nuttx/boards/arm/kinetis/twr-k64f120m
chao.an b88561299b make/expression: improving up asm/C/C++ compile times
In the current compilation environment, the recursive assignment(=) for compile
flags will be delayed until every file is actually need to be compile.

For example:
--------------------------------------------------------------------------------
arch/arm/src/Makefile:

INCLUDES += ${shell $(INCDIR) "$(CC)" $(ARCH_SRCDIR)$(DELIM)chip}
INCLUDES += ${shell $(INCDIR) "$(CC)" $(ARCH_SRCDIR)$(DELIM)common}
INCLUDES += ${shell $(INCDIR) "$(CC)" $(ARCH_SRCDIR)$(DELIM)$(ARCH_SUBDIR)}
INCLUDES += ${shell $(INCDIR) "$(CC)" $(TOPDIR)$(DELIM)sched}

CPPFLAGS += $(INCLUDES) $(EXTRAFLAGS)
CFLAGS += $(INCLUDES) $(EXTRAFLAGS)
CXXFLAGS += $(INCLUDES) $(EXTRAFLAGS)
AFLAGS += $(INCLUDES) $(EXTRAFLAGS)
--------------------------------------------------------------------------------

All compilation options will be included recursively,
which will be delayed until the compilation options are actually used:

tools/Config.mk:

--------------------------------------------------------------------------------
define COMPILE
  @echo "CC: $1"
  $(Q) $(CC) -c $(CFLAGS) $($(strip $1)_CFLAGS) $1 -o $2
endef
--------------------------------------------------------------------------------

All compile flags to be reexecuted $(INCDIR) as long as one file needs to be compiled,
but in fact, the compilation options have not changed in the current directory.

So the we recommand to change the syntax of assignment
From
    Recursive (=)
To
    Simple    (:=)

In this way, we can ensure that all compilation options are expanded only once and reducing repeated works.

Signed-off-by: chao.an <anchao@xiaomi.com>
2020-11-02 07:53:53 -08:00
..
configs libc/stdio: Allocate file_struct dynamically 2020-09-11 17:58:17 +08:00
include Fix typos in comments and documentation (#750) 2020-04-08 06:45:35 -06:00
scripts make/expression: improving up asm/C/C++ compile times 2020-11-02 07:53:53 -08:00
src build: Remove the empty variable assignment 2020-05-24 08:24:13 -06:00
Kconfig
README.txt

README.txt
==========

This is the README file for the port of NuttX to the Freescale Kinetis
TWR-K64F120M.  Refer to the Freescale web site for further information
about this part:

www.nxp.com/products/sensors/accelerometers/3-axis-accelerometers/kinetis-k64-mcu-tower-system-module:TWR-K64F120M

The board may be complemented by TWR-SER which includes (among other things), an RS232 and Ethernet connections:

http://www.nxp.com/pages/serial-usb-ethernet-can-rs232-485-tower-system-module:TWR-SER

Contents
========

  o Kinetis TWR-K64F120M Features
  o Kinetis TWR-K64F120M Pin Configuration
    - On-Board Connections
    - Connections via the General Purpose Tower Plug-in (TWRPI) Socket
    - Connections via the Tower Primary Connector Side A
    - Connections via the Tower Primary Connector Side B
    - TWR-SER Serial Board Connection
  o LEDs
  o TWR-K64F120M-specific Configuration Options
  o Configurations

Kinetis TWR-K64F120M Features:
=============================

  o K64N1M in 144 MAPBGA, MK64FN1M0VMD12
  o Integrated, Open-SDA serial, flash and debug through USB
  o SD Card Slot
  o MMA7660 3-axis accelerometer
  o Tower Plug-In (TWRPI) Socket for expansion (sensors, etc.)
  o Touch TWRPI Socket adds support for various capacitive touch boards
    (e.g. keypads, rotary dials, sliders, etc.)
  o Tower connectivity for access to USB, Ethernet, RS232/RS485, CAN, SPI,
    I²C, Flexbus, etc.
  o Plus: Potentiometer, 4 LEDs, 2 pushbuttons, accelerometer, RTC battery

