373 lines
13 KiB
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373 lines
13 KiB
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==============
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mikroe-stm32f4
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==============
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This page discusses issues unique to NuttX configurations for the
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MikroElektronika Mikromedia for STM32F4 development board. This is
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another board support by NuttX that uses the same STM32F407VGT6 MCU
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as does the STM32F4-Discovery board. This board, however, has very
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different on-board peripherals than does the STM32F4-Discovery:
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- TFT display with touch panel,
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- VS1053 stereo audio codec with headphone jack,
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- SD card slot,
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- Serial FLASH memory,
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- USB OTG FS with micro-AB connector, and
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- Battery connect and batter charger circuit.
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See the http://www.mikroe.com/mikromedia/stm32-m4/ for more information
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about this board.
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LEDs
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====
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The Mikroe-STM32F4 board has no user accessible LEDs onboard, only a power
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and "charging" LED. All visual user output must be performed through the TFT
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display.
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External LEDs could be added via the expansion headers on the side of the
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board, but as this would be a custom configuration, LEDs are not supported
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in this port.
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PWM
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===
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The Mikroe-STM32F4 has no real on-board PWM devices, but it does have PWM
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pins routed to the expansion I/O headers on the side of the board.
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UARTs
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=====
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The Mikroe-STM32F4 board has no onboard RS-232 line driver, however the
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expansion I/O header provides access to USART2 on pins PD5/PD6. The port
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includes support for USART2 configured as /dev/ttyS0.
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USART2
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------
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========== =====
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UART/USART PINS
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========== =====
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RX PD6
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TX PD5
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========== =====
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Default USART/UART Configuration
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--------------------------------
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USART2 is enabled in all configurations (see \*/defconfig). RX and TX are
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configured on pins PD6 and PD5, respectively (see include/board.h).
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Timer Inputs/Outputs
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====================
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::
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TIM1
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CH1 PA8, PE9
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CH2 PA9[1], PE11
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CH3 PA10[1], PE13
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CH4 PA11[1], PE14
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TIM2
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CH1 PA0[1], PA15, PA5[1]
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CH2 PA1, PB3[1]
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CH3 PA2, PB10[1]
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CH4 PA3, PB11
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TIM3
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CH1 PA6[1], PB4, PC6
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CH2 PA7[1], PB5, PC7[1]
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CH3 PB0, PC8
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CH4 PB1, PC9
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TIM4
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CH1 PB6[1], PD12[1]
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CH2 PB7, PD13[1]
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CH3 PB8, PD14[1]
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CH4 PB9[1], PD15[1]
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TIM5
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CH1 PA0[1], PH10[2]
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CH2 PA1, PH11[2]
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CH3 PA2, PH12[2]
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CH4 PA3, PI0
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TIM8
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CH1 PC6, PI5
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CH2 PC7[1], PI6
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CH3 PC8, PI7
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CH4 PC9, PI2
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TIM9
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CH1 PA2, PE5
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CH2 PA3, PE6
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TIM10
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CH1 PB8, PF6
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TIM11
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CH1 PB9[1], PF7
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TIM12
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CH1 PH6[2], PB14
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CH2 PC15, PH9[2]
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TIM13
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CH1 PA6[1], PF8
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TIM14
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CH1 PA7[1], PF9
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[1] Indicates pins that have other on-board functions and should be used only
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with care (See table 5 in the Mikroe-STM32F4 User Guide). The rest are
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free I/O pins.
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[2] Port H pins are not supported by the MCU
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MIO283QT-2/MIO283QT-9A
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======================
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The original Mikroe-SMT32F4 board as an on-board MIO283QT-2 TFT LCD that can
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be configured and used. This is a 320x240 resolution display with color
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capability to 262K colors, though the mio283qt-2 driver in NuttX only
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supports 16-bit color depth, or 65K colors. Changes to both the
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mio283qt-2 driver and the driver interface layer would need to be made
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to support 24 BPP mode.
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UPDATE: New boards now support a MIO283QT-9A TFT LCD that is not compatible
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with the MIO283QT-2. It uses a different LCD controller. The default in
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all of these configurations is the MIO283QT-2. But MIO283QT-9A is also
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supported and you can switch from the MIO283QT-2 to the MIO283QT-9A by simply
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modifying the NuttX configuration
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Configurations
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==============
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Each Mikroe-STM32F4 configuration is maintained in a sub-directory and
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can be selected as follow::
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tools/configure.sh mikroe-stm32f4:<subdir>
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If this is a Windows native build, then configure.bat should be used
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instead of configure.sh::
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configure.bat Mikroe-STM32F4\<subdir>
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Where <subdir> is one of the following:
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fulldemo
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--------
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This is an example that includes an NSH shell over USB that also
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enables all features of the Mikroe-STM32F4 board including the LCD,
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on-board 1M Flash with SMART filesystem, Aux RS-232 serial port on the
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expansion header, etc. A couple of the NX graphics commands are made
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available via the NSH prompt for performing LCD demonstrations, and the
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nximage example is used as a splash-screen at startup.
