EMBARK/linker.ld

/*======================================================================*/
/* EMBARK linker script, based on the Default maven linker script       */
/*======================================================================*/
/* for the original file, see:
   https://github.com/pulp-platform/pulp-riscv-gnu-toolchain/blob/49dea1915979fdf91eb2ad4a8873e4cd88a6b811/riscv.ld */
/* I modified the original file minimally,

/* This is the default linker script for maven. It is based off of the
   mips idt32.ld linker script. I have added many more comments and
   tried to clean things up a bit. For more information about standard
   MIPS sections see Section 9.5 of "See MIPS Run Linux" by Dominic
   Sweetman. For more generic information about the init, fini, ctors,
   and dtors sections see the paper titled "ELF From the Programmers
   Perspective" by Hongiu Lu. */

/*----------------------------------------------------------------------*/
/* Setup                                                                */
/*----------------------------------------------------------------------*/

/* The OUTPUT_ARCH command specifies the machine architecture where the
   argument is one of the names used in the BFD library. More
   specifically one of the entires in bfd/cpu-mips.c */

OUTPUT_ARCH( "riscv" )

/* The ENTRY command specifies the entry point (ie. first instruction to
   execute). The symbol _start is defined in crt0.S */

ENTRY( _start )

/* The GROUP command is special since the listed archives will be
   searched repeatedly until there are no new undefined references. We
   need this since -lc depends on -lgloss and -lgloss depends on -lc. I
   thought gcc would automatically include -lgcc when needed, but
   idt32.ld includes it explicitly here and I was seeing link errors
   without it. */

GROUP( -lc -lgloss -lgcc )

/*----------------------------------------------------------------------*/
/* Sections                                                             */
/*----------------------------------------------------------------------*/
/* This is where we specify how the input sections map to output
   sections. The .= commands set the location counter, and the
   sections are inserted in increasing address order according to the
   location counter. The following statement will take all of the .bar
   input sections and reloate them into the .foo output section which
   starts at address 0x1000.

    . = 0.x1000;
    .foo : { *(.bar) }

   If we wrap an input specification with a KEEP command then it
   prevents it from being eliminted during "link-time garbage
   collection". I'm not sure what this is, so I just followed what was
   done in idt32.ld.

   We can also set a global external symbol to a specific address in the
   output binary with this syntax:

    _etext = .;
    PROVIDE( etext = . );

   This will set the global symbol _ftext to the current location. If we
   wrap this in a PROVIDE commad, the symbol will only be set if it is
   not defined. We do this with symbols which don't begin with an
   underscore since technically in ansi C someone might have a function
   with the same name (eg. etext).

   If we need to label the beginning of a section we need to make sure
   that the linker doesn't insert an orphan section inbetween where we
   set the symbol and the actual begining of the section. We can do that
   by assigning the location dot to itself.

    . = .
    _ftext = .;
    .text :
    { }

   */

SECTIONS
{

  /*--------------------------------------------------------------------*/
  /* Code and read-only segment                                         */
  /*--------------------------------------------------------------------*/

  /* Begining of code and text segment.
   * Start at an address > 12bit to ensure all addresses are loaded using
   * auipc+addi instead of only addi (which is not relocatable)
  */
  . = 0x00010000;
  _ftext = .;
  PROVIDE( eprol = . );

  /* text: Program code section */
  .text :
  {
    *(.text._start) /* locate entry point at start of binary */
    *(.text)
    *(.text.*)
    *(.gnu.linkonce.t.*)
  }

  /* init: Code to execute before main (called by crt0.S) */
  .init :
  {
    KEEP( *(.init) )
  }

  /* fini: Code to execute after main (called by crt0.S) */
  .fini :
  {
    KEEP( *(.fini) )
  }

  /* End of code and read-only segment */
  PROVIDE( etext = . );
  _etext = .;

  /*--------------------------------------------------------------------*/
  /* Global constructor/destructor segement                             */
  /*--------------------------------------------------------------------*/

  .preinit_array     :
  {
    PROVIDE_HIDDEN (__preinit_array_start = .);
    KEEP (*(.preinit_array))
    PROVIDE_HIDDEN (__preinit_array_end = .);
  }

  .init_array     :
  {
    PROVIDE_HIDDEN (__init_array_start = .);
    KEEP (*(SORT(.init_array.*)))
    KEEP (*(.init_array ))
    PROVIDE_HIDDEN (__init_array_end = .);
  }

  .fini_array     :
  {
    PROVIDE_HIDDEN (__fini_array_start = .);
    KEEP (*(SORT(.fini_array.*)))
    KEEP (*(.fini_array ))
    PROVIDE_HIDDEN (__fini_array_end = .);
  }

  /* rodata: Read-only data */
  .rodata :
  {
    *(.rdata)
    *(.rodata)
    *(.rodata.*)
    *(.gnu.linkonce.r.*)
  }

  /*--------------------------------------------------------------------*/
  /* Other misc gcc segments (this was in idt32.ld)                     */
  /*--------------------------------------------------------------------*/
  /* I am not quite sure about these sections but it seems they are for
     C++ exception handling. I think .jcr is for "Java Class
     Registration" but it seems to end up in C++ binaries as well. */

