gnu-efi/gnuefi/reloc_x86_64.c

99 lines
2.8 KiB
C
Raw Normal View History

2013-01-31 01:25:25 +04:00
/* reloc_x86_64.c - position independent x86_64 ELF shared object relocator
Copyright (C) 1999 Hewlett-Packard Co.
Contributed by David Mosberger <davidm@hpl.hp.com>.
Copyright (C) 2005 Intel Co.
Contributed by Fenghua Yu <fenghua.yu@intel.com>.
All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions
are met:
* Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
* Redistributions in binary form must reproduce the above
copyright notice, this list of conditions and the following
disclaimer in the documentation and/or other materials
provided with the distribution.
* Neither the name of Hewlett-Packard Co. nor the names of its
contributors may be used to endorse or promote products derived
from this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND
CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES,
INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
BE LIABLE FOR ANYDIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY,
OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR
TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF
THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
SUCH DAMAGE.
*/
#include <efi.h>
#include <efilib.h>
- Removes the ElfW() macro usage from reloc_ia32.c and reloc_x86_64.c. These macros only exist in link.h on Linux. On FreeBSD, the equivalent macro is __ElfN(). But the macro usage is redundant. You're only going to compile the ia32 file for IA32 binaries and the x86_64 file for X64 binaries. If you had just one file built for both cases, then using the macro might make more sense. - Removes the "#define foo_t efi_foo_t" macros from reloc_ia32.c and reloc_x86_64.c. - Modifies inc/x86_64/efibind.h and inc/ia32/efibind.h to use the new definitions for uint64_t, int64_t and int8_t. The 64-bit types are now defined as: typedef int __attribute__((__mode__(__DI__))) int64_t; typedef unsigned int __attribute__((__mode__(__DI__))) uint64_t; This removes the conflict between the host types dragged in by elf.h and the type definitions in efibind.h that made the #define foo_t efi_foo_t" hack necessary. Also, int8_t is now defined as signed char instead of just char (assuming char == signed char is apparently not good enough). - Also modifies these files to use stdint.h instead of stdint-gcc.h. It's unclear if this is completely correct, but stdint-gcc.h is not present with all GCC installs, and if you use -std=c99 or later you will force this case to be hit. This also can break clang, which doesn't have a stdint-gcc.h at all. - Removes the #include of <link.h> from reloc_ia32.c and reloc_x86_64.c (since with the previous changes it's not needed anymore). - Places the #include of <elf.h> after #include <efi>/#include <efilib.h> so that we know the types will always be defined properly, in case you build on a system where <elf.h> doesn't automatically pull in the right header files to define all the needed types. (This actually happens on VxWorks. It's harmless elsewhere. If you don't care about VxWorks, you can leave this out.) - Modifies setjmp_ia32.S and setjmp_x86_64.S so to change "function" to @function. The clang compiler doesn't like the former. Clang and GCC both like the latter. - Modifles Make.defaults so that if ARCH is detected as "amd64," it's changed to "x86_64." It happens that uname -m on 64-bit FreeBSD reports the former rather than the latter, which breaks the build. This may also be the case on some other OSes. There's a way to force uname(1) to return x86_64 as the machine type, but this way is a little friendlier. - Creates gnuefi/elf_ia32_fbsd_efi.lds which specifies the object file type as elf-ia32-freebsd. This is required for building on FreeBSD/i386, not just FreeBSD/amd64. - Modifies apps/Makefile to always use $(TOPDIR)/gnuefi/elf_$(ARCH)_fbsd_efi.lds when building on either 32-bit or 64-bit FreeBSD instead of just for the x86_64 case. - Changed LDFLAGS in Make.defaults to include --no-undefined. This will cause linking to fail if there are any unsatisfied symbols when creating foo.so during any of the app builds, as opposed to just silently succeeding and producing an unusable binary. - Changed CFLAGS to include -ffreestanding -fno-stack-protector -fno-stack- check. This prevents clang from inserting a call to memset() when compiling the RtZeroMem() and RtSetMem() routines in lib/runtime/efirtlib.c and guards against the native compiler in some Linux distros from adding in stack checking code which relies on libc help that isn't present in the EFI runtime environment. This does the following: - Cleans up the ia32 and x86-64 relocation code a bit (tries to break the dependency between the host ELF headers and the EFI runtime environment) - Avoids the dependency on stdint-gcc.h which may not always be available - Allows GNU EFI to build out of the box on both FreeBSD/i386 and FreeBSD/amd64 - Allows GNU EFI to build out of the box with either GCC or clang on FreeBSD/i386 and FreeBSD/amd64 9.0 and later. - Makes things a little easier to port to VxWorks - Avoids creating un-runable binaries with unresolved symbol definitions (which can be very confusing to debug)