Kinetis TWR-K64F120M Pin Configuration
======================================

On-Board Connections
-------------------- ------------------------- -------- -------------------
FEATURE              CONNECTION                PORT/PIN PIN FUNCTION
-------------------- ------------------------- -------- -------------------
OSJTAG USB-to-serial OSJTAG Bridge RX Data     PTC3     UART1_RX
Bridge               OSJTAG Bridge TX Data     PTC4     UART1_TX
SD Card Slot         SD Clock                  PTE2     SDHC0_DCLK
                     SD Command                PTE3     SDHC0_CMD
                     SD Data0                  PTE1     SDHC0_D0
                     SD Data1                  PTE0     SDHC0_D1
                     SD Data2                  PTE5     SDHC0_D2
                     SD Data3                  PTE4     SDHC0_D3
                     SD Card Detect            PTB20    PTB20
                     SD Write Protect          PTB21    PTB21
Micro-USB            K64_MICRO_USB_DN          USB0_DN
                     K64_MICRO_USB_DP          USB0_DP
                     K64_USB_ID_J              PTE12
                     K64_USB_FLGA              PTC8
                     K64_USB_ENABLE            PTC9
Pushbuttons          SW1 (LLWU_P10)            PTC6     PTC6
                     SW2 (RSTIN_B_R)           RSTIN    RESET
                     SW3 (NMI B)               PTA4     PTA4
LEDs                 D5 / Green LED            PTE6     PTE6
                     D6 / Yellow LED           PTE7     PTE7
                     D7 / Orange LED           PTE8     PTE8
                     D9 / Blue LED             PTE9     PTE9
Potentiometer        Potentiometer (R526)      ?        ADC1_SE18
Accelerometer        I2C SDA                   PTC11    I2C1_SDA
                     I2C SCL                   PTC10    I2C1_SCL
                     INT1                      PTA6     PTA6
                     INT2                      PTA8     PTA8

SDHC important notice: on TWR-K64F120M, R521 (close to the SD card holder) is not placed,
hence WRPROTEC is always ON. Either place a 4.7KOhm resistor or change PIN config
to PULLDOWN, losing Write Protect function. See twrk64.h.

Connections via the General Purpose Tower Plug-in (TWRPI) Socket
-------------------- ------------------------- -------- -------------------
FEATURE              CONNECTION                PORT/PIN PIN FUNCTION
-------------------- ------------------------- -------- -------------------
General Purpose      TWRPI ADC0 (J4 Pin 8)     ?        ADC1_SE16/ADC0_SE22
TWRPI Socket         TWRPI_ADC1 (J4 Pin 9)     ?        ADC0_SE16/ADC0_SE21
                     TWRPI_ADC2 (J4 Pin 12)    ?        ADC1_DP0/ADC0_DP3
                     TWRPI_ID0 (J4 Pin 17)     ?        ADC0_DP0/AD1_DP3
                     TWRPI_ID1 (J4 Pin 18)     ?        ADC0_DM0/ADC1_DM3
                     TWRPI I2C SCL (J3 Pin 3)  PTC10    I2C1_SCL
                     TWRPI I2C SDA (J3 Pin 4)  PTC11    I2C1_SDA
                     SPI1_SOUT (J3 Pin 10)     PTB16    ?
                     SPI1_PCS0 (J3 Pin 11)     PTB10    PTB10
                     SPI1_SCK (J3 Pin 12)      PTB11    ?
                     TWRPI_GPIO0 (J3 Pin 15)   PTB3     PTB3
                     TWRPI GPIO1 (J3 Pin 16)   PTC0     PTC0
                     TWRPI GPIO2 (J3 Pin 17)   PTC16    PTC16
                     TWRPI GPIO3 (J3 Pin 18)   PTC17    PTC17
                     TWRPI GPIO4 (J3 Pin 19)   PTC18    PTC18
                     TWRPI GPIO5 (J3 Pin 20)   PTC19    PTC19

The TWR-K64F120M features two expansion card-edge connectors that interface
to the Primary and Secondary Elevator boards in a Tower system. The Primary
Connector (comprised of sides A and B) is identified by a white strip.
The Secondary Connector is comprised of sides C and D.


TWR-SER Serial Board Connection
===============================

The serial board connects into the tower and then maps to the tower pins to
yet other functions (see TWR-SER-SCH.pdf).

In particular it features an Ethernet port.

