, or press the reset button, the WiPy will boot
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into standard mode; the ``boot.py`` file will be executed first, then
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``main.py`` will run.
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You can override this boot sequence by pulling ``GP28`` **up** (connect
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it to the 3v3 output pin) during reset. This procedure also allows going
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back in time to old firmware versions. The WiPy can hold up to 3 different
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firmware versions, which are: the factory firmware plus 2 user updates.
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After reset, if ``GP28`` is held high, the heartbeat LED will start flashing
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slowly, if after 3 seconds the pin is still being held high, the LED will start
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blinking a bit faster and the WiPy will select the previous user update to boot.
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If the previous user update is the desired firmware image, ``GP28`` must be
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released before 3 more seconds elapse. If 3 seconds later the pin is still high,
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the factory firmware will be selected, the LED will flash quickly for 1.5 seconds
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and the WiPy will proceed to boot. The firmware selection mechanism is as follows:
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**Safe Boot Pin** ``GP28`` **released during:**
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+-------------------------+-------------------------+----------------------------+
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| 1st 3 secs window | 2nd 3 secs window | Final 1.5 secs window |
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+=========================+=========================+============================+
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| | Safe boot, *latest* | | Safe boot, *previous* | | Safe boot, the *factory* |
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| | firmware is selected | | user update selected | | firmware is selected |
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+-------------------------+-------------------------+----------------------------+
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On all of the above 3 scenarios, safe boot mode is entered, meaning that
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the execution of both ``boot.py`` and ``main.py`` is skipped. This is
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useful to recover from crash situations caused by the user scripts. The selection
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made during safe boot is not persistent, therefore after the next normal reset
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the latest firmware will run again.
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The heartbeat LED
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------------------
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By default the heartbeat LED flashes once every 4s to signal that the system is
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alive. This can be overridden through the :mod:`wipy` module::
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>>> import wipy
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>>> wipy.heartbeat(False)
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There are currently 2 kinds of errors that you might see:
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1. If the heartbeat LED flashes quickly, then a Python script (eg ``main.py``)
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has an error. Use the REPL to debug it.
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2. If the heartbeat LED stays on, then there was a hard fault, you cannot
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recover from this, the only way out is to press the reset switch.
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Details on sleep modes
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----------------------
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* ``machine.idle()``: Power consumption: ~12mA (in WLAN STA mode). Wake sources:
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any hardware interrupt (including systick with period of 1ms), no special
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configuration required.
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* ``machine.lightsleep()``: 950uA (in WLAN STA mode). Wake sources are ``Pin``, ``RTC``
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and ``WLAN``
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* ``machine.deepsleep()``: ~350uA. Wake sources are ``Pin`` and ``RTC``.
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Additional details for machine.Pin
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----------------------------------
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On the WiPy board the pins are identified by their string id::
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from machine import Pin
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g = machine.Pin('GP9', mode=Pin.OUT, pull=None, drive=Pin.MED_POWER, alt=-1)
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You can also configure the Pin to generate interrupts. For instance::
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from machine import Pin
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def pincb(pin):
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print(pin.id())
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pin_int = Pin('GP10', mode=Pin.IN, pull=Pin.PULL_DOWN)
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pin_int.irq(trigger=Pin.IRQ_RISING, handler=pincb)
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# the callback can be triggered manually
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pin_int.irq()()
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# to disable the callback
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pin_int.irq().disable()
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Now every time a falling edge is seen on the gpio pin, the callback will be
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executed. Caution: mechanical push buttons have "bounce" and pushing or
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releasing a switch will often generate multiple edges.
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See: http://www.eng.utah.edu/~cs5780/debouncing.pdf for a detailed
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explanation, along with various techniques for debouncing.
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All pin objects go through the pin mapper to come up with one of the
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gpio pins.
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For the ``drive`` parameter the strengths are:
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- ``Pin.LOW_POWER`` - 2mA drive capability.
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- ``Pin.MED_POWER`` - 4mA drive capability.
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- ``Pin.HIGH_POWER`` - 6mA drive capability.
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For the ``alt`` parameter please refer to the pinout and alternate functions
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table at <https://raw.githubusercontent.com/wipy/wipy/master/docs/PinOUT.png>`_
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for the specific alternate functions that each pin supports.
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For interrupts, the ``priority`` can take values in the range 1-7. And the
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``wake`` parameter has the following properties:
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- If ``wake_from=machine.Sleep.ACTIVE`` any pin can wake the board.
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- If ``wake_from=machine.Sleep.SUSPENDED`` pins ``GP2``, ``GP4``, ``GP10``,
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``GP11``, GP17`` or ``GP24`` can wake the board. Note that only 1
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of this pins can be enabled as a wake source at the same time, so, only
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the last enabled pin as a ``machine.Sleep.SUSPENDED`` wake source will have effect.
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- If ``wake_from=machine.Sleep.SUSPENDED`` pins ``GP2``, ``GP4``, ``GP10``,
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``GP11``, ``GP17`` and ``GP24`` can wake the board. In this case all of the
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6 pins can be enabled as a ``machine.Sleep.HIBERNATE`` wake source at the same time.
