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-rw-r--r--IntelFrameworkModulePkg/Universal/HiiDataBaseDxe/Strings.c1276
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diff --git a/IntelFrameworkModulePkg/Universal/HiiDataBaseDxe/Strings.c b/IntelFrameworkModulePkg/Universal/HiiDataBaseDxe/Strings.c
new file mode 100644
index 0000000000..a8b04c0884
--- /dev/null
+++ b/IntelFrameworkModulePkg/Universal/HiiDataBaseDxe/Strings.c
@@ -0,0 +1,1276 @@
+/*++
+
+Copyright (c) 2006 - 2007, Intel Corporation
+All rights reserved. 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.
+
+Module Name:
+
+ Strings.c
+
+Abstract:
+
+ This file contains the string processing code to the HII database.
+
+--*/
+
+
+//
+// Include common header file for this module.
+//
+#include "CommonHeader.h"
+
+#include "HiiDatabase.h"
+
+STATIC
+VOID
+AsciiToUnicode (
+ IN UINT8 *Lang,
+ IN UINT16 *Language
+ )
+{
+ UINT8 Count;
+
+ //
+ // Convert the ASCII Lang variable to a Unicode Language variable
+ //
+ for (Count = 0; Count < 3; Count++) {
+ Language[Count] = (CHAR16) Lang[Count];
+ }
+}
+
+EFI_STATUS
+EFIAPI
+HiiTestString (
+ IN EFI_HII_PROTOCOL *This,
+ IN CHAR16 *StringToTest,
+ IN OUT UINT32 *FirstMissing,
+ OUT UINT32 *GlyphBufferSize
+ )
+/*++
+
+Routine Description:
+ Test if all of the characters in a string have corresponding font characters.
+
+Arguments:
+
+Returns:
+
+--*/
+{
+ EFI_HII_GLOBAL_DATA *GlobalData;
+ EFI_HII_DATA *HiiData;
+ BOOLEAN WideChar;
+ INT32 Location;
+
+ if (This == NULL) {
+ return EFI_INVALID_PARAMETER;
+ }
+
+ HiiData = EFI_HII_DATA_FROM_THIS (This);
+ GlobalData = HiiData->GlobalData;
+
+
+ //
+ // Rewind through the string looking for a glyph width identifier
+ // If no width identifier exists, we assume string has narrow width identifier
+ //
+ for (WideChar = FALSE, Location = (INT32) *FirstMissing; Location >= 0; Location--) {
+ if ((StringToTest[Location] == NARROW_CHAR) || (StringToTest[Location] == WIDE_CHAR)) {
+ //
+ // We found something that identifies what glyph database to look in
+ //
+ WideChar = (BOOLEAN) (StringToTest[Location] == WIDE_CHAR);
+ break;
+ }
+ }
+
+ //
+ // Walk through the string until you hit the null terminator
+ //
+ for (*GlyphBufferSize = 0; StringToTest[*FirstMissing] != CHAR_NULL; (*FirstMissing)++) {
+ //
+ // We found something that identifies what glyph database to look in
+ //
+ if ((StringToTest[*FirstMissing] == NARROW_CHAR) || (StringToTest[*FirstMissing] == WIDE_CHAR)) {
+ WideChar = (BOOLEAN) (StringToTest[*FirstMissing] == WIDE_CHAR);
+ continue;
+ }
+
+ if (!WideChar) {
+ if (CompareMem (
+ GlobalData->NarrowGlyphs[StringToTest[*FirstMissing]].GlyphCol1,
+ &mUnknownGlyph,
+ NARROW_GLYPH_ARRAY_SIZE
+ ) == 0
+ ) {
+ //
+ // Break since this glyph isn't defined
+ //
+ return EFI_NOT_FOUND;
+ }
+ } else {
+ //
+ // Can compare wide glyph against only GlyphCol1 since GlyphCol1 and GlyphCol2 are contiguous - just give correct size
+ //
+ if (CompareMem (
+ GlobalData->WideGlyphs[StringToTest[*FirstMissing]].GlyphCol1,
+ &mUnknownGlyph,
+ WIDE_GLYPH_ARRAY_SIZE
+ ) == 0
+ ) {
+ //
+ // Break since this glyph isn't defined
+ //
+ return EFI_NOT_FOUND;
+ }
+ }
+
+ *GlyphBufferSize += (WideChar ? sizeof (EFI_WIDE_GLYPH) : sizeof (EFI_NARROW_GLYPH));
+ }
+
+ return EFI_SUCCESS;
+}
+
+STATIC
+EFI_STATUS
+HiiNewString2 (
+ IN EFI_HII_PROTOCOL *This,
+ IN CHAR16 *Language,
+ IN EFI_HII_HANDLE Handle,
+ IN OUT STRING_REF *Reference,
+ IN CHAR16 *NewString,
+ IN BOOLEAN ResetStrings
+ )
+/*++
+
+Routine Description:
+
+ This function allows a new String to be added to an already existing String Package.
+ We will make a buffer the size of the package + EfiStrSize of the new string. We will
+ copy the string package that first gets changed and the following language packages until
+ we encounter the NULL string package. All this time we will ensure that the offsets have
+ been adjusted.
+
+Arguments:
+
+ This - Pointer to the HII protocol.
+ Language - Pointer to buffer which contains the language code of this NewString.
+ Handle - Handle of the package instance to be processed.
+ Reference - The token number for the string. If 0, new string token to be returned through this parameter.
+ NewString - Buffer pointer for the new string.
+ ResetStrings - Indicate if we are resetting a string.
+
+Returns:
+
+ EFI_SUCCESS - The string has been added or reset to Hii database.
