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The patch Make: use gcc as LD introduced use of GCC wrapper as linker. LD variable references GCC executable now. But when GCC wrapper s used to build relocatable loadable objects (ELF executables and modules) then it causes linking of toolchain default libc and other libraries even when -r is usd. Another problem is that incorrect multiarch variant is selected for libraries search and possibly even for LTO or C++ templates instantiating and other glue code which causes fails during linking if CFLAGS selects non/default miltiarch variant. Corresponding CFLAGS are passed to LDMODULEFLAGS and LDELFFLAGS as well as -nostartfiles -nodefaultlibs options. Separate line is used to easily find and adjust lines if link process is changed in future. Signed-off-by: Pavel Pisa <ppisa@pikron.com> |
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README.txt |
README ====== This README provides some information about the port of NuttX to the TI Hercules TMS570LS04x/03x LaunchPad Evaluation Kit (LAUNCHXL-TMS57004) featuring the Hercules TMS570LS0432PZ chip. Contents ======== - Status - Toolchain - LEDs and Buttons - Serial Console - Debugging - Configurations Status ====== 2015-12-29: The basic port to the TMS570 is complete. After a few debug attempts, I think I may have damaged my board or at least put it into a state where I can no longer use it: The CPU NERROR LED illuminates and can't I re- program the FLASH. I was never able to use Code Composer Studio or UniFlash with the board. But I was initially able to load FLASH and debug using a Segger J-Link connected to the board as described below. But I think that some of my initial code loads put the TMS570 in bad state (or worse). Now the NERROR LED is on. When I attempt to program the FLASH, the J-Link software complains that the CPU is running too slowly and then times out trying to erase the FLASH. I have made several important code fixes since them (some of which might improve this situation). But I have been unable to test them. At this point I will have to give up on this port OR perhaps order a new card. Toolchain ========= Build Platform -------------- All of these configurations are set up to build with Cygwin under Windows (unless stated otherwise in the description of the configuration). Endian-ness Issues ------------------ I started using the "GNU Tools for ARM Embedded Processors" that is maintained by ARM. https://developer.arm.com/open-source/gnu-toolchain/gnu-rm However, that tool chain will not support the TMS570 big-endian mode. Certainly the -mbig-endian options will compiler for big-endian, but the final link fails because there is no big-endian version lib libgcc. There are patches available here if you want to build that toolchain from scratch: https://developer.arm.com/open-source/gnu-toolchain/gnu-rm/+question/27995 I now use a version of the NuttX buildroot toolchain that can be built like this: cd buildroot/ cp boards/cortexr4-armeb-eabi-4.8.3-defconfig .config make oldconfig make You have to have several obscure packages installed on your Linux or Cygwin system to build the toolchain like this: GMP, MPFR, MPC, and probably others. See the buildroot/README.txt file for additional important information about building the toolchain. Reconfiguring ------------- The build configuration selections can easily be reconfigured using 'make menuconfig'. Here are the relevant current settings: Build Setup: CONFIG_HOST_WINDOWS=y : Window environment CONFIG_WINDOWS_CYGWIN=y : Cywin under Windows System Type -> Toolchain: CONFIG_ARMV7M_TOOLCHAIN_GNU_EABIW=y : GNU ARM EABI toolchain LEDs and Buttons ================ LEDs ---- The launchpad has several LEDs: - LEd D1 (white) that connects to the USB +5V supply, - LED D10 (red) that connects to the TMS570's NERROR pin, - D5 (blue), D6 (blue), and D8 (blue) connect to the XDS100 FT2322, - D7 (blue) connects to the XSD100 CPLD, and - Two white, user LEDs labeled D12 that connects to the NHET08 pin and D11 that connects to GIOA2. NHET08 is one of 32 N2HET pins than can be available