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08e4b3cf 1/** @file\r
2 HII Library implementation that uses DXE protocols and services.\r
3\r
4 Copyright (c) 2006 - 2008, Intel Corporation<BR>\r
5 All rights reserved. This program and the accompanying materials\r
6 are licensed and made available under the terms and conditions of the BSD License\r
7 which accompanies this distribution. The full text of the license may be found at\r
8 http://opensource.org/licenses/bsd-license.php\r
9\r
10 THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,\r
11 WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.\r
12\r
13**/\r
14\r
15#include "InternalHiiLib.h"\r
16\r
7e3bcccb
LG		 17//\r
18// <ConfigHdr> Template\r
19//\r
20GLOBAL_REMOVE_IF_UNREFERENCED CONST CHAR16 mConfigHdrTemplate[] = L"GUID=00000000000000000000000000000000&NAME=0000&PATH=00";\r
08e4b3cf 21\r
7e3bcccb
LG		 22//\r
23// Form Browser2 Protocol\r
24//\r
3c7449e4 25EFI_FORM_BROWSER2_PROTOCOL *mUefiFormBrowser2 = NULL;\r
08e4b3cf 26\r
27/**\r
28 This funciton build the package list based on the package number,\r
29 the GUID of the package list and the list of pointer which point to\r
30 package header that defined by UEFI VFR compiler and StringGather\r
31 tool.\r
32\r
33 #pragma pack (push, 1)\r
34 typedef struct {\r
35 UINT32 BinaryLength;\r
36 EFI_HII_PACKAGE_HEADER PackageHeader;\r
37 } EDKII_AUTOGEN_PACKAGES_HEADER;\r
38 #pragma pack (pop)\r
39\r
40 If there is not enough resource for the new package list,\r
41 the function will ASSERT.\r
42\r
43 @param NumberOfPackages The number of packages be \r
44 @param GuidId The GUID for the package list to be generated.\r
45 @param Marker The variable argument list. Each entry represent a specific package header that is\r
46 generated by VFR compiler and StrGather tool. The first 4 bytes is a UINT32 value\r
47 that indicate the overall length of the package.\r
48\r
49 @return The pointer to the package list header.\r
50\r
51**/\r
52EFI_HII_PACKAGE_LIST_HEADER *\r
53InternalHiiLibPreparePackages (\r
54 IN UINTN NumberOfPackages,\r
55 IN CONST EFI_GUID *GuidId,\r
56 IN VA_LIST Marker\r
57 )\r
58{\r
59 EFI_HII_PACKAGE_LIST_HEADER *PackageListHeader;\r
60 UINT8 *PackageListData;\r
61 UINT32 PackageListLength;\r
62 UINT32 PackageLength;\r
63 EFI_HII_PACKAGE_HEADER PackageHeader;\r
64 UINT8 *PackageArray;\r
65 UINTN Index;\r
66 VA_LIST MarkerBackup;\r
67\r
68 PackageListLength = sizeof (EFI_HII_PACKAGE_LIST_HEADER);\r
69\r
70 MarkerBackup = Marker;\r
71\r
72 //\r
dfe687ca 73 // Count the length of the final package list.\r
08e4b3cf 74 //\r
75 for (Index = 0; Index < NumberOfPackages; Index++) {\r
76 CopyMem (&PackageLength, VA_ARG (Marker, VOID *), sizeof (UINT32));\r
77 //\r
78 // Do not count the BinaryLength field.\r
79 //\r
80 PackageListLength += (PackageLength - sizeof (UINT32));\r
81 }\r
82\r
83 //\r
dfe687ca 84 // Include the length of EFI_HII_PACKAGE_END\r
08e4b3cf 85 //\r
86 PackageListLength += sizeof (EFI_HII_PACKAGE_HEADER);\r
87 PackageListHeader = AllocateZeroPool (PackageListLength);\r
88 ASSERT (PackageListHeader != NULL);\r
89 \r
90 CopyGuid (&PackageListHeader->PackageListGuid, GuidId);\r
91 PackageListHeader->PackageLength = PackageListLength;\r
92\r
93 PackageListData = ((UINT8 *) PackageListHeader) + sizeof (EFI_HII_PACKAGE_LIST_HEADER);\r
94\r
95 Marker = MarkerBackup;\r
96 //\r
97 // Prepare the final package list.\r
98 //\r
99 for (Index = 0; Index < NumberOfPackages; Index++) {\r
100 PackageArray = (UINT8 *) VA_ARG (Marker, VOID *);\r
101 //\r
102 // CopyMem is used for UINT32 to cover the unaligned address access.\r
103 //\r
104 CopyMem (&PackageLength, PackageArray, sizeof (UINT32));\r
105 PackageLength -= sizeof (UINT32);\r
106 PackageArray += sizeof (UINT32);\r
107 CopyMem (PackageListData, PackageArray, PackageLength);\r
108 PackageListData += PackageLength;\r
109 }\r
110\r
111 //\r
112 // Append EFI_HII_PACKAGE_END\r
113 //\r
114 PackageHeader.Type = EFI_HII_PACKAGE_END;\r
115 PackageHeader.Length = sizeof (EFI_HII_PACKAGE_HEADER);\r
116 CopyMem (PackageListData, &PackageHeader, PackageHeader.Length);\r
117\r
118 return PackageListHeader;\r
119}\r
120\r
121/**\r
122 Assemble EFI_HII_PACKAGE_LIST according to the passed in packages.\r
123\r
124 If GuidId is NULL, then ASSERT.\r
125 If not enough resource to complete the operation, then ASSERT.\r
126\r
127 @param NumberOfPackages Number of packages.\r
128 @param GuidId Package GUID.\r
129 @param ... Variable argument list for packages to be assembled.\r
130\r
131 @return Pointer of EFI_HII_PACKAGE_LIST_HEADER.\r
132\r
133**/\r
134EFI_HII_PACKAGE_LIST_HEADER *\r
135EFIAPI\r
136HiiLibPreparePackageList (\r
137 IN UINTN NumberOfPackages,\r
138 IN CONST EFI_GUID *GuidId,\r
139 ...\r
140 )\r
141{\r
142 EFI_HII_PACKAGE_LIST_HEADER *PackageListHeader;\r
143 VA_LIST Marker;\r
144\r
145 ASSERT (GuidId != NULL);\r
146\r
147 VA_START (Marker, GuidId);\r
148 PackageListHeader = InternalHiiLibPreparePackages (NumberOfPackages, GuidId, Marker);\r
149 VA_END (Marker);\r
150\r
151 return PackageListHeader;\r
152}\r
153\r
154\r
155/**\r
156 This function allocates pool for an EFI_HII_PACKAGE_LIST structure\r
157 with additional space that is big enough to host all packages described by the variable \r
158 argument list of package pointers. The allocated structure is initialized using NumberOfPackages, \r
159 GuidId, and the variable length argument list of package pointers.\r
160\r
161 Then, EFI_HII_PACKAGE_LIST will be register to the default System HII Database. The\r
dfe687ca 162 Handle to the newly registered Package List is returned through HiiHandle.\r
08e4b3cf 163\r
164 If HiiHandle is NULL, then ASSERT.\r
165\r
166 @param NumberOfPackages The number of HII packages to register.\r
167 @param GuidId Package List GUID ID.\r
168 @param DriverHandle Optional. If not NULL, the DriverHandle on which an instance of DEVICE_PATH_PROTOCOL is installed.\r
169 This DriverHandle uniquely defines the device that the added packages are associated with.\r
170 @param HiiHandle On output, the HiiHandle is update with the handle which can be used to retrieve the Package \r
171 List later. If the functions failed to add the package to the default HII database, this value will\r
172 be set to NULL.\r
173 @param ... The variable argument list describing all HII Package.\r
174\r
175 @return EFI_SUCCESS If the packages are successfully added to the default HII database.\r
176 @return EFI_OUT_OF_RESOURCE Not enough resource to complete the operation.\r
177\r
178**/\r
179EFI_STATUS\r
180EFIAPI\r
181HiiLibAddPackages (\r
182 IN UINTN NumberOfPackages,\r
183 IN CONST EFI_GUID *GuidId,\r
184 IN EFI_HANDLE DriverHandle, OPTIONAL\r
185 OUT EFI_HII_HANDLE *HiiHandle,\r
186 ...\r
187 )\r
188{\r
189 VA_LIST Args;\r
190 EFI_HII_PACKAGE_LIST_HEADER *PackageListHeader;\r
191 EFI_STATUS Status;\r
192\r
193 ASSERT (HiiHandle != NULL);\r
194\r
195 VA_START (Args, HiiHandle);\r
196 PackageListHeader = InternalHiiLibPreparePackages (NumberOfPackages, GuidId, Args);\r
197\r
7e3bcccb 198 Status = gHiiDatabase->NewPackageList (gHiiDatabase, PackageListHeader, DriverHandle, HiiHandle);\r
08e4b3cf 199 if (HiiHandle != NULL) {\r
200 if (EFI_ERROR (Status)) {\r
201 *HiiHandle = NULL;\r
202 }\r
203 }\r
204\r
205 FreePool (PackageListHeader);\r
206 VA_END (Args);\r
207 \r
208 return Status;\r
209}\r
210\r
211/**\r
212 Removes a package list from the default HII database.\r
213\r
214 If HiiHandle is NULL, then ASSERT.\r
215 If HiiHandle is not a valid EFI_HII_HANDLE in the default HII database, then ASSERT.\r
216\r
217 @param HiiHandle The handle that was previously registered to the data base that is requested for removal.\r
218 List later.\r
219\r
220**/\r
221VOID\r
222EFIAPI\r
223HiiLibRemovePackages (\r
224 IN EFI_HII_HANDLE HiiHandle\r
225 )\r
226{\r
227 EFI_STATUS Status;\r
228 ASSERT (IsHiiHandleRegistered (HiiHandle));\r
229\r
7e3bcccb 230 Status = gHiiDatabase->RemovePackageList (gHiiDatabase, HiiHandle);\r
08e4b3cf 231 ASSERT_EFI_ERROR (Status);\r
232}\r
233\r
234\r
235/**\r
236 Determines the handles that are currently active in the database.\r
237 It's the caller's responsibility to free handle buffer.\r
238\r
239 If HandleBufferLength is NULL, then ASSERT.\r
240 If HiiHandleBuffer is NULL, then ASSERT.\r
241\r
242 @param HandleBufferLength On input, a pointer to the length of the handle\r
243 buffer. On output, the length of the handle buffer\r
244 that is required for the handles found.\r
245 @param HiiHandleBuffer Pointer to an array of Hii Handles returned.\r
246\r
247 @retval EFI_SUCCESS Get an array of Hii Handles successfully.\r
248\r
249**/\r
250EFI_STATUS\r
251EFIAPI\r
252HiiLibGetHiiHandles (\r
253 IN OUT UINTN *HandleBufferLength,\r
254 OUT EFI_HII_HANDLE **HiiHandleBuffer\r
255 )\r
256{\r
08e4b3cf 257 EFI_STATUS Status;\r
258\r
259 ASSERT (HandleBufferLength != NULL);\r
260 ASSERT (HiiHandleBuffer != NULL);\r
261\r
fa7b3168 262 *HandleBufferLength = 0;\r
263 *HiiHandleBuffer = NULL;\r
08e4b3cf 264\r
265 //\r
266 // Try to find the actual buffer size for HiiHandle Buffer.\r
267 //\r
7e3bcccb
LG		 268 Status = gHiiDatabase->ListPackageLists (\r
269 gHiiDatabase,\r
08e4b3cf 270 EFI_HII_PACKAGE_TYPE_ALL,\r
271 NULL,\r
fa7b3168 272 HandleBufferLength,\r
08e4b3cf 273 *HiiHandleBuffer\r
274 );\r
fa7b3168 275 \r
08e4b3cf 276 if (Status == EFI_BUFFER_TOO_SMALL) {\r
fa7b3168 277 *HiiHandleBuffer = AllocateZeroPool (*HandleBufferLength);\r
08e4b3cf 278 ASSERT (*HiiHandleBuffer != NULL);\r
7e3bcccb
LG		 279 Status = gHiiDatabase->ListPackageLists (\r
280 gHiiDatabase,\r
08e4b3cf 281 EFI_HII_PACKAGE_TYPE_ALL,\r
282 NULL,\r
fa7b3168 283 HandleBufferLength,\r
08e4b3cf 284 *HiiHandleBuffer\r
285 );\r
08e4b3cf 286\r
fa7b3168 287 if (EFI_ERROR (Status)) {\r
288 FreePool (*HiiHandleBuffer);\r
289 *HiiHandleBuffer = NULL;\r
290 }\r
291 }\r
08e4b3cf 292\r
293 return Status;\r
294}\r
295\r
296/**\r
297 Extract Hii package list GUID for given HII handle.\r
298\r
299 If HiiHandle could not be found in the default HII database, then ASSERT.\r
300 If Guid is NULL, then ASSERT.\r
301\r
302 @param Handle Hii handle\r
