arch/blackfin/kernel/vmlinux.lds.S - maze/linux - Git at Google

 /*
  * Copyright 2004-2009 Analog Devices Inc.
  *
  * Licensed under the GPL-2 or later
  */

 #include <asm-generic/vmlinux.lds.h>
 #include <asm/mem_map.h>
 #include <asm/page.h>
 #include <asm/thread_info.h>

 OUTPUT_FORMAT("elf32-bfin")
 ENTRY(__start)
 _jiffies = _jiffies_64;

 SECTIONS
 {
 #ifdef CONFIG_RAMKERNEL
 	. = CONFIG_BOOT_LOAD;
 #else
 	. = CONFIG_ROM_BASE;
 #endif

 	/* Neither the text, ro_data or bss section need to be aligned
 	 * So pack them back to back
 	 */
 	.text :
 	{
 		__text = .;
 		_text = .;
 		__stext = .;
 		TEXT_TEXT
 #ifndef CONFIG_SCHEDULE_L1
 		SCHED_TEXT
 #endif
 		LOCK_TEXT
 		IRQENTRY_TEXT
 		KPROBES_TEXT
 #ifdef CONFIG_ROMKERNEL
 		__sinittext = .;
 		INIT_TEXT
 		__einittext = .;
 		EXIT_TEXT
 #endif
 		*(.text.*)
 		*(.fixup)

 #if !L1_CODE_LENGTH
 		*(.l1.text)
 #endif
 		__etext = .;
 	}

 	EXCEPTION_TABLE(4)
 	NOTES

 	/* Just in case the first read only is a 32-bit access */
 	RO_DATA(4)
 	__rodata_end = .;

 #ifdef CONFIG_ROMKERNEL
 	. = CONFIG_BOOT_LOAD;
 	.bss : AT(__rodata_end)
 #else
 	.bss :
 #endif
 	{
 		. = ALIGN(4);
 		___bss_start = .;
 		*(.bss .bss.*)
 		*(COMMON)
 #if !L1_DATA_A_LENGTH
 		*(.l1.bss)
 #endif
 #if !L1_DATA_B_LENGTH
 		*(.l1.bss.B)
 #endif
 		. = ALIGN(4);
 		___bss_stop = .;
 	}

 #if defined(CONFIG_ROMKERNEL)
 	.data : AT(LOADADDR(.bss) + SIZEOF(.bss))
 #else
 	.data :
 #endif
 	{
 		__sdata = .;
 		/* This gets done first, so the glob doesn't suck it in */
 		CACHELINE_ALIGNED_DATA(32)

 #if !L1_DATA_A_LENGTH
 		. = ALIGN(32);
 		*(.data_l1.cacheline_aligned)
 		*(.l1.data)
 #endif
 #if !L1_DATA_B_LENGTH
 		*(.l1.data.B)
 #endif
 #if !L2_LENGTH
 		. = ALIGN(32);
 		*(.data_l2.cacheline_aligned)
 		*(.l2.data)
 #endif

 		DATA_DATA
 		CONSTRUCTORS

 		INIT_TASK_DATA(THREAD_SIZE)

 		__edata = .;
 	}
 	__data_lma = LOADADDR(.data);
 	__data_len = SIZEOF(.data);

 	/* The init section should be last, so when we free it, it goes into
 	 * the general memory pool, and (hopefully) will decrease fragmentation
 	 * a tiny bit. The init section has a _requirement_ that it be
 	 * PAGE_SIZE aligned
 	 */
 	. = ALIGN(PAGE_SIZE);
 	___init_begin = .;

 #ifdef CONFIG_RAMKERNEL
 	INIT_TEXT_SECTION(PAGE_SIZE)

 	/* We have to discard exit text and such at runtime, not link time, to
 	 * handle embedded cross-section references (alt instructions, bug
 	 * table, eh_frame, etc...).  We need all of our .text up front and
 	 * .data after it for PCREL call issues.
 	 */
 	.exit.text :
 	{
 		EXIT_TEXT
 	}