+ EFI_INVALID_PARAMETER - Some parameter passed in is invalid.
+
+--*/
+{
+ EFI_HII_PACKAGE_INSTANCE *PackageInstance;
+ EFI_HII_PACKAGE_INSTANCE *StringPackageInstance;
+ EFI_HII_DATA *HiiData;
+ EFI_HII_STRING_PACK *StringPack;
+ EFI_HII_STRING_PACK *NewStringPack;
+ EFI_HII_HANDLE_DATABASE *HandleDatabase;
+ EFI_HII_PACKAGE_INSTANCE *NewBuffer;
+ UINT8 *Location;
+ UINT8 *StringLocation;
+ RELOFST *StringPointer;
+ UINTN Count;
+ UINTN Size;
+ UINTN Index;
+ UINTN SecondIndex;
+ BOOLEAN AddString;
+ EFI_STATUS Status;
+ UINTN Increment;
+ UINTN StringCount;
+ UINT32 TotalStringCount;
+ UINT32 OriginalStringCount;
+ RELOFST StringSize;
+ UINT32 Length;
+ RELOFST Offset;
+
+ if (This == NULL) {
+ return EFI_INVALID_PARAMETER;
+ }
+
+ HiiData = EFI_HII_DATA_FROM_THIS (This);
+
+ HandleDatabase = HiiData->DatabaseHead;
+ PackageInstance = NULL;
+ AddString = FALSE;
+ Increment = 0;
+ StringCount = 0;
+ TotalStringCount = 0;
+ OriginalStringCount = 0;
+
+ //
+ // Check numeric value against the head of the database
+ //
+ for (; HandleDatabase != NULL; HandleDatabase = HandleDatabase->NextHandleDatabase) {
+ //
+ // Match the numeric value with the database entry - if matched, extract PackageInstance
+ //
+ if (Handle == HandleDatabase->Handle) {
+ PackageInstance = HandleDatabase->Buffer;
+ if (ResetStrings) {
+ TotalStringCount = HandleDatabase->NumberOfTokens;
+ }
+ break;
+ }
+ }
+ //
+ // No handle was found - error condition
+ //
+ if (PackageInstance == NULL) {
+ return EFI_INVALID_PARAMETER;
+ }
+
+ Status = ValidatePack (This, PackageInstance, &StringPackageInstance, &TotalStringCount);
+
+ //
+ // This sets Count to 0 or the size of the IfrData. We intend to use Count as an offset value
+ //
+ Count = StringPackageInstance->IfrSize;
+
+ //
+ // This is the size of the complete series of string packs
+ //
+ Size = StringPackageInstance->StringSize;
+
+ //
+ // Based on if there is IFR data in this package instance, determine
+ // what the location is of the beginning of the string data.
+ //
+ if (StringPackageInstance->IfrSize > 0) {
+ Location = (UINT8 *) (&StringPackageInstance->IfrData) + StringPackageInstance->IfrSize;
+ } else {
+ Location = (UINT8 *) (&StringPackageInstance->IfrData);
+ }
+ //
+ // We allocate a buffer which is big enough for both adding and resetting string.
+ // The size is slightly larger than the real size of the packages when we are resetting a string.
+ //
+ NewBuffer = AllocateZeroPool (
+ sizeof (EFI_HII_PACKAGE_INSTANCE) -
+ 2 * sizeof (VOID *) +
+ StringPackageInstance->IfrSize +
+ StringPackageInstance->StringSize +
+ sizeof (RELOFST) +
+ StrSize (NewString)
+ );
+ ASSERT (NewBuffer);
+
+ //
+ // Copy data to new buffer
+ //
+ NewBuffer->Handle = StringPackageInstance->Handle;
+ NewBuffer->IfrSize = StringPackageInstance->IfrSize;
+
+ //
+ // The worst case scenario for sizing is that we are adding a new string (not replacing one) and there was not a string
+ // package to begin with.
+ //
+ NewBuffer->StringSize = StringPackageInstance->StringSize + StrSize (NewString) + sizeof (EFI_HII_STRING_PACK);
+
+ if (StringPackageInstance->IfrSize > 0) {
+ CopyMem (&NewBuffer->IfrData, &StringPackageInstance->IfrData, StringPackageInstance->IfrSize);
+ }
+
+ StringPack = (EFI_HII_STRING_PACK *) Location;
+
+ //
+ // There may be multiple instances packed together of strings
+ // so we must walk the self describing structures until we encounter
+ // what we are looking for. In the meantime, copy everything we encounter
+ // to the new buffer.
+ //
+ CopyMem (&Length, &StringPack->Header.Length, sizeof (UINT32));
+ for (; Length != 0;) {
+ //
+ // If passed in Language ISO value is in this string pack's language string
+ // then we are dealing with the strings we want.
+ //
+ CopyMem (&Offset, &StringPack->LanguageNameString, sizeof (RELOFST));
+ Status = HiiCompareLanguage ((CHAR16 *) ((CHAR8 *) (StringPack) + Offset), Language);
+
+ if (!EFI_ERROR (Status)) {
+ break;
+ }
+
+ CopyMem (((CHAR8 *) (&NewBuffer->IfrData) + Count), StringPack, Length);
+
+ Count = Count + Length;
+ StringPack = (EFI_HII_STRING_PACK *) ((CHAR8 *) (StringPack) + Length);
+ CopyMem (&Length, &StringPack->Header.Length, sizeof (UINT32));
+ }
+ //
+ // Found the language pack to update on a particular handle
+ // We need to Copy the Contents of this pack and adjust the offset values associated
+ // with adding/changing a string. This is a particular piece of code that screams for
+ // it being prone to programming error.