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kostest
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-------
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NOTE: This configuration compiles, but has not been fully tested
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on the hardware yet.
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This configuration directory, performs a simple OS test using
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apps/examples/ostest with NuttX build as a kernel-mode monolithic
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module and the user applications are built separately. Is
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is recommended to use a special make command; not just 'make' but
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make with the following two arguments::
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make pass1 pass2
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In the normal case (just 'make'), make will attempt to build both user-
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and kernel-mode blobs more or less interleaved. This actual works!
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However, for me it is very confusing so I prefer the above make command:
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Make the user-space binaries first (pass1), then make the kernel-space
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binaries (pass2)
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NOTES:
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1. This configuration uses the mconf-based configuration tool. To
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change this configuration using that tool, you should:
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a. Build and install the kconfig-mconf tool. See nuttx/README.txt
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see additional README.txt files in the NuttX tools repository.
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b. Execute 'make menuconfig' in nuttx/ in order to start the
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reconfiguration process.
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2. This is the default platform/toolchain in the configuration::
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CONFIG_HOST_WINDOWS=y : Windows
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CONFIG_WINDOWS_CYGWIN=y : Cygwin environment on Windows
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CONFIG_ARM_TOOLCHAIN_GNU_EABI=y : GNU EABI toolchain for Windows
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This is easily changed by modifying the configuration.
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3. At the end of the build, there will be several files in the top-level
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NuttX build directory::
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PASS1:
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nuttx_user.elf - The pass1 user-space ELF file
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nuttx_user.hex - The pass1 Intel HEX format file (selected in defconfig)
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User.map - Symbols in the user-space ELF file
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PASS2:
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nuttx - The pass2 kernel-space ELF file
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nuttx.hex - The pass2 Intel HEX file (selected in defconfig)
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System.map - Symbols in the kernel-space ELF file
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4. Combining .hex files. If you plan to use the STM32 ST-Link Utility to
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load the .hex files into FLASH, then you need to combine the two hex
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files into a single .hex file. Here is how you can do that.
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a. The 'tail' of the nuttx.hex file should look something like this
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(with my comments added)::
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$ tail nuttx.hex
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# 00, data records
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...
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:10 9DC0 00 01000000000800006400020100001F0004
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:10 9DD0 00 3B005A0078009700B500D400F300110151
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:08 9DE0 00 30014E016D0100008D
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# 05, Start Linear Address Record
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:04 0000 05 0800 0419 D2
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# 01, End Of File record
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:00 0000 01 FF
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Use an editor such as vi to remove the 05 and 01 records.
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b. The 'head' of the nuttx_user.hex file should look something like
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this (again with my comments added)::
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$ head nuttx_user.hex
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# 04, Extended Linear Address Record
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:02 0000 04 0801 F1
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# 00, data records
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:10 8000 00 BD89 01084C800108C8110208D01102087E
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:10 8010 00 0010 00201C1000201C1000203C16002026
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:10 8020 00 4D80 01085D80010869800108ED83010829
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...
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Nothing needs to be done here. The nuttx_user.hex file should
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be fine.
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c. Combine the edited nuttx.hex and un-edited nuttx_user.hex
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file to produce a single combined hex file::
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$ cat nuttx.hex nuttx_user.hex >combined.hex
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Then use the combined.hex file with the STM32 ST-Link tool. If
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you do this a lot, you will probably want to invest a little time
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to develop a tool to automate these steps.
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nsh
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---
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This is an NSH example that uses USART2 as the console. Note that
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the Mikroe-STM32F4 board doesn't actually have onboard line drivers
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or a connector for USART2, but it does route the USART2 signals to
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the expansion header. To use this demo, you would need to connect
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an external 3.3V RS-232 line driver to the USART's I/O lines on the
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expansion header.
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NOTE: This demo doesn't quite work yet. I can get output to the
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USART, but so far, I have not gotten nsh to actually come up.