303 @param Guid Package list GUID\r
304\r
305 @retval EFI_SUCCESS Successfully extract GUID from Hii database.\r
306\r
307**/\r
308EFI_STATUS\r
309EFIAPI\r
310HiiLibExtractGuidFromHiiHandle (\r
311 IN EFI_HII_HANDLE Handle,\r
312 OUT EFI_GUID *Guid\r
313 )\r
314{\r
315 EFI_STATUS Status;\r
316 UINTN BufferSize;\r
317 EFI_HII_PACKAGE_LIST_HEADER *HiiPackageList;\r
318\r
319 ASSERT (Guid != NULL);\r
320 ASSERT (IsHiiHandleRegistered (Handle));\r
321\r
322 //\r
323 // Get HII PackageList\r
324 //\r
325 BufferSize = 0;\r
326 HiiPackageList = NULL;\r
327\r
7e3bcccb 328 Status = gHiiDatabase->ExportPackageLists (gHiiDatabase, Handle, &BufferSize, HiiPackageList);\r
08e4b3cf 329 ASSERT (Status != EFI_NOT_FOUND);\r
330 \r
331 if (Status == EFI_BUFFER_TOO_SMALL) {\r
332 HiiPackageList = AllocatePool (BufferSize);\r
333 ASSERT (HiiPackageList != NULL);\r
334\r
7e3bcccb 335 Status = gHiiDatabase->ExportPackageLists (gHiiDatabase, Handle, &BufferSize, HiiPackageList);\r
08e4b3cf 336 }\r
337 if (EFI_ERROR (Status)) {\r
338 FreePool (HiiPackageList);\r
339 return Status;\r
340 }\r
341\r
342 //\r
343 // Extract GUID\r
344 //\r
345 CopyGuid (Guid, &HiiPackageList->PackageListGuid);\r
346\r
347 FreePool (HiiPackageList);\r
348\r
349 return EFI_SUCCESS;\r
350}\r
351\r
352/**\r
353 Find HII Handle in the default HII database associated with given Device Path.\r
354\r
355 If DevicePath is NULL, then ASSERT.\r
356\r
357 @param DevicePath Device Path associated with the HII package list\r
358 handle.\r
359\r
360 @retval Handle HII package list Handle associated with the Device\r
361 Path.\r
362 @retval NULL Hii Package list handle is not found.\r
363\r
364**/\r
365EFI_HII_HANDLE\r
366EFIAPI\r
367HiiLibDevicePathToHiiHandle (\r
368 IN EFI_DEVICE_PATH_PROTOCOL *DevicePath\r
369 )\r
370{\r
371 EFI_STATUS Status;\r
372 EFI_DEVICE_PATH_PROTOCOL *TmpDevicePath;\r
373 UINTN BufferSize;\r
374 UINTN HandleCount;\r
375 UINTN Index;\r
376 EFI_HANDLE *Handles;\r
377 EFI_HANDLE Handle;\r
378 UINTN Size;\r
379 EFI_HANDLE DriverHandle;\r
380 EFI_HII_HANDLE *HiiHandles;\r
381 EFI_HII_HANDLE HiiHandle;\r
382\r
383 ASSERT (DevicePath != NULL);\r
384\r
385 //\r
386 // Locate Device Path Protocol handle buffer\r
387 //\r
388 Status = gBS->LocateHandleBuffer (\r
389 ByProtocol,\r
390 &gEfiDevicePathProtocolGuid,\r
391 NULL,\r
392 &HandleCount,\r
393 &Handles\r
394 );\r
395 if (EFI_ERROR (Status)) {\r
396 return NULL;\r
397 }\r
398\r
399 //\r
400 // Search Driver Handle by Device Path\r
401 //\r
402 DriverHandle = NULL;\r
403 BufferSize = GetDevicePathSize (DevicePath);\r
404 for(Index = 0; Index < HandleCount; Index++) {\r
405 Handle = Handles[Index];\r
406 gBS->HandleProtocol (Handle, &gEfiDevicePathProtocolGuid, (VOID **) &TmpDevicePath);\r
407\r
408 //\r
409 // Check whether DevicePath match\r
410 //\r
411 Size = GetDevicePathSize (TmpDevicePath);\r
412 if ((Size == BufferSize) && CompareMem (DevicePath, TmpDevicePath, Size) == 0) {\r
413 DriverHandle = Handle;\r
414 break;\r
415 }\r
416 }\r
417 FreePool (Handles);\r
418\r
419 if (DriverHandle == NULL) {\r
420 return NULL;\r
421 }\r
422\r
423 //\r
424 // Retrieve all Hii Handles from HII database\r
425 //\r
426 BufferSize = 0x1000;\r
427 HiiHandles = AllocatePool (BufferSize);\r
428 ASSERT (HiiHandles != NULL);\r
7e3bcccb
LG		 429 Status = gHiiDatabase->ListPackageLists (\r
430 gHiiDatabase,\r
08e4b3cf 431 EFI_HII_PACKAGE_TYPE_ALL,\r
432 NULL,\r
433 &BufferSize,\r
434 HiiHandles\r
435 );\r
436 if (Status == EFI_BUFFER_TOO_SMALL) {\r
437 FreePool (HiiHandles);\r
438 HiiHandles = AllocatePool (BufferSize);\r
439 ASSERT (HiiHandles != NULL);\r
440\r
7e3bcccb
LG		 441 Status = gHiiDatabase->ListPackageLists (\r
442 gHiiDatabase,\r
08e4b3cf 443 EFI_HII_PACKAGE_TYPE_ALL,\r
444 NULL,\r
445 &BufferSize,\r
446 HiiHandles\r
447 );\r
448 }\r
449\r
450 if (EFI_ERROR (Status)) {\r
451 FreePool (HiiHandles);\r
452 return NULL;\r
453 }\r
454\r
455 //\r
456 // Search Hii Handle by Driver Handle\r
457 //\r
458 HiiHandle = NULL;\r
459 HandleCount = BufferSize / sizeof (EFI_HII_HANDLE);\r
460 for (Index = 0; Index < HandleCount; Index++) {\r
7e3bcccb
LG		 461 Status = gHiiDatabase->GetPackageListHandle (\r
462 gHiiDatabase,\r
08e4b3cf 463 HiiHandles[Index],\r
464 &Handle\r
465 );\r
466 if (!EFI_ERROR (Status) && (Handle == DriverHandle)) {\r
467 HiiHandle = HiiHandles[Index];\r
468 break;\r
469 }\r
470 }\r
471\r
472 FreePool (HiiHandles);\r
473 return HiiHandle;\r
474}\r
475\r
476/**\r
477 Exports the contents of one or all package lists in the HII database into a buffer.\r
478\r
479 If Handle is not NULL and not a valid EFI_HII_HANDLE registered in the database, \r
480 then ASSERT.\r
481 If PackageListHeader is NULL, then ASSERT.\r
482 If PackageListSize is NULL, then ASSERT.\r
483\r
484 @param Handle The HII Handle.\r
485 @param PackageListHeader A pointer to a buffer that will contain the results of \r
486 the export function.\r
487 @param PackageListSize On output, the length of the buffer that is required for the exported data.\r
488\r
489 @retval EFI_SUCCESS Package exported.\r
490\r
491 @retval EFI_OUT_OF_RESOURCES Not enought memory to complete the operations.\r
492\r
493**/\r
494EFI_STATUS \r
495EFIAPI\r
496HiiLibExportPackageLists (\r
497 IN EFI_HII_HANDLE Handle,\r
498 OUT EFI_HII_PACKAGE_LIST_HEADER **PackageListHeader,\r
499 OUT UINTN *PackageListSize\r
500 )\r
501{\r
502 EFI_STATUS Status;\r
503 UINTN Size;\r
504 EFI_HII_PACKAGE_LIST_HEADER *PackageListHdr;\r
505\r
506 ASSERT (PackageListSize != NULL);\r
507 ASSERT (PackageListHeader != NULL);\r
508\r
509 if (Handle != NULL) {\r
510 ASSERT (IsHiiHandleRegistered (Handle));\r
511 }\r
512\r
513 Size = 0;\r
514 PackageListHdr = NULL;\r
7e3bcccb
LG		 515 Status = gHiiDatabase->ExportPackageLists (\r
516 gHiiDatabase,\r
08e4b3cf 517 Handle,\r
518 &Size,\r
519 PackageListHdr\r
520 );\r
521 ASSERT_EFI_ERROR (Status != EFI_BUFFER_TOO_SMALL);\r
522 \r
523 if (Status == EFI_BUFFER_TOO_SMALL) {\r
524 PackageListHdr = AllocateZeroPool (Size);\r
525 \r
526 if (PackageListHeader == NULL) {\r
527 return EFI_OUT_OF_RESOURCES;\r
528 } else {\r
7e3bcccb
LG		 529 Status = gHiiDatabase->ExportPackageLists (\r
530 gHiiDatabase,\r
08e4b3cf 531 Handle,\r
532 &Size,\r
533 PackageListHdr\r
534 );\r
535 }\r
536 }\r
537\r
538 if (!EFI_ERROR (Status)) {\r
539 *PackageListHeader = PackageListHdr;\r
540 *PackageListSize = Size;\r
541 } else {\r
542 FreePool (PackageListHdr);\r
543 }\r
544\r
545 return Status;\r
546}\r
547\r
548/**\r
549 \r
550 This function returns a list of the package handles of the \r
551 specified type that are currently active in the HII database. The \r
552 pseudo-type EFI_HII_PACKAGE_TYPE_ALL will cause all package \r
553 handles to be listed.\r
554\r
555 If HandleBufferLength is NULL, then ASSERT.\r
556 If HandleBuffer is NULL, the ASSERT.\r
557 If PackageType is EFI_HII_PACKAGE_TYPE_GUID and PackageGuid is\r
558 NULL, then ASSERT.\r
559 If PackageType is not EFI_HII_PACKAGE_TYPE_GUID and PackageGuid is not\r
560 NULL, then ASSERT.\r
561 \r
562 \r
563 @param PackageType Specifies the package type of the packages\r
564 to list or EFI_HII_PACKAGE_TYPE_ALL for\r
565 all packages to be listed.\r
566 \r
567 @param PackageGuid If PackageType is\r
568 EFI_HII_PACKAGE_TYPE_GUID, then this is\r
569 the pointer to the GUID which must match\r
570 the Guid field of\r
571 EFI_HII_PACKAGE_GUID_HEADER. Otherwise, it\r
572 must be NULL.\r
573 \r
574 @param HandleBufferLength On output, the length of the handle buffer\r
575 that is required for the handles found.\r
576\r
577 @param HandleBuffer On output, an array of EFI_HII_HANDLE instances returned.\r
578 The caller is responcible to free this pointer allocated.\r
579\r
580 @retval EFI_SUCCESS The matching handles are outputed successfully.\r
581 HandleBufferLength is updated with the actual length.\r
582 @retval EFI_OUT_OF_RESOURCES Not enough resource to complete the operation.\r
583 @retval EFI_NOT_FOUND No matching handle could not be found in database.\r
584**/\r
585EFI_STATUS\r
586EFIAPI\r
587HiiLibListPackageLists (\r
588 IN UINT8 PackageType,\r
589 IN CONST EFI_GUID *PackageGuid,\r
590 IN OUT UINTN *HandleBufferLength,\r
591 OUT EFI_HII_HANDLE **HandleBuffer\r
592 )\r
593{\r
594 EFI_STATUS Status;\r
595 \r
596 ASSERT (HandleBufferLength != NULL);\r
597 ASSERT (HandleBuffer != NULL);\r
598 \r
599 *HandleBufferLength = 0;\r
600 *HandleBuffer = NULL;\r
601\r
602 if (PackageType == EFI_HII_PACKAGE_TYPE_GUID) {\r
603 ASSERT (PackageGuid != NULL);\r
604 } else {\r
605 ASSERT (PackageGuid == NULL);\r
606 }\r
607\r
7e3bcccb
LG		 608 Status = gHiiDatabase->ListPackageLists (\r
609 gHiiDatabase,\r
08e4b3cf 610 PackageType,\r
611 PackageGuid,\r
612 HandleBufferLength,\r
613 *HandleBuffer\r
614 );\r
615 if (EFI_ERROR (Status) && (Status != EFI_BUFFER_TOO_SMALL)) {\r
616 //\r
617 // No packages is registered to UEFI HII Database, just return.\r
618 // \r
619 //\r
620 return Status;\r
621 }\r
622\r
623 *HandleBuffer = AllocateZeroPool (*HandleBufferLength);\r
624 \r
625 if (*HandleBuffer == NULL) {\r
626 return EFI_OUT_OF_RESOURCES;\r
627 }\r
628 \r
7e3bcccb
LG		 629 return gHiiDatabase->ListPackageLists (\r
630 gHiiDatabase,\r
08e4b3cf 631 PackageType,\r
632 PackageGuid,\r
633 HandleBufferLength,\r
634 *HandleBuffer\r
635 );\r
636 \r
637}\r
638/**\r
639 This function check if the Hii Handle is a valid handle registered\r
640 in the HII database.\r
641\r
642 @param HiiHandle The HII Handle.\r
643\r
644 @retval TRUE If it is a valid HII handle.\r
645 @retval FALSE If it is a invalid HII handle.\r
646**/\r
647BOOLEAN\r
648IsHiiHandleRegistered (\r
649 EFI_HII_HANDLE HiiHandle\r
650 )\r
651{\r
652 EFI_STATUS Status;\r
653 UINTN BufferSize;\r
654 EFI_HII_PACKAGE_LIST_HEADER *HiiPackageList;\r
655\r
656 ASSERT (HiiHandle != NULL);\r
657\r
658 HiiPackageList = NULL;\r
659 BufferSize = 0;\r
660\r
7e3bcccb
LG		 661 Status = gHiiDatabase->ExportPackageLists (\r
662 gHiiDatabase,\r
08e4b3cf 663 HiiHandle,\r
664 &BufferSize,\r
665 HiiPackageList\r
666 );\r
667\r
668 return (BOOLEAN) (Status == EFI_BUFFER_TOO_SMALL);\r
669}\r
670\r
7e3bcccb
LG		 671\r
672/**\r
