2 Implementation of interfaces function for EFI_HII_CONFIG_ROUTING_PROTOCOL.
4 Copyright (c) 2007 - 2014, Intel Corporation. All rights reserved.<BR>
5 This program and the accompanying materials
6 are licensed and made available under the terms and conditions of the BSD License
7 which accompanies this distribution. The full text of the license may be found at
8 http://opensource.org/licenses/bsd-license.php
10 THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
11 WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
16 #include "HiiDatabase.h"
17 extern HII_DATABASE_PRIVATE_DATA mPrivate
;
20 Calculate the number of Unicode characters of the incoming Configuration string,
21 not including NULL terminator.
23 This is a internal function.
25 @param String String in <MultiConfigRequest> or
26 <MultiConfigResp> format.
28 @return The number of Unicode characters.
32 CalculateConfigStringLen (
39 // "GUID=" should be the first element of incoming string.
41 ASSERT (String
!= NULL
);
42 ASSERT (StrnCmp (String
, L
"GUID=", StrLen (L
"GUID=")) == 0);
45 // The beginning of next <ConfigRequest>/<ConfigResp> should be "&GUID=".
46 // Will meet '\0' if there is only one <ConfigRequest>/<ConfigResp>.
48 TmpPtr
= StrStr (String
, L
"&GUID=");
50 return StrLen (String
);
53 return (TmpPtr
- String
);
58 Convert the hex UNICODE %02x encoding of a UEFI device path to binary
59 from <PathHdr> of <ConfigHdr>.
61 This is a internal function.
63 @param String UEFI configuration string
64 @param DevicePathData Binary of a UEFI device path.
66 @retval EFI_NOT_FOUND The device path is not invalid.
67 @retval EFI_INVALID_PARAMETER Any incoming parameter is invalid.
68 @retval EFI_OUT_OF_RESOURCES Lake of resources to store neccesary structures.
69 @retval EFI_SUCCESS The device path is retrieved and translated to
76 OUT UINT8
**DevicePathData
81 UINT8
*DevicePathBuffer
;
85 EFI_DEVICE_PATH_PROTOCOL
*DevicePath
;
88 if (String
== NULL
|| DevicePathData
== NULL
) {
89 return EFI_INVALID_PARAMETER
;
93 // Find the 'PATH=' of <PathHdr> and skip it.
95 for (; (*String
!= 0 && StrnCmp (String
, L
"PATH=", StrLen (L
"PATH=")) != 0); String
++);
97 return EFI_INVALID_PARAMETER
;
100 // Check whether path data does exist.
102 String
+= StrLen (L
"PATH=");
104 return EFI_INVALID_PARAMETER
;
109 // The content between 'PATH=' of <ConfigHdr> and '&' of next element
110 // or '\0' (end of configuration string) is the UNICODE %02x bytes encoding
111 // of UEFI device path.
113 for (Length
= 0; *String
!= 0 && *String
!= L
'&'; String
++, Length
++);
115 // Check DevicePath Length
117 if (((Length
+ 1) / 2) < sizeof (EFI_DEVICE_PATH_PROTOCOL
)) {
118 return EFI_NOT_FOUND
;
122 // The data in <PathHdr> is encoded as hex UNICODE %02x bytes in the same order
123 // as the device path resides in RAM memory.
124 // Translate the data into binary.
126 DevicePathBuffer
= (UINT8
*) AllocateZeroPool ((Length
+ 1) / 2);
127 if (DevicePathBuffer
== NULL
) {
128 return EFI_OUT_OF_RESOURCES
;
132 // Convert DevicePath
134 ZeroMem (TemStr
, sizeof (TemStr
));
135 for (Index
= 0; Index
< Length
; Index
++) {
136 TemStr
[0] = PathHdr
[Index
];
137 DigitUint8
= (UINT8
) StrHexToUint64 (TemStr
);
138 if ((Index
& 1) == 0) {
139 DevicePathBuffer
[Index
/2] = DigitUint8
;
141 DevicePathBuffer
[Index
/2] = (UINT8
) ((DevicePathBuffer
[Index
/2] << 4) + DigitUint8
);
146 // Validate DevicePath
148 DevicePath
= (EFI_DEVICE_PATH_PROTOCOL
*) DevicePathBuffer
;
149 while (!IsDevicePathEnd (DevicePath
)) {
150 if ((DevicePath
->Type
== 0) || (DevicePath
->SubType
== 0) || (DevicePathNodeLength (DevicePath
) < sizeof (EFI_DEVICE_PATH_PROTOCOL
))) {
152 // Invalid device path
154 FreePool (DevicePathBuffer
);
155 return EFI_NOT_FOUND
;
157 DevicePath
= NextDevicePathNode (DevicePath
);
161 // return the device path
163 *DevicePathData
= DevicePathBuffer
;
168 Converts the unicode character of the string from uppercase to lowercase.
169 This is a internal function.
171 @param ConfigString String to be converted
177 IN EFI_STRING ConfigString
183 ASSERT (ConfigString
!= NULL
);
186 // Convert all hex digits in range [A-F] in the configuration header to [a-f]
188 for (String
= ConfigString
, Lower
= FALSE
; *String
!= L
'\0'; String
++) {
189 if (*String
== L
'=') {
191 } else if (*String
== L
'&') {
193 } else if (Lower
&& *String
>= L
'A' && *String
<= L
'F') {
194 *String
= (CHAR16
) (*String
- L
'A' + L
'a');
202 Generate a sub string then output it.
204 This is a internal function.
206 @param String A constant string which is the prefix of the to be
207 generated string, e.g. GUID=
209 @param BufferLen The length of the Buffer in bytes.
211 @param Buffer Points to a buffer which will be converted to be the
212 content of the generated string.
214 @param Flag If 1, the buffer contains data for the value of GUID or PATH stored in
215 UINT8 *; if 2, the buffer contains unicode string for the value of NAME;
216 if 3, the buffer contains other data.
218 @param SubStr Points to the output string. It's caller's
219 responsibility to free this buffer.
225 IN CONST EFI_STRING String
,
229 OUT EFI_STRING
*SubStr
234 EFI_STRING StringHeader
;
240 ASSERT (String
!= NULL
&& SubStr
!= NULL
);
242 if (Buffer
== NULL
) {
243 *SubStr
= AllocateCopyPool (StrSize (String
), String
);
244 ASSERT (*SubStr
!= NULL
);
249 // Header + Data + '&' + '\0'
251 Length
= StrLen (String
) + BufferLen
* 2 + 1 + 1;
252 Str
= AllocateZeroPool (Length
* sizeof (CHAR16
));
253 ASSERT (Str
!= NULL
);
255 StrCpy (Str
, String
);
256 Length
= (BufferLen
* 2 + 1) * sizeof (CHAR16
);
258 StringHeader
= Str
+ StrLen (String
);
259 TemString
= (CHAR16
*) StringHeader
;
264 // Convert Buffer to Hex String in reverse order
266 TemBuffer
= ((UINT8
*) Buffer
);
267 for (Index
= 0; Index
< BufferLen
; Index
++, TemBuffer
++) {
268 TemString
+= UnicodeValueToString (TemString
, PREFIX_ZERO
| RADIX_HEX
, *TemBuffer
, 2);
273 // Check buffer is enough
275 TemName
= (CHAR16
*) Buffer
;
276 ASSERT ((BufferLen
* 2 + 1) >= (StrLen (TemName
) * 4 + 1));
278 // Convert Unicode String to Config String, e.g. "ABCD" => "0041004200430044"
280 for (; *TemName
!= L
'\0'; TemName
++) {
281 TemString
+= UnicodeValueToString (TemString
, PREFIX_ZERO
| RADIX_HEX
, *TemName
, 4);
286 // Convert Buffer to Hex String
288 TemBuffer
= ((UINT8
*) Buffer
) + BufferLen
- 1;
289 for (Index
= 0; Index
< BufferLen
; Index
++, TemBuffer
--) {
290 TemString
+= UnicodeValueToString (TemString
, PREFIX_ZERO
| RADIX_HEX
, *TemBuffer
, 2);
298 // Convert the uppercase to lowercase since <HexAf> is defined in lowercase format.
308 Retrieve the <ConfigBody> from String then output it.
310 This is a internal function.
312 @param String A sub string of a configuration string in
313 <MultiConfigAltResp> format.
314 @param ConfigBody Points to the output string. It's caller's
315 responsibility to free this buffer.
317 @retval EFI_INVALID_PARAMETER There is no form package in current hii database.
318 @retval EFI_OUT_OF_RESOURCES Not enough memory to finish this operation.
319 @retval EFI_SUCCESS All existing storage is exported.
324 IN EFI_STRING String
,
325 OUT EFI_STRING
*ConfigBody
332 if (String
== NULL
|| ConfigBody
== NULL
) {
333 return EFI_INVALID_PARAMETER
;
337 // The setting information should start OFFSET, not ALTCFG.
339 if (StrnCmp (String
, L
"&ALTCFG=", StrLen (L
"&ALTCFG=")) == 0) {
340 return EFI_INVALID_PARAMETER
;
343 TmpPtr
= StrStr (String
, L
"GUID=");
344 if (TmpPtr
== NULL
) {
346 // It is the last <ConfigResp> of the incoming configuration string.
348 Result
= AllocateCopyPool (StrSize (String
), String
);
349 if (Result
== NULL
) {
350 return EFI_OUT_OF_RESOURCES
;
352 *ConfigBody
= Result
;
357 Length
= TmpPtr
- String
;
359 return EFI_NOT_FOUND
;
361 Result
= AllocateCopyPool (Length
* sizeof (CHAR16
), String
);
362 if (Result
== NULL
) {
363 return EFI_OUT_OF_RESOURCES
;
366 *(Result
+ Length
- 1) = 0;
367 *ConfigBody
= Result
;
372 Append a string to a multi-string format.
374 This is a internal function.
376 @param MultiString String in <MultiConfigRequest>,
377 <MultiConfigAltResp>, or <MultiConfigResp>. On
378 input, the buffer length of this string is
379 MAX_STRING_LENGTH. On output, the buffer length
381 @param AppendString NULL-terminated Unicode string.
383 @retval EFI_INVALID_PARAMETER Any incoming parameter is invalid.
384 @retval EFI_SUCCESS AppendString is append to the end of MultiString
388 AppendToMultiString (
389 IN OUT EFI_STRING
*MultiString
,
390 IN EFI_STRING AppendString
393 UINTN AppendStringSize
;
394 UINTN MultiStringSize
;
396 if (MultiString
== NULL
|| *MultiString
== NULL
|| AppendString
== NULL
) {
397 return EFI_INVALID_PARAMETER
;
400 AppendStringSize
= StrSize (AppendString
);
401 MultiStringSize
= StrSize (*MultiString
);
404 // Enlarge the buffer each time when length exceeds MAX_STRING_LENGTH.
406 if (MultiStringSize
+ AppendStringSize
> MAX_STRING_LENGTH
||
407 MultiStringSize
> MAX_STRING_LENGTH
) {
408 *MultiString
= (EFI_STRING
) ReallocatePool (
410 MultiStringSize
+ AppendStringSize
,
411 (VOID
*) (*MultiString
)
413 ASSERT (*MultiString
!= NULL
);
416 // Append the incoming string
418 StrCat (*MultiString
, AppendString
);
425 Get the value of <Number> in <BlockConfig> format, i.e. the value of OFFSET
427 <BlockConfig> ::= 'OFFSET='<Number>&'WIDTH='<Number>&'VALUE'=<Number>
429 This is a internal function.
431 @param StringPtr String in <BlockConfig> format and points to the
432 first character of <Number>.
433 @param Number The output value. Caller takes the responsibility
435 @param Len Length of the <Number>, in characters.
437 @retval EFI_OUT_OF_RESOURCES Insufficient resources to store neccessary
439 @retval EFI_SUCCESS Value of <Number> is outputted in Number
445 IN EFI_STRING StringPtr
,
459 if (StringPtr
== NULL
|| *StringPtr
== L
'\0' || Number
== NULL
|| Len
== NULL
) {
460 return EFI_INVALID_PARAMETER
;
466 while (*StringPtr
!= L
'\0' && *StringPtr
!= L
'&') {
469 *Len
= StringPtr
- TmpPtr
;
472 Str
= (EFI_STRING
) AllocateZeroPool (Length
* sizeof (CHAR16
));
474 Status
= EFI_OUT_OF_RESOURCES
;
477 CopyMem (Str
, TmpPtr
, *Len
* sizeof (CHAR16
));
478 *(Str
+ *Len
) = L
'\0';
480 Length
= (Length
+ 1) / 2;
481 Buf
= (UINT8
*) AllocateZeroPool (Length
);
483 Status
= EFI_OUT_OF_RESOURCES
;
488 ZeroMem (TemStr
, sizeof (TemStr
));
489 for (Index
= 0; Index
< Length
; Index
++) {
490 TemStr
[0] = Str
[Length
- Index
- 1];
491 DigitUint8
= (UINT8
) StrHexToUint64 (TemStr
);
492 if ((Index
& 1) == 0) {
493 Buf
[Index
/2] = DigitUint8
;
495 Buf
[Index
/2] = (UINT8
) ((DigitUint8
<< 4) + Buf
[Index
/2]);
500 Status
= EFI_SUCCESS
;
511 This function merges DefaultAltCfgResp string into AltCfgResp string for
512 the missing AltCfgId in AltCfgResq.
514 @param AltCfgResp Pointer to a null-terminated Unicode string in
515 <ConfigAltResp> format. The default value string
516 will be merged into it.
517 @param DefaultAltCfgResp Pointer to a null-terminated Unicode string in
518 <MultiConfigAltResp> format. The default value
519 string may contain more than one ConfigAltResp
520 string for the different varstore buffer.
522 @retval EFI_SUCCESS The merged string returns.
523 @retval EFI_INVALID_PARAMETER *AltCfgResp is to NULL.
528 IN OUT EFI_STRING
*AltCfgResp
,
529 IN EFI_STRING DefaultAltCfgResp
532 EFI_STRING StringPtrDefault
;
533 EFI_STRING StringPtrEnd
;
535 EFI_STRING StringPtr
;
536 EFI_STRING AltConfigHdr
;
538 UINTN SizeAltCfgResp
;
540 if (*AltCfgResp
== NULL
) {
541 return EFI_INVALID_PARAMETER
;
545 // Get the requestr ConfigHdr
548 StringPtr
= *AltCfgResp
;
551 // Find <ConfigHdr> GUID=...&NAME=...&PATH=...
553 if (StrnCmp (StringPtr
, L
"GUID=", StrLen (L
"GUID=")) != 0) {
554 return EFI_INVALID_PARAMETER
;
556 while (*StringPtr
!= L
'\0' && StrnCmp (StringPtr
, L
"&NAME=", StrLen (L
"&NAME=")) != 0) {
559 while (*StringPtr
!= L
'\0' && StrnCmp (StringPtr
, L
"&PATH=", StrLen (L
"&PATH=")) != 0) {
562 if (*StringPtr
== L
'\0') {
563 return EFI_INVALID_PARAMETER
;
565 StringPtr
+= StrLen (L
"&PATH=");
566 while (*StringPtr
!= L
'\0' && *StringPtr
!= L
'&') {
569 HeaderLength
= StringPtr
- *AltCfgResp
;
572 // Construct AltConfigHdr string "&<ConfigHdr>&ALTCFG=XXXX\0"
573 // |1| StrLen (ConfigHdr) | 8 | 4 | 1 |
575 AltConfigHdr
= AllocateZeroPool ((1 + HeaderLength
+ 8 + 4 + 1) * sizeof (CHAR16
));
576 if (AltConfigHdr
== NULL
) {
577 return EFI_OUT_OF_RESOURCES
;
579 StrCpy (AltConfigHdr
, L
"&");
580 StrnCat (AltConfigHdr
, *AltCfgResp
, HeaderLength
);
581 StrCat (AltConfigHdr
, L
"&ALTCFG=");
582 HeaderLength
= StrLen (AltConfigHdr
);
584 StringPtrDefault
= StrStr (DefaultAltCfgResp
, AltConfigHdr
);
585 while (StringPtrDefault
!= NULL
) {
589 StrnCat (AltConfigHdr
, StringPtrDefault
+ HeaderLength
, 4);
590 StringPtr
= StrStr (*AltCfgResp
, AltConfigHdr
);
593 // Append the found default value string to the input AltCfgResp
595 if (StringPtr
== NULL
) {
596 StringPtrEnd
= StrStr (StringPtrDefault
+ 1, L
"&GUID");
597 SizeAltCfgResp
= StrSize (*AltCfgResp
);
598 if (StringPtrEnd
== NULL
) {
600 // No more default string is found.
602 *AltCfgResp
= (EFI_STRING
) ReallocatePool (
604 SizeAltCfgResp
+ StrSize (StringPtrDefault
),
605 (VOID
*) (*AltCfgResp
)
607 if (*AltCfgResp
== NULL
) {
608 FreePool (AltConfigHdr
);
609 return EFI_OUT_OF_RESOURCES
;
611 StrCat (*AltCfgResp
, StringPtrDefault
);
614 TempChar
= *StringPtrEnd
;
615 *StringPtrEnd
= L
'\0';
616 *AltCfgResp
= (EFI_STRING
) ReallocatePool (
618 SizeAltCfgResp
+ StrSize (StringPtrDefault
),
619 (VOID
*) (*AltCfgResp
)
621 if (*AltCfgResp
== NULL
) {
622 FreePool (AltConfigHdr
);
623 return EFI_OUT_OF_RESOURCES
;
625 StrCat (*AltCfgResp
, StringPtrDefault
);
626 *StringPtrEnd
= TempChar
;
631 // Find next AltCfg String
633 *(AltConfigHdr
+ HeaderLength
) = L
'\0';
634 StringPtrDefault
= StrStr (StringPtrDefault
+ 1, AltConfigHdr
);
637 FreePool (AltConfigHdr
);
642 This function inserts new DefaultValueData into the BlockData DefaultValue array.
644 @param BlockData The BlockData is updated to add new default value.
645 @param DefaultValueData The DefaultValue is added.
650 IN IFR_BLOCK_DATA
*BlockData
,
651 IN IFR_DEFAULT_DATA
*DefaultValueData
655 IFR_DEFAULT_DATA
*DefaultValueArray
;
656 LIST_ENTRY
*DefaultLink
;
658 DefaultLink
= &BlockData
->DefaultValueEntry
;
660 for (Link
= DefaultLink
->ForwardLink
; Link
!= DefaultLink
; Link
= Link
->ForwardLink
) {
661 DefaultValueArray
= BASE_CR (Link
, IFR_DEFAULT_DATA
, Entry
);
662 if (DefaultValueArray
->DefaultId
== DefaultValueData
->DefaultId
) {
664 // DEFAULT_VALUE_FROM_OPCODE has high priority, DEFAULT_VALUE_FROM_DEFAULT has low priority.
666 if (DefaultValueData
->Type
> DefaultValueArray
->Type
) {
668 // Update the default value array in BlockData.
670 CopyMem (&DefaultValueArray
->Value
, &DefaultValueData
->Value
, sizeof (EFI_IFR_TYPE_VALUE
));
671 DefaultValueArray
->Type
= DefaultValueData
->Type
;
672 DefaultValueArray
->Cleaned
= DefaultValueData
->Cleaned
;
679 // Insert new default value data in tail.
681 DefaultValueArray
= AllocateZeroPool (sizeof (IFR_DEFAULT_DATA
));
682 ASSERT (DefaultValueArray
!= NULL
);
683 CopyMem (DefaultValueArray
, DefaultValueData
, sizeof (IFR_DEFAULT_DATA
));
684 InsertTailList (Link
, &DefaultValueArray
->Entry
);
688 This function inserts new BlockData into the block link
690 @param BlockLink The list entry points to block array.
691 @param BlockData The point to BlockData is added.
696 IN LIST_ENTRY
*BlockLink
,
697 IN IFR_BLOCK_DATA
**BlockData
701 IFR_BLOCK_DATA
*BlockArray
;
702 IFR_BLOCK_DATA
*BlockSingleData
;
704 BlockSingleData
= *BlockData
;
706 if (BlockSingleData
->Name
!= NULL
) {
707 InsertTailList (BlockLink
, &BlockSingleData
->Entry
);
712 // Insert block data in its Offset and Width order.