  .eh_frame_hdr     : { *(.eh_frame_hdr)     }
  .eh_frame         : { KEEP( *(.eh_frame) ) }
  .gcc_except_table : { *(.gcc_except_table) }
  .jcr              : { KEEP (*(.jcr))       }

  /*--------------------------------------------------------------------*/
  /* Initialized data segment                                           */
  /*--------------------------------------------------------------------*/

  /* Start of initialized data segment */
  . = ALIGN(16);
   _fdata = .;

  /* data: Writable data */
  .data :
  {
    *(.data)
    *(.data.*)
    *(.gnu.linkonce.d.*)
  }

  /* End of initialized data segment */
  PROVIDE( edata = . );
  _edata = .;

  /* Have _gp point to middle of sdata/sbss to maximize displacement range */
  . = ALIGN(16);
  _gp = . + 0x800;
  __global_pointer$ = . + 0x800;

  /* Writable small data segment */
  .sdata :
  {
    *(.sdata)
    *(.sdata.*)
    *(.srodata.*)
    *(.gnu.linkonce.s.*)
  }

  /*--------------------------------------------------------------------*/
  /* Uninitialized data segment                                         */
  /*--------------------------------------------------------------------*/

  /* Start of uninitialized data segment */
  . = ALIGN(8);
  _fbss = .;
  _bss_start = .;

  /* Writable uninitialized small data segment */
  .sbss :
  {
    *(.sbss)
    *(.sbss.*)
    *(.gnu.linkonce.sb.*)
  }

  /* bss: Uninitialized writeable data section */
  . = .;
  .bss :
  {
    *(.bss)
    *(.bss.*)
    *(.gnu.linkonce.b.*)
    *(COMMON)
  }
  _bss_end = .;

  .stack :
  {
    *(.stack)
  }

  /* End of uninitialized data segment (used by syscalls.c for heap) */
  PROVIDE( end = . );
  _end = ALIGN(8);
}
switched to a real linker script 3 years ago			`/======================================================================/`
			`/* EMBARK linker script, based on the Default maven linker script */`
			`/======================================================================/`
			`/* for the original file, see:`
			`https://github.com/pulp-platform/pulp-riscv-gnu-toolchain/blob/49dea1915979fdf91eb2ad4a8873e4cd88a6b811/riscv.ld */`
			`/* I modified the original file minimally,`

			`/* This is the default linker script for maven. It is based off of the`
			`mips idt32.ld linker script. I have added many more comments and`
			`tried to clean things up a bit. For more information about standard`
			`MIPS sections see Section 9.5 of "See MIPS Run Linux" by Dominic`
			`Sweetman. For more generic information about the init, fini, ctors,`
			`and dtors sections see the paper titled "ELF From the Programmers`
			`Perspective" by Hongiu Lu. */`

			`/----------------------------------------------------------------------/`
			`/* Setup */`
			`/----------------------------------------------------------------------/`

			`/* The OUTPUT_ARCH command specifies the machine architecture where the`
			`argument is one of the names used in the BFD library. More`
			`specifically one of the entires in bfd/cpu-mips.c */`

			`OUTPUT_ARCH( "riscv" )`

			`/* The ENTRY command specifies the entry point (ie. first instruction to`
			`execute). The symbol _start is defined in crt0.S */`

			`ENTRY( _start )`

			`/* The GROUP command is special since the listed archives will be`
			`searched repeatedly until there are no new undefined references. We`
			`need this since -lc depends on -lgloss and -lgloss depends on -lc. I`
			`thought gcc would automatically include -lgcc when needed, but`
			`idt32.ld includes it explicitly here and I was seeing link errors`
			`without it. */`

			`GROUP( -lc -lgloss -lgcc )`

			`/----------------------------------------------------------------------/`
			`/* Sections */`
			`/----------------------------------------------------------------------/`
			`/* This is where we specify how the input sections map to output`
			`sections. The .= commands set the location counter, and the`
			`sections are inserted in increasing address order according to the`
			`location counter. The following statement will take all of the .bar`
			`input sections and reloate them into the .foo output section which`
			`starts at address 0x1000.`

			`. = 0.x1000;`
			`.foo : { *(.bar) }`

			`If we wrap an input specification with a KEEP command then it`
			`prevents it from being eliminted during "link-time garbage`
			`collection". I'm not sure what this is, so I just followed what was`
			`done in idt32.ld.`

			`We can also set a global external symbol to a specific address in the`
			`output binary with this syntax:`

			`_etext = .;`
			`PROVIDE( etext = . );`

			`This will set the global symbol _ftext to the current location. If we`
			`wrap this in a PROVIDE commad, the symbol will only be set if it is`
			`not defined. We do this with symbols which don't begin with an`
			`underscore since technically in ansi C someone might have a function`
			`with the same name (eg. etext).`

			`If we need to label the beginning of a section we need to make sure`
			`that the linker doesn't insert an orphan section inbetween where we`
			`set the symbol and the actual begining of the section. We can do that`
			`by assigning the location dot to itself.`

