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load-options.c
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load-options.c
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// SPDX-License-Identifier: BSD-2-Clause-Patent
/*
* load-options.c - all the stuff we need to parse the load options
*/
#include "shim.h"
CHAR16 *second_stage;
void *load_options;
UINT32 load_options_size;
/*
* Generate the path of an executable given shim's path and the name
* of the executable
*/
EFI_STATUS
generate_path_from_image_path(EFI_LOADED_IMAGE *li,
CHAR16 *ImagePath,
CHAR16 **PathName)
{
EFI_DEVICE_PATH *devpath;
unsigned int i;
int j, last = -1;
unsigned int pathlen = 0;
EFI_STATUS efi_status = EFI_SUCCESS;
CHAR16 *bootpath;
/*
* Suuuuper lazy technique here, but check and see if this is a full
* path to something on the ESP. Backwards compatibility demands
* that we don't just use \\, because we (not particularly brightly)
* used to require that the relative file path started with that.
*
* If it is a full path, don't try to merge it with the directory
* from our Loaded Image handle.
*/
if (StrSize(ImagePath) > 5 && StrnCmp(ImagePath, L"\\EFI\\", 5) == 0) {
*PathName = StrDuplicate(ImagePath);
if (!*PathName) {
perror(L"Failed to allocate path buffer\n");
return EFI_OUT_OF_RESOURCES;
}
return EFI_SUCCESS;
}
devpath = li->FilePath;
bootpath = DevicePathToStr(devpath);
pathlen = StrLen(bootpath);
/*
* DevicePathToStr() concatenates two nodes with '/'.
* Convert '/' to '\\'.
*/
for (i = 0; i < pathlen; i++) {
if (bootpath[i] == '/')
bootpath[i] = '\\';
}
for (i=pathlen; i>0; i--) {
if (bootpath[i] == '\\' && bootpath[i-1] == '\\')
bootpath[i] = '/';
else if (last == -1 && bootpath[i] == '\\')
last = i;
}
if (last == -1 && bootpath[0] == '\\')
last = 0;
bootpath[last+1] = '\0';
if (last > 0) {
for (i = 0, j = 0; bootpath[i] != '\0'; i++) {
if (bootpath[i] != '/') {
bootpath[j] = bootpath[i];
j++;
}
}
bootpath[j] = '\0';
}
for (i = 0, last = 0; i < StrLen(ImagePath); i++)
if (ImagePath[i] == '\\')
last = i + 1;
ImagePath = ImagePath + last;
*PathName = AllocatePool(StrSize(bootpath) + StrSize(ImagePath));
if (!*PathName) {
perror(L"Failed to allocate path buffer\n");
efi_status = EFI_OUT_OF_RESOURCES;
goto error;
}
*PathName[0] = '\0';
if (StrnCaseCmp(bootpath, ImagePath, StrLen(bootpath)))
StrCat(*PathName, bootpath);
StrCat(*PathName, ImagePath);
error:
FreePool(bootpath);
return efi_status;
}
/*
* Extract the OptionalData and OptionalData fields from an
* EFI_LOAD_OPTION.
*/
static inline EFI_STATUS
get_load_option_optional_data(VOID *data, UINT32 data_size,
VOID **od, UINT32 *ods)
{
/*
* If it's not at least Attributes + FilePathListLength +
* Description=L"" + 0x7fff0400 (EndEntrireDevicePath), it can't
* be valid.
*/
if (data_size < (sizeof(UINT32) + sizeof(UINT16) + 2 + 4))
return EFI_INVALID_PARAMETER;
UINT8 *start = (UINT8 *)data;
UINT8 *cur = start + sizeof(UINT32);
UINT16 fplistlen = *(UINT16 *)cur;
/*
* If there's not enough space for the file path list and the
* smallest possible description (L""), it's not valid.
*/
if (fplistlen > data_size - (sizeof(UINT32) + 2 + 4))
return EFI_INVALID_PARAMETER;
cur += sizeof(UINT16);
UINT32 limit = data_size - (cur - start) - fplistlen;
UINT32 i;
for (i = 0; i < limit ; i++) {
/* If the description isn't valid UCS2-LE, it's not valid. */
if (i % 2 != 0) {
if (cur[i] != 0)
return EFI_INVALID_PARAMETER;
} else if (cur[i] == 0) {
/* we've found the end */
i++;
if (i >= limit || cur[i] != 0)
return EFI_INVALID_PARAMETER;
break;
}
}
i++;
if (i > limit)
return EFI_INVALID_PARAMETER;
/*
* If i is limit, we know the rest of this is the FilePathList and
* there's no optional data. So just bail now.
*/
if (i == limit) {
*od = NULL;
*ods = 0;
return EFI_SUCCESS;
}
cur += i;
limit -= i;
limit += fplistlen;
i = 0;
while (limit - i >= 4) {
struct {
UINT8 type;
UINT8 subtype;
UINT16 len;
} dp = {
.type = cur[i],
.subtype = cur[i+1],
/*
* it's a little endian UINT16, but we're not
* guaranteed alignment is sane, so we can't just
* typecast it directly.