714 for (Link
= BlockLink
->ForwardLink
; Link
!= BlockLink
; Link
= Link
->ForwardLink
) {
715 BlockArray
= BASE_CR (Link
, IFR_BLOCK_DATA
, Entry
);
716 if (BlockArray
->Offset
== BlockSingleData
->Offset
) {
717 if (BlockArray
->Width
> BlockSingleData
->Width
) {
719 // Insert this block data in the front of block array
721 InsertTailList (Link
, &BlockSingleData
->Entry
);
725 if (BlockArray
->Width
== BlockSingleData
->Width
) {
727 // The same block array has been added.
729 if (BlockSingleData
!= BlockArray
) {
730 FreePool (BlockSingleData
);
731 *BlockData
= BlockArray
;
735 } else if (BlockArray
->Offset
> BlockSingleData
->Offset
) {
737 // Insert new block data in the front of block array
739 InsertTailList (Link
, &BlockSingleData
->Entry
);
745 // Add new block data into the tail.
747 InsertTailList (Link
, &BlockSingleData
->Entry
);
751 Retrieves a pointer to the a Null-terminated ASCII string containing the list
752 of languages that an HII handle in the HII Database supports. The returned
753 string is allocated using AllocatePool(). The caller is responsible for freeing
754 the returned string using FreePool(). The format of the returned string follows
755 the language format assumed the HII Database.
757 If HiiHandle is NULL, then ASSERT().
759 @param[in] HiiHandle A handle that was previously registered in the HII Database.
761 @retval NULL HiiHandle is not registered in the HII database
762 @retval NULL There are not enough resources available to retrieve the suported
764 @retval NULL The list of suported languages could not be retrieved.
765 @retval Other A pointer to the Null-terminated ASCII string of supported languages.
769 GetSupportedLanguages (
770 IN EFI_HII_HANDLE HiiHandle
775 CHAR8 TempSupportedLanguages
;
776 CHAR8
*SupportedLanguages
;
778 ASSERT (HiiHandle
!= NULL
);
781 // Retrieve the size required for the supported languages buffer.
784 Status
= mPrivate
.HiiString
.GetLanguages (&mPrivate
.HiiString
, HiiHandle
, &TempSupportedLanguages
, &LanguageSize
);
787 // If GetLanguages() returns EFI_SUCCESS for a zero size,
788 // then there are no supported languages registered for HiiHandle. If GetLanguages()
789 // returns an error other than EFI_BUFFER_TOO_SMALL, then HiiHandle is not present
790 // in the HII Database
792 if (Status
!= EFI_BUFFER_TOO_SMALL
) {
794 // Return NULL if the size can not be retrieved, or if HiiHandle is not in the HII Database
800 // Allocate the supported languages buffer.
802 SupportedLanguages
= AllocateZeroPool (LanguageSize
);
803 if (SupportedLanguages
== NULL
) {
805 // Return NULL if allocation fails.
811 // Retrieve the supported languages string
813 Status
= mPrivate
.HiiString
.GetLanguages (&mPrivate
.HiiString
, HiiHandle
, SupportedLanguages
, &LanguageSize
);
814 if (EFI_ERROR (Status
)) {
816 // Free the buffer and return NULL if the supported languages can not be retrieved.
818 FreePool (SupportedLanguages
);
823 // Return the Null-terminated ASCII string of supported languages
825 return SupportedLanguages
;
829 Retrieves a string from a string package.
831 If HiiHandle is NULL, then ASSERT().
832 If StringId is 0, then ASSET.
834 @param[in] HiiHandle A handle that was previously registered in the HII Database.
835 @param[in] StringId The identifier of the string to retrieved from the string
836 package associated with HiiHandle.
838 @retval NULL The string specified by StringId is not present in the string package.
839 @retval Other The string was returned.
844 IN EFI_HII_HANDLE HiiHandle
,
845 IN EFI_STRING_ID StringId
852 CHAR8
*SupportedLanguages
;
853 CHAR8
*PlatformLanguage
;
857 ASSERT (HiiHandle
!= NULL
);
858 ASSERT (StringId
!= 0);
861 // Initialize all allocated buffers to NULL
863 SupportedLanguages
= NULL
;
864 PlatformLanguage
= NULL
;
870 // Get the languages that the package specified by HiiHandle supports
872 SupportedLanguages
= GetSupportedLanguages (HiiHandle
);
873 if (SupportedLanguages
== NULL
) {
878 // Get the current platform language setting
880 GetEfiGlobalVariable2 (L
"PlatformLang", (VOID
**)&PlatformLanguage
, NULL
);
883 // Get the best matching language from SupportedLanguages
885 BestLanguage
= GetBestLanguage (
887 FALSE
, // RFC 4646 mode
888 Language
, // Highest priority
889 PlatformLanguage
!= NULL
? PlatformLanguage
: "", // Next highest priority
890 SupportedLanguages
, // Lowest priority
893 if (BestLanguage
== NULL
) {
898 // Retrieve the size of the string in the string package for the BestLanguage
901 Status
= mPrivate
.HiiString
.GetString (
911 // If GetString() returns EFI_SUCCESS for a zero size,
912 // then there are no supported languages registered for HiiHandle. If GetString()
913 // returns an error other than EFI_BUFFER_TOO_SMALL, then HiiHandle is not present
914 // in the HII Database
916 if (Status
!= EFI_BUFFER_TOO_SMALL
) {
921 // Allocate a buffer for the return string
923 String
= AllocateZeroPool (StringSize
);
924 if (String
== NULL
) {
929 // Retrieve the string from the string package
931 Status
= mPrivate
.HiiString
.GetString (
940 if (EFI_ERROR (Status
)) {
942 // Free the buffer and return NULL if the supported languages can not be retrieved.
950 // Free allocated buffers
952 if (SupportedLanguages
!= NULL
) {
953 FreePool (SupportedLanguages
);
955 if (PlatformLanguage
!= NULL
) {
956 FreePool (PlatformLanguage
);
958 if (BestLanguage
!= NULL
) {
959 FreePool (BestLanguage
);
963 // Return the Null-terminated Unicode string
969 This function checks VarOffset and VarWidth is in the block range.
971 @param RequestBlockArray The block array is to be checked.
972 @param VarOffset Offset of var to the structure
973 @param VarWidth Width of var.
974 @param IsNameValueType Whether this varstore is name/value varstore or not.
975 @param HiiHandle Hii handle for this hii package.
977 @retval TRUE This Var is in the block range.
978 @retval FALSE This Var is not in the block range.
982 IN IFR_BLOCK_DATA
*RequestBlockArray
,
985 IN BOOLEAN IsNameValueType
,
986 IN EFI_HII_HANDLE HiiHandle
990 IFR_BLOCK_DATA
*BlockData
;
994 // No Request Block array, all vars are got.
996 if (RequestBlockArray
== NULL
) {
1001 // Check the input var is in the request block range.
1003 for (Link
= RequestBlockArray
->Entry
.ForwardLink
; Link
!= &RequestBlockArray
->Entry
; Link
= Link
->ForwardLink
) {
1004 BlockData
= BASE_CR (Link
, IFR_BLOCK_DATA
, Entry
);
1006 if (IsNameValueType
) {
1007 Name
= InternalGetString (HiiHandle
, VarOffset
);
1008 ASSERT (Name
!= NULL
);
1010 if (StrnCmp (BlockData
->Name
, Name
, StrLen (Name
)) == 0) {
1016 if ((VarOffset
>= BlockData
->Offset
) && ((VarOffset
+ VarWidth
) <= (BlockData
->Offset
+ BlockData
->Width
))) {
1026 Get form package data from data base.
1028 @param DataBaseRecord The DataBaseRecord instance contains the found Hii handle and package.
1029 @param HiiFormPackage The buffer saves the package data.
1030 @param PackageSize The buffer size of the package data.
1034 GetFormPackageData (
1035 IN HII_DATABASE_RECORD
*DataBaseRecord
,
1036 IN OUT UINT8
**HiiFormPackage
,
1037 OUT UINTN
*PackageSize
1044 if (DataBaseRecord
== NULL
|| HiiFormPackage
== NULL
|| PackageSize
== NULL
) {
1045 return EFI_INVALID_PARAMETER
;
1051 // 0. Get Hii Form Package by HiiHandle
1053 Status
= ExportFormPackages (
1055 DataBaseRecord
->Handle
,
1056 DataBaseRecord
->PackageList
,
1062 if (EFI_ERROR (Status
)) {
1066 (*HiiFormPackage
) = AllocatePool (ResultSize
);
1067 if (*HiiFormPackage
== NULL
) {
1068 Status
= EFI_OUT_OF_RESOURCES
;
1073 // Get HiiFormPackage by HiiHandle
1077 Status
= ExportFormPackages (
1079 DataBaseRecord
->Handle
,
1080 DataBaseRecord
->PackageList
,
1086 if (EFI_ERROR (Status
)) {
1087 FreePool (*HiiFormPackage
);
1090 *PackageSize
= Size
;
1097 This function parses Form Package to get the efi varstore info according to the request ConfigHdr.
1099 @param DataBaseRecord The DataBaseRecord instance contains the found Hii handle and package.
1100 @param ConfigHdr Request string ConfigHdr. If it is NULL,
1101 the first found varstore will be as ConfigHdr.
1102 @param IsEfiVarstore Whether the request storage type is efi varstore type.
1103 @param EfiVarStore The efi varstore info which will return.
1107 IN HII_DATABASE_RECORD
*DataBaseRecord
,
1108 IN EFI_STRING ConfigHdr
,
1109 OUT BOOLEAN
*IsEfiVarstore
,
1110 OUT EFI_IFR_VARSTORE_EFI
**EfiVarStore
1115 UINTN PackageOffset
;
1116 EFI_IFR_OP_HEADER
*IfrOpHdr
;
1117 CHAR16
*VarStoreName
;
1122 UINT8
*HiiFormPackage
;
1124 EFI_IFR_VARSTORE_EFI
*IfrEfiVarStore
;
1125 EFI_HII_PACKAGE_HEADER
*PackageHeader
;
1127 HiiFormPackage
= NULL
;
1129 Status
= EFI_SUCCESS
;
1133 *IsEfiVarstore
= FALSE
;
1135 Status
= GetFormPackageData(DataBaseRecord
, &HiiFormPackage
, &PackageSize
);
1136 if (EFI_ERROR (Status
)) {
1140 IfrOffset
= sizeof (EFI_HII_PACKAGE_HEADER
);
1141 PackageOffset
= IfrOffset
;
1142 PackageHeader
= (EFI_HII_PACKAGE_HEADER
*) HiiFormPackage
;
1144 while (IfrOffset
< PackageSize
) {
1146 // More than one form packages exist.
1148 if (PackageOffset
>= PackageHeader
->Length
) {
1150 // Process the new form package.
1152 PackageOffset
= sizeof (EFI_HII_PACKAGE_HEADER
);
1153 IfrOffset
+= PackageOffset
;
1154 PackageHeader
= (EFI_HII_PACKAGE_HEADER
*) (HiiFormPackage
+ IfrOffset
);
1157 IfrOpHdr
= (EFI_IFR_OP_HEADER
*) (HiiFormPackage
+ IfrOffset
);
1158 IfrOffset
+= IfrOpHdr
->Length
;
1159 PackageOffset
+= IfrOpHdr
->Length
;
1161 if (IfrOpHdr
->OpCode
== EFI_IFR_VARSTORE_EFI_OP
) {
1162 IfrEfiVarStore
= (EFI_IFR_VARSTORE_EFI
*) IfrOpHdr
;
1164 // If the length is small than the structure, this is from old efi
1165 // varstore definition. Old efi varstore get config directly from
1166 // GetVariable function.
1168 if (IfrOpHdr
->Length
< sizeof (EFI_IFR_VARSTORE_EFI
)) {
1172 VarStoreName
= AllocateZeroPool (AsciiStrSize ((CHAR8
*)IfrEfiVarStore
->Name
) * sizeof (CHAR16
));
1173 if (VarStoreName
== NULL
) {
1174 Status
= EFI_OUT_OF_RESOURCES
;
1177 AsciiStrToUnicodeStr ((CHAR8
*) IfrEfiVarStore
->Name
, VarStoreName
);
1179 GenerateSubStr (L
"GUID=", sizeof (EFI_GUID
), (VOID
*) &IfrEfiVarStore
->Guid
, 1, &GuidStr
);
1180 GenerateSubStr (L
"NAME=", StrLen (VarStoreName
) * sizeof (CHAR16
), (VOID
*) VarStoreName
, 2, &NameStr
);
1181 LengthString
= StrLen (GuidStr
);
1182 LengthString
= LengthString
+ StrLen (NameStr
) + 1;
1183 TempStr
= AllocateZeroPool (LengthString
* sizeof (CHAR16
));
1184 if (TempStr
== NULL
) {
1187 FreePool (VarStoreName
);
1188 Status
= EFI_OUT_OF_RESOURCES
;
1191 StrCpy (TempStr
, GuidStr
);
1192 StrCat (TempStr
, NameStr
);
1193 if (ConfigHdr
== NULL
|| StrnCmp (ConfigHdr
, TempStr
, StrLen (TempStr
)) == 0) {
1194 *EfiVarStore
= (EFI_IFR_VARSTORE_EFI
*) AllocateZeroPool (IfrOpHdr
->Length
);
1195 if (*EfiVarStore
== NULL
) {
1196 FreePool (VarStoreName
);
1200 Status
= EFI_OUT_OF_RESOURCES
;
1203 *IsEfiVarstore
= TRUE
;
1204 CopyMem (*EfiVarStore
, IfrEfiVarStore
, IfrOpHdr
->Length
);
1208 // Free alllocated temp string.
1210 FreePool (VarStoreName
);
1216 // Already found the varstore, break;
1218 if (*IsEfiVarstore
) {
1224 if (HiiFormPackage
!= NULL
) {
1225 FreePool (HiiFormPackage
);
1232 Check whether the ConfigRequest string has the request elements.
1233 For EFI_HII_VARSTORE_BUFFER type, the request has "&OFFSET=****&WIDTH=****..." format.
1234 For EFI_HII_VARSTORE_NAME_VALUE type, the request has "&NAME1**&NAME2..." format.
1236 @param ConfigRequest The input config request string.
1238 @retval TRUE The input include config request elements.
1239 @retval FALSE The input string not includes.
1243 GetElementsFromRequest (
1244 IN EFI_STRING ConfigRequest
1247 EFI_STRING TmpRequest
;
1249 TmpRequest
= StrStr (ConfigRequest
, L
"PATH=");
1250 ASSERT (TmpRequest
!= NULL
);
1252 if ((StrStr (TmpRequest
, L
"&OFFSET=") != NULL
) || (StrStr (TmpRequest
, L
"&") != NULL
)) {
1260 Check whether the this varstore is the request varstore.
1262 @param VarstoreGuid Varstore guid.
1263 @param Name Varstore name.
1264 @param ConfigHdr Current configRequest info.
1266 @retval TRUE This varstore is the requst one.
1267 @retval FALSE This varstore is not the requst one.
1272 IN EFI_GUID
*VarstoreGuid
,
1274 IN CHAR16
*ConfigHdr
1288 // If ConfigHdr has name field and varstore not has name, return FALSE.
1290 if (Name
== NULL
&& ConfigHdr
!= NULL
&& StrStr (ConfigHdr
, L
"NAME=&") == NULL
) {
1294 GenerateSubStr (L
"GUID=", sizeof (EFI_GUID
), (VOID
*)VarstoreGuid
, 1, &GuidStr
);
1296 GenerateSubStr (L
"NAME=", StrLen (Name
) * sizeof (CHAR16
), (VOID
*) Name
, 2, &NameStr
);
1298 GenerateSubStr (L
"NAME=", 0, NULL
, 2, &NameStr
);
1300 LengthString
= StrLen (GuidStr
);
1301 LengthString
= LengthString
+ StrLen (NameStr
) + 1;
1302 TempStr
= AllocateZeroPool (LengthString
* sizeof (CHAR16
));
1303 if (TempStr
== NULL
) {
1307 StrCpy (TempStr
, GuidStr
);
1308 StrCat (TempStr
, NameStr
);
1310 if (ConfigHdr
== NULL
|| StrnCmp (ConfigHdr
, TempStr
, StrLen (TempStr
)) == 0) {
1315 if (GuidStr
!= NULL
) {
1319 if (NameStr
!= NULL
) {
1323 if (TempStr
!= NULL
) {
1331 This function parses Form Package to get the efi varstore info according to the request ConfigHdr.
1333 @param DataBaseRecord The DataBaseRecord instance contains the found Hii handle and package.
1334 @param ConfigHdr Request string ConfigHdr. If it is NULL,
1335 the first found varstore will be as ConfigHdr.
1336 @retval TRUE This hii package is the reqeust one.
1337 @retval FALSE This hii package is not the reqeust one.
1341 IN HII_DATABASE_RECORD
*DataBaseRecord
,
1342 IN EFI_STRING ConfigHdr
1347 UINTN PackageOffset
;
1348 EFI_IFR_OP_HEADER
*IfrOpHdr
;
1349 CHAR16
*VarStoreName
;
1350 UINT8
*HiiFormPackage
;
1352 EFI_IFR_VARSTORE_EFI
*IfrEfiVarStore
;
1353 EFI_HII_PACKAGE_HEADER
*PackageHeader
;
1354 EFI_IFR_VARSTORE
*IfrVarStore
;
1355 EFI_IFR_VARSTORE_NAME_VALUE
*IfrNameValueVarStore
;
1356 BOOLEAN FindVarstore
;
1358 HiiFormPackage
= NULL
;
1359 VarStoreName
= NULL
;
1360 Status
= EFI_SUCCESS
;
1361 FindVarstore
= FALSE
;
1363 Status
= GetFormPackageData(DataBaseRecord
, &HiiFormPackage
, &PackageSize
);
1364 if (EFI_ERROR (Status
)) {
1368 IfrOffset
= sizeof (EFI_HII_PACKAGE_HEADER
);
1369 PackageOffset
= IfrOffset
;
1370 PackageHeader
= (EFI_HII_PACKAGE_HEADER
*) HiiFormPackage
;
1372 while (IfrOffset
< PackageSize
) {
1374 // More than one form packages exist.
1376 if (PackageOffset
>= PackageHeader
->Length
) {
1378 // Process the new form package.
1380 PackageOffset
= sizeof (EFI_HII_PACKAGE_HEADER
);
1381 IfrOffset
+= PackageOffset
;
1382 PackageHeader
= (EFI_HII_PACKAGE_HEADER
*) (HiiFormPackage
+ IfrOffset
);
1385 IfrOpHdr
= (EFI_IFR_OP_HEADER
*) (HiiFormPackage
+ IfrOffset
);
1386 IfrOffset
+= IfrOpHdr
->Length
;
1387 PackageOffset
+= IfrOpHdr
->Length
;
1389 switch (IfrOpHdr
->OpCode
) {
1391 case EFI_IFR_VARSTORE_OP
:
1392 IfrVarStore
= (EFI_IFR_VARSTORE
*) IfrOpHdr
;
1394 VarStoreName
= AllocateZeroPool (AsciiStrSize ((CHAR8
*)IfrVarStore
->Name
) * sizeof (CHAR16
));
1395 if (VarStoreName
== NULL
) {
1398 AsciiStrToUnicodeStr ((CHAR8
*)IfrVarStore
->Name
, VarStoreName
);
1400 if (IsThisVarstore((VOID
*)&IfrVarStore
->Guid
, VarStoreName
, ConfigHdr
)) {
1401 FindVarstore
= TRUE
;
1406 case EFI_IFR_VARSTORE_EFI_OP
:
1407 IfrEfiVarStore
= (EFI_IFR_VARSTORE_EFI
*) IfrOpHdr
;
1408 VarStoreName
= AllocateZeroPool (AsciiStrSize ((CHAR8
*)IfrEfiVarStore
->Name
) * sizeof (CHAR16
));
1409 if (VarStoreName
== NULL
) {
1412 AsciiStrToUnicodeStr ((CHAR8
*)IfrEfiVarStore
->Name
, VarStoreName
);
1414 if (IsThisVarstore (&IfrEfiVarStore
->Guid
, VarStoreName
, ConfigHdr
)) {
1415 FindVarstore
= TRUE
;
1420 case EFI_IFR_VARSTORE_NAME_VALUE_OP
:
1421 IfrNameValueVarStore
= (EFI_IFR_VARSTORE_NAME_VALUE
*) IfrOpHdr
;
1423 if (IsThisVarstore (&IfrNameValueVarStore
->Guid
, NULL
, ConfigHdr
)) {
1424 FindVarstore
= TRUE
;
1429 case EFI_IFR_FORM_OP
:
1430 case EFI_IFR_FORM_MAP_OP
:
1432 // No matched varstore is found and directly return.