 	. = ALIGN(16);
 	INIT_DATA_SECTION(16)
 	PERCPU_SECTION(32)

 	.exit.data :
 	{
 		EXIT_DATA
 	}

 	.text_l1 L1_CODE_START : AT(LOADADDR(.exit.data) + SIZEOF(.exit.data))
 #else
 	.init.data : AT(__data_lma + __data_len)
 	{
 		__sinitdata = .;
 		INIT_DATA
 		INIT_SETUP(16)
 		INIT_CALLS
 		CON_INITCALL
 		SECURITY_INITCALL
 		INIT_RAM_FS

 		. = ALIGN(PAGE_SIZE);
 		___per_cpu_load = .;
 		PERCPU_INPUT(32)

 		EXIT_DATA
 		__einitdata = .;
 	}
 	__init_data_lma = LOADADDR(.init.data);
 	__init_data_len = SIZEOF(.init.data);
 	__init_data_end = .;

 	.text_l1 L1_CODE_START : AT(__init_data_lma + __init_data_len)
 #endif
 	{
 		. = ALIGN(4);
 		__stext_l1 = .;
 		*(.l1.text.head)
 		*(.l1.text)
 #ifdef CONFIG_SCHEDULE_L1
 		SCHED_TEXT
 #endif
 		. = ALIGN(4);
 		__etext_l1 = .;
 	}
 	__text_l1_lma = LOADADDR(.text_l1);
 	__text_l1_len = SIZEOF(.text_l1);
 	ASSERT (__text_l1_len <= L1_CODE_LENGTH, "L1 text overflow!")

 	.data_l1 L1_DATA_A_START : AT(__text_l1_lma + __text_l1_len)
 	{
 		. = ALIGN(4);
 		__sdata_l1 = .;
 		*(.l1.data)
 		__edata_l1 = .;

 		. = ALIGN(32);
 		*(.data_l1.cacheline_aligned)

 		. = ALIGN(4);
 		__sbss_l1 = .;
 		*(.l1.bss)
 		. = ALIGN(4);
 		__ebss_l1 = .;
 	}
 	__data_l1_lma = LOADADDR(.data_l1);
 	__data_l1_len = SIZEOF(.data_l1);
 	ASSERT (__data_l1_len <= L1_DATA_A_LENGTH, "L1 data A overflow!")

 	.data_b_l1 L1_DATA_B_START : AT(__data_l1_lma + __data_l1_len)
 	{
 		. = ALIGN(4);
 		__sdata_b_l1 = .;
 		*(.l1.data.B)
 		__edata_b_l1 = .;

 		. = ALIGN(4);
 		__sbss_b_l1 = .;
 		*(.l1.bss.B)
 		. = ALIGN(4);
 		__ebss_b_l1 = .;
 	}
 	__data_b_l1_lma = LOADADDR(.data_b_l1);
 	__data_b_l1_len = SIZEOF(.data_b_l1);
 	ASSERT (__data_b_l1_len <= L1_DATA_B_LENGTH, "L1 data B overflow!")

 	.text_data_l2 L2_START : AT(__data_b_l1_lma + __data_b_l1_len)
 	{
 		. = ALIGN(4);
 		__stext_l2 = .;
 		*(.l2.text)
 		. = ALIGN(4);
 		__etext_l2 = .;

 		. = ALIGN(4);
 		__sdata_l2 = .;
 		*(.l2.data)
 		__edata_l2 = .;

 		. = ALIGN(32);
 		*(.data_l2.cacheline_aligned)

 		. = ALIGN(4);
 		__sbss_l2 = .;
 		*(.l2.bss)
 		. = ALIGN(4);
 		__ebss_l2 = .;
 	}
 	__l2_lma = LOADADDR(.text_data_l2);
 	__l2_len = SIZEOF(.text_data_l2);
 	ASSERT (__l2_len <= L2_LENGTH, "L2 overflow!")

