204 lines
6.2 KiB
ReStructuredText
204 lines
6.2 KiB
ReStructuredText
.. _Wasp-os Reference Manual:
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Wasp-os Reference Manual
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========================
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.. contents::
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:local:
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System
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------
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.. automodule:: wasp
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:members:
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.. automodule:: watch
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.. automodule:: draw565
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:members:
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.. automodule:: icons
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:members:
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:undoc-members:
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.. automodule:: fonts.clock
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:members:
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:undoc-members:
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.. automodule:: fonts.sans24
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:members:
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.. automodule:: logo
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:members:
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:undoc-members:
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.. automodule:: widgets
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:members:
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Device drivers
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--------------
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.. automodule:: drivers.battery
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:members:
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.. automodule:: drivers.cst816s
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:members:
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.. automodule:: drivers.nrf_rtc
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:members:
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.. automodule:: drivers.signal
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:members:
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.. automodule:: drivers.st7789
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:members:
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.. automodule:: drivers.vibrator
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:members:
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Applications
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------------
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.. automodule:: apps.clock
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:members:
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:undoc-members:
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.. automodule:: apps.flashlight
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:members:
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:undoc-members:
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.. automodule:: apps.launcher
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:members:
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:undoc-members:
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.. automodule:: apps.pager
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:members:
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:undoc-members:
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.. automodule:: apps.testapp
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:members:
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:undoc-members:
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Bootloader
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----------
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The bootloader implements a couple of protocols that allow the bootloader
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and payload to communicate during a reset or on handover from bootloader
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to application.
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GPREGRET protocol
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~~~~~~~~~~~~~~~~~
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``GPREGRET`` is a general purpose 8-bit retention register that is preserved
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in all power states of the nRF52 (including System OFF mode when SRAM
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content is destroyed).
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It can be used by the application to request specific bootloader behaviours
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during a reset:
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================= ===== ======================================================
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Name Value Description
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----------------- ----- ------------------------------------------------------
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OTA_APPJUM 0xb1 Bootloader entered (without reset) from application.
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OTA_RESET 0xa8 Enter OTA (Bluetooth) recovery mode
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SERIAL_ONLY_RESET 0x4e Enter UART recovery mode (if applicable)
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UF2_RESET 0x57 Enter USB recovery mode (if applicable)
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FORCE_APP_BOOT 0x65 Force direct application boot (no splash screen)
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================= ===== ======================================================
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PNVRAM protocol
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~~~~~~~~~~~~~~~
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The pseudo non-volatile RAM is a small block of regular static RAM that,
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once initialized, can be used to share information.
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The PNVRAM starts at 0x200039c0 and is 32 bytes long.
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========== ===================================================================
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Address Description
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---------- -------------------------------------------------------------------
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0x200039c0 Guard value. Must be set to 0x1abe11ed .
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0x200039c4 Course grained RTC value (bootloader must preserve but can ignore).
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0x200039c8 RTC millisecond counter (bootloader must increment this).
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0x200039cc Reserved
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0x200039d0 Reserved
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0x200039d4 Reserved
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0x200039d8 Reserved
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0x200039cc Guard value. Must be set to 0x10adab1e .
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========== ===================================================================
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Note: *The PNVRAM protocol allows up to 28 bytes to be transfered (compared to
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2 bytes via GPREGRET and GPREGRET2) but it is less versatile. For example
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FORCE_APP_BOOT cannot be implmented using PNVRAM.*
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The RTC millisecond counter is incremented whenever the bootloader is
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active (during splash screen or early UART recovery mode, during an
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update). It can be consumed by the application to prevent the current
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time being lost during an update.
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Watchdog protocol
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~~~~~~~~~~~~~~~~~
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Form-factor devices such as smart watches and fitness trackers do not usually
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have any hardware mechanism to allow the user to force a failed device into
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bootloader mode. This makes them difficult to develop on because opening the
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case to access a SWD or reset pins may compromise their waterproofing.
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wasp-os uses a watchdog timer (WDT) combined with a single hardware button in
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order to provide a robust mechanism to allow the user to force entry into a
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over-the-air firmware recovery mode that allows the buggy application to be
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replaced.
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The software responsibilities to implement this are split between the
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bootloader and the application, although the application responsibilities
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are intentionally minimal.
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The bootloader implements an over-the-air recovery mode, as well as handling
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normal boot, where it's role is to display the splash screen.
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Additionally the bootloader implements several watchdog related features
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necessary for robust reboot handling:
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1. The bootloader configures the watchdog prior to booting the main
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application. This is a simple, single channel reload request, watchdog
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with a 5 second timeout.
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2. The bootloader checks the reset reason prior too booting the main
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application. If it detects a watchdog reset the bootloader switches
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automatically to DFU mode.
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3. The bootlaoder initialized the pinmux allowing the hardware button
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state to be observed.
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4. The bootloader monitors the hardware button and switches back to the main
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application when it is pressed.
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From this list #1 and #2 are needed to ensure robust WDT handling whilst #3
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and # 4 ensure the user can switch back to application from the device
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itself if they ever accidentally trigger entry to recovery mode.
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The application's role is to carefully pet the watchdog so that it will
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trigger automatically if the hardware button is held down for five
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seconds. Key points for application robustness include:
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1. Unlike a normal watchdog we can be fairly reckless about where in the
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code we pet the dog. For example petting the dog from a timer interrupt
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is fine because we only need the dog to bark if the hardware button is
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pressed.
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2. The routine to pet the dog is predicated on the hardware button not
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being pressed.
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3. The routine to pet the dog is also predicated on the hardware button
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still being correctly configured.
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To avoid mistakes the application should contain no subroutines that
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unconditionally pet the dog; they should all implement #2 and #3 from
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the above list.
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Note: *nRF52 microcontrollers implement a distributed pin-muxing
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mechanism meaning most peripheral can acidentally "steal" a pin
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if the pin is requested by the peripheral. This requires a fully
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robust implementation of #3 to visit the PSEL registers of every
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peripheral that can control pins. The code currently used in
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wasp-os does not yet meet this criteria.*
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