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authorMagnus Damm <magnus@valinux.co.jp>2007-03-06 05:34:26 -0500
committerTony Luck <tony.luck@intel.com>2007-03-06 17:50:33 -0500
commitcee87af2a5f75713b98d3e65e43872e547122cd5 (patch)
tree1b5e4778d66cab374e333b4a327d28b0e037ab3f /arch/ia64/kernel/setup.c
parent41d5e5d73ecef4ef56b7b4cde962929a712689b4 (diff)
[IA64] kexec: Use EFI_LOADER_DATA for ELF core header
The address where the ELF core header is stored is passed to the secondary kernel as a kernel command line option. The memory area for this header is also marked as a separate EFI memory descriptor on ia64. The separate EFI memory descriptor is at the moment of the type EFI_UNUSABLE_MEMORY. With such a type the secondary kernel skips over the entire memory granule (config option, 16M or 64M) when detecting memory. If we are lucky we will just lose some memory, but if we happen to have data in the same granule (such as an initramfs image), then this data will never get mapped and the kernel bombs out when trying to access it. So this is an attempt to fix this by changing the EFI memory descriptor type into EFI_LOADER_DATA. This type is the same type used for the kernel data and for initramfs. In the secondary kernel we then handle the ELF core header data the same way as we handle the initramfs image. This patch contains the kernel changes to make this happen. Pretty straightforward, we reserve the area in reserve_memory(). The address for the area comes from the kernel command line and the size comes from the specialized EFI parsing function vmcore_find_descriptor_size(). The kexec-tools-testing code for this can be found here: http://lists.osdl.org/pipermail/fastboot/2007-February/005983.html Signed-off-by: Magnus Damm <magnus@valinux.co.jp> Cc: Simon Horman <horms@verge.net.au> Cc: Vivek Goyal <vgoyal@in.ibm.com> Signed-off-by: Andrew Morton <akpm@linux-foundation.org> Signed-off-by: Tony Luck <tony.luck@intel.com>
Diffstat (limited to 'arch/ia64/kernel/setup.c')
-rw-r--r--arch/ia64/kernel/setup.c30
1 files changed, 30 insertions, 0 deletions
diff --git a/arch/ia64/kernel/setup.c b/arch/ia64/kernel/setup.c
index 5fa09d141ab7..7d6fe65c93f4 100644
--- a/arch/ia64/kernel/setup.c
+++ b/arch/ia64/kernel/setup.c
@@ -251,6 +251,12 @@ reserve_memory (void)
251 } 251 }
252#endif 252#endif
253 253
254#ifdef CONFIG_PROC_VMCORE
255 if (reserve_elfcorehdr(&rsvd_region[n].start,
256 &rsvd_region[n].end) == 0)
257 n++;
258#endif
259
254 efi_memmap_init(&rsvd_region[n].start, &rsvd_region[n].end); 260 efi_memmap_init(&rsvd_region[n].start, &rsvd_region[n].end);
255 n++; 261 n++;
256 262
@@ -453,6 +459,30 @@ static int __init parse_elfcorehdr(char *arg)
453 return 0; 459 return 0;
454} 460}
455early_param("elfcorehdr", parse_elfcorehdr); 461early_param("elfcorehdr", parse_elfcorehdr);
462
463int __init reserve_elfcorehdr(unsigned long *start, unsigned long *end)
464{
465 unsigned long length;
466
467 /* We get the address using the kernel command line,
468 * but the size is extracted from the EFI tables.
469 * Both address and size are required for reservation
470 * to work properly.
471 */
472
473 if (elfcorehdr_addr >= ELFCORE_ADDR_MAX)
474 return -EINVAL;
475
476 if ((length = vmcore_find_descriptor_size(elfcorehdr_addr)) == 0) {
477 elfcorehdr_addr = ELFCORE_ADDR_MAX;
478 return -EINVAL;
479 }
480
481 *start = (unsigned long)__va(elfcorehdr_addr);
482 *end = *start + length;
483 return 0;
484}
485
456#endif /* CONFIG_PROC_VMCORE */ 486#endif /* CONFIG_PROC_VMCORE */
457 487
458void __init 488void __init