audk/MdePkg/Library/BaseLib/SafeString.c

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/** @file
Safe String functions.
Copyright (c) 2014 - 2018, Intel Corporation. All rights reserved.<BR>
This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution. The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php.
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
**/
#include "BaseLibInternals.h"
#define RSIZE_MAX (PcdGet32 (PcdMaximumUnicodeStringLength))
#define ASCII_RSIZE_MAX (PcdGet32 (PcdMaximumAsciiStringLength))
#define SAFE_STRING_CONSTRAINT_CHECK(Expression, Status) \
do { \
ASSERT (Expression); \
if (!(Expression)) { \
return Status; \
} \
} while (FALSE)
/**
Returns if 2 memory blocks are overlapped.
@param Base1 Base address of 1st memory block.
@param Size1 Size of 1st memory block.
@param Base2 Base address of 2nd memory block.
@param Size2 Size of 2nd memory block.
@retval TRUE 2 memory blocks are overlapped.
@retval FALSE 2 memory blocks are not overlapped.
**/
BOOLEAN
InternalSafeStringIsOverlap (
IN VOID *Base1,
IN UINTN Size1,
IN VOID *Base2,
IN UINTN Size2
)
{
if ((((UINTN)Base1 >= (UINTN)Base2) && ((UINTN)Base1 < (UINTN)Base2 + Size2)) ||
(((UINTN)Base2 >= (UINTN)Base1) && ((UINTN)Base2 < (UINTN)Base1 + Size1))) {
return TRUE;
}
return FALSE;
}
/**
Returns if 2 Unicode strings are not overlapped.
@param Str1 Start address of 1st Unicode string.
@param Size1 The number of char in 1st Unicode string,
including terminating null char.
@param Str2 Start address of 2nd Unicode string.
@param Size2 The number of char in 2nd Unicode string,
including terminating null char.
@retval TRUE 2 Unicode strings are NOT overlapped.
@retval FALSE 2 Unicode strings are overlapped.
**/
BOOLEAN
InternalSafeStringNoStrOverlap (
IN CHAR16 *Str1,
IN UINTN Size1,
IN CHAR16 *Str2,
IN UINTN Size2
)
{
return !InternalSafeStringIsOverlap (Str1, Size1 * sizeof(CHAR16), Str2, Size2 * sizeof(CHAR16));
}
/**
Returns if 2 Ascii strings are not overlapped.
@param Str1 Start address of 1st Ascii string.
@param Size1 The number of char in 1st Ascii string,
including terminating null char.
@param Str2 Start address of 2nd Ascii string.
@param Size2 The number of char in 2nd Ascii string,
including terminating null char.
@retval TRUE 2 Ascii strings are NOT overlapped.
@retval FALSE 2 Ascii strings are overlapped.
**/
BOOLEAN
InternalSafeStringNoAsciiStrOverlap (
IN CHAR8 *Str1,
IN UINTN Size1,
IN CHAR8 *Str2,
IN UINTN Size2
)
{
return !InternalSafeStringIsOverlap (Str1, Size1, Str2, Size2);
}
/**
Returns the length of a Null-terminated Unicode string.
This function is similar as strlen_s defined in C11.
If String is not aligned on a 16-bit boundary, then ASSERT().
@param String A pointer to a Null-terminated Unicode string.
@param MaxSize The maximum number of Destination Unicode
char, including terminating null char.
@retval 0 If String is NULL.
@retval MaxSize If there is no null character in the first MaxSize characters of String.
@return The number of characters that percede the terminating null character.
**/
UINTN
EFIAPI
StrnLenS (
IN CONST CHAR16 *String,
IN UINTN MaxSize
)
{
UINTN Length;
ASSERT (((UINTN) String & BIT0) == 0);
//
// If String is a null pointer or MaxSize is 0, then the StrnLenS function returns zero.
//
if ((String == NULL) || (MaxSize == 0)) {
return 0;
}
//
// Otherwise, the StrnLenS function returns the number of characters that precede the
// terminating null character. If there is no null character in the first MaxSize characters of
// String then StrnLenS returns MaxSize. At most the first MaxSize characters of String shall
// be accessed by StrnLenS.
//
Length = 0;
while (String[Length] != 0) {
if (Length >= MaxSize - 1) {
return MaxSize;
}
Length++;
}
return Length;
}
/**
Returns the size of a Null-terminated Unicode string in bytes, including the
Null terminator.
This function returns the size of the Null-terminated Unicode string
specified by String in bytes, including the Null terminator.
If String is not aligned on a 16-bit boundary, then ASSERT().
@param String A pointer to a Null-terminated Unicode string.
@param MaxSize The maximum number of Destination Unicode
char, including the Null terminator.
@retval 0 If String is NULL.
@retval (sizeof (CHAR16) * (MaxSize + 1))
If there is no Null terminator in the first MaxSize characters of
String.
@return The size of the Null-terminated Unicode string in bytes, including
the Null terminator.
**/
UINTN
EFIAPI
StrnSizeS (
IN CONST CHAR16 *String,
IN UINTN MaxSize
)
{
//
// If String is a null pointer, then the StrnSizeS function returns zero.
//
if (String == NULL) {
return 0;
}
//
// Otherwise, the StrnSizeS function returns the size of the Null-terminated
// Unicode string in bytes, including the Null terminator. If there is no
// Null terminator in the first MaxSize characters of String, then StrnSizeS
// returns (sizeof (CHAR16) * (MaxSize + 1)) to keep a consistent map with
// the StrnLenS function.
//
return (StrnLenS (String, MaxSize) + 1) * sizeof (*String);
}
/**
Copies the string pointed to by Source (including the terminating null char)
to the array pointed to by Destination.
This function is similar as strcpy_s defined in C11.
If Destination is not aligned on a 16-bit boundary, then ASSERT().
If Source is not aligned on a 16-bit boundary, then ASSERT().
If an error would be returned, then the function will also ASSERT().
If an error is returned, then the Destination is unmodified.
@param Destination A pointer to a Null-terminated Unicode string.
@param DestMax The maximum number of Destination Unicode
char, including terminating null char.
@param Source A pointer to a Null-terminated Unicode string.
@retval RETURN_SUCCESS String is copied.
@retval RETURN_BUFFER_TOO_SMALL If DestMax is NOT greater than StrLen(Source).
@retval RETURN_INVALID_PARAMETER If Destination is NULL.
If Source is NULL.
If PcdMaximumUnicodeStringLength is not zero,
and DestMax is greater than
PcdMaximumUnicodeStringLength.
If DestMax is 0.
@retval RETURN_ACCESS_DENIED If Source and Destination overlap.
**/
RETURN_STATUS
EFIAPI
StrCpyS (
OUT CHAR16 *Destination,
IN UINTN DestMax,
IN CONST CHAR16 *Source
)
{
UINTN SourceLen;
ASSERT (((UINTN) Destination & BIT0) == 0);
ASSERT (((UINTN) Source & BIT0) == 0);
//
// 1. Neither Destination nor Source shall be a null pointer.
//
SAFE_STRING_CONSTRAINT_CHECK ((Destination != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Source != NULL), RETURN_INVALID_PARAMETER);
//
// 2. DestMax shall not be greater than RSIZE_MAX.
//
if (RSIZE_MAX != 0) {
SAFE_STRING_CONSTRAINT_CHECK ((DestMax <= RSIZE_MAX), RETURN_INVALID_PARAMETER);
}
//
// 3. DestMax shall not equal zero.
//
SAFE_STRING_CONSTRAINT_CHECK ((DestMax != 0), RETURN_INVALID_PARAMETER);
//
// 4. DestMax shall be greater than StrnLenS(Source, DestMax).
//
SourceLen = StrnLenS (Source, DestMax);
SAFE_STRING_CONSTRAINT_CHECK ((DestMax > SourceLen), RETURN_BUFFER_TOO_SMALL);
//
// 5. Copying shall not take place between objects that overlap.
//
SAFE_STRING_CONSTRAINT_CHECK (InternalSafeStringNoStrOverlap (Destination, DestMax, (CHAR16 *)Source, SourceLen + 1), RETURN_ACCESS_DENIED);
//
// The StrCpyS function copies the string pointed to by Source (including the terminating
// null character) into the array pointed to by Destination.
//
while (*Source != 0) {
*(Destination++) = *(Source++);
}
*Destination = 0;
return RETURN_SUCCESS;
}
/**
Copies not more than Length successive char from the string pointed to by
Source to the array pointed to by Destination. If no null char is copied from
Source, then Destination[Length] is always set to null.
This function is similar as strncpy_s defined in C11.
If Length > 0 and Destination is not aligned on a 16-bit boundary, then ASSERT().
If Length > 0 and Source is not aligned on a 16-bit boundary, then ASSERT().
If an error would be returned, then the function will also ASSERT().
If an error is returned, then the Destination is unmodified.
@param Destination A pointer to a Null-terminated Unicode string.
@param DestMax The maximum number of Destination Unicode
char, including terminating null char.
@param Source A pointer to a Null-terminated Unicode string.
@param Length The maximum number of Unicode characters to copy.
@retval RETURN_SUCCESS String is copied.
@retval RETURN_BUFFER_TOO_SMALL If DestMax is NOT greater than
MIN(StrLen(Source), Length).
@retval RETURN_INVALID_PARAMETER If Destination is NULL.
If Source is NULL.
If PcdMaximumUnicodeStringLength is not zero,
and DestMax is greater than
PcdMaximumUnicodeStringLength.
If DestMax is 0.
@retval RETURN_ACCESS_DENIED If Source and Destination overlap.
**/
RETURN_STATUS
EFIAPI
StrnCpyS (
OUT CHAR16 *Destination,
IN UINTN DestMax,
IN CONST CHAR16 *Source,
IN UINTN Length
)
{
UINTN SourceLen;
ASSERT (((UINTN) Destination & BIT0) == 0);
ASSERT (((UINTN) Source & BIT0) == 0);
//
// 1. Neither Destination nor Source shall be a null pointer.
//
SAFE_STRING_CONSTRAINT_CHECK ((Destination != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Source != NULL), RETURN_INVALID_PARAMETER);
//
// 2. Neither DestMax nor Length shall be greater than RSIZE_MAX
//
if (RSIZE_MAX != 0) {
SAFE_STRING_CONSTRAINT_CHECK ((DestMax <= RSIZE_MAX), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Length <= RSIZE_MAX), RETURN_INVALID_PARAMETER);
}
//
// 3. DestMax shall not equal zero.
//
SAFE_STRING_CONSTRAINT_CHECK ((DestMax != 0), RETURN_INVALID_PARAMETER);
//
// 4. If Length is not less than DestMax, then DestMax shall be greater than StrnLenS(Source, DestMax).
//
SourceLen = StrnLenS (Source, MIN (DestMax, Length));
if (Length >= DestMax) {
SAFE_STRING_CONSTRAINT_CHECK ((DestMax > SourceLen), RETURN_BUFFER_TOO_SMALL);
}
//
// 5. Copying shall not take place between objects that overlap.
//
if (SourceLen > Length) {
SourceLen = Length;
}
SAFE_STRING_CONSTRAINT_CHECK (InternalSafeStringNoStrOverlap (Destination, DestMax, (CHAR16 *)Source, SourceLen + 1), RETURN_ACCESS_DENIED);
//
// The StrnCpyS function copies not more than Length successive characters (characters that
// follow a null character are not copied) from the array pointed to by Source to the array
// pointed to by Destination. If no null character was copied from Source, then Destination[Length] is set to a null
// character.
//
while ((SourceLen > 0) && (*Source != 0)) {
*(Destination++) = *(Source++);
SourceLen--;
}
*Destination = 0;
return RETURN_SUCCESS;
}
/**
Appends a copy of the string pointed to by Source (including the terminating
null char) to the end of the string pointed to by Destination.
This function is similar as strcat_s defined in C11.
If Destination is not aligned on a 16-bit boundary, then ASSERT().
If Source is not aligned on a 16-bit boundary, then ASSERT().
If an error would be returned, then the function will also ASSERT().
If an error is returned, then the Destination is unmodified.
@param Destination A pointer to a Null-terminated Unicode string.
@param DestMax The maximum number of Destination Unicode
char, including terminating null char.
@param Source A pointer to a Null-terminated Unicode string.
@retval RETURN_SUCCESS String is appended.
@retval RETURN_BAD_BUFFER_SIZE If DestMax is NOT greater than
StrLen(Destination).
@retval RETURN_BUFFER_TOO_SMALL If (DestMax - StrLen(Destination)) is NOT
greater than StrLen(Source).
@retval RETURN_INVALID_PARAMETER If Destination is NULL.
If Source is NULL.
If PcdMaximumUnicodeStringLength is not zero,
and DestMax is greater than
PcdMaximumUnicodeStringLength.
If DestMax is 0.
@retval RETURN_ACCESS_DENIED If Source and Destination overlap.
**/
RETURN_STATUS
EFIAPI
StrCatS (
IN OUT CHAR16 *Destination,
IN UINTN DestMax,
IN CONST CHAR16 *Source
)
{
UINTN DestLen;
UINTN CopyLen;
UINTN SourceLen;
ASSERT (((UINTN) Destination & BIT0) == 0);
ASSERT (((UINTN) Source & BIT0) == 0);
//
// Let CopyLen denote the value DestMax - StrnLenS(Destination, DestMax) upon entry to StrCatS.
//
DestLen = StrnLenS (Destination, DestMax);
CopyLen = DestMax - DestLen;
//
// 1. Neither Destination nor Source shall be a null pointer.
//
SAFE_STRING_CONSTRAINT_CHECK ((Destination != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Source != NULL), RETURN_INVALID_PARAMETER);
//
// 2. DestMax shall not be greater than RSIZE_MAX.
//
if (RSIZE_MAX != 0) {
SAFE_STRING_CONSTRAINT_CHECK ((DestMax <= RSIZE_MAX), RETURN_INVALID_PARAMETER);
}
//
// 3. DestMax shall not equal zero.
//
SAFE_STRING_CONSTRAINT_CHECK ((DestMax != 0), RETURN_INVALID_PARAMETER);
//
// 4. CopyLen shall not equal zero.
//
SAFE_STRING_CONSTRAINT_CHECK ((CopyLen != 0), RETURN_BAD_BUFFER_SIZE);
//
// 5. CopyLen shall be greater than StrnLenS(Source, CopyLen).
//
SourceLen = StrnLenS (Source, CopyLen);
SAFE_STRING_CONSTRAINT_CHECK ((CopyLen > SourceLen), RETURN_BUFFER_TOO_SMALL);
//
// 6. Copying shall not take place between objects that overlap.