673 Converts all hex dtring characters in range ['A'..'F'] to ['a'..'f'] for \r
674 hex digits that appear between a '=' and a '&' in a config string.\r
675\r
676 If String is NULL, then ASSERT().\r
677\r
678 @param[in] String Pointer to a Null-terminated Unicode string.\r
679\r
680 @return Pointer to the Null-terminated Unicode result string.\r
681\r
682**/\r
683EFI_STRING\r
684EFIAPI\r
685InternalHiiLowerConfigString (\r
686 IN EFI_STRING ConfigString\r
687 )\r
688{\r
689 EFI_STRING String;\r
690 BOOLEAN Lower;\r
691\r
692 ASSERT (ConfigString != NULL);\r
693\r
694 //\r
695 // Convert all hex digits in range [A-F] in the configuration header to [a-f]\r
696 //\r
697 for (String = ConfigString, Lower = FALSE; *String != L'\0'; String++) {\r
698 if (*String == L'=') {\r
699 Lower = TRUE;\r
700 } else if (*String == L'&') {\r
701 Lower = FALSE;\r
702 } else if (Lower && *String > L'A' && *String <= L'F') {\r
5c1ebff6 703 *String = (CHAR16) (*String - L'A' + L'a');\r
7e3bcccb
LG		 704 }\r
705 }\r
706\r
707 return ConfigString;\r
708}\r
709\r
710/**\r
711 Uses the BlockToConfig() service of the Config Routing Protocol to \r
712 convert <ConfigRequest> and a buffer to a <ConfigResp>\r
713\r
714 If ConfigRequest is NULL, then ASSERT().\r
715 If Block is NULL, then ASSERT().\r
716\r
717 @param[in] ConfigRequest Pointer to a Null-terminated Unicode string.\r
718 @param[in] Block Pointer to a block of data.\r
719 @param[in] BlockSize The zie, in bytes, of Block.\r
720\r
721 @retval NULL The <ConfigResp> string could not be generated.\r
722 @retval Other Pointer to the Null-terminated Unicode <ConfigResp> string.\r
723\r
724**/\r
725EFI_STRING\r
726EFIAPI\r
727InternalHiiBlockToConfig (\r
728 IN CONST EFI_STRING ConfigRequest,\r
729 IN CONST UINT8 *Block,\r
730 IN UINTN BlockSize\r
731 )\r
732{\r
733 EFI_STATUS Status;\r
734 EFI_STRING ConfigResp;\r
735 CHAR16 *Progress;\r
736\r
737 ASSERT (ConfigRequest != NULL);\r
738 ASSERT (Block != NULL);\r
739\r
740 //\r
741 // Convert <ConfigRequest> to <ConfigResp>\r
742 //\r
743 Status = gHiiConfigRouting->BlockToConfig (\r
744 gHiiConfigRouting,\r
745 ConfigRequest,\r
746 Block,\r
747 BlockSize,\r
748 &ConfigResp,\r
749 &Progress\r
750 );\r
751 if (EFI_ERROR (Status)) {\r
752 return NULL;\r
753 }\r
754 return ConfigResp;\r
755}\r
756\r
757/**\r
758 Uses the ConfigToBlock() service of the Config Routing Protocol to \r
759 convert <ConfigResp> to a block. The block is allocated using\r
760 AllocatePool(). The caller is responsible for freeing the block\r
761 using FreePool().\r
762\r
763 If ConfigResp is NULL, then ASSERT().\r
764\r
765 @param[in] ConfigResp Pointer to a Null-terminated Unicode string.\r
766 @param[in] BufferSize Length in bytes of buffer to hold retrived data. \r
767\r
768 @retval NULL The block could not be generated..\r
769 @retval Other Pointer to the allocated block.\r
770\r
771**/\r
772UINT8 *\r
773EFIAPI\r
774InternalHiiConfigToBlock (\r
775 IN EFI_STRING ConfigResp,\r
776 IN UINTN BlockSize\r
777 )\r
778{\r
779 EFI_STATUS Status;\r
780 CHAR16 *Progress;\r
781 UINT8 *Block;\r
782\r
783 ASSERT (ConfigResp != NULL);\r
784\r
785 //\r
786 // Allocate a buffer to hold the <ConfigResp> conversion\r
787 //\r
788 Block = AllocateZeroPool (BlockSize);\r
789 if (Block == NULL) {\r
790 return NULL;\r
791 }\r
792\r
793 //\r
794 // Convert <ConfigResp> to a buffer\r
795 //\r
796 Status = gHiiConfigRouting->ConfigToBlock (\r
797 gHiiConfigRouting,\r
798 ConfigResp,\r
799 Block,\r
800 &BlockSize,\r
801 &Progress\r
802 );\r
803 if (EFI_ERROR (Status)) {\r
804 FreePool (Block);\r
805 return NULL;\r
806 }\r
807\r
808 //\r
809 // Return converted buffer\r
810 //\r
811 return Block;\r
812}\r
813\r
814/**\r
815 Uses the BrowserCallback() service of the Form Browser Protocol to retrieve \r
816 or set uncommitted data. If sata i being retrieved, then the buffer is \r
817 allocated using AllocatePool(). The caller is then responsible for freeing \r
818 the buffer using FreePool().\r
819\r
820 @param[in] VariableName Pointer to a Null-terminated Unicode string. This \r
821 is an optional parameter that may be NULL.\r
822 @param[in] VariableGuid Pointer to an EFI_GUID structure. This is an optional \r
823 parameter that may be NULL.\r
824 @param[in] SetResultsData If not NULL, then this parameter specified the buffer\r
825 of uncommited data to set. If this parameter is NULL,\r
826 then the caller is requesting to get the uncommited data\r
827 from the Form Browser.\r
828\r
829 @retval NULL The uncommitted data could not be retrieved.\r
830 @retval Other A pointer to a buffer containing the uncommitted data.\r
831\r
832**/\r
833EFI_STRING\r
834EFIAPI\r
835InternalHiiBrowserCallback (\r
836 IN CONST EFI_GUID *VariableGuid, OPTIONAL\r
837 IN CONST CHAR16 *VariableName, OPTIONAL\r
838 IN CONST EFI_STRING SetResultsData OPTIONAL\r
839 )\r
840{\r
841 EFI_STATUS Status;\r
842 UINTN ResultsDataSize;\r
843 EFI_STRING ResultsData;\r
844 CHAR16 TempResultsData;\r
845\r
846 //\r
847 // Locate protocols\r
848 //\r
3c7449e4
LG		 849 if (mUefiFormBrowser2 == NULL) {\r
850 Status = gBS->LocateProtocol (&gEfiFormBrowser2ProtocolGuid, NULL, (VOID **) &mUefiFormBrowser2);\r
851 if (EFI_ERROR (Status) || mUefiFormBrowser2 == NULL) {\r
7e3bcccb
LG		 852 return NULL;\r
853 }\r
854 }\r
855\r
856 ResultsDataSize = 0;\r
857\r
858 if (SetResultsData != NULL) {\r
859 //\r
860 // Request to to set data in the uncommitted browser state information\r
861 //\r
862 ResultsData = SetResultsData;\r
863 } else {\r
864 //\r
865 // Retrieve the length of the buffer required ResultsData from the Browser Callback\r
866 //\r
3c7449e4
LG		 867 Status = mUefiFormBrowser2->BrowserCallback (\r
868 mUefiFormBrowser2,\r
7e3bcccb
LG		 869 &ResultsDataSize,\r
870 &TempResultsData,\r
871 TRUE,\r
872 VariableGuid,\r
873 VariableName\r
874 );\r
875 if (Status != EFI_BUFFER_TOO_SMALL) {\r
876 return NULL;\r
877 }\r
878\r
879 //\r
880 // Allocate the ResultsData buffer\r
881 //\r
882 ResultsData = AllocateZeroPool (ResultsDataSize);\r
883 if (ResultsData == NULL) {\r
884 return NULL;\r
885 }\r
886 }\r
887\r
888 //\r
889 // Retrieve or set the ResultsData from the Browser Callback\r
890 //\r
3c7449e4
LG		 891 Status = mUefiFormBrowser2->BrowserCallback (\r
892 mUefiFormBrowser2,\r
7e3bcccb
LG		 893 &ResultsDataSize,\r
894 ResultsData,\r
895 (BOOLEAN)(SetResultsData == NULL),\r
896 VariableGuid,\r
897 VariableName\r
898 );\r
899 if (EFI_ERROR (Status)) {\r
900 return NULL;\r
901 }\r
902\r
903 return ResultsData;\r
904}\r
905\r
906/**\r
907 Allocates and returns a Null-terminated Unicode <ConfigHdr> string using routing \r
908 information that includes a GUID, an optional Unicode string name, and a device\r
909 path. The string returned is allocated with AllocatePool(). The caller is \r
910 responsible for freeing the allocated string with FreePool().\r
911 \r
912 The format of a <ConfigHdr> is as follows:\r
913\r
914 GUID=<HexCh>32&NAME=<Char>NameLength&PATH=<HexChar>DevicePathSize<Null>\r
915\r
916 @param[in] Guid Pointer to an EFI_GUID that is the routing information\r
917 GUID. Each of the 16 bytes in Guid is converted to \r
918 a 2 Unicode character hexidecimal string. This is \r
919 an optional parameter that may be NULL.\r
920 @param[in] Name Pointer to a Null-terminated Unicode string that is \r
921 the routing information NAME. This is an optional \r
922 parameter that may be NULL. Each 16-bit Unicode \r
923 character in Name is converted to a 4 character Unicode \r
924 hexidecimal string. \r
925 @param[in] DriverHandle The driver handle which supports a Device Path Protocol\r
926 that is the routing information PATH. Each byte of\r
927 the Device Path associated with DriverHandle is converted\r
928 to a 2 Unicode character hexidecimal string.\r
929\r
930 @retval NULL DriverHandle does not support the Device Path Protocol.\r
931 @retval NULL DriverHandle does not support the Device Path Protocol.\r
932 @retval Other A pointer to the Null-terminate Unicode <ConfigHdr> string\r
933\r
934**/\r
935EFI_STRING\r
936EFIAPI\r
937HiiConstructConfigHdr (\r
938 IN CONST EFI_GUID *Guid, OPTIONAL\r
939 IN CONST CHAR16 *Name, OPTIONAL\r
940 IN EFI_HANDLE DriverHandle\r
941 )\r
942{\r
943 UINTN NameLength;\r
944 EFI_DEVICE_PATH_PROTOCOL *DevicePath;\r
945 UINTN DevicePathSize;\r
946 CHAR16 *String;\r
947 CHAR16 *ReturnString;\r
948 UINTN Index;\r
949 UINT8 *Buffer;\r
950\r
951 //\r
952 // Compute the length of Name in Unicode characters. \r
953 // If Name is NULL, then the length is 0.\r
954 //\r
955 NameLength = 0;\r
956 if (Name != NULL) {\r
957 NameLength = StrLen (Name);\r
958 }\r
959\r
960 //\r
961 // Retrieve DevicePath Protocol associated with DriverHandle\r
962 //\r
963 DevicePath = DevicePathFromHandle (DriverHandle);\r
964 if (DevicePath == NULL) {\r
965 return NULL;\r
966 }\r
967\r
968 //\r
969 // Compute the size of the device path in bytes\r
970 //\r
971 DevicePathSize = GetDevicePathSize (DevicePath);\r
972\r
973 //\r
974 // GUID=<HexCh>32&NAME=<Char>NameLength&PATH=<HexChar>DevicePathSize <Null>\r
975 // | 5 | sizeof (EFI_GUID) * 2 | 6 | NameStrLen*4 | 6 | DevicePathSize * 2 | 1 |\r
976 //\r
977 String = AllocateZeroPool ((5 + sizeof (EFI_GUID) * 2 + 6 + NameLength * 4 + 6 + DevicePathSize * 2 + 1) * sizeof (CHAR16));\r
978 if (String == NULL) {\r
979 return NULL;\r
980 }\r
981\r
982 //\r
983 // Start with L"GUID="\r
984 //\r
985 ReturnString = StrCpy (String, L"GUID=");\r
986 String += StrLen (String);\r
987\r
988 if (Guid != NULL) {\r
989 //\r
990 // Append Guid converted to <HexCh>32\r
991 //\r
992 for (Index = 0, Buffer = (UINT8 *)Guid; Index < sizeof (EFI_GUID); Index++) {\r
993 String += UnicodeValueToString (String, PREFIX_ZERO | RADIX_HEX, *(Buffer++), 2);\r
994 }\r
995 }\r
996 \r
997 //\r
998 // Append L"&NAME="\r
999 //\r
1000 StrCpy (String, L"&NAME=");\r
1001 String += StrLen (String);\r
1002\r
1003 if (Name != NULL) {\r
1004 //\r
1005 // Append Name converted to <Char>NameLength\r
1006 //\r
1007 for (; *Name != L'\0'; Name++) {\r
1008 String += UnicodeValueToString (String, PREFIX_ZERO | RADIX_HEX, *Name, 4);\r
1009 }\r
1010 }\r
1011\r
1012 //\r
