Lift up core size limits on some platforms. Fix potential memory

corruption with big core on small memory systems. Document remaining
	limits.
This commit is contained in:
Vladimir 'phcoder' Serbinenko 2013-03-07 08:17:24 +01:00
parent f6b58fe538
commit 774683685f
9 changed files with 210 additions and 32 deletions

View file

@ -1,3 +1,9 @@
2013-03-07 Vladimir Serbinenko <phcoder@gmail.com>
Lift up core size limits on some platforms. Fix potential memory
corruption with big core on small memory systems. Document remaining
limits.
2013-03-05 Vladimir Serbinenko <phcoder@gmail.com> 2013-03-05 Vladimir Serbinenko <phcoder@gmail.com>
* grub-core/term/terminfo.c (grub_terminfo_cls): Issue an explicit * grub-core/term/terminfo.c (grub_terminfo_cls): Issue an explicit

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@ -89,6 +89,7 @@ This edition documents version @value{VERSION}.
* Serial terminal:: Using GRUB via a serial line * Serial terminal:: Using GRUB via a serial line
* Vendor power-on keys:: Changing GRUB behaviour on vendor power-on keys * Vendor power-on keys:: Changing GRUB behaviour on vendor power-on keys
* Images:: GRUB image files * Images:: GRUB image files
* Core image size limitation:: GRUB image files size limitations
* Filesystem:: Filesystem syntax and semantics * Filesystem:: Filesystem syntax and semantics
* Interface:: The menu and the command-line * Interface:: The menu and the command-line
* Environment:: GRUB environment variables * Environment:: GRUB environment variables
@ -2390,6 +2391,43 @@ In GRUB 2, images for PXE network booting are now constructed using
contains the @samp{pxe} and @samp{pxecmd} modules. @xref{Network}. contains the @samp{pxe} and @samp{pxecmd} modules. @xref{Network}.
@end table @end table
@node Core image size limitation
@chapter Core image size limitation
Heavily limited platforms:
@itemize
@item i386-pc (normal and PXE): the core image size (compressed) is limited by 458240 bytes.
kernel.img (.text + .data + .bss, uncompressed) is limited by 392704 bytes.
module size (uncompressed) + kernel.img (.text + .data, uncompressed) is limited by the size of contiguous chunk at 1M address.
@item sparc64-ieee1275: kernel.img (.text + .data + .bss) + modules + 256K (stack) + 2M (heap) is limited by space available at 0x4400. On most platforms it's just 3 or 4M since ieee1275 maps only so much.
@item i386-ieee1275: kernel.img (.text + .data + .bss) + modules is limited by memory available at 0x10000, at most 596K
@end itemize
Lightly limited platforms:
@itemize
@item i386-qemu: kernel.img (.text + .data + .bss) is limited by 392704 bytes.
(core.img would be limited by ROM size but it's unlimited on qemu
@item All EFI platforms: limited by contiguous RAM size and possibly firmware bugs
@item Coreboot and multiboot. kernel.img (.text + .data + .bss) is limited by 392704 bytes.
module size is limited by the size of contiguous chunk at 1M address.
@item mipsel-loongson (ELF), mips(el)-qemu_mips (ELF): if uncompressed:
kernel.img (.text + .data) + modules is limited by the space from 80200000 forward
if compressed:
kernel.img (.text + .data, uncompressed) + modules (uncompressed)
+ (modules + kernel.img (.text + .data)) (compressed)
+ decompressor is limited by the space from 80200000 forward
@item mipsel-loongson (Flash), mips(el)-qemu_mips (Flash): kernel.img (.text + .data) + modules is limited by the space from 80200000 forward
core.img (final) is limited by flash size (512K on yeeloong and fulooong)
@item mips-arc: if uncompressed:
kernel.img (.text + .data) is limited by the space from 8bd00000 forward
modules + dummy decompressor is limited by the space from 8bd00000 backward
if compressed:
kernel.img (.text + .data, uncompressed) is limited by the space from 8bd00000 forward
modules (uncompressed) + (modules + kernel.img (.text + .data)) (compressed, aligned to 1M)
+ 1M (decompressor + scratch space) is limited by the space from 8bd00000 backward
@item powerpc-ieee1275: kernel.img (.text + .data + .bss) + modules is limited by space available at 0x200000
@end itemize
@node Filesystem @node Filesystem
@chapter Filesystem syntax and semantics @chapter Filesystem syntax and semantics