//
SAFE_STRING_CONSTRAINT_CHECK (InternalSafeStringNoStrOverlap (Destination, DestMax, (CHAR16 *)Source, SourceLen + 1), RETURN_ACCESS_DENIED);
//
// The StrCatS function appends a copy of the string pointed to by Source (including the
// terminating null character) to the end of the string pointed to by Destination. The initial character
// from Source overwrites the null character at the end of Destination.
//
Destination = Destination + DestLen;
while (*Source != 0) {
*(Destination++) = *(Source++);
}
*Destination = 0;
return RETURN_SUCCESS;
}
/**
Appends not more than Length successive char from the string pointed to by
Source to the end of the string pointed to by Destination. If no null char is
copied from Source, then Destination[StrLen(Destination) + Length] is always
set to null.
This function is similar as strncat_s defined in C11.
If Destination is not aligned on a 16-bit boundary, then ASSERT().
If Source is not aligned on a 16-bit boundary, then ASSERT().
If an error would be returned, then the function will also ASSERT().
If an error is returned, then the Destination is unmodified.
@param Destination A pointer to a Null-terminated Unicode string.
@param DestMax The maximum number of Destination Unicode
char, including terminating null char.
@param Source A pointer to a Null-terminated Unicode string.
@param Length The maximum number of Unicode characters to copy.
@retval RETURN_SUCCESS String is appended.
@retval RETURN_BAD_BUFFER_SIZE If DestMax is NOT greater than
StrLen(Destination).
@retval RETURN_BUFFER_TOO_SMALL If (DestMax - StrLen(Destination)) is NOT
greater than MIN(StrLen(Source), Length).
@retval RETURN_INVALID_PARAMETER If Destination is NULL.
If Source is NULL.
If PcdMaximumUnicodeStringLength is not zero,
and DestMax is greater than
PcdMaximumUnicodeStringLength.
If DestMax is 0.
@retval RETURN_ACCESS_DENIED If Source and Destination overlap.
**/
RETURN_STATUS
EFIAPI
StrnCatS (
IN OUT CHAR16 *Destination,
IN UINTN DestMax,
IN CONST CHAR16 *Source,
IN UINTN Length
)
{
UINTN DestLen;
UINTN CopyLen;
UINTN SourceLen;
ASSERT (((UINTN) Destination & BIT0) == 0);
ASSERT (((UINTN) Source & BIT0) == 0);
//
// Let CopyLen denote the value DestMax - StrnLenS(Destination, DestMax) upon entry to StrnCatS.
//
DestLen = StrnLenS (Destination, DestMax);
CopyLen = DestMax - DestLen;
//
// 1. Neither Destination nor Source shall be a null pointer.
//
SAFE_STRING_CONSTRAINT_CHECK ((Destination != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Source != NULL), RETURN_INVALID_PARAMETER);
//
// 2. Neither DestMax nor Length shall be greater than RSIZE_MAX.
//
if (RSIZE_MAX != 0) {
SAFE_STRING_CONSTRAINT_CHECK ((DestMax <= RSIZE_MAX), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Length <= RSIZE_MAX), RETURN_INVALID_PARAMETER);
}
//
// 3. DestMax shall not equal zero.
//
SAFE_STRING_CONSTRAINT_CHECK ((DestMax != 0), RETURN_INVALID_PARAMETER);
//
// 4. CopyLen shall not equal zero.
//
SAFE_STRING_CONSTRAINT_CHECK ((CopyLen != 0), RETURN_BAD_BUFFER_SIZE);
//
// 5. If Length is not less than CopyLen, then CopyLen shall be greater than StrnLenS(Source, CopyLen).
//
SourceLen = StrnLenS (Source, MIN (CopyLen, Length));
if (Length >= CopyLen) {
SAFE_STRING_CONSTRAINT_CHECK ((CopyLen > SourceLen), RETURN_BUFFER_TOO_SMALL);
}
//
// 6. Copying shall not take place between objects that overlap.
//
if (SourceLen > Length) {
SourceLen = Length;
}
SAFE_STRING_CONSTRAINT_CHECK (InternalSafeStringNoStrOverlap (Destination, DestMax, (CHAR16 *)Source, SourceLen + 1), RETURN_ACCESS_DENIED);
//
// The StrnCatS function appends not more than Length successive characters (characters
// that follow a null character are not copied) from the array pointed to by Source to the end of
// the string pointed to by Destination. The initial character from Source overwrites the null character at
// the end of Destination. If no null character was copied from Source, then Destination[DestMax-CopyLen+Length] is set to
// a null character.
//
Destination = Destination + DestLen;
while ((SourceLen > 0) && (*Source != 0)) {
*(Destination++) = *(Source++);
SourceLen--;
}
*Destination = 0;
return RETURN_SUCCESS;
}
/**
Convert a Null-terminated Unicode decimal string to a value of type UINTN.
This function outputs a value of type UINTN by interpreting the contents of
the Unicode string specified by String as a decimal number. The format of the
input Unicode string String is:
[spaces] [decimal digits].
The valid decimal digit character is in the range [0-9]. The function will
ignore the pad space, which includes spaces or tab characters, before
[decimal digits]. The running zero in the beginning of [decimal digits] will
be ignored. Then, the function stops at the first character that is a not a
valid decimal character or a Null-terminator, whichever one comes first.
If String is NULL, then ASSERT().
If Data is NULL, then ASSERT().
If String is not aligned in a 16-bit boundary, then ASSERT().
If PcdMaximumUnicodeStringLength is not zero, and String contains more than
PcdMaximumUnicodeStringLength Unicode characters, not including the
Null-terminator, then ASSERT().
If String has no valid decimal digits in the above format, then 0 is stored
at the location pointed to by Data.
If the number represented by String exceeds the range defined by UINTN, then
MAX_UINTN is stored at the location pointed to by Data.
If EndPointer is not NULL, a pointer to the character that stopped the scan
is stored at the location pointed to by EndPointer. If String has no valid
decimal digits right after the optional pad spaces, the value of String is
stored at the location pointed to by EndPointer.
@param String Pointer to a Null-terminated Unicode string.
@param EndPointer Pointer to character that stops scan.
@param Data Pointer to the converted value.
@retval RETURN_SUCCESS Value is translated from String.
@retval RETURN_INVALID_PARAMETER If String is NULL.
If Data is NULL.
If PcdMaximumUnicodeStringLength is not
zero, and String contains more than
PcdMaximumUnicodeStringLength Unicode
characters, not including the
Null-terminator.
@retval RETURN_UNSUPPORTED If the number represented by String exceeds
the range defined by UINTN.
**/
RETURN_STATUS
EFIAPI
StrDecimalToUintnS (
IN CONST CHAR16 *String,
OUT CHAR16 **EndPointer, OPTIONAL
OUT UINTN *Data
)
{
ASSERT (((UINTN) String & BIT0) == 0);
//
// 1. Neither String nor Data shall be a null pointer.
//
SAFE_STRING_CONSTRAINT_CHECK ((String != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Data != NULL), RETURN_INVALID_PARAMETER);
//
// 2. The length of String shall not be greater than RSIZE_MAX.
//
if (RSIZE_MAX != 0) {
SAFE_STRING_CONSTRAINT_CHECK ((StrnLenS (String, RSIZE_MAX + 1) <= RSIZE_MAX), RETURN_INVALID_PARAMETER);
}
if (EndPointer != NULL) {
*EndPointer = (CHAR16 *) String;
}
//
// Ignore the pad spaces (space or tab)
//
while ((*String == L' ') || (*String == L'\t')) {
String++;
}
//
// Ignore leading Zeros after the spaces
//
while (*String == L'0') {
String++;
}
*Data = 0;
while (InternalIsDecimalDigitCharacter (*String)) {
//
// If the number represented by String overflows according to the range
// defined by UINTN, then MAX_UINTN is stored in *Data and
// RETURN_UNSUPPORTED is returned.
//
if (*Data > ((MAX_UINTN - (*String - L'0')) / 10)) {
*Data = MAX_UINTN;
if (EndPointer != NULL) {
*EndPointer = (CHAR16 *) String;
}
return RETURN_UNSUPPORTED;
}
*Data = *Data * 10 + (*String - L'0');
String++;
}
if (EndPointer != NULL) {
*EndPointer = (CHAR16 *) String;
}
return RETURN_SUCCESS;
}
/**
Convert a Null-terminated Unicode decimal string to a value of type UINT64.
This function outputs a value of type UINT64 by interpreting the contents of
the Unicode string specified by String as a decimal number. The format of the
input Unicode string String is:
[spaces] [decimal digits].
The valid decimal digit character is in the range [0-9]. The function will
ignore the pad space, which includes spaces or tab characters, before
[decimal digits]. The running zero in the beginning of [decimal digits] will
be ignored. Then, the function stops at the first character that is a not a
valid decimal character or a Null-terminator, whichever one comes first.
If String is NULL, then ASSERT().
If Data is NULL, then ASSERT().
If String is not aligned in a 16-bit boundary, then ASSERT().
If PcdMaximumUnicodeStringLength is not zero, and String contains more than
PcdMaximumUnicodeStringLength Unicode characters, not including the
Null-terminator, then ASSERT().
If String has no valid decimal digits in the above format, then 0 is stored
at the location pointed to by Data.
If the number represented by String exceeds the range defined by UINT64, then
MAX_UINT64 is stored at the location pointed to by Data.
If EndPointer is not NULL, a pointer to the character that stopped the scan
is stored at the location pointed to by EndPointer. If String has no valid
decimal digits right after the optional pad spaces, the value of String is
stored at the location pointed to by EndPointer.
@param String Pointer to a Null-terminated Unicode string.
@param EndPointer Pointer to character that stops scan.
@param Data Pointer to the converted value.
@retval RETURN_SUCCESS Value is translated from String.
@retval RETURN_INVALID_PARAMETER If String is NULL.
If Data is NULL.
If PcdMaximumUnicodeStringLength is not
zero, and String contains more than
PcdMaximumUnicodeStringLength Unicode
characters, not including the
Null-terminator.
@retval RETURN_UNSUPPORTED If the number represented by String exceeds
the range defined by UINT64.
**/
RETURN_STATUS
EFIAPI
StrDecimalToUint64S (
IN CONST CHAR16 *String,
OUT CHAR16 **EndPointer, OPTIONAL
OUT UINT64 *Data
)
{
ASSERT (((UINTN) String & BIT0) == 0);
//
// 1. Neither String nor Data shall be a null pointer.
//
SAFE_STRING_CONSTRAINT_CHECK ((String != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Data != NULL), RETURN_INVALID_PARAMETER);
//
// 2. The length of String shall not be greater than RSIZE_MAX.
//
if (RSIZE_MAX != 0) {
SAFE_STRING_CONSTRAINT_CHECK ((StrnLenS (String, RSIZE_MAX + 1) <= RSIZE_MAX), RETURN_INVALID_PARAMETER);
}
if (EndPointer != NULL) {
*EndPointer = (CHAR16 *) String;
}
//
// Ignore the pad spaces (space or tab)
//
while ((*String == L' ') || (*String == L'\t')) {
String++;
}
//
// Ignore leading Zeros after the spaces
//
while (*String == L'0') {
String++;
}
*Data = 0;
while (InternalIsDecimalDigitCharacter (*String)) {
//
// If the number represented by String overflows according to the range
// defined by UINT64, then MAX_UINT64 is stored in *Data and
// RETURN_UNSUPPORTED is returned.
//
if (*Data > DivU64x32 (MAX_UINT64 - (*String - L'0'), 10)) {
*Data = MAX_UINT64;
if (EndPointer != NULL) {
*EndPointer = (CHAR16 *) String;
}
return RETURN_UNSUPPORTED;
}
*Data = MultU64x32 (*Data, 10) + (*String - L'0');
String++;
}
if (EndPointer != NULL) {
*EndPointer = (CHAR16 *) String;
}
return RETURN_SUCCESS;
}
/**
Convert a Null-terminated Unicode hexadecimal string to a value of type
UINTN.
This function outputs a value of type UINTN by interpreting the contents of
the Unicode string specified by String as a hexadecimal number. The format of
the input Unicode string String is:
[spaces][zeros][x][hexadecimal digits].
The valid hexadecimal digit character is in the range [0-9], [a-f] and [A-F].
The prefix "0x" is optional. Both "x" and "X" is allowed in "0x" prefix.
If "x" appears in the input string, it must be prefixed with at least one 0.
The function will ignore the pad space, which includes spaces or tab
characters, before [zeros], [x] or [hexadecimal digit]. The running zero
before [x] or [hexadecimal digit] will be ignored. Then, the decoding starts
after [x] or the first valid hexadecimal digit. Then, the function stops at
the first character that is a not a valid hexadecimal character or NULL,
whichever one comes first.
If String is NULL, then ASSERT().
If Data is NULL, then ASSERT().
If String is not aligned in a 16-bit boundary, then ASSERT().
If PcdMaximumUnicodeStringLength is not zero, and String contains more than
PcdMaximumUnicodeStringLength Unicode characters, not including the
Null-terminator, then ASSERT().
If String has no valid hexadecimal digits in the above format, then 0 is
stored at the location pointed to by Data.
If the number represented by String exceeds the range defined by UINTN, then
MAX_UINTN is stored at the location pointed to by Data.
If EndPointer is not NULL, a pointer to the character that stopped the scan
is stored at the location pointed to by EndPointer. If String has no valid
hexadecimal digits right after the optional pad spaces, the value of String
is stored at the location pointed to by EndPointer.
@param String Pointer to a Null-terminated Unicode string.
@param EndPointer Pointer to character that stops scan.
@param Data Pointer to the converted value.
@retval RETURN_SUCCESS Value is translated from String.
@retval RETURN_INVALID_PARAMETER If String is NULL.
If Data is NULL.
If PcdMaximumUnicodeStringLength is not
zero, and String contains more than
PcdMaximumUnicodeStringLength Unicode
characters, not including the
Null-terminator.
@retval RETURN_UNSUPPORTED If the number represented by String exceeds
the range defined by UINTN.
**/
RETURN_STATUS
EFIAPI
StrHexToUintnS (
IN CONST CHAR16 *String,
OUT CHAR16 **EndPointer, OPTIONAL
OUT UINTN *Data
)
{
ASSERT (((UINTN) String & BIT0) == 0);
//
// 1. Neither String nor Data shall be a null pointer.
//
SAFE_STRING_CONSTRAINT_CHECK ((String != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Data != NULL), RETURN_INVALID_PARAMETER);
//
// 2. The length of String shall not be greater than RSIZE_MAX.