+ //
+ //
+ // Copy the string package up to the string data
+ //
+ StringPointer = (RELOFST *) (StringPack + 1);
+ CopyMem (
+ ((CHAR8 *) (&NewBuffer->IfrData) + Count),
+ StringPack,
+ (UINTN) ((UINTN) (StringPointer) - (UINTN) (StringPack))
+ );
+
+ //
+ // Determine the number of StringPointers
+ //
+ if (!ResetStrings) {
+ CopyMem (&TotalStringCount, &StringPack->NumStringPointers, sizeof (RELOFST));
+ } else {
+ //
+ // If we are resetting the strings, use the original value when exported
+ //
+ CopyMem (&OriginalStringCount, &StringPack->NumStringPointers, sizeof (RELOFST));
+ ((EFI_HII_STRING_PACK *) ((CHAR8 *) (&NewBuffer->IfrData) + Count))->LanguageNameString -=
+ (
+ (RELOFST) (OriginalStringCount - TotalStringCount) *
+ sizeof (RELOFST)
+ );
+ ((EFI_HII_STRING_PACK *) ((CHAR8 *) (&NewBuffer->IfrData) + Count))->PrintableLanguageName -=
+ (
+ (RELOFST) (OriginalStringCount - TotalStringCount) *
+ sizeof (RELOFST)
+ );
+ ((EFI_HII_STRING_PACK *) ((CHAR8 *) (&NewBuffer->IfrData) + Count))->NumStringPointers = TotalStringCount;
+ *Reference = (STRING_REF) (TotalStringCount);
+ }
+ //
+ // If the token value is not valid, error out
+ //
+ if ((*Reference >= TotalStringCount) && !ResetStrings) {
+ FreePool (NewBuffer);
+ return EFI_INVALID_PARAMETER;
+ }
+ //
+ // If Reference is 0, update it with what the new token reference will be and turn the AddString flag on
+ //
+ if (*Reference == 0) {
+ *Reference = (STRING_REF) (TotalStringCount);
+ AddString = TRUE;
+ }
+
+ if (AddString) {
+ ((EFI_HII_STRING_PACK *) ((CHAR8 *) (&NewBuffer->IfrData) + Count))->LanguageNameString += sizeof (RELOFST);
+ ((EFI_HII_STRING_PACK *) ((CHAR8 *) (&NewBuffer->IfrData) + Count))->PrintableLanguageName += sizeof (RELOFST);
+ ((EFI_HII_STRING_PACK *) ((CHAR8 *) (&NewBuffer->IfrData) + Count))->NumStringPointers++;
+ }
+ //
+ // Increment offset by amount of copied data
+ //
+ Count = Count + ((UINTN) (StringPointer) - (UINTN) StringPack);
+
+ for (Index = 0; Index < TotalStringCount; Index++) {
+ //
+ // If we are pointing to the size of the changing string value
+ // then cache the old string value so you know what the difference is
+ //
+ if (Index == *Reference) {
+ CopyMem (&Offset, &StringPointer[Index], sizeof (RELOFST));
+
+ StringLocation = ((UINT8 *) (StringPack) + Offset);
+ for (SecondIndex = 0;
+ (StringLocation[SecondIndex] != 0) || (StringLocation[SecondIndex + 1] != 0);
+ SecondIndex = SecondIndex + 2
+ )
+ ;
+ SecondIndex = SecondIndex + 2;
+
+ Size = SecondIndex;
+
+ //
+ // NewString is a passed in local string which is assumed to be aligned
+ //
+ Size = StrSize (NewString) - Size;
+ }
+ //
+ // If we are about to copy the offset of the string that follows the changed string make
+ // sure that the offsets are adjusted accordingly
+ //
+ if ((Index > *Reference) && !ResetStrings) {
+ CopyMem (&Offset, &StringPointer[Index], sizeof (RELOFST));
+ Offset = (RELOFST) (Offset + Size);
+ CopyMem (&StringPointer[Index], &Offset, sizeof (RELOFST));
+ }
+ //
+ // If we are adding a string that means we will have an extra string pointer that will affect all string offsets
+ //
+ if (AddString) {
+ CopyMem (&Offset, &StringPointer[Index], sizeof (RELOFST));
+ Offset = (UINT32) (Offset + sizeof (RELOFST));
+ CopyMem (&StringPointer[Index], &Offset, sizeof (RELOFST));
+ }
+ //
+ // If resetting the strings, we need to reduce the offset by the difference in the strings
+ //
+ if (ResetStrings) {
+ CopyMem (&Length, &StringPointer[Index], sizeof (RELOFST));
+ Length = Length - ((RELOFST) (OriginalStringCount - TotalStringCount) * sizeof (RELOFST));
+ CopyMem (&StringPointer[Index], &Length, sizeof (RELOFST));
+ }
+ //
+ // Notice that if the string was being added as a new token, we don't have to worry about the
+ // offsets changing in the other indexes
+ //
+ CopyMem (((CHAR8 *) (&NewBuffer->IfrData) + Count), &StringPointer[Index], sizeof (RELOFST));
+ Count = Count + sizeof (RELOFST);
+ StringCount++;
+ }
+ //
+ // If we are adding a new string the above for loop did not copy the offset for us
+ //
+ if (AddString) {
+ //
+ // Since the Index is pointing to the beginning of the first string, we need to gather the size of the previous
+ // offset's string and create an offset to our new string.
