335 lines
12 KiB
Plaintext
335 lines
12 KiB
Plaintext
README.txt
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==========
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This is the README file for the port of NuttX to the NuvoTon
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NuTiny-SDK-NUC120 board. This board has the NUC120LE3AN chip
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with a built-in NuLink debugger.
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Contents
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========
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- Development Environment
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- GNU Toolchain Options
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- NuttX Buildroot Toolchain
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- LEDs
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- Serial Console
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- Debugging
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- NuTiny-specific Configuration Options
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- Configurations
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Development Environment
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=======================
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Either Linux or Cygwin on Windows can be used for the development environment.
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The source has been built only using the GNU toolchain (see below). Other
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toolchains will likely cause problems.
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GNU Toolchain Options
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=====================
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As of this writing, all testing has been performed using the NuttX buildroot
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toolchain described below. I have also verified the build using the
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CodeSourcery GCC toolchain for windows. Most any contemporary EABI GCC
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toolchain should work will a little tinkering.
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NuttX Buildroot Toolchain
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=========================
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A GNU GCC-based toolchain is assumed. The PATH environment variable should
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be modified to point to the correct path to the Cortex-M0 GCC toolchain (if
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different from the default in your PATH variable).
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If you have no Cortex-M0 toolchain, one can be downloaded from the NuttX
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Bitbucket download site (https://bitbucket.org/nuttx/buildroot/downloads/).
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This GNU toolchain builds and executes in the Linux or Cygwin environment.
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1. You must have already configured NuttX in <some-dir>/nuttx.
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tools/configure.sh nutiny-nuc120:<sub-dir>
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2. Download the latest buildroot package into <some-dir>
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3. unpack the buildroot tarball. The resulting directory may
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have versioning information on it like buildroot-x.y.z. If so,
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rename <some-dir>/buildroot-x.y.z to <some-dir>/buildroot.
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4. cd <some-dir>/buildroot
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5. cp boards/cortexm0-eabi-defconfig-4.6.3 .config
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6. make oldconfig
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7. make
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8. Make sure that the PATH variable includes the path to the newly built
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binaries.
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See the file boards/README.txt in the buildroot source tree. That has more
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details PLUS some special instructions that you will need to follow if you are
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building a Cortex-M0 toolchain for Cygwin under Windows.
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LEDs
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====
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The NuTiny has a single green LED that can be controlled from software.
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This LED is connected to PIN17. It is pulled high so a low value will
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illuminate the LED.
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If CONFIG_ARCH_LEDs is defined, then NuttX will control the LED on board the
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NuTiny. The following definitions describe how NuttX controls the LEDs:
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SYMBOL Meaning LED state
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Initially all LED is OFF
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------------------- ----------------------- ------------- ------------
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LED_STARTED NuttX has been started LED ON
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LED_HEAPALLOCATE Heap has been allocated LED ON
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LED_IRQSENABLED Interrupts enabled LED ON
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LED_STACKCREATED Idle stack created LED ON
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LED_INIRQ In an interrupt LED should glow
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LED_SIGNAL In a signal handler LED might glow
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LED_ASSERTION An assertion failed LED ON while handling the assertion
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LED_PANIC The system has crashed LED Blinking at 2Hz
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LED_IDLE NUC1XX is in sleep mode (Optional, not used)
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Serial Console
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==============
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As with most NuttX configurations, the NuTiny-SKD-NUC120 configurations
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depend on having a serial console to interact with the software. The
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NuTiny-SDK-NUC120, however, has not on-board RS-232 drivers so will be
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necessary to connect the NuTiny-SDK-NUC120 UART pins to an external
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RS-232 driver board or TTL-to-Serial USB adaptor.
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By default UART1 is used as the serial console on these boards. NUC120LE3AN
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is provided as an LQFP48 package and, for this case, the UART1 RX signal
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(RXD1) is on PB.4, pin 8, and the TX signal (TXD1) is on PB.5, pin 9.
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These pins are available on the NuTiny-SDC-NUC120 JP5.