1013 // Append L"&PATH="\r
1014 //\r
1015 StrCpy (String, L"&PATH=");\r
1016 String += StrLen (String);\r
1017\r
1018 //\r
1019 // Append the device path associated with DriverHandle converted to <HexChar>DevicePathSize\r
1020 //\r
1021 for (Index = 0, Buffer = (UINT8 *)DevicePath; Index < DevicePathSize; Index++) {\r
1022 String += UnicodeValueToString (String, PREFIX_ZERO | RADIX_HEX, *(Buffer++), 2);\r
1023 }\r
1024\r
1025 //\r
1026 // Null terminate the Unicode string\r
1027 //\r
1028 *String = L'\0';\r
1029\r
1030 //\r
1031 // Convert all hex digits in range [A-F] in the configuration header to [a-f]\r
1032 //\r
1033 return InternalHiiLowerConfigString (ReturnString);\r
1034}\r
1035\r
1036/**\r
1037 Allocates and returns a Null-terminated Unicode <ConfigAltResp> string.\r
1038\r
1039 If Guid is NULL, then ASSERT().\r
1040 If Name is NULL, then ASSERT().\r
1041 If BlockNameArray is NULL, then ASSERT().\r
1042\r
1043 @param[in] Guid GUID of the buffer storage.\r
1044 @param[in] Name Name of the buffer storage.\r
1045 @param[in] DriverHandle The DriverHandle that support a Device Path\r
1046 Protocol. \r
1047 @param[in] BufferStorage Content of the buffer storage.\r
1048 @param[in] BufferStorageSize Length in bytes of the buffer storage.\r
1049 @param[in] BlockNameArray Array generated by VFR compiler. This array\r
1050 contains a UINT32 value that is the length\r
1051 of BlockNameArray in bytes, followed by pairs\r
1052 of 16-bit values that are the offset and length\r
1053 values used to contruct a <ConfigRequest> string.\r
1054 @param[in] ... A variable argument list that contains pairs of 16-bit\r
1055 ALTCFG identifiers and pointers to DefaultValueArrays.\r
1056 The variable argument list is terminated by a NULL \r
1057 DefaultValueArray pointer. A DefaultValueArray \r
1058 contains a UINT32 value that is the length, in bytes,\r
1059 of the DefaultValueArray. The UINT32 length value \r
1060 is followed by a series of records that contain\r
1061 a 16-bit WIDTH value followed by a byte array with \r
1062 WIDTH entries. The records must be parsed from\r
1063 beginning to end until the UINT32 length limit\r
1064 is reached. \r
1065\r
1066 @retval NULL There are not enough resources to process the request.\r
1067 @retval NULL A <ConfigResp> could not be retrieved from the Config \r
1068 Routing Protocol.\r
1069 @retval Other A pointer to the Null-terminate Unicode <ConfigAltResp>\r
1070 string.\r
1071\r
1072**/\r
1073EFI_STRING\r
1074EFIAPI\r
1075HiiConstructConfigAltResp (\r
1076 IN CONST EFI_GUID *Guid,\r
1077 IN CONST CHAR16 *Name,\r
1078 IN EFI_HANDLE DriverHandle,\r
1079 IN CONST VOID *BufferStorage,\r
1080 IN UINTN BufferStorageSize,\r
1081 IN CONST VOID *BlockNameArray, \r
1082 ...\r
1083 )\r
1084{\r
1085 UINTN Length;\r
1086 CHAR16 *String;\r
1087 CHAR16 *ConfigHdr;\r
1088 UINT8 *Buffer;\r
1089 UINT8 *BufferEnd;\r
1090 CHAR16 *ConfigRequest;\r
1091 EFI_STRING ConfigResp;\r
1092 EFI_STRING ConfigAltResp;\r
1093 VA_LIST Args;\r
1094 UINTN AltCfgId;\r
1095 UINT16 Width;\r
5c1ebff6
LG		 1096 UINT16 OffsetValue;\r
1097 UINT16 WidthValue;\r
7e3bcccb
LG		 1098\r
1099 ASSERT (Guid != NULL);\r
1100 ASSERT (Name != NULL);\r
1101 ASSERT (BlockNameArray != NULL);\r
1102\r
1103 //\r
1104 // Initialize local variables\r
1105 //\r
1106 ConfigHdr = NULL;\r
1107 ConfigRequest = NULL; \r
1108 ConfigResp = NULL;\r
1109\r
1110 //\r
1111 // Construct <ConfigHdr> : "GUID=...&NAME=...&PATH=..."\r
1112 //\r
1113 ConfigHdr = HiiConstructConfigHdr (Guid, Name, DriverHandle);\r
1114 if (ConfigHdr == NULL) {\r
1115 goto Exit;\r
1116 }\r
1117\r
1118 //\r
1119 // Compute the length of the entire request starting with <ConfigHdr> and a \r
1120 // Null-terminator\r
1121 //\r
1122 Length = StrLen (ConfigHdr) + 1;\r
1123\r
1124 //\r
1125 // Determine the size <BlockName> Offset/Width pairs\r
1126 //\r
1127 Buffer = (UINT8 *)BlockNameArray;\r
1128 BufferEnd = Buffer + ReadUnaligned32 ((UINT32 *)Buffer);\r
1129 Buffer += sizeof (UINT32);\r
1130\r
1131 //\r
1132 // Add <BlockName> length that is composed of one or more Offset/Width pairs\r
1133 //\r
1134 // <BlockName> ::= &OFFSET=1234&WIDTH=1234\r
1135 // | 8 | 4 | 7 | 4 |\r
1136 //\r
1137 Length += (((BufferEnd - Buffer) / (sizeof (UINT16) + sizeof (UINT16))) * (8 + 4 + 7 + 4));\r
1138\r
1139 //\r
1140 // Allocate buffer for the entire <ConfigRequest>\r
1141 //\r
1142 ConfigRequest = AllocateZeroPool (Length * sizeof (CHAR16));\r
1143 if (ConfigRequest == NULL) {\r
1144 goto Exit;\r
1145 }\r
1146 String = ConfigRequest;\r
1147\r
1148 //\r
1149 // Start with <ConfigHdr>\r
1150 //\r
1151 StrCpy (String, ConfigHdr);\r
1152 String += StrLen (String);\r
1153\r
1154 //\r
1155 // Loop through all the Offset/Width pairs and append them to ConfigRequest\r
1156 //\r
1157 while (Buffer < BufferEnd) {\r
1158 //\r
1159 // Append &OFFSET=XXXX&WIDTH=YYYY\r
1160 //\r
5c1ebff6
LG		 1161 OffsetValue = ReadUnaligned16 ((UINT16 *)Buffer);\r
1162 WidthValue = ReadUnaligned16 ((UINT16 *)(Buffer + sizeof (UINT16)));\r
7e3bcccb
LG		 1163 UnicodeSPrint (\r
1164 String, \r
1165 (8 + 4 + 7 + 4) * sizeof (CHAR16), \r
1166 L"&OFFSET=%04X&WIDTH=%04X", \r
5c1ebff6
LG		 1167 OffsetValue, \r
1168 WidthValue\r
1169 );\r
1170\r
7e3bcccb
LG		 1171 String += StrLen (String);\r
1172 Buffer += (sizeof (UINT16) + sizeof (UINT16));\r
1173 }\r
1174\r
1175 //\r
1176 // Get the <ConfigResp>\r
1177 //\r
1178 ConfigResp = InternalHiiBlockToConfig (ConfigRequest, BufferStorage, BufferStorageSize);\r
1179 if (ConfigResp == NULL) {\r
1180 goto Exit;\r
1181 }\r
1182\r
1183 //\r
1184 // Compute the length of the entire response starting with <ConfigResp> and a \r
1185 // Null-terminator\r
1186 //\r
1187 Length = StrLen (ConfigResp) + 1;\r
1188\r
1189 //\r
1190 // Add the length associated with each pair of variable argument parameters\r
1191 //\r
1192 VA_START (Args, BlockNameArray);\r
1193 while (TRUE) {\r
1194 AltCfgId = VA_ARG (Args, UINT16);\r
1195 Buffer = VA_ARG (Args, UINT8 *);\r
1196 if (Buffer == NULL) {\r
1197 break;\r
1198 }\r
1199\r
1200 //\r
1201 // Add length for "&<ConfigHdr>&ALTCFG=XXXX"\r
1202 // |1| StrLen (ConfigHdr) | 8 | 4 |\r
1203 //\r
1204 Length += (1 + StrLen (ConfigHdr) + 8 + 4);\r
1205\r
1206 BufferEnd = Buffer + ReadUnaligned32 ((UINT32 *)Buffer);\r
1207 Buffer += sizeof (UINT32);\r
1208 while (Buffer < BufferEnd) {\r
1209 //\r
1210 // Extract Width field\r
1211 //\r
1212 Width = ReadUnaligned16 ((UINT16 *)(Buffer + sizeof (UINT16)));\r
1213\r
1214 //\r
1215 // Add length for "&OFFSET=XXXX&WIDTH=YYYY&VALUE=zzzzzzzzzzzz"\r
1216 // | 8 | 4 | 7 | 4 | 7 | Width * 2 |\r
1217 //\r
1218 Length += (8 + 4 + 7 + 4 + 7 + Width * 2);\r
1219\r
1220 //\r
1221 // Update Buffer to the next record\r
1222 //\r
1223 Buffer += (sizeof (UINT16) + sizeof (UINT16) + Width);\r
1224 }\r
1225 }\r
1226 VA_END (Args);\r
1227\r
1228 //\r
1229 // Allocate a buffer for the entire response\r
1230 //\r
1231 ConfigAltResp = AllocateZeroPool (Length * sizeof (CHAR16));\r
1232 if (ConfigAltResp == NULL) {\r
1233 goto Exit;\r
1234 }\r
1235 String = ConfigAltResp;\r
1236\r
1237 //\r
1238 // Add <ConfigResp>\r
1239 //\r
1240 StrCpy (String, ConfigResp);\r
1241 String += StrLen (String);\r
1242\r
1243 //\r
1244 // Add <AltResp> for each pair of variable argument parameters\r
1245 //\r
1246 VA_START (Args, BlockNameArray);\r
1247 while (TRUE) {\r
1248 AltCfgId = VA_ARG (Args, UINT16);\r
1249 Buffer = VA_ARG (Args, UINT8 *);\r
1250 if (Buffer == NULL) {\r
1251 break;\r
1252 }\r
1253\r
1254 //\r
1255 // Add <AltConfigHdr> of the form "&<ConfigHdr>&ALTCFG=XXXX"\r
1256 // |1| StrLen (ConfigHdr) | 8 | 4 |\r
1257 //\r
1258 UnicodeSPrint (\r
1259 String, \r
1260 (1 + StrLen (ConfigHdr) + 8 + 4) * sizeof (CHAR16), \r
1261 L"&%s&ALTCFG=%04X", \r
1262 ConfigHdr, \r
1263 AltCfgId\r
1264 );\r
1265 String += StrLen (String);\r
1266\r
1267 //\r
1268 // Add <ConfigBody> ::= <ConfigElement>*\r
1269 //\r
1270 BufferEnd = Buffer + ReadUnaligned32 ((UINT32 *)Buffer);\r
1271 Buffer += sizeof (UINT32);\r
1272 while (Buffer < BufferEnd) {\r
1273 //\r
1274 // Extract Width field\r
1275 //\r
1276 Width = ReadUnaligned16 ((UINT16 *)(Buffer + sizeof (UINT16)));\r
1277\r
1278 //\r
1279 // Add <BlockConfig>\r
1280 //\r
1281 UnicodeSPrint (\r
1282 String, \r
1283 (8 + 4 + 7 + 4 + 7 + Width * 2) * sizeof (CHAR16),\r
1284 L"&OFFSET=%04X&WIDTH=%04X&VALUE=", \r
1285 ReadUnaligned16 ((UINT16 *)Buffer), \r
1286 Width\r
1287 );\r
1288 String += StrLen (String);\r
1289\r
1290 //\r
1291 // Update Buffer to point to the value in the current record\r
1292 //\r
1293 Buffer += (sizeof (UINT16) + sizeof (UINT16));\r
1294\r
1295 //\r
1296 // Convert Value to a hex string in "%x" format\r
1297 // NOTE: This is in the opposite byte that GUID and PATH use\r
1298 //\r
1299 for (; Width > 0; Width--) {\r
1300 String += UnicodeValueToString (String, PREFIX_ZERO | RADIX_HEX, Buffer[Width - 1], 2);\r
1301 }\r
1302 //\r
1303 // Update Buffer to the next record\r
1304 //\r
1305 Buffer += Width;\r
1306 }\r
1307 }\r
1308 VA_END (Args);\r
1309\r
1310 //\r
1311 // Convert all hex digits in range [A-F] in the configuration header to [a-f]\r
1312 //\r
1313 return InternalHiiLowerConfigString (ConfigAltResp);\r
1314\r
1315Exit:\r
1316 if (ConfigHdr != NULL) {\r
1317 FreePool (ConfigHdr);\r
1318 }\r
1319 if (ConfigRequest != NULL) {\r
1320 FreePool (ConfigRequest);\r
1321 }\r
1322 if (ConfigResp != NULL) {\r
1323 FreePool (ConfigResp);\r
1324 }\r
1325\r
1326 return NULL;\r
1327}\r
1328\r
1329/**\r
1330 Determines if two values in config strings match.\r
1331\r
1332 Compares the substring between StartSearchString and StopSearchString in \r
1333 FirstString to the substring between StartSearchString and StopSearchString \r
1334 in SecondString. If the two substrings match, then TRUE is returned. If the\r
1335 two substrings do not match, then FALSE is returned.\r
1336\r
1337 If FirstString is NULL, then ASSERT().\r
1338 If SecondString is NULL, then ASSERT().\r
1339 If StartSearchString is NULL, then ASSERT().\r
1340 If StopSearchString is NULL, then ASSERT().\r
1341\r
1342 @param FirstString Pointer to the first Null-terminated Unicode string.\r
