5889a2397c
Squashed commit of the following: arch/arm/src/imxrt: Fix some first time compile issues. arch/arm/src/imxrt: This brings the RTC implement to code complete but still untested. arch/arm/src/imxrt: Add some RTC initialization logic. arch/arm/src/imxrt: Flesh out most of the RTC driver lower half and LPSRTC support. arch/arm/src/imxrt: Some inital, partial implementation of the HPRTC and LPSRTC. arch/arm/src/imxrt: Add HPSRTC/HPRTC file framework (no logic, just skeleton files). arch/arm/src/imxrt: Add HPRTC header file. Some initial configuration logic for SNVS LPRTC and HP RTC.
298 lines
10 KiB
Plaintext
298 lines
10 KiB
Plaintext
README
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======
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This README file provides information about the port of NuttX to the NXP
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i.MXRT evaluation kit, MIMXRT1050-EVKB. This board features the
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MIMXRT1052DVL6A MCU. Some of the features of this board include:
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o Processor
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- MIMXRT1052DVL6A processor
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o Memory
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- 256 Mb SDRAM memory
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- 512 Mb Hyper Flash
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- Footprint for QSPI Flash
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- TF socket for SD card
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o Display and Audio
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- Parallel LCD connector
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- Camera connector
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- Audio CODEC
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- 4-pole audio headphone jack
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- External speaker connection
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- Microphone
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- SPDIF connector
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o Connectivity
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- Micro USB host and OTG connectors
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- Ethernet (10/100T) connector
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- CAN transceivers
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- Arduino® interface
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Contents
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========
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o Serial Console
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o LEDs and buttons
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o Configurations
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- Configuration sub-directories
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Serial Console
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==============
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Virtual console port provided by OpenSDA:
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UART1_TXD GPIO_AD_B0_12 LPUART1_TX
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UART1_RXD GPIO_AD_B0_13 LPUART1_RX
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Arduino RS-232 Shield:
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J22 D0 UART_RX/D0 GPIO_AD_B1_07 LPUART3_RX
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J22 D1 UART_TX/D1 GPIO_AD_B1_06 LPUART3_TX
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LEDs and buttons
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================
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LEDs
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----
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There are four LED status indicators located on the EVK Board. The
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functions of these LEDs include:
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- Main Power Supply(D3)
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Green: DC 5V main supply is normal.
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Red: J2 input voltage is over 5.6V.
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Off: The board is not powered.
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- Reset RED LED(D15)
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- OpenSDA LED(D16)
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- USER LED(D18)
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Only a single LED, D18, is under software control. It connects to
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GPIO_AD_B0_09 which is shared with JTAG_TDI and ENET_RST
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This LED is not used by the board port unless CONFIG_ARCH_LEDS is
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defined. In that case, the usage by the board port is defined in
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include/board.h and src/imxrt_autoleds.c. The LED is used to encode
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OS-related events as follows:
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------------------- ----------------------- ------
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SYMBOL Meaning LED
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------------------- ----------------------- ------
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LED_STARTED NuttX has been started OFF
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LED_HEAPALLOCATE Heap has been allocated OFF
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LED_IRQSENABLED Interrupts enabled OFF
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LED_STACKCREATED Idle stack created ON
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LED_INIRQ In an interrupt N/C
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LED_SIGNAL In a signal handler N/C
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LED_ASSERTION An assertion failed N/C
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LED_PANIC The system has crashed FLASH
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Thus if the LED is statically on, NuttX has successfully booted and is,
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apparently, running normally. If the LED is flashing at approximately
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2Hz, then a fatal error has been detected and the system has halted.
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Buttons
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-------
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There are four user interface switches on the MIMXRT1050 EVK Board:
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- SW1: Power Switch (slide switch)
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- SW2: ON/OFF Button
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- SW3: Reset button
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- SW8: User button
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Only the user button is available to the software. It is sensed on the
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WAKEUP pin which will be pulled low when the button is pressed.
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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 i.MX RT 10050 configuration is maintained in a sub-directory and
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can be selected as follow:
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tools/configure.sh [OPTIONS] imxrt1050-evk/<subdir>
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Where typical options are -l to configure to build on Linux or -c to
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configure for Cygwin under Linux. 'tools/configure.sh -h' will show
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you all of the options.