*/
.len = (cur[i+3] << 8) | cur[i+2],
};
/*
* We haven't found an EndEntire, so this has to be a valid
* EFI_DEVICE_PATH in order for the data to be valid. That
* means it has to fit, and it can't be smaller than 4 bytes.
*/
if (dp.len < 4 || dp.len > limit)
return EFI_INVALID_PARAMETER;
/*
* see if this is an EndEntire node...
*/
if (dp.type == 0x7f && dp.subtype == 0xff) {
/*
* if we've found the EndEntire node, it must be 4
* bytes
*/
if (dp.len != 4)
return EFI_INVALID_PARAMETER;
i += dp.len;
break;
}
/*
* It's just some random DP node; skip it.
*/
i += dp.len;
}
if (i != fplistlen)
return EFI_INVALID_PARAMETER;
/*
* if there's any space left, it's "optional data"
*/
*od = cur + i;
*ods = limit - i;
return EFI_SUCCESS;
}
static int
is_our_path(EFI_LOADED_IMAGE *li, CHAR16 *path)
{
CHAR16 *dppath = NULL;
CHAR16 *PathName = NULL;
EFI_STATUS efi_status;
int ret = 1;
dppath = DevicePathToStr(li->FilePath);
if (!dppath)
return 0;
efi_status = generate_path_from_image_path(li, path, &PathName);
if (EFI_ERROR(efi_status)) {
perror(L"Unable to generate path %s: %r\n", path,
efi_status);
goto done;
}
dprint(L"dppath: %s\n", dppath);
dprint(L"path: %s\n", path);
if (StrnCaseCmp(dppath, PathName, StrLen(dppath)))
ret = 0;
done:
FreePool(dppath);
FreePool(PathName);
return ret;
}
/*
* Split the supplied load options in to a NULL terminated
* string representing the path of the second stage loader,
* and return a pointer to the remaining load options data
* and its remaining size.
*
* This expects the supplied load options to begin with a
* string that is either NULL terminated or terminated with
* a space and some optional data. It will return NULL if
* the supplied load options contains no spaces or NULL
* terminators.
*/
static CHAR16 *
split_load_options(VOID *in, UINT32 in_size,
VOID **remaining,
UINT32 *remaining_size) {
UINTN i;
CHAR16 *arg0 = NULL;
CHAR16 *start = (CHAR16 *)in;
/* Skip spaces */
for (i = 0; i < in_size / sizeof(CHAR16); i++) {
if (*start != L' ')
break;
start++;
}
in_size -= ((VOID *)start - in);
/*
* Ensure that the first argument is NULL terminated by
* replacing L' ' with L'\0'.
*/
for (i = 0; i < in_size / sizeof(CHAR16); i++) {
if (start[i] == L' ' || start[i] == L'\0') {
start[i] = L'\0';
arg0 = (CHAR16 *)start;
break;
}
}
if (arg0) {
UINTN skip = i + 1;
*remaining_size = in_size - (skip * sizeof(CHAR16));
*remaining = *remaining_size > 0 ? start + skip : NULL;
}
return arg0;
}
/*
* Check the load options to specify the second stage loader
*/
EFI_STATUS
parse_load_options(EFI_LOADED_IMAGE *li)
{
EFI_STATUS efi_status;
VOID *remaining = NULL;
UINT32 remaining_size;
CHAR16 *loader_str = NULL;
dprint(L"full load options:\n");
dhexdumpat(li->LoadOptions, li->LoadOptionsSize, 0);
/*
* Sanity check since we make several assumptions about the length
* Some firmware feeds the following load option when booting from
* an USB device:
*
* 0x46 0x4a 0x00 |FJ.|
*
* The string is meaningless for shim and so just ignore it.
*/
if (li->LoadOptionsSize % 2 != 0)
return EFI_SUCCESS;
/* So, load options are a giant pain in the ass. If we're invoked
* from the EFI shell, we get something like this:
00000000 5c 00 45 00 36 00 49 00 5c 00 66 00 65 00 64 00 |\.E.F.I.\.f.e.d.|
00000010 6f 00 72 00 61 00 5c 00 73 00 68 00 69 00 6d 00 |o.r.a.\.s.h.i.m.|
00000020 78 00 36 00 34 00 2e 00 64 00 66 00 69 00 20 00 |x.6.4...e.f.i. .|
00000030 5c 00 45 00 46 00 49 00 5c 00 66 00 65 00 64 00 |\.E.F.I.\.f.e.d.|
00000040 6f 00 72 00 61 00 5c 00 66 00 77 00 75 00 70 00 |o.r.a.\.f.w.u.p.|
00000050 64 00 61 00 74 00 65 00 2e 00 65 00 66 00 20 00 |d.a.t.e.e.f.i. .|
00000060 00 00 66 00 73 00 30 00 3a 00 5c 00 00 00 |..f.s.0.:.\...|
*
* which is just some paths rammed together separated by a UCS-2 NUL.