1343 @param SecondString Pointer to the second Null-terminated Unicode string.\r
1344 @param StartSearchString Pointer to the Null-terminated Unicode string that \r
1345 marks the start of the value string to compare.\r
1346 @param StopSearchString Pointer to the Null-terminated Unicode string that \r
1347 marks the end of the vakue string to compare.\r
1348\r
1349 @retval FALSE StartSearchString is not present in FirstString. \r
1350 @retval FALSE StartSearchString is not present in SecondString.\r
1351 @retval FALSE StopSearchString is not present in FirstString. \r
1352 @retval FALSE StopSearchString is not present in SecondString.\r
1353 @retval FALSE The length of the substring in FirstString is not the \r
1354 same length as the substring in SecondString.\r
1355 @retval FALSE The value string in FirstString does not matche the \r
1356 value string in SecondString.\r
1357 @retval TRUE The value string in FirstString matches the value \r
1358 string in SecondString.\r
1359\r
1360**/\r
1361BOOLEAN\r
1362EFIAPI\r
1363InternalHiiCompareSubString (\r
1364 IN CHAR16 *FirstString,\r
1365 IN CHAR16 *SecondString,\r
1366 IN CHAR16 *StartSearchString,\r
1367 IN CHAR16 *StopSearchString\r
1368 )\r
1369{\r
1370 CHAR16 *EndFirstString;\r
1371 CHAR16 *EndSecondString;\r
1372\r
1373 ASSERT (FirstString != NULL);\r
1374 ASSERT (SecondString != NULL);\r
1375 ASSERT (StartSearchString != NULL);\r
1376 ASSERT (StopSearchString != NULL);\r
1377\r
1378 FirstString = StrStr (FirstString, StartSearchString);\r
1379 if (FirstString == NULL) {\r
1380 return FALSE;\r
1381 }\r
1382\r
1383 SecondString = StrStr (SecondString, StartSearchString);\r
1384 if (SecondString == NULL) {\r
1385 return FALSE;\r
1386 }\r
1387\r
1388 EndFirstString = StrStr (FirstString, StopSearchString);\r
1389 if (EndFirstString == NULL) {\r
1390 return FALSE;\r
1391 }\r
1392\r
1393 EndSecondString = StrStr (SecondString, StopSearchString);\r
1394 if (EndSecondString == NULL) {\r
1395 return FALSE;\r
1396 }\r
1397\r
1398 if ((EndFirstString - FirstString) != (EndSecondString - SecondString)) {\r
1399 return FALSE;\r
1400 }\r
1401\r
1402 return (BOOLEAN)(StrnCmp (FirstString, SecondString, EndFirstString - FirstString) == 0);\r
1403}\r
1404\r
1405/**\r
1406 Determines if the routing data specified by GUID and NAME match a <ConfigHdr>.\r
1407\r
1408 If ConfigHdr is NULL, then ASSERT().\r
1409\r
1410 @param[in] ConfigHdr Either <ConfigRequest> or <ConfigResp>.\r
1411 @param[in] Guid GUID of the storage.\r
1412 @param[in] Name NAME of the storage.\r
1413\r
1414 @retval TRUE Routing information matches <ConfigHdr>.\r
1415 @retval FALSE Routing information does not match <ConfigHdr>.\r
1416\r
1417**/\r
1418BOOLEAN\r
1419EFIAPI\r
1420HiiIsConfigHdrMatch (\r
1421 IN CONST EFI_STRING ConfigHdr,\r
1422 IN CONST EFI_GUID *Guid, OPTIONAL\r
1423 IN CONST CHAR16 *Name OPTIONAL\r
1424 )\r
1425{\r
1426 EFI_STRING CompareConfigHdr;\r
1427 BOOLEAN Result;\r
1428\r
1429 ASSERT (ConfigHdr != NULL);\r
1430\r
1431 //\r
1432 // Use Guid and Name to generate a <ConfigHdr> string\r
1433 //\r
1434 CompareConfigHdr = HiiConstructConfigHdr (Guid, Name, NULL);\r
1435 if (CompareConfigHdr == NULL) {\r
1436 return FALSE;\r
1437 }\r
1438\r
1439 Result = TRUE;\r
1440 if (Guid != NULL) {\r
1441 //\r
1442 // Compare GUID value strings\r
1443 //\r
1444 Result = InternalHiiCompareSubString (ConfigHdr, CompareConfigHdr, L"GUID=", L"&NAME=");\r
1445 }\r
1446\r
1447 if (Result && Name != NULL) {\r
1448 //\r
1449 // Compare NAME value strings\r
1450 //\r
1451 Result = InternalHiiCompareSubString (ConfigHdr, CompareConfigHdr, L"&NAME=", L"&PATH=");\r
1452 }\r
1453\r
1454 //\r
1455 // Free the <ConfigHdr> string\r
1456 //\r
1457 FreePool (CompareConfigHdr);\r
1458\r
1459 return Result;\r
1460}\r
1461\r
1462/**\r
1463 Retrieves uncommited data from the Form Browser and converts it to a binary\r
1464 buffer. The returned buffer is allocated using AllocatePool(). The caller\r
1465 is responsible for freeing the returned buffer using FreePool().\r
1466\r
1467 @param[in] VariableName Pointer to a Null-terminated Unicode string. This \r
1468 is an optional parameter that may be NULL.\r
1469 @param[in] VariableGuid Pointer to an EFI_GUID structure. This is an optional \r
1470 parameter that may be NULL.\r
1471 @param[in] BufferSize Length in bytes of buffer to hold retrived data. \r
1472\r
1473 @retval NULL The uncommitted data could not be retrieved.\r
1474 @retval Other A pointer to a buffer containing the uncommitted data.\r
1475\r
1476**/\r
1477UINT8 *\r
1478EFIAPI\r
1479HiiGetBrowserData (\r
1480 IN CONST EFI_GUID *VariableGuid, OPTIONAL\r
1481 IN CONST CHAR16 *VariableName, OPTIONAL\r
1482 IN UINTN BlockSize\r
1483 )\r
1484{\r
1485 EFI_STRING ResultsData;\r
1486 UINTN Size;\r
1487 EFI_STRING ConfigResp;\r
1488 UINT8 *Block;\r
1489\r
1490 //\r
1491 // Retrieve the results data from the Browser Callback\r
1492 //\r
1493 ResultsData = InternalHiiBrowserCallback (VariableGuid, VariableName, NULL);\r
1494 if (ResultsData == NULL) {\r
1495 return NULL;\r
1496 }\r
1497\r
1498 //\r
5c1ebff6 1499 // Construct <ConfigResp> mConfigHdrTemplate L'&' ResultsData L'\0'\r
7e3bcccb 1500 //\r
5c1ebff6
LG		 1501 Size = (StrLen (mConfigHdrTemplate) + 1) * sizeof (CHAR16);\r
1502 Size = Size + (StrLen (ResultsData) + 1) * sizeof (CHAR16);\r
7e3bcccb
LG		 1503 ConfigResp = AllocateZeroPool (Size);\r
1504 UnicodeSPrint (ConfigResp, Size, L"%s&%s", mConfigHdrTemplate, ResultsData);\r
1505 \r
1506 //\r
1507 // Free the allocated buffer\r
1508 //\r
1509 FreePool (ResultsData);\r
1510 if (ConfigResp == NULL) {\r
1511 return NULL;\r
1512 }\r
1513\r
1514 //\r
1515 // Convert <ConfigResp> to a buffer\r
1516 //\r
1517 Block = InternalHiiConfigToBlock (ConfigResp, BlockSize);\r
1518 FreePool (ConfigResp);\r
1519\r
1520 return Block;\r
1521}\r
1522\r
1523/**\r
1524 Updates uncommitted data in the Form Browser.\r
1525\r
1526 If Buffer is NULL, then ASSERT().\r
1527\r
1528 @param[in] VariableName Pointer to a Null-terminated Unicode string. This\r
1529 is an optional parameter that may be NULL.\r
1530 @param[in] VariableGuid Pointer to an EFI_GUID structure. This is an optional\r
1531 parameter that may be NULL.\r
1532 @param[in] BufferSize Length, in bytes, of Buffer.\r
1533 @param[in] Buffer Buffer of data to commit.\r
1534 @param[in] RequestElement An optional field to specify which part of the\r
1535 buffer data will be send back to Browser. If NULL,\r
1536 the whole buffer of data will be committed to\r
1537 Browser. \r
1538 <RequestElement> ::= &OFFSET=<Number>&WIDTH=<Number>*\r
1539\r
1540 @retval FALSE The uncommitted data could not be updated.\r
1541 @retval TRUE The uncommitted data was updated.\r
1542\r
1543**/\r
1544BOOLEAN\r
1545EFIAPI\r
1546HiiSetBrowserData (\r
1547 IN CONST EFI_GUID *VariableGuid, OPTIONAL\r
1548 IN CONST CHAR16 *VariableName, OPTIONAL\r
1549 IN UINTN BufferSize,\r
1550 IN CONST UINT8 *Buffer,\r
1551 IN CONST CHAR16 *RequestElement OPTIONAL\r
1552 )\r
1553{\r
1554 UINTN Size;\r
1555 EFI_STRING ConfigRequest;\r
1556 EFI_STRING ConfigResp;\r
1557 EFI_STRING ResultsData;\r
1558\r
1559 ASSERT (Buffer != NULL);\r
1560\r
1561 //\r
1562 // Construct <ConfigRequest>\r
1563 //\r
1564 if (RequestElement == NULL) {\r
1565 //\r
1566 // Allocate and fill a buffer large enough to hold the <ConfigHdr> template \r
1567 // followed by "&OFFSET=0&WIDTH=WWWWWWWWWWWWWWWW" followed by a Null-terminator\r
1568 //\r
1569 Size = (StrLen (mConfigHdrTemplate) + 32 + 1) * sizeof (CHAR16);\r
1570 ConfigRequest = AllocateZeroPool (Size);\r
1571 UnicodeSPrint (ConfigRequest, Size, L"%s&OFFSET=0&WIDTH=%016LX", mConfigHdrTemplate, (UINT64)BufferSize);\r
1572 } else {\r
1573 //\r
1574 // Allocate and fill a buffer large enough to hold the <ConfigHdr> template \r
1575 // followed by <RequestElement> followed by a Null-terminator\r
1576 //\r
5c1ebff6
LG		 1577 Size = StrLen (mConfigHdrTemplate) * sizeof (CHAR16);\r
1578 Size = Size + (StrLen (RequestElement) + 1) * sizeof (CHAR16);\r
7e3bcccb
LG		 1579 ConfigRequest = AllocateZeroPool (Size);\r
1580 UnicodeSPrint (ConfigRequest, Size, L"%s%s", mConfigHdrTemplate, RequestElement);\r
1581 }\r
1582 if (ConfigRequest == NULL) {\r
1583 return FALSE;\r
1584 }\r
1585\r
1586 //\r
1587 // Convert <ConfigRequest> to <ConfigResp>\r
1588 //\r
1589 ConfigResp = InternalHiiBlockToConfig (ConfigRequest, Buffer, BufferSize);\r
1590 FreePool (ConfigRequest);\r
1591 if (ConfigResp == NULL) {\r
1592 return FALSE;\r
1593 }\r
1594\r
1595 //\r
1596 // Set data in the uncommitted browser state information\r
1597 //\r
1598 ResultsData = InternalHiiBrowserCallback (VariableGuid, VariableName, ConfigResp + StrLen(mConfigHdrTemplate) + 1);\r
1599 FreePool (ConfigResp);\r
1600\r
1601 return (BOOLEAN)(ResultsData != NULL);\r
1602}\r
1603\r
1604/////////////////////////////////////////\r
1605/////////////////////////////////////////\r
1606/// IFR Functions\r
1607/////////////////////////////////////////\r
1608/////////////////////////////////////////\r
1609\r
1610#define HII_LIB_OPCODE_ALLOCATION_SIZE 0x200\r
1611\r
1612typedef struct {\r
1613 UINT8 *Buffer;\r
1614 UINTN BufferSize;\r
1615 UINTN Position;\r
1616} HII_LIB_OPCODE_BUFFER;\r
1617\r
1618///\r
1619/// Lookup table that converts EFI_IFR_TYPE_X enum values to a width in bytes\r
1620///\r
1621GLOBAL_REMOVE_IF_UNREFERENCED CONST UINT8 mHiiDefaultTypeToWidth[] = {\r
1622 1, // EFI_IFR_TYPE_NUM_SIZE_8\r
1623 2, // EFI_IFR_TYPE_NUM_SIZE_16\r
1624 4, // EFI_IFR_TYPE_NUM_SIZE_32\r
1625 8, // EFI_IFR_TYPE_NUM_SIZE_64\r
1626 1, // EFI_IFR_TYPE_BOOLEAN\r
1627 3, // EFI_IFR_TYPE_TIME\r
1628 4, // EFI_IFR_TYPE_DATE\r
1629 2 // EFI_IFR_TYPE_STRING\r
1630};\r
1631\r
1632/**\r
1633 Allocates and returns a new OpCode Handle. OpCode Handles must be freed with \r
1634 HiiFreeOpCodeHandle().\r
1635\r
1636 @retval NULL There are not enough resources to allocate a new OpCode Handle.\r
1637 @retval Other A new OpCode handle.\r
1638\r
1639**/\r
1640VOID *\r
1641EFIAPI\r
1642HiiAllocateOpCodeHandle (\r
1643 VOID\r
1644 )\r
1645{\r
1646 HII_LIB_OPCODE_BUFFER *OpCodeBuffer;\r
1647\r