//
if (RSIZE_MAX != 0) {
SAFE_STRING_CONSTRAINT_CHECK ((StrnLenS (String, RSIZE_MAX + 1) <= RSIZE_MAX), RETURN_INVALID_PARAMETER);
}
if (EndPointer != NULL) {
*EndPointer = (CHAR16 *) String;
}
//
// Ignore the pad spaces (space or tab)
//
while ((*String == L' ') || (*String == L'\t')) {
String++;
}
//
// Ignore leading Zeros after the spaces
//
while (*String == L'0') {
String++;
}
if (InternalCharToUpper (*String) == L'X') {
if (*(String - 1) != L'0') {
*Data = 0;
return RETURN_SUCCESS;
}
//
// Skip the 'X'
//
String++;
}
*Data = 0;
while (InternalIsHexaDecimalDigitCharacter (*String)) {
//
// If the number represented by String overflows according to the range
// defined by UINTN, then MAX_UINTN is stored in *Data and
// RETURN_UNSUPPORTED is returned.
//
if (*Data > ((MAX_UINTN - InternalHexCharToUintn (*String)) >> 4)) {
*Data = MAX_UINTN;
if (EndPointer != NULL) {
*EndPointer = (CHAR16 *) String;
}
return RETURN_UNSUPPORTED;
}
*Data = (*Data << 4) + InternalHexCharToUintn (*String);
String++;
}
if (EndPointer != NULL) {
*EndPointer = (CHAR16 *) String;
}
return RETURN_SUCCESS;
}
/**
Convert a Null-terminated Unicode hexadecimal string to a value of type
UINT64.
This function outputs a value of type UINT64 by interpreting the contents of
the Unicode string specified by String as a hexadecimal number. The format of
the input Unicode string String is:
[spaces][zeros][x][hexadecimal digits].
The valid hexadecimal digit character is in the range [0-9], [a-f] and [A-F].
The prefix "0x" is optional. Both "x" and "X" is allowed in "0x" prefix.
If "x" appears in the input string, it must be prefixed with at least one 0.
The function will ignore the pad space, which includes spaces or tab
characters, before [zeros], [x] or [hexadecimal digit]. The running zero
before [x] or [hexadecimal digit] will be ignored. Then, the decoding starts
after [x] or the first valid hexadecimal digit. Then, the function stops at
the first character that is a not a valid hexadecimal character or NULL,
whichever one comes first.
If String is NULL, then ASSERT().
If Data is NULL, then ASSERT().
If String is not aligned in a 16-bit boundary, then ASSERT().
If PcdMaximumUnicodeStringLength is not zero, and String contains more than
PcdMaximumUnicodeStringLength Unicode characters, not including the
Null-terminator, then ASSERT().
If String has no valid hexadecimal digits in the above format, then 0 is
stored at the location pointed to by Data.
If the number represented by String exceeds the range defined by UINT64, then
MAX_UINT64 is stored at the location pointed to by Data.
If EndPointer is not NULL, a pointer to the character that stopped the scan
is stored at the location pointed to by EndPointer. If String has no valid
hexadecimal digits right after the optional pad spaces, the value of String
is stored at the location pointed to by EndPointer.
@param String Pointer to a Null-terminated Unicode string.
@param EndPointer Pointer to character that stops scan.
@param Data Pointer to the converted value.
@retval RETURN_SUCCESS Value is translated from String.
@retval RETURN_INVALID_PARAMETER If String is NULL.
If Data is NULL.
If PcdMaximumUnicodeStringLength is not
zero, and String contains more than
PcdMaximumUnicodeStringLength Unicode
characters, not including the
Null-terminator.
@retval RETURN_UNSUPPORTED If the number represented by String exceeds
the range defined by UINT64.
**/
RETURN_STATUS
EFIAPI
StrHexToUint64S (
IN CONST CHAR16 *String,
OUT CHAR16 **EndPointer, OPTIONAL
OUT UINT64 *Data
)
{
ASSERT (((UINTN) String & BIT0) == 0);
//
// 1. Neither String nor Data shall be a null pointer.
//
SAFE_STRING_CONSTRAINT_CHECK ((String != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Data != NULL), RETURN_INVALID_PARAMETER);
//
// 2. The length of String shall not be greater than RSIZE_MAX.
//
if (RSIZE_MAX != 0) {
SAFE_STRING_CONSTRAINT_CHECK ((StrnLenS (String, RSIZE_MAX + 1) <= RSIZE_MAX), RETURN_INVALID_PARAMETER);
}
if (EndPointer != NULL) {
*EndPointer = (CHAR16 *) String;
}
//
// Ignore the pad spaces (space or tab)
//
while ((*String == L' ') || (*String == L'\t')) {
String++;
}
//
// Ignore leading Zeros after the spaces
//
while (*String == L'0') {
String++;
}
if (InternalCharToUpper (*String) == L'X') {
if (*(String - 1) != L'0') {
*Data = 0;
return RETURN_SUCCESS;
}
//
// Skip the 'X'
//
String++;
}
*Data = 0;
while (InternalIsHexaDecimalDigitCharacter (*String)) {
//
// If the number represented by String overflows according to the range
// defined by UINT64, then MAX_UINT64 is stored in *Data and
// RETURN_UNSUPPORTED is returned.
//
if (*Data > RShiftU64 (MAX_UINT64 - InternalHexCharToUintn (*String), 4)) {
*Data = MAX_UINT64;
if (EndPointer != NULL) {
*EndPointer = (CHAR16 *) String;
}
return RETURN_UNSUPPORTED;
}
*Data = LShiftU64 (*Data, 4) + InternalHexCharToUintn (*String);
String++;
}
if (EndPointer != NULL) {
*EndPointer = (CHAR16 *) String;
}
return RETURN_SUCCESS;
}
/**
Convert a Null-terminated Unicode string to IPv6 address and prefix length.
This function outputs a value of type IPv6_ADDRESS and may output a value
of type UINT8 by interpreting the contents of the Unicode string specified
by String. The format of the input Unicode string String is as follows:
X:X:X:X:X:X:X:X[/P]
X contains one to four hexadecimal digit characters in the range [0-9], [a-f] and
[A-F]. X is converted to a value of type UINT16, whose low byte is stored in low
memory address and high byte is stored in high memory address. P contains decimal
digit characters in the range [0-9]. The running zero in the beginning of P will
be ignored. /P is optional.
When /P is not in the String, the function stops at the first character that is
not a valid hexadecimal digit character after eight X's are converted.
When /P is in the String, the function stops at the first character that is not
a valid decimal digit character after P is converted.
"::" can be used to compress one or more groups of X when X contains only 0.
The "::" can only appear once in the String.
If String is NULL, then ASSERT().
If Address is NULL, then ASSERT().
If String is not aligned in a 16-bit boundary, then ASSERT().
If PcdMaximumUnicodeStringLength is not zero, and String contains more than
PcdMaximumUnicodeStringLength Unicode characters, not including the
Null-terminator, then ASSERT().
If EndPointer is not NULL and Address is translated from String, a pointer
to the character that stopped the scan is stored at the location pointed to
by EndPointer.
@param String Pointer to a Null-terminated Unicode string.
@param EndPointer Pointer to character that stops scan.
@param Address Pointer to the converted IPv6 address.
@param PrefixLength Pointer to the converted IPv6 address prefix
length. MAX_UINT8 is returned when /P is
not in the String.
@retval RETURN_SUCCESS Address is translated from String.
@retval RETURN_INVALID_PARAMETER If String is NULL.
If Data is NULL.
@retval RETURN_UNSUPPORTED If X contains more than four hexadecimal
digit characters.
If String contains "::" and number of X
is not less than 8.
If P starts with character that is not a
valid decimal digit character.
If the decimal number converted from P
exceeds 128.
**/
RETURN_STATUS
EFIAPI
StrToIpv6Address (
IN CONST CHAR16 *String,
OUT CHAR16 **EndPointer, OPTIONAL
OUT IPv6_ADDRESS *Address,
OUT UINT8 *PrefixLength OPTIONAL
)
{
RETURN_STATUS Status;
UINTN AddressIndex;
UINTN Uintn;
IPv6_ADDRESS LocalAddress;
UINT8 LocalPrefixLength;
CONST CHAR16 *Pointer;
CHAR16 *End;
UINTN CompressStart;
BOOLEAN ExpectPrefix;
LocalPrefixLength = MAX_UINT8;
CompressStart = ARRAY_SIZE (Address->Addr);
ExpectPrefix = FALSE;
ASSERT (((UINTN) String & BIT0) == 0);
//
// 1. None of String or Guid shall be a null pointer.
//
SAFE_STRING_CONSTRAINT_CHECK ((String != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Address != NULL), RETURN_INVALID_PARAMETER);
for (Pointer = String, AddressIndex = 0; AddressIndex < ARRAY_SIZE (Address->Addr) + 1;) {
if (!InternalIsHexaDecimalDigitCharacter (*Pointer)) {
if (*Pointer != L':') {
//
// ":" or "/" should be followed by digit characters.
//
return RETURN_UNSUPPORTED;
}
//
// Meet second ":" after previous ":" or "/"
// or meet first ":" in the beginning of String.
//
if (ExpectPrefix) {
//
// ":" shall not be after "/"
//
return RETURN_UNSUPPORTED;
}
if (CompressStart != ARRAY_SIZE (Address->Addr) || AddressIndex == ARRAY_SIZE (Address->Addr)) {
//
// "::" can only appear once.
// "::" can only appear when address is not full length.
//
return RETURN_UNSUPPORTED;
} else {
//
// Remember the start of zero compressing.
//
CompressStart = AddressIndex;
Pointer++;
if (CompressStart == 0) {
if (*Pointer != L':') {
//
// Single ":" shall not be in the beginning of String.
//
return RETURN_UNSUPPORTED;
}
Pointer++;
}
}
}
if (!InternalIsHexaDecimalDigitCharacter (*Pointer)) {
if (*Pointer == L'/') {
//
// Might be optional "/P" after "::".
//
if (CompressStart != AddressIndex) {
return RETURN_UNSUPPORTED;
}
} else {
break;
}
} else {
if (!ExpectPrefix) {
//
// Get X.
//
Status = StrHexToUintnS (Pointer, &End, &Uintn);
if (RETURN_ERROR (Status) || End - Pointer > 4) {
//
// Number of hexadecimal digit characters is no more than 4.
//
return RETURN_UNSUPPORTED;
}
Pointer = End;
//
// Uintn won't exceed MAX_UINT16 if number of hexadecimal digit characters is no more than 4.
//
ASSERT (AddressIndex + 1 < ARRAY_SIZE (Address->Addr));
LocalAddress.Addr[AddressIndex] = (UINT8) ((UINT16) Uintn >> 8);
LocalAddress.Addr[AddressIndex + 1] = (UINT8) Uintn;
AddressIndex += 2;
} else {
//
// Get P, then exit the loop.
//
Status = StrDecimalToUintnS (Pointer, &End, &Uintn);
if (RETURN_ERROR (Status) || End == Pointer || Uintn > 128) {
//
// Prefix length should not exceed 128.
//
return RETURN_UNSUPPORTED;
}
LocalPrefixLength = (UINT8) Uintn;
Pointer = End;
break;
}
}
//
// Skip ':' or "/"
//
if (*Pointer == L'/') {
ExpectPrefix = TRUE;
} else if (*Pointer == L':') {
if (AddressIndex == ARRAY_SIZE (Address->Addr)) {
//
// Meet additional ":" after all 8 16-bit address
//
break;
}
} else {
//
// Meet other character that is not "/" or ":" after all 8 16-bit address
//
break;
}
Pointer++;
}
if ((AddressIndex == ARRAY_SIZE (Address->Addr) && CompressStart != ARRAY_SIZE (Address->Addr)) ||
(AddressIndex != ARRAY_SIZE (Address->Addr) && CompressStart == ARRAY_SIZE (Address->Addr))
) {
//
// Full length of address shall not have compressing zeros.
// Non-full length of address shall have compressing zeros.
//
return RETURN_UNSUPPORTED;
}
CopyMem (&Address->Addr[0], &LocalAddress.Addr[0], CompressStart);
ZeroMem (&Address->Addr[CompressStart], ARRAY_SIZE (Address->Addr) - AddressIndex);
if (AddressIndex > CompressStart) {
CopyMem (
&Address->Addr[CompressStart + ARRAY_SIZE (Address->Addr) - AddressIndex],
&LocalAddress.Addr[CompressStart],
AddressIndex - CompressStart
);
}
if (PrefixLength != NULL) {
*PrefixLength = LocalPrefixLength;
}
if (EndPointer != NULL) {
*EndPointer = (CHAR16 *) Pointer;
}
return RETURN_SUCCESS;
}
/**
Convert a Null-terminated Unicode string to IPv4 address and prefix length.
This function outputs a value of type IPv4_ADDRESS and may output a value
of type UINT8 by interpreting the contents of the Unicode string specified
by String. The format of the input Unicode string String is as follows:
D.D.D.D[/P]
D and P are decimal digit characters in the range [0-9]. The running zero in
the beginning of D and P will be ignored. /P is optional.
When /P is not in the String, the function stops at the first character that is
not a valid decimal digit character after four D's are converted.
When /P is in the String, the function stops at the first character that is not
a valid decimal digit character after P is converted.
If String is NULL, then ASSERT().
If Address is NULL, then ASSERT().
If String is not aligned in a 16-bit boundary, then ASSERT().
If PcdMaximumUnicodeStringLength is not zero, and String contains more than
PcdMaximumUnicodeStringLength Unicode characters, not including the
Null-terminator, then ASSERT().
If EndPointer is not NULL and Address is translated from String, a pointer
to the character that stopped the scan is stored at the location pointed to
by EndPointer.
@param String Pointer to a Null-terminated Unicode string.
@param EndPointer Pointer to character that stops scan.
@param Address Pointer to the converted IPv4 address.
@param PrefixLength Pointer to the converted IPv4 address prefix
length. MAX_UINT8 is returned when /P is
not in the String.
@retval RETURN_SUCCESS Address is translated from String.
@retval RETURN_INVALID_PARAMETER If String is NULL.
If Data is NULL.
@retval RETURN_UNSUPPORTED If String is not in the correct format.
If any decimal number converted from D
exceeds 255.
If the decimal number converted from P
exceeds 32.
**/
RETURN_STATUS
EFIAPI
StrToIpv4Address (
IN CONST CHAR16 *String,
OUT CHAR16 **EndPointer, OPTIONAL
OUT IPv4_ADDRESS *Address,
OUT UINT8 *PrefixLength OPTIONAL
)
{
RETURN_STATUS Status;
UINTN AddressIndex;
UINTN Uintn;
IPv4_ADDRESS LocalAddress;
UINT8 LocalPrefixLength;
CHAR16 *Pointer;
LocalPrefixLength = MAX_UINT8;
ASSERT (((UINTN) String & BIT0) == 0);
//
// 1. None of String or Guid shall be a null pointer.
//
SAFE_STRING_CONSTRAINT_CHECK ((String != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Address != NULL), RETURN_INVALID_PARAMETER);
for (Pointer = (CHAR16 *) String, AddressIndex = 0; AddressIndex < ARRAY_SIZE (Address->Addr) + 1;) {
if (!InternalIsDecimalDigitCharacter (*Pointer)) {
//
// D or P contains invalid characters.