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@ -54,7 +54,8 @@ grub_exit (void)
#ifdef GRUB_MACHINE_QEMU #ifdef GRUB_MACHINE_QEMU
grub_addr_t grub_modbase; grub_addr_t grub_modbase;
#else #else
grub_addr_t grub_modbase = ALIGN_UP((grub_addr_t) _end, GRUB_KERNEL_MACHINE_MOD_ALIGN); grub_addr_t grub_modbase = GRUB_KERNEL_I386_COREBOOT_MODULES_ADDR;
static grub_uint64_t modend;
#endif #endif
/* Helper for grub_machine_init. */ /* Helper for grub_machine_init. */
@ -62,30 +63,32 @@ static int
heap_init (grub_uint64_t addr, grub_uint64_t size, grub_memory_type_t type, heap_init (grub_uint64_t addr, grub_uint64_t size, grub_memory_type_t type,
void *data __attribute__ ((unused))) void *data __attribute__ ((unused)))
{ {
grub_uint64_t begin = addr, end = addr + size;
#if GRUB_CPU_SIZEOF_VOID_P == 4 #if GRUB_CPU_SIZEOF_VOID_P == 4
/* Restrict ourselves to 32-bit memory space. */ /* Restrict ourselves to 32-bit memory space. */
if (addr > GRUB_ULONG_MAX) if (begin > GRUB_ULONG_MAX)
return 0; return 0;
if (addr + size > GRUB_ULONG_MAX) if (end > GRUB_ULONG_MAX)
size = GRUB_ULONG_MAX - addr; end = GRUB_ULONG_MAX;
#endif #endif
if (type != GRUB_MEMORY_AVAILABLE) if (type != GRUB_MEMORY_AVAILABLE)
return 0; return 0;
/* Avoid the lower memory. */ /* Avoid the lower memory. */
if (addr < GRUB_MEMORY_MACHINE_LOWER_SIZE) if (begin < GRUB_MEMORY_MACHINE_LOWER_SIZE)
{ begin = GRUB_MEMORY_MACHINE_LOWER_SIZE;
if (addr + size <= GRUB_MEMORY_MACHINE_LOWER_SIZE)
return 0;
else
{
size -= GRUB_MEMORY_MACHINE_LOWER_SIZE - addr;
addr = GRUB_MEMORY_MACHINE_LOWER_SIZE;
}
}
grub_mm_init_region ((void *) (grub_addr_t) addr, (grub_size_t) size); #ifndef GRUB_MACHINE_QEMU
if (modend && begin < modend)
begin = modend;
#endif
if (end <= begin)
return 0;
grub_mm_init_region ((void *) (grub_addr_t) begin, (grub_size_t) (end - begin));
return 0; return 0;
} }
@ -97,6 +100,9 @@ grub_machine_init (void)
grub_modbase = grub_core_entry_addr + (_edata - _start); grub_modbase = grub_core_entry_addr + (_edata - _start);
grub_qemu_init_cirrus (); grub_qemu_init_cirrus ();
#endif
#ifndef GRUB_MACHINE_QEMU
modend = grub_modules_get_end ();
#endif #endif
/* Initialize the console as early as possible. */ /* Initialize the console as early as possible. */
grub_vga_text_init (); grub_vga_text_init ();