Networking Support
==================

  U2 is a 25 MHz oscillator (which may be disabled by setting J4), which clock is sent to U1.
  U1 has two clock output banks: 25MHz (CLKBx) and 50MHz (CLKAx).
  J2 (set board) is used to select the PHY clock source: 50MHz, 25MHz or CLCKOUT0 from K64. Set it to 25MHz.
  In order to keep synchornized the PHY clock with the K64 clock, one can set J3 (default is open)
  to route CLOCKIN0 either from 25MHz or 50Mhz lines. In that case, J33 (main board) will have to be removed
  and J32 (main board set) set to disable its 50MHz_OSC and use CLKIN0 provided by set board.
  J12 is by default set to RMII mode. In this case J2 should be placed to 50MHz clock
  Note that in MII mode, MII0_TXER is required by kinetis driver, but not connected on set board

  Ethernet MAC/KSZ8041NL PHY
  --------------------------
  ------------ ---------------------------------------------------------- ------------------------------ -------------------------------
  KSZ8041      TWR Board Signal(s)                                        K64F Pin                       Pin name
  Pin Signal                                                              Function                       MII              RMII
  --- -------- ---------------------------------------------------------- ------------------------------ -------------------------------
   9  REFCLK   CLK_SEL J2: CLOCKOUT0/25MHz/50MHz, PHY clock input         PTC3/CLKOUT                    ---            direct to PHY
  11  MDIO     FEC_MDIO                                                   PTB0/RMII0_MDIO/MII0_MDIO      PIN_MII0_MDIO  PIN_RMII0_MDIO
  12  MDC      FEC_MDC                                                    PTB1/RMII0_MDC/MII0_MDC        PIN_MII0_MDC   PIN_RMII0_MDC
  13  PHYAD0   FEC_RXD3 J12: PHY Address select (pull-down if set)         PTA9/MII0_RXD3                 PIN_RMII0_RXD3 ---
  14  PHYAD1   FEC_RXD2 J12: PHY Address select (pull-up if set)           PTA10/MII0_RXD2                PIN_RMII0_RXD2 ---
  15  PHYAD2   FEC_RXD1 J12: PHY Address select (pull-up if set)           PTA12/RMII0_RXD1/MII0_RXD1     PIN_MII0_RXD1  PIN_RMII0_RXD1
  16  DUPLEX   FEC_RXD0 J12: Half-duplex (pull-down if set)               PTA13/RMII0_RXD0/MII0_RXD0     PIN_MII0_RXD0  PIN_RMII0_RXD0
  18  CONFIG2  FEC_RXDV J12: Loopback select (pull-up if set)             PTA14/RMII0_CRS_DV/MII0_RXDV   PIN_MII0_RXDV  PIN_RMII0_CRS_DV
  19  RXC      FEC_RXCLK                                                  PTA11/MII0_RXCLK               PIN_MII0_RXCLK ---
  20  ISO      FEC_RXER J12: Isolation mode select (pull-up if set)       PTA5/RMII0_RXER/MII0_RXER      PIN_MII_RXER   PIN_RMII_RXER
  22  TXC      FEC_TXCLK                                                  PTA25/MII0_TXCLK               PIN_MII0_TXCLK ---
  23  TXEN     FEC_TXEN                                                   PTA15/RMII0_TXEN/MII0_TXEN     PIN_MII0_TXEN  PIN_RMII0_TXEN
  24  TXD0     FEC_TXD0                                                   PTA16/RMII0_TXD0/MII0_TXD0     PIN_MII0_TXD0  PIN_RMII0_TXD0
  25  TXD1     FEC_TXD1                                                   PTA17/RMII0_TXD1/MII0_TXD1     PIN_MII0_TXD1  PIN_RMII0_TXD1
  26  TXD2     FEC_TXD2                                                   PTA24/MII0_TXD2                PIN_MII0_TXD2  ---
  27  TXD3     FEC_TXD3                                                   PTA26/MII0_TXD3                PIN_MII0_TXD3  ---
  28  CONFIG0  FEC_COL J12: RMII select (pull-up if set)                  PTA29/MII0_COL                 PIN_MII0_COL   ---
  29  CONFIG1  FEC_CRS                                                    PTA27/MII0_CRS                 PIN_MII0_CRS   ---
  30  LED0     LED0/NWAYEN J12: Disable auto_negotiation (pull-down if s  ---                            ---
  31  LED1     LED1/SPEED J12: 10Mbps select (pull-down if set)           ---                            ---
  --- -------- ----------------- ---------------------------------------- ------------------------------ -------------------------------

  Networking support can be added to NSH by selecting the following
  configuration options.

