434 lines
16 KiB
Plaintext
434 lines
16 KiB
Plaintext
README
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======
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The NuttX configuration for the Olimex STM32-P407 is derives more or less
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directly from the Olimex STM32-P207 board support. The P207 and P407 seem
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to share the same board design. Other code comes from the STM3240G board
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support (which has the same crystal and clocking) and from the STM32 F4
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Discovery (which has the same STM32 part)
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Contents
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========
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o Board Support
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o microSD Card Interface
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o OTGFS Host
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o Configurations
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Board Support
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=============
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The following peripherals are available in this configuration.
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- LEDs: Show the sytem status
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- Buttons: TAMPER-button, WKUP-button, J1-Joystick (consists of RIGHT-,
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UP-, LEFT-, DOWN-, and CENTER-button).
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- ADC: ADC1 samples the red trim potentiometer AN_TR
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Built in app 'adc' works.
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- USB-FS-OTG: There is a USB-A-connector (host) connected to the full
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speed STM32 OTG inputs.
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- USB-HS-OTG: The other connector (device) is connected to the high speed
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STM32 OTG inputs.
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- CAN: Built in app 'can' works, but apart from that not really
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tested.
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- Ethernet: Ping to other station on the network works.
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- microSD: Not fully functional. See below.
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- LCD: Nokia 6610. This is similar the Nokia 6100 LCD used on other
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Olimex boards. There is a driver for that LCD at
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drivers/lcd/nokia6100.c, however, it is not properly
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integrated. It uses a 9-bit SPI interface which is difficult
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to get working properly.
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- External Support is included for the onboard SRAM. It uses SRAM
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SRAM: settings from another board that might need to be tweaked.
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Difficult to test because the SRAM conflicts with both
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RS232 ports.
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- Other: Buzzer, Camera, Temperature sensor, audio have not been
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tested.
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If so, then it requires a 9-bit
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microSD Card Interface
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======================
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microSD Connector
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-----------------
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----------------- ----------------- ------------------------
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SD/MMC CONNECTOR BOARD GPIO CONFIGURATION(s
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PIN SIGNAL SIGNAL (no remapping)
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--- ------------- ----------------- -------------------------
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1 DAT2/RES SD_D2/USART3_TX/ PC10 GPIO_SDIO_D2
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SPI3_SCK
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2 CD/DAT3/CS SD_D3/USART3_RX/ PC11 GPIO_SDIO_D3
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SPI3_MISO
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3 CMD/DI SD_CMD PD2 GPIO_SDIO_CMD
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4 VDD N/A N/A
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5 CLK/SCLK SD_CLK/SPI3_MOSI PC12 GPIO_SDIO_CK
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6 VSS N/A N/A
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7 DAT0/D0 SD_D0/DCMI_D2 PC8 GPIO_SDIO_D0
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8 DAT1/RES SD_D1/DCMI_D3 PC9 GPIO_SDIO_D1
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--- ------------- ----------------- -------------------------
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NOTES:
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1. DAT4, DAT4, DAT6, and DAT7 not connected.
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2. There are no alternative pin selections.
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3. There is no card detect (CD) GPIO input so we will not
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sense if there is a card in the SD slot or not. This will
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make usage very awkward.
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Configuration
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-------------
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Enabling SDIO-based MMC/SD support:
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System Type->STM32 Peripheral Support
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CONFIG_STM32_SDIO=y : Enable SDIO support
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CONFIG_STM32_DMA2=y : DMA2 is needed by the driver
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Device Drivers -> MMC/SD Driver Support
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CONFIG_MMCSD=y : Enable MMC/SD support
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CONFIG_MMSCD_NSLOTS=1 : One slot per driver instance
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# CONFIG_MMCSD_HAVE_CARDDETECT is not set : No card-detect GPIO
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# CONFIG_MMCSD_MMCSUPPORT is not set : Interferes with some SD cards
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# CONFIG_MMCSD_SPI is not set : No SPI-based MMC/SD support
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CONFIG_MMCSD_SDIO=y : SDIO-based MMC/SD support
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CONFIG_MMCSD_MULTIBLOCK_DISABLE=y : Disable to keep things simple
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CONFIG_SDIO_DMA=y : Use SDIO DMA
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# CONFIG_SDIO_BLOCKSETUP is not set : (not implemented)
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Library Routines
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CONFIG_SCHED_WORKQUEUE=y : Driver needs work queue support
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Application Configuration -> NSH Library
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CONFIG_NSH_ARCHINIT=y : NSH board-initialization
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Using the SD card
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-----------------
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1. Since there is no CD GPIO pin, the firmware sill not know if there is
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a card in the SD slot or not. It will assume that there is and attempt
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to mount the SD card on power-up. If there is no SD card in the card
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slot, there will be a long delay during initialization as the firmware
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attempts to query the non-existent card, timeout, and retry.
