| /* |
| * 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(4); |
| ___per_cpu_load = .; |
| ___per_cpu_start = .; |
| *(.data.percpu.first) |
| *(.data.percpu.page_aligned) |
| *(.data.percpu) |
| *(.data.percpu.shared_aligned) |
| ___per_cpu_end = .; |
| |
| 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 |
| } |