view src/cs/system/template/gsm_ds_amd8_compact.template @ 267:10b3a6876273

fc-target.h preprocessor symbols: introduce CONFIG_TARGET_LEO_RFFE Out of our currently existing supported targets, Leonardo and Tango use TI's classic Leonardo RFFE wiring. However, we would like to use the same quadband RFFE with the same classic wiring on our FreeCalypso Libre Dumbphone handset, and also on the planned development board that will serve as a stepping stone toward that goal. Therefore, we introduce the new CONFIG_TARGET_LEO_RFFE preprocessor symbol, and conditionalize on this symbol in tpudrv12.h, instead of a growing || of different targets.
author Mychaela Falconia <falcon@freecalypso.org>
date Wed, 09 Jun 2021 07:26:51 +0000
parents 4e78acac3d88
children
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/*
 * Integrated Protocol Stack Linker command file (all components)
 *
 * Target : ARM
 *
 * Copyright (c) Texas Instruments 2002, Condat 2002
 *
 */

-c /* Autoinitialize variables at runtime */

/*********************************/
/* SPECIFY THE SYSTEM MEMORY MAP */
/*********************************/

MEMORY
{
  /* CS0: Flash 8 Mbytes ****************************************************/
  /* Interrupt Vectors Table */
  I_MEM   (RXI) : org = 0x00000000   len = 0x00000100

  /* Boot Sector */
  B_MEM   (RXI) : org = 0x00000100   len = 0x00001f00

  /* Magic Word for Calypso Boot ROM */
  MWC_MEM (RXI)  : org = 0x00002000   len = 0x00000004  fill = 0x0000001

  /* Program Memory */
  P_MEM1  (RXI) : org = 0x00004000   len = 0x00000700
  P_MEM2  (RXI) : org = 0x00004700   len = 0x00000004
  P_MEM3  (RXI) : org = 0x00004704   len = 0x00400000

  /* FFS Area */
  FFS_MEM (RX)  : org = 0x01800000   len = 0x00200000
  /**************************************************************************/

  /* CS1: External SRAM 1 Mbytes ********************************************/
  /* Data Memory */

  /*
   * FreeCalypso: we try to support several different Leonardo board
   * variants with different flash and XRAM sizes.  In this template
   * we are going to define two XRAM regions of 1 MiB each.
   */
  D_MEM1  (RW)  : org = 0x01000000   len = 0x00100000
  D_MEM2  (RW)  : org = 0x01100000   len = 0x00100000
  /**************************************************************************/

  /* CS6: Calypso Internal SRAM 512 kbytes **********************************/
  /* Code & Variables Memory */
  S_MEM   (RXW) : org = 0x00800000   len = 0x00080000
  /**************************************************************************/
}

/***********************************************/
/* SPECIFY THE SECTIONS ALLOCATION INTO MEMORY */
/***********************************************/

/*
 * Since the bootloader directly calls the INT_Initialize() routine located
 * in int.s, this int.s code must always be mapped at the same address
 * (usually in the second flash sector). Its length is about 0x500 bytes.
 * Then comes the code that need to be loaded into the internal RAM.
 */

SECTIONS
{
    .intvecs : {} > I_MEM      /* Interrupt Vectors Table */
    .monitor : > B_MEM         /* Monitor Constants & Code */
    {
        $(CONST_BOOT_LIB)
    }

    .inttext : {} > P_MEM1     /* int.s Code */

    .bss_dar : > D_MEM1        /* DAR SWE Variables */
    {
        $(BSS_DAR_LIB)
    }

    /*
     * The .bss section should not be split to ensure it is initialized to 0
     * each time the SW is reset. So the whole .bss is mapped either in D_MEM1
     * or in D_MEM2.
     */

    .bss     : > D_MEM1 | D_MEM2        /* Global & Static Variables */
    {
        $(BSS_BOOT_LIB)
    }

    /*
     * All .bss sections, which must be mapped in internal RAM must be
     * grouped in order to initialized the corresponding memory to 0.
     * This initialization is done in int.s file before calling the Nucleus
     * routine.
     */

    GROUP
    {
      S_D_Mem /* Label of start address of .bss section in Int. RAM */
      .DintMem
      {

        /*
         * .bss sections of the application
         */

        $(BSS_LIBS)

      }

      API_HISR_stack : {}
 
      E_D_Mem /* Label of end address of .bss section in Int. RAM */
    } > S_MEM

    /*
     * .text and .const sections which must be mapped in internal RAM.
     */

    .ldfl    : {} > P_MEM2 /* Used to know the start load address */
    GROUP load = P_MEM3, run = S_MEM
    {
      S_P_Mem  /* Label of start address of .text & .const sections in Int. RAM */
      .PIntMem
      {
        /*
         * .text and .const sections of the application.
         *
         * The .veneer sections correspond exactly to .text:v&n sections
         * implementing the veneer functions. The .text:v$n -> .veneer
         * translation is performed by PTOOL software when PTOOL_OPTIONS
         * environement variable is set to veneer_section.
         */

        $(CONST_LIBS)

      }
      E_P_Mem /* Label of end address of .text and .const sections in Int. RAM */
    }

    /*
     * The rest of the code is mapped in flash, however the trampolines
     * load address should be consistent with .text.
     */
    COMMENT2START      
    `trampolines load = P_MEM3, run = S_MEM
    COMMENT2END

    .text    : {} >  P_MEM3  /* Code */

    /*
     * The rest of the constants is mapped in flash.
     * The .cinit section should not be split.
     */

    .cinit   : {} >  P_MEM3  /* Initialization Tables */
    .const   : {} >  P_MEM3  /* Constant Data */
    KadaAPI  : {} >  P_MEM3  /* ROMized CLDC */

    .javastack: {} >> D_MEM1 | D_MEM2 /* Java stack */

    .stackandheap : > D_MEM1   /* System Stacks, etc... */
    {
      /* Leave 20 32bit words for register pushes. */
      . = align(8);
      . += 20 * 4;

      /* Stack for abort and/or undefined modes. */
      exception_stack = .;

      /* Leave 38 32bit words for state saving on exceptions. */
      _xdump_buffer = .;
      . += 38 * 4;
      . = align(8);

      /* Beginning of stacks and heap area - 2.75 kbytes (int.s) */
      stack_segment = .;
      . += 0xB00;
    }

    .data    : {} > D_MEM1     /* Initialized Data */
    .sysmem  : {} > D_MEM1     /* Dynamic Memory Allocation Area */

}