forked from Minki/linux
1a3f239ddf
This patch replaces the open-coded early commandline parsing throughout the i386 boot code with the generic mechanism (already used by ppc, powerpc, ia64 and s390). The code was inconsistent with whether it deletes the option from the cmdline or not, meaning some of these will get passed through the environment into init. This transformation is mainly mechanical, but there are some notable parts: 1) Grammar: s/linux never set's it up/linux never sets it up/ 2) Remove hacked-in earlyprintk= option scanning. When someone actually implements CONFIG_EARLY_PRINTK, then they can use early_param(). [AK: actually it is implemented, but I'm adding the early_param it in the next x86-64 patch] 3) Move declaration of generic_apic_probe() from setup.c into asm/apic.h 4) Various parameters now moved into their appropriate files (thanks Andi). 5) All parse functions which examine arg need to check for NULL, except one where it has subtle humor value. AK: readded acpi_sci handling which was completely dropped AK: moved some more variables into acpi/boot.c Cc: len.brown@intel.com Signed-off-by: Rusty Russell <rusty@rustcorp.com.au> Signed-off-by: Andi Kleen <ak@suse.de>
235 lines
6.3 KiB
C
235 lines
6.3 KiB
C
/*
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* machine_kexec.c - handle transition of Linux booting another kernel
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* Copyright (C) 2002-2005 Eric Biederman <ebiederm@xmission.com>
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*
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* This source code is licensed under the GNU General Public License,
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* Version 2. See the file COPYING for more details.
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*/
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#include <linux/mm.h>
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#include <linux/kexec.h>
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#include <linux/delay.h>
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#include <linux/init.h>
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#include <asm/pgtable.h>
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#include <asm/pgalloc.h>
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#include <asm/tlbflush.h>
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#include <asm/mmu_context.h>
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#include <asm/io.h>
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#include <asm/apic.h>
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#include <asm/cpufeature.h>
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#include <asm/desc.h>
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#include <asm/system.h>
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#define PAGE_ALIGNED __attribute__ ((__aligned__(PAGE_SIZE)))
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#define L0_ATTR (_PAGE_PRESENT | _PAGE_RW | _PAGE_ACCESSED | _PAGE_DIRTY)
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#define L1_ATTR (_PAGE_PRESENT | _PAGE_RW | _PAGE_ACCESSED | _PAGE_DIRTY)
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#define L2_ATTR (_PAGE_PRESENT)
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#define LEVEL0_SIZE (1UL << 12UL)
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#ifndef CONFIG_X86_PAE
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#define LEVEL1_SIZE (1UL << 22UL)
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static u32 pgtable_level1[1024] PAGE_ALIGNED;
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static void identity_map_page(unsigned long address)
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{
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unsigned long level1_index, level2_index;
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u32 *pgtable_level2;
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/* Find the current page table */
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pgtable_level2 = __va(read_cr3());
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/* Find the indexes of the physical address to identity map */
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level1_index = (address % LEVEL1_SIZE)/LEVEL0_SIZE;
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level2_index = address / LEVEL1_SIZE;
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/* Identity map the page table entry */
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pgtable_level1[level1_index] = address | L0_ATTR;
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pgtable_level2[level2_index] = __pa(pgtable_level1) | L1_ATTR;
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/* Flush the tlb so the new mapping takes effect.
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* Global tlb entries are not flushed but that is not an issue.
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*/
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load_cr3(pgtable_level2);
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}
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#else
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#define LEVEL1_SIZE (1UL << 21UL)
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#define LEVEL2_SIZE (1UL << 30UL)
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static u64 pgtable_level1[512] PAGE_ALIGNED;
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static u64 pgtable_level2[512] PAGE_ALIGNED;
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static void identity_map_page(unsigned long address)
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{
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unsigned long level1_index, level2_index, level3_index;
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u64 *pgtable_level3;
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/* Find the current page table */
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pgtable_level3 = __va(read_cr3());
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/* Find the indexes of the physical address to identity map */
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level1_index = (address % LEVEL1_SIZE)/LEVEL0_SIZE;
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level2_index = (address % LEVEL2_SIZE)/LEVEL1_SIZE;
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level3_index = address / LEVEL2_SIZE;
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/* Identity map the page table entry */
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pgtable_level1[level1_index] = address | L0_ATTR;
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pgtable_level2[level2_index] = __pa(pgtable_level1) | L1_ATTR;
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set_64bit(&pgtable_level3[level3_index],
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__pa(pgtable_level2) | L2_ATTR);
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/* Flush the tlb so the new mapping takes effect.
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* Global tlb entries are not flushed but that is not an issue.