1441 if (HiiFormPackage
!= NULL
) {
1442 FreePool (HiiFormPackage
);
1445 if (VarStoreName
!= NULL
) {
1446 FreePool (VarStoreName
);
1449 return FindVarstore
;
1453 Check whether the this op code is required.
1455 @param RequestBlockArray The array includes all the request info or NULL.
1456 @param HiiHandle The hii handle for this form package.
1457 @param VarStorageData The varstore data strucure.
1458 @param IfrOpHdr Ifr opcode header for this opcode.
1459 @param VarWidth The buffer width for this opcode.
1460 @param ReturnData The data block added for this opcode.
1462 @retval EFI_SUCCESS This opcode is required.
1463 @retval Others This opcode is not required or error occur.
1467 IsThisOpcodeRequired (
1468 IN IFR_BLOCK_DATA
*RequestBlockArray
,
1469 IN EFI_HII_HANDLE HiiHandle
,
1470 IN OUT IFR_VARSTORAGE_DATA
*VarStorageData
,
1471 IN EFI_IFR_OP_HEADER
*IfrOpHdr
,
1473 OUT IFR_BLOCK_DATA
**ReturnData
1476 IFR_BLOCK_DATA
*BlockData
;
1478 EFI_STRING_ID NameId
;
1479 EFI_IFR_QUESTION_HEADER
*IfrQuestionHdr
;
1483 IfrQuestionHdr
= (EFI_IFR_QUESTION_HEADER
*)((CHAR8
*) IfrOpHdr
+ sizeof (EFI_IFR_OP_HEADER
));
1485 if (VarStorageData
->Type
== EFI_HII_VARSTORE_NAME_VALUE
) {
1486 NameId
= IfrQuestionHdr
->VarStoreInfo
.VarName
;
1489 // Check whether this question is in requested block array.
1491 if (!BlockArrayCheck (RequestBlockArray
, NameId
, 0, TRUE
, HiiHandle
)) {
1493 // This question is not in the requested string. Skip it.
1498 VarOffset
= IfrQuestionHdr
->VarStoreInfo
.VarOffset
;
1501 // Check whether this question is in requested block array.
1503 if (!BlockArrayCheck (RequestBlockArray
, VarOffset
, VarWidth
, FALSE
, HiiHandle
)) {
1505 // This question is not in the requested string. Skip it.
1511 // Check this var question is in the var storage
1513 if (((VarOffset
+ VarWidth
) > VarStorageData
->Size
)) {
1514 return EFI_INVALID_PARAMETER
;
1518 BlockData
= (IFR_BLOCK_DATA
*) AllocateZeroPool (sizeof (IFR_BLOCK_DATA
));
1519 if (BlockData
== NULL
) {
1520 return EFI_OUT_OF_RESOURCES
;
1523 if (VarStorageData
->Type
== EFI_HII_VARSTORE_NAME_VALUE
) {
1524 BlockData
->Name
= InternalGetString(HiiHandle
, NameId
);
1526 BlockData
->Offset
= VarOffset
;
1529 BlockData
->Width
= VarWidth
;
1530 BlockData
->QuestionId
= IfrQuestionHdr
->QuestionId
;
1531 BlockData
->OpCode
= IfrOpHdr
->OpCode
;
1532 BlockData
->Scope
= IfrOpHdr
->Scope
;
1533 InitializeListHead (&BlockData
->DefaultValueEntry
);
1535 // Add Block Data into VarStorageData BlockEntry
1537 InsertBlockData (&VarStorageData
->BlockEntry
, &BlockData
);
1538 *ReturnData
= BlockData
;
1544 This function parses Form Package to get the block array and the default
1545 value array according to the request ConfigHdr.
1547 @param HiiHandle Hii Handle for this hii package.
1548 @param Package Pointer to the form package data.
1549 @param PackageLength Length of the pacakge.
1550 @param ConfigHdr Request string ConfigHdr. If it is NULL,
1551 the first found varstore will be as ConfigHdr.
1552 @param RequestBlockArray The block array is retrieved from the request string.
1553 @param VarStorageData VarStorage structure contains the got block and default value.
1554 @param DefaultIdArray Point to the got default id and default name array.
1556 @retval EFI_SUCCESS The block array and the default value array are got.
1557 @retval EFI_INVALID_PARAMETER The varstore defintion in the differnt form pacakges
1559 @retval EFI_OUT_OF_RESOURCES No enough memory.
1564 IN EFI_HII_HANDLE HiiHandle
,
1566 IN UINT32 PackageLength
,
1567 IN EFI_STRING ConfigHdr
,
1568 IN IFR_BLOCK_DATA
*RequestBlockArray
,
1569 IN OUT IFR_VARSTORAGE_DATA
*VarStorageData
,
1570 OUT IFR_DEFAULT_DATA
*DefaultIdArray
1575 UINTN PackageOffset
;
1576 EFI_IFR_VARSTORE
*IfrVarStore
;
1577 EFI_IFR_VARSTORE_EFI
*IfrEfiVarStore
;
1578 EFI_IFR_OP_HEADER
*IfrOpHdr
;
1579 EFI_IFR_ONE_OF
*IfrOneOf
;
1580 EFI_IFR_REF4
*IfrRef
;
1581 EFI_IFR_ONE_OF_OPTION
*IfrOneOfOption
;
1582 EFI_IFR_DEFAULT
*IfrDefault
;
1583 EFI_IFR_ORDERED_LIST
*IfrOrderedList
;
1584 EFI_IFR_CHECKBOX
*IfrCheckBox
;
1585 EFI_IFR_PASSWORD
*IfrPassword
;
1586 EFI_IFR_STRING
*IfrString
;
1587 EFI_IFR_DATE
*IfrDate
;
1588 EFI_IFR_TIME
*IfrTime
;
1589 IFR_DEFAULT_DATA DefaultData
;
1590 IFR_DEFAULT_DATA
*DefaultDataPtr
;
1591 IFR_BLOCK_DATA
*BlockData
;
1592 CHAR16
*VarStoreName
;
1594 UINT16 VarDefaultId
;
1595 BOOLEAN FirstOneOfOption
;
1596 LIST_ENTRY
*LinkData
;
1597 LIST_ENTRY
*LinkDefault
;
1598 EFI_IFR_VARSTORE_NAME_VALUE
*IfrNameValueVarStore
;
1599 EFI_HII_PACKAGE_HEADER
*PackageHeader
;
1600 EFI_VARSTORE_ID VarStoreId
;
1602 Status
= EFI_SUCCESS
;
1604 DefaultDataPtr
= NULL
;
1605 FirstOneOfOption
= FALSE
;
1607 ZeroMem (&DefaultData
, sizeof (IFR_DEFAULT_DATA
));
1610 // Go through the form package to parse OpCode one by one.
1612 PackageOffset
= sizeof (EFI_HII_PACKAGE_HEADER
);
1613 PackageHeader
= (EFI_HII_PACKAGE_HEADER
*) Package
;
1614 IfrOffset
= PackageOffset
;
1615 while (IfrOffset
< PackageLength
) {
1618 // More than one form package found.
1620 if (PackageOffset
>= PackageHeader
->Length
) {
1622 // Already found varstore for this request, break;
1624 if (VarStoreId
!= 0) {
1629 // Get next package header info.
1631 IfrOffset
+= sizeof (EFI_HII_PACKAGE_HEADER
);
1632 PackageOffset
= sizeof (EFI_HII_PACKAGE_HEADER
);
1633 PackageHeader
= (EFI_HII_PACKAGE_HEADER
*) (Package
+ IfrOffset
);
1636 IfrOpHdr
= (EFI_IFR_OP_HEADER
*) (Package
+ IfrOffset
);
1637 switch (IfrOpHdr
->OpCode
) {
1638 case EFI_IFR_VARSTORE_OP
:
1640 // VarStore is found. Don't need to search any more.
1642 if (VarStoreId
!= 0) {
1646 IfrVarStore
= (EFI_IFR_VARSTORE
*) IfrOpHdr
;
1648 VarStoreName
= AllocateZeroPool (AsciiStrSize ((CHAR8
*)IfrVarStore
->Name
) * sizeof (CHAR16
));
1649 if (VarStoreName
== NULL
) {
1650 Status
= EFI_OUT_OF_RESOURCES
;
1653 AsciiStrToUnicodeStr ((CHAR8
*)IfrVarStore
->Name
, VarStoreName
);
1655 if (IsThisVarstore((VOID
*)&IfrVarStore
->Guid
, VarStoreName
, ConfigHdr
)) {
1657 // Find the matched VarStore
1659 CopyGuid (&VarStorageData
->Guid
, (EFI_GUID
*) (VOID
*) &IfrVarStore
->Guid
);
1660 VarStorageData
->Size
= IfrVarStore
->Size
;
1661 VarStorageData
->Name
= VarStoreName
;
1662 VarStorageData
->Type
= EFI_HII_VARSTORE_BUFFER
;
1663 VarStoreId
= IfrVarStore
->VarStoreId
;
1667 case EFI_IFR_VARSTORE_EFI_OP
:
1669 // VarStore is found. Don't need to search any more.
1671 if (VarStoreId
!= 0) {
1675 IfrEfiVarStore
= (EFI_IFR_VARSTORE_EFI
*) IfrOpHdr
;
1678 // If the length is small than the structure, this is from old efi
1679 // varstore definition. Old efi varstore get config directly from
1680 // GetVariable function.
1682 if (IfrOpHdr
->Length
< sizeof (EFI_IFR_VARSTORE_EFI
)) {
1686 VarStoreName
= AllocateZeroPool (AsciiStrSize ((CHAR8
*)IfrEfiVarStore
->Name
) * sizeof (CHAR16
));
1687 if (VarStoreName
== NULL
) {
1688 Status
= EFI_OUT_OF_RESOURCES
;
1691 AsciiStrToUnicodeStr ((CHAR8
*)IfrEfiVarStore
->Name
, VarStoreName
);
1693 if (IsThisVarstore (&IfrEfiVarStore
->Guid
, VarStoreName
, ConfigHdr
)) {
1695 // Find the matched VarStore
1697 CopyGuid (&VarStorageData
->Guid
, (EFI_GUID
*) (VOID
*) &IfrEfiVarStore
->Guid
);
1698 VarStorageData
->Size
= IfrEfiVarStore
->Size
;
1699 VarStorageData
->Name
= VarStoreName
;
1700 VarStorageData
->Type
= EFI_HII_VARSTORE_EFI_VARIABLE_BUFFER
;
1701 VarStoreId
= IfrEfiVarStore
->VarStoreId
;
1705 case EFI_IFR_VARSTORE_NAME_VALUE_OP
:
1707 // VarStore is found. Don't need to search any more.
1709 if (VarStoreId
!= 0) {
1713 IfrNameValueVarStore
= (EFI_IFR_VARSTORE_NAME_VALUE
*) IfrOpHdr
;
1715 if (IsThisVarstore (&IfrNameValueVarStore
->Guid
, NULL
, ConfigHdr
)) {
1717 // Find the matched VarStore
1719 CopyGuid (&VarStorageData
->Guid
, (EFI_GUID
*) (VOID
*) &IfrNameValueVarStore
->Guid
);
1720 VarStorageData
->Type
= EFI_HII_VARSTORE_NAME_VALUE
;
1721 VarStoreId
= IfrNameValueVarStore
->VarStoreId
;
1725 case EFI_IFR_DEFAULTSTORE_OP
:
1727 // Add new the map between default id and default name.
1729 DefaultDataPtr
= (IFR_DEFAULT_DATA
*) AllocateZeroPool (sizeof (IFR_DEFAULT_DATA
));
1730 if (DefaultDataPtr
== NULL
) {
1731 Status
= EFI_OUT_OF_RESOURCES
;
1734 DefaultDataPtr
->DefaultId
= ((EFI_IFR_DEFAULTSTORE
*) IfrOpHdr
)->DefaultId
;
1735 InsertTailList (&DefaultIdArray
->Entry
, &DefaultDataPtr
->Entry
);
1736 DefaultDataPtr
= NULL
;
1739 case EFI_IFR_FORM_OP
:
1740 case EFI_IFR_FORM_MAP_OP
:
1742 // No matched varstore is found and directly return.
1744 if ( VarStoreId
== 0) {
1745 Status
= EFI_SUCCESS
;
1750 case EFI_IFR_REF_OP
:
1752 // Ref question is not in IFR Form. This IFR form is not valid.
1754 if ( VarStoreId
== 0) {
1755 Status
= EFI_INVALID_PARAMETER
;
1759 // Check whether this question is for the requested varstore.
1761 IfrRef
= (EFI_IFR_REF4
*) IfrOpHdr
;
1762 if (IfrRef
->Question
.VarStoreId
!= VarStoreId
) {
1765 VarWidth
= (UINT16
) (sizeof (EFI_HII_REF
));
1767 Status
= IsThisOpcodeRequired(RequestBlockArray
, HiiHandle
, VarStorageData
, IfrOpHdr
, VarWidth
, &BlockData
);
1768 if (EFI_ERROR (Status
)) {
1773 case EFI_IFR_ONE_OF_OP
:
1774 case EFI_IFR_NUMERIC_OP
:
1776 // Numeric and OneOf has the same opcode structure.
1780 // Numeric and OneOf question is not in IFR Form. This IFR form is not valid.
1782 if (VarStoreId
== 0) {
1783 Status
= EFI_INVALID_PARAMETER
;
1787 // Check whether this question is for the requested varstore.
1789 IfrOneOf
= (EFI_IFR_ONE_OF
*) IfrOpHdr
;
1790 if (IfrOneOf
->Question
.VarStoreId
!= VarStoreId
) {
1793 VarWidth
= (UINT16
) (1 << (IfrOneOf
->Flags
& EFI_IFR_NUMERIC_SIZE
));
1795 Status
= IsThisOpcodeRequired(RequestBlockArray
, HiiHandle
, VarStorageData
, IfrOpHdr
, VarWidth
, &BlockData
);
1796 if (EFI_ERROR (Status
)) {
1800 if (BlockData
== NULL
) {
1802 // BlockData == NULL means this opcode is not in the requst array.
1807 if (IfrOpHdr
->OpCode
== EFI_IFR_ONE_OF_OP
) {
1809 // Set this flag to TRUE for the first oneof option.
1811 FirstOneOfOption
= TRUE
;
1812 } else if (IfrOpHdr
->OpCode
== EFI_IFR_NUMERIC_OP
) {
1814 // Numeric minimum value will be used as default value when no default is specified.
1816 DefaultData
.Type
= DefaultValueFromDefault
;
1817 switch (IfrOneOf
->Flags
& EFI_IFR_NUMERIC_SIZE
) {
1818 case EFI_IFR_NUMERIC_SIZE_1
:
1819 DefaultData
.Value
.u8
= IfrOneOf
->data
.u8
.MinValue
;
1822 case EFI_IFR_NUMERIC_SIZE_2
:
1823 CopyMem (&DefaultData
.Value
.u16
, &IfrOneOf
->data
.u16
.MinValue
, sizeof (UINT16
));
1826 case EFI_IFR_NUMERIC_SIZE_4
:
1827 CopyMem (&DefaultData
.Value
.u32
, &IfrOneOf
->data
.u32
.MinValue
, sizeof (UINT32
));
1830 case EFI_IFR_NUMERIC_SIZE_8
:
1831 CopyMem (&DefaultData
.Value
.u64
, &IfrOneOf
->data
.u64
.MinValue
, sizeof (UINT64
));
1835 Status
= EFI_INVALID_PARAMETER
;
1839 // Set default value base on the DefaultId list get from IFR data.
1841 for (LinkData
= DefaultIdArray
->Entry
.ForwardLink
; LinkData
!= &DefaultIdArray
->Entry
; LinkData
= LinkData
->ForwardLink
) {
1842 DefaultDataPtr
= BASE_CR (LinkData
, IFR_DEFAULT_DATA
, Entry
);
1843 DefaultData
.DefaultId
= DefaultDataPtr
->DefaultId
;
1844 InsertDefaultValue (BlockData
, &DefaultData
);
1849 case EFI_IFR_ORDERED_LIST_OP
:
1851 // offset by question header
1852 // width by EFI_IFR_ORDERED_LIST MaxContainers * OneofOption Type
1853 // no default value and default id, how to define its default value?
1857 // OrderedList question is not in IFR Form. This IFR form is not valid.
1859 if (VarStoreId
== 0) {
1860 Status
= EFI_INVALID_PARAMETER
;
1864 // Check whether this question is for the requested varstore.
1866 IfrOrderedList
= (EFI_IFR_ORDERED_LIST
*) IfrOpHdr
;
1867 if (IfrOrderedList
->Question
.VarStoreId
!= VarStoreId
) {
1871 VarWidth
= IfrOrderedList
->MaxContainers
;
1872 Status
= IsThisOpcodeRequired(RequestBlockArray
, HiiHandle
, VarStorageData
, IfrOpHdr
, VarWidth
, &BlockData
);
1873 if (EFI_ERROR (Status
)) {
1878 case EFI_IFR_CHECKBOX_OP
:
1880 // EFI_IFR_DEFAULT_OP
1881 // offset by question header
1882 // width is 1 sizeof (BOOLEAN)
1883 // default id by CheckBox Flags if CheckBox flags (Default or Mau) is set, the default value is 1 to be set.
1884 // value by DefaultOption
1885 // default id by DeaultOption DefaultId can override CheckBox Flags and Default value.
1889 // CheckBox question is not in IFR Form. This IFR form is not valid.
1891 if (VarStoreId
== 0) {
1892 Status
= EFI_INVALID_PARAMETER
;
1896 // Check whether this question is for the requested varstore.
1898 IfrCheckBox
= (EFI_IFR_CHECKBOX
*) IfrOpHdr
;
1899 if (IfrCheckBox
->Question
.VarStoreId
!= VarStoreId
) {
1902 VarWidth
= (UINT16
) sizeof (BOOLEAN
);
1903 Status
= IsThisOpcodeRequired(RequestBlockArray
, HiiHandle
, VarStorageData
, IfrOpHdr
, VarWidth
, &BlockData
);
1904 if (EFI_ERROR (Status
)) {
1908 if (BlockData
== NULL
) {
1910 // BlockData == NULL means this opcode is not in the requst array.
1916 // Add default value for standard ID by CheckBox Flag
1918 VarDefaultId
= EFI_HII_DEFAULT_CLASS_STANDARD
;
1920 // Prepare new DefaultValue
1922 DefaultData
.DefaultId
= VarDefaultId
;
1923 if ((IfrCheckBox
->Flags
& EFI_IFR_CHECKBOX_DEFAULT
) == EFI_IFR_CHECKBOX_DEFAULT
) {
1925 // When flag is set, defautl value is TRUE.
1927 DefaultData
.Type
= DefaultValueFromFlag
;
1928 DefaultData
.Value
.b
= TRUE
;
1931 // When flag is not set, defautl value is FASLE.
1933 DefaultData
.Type
= DefaultValueFromDefault
;
1934 DefaultData
.Value
.b
= FALSE
;
1937 // Add DefaultValue into current BlockData
1939 InsertDefaultValue (BlockData
, &DefaultData
);
1942 // Add default value for Manufacture ID by CheckBox Flag
1944 VarDefaultId
= EFI_HII_DEFAULT_CLASS_MANUFACTURING
;
1946 // Prepare new DefaultValue
1948 DefaultData
.DefaultId
= VarDefaultId
;
1949 if ((IfrCheckBox
->Flags
& EFI_IFR_CHECKBOX_DEFAULT_MFG
) == EFI_IFR_CHECKBOX_DEFAULT_MFG
) {
1951 // When flag is set, defautl value is TRUE.