//
break;
}
//
// Get D or P.
//
Status = StrDecimalToUintnS ((CONST CHAR16 *) Pointer, &Pointer, &Uintn);
if (RETURN_ERROR (Status)) {
return RETURN_UNSUPPORTED;
}
if (AddressIndex == ARRAY_SIZE (Address->Addr)) {
//
// It's P.
//
if (Uintn > 32) {
return RETURN_UNSUPPORTED;
}
LocalPrefixLength = (UINT8) Uintn;
} else {
//
// It's D.
//
if (Uintn > MAX_UINT8) {
return RETURN_UNSUPPORTED;
}
LocalAddress.Addr[AddressIndex] = (UINT8) Uintn;
AddressIndex++;
}
//
// Check the '.' or '/', depending on the AddressIndex.
//
if (AddressIndex == ARRAY_SIZE (Address->Addr)) {
if (*Pointer == L'/') {
//
// '/P' is in the String.
// Skip "/" and get P in next loop.
//
Pointer++;
} else {
//
// '/P' is not in the String.
//
break;
}
} else if (AddressIndex < ARRAY_SIZE (Address->Addr)) {
if (*Pointer == L'.') {
//
// D should be followed by '.'
//
Pointer++;
} else {
return RETURN_UNSUPPORTED;
}
}
}
if (AddressIndex < ARRAY_SIZE (Address->Addr)) {
return RETURN_UNSUPPORTED;
}
CopyMem (Address, &LocalAddress, sizeof (*Address));
if (PrefixLength != NULL) {
*PrefixLength = LocalPrefixLength;
}
if (EndPointer != NULL) {
*EndPointer = Pointer;
}
return RETURN_SUCCESS;
}
/**
Convert a Null-terminated Unicode GUID string to a value of type
EFI_GUID.
This function outputs a GUID value by interpreting the contents of
the Unicode string specified by String. The format of the input
Unicode string String consists of 36 characters, as follows:
aabbccdd-eeff-gghh-iijj-kkllmmnnoopp
The pairs aa - pp are two characters in the range [0-9], [a-f] and
[A-F], with each pair representing a single byte hexadecimal value.
The mapping between String and the EFI_GUID structure is as follows:
aa Data1[24:31]
bb Data1[16:23]
cc Data1[8:15]
dd Data1[0:7]
ee Data2[8:15]
ff Data2[0:7]
gg Data3[8:15]
hh Data3[0:7]
ii Data4[0:7]
jj Data4[8:15]
kk Data4[16:23]
ll Data4[24:31]
mm Data4[32:39]
nn Data4[40:47]
oo Data4[48:55]
pp Data4[56:63]
If String is NULL, then ASSERT().
If Guid is NULL, then ASSERT().
If String is not aligned in a 16-bit boundary, then ASSERT().
@param String Pointer to a Null-terminated Unicode string.
@param Guid Pointer to the converted GUID.
@retval RETURN_SUCCESS Guid is translated from String.
@retval RETURN_INVALID_PARAMETER If String is NULL.
If Data is NULL.
@retval RETURN_UNSUPPORTED If String is not as the above format.
**/
RETURN_STATUS
EFIAPI
StrToGuid (
IN CONST CHAR16 *String,
OUT GUID *Guid
)
{
RETURN_STATUS Status;
GUID LocalGuid;
ASSERT (((UINTN) String & BIT0) == 0);
//
// 1. None of String or Guid shall be a null pointer.
//
SAFE_STRING_CONSTRAINT_CHECK ((String != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Guid != NULL), RETURN_INVALID_PARAMETER);
//
// Get aabbccdd in big-endian.
//
Status = StrHexToBytes (String, 2 * sizeof (LocalGuid.Data1), (UINT8 *) &LocalGuid.Data1, sizeof (LocalGuid.Data1));
if (RETURN_ERROR (Status) || String[2 * sizeof (LocalGuid.Data1)] != L'-') {
return RETURN_UNSUPPORTED;
}
//
// Convert big-endian to little-endian.
//
LocalGuid.Data1 = SwapBytes32 (LocalGuid.Data1);
String += 2 * sizeof (LocalGuid.Data1) + 1;
//
// Get eeff in big-endian.
//
Status = StrHexToBytes (String, 2 * sizeof (LocalGuid.Data2), (UINT8 *) &LocalGuid.Data2, sizeof (LocalGuid.Data2));
if (RETURN_ERROR (Status) || String[2 * sizeof (LocalGuid.Data2)] != L'-') {
return RETURN_UNSUPPORTED;
}
//
// Convert big-endian to little-endian.
//
LocalGuid.Data2 = SwapBytes16 (LocalGuid.Data2);
String += 2 * sizeof (LocalGuid.Data2) + 1;
//
// Get gghh in big-endian.
//
Status = StrHexToBytes (String, 2 * sizeof (LocalGuid.Data3), (UINT8 *) &LocalGuid.Data3, sizeof (LocalGuid.Data3));
if (RETURN_ERROR (Status) || String[2 * sizeof (LocalGuid.Data3)] != L'-') {
return RETURN_UNSUPPORTED;
}
//
// Convert big-endian to little-endian.
//
LocalGuid.Data3 = SwapBytes16 (LocalGuid.Data3);
String += 2 * sizeof (LocalGuid.Data3) + 1;
//
// Get iijj.
//
Status = StrHexToBytes (String, 2 * 2, &LocalGuid.Data4[0], 2);
if (RETURN_ERROR (Status) || String[2 * 2] != L'-') {
return RETURN_UNSUPPORTED;
}
String += 2 * 2 + 1;
//
// Get kkllmmnnoopp.
//
Status = StrHexToBytes (String, 2 * 6, &LocalGuid.Data4[2], 6);
if (RETURN_ERROR (Status)) {
return RETURN_UNSUPPORTED;
}
CopyGuid (Guid, &LocalGuid);
return RETURN_SUCCESS;
}
/**
Convert a Null-terminated Unicode hexadecimal string to a byte array.
This function outputs a byte array by interpreting the contents of
the Unicode string specified by String in hexadecimal format. The format of
the input Unicode string String is:
[XX]*
X is a hexadecimal digit character in the range [0-9], [a-f] and [A-F].
The function decodes every two hexadecimal digit characters as one byte. The
decoding stops after Length of characters and outputs Buffer containing
(Length / 2) bytes.
If String is not aligned in a 16-bit boundary, then ASSERT().
If String is NULL, then ASSERT().
If Buffer is NULL, then ASSERT().
If Length is not multiple of 2, then ASSERT().
If PcdMaximumUnicodeStringLength is not zero and Length is greater than
PcdMaximumUnicodeStringLength, then ASSERT().
If MaxBufferSize is less than (Length / 2), then ASSERT().
@param String Pointer to a Null-terminated Unicode string.
@param Length The number of Unicode characters to decode.
@param Buffer Pointer to the converted bytes array.
@param MaxBufferSize The maximum size of Buffer.
@retval RETURN_SUCCESS Buffer is translated from String.
@retval RETURN_INVALID_PARAMETER If String is NULL.
If Data is NULL.
If Length is not multiple of 2.
If PcdMaximumUnicodeStringLength is not zero,
and Length is greater than
PcdMaximumUnicodeStringLength.
@retval RETURN_UNSUPPORTED If Length of characters from String contain
a character that is not valid hexadecimal
digit characters, or a Null-terminator.
@retval RETURN_BUFFER_TOO_SMALL If MaxBufferSize is less than (Length / 2).
**/
RETURN_STATUS
EFIAPI
StrHexToBytes (
IN CONST CHAR16 *String,
IN UINTN Length,
OUT UINT8 *Buffer,
IN UINTN MaxBufferSize
)
{
UINTN Index;
ASSERT (((UINTN) String & BIT0) == 0);
//
// 1. None of String or Buffer shall be a null pointer.
//
SAFE_STRING_CONSTRAINT_CHECK ((String != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Buffer != NULL), RETURN_INVALID_PARAMETER);
//
// 2. Length shall not be greater than RSIZE_MAX.
//
if (RSIZE_MAX != 0) {
SAFE_STRING_CONSTRAINT_CHECK ((Length <= RSIZE_MAX), RETURN_INVALID_PARAMETER);
}
//
// 3. Length shall not be odd.
//
SAFE_STRING_CONSTRAINT_CHECK (((Length & BIT0) == 0), RETURN_INVALID_PARAMETER);
//
// 4. MaxBufferSize shall equal to or greater than Length / 2.
//
SAFE_STRING_CONSTRAINT_CHECK ((MaxBufferSize >= Length / 2), RETURN_BUFFER_TOO_SMALL);
//
// 5. String shall not contains invalid hexadecimal digits.
//
for (Index = 0; Index < Length; Index++) {
if (!InternalIsHexaDecimalDigitCharacter (String[Index])) {
break;
}
}
if (Index != Length) {
return RETURN_UNSUPPORTED;
}
//
// Convert the hex string to bytes.
//
for(Index = 0; Index < Length; Index++) {
//
// For even characters, write the upper nibble for each buffer byte,
// and for even characters, the lower nibble.
//
if ((Index & BIT0) == 0) {
Buffer[Index / 2] = (UINT8) InternalHexCharToUintn (String[Index]) << 4;
} else {
Buffer[Index / 2] |= (UINT8) InternalHexCharToUintn (String[Index]);
}
}
return RETURN_SUCCESS;
}
/**
Returns the length of a Null-terminated Ascii string.
This function is similar as strlen_s defined in C11.
@param String A pointer to a Null-terminated Ascii string.
@param MaxSize The maximum number of Destination Ascii
char, including terminating null char.
@retval 0 If String is NULL.
@retval MaxSize If there is no null character in the first MaxSize characters of String.
@return The number of characters that percede the terminating null character.
**/
UINTN
EFIAPI
AsciiStrnLenS (
IN CONST CHAR8 *String,
IN UINTN MaxSize
)
{
UINTN Length;
//
// If String is a null pointer or MaxSize is 0, then the AsciiStrnLenS function returns zero.
//
if ((String == NULL) || (MaxSize == 0)) {
return 0;
}
//
// Otherwise, the AsciiStrnLenS function returns the number of characters that precede the
// terminating null character. If there is no null character in the first MaxSize characters of
// String then AsciiStrnLenS returns MaxSize. At most the first MaxSize characters of String shall
// be accessed by AsciiStrnLenS.
//
Length = 0;
while (String[Length] != 0) {
if (Length >= MaxSize - 1) {
return MaxSize;
}
Length++;
}
return Length;
}
/**
Returns the size of a Null-terminated Ascii string in bytes, including the
Null terminator.
This function returns the size of the Null-terminated Ascii string specified
by String in bytes, including the Null terminator.
@param String A pointer to a Null-terminated Ascii string.
@param MaxSize The maximum number of Destination Ascii
char, including the Null terminator.
@retval 0 If String is NULL.
@retval (sizeof (CHAR8) * (MaxSize + 1))
If there is no Null terminator in the first MaxSize characters of
String.
@return The size of the Null-terminated Ascii string in bytes, including the
Null terminator.
**/
UINTN
EFIAPI
AsciiStrnSizeS (
IN CONST CHAR8 *String,
IN UINTN MaxSize
)
{
//
// If String is a null pointer, then the AsciiStrnSizeS function returns
// zero.
//
if (String == NULL) {
return 0;
}
//
// Otherwise, the AsciiStrnSizeS function returns the size of the
// Null-terminated Ascii string in bytes, including the Null terminator. If
// there is no Null terminator in the first MaxSize characters of String,
// then AsciiStrnSizeS returns (sizeof (CHAR8) * (MaxSize + 1)) to keep a
// consistent map with the AsciiStrnLenS function.
//
return (AsciiStrnLenS (String, MaxSize) + 1) * sizeof (*String);
}
/**
Copies the string pointed to by Source (including the terminating null char)
to the array pointed to by Destination.
This function is similar as strcpy_s defined in C11.
If an error would be returned, then the function will also ASSERT().
If an error is returned, then the Destination is unmodified.
@param Destination A pointer to a Null-terminated Ascii string.
@param DestMax The maximum number of Destination Ascii
char, including terminating null char.
@param Source A pointer to a Null-terminated Ascii string.
@retval RETURN_SUCCESS String is copied.
@retval RETURN_BUFFER_TOO_SMALL If DestMax is NOT greater than StrLen(Source).
@retval RETURN_INVALID_PARAMETER If Destination is NULL.
If Source is NULL.
If PcdMaximumAsciiStringLength is not zero,
and DestMax is greater than
PcdMaximumAsciiStringLength.
If DestMax is 0.
@retval RETURN_ACCESS_DENIED If Source and Destination overlap.
**/
RETURN_STATUS
EFIAPI
AsciiStrCpyS (
OUT CHAR8 *Destination,
IN UINTN DestMax,
IN CONST CHAR8 *Source
)
{
UINTN SourceLen;
//
// 1. Neither Destination nor Source shall be a null pointer.
//
SAFE_STRING_CONSTRAINT_CHECK ((Destination != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Source != NULL), RETURN_INVALID_PARAMETER);
//
// 2. DestMax shall not be greater than ASCII_RSIZE_MAX.
//
if (ASCII_RSIZE_MAX != 0) {
SAFE_STRING_CONSTRAINT_CHECK ((DestMax <= ASCII_RSIZE_MAX), RETURN_INVALID_PARAMETER);
}
//
// 3. DestMax shall not equal zero.
//
SAFE_STRING_CONSTRAINT_CHECK ((DestMax != 0), RETURN_INVALID_PARAMETER);
//
// 4. DestMax shall be greater than AsciiStrnLenS(Source, DestMax).
//
SourceLen = AsciiStrnLenS (Source, DestMax);
SAFE_STRING_CONSTRAINT_CHECK ((DestMax > SourceLen), RETURN_BUFFER_TOO_SMALL);
//
// 5. Copying shall not take place between objects that overlap.
//
SAFE_STRING_CONSTRAINT_CHECK (InternalSafeStringNoAsciiStrOverlap (Destination, DestMax, (CHAR8 *)Source, SourceLen + 1), RETURN_ACCESS_DENIED);
//
// The AsciiStrCpyS function copies the string pointed to by Source (including the terminating
// null character) into the array pointed to by Destination.
//
while (*Source != 0) {
*(Destination++) = *(Source++);
}
*Destination = 0;
return RETURN_SUCCESS;
}
/**
Copies not more than Length successive char from the string pointed to by
Source to the array pointed to by Destination. If no null char is copied from
Source, then Destination[Length] is always set to null.
This function is similar as strncpy_s defined in C11.
If an error would be returned, then the function will also ASSERT().
If an error is returned, then the Destination is unmodified.
@param Destination A pointer to a Null-terminated Ascii string.