2013-05-15 23:26:16 +04:00
#include <elf.h>
EFI_STATUS _relocate (long ldbase, Elf64_Dyn *dyn,
EFI_HANDLE image EFI_UNUSED,
EFI_SYSTEM_TABLE *systab EFI_UNUSED)
2013-01-31 01:25:25 +04:00
{
long relsz = 0, relent = 0;
- Removes the ElfW() macro usage from reloc_ia32.c and reloc_x86_64.c. These macros only exist in link.h on Linux. On FreeBSD, the equivalent macro is __ElfN(). But the macro usage is redundant. You're only going to compile the ia32 file for IA32 binaries and the x86_64 file for X64 binaries. If you had just one file built for both cases, then using the macro might make more sense. - Removes the "#define foo_t efi_foo_t" macros from reloc_ia32.c and reloc_x86_64.c. - Modifies inc/x86_64/efibind.h and inc/ia32/efibind.h to use the new definitions for uint64_t, int64_t and int8_t. The 64-bit types are now defined as: typedef int __attribute__((__mode__(__DI__))) int64_t; typedef unsigned int __attribute__((__mode__(__DI__))) uint64_t; This removes the conflict between the host types dragged in by elf.h and the type definitions in efibind.h that made the #define foo_t efi_foo_t" hack necessary. Also, int8_t is now defined as signed char instead of just char (assuming char == signed char is apparently not good enough). - Also modifies these files to use stdint.h instead of stdint-gcc.h. It's unclear if this is completely correct, but stdint-gcc.h is not present with all GCC installs, and if you use -std=c99 or later you will force this case to be hit. This also can break clang, which doesn't have a stdint-gcc.h at all. - Removes the #include of <link.h> from reloc_ia32.c and reloc_x86_64.c (since with the previous changes it's not needed anymore). - Places the #include of <elf.h> after #include <efi>/#include <efilib.h> so that we know the types will always be defined properly, in case you build on a system where <elf.h> doesn't automatically pull in the right header files to define all the needed types. (This actually happens on VxWorks. It's harmless elsewhere. If you don't care about VxWorks, you can leave this out.) - Modifies setjmp_ia32.S and setjmp_x86_64.S so to change "function" to @function. The clang compiler doesn't like the former. Clang and GCC both like the latter. - Modifles Make.defaults so that if ARCH is detected as "amd64," it's changed to "x86_64." It happens that uname -m on 64-bit FreeBSD reports the former rather than the latter, which breaks the build. This may also be the case on some other OSes. There's a way to force uname(1) to return x86_64 as the machine type, but this way is a little friendlier. - Creates gnuefi/elf_ia32_fbsd_efi.lds which specifies the object file type as elf-ia32-freebsd. This is required for building on FreeBSD/i386, not just FreeBSD/amd64. - Modifies apps/Makefile to always use $(TOPDIR)/gnuefi/elf_$(ARCH)_fbsd_efi.lds when building on either 32-bit or 64-bit FreeBSD instead of just for the x86_64 case. - Changed LDFLAGS in Make.defaults to include --no-undefined. This will cause linking to fail if there are any unsatisfied symbols when creating foo.so during any of the app builds, as opposed to just silently succeeding and producing an unusable binary. - Changed CFLAGS to include -ffreestanding -fno-stack-protector -fno-stack- check. This prevents clang from inserting a call to memset() when compiling the RtZeroMem() and RtSetMem() routines in lib/runtime/efirtlib.c and guards against the native compiler in some Linux distros from adding in stack checking code which relies on libc help that isn't present in the EFI runtime environment. This does the following: - Cleans up the ia32 and x86-64 relocation code a bit (tries to break the dependency between the host ELF headers and the EFI runtime environment) - Avoids the dependency on stdint-gcc.h which may not always be available - Allows GNU EFI to build out of the box on both FreeBSD/i386 and FreeBSD/amd64 - Allows GNU EFI to build out of the box with either GCC or clang on FreeBSD/i386 and FreeBSD/amd64 9.0 and later. - Makes things a little easier to port to VxWorks - Avoids creating un-runable binaries with unresolved symbol definitions (which can be very confusing to debug)