1648 OpCodeBuffer = (HII_LIB_OPCODE_BUFFER *)AllocatePool (sizeof (HII_LIB_OPCODE_BUFFER));\r
1649 if (OpCodeBuffer == NULL) {\r
1650 return NULL;\r
1651 }\r
1652 OpCodeBuffer->Buffer = (UINT8 *)AllocatePool (HII_LIB_OPCODE_ALLOCATION_SIZE);\r
1653 if (OpCodeBuffer->Buffer == NULL) {\r
1654 FreePool (OpCodeBuffer);\r
1655 return NULL;\r
1656 }\r
1657 OpCodeBuffer->BufferSize = HII_LIB_OPCODE_ALLOCATION_SIZE;\r
1658 OpCodeBuffer->Position = 0;\r
1659 return (VOID *)OpCodeBuffer;\r
1660}\r
1661\r
1662/**\r
1663 Frees an OpCode Handle that was peviously allocated with HiiAllocateOpCodeHandle().\r
1664 When an OpCode Handle is freed, all of the opcodes associated with the OpCode\r
1665 Handle are also freed.\r
1666\r
1667 If OpCodeHandle is NULL, then ASSERT().\r
1668\r
1669**/\r
1670VOID\r
1671EFIAPI\r
1672HiiFreeOpCodeHandle (\r
1673 VOID *OpCodeHandle\r
1674 )\r
1675{\r
1676 HII_LIB_OPCODE_BUFFER *OpCodeBuffer;\r
1677\r
1678 ASSERT (OpCodeHandle != NULL);\r
1679\r
1680 OpCodeBuffer = (HII_LIB_OPCODE_BUFFER *)OpCodeHandle;\r
1681 if (OpCodeBuffer->Buffer != NULL) {\r
1682 FreePool (OpCodeBuffer->Buffer);\r
1683 }\r
1684 FreePool (OpCodeBuffer);\r
1685}\r
1686\r
1687UINTN\r
1688EFIAPI\r
1689InternalHiiOpCodeHandlePosition (\r
1690 IN VOID *OpCodeHandle\r
1691 )\r
1692{\r
1693 return ((HII_LIB_OPCODE_BUFFER *)OpCodeHandle)->Position;\r
1694}\r
1695\r
1696UINT8 *\r
1697EFIAPI\r
1698InternalHiiOpCodeHandleBuffer (\r
1699 IN VOID *OpCodeHandle\r
1700 )\r
1701{\r
1702 return ((HII_LIB_OPCODE_BUFFER *)OpCodeHandle)->Buffer;\r
1703}\r
1704\r
1705UINT8 *\r
1706EFIAPI\r
1707InternalHiiGrowOpCodeHandle (\r
1708 VOID *OpCodeHandle,\r
1709 UINTN Size\r
1710 )\r
1711{\r
1712 HII_LIB_OPCODE_BUFFER *OpCodeBuffer;\r
1713 UINT8 *Buffer;\r
1714\r
1715 ASSERT (OpCodeHandle != NULL);\r
1716\r
1717 OpCodeBuffer = (HII_LIB_OPCODE_BUFFER *)OpCodeHandle;\r
1718 if (OpCodeBuffer->Position + Size > OpCodeBuffer->BufferSize) {\r
1719 Buffer = ReallocatePool (\r
1720 OpCodeBuffer->BufferSize, \r
1721 OpCodeBuffer->BufferSize + (Size + HII_LIB_OPCODE_ALLOCATION_SIZE),\r
1722 OpCodeBuffer->Buffer\r
1723 );\r
1724 if (Buffer == NULL) {\r
1725 return NULL;\r
1726 }\r
1727 OpCodeBuffer->Buffer = Buffer;\r
1728 OpCodeBuffer->BufferSize += (Size + HII_LIB_OPCODE_ALLOCATION_SIZE);\r
1729 }\r
1730 Buffer = OpCodeBuffer->Buffer + OpCodeBuffer->Position;\r
1731 OpCodeBuffer->Position += Size;\r
1732 return Buffer;\r
1733}\r
1734\r
1735UINT8 *\r
1736EFIAPI\r
1737InternalHiiCreateOpCodeExtended (\r
1738 IN VOID *OpCodeHandle,\r
1739 IN VOID *OpCodeTemplate,\r
1740 IN UINT8 OpCode,\r
1741 IN UINTN OpCodeSize,\r
1742 IN UINTN ExtensionSize,\r
1743 IN UINT8 Scope\r
1744 )\r
1745{\r
1746 EFI_IFR_OP_HEADER *Header;\r
1747 UINT8 *Buffer;\r
1748\r
1749 ASSERT (OpCodeTemplate != NULL);\r
1750 ASSERT ((OpCodeSize + ExtensionSize) <= 0x7F);\r
1751\r
1752 Header = (EFI_IFR_OP_HEADER *)OpCodeTemplate;\r
1753 Header->OpCode = OpCode;\r
1754 Header->Scope = Scope;\r
1755 Header->Length = (UINT8)(OpCodeSize + ExtensionSize);\r
1756 Buffer = InternalHiiGrowOpCodeHandle (OpCodeHandle, Header->Length);\r
1757 return (UINT8 *)CopyMem (Buffer, Header, OpCodeSize);\r
1758}\r
1759\r
1760UINT8 *\r
1761EFIAPI\r
1762InternalHiiCreateOpCode (\r
1763 IN VOID *OpCodeHandle,\r
1764 IN VOID *OpCodeTemplate,\r
1765 IN UINT8 OpCode,\r
1766 IN UINTN OpCodeSize\r
1767 )\r
1768{\r
1769 return InternalHiiCreateOpCodeExtended (OpCodeHandle, OpCodeTemplate, OpCode, OpCodeSize, 0, 0);\r
1770}\r
1771\r
1772/**\r
1773 Append raw opcodes to an OpCodeHandle.\r
1774\r
1775 If OpCodeHandle is NULL, then ASSERT().\r
1776 If RawBuffer is NULL, then ASSERT();\r
1777\r
1778 @param[in] OpCodeHandle Handle to the buffer of opcodes.\r
1779 @param[in] RawBuffer Buffer of opcodes to append.\r
1780 @param[in] RawBufferSize The size, in bytes, of Buffer.\r
1781\r
1782 @retval NULL There is not enough space left in Buffer to add the opcode.\r
1783 @retval Other A pointer to the appended opcodes.\r
1784\r
1785**/\r
1786UINT8 *\r
1787EFIAPI\r
1788InternalHiiCreateRawOpCodes (\r
1789 IN VOID *OpCodeHandle,\r
1790 IN UINT8 *RawBuffer,\r
1791 IN UINTN RawBufferSize\r
1792 )\r
1793{\r
1794 UINT8 *Buffer;\r
1795\r
1796 ASSERT (RawBuffer != NULL);\r
1797\r
1798 Buffer = InternalHiiGrowOpCodeHandle (OpCodeHandle, RawBufferSize);\r
1799 return (UINT8 *)CopyMem (Buffer, RawBuffer, RawBufferSize);\r
1800}\r
1801\r
1802/**\r
1803 Append opcodes from one OpCode Handle to another OpCode handle.\r
1804\r
1805 If OpCodeHandle is NULL, then ASSERT().\r
1806 If RawOpCodeHandle is NULL, then ASSERT();\r
1807\r
1808 @param[in] OpCodeHandle Handle to the buffer of opcodes.\r
1809 @param[in] RawOpCodeHandle Handle to the buffer of opcodes.\r
1810\r
1811 @retval NULL There is not enough space left in Buffer to add the opcode.\r
1812 @retval Other A pointer to the appended opcodes.\r
1813\r
1814**/\r
1815UINT8 *\r
1816EFIAPI\r
1817InternalHiiAppendOpCodes (\r
1818 IN VOID *OpCodeHandle,\r
1819 IN VOID *RawOpCodeHandle\r
1820 )\r
1821{\r
1822 HII_LIB_OPCODE_BUFFER *RawOpCodeBuffer;\r
1823\r
1824 ASSERT (RawOpCodeHandle != NULL);\r
1825\r
1826 RawOpCodeBuffer = (HII_LIB_OPCODE_BUFFER *)RawOpCodeHandle;\r
1827 return InternalHiiCreateRawOpCodes (OpCodeHandle, RawOpCodeBuffer->Buffer, RawOpCodeBuffer->Position);\r
1828}\r
1829\r
1830/**\r
1831 Create EFI_IFR_END_OP opcode.\r
1832\r
1833 If OpCodeHandle is NULL, then ASSERT().\r
1834\r
1835 @param[in] OpCodeHandle Handle to the buffer of opcodes.\r
1836\r
1837 @retval NULL There is not enough space left in Buffer to add the opcode.\r
1838 @retval Other A pointer to the created opcode.\r
1839\r
1840**/\r
1841UINT8 *\r
1842EFIAPI\r
1843HiiCreateEndOpCode (\r
1844 IN VOID *OpCodeHandle\r
1845 )\r
1846{\r
1847 EFI_IFR_END OpCode;\r
1848\r
1849 return InternalHiiCreateOpCode (OpCodeHandle, &OpCode, EFI_IFR_END_OP, sizeof (OpCode));\r
1850}\r
1851\r
1852/**\r
1853 Create EFI_IFR_ONE_OF_OPTION_OP opcode.\r
1854\r
1855 If OpCodeHandle is NULL, then ASSERT().\r
1856 If Type is invalid, then ASSERT().\r
1857 If Flags is invalid, then ASSERT().\r
1858\r
1859 @param[in] OpCodeHandle Handle to the buffer of opcodes.\r
1860 @param[in] StringId StringId for the option\r
1861 @param[in] Flags Flags for the option\r
1862 @param[in] Type Type for the option\r
1863 @param[in] Value Value for the option\r
1864\r
1865 @retval NULL There is not enough space left in Buffer to add the opcode.\r
1866 @retval Other A pointer to the created opcode.\r
1867\r
1868**/\r
1869UINT8 *\r
1870EFIAPI\r
1871HiiCreateOneOfOptionOpCode (\r
1872 IN VOID *OpCodeHandle,\r
1873 IN UINT16 StringId,\r
1874 IN UINT8 Flags,\r
1875 IN UINT8 Type,\r
1876 IN UINT64 Value\r
1877 )\r
1878{\r
1879 EFI_IFR_ONE_OF_OPTION OpCode;\r
1880\r
1881 ASSERT (Type < EFI_IFR_TYPE_OTHER);\r
1882\r
1883 ZeroMem (&OpCode, sizeof (OpCode));\r
1884 OpCode.Option = StringId;\r
1885 OpCode.Flags = (UINT8) (Flags & (EFI_IFR_OPTION_DEFAULT | EFI_IFR_OPTION_DEFAULT_MFG));\r
1886 OpCode.Type = Type;\r
1887 CopyMem (&OpCode.Value, &Value, mHiiDefaultTypeToWidth[Type]);\r
1888\r
1889 return InternalHiiCreateOpCode (OpCodeHandle, &OpCode, EFI_IFR_ONE_OF_OPTION_OP, sizeof (OpCode));\r
1890}\r
1891\r
1892/**\r
1893 Create EFI_IFR_DEFAULT_OP opcode.\r
1894\r
1895 If OpCodeHandle is NULL, then ASSERT().\r
1896 If Type is invalid, then ASSERT().\r
1897\r
1898 @param[in] OpCodeHandle Handle to the buffer of opcodes.\r
1899 @param[in] DefaultId DefaultId for the default\r
1900 @param[in] Type Type for the default\r
1901 @param[in] Value Value for the default\r
1902\r
1903 @retval NULL There is not enough space left in Buffer to add the opcode.\r
1904 @retval Other A pointer to the created opcode.\r
1905\r
1906**/\r
1907UINT8 *\r
1908EFIAPI\r
1909HiiCreateDefaultOpCode (\r
1910 IN VOID *OpCodeHandle,\r
1911 IN UINT16 DefaultId,\r
1912 IN UINT8 Type,\r
1913 IN UINT64 Value\r
1914 )\r
1915{\r
1916 EFI_IFR_DEFAULT OpCode;\r
1917\r
1918 ASSERT (Type < EFI_IFR_TYPE_OTHER);\r
1919\r
1920 ZeroMem (&OpCode, sizeof (OpCode));\r
1921 OpCode.Type = Type;\r
1922 OpCode.DefaultId = DefaultId;\r
1923 CopyMem (&OpCode.Value, &Value, mHiiDefaultTypeToWidth[Type]);\r
1924\r
1925 return InternalHiiCreateOpCode (OpCodeHandle, &OpCode, EFI_IFR_DEFAULT_OP, sizeof (OpCode));\r
1926}\r
1927\r
1928/**\r
1929 Create EFI_IFR_GUID opcode.\r
1930\r
1931 If OpCodeHandle is NULL, then ASSERT().\r
1932 If Guid is NULL, then ASSERT().\r
1933 If OpCodeSize < sizeof (EFI_IFR_GUID), then ASSERT().\r
1934\r
1935 @param[in] OpCodeHandle Handle to the buffer of opcodes.\r
1936 @param[in] Guid Pointer to EFI_GUID of this guided opcode.\r
1937 @param[in] GuidOpCode Pointer to an EFI_IFR_GUID opcode. This is an \r
1938 optional parameter that may be NULL. If this\r
1939 parameter is NULL, then the GUID extension \r
1940 region of the created opcode is filled with zeros.\r
1941 If this parameter is not NULL, then the GUID \r
1942 extension region of GuidData will be copied to \r
1943 the GUID extension region of the created opcode.\r
1944 @param[in] OpCodeSize The size, in bytes, of created opcode. This value \r
1945 must be >= sizeof(EFI_IFR_GUID).\r
1946\r
1947 @retval NULL There is not enough space left in Buffer to add the opcode.\r
1948 @retval Other A pointer to the created opcode.\r
1949\r
1950**/\r
1951UINT8 *\r
1952EFIAPI\r
1953HiiCreateGuidOpCode (\r
1954 IN VOID *OpCodeHandle,\r
1955 IN CONST EFI_GUID *Guid,\r
1956 IN CONST VOID *GuidOpCode, OPTIONAL\r
1957 IN UINTN OpCodeSize\r
1958 )\r
1959{\r
1960 EFI_IFR_GUID OpCode;\r
1961 EFI_IFR_GUID *OpCodePointer;\r
1962\r
1963 ASSERT (Guid != NULL);\r
1964 ASSERT (OpCodeSize >= sizeof (OpCode));\r
1965\r
1966 ZeroMem (&OpCode, sizeof (OpCode));\r
5c1ebff6 1967 CopyGuid ((EFI_GUID *)(VOID *)&OpCode.Guid, Guid);\r
7e3bcccb
LG		 1968\r
1969 OpCodePointer = (EFI_IFR_GUID *)InternalHiiCreateOpCodeExtended (\r
1970 OpCodeHandle, \r
1971 &OpCode,\r
1972 EFI_IFR_GUID_OP,\r
1973 sizeof (OpCode),\r
1974 OpCodeSize - sizeof (OpCode),\r
1975 0\r
1976 );\r
1977 if (OpCodePointer != NULL && GuidOpCode != NULL) {\r
1978 CopyMem (OpCodePointer + 1, (EFI_IFR_GUID *)GuidOpCode + 1, OpCodeSize - sizeof (OpCode));\r
1979 }\r