  Selecting the MAC peripheral
  ----------------------------

  System Type -> Kinetis Peripheral Support
    CONFIG_KINETIS_ENET=y               : Enable the Ethernet MAC peripheral

  System Type -> Ethernet Configuration
    CONFIG_KINETIS_ENETNETHIFS=1
    CONFIG_KINETIS_ENETNRXBUFFERS=6
    CONFIG_KINETIS_ENETNTXBUFFERS=2
    CONFIG_KINETIS_ENET_MDIOPULLUP=y

  Networking Support
    CONFIG_NET=y                        : Enable Neworking
    CONFIG_NET_ETHERNET=y               : Support Ethernet data link
    CONFIG_NET_SOCKOPTS=y               : Enable socket operations
    CONFIG_NET_ETH_PKTSIZE=590          : Maximum packet size 1518 is more standard
    CONFIG_NET_ARP=y                    : Enable ARP
    CONFIG_NET_ARPTAB_SIZE=16           : ARP table size
    CONFIG_NET_ARP_IPIN=y               : Enable ARP address harvesting
    CONFIG_NET_ARP_SEND=y               : Send ARP request before sending data
    CONFIG_NET_TCP=y                    : Enable TCP/IP networking
    CONFIG_NET_TCP_WRITE_BUFFERS=y      : Support TCP write-buffering
    CONFIG_NET_TCPBACKLOG=y             : Support TCP/IP backlog
    CONFIG_NET_MAX_LISTENPORTS=20       :
    CONFIG_NET_UDP=y                    : Enable UDP networking
    CONFIG_NET_BROADCAST=y              : Needed for DNS name resolution
    CONFIG_NET_ICMP=y                   : Enable ICMP networking
    CONFIG_NET_ICMP_SOCKET=y            : Needed for NSH ping command
                                        : Defaults should be okay for other options
  Application Configuration -> Network Utilities
    CONFIG_NETDB_DNSCLIENT=y            : Enable host address resolution
    CONFIG_NETUTILS_TELNETD=y           : Enable the Telnet daemon
    CONFIG_NETUTILS_TFTPC=y             : Enable TFTP data file transfers for get and put commands
    CONFIG_NETUTILS_NETLIB=y            : Network library support is needed
    CONFIG_NETUTILS_WEBCLIENT=y         : Needed for wget support
                                        : Defaults should be okay for other options
  Application Configuration -> NSH Library
    CONFIG_NSH_TELNET=y                 : Enable NSH session via Telnet
    CONFIG_NSH_IPADDR=0xc0a800e9        : Select a fixed IP address
    CONFIG_NSH_DRIPADDR=0xc0a800fe      : IP address of gateway/host PC
    CONFIG_NSH_NETMASK=0xffffff00       : Netmask
    CONFIG_NSH_NOMAC=y                  : Need to make up a bogus MAC address
                                        : Defaults should be okay for other options

  You can also enable enable the DHCPC client for networks that use
  dynamically assigned address:

  Application Configuration -> Network Utilities
    CONFIG_NETUTILS_DHCPC=y             : Enables the DHCP client

  Networking Support
    CONFIG_NET_UDP=y                    : Depends on broadcast UDP

  Application Configuration -> NSH Library
    CONFIG_NET_BROADCAST=y
    CONFIG_NSH_DHCPC=y                  : Tells NSH to use DHCPC, not
                                        : the fixed addresses

  Using the network with NSH
  --------------------------

  So what can you do with this networking support?  First you see that
  NSH has several new network related commands:

    ifconfig, ifdown, ifup:  Commands to help manage your network
    get and put:             TFTP file transfers
    wget:                    HTML file transfers
    ping:                    Check for access to peers on the network
    Telnet console:          You can access the NSH remotely via telnet.

  You can also enable other add on features like full FTP or a Web
  Server or XML RPC and others.  There are also other features that
  you can enable like DHCP client (or server) or network name
  resolution.

  By default, the IP address of the DK-TM4C129X will be 192.168.0.233 and
  it will assume that your host is the gateway and has the IP address
  192.168.0.254.

    nsh> ifconfig
    eth0	Link encap:Ethernet HWaddr 16:03:60:0f:00:33 at UP
	    inet addr:192.168.0.233 DRaddr:192.168.0.254 Mask:255.255.255.

  You can use ping to test for connectivity to the host (Careful,
  Window firewalls usually block ping-related ICMP traffic).