1953 DefaultData
.Type
= DefaultValueFromFlag
;
1954 DefaultData
.Value
.b
= TRUE
;
1957 // When flag is not set, defautl value is FASLE.
1959 DefaultData
.Type
= DefaultValueFromDefault
;
1960 DefaultData
.Value
.b
= FALSE
;
1963 // Add DefaultValue into current BlockData
1965 InsertDefaultValue (BlockData
, &DefaultData
);
1968 case EFI_IFR_DATE_OP
:
1970 // offset by question header
1971 // width MaxSize * sizeof (CHAR16)
1972 // no default value, only block array
1976 // Date question is not in IFR Form. This IFR form is not valid.
1978 if (VarStoreId
== 0) {
1979 Status
= EFI_INVALID_PARAMETER
;
1983 // Check whether this question is for the requested varstore.
1985 IfrDate
= (EFI_IFR_DATE
*) IfrOpHdr
;
1986 if (IfrDate
->Question
.VarStoreId
!= VarStoreId
) {
1990 VarWidth
= (UINT16
) sizeof (EFI_HII_DATE
);
1991 Status
= IsThisOpcodeRequired(RequestBlockArray
, HiiHandle
, VarStorageData
, IfrOpHdr
, VarWidth
, &BlockData
);
1992 if (EFI_ERROR (Status
)) {
1997 case EFI_IFR_TIME_OP
:
1999 // offset by question header
2000 // width MaxSize * sizeof (CHAR16)
2001 // no default value, only block array
2005 // Time question is not in IFR Form. This IFR form is not valid.
2007 if (VarStoreId
== 0) {
2008 Status
= EFI_INVALID_PARAMETER
;
2012 // Check whether this question is for the requested varstore.
2014 IfrTime
= (EFI_IFR_TIME
*) IfrOpHdr
;
2015 if (IfrTime
->Question
.VarStoreId
!= VarStoreId
) {
2019 VarWidth
= (UINT16
) sizeof (EFI_HII_TIME
);
2020 Status
= IsThisOpcodeRequired(RequestBlockArray
, HiiHandle
, VarStorageData
, IfrOpHdr
, VarWidth
, &BlockData
);
2021 if (EFI_ERROR (Status
)) {
2026 case EFI_IFR_STRING_OP
:
2028 // offset by question header
2029 // width MaxSize * sizeof (CHAR16)
2030 // no default value, only block array
2034 // String question is not in IFR Form. This IFR form is not valid.
2036 if (VarStoreId
== 0) {
2037 Status
= EFI_INVALID_PARAMETER
;
2041 // Check whether this question is for the requested varstore.
2043 IfrString
= (EFI_IFR_STRING
*) IfrOpHdr
;
2044 if (IfrString
->Question
.VarStoreId
!= VarStoreId
) {
2048 VarWidth
= (UINT16
) (IfrString
->MaxSize
* sizeof (UINT16
));
2049 Status
= IsThisOpcodeRequired(RequestBlockArray
, HiiHandle
, VarStorageData
, IfrOpHdr
, VarWidth
, &BlockData
);
2050 if (EFI_ERROR (Status
)) {
2055 // No default value for string.
2060 case EFI_IFR_PASSWORD_OP
:
2062 // offset by question header
2063 // width MaxSize * sizeof (CHAR16)
2064 // no default value, only block array
2068 // Password question is not in IFR Form. This IFR form is not valid.
2070 if (VarStoreId
== 0) {
2071 Status
= EFI_INVALID_PARAMETER
;
2075 // Check whether this question is for the requested varstore.
2077 IfrPassword
= (EFI_IFR_PASSWORD
*) IfrOpHdr
;
2078 if (IfrPassword
->Question
.VarStoreId
!= VarStoreId
) {
2082 VarWidth
= (UINT16
) (IfrPassword
->MaxSize
* sizeof (UINT16
));
2083 Status
= IsThisOpcodeRequired(RequestBlockArray
, HiiHandle
, VarStorageData
, IfrOpHdr
, VarWidth
, &BlockData
);
2084 if (EFI_ERROR (Status
)) {
2089 // No default value for string.
2094 case EFI_IFR_ONE_OF_OPTION_OP
:
2096 // No matched block data is ignored.
2098 if (BlockData
== NULL
|| BlockData
->Scope
== 0) {
2102 IfrOneOfOption
= (EFI_IFR_ONE_OF_OPTION
*) IfrOpHdr
;
2103 if (BlockData
->OpCode
== EFI_IFR_ORDERED_LIST_OP
) {
2105 // Get ordered list option data type.
2107 if (IfrOneOfOption
->Type
== EFI_IFR_TYPE_NUM_SIZE_8
|| IfrOneOfOption
->Type
== EFI_IFR_TYPE_BOOLEAN
) {
2109 } else if (IfrOneOfOption
->Type
== EFI_IFR_TYPE_NUM_SIZE_16
) {
2111 } else if (IfrOneOfOption
->Type
== EFI_IFR_TYPE_NUM_SIZE_32
) {
2113 } else if (IfrOneOfOption
->Type
== EFI_IFR_TYPE_NUM_SIZE_64
) {
2117 // Invalid ordered list option data type.
2119 Status
= EFI_INVALID_PARAMETER
;
2120 if (BlockData
->Name
!= NULL
) {
2121 FreePool (BlockData
->Name
);
2123 FreePool (BlockData
);
2128 // Calculate Ordered list QuestionId width.
2130 BlockData
->Width
= (UINT16
) (BlockData
->Width
* VarWidth
);
2132 // Check whether this question is in requested block array.
2134 if (!BlockArrayCheck (RequestBlockArray
, BlockData
->Offset
, BlockData
->Width
, (BOOLEAN
)(BlockData
->Name
!= NULL
), HiiHandle
)) {
2136 // This question is not in the requested string. Skip it.
2138 if (BlockData
->Name
!= NULL
) {
2139 FreePool (BlockData
->Name
);
2141 FreePool (BlockData
);
2146 // Check this var question is in the var storage
2148 if ((BlockData
->Name
== NULL
) && ((BlockData
->Offset
+ BlockData
->Width
) > VarStorageData
->Size
)) {
2149 Status
= EFI_INVALID_PARAMETER
;
2150 if (BlockData
->Name
!= NULL
) {
2151 FreePool (BlockData
->Name
);
2153 FreePool (BlockData
);
2157 // Add Block Data into VarStorageData BlockEntry
2159 InsertBlockData (&VarStorageData
->BlockEntry
, &BlockData
);
2161 // No default data for OrderedList.
2168 // 1. Set default value for OneOf option when flag field has default attribute.
2170 if (((IfrOneOfOption
->Flags
& EFI_IFR_OPTION_DEFAULT
) == EFI_IFR_OPTION_DEFAULT
) ||
2171 ((IfrOneOfOption
->Flags
& EFI_IFR_OPTION_DEFAULT_MFG
) == EFI_IFR_OPTION_DEFAULT_MFG
)) {
2173 // This flag is used to specify whether this option is the first. Set it to FALSE for the following options.
2174 // The first oneof option value will be used as default value when no default value is specified.
2176 FirstOneOfOption
= FALSE
;
2178 // Prepare new DefaultValue
2180 DefaultData
.Type
= DefaultValueFromFlag
;
2181 CopyMem (&DefaultData
.Value
, &IfrOneOfOption
->Value
, IfrOneOfOption
->Header
.Length
- OFFSET_OF (EFI_IFR_ONE_OF_OPTION
, Value
));
2182 if ((IfrOneOfOption
->Flags
& EFI_IFR_OPTION_DEFAULT
) == EFI_IFR_OPTION_DEFAULT
) {
2183 DefaultData
.DefaultId
= EFI_HII_DEFAULT_CLASS_STANDARD
;
2184 InsertDefaultValue (BlockData
, &DefaultData
);
2186 if ((IfrOneOfOption
->Flags
& EFI_IFR_OPTION_DEFAULT_MFG
) == EFI_IFR_OPTION_DEFAULT_MFG
) {
2187 DefaultData
.DefaultId
= EFI_HII_DEFAULT_CLASS_MANUFACTURING
;
2188 InsertDefaultValue (BlockData
, &DefaultData
);
2193 // 2. Set as the default value when this is the first option.
2194 // The first oneof option value will be used as default value when no default value is specified.
2196 if (FirstOneOfOption
) {
2197 // This flag is used to specify whether this option is the first. Set it to FALSE for the following options.
2198 FirstOneOfOption
= FALSE
;
2201 // Prepare new DefaultValue
2203 DefaultData
.Type
= DefaultValueFromDefault
;
2204 CopyMem (&DefaultData
.Value
, &IfrOneOfOption
->Value
, IfrOneOfOption
->Header
.Length
- OFFSET_OF (EFI_IFR_ONE_OF_OPTION
, Value
));
2205 for (LinkData
= DefaultIdArray
->Entry
.ForwardLink
; LinkData
!= &DefaultIdArray
->Entry
; LinkData
= LinkData
->ForwardLink
) {
2206 DefaultDataPtr
= BASE_CR (LinkData
, IFR_DEFAULT_DATA
, Entry
);
2207 DefaultData
.DefaultId
= DefaultDataPtr
->DefaultId
;
2208 InsertDefaultValue (BlockData
, &DefaultData
);
2213 case EFI_IFR_DEFAULT_OP
:
2215 // Update Current BlockData to the default value.
2217 if (BlockData
== NULL
|| BlockData
->Scope
== 0) {
2219 // No matched block data is ignored.
2224 if (BlockData
->OpCode
== EFI_IFR_ORDERED_LIST_OP
) {
2226 // OrderedList Opcode is no default value.
2231 // Get the DefaultId
2233 IfrDefault
= (EFI_IFR_DEFAULT
*) IfrOpHdr
;
2234 VarDefaultId
= IfrDefault
->DefaultId
;
2236 // Prepare new DefaultValue
2238 DefaultData
.Type
= DefaultValueFromOpcode
;
2239 DefaultData
.DefaultId
= VarDefaultId
;
2240 CopyMem (&DefaultData
.Value
, &IfrDefault
->Value
, IfrDefault
->Header
.Length
- OFFSET_OF (EFI_IFR_DEFAULT
, Value
));
2242 // If the value field is expression, set the cleaned flag.
2243 if (IfrDefault
->Type
== EFI_IFR_TYPE_OTHER
) {
2244 DefaultData
.Cleaned
= TRUE
;
2247 // Add DefaultValue into current BlockData
2249 InsertDefaultValue (BlockData
, &DefaultData
);
2252 // After insert the default value, reset the cleaned value for next
2253 // time used. If not set here, need to set the value before everytime
2256 DefaultData
.Cleaned
= FALSE
;
2259 case EFI_IFR_END_OP
:
2261 // End Opcode is for Var question.
2263 if (BlockData
!= NULL
) {
2264 if (BlockData
->Scope
> 0) {
2267 if (BlockData
->Scope
== 0) {
2275 if (BlockData
!= NULL
) {
2276 if (BlockData
->Scope
> 0) {
2277 BlockData
->Scope
= (UINT8
) (BlockData
->Scope
+ IfrOpHdr
->Scope
);
2280 if (BlockData
->Scope
== 0) {
2287 IfrOffset
+= IfrOpHdr
->Length
;
2288 PackageOffset
+= IfrOpHdr
->Length
;
2292 for (LinkData
= VarStorageData
->BlockEntry
.ForwardLink
; LinkData
!= &VarStorageData
->BlockEntry
; LinkData
= LinkData
->ForwardLink
) {
2293 BlockData
= BASE_CR (LinkData
, IFR_BLOCK_DATA
, Entry
);
2294 for (LinkDefault
= BlockData
->DefaultValueEntry
.ForwardLink
; LinkDefault
!= &BlockData
->DefaultValueEntry
; ) {
2295 DefaultDataPtr
= BASE_CR (LinkDefault
, IFR_DEFAULT_DATA
, Entry
);
2296 LinkDefault
= LinkDefault
->ForwardLink
;
2297 if (DefaultDataPtr
->Cleaned
== TRUE
) {
2298 RemoveEntryList (&DefaultDataPtr
->Entry
);
2299 FreePool (DefaultDataPtr
);
2308 parse the configrequest string, get the elements.
2310 @param ConfigRequest The input configrequest string.
2311 @param Progress Return the progress data.
2313 @retval Block data pointer.
2317 IN EFI_STRING ConfigRequest
,
2318 OUT EFI_STRING
*Progress
2321 EFI_STRING StringPtr
;
2322 IFR_BLOCK_DATA
*BlockData
;
2323 IFR_BLOCK_DATA
*RequestBlockArray
;
2329 IFR_BLOCK_DATA
*NextBlockData
;
2335 // Init RequestBlockArray
2337 RequestBlockArray
= (IFR_BLOCK_DATA
*) AllocateZeroPool (sizeof (IFR_BLOCK_DATA
));
2338 if (RequestBlockArray
== NULL
) {
2341 InitializeListHead (&RequestBlockArray
->Entry
);
2344 // Get the request Block array from the request string
2349 // Parse each <RequestElement> if exists
2350 // Only <BlockName> format is supported by this help function.
2351 // <BlockName> ::= &'OFFSET='<Number>&'WIDTH='<Number>
2353 StringPtr
= ConfigRequest
;
2354 while (*StringPtr
!= 0 && StrnCmp (StringPtr
, L
"&OFFSET=", StrLen (L
"&OFFSET=")) == 0) {
2356 // Skip the OFFSET string
2358 *Progress
= StringPtr
;
2359 StringPtr
+= StrLen (L
"&OFFSET=");
2363 Status
= GetValueOfNumber (StringPtr
, &TmpBuffer
, &Length
);
2364 if (EFI_ERROR (Status
)) {
2371 (((Length
+ 1) / 2) < sizeof (UINT16
)) ? ((Length
+ 1) / 2) : sizeof (UINT16
)
2373 FreePool (TmpBuffer
);
2375 StringPtr
+= Length
;
2376 if (StrnCmp (StringPtr
, L
"&WIDTH=", StrLen (L
"&WIDTH=")) != 0) {
2379 StringPtr
+= StrLen (L
"&WIDTH=");
2384 Status
= GetValueOfNumber (StringPtr
, &TmpBuffer
, &Length
);
2385 if (EFI_ERROR (Status
)) {
2392 (((Length
+ 1) / 2) < sizeof (UINT16
)) ? ((Length
+ 1) / 2) : sizeof (UINT16
)
2394 FreePool (TmpBuffer
);
2396 StringPtr
+= Length
;
2397 if (*StringPtr
!= 0 && *StringPtr
!= L
'&') {
2404 BlockData
= (IFR_BLOCK_DATA
*) AllocateZeroPool (sizeof (IFR_BLOCK_DATA
));
2405 if (BlockData
== NULL
) {
2408 BlockData
->Offset
= Offset
;
2409 BlockData
->Width
= Width
;
2410 InsertBlockData (&RequestBlockArray
->Entry
, &BlockData
);
2413 // Skip &VALUE string if &VALUE does exists.
2415 if (StrnCmp (StringPtr
, L
"&VALUE=", StrLen (L
"&VALUE=")) == 0) {
2416 StringPtr
+= StrLen (L
"&VALUE=");
2421 Status
= GetValueOfNumber (StringPtr
, &TmpBuffer
, &Length
);
2422 if (EFI_ERROR (Status
)) {
2426 StringPtr
+= Length
;
2427 if (*StringPtr
!= 0 && *StringPtr
!= L
'&') {
2432 // If '\0', parsing is finished.
2434 if (*StringPtr
== 0) {
2440 // Merge the requested block data.
2442 Link
= RequestBlockArray
->Entry
.ForwardLink
;
2443 while ((Link
!= &RequestBlockArray
->Entry
) && (Link
->ForwardLink
!= &RequestBlockArray
->Entry
)) {
2444 BlockData
= BASE_CR (Link
, IFR_BLOCK_DATA
, Entry
);
2445 NextBlockData
= BASE_CR (Link
->ForwardLink
, IFR_BLOCK_DATA
, Entry
);
2446 if ((NextBlockData
->Offset
>= BlockData
->Offset
) && (NextBlockData
->Offset
<= (BlockData
->Offset
+ BlockData
->Width
))) {
2447 if ((NextBlockData
->Offset
+ NextBlockData
->Width
) > (BlockData
->Offset
+ BlockData
->Width
)) {
2448 BlockData
->Width
= (UINT16
) (NextBlockData
->Offset
+ NextBlockData
->Width
- BlockData
->Offset
);
2450 RemoveEntryList (Link
->ForwardLink
);
2451 FreePool (NextBlockData
);
2454 Link
= Link
->ForwardLink
;
2457 return RequestBlockArray
;
2460 if (RequestBlockArray
!= NULL
) {
2462 // Free Link Array RequestBlockArray
2464 while (!IsListEmpty (&RequestBlockArray
->Entry
)) {
2465 BlockData
= BASE_CR (RequestBlockArray
->Entry
.ForwardLink
, IFR_BLOCK_DATA
, Entry
);
2466 RemoveEntryList (&BlockData
->Entry
);
2467 FreePool (BlockData
);
2470 FreePool (RequestBlockArray
);
2477 parse the configrequest string, get the elements.
2479 @param ConfigRequest The input config request string.
2480 @param Progress Return the progress data.
2482 @retval return data block array.
2486 IN EFI_STRING ConfigRequest
,
2487 OUT EFI_STRING
*Progress
2490 EFI_STRING StringPtr
;
2492 IFR_BLOCK_DATA
*BlockData
;
2493 IFR_BLOCK_DATA
*RequestBlockArray
;
2496 StringPtr
= ConfigRequest
;
2499 // Init RequestBlockArray
2501 RequestBlockArray
= (IFR_BLOCK_DATA
*) AllocateZeroPool (sizeof (IFR_BLOCK_DATA
));
2502 if (RequestBlockArray
== NULL
) {
2505 InitializeListHead (&RequestBlockArray
->Entry
);
2508 // Get the request Block array from the request string
2512 // Parse each <RequestElement> if exists
2513 // Only <BlockName> format is supported by this help function.
2514 // <BlockName> ::= &'Name***=***
2516 while (StringPtr
!= NULL
&& *StringPtr
== L
'&') {
2518 *Progress
= StringPtr
;
2520 // Skip the L"&" string
2525 if ((NextTag
= StrStr (StringPtr
, L
"=")) != NULL
) {
2528 } else if ((NextTag
= StrStr (StringPtr
, L
"&")) != NULL
) {
2535 BlockData
= (IFR_BLOCK_DATA
*) AllocateZeroPool (sizeof (IFR_BLOCK_DATA
));
2536 if (BlockData
== NULL
) {
2543 BlockData
->Name
= AllocateCopyPool(StrSize (StringPtr
), StringPtr
);
2544 InsertBlockData (&RequestBlockArray
->Entry
, &BlockData
);
2548 // If has value, skip the value.
2550 StringPtr
= NextTag
+ 1;
2552 StringPtr
= StrStr (StringPtr
, L
"&");
2553 } else if (NextTag
!= NULL
) {
2555 // restore the '&' text.
2557 StringPtr
= NextTag
;
2562 return RequestBlockArray
;
2565 if (RequestBlockArray
!= NULL
) {
2567 // Free Link Array RequestBlockArray
2569 while (!IsListEmpty (&RequestBlockArray
->Entry
)) {
2570 BlockData
= BASE_CR (RequestBlockArray
->Entry
.ForwardLink
, IFR_BLOCK_DATA
, Entry
);
2571 RemoveEntryList (&BlockData
->Entry
);
2572 if (BlockData
->Name
!= NULL
) {
2573 FreePool (BlockData
->Name
);
2575 FreePool (BlockData
);
2578 FreePool (RequestBlockArray
);
2585 Generate ConfigRequest string base on the varstore info.
2587 @param ConfigHdr The config header for this varstore.
2588 @param VarStorageData The varstore info.
2589 @param Status Return Status.
2590 @param ConfigRequest The ConfigRequest info may be return.
2592 @retval TRUE Need to continue
2593 @retval Others NO need to continue or error occur.