@param DestMax The maximum number of Destination Ascii
char, including terminating null char.
@param Source A pointer to a Null-terminated Ascii string.
@param Length The maximum number of Ascii characters to copy.
@retval RETURN_SUCCESS String is copied.
@retval RETURN_BUFFER_TOO_SMALL If DestMax is NOT greater than
MIN(StrLen(Source), Length).
@retval RETURN_INVALID_PARAMETER If Destination is NULL.
If Source is NULL.
If PcdMaximumAsciiStringLength is not zero,
and DestMax is greater than
PcdMaximumAsciiStringLength.
If DestMax is 0.
@retval RETURN_ACCESS_DENIED If Source and Destination overlap.
**/
RETURN_STATUS
EFIAPI
AsciiStrnCpyS (
OUT CHAR8 *Destination,
IN UINTN DestMax,
IN CONST CHAR8 *Source,
IN UINTN Length
)
{
UINTN SourceLen;
//
// 1. Neither Destination nor Source shall be a null pointer.
//
SAFE_STRING_CONSTRAINT_CHECK ((Destination != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Source != NULL), RETURN_INVALID_PARAMETER);
//
// 2. Neither DestMax nor Length shall be greater than ASCII_RSIZE_MAX
//
if (ASCII_RSIZE_MAX != 0) {
SAFE_STRING_CONSTRAINT_CHECK ((DestMax <= ASCII_RSIZE_MAX), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Length <= ASCII_RSIZE_MAX), RETURN_INVALID_PARAMETER);
}
//
// 3. DestMax shall not equal zero.
//
SAFE_STRING_CONSTRAINT_CHECK ((DestMax != 0), RETURN_INVALID_PARAMETER);
//
// 4. If Length is not less than DestMax, then DestMax shall be greater than AsciiStrnLenS(Source, DestMax).
//
SourceLen = AsciiStrnLenS (Source, MIN (DestMax, Length));
if (Length >= DestMax) {
SAFE_STRING_CONSTRAINT_CHECK ((DestMax > SourceLen), RETURN_BUFFER_TOO_SMALL);
}
//
// 5. Copying shall not take place between objects that overlap.
//
if (SourceLen > Length) {
SourceLen = Length;
}
SAFE_STRING_CONSTRAINT_CHECK (InternalSafeStringNoAsciiStrOverlap (Destination, DestMax, (CHAR8 *)Source, SourceLen + 1), RETURN_ACCESS_DENIED);
//
// The AsciiStrnCpyS function copies not more than Length successive characters (characters that
// follow a null character are not copied) from the array pointed to by Source to the array
// pointed to by Destination. If no null character was copied from Source, then Destination[Length] is set to a null
// character.
//
while ((SourceLen > 0) && (*Source != 0)) {
*(Destination++) = *(Source++);
SourceLen--;
}
*Destination = 0;
return RETURN_SUCCESS;
}
/**
Appends a copy of the string pointed to by Source (including the terminating
null char) to the end of the string pointed to by Destination.
This function is similar as strcat_s defined in C11.
If an error would be returned, then the function will also ASSERT().
If an error is returned, then the Destination is unmodified.
@param Destination A pointer to a Null-terminated Ascii string.
@param DestMax The maximum number of Destination Ascii
char, including terminating null char.
@param Source A pointer to a Null-terminated Ascii string.
@retval RETURN_SUCCESS String is appended.
@retval RETURN_BAD_BUFFER_SIZE If DestMax is NOT greater than
StrLen(Destination).
@retval RETURN_BUFFER_TOO_SMALL If (DestMax - StrLen(Destination)) is NOT
greater than StrLen(Source).
@retval RETURN_INVALID_PARAMETER If Destination is NULL.
If Source is NULL.
If PcdMaximumAsciiStringLength is not zero,
and DestMax is greater than
PcdMaximumAsciiStringLength.
If DestMax is 0.
@retval RETURN_ACCESS_DENIED If Source and Destination overlap.
**/
RETURN_STATUS
EFIAPI
AsciiStrCatS (
IN OUT CHAR8 *Destination,
IN UINTN DestMax,
IN CONST CHAR8 *Source
)
{
UINTN DestLen;
UINTN CopyLen;
UINTN SourceLen;
//
// Let CopyLen denote the value DestMax - AsciiStrnLenS(Destination, DestMax) upon entry to AsciiStrCatS.
//
DestLen = AsciiStrnLenS (Destination, DestMax);
CopyLen = DestMax - DestLen;
//
// 1. Neither Destination nor Source shall be a null pointer.
//
SAFE_STRING_CONSTRAINT_CHECK ((Destination != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Source != NULL), RETURN_INVALID_PARAMETER);
//
// 2. DestMax shall not be greater than ASCII_RSIZE_MAX.
//
if (ASCII_RSIZE_MAX != 0) {
SAFE_STRING_CONSTRAINT_CHECK ((DestMax <= ASCII_RSIZE_MAX), RETURN_INVALID_PARAMETER);
}
//
// 3. DestMax shall not equal zero.
//
SAFE_STRING_CONSTRAINT_CHECK ((DestMax != 0), RETURN_INVALID_PARAMETER);
//
// 4. CopyLen shall not equal zero.
//
SAFE_STRING_CONSTRAINT_CHECK ((CopyLen != 0), RETURN_BAD_BUFFER_SIZE);
//
// 5. CopyLen shall be greater than AsciiStrnLenS(Source, CopyLen).
//
SourceLen = AsciiStrnLenS (Source, CopyLen);
SAFE_STRING_CONSTRAINT_CHECK ((CopyLen > SourceLen), RETURN_BUFFER_TOO_SMALL);
//
// 6. Copying shall not take place between objects that overlap.
//
SAFE_STRING_CONSTRAINT_CHECK (InternalSafeStringNoAsciiStrOverlap (Destination, DestMax, (CHAR8 *)Source, SourceLen + 1), RETURN_ACCESS_DENIED);
//
// The AsciiStrCatS function appends a copy of the string pointed to by Source (including the
// terminating null character) to the end of the string pointed to by Destination. The initial character
// from Source overwrites the null character at the end of Destination.
//
Destination = Destination + DestLen;
while (*Source != 0) {
*(Destination++) = *(Source++);
}
*Destination = 0;
return RETURN_SUCCESS;
}
/**
Appends not more than Length successive char from the string pointed to by
Source to the end of the string pointed to by Destination. If no null char is
copied from Source, then Destination[StrLen(Destination) + Length] is always
set to null.
This function is similar as strncat_s defined in C11.
If an error would be returned, then the function will also ASSERT().
If an error is returned, then the Destination is unmodified.
@param Destination A pointer to a Null-terminated Ascii string.
@param DestMax The maximum number of Destination Ascii
char, including terminating null char.
@param Source A pointer to a Null-terminated Ascii string.
@param Length The maximum number of Ascii characters to copy.
@retval RETURN_SUCCESS String is appended.
@retval RETURN_BAD_BUFFER_SIZE If DestMax is NOT greater than
StrLen(Destination).
@retval RETURN_BUFFER_TOO_SMALL If (DestMax - StrLen(Destination)) is NOT
greater than MIN(StrLen(Source), Length).
@retval RETURN_INVALID_PARAMETER If Destination is NULL.
If Source is NULL.
If PcdMaximumAsciiStringLength is not zero,
and DestMax is greater than
PcdMaximumAsciiStringLength.
If DestMax is 0.
@retval RETURN_ACCESS_DENIED If Source and Destination overlap.
**/
RETURN_STATUS
EFIAPI
AsciiStrnCatS (
IN OUT CHAR8 *Destination,
IN UINTN DestMax,
IN CONST CHAR8 *Source,
IN UINTN Length
)
{
UINTN DestLen;
UINTN CopyLen;
UINTN SourceLen;
//
// Let CopyLen denote the value DestMax - AsciiStrnLenS(Destination, DestMax) upon entry to AsciiStrnCatS.
//
DestLen = AsciiStrnLenS (Destination, DestMax);
CopyLen = DestMax - DestLen;
//
// 1. Neither Destination nor Source shall be a null pointer.
//
SAFE_STRING_CONSTRAINT_CHECK ((Destination != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Source != NULL), RETURN_INVALID_PARAMETER);
//
// 2. Neither DestMax nor Length shall be greater than ASCII_RSIZE_MAX.
//
if (ASCII_RSIZE_MAX != 0) {
SAFE_STRING_CONSTRAINT_CHECK ((DestMax <= ASCII_RSIZE_MAX), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Length <= ASCII_RSIZE_MAX), RETURN_INVALID_PARAMETER);
}
//
// 3. DestMax shall not equal zero.
//
SAFE_STRING_CONSTRAINT_CHECK ((DestMax != 0), RETURN_INVALID_PARAMETER);
//
// 4. CopyLen shall not equal zero.
//
SAFE_STRING_CONSTRAINT_CHECK ((CopyLen != 0), RETURN_BAD_BUFFER_SIZE);
//
// 5. If Length is not less than CopyLen, then CopyLen shall be greater than AsciiStrnLenS(Source, CopyLen).
//
SourceLen = AsciiStrnLenS (Source, MIN (CopyLen, Length));
if (Length >= CopyLen) {
SAFE_STRING_CONSTRAINT_CHECK ((CopyLen > SourceLen), RETURN_BUFFER_TOO_SMALL);
}
//
// 6. Copying shall not take place between objects that overlap.
//
if (SourceLen > Length) {
SourceLen = Length;
}
SAFE_STRING_CONSTRAINT_CHECK (InternalSafeStringNoAsciiStrOverlap (Destination, DestMax, (CHAR8 *)Source, SourceLen + 1), RETURN_ACCESS_DENIED);
//
// The AsciiStrnCatS function appends not more than Length successive characters (characters
// that follow a null character are not copied) from the array pointed to by Source to the end of
// the string pointed to by Destination. The initial character from Source overwrites the null character at
// the end of Destination. If no null character was copied from Source, then Destination[DestMax-CopyLen+Length] is set to
// a null character.
//
Destination = Destination + DestLen;
while ((SourceLen > 0) && (*Source != 0)) {
*(Destination++) = *(Source++);
SourceLen--;
}
*Destination = 0;
return RETURN_SUCCESS;
}
/**
Convert a Null-terminated Ascii decimal string to a value of type UINTN.
This function outputs a value of type UINTN by interpreting the contents of
the Ascii string specified by String as a decimal number. The format of the
input Ascii string String is:
[spaces] [decimal digits].
The valid decimal digit character is in the range [0-9]. The function will
ignore the pad space, which includes spaces or tab characters, before
[decimal digits]. The running zero in the beginning of [decimal digits] will
be ignored. Then, the function stops at the first character that is a not a
valid decimal character or a Null-terminator, whichever one comes first.
If String is NULL, then ASSERT().
If Data is NULL, then ASSERT().
If PcdMaximumAsciiStringLength is not zero, and String contains more than
PcdMaximumAsciiStringLength Ascii characters, not including the
Null-terminator, then ASSERT().
If String has no valid decimal digits in the above format, then 0 is stored
at the location pointed to by Data.
If the number represented by String exceeds the range defined by UINTN, then
MAX_UINTN is stored at the location pointed to by Data.
If EndPointer is not NULL, a pointer to the character that stopped the scan
is stored at the location pointed to by EndPointer. If String has no valid
decimal digits right after the optional pad spaces, the value of String is
stored at the location pointed to by EndPointer.
@param String Pointer to a Null-terminated Ascii string.
@param EndPointer Pointer to character that stops scan.
@param Data Pointer to the converted value.
@retval RETURN_SUCCESS Value is translated from String.
@retval RETURN_INVALID_PARAMETER If String is NULL.
If Data is NULL.
If PcdMaximumAsciiStringLength is not zero,
and String contains more than
PcdMaximumAsciiStringLength Ascii
characters, not including the
Null-terminator.
@retval RETURN_UNSUPPORTED If the number represented by String exceeds
the range defined by UINTN.
**/
RETURN_STATUS
EFIAPI
AsciiStrDecimalToUintnS (
IN CONST CHAR8 *String,
OUT CHAR8 **EndPointer, OPTIONAL
OUT UINTN *Data
)
{
//
// 1. Neither String nor Data shall be a null pointer.
//
SAFE_STRING_CONSTRAINT_CHECK ((String != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Data != NULL), RETURN_INVALID_PARAMETER);
//
// 2. The length of String shall not be greater than ASCII_RSIZE_MAX.
//
if (ASCII_RSIZE_MAX != 0) {
SAFE_STRING_CONSTRAINT_CHECK ((AsciiStrnLenS (String, ASCII_RSIZE_MAX + 1) <= ASCII_RSIZE_MAX), RETURN_INVALID_PARAMETER);
}
if (EndPointer != NULL) {
*EndPointer = (CHAR8 *) String;
}
//
// Ignore the pad spaces (space or tab)
//
while ((*String == ' ') || (*String == '\t')) {
String++;
}
//
// Ignore leading Zeros after the spaces
//
while (*String == '0') {
String++;
}
*Data = 0;
while (InternalAsciiIsDecimalDigitCharacter (*String)) {
//
// If the number represented by String overflows according to the range
// defined by UINTN, then MAX_UINTN is stored in *Data and
// RETURN_UNSUPPORTED is returned.
//
if (*Data > ((MAX_UINTN - (*String - '0')) / 10)) {
*Data = MAX_UINTN;
if (EndPointer != NULL) {
*EndPointer = (CHAR8 *) String;
}
return RETURN_UNSUPPORTED;
}
*Data = *Data * 10 + (*String - '0');
String++;
}
if (EndPointer != NULL) {
*EndPointer = (CHAR8 *) String;
}
return RETURN_SUCCESS;
}
/**
Convert a Null-terminated Ascii decimal string to a value of type UINT64.
This function outputs a value of type UINT64 by interpreting the contents of
the Ascii string specified by String as a decimal number. The format of the
input Ascii string String is:
[spaces] [decimal digits].
The valid decimal digit character is in the range [0-9]. The function will
ignore the pad space, which includes spaces or tab characters, before
[decimal digits]. The running zero in the beginning of [decimal digits] will
be ignored. Then, the function stops at the first character that is a not a
valid decimal character or a Null-terminator, whichever one comes first.
If String is NULL, then ASSERT().
If Data is NULL, then ASSERT().
If PcdMaximumAsciiStringLength is not zero, and String contains more than
PcdMaximumAsciiStringLength Ascii characters, not including the
Null-terminator, then ASSERT().
If String has no valid decimal digits in the above format, then 0 is stored
at the location pointed to by Data.
If the number represented by String exceeds the range defined by UINT64, then
MAX_UINT64 is stored at the location pointed to by Data.
If EndPointer is not NULL, a pointer to the character that stopped the scan
is stored at the location pointed to by EndPointer. If String has no valid
decimal digits right after the optional pad spaces, the value of String is
stored at the location pointed to by EndPointer.