 	/* Force trailing alignment of our init section so that when we
 	 * free our init memory, we don't leave behind a partial page.
 	 */
 #ifdef CONFIG_RAMKERNEL
 	. = __l2_lma + __l2_len;
 #else
 	. = __init_data_end;
 #endif
 	. = ALIGN(PAGE_SIZE);
 	___init_end = .;

 	__end =.;

 	STABS_DEBUG

 	DWARF_DEBUG

 	DISCARDS
 }
	/*
	* Copyright 2004-2009 Analog Devices Inc.
	*
	* Licensed under the GPL-2 or later
	*/

	#include <asm-generic/vmlinux.lds.h>
	#include <asm/mem_map.h>
	#include <asm/page.h>
	#include <asm/thread_info.h>

	OUTPUT_FORMAT("elf32-bfin")
	ENTRY(__start)
	_jiffies = _jiffies_64;

	SECTIONS
	{
	#ifdef CONFIG_RAMKERNEL
	. = CONFIG_BOOT_LOAD;
	#else
	. = CONFIG_ROM_BASE;
	#endif

	/* Neither the text, ro_data or bss section need to be aligned
	* So pack them back to back
	*/
	.text :
	{
	__text = .;
	_text = .;
	__stext = .;
	TEXT_TEXT
	#ifndef CONFIG_SCHEDULE_L1
	SCHED_TEXT
	#endif
	LOCK_TEXT
	IRQENTRY_TEXT
	KPROBES_TEXT
	#ifdef CONFIG_ROMKERNEL
	__sinittext = .;
	INIT_TEXT
	__einittext = .;
	EXIT_TEXT
	#endif
	(.text.)
	*(.fixup)

	#if !L1_CODE_LENGTH
	*(.l1.text)
	#endif
	__etext = .;
	}

	EXCEPTION_TABLE(4)
	NOTES

	/* Just in case the first read only is a 32-bit access */
	RO_DATA(4)
	__rodata_end = .;

	#ifdef CONFIG_ROMKERNEL
	. = CONFIG_BOOT_LOAD;
	.bss : AT(__rodata_end)
	#else
	.bss :
	#endif
	{
	. = ALIGN(4);
	___bss_start = .;
	(.bss .bss.)
	*(COMMON)
	#if !L1_DATA_A_LENGTH
	*(.l1.bss)
	#endif
	#if !L1_DATA_B_LENGTH
	*(.l1.bss.B)
	#endif
	. = ALIGN(4);
	___bss_stop = .;
	}

	#if defined(CONFIG_ROMKERNEL)
	.data : AT(LOADADDR(.bss) + SIZEOF(.bss))
	#else
	.data :
	#endif
	{
	__sdata = .;
	/* This gets done first, so the glob doesn't suck it in */
	CACHELINE_ALIGNED_DATA(32)

	#if !L1_DATA_A_LENGTH
	. = ALIGN(32);
	*(.data_l1.cacheline_aligned)
	*(.l1.data)
	#endif
	#if !L1_DATA_B_LENGTH
	*(.l1.data.B)
	#endif
	#if !L2_LENGTH
	. = ALIGN(32);
	*(.data_l2.cacheline_aligned)
	*(.l2.data)
	#endif

	DATA_DATA
	CONSTRUCTORS

	INIT_TASK_DATA(THREAD_SIZE)

	__edata = .;
	}
	__data_lma = LOADADDR(.data);
	__data_len = SIZEOF(.data);

	/* The init section should be last, so when we free it, it goes into
	* the general memory pool, and (hopefully) will decrease fragmentation
	* a tiny bit. The init section has a _requirement_ that it be
	* PAGE_SIZE aligned
	*/
	. = ALIGN(PAGE_SIZE);
	___init_begin = .;

	#ifdef CONFIG_RAMKERNEL
	INIT_TEXT_SECTION(PAGE_SIZE)

	/* We have to discard exit text and such at runtime, not link time, to
	* handle embedded cross-section references (alt instructions, bug
	* table, eh_frame, etc...). We need all of our .text up front and
	* .data after it for PCREL call issues.
	*/
	.exit.text :
	{
	EXIT_TEXT
	}