2596 GenerateConfigRequest (
2597 IN CHAR16
*ConfigHdr
,
2598 IN IFR_VARSTORAGE_DATA
*VarStorageData
,
2599 OUT EFI_STATUS
*Status
,
2600 IN OUT EFI_STRING
*ConfigRequest
2606 CHAR16
*FullConfigRequest
;
2608 IFR_BLOCK_DATA
*BlockData
;
2611 // Append VarStorageData BlockEntry into *Request string
2612 // Now support only one varstore in a form package.
2616 // Go through all VarStorageData Entry and get BlockEntry for each one for the multiple varstore in a single form package
2617 // Then construct them all to return MultiRequest string : ConfigHdr BlockConfig
2621 // Compute the length of the entire request starting with <ConfigHdr> and a
2625 Length
= StrLen (ConfigHdr
) + 1;
2627 for (Link
= VarStorageData
->BlockEntry
.ForwardLink
; Link
!= &VarStorageData
->BlockEntry
; Link
= Link
->ForwardLink
) {
2629 BlockData
= BASE_CR (Link
, IFR_BLOCK_DATA
, Entry
);
2630 if (VarStorageData
->Type
== EFI_HII_VARSTORE_NAME_VALUE
) {
2632 // Add <BlockName> length for each Name
2634 // <BlockName> ::= &Name1&Name2&...
2635 // |1| StrLen(Name1)
2637 Length
= Length
+ (1 + StrLen (BlockData
->Name
));
2640 // Add <BlockName> length for each Offset/Width pair
2642 // <BlockName> ::= &OFFSET=1234&WIDTH=1234
2643 // | 8 | 4 | 7 | 4 |
2645 Length
= Length
+ (8 + 4 + 7 + 4);
2649 // No any request block data is found. The request string can't be constructed.
2652 *Status
= EFI_SUCCESS
;
2657 // Allocate buffer for the entire <ConfigRequest>
2659 FullConfigRequest
= AllocateZeroPool (Length
* sizeof (CHAR16
));
2660 if (FullConfigRequest
== NULL
) {
2661 *Status
= EFI_OUT_OF_RESOURCES
;
2664 StringPtr
= FullConfigRequest
;
2667 // Start with <ConfigHdr>
2669 StrCpy (StringPtr
, ConfigHdr
);
2670 StringPtr
+= StrLen (StringPtr
);
2673 // Loop through all the Offset/Width pairs and append them to ConfigRequest
2675 for (Link
= VarStorageData
->BlockEntry
.ForwardLink
; Link
!= &VarStorageData
->BlockEntry
; Link
= Link
->ForwardLink
) {
2676 BlockData
= BASE_CR (Link
, IFR_BLOCK_DATA
, Entry
);
2677 if (VarStorageData
->Type
== EFI_HII_VARSTORE_NAME_VALUE
) {
2683 (1 + StrLen (BlockData
->Name
) + 1) * sizeof (CHAR16
),
2689 // Append &OFFSET=XXXX&WIDTH=YYYY\0
2693 (8 + 4 + 7 + 4 + 1) * sizeof (CHAR16
),
2694 L
"&OFFSET=%04X&WIDTH=%04X",
2699 StringPtr
+= StrLen (StringPtr
);
2702 // Set to the got full request string.
2704 HiiToLower (FullConfigRequest
);
2706 if (*ConfigRequest
!= NULL
) {
2707 FreePool (*ConfigRequest
);
2709 *ConfigRequest
= FullConfigRequest
;
2715 Generate ConfigRequest Header base on the varstore info.
2717 @param VarStorageData The varstore info.
2718 @param DevicePath Device path for this varstore.
2719 @param ConfigHdr The config header for this varstore.
2721 @retval EFI_SUCCESS Generate the header success.
2722 @retval EFI_OUT_OF_RESOURCES Allocate buffer fail.
2726 IN IFR_VARSTORAGE_DATA
*VarStorageData
,
2727 IN EFI_DEVICE_PATH_PROTOCOL
*DevicePath
,
2728 OUT EFI_STRING
*ConfigHdr
2737 Status
= EFI_SUCCESS
;
2743 // Construct <ConfigHdr> : "GUID=...&NAME=...&PATH=..." by VarStorageData Guid, Name and DriverHandle
2745 GenerateSubStr (L
"GUID=", sizeof (EFI_GUID
), (VOID
*) &VarStorageData
->Guid
, 1, &GuidStr
);
2746 if (VarStorageData
->Name
!= NULL
) {
2747 GenerateSubStr (L
"NAME=", StrLen (VarStorageData
->Name
) * sizeof (CHAR16
), (VOID
*) VarStorageData
->Name
, 2, &NameStr
);
2749 GenerateSubStr (L
"NAME=", 0, NULL
, 2, &NameStr
);
2753 GetDevicePathSize ((EFI_DEVICE_PATH_PROTOCOL
*) DevicePath
),
2754 (VOID
*) DevicePath
,
2758 Length
= StrLen (GuidStr
) + StrLen (NameStr
) + StrLen (PathStr
) + 1;
2759 if (VarStorageData
->Name
== NULL
) {
2763 *ConfigHdr
= AllocateZeroPool (Length
* sizeof (CHAR16
));
2764 if (*ConfigHdr
== NULL
) {
2765 Status
= EFI_OUT_OF_RESOURCES
;
2768 StrCpy (*ConfigHdr
, GuidStr
);
2769 StrCat (*ConfigHdr
, NameStr
);
2770 if (VarStorageData
->Name
== NULL
) {
2771 StrCat (*ConfigHdr
, L
"&");
2773 StrCat (*ConfigHdr
, PathStr
);
2776 // Remove the last character L'&'
2778 *(*ConfigHdr
+ StrLen (*ConfigHdr
) - 1) = L
'\0';
2781 if (GuidStr
!= NULL
) {
2785 if (NameStr
!= NULL
) {
2789 if (PathStr
!= NULL
) {
2797 Get Data buffer size based on data type.
2799 @param ValueType The input data type.
2801 @retval The data buffer size for the input type.
2808 UINT16 StorageWidth
;
2810 switch (ValueType
) {
2811 case EFI_IFR_NUMERIC_SIZE_1
:
2812 case EFI_IFR_TYPE_BOOLEAN
:
2813 StorageWidth
= (UINT16
) sizeof (UINT8
);
2816 case EFI_IFR_NUMERIC_SIZE_2
:
2817 StorageWidth
= (UINT16
) sizeof (UINT16
);
2820 case EFI_IFR_NUMERIC_SIZE_4
:
2821 StorageWidth
= (UINT16
) sizeof (UINT32
);
2824 case EFI_IFR_NUMERIC_SIZE_8
:
2825 StorageWidth
= (UINT16
) sizeof (UINT64
);
2828 case EFI_IFR_TYPE_TIME
:
2829 StorageWidth
= (UINT16
) sizeof (EFI_IFR_TIME
);
2832 case EFI_IFR_TYPE_DATE
:
2833 StorageWidth
= (UINT16
) sizeof (EFI_IFR_DATE
);
2841 return StorageWidth
;
2845 Generate ConfigAltResp string base on the varstore info.
2847 @param ConfigHdr The config header for this varstore.
2848 @param VarStorageData The varstore info.
2849 @param DefaultIdArray The Default id array.
2850 @param DefaultAltCfgResp The DefaultAltCfgResp info may be return.
2852 @retval TRUE Need to continue
2853 @retval Others NO need to continue or error occur.
2856 GenerateAltConfigResp (
2857 IN CHAR16
*ConfigHdr
,
2858 IN IFR_VARSTORAGE_DATA
*VarStorageData
,
2859 IN IFR_DEFAULT_DATA
*DefaultIdArray
,
2860 IN OUT EFI_STRING
*DefaultAltCfgResp
2866 LIST_ENTRY
*LinkData
;
2867 LIST_ENTRY
*LinkDefault
;
2868 LIST_ENTRY
*ListEntry
;
2870 IFR_BLOCK_DATA
*BlockData
;
2871 IFR_DEFAULT_DATA
*DefaultId
;
2872 IFR_DEFAULT_DATA
*DefaultValueData
;
2880 // Add length for <ConfigHdr> + '\0'
2882 Length
= StrLen (ConfigHdr
) + 1;
2884 for (Link
= DefaultIdArray
->Entry
.ForwardLink
; Link
!= &DefaultIdArray
->Entry
; Link
= Link
->ForwardLink
) {
2885 DefaultId
= BASE_CR (Link
, IFR_DEFAULT_DATA
, Entry
);
2887 // Add length for "&<ConfigHdr>&ALTCFG=XXXX"
2888 // |1| StrLen (ConfigHdr) | 8 | 4 |
2890 Length
+= (1 + StrLen (ConfigHdr
) + 8 + 4);
2892 for (LinkData
= VarStorageData
->BlockEntry
.ForwardLink
; LinkData
!= &VarStorageData
->BlockEntry
; LinkData
= LinkData
->ForwardLink
) {
2893 BlockData
= BASE_CR (LinkData
, IFR_BLOCK_DATA
, Entry
);
2894 ListEntry
= &BlockData
->DefaultValueEntry
;
2895 for (LinkDefault
= ListEntry
->ForwardLink
; LinkDefault
!= ListEntry
; LinkDefault
= LinkDefault
->ForwardLink
) {
2896 DefaultValueData
= BASE_CR (LinkDefault
, IFR_DEFAULT_DATA
, Entry
);
2897 if (DefaultValueData
->DefaultId
!= DefaultId
->DefaultId
) {
2900 if (VarStorageData
->Type
== EFI_HII_VARSTORE_NAME_VALUE
) {
2902 // Add length for "&Name1=zzzzzzzzzzzz"
2905 Length
+= (1 + StrLen (BlockData
->Name
) + 1 + BlockData
->Width
* 2);
2908 // Add length for "&OFFSET=XXXX&WIDTH=YYYY&VALUE=zzzzzzzzzzzz"
2909 // | 8 | 4 | 7 | 4 | 7 | Width * 2 |
2911 Length
+= (8 + 4 + 7 + 4 + 7 + BlockData
->Width
* 2);
2919 // No default value is found. The default string doesn't exist.
2926 // Allocate buffer for the entire <DefaultAltCfgResp>
2928 *DefaultAltCfgResp
= AllocateZeroPool (Length
* sizeof (CHAR16
));
2929 if (*DefaultAltCfgResp
== NULL
) {
2930 return EFI_OUT_OF_RESOURCES
;
2932 StringPtr
= *DefaultAltCfgResp
;
2935 // Start with <ConfigHdr>
2937 StrCpy (StringPtr
, ConfigHdr
);
2938 StringPtr
+= StrLen (StringPtr
);
2940 for (Link
= DefaultIdArray
->Entry
.ForwardLink
; Link
!= &DefaultIdArray
->Entry
; Link
= Link
->ForwardLink
) {
2941 DefaultId
= BASE_CR (Link
, IFR_DEFAULT_DATA
, Entry
);
2943 // Add <AltConfigHdr> of the form "&<ConfigHdr>&ALTCFG=XXXX\0"
2944 // |1| StrLen (ConfigHdr) | 8 | 4 |
2948 (1 + StrLen (ConfigHdr
) + 8 + 4 + 1) * sizeof (CHAR16
),
2951 DefaultId
->DefaultId
2953 StringPtr
+= StrLen (StringPtr
);
2955 for (LinkData
= VarStorageData
->BlockEntry
.ForwardLink
; LinkData
!= &VarStorageData
->BlockEntry
; LinkData
= LinkData
->ForwardLink
) {
2956 BlockData
= BASE_CR (LinkData
, IFR_BLOCK_DATA
, Entry
);
2957 ListEntry
= &BlockData
->DefaultValueEntry
;
2958 for (LinkDefault
= ListEntry
->ForwardLink
; LinkDefault
!= ListEntry
; LinkDefault
= LinkDefault
->ForwardLink
) {
2959 DefaultValueData
= BASE_CR (LinkDefault
, IFR_DEFAULT_DATA
, Entry
);
2960 if (DefaultValueData
->DefaultId
!= DefaultId
->DefaultId
) {
2963 if (VarStorageData
->Type
== EFI_HII_VARSTORE_NAME_VALUE
) {
2966 (1 + StrLen (ConfigHdr
) + 1) * sizeof (CHAR16
),
2970 StringPtr
+= StrLen (StringPtr
);
2973 // Add <BlockConfig>
2974 // <BlockConfig> ::= 'OFFSET='<Number>&'WIDTH='<Number>&'VALUE'=<Number>
2978 (8 + 4 + 7 + 4 + 7 + 1) * sizeof (CHAR16
),
2979 L
"&OFFSET=%04X&WIDTH=%04X&VALUE=",
2983 StringPtr
+= StrLen (StringPtr
);
2985 Width
= BlockData
->Width
;
2987 // Convert Value to a hex string in "%x" format
2988 // NOTE: This is in the opposite byte that GUID and PATH use
2990 TmpBuffer
= (UINT8
*) &(DefaultValueData
->Value
);
2991 for (; Width
> 0; Width
--) {
2992 StringPtr
+= UnicodeValueToString (StringPtr
, PREFIX_ZERO
| RADIX_HEX
, TmpBuffer
[Width
- 1], 2);
2998 HiiToLower (*DefaultAltCfgResp
);
3004 This function gets the full request string and full default value string by
3005 parsing IFR data in HII form packages.
3007 When Request points to NULL string, the request string and default value string
3008 for each varstore in form package will return.
3010 @param DataBaseRecord The DataBaseRecord instance contains the found Hii handle and package.
3011 @param DevicePath Device Path which Hii Config Access Protocol is registered.
3012 @param Request Pointer to a null-terminated Unicode string in
3013 <ConfigRequest> format. When it doesn't contain
3014 any RequestElement, it will be updated to return
3015 the full RequestElement retrieved from IFR data.
3016 If it points to NULL, the request string for the first
3017 varstore in form package will be merged into a
3018 <MultiConfigRequest> format string and return.
3019 @param AltCfgResp Pointer to a null-terminated Unicode string in
3020 <ConfigAltResp> format. When the pointer is to NULL,
3021 the full default value string retrieved from IFR data
3022 will return. When the pinter is to a string, the
3023 full default value string retrieved from IFR data
3024 will be merged into the input string and return.
3025 When Request points to NULL, the default value string
3026 for each varstore in form package will be merged into
3027 a <MultiConfigAltResp> format string and return.
3028 @param PointerProgress Optional parameter, it can be be NULL.
3029 When it is not NULL, if Request is NULL, it returns NULL.
3030 On return, points to a character in the Request
3031 string. Points to the string's null terminator if
3032 request was successful. Points to the most recent
3033 & before the first failing name / value pair (or
3034 the beginning of the string if the failure is in
3035 the first name / value pair) if the request was
3037 @retval EFI_SUCCESS The Results string is set to the full request string.
3038 And AltCfgResp contains all default value string.
3039 @retval EFI_OUT_OF_RESOURCES Not enough memory for the return string.
3040 @retval EFI_NOT_FOUND The varstore (Guid and Name) in Request string
3041 can't be found in Form package.
3042 @retval EFI_NOT_FOUND HiiPackage can't be got on the input HiiHandle.
3043 @retval EFI_INVALID_PARAMETER Request points to NULL.
3048 GetFullStringFromHiiFormPackages (
3049 IN HII_DATABASE_RECORD
*DataBaseRecord
,
3050 IN EFI_DEVICE_PATH_PROTOCOL
*DevicePath
,
3051 IN OUT EFI_STRING
*Request
,
3052 IN OUT EFI_STRING
*AltCfgResp
,
3053 OUT EFI_STRING
*PointerProgress OPTIONAL
3057 UINT8
*HiiFormPackage
;
3059 IFR_BLOCK_DATA
*RequestBlockArray
;
3060 IFR_BLOCK_DATA
*BlockData
;
3061 IFR_DEFAULT_DATA
*DefaultValueData
;
3062 IFR_DEFAULT_DATA
*DefaultId
;
3063 IFR_DEFAULT_DATA
*DefaultIdArray
;
3064 IFR_VARSTORAGE_DATA
*VarStorageData
;
3065 EFI_STRING DefaultAltCfgResp
;
3066 EFI_STRING ConfigHdr
;
3067 EFI_STRING StringPtr
;
3068 EFI_STRING Progress
;
3070 if (DataBaseRecord
== NULL
|| DevicePath
== NULL
|| Request
== NULL
|| AltCfgResp
== NULL
) {
3071 return EFI_INVALID_PARAMETER
;
3075 // Initialize the local variables.
3077 RequestBlockArray
= NULL
;
3078 DefaultIdArray
= NULL
;
3079 VarStorageData
= NULL
;
3080 DefaultAltCfgResp
= NULL
;
3082 HiiFormPackage
= NULL
;
3084 Progress
= *Request
;
3086 Status
= GetFormPackageData (DataBaseRecord
, &HiiFormPackage
, &PackageSize
);
3087 if (EFI_ERROR (Status
)) {
3092 // 1. Get the request block array by Request String when Request string containts the block array.
3095 if (*Request
!= NULL
) {
3096 StringPtr
= *Request
;
3100 if (StrnCmp (StringPtr
, L
"GUID=", StrLen (L
"GUID=")) != 0) {
3101 Status
= EFI_INVALID_PARAMETER
;
3104 StringPtr
+= StrLen (L
"GUID=");
3105 while (*StringPtr
!= L
'\0' && StrnCmp (StringPtr
, L
"&NAME=", StrLen (L
"&NAME=")) != 0) {
3108 if (*StringPtr
== L
'\0') {
3109 Status
= EFI_INVALID_PARAMETER
;
3112 StringPtr
+= StrLen (L
"&NAME=");
3113 while (*StringPtr
!= L
'\0' && StrnCmp (StringPtr
, L
"&PATH=", StrLen (L
"&PATH=")) != 0) {
3116 if (*StringPtr
== L
'\0') {
3117 Status
= EFI_INVALID_PARAMETER
;
3120 StringPtr
+= StrLen (L
"&PATH=");
3121 while (*StringPtr
!= L
'\0' && *StringPtr
!= L
'&') {
3125 if (*StringPtr
== L
'\0') {
3127 // No request block is found.
3134 // If StringPtr != NULL, get the request elements.
3136 if (StringPtr
!= NULL
) {
3137 if (StrStr (StringPtr
, L
"&OFFSET=") != NULL
) {
3138 RequestBlockArray
= GetBlockElement(StringPtr
, &Progress
);
3140 RequestBlockArray
= GetNameElement(StringPtr
, &Progress
);
3143 if (RequestBlockArray
== NULL
) {
3144 Status
= EFI_INVALID_PARAMETER
;
3150 // Initialize DefaultIdArray to store the map between DeaultId and DefaultName
3152 DefaultIdArray
= (IFR_DEFAULT_DATA
*) AllocateZeroPool (sizeof (IFR_DEFAULT_DATA
));
3153 if (DefaultIdArray
== NULL
) {
3154 Status
= EFI_OUT_OF_RESOURCES
;
3157 InitializeListHead (&DefaultIdArray
->Entry
);
3160 // Initialize VarStorageData to store the var store Block and Default value information.
3162 VarStorageData
= (IFR_VARSTORAGE_DATA
*) AllocateZeroPool (sizeof (IFR_VARSTORAGE_DATA
));
3163 if (VarStorageData
== NULL
) {
3164 Status
= EFI_OUT_OF_RESOURCES
;
3167 InitializeListHead (&VarStorageData
->Entry
);
3168 InitializeListHead (&VarStorageData
->BlockEntry
);
3171 // 2. Parse FormPackage to get BlockArray and DefaultId Array for the request BlockArray.
3175 // Parse the opcode in form pacakge to get the default setting.
3177 Status
= ParseIfrData (DataBaseRecord
->Handle
,
3179 (UINT32
) PackageSize
,
3184 if (EFI_ERROR (Status
)) {
3189 // No requested varstore in IFR data and directly return
3191 if (VarStorageData
->Type
== 0 && VarStorageData
->Name
== NULL
) {
3192 Status
= EFI_SUCCESS
;
3197 // 3. Construct Request Element (Block Name) for 2.1 and 2.2 case.
3199 Status
= GenerateHdr (VarStorageData
, DevicePath
, &ConfigHdr
);
3200 if (EFI_ERROR (Status
)) {
3204 if (RequestBlockArray
== NULL
) {
3205 if (!GenerateConfigRequest(ConfigHdr
, VarStorageData
, &Status
, Request
)) {
3211 // 4. Construct Default Value string in AltResp according to request element.