@param String Pointer to a Null-terminated Ascii string.
@param EndPointer Pointer to character that stops scan.
@param Data Pointer to the converted value.
@retval RETURN_SUCCESS Value is translated from String.
@retval RETURN_INVALID_PARAMETER If String is NULL.
If Data is NULL.
If PcdMaximumAsciiStringLength is not zero,
and String contains more than
PcdMaximumAsciiStringLength Ascii
characters, not including the
Null-terminator.
@retval RETURN_UNSUPPORTED If the number represented by String exceeds
the range defined by UINT64.
**/
RETURN_STATUS
EFIAPI
AsciiStrDecimalToUint64S (
IN CONST CHAR8 *String,
OUT CHAR8 **EndPointer, OPTIONAL
OUT UINT64 *Data
)
{
//
// 1. Neither String nor Data shall be a null pointer.
//
SAFE_STRING_CONSTRAINT_CHECK ((String != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Data != NULL), RETURN_INVALID_PARAMETER);
//
// 2. The length of String shall not be greater than ASCII_RSIZE_MAX.
//
if (ASCII_RSIZE_MAX != 0) {
SAFE_STRING_CONSTRAINT_CHECK ((AsciiStrnLenS (String, ASCII_RSIZE_MAX + 1) <= ASCII_RSIZE_MAX), RETURN_INVALID_PARAMETER);
}
if (EndPointer != NULL) {
*EndPointer = (CHAR8 *) String;
}
//
// Ignore the pad spaces (space or tab)
//
while ((*String == ' ') || (*String == '\t')) {
String++;
}
//
// Ignore leading Zeros after the spaces
//
while (*String == '0') {
String++;
}
*Data = 0;
while (InternalAsciiIsDecimalDigitCharacter (*String)) {
//
// If the number represented by String overflows according to the range
// defined by UINT64, then MAX_UINT64 is stored in *Data and
// RETURN_UNSUPPORTED is returned.
//
if (*Data > DivU64x32 (MAX_UINT64 - (*String - '0'), 10)) {
*Data = MAX_UINT64;
if (EndPointer != NULL) {
*EndPointer = (CHAR8 *) String;
}
return RETURN_UNSUPPORTED;
}
*Data = MultU64x32 (*Data, 10) + (*String - '0');
String++;
}
if (EndPointer != NULL) {
*EndPointer = (CHAR8 *) String;
}
return RETURN_SUCCESS;
}
/**
Convert a Null-terminated Ascii hexadecimal string to a value of type UINTN.
This function outputs a value of type UINTN by interpreting the contents of
the Ascii string specified by String as a hexadecimal number. The format of
the input Ascii string String is:
[spaces][zeros][x][hexadecimal digits].
The valid hexadecimal digit character is in the range [0-9], [a-f] and [A-F].
The prefix "0x" is optional. Both "x" and "X" is allowed in "0x" prefix. If
"x" appears in the input string, it must be prefixed with at least one 0. The
function will ignore the pad space, which includes spaces or tab characters,
before [zeros], [x] or [hexadecimal digits]. The running zero before [x] or
[hexadecimal digits] will be ignored. Then, the decoding starts after [x] or
the first valid hexadecimal digit. Then, the function stops at the first
character that is a not a valid hexadecimal character or Null-terminator,
whichever on comes first.
If String is NULL, then ASSERT().
If Data is NULL, then ASSERT().
If PcdMaximumAsciiStringLength is not zero, and String contains more than
PcdMaximumAsciiStringLength Ascii characters, not including the
Null-terminator, then ASSERT().
If String has no valid hexadecimal digits in the above format, then 0 is
stored at the location pointed to by Data.
If the number represented by String exceeds the range defined by UINTN, then
MAX_UINTN is stored at the location pointed to by Data.
If EndPointer is not NULL, a pointer to the character that stopped the scan
is stored at the location pointed to by EndPointer. If String has no valid
hexadecimal digits right after the optional pad spaces, the value of String
is stored at the location pointed to by EndPointer.
@param String Pointer to a Null-terminated Ascii string.
@param EndPointer Pointer to character that stops scan.
@param Data Pointer to the converted value.
@retval RETURN_SUCCESS Value is translated from String.
@retval RETURN_INVALID_PARAMETER If String is NULL.
If Data is NULL.
If PcdMaximumAsciiStringLength is not zero,
and String contains more than
PcdMaximumAsciiStringLength Ascii
characters, not including the
Null-terminator.
@retval RETURN_UNSUPPORTED If the number represented by String exceeds
the range defined by UINTN.
**/
RETURN_STATUS
EFIAPI
AsciiStrHexToUintnS (
IN CONST CHAR8 *String,
OUT CHAR8 **EndPointer, OPTIONAL
OUT UINTN *Data
)
{
//
// 1. Neither String nor Data shall be a null pointer.
//
SAFE_STRING_CONSTRAINT_CHECK ((String != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Data != NULL), RETURN_INVALID_PARAMETER);
//
// 2. The length of String shall not be greater than ASCII_RSIZE_MAX.
//
if (ASCII_RSIZE_MAX != 0) {
SAFE_STRING_CONSTRAINT_CHECK ((AsciiStrnLenS (String, ASCII_RSIZE_MAX + 1) <= ASCII_RSIZE_MAX), RETURN_INVALID_PARAMETER);
}
if (EndPointer != NULL) {
*EndPointer = (CHAR8 *) String;
}
//
// Ignore the pad spaces (space or tab)
//
while ((*String == ' ') || (*String == '\t')) {
String++;
}
//
// Ignore leading Zeros after the spaces
//
while (*String == '0') {
String++;
}
if (InternalBaseLibAsciiToUpper (*String) == 'X') {
if (*(String - 1) != '0') {
*Data = 0;
return RETURN_SUCCESS;
}
//
// Skip the 'X'
//
String++;
}
*Data = 0;
while (InternalAsciiIsHexaDecimalDigitCharacter (*String)) {
//
// If the number represented by String overflows according to the range
// defined by UINTN, then MAX_UINTN is stored in *Data and
// RETURN_UNSUPPORTED is returned.
//
if (*Data > ((MAX_UINTN - InternalAsciiHexCharToUintn (*String)) >> 4)) {
*Data = MAX_UINTN;
if (EndPointer != NULL) {
*EndPointer = (CHAR8 *) String;
}
return RETURN_UNSUPPORTED;
}
*Data = (*Data << 4) + InternalAsciiHexCharToUintn (*String);
String++;
}
if (EndPointer != NULL) {
*EndPointer = (CHAR8 *) String;
}
return RETURN_SUCCESS;
}
/**
Convert a Null-terminated Ascii hexadecimal string to a value of type UINT64.
This function outputs a value of type UINT64 by interpreting the contents of
the Ascii string specified by String as a hexadecimal number. The format of
the input Ascii string String is:
[spaces][zeros][x][hexadecimal digits].
The valid hexadecimal digit character is in the range [0-9], [a-f] and [A-F].
The prefix "0x" is optional. Both "x" and "X" is allowed in "0x" prefix. If
"x" appears in the input string, it must be prefixed with at least one 0. The
function will ignore the pad space, which includes spaces or tab characters,
before [zeros], [x] or [hexadecimal digits]. The running zero before [x] or
[hexadecimal digits] will be ignored. Then, the decoding starts after [x] or
the first valid hexadecimal digit. Then, the function stops at the first
character that is a not a valid hexadecimal character or Null-terminator,
whichever on comes first.
If String is NULL, then ASSERT().
If Data is NULL, then ASSERT().
If PcdMaximumAsciiStringLength is not zero, and String contains more than
PcdMaximumAsciiStringLength Ascii characters, not including the
Null-terminator, then ASSERT().
If String has no valid hexadecimal digits in the above format, then 0 is
stored at the location pointed to by Data.
If the number represented by String exceeds the range defined by UINT64, then
MAX_UINT64 is stored at the location pointed to by Data.
If EndPointer is not NULL, a pointer to the character that stopped the scan
is stored at the location pointed to by EndPointer. If String has no valid
hexadecimal digits right after the optional pad spaces, the value of String
is stored at the location pointed to by EndPointer.
@param String Pointer to a Null-terminated Ascii string.
@param EndPointer Pointer to character that stops scan.
@param Data Pointer to the converted value.
@retval RETURN_SUCCESS Value is translated from String.
@retval RETURN_INVALID_PARAMETER If String is NULL.
If Data is NULL.
If PcdMaximumAsciiStringLength is not zero,
and String contains more than
PcdMaximumAsciiStringLength Ascii
characters, not including the
Null-terminator.
@retval RETURN_UNSUPPORTED If the number represented by String exceeds
the range defined by UINT64.
**/
RETURN_STATUS
EFIAPI
AsciiStrHexToUint64S (
IN CONST CHAR8 *String,
OUT CHAR8 **EndPointer, OPTIONAL
OUT UINT64 *Data
)
{
//
// 1. Neither String nor Data shall be a null pointer.
//
SAFE_STRING_CONSTRAINT_CHECK ((String != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Data != NULL), RETURN_INVALID_PARAMETER);
//
// 2. The length of String shall not be greater than ASCII_RSIZE_MAX.
//
if (ASCII_RSIZE_MAX != 0) {
SAFE_STRING_CONSTRAINT_CHECK ((AsciiStrnLenS (String, ASCII_RSIZE_MAX + 1) <= ASCII_RSIZE_MAX), RETURN_INVALID_PARAMETER);
}
if (EndPointer != NULL) {
*EndPointer = (CHAR8 *) String;
}
//
// Ignore the pad spaces (space or tab)
//
while ((*String == ' ') || (*String == '\t')) {
String++;
}
//
// Ignore leading Zeros after the spaces
//
while (*String == '0') {
String++;
}
if (InternalBaseLibAsciiToUpper (*String) == 'X') {
if (*(String - 1) != '0') {
*Data = 0;
return RETURN_SUCCESS;
}
//
// Skip the 'X'
//
String++;
}
*Data = 0;
while (InternalAsciiIsHexaDecimalDigitCharacter (*String)) {
//
// If the number represented by String overflows according to the range
// defined by UINT64, then MAX_UINT64 is stored in *Data and
// RETURN_UNSUPPORTED is returned.
//
if (*Data > RShiftU64 (MAX_UINT64 - InternalAsciiHexCharToUintn (*String), 4)) {
*Data = MAX_UINT64;
if (EndPointer != NULL) {
*EndPointer = (CHAR8 *) String;
}
return RETURN_UNSUPPORTED;
}
*Data = LShiftU64 (*Data, 4) + InternalAsciiHexCharToUintn (*String);
String++;
}
if (EndPointer != NULL) {
*EndPointer = (CHAR8 *) String;
}
return RETURN_SUCCESS;
}
/**
Convert a Null-terminated Unicode string to a Null-terminated
ASCII string.
This function is similar to AsciiStrCpyS.
This function converts the content of the Unicode string Source
to the ASCII string Destination by copying the lower 8 bits of
each Unicode character. The function terminates the ASCII string
Destination by appending a Null-terminator character at the end.
The caller is responsible to make sure Destination points to a buffer with size
equal or greater than ((StrLen (Source) + 1) * sizeof (CHAR8)) in bytes.
If any Unicode characters in Source contain non-zero value in
the upper 8 bits, then ASSERT().
If Source is not aligned on a 16-bit boundary, then ASSERT().
If an error would be returned, then the function will also ASSERT().
If an error is returned, then the Destination is unmodified.
@param Source The pointer to a Null-terminated Unicode string.
@param Destination The pointer to a Null-terminated ASCII string.
@param DestMax The maximum number of Destination Ascii
char, including terminating null char.
@retval RETURN_SUCCESS String is converted.
@retval RETURN_BUFFER_TOO_SMALL If DestMax is NOT greater than StrLen(Source).
@retval RETURN_INVALID_PARAMETER If Destination is NULL.
If Source is NULL.
If PcdMaximumAsciiStringLength is not zero,
and DestMax is greater than
PcdMaximumAsciiStringLength.
If PcdMaximumUnicodeStringLength is not zero,
and DestMax is greater than
PcdMaximumUnicodeStringLength.
If DestMax is 0.
@retval RETURN_ACCESS_DENIED If Source and Destination overlap.
**/
RETURN_STATUS
EFIAPI
UnicodeStrToAsciiStrS (
IN CONST CHAR16 *Source,
OUT CHAR8 *Destination,
IN UINTN DestMax
)
{
UINTN SourceLen;
ASSERT (((UINTN) Source & BIT0) == 0);
//
// 1. Neither Destination nor Source shall be a null pointer.
//
SAFE_STRING_CONSTRAINT_CHECK ((Destination != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Source != NULL), RETURN_INVALID_PARAMETER);
//
// 2. DestMax shall not be greater than ASCII_RSIZE_MAX or RSIZE_MAX.
//
if (ASCII_RSIZE_MAX != 0) {
SAFE_STRING_CONSTRAINT_CHECK ((DestMax <= ASCII_RSIZE_MAX), RETURN_INVALID_PARAMETER);
}
if (RSIZE_MAX != 0) {
SAFE_STRING_CONSTRAINT_CHECK ((DestMax <= RSIZE_MAX), RETURN_INVALID_PARAMETER);
}
//
// 3. DestMax shall not equal zero.
//
SAFE_STRING_CONSTRAINT_CHECK ((DestMax != 0), RETURN_INVALID_PARAMETER);
//
// 4. DestMax shall be greater than StrnLenS (Source, DestMax).
//
SourceLen = StrnLenS (Source, DestMax);
SAFE_STRING_CONSTRAINT_CHECK ((DestMax > SourceLen), RETURN_BUFFER_TOO_SMALL);
//
// 5. Copying shall not take place between objects that overlap.
//
SAFE_STRING_CONSTRAINT_CHECK (!InternalSafeStringIsOverlap (Destination, DestMax, (VOID *)Source, (SourceLen + 1) * sizeof(CHAR16)), RETURN_ACCESS_DENIED);
//
// convert string
//
while (*Source != '\0') {
//
// If any Unicode characters in Source contain
// non-zero value in the upper 8 bits, then ASSERT().
//
ASSERT (*Source < 0x100);
*(Destination++) = (CHAR8) *(Source++);
}
*Destination = '\0';
return RETURN_SUCCESS;
}
/**
Convert not more than Length successive characters from a Null-terminated
Unicode string to a Null-terminated Ascii string. If no null char is copied
from Source, then Destination[Length] is always set to null.
This function converts not more than Length successive characters from the
Unicode string Source to the Ascii string Destination by copying the lower 8
bits of each Unicode character. The function terminates the Ascii string
Destination by appending a Null-terminator character at the end.
The caller is responsible to make sure Destination points to a buffer with
size not smaller than ((MIN(StrLen(Source), Length) + 1) * sizeof (CHAR8))
in bytes.