+ //
+ CopyMem (&Offset, &StringPointer[Index - 1], sizeof (RELOFST));
+ StringLocation = (UINT8 *) StringPack;
+ StringLocation = StringLocation + Offset - sizeof (RELOFST);
+
+ //
+ // Since StringPack is a packed structure, we need to size it carefully (byte-wise) to avoid alignment issues
+ //
+ for (Length = 0;
+ (StringLocation[Length] != 0) || (StringLocation[Length + 1] != 0);
+ Length = (RELOFST) (Length + 2)
+ )
+ ;
+ Length = (RELOFST) (Length + 2);
+
+ StringSize = (RELOFST) (Offset + Length);
+
+ //
+ // Copy the new string offset
+ //
+ CopyMem (((CHAR8 *) (&NewBuffer->IfrData) + Count), &StringSize, sizeof (RELOFST));
+ Count = Count + sizeof (RELOFST);
+
+ CopyMem (&Length, &StringPack->Header.Length, sizeof (UINT32));
+ Length = Length + sizeof (RELOFST);
+ CopyMem (&StringPack->Header.Length, &Length, sizeof (UINT32));
+ }
+ //
+ // Set Location to the First String
+ //
+ if (ResetStrings) {
+ Index = OriginalStringCount;
+ }
+ //
+ // Set Location to the First String
+ //
+ Location = (UINT8 *) &StringPointer[Index];
+ Index = 0;
+
+ //
+ // Keep copying strings until you run into two CHAR16's in a row that are NULL
+ //
+ do {
+ if ((*Reference == Increment) && !AddString) {
+ StringLocation = ((UINT8 *) (&NewBuffer->IfrData) + Count);
+ CopyMem (StringLocation, NewString, StrSize (NewString));
+
+ //
+ // Advance the destination location by Count number of bytes
+ //
+ Count = Count + StrSize (NewString);
+
+ //
+ // Add the difference between the new string and the old string to the length
+ //
+ CopyMem (&Length, &StringPack->Header.Length, sizeof (UINT32));
+
+ //
+ // Since StringPack is a packed structure, we need to size it carefully (byte-wise) to avoid alignment issues
+ //
+ StringLocation = (UINT8 *) &Location[Index];
+ for (Offset = 0;
+ (StringLocation[Offset] != 0) || (StringLocation[Offset + 1] != 0);
+ Offset = (RELOFST) (Offset + 2)
+ )
+ ;
+ Offset = (RELOFST) (Offset + 2);
+
+ Length = Length + (UINT32) StrSize (NewString) - Offset;
+
+ CopyMem (&StringPack->Header.Length, &Length, sizeof (UINT32));
+ } else {
+ StringLocation = (UINT8 *) &Location[Index];
+ for (Offset = 0;
+ (StringLocation[Offset] != 0) || (StringLocation[Offset + 1] != 0);
+ Offset = (RELOFST) (Offset + 2)
+ )
+ ;
+ Offset = (RELOFST) (Offset + 2);
+
+ CopyMem (((CHAR8 *) (&NewBuffer->IfrData) + Count), StringLocation, Offset);
+
+ //
+ // Advance the destination location by Count number of bytes
+ //
+ Count = Count + Offset;
+ }
+ //
+ // Retrieve the number of characters to advance the index - should land at beginning of next string
+ //
+ Index = Index + Offset;
+ Increment++;
+ StringCount--;
+ Offset = 0;
+ } while (StringCount > 0);
+
+ //
+ // If we are adding a new string, then the above do/while will not suffice
+ //
+ if (AddString) {
+ Offset = (RELOFST) StrSize (NewString);
+ CopyMem (((CHAR8 *) (&NewBuffer->IfrData) + Count), NewString, Offset);
+
+ Count = Count + StrSize (NewString);
+ CopyMem (&Length, &StringPack->Header.Length, sizeof (UINT32));
+ Length = Length + (UINT32) StrSize (NewString);
+ CopyMem (&StringPack->Header.Length, &Length, sizeof (UINT32));
+ }
+
+ if (ResetStrings) {
+ //
+ // Skip the remainder of strings in the string package
+ //
+ StringCount = OriginalStringCount - TotalStringCount;
+
+ while (StringCount > 0) {
+ StringLocation = (UINT8 *) &Location[Index];
+ for (Offset = 0;
+ (StringLocation[Offset] != 0) || (StringLocation[Offset + 1] != 0);
+ Offset = (RELOFST) (Offset + 2)
+ )
+ ;
+ Offset = (RELOFST) (Offset + 2);
+ Index = Index + Offset;
+ StringCount--;
+
+ //
+ // Adjust the size of the string pack by the string size we just skipped.
+ // Also reduce the length by the size of a RelativeOffset value since we
+ // obviously would have skipped that as well.
+ //
+ CopyMem (&Length, &StringPack->Header.Length, sizeof (UINT32));
+ Length = Length - Offset - sizeof (RELOFST);
+ CopyMem (&StringPack->Header.Length, &Length, sizeof (UINT32));
+ }
+ }
+
+ StringPack = (EFI_HII_STRING_PACK *) &Location[Index];
+
+ CopyMem (&Length, &StringPack->Header.Length, sizeof (UINT32));
+ for (; Length != 0;) {
+
+ CopyMem (((CHAR8 *) (&NewBuffer->IfrData) + Count), StringPack, Length);
+
+ Count = Count + Length;
+ StringPack = (EFI_HII_STRING_PACK *) ((CHAR8 *) (StringPack) + Length);
+ CopyMem (&Length, &StringPack->Header.Length, sizeof (UINT32));
+ }
+ //
+ // Copy the null terminator to the new buffer
+ //
+ CopyMem (((CHAR8 *) (&NewBuffer->IfrData) + Count), StringPack, sizeof (EFI_HII_STRING_PACK));
+
+ //
+ // Based on if there is IFR data in this package instance, determine
+ // what the location is of the beginning of the string data.