to the user if not used by N2HET. This implementation, however, uses only the single LED driven by GIOA2. That LED is tied to ground and illuminated with a high level output value. This LED is not used by the board port unless CONFIG_ARCH_LEDS is defined. In that case, the usage by the board port is defined in include/board.h and src/tms570_autoleds.c. The LED is used to encode OS-related events as follows: ------------------- ----------------------- ------ SYMBOL Meaning LED ------------------- ----------------------- ------ LED_STARTED NuttX has been started OFF LED_HEAPALLOCATE Heap has been allocated OFF LED_IRQSENABLED Interrupts enabled OFF LED_STACKCREATED Idle stack created ON LED_INIRQ In an interrupt N/C LED_SIGNAL In a signal handler N/C LED_ASSERTION An assertion failed N/C LED_PANIC The system has crashed FLASH Thus if the LED is statically on, NuttX has successfully booted and is, apparently, running normally. If the LED is flashing at approximately 2Hz, then a fatal error has been detected and the system has halted. Buttons ------- The launchpad has three mechanical buttons. Two of these are reset buttons: One button is labeled PORRST performs a power-on reset and one labeled RST performs an MCU reset. Only one button is available for general software usage. That button is labeled GIOA7 and is, obviously, sensed on GIOA7. GIOA7 is tied to ground, but will be pulled high if the GIOA7 button is depressed. Serial Console ============== This TMS570 has a single SCI. The SCI_RX and TX pins are connected to the FTDI chip which provides a virtual COM port for the launchpad. Debugging ========= I used a Segger J-Link connected to the Launchpad via the JTAG connector. The following table shows how I connected the 14-pin JTAG connector on the Launchpad to the Segger 20-pin JTAG connector: --- ----------- ------ ------------- --- ---------- ------ ------- J12 LAUCHPAD J-LINK J-LINK J12 LAUCHPAD J-LINK J-LINK PIN SIGNAL PIN SIGNAL PIN SIGNAL PIN SIGNAL --- ----------- ------ ------------- --- ---------- ------ ------- 1 TMS 7 TMS 2 TRTSN 3 nTRST 3 TDI 5 TDI 4 GND 2 GND 5 PD (+3V3) 1 VTref 6 N/C - N/C 7 TDO 13 TDO 8 JTAG_SEL** 4 GND 9 RTCK 11 RTCK 10 GND 6 GND 11 TCK 9 TCK 12 GND 8 GND 13 EMU0* - N/C 14 EMU1* - N/C --- ----------- ------ ------------- --- ---------- ------ ------- * Pulled high on board ** Needs to be grounded to select JTAG Configurations ============== Information Common to All Configurations ---------------------------------------- Each LaunchXL-TMS50704 configuration is maintained in a sub-directory and can be selected as follow: tools/configure.sh launchxl-tms57004:<subdir> Before building, make sure the PATH environment variable includes the correct path to the directory than holds your toolchain binaries. And then build NuttX by simply typing the following. At the conclusion of the make, the nuttx binary will reside in an ELF file called, simply, nuttx. make oldconfig make The <subdir> that is provided above as an argument to the tools/configure.sh must be is one of the following. NOTES: 1. These configurations use the mconf-based configuration tool. To change any of these configurations using that tool, you should: a. Build and install the kconfig-mconf tool. See nuttx/README.txt see additional README.txt files in the NuttX tools repository. b. Execute 'make menuconfig' in nuttx/ in order to start the reconfiguration process. 2. All of these configurations are set up to build under Windows using the "GNU Tools for ARM Embedded Processors" that is maintained by ARM (unless stated otherwise in the description of the configuration). https://developer.arm.com/open-source/gnu-toolchain/gnu-rm That toolchain selection can easily be reconfigured using 'make menuconfig'. Here are the relevant current settings: Build Setup: CONFIG_HOST_WINDOWS=y : Window environment CONFIG_WINDOWS_CYGWIN=y : Cywin under Windows System Type -> Toolchain: CONFIG_ARMV7M_TOOLCHAIN_GNU_EABIW=y : GNU ARM EABI toolchain Configuration sub-directories ----------------------------- nsh: Configures the NuttShell (nsh) located at examples/nsh.