If any Unicode characters in Source contain non-zero value in the upper 8
bits, then ASSERT().
If Source is not aligned on a 16-bit boundary, then ASSERT().
If an error would be returned, then the function will also ASSERT().
If an error is returned, then Destination and DestinationLength are
unmodified.
@param Source The pointer to a Null-terminated Unicode string.
@param Length The maximum number of Unicode characters to
convert.
@param Destination The pointer to a Null-terminated Ascii string.
@param DestMax The maximum number of Destination Ascii char,
including terminating null char.
@param DestinationLength The number of Unicode characters converted.
@retval RETURN_SUCCESS String is converted.
@retval RETURN_INVALID_PARAMETER If Destination is NULL.
If Source is NULL.
If DestinationLength is NULL.
If PcdMaximumAsciiStringLength is not zero,
and Length or DestMax is greater than
PcdMaximumAsciiStringLength.
If PcdMaximumUnicodeStringLength is not
zero, and Length or DestMax is greater than
PcdMaximumUnicodeStringLength.
If DestMax is 0.
@retval RETURN_BUFFER_TOO_SMALL If DestMax is NOT greater than
MIN(StrLen(Source), Length).
@retval RETURN_ACCESS_DENIED If Source and Destination overlap.
**/
RETURN_STATUS
EFIAPI
UnicodeStrnToAsciiStrS (
IN CONST CHAR16 *Source,
IN UINTN Length,
OUT CHAR8 *Destination,
IN UINTN DestMax,
OUT UINTN *DestinationLength
)
{
UINTN SourceLen;
ASSERT (((UINTN) Source & BIT0) == 0);
//
// 1. None of Destination, Source or DestinationLength shall be a null
// pointer.
//
SAFE_STRING_CONSTRAINT_CHECK ((Destination != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Source != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((DestinationLength != NULL), RETURN_INVALID_PARAMETER);
//
// 2. Neither Length nor DestMax shall be greater than ASCII_RSIZE_MAX or
// RSIZE_MAX.
//
if (ASCII_RSIZE_MAX != 0) {
SAFE_STRING_CONSTRAINT_CHECK ((Length <= ASCII_RSIZE_MAX), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((DestMax <= ASCII_RSIZE_MAX), RETURN_INVALID_PARAMETER);
}
if (RSIZE_MAX != 0) {
SAFE_STRING_CONSTRAINT_CHECK ((Length <= RSIZE_MAX), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((DestMax <= RSIZE_MAX), RETURN_INVALID_PARAMETER);
}
//
// 3. DestMax shall not equal zero.
//
SAFE_STRING_CONSTRAINT_CHECK ((DestMax != 0), RETURN_INVALID_PARAMETER);
//
// 4. If Length is not less than DestMax, then DestMax shall be greater than
// StrnLenS(Source, DestMax).
//
SourceLen = StrnLenS (Source, DestMax);
if (Length >= DestMax) {
SAFE_STRING_CONSTRAINT_CHECK ((DestMax > SourceLen), RETURN_BUFFER_TOO_SMALL);
}
//
// 5. Copying shall not take place between objects that overlap.
//
if (SourceLen > Length) {
SourceLen = Length;
}
SAFE_STRING_CONSTRAINT_CHECK (!InternalSafeStringIsOverlap (Destination, DestMax, (VOID *)Source, (SourceLen + 1) * sizeof(CHAR16)), RETURN_ACCESS_DENIED);
*DestinationLength = 0;
//
// Convert string
//
while ((*Source != 0) && (SourceLen > 0)) {
//
// If any Unicode characters in Source contain non-zero value in the upper
// 8 bits, then ASSERT().
//
ASSERT (*Source < 0x100);
*(Destination++) = (CHAR8) *(Source++);
SourceLen--;
(*DestinationLength)++;
}
*Destination = 0;
return RETURN_SUCCESS;
}
/**
Convert one Null-terminated ASCII string to a Null-terminated
Unicode string.
This function is similar to StrCpyS.
This function converts the contents of the ASCII string Source to the Unicode
string Destination. The function terminates the Unicode string Destination by
appending a Null-terminator character at the end.
The caller is responsible to make sure Destination points to a buffer with size
equal or greater than ((AsciiStrLen (Source) + 1) * sizeof (CHAR16)) in bytes.
If Destination is not aligned on a 16-bit boundary, then ASSERT().
If an error would be returned, then the function will also ASSERT().
If an error is returned, then the Destination is unmodified.
@param Source The pointer to a Null-terminated ASCII string.
@param Destination The pointer to a Null-terminated Unicode string.
@param DestMax The maximum number of Destination Unicode
char, including terminating null char.
@retval RETURN_SUCCESS String is converted.
@retval RETURN_BUFFER_TOO_SMALL If DestMax is NOT greater than StrLen(Source).
@retval RETURN_INVALID_PARAMETER If Destination is NULL.
If Source is NULL.
If PcdMaximumUnicodeStringLength is not zero,
and DestMax is greater than
PcdMaximumUnicodeStringLength.
If PcdMaximumAsciiStringLength is not zero,
and DestMax is greater than
PcdMaximumAsciiStringLength.
If DestMax is 0.
@retval RETURN_ACCESS_DENIED If Source and Destination overlap.
**/
RETURN_STATUS
EFIAPI
AsciiStrToUnicodeStrS (
IN CONST CHAR8 *Source,
OUT CHAR16 *Destination,
IN UINTN DestMax
)
{
UINTN SourceLen;
ASSERT (((UINTN) Destination & BIT0) == 0);
//
// 1. Neither Destination nor Source shall be a null pointer.
//
SAFE_STRING_CONSTRAINT_CHECK ((Destination != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Source != NULL), RETURN_INVALID_PARAMETER);
//
// 2. DestMax shall not be greater than RSIZE_MAX or ASCII_RSIZE_MAX.
//
if (RSIZE_MAX != 0) {
SAFE_STRING_CONSTRAINT_CHECK ((DestMax <= RSIZE_MAX), RETURN_INVALID_PARAMETER);
}
if (ASCII_RSIZE_MAX != 0) {
SAFE_STRING_CONSTRAINT_CHECK ((DestMax <= ASCII_RSIZE_MAX), RETURN_INVALID_PARAMETER);
}
//
// 3. DestMax shall not equal zero.
//
SAFE_STRING_CONSTRAINT_CHECK ((DestMax != 0), RETURN_INVALID_PARAMETER);
//
// 4. DestMax shall be greater than AsciiStrnLenS(Source, DestMax).
//
SourceLen = AsciiStrnLenS (Source, DestMax);
SAFE_STRING_CONSTRAINT_CHECK ((DestMax > SourceLen), RETURN_BUFFER_TOO_SMALL);
//
// 5. Copying shall not take place between objects that overlap.
//
SAFE_STRING_CONSTRAINT_CHECK (!InternalSafeStringIsOverlap (Destination, DestMax * sizeof(CHAR16), (VOID *)Source, SourceLen + 1), RETURN_ACCESS_DENIED);
//
// Convert string
//
while (*Source != '\0') {
*(Destination++) = (CHAR16)(UINT8)*(Source++);
}
*Destination = '\0';
return RETURN_SUCCESS;
}
/**
Convert not more than Length successive characters from a Null-terminated
Ascii string to a Null-terminated Unicode string. If no null char is copied
from Source, then Destination[Length] is always set to null.
This function converts not more than Length successive characters from the
Ascii string Source to the Unicode string Destination. The function
terminates the Unicode string Destination by appending a Null-terminator
character at the end.
The caller is responsible to make sure Destination points to a buffer with
size not smaller than
((MIN(AsciiStrLen(Source), Length) + 1) * sizeof (CHAR8)) in bytes.
If Destination is not aligned on a 16-bit boundary, then ASSERT().
If an error would be returned, then the function will also ASSERT().
If an error is returned, then Destination and DestinationLength are
unmodified.
@param Source The pointer to a Null-terminated Ascii string.
@param Length The maximum number of Ascii characters to convert.
@param Destination The pointer to a Null-terminated Unicode string.
@param DestMax The maximum number of Destination Unicode char,
including terminating null char.
@param DestinationLength The number of Ascii characters converted.
@retval RETURN_SUCCESS String is converted.
@retval RETURN_INVALID_PARAMETER If Destination is NULL.
If Source is NULL.
If DestinationLength is NULL.
If PcdMaximumUnicodeStringLength is not
zero, and Length or DestMax is greater than
PcdMaximumUnicodeStringLength.
If PcdMaximumAsciiStringLength is not zero,
and Length or DestMax is greater than
PcdMaximumAsciiStringLength.
If DestMax is 0.
@retval RETURN_BUFFER_TOO_SMALL If DestMax is NOT greater than
MIN(AsciiStrLen(Source), Length).
@retval RETURN_ACCESS_DENIED If Source and Destination overlap.
**/
RETURN_STATUS
EFIAPI
AsciiStrnToUnicodeStrS (
IN CONST CHAR8 *Source,
IN UINTN Length,
OUT CHAR16 *Destination,
IN UINTN DestMax,
OUT UINTN *DestinationLength
)
{
UINTN SourceLen;
ASSERT (((UINTN) Destination & BIT0) == 0);
//
// 1. None of Destination, Source or DestinationLength shall be a null
// pointer.
//
SAFE_STRING_CONSTRAINT_CHECK ((Destination != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Source != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((DestinationLength != NULL), RETURN_INVALID_PARAMETER);
//
// 2. Neither Length nor DestMax shall be greater than ASCII_RSIZE_MAX or
// RSIZE_MAX.
//
if (RSIZE_MAX != 0) {
SAFE_STRING_CONSTRAINT_CHECK ((Length <= RSIZE_MAX), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((DestMax <= RSIZE_MAX), RETURN_INVALID_PARAMETER);
}
if (ASCII_RSIZE_MAX != 0) {
SAFE_STRING_CONSTRAINT_CHECK ((Length <= ASCII_RSIZE_MAX), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((DestMax <= ASCII_RSIZE_MAX), RETURN_INVALID_PARAMETER);
}
//
// 3. DestMax shall not equal zero.
//
SAFE_STRING_CONSTRAINT_CHECK ((DestMax != 0), RETURN_INVALID_PARAMETER);
//
// 4. If Length is not less than DestMax, then DestMax shall be greater than
// AsciiStrnLenS(Source, DestMax).
//
SourceLen = AsciiStrnLenS (Source, DestMax);
if (Length >= DestMax) {
SAFE_STRING_CONSTRAINT_CHECK ((DestMax > SourceLen), RETURN_BUFFER_TOO_SMALL);
}
//
// 5. Copying shall not take place between objects that overlap.
//
if (SourceLen > Length) {
SourceLen = Length;
}
SAFE_STRING_CONSTRAINT_CHECK (!InternalSafeStringIsOverlap (Destination, DestMax * sizeof(CHAR16), (VOID *)Source, SourceLen + 1), RETURN_ACCESS_DENIED);
*DestinationLength = 0;
//
// Convert string
//
while ((*Source != 0) && (SourceLen > 0)) {
*(Destination++) = (CHAR16)(UINT8)*(Source++);
SourceLen--;
(*DestinationLength)++;
}
*Destination = 0;
return RETURN_SUCCESS;
}
/**
Convert a Null-terminated ASCII string to IPv6 address and prefix length.
This function outputs a value of type IPv6_ADDRESS and may output a value
of type UINT8 by interpreting the contents of the ASCII string specified
by String. The format of the input ASCII string String is as follows:
X:X:X:X:X:X:X:X[/P]
X contains one to four hexadecimal digit characters in the range [0-9], [a-f] and
[A-F]. X is converted to a value of type UINT16, whose low byte is stored in low
memory address and high byte is stored in high memory address. P contains decimal
digit characters in the range [0-9]. The running zero in the beginning of P will
be ignored. /P is optional.
When /P is not in the String, the function stops at the first character that is
not a valid hexadecimal digit character after eight X's are converted.
When /P is in the String, the function stops at the first character that is not
a valid decimal digit character after P is converted.
"::" can be used to compress one or more groups of X when X contains only 0.
The "::" can only appear once in the String.
If String is NULL, then ASSERT().
If Address is NULL, then ASSERT().
If EndPointer is not NULL and Address is translated from String, a pointer
to the character that stopped the scan is stored at the location pointed to
by EndPointer.
@param String Pointer to a Null-terminated ASCII string.
@param EndPointer Pointer to character that stops scan.
@param Address Pointer to the converted IPv6 address.
@param PrefixLength Pointer to the converted IPv6 address prefix
length. MAX_UINT8 is returned when /P is
not in the String.
@retval RETURN_SUCCESS Address is translated from String.
@retval RETURN_INVALID_PARAMETER If String is NULL.
If Data is NULL.
@retval RETURN_UNSUPPORTED If X contains more than four hexadecimal
digit characters.
If String contains "::" and number of X
is not less than 8.
If P starts with character that is not a
valid decimal digit character.
If the decimal number converted from P
exceeds 128.
**/
RETURN_STATUS
EFIAPI
AsciiStrToIpv6Address (
IN CONST CHAR8 *String,
OUT CHAR8 **EndPointer, OPTIONAL
OUT IPv6_ADDRESS *Address,
OUT UINT8 *PrefixLength OPTIONAL
)
{
RETURN_STATUS Status;
UINTN AddressIndex;
UINTN Uintn;
IPv6_ADDRESS LocalAddress;
UINT8 LocalPrefixLength;
CONST CHAR8 *Pointer;
CHAR8 *End;
UINTN CompressStart;
BOOLEAN ExpectPrefix;
LocalPrefixLength = MAX_UINT8;
CompressStart = ARRAY_SIZE (Address->Addr);
ExpectPrefix = FALSE;
//
// None of String or Address shall be a null pointer.
//
SAFE_STRING_CONSTRAINT_CHECK ((String != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Address != NULL), RETURN_INVALID_PARAMETER);
for (Pointer = String, AddressIndex = 0; AddressIndex < ARRAY_SIZE (Address->Addr) + 1;) {
if (!InternalAsciiIsHexaDecimalDigitCharacter (*Pointer)) {
if (*Pointer != ':') {
//
// ":" or "/" should be followed by digit characters.
//
return RETURN_UNSUPPORTED;
}
//
// Meet second ":" after previous ":" or "/"
// or meet first ":" in the beginning of String.
//
if (ExpectPrefix) {
//
// ":" shall not be after "/"
//
return RETURN_UNSUPPORTED;
}
if (CompressStart != ARRAY_SIZE (Address->Addr) || AddressIndex == ARRAY_SIZE (Address->Addr)) {
//
// "::" can only appear once.
// "::" can only appear when address is not full length.
//
return RETURN_UNSUPPORTED;
} else {
//
// Remember the start of zero compressing.