  On the host PC side, you may be able to ping the TWR-K64F120M:

    $ ping 192.168.0.233
    PING 192.168.0.233 (192.168.0.233) 56(84) bytes of data.
    64 bytes from 192.168.0.233: icmp_seq=1 ttl=64 time=7.82 ms
    64 bytes from 192.168.0.233: icmp_seq=2 ttl=64 time=4.50 ms
    64 bytes from 192.168.0.233: icmp_seq=3 ttl=64 time=2.04 ms
    ^C
    --- 192.168.0.233 ping statistics ---
    3 packets transmitted, 3 received, 0% packet loss, time 2003ms
    rtt min/avg/max/mdev = 2.040/4.789/7.822/2.369 ms


  From the target side, you may should also be able to ping the host
  (assuming it's IP is 192.168.0.1):

    nsh> ping 192.168.0.1
    PING 192.168.0.1 56 bytes of data
    56 bytes from 192.168.0.1: icmp_seq=1 time=0 ms
    56 bytes from 192.168.0.1: icmp_seq=2 time=0 ms
    56 bytes from 192.168.0.1: icmp_seq=3 time=0 ms
    56 bytes from 192.168.0.1: icmp_seq=4 time=0 ms
    56 bytes from 192.168.0.1: icmp_seq=5 time=0 ms
    56 bytes from 192.168.0.1: icmp_seq=6 time=0 ms
    56 bytes from 192.168.0.1: icmp_seq=7 time=0 ms
    56 bytes from 192.168.0.1: icmp_seq=8 time=0 ms
    56 bytes from 192.168.0.1: icmp_seq=9 time=0 ms
    56 bytes from 192.168.0.1: icmp_seq=10 time=0 ms
    10 packets transmitted, 10 received, 0% packet loss, time 10100 ms
    nsh>

  You can also log into the NSH from the host PC like this:

    $ telnet 192.168.0.233
    Trying 192.168.0.233...
    Connected to 192.168.0.233.
    Escape character is '^]'.

    NuttShell (NSH)
    nsh>

  NOTE:  If you enable this networking as described above, you will
  experience a delay on booting NSH.  That is because the start-up logic
  waits for the network connection to be established before starting
  NuttX.  In a real application, you would probably want to do the
  network bringup on a separate thread so that access to the NSH prompt
  is not delayed.

  The kinetis_enet.c driver, does not wait too long for PHY to negotiate
  the link speed. In this case it folds back to 10Mbs half-duplex
  mode. This behaviour should be improved in order to cope with the
  plug and play nature of this port.

  Reconfiguring after the network becomes available requires the
  network monitor feature, also discussed below.

  Network Initialization Thread
  -----------------------------
  [not tested on K64F120M]
  There is a configuration option enabled by CONFIG_NSH_NETINIT_THREAD
  that will do the NSH network bring-up asynchronously in parallel on
  a separate thread.  This eliminates the (visible) networking delay
  altogether.  This current implementation, however, has some limitations:

    - If no network is connected, the network bring-up will fail and
      the network initialization thread will simply exit.  There are no
      retries and no mechanism to know if the network initialization was
      successful (it could perform a network Ioctl to see if the link is
      up and it now, keep trying, but it does not do that now).

    - Furthermore, there is currently no support for detecting loss of
      network connection and recovery of the connection (similarly, this
      thread could poll periodically for network status, but does not).

  Both of these shortcomings could be eliminated by enabling the network
  monitor:

  Network Monitor
  ---------------
  By default the network initialization thread will bring-up the network
  then exit, freeing all of the resources that it required.  This is a
  good behavior for systems with limited memory.

  If the CONFIG_NSH_NETINIT_MONITOR option is selected, however, then the
  network initialization thread will persist forever; it will monitor the
  network status.  In the event that the network goes down (for example, if
  a cable is removed), then the thread will monitor the link status and
  attempt to bring the network back up.  In this case the resources
  required for network initialization are never released.

  Pre-requisites:

    - CONFIG_NSH_NETINIT_THREAD as described above.

    - The K64F EMAC block does not support PHY interrupts.  The KSZ8081
      PHY interrupt line is brought to a jumper block and it should be
      possible to connect that some some interrupt port pin.  You would
      need to provide some custom logic in the Freedcom K64F
      configuration to set up that PHY interrupt.