3212 // Go through all VarStorageData Entry and get the DefaultId array for each one
3213 // Then construct them all to : ConfigHdr AltConfigHdr ConfigBody AltConfigHdr ConfigBody
3215 Status
= GenerateAltConfigResp (ConfigHdr
, VarStorageData
, DefaultIdArray
, &DefaultAltCfgResp
);
3216 if (EFI_ERROR (Status
)) {
3221 // 5. Merge string into the input AltCfgResp if the iput *AltCfgResp is not NULL.
3223 if (*AltCfgResp
!= NULL
&& DefaultAltCfgResp
!= NULL
) {
3224 Status
= MergeDefaultString (AltCfgResp
, DefaultAltCfgResp
);
3225 FreePool (DefaultAltCfgResp
);
3226 } else if (*AltCfgResp
== NULL
) {
3227 *AltCfgResp
= DefaultAltCfgResp
;
3231 if (RequestBlockArray
!= NULL
) {
3233 // Free Link Array RequestBlockArray
3235 while (!IsListEmpty (&RequestBlockArray
->Entry
)) {
3236 BlockData
= BASE_CR (RequestBlockArray
->Entry
.ForwardLink
, IFR_BLOCK_DATA
, Entry
);
3237 RemoveEntryList (&BlockData
->Entry
);
3238 if (BlockData
->Name
!= NULL
) {
3239 FreePool (BlockData
->Name
);
3241 FreePool (BlockData
);
3244 FreePool (RequestBlockArray
);
3247 if (VarStorageData
!= NULL
) {
3249 // Free link array VarStorageData
3251 while (!IsListEmpty (&VarStorageData
->BlockEntry
)) {
3252 BlockData
= BASE_CR (VarStorageData
->BlockEntry
.ForwardLink
, IFR_BLOCK_DATA
, Entry
);
3253 RemoveEntryList (&BlockData
->Entry
);
3254 if (BlockData
->Name
!= NULL
) {
3255 FreePool (BlockData
->Name
);
3258 // Free default value link array
3260 while (!IsListEmpty (&BlockData
->DefaultValueEntry
)) {
3261 DefaultValueData
= BASE_CR (BlockData
->DefaultValueEntry
.ForwardLink
, IFR_DEFAULT_DATA
, Entry
);
3262 RemoveEntryList (&DefaultValueData
->Entry
);
3263 FreePool (DefaultValueData
);
3265 FreePool (BlockData
);
3267 FreePool (VarStorageData
);
3270 if (DefaultIdArray
!= NULL
) {
3272 // Free DefaultId Array
3274 while (!IsListEmpty (&DefaultIdArray
->Entry
)) {
3275 DefaultId
= BASE_CR (DefaultIdArray
->Entry
.ForwardLink
, IFR_DEFAULT_DATA
, Entry
);
3276 RemoveEntryList (&DefaultId
->Entry
);
3277 FreePool (DefaultId
);
3279 FreePool (DefaultIdArray
);
3283 // Free the allocated string
3285 if (ConfigHdr
!= NULL
) {
3286 FreePool (ConfigHdr
);
3290 // Free Pacakge data
3292 if (HiiFormPackage
!= NULL
) {
3293 FreePool (HiiFormPackage
);
3296 if (PointerProgress
!= NULL
) {
3297 if (*Request
== NULL
) {
3298 *PointerProgress
= NULL
;
3299 } else if (EFI_ERROR (Status
)) {
3300 *PointerProgress
= *Request
;
3302 *PointerProgress
= *Request
+ StrLen (*Request
);
3310 This function gets the full request resp string by
3311 parsing IFR data in HII form packages.
3313 @param This A pointer to the EFI_HII_CONFIG_ROUTING_PROTOCOL
3315 @param EfiVarStoreInfo The efi varstore info which is save in the EFI
3316 varstore data structure.
3317 @param Request Pointer to a null-terminated Unicode string in
3318 <ConfigRequest> format.
3319 @param RequestResp Pointer to a null-terminated Unicode string in
3320 <ConfigResp> format.
3321 @param AccessProgress On return, points to a character in the Request
3322 string. Points to the string's null terminator if
3323 request was successful. Points to the most recent
3324 & before the first failing name / value pair (or
3325 the beginning of the string if the failure is in
3326 the first name / value pair) if the request was
3329 @retval EFI_SUCCESS The Results string is set to the full request string.
3330 And AltCfgResp contains all default value string.
3331 @retval EFI_OUT_OF_RESOURCES Not enough memory for the return string.
3332 @retval EFI_INVALID_PARAMETER Request points to NULL.
3336 GetConfigRespFromEfiVarStore (
3337 IN CONST EFI_HII_CONFIG_ROUTING_PROTOCOL
*This
,
3338 IN EFI_IFR_VARSTORE_EFI
*EfiVarStoreInfo
,
3339 IN EFI_STRING Request
,
3340 OUT EFI_STRING
*RequestResp
,
3341 OUT EFI_STRING
*AccessProgress
3345 EFI_STRING VarStoreName
;
3349 Status
= EFI_SUCCESS
;
3352 VarStoreName
= NULL
;
3353 *AccessProgress
= Request
;
3355 VarStoreName
= AllocateZeroPool (AsciiStrSize ((CHAR8
*)EfiVarStoreInfo
->Name
) * sizeof (CHAR16
));
3356 if (VarStoreName
== NULL
) {
3357 Status
= EFI_OUT_OF_RESOURCES
;
3360 AsciiStrToUnicodeStr ((CHAR8
*) EfiVarStoreInfo
->Name
, VarStoreName
);
3363 Status
= gRT
->GetVariable (VarStoreName
, &EfiVarStoreInfo
->Guid
, NULL
, &BufferSize
, NULL
);
3364 if (Status
!= EFI_BUFFER_TOO_SMALL
) {
3368 VarStore
= AllocateZeroPool (BufferSize
);
3369 ASSERT (VarStore
!= NULL
);
3370 Status
= gRT
->GetVariable (VarStoreName
, &EfiVarStoreInfo
->Guid
, NULL
, &BufferSize
, VarStore
);
3371 if (EFI_ERROR (Status
)) {
3375 Status
= HiiBlockToConfig(This
, Request
, VarStore
, BufferSize
, RequestResp
, AccessProgress
);
3376 if (EFI_ERROR (Status
)) {
3381 if (VarStoreName
!= NULL
) {
3382 FreePool (VarStoreName
);
3385 if (VarStore
!= NULL
) {
3386 FreePool (VarStore
);
3394 This function route the full request resp string for efi varstore.
3396 @param This A pointer to the EFI_HII_CONFIG_ROUTING_PROTOCOL
3398 @param EfiVarStoreInfo The efi varstore info which is save in the EFI
3399 varstore data structure.
3400 @param RequestResp Pointer to a null-terminated Unicode string in
3401 <ConfigResp> format.
3402 @param Result Pointer to a null-terminated Unicode string in
3403 <ConfigResp> format.
3405 @retval EFI_SUCCESS The Results string is set to the full request string.
3406 And AltCfgResp contains all default value string.
3407 @retval EFI_OUT_OF_RESOURCES Not enough memory for the return string.
3408 @retval EFI_INVALID_PARAMETER Request points to NULL.
3412 RouteConfigRespForEfiVarStore (
3413 IN CONST EFI_HII_CONFIG_ROUTING_PROTOCOL
*This
,
3414 IN EFI_IFR_VARSTORE_EFI
*EfiVarStoreInfo
,
3415 IN EFI_STRING RequestResp
,
3416 OUT EFI_STRING
*Result
3420 EFI_STRING VarStoreName
;
3425 Status
= EFI_SUCCESS
;
3428 VarStoreName
= NULL
;
3430 VarStoreName
= AllocateZeroPool (AsciiStrSize ((CHAR8
*)EfiVarStoreInfo
->Name
) * sizeof (CHAR16
));
3431 if (VarStoreName
== NULL
) {
3432 Status
= EFI_OUT_OF_RESOURCES
;
3435 AsciiStrToUnicodeStr ((CHAR8
*) EfiVarStoreInfo
->Name
, VarStoreName
);
3437 Status
= gRT
->GetVariable (VarStoreName
, &EfiVarStoreInfo
->Guid
, NULL
, &BufferSize
, NULL
);
3438 if (Status
!= EFI_BUFFER_TOO_SMALL
) {
3442 BlockSize
= BufferSize
;
3443 VarStore
= AllocateZeroPool (BufferSize
);
3444 ASSERT (VarStore
!= NULL
);
3445 Status
= gRT
->GetVariable (VarStoreName
, &EfiVarStoreInfo
->Guid
, NULL
, &BufferSize
, VarStore
);
3446 if (EFI_ERROR (Status
)) {
3450 Status
= HiiConfigToBlock(This
, RequestResp
, VarStore
, &BlockSize
, Result
);
3451 if (EFI_ERROR (Status
)) {
3455 Status
= gRT
->SetVariable (VarStoreName
, &EfiVarStoreInfo
->Guid
, EfiVarStoreInfo
->Attributes
, BufferSize
, VarStore
);
3456 if (EFI_ERROR (Status
)) {
3461 if (VarStoreName
!= NULL
) {
3462 FreePool (VarStoreName
);
3465 if (VarStore
!= NULL
) {
3466 FreePool (VarStore
);
3473 Validate the config request elements.
3475 @param ConfigElements A null-terminated Unicode string in <ConfigRequest> format,
3476 without configHdr field.
3478 @retval CHAR16 * THE first Name/value pair not correct.
3479 @retval NULL Success parse the name/value pair
3482 OffsetWidthValidate (
3483 CHAR16
*ConfigElements
3489 StringPtr
= ConfigElements
;
3493 if (StrnCmp (StringPtr
, L
"&OFFSET=", StrLen (L
"&OFFSET=")) != 0) {
3497 while (*StringPtr
!= L
'\0' && StrnCmp (StringPtr
, L
"&WIDTH=", StrLen (L
"&WIDTH=")) != 0) {
3500 if (*StringPtr
== L
'\0') {
3504 StringPtr
+= StrLen (L
"&WIDTH=");
3505 while (*StringPtr
!= L
'\0' && StrnCmp (StringPtr
, L
"&OFFSET=", StrLen (L
"&OFFSET=")) != 0) {
3509 if (*StringPtr
== L
'\0') {
3516 Validate the config request elements.
3518 @param ConfigElements A null-terminated Unicode string in <ConfigRequest> format,
3519 without configHdr field.
3521 @retval CHAR16 * THE first Name/value pair not correct.
3522 @retval NULL Success parse the name/value pair
3527 CHAR16
*ConfigElements
3533 StringPtr
= ConfigElements
;
3537 if (*StringPtr
!= L
'&') {
3542 StringPtr
= StrStr (StringPtr
, L
"&");
3544 if (StringPtr
== NULL
) {
3551 Validate the config request string.
3553 @param ConfigRequest A null-terminated Unicode string in <ConfigRequest> format.
3555 @retval CHAR16 * THE first element not correct.
3556 @retval NULL Success parse the name/value pair
3560 ConfigRequestValidate (
3561 CHAR16
*ConfigRequest
3564 BOOLEAN HasNameField
;
3567 HasNameField
= TRUE
;
3568 StringPtr
= ConfigRequest
;
3571 // Check <ConfigHdr>
3573 if (StrnCmp (StringPtr
, L
"GUID=", StrLen (L
"GUID=")) != 0) {
3574 return ConfigRequest
;
3576 StringPtr
+= StrLen (L
"GUID=");
3577 while (*StringPtr
!= L
'\0' && StrnCmp (StringPtr
, L
"&NAME=", StrLen (L
"&NAME=")) != 0) {
3580 if (*StringPtr
== L
'\0') {
3581 return ConfigRequest
;
3583 StringPtr
+= StrLen (L
"&NAME=");
3584 if (*StringPtr
== L
'&') {
3585 HasNameField
= FALSE
;
3587 while (*StringPtr
!= L
'\0' && StrnCmp (StringPtr
, L
"&PATH=", StrLen (L
"&PATH=")) != 0) {
3590 if (*StringPtr
== L
'\0') {
3591 return ConfigRequest
;
3593 StringPtr
+= StrLen (L
"&PATH=");
3594 while (*StringPtr
!= L
'\0' && *StringPtr
!= L
'&') {
3598 if (*StringPtr
== L
'\0') {
3604 // Should be Buffer varstore, config request should be "OFFSET/Width" pairs.
3606 return OffsetWidthValidate(StringPtr
);
3609 // Should be Name/Value varstore, config request should be "&name1&name2..." pairs.
3611 return NameValueValidate(StringPtr
);
3616 This function allows a caller to extract the current configuration
3617 for one or more named elements from one or more drivers.
3619 @param This A pointer to the EFI_HII_CONFIG_ROUTING_PROTOCOL
3621 @param Request A null-terminated Unicode string in
3622 <MultiConfigRequest> format.
3623 @param Progress On return, points to a character in the Request
3624 string. Points to the string's null terminator if
3625 request was successful. Points to the most recent
3626 & before the first failing name / value pair (or
3627 the beginning of the string if the failure is in
3628 the first name / value pair) if the request was
3630 @param Results Null-terminated Unicode string in
3631 <MultiConfigAltResp> format which has all values
3632 filled in for the names in the Request string.
3633 String to be allocated by the called function.
3635 @retval EFI_SUCCESS The Results string is filled with the values
3636 corresponding to all requested names.
3637 @retval EFI_OUT_OF_RESOURCES Not enough memory to store the parts of the
3638 results that must be stored awaiting possible
3640 @retval EFI_NOT_FOUND Routing data doesn't match any known driver.
3641 Progress set to the "G" in "GUID" of the routing
3642 header that doesn't match. Note: There is no
3643 requirement that all routing data be validated
3644 before any configuration extraction.
3645 @retval EFI_INVALID_PARAMETER For example, passing in a NULL for the Request
3646 parameter would result in this type of error. The
3647 Progress parameter is set to NULL.
3648 @retval EFI_INVALID_PARAMETER Illegal syntax. Progress set to most recent &
3649 before the error or the beginning of the string.
3650 @retval EFI_INVALID_PARAMETER The ExtractConfig function of the underlying HII
3651 Configuration Access Protocol returned
3652 EFI_INVALID_PARAMETER. Progress set to most recent
3653 & before the error or the beginning of the string.
3658 HiiConfigRoutingExtractConfig (
3659 IN CONST EFI_HII_CONFIG_ROUTING_PROTOCOL
*This
,
3660 IN CONST EFI_STRING Request
,
3661 OUT EFI_STRING
*Progress
,
3662 OUT EFI_STRING
*Results
3665 HII_DATABASE_PRIVATE_DATA
*Private
;
3666 EFI_STRING StringPtr
;
3667 EFI_STRING ConfigRequest
;
3669 EFI_DEVICE_PATH_PROTOCOL
*DevicePath
;
3670 EFI_DEVICE_PATH_PROTOCOL
*TempDevicePath
;
3673 HII_DATABASE_RECORD
*Database
;
3674 UINT8
*DevicePathPkg
;
3675 UINT8
*CurrentDevicePath
;
3676 EFI_HANDLE DriverHandle
;
3677 EFI_HII_HANDLE HiiHandle
;
3678 EFI_HII_CONFIG_ACCESS_PROTOCOL
*ConfigAccess
;
3679 EFI_STRING AccessProgress
;
3680 EFI_STRING AccessResults
;
3681 EFI_STRING DefaultResults
;
3682 BOOLEAN FirstElement
;
3683 BOOLEAN IfrDataParsedFlag
;
3684 BOOLEAN IsEfiVarStore
;
3685 EFI_IFR_VARSTORE_EFI
*EfiVarStoreInfo
;
3686 EFI_STRING ErrorPtr
;
3687 UINTN DevicePathSize
;
3689 if (This
== NULL
|| Progress
== NULL
|| Results
== NULL
) {
3690 return EFI_INVALID_PARAMETER
;
3693 if (Request
== NULL
) {
3695 return EFI_INVALID_PARAMETER
;
3698 Private
= CONFIG_ROUTING_DATABASE_PRIVATE_DATA_FROM_THIS (This
);
3699 StringPtr
= Request
;
3700 *Progress
= StringPtr
;
3701 DefaultResults
= NULL
;
3702 ConfigRequest
= NULL
;
3703 Status
= EFI_SUCCESS
;
3704 AccessResults
= NULL
;
3705 AccessProgress
= NULL
;
3707 IfrDataParsedFlag
= FALSE
;
3708 IsEfiVarStore
= FALSE
;
3709 EfiVarStoreInfo
= NULL
;
3712 // The first element of <MultiConfigRequest> should be
3713 // <GuidHdr>, which is in 'GUID='<Guid> syntax.
3715 if (StrnCmp (StringPtr
, L
"GUID=", StrLen (L
"GUID=")) != 0) {
3716 return EFI_INVALID_PARAMETER
;
3719 FirstElement
= TRUE
;
3722 // Allocate a fix length of memory to store Results. Reallocate memory for
3723 // Results if this fix length is insufficient.
3725 *Results
= (EFI_STRING
) AllocateZeroPool (MAX_STRING_LENGTH
);
3726 if (*Results
== NULL
) {
3727 return EFI_OUT_OF_RESOURCES
;
3730 while (*StringPtr
!= 0 && StrnCmp (StringPtr
, L
"GUID=", StrLen (L
"GUID=")) == 0) {
3732 // If parsing error, set Progress to the beginning of the <MultiConfigRequest>
3733 // or most recent & before the error.
3735 if (StringPtr
== Request
) {
3736 *Progress
= StringPtr
;
3738 *Progress
= StringPtr
- 1;
3742 // Process each <ConfigRequest> of <MultiConfigRequest>
3744 Length
= CalculateConfigStringLen (StringPtr
);
3745 ConfigRequest
= AllocateCopyPool ((Length
+ 1) * sizeof (CHAR16
), StringPtr
);
3746 if (ConfigRequest
== NULL
) {
3747 Status
= EFI_OUT_OF_RESOURCES
;
3750 *(ConfigRequest
+ Length
) = 0;
3753 // Get the UEFI device path
3755 Status
= GetDevicePath (ConfigRequest
, (UINT8
**) &DevicePath
);
3756 if (EFI_ERROR (Status
)) {
3761 // Find driver which matches the routing data.
3763 DriverHandle
= NULL
;
3766 for (Link
= Private
->DatabaseList
.ForwardLink
;
3767 Link
!= &Private
->DatabaseList
;
3768 Link
= Link
->ForwardLink
3770 Database
= CR (Link
, HII_DATABASE_RECORD
, DatabaseEntry
, HII_DATABASE_RECORD_SIGNATURE
);
3771 if ((DevicePathPkg
= Database
->PackageList
->DevicePathPkg
) != NULL
) {
3772 CurrentDevicePath
= DevicePathPkg
+ sizeof (EFI_HII_PACKAGE_HEADER
);
3773 DevicePathSize
= GetDevicePathSize ((EFI_DEVICE_PATH_PROTOCOL
*) CurrentDevicePath
);
3774 if ((CompareMem (DevicePath
,CurrentDevicePath
,DevicePathSize
) == 0) && IsThisPackageList(Database
, ConfigRequest
)) {
3775 DriverHandle
= Database
->DriverHandle
;
3776 HiiHandle
= Database
->Handle
;
3783 // Try to find driver handle by device path.
3785 if (DriverHandle
== NULL
) {
3786 TempDevicePath
= DevicePath
;
3787 Status
= gBS
->LocateDevicePath (
3788 &gEfiDevicePathProtocolGuid
,
3792 if (EFI_ERROR (Status
) || (DriverHandle
== NULL
)) {
3794 // Routing data does not match any known driver.
3795 // Set Progress to the 'G' in "GUID" of the routing header.
3797 *Progress
= StringPtr
;
3798 Status
= EFI_NOT_FOUND
;
3804 // Validate ConfigRequest String.
3806 ErrorPtr
= ConfigRequestValidate(ConfigRequest
);
3807 if (ErrorPtr
!= NULL
) {
3808 *Progress
= StrStr (StringPtr
, ErrorPtr
);
3809 Status
= EFI_INVALID_PARAMETER
;
3814 // Check whether ConfigRequest contains request string.