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*/
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load_cr3(pgtable_level3);
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}
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#endif
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static void set_idt(void *newidt, __u16 limit)
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{
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struct Xgt_desc_struct curidt;
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/* ia32 supports unaliged loads & stores */
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curidt.size = limit;
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curidt.address = (unsigned long)newidt;
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load_idt(&curidt);
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};
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static void set_gdt(void *newgdt, __u16 limit)
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{
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struct Xgt_desc_struct curgdt;
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/* ia32 supports unaligned loads & stores */
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curgdt.size = limit;
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curgdt.address = (unsigned long)newgdt;
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load_gdt(&curgdt);
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};
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static void load_segments(void)
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{
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#define __STR(X) #X
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#define STR(X) __STR(X)
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__asm__ __volatile__ (
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"\tljmp $"STR(__KERNEL_CS)",$1f\n"
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"\t1:\n"
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"\tmovl $"STR(__KERNEL_DS)",%%eax\n"
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"\tmovl %%eax,%%ds\n"
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"\tmovl %%eax,%%es\n"
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"\tmovl %%eax,%%fs\n"
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"\tmovl %%eax,%%gs\n"
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"\tmovl %%eax,%%ss\n"
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::: "eax", "memory");
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#undef STR
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#undef __STR
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}
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typedef asmlinkage NORET_TYPE void (*relocate_new_kernel_t)(
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unsigned long indirection_page,
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unsigned long reboot_code_buffer,
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unsigned long start_address,
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unsigned int has_pae) ATTRIB_NORET;
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extern const unsigned char relocate_new_kernel[];
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extern void relocate_new_kernel_end(void);
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extern const unsigned int relocate_new_kernel_size;
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/*
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* A architecture hook called to validate the
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* proposed image and prepare the control pages
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* as needed. The pages for KEXEC_CONTROL_CODE_SIZE
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* have been allocated, but the segments have yet
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* been copied into the kernel.
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*
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* Do what every setup is needed on image and the
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* reboot code buffer to allow us to avoid allocations
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* later.
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*
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* Currently nothing.
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*/
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int machine_kexec_prepare(struct kimage *image)
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{
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return 0;
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}
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/*
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* Undo anything leftover by machine_kexec_prepare
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* when an image is freed.
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*/
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void machine_kexec_cleanup(struct kimage *image)
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{
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}
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/*
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* Do not allocate memory (or fail in any way) in machine_kexec().
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* We are past the point of no return, committed to rebooting now.
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*/
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NORET_TYPE void machine_kexec(struct kimage *image)
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{
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unsigned long page_list;
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unsigned long reboot_code_buffer;
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relocate_new_kernel_t rnk;
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/* Interrupts aren't acceptable while we reboot */
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local_irq_disable();
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/* Compute some offsets */
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reboot_code_buffer = page_to_pfn(image->control_code_page)
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<< PAGE_SHIFT;
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page_list = image->head;
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/* Set up an identity mapping for the reboot_code_buffer */
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identity_map_page(reboot_code_buffer);
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/* copy it out */
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memcpy((void *)reboot_code_buffer, relocate_new_kernel,
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relocate_new_kernel_size);
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/* The segment registers are funny things, they have both a
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* visible and an invisible part. Whenever the visible part is
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* set to a specific selector, the invisible part is loaded
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* with from a table in memory. At no other time is the
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* descriptor table in memory accessed.
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*
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* I take advantage of this here by force loading the
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* segments, before I zap the gdt with an invalid value.
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*/
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load_segments();
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/* The gdt & idt are now invalid.
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* If you want to load them you must set up your own idt & gdt.
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*/
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set_gdt(phys_to_virt(0),0);
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set_idt(phys_to_virt(0),0);
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/* now call it */
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rnk = (relocate_new_kernel_t) reboot_code_buffer;
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(*rnk)(page_list, reboot_code_buffer, image->start, cpu_has_pae);
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}
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/* crashkernel=size@addr specifies the location to reserve for
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* a crash kernel. By reserving this memory we guarantee
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* that linux never sets it up as a DMA target.
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* Useful for holding code to do something appropriate
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* after a kernel panic.
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*/
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static int __init parse_crashkernel(char *arg)
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{
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unsigned long size, base;
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size = memparse(arg, &arg);
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if (*arg == '@') {
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base = memparse(arg+1, &arg);
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/* FIXME: Do I want a sanity check
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* to validate the memory range?
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*/
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crashk_res.start = base;
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crashk_res.end = base + size - 1;
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}
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return 0;
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}
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early_param("crashkernel", parse_crashkernel);
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