    - In addition to the PHY interrupt, the Network Monitor also requires the
      following setting:

        CONFIG_NETDEV_PHY_IOCTL. Enable PHY IOCTL commands in the Ethernet
        device driver. Special IOCTL commands must be provided by the Ethernet
        driver to support certain PHY operations that will be needed for link
        management. There operations are not complex and are implemented for
        the Atmel SAMA5 family.

        CONFIG_ARCH_PHY_INTERRUPT. This is not a user selectable option.
        Rather, it is set when you select a board that supports PHY
        interrupts.  For the K64F, like most other architectures, the PHY
        interrupt must be provided via some board-specific GPIO.  In any
        event, the board-specific logic must provide support for the PHY
        interrupt. To do this, the board logic must do two things: (1) It
        must provide the function arch_phy_irq() as described and prototyped
        in the nuttx/include/nuttx/arch.h, and (2) it must select
        CONFIG_ARCH_PHY_INTERRUPT in the board configuration file to
        advertise that it supports arch_phy_irq().

        One other thing: UDP support is required (CONFIG_NET_UDP).

  Given those prerequisites, the network monitor can be selected with these
  additional settings.

    System Type -> Kinetis Ethernet Configuration
      CONFIG_ARCH_PHY_INTERRUPT=y           : (auto-selected)
      CONFIG_NETDEV_PHY_IOCTL=y             : (auto-selected)

    Application Configuration -> NSH Library -> Networking Configuration
      CONFIG_NSH_NETINIT_THREAD             : Enable the network initialization thread
      CONFIG_NSH_NETINIT_MONITOR=y          : Enable the network monitor
      CONFIG_NSH_NETINIT_RETRYMSEC=2000     : Configure the network monitor as you like
      CONFIG_NSH_NETINIT_SIGNO=18


LEDs
====

The TWR-K64F120M board has four LEDs labeled D5, D6, D7, D9 on the board.  Usage of
these LEDs is defined in include/board.h and src/up_leds.c.  They are encoded
as follows:

    SYMBOL                Meaning                  LED1*    LED2    LED3    LED4
    -------------------   -----------------------  -------  ------- ------- ------
    LED_STARTED           NuttX has been started   OFF      OFF     OFF     N/A
    LED_HEAPALLOCATE      Heap has been allocated  OFF      OFF     OFF     N/A
    LED_IRQSENABLED       Interrupts enabled       OFF      OFF     OFF     N/A
    LED_STACKCREATED      Idle stack created       ON       OFF     OFF     N/A
    LED_INIRQ             In an interrupt**        N/C      ON      N/C     N/A
    LED_SIGNAL            In a signal handler***   N/C      N/C     ON      N/A
    LED_ASSERTION         An assertion failed      ON       ON      ON      N/A
    LED_PANIC             The system has crashed   Blink    N/C     N/C    N/A
    LED_IDLE              K64 is is sleep mode   (Optional, not used)

  * If LED1, LED2, LED3 are statically on, then NuttX probably failed to boot
    and these LEDs will give you some indication of where the failure was
 ** The normal state is LED1 ON and LED2 faintly glowing.  This faint glow
    is because of timer interrupts and signal that result in the LED being
    illuminated on a small proportion of the time.
*** LED3 may even glow faintlier then LED2 while signals are processed.

TWR-K64F120M-specific Configuration Options
==========================================

    CONFIG_ARCH - Identifies the arch/ subdirectory.  This should
       be set to:

       CONFIG_ARCH=arm

    CONFIG_ARCH_family - For use in C code:

       CONFIG_ARCH_ARM=y

    CONFIG_ARCH_architecture - For use in C code:

       CONFIG_ARCH_CORTEXM4=y

    CONFIG_ARCH_CHIP - Identifies the arch/*/chip subdirectory

       CONFIG_ARCH_CHIP=kinetis

    CONFIG_ARCH_CHIP_name - For use in C code to identify the exact
       chip:

       CONFIG_ARCH_CHIP_MK64FN1M0VMD12=y

    CONFIG_ARCH_BOARD - Identifies the boards/ subdirectory and
       hence, the board that supports the particular chip or SoC.