+ //
+ if (StringPackageInstance->IfrSize > 0) {
+ Location = (UINT8 *) (&StringPackageInstance->IfrData) + StringPackageInstance->IfrSize;
+ StringPack = (EFI_HII_STRING_PACK *) Location;
+ Location = (UINT8 *) (&NewBuffer->IfrData) + NewBuffer->IfrSize;
+ NewStringPack = (EFI_HII_STRING_PACK *) Location;
+ } else {
+ StringPack = (EFI_HII_STRING_PACK *) (&StringPackageInstance->IfrData);
+ NewStringPack = (EFI_HII_STRING_PACK *) (&NewBuffer->IfrData);
+ }
+
+ CopyMem (&Length, &StringPack->Header.Length, sizeof (UINT32));
+ for (; Length != 0;) {
+ //
+ // Since we updated the old version of the string data as we moved things over
+ // And we had a chicken-egg problem with the data we copied, let's post-fix the new
+ // buffer with accurate length data.
+ //
+ CopyMem (&Count, &NewStringPack->Header.Length, sizeof (UINT32));
+ CopyMem (&NewStringPack->Header.Length, &StringPack->Header.Length, sizeof (UINT32));
+ CopyMem (&StringPack->Header.Length, &Count, sizeof (UINT32));
+
+ CopyMem (&Count, &NewStringPack->Header.Length, sizeof (UINT32));
+ NewStringPack = (EFI_HII_STRING_PACK *) ((CHAR8 *) (NewStringPack) + Count);
+ CopyMem (&Count, &StringPack->Header.Length, sizeof (UINT32));
+ StringPack = (EFI_HII_STRING_PACK *) ((CHAR8 *) (StringPack) + Count);
+ CopyMem (&Length, &StringPack->Header.Length, sizeof (UINT32));
+ }
+
+ GetPackSize ((VOID *) ((CHAR8 *) (&NewBuffer->IfrData) + NewBuffer->IfrSize), &NewBuffer->StringSize, NULL);
+
+ //
+ // Search through the handles until the requested handle is found.
+ //
+ for (HandleDatabase = HiiData->DatabaseHead;
+ HandleDatabase->Handle != 0;
+ HandleDatabase = HandleDatabase->NextHandleDatabase
+ ) {
+ if (HandleDatabase->Handle == StringPackageInstance->Handle) {
+ //
+ // Free the previous buffer associated with this handle, and assign the new buffer to the handle
+ //
+ FreePool (HandleDatabase->Buffer);
+ HandleDatabase->Buffer = NewBuffer;
+ break;
+ }
+ }
+
+ return EFI_SUCCESS;
+}
+
+EFI_STATUS
+EFIAPI
+HiiNewString (
+ IN EFI_HII_PROTOCOL *This,
+ IN CHAR16 *Language,
+ IN EFI_HII_HANDLE Handle,
+ IN OUT STRING_REF *Reference,
+ IN CHAR16 *NewString
+ )
+/*++
+
+Routine Description:
+ This function allows a new String to be added to an already existing String Package.
+ We will make a buffer the size of the package + StrSize of the new string. We will
+ copy the string package that first gets changed and the following language packages until
+ we encounter the NULL string package. All this time we will ensure that the offsets have
+ been adjusted.
+
+Arguments:
+
+Returns:
+
+--*/
+{
+ UINTN Index;
+ CHAR16 *LangCodes;
+ CHAR16 Lang[4];
+ STRING_REF OriginalValue;
+ EFI_STATUS Status;
+
+ //
+ // To avoid a warning 4 uninitialized variable warning
+ //
+ Status = EFI_SUCCESS;
+
+ Status = HiiGetPrimaryLanguages (
+ This,
+ Handle,
+ &LangCodes
+ );
+
+ if (!EFI_ERROR (Status)) {
+ OriginalValue = *Reference;
+
+ if (Language == NULL) {
+ for (Index = 0; LangCodes[Index] != 0; Index += 3) {
+ *Reference = OriginalValue;
+ CopyMem (Lang, &LangCodes[Index], 6);
+ Lang[3] = 0;
+ Status = HiiNewString2 (
+ This,
+ Lang,
+ Handle,
+ Reference,
+ NewString,
+ FALSE
+ );
+
+ }
+ } else {
+ Status = HiiNewString2 (
+ This,
+ Language,
+ Handle,
+ Reference,
+ NewString,
+ FALSE
+ );
+ }
+
+ FreePool (LangCodes);
+ }
+
+ return Status;
+}
+
+EFI_STATUS
+EFIAPI
+HiiResetStrings (
+ IN EFI_HII_PROTOCOL *This,
+ IN EFI_HII_HANDLE Handle
+ )
+/*++
+
+Routine Description:
+
+ This function removes any new strings that were added after the initial string export for this handle.
+
+Arguments:
+
+Returns:
+
+--*/
+{
+ UINTN Index;
+ CHAR16 *LangCodes;
+ CHAR16 Lang[4];
+ STRING_REF Reference;
+ CHAR16 NewString;
+ EFI_STATUS Status;
+
+ Reference = 1;
+ NewString = 0;
+
+ HiiGetPrimaryLanguages (
+ This,
+ Handle,
+ &LangCodes
+ );
+
+ for (Index = 0; LangCodes[Index] != 0; Index += 3) {
+ CopyMem (Lang, &LangCodes[Index], 6);
+ Lang[3] = 0;
+ Status = HiiNewString2 (
+ This,
+ Lang,
+ Handle,
+ &Reference,
+ &NewString,
+ TRUE
+ );
+ ASSERT_EFI_ERROR (Status);
+ }
+
+ FreePool (LangCodes);
+ return EFI_SUCCESS;
+}
+
+EFI_STATUS
+EFIAPI
+HiiGetString (
+ IN EFI_HII_PROTOCOL *This,
+ IN EFI_HII_HANDLE Handle,
+ IN STRING_REF Token,
+ IN BOOLEAN Raw,
+ IN CHAR16 *LanguageString,
+ IN OUT UINTN *BufferLengthTemp,
+ OUT EFI_STRING StringBuffer
+ )
+/*++
+
+Routine Description:
+
+ This function extracts a string from a package already registered with the EFI HII database.