2013-05-15 23:26:16 +04:00
Elf64_Rel *rel = 0;
2013-01-31 01:25:25 +04:00
unsigned long *addr;
int i;
for (i = 0; dyn[i].d_tag != DT_NULL; ++i) {
switch (dyn[i].d_tag) {
case DT_RELA:
- Removes the ElfW() macro usage from reloc_ia32.c and reloc_x86_64.c. These macros only exist in link.h on Linux. On FreeBSD, the equivalent macro is __ElfN(). But the macro usage is redundant. You're only going to compile the ia32 file for IA32 binaries and the x86_64 file for X64 binaries. If you had just one file built for both cases, then using the macro might make more sense. - Removes the "#define foo_t efi_foo_t" macros from reloc_ia32.c and reloc_x86_64.c. - Modifies inc/x86_64/efibind.h and inc/ia32/efibind.h to use the new definitions for uint64_t, int64_t and int8_t. The 64-bit types are now defined as: typedef int __attribute__((__mode__(__DI__))) int64_t; typedef unsigned int __attribute__((__mode__(__DI__))) uint64_t; This removes the conflict between the host types dragged in by elf.h and the type definitions in efibind.h that made the #define foo_t efi_foo_t" hack necessary. Also, int8_t is now defined as signed char instead of just char (assuming char == signed char is apparently not good enough). - Also modifies these files to use stdint.h instead of stdint-gcc.h. It's unclear if this is completely correct, but stdint-gcc.h is not present with all GCC installs, and if you use -std=c99 or later you will force this case to be hit. This also can break clang, which doesn't have a stdint-gcc.h at all. - Removes the #include of <link.h> from reloc_ia32.c and reloc_x86_64.c (since with the previous changes it's not needed anymore). - Places the #include of <elf.h> after #include <efi>/#include <efilib.h> so that we know the types will always be defined properly, in case you build on a system where <elf.h> doesn't automatically pull in the right header files to define all the needed types. (This actually happens on VxWorks. It's harmless elsewhere. If you don't care about VxWorks, you can leave this out.) - Modifies setjmp_ia32.S and setjmp_x86_64.S so to change "function" to @function. The clang compiler doesn't like the former. Clang and GCC both like the latter. - Modifles Make.defaults so that if ARCH is detected as "amd64," it's changed to "x86_64." It happens that uname -m on 64-bit FreeBSD reports the former rather than the latter, which breaks the build. This may also be the case on some other OSes. There's a way to force uname(1) to return x86_64 as the machine type, but this way is a little friendlier. - Creates gnuefi/elf_ia32_fbsd_efi.lds which specifies the object file type as elf-ia32-freebsd. This is required for building on FreeBSD/i386, not just FreeBSD/amd64. - Modifies apps/Makefile to always use $(TOPDIR)/gnuefi/elf_$(ARCH)_fbsd_efi.lds when building on either 32-bit or 64-bit FreeBSD instead of just for the x86_64 case. - Changed LDFLAGS in Make.defaults to include --no-undefined. This will cause linking to fail if there are any unsatisfied symbols when creating foo.so during any of the app builds, as opposed to just silently succeeding and producing an unusable binary. - Changed CFLAGS to include -ffreestanding -fno-stack-protector -fno-stack- check. This prevents clang from inserting a call to memset() when compiling the RtZeroMem() and RtSetMem() routines in lib/runtime/efirtlib.c and guards against the native compiler in some Linux distros from adding in stack checking code which relies on libc help that isn't present in the EFI runtime environment. This does the following: - Cleans up the ia32 and x86-64 relocation code a bit (tries to break the dependency between the host ELF headers and the EFI runtime environment) - Avoids the dependency on stdint-gcc.h which may not always be available - Allows GNU EFI to build out of the box on both FreeBSD/i386 and FreeBSD/amd64 - Allows GNU EFI to build out of the box with either GCC or clang on FreeBSD/i386 and FreeBSD/amd64 9.0 and later. - Makes things a little easier to port to VxWorks - Avoids creating un-runable binaries with unresolved symbol definitions (which can be very confusing to debug)
2013-05-15 23:26:16 +04:00
rel = (Elf64_Rel*)
2013-01-31 01:25:25 +04:00
((unsigned long)dyn[i].d_un.d_ptr
+ ldbase);
break;