       CONFIG_ARCH_BOARD=twr-k64f120m (for the TWR-K64F120M development board)

    CONFIG_ARCH_BOARD_name - For use in C code

       CONFIG_ARCH_BOARD_TWR_K64F120M=y

    CONFIG_ENDIAN_BIG - define if big endian (default is little
       endian)

    CONFIG_RAM_SIZE - Describes the installed DRAM (SRAM in this case):

       CONFIG_RAM_SIZE=262144 (256Kb)

    CONFIG_RAM_START - The start address of installed DRAM

       CONFIG_RAM_START=0x1fff0000

    CONFIG_ARCH_LEDS - Use LEDs to show state. Unique to boards that
       have LEDs

       CONFIG_ARCH_LEDS=y

    CONFIG_ARCH_INTERRUPTSTACK - This architecture supports an interrupt
       stack. If defined, this symbol is the size of the interrupt
        stack in bytes.  If not defined, the user task stacks will be
      used during interrupt handling.

    CONFIG_ARCH_STACKDUMP - Do stack dumps after assertions

  Individual subsystems can be enabled:

    CONFIG_KINETIS_TRACE    -- Enable trace clocking on power up.
    CONFIG_KINETIS_FLEXBUS  -- Enable flexbus clocking on power up.
    CONFIG_KINETIS_UART0    -- Support UART0
    CONFIG_KINETIS_UART1    -- Support UART1
    CONFIG_KINETIS_UART2    -- Support UART2
    CONFIG_KINETIS_UART3    -- Support UART3
    CONFIG_KINETIS_UART4    -- Support UART4
    CONFIG_KINETIS_UART5    -- Support UART5
    CONFIG_KINETIS_ENET     -- Support Ethernet (K60 only)
    CONFIG_KINETIS_RNGB     -- Support the random number generator(K60 only)
    CONFIG_KINETIS_FLEXCAN0 -- Support FlexCAN0
    CONFIG_KINETIS_FLEXCAN1 -- Support FlexCAN1
    CONFIG_KINETIS_SPI0     -- Support SPI0
    CONFIG_KINETIS_SPI1     -- Support SPI1
    CONFIG_KINETIS_SPI2     -- Support SPI2
    CONFIG_KINETIS_I2C0     -- Support I2C0
    CONFIG_KINETIS_I2C1     -- Support I2C1
    CONFIG_KINETIS_I2S      -- Support I2S
    CONFIG_KINETIS_DAC0     -- Support DAC0
    CONFIG_KINETIS_DAC1     -- Support DAC1
    CONFIG_KINETIS_ADC0     -- Support ADC0
    CONFIG_KINETIS_ADC1     -- Support ADC1
    CONFIG_KINETIS_CMP      -- Support CMP
    CONFIG_KINETIS_VREF     -- Support VREF
    CONFIG_KINETIS_SDHC     -- Support SD host controller
    CONFIG_KINETIS_FTM0     -- Support FlexTimer 0
    CONFIG_KINETIS_FTM1     -- Support FlexTimer 1
    CONFIG_KINETIS_FTM2     -- Support FlexTimer 2
    CONFIG_KINETIS_LPTMR0   -- Support the low power timer 0
    CONFIG_KINETIS_RTC      -- Support RTC
    CONFIG_KINETIS_SLCD     -- Support the segment LCD (K60 only)
    CONFIG_KINETIS_EWM      -- Support the external watchdog
    CONFIG_KINETIS_CMT      -- Support Carrier Modulator Transmitter
    CONFIG_KINETIS_USBOTG   -- Support USB OTG (see also CONFIG_USBHOST and CONFIG_USBDEV)
    CONFIG_KINETIS_USBDCD   -- Support the USB Device Charger Detection module
    CONFIG_KINETIS_LLWU     -- Support the Low Leakage Wake-Up Unit
    CONFIG_KINETIS_TSI      -- Support the touch screeen interface
    CONFIG_KINETIS_FTFL     -- Support FLASH
    CONFIG_KINETIS_DMA      -- Support DMA
    CONFIG_KINETIS_CRC      -- Support CRC
    CONFIG_KINETIS_PDB      -- Support the Programmable Delay Block
    CONFIG_KINETIS_PIT      -- Support Programmable Interval Timers
    CONFIG_ARM_MPU          -- Support the MPU

  Kinetis interrupt priorities (Default is the mid priority).  These should
  not be set because they can cause unhandled, nested interrupts.  All
  interrupts need to be at the default priority in the current design.