+
+Arguments:
+ This - A pointer to the EFI_HII_PROTOCOL instance.
+ Handle - The HII handle on which the string resides.
+ Token - The string token assigned to the string.
+ Raw - If TRUE, the string is returned unedited in the internal storage format described
+ above. If false, the string returned is edited by replacing <cr> with <space>
+ and by removing special characters such as the <wide> prefix.
+ LanguageString - Pointer to a NULL-terminated string containing a single ISO 639-2 language
+ identifier, indicating the language to print. If the LanguageString is empty (starts
+ with a NULL), the default system language will be used to determine the language.
+ BufferLength - Length of the StringBuffer. If the status reports that the buffer width is too
+ small, this parameter is filled with the length of the buffer needed.
+ StringBuffer - The buffer designed to receive the characters in the string. Type EFI_STRING is
+ defined in String.
+
+Returns:
+ EFI_INVALID_PARAMETER - If input parameter is invalid.
+ EFI_BUFFER_TOO_SMALL - If the *BufferLength is too small.
+ EFI_SUCCESS - Operation is successful.
+
+--*/
+{
+ EFI_HII_PACKAGE_INSTANCE *PackageInstance;
+ EFI_HII_PACKAGE_INSTANCE *StringPackageInstance;
+ EFI_HII_DATA *HiiData;
+ EFI_HII_HANDLE_DATABASE *HandleDatabase;
+ EFI_HII_STRING_PACK *StringPack;
+ RELOFST *StringPointer;
+ EFI_STATUS Status;
+ UINTN DataSize;
+ CHAR8 Lang[3];
+ CHAR16 Language[3];
+ UINT32 Length;
+ UINTN Count;
+ RELOFST Offset;
+ UINT16 *Local;
+ UINT16 Zero;
+ UINT16 Narrow;
+ UINT16 Wide;
+ UINT16 NoBreak;
+ BOOLEAN LangFound;
+ UINT16 *BufferLength = (UINT16 *) BufferLengthTemp;
+
+ if (This == NULL) {
+ return EFI_INVALID_PARAMETER;
+ }
+
+ LangFound = TRUE;
+
+ DataSize = sizeof (Lang);
+
+ HiiData = EFI_HII_DATA_FROM_THIS (This);
+
+ PackageInstance = NULL;
+ Zero = 0;
+ Narrow = NARROW_CHAR;
+ Wide = WIDE_CHAR;
+ NoBreak = NON_BREAKING_CHAR;
+
+ //
+ // Check numeric value against the head of the database
+ //
+ for (HandleDatabase = HiiData->DatabaseHead;
+ HandleDatabase != NULL;
+ HandleDatabase = HandleDatabase->NextHandleDatabase
+ ) {
+ //
+ // Match the numeric value with the database entry - if matched, extract PackageInstance
+ //
+ if (Handle == HandleDatabase->Handle) {
+ PackageInstance = HandleDatabase->Buffer;
+ break;
+ }
+ }
+ //
+ // No handle was found - error condition
+ //
+ if (PackageInstance == NULL) {
+ return EFI_INVALID_PARAMETER;
+ }
+
+ Status = ValidatePack (This, PackageInstance, &StringPackageInstance, NULL);
+
+ //
+ // If there is no specified language, assume the system default language
+ //
+ if (LanguageString == NULL) {
+ //
+ // Get system default language
+ //
+ Status = gRT->GetVariable (
+ (CHAR16 *) L"Lang",
+ &gEfiGlobalVariableGuid,
+ NULL,
+ &DataSize,
+ Lang
+ );
+
+ if (EFI_ERROR (Status)) {
+ //
+ // If Lang doesn't exist, just use the first language you find
+ //
+ LangFound = FALSE;
+ goto LangNotFound;
+ }
+ //
+ // Convert the ASCII Lang variable to a Unicode Language variable
+ //
+ AsciiToUnicode ((UINT8 *)Lang, Language);
+ } else {
+ //
+ // Copy input ISO value to Language variable
+ //
+ CopyMem (Language, LanguageString, 6);
+ }
+ //
+ // Based on if there is IFR data in this package instance, determine
+ // what the location is of the beginning of the string data.
+ //
+LangNotFound:
+ if (StringPackageInstance->IfrSize > 0) {
+ StringPack = (EFI_HII_STRING_PACK *) ((CHAR8 *) (&StringPackageInstance->IfrData) + StringPackageInstance->IfrSize);
+ } else {
+ StringPack = (EFI_HII_STRING_PACK *) (&StringPackageInstance->IfrData);
+ }
+ //
+ // If Token is 0, extract entire string package
+ //
+ if (Token == 0) {
+ //
+ // Compute the entire string pack length, including all languages' and the terminating pack's.
+ //
+ Length = 0;
+ while (0 != StringPack->Header.Length) {
+ Length += StringPack->Header.Length;
+ StringPack = (VOID*)(((UINT8*)StringPack) + StringPack->Header.Length);
+ }
+ //
+ // Back to the start of package.
+ //
+ StringPack = (VOID*)(((UINT8*)StringPack) - Length);
+ //
+ // Terminating zero sub-pack.