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@ -191,6 +191,7 @@ grub_machine_init (void)
#if 0 #if 0
int grub_lower_mem; int grub_lower_mem;
#endif #endif
grub_addr_t modend;
grub_modbase = GRUB_MEMORY_MACHINE_DECOMPRESSION_ADDR + (_edata - _start); grub_modbase = GRUB_MEMORY_MACHINE_DECOMPRESSION_ADDR + (_edata - _start);
@ -222,8 +223,17 @@ grub_machine_init (void)
compact_mem_regions (); compact_mem_regions ();
modend = grub_modules_get_end ();
for (i = 0; i < num_regions; i++) for (i = 0; i < num_regions; i++)
grub_mm_init_region ((void *) mem_regions[i].addr, mem_regions[i].size); {
grub_addr_t beg = mem_regions[i].addr;
grub_addr_t fin = mem_regions[i].addr + mem_regions[i].size;
if (modend && beg < modend)
beg = modend;
if (beg >= fin)
continue;
grub_mm_init_region ((void *) beg, fin - beg);
}
grub_tsc_init (); grub_tsc_init ();
} }

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@ -30,8 +30,10 @@
#include <grub/reader.h> #include <grub/reader.h>
#include <grub/parser.h> #include <grub/parser.h>
/* This is actualy platform-independant but used only on loongson and sparc. */ #ifdef GRUB_MACHINE_PCBIOS
#if defined (GRUB_MACHINE_MIPS_LOONGSON) || defined (GRUB_MACHINE_MIPS_QEMU_MIPS) || defined (GRUB_MACHINE_SPARC64) #include <grub/machine/memory.h>
#endif
grub_addr_t grub_addr_t
grub_modules_get_end (void) grub_modules_get_end (void)
{ {
@ -45,7 +47,6 @@ grub_modules_get_end (void)
return grub_modbase + modinfo->size; return grub_modbase + modinfo->size;
} }
#endif
/* Load all modules in core. */ /* Load all modules in core. */
static void static void
@ -67,6 +68,8 @@ grub_load_modules (void)
} }
} }
static char *load_config;
static void static void
grub_load_config (void) grub_load_config (void)
{ {
@ -77,8 +80,16 @@ grub_load_config (void)
if (header->type != OBJ_TYPE_CONFIG) if (header->type != OBJ_TYPE_CONFIG)
continue; continue;
grub_parser_execute ((char *) header + load_config = grub_malloc (header->size - sizeof (struct grub_module_header) + 1);
sizeof (struct grub_module_header)); if (!load_config)
{
grub_print_error ();
break;
}
grub_memcpy (load_config, (char *) header +
sizeof (struct grub_module_header),
header->size - sizeof (struct grub_module_header));
load_config[header->size - sizeof (struct grub_module_header)] = 0;
break; break;
} }
} }
@ -212,6 +223,30 @@ grub_load_normal_mode (void)
grub_command_execute ("normal", 0, 0); grub_command_execute ("normal", 0, 0);
} }
static void
reclaim_module_space (void)
{
grub_addr_t modstart, modend;
if (!grub_modbase)
return;
#ifdef GRUB_MACHINE_PCBIOS
modstart = GRUB_MEMORY_MACHINE_DECOMPRESSION_ADDR;
#else
modstart = grub_modbase;
#endif
modend = grub_modules_get_end ();
grub_modbase = 0;
#if GRUB_KERNEL_PRELOAD_SPACE_REUSABLE
grub_mm_init_region ((void *) modstart, modend - modstart);
#else
(void) modstart;
(void) modend;
#endif
}
/* The main routine. */ /* The main routine. */
void __attribute__ ((noreturn)) void __attribute__ ((noreturn))
grub_main (void) grub_main (void)
@ -224,6 +259,8 @@ grub_main (void)
grub_printf ("Welcome to GRUB!\n\n"); grub_printf ("Welcome to GRUB!\n\n");
grub_setcolorstate (GRUB_TERM_COLOR_STANDARD); grub_setcolorstate (GRUB_TERM_COLOR_STANDARD);
grub_load_config ();
/* Load pre-loaded modules and free the space. */ /* Load pre-loaded modules and free the space. */
grub_register_exported_symbols (); grub_register_exported_symbols ();
#ifdef GRUB_LINKER_HAVE_INIT #ifdef GRUB_LINKER_HAVE_INIT
@ -237,9 +274,14 @@ grub_main (void)
grub_env_export ("root"); grub_env_export ("root");
grub_env_export ("prefix"); grub_env_export ("prefix");
/* Reclaim space used for modules. */
reclaim_module_space ();
grub_register_core_commands (); grub_register_core_commands ();
grub_load_config (); if (load_config)
grub_parser_execute (load_config);
grub_load_normal_mode (); grub_load_normal_mode ();
grub_rescue_run (); grub_rescue_run ();
} }