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NOTE: The TX vs RX labeling may be confusing. On one RS-232 driver board,
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I had to connect the NUC120 TXD0 pin to the driver boards RXD pin. How
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confusing!
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UART0 is an alternative that can be selected by modifying the default
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configuration. UART0 RX (RXD0) is on PB.0, pin 17, and the TX signal (TXD0)
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is on PB.1, pin 18. These pins are available on the NuTiny-SDC-NUC120 JP1.
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NOTE: PB.0, pin 17, is also used to control the user LED on board (labeled
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"IO"). CONFIG_ARCH_LED should not be selected if UART0 is used.
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The NUC120LE3AN does not support UART2.
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Debugging
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=========
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The NuTiny-SDK-NUC120 includes a built-in NuLink debugger. Unfortunately,
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full debug support is available only with the Keil and IAR toolchains.
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There is, however, a free program called ICP (In-Circuit Programmer). It
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can be used to burn programs into FLASH (aka APROM).
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The ICP program can also be used to burn an ISP program into LDROM. The
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ISP (In-System Programmer) is available free from the Nuvton website.
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Then NuttX build does not set the configuration words at 0x0030000-0x00300004.
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You should uncheck the Config box when burning APROM or the previous contents
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of the configuration words will be erased.
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NuTiny-specific Configuration Options
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=====================================
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CONFIG_ARCH - Identifies the arch/ subdirectory. This should
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be set to:
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CONFIG_ARCH=arm
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CONFIG_ARCH_family - For use in C code:
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CONFIG_ARCH_ARM=y
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CONFIG_ARCH_architecture - For use in C code:
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CONFIG_ARCH_CORTEXM0=y
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CONFIG_ARCH_CHIP - Identifies the arch/*/chip subdirectory
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CONFIG_ARCH_CHIP=nuc1xx
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CONFIG_ARCH_CHIP_name - For use in C code to identify the exact
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chip:
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CONFIG_ARCH_CHIP_NUC120LE3AN=y
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CONFIG_ARCH_BOARD - Identifies the boards/ subdirectory and
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hence, the board that supports the particular chip or SoC.
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CONFIG_ARCH_BOARD=nutiny-nuc120 (for the NuTiny-SDK-NUC120 development board)
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CONFIG_ARCH_BOARD_name - For use in C code
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CONFIG_ARCH_BOARD_NUTINY_NUC120=y
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CONFIG_ARCH_LOOPSPERMSEC - Must be calibrated for correct operation
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of delay loops
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CONFIG_ENDIAN_BIG - define if big endian (default is little
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endian)
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CONFIG_RAM_SIZE - Describes the installed DRAM (SRAM in this case):
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CONFIG_RAM_SIZE=16384 (16Kb)
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CONFIG_RAM_START - The start address of installed DRAM
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CONFIG_RAM_START=0x20000000
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CONFIG_ARCH_LEDS - Use LEDs to show state. Unique to boards that
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have LEDs
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CONFIG_ARCH_INTERRUPTSTACK - This architecture supports an interrupt
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stack. If defined, this symbol is the size of the interrupt
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stack in bytes. If not defined, the user task stacks will be
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used during interrupt handling.
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CONFIG_ARCH_STACKDUMP - Do stack dumps after assertions
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CONFIG_ARCH_LEDS - Use LEDs to show state. Unique to board architecture.