+ //
+ Length += sizeof (EFI_HII_STRING_PACK);
+
+ //
+ // If trying to get the entire string package and have insufficient space. Return error.
+ //
+ if (Length > *BufferLength || StringBuffer == NULL) {
+ *BufferLength = (UINT16)Length;
+ return EFI_BUFFER_TOO_SMALL;
+ }
+ //
+ // Copy the Pack to the caller's buffer.
+ //
+ *BufferLength = (UINT16)Length;
+ CopyMem (StringBuffer, StringPack, Length);
+
+ return EFI_SUCCESS;
+ }
+ //
+ // There may be multiple instances packed together of strings
+ // so we must walk the self describing structures until we encounter
+ // what we are looking for, and then extract the string we are looking for
+ //
+ CopyMem (&Length, &StringPack->Header.Length, sizeof (UINT32));
+ for (; Length != 0;) {
+ //
+ // If passed in Language ISO value is in this string pack's language string
+ // then we are dealing with the strings we want.
+ //
+ CopyMem (&Offset, &StringPack->LanguageNameString, sizeof (RELOFST));
+ Status = HiiCompareLanguage ((CHAR16 *) ((CHAR8 *) (StringPack) + Offset), Language);
+
+ //
+ // If we cannot find the lang variable, we skip this check and use the first language available
+ //
+ if (LangFound) {
+ if (EFI_ERROR (Status)) {
+ StringPack = (EFI_HII_STRING_PACK *) ((CHAR8 *) (StringPack) + Length);
+ CopyMem (&Length, &StringPack->Header.Length, sizeof (UINT32));
+ continue;
+ }
+ }
+
+ StringPointer = (RELOFST *) (StringPack + 1);
+
+ //
+ // We have the right string package - size it, and copy it to the StringBuffer
+ //
+ if (Token >= StringPack->NumStringPointers) {
+ return EFI_INVALID_PARAMETER;
+ } else {
+ CopyMem (&Offset, &StringPointer[Token], sizeof (RELOFST));
+ }
+ //
+ // Since StringPack is a packed structure, we need to determine the string's
+ // size safely, thus byte-wise. Post-increment the size to include the null-terminator
+ //
+ Local = (UINT16 *) ((CHAR8 *) (StringPack) + Offset);
+ for (Count = 0; CompareMem (&Local[Count], &Zero, 2); Count++)
+ ;
+ Count++;
+
+ Count = Count * sizeof (CHAR16);;
+
+ if (*BufferLength >= Count && StringBuffer != NULL) {
+ //
+ // Copy the string to the user's buffer
+ //
+ if (Raw) {
+ CopyMem (StringBuffer, Local, Count);
+ } else {
+ for (Count = 0; CompareMem (Local, &Zero, 2); Local++) {
+ //
+ // Skip "Narraw, Wide, NoBreak"
+ //
+ if (CompareMem (Local, &Narrow, 2) &&
+ CompareMem (Local, &Wide, 2) &&
+ CompareMem (Local, &NoBreak, 2)) {
+ CopyMem (&StringBuffer[Count++], Local, 2);
+ }
+ }
+ //
+ // Add "NULL" at the end.
+ //
+ CopyMem (&StringBuffer[Count], &Zero, 2);
+ Count++;
+ Count *= sizeof (CHAR16);
+ }
+
+ *BufferLength = (UINT16) Count;
+ return EFI_SUCCESS;
+ } else {
+ *BufferLength = (UINT16) Count;
+ return EFI_BUFFER_TOO_SMALL;
+ }
+
+ }
+
+ LangFound = FALSE;
+ goto LangNotFound;
+}
+
+EFI_STATUS
+EFIAPI
+HiiGetLine (
+ IN EFI_HII_PROTOCOL *This,
+ IN EFI_HII_HANDLE Handle,
+ IN STRING_REF Token,
+ IN OUT UINT16 *Index,
+ IN UINT16 LineWidth,
+ IN CHAR16 *LanguageString,
+ IN OUT UINT16 *BufferLength,
+ OUT EFI_STRING StringBuffer
+ )
+/*++
+
+Routine Description:
+
+ This function allows a program to extract a part of a string of not more than a given width.
+ With repeated calls, this allows a calling program to extract "lines" of text that fit inside
+ columns. The effort of measuring the fit of strings inside columns is localized to this call.
+
+Arguments:
+
+Returns:
+
+--*/
+{
+ UINTN Count;
+ EFI_HII_PACKAGE_INSTANCE *PackageInstance;
+ EFI_HII_PACKAGE_INSTANCE *StringPackageInstance;
+ EFI_HII_DATA *HiiData;
+ EFI_HII_HANDLE_DATABASE *HandleDatabase;
+ EFI_HII_STRING_PACK *StringPack;
+ RELOFST *StringPointer;
+ CHAR16 *Location;
+ EFI_STATUS Status;
+ UINTN DataSize;
+ CHAR8 Lang[3];
+ CHAR16 Language[3];
+
+ if (This == NULL) {
+ return EFI_INVALID_PARAMETER;
+ }
+
+ HiiData = EFI_HII_DATA_FROM_THIS (This);
+
+ HandleDatabase = HiiData->DatabaseHead;
+
+ PackageInstance = NULL;
+ DataSize = 4;
+
+ //
+ // Check numeric value against the head of the database
+ //
+ for (; HandleDatabase != NULL; HandleDatabase = HandleDatabase->NextHandleDatabase) {
+ //
+ // Match the numeric value with the database entry - if matched, extract PackageInstance
+ //
+ if (Handle == HandleDatabase->Handle) {
+ PackageInstance = HandleDatabase->Buffer;
+ }
+ }
+ //
+ // No handle was found - error condition
+ //
+ if (PackageInstance == NULL) {
+ return EFI_INVALID_PARAMETER;
+ }
+
+ Status = ValidatePack (This, PackageInstance, &StringPackageInstance, NULL);
+
+ //
+ // If there is no specified language, assume the system default language
+ //
+ if (LanguageString == NULL) {
+ //
+ // Get system default language
+ //
+ Status = gRT->GetVariable (
+ (CHAR16 *) L"Lang",
+ &gEfiGlobalVariableGuid,
+ NULL,
+ &DataSize,
+ Lang
+ );
+
+ if (EFI_ERROR (Status)) {
+ return Status;
+ }
+ //
+ // Convert the ASCII Lang variable to a Unicode Language variable
+ //
+ AsciiToUnicode ((UINT8 *)Lang, Language);
+ } else {
+ //
+ // Copy input ISO value to Language variable
+ //
+ CopyMem (Language, LanguageString, 6);
+ }
+ //
+ // Based on if there is IFR data in this package instance, determine
+ // what the location is of the beginning of the string data.