1980 return (UINT8 *)OpCodePointer;\r
1981}\r
1982\r
1983/**\r
1984 Create EFI_IFR_ACTION_OP opcode.\r
1985\r
1986 If OpCodeHandle is NULL, then ASSERT().\r
1987 If any reserved bits are set in QuestionFlags, then ASSERT().\r
1988\r
1989 @param[in] OpCodeHandle Handle to the buffer of opcodes.\r
1990 @param[in] QuestionId Question ID\r
1991 @param[in] Prompt String ID for Prompt\r
1992 @param[in] Help String ID for Help\r
1993 @param[in] QuestionFlags Flags in Question Header\r
1994 @param[in] QuestionConfig String ID for configuration\r
1995\r
1996 @retval NULL There is not enough space left in Buffer to add the opcode.\r
1997 @retval Other A pointer to the created opcode.\r
1998\r
1999**/\r
2000UINT8 *\r
2001EFIAPI\r
2002HiiCreateActionOpCode (\r
2003 IN VOID *OpCodeHandle,\r
2004 IN EFI_QUESTION_ID QuestionId,\r
2005 IN EFI_STRING_ID Prompt,\r
2006 IN EFI_STRING_ID Help,\r
2007 IN UINT8 QuestionFlags,\r
2008 IN EFI_STRING_ID QuestionConfig\r
2009 )\r
2010{\r
2011 EFI_IFR_ACTION OpCode;\r
2012\r
2013 ASSERT ((QuestionFlags & (~(EFI_IFR_FLAG_READ_ONLY | EFI_IFR_FLAG_CALLBACK | EFI_IFR_FLAG_RESET_REQUIRED | EFI_IFR_FLAG_OPTIONS_ONLY))) == 0);\r
2014\r
2015 ZeroMem (&OpCode, sizeof (OpCode));\r
2016 OpCode.Question.QuestionId = QuestionId;\r
2017 OpCode.Question.Header.Prompt = Prompt;\r
2018 OpCode.Question.Header.Help = Help;\r
2019 OpCode.Question.Flags = QuestionFlags;\r
2020 OpCode.QuestionConfig = QuestionConfig;\r
2021\r
2022 return InternalHiiCreateOpCode (OpCodeHandle, &OpCode, EFI_IFR_ACTION_OP, sizeof (OpCode));\r
2023}\r
2024\r
2025/**\r
2026 Create EFI_IFR_SUBTITLE_OP opcode.\r
2027\r
2028 If OpCodeHandle is NULL, then ASSERT().\r
2029 If any reserved bits are set in Flags, then ASSERT().\r
2030 If Scope > 1, then ASSERT().\r
2031\r
2032 @param[in] OpCodeHandle Handle to the buffer of opcodes.\r
2033 @param[in] Prompt String ID for Prompt\r
2034 @param[in] Help String ID for Help\r
2035 @param[in] Flags Subtitle opcode flags\r
2036 @param[in] Scope 1 if this opcpde is the beginning of a new scope.\r
2037 0 if this opcode is within the current scope.\r
2038\r
2039 @retval NULL There is not enough space left in Buffer to add the opcode.\r
2040 @retval Other A pointer to the created opcode.\r
2041\r
2042**/\r
2043UINT8 *\r
2044EFIAPI\r
2045HiiCreateSubTitleOpCode (\r
2046 IN VOID *OpCodeHandle,\r
2047 IN EFI_STRING_ID Prompt,\r
2048 IN EFI_STRING_ID Help,\r
2049 IN UINT8 Flags,\r
2050 IN UINT8 Scope\r
2051 )\r
2052{\r
2053 EFI_IFR_SUBTITLE OpCode;\r
2054\r
2055 ASSERT (Scope <= 1);\r
2056 ASSERT ((Flags & (~(EFI_IFR_FLAGS_HORIZONTAL))) == 0);\r
2057\r
2058 ZeroMem (&OpCode, sizeof (OpCode));\r
2059 OpCode.Statement.Prompt = Prompt;\r
2060 OpCode.Statement.Help = Help;\r
2061 OpCode.Flags = Flags;\r
2062\r
2063 return InternalHiiCreateOpCodeExtended (\r
2064 OpCodeHandle, \r
2065 &OpCode,\r
2066 EFI_IFR_SUBTITLE_OP, \r
2067 sizeof (OpCode), \r
2068 0, \r
2069 Scope\r
2070 );\r
2071}\r
2072\r
2073/**\r
2074 Create EFI_IFR_REF_OP opcode.\r
2075\r
2076 If OpCodeHandle is NULL, then ASSERT().\r
2077 If any reserved bits are set in QuestionFlags, then ASSERT().\r
2078\r
2079 @param[in] OpCodeHandle Handle to the buffer of opcodes.\r
2080 @param[in] FormId Destination Form ID\r
2081 @param[in] Prompt String ID for Prompt\r
2082 @param[in] Help String ID for Help\r
2083 @param[in] QuestionFlags Flags in Question Header\r
2084 @param[in] QuestionId Question ID\r
2085\r
2086 @retval NULL There is not enough space left in Buffer to add the opcode.\r
2087 @retval Other A pointer to the created opcode.\r
2088\r
2089**/\r
2090UINT8 *\r
2091EFIAPI\r
2092HiiCreateGotoOpCode (\r
2093 IN VOID *OpCodeHandle,\r
2094 IN EFI_FORM_ID FormId,\r
2095 IN EFI_STRING_ID Prompt,\r
2096 IN EFI_STRING_ID Help,\r
2097 IN UINT8 QuestionFlags,\r
2098 IN EFI_QUESTION_ID QuestionId\r
2099 )\r
2100{\r
2101 EFI_IFR_REF OpCode;\r
2102\r
2103 ASSERT ((QuestionFlags & (~(EFI_IFR_FLAG_READ_ONLY | EFI_IFR_FLAG_CALLBACK | EFI_IFR_FLAG_RESET_REQUIRED | EFI_IFR_FLAG_OPTIONS_ONLY))) == 0);\r
2104\r
2105 ZeroMem (&OpCode, sizeof (OpCode));\r
2106 OpCode.Question.Header.Prompt = Prompt;\r
2107 OpCode.Question.Header.Help = Help;\r
2108 OpCode.Question.QuestionId = QuestionId;\r
2109 OpCode.Question.Flags = QuestionFlags;\r
2110 OpCode.FormId = FormId;\r
2111\r
2112 return InternalHiiCreateOpCode (OpCodeHandle, &OpCode, EFI_IFR_REF_OP, sizeof (OpCode));\r
2113}\r
2114\r
2115/**\r
2116 Create EFI_IFR_CHECKBOX_OP opcode.\r
2117\r
2118 If OpCodeHandle is NULL, then ASSERT().\r
2119 If any reserved bits are set in QuestionFlags, then ASSERT().\r
2120 If any reserved bits are set in CheckBoxFlags, then ASSERT().\r
2121\r
2122 @param[in] OpCodeHandle Handle to the buffer of opcodes.\r
2123 @param[in] QuestionId Question ID\r
2124 @param[in] VarStoreId Storage ID\r
2125 @param[in] VarOffset Offset in Storage\r
2126 @param[in] Prompt String ID for Prompt\r
2127 @param[in] Help String ID for Help\r
2128 @param[in] QuestionFlags Flags in Question Header\r
2129 @param[in] CheckBoxFlags Flags for checkbox opcode\r
2130 @param[in] DefaultsOpCodeHandle Handle for a buffer of DEFAULT opcodes. This\r
2131 is an optional parameter that may be NULL.\r
2132\r
2133 @retval NULL There is not enough space left in Buffer to add the opcode.\r
2134 @retval Other A pointer to the created opcode.\r
2135\r
2136**/\r
2137UINT8 *\r
2138EFIAPI\r
2139HiiCreateCheckBoxOpCode (\r
2140 IN VOID *OpCodeHandle,\r
2141 IN EFI_QUESTION_ID QuestionId,\r
2142 IN EFI_VARSTORE_ID VarStoreId,\r
2143 IN UINT16 VarOffset,\r
2144 IN EFI_STRING_ID Prompt,\r
2145 IN EFI_STRING_ID Help,\r
2146 IN UINT8 QuestionFlags,\r
2147 IN UINT8 CheckBoxFlags,\r
2148 IN VOID *DefaultsOpCodeHandle OPTIONAL\r
2149 )\r
2150{\r
2151 EFI_IFR_CHECKBOX OpCode;\r
2152 UINTN Position;\r
2153\r
2154 ASSERT ((QuestionFlags & (~(EFI_IFR_FLAG_READ_ONLY | EFI_IFR_FLAG_CALLBACK | EFI_IFR_FLAG_RESET_REQUIRED | EFI_IFR_FLAG_OPTIONS_ONLY))) == 0);\r
2155\r
2156 ZeroMem (&OpCode, sizeof (OpCode));\r
2157 OpCode.Question.QuestionId = QuestionId;\r
2158 OpCode.Question.VarStoreId = VarStoreId;\r
2159 OpCode.Question.VarStoreInfo.VarOffset = VarOffset;\r
2160 OpCode.Question.Header.Prompt = Prompt;\r
2161 OpCode.Question.Header.Help = Help;\r
2162 OpCode.Question.Flags = QuestionFlags;\r
2163 OpCode.Flags = CheckBoxFlags;\r
2164\r
2165 if (DefaultsOpCodeHandle == NULL) {\r
2166 return InternalHiiCreateOpCode (OpCodeHandle, &OpCode, EFI_IFR_CHECKBOX_OP, sizeof (OpCode));\r
2167 }\r
2168\r
2169 Position = InternalHiiOpCodeHandlePosition (OpCodeHandle);\r
2170 InternalHiiCreateOpCodeExtended (OpCodeHandle, &OpCode, EFI_IFR_CHECKBOX_OP, sizeof (OpCode), 0, 1);\r
2171 InternalHiiAppendOpCodes (OpCodeHandle, DefaultsOpCodeHandle);\r
2172 HiiCreateEndOpCode (OpCodeHandle);\r
2173 return InternalHiiOpCodeHandleBuffer (OpCodeHandle) + Position;\r
2174}\r
2175\r
2176/**\r
2177 Create EFI_IFR_NUMERIC_OP opcode.\r
2178\r
2179 If OpCodeHandle is NULL, then ASSERT().\r
2180 If any reserved bits are set in QuestionFlags, then ASSERT().\r
2181 If any reserved bits are set in NumericFlags, then ASSERT().\r
2182\r
2183 @param[in] OpCodeHandle Handle to the buffer of opcodes.\r
2184 @param[in] QuestionId Question ID\r
2185 @param[in] VarStoreId Storage ID\r
2186 @param[in] VarOffset Offset in Storage\r
2187 @param[in] Prompt String ID for Prompt\r
2188 @param[in] Help String ID for Help\r
2189 @param[in] QuestionFlags Flags in Question Header\r
2190 @param[in] NumericFlags Flags for numeric opcode\r
2191 @param[in] Minimum Numeric minimum value\r
2192 @param[in] Maximum Numeric maximum value\r
2193 @param[in] Step Numeric step for edit\r
2194 @param[in] DefaultsOpCodeHandle Handle for a buffer of DEFAULT opcodes. This\r
2195 is an optional parameter that may be NULL.\r
2196\r
2197 @retval NULL There is not enough space left in Buffer to add the opcode.\r
2198 @retval Other A pointer to the created opcode.\r
2199\r
2200**/\r
2201UINT8 *\r
2202EFIAPI\r
2203HiiCreateNumericOpCode (\r
2204 IN VOID *OpCodeHandle,\r
2205 IN EFI_QUESTION_ID QuestionId,\r
2206 IN EFI_VARSTORE_ID VarStoreId,\r
2207 IN UINT16 VarOffset,\r
2208 IN EFI_STRING_ID Prompt,\r
2209 IN EFI_STRING_ID Help,\r
2210 IN UINT8 QuestionFlags,\r
2211 IN UINT8 NumericFlags,\r
2212 IN UINT64 Minimum,\r
2213 IN UINT64 Maximum,\r
2214 IN UINT64 Step,\r
2215 IN VOID *DefaultsOpCodeHandle OPTIONAL\r
2216 )\r
2217{\r
2218 EFI_IFR_NUMERIC OpCode;\r
2219 UINTN Position;\r
2220\r
2221 ASSERT ((QuestionFlags & (~(EFI_IFR_FLAG_READ_ONLY | EFI_IFR_FLAG_CALLBACK | EFI_IFR_FLAG_RESET_REQUIRED | EFI_IFR_FLAG_OPTIONS_ONLY))) == 0);\r
2222\r
2223 ZeroMem (&OpCode, sizeof (OpCode));\r
2224 OpCode.Question.QuestionId = QuestionId;\r
2225 OpCode.Question.VarStoreId = VarStoreId;\r
2226 OpCode.Question.VarStoreInfo.VarOffset = VarOffset;\r
2227 OpCode.Question.Header.Prompt = Prompt;\r
2228 OpCode.Question.Header.Help = Help;\r
2229 OpCode.Question.Flags = QuestionFlags;\r
2230 OpCode.Flags = NumericFlags;\r
2231\r
2232 switch (NumericFlags & EFI_IFR_NUMERIC_SIZE) {\r
2233 case EFI_IFR_NUMERIC_SIZE_1:\r
2234 OpCode.data.u8.MinValue = (UINT8)Minimum;\r
2235 OpCode.data.u8.MaxValue = (UINT8)Maximum;\r
2236 OpCode.data.u8.Step = (UINT8)Step;\r
2237 break;\r
2238\r
2239 case EFI_IFR_NUMERIC_SIZE_2:\r
2240 OpCode.data.u16.MinValue = (UINT16)Minimum;\r
2241 OpCode.data.u16.MaxValue = (UINT16)Maximum;\r
2242 OpCode.data.u16.Step = (UINT16)Step;\r
2243 break;\r
2244\r
2245 case EFI_IFR_NUMERIC_SIZE_4:\r
2246 OpCode.data.u32.MinValue = (UINT32)Minimum;\r
2247 OpCode.data.u32.MaxValue = (UINT32)Maximum;\r
2248 OpCode.data.u32.Step = (UINT32)Step;\r
2249 break;\r
2250\r
2251 case EFI_IFR_NUMERIC_SIZE_8:\r
2252 OpCode.data.u64.MinValue = Minimum;\r
2253 OpCode.data.u64.MaxValue = Maximum;\r
2254 OpCode.data.u64.Step = Step;\r
2255 break;\r
2256 }\r
2257\r
2258 if (DefaultsOpCodeHandle == NULL) {\r
2259 return InternalHiiCreateOpCode (OpCodeHandle, &OpCode, EFI_IFR_NUMERIC_OP, sizeof (OpCode));\r
2260 }\r
2261\r
2262 Position = InternalHiiOpCodeHandlePosition (OpCodeHandle);\r
2263 InternalHiiCreateOpCodeExtended (OpCodeHandle, &OpCode, EFI_IFR_NUMERIC_OP, sizeof (OpCode), 0, 1);\r