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Individual subsystems can be enabled as follows. These settings are for
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all of the NUC100/120 line and may not be available for the NUC120LE3AN
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in particular:
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AHB
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---
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CONFIG_NUC_PDMA Peripheral DMA
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CONFIG_NUC_FMC Flash memory
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CONFIG_NUC_EBI External bus interface
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APB1
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----
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CONFIG_NUC_WDT Watchdog timer
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CONFIG_NUC_RTC Real time clock (RTC)
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CONFIG_NUC_TMR0 Timer0
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CONFIG_NUC_TMR1 Timer1
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CONFIG_NUC_I2C0 I2C interface
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CONFIG_NUC_SPI0 SPI0 master/slave
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CONFIG_NUC_SPI1 SPI1 master/slave
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CONFIG_NUC_PWM0 PWM0
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CONFIG_NUC_PWM1 PWM1
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CONFIG_NUC_PWM2 PWM2
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CONFIG_NUC_PWM3 PWM3
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CONFIG_NUC_UART0 UART0
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CONFIG_NUC_USBD USB 2.0 FS device controller
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CONFIG_NUC_ACMP Analog comparator
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CONFIG_NUC_ADC Analog-digital-converter (ADC)
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APB2
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---
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CONFIG_NUC_PS2 PS/2 interface
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CONFIG_NUC_TIMR2 Timer2
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CONFIG_NUC_TIMR3 Timer3
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CONFIG_NUC_I2C1 I2C1 interface
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CONFIG_NUC_SPI2 SPI2 master/slave
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CONFIG_NUC_SPI3 SPI3 master/slave
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CONFIG_NUC_PWM4 PWM4
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CONFIG_NUC_PWM5 PWM5
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CONFIG_NUC_PWM6 PWM6
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CONFIG_NUC_PWM7 PWM7
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CONFIG_NUC_UART1 UART1
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CONFIG_NUC_UART2 UART2
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CONFIG_NUC_I2S I2S interface
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NUC1XX specific device driver settings
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CONFIG_UARTn_SERIAL_CONSOLE - Selects the UARTn (n=0,1,2) for the
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console and ttys0.
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CONFIG_UARTn_RXBUFSIZE - Characters are buffered as received.
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This specific the size of the receive buffer for UARTn.
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CONFIG_UARTn_TXBUFSIZE - Characters are buffered before
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being sent. This specific the size of the transmit buffer
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for UARTn.
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CONFIG_UARTn_BAUD - The configure BAUD of UARTn,
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CONFIG_UARTn_BITS - The number of bits. Must be 5, 6, 7, or 8.
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CONFIG_UARTn_PARTIY - 0=no parity, 1=odd parity, 2=even parity
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CONFIG_UARTn_2STOP - Two stop bits
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Configurations
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==============
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Each NuTiny-SDK-NUC120 configuration is maintained in a sub-directory and
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can be selected as follow:
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tools/configure.sh nutiny-nuc120:<subdir>
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Where <subdir> is one of the following:
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nsh:
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---
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Configures the NuttShell (nsh) located at apps/examples/nsh. The
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Configuration enables the serial interfaces on UART1. Support for
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builtin applications is disabled.
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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_ARMV7M_TOOLCHAIN_GNU_EABIW=y : GNU EABI toolchain for Windows
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3. Serial Console. A serial console is necessary to interrupt with
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NSH. The serial console is configured on UART1 which is available
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on JP5:
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UART1 RX signal (RXD1) is on PB.4, pin 8, and
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UART1 TX signal (TXD1) is on PB.5, pin 9.
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It is possible to configure NSH to use a USB serial console instead
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of an RS-232 serial console. However, that configuration has not
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been impelmented as of this writing.
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4. Memory Usage. The size command gives us the static memory usage.
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This is what I get:
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$ size nuttx
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text data bss dec hex filename
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35037 106 1092 36235 8d8b nuttx
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And we can get the runtime memory usage from the NSH free command:
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NuttShell (NSH) NuttX-6.25
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nsh> free
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total used free largest
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Mem: 14160 3944 10216 10216
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nsh>
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Summary:
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- This slightly tuned NSH example uses 34.2KB of FLASH leaving 93.8KB
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of FLASH (72%) free from additional application development.
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I did not do all of the arithmetic, but it appears to me that of this
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34+KB of FLASH usage, probably 20-30% of the FLASH is used by libgcc!
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libgcc has gotten very fat!
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- Static SRAM usage is about 1.2KB (<4%).
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- At run time, 10.0KB of SRAM (62%) is still available for additional
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applications. Most of the memory used at runtime is allocated I/O
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buffers and the stack for the NSH main thread (1.5KB).
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There is probably enough free memory to support 3 or 4 application
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threads in addition to NSH.
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