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Before building, make sure the PATH environment variable include 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
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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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NOTES:
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1. These configurations use the mconf-based configuration tool. To
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change any of these 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. Unless stated otherwise, all configurations generate console
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output on UART3 (i.e., for the Arduino serial shield).
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3. All of these configurations are set up to build under Windows using the
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"GNU Tools for ARM Embedded Processors" that is maintained by ARM
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(unless stated otherwise in the description of the configuration).
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https://developer.arm.com/open-source/gnu-toolchain/gnu-rm
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That toolchain selection can easily be reconfigured using
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'make menuconfig'. Here are the relevant current settings:
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Build Setup:
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CONFIG_HOST_WINDOWS=y : Window environment
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CONFIG_WINDOWS_CYGWIN=y : Cywin under Windows
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System Type -> Toolchain:
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CONFIG_ARMV7M_TOOLCHAIN_GNU_EABIW=y : GNU ARM EABI toolchain
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Configuration sub-directories
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-----------------------------
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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. It is recommends to use a special make command;
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not just 'make' but 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. 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 'configs/samv71-xult/knsh/defconfigtail' of the nuttx.hex file should look something like this
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(with my comments added beginning with #):
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$ tail nuttx.hex
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#xx xxxx 00 data records
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...
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:10 C93C 00 000000000040184000C2010000000000 90
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:10 C94C 00 2400080000801B4000C01B4000001C40 5D
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:10 C95C 00 00401C4000000C4050BF0060FF000100 74
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#xx xxxx 05 Start Linear Address Record
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:04 0000 05 6000 02C1 D4
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#xx xxxx 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 beginning with #):
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$ head nuttx_user.hex
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#xx xxxx 04 Extended Linear Address Record
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:02 0000 04 6020 7A
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#xx xxxx 00 data records
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:10 0000 00 8905206030002060F2622060FC622060 80
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:10 0010 00 0000242008002420080024205C012420 63
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:10 0020 00 140024203D0020603100206071052060 14
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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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STATUS: This configuration was added on 8 June 2018 primarily to assure
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that all of the components are in place to support the PROTECTED mode
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build. This configuration, however, has not been verified as of this
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writing.
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netnsh:
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This configuration is similar to the nsh configuration except that is
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has networking enabled, both IPv4 and IPv6. This NSH configuration is
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focused on network-related testing.
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NOTES:
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1. LED support is disabled because there is a conflict between the LED
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GPIO and PHY pin usage.
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2. Telnet is enabled. But since both IPv4 and IPv6 are enabled, it
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will default to IPv6. That means that to connect a Telnet session
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from a PC, you will need to use the IPv6 address which by defaault
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is:
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telnet fc00::2
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Or, disable IPv4 support so that only IPv4 addressing is used.
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3. The network monitor is not enabled in this configuration. As a
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result, the Ethernet cable must be connected when the board is
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powered up. Otherwise, it will stall for a long period of time
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before the NSH prompt appears and you will not be able to used
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the board.
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The following configuration options should be added to your
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configuration in order to use the network monitor:
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CONFIG_IMXRT_ENET_PHYINIT=y
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CONFIG_IMXRT_GPIO1_0_15_IRQ=y
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CONFIG_IMXRT_GPIO_IRQ=y
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CONFIG_NETDEV_IOCTL=y
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CONFIG_NETDEV_PHY_IOCTL=y
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CONFIG_NSH_NETINIT_MONITOR=y
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CONFIG_NSH_NETINIT_RETRYMSEC=2000
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CONFIG_NSH_NETINIT_SIGNO=18
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CONFIG_NSH_NETINIT_THREAD=y
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CONFIG_NSH_NETINIT_THREAD_PRIORITY=80
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CONFIG_NSH_NETINIT_THREAD_STACKSIZE=1568
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nsh:
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Configures the NuttShell (nsh) located at examples/nsh. This NSH
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configuration is focused on low level, command-line driver testing.
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Built-in applications are supported, but none are enabled. This
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configuration does not support a network.
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