3816 IfrDataParsedFlag
= FALSE
;
3817 if ((HiiHandle
!= NULL
) && !GetElementsFromRequest(ConfigRequest
)) {
3819 // Get the full request string from IFR when HiiPackage is registered to HiiHandle
3821 IfrDataParsedFlag
= TRUE
;
3822 Status
= GetFullStringFromHiiFormPackages (Database
, DevicePath
, &ConfigRequest
, &DefaultResults
, &AccessProgress
);
3823 if (EFI_ERROR (Status
)) {
3825 // AccessProgress indicates the parsing progress on <ConfigRequest>.
3826 // Map it to the progress on <MultiConfigRequest> then return it.
3828 ASSERT (AccessProgress
!= NULL
);
3829 *Progress
= StrStr (StringPtr
, AccessProgress
);
3833 // Not any request block is found.
3835 if (!GetElementsFromRequest(ConfigRequest
)) {
3836 AccessResults
= AllocateCopyPool (StrSize (ConfigRequest
), ConfigRequest
);
3837 goto NextConfigString
;
3842 // Check whether this ConfigRequest is search from Efi varstore type storage.
3844 Status
= GetVarStoreType(Database
, ConfigRequest
, &IsEfiVarStore
, &EfiVarStoreInfo
);
3845 if (EFI_ERROR (Status
)) {
3849 if (IsEfiVarStore
) {
3851 // Call the GetVariable function to extract settings.
3853 Status
= GetConfigRespFromEfiVarStore(This
, EfiVarStoreInfo
, ConfigRequest
, &AccessResults
, &AccessProgress
);
3854 FreePool (EfiVarStoreInfo
);
3857 // Call corresponding ConfigAccess protocol to extract settings
3859 Status
= gBS
->HandleProtocol (
3861 &gEfiHiiConfigAccessProtocolGuid
,
3862 (VOID
**) &ConfigAccess
3864 ASSERT_EFI_ERROR (Status
);
3866 Status
= ConfigAccess
->ExtractConfig (
3873 if (EFI_ERROR (Status
)) {
3875 // AccessProgress indicates the parsing progress on <ConfigRequest>.
3876 // Map it to the progress on <MultiConfigRequest> then return it.
3878 *Progress
= StrStr (StringPtr
, AccessProgress
);
3883 // Attach this <ConfigAltResp> to a <MultiConfigAltResp>. There is a '&'
3884 // which seperates the first <ConfigAltResp> and the following ones.
3886 ASSERT (*AccessProgress
== 0);
3889 // Update AccessResults by getting default setting from IFR when HiiPackage is registered to HiiHandle
3891 if (!IfrDataParsedFlag
&& HiiHandle
!= NULL
) {
3892 Status
= GetFullStringFromHiiFormPackages (Database
, DevicePath
, &ConfigRequest
, &DefaultResults
, NULL
);
3893 ASSERT_EFI_ERROR (Status
);
3896 FreePool (DevicePath
);
3899 if (DefaultResults
!= NULL
) {
3900 Status
= MergeDefaultString (&AccessResults
, DefaultResults
);
3901 ASSERT_EFI_ERROR (Status
);
3902 FreePool (DefaultResults
);
3903 DefaultResults
= NULL
;
3907 if (!FirstElement
) {
3908 Status
= AppendToMultiString (Results
, L
"&");
3909 ASSERT_EFI_ERROR (Status
);
3912 Status
= AppendToMultiString (Results
, AccessResults
);
3913 ASSERT_EFI_ERROR (Status
);
3915 FirstElement
= FALSE
;
3917 FreePool (AccessResults
);
3918 AccessResults
= NULL
;
3919 FreePool (ConfigRequest
);
3920 ConfigRequest
= NULL
;
3923 // Go to next <ConfigRequest> (skip '&').
3925 StringPtr
+= Length
;
3926 if (*StringPtr
== 0) {
3927 *Progress
= StringPtr
;
3935 if (EFI_ERROR (Status
)) {
3936 FreePool (*Results
);
3940 if (ConfigRequest
!= NULL
) {
3941 FreePool (ConfigRequest
);
3944 if (AccessResults
!= NULL
) {
3945 FreePool (AccessResults
);
3948 if (DefaultResults
!= NULL
) {
3949 FreePool (DefaultResults
);
3952 if (DevicePath
!= NULL
) {
3953 FreePool (DevicePath
);
3961 This function allows the caller to request the current configuration for the
3962 entirety of the current HII database and returns the data in a
3963 null-terminated Unicode string.
3965 @param This A pointer to the EFI_HII_CONFIG_ROUTING_PROTOCOL
3967 @param Results Null-terminated Unicode string in
3968 <MultiConfigAltResp> format which has all values
3969 filled in for the entirety of the current HII
3970 database. String to be allocated by the called
3971 function. De-allocation is up to the caller.
3973 @retval EFI_SUCCESS The Results string is filled with the values
3974 corresponding to all requested names.
3975 @retval EFI_OUT_OF_RESOURCES Not enough memory to store the parts of the
3976 results that must be stored awaiting possible
3978 @retval EFI_INVALID_PARAMETER For example, passing in a NULL for the Results
3979 parameter would result in this type of error.
3984 HiiConfigRoutingExportConfig (
3985 IN CONST EFI_HII_CONFIG_ROUTING_PROTOCOL
*This
,
3986 OUT EFI_STRING
*Results
3990 EFI_HII_CONFIG_ACCESS_PROTOCOL
*ConfigAccess
;
3991 EFI_STRING AccessResults
;
3992 EFI_STRING Progress
;
3993 EFI_STRING StringPtr
;
3994 EFI_STRING ConfigRequest
;
3996 EFI_HANDLE
*ConfigAccessHandles
;
3997 UINTN NumberConfigAccessHandles
;
3998 BOOLEAN FirstElement
;
3999 EFI_DEVICE_PATH_PROTOCOL
*DevicePath
;
4000 EFI_HII_HANDLE HiiHandle
;
4001 EFI_STRING DefaultResults
;
4002 HII_DATABASE_PRIVATE_DATA
*Private
;
4004 HII_DATABASE_RECORD
*Database
;
4005 UINT8
*DevicePathPkg
;
4006 UINT8
*CurrentDevicePath
;
4007 BOOLEAN IfrDataParsedFlag
;
4009 if (This
== NULL
|| Results
== NULL
) {
4010 return EFI_INVALID_PARAMETER
;
4013 Private
= CONFIG_ROUTING_DATABASE_PRIVATE_DATA_FROM_THIS (This
);
4016 // Allocate a fix length of memory to store Results. Reallocate memory for
4017 // Results if this fix length is insufficient.
4019 *Results
= (EFI_STRING
) AllocateZeroPool (MAX_STRING_LENGTH
);
4020 if (*Results
== NULL
) {
4021 return EFI_OUT_OF_RESOURCES
;
4024 NumberConfigAccessHandles
= 0;
4025 Status
= gBS
->LocateHandleBuffer (
4027 &gEfiHiiConfigAccessProtocolGuid
,
4029 &NumberConfigAccessHandles
,
4030 &ConfigAccessHandles
4032 if (EFI_ERROR (Status
)) {
4036 FirstElement
= TRUE
;
4038 for (Index
= 0; Index
< NumberConfigAccessHandles
; Index
++) {
4039 Status
= gBS
->HandleProtocol (
4040 ConfigAccessHandles
[Index
],
4041 &gEfiHiiConfigAccessProtocolGuid
,
4042 (VOID
**) &ConfigAccess
4044 if (EFI_ERROR (Status
)) {
4049 // Get DevicePath and HiiHandle for this ConfigAccess driver handle
4051 IfrDataParsedFlag
= FALSE
;
4054 DefaultResults
= NULL
;
4056 ConfigRequest
= NULL
;
4057 DevicePath
= DevicePathFromHandle (ConfigAccessHandles
[Index
]);
4058 if (DevicePath
!= NULL
) {
4059 for (Link
= Private
->DatabaseList
.ForwardLink
;
4060 Link
!= &Private
->DatabaseList
;
4061 Link
= Link
->ForwardLink
4063 Database
= CR (Link
, HII_DATABASE_RECORD
, DatabaseEntry
, HII_DATABASE_RECORD_SIGNATURE
);
4064 if ((DevicePathPkg
= Database
->PackageList
->DevicePathPkg
) != NULL
) {
4065 CurrentDevicePath
= DevicePathPkg
+ sizeof (EFI_HII_PACKAGE_HEADER
);
4069 GetDevicePathSize ((EFI_DEVICE_PATH_PROTOCOL
*) CurrentDevicePath
)
4071 HiiHandle
= Database
->Handle
;
4078 Status
= ConfigAccess
->ExtractConfig (
4084 if (EFI_ERROR (Status
)) {
4086 // Update AccessResults by getting default setting from IFR when HiiPackage is registered to HiiHandle
4088 if (HiiHandle
!= NULL
&& DevicePath
!= NULL
) {
4089 IfrDataParsedFlag
= TRUE
;
4090 Status
= GetFullStringFromHiiFormPackages (Database
, DevicePath
, &ConfigRequest
, &DefaultResults
, NULL
);
4092 // Get the full request string to get the Current setting again.
4094 if (!EFI_ERROR (Status
) && ConfigRequest
!= NULL
) {
4095 Status
= ConfigAccess
->ExtractConfig (
4101 FreePool (ConfigRequest
);
4103 Status
= EFI_NOT_FOUND
;
4108 if (!EFI_ERROR (Status
)) {
4110 // Update AccessResults by getting default setting from IFR when HiiPackage is registered to HiiHandle
4112 if (!IfrDataParsedFlag
&& HiiHandle
!= NULL
&& DevicePath
!= NULL
) {
4113 StringPtr
= StrStr (AccessResults
, L
"&GUID=");
4114 if (StringPtr
!= NULL
) {
4117 if (GetElementsFromRequest (AccessResults
)) {
4118 Status
= GetFullStringFromHiiFormPackages (Database
, DevicePath
, &AccessResults
, &DefaultResults
, NULL
);
4119 ASSERT_EFI_ERROR (Status
);
4121 if (StringPtr
!= NULL
) {
4126 // Merge the default sting from IFR code into the got setting from driver.
4128 if (DefaultResults
!= NULL
) {
4129 Status
= MergeDefaultString (&AccessResults
, DefaultResults
);
4130 ASSERT_EFI_ERROR (Status
);
4131 FreePool (DefaultResults
);
4132 DefaultResults
= NULL
;
4136 // Attach this <ConfigAltResp> to a <MultiConfigAltResp>. There is a '&'
4137 // which seperates the first <ConfigAltResp> and the following ones.
4139 if (!FirstElement
) {
4140 Status
= AppendToMultiString (Results
, L
"&");
4141 ASSERT_EFI_ERROR (Status
);
4144 Status
= AppendToMultiString (Results
, AccessResults
);
4145 ASSERT_EFI_ERROR (Status
);
4147 FirstElement
= FALSE
;
4149 FreePool (AccessResults
);
4150 AccessResults
= NULL
;
4153 FreePool (ConfigAccessHandles
);
4160 This function processes the results of processing forms and routes it to the
4161 appropriate handlers or storage.
4163 @param This A pointer to the EFI_HII_CONFIG_ROUTING_PROTOCOL
4165 @param Configuration A null-terminated Unicode string in
4166 <MulltiConfigResp> format.
4167 @param Progress A pointer to a string filled in with the offset of
4168 the most recent & before the first failing name /
4169 value pair (or the beginning of the string if the
4170 failure is in the first name / value pair) or the
4171 terminating NULL if all was successful.
4173 @retval EFI_SUCCESS The results have been distributed or are awaiting
4175 @retval EFI_OUT_OF_RESOURCES Not enough memory to store the parts of the
4176 results that must be stored awaiting possible
4178 @retval EFI_INVALID_PARAMETER Passing in a NULL for the Configuration parameter
4179 would result in this type of error.
4180 @retval EFI_NOT_FOUND Target for the specified routing data was not
4186 HiiConfigRoutingRouteConfig (
4187 IN CONST EFI_HII_CONFIG_ROUTING_PROTOCOL
*This
,
4188 IN CONST EFI_STRING Configuration
,
4189 OUT EFI_STRING
*Progress
4192 HII_DATABASE_PRIVATE_DATA
*Private
;
4193 EFI_STRING StringPtr
;
4194 EFI_STRING ConfigResp
;
4197 EFI_DEVICE_PATH_PROTOCOL
*DevicePath
;
4198 EFI_DEVICE_PATH_PROTOCOL
*TempDevicePath
;
4200 HII_DATABASE_RECORD
*Database
;
4201 UINT8
*DevicePathPkg
;
4202 UINT8
*CurrentDevicePath
;
4203 EFI_HANDLE DriverHandle
;
4204 EFI_HII_CONFIG_ACCESS_PROTOCOL
*ConfigAccess
;
4205 EFI_STRING AccessProgress
;
4206 EFI_IFR_VARSTORE_EFI
*EfiVarStoreInfo
;
4207 BOOLEAN IsEfiVarstore
;
4208 UINTN DevicePathSize
;
4210 if (This
== NULL
|| Progress
== NULL
) {
4211 return EFI_INVALID_PARAMETER
;
4214 if (Configuration
== NULL
) {
4216 return EFI_INVALID_PARAMETER
;
4219 Private
= CONFIG_ROUTING_DATABASE_PRIVATE_DATA_FROM_THIS (This
);
4220 StringPtr
= Configuration
;
4221 *Progress
= StringPtr
;
4223 AccessProgress
= NULL
;
4224 EfiVarStoreInfo
= NULL
;
4225 IsEfiVarstore
= FALSE
;
4228 // The first element of <MultiConfigResp> should be
4229 // <GuidHdr>, which is in 'GUID='<Guid> syntax.
4231 if (StrnCmp (StringPtr
, L
"GUID=", StrLen (L
"GUID=")) != 0) {
4232 return EFI_INVALID_PARAMETER
;
4235 while (*StringPtr
!= 0 && StrnCmp (StringPtr
, L
"GUID=", StrLen (L
"GUID=")) == 0) {
4237 // If parsing error, set Progress to the beginning of the <MultiConfigResp>
4238 // or most recent & before the error.
4240 if (StringPtr
== Configuration
) {
4241 *Progress
= StringPtr
;
4243 *Progress
= StringPtr
- 1;
4247 // Process each <ConfigResp> of <MultiConfigResp>
4249 Length
= CalculateConfigStringLen (StringPtr
);
4250 ConfigResp
= AllocateCopyPool ((Length
+ 1) * sizeof (CHAR16
), StringPtr
);
4251 if (ConfigResp
== NULL
) {
4252 return EFI_OUT_OF_RESOURCES
;
4255 // Append '\0' to the end of ConfigRequest
4257 *(ConfigResp
+ Length
) = 0;
4260 // Get the UEFI device path
4262 Status
= GetDevicePath (ConfigResp
, (UINT8
**) &DevicePath
);
4263 if (EFI_ERROR (Status
)) {
4264 FreePool (ConfigResp
);
4269 // Find driver which matches the routing data.
4271 DriverHandle
= NULL
;
4272 for (Link
= Private
->DatabaseList
.ForwardLink
;
4273 Link
!= &Private
->DatabaseList
;
4274 Link
= Link
->ForwardLink
4276 Database
= CR (Link
, HII_DATABASE_RECORD
, DatabaseEntry
, HII_DATABASE_RECORD_SIGNATURE
);
4278 if ((DevicePathPkg
= Database
->PackageList
->DevicePathPkg
) != NULL
) {
4279 CurrentDevicePath
= DevicePathPkg
+ sizeof (EFI_HII_PACKAGE_HEADER
);
4280 DevicePathSize
= GetDevicePathSize ((EFI_DEVICE_PATH_PROTOCOL
*) CurrentDevicePath
);
4281 if ((CompareMem (DevicePath
,CurrentDevicePath
,DevicePathSize
) == 0) && IsThisPackageList(Database
, ConfigResp
)) {
4282 DriverHandle
= Database
->DriverHandle
;
4289 // Try to find driver handle by device path.
4291 if (DriverHandle
== NULL
) {
4292 TempDevicePath
= DevicePath
;
4293 Status
= gBS
->LocateDevicePath (
4294 &gEfiDevicePathProtocolGuid
,
4298 if (EFI_ERROR (Status
) || (DriverHandle
== NULL
)) {
4300 // Routing data does not match any known driver.
4301 // Set Progress to the 'G' in "GUID" of the routing header.
4303 FreePool (DevicePath
);
4304 *Progress
= StringPtr
;
4305 FreePool (ConfigResp
);
4306 return EFI_NOT_FOUND
;
4310 FreePool (DevicePath
);
4313 // Check whether this ConfigRequest is search from Efi varstore type storage.
4315 Status
= GetVarStoreType(Database
, ConfigResp
, &IsEfiVarstore
, &EfiVarStoreInfo
);
4316 if (EFI_ERROR (Status
)) {
4320 if (IsEfiVarstore
) {
4322 // Call the SetVariable function to route settings.
4324 Status
= RouteConfigRespForEfiVarStore(This
, EfiVarStoreInfo
, ConfigResp
, &AccessProgress
);
4325 FreePool (EfiVarStoreInfo
);
4328 // Call corresponding ConfigAccess protocol to route settings
4330 Status
= gBS
->HandleProtocol (
4332 &gEfiHiiConfigAccessProtocolGuid
,
4333 (VOID
**) &ConfigAccess
4335 ASSERT_EFI_ERROR (Status
);
4337 Status
= ConfigAccess
->RouteConfig (
4343 if (EFI_ERROR (Status
)) {
4344 ASSERT (AccessProgress
!= NULL
);
4346 // AccessProgress indicates the parsing progress on <ConfigResp>.
4347 // Map it to the progress on <MultiConfigResp> then return it.
4349 *Progress
= StrStr (StringPtr
, AccessProgress
);
4351 FreePool (ConfigResp
);
4355 FreePool (ConfigResp
);
4359 // Go to next <ConfigResp> (skip '&').
4361 StringPtr
+= Length
;
4362 if (*StringPtr
== 0) {
4363 *Progress
= StringPtr
;
4376 This helper function is to be called by drivers to map configuration data
4377 stored in byte array ("block") formats such as UEFI Variables into current
4378 configuration strings.
4380 @param This A pointer to the EFI_HII_CONFIG_ROUTING_PROTOCOL
4382 @param ConfigRequest A null-terminated Unicode string in
4383 <ConfigRequest> format.
4384 @param Block Array of bytes defining the block's configuration.
4385 @param BlockSize Length in bytes of Block.
4386 @param Config Filled-in configuration string. String allocated
4387 by the function. Returned only if call is
4388 successful. It is <ConfigResp> string format.
4389 @param Progress A pointer to a string filled in with the offset of
4390 the most recent & before the first failing
4391 name/value pair (or the beginning of the string if
4392 the failure is in the first name / value pair) or
4393 the terminating NULL if all was successful.
4395 @retval EFI_SUCCESS The request succeeded. Progress points to the null
4396 terminator at the end of the ConfigRequest
4398 @retval EFI_OUT_OF_RESOURCES Not enough memory to allocate Config. Progress
4399 points to the first character of ConfigRequest.
4400 @retval EFI_INVALID_PARAMETER Passing in a NULL for the ConfigRequest or
4401 Block parameter would result in this type of
4402 error. Progress points to the first character of
4404 @retval EFI_DEVICE_ERROR Block not large enough. Progress undefined.
4405 @retval EFI_INVALID_PARAMETER Encountered non <BlockName> formatted string.
4406 Block is left updated and Progress points at
4407 the "&" preceding the first non-<BlockName>.