//
CompressStart = AddressIndex;
Pointer++;
if (CompressStart == 0) {
if (*Pointer != ':') {
//
// Single ":" shall not be in the beginning of String.
//
return RETURN_UNSUPPORTED;
}
Pointer++;
}
}
}
if (!InternalAsciiIsHexaDecimalDigitCharacter (*Pointer)) {
if (*Pointer == '/') {
//
// Might be optional "/P" after "::".
//
if (CompressStart != AddressIndex) {
return RETURN_UNSUPPORTED;
}
} else {
break;
}
} else {
if (!ExpectPrefix) {
//
// Get X.
//
Status = AsciiStrHexToUintnS (Pointer, &End, &Uintn);
if (RETURN_ERROR (Status) || End - Pointer > 4) {
//
// Number of hexadecimal digit characters is no more than 4.
//
return RETURN_UNSUPPORTED;
}
Pointer = End;
//
// Uintn won't exceed MAX_UINT16 if number of hexadecimal digit characters is no more than 4.
//
ASSERT (AddressIndex + 1 < ARRAY_SIZE (Address->Addr));
LocalAddress.Addr[AddressIndex] = (UINT8) ((UINT16) Uintn >> 8);
LocalAddress.Addr[AddressIndex + 1] = (UINT8) Uintn;
AddressIndex += 2;
} else {
//
// Get P, then exit the loop.
//
Status = AsciiStrDecimalToUintnS (Pointer, &End, &Uintn);
if (RETURN_ERROR (Status) || End == Pointer || Uintn > 128) {
//
// Prefix length should not exceed 128.
//
return RETURN_UNSUPPORTED;
}
LocalPrefixLength = (UINT8) Uintn;
Pointer = End;
break;
}
}
//
// Skip ':' or "/"
//
if (*Pointer == '/') {
ExpectPrefix = TRUE;
} else if (*Pointer == ':') {
if (AddressIndex == ARRAY_SIZE (Address->Addr)) {
//
// Meet additional ":" after all 8 16-bit address
//
break;
}
} else {
//
// Meet other character that is not "/" or ":" after all 8 16-bit address
//
break;
}
Pointer++;
}
if ((AddressIndex == ARRAY_SIZE (Address->Addr) && CompressStart != ARRAY_SIZE (Address->Addr)) ||
(AddressIndex != ARRAY_SIZE (Address->Addr) && CompressStart == ARRAY_SIZE (Address->Addr))
) {
//
// Full length of address shall not have compressing zeros.
// Non-full length of address shall have compressing zeros.
//
return RETURN_UNSUPPORTED;
}
CopyMem (&Address->Addr[0], &LocalAddress.Addr[0], CompressStart);
ZeroMem (&Address->Addr[CompressStart], ARRAY_SIZE (Address->Addr) - AddressIndex);
if (AddressIndex > CompressStart) {
CopyMem (
&Address->Addr[CompressStart + ARRAY_SIZE (Address->Addr) - AddressIndex],
&LocalAddress.Addr[CompressStart],
AddressIndex - CompressStart
);
}
if (PrefixLength != NULL) {
*PrefixLength = LocalPrefixLength;
}
if (EndPointer != NULL) {
*EndPointer = (CHAR8 *) Pointer;
}
return RETURN_SUCCESS;
}
/**
Convert a Null-terminated ASCII string to IPv4 address and prefix length.
This function outputs a value of type IPv4_ADDRESS and may output a value
of type UINT8 by interpreting the contents of the ASCII string specified
by String. The format of the input ASCII string String is as follows:
D.D.D.D[/P]
D and P are decimal digit characters in the range [0-9]. The running zero in
the beginning of D and P will be ignored. /P is optional.
When /P is not in the String, the function stops at the first character that is
not a valid decimal digit character after four D's are converted.
When /P is in the String, the function stops at the first character that is not
a valid decimal digit character after P is converted.
If String is NULL, then ASSERT().
If Address is NULL, then ASSERT().
If EndPointer is not NULL and Address is translated from String, a pointer
to the character that stopped the scan is stored at the location pointed to
by EndPointer.
@param String Pointer to a Null-terminated ASCII string.
@param EndPointer Pointer to character that stops scan.
@param Address Pointer to the converted IPv4 address.
@param PrefixLength Pointer to the converted IPv4 address prefix
length. MAX_UINT8 is returned when /P is
not in the String.
@retval RETURN_SUCCESS Address is translated from String.
@retval RETURN_INVALID_PARAMETER If String is NULL.
If Data is NULL.
@retval RETURN_UNSUPPORTED If String is not in the correct format.
If any decimal number converted from D
exceeds 255.
If the decimal number converted from P
exceeds 32.
**/
RETURN_STATUS
EFIAPI
AsciiStrToIpv4Address (
IN CONST CHAR8 *String,
OUT CHAR8 **EndPointer, OPTIONAL
OUT IPv4_ADDRESS *Address,
OUT UINT8 *PrefixLength OPTIONAL
)
{
RETURN_STATUS Status;
UINTN AddressIndex;
UINTN Uintn;
IPv4_ADDRESS LocalAddress;
UINT8 LocalPrefixLength;
CHAR8 *Pointer;
LocalPrefixLength = MAX_UINT8;
//
// None of String or Address shall be a null pointer.
//
SAFE_STRING_CONSTRAINT_CHECK ((String != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Address != NULL), RETURN_INVALID_PARAMETER);
for (Pointer = (CHAR8 *) String, AddressIndex = 0; AddressIndex < ARRAY_SIZE (Address->Addr) + 1;) {
if (!InternalAsciiIsDecimalDigitCharacter (*Pointer)) {
//
// D or P contains invalid characters.
//
break;
}
//
// Get D or P.
//
Status = AsciiStrDecimalToUintnS ((CONST CHAR8 *) Pointer, &Pointer, &Uintn);
if (RETURN_ERROR (Status)) {
return RETURN_UNSUPPORTED;
}
if (AddressIndex == ARRAY_SIZE (Address->Addr)) {
//
// It's P.
//
if (Uintn > 32) {
return RETURN_UNSUPPORTED;
}
LocalPrefixLength = (UINT8) Uintn;
} else {
//
// It's D.
//
if (Uintn > MAX_UINT8) {
return RETURN_UNSUPPORTED;
}
LocalAddress.Addr[AddressIndex] = (UINT8) Uintn;
AddressIndex++;
}
//
// Check the '.' or '/', depending on the AddressIndex.
//
if (AddressIndex == ARRAY_SIZE (Address->Addr)) {
if (*Pointer == '/') {
//
// '/P' is in the String.
// Skip "/" and get P in next loop.
//
Pointer++;
} else {
//
// '/P' is not in the String.
//
break;
}
} else if (AddressIndex < ARRAY_SIZE (Address->Addr)) {
if (*Pointer == '.') {
//
// D should be followed by '.'
//
Pointer++;
} else {
return RETURN_UNSUPPORTED;
}
}
}
if (AddressIndex < ARRAY_SIZE (Address->Addr)) {
return RETURN_UNSUPPORTED;
}
CopyMem (Address, &LocalAddress, sizeof (*Address));
if (PrefixLength != NULL) {
*PrefixLength = LocalPrefixLength;
}
if (EndPointer != NULL) {
*EndPointer = Pointer;
}
return RETURN_SUCCESS;
}
/**
Convert a Null-terminated ASCII GUID string to a value of type
EFI_GUID.
This function outputs a GUID value by interpreting the contents of
the ASCII string specified by String. The format of the input
ASCII string String consists of 36 characters, as follows:
aabbccdd-eeff-gghh-iijj-kkllmmnnoopp
The pairs aa - pp are two characters in the range [0-9], [a-f] and
[A-F], with each pair representing a single byte hexadecimal value.
The mapping between String and the EFI_GUID structure is as follows:
aa Data1[24:31]
bb Data1[16:23]
cc Data1[8:15]
dd Data1[0:7]
ee Data2[8:15]
ff Data2[0:7]
gg Data3[8:15]
hh Data3[0:7]
ii Data4[0:7]
jj Data4[8:15]
kk Data4[16:23]
ll Data4[24:31]
mm Data4[32:39]
nn Data4[40:47]
oo Data4[48:55]
pp Data4[56:63]
If String is NULL, then ASSERT().
If Guid is NULL, then ASSERT().
@param String Pointer to a Null-terminated ASCII string.
@param Guid Pointer to the converted GUID.
@retval RETURN_SUCCESS Guid is translated from String.
@retval RETURN_INVALID_PARAMETER If String is NULL.
If Data is NULL.
@retval RETURN_UNSUPPORTED If String is not as the above format.
**/
RETURN_STATUS
EFIAPI
AsciiStrToGuid (
IN CONST CHAR8 *String,
OUT GUID *Guid
)
{
RETURN_STATUS Status;
GUID LocalGuid;
//
// None of String or Guid shall be a null pointer.
//
SAFE_STRING_CONSTRAINT_CHECK ((String != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Guid != NULL), RETURN_INVALID_PARAMETER);
//
// Get aabbccdd in big-endian.
//
Status = AsciiStrHexToBytes (String, 2 * sizeof (LocalGuid.Data1), (UINT8 *) &LocalGuid.Data1, sizeof (LocalGuid.Data1));
if (RETURN_ERROR (Status) || String[2 * sizeof (LocalGuid.Data1)] != '-') {
return RETURN_UNSUPPORTED;
}
//
// Convert big-endian to little-endian.
//
LocalGuid.Data1 = SwapBytes32 (LocalGuid.Data1);
String += 2 * sizeof (LocalGuid.Data1) + 1;
//
// Get eeff in big-endian.
//
Status = AsciiStrHexToBytes (String, 2 * sizeof (LocalGuid.Data2), (UINT8 *) &LocalGuid.Data2, sizeof (LocalGuid.Data2));
if (RETURN_ERROR (Status) || String[2 * sizeof (LocalGuid.Data2)] != '-') {
return RETURN_UNSUPPORTED;
}
//
// Convert big-endian to little-endian.
//
LocalGuid.Data2 = SwapBytes16 (LocalGuid.Data2);
String += 2 * sizeof (LocalGuid.Data2) + 1;
//
// Get gghh in big-endian.
//
Status = AsciiStrHexToBytes (String, 2 * sizeof (LocalGuid.Data3), (UINT8 *) &LocalGuid.Data3, sizeof (LocalGuid.Data3));
if (RETURN_ERROR (Status) || String[2 * sizeof (LocalGuid.Data3)] != '-') {
return RETURN_UNSUPPORTED;
}
//
// Convert big-endian to little-endian.
//
LocalGuid.Data3 = SwapBytes16 (LocalGuid.Data3);
String += 2 * sizeof (LocalGuid.Data3) + 1;
//
// Get iijj.
//
Status = AsciiStrHexToBytes (String, 2 * 2, &LocalGuid.Data4[0], 2);
if (RETURN_ERROR (Status) || String[2 * 2] != '-') {
return RETURN_UNSUPPORTED;
}
String += 2 * 2 + 1;
//
// Get kkllmmnnoopp.
//
Status = AsciiStrHexToBytes (String, 2 * 6, &LocalGuid.Data4[2], 6);
if (RETURN_ERROR (Status)) {
return RETURN_UNSUPPORTED;
}
CopyGuid (Guid, &LocalGuid);
return RETURN_SUCCESS;
}
/**
Convert a Null-terminated ASCII hexadecimal string to a byte array.
This function outputs a byte array by interpreting the contents of
the ASCII string specified by String in hexadecimal format. The format of
the input ASCII string String is:
[XX]*
X is a hexadecimal digit character in the range [0-9], [a-f] and [A-F].
The function decodes every two hexadecimal digit characters as one byte. The
decoding stops after Length of characters and outputs Buffer containing
(Length / 2) bytes.
If String is NULL, then ASSERT().
If Buffer is NULL, then ASSERT().
If Length is not multiple of 2, then ASSERT().
If PcdMaximumAsciiStringLength is not zero and Length is greater than
PcdMaximumAsciiStringLength, then ASSERT().
If MaxBufferSize is less than (Length / 2), then ASSERT().
@param String Pointer to a Null-terminated ASCII string.
@param Length The number of ASCII characters to decode.
@param Buffer Pointer to the converted bytes array.
@param MaxBufferSize The maximum size of Buffer.
@retval RETURN_SUCCESS Buffer is translated from String.
@retval RETURN_INVALID_PARAMETER If String is NULL.
If Data is NULL.
If Length is not multiple of 2.
If PcdMaximumAsciiStringLength is not zero,
and Length is greater than
PcdMaximumAsciiStringLength.
@retval RETURN_UNSUPPORTED If Length of characters from String contain
a character that is not valid hexadecimal
digit characters, or a Null-terminator.
@retval RETURN_BUFFER_TOO_SMALL If MaxBufferSize is less than (Length / 2).
**/
RETURN_STATUS
EFIAPI
AsciiStrHexToBytes (
IN CONST CHAR8 *String,
IN UINTN Length,
OUT UINT8 *Buffer,
IN UINTN MaxBufferSize
)
{
UINTN Index;
//
// 1. None of String or Buffer shall be a null pointer.
//
SAFE_STRING_CONSTRAINT_CHECK ((String != NULL), RETURN_INVALID_PARAMETER);
SAFE_STRING_CONSTRAINT_CHECK ((Buffer != NULL), RETURN_INVALID_PARAMETER);
//
// 2. Length shall not be greater than ASCII_RSIZE_MAX.
//
if (ASCII_RSIZE_MAX != 0) {
SAFE_STRING_CONSTRAINT_CHECK ((Length <= ASCII_RSIZE_MAX), RETURN_INVALID_PARAMETER);
}
//
// 3. Length shall not be odd.
//
SAFE_STRING_CONSTRAINT_CHECK (((Length & BIT0) == 0), RETURN_INVALID_PARAMETER);
//
// 4. MaxBufferSize shall equal to or greater than Length / 2.
//
SAFE_STRING_CONSTRAINT_CHECK ((MaxBufferSize >= Length / 2), RETURN_BUFFER_TOO_SMALL);
//
// 5. String shall not contains invalid hexadecimal digits.
//
for (Index = 0; Index < Length; Index++) {
if (!InternalAsciiIsHexaDecimalDigitCharacter (String[Index])) {
break;
}
}
if (Index != Length) {
return RETURN_UNSUPPORTED;
}
//
// Convert the hex string to bytes.
//
for(Index = 0; Index < Length; Index++) {
//
// For even characters, write the upper nibble for each buffer byte,
// and for even characters, the lower nibble.
//
if ((Index & BIT0) == 0) {
Buffer[Index / 2] = (UINT8) InternalAsciiHexCharToUintn (String[Index]) << 4;
} else {
Buffer[Index / 2] |= (UINT8) InternalAsciiHexCharToUintn (String[Index]);
}
}
return RETURN_SUCCESS;
}