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Additional Pin methods:
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.. method:: machine.Pin.alt_list()
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Returns a list of the alternate functions supported by the pin. List items are
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a tuple of the form: ``('ALT_FUN_NAME', ALT_FUN_INDEX)``
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Additional details for machine.I2C
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----------------------------------
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On the WiPy there is a single hardware I2C peripheral, identified by "0". By
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default this is the peripheral that is used when constructing an I2C instance.
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The default pins are GP23 for SCL and GP13 for SDA, and one can create the
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default I2C peripheral simply by doing::
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i2c = machine.I2C()
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The pins and frequency can be specified as::
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i2c = machine.I2C(freq=400000, scl='GP23', sda='GP13')
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Only certain pins can be used as SCL/SDA. Please refer to the pinout for further
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information.
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Known issues
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------------
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Incompatible way to create SSL sockets
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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SSL sockets need to be created the following way before wrapping them with.
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``ssl.wrap_socket``::
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import socket
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import ssl
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s = socket(socket.AF_INET, socket.SOCK_STREAM, socket.IPPROTO_SEC)
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ss = ssl.wrap_socket(s)
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Certificates must be used in order to validate the other side of the connection, and also to
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authenticate ourselves with the other end. Such certificates must be stored as files using the
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FTP server, and they must be placed in specific paths with specific names.
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- The certificate to validate the other side goes in: **'/flash/cert/ca.pem'**
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- The certificate to authenticate ourselves goes in: **'/flash/cert/cert.pem'**
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- The key for our own certificate goes in: **'/flash/cert/private.key'**
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.. note::
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When these files are stored, they are placed inside the internal **hidden** file system
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(just like firmware updates), and therefore they are never visible.
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For instance to connect to the Blynk servers using certificates, take the file ``ca.pem`` located
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in the `blynk examples folder <https://github.com/wipy/wipy/tree/master/examples/blynk>`_.
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and put it in '/flash/cert/'. Then do::
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import socket
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import ssl
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s = socket.socket(socket.AF_INET, socket.SOCK_STREAM, socket.IPPROTO_SEC)
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ss = ssl.wrap_socket(s, cert_reqs=ssl.CERT_REQUIRED, ca_certs='/flash/cert/ca.pem')
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ss.connect(socket.getaddrinfo('cloud.blynk.cc', 8441)[0][-1])
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Incompatibilities in hashlib module
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Due to hardware implementation details of the WiPy, data must be buffered before being
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digested, which would make it impossible to calculate the hash of big blocks of data that
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do not fit in RAM. In this case, since most likely the total size of the data is known
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in advance, the size can be passed to the constructor and hence the HASH hardware engine
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of the WiPy can be properly initialized without needing buffering. If ``block_size`` is
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to be given, an initial chunk of ``data`` must be passed as well. **When using this extension,
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care must be taken to make sure that the length of all intermediate chunks (including the
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initial one) is a multiple of 4 bytes.** The last chunk may be of any length.
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Example::
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hash = hashlib.sha1('abcd1234', 1001) # length of the initial piece is multiple of 4 bytes
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hash.update('1234') # also multiple of 4 bytes
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...
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hash.update('12345') # last chunk may be of any length
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hash.digest()
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Unrelated function in machine module
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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.. function:: main(filename)
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Set the filename of the main script to run after boot.py is finished. If
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this function is not called then the default file main.py will be executed.
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It only makes sense to call this function from within boot.py.
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Adhoc way to control telnet/FTP server via network module
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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The ``Server`` class controls the behaviour and the configuration of the FTP and telnet
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services running on the WiPy. Any changes performed using this class' methods will
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affect both.
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Example::
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import network
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server = network.Server()
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server.deinit() # disable the server
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# enable the server again with new settings
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server.init(login=('user', 'password'), timeout=600)
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.. class:: network.Server(id, ...)
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Create a server instance, see ``init`` for parameters of initialization.
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.. method:: server.init(*, login=('micro', 'python'), timeout=300)
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Init (and effectively start the server). Optionally a new ``user``, ``password``
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and ``timeout`` (in seconds) can be passed.
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.. method:: server.deinit()
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Stop the server
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.. method:: server.timeout([timeout_in_seconds])
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Get or set the server timeout.
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.. method:: server.isrunning()
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Returns ``True`` if the server is running, ``False`` otherwise.
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Adhoc VFS-like support
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~~~~~~~~~~~~~~~~~~~~~~
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WiPy doesn't implement full MicroPython VFS support, instead following
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functions are defined in ``os`` module:
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.. function:: mount(block_device, mount_point, *, readonly=False)
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Mounts a block device (like an ``SD`` object) in the specified mount
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point. Example::
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os.mount(sd, '/sd')
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.. function:: unmount(path)
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Unmounts a previously mounted block device from the given path.
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.. function:: mkfs(block_device or path)
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Formats the specified path, must be either ``/flash`` or ``/sd``.
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A block device can also be passed like an ``SD`` object before
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being mounted.
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