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2. After booting, an SDIO device will appear as /dev/mmcsd0
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3. If you try mounting an SD card with nothing in the slot, the
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mount will fail:
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nsh> mount -t vfat /dev/mmcsd0 /mnt/sdcard
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nsh: mount: mount failed: 19
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STATUS:
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-------
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2017-01-28: There is no card communication. All commands to the SD card timeout.
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OTGFS Host
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==========
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STM32 USB OTG FS Host Board Support
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-----------------------------------
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A USB-A-connector (host) is connected to the full speed STM32 inputs. These
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are the pins supported by the STM32:
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PIN SIGNAL DIRECTION
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---- ----------- ----------
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PA8 OTG_FS_SOF SOF clock output
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PA9 OTG_FS_VBUS VBUS input for device, Driven by external regulator by
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host (not an alternate function)
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PA10 OTG_FS_ID OTG ID pin (only needed in Dual mode)
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PA11 OTG_FS_DM D- I/O
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PA12 OTG_FS_DP D+ I/O
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These are the signals available on-board:
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OTG_FS_VBUS Used host VBUS sensing (device input only)
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OTG_FS_DM Data minus
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OTG_FS_DP Dta plus
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NOTE: PA10 is currently used for DCMI_D1. The USB OTGFS host will
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configure this as the ID input.
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VBUS power is provided via an LM3526 and driven by USB_FS_VBUSON:
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USB_FS_VBUSON PC2 power on output to LM3526 #ENA
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USB_FS_FAULT PB10 overcurrent input from LM3526 FLAG_A.
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STM32 USB OTG FS Host Driver Configuration
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------------------------------------------
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Pre-requisites
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CONFIG_USBDEV - Enable USB device support
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CONFIG_USBHOST - Enable USB host support
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CONFIG_STM32_OTGFS - Enable the STM32 USB OTG FS block
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CONFIG_STM32_SYSCFG - Needed
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CONFIG_SCHED_WORKQUEUE - Worker thread support is required
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STM32 Options:
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CONFIG_STM32_OTGFS_RXFIFO_SIZE - Size of the RX FIFO in 32-bit words.
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Default 128 (512 bytes)
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CONFIG_STM32_OTGFS_NPTXFIFO_SIZE - Size of the non-periodic Tx FIFO
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in 32-bit words. Default 96 (384 bytes)
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CONFIG_STM32_OTGFS_PTXFIFO_SIZE - Size of the periodic Tx FIFO in 32-bit
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words. Default 96 (384 bytes)
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CONFIG_STM32_OTGFS_DESCSIZE - Maximum size of a descriptor. Default: 128
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CONFIG_STM32_OTGFS_SOFINTR - Enable SOF interrupts. Why would you ever
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want to do that?
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CONFIG_STM32_USBHOST_REGDEBUG - Enable very low-level register access
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debug. Depends on CONFIG_DEBUG_FEATURES.
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CONFIG_STM32_USBHOST_PKTDUMP - Dump all incoming and outgoing USB
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packets. Depends on CONFIG_DEBUG_FEATURES.
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Olimex STM32 P407 Configuration:
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CONFIG_STM32F4DISCO_OLIMEXP407_PRIO - Priority of the USB host watier
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thread (default 100).
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CONFIG_STM32F4DISCO_OLIMEXP407_STACKSIZE - Stacksize of the USB host
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waiter thread (default 1024)
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Class Driver Configuration
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--------------------------
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Individual class drivers have additional configuration requirements. The
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USB mass storage class, for example, requires FAT file system support.
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CONFIG_USBHOST_MSC=y
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CONFIG_FS_FAT=y
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CONFIG_FAT_LCNAMES=y
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CONFIG_FAT_LFN=y
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CONFIG_FAT_MAXFNAME=32
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This will enable USB HID keyboard support:
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CONFIG_USBHOST_HIDKBD=y
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CONFIG_HIDKBD_BUFSIZE=64
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CONFIG_HIDKBD_DEFPRIO=50
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CONFIG_HIDKBD_POLLUSEC=100000
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CONFIG_HIDKBD_STACKSIZE=1024
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And this will enable the USB keyboard example:
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CONFIG_EXAMPLES_HIDKBD=y
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CONFIG_EXAMPLES_HIDKBD_DEFPRIO=50
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CONFIG_EXAMPLES_HIDKBD_DEVNAME="/dev/kbda"
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CONFIG_EXAMPLES_HIDKBD_STACKSIZE=1024
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STATUS: The MSC configurations seems fully functional. The HIDKBD seems rather
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flaky. Sometimes the LEDs become very bright (indicating that it is being
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swamped with interrupts). Data input is not clean with apps/examples/hidkbd:
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There are missing characters and sometimes duplicated characters. This implies
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some logic issues, probably in drivers/usbhost/usbhost_hidkbd, with polling and
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data filtering.