* But if we're invoked from BDS, we get something more like:
*
00000000 01 00 00 00 62 00 4c 00 69 00 6e 00 75 00 78 00 |....b.L.i.n.u.x.|
00000010 20 00 46 00 69 00 72 00 6d 00 77 00 61 00 72 00 | .F.i.r.m.w.a.r.|
00000020 65 00 20 00 55 00 70 00 64 00 61 00 74 00 65 00 |e. .U.p.d.a.t.e.|
00000030 72 00 00 00 40 01 2a 00 01 00 00 00 00 08 00 00 |r.....*.........|
00000040 00 00 00 00 00 40 06 00 00 00 00 00 1a 9e 55 bf |[email protected].|
00000050 04 57 f2 4f b4 4a ed 26 4a 40 6a 94 02 02 04 04 |.W.O.:.&J@j.....|
00000060 34 00 5c 00 45 00 46 00 49 00 5c 00 66 00 65 00 |4.\.E.F.I.f.e.d.|
00000070 64 00 6f 00 72 00 61 00 5c 00 73 00 68 00 69 00 |o.r.a.\.s.h.i.m.|
00000080 6d 00 78 00 36 00 34 00 2e 00 65 00 66 00 69 00 |x.6.4...e.f.i...|
00000090 00 00 7f ff 40 00 20 00 5c 00 66 00 77 00 75 00 |...... .\.f.w.u.|
000000a0 70 00 78 00 36 00 34 00 2e 00 65 00 66 00 69 00 |p.x.6.4...e.f.i.|
000000b0 00 00 |..|
*
* which is clearly an EFI_LOAD_OPTION filled in halfway reasonably.
* In short, the UEFI shell is still a useless piece of junk.
*
* But then on some versions of BDS, we get:
00000000 5c 00 66 00 77 00 75 00 70 00 78 00 36 00 34 00 |\.f.w.u.p.x.6.4.|
00000010 2e 00 65 00 66 00 69 00 00 00 |..e.f.i...|
0000001a
* which as you can see is one perfectly normal UCS2-EL string
* containing the load option from the Boot#### variable.
*
* We also sometimes find a guid or partial guid at the end, because
* BDS will add that, but we ignore that here.
*/
/*
* Maybe there just aren't any options...
*/
if (li->LoadOptionsSize == 0)
return EFI_SUCCESS;
/*
* In either case, we've got to have at least a UCS2 NUL...
*/
if (li->LoadOptionsSize < 2)
return EFI_BAD_BUFFER_SIZE;
/*
* Some awesome versions of BDS will add entries for Linux. On top
* of that, some versions of BDS will "tag" any Boot#### entries they
* create by putting a GUID at the very end of the optional data in
* the EFI_LOAD_OPTIONS, thus screwing things up for everybody who
* tries to actually *use* the optional data for anything. Why they
* did this instead of adding a flag to the spec to /say/ it's
* created by BDS, I do not know. For shame.
*
* Anyway, just nerf that out from the start. It's always just
* garbage at the end.
*/
if (li->LoadOptionsSize > 16) {
if (CompareGuid((EFI_GUID *)(li->LoadOptions
+ (li->LoadOptionsSize - 16)),
&BDS_GUID) == 0)
li->LoadOptionsSize -= 16;
}
/*
* Apparently sometimes we get L"\0\0"? Which isn't useful at all.
*
* Possibly related, but some boards have additional data before the
* size which is garbage (it's a weird path to the directory
* containing the loaders). Known boards that do this: Kontron VX3040
* (AMI), ASUS B85M-E, and at least one "older Dell laptop".
*/
if (((CHAR16 *)li->LoadOptions)[0] == 0)
return EFI_SUCCESS;
/*
* See if this is an EFI_LOAD_OPTION and extract the optional
* data if it is. This will return an error if it is not a valid
* EFI_LOAD_OPTION.
*/
efi_status = get_load_option_optional_data(li->LoadOptions,
li->LoadOptionsSize,
&li->LoadOptions,
&li->LoadOptionsSize);
if (EFI_ERROR(efi_status)) {
/*
* it's not an EFI_LOAD_OPTION, so it's probably just a string
* or list of strings.
*
* UEFI shell copies the whole line of the command into
* LoadOptions. We ignore the first string, i.e. the name of this
* program in this case.
*/
loader_str = split_load_options(li->LoadOptions,
li->LoadOptionsSize,
&remaining,
&remaining_size);
if (loader_str && is_our_path(li, loader_str)) {
li->LoadOptions = remaining;
li->LoadOptionsSize = remaining_size;
}
}
loader_str = split_load_options(li->LoadOptions, li->LoadOptionsSize,
&remaining, &remaining_size);
/*
* Set up the name of the alternative loader and the LoadOptions for
* the loader if it's not the empty string.
*/
if (loader_str) {
if (*loader_str) {
second_stage = loader_str;
}
load_options = remaining;
load_options_size = remaining_size;
}
return EFI_SUCCESS;
}
// vim:fenc=utf-8:tw=75:noet