+ //
+ if (StringPackageInstance->IfrSize > 0) {
+ StringPack = (EFI_HII_STRING_PACK *) ((CHAR8 *) (&StringPackageInstance->IfrData) + StringPackageInstance->IfrSize);
+ } else {
+ StringPack = (EFI_HII_STRING_PACK *) (&StringPackageInstance->IfrData);
+ }
+
+ StringPointer = (RELOFST *) (StringPack + 1);
+
+ //
+ // There may be multiple instances packed together of strings
+ // so we must walk the self describing structures until we encounter
+ // what we are looking for, and then extract the string we are looking for
+ //
+ for (; StringPack->Header.Length != 0;) {
+ //
+ // If passed in Language ISO value is in this string pack's language string
+ // then we are dealing with the strings we want.
+ //
+ Status = HiiCompareLanguage ((CHAR16 *) ((CHAR8 *) (StringPack) + StringPack->LanguageNameString), Language);
+
+ if (EFI_ERROR (Status)) {
+ StringPack = (EFI_HII_STRING_PACK *) ((CHAR8 *) (StringPack) + StringPack->Header.Length);
+ continue;
+ }
+
+ Location = (CHAR16 *) ((CHAR8 *) (StringPack) + StringPointer[Token] +*Index * 2);
+
+ //
+ // If the size of the remaining string is less than the LineWidth
+ // then copy the entire thing
+ //
+ if (StrSize (Location) <= LineWidth) {
+ if (*BufferLength >= StrSize (Location)) {
+ StrCpy (StringBuffer, Location);
+ return EFI_SUCCESS;
+ } else {
+ *BufferLength = (UINT16) StrSize (Location);
+ return EFI_BUFFER_TOO_SMALL;
+ }
+ } else {
+ //
+ // Rewind the string from the maximum size until we see a space the break the line
+ //
+ for (Count = LineWidth; Location[Count] != 0x0020; Count--)
+ ;
+
+ //
+ // Put the index at the next character
+ //
+ *Index = (UINT16) (Count + 1);
+
+ if (*BufferLength >= Count) {
+ StrnCpy (StringBuffer, Location, Count);
+ return EFI_SUCCESS;
+ } else {
+ *BufferLength = (UINT16) Count;
+ return EFI_BUFFER_TOO_SMALL;
+ }
+ }
+ }
+
+ return EFI_SUCCESS;
+}
+
+EFI_STATUS
+HiiCompareLanguage (
+ IN CHAR16 *LanguageStringLocation,
+ IN CHAR16 *Language
+ )
+{
+ UINT8 *Local;
+ UINTN Index;
+ CHAR16 *InputString;
+ CHAR16 *OriginalInputString;
+
+ //
+ // Allocate a temporary buffer for InputString
+ //
+ InputString = AllocateZeroPool (0x100);
+
+ ASSERT (InputString);
+
+ OriginalInputString = InputString;
+
+ Local = (UINT8 *) LanguageStringLocation;
+
+ //
+ // Determine the size of this packed string safely (e.g. access by byte), post-increment
+ // to include the null-terminator
+ //
+ for (Index = 0; Local[Index] != 0; Index = Index + 2)
+ ;
+ //
+ // MARMAR Index = Index + 2;
+ //
+ // This is a packed structure that this location comes from, so let's make sure
+ // the value is aligned by copying it to a local variable and working on it.
+ //
+ CopyMem (InputString, LanguageStringLocation, Index);
+
+ for (Index = 0; Index < 3; Index++) {
+ InputString[Index] = (CHAR16) (InputString[Index] | 0x20);
+ Language[Index] = (CHAR16) (Language[Index] | 0x20);
+ }
+ //
+ // If the Language is the same return success
+ //
+ if (CompareMem (LanguageStringLocation, Language, 6) == 0) {
+ FreePool (InputString);
+ return EFI_SUCCESS;
+ }
+ //
+ // Skip the first three letters that comprised the primary language,
+ // see if what is being compared against is a secondary language
+ //
+ InputString = InputString + 3;
+
+ //
+ // If the Language is not the same as the Primary language, see if there are any
+ // secondary languages, and if there are see if we have a match. If not, return an error.
+ //
+ for (Index = 0; InputString[Index] != 0; Index = Index + 3) {
+ //
+ // Getting in here means we have a secondary language
+ //
+ if (CompareMem (&InputString[Index], Language, 6) == 0) {
+ FreePool (InputString);
+ return EFI_SUCCESS;
+ }
+ }
+ //
+ // If nothing was found, return the error
+ //
+ FreePool (OriginalInputString);
+ return EFI_NOT_FOUND;
+
+}