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Configurations
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==============
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Information Common to All Configurations
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----------------------------------------
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Each Olimex STM32-P407 configuration is maintained in a sub-directory and can be
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selected as follow:
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cd tools
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./configure.sh olimex-stm32-p407/<subdir>
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cd -
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Where <subdir> is one of the configuration sub-directories listed in the
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following section.
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Before building, make sure the PATH environment variable includes the
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correct path to the directory than holds your toolchain binaries.
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And then build NuttX by simply typing the following. At the conclusion of
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the make, the nuttx binary will reside in an ELF file called, simply, nuttx.
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make oldconfig
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make
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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 configurations 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. Serial Output
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This configuraiont produces all of its test output on the serial
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console. This configuration has USART3 enabled as a serial console.
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This is the connector labeled RS232_2. This can easily be changed
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by reconfiguring with 'make menuconfig'.
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3. Toolchain
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By default, the host platform is set to be Linux using the NuttX
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buildroot toolchain. The host and/or toolchain selection can easily
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be changed with 'make menuconfig'.
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4. Note that CONFIG_STM32_DISABLE_IDLE_SLEEP_DURING_DEBUG is enabled so
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that the JTAG connection is not disconnected by the idle loop.
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Configuration sub-directories
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-----------------------------
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The <subdir> that is provided above as an argument to the tools/configure.sh
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must be is one of the following.
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knsh:
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This is identical to the nsh configuration below except that NuttX
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is built as a PROTECTED mode, monolithic module and the user applications
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are built separately.
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It is recommends to use a special make command; not just 'make' but make
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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. That 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. 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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The J-Link programmer will except files in .hex, .mot, .srec, and .bin
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formats.
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2. Combining .hex files. If you plan to use the .hex files with your
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debugger or FLASH utility, then you may 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 to write the FLASH image.
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If 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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This is the NuttShell (NSH) using the NSH startup logic at
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apps/examples/nsh.
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NOTES:
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1. USB host support for USB FLASH sticks is enbabled. See the notes
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above under "OTGFS Host".
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STATUS: I have seen this work with some FLASH sticks but not with
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others. I have not studied the failure case carefully. They seem
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to fail because the request is NAKed. That is not a failure, however,
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that is normal behavior when the FLASH is not ready.
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There have been other cases like this with the STM32 host drivers:
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in the event of NAKs, other drivers retry and wait for the data. The
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STM32 does not but returns the NAK failure immediately. My guess is
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that there needs to be be some retry logic to the driver 100%
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reliable.
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2. Kernel Modules / Shared Libraries
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I used this configuration for testing NuttX kernel modules in the
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FLAT build with the following configuration additions to the
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configuration file:
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CONFIG_BOARDCTL_OS_SYMTAB=y
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CONFIG_EXAMPLES_MODULE=y
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CONFIG_EXAMPLES_MODULE_BUILTINFS=y
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CONFIG_EXAMPLES_MODULE_DEVMINOR=0
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CONFIG_EXAMPLES_MODULE_DEVPATH="/dev/ram0"
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CONFIG_FS_ROMFS=y
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CONFIG_LIBC_ARCH_ELF=y
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CONFIG_MODULE=y
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CONFIG_LIBC_MODLIB=y
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CONFIG_MODLIB_ALIGN_LOG2=2
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CONFIG_MODLIB_BUFFERINCR=32
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CONFIG_MODLIB_BUFFERSIZE=128
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Add the following for testing shared libraries in the FLAT
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build:
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CONFIG_LIBC_DLLFCN=y
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CONFIG_EXAMPLES_SOTEST=y
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CONFIG_EXAMPLES_SOTEST_BUILTINFS=y
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CONFIG_EXAMPLES_SOTEST_DEVMINOR=1
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CONFIG_EXAMPLES_SOTEST_DEVPATH="/dev/ram1"
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STATUS
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======
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2016-12-21: This board configuration was ported from the Olimex STM32 P207
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port. Note that none of the above features have been verified. USB, CAN,
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ADC, and Ethernet are disabled in the base NSH configuration until they
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can be verified. These features should be functional but may required
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some tweaks due to the different clock configurations. The Olimex STM32
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P207 nsh/defconfig would be a good starting place for restoring these
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feature configurations.
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CCM memory is not included in the heap (CONFIG_STM32_CCMEXCLUDE=y) because
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it does not suport DMA, leaving only 128KiB for program usage.
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2107-01-23: Added the knsh configuration and support for the PROTECTED
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build mode.
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