	. = ALIGN(16);
	INIT_DATA_SECTION(16)
	PERCPU_SECTION(32)

	.exit.data :
	{
	EXIT_DATA
	}

	.text_l1 L1_CODE_START : AT(LOADADDR(.exit.data) + SIZEOF(.exit.data))
	#else
	.init.data : AT(__data_lma + __data_len)
	{
	__sinitdata = .;
	INIT_DATA
	INIT_SETUP(16)
	INIT_CALLS
	CON_INITCALL
	SECURITY_INITCALL
	INIT_RAM_FS

	. = ALIGN(PAGE_SIZE);
	___per_cpu_load = .;
	PERCPU_INPUT(32)

	EXIT_DATA
	__einitdata = .;
	}
	__init_data_lma = LOADADDR(.init.data);
	__init_data_len = SIZEOF(.init.data);
	__init_data_end = .;

	.text_l1 L1_CODE_START : AT(__init_data_lma + __init_data_len)
	#endif
	{
	. = ALIGN(4);
	__stext_l1 = .;
	*(.l1.text.head)
	*(.l1.text)
	#ifdef CONFIG_SCHEDULE_L1
	SCHED_TEXT
	#endif
	. = ALIGN(4);
	__etext_l1 = .;
	}
	__text_l1_lma = LOADADDR(.text_l1);
	__text_l1_len = SIZEOF(.text_l1);
	ASSERT (__text_l1_len <= L1_CODE_LENGTH, "L1 text overflow!")

	.data_l1 L1_DATA_A_START : AT(__text_l1_lma + __text_l1_len)
	{
	. = ALIGN(4);
	__sdata_l1 = .;
	*(.l1.data)
	__edata_l1 = .;

	. = ALIGN(32);
	*(.data_l1.cacheline_aligned)

	. = ALIGN(4);
	__sbss_l1 = .;
	*(.l1.bss)
	. = ALIGN(4);
	__ebss_l1 = .;
	}
	__data_l1_lma = LOADADDR(.data_l1);
	__data_l1_len = SIZEOF(.data_l1);
	ASSERT (__data_l1_len <= L1_DATA_A_LENGTH, "L1 data A overflow!")

	.data_b_l1 L1_DATA_B_START : AT(__data_l1_lma + __data_l1_len)
	{
	. = ALIGN(4);
	__sdata_b_l1 = .;
	*(.l1.data.B)
	__edata_b_l1 = .;

	. = ALIGN(4);
	__sbss_b_l1 = .;
	*(.l1.bss.B)
	. = ALIGN(4);
	__ebss_b_l1 = .;
	}
	__data_b_l1_lma = LOADADDR(.data_b_l1);
	__data_b_l1_len = SIZEOF(.data_b_l1);
	ASSERT (__data_b_l1_len <= L1_DATA_B_LENGTH, "L1 data B overflow!")

	.text_data_l2 L2_START : AT(__data_b_l1_lma + __data_b_l1_len)
	{
	. = ALIGN(4);
	__stext_l2 = .;
	*(.l2.text)
	. = ALIGN(4);
	__etext_l2 = .;

	. = ALIGN(4);
	__sdata_l2 = .;
	*(.l2.data)
	__edata_l2 = .;

	. = ALIGN(32);
	*(.data_l2.cacheline_aligned)

	. = ALIGN(4);
	__sbss_l2 = .;
	*(.l2.bss)
	. = ALIGN(4);
	__ebss_l2 = .;
	}
	__l2_lma = LOADADDR(.text_data_l2);
	__l2_len = SIZEOF(.text_data_l2);
	ASSERT (__l2_len <= L2_LENGTH, "L2 overflow!")

	/* Force trailing alignment of our init section so that when we
	* free our init memory, we don't leave behind a partial page.
	*/
	#ifdef CONFIG_RAMKERNEL
	. = __l2_lma + __l2_len;
	#else
	. = __init_data_end;
	#endif
	. = ALIGN(PAGE_SIZE);
	___init_end = .;

	__end =.;

	STABS_DEBUG

	DWARF_DEBUG

	DISCARDS
	}