4413 IN CONST EFI_HII_CONFIG_ROUTING_PROTOCOL
*This
,
4414 IN CONST EFI_STRING ConfigRequest
,
4415 IN CONST UINT8
*Block
,
4416 IN CONST UINTN BlockSize
,
4417 OUT EFI_STRING
*Config
,
4418 OUT EFI_STRING
*Progress
4421 HII_DATABASE_PRIVATE_DATA
*Private
;
4422 EFI_STRING StringPtr
;
4430 EFI_STRING ValueStr
;
4431 EFI_STRING ConfigElement
;
4439 if (This
== NULL
|| Progress
== NULL
|| Config
== NULL
) {
4440 return EFI_INVALID_PARAMETER
;
4443 if (Block
== NULL
|| ConfigRequest
== NULL
) {
4444 *Progress
= ConfigRequest
;
4445 return EFI_INVALID_PARAMETER
;
4449 Private
= CONFIG_ROUTING_DATABASE_PRIVATE_DATA_FROM_THIS (This
);
4450 ASSERT (Private
!= NULL
);
4452 StringPtr
= ConfigRequest
;
4455 ConfigElement
= NULL
;
4458 // Allocate a fix length of memory to store Results. Reallocate memory for
4459 // Results if this fix length is insufficient.
4461 *Config
= (EFI_STRING
) AllocateZeroPool (MAX_STRING_LENGTH
);
4462 if (*Config
== NULL
) {
4463 return EFI_OUT_OF_RESOURCES
;
4469 if (StrnCmp (StringPtr
, L
"GUID=", StrLen (L
"GUID=")) != 0) {
4470 *Progress
= StringPtr
;
4471 Status
= EFI_INVALID_PARAMETER
;
4474 while (*StringPtr
!= 0 && StrnCmp (StringPtr
, L
"PATH=", StrLen (L
"PATH=")) != 0) {
4477 if (*StringPtr
== 0) {
4478 *Progress
= StringPtr
- 1;
4479 Status
= EFI_INVALID_PARAMETER
;
4483 while (*StringPtr
!= L
'&' && *StringPtr
!= 0) {
4486 if (*StringPtr
== 0) {
4487 *Progress
= StringPtr
;
4489 AppendToMultiString(Config
, ConfigRequest
);
4490 HiiToLower (*Config
);
4500 // Copy <ConfigHdr> and an additional '&' to <ConfigResp>
4502 TemChar
= *StringPtr
;
4504 AppendToMultiString(Config
, ConfigRequest
);
4505 *StringPtr
= TemChar
;
4508 // Parse each <RequestElement> if exists
4509 // Only <BlockName> format is supported by this help function.
4510 // <BlockName> ::= 'OFFSET='<Number>&'WIDTH='<Number>
4512 while (*StringPtr
!= 0 && StrnCmp (StringPtr
, L
"OFFSET=", StrLen (L
"OFFSET=")) == 0) {
4514 // Back up the header of one <BlockName>
4518 StringPtr
+= StrLen (L
"OFFSET=");
4522 Status
= GetValueOfNumber (StringPtr
, &TmpBuffer
, &Length
);
4523 if (EFI_ERROR (Status
)) {
4524 *Progress
= TmpPtr
- 1;
4531 (((Length
+ 1) / 2) < sizeof (UINTN
)) ? ((Length
+ 1) / 2) : sizeof (UINTN
)
4533 FreePool (TmpBuffer
);
4535 StringPtr
+= Length
;
4536 if (StrnCmp (StringPtr
, L
"&WIDTH=", StrLen (L
"&WIDTH=")) != 0) {
4537 *Progress
= TmpPtr
- 1;
4538 Status
= EFI_INVALID_PARAMETER
;
4541 StringPtr
+= StrLen (L
"&WIDTH=");
4546 Status
= GetValueOfNumber (StringPtr
, &TmpBuffer
, &Length
);
4547 if (EFI_ERROR (Status
)) {
4548 *Progress
= TmpPtr
- 1;
4555 (((Length
+ 1) / 2) < sizeof (UINTN
)) ? ((Length
+ 1) / 2) : sizeof (UINTN
)
4557 FreePool (TmpBuffer
);
4559 StringPtr
+= Length
;
4560 if (*StringPtr
!= 0 && *StringPtr
!= L
'&') {
4561 *Progress
= TmpPtr
- 1;
4562 Status
= EFI_INVALID_PARAMETER
;
4567 // Calculate Value and convert it to hex string.
4569 if (Offset
+ Width
> BlockSize
) {
4570 *Progress
= StringPtr
;
4571 Status
= EFI_DEVICE_ERROR
;
4575 Value
= (UINT8
*) AllocateZeroPool (Width
);
4576 if (Value
== NULL
) {
4577 *Progress
= ConfigRequest
;
4578 Status
= EFI_OUT_OF_RESOURCES
;
4582 CopyMem (Value
, (UINT8
*) Block
+ Offset
, Width
);
4584 Length
= Width
* 2 + 1;
4585 ValueStr
= (EFI_STRING
) AllocateZeroPool (Length
* sizeof (CHAR16
));
4586 if (ValueStr
== NULL
) {
4587 *Progress
= ConfigRequest
;
4588 Status
= EFI_OUT_OF_RESOURCES
;
4592 TemString
= ValueStr
;
4593 TemBuffer
= Value
+ Width
- 1;
4594 for (Index
= 0; Index
< Width
; Index
++, TemBuffer
--) {
4595 TemString
+= UnicodeValueToString (TemString
, PREFIX_ZERO
| RADIX_HEX
, *TemBuffer
, 2);
4602 // Build a ConfigElement
4604 Length
+= StringPtr
- TmpPtr
+ 1 + StrLen (L
"VALUE=");
4605 ConfigElement
= (EFI_STRING
) AllocateZeroPool (Length
* sizeof (CHAR16
));
4606 if (ConfigElement
== NULL
) {
4607 Status
= EFI_OUT_OF_RESOURCES
;
4610 CopyMem (ConfigElement
, TmpPtr
, (StringPtr
- TmpPtr
+ 1) * sizeof (CHAR16
));
4611 if (*StringPtr
== 0) {
4612 *(ConfigElement
+ (StringPtr
- TmpPtr
)) = L
'&';
4614 *(ConfigElement
+ (StringPtr
- TmpPtr
) + 1) = 0;
4615 StrCat (ConfigElement
, L
"VALUE=");
4616 StrCat (ConfigElement
, ValueStr
);
4618 AppendToMultiString (Config
, ConfigElement
);
4620 FreePool (ConfigElement
);
4621 FreePool (ValueStr
);
4622 ConfigElement
= NULL
;
4626 // If '\0', parsing is finished. Otherwise skip '&' to continue
4628 if (*StringPtr
== 0) {
4631 AppendToMultiString (Config
, L
"&");
4636 if (*StringPtr
!= 0) {
4637 *Progress
= StringPtr
- 1;
4638 Status
= EFI_INVALID_PARAMETER
;
4642 HiiToLower (*Config
);
4643 *Progress
= StringPtr
;
4647 if (*Config
!= NULL
) {
4651 if (ValueStr
!= NULL
) {
4652 FreePool (ValueStr
);
4654 if (Value
!= NULL
) {
4657 if (ConfigElement
!= NULL
) {
4658 FreePool (ConfigElement
);
4667 This helper function is to be called by drivers to map configuration strings
4668 to configurations stored in byte array ("block") formats such as UEFI Variables.
4670 @param This A pointer to the EFI_HII_CONFIG_ROUTING_PROTOCOL
4672 @param ConfigResp A null-terminated Unicode string in <ConfigResp>
4674 @param Block A possibly null array of bytes representing the
4675 current block. Only bytes referenced in the
4676 ConfigResp string in the block are modified. If
4677 this parameter is null or if the *BlockSize
4678 parameter is (on input) shorter than required by
4679 the Configuration string, only the BlockSize
4680 parameter is updated and an appropriate status
4681 (see below) is returned.
4682 @param BlockSize The length of the Block in units of UINT8. On
4683 input, this is the size of the Block. On output,
4684 if successful, contains the largest index of the
4685 modified byte in the Block, or the required buffer
4686 size if the Block is not large enough.
4687 @param Progress On return, points to an element of the ConfigResp
4688 string filled in with the offset of the most
4689 recent '&' before the first failing name / value
4690 pair (or the beginning of the string if the
4691 failure is in the first name / value pair) or the
4692 terminating NULL if all was successful.
4694 @retval EFI_SUCCESS The request succeeded. Progress points to the null
4695 terminator at the end of the ConfigResp string.
4696 @retval EFI_OUT_OF_RESOURCES Not enough memory to allocate Config. Progress
4697 points to the first character of ConfigResp.
4698 @retval EFI_INVALID_PARAMETER Passing in a NULL for the ConfigResp or
4699 Block parameter would result in this type of
4700 error. Progress points to the first character of
4702 @retval EFI_INVALID_PARAMETER Encountered non <BlockName> formatted name /
4703 value pair. Block is left updated and
4704 Progress points at the '&' preceding the first
4706 @retval EFI_BUFFER_TOO_SMALL Block not large enough. Progress undefined.
4707 BlockSize is updated with the required buffer size.
4708 @retval EFI_NOT_FOUND Target for the specified routing data was not found.
4709 Progress points to the "G" in "GUID" of the errant
4716 IN CONST EFI_HII_CONFIG_ROUTING_PROTOCOL
*This
,
4717 IN CONST EFI_STRING ConfigResp
,
4718 IN OUT UINT8
*Block
,
4719 IN OUT UINTN
*BlockSize
,
4720 OUT EFI_STRING
*Progress
4723 HII_DATABASE_PRIVATE_DATA
*Private
;
4724 EFI_STRING StringPtr
;
4737 if (This
== NULL
|| BlockSize
== NULL
|| Progress
== NULL
) {
4738 return EFI_INVALID_PARAMETER
;
4741 *Progress
= ConfigResp
;
4742 if (ConfigResp
== NULL
) {
4743 return EFI_INVALID_PARAMETER
;
4746 Private
= CONFIG_ROUTING_DATABASE_PRIVATE_DATA_FROM_THIS (This
);
4747 ASSERT (Private
!= NULL
);
4749 StringPtr
= ConfigResp
;
4750 BufferSize
= *BlockSize
;
4757 if (StrnCmp (StringPtr
, L
"GUID=", StrLen (L
"GUID=")) != 0) {
4758 *Progress
= StringPtr
;
4759 Status
= EFI_INVALID_PARAMETER
;
4762 while (*StringPtr
!= 0 && StrnCmp (StringPtr
, L
"PATH=", StrLen (L
"PATH=")) != 0) {
4765 if (*StringPtr
== 0) {
4766 *Progress
= StringPtr
;
4767 Status
= EFI_INVALID_PARAMETER
;
4771 while (*StringPtr
!= L
'&' && *StringPtr
!= 0) {
4774 if (*StringPtr
== 0) {
4775 *Progress
= StringPtr
;
4776 Status
= EFI_INVALID_PARAMETER
;
4781 // Parse each <ConfigElement> if exists
4782 // Only '&'<BlockConfig> format is supported by this help function.
4783 // <BlockConfig> ::= 'OFFSET='<Number>&'WIDTH='<Number>&'VALUE='<Number>
4785 while (*StringPtr
!= 0 && StrnCmp (StringPtr
, L
"&OFFSET=", StrLen (L
"&OFFSET=")) == 0) {
4787 StringPtr
+= StrLen (L
"&OFFSET=");
4791 Status
= GetValueOfNumber (StringPtr
, &TmpBuffer
, &Length
);
4792 if (EFI_ERROR (Status
)) {
4800 (((Length
+ 1) / 2) < sizeof (UINTN
)) ? ((Length
+ 1) / 2) : sizeof (UINTN
)
4802 FreePool (TmpBuffer
);
4804 StringPtr
+= Length
;
4805 if (StrnCmp (StringPtr
, L
"&WIDTH=", StrLen (L
"&WIDTH=")) != 0) {
4807 Status
= EFI_INVALID_PARAMETER
;
4810 StringPtr
+= StrLen (L
"&WIDTH=");
4815 Status
= GetValueOfNumber (StringPtr
, &TmpBuffer
, &Length
);
4816 if (EFI_ERROR (Status
)) {
4824 (((Length
+ 1) / 2) < sizeof (UINTN
)) ? ((Length
+ 1) / 2) : sizeof (UINTN
)
4826 FreePool (TmpBuffer
);
4828 StringPtr
+= Length
;
4829 if (StrnCmp (StringPtr
, L
"&VALUE=", StrLen (L
"&VALUE=")) != 0) {
4831 Status
= EFI_INVALID_PARAMETER
;
4834 StringPtr
+= StrLen (L
"&VALUE=");
4839 Status
= GetValueOfNumber (StringPtr
, &Value
, &Length
);
4840 if (EFI_ERROR (Status
)) {
4845 StringPtr
+= Length
;
4846 if (*StringPtr
!= 0 && *StringPtr
!= L
'&') {
4848 Status
= EFI_INVALID_PARAMETER
;
4853 // Update the Block with configuration info
4855 if ((Block
!= NULL
) && (Offset
+ Width
<= BufferSize
)) {
4856 CopyMem (Block
+ Offset
, Value
, Width
);
4858 if (Offset
+ Width
> MaxBlockSize
) {
4859 MaxBlockSize
= Offset
+ Width
;
4866 // If '\0', parsing is finished.
4868 if (*StringPtr
== 0) {
4874 // The input string is not ConfigResp format, return error.
4876 if (*StringPtr
!= 0) {
4877 *Progress
= StringPtr
;
4878 Status
= EFI_INVALID_PARAMETER
;
4882 *Progress
= StringPtr
+ StrLen (StringPtr
);
4883 *BlockSize
= MaxBlockSize
- 1;
4885 if (MaxBlockSize
> BufferSize
) {
4886 *BlockSize
= MaxBlockSize
;
4887 if (Block
!= NULL
) {
4888 return EFI_BUFFER_TOO_SMALL
;
4892 if (Block
== NULL
) {
4893 *Progress
= ConfigResp
;
4894 return EFI_INVALID_PARAMETER
;
4901 if (Value
!= NULL
) {
4909 This helper function is to be called by drivers to extract portions of
4910 a larger configuration string.
4912 @param This A pointer to the EFI_HII_CONFIG_ROUTING_PROTOCOL
4914 @param Configuration A null-terminated Unicode string in
4915 <MultiConfigAltResp> format.
4916 @param Guid A pointer to the GUID value to search for in the
4917 routing portion of the ConfigResp string when
4918 retrieving the requested data. If Guid is NULL,
4919 then all GUID values will be searched for.
4920 @param Name A pointer to the NAME value to search for in the
4921 routing portion of the ConfigResp string when
4922 retrieving the requested data. If Name is NULL,
4923 then all Name values will be searched for.
4924 @param DevicePath A pointer to the PATH value to search for in the
4925 routing portion of the ConfigResp string when
4926 retrieving the requested data. If DevicePath is
4927 NULL, then all DevicePath values will be searched
4929 @param AltCfgId A pointer to the ALTCFG value to search for in the
4930 routing portion of the ConfigResp string when
4931 retrieving the requested data. If this parameter
4932 is NULL, then the current setting will be
4934 @param AltCfgResp A pointer to a buffer which will be allocated by
4935 the function which contains the retrieved string
4936 as requested. This buffer is only allocated if
4937 the call was successful. It is <ConfigResp> format.
4939 @retval EFI_SUCCESS The request succeeded. The requested data was
4940 extracted and placed in the newly allocated
4942 @retval EFI_OUT_OF_RESOURCES Not enough memory to allocate AltCfgResp.
4943 @retval EFI_INVALID_PARAMETER Any parameter is invalid.
4944 @retval EFI_NOT_FOUND Target for the specified routing data was not
4951 IN CONST EFI_HII_CONFIG_ROUTING_PROTOCOL
*This
,
4952 IN CONST EFI_STRING Configuration
,
4953 IN CONST EFI_GUID
*Guid
,
4954 IN CONST EFI_STRING Name
,
4955 IN CONST EFI_DEVICE_PATH_PROTOCOL
*DevicePath
,
4956 IN CONST UINT16
*AltCfgId
,
4957 OUT EFI_STRING
*AltCfgResp
4961 EFI_STRING StringPtr
;
4962 EFI_STRING HdrStart
;
4969 EFI_STRING AltIdStr
;
4986 if (This
== NULL
|| Configuration
== NULL
|| AltCfgResp
== NULL
) {
4987 return EFI_INVALID_PARAMETER
;
4990 StringPtr
= Configuration
;
4991 if (StrnCmp (StringPtr
, L
"GUID=", StrLen (L
"GUID=")) != 0) {
4992 return EFI_INVALID_PARAMETER
;
4996 // Generate the sub string for later matching.
4998 GenerateSubStr (L
"GUID=", sizeof (EFI_GUID
), (VOID
*) Guid
, 1, &GuidStr
);
5001 GetDevicePathSize ((EFI_DEVICE_PATH_PROTOCOL
*) DevicePath
),
5002 (VOID
*) DevicePath
,
5006 if (AltCfgId
!= NULL
) {
5007 GenerateSubStr (L
"ALTCFG=", sizeof (UINT16
), (VOID
*) AltCfgId
, 3, &AltIdStr
);
5010 GenerateSubStr (L
"NAME=", StrLen (Name
) * sizeof (CHAR16
), (VOID
*) Name
, 2, &NameStr
);
5012 GenerateSubStr (L
"NAME=", 0, NULL
, 2, &NameStr
);
5015 while (*StringPtr
!= 0) {
5017 // Try to match the GUID
5020 TmpPtr
= StrStr (StringPtr
, GuidStr
);
5021 if (TmpPtr
== NULL
) {
5022 Status
= EFI_NOT_FOUND
;
5028 // Jump to <NameHdr>
5031 StringPtr
= TmpPtr
+ StrLen (GuidStr
);
5033 StringPtr
= StrStr (TmpPtr
, L
"NAME=");
5034 if (StringPtr
== NULL
) {
5035 Status
= EFI_NOT_FOUND
;
5043 // Try to match the NAME
5045 if (GuidFlag
&& !NameFlag
) {
5046 if (StrnCmp (StringPtr
, NameStr
, StrLen (NameStr
)) != 0) {
5050 // Jump to <PathHdr>
5053 StringPtr
+= StrLen (NameStr
);
5055 StringPtr
= StrStr (StringPtr
, L
"PATH=");
5056 if (StringPtr
== NULL
) {
5057 Status
= EFI_NOT_FOUND
;
5066 // Try to match the DevicePath
5068 if (GuidFlag
&& NameFlag
&& !PathFlag
) {
5069 if (StrnCmp (StringPtr
, PathStr
, StrLen (PathStr
)) != 0) {
5074 // Jump to '&' before <DescHdr> or <ConfigBody>
5076 if (DevicePath
!= NULL
) {
5077 StringPtr
+= StrLen (PathStr
);
5079 StringPtr
= StrStr (StringPtr
, L
"&");
5080 if (StringPtr
== NULL
) {
5081 Status
= EFI_NOT_FOUND
;
5092 // Try to match the AltCfgId
5094 if (GuidFlag
&& NameFlag
&& PathFlag
) {
5095 if (AltCfgId
== NULL
) {
5097 // Return Current Setting when AltCfgId is NULL.
5099 Status
= OutputConfigBody (StringPtr
, &Result
);
5103 // Search the <ConfigAltResp> to get the <AltResp> with AltCfgId.
5105 if (StrnCmp (StringPtr
, AltIdStr
, StrLen (AltIdStr
)) != 0) {
5111 // Skip AltIdStr and &
5113 StringPtr
= StringPtr
+ StrLen (AltIdStr
);
5114 Status
= OutputConfigBody (StringPtr
, &Result
);
5120 Status
= EFI_NOT_FOUND
;
5124 if (!EFI_ERROR (Status
) && (Result
!= NULL
)) {
5126 // Copy the <ConfigHdr> and <ConfigBody>
5128 Length
= HdrEnd
- HdrStart
+ StrLen (Result
) + 1;
5129 *AltCfgResp
= AllocateZeroPool (Length
* sizeof (CHAR16
));
5130 if (*AltCfgResp
== NULL
) {
5131 Status
= EFI_OUT_OF_RESOURCES
;
5133 StrnCpy (*AltCfgResp
, HdrStart
, HdrEnd
- HdrStart
);
5134 StrCat (*AltCfgResp
, Result
);
5135 Status
= EFI_SUCCESS
;
5139 if (GuidStr
!= NULL
) {
5142 if (NameStr
!= NULL
) {
5145 if (PathStr
!= NULL
) {
5148 if (AltIdStr
!= NULL
) {
5149 FreePool (AltIdStr
);
5151 if (Result
!= NULL
) {