			`. = .`
			`_ftext = .;`
			`.text :`
			`{ }`

			`*/`

using my own linker now 3 years ago			`SECTIONS`
			`{`
switched to a real linker script 3 years ago
			`/--------------------------------------------------------------------/`
			`/* Code and read-only segment */`
			`/--------------------------------------------------------------------/`

small linker.ld fixes for _start section and global pointer 3 years ago			`/* Begining of code and text segment.`
			`* Start at an address > 12bit to ensure all addresses are loaded using`
			`* auipc+addi instead of only addi (which is not relocatable)`
			`*/`
switched to a real linker script 3 years ago			`. = 0x00010000;`
			`_ftext = .;`
			`PROVIDE( eprol = . );`

			`/* text: Program code section */`
			`.text :`
			`{`
small linker.ld fixes for _start section and global pointer 3 years ago			`(.text._start) / locate entry point at start of binary */`
switched to a real linker script 3 years ago			`*(.text)`
			`(.text.)`
			`(.gnu.linkonce.t.)`
			`}`

			`/* init: Code to execute before main (called by crt0.S) */`
			`.init :`
			`{`
			`KEEP( *(.init) )`
			`}`

			`/* fini: Code to execute after main (called by crt0.S) */`
			`.fini :`
			`{`
			`KEEP( *(.fini) )`
			`}`

			`/* End of code and read-only segment */`
			`PROVIDE( etext = . );`
			`_etext = .;`

			`/--------------------------------------------------------------------/`
			`/* Global constructor/destructor segement */`
			`/--------------------------------------------------------------------/`

			`.preinit_array :`
			`{`
			`PROVIDE_HIDDEN (__preinit_array_start = .);`
			`KEEP (*(.preinit_array))`
			`PROVIDE_HIDDEN (__preinit_array_end = .);`
			`}`

			`.init_array :`
			`{`
			`PROVIDE_HIDDEN (__init_array_start = .);`
			`KEEP ((SORT(.init_array.)))`
			`KEEP (*(.init_array ))`
			`PROVIDE_HIDDEN (__init_array_end = .);`
			`}`

			`.fini_array :`
			`{`
			`PROVIDE_HIDDEN (__fini_array_start = .);`
			`KEEP ((SORT(.fini_array.)))`
			`KEEP (*(.fini_array ))`
			`PROVIDE_HIDDEN (__fini_array_end = .);`
			`}`

			`/* rodata: Read-only data */`
			`.rodata :`
			`{`
			`*(.rdata)`
			`*(.rodata)`
			`(.rodata.)`
			`(.gnu.linkonce.r.)`
			`}`

			`/--------------------------------------------------------------------/`
			`/* Other misc gcc segments (this was in idt32.ld) */`
			`/--------------------------------------------------------------------/`
			`/* I am not quite sure about these sections but it seems they are for`
			`C++ exception handling. I think .jcr is for "Java Class`
			`Registration" but it seems to end up in C++ binaries as well. */`

			`.eh_frame_hdr : { *(.eh_frame_hdr) }`
			`.eh_frame : { KEEP( *(.eh_frame) ) }`
			`.gcc_except_table : { *(.gcc_except_table) }`
			`.jcr : { KEEP (*(.jcr)) }`

			`/--------------------------------------------------------------------/`
			`/* Initialized data segment */`
			`/--------------------------------------------------------------------/`

			`/* Start of initialized data segment */`
			`. = ALIGN(16);`
			`_fdata = .;`

			`/* data: Writable data */`
			`.data :`
			`{`
			`*(.data)`
			`(.data.)`
			`(.gnu.linkonce.d.)`
			`}`

			`/* End of initialized data segment */`
			`PROVIDE( edata = . );`
			`_edata = .;`

			`/* Have _gp point to middle of sdata/sbss to maximize displacement range */`
			`. = ALIGN(16);`
			`_gp = . + 0x800;`
small linker.ld fixes for _start section and global pointer 3 years ago			`__global_pointer$ = . + 0x800;`
switched to a real linker script 3 years ago
			`/* Writable small data segment */`
			`.sdata :`
			`{`
			`*(.sdata)`
			`(.sdata.)`
			`(.srodata.)`
			`(.gnu.linkonce.s.)`
			`}`

			`/--------------------------------------------------------------------/`
			`/* Uninitialized data segment */`
			`/--------------------------------------------------------------------/`

			`/* Start of uninitialized data segment */`
			`. = ALIGN(8);`
			`_fbss = .;`
			`_bss_start = .;`

			`/* Writable uninitialized small data segment */`
			`.sbss :`
			`{`
			`*(.sbss)`
			`(.sbss.)`
			`(.gnu.linkonce.sb.)`
			`}`

			`/* bss: Uninitialized writeable data section */`
			`. = .;`
			`.bss :`
			`{`
			`*(.bss)`
			`(.bss.)`
			`(.gnu.linkonce.b.)`
			`*(COMMON)`
			`}`
			`_bss_end = .;`

			`.stack :`
			`{`
			`*(.stack)`
			`}`

			`/* End of uninitialized data segment (used by syscalls.c for heap) */`
			`PROVIDE( end = . );`
			`_end = ALIGN(8);`
			`}`