    CONFIG_KINETIS_UART0PRIO
    CONFIG_KINETIS_UART1PRIO
    CONFIG_KINETIS_UART2PRIO
    CONFIG_KINETIS_UART3PRIO
    CONFIG_KINETIS_UART4PRIO
    CONFIG_KINETIS_UART5PRIO

    CONFIG_KINETIS_EMACTMR_PRIO
    CONFIG_KINETIS_EMACTX_PRIO
    CONFIG_KINETIS_EMACRX_PRIO
    CONFIG_KINETIS_EMACMISC_PRIO

    CONFIG_KINETIS_SDHC_PRIO

  PIN Interrupt Support

    CONFIG_KINETIS_GPIOIRQ   -- Enable pin interrupt support.  Also needs
      one or more of the following:
    CONFIG_KINETIS_PORTAINTS -- Support 32 Port A interrupts
    CONFIG_KINETIS_PORTBINTS -- Support 32 Port B interrupts
    CONFIG_KINETIS_PORTCINTS -- Support 32 Port C interrupts
    CONFIG_KINETIS_PORTDINTS -- Support 32 Port D interrupts
    CONFIG_KINETIS_PORTEINTS -- Support 32 Port E interrupts

  Kinetis specific device driver settings

    CONFIG_UARTn_SERIAL_CONSOLE - selects the UARTn (n=0..5) for the
      console and ttys0 (default is the UART0).
    CONFIG_UARTn_RXBUFSIZE - Characters are buffered as received.
       This specific the size of the receive buffer
    CONFIG_UARTn_TXBUFSIZE - Characters are buffered before
       being sent.  This specific the size of the transmit buffer
    CONFIG_UARTn_BAUD - The configure BAUD of the UART.
    CONFIG_UARTn_BITS - The number of bits.  Must be either 8 or 8.
    CONFIG_UARTn_PARTIY - 0=no parity, 1=odd parity, 2=even parity

  Kenetis ethernet controller settings

    CONFIG_ENET_NRXBUFFERS - Number of RX buffers.  The size of one
        buffer is determined by CONFIG_NET_ETH_PKTSIZE.  Default: 6
    CONFIG_ENET_NTXBUFFERS - Number of TX buffers.  The size of one
        buffer is determined by CONFIG_NET_ETH_PKTSIZE.  Default: 2
    CONFIG_ENET_USEMII - Use MII mode.  Default: RMII mode.
    CONFIG_ENET_PHYADDR - PHY address

Configurations
==============

Each TWR-K64F120M configuration is maintained in a sub-directory and
can be selected as follow:

    tools/configure.sh twr-k64f120m:<subdir>

Where <subdir> is one of the following:

  nsh:
  ---
    Configures the NuttShell (nsh) located at apps/examples/nsh.  The
    Configuration enables only the serial interface.
    The serial console is on OpenSDA serial bridge. For access,
    use $ miniterm.py -f direct /dev/ttyACM0 115200 from Linux PC
    Support for the board's SDHC MicroSD card is included.

    NOTES:

    1. The SDHC driver is under work and currently support IRQ mode (no DMA):

      CONFIG_KINETIS_SDHC=y                : Enable the SDHC driver

      CONFIG_MMCSD=y                       : Enable MMC/SD support
      CONFIG_MMCSD_SDIO=y                  : Use the SDIO-based MMC/SD driver
      CONFIG_MMCSD_NSLOTS=1                : One MMC/SD slot

      CONFIG_FAT=y                         : Eable FAT file system
      CONFIG_FAT_LCNAMES=n                 : FAT lower case name support
      CONFIG_FAT_LFN=y                     : FAT long file name support
      CONFIG_FAT_MAXFNAME=32               : Maximum length of a long file name

      CONFIG_KINETIS_GPIOIRQ=y             : Enable GPIO interrupts
      CONFIG_KINETIS_PORTEINTS=y           : Enable PortE GPIO interrupts

      CONFIG_SCHED_WORKQUEUE=y             : Enable the NuttX workqueue

      CONFIG_NSH_ARCHINIT=y                : Provide NSH initialization logic

  netnsh:
  ------
    This is the same config then nsh, but it adds Ethernet support with the
    TWR-SER card. It includes telnetd in order to access nsh from Ethernet.
    IP address defaults to 192.168.0.233/24.

    NOTES:

    1. See networking support for application and especially for jumper setting.
       In this config, this is TWR-SER that clocks the MCU.

    2. The PHY link negotiation is done at boot time only. If no link is then
       available, a fallback mode is used at 10Mbs/half-duplex. Please make sure
       your ethernet cable and switches are on before booting.