2264 InternalHiiAppendOpCodes (OpCodeHandle, DefaultsOpCodeHandle);\r
2265 HiiCreateEndOpCode (OpCodeHandle);\r
2266 return InternalHiiOpCodeHandleBuffer (OpCodeHandle) + Position;\r
2267}\r
2268\r
2269/**\r
2270 Create EFI_IFR_STRING_OP opcode.\r
2271\r
2272 If OpCodeHandle is NULL, then ASSERT().\r
2273 If any reserved bits are set in QuestionFlags, then ASSERT().\r
2274 If any reserved bits are set in StringFlags, then ASSERT().\r
2275\r
2276 @param[in] OpCodeHandle Handle to the buffer of opcodes.\r
2277 @param[in] QuestionId Question ID\r
2278 @param[in] VarStoreId Storage ID\r
2279 @param[in] VarOffset Offset in Storage\r
2280 @param[in] Prompt String ID for Prompt\r
2281 @param[in] Help String ID for Help\r
2282 @param[in] QuestionFlags Flags in Question Header\r
2283 @param[in] StringFlags Flags for string opcode\r
2284 @param[in] MinSize String minimum length\r
2285 @param[in] MaxSize String maximum length\r
2286 @param[in] DefaultsOpCodeHandle Handle for a buffer of DEFAULT opcodes. This\r
2287 is an optional parameter that may be NULL.\r
2288\r
2289 @retval NULL There is not enough space left in Buffer to add the opcode.\r
2290 @retval Other A pointer to the created opcode.\r
2291\r
2292**/\r
2293UINT8 *\r
2294EFIAPI\r
2295HiiCreateStringOpCode (\r
2296 IN VOID *OpCodeHandle,\r
2297 IN EFI_QUESTION_ID QuestionId,\r
2298 IN EFI_VARSTORE_ID VarStoreId,\r
2299 IN UINT16 VarOffset,\r
2300 IN EFI_STRING_ID Prompt,\r
2301 IN EFI_STRING_ID Help,\r
2302 IN UINT8 QuestionFlags,\r
2303 IN UINT8 StringFlags,\r
2304 IN UINT8 MinSize,\r
2305 IN UINT8 MaxSize,\r
2306 IN VOID *DefaultsOpCodeHandle OPTIONAL\r
2307 )\r
2308{\r
2309 EFI_IFR_STRING OpCode;\r
2310 UINTN Position;\r
2311\r
2312 ASSERT ((QuestionFlags & (~(EFI_IFR_FLAG_READ_ONLY | EFI_IFR_FLAG_CALLBACK | EFI_IFR_FLAG_RESET_REQUIRED | EFI_IFR_FLAG_OPTIONS_ONLY))) == 0);\r
2313\r
2314 ZeroMem (&OpCode, sizeof (OpCode));\r
2315 OpCode.Question.Header.Prompt = Prompt;\r
2316 OpCode.Question.Header.Help = Help;\r
2317 OpCode.Question.QuestionId = QuestionId;\r
2318 OpCode.Question.VarStoreId = VarStoreId;\r
2319 OpCode.Question.VarStoreInfo.VarOffset = VarOffset;\r
2320 OpCode.Question.Flags = QuestionFlags;\r
2321 OpCode.MinSize = MinSize;\r
2322 OpCode.MaxSize = MaxSize;\r
2323 OpCode.Flags = (UINT8) (StringFlags & EFI_IFR_STRING_MULTI_LINE);\r
2324\r
2325 if (DefaultsOpCodeHandle == NULL) {\r
2326 return InternalHiiCreateOpCode (OpCodeHandle, &OpCode, EFI_IFR_STRING_OP, sizeof (OpCode));\r
2327 }\r
2328\r
2329 Position = InternalHiiOpCodeHandlePosition (OpCodeHandle);\r
2330 InternalHiiCreateOpCodeExtended (OpCodeHandle, &OpCode, EFI_IFR_STRING_OP, sizeof (OpCode), 0, 1);\r
2331 InternalHiiAppendOpCodes (OpCodeHandle, DefaultsOpCodeHandle);\r
2332 HiiCreateEndOpCode (OpCodeHandle);\r
2333 return InternalHiiOpCodeHandleBuffer (OpCodeHandle) + Position;\r
2334}\r
2335\r
2336/**\r
2337 Create EFI_IFR_ONE_OF_OP opcode.\r
2338\r
2339 If OpCodeHandle is NULL, then ASSERT().\r
2340 If any reserved bits are set in QuestionFlags, then ASSERT().\r
2341 If any reserved bits are set in OneOfFlags, then ASSERT().\r
2342\r
2343 @param[in] OpCodeHandle Handle to the buffer of opcodes.\r
2344 @param[in] QuestionId Question ID\r
2345 @param[in] VarStoreId Storage ID\r
2346 @param[in] VarOffset Offset in Storage\r
2347 @param[in] Prompt String ID for Prompt\r
2348 @param[in] Help String ID for Help\r
2349 @param[in] QuestionFlags Flags in Question Header\r
2350 @param[in] OneOfFlags Flags for oneof opcode\r
2351 @param[in] OptionsOpCodeHandle Handle for a buffer of ONE_OF_OPTION opcodes.\r
2352 @param[in] DefaultsOpCodeHandle Handle for a buffer of DEFAULT opcodes. This\r
2353 is an optional parameter that may be NULL.\r
2354\r
2355 @retval NULL There is not enough space left in Buffer to add the opcode.\r
2356 @retval Other A pointer to the created opcode.\r
2357\r
2358**/\r
2359UINT8 *\r
2360EFIAPI\r
2361HiiCreateOneOfOpCode (\r
2362 IN VOID *OpCodeHandle,\r
2363 IN EFI_QUESTION_ID QuestionId,\r
2364 IN EFI_VARSTORE_ID VarStoreId,\r
2365 IN UINT16 VarOffset,\r
2366 IN EFI_STRING_ID Prompt,\r
2367 IN EFI_STRING_ID Help,\r
2368 IN UINT8 QuestionFlags,\r
2369 IN UINT8 OneOfFlags,\r
2370 IN VOID *OptionsOpCodeHandle,\r
2371 IN VOID *DefaultsOpCodeHandle OPTIONAL\r
2372 )\r
2373{\r
2374 EFI_IFR_ONE_OF OpCode;\r
2375 UINTN Position;\r
2376\r
2377 ASSERT (OptionsOpCodeHandle != NULL);\r
2378 ASSERT ((QuestionFlags & (~(EFI_IFR_FLAG_READ_ONLY | EFI_IFR_FLAG_CALLBACK | EFI_IFR_FLAG_RESET_REQUIRED | EFI_IFR_FLAG_OPTIONS_ONLY))) == 0);\r
2379\r
2380 ZeroMem (&OpCode, sizeof (OpCode));\r
2381 OpCode.Question.Header.Prompt = Prompt;\r
2382 OpCode.Question.Header.Help = Help;\r
2383 OpCode.Question.QuestionId = QuestionId;\r
2384 OpCode.Question.VarStoreId = VarStoreId;\r
2385 OpCode.Question.VarStoreInfo.VarOffset = VarOffset;\r
2386 OpCode.Question.Flags = QuestionFlags;\r
2387 OpCode.Flags = OneOfFlags;\r
2388\r
2389 Position = InternalHiiOpCodeHandlePosition (OpCodeHandle);\r
2390 InternalHiiCreateOpCodeExtended (OpCodeHandle, &OpCode, EFI_IFR_ONE_OF_OP, sizeof (OpCode), 0, 1);\r
2391 InternalHiiAppendOpCodes (OpCodeHandle, OptionsOpCodeHandle);\r
2392 if (DefaultsOpCodeHandle != NULL) {\r
2393 InternalHiiAppendOpCodes (OpCodeHandle, DefaultsOpCodeHandle);\r
2394 }\r
2395 HiiCreateEndOpCode (OpCodeHandle);\r
2396 return InternalHiiOpCodeHandleBuffer (OpCodeHandle) + Position;\r
2397}\r
2398\r
2399/**\r
2400 Create EFI_IFR_ORDERED_LIST_OP opcode.\r
2401\r
2402 If OpCodeHandle is NULL, then ASSERT().\r
2403 If any reserved bits are set in QuestionFlags, then ASSERT().\r
2404 If any reserved bits are set in OrderedListFlags, then ASSERT().\r
2405\r
2406 @param[in] OpCodeHandle Handle to the buffer of opcodes.\r
2407 @param[in] QuestionId Question ID\r
2408 @param[in] VarStoreId Storage ID\r
2409 @param[in] VarOffset Offset in Storage\r
2410 @param[in] Prompt String ID for Prompt\r
2411 @param[in] Help String ID for Help\r
2412 @param[in] QuestionFlags Flags in Question Header\r
2413 @param[in] OrderedListFlags Flags for ordered list opcode\r
2414 @param[in] DataType Type for option value\r
2415 @param[in] MaxContainers Maximum count for options in this ordered list\r
2416 @param[in] OptionsOpCodeHandle Handle for a buffer of ONE_OF_OPTION opcodes.\r
2417 @param[in] DefaultsOpCodeHandle Handle for a buffer of DEFAULT opcodes. This\r
2418 is an optional parameter that may be NULL.\r
2419\r
2420 @retval NULL There is not enough space left in Buffer to add the opcode.\r
2421 @retval Other A pointer to the created opcode.\r
2422\r
2423**/\r
2424UINT8 *\r
2425EFIAPI\r
2426HiiCreateOrderedListOpCode (\r
2427 IN VOID *OpCodeHandle,\r
2428 IN EFI_QUESTION_ID QuestionId,\r
2429 IN EFI_VARSTORE_ID VarStoreId,\r
2430 IN UINT16 VarOffset,\r
2431 IN EFI_STRING_ID Prompt,\r
2432 IN EFI_STRING_ID Help,\r
2433 IN UINT8 QuestionFlags,\r
2434 IN UINT8 OrderedListFlags,\r
2435 IN UINT8 DataType,\r
2436 IN UINT8 MaxContainers,\r
2437 IN VOID *OptionsOpCodeHandle,\r
2438 IN VOID *DefaultsOpCodeHandle OPTIONAL\r
2439 )\r
2440{\r
2441 EFI_IFR_ORDERED_LIST OpCode;\r
2442 UINTN Position;\r
2443\r
2444 ASSERT (OptionsOpCodeHandle != NULL);\r
2445 ASSERT ((QuestionFlags & (~(EFI_IFR_FLAG_READ_ONLY | EFI_IFR_FLAG_CALLBACK | EFI_IFR_FLAG_RESET_REQUIRED | EFI_IFR_FLAG_OPTIONS_ONLY))) == 0);\r
2446\r
2447 ZeroMem (&OpCode, sizeof (OpCode));\r
2448 OpCode.Question.Header.Prompt = Prompt;\r
2449 OpCode.Question.Header.Help = Help;\r
2450 OpCode.Question.QuestionId = QuestionId;\r
2451 OpCode.Question.VarStoreId = VarStoreId;\r
2452 OpCode.Question.VarStoreInfo.VarOffset = VarOffset;\r
2453 OpCode.Question.Flags = QuestionFlags;\r
2454 OpCode.MaxContainers = MaxContainers;\r
2455 OpCode.Flags = OrderedListFlags;\r
2456\r
2457 Position = InternalHiiOpCodeHandlePosition (OpCodeHandle);\r
2458 InternalHiiCreateOpCodeExtended (OpCodeHandle, &OpCode, EFI_IFR_ORDERED_LIST_OP, sizeof (OpCode), 0, 1);\r
2459 InternalHiiAppendOpCodes (OpCodeHandle, OptionsOpCodeHandle);\r
2460 if (DefaultsOpCodeHandle != NULL) {\r
2461 InternalHiiAppendOpCodes (OpCodeHandle, DefaultsOpCodeHandle);\r
2462 }\r
2463 HiiCreateEndOpCode (OpCodeHandle);\r
2464 return InternalHiiOpCodeHandleBuffer (OpCodeHandle) + Position;\r
2465}\r
2466\r
2467/**\r
2468 This is the internal worker function to update the data in\r
2469 a form specified by FormSetGuid, FormId and Label.\r
2470\r
2471 @param FormSetGuid The optional Formset GUID.\r
2472 @param FormId The Form ID.\r
2473 @param Package The package header.\r
2474\r
2475 @param TempPacakge The resultant package.\r
2476\r
2477 @retval EFI_SUCCESS The function completes successfully.\r
2478\r
2479**/\r
2480EFI_STATUS\r
2481EFIAPI\r
2482InternalHiiUpdateFormPackageData (\r
2483 IN EFI_GUID *FormSetGuid, OPTIONAL\r
2484 IN EFI_FORM_ID FormId,\r
2485 IN EFI_HII_PACKAGE_HEADER *Package,\r
2486 IN HII_LIB_OPCODE_BUFFER *OpCodeBufferStart,\r
2487 IN HII_LIB_OPCODE_BUFFER *OpCodeBufferEnd, OPTIONAL\r
2488 OUT EFI_HII_PACKAGE_HEADER *TempPackage\r
2489 )\r
2490{\r
2491 UINTN AddSize;\r
2492 UINT8 *BufferPos;\r
2493 EFI_HII_PACKAGE_HEADER PackageHeader;\r
2494 UINTN Offset;\r
2495 EFI_IFR_OP_HEADER *IfrOpHdr;\r
2496 EFI_IFR_OP_HEADER *UpdateIfrOpHdr;\r
2497 BOOLEAN GetFormSet;\r
2498 BOOLEAN GetForm;\r
2499 BOOLEAN Updated;\r
2500 EFI_IFR_OP_HEADER *AddOpCode;\r
2501 UINT32 UpdatePackageLength;\r
2502\r
2503 CopyMem (TempPackage, Package, sizeof (EFI_HII_PACKAGE_HEADER));\r
2504 UpdatePackageLength = sizeof (EFI_HII_PACKAGE_HEADER);\r
2505 BufferPos = (UINT8 *) (TempPackage + 1);\r
2506\r
2507 CopyMem (&PackageHeader, Package, sizeof (EFI_HII_PACKAGE_HEADER));\r
2508 IfrOpHdr = (EFI_IFR_OP_HEADER *)((UINT8 *) Package + sizeof (EFI_HII_PACKAGE_HEADER));\r
2509 Offset = sizeof (EFI_HII_PACKAGE_HEADER);\r
2510 GetFormSet = (BOOLEAN) ((FormSetGuid == NULL) ? TRUE : FALSE);\r
2511 GetForm = FALSE;\r
2512 Updated = FALSE;\r
2513\r
2514 while (Offset < PackageHeader.Length) {\r
2515 CopyMem (BufferPos, IfrOpHdr, IfrOpHdr->Length);\r
2516 BufferPos += IfrOpHdr->Length;\r
2517 UpdatePackageLength += IfrOpHdr->Length;\r
2518 \r