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@ -117,6 +117,27 @@ grub_mm_init_region (void *addr, grub_size_t size)
grub_printf ("Using memory for heap: start=%p, end=%p\n", addr, addr + (unsigned int) size); grub_printf ("Using memory for heap: start=%p, end=%p\n", addr, addr + (unsigned int) size);
#endif #endif
for (p = &grub_mm_base, q = *p; q; p = &(q->next), q = *p)
if ((grub_uint8_t *) addr + size + q->pre_size == (grub_uint8_t *) q)
{
r = (grub_mm_region_t) ALIGN_UP ((grub_addr_t) addr, GRUB_MM_ALIGN);
*r = *q;
r->pre_size += size;
if (r->pre_size >> GRUB_MM_ALIGN_LOG2)
{
h = (grub_mm_header_t) (r + 1);
h->size = (r->pre_size >> GRUB_MM_ALIGN_LOG2);
h->magic = GRUB_MM_ALLOC_MAGIC;
r->size += h->size << GRUB_MM_ALIGN_LOG2;
r->pre_size &= (GRUB_MM_ALIGN - 1);
*p = r;
grub_free (h + 1);
}
*p = r;
return;
}
/* Allocate a region from the head. */ /* Allocate a region from the head. */
r = (grub_mm_region_t) ALIGN_UP ((grub_addr_t) addr, GRUB_MM_ALIGN); r = (grub_mm_region_t) ALIGN_UP ((grub_addr_t) addr, GRUB_MM_ALIGN);
size -= (char *) r - (char *) addr + sizeof (*r); size -= (char *) r - (char *) addr + sizeof (*r);

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@ -64,6 +64,29 @@ struct grub_module_info64
grub_uint64_t size; grub_uint64_t size;
}; };
#ifndef GRUB_UTIL
/* Space isn't reusable on some platforms. */
/* On Qemu the preload space is readonly. */
/* On emu there is no preload space. */
/* On ieee1275 our code assumes that heap is p=v which isn't guaranteed for module space. */
#if defined (GRUB_MACHINE_QEMU) || defined (GRUB_MACHINE_EMU) \
|| defined (GRUB_MACHINE_EFI) \
|| (defined (GRUB_MACHINE_IEEE1275) && !defined (__sparc__))
#define GRUB_KERNEL_PRELOAD_SPACE_REUSABLE 0
#endif
#if defined (GRUB_MACHINE_PCBIOS) || defined (GRUB_MACHINE_COREBOOT) \
|| defined (GRUB_MACHINE_MULTIBOOT) || defined (GRUB_MACHINE_MIPS_QEMU_MIPS) \
|| defined (GRUB_MACHINE_MIPS_LOONGSON) || defined (GRUB_MACHINE_ARC) \
|| defined (__sparc__)
/* FIXME: stack is between 2 heap regions. Move it. */
#define GRUB_KERNEL_PRELOAD_SPACE_REUSABLE 1
#endif
#ifndef GRUB_KERNEL_PRELOAD_SPACE_REUSABLE
#error "Please check if preload space is reusable on this platform!"
#endif
#if GRUB_TARGET_SIZEOF_VOID_P == 8 #if GRUB_TARGET_SIZEOF_VOID_P == 8
#define grub_module_info grub_module_info64 #define grub_module_info grub_module_info64
#else #else
@ -82,6 +105,8 @@ extern grub_addr_t EXPORT_VAR (grub_modbase);
grub_addr_t grub_modules_get_end (void); grub_addr_t grub_modules_get_end (void);
#endif
/* The start point of the C code. */ /* The start point of the C code. */
void grub_main (void) __attribute__ ((noreturn)); void grub_main (void) __attribute__ ((noreturn));