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nx
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--
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An example using the NuttX graphics system (NX). This example
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focuses on general window controls, movement, mouse and keyboard
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input.::
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CONFIG_LCD_LANDSCAPE=y : 320x240 landscape orientation
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CONFIG_LCD_MIO283QT2=y : MIO283QT-2 is the default
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You can the newer MIO283QT-9A by enabling it in the configuration.::
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CONFIG_LCD_MIO283QT2=n : Disable the MIO283QT-2
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CONFIG_LCD_MIO283QT9A=y : Enable the MIO283QT-9A
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nxlines
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-------
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An example using the NuttX graphics system (NX). This example focuses on
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placing lines on the background in various orientations using the
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on-board TFT LCD.::
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CONFIG_LCD_LANDSCAPE=y : 320x240 landscape orientation
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CONFIG_LCD_MIO283QT2=y : MIO283QT-2 is the default
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You can the newer MIO283QT-9A by enabling it in the configuration.::
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CONFIG_LCD_MIO283QT2=n : Disable the MIO283QT-2
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CONFIG_LCD_MIO283QT9A=y : Enable the MIO283QT-9A
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nxtext
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------
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Another example using the NuttX graphics system (NX). This
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example focuses on placing text on the background while pop-up
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windows occur. Text should continue to update normally with
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or without the popup windows present.
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usbnsh
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-------
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This is another NSH example. If differs from other 'nsh' configurations
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in that this configurations uses a USB serial device for console I/O.
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Such a configuration is useful on the stm32f4discovery which has no
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builtin RS-232 drivers.
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NOTES:
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1. This configuration uses the mconf-based configuration tool. To
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change this configuration using that tool, you should:
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a. Build and install the kconfig-mconf tool. See nuttx/README.txt
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see additional README.txt files in the NuttX tools repository.
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b. Execute 'make menuconfig' in nuttx/ in order to start the
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reconfiguration process.
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2. By default, this configuration uses the ARM EABI toolchain
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for Windows and builds under Cygwin (or probably MSYS). That
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can easily be reconfigured, of course.::
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CONFIG_HOST_WINDOWS=y : Builds under Windows
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CONFIG_WINDOWS_CYGWIN=y : Using Cygwin
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CONFIG_ARM_TOOLCHAIN_GNU_EABI=y : GNU EABI toolchain for Windows
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3. This configuration does have UART2 output enabled and set up as
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the system logging device::
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CONFIG_SYSLOG_CHAR=y : Use a character device for system logging
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CONFIG_SYSLOG_DEVPATH="/dev/ttyS0" : UART2 will be /dev/ttyS0
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However, there is nothing to generate SYSLOG output in the default
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configuration so nothing should appear on UART2 unless you enable
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some debug output or enable the USB monitor.
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4. Enabling USB monitor SYSLOG output. If tracing is enabled, the USB
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device will save encoded trace output in in-memory buffer; if the
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USB monitor is enabled, that trace buffer will be periodically
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emptied and dumped to the system logging device (UART2 in this
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configuration)::
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CONFIG_USBDEV_TRACE=y : Enable USB trace feature
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CONFIG_USBDEV_TRACE_NRECORDS=128 : Buffer 128 records in memory
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CONFIG_NSH_USBDEV_TRACE=n : No builtin tracing from NSH
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CONFIG_NSH_ARCHINIT=y : Automatically start the USB monitor
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CONFIG_USBMONITOR=y : Enable the USB monitor daemon
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CONFIG_USBMONITOR_STACKSIZE=2048 : USB monitor daemon stack size
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CONFIG_USBMONITOR_PRIORITY=50 : USB monitor daemon priority
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CONFIG_USBMONITOR_INTERVAL=2 : Dump trace data every 2 seconds
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CONFIG_USBMONITOR_TRACEINIT=y : Enable TRACE output
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CONFIG_USBMONITOR_TRACECLASS=y
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CONFIG_USBMONITOR_TRACETRANSFERS=y
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CONFIG_USBMONITOR_TRACECONTROLLER=y
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CONFIG_USBMONITOR_TRACEINTERRUPTS=y
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5. By default, this project assumes that you are *NOT* using the DFU bootloader.
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Using the Prolifics PL2303 Emulation
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------------------------------------
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You could also use the non-standard PL2303 serial device instead of
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the standard CDC/ACM serial device by changing::
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CONFIG_CDCACM=y : Disable the CDC/ACM serial device class
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CONFIG_CDCACM_CONSOLE=y : The CDC/ACM serial device is NOT the console
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CONFIG_PL2303=y : The Prolifics PL2303 emulation is enabled
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CONFIG_PL2303_CONSOLE=y : The PL2303 serial device is the console
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