case DT_RELASZ:
relsz = dyn[i].d_un.d_val;
break;
case DT_RELAENT:
relent = dyn[i].d_un.d_val;
break;
default:
break;
}
}
if (!rel && relent == 0)
return EFI_SUCCESS;
if (!rel || relent == 0)
return EFI_LOAD_ERROR;
2013-01-31 01:25:25 +04:00
while (relsz > 0) {
/* apply the relocs */
switch (ELF64_R_TYPE (rel->r_info)) {
case R_X86_64_NONE:
break;
case R_X86_64_RELATIVE:
addr = (unsigned long *)
(ldbase + rel->r_offset);
*addr += ldbase;
break;
default:
break;
}
- Removes the ElfW() macro usage from reloc_ia32.c and reloc_x86_64.c. These macros only exist in link.h on Linux. On FreeBSD, the equivalent macro is __ElfN(). But the macro usage is redundant. You're only going to compile the ia32 file for IA32 binaries and the x86_64 file for X64 binaries. If you had just one file built for both cases, then using the macro might make more sense. - Removes the "#define foo_t efi_foo_t" macros from reloc_ia32.c and reloc_x86_64.c. - Modifies inc/x86_64/efibind.h and inc/ia32/efibind.h to use the new definitions for uint64_t, int64_t and int8_t. The 64-bit types are now defined as: typedef int __attribute__((__mode__(__DI__))) int64_t; typedef unsigned int __attribute__((__mode__(__DI__))) uint64_t; This removes the conflict between the host types dragged in by elf.h and the type definitions in efibind.h that made the #define foo_t efi_foo_t" hack necessary. Also, int8_t is now defined as signed char instead of just char (assuming char == signed char is apparently not good enough). - Also modifies these files to use stdint.h instead of stdint-gcc.h. It's unclear if this is completely correct, but stdint-gcc.h is not present with all GCC installs, and if you use -std=c99 or later you will force this case to be hit. This also can break clang, which doesn't have a stdint-gcc.h at all. - Removes the #include of <link.h> from reloc_ia32.c and reloc_x86_64.c (since with the previous changes it's not needed anymore). - Places the #include of <elf.h> after #include <efi>/#include <efilib.h> so that we know the types will always be defined properly, in case you build on a system where <elf.h> doesn't automatically pull in the right header files to define all the needed types. (This actually happens on VxWorks. It's harmless elsewhere. If you don't care about VxWorks, you can leave this out.) - Modifies setjmp_ia32.S and setjmp_x86_64.S so to change "function" to @function. The clang compiler doesn't like the former. Clang and GCC both like the latter. - Modifles Make.defaults so that if ARCH is detected as "amd64," it's changed to "x86_64." It happens that uname -m on 64-bit FreeBSD reports the former rather than the latter, which breaks the build. This may also be the case on some other OSes. There's a way to force uname(1) to return x86_64 as the machine type, but this way is a little friendlier. - Creates gnuefi/elf_ia32_fbsd_efi.lds which specifies the object file type as elf-ia32-freebsd. This is required for building on FreeBSD/i386, not just FreeBSD/amd64. - Modifies apps/Makefile to always use $(TOPDIR)/gnuefi/elf_$(ARCH)_fbsd_efi.lds when building on either 32-bit or 64-bit FreeBSD instead of just for the x86_64 case. - Changed LDFLAGS in Make.defaults to include --no-undefined. This will cause linking to fail if there are any unsatisfied symbols when creating foo.so during any of the app builds, as opposed to just silently succeeding and producing an unusable binary. - Changed CFLAGS to include -ffreestanding -fno-stack-protector -fno-stack- check. This prevents clang from inserting a call to memset() when compiling the RtZeroMem() and RtSetMem() routines in lib/runtime/efirtlib.c and guards against the native compiler in some Linux distros from adding in stack checking code which relies on libc help that isn't present in the EFI runtime environment. This does the following: - Cleans up the ia32 and x86-64 relocation code a bit (tries to break the dependency between the host ELF headers and the EFI runtime environment) - Avoids the dependency on stdint-gcc.h which may not always be available - Allows GNU EFI to build out of the box on both FreeBSD/i386 and FreeBSD/amd64 - Allows GNU EFI to build out of the box with either GCC or clang on FreeBSD/i386 and FreeBSD/amd64 9.0 and later. - Makes things a little easier to port to VxWorks - Avoids creating un-runable binaries with unresolved symbol definitions (which can be very confusing to debug)
2013-05-15 23:26:16 +04:00
rel = (Elf64_Rel*) ((char *) rel + relent);
2013-01-31 01:25:25 +04:00
relsz -= relent;
}
return EFI_SUCCESS;
}