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@ -91,6 +91,7 @@
#define GRUB_KERNEL_MIPS_ARC_TOTAL_MODULE_SIZE 0x08 #define GRUB_KERNEL_MIPS_ARC_TOTAL_MODULE_SIZE 0x08
#define GRUB_KERNEL_I386_COREBOOT_LINK_ADDR 0x8200 #define GRUB_KERNEL_I386_COREBOOT_LINK_ADDR 0x8200
#define GRUB_KERNEL_I386_COREBOOT_MODULES_ADDR 0x100000
#define GRUB_KERNEL_I386_IEEE1275_LINK_ADDR 0x10000 #define GRUB_KERNEL_I386_IEEE1275_LINK_ADDR 0x10000

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@ -991,6 +991,38 @@ generate_image (const char *dir, const char *prefix,
core_size = full_size; core_size = full_size;
} }
switch (image_target->id)
{
case IMAGE_I386_PC:
case IMAGE_I386_PC_PXE:
if (GRUB_KERNEL_I386_PC_LINK_ADDR + core_size > 0x78000
|| (core_size > (0xffff << GRUB_DISK_SECTOR_BITS))
|| (kernel_size + bss_size + GRUB_KERNEL_I386_PC_LINK_ADDR > 0x68000))
grub_util_error (_("core image is too big (0x%x > 0x%x)"),
GRUB_KERNEL_I386_PC_LINK_ADDR + core_size,
0x78000);
/* fallthrough */
case IMAGE_COREBOOT:
case IMAGE_QEMU:
if (kernel_size + bss_size + GRUB_KERNEL_I386_PC_LINK_ADDR > 0x68000)
grub_util_error (_("kernel image is too big (0x%x > 0x%x)"),
kernel_size + bss_size + GRUB_KERNEL_I386_PC_LINK_ADDR,
0x68000);
break;
case IMAGE_LOONGSON_ELF:
case IMAGE_YEELOONG_FLASH:
case IMAGE_FULOONG2F_FLASH:
case IMAGE_EFI:
case IMAGE_MIPS_ARC:
case IMAGE_QEMU_MIPS_FLASH:
break;
case IMAGE_SPARC64_AOUT:
case IMAGE_SPARC64_RAW:
case IMAGE_I386_IEEE1275:
case IMAGE_PPC:
break;
}
switch (image_target->id) switch (image_target->id)
{ {
case IMAGE_I386_PC: case IMAGE_I386_PC:
@ -1000,12 +1032,6 @@ generate_image (const char *dir, const char *prefix,
char *boot_path, *boot_img; char *boot_path, *boot_img;
size_t boot_size; size_t boot_size;
if (GRUB_KERNEL_I386_PC_LINK_ADDR + core_size > 0x78000
|| (core_size > (0xffff << GRUB_DISK_SECTOR_BITS)))
grub_util_error (_("core image is too big (0x%x > 0x%x)"),
GRUB_KERNEL_I386_PC_LINK_ADDR + core_size,
0x78000);
num = ((core_size + GRUB_DISK_SECTOR_SIZE - 1) >> GRUB_DISK_SECTOR_BITS); num = ((core_size + GRUB_DISK_SECTOR_SIZE - 1) >> GRUB_DISK_SECTOR_BITS);
if (image_target->id == IMAGE_I386_PC_PXE) if (image_target->id == IMAGE_I386_PC_PXE)
{ {
@ -1615,6 +1641,9 @@ generate_image (const char *dir, const char *prefix,
phdr->p_filesz = phdr->p_memsz phdr->p_filesz = phdr->p_memsz
= grub_host_to_target32 (core_size - kernel_size); = grub_host_to_target32 (core_size - kernel_size);
if (image_target->id == IMAGE_COREBOOT)
target_addr_mods = GRUB_KERNEL_I386_COREBOOT_MODULES_ADDR;
else
target_addr_mods = ALIGN_UP (target_addr + kernel_size + bss_size target_addr_mods = ALIGN_UP (target_addr + kernel_size + bss_size
+ image_target->mod_gap, + image_target->mod_gap,
image_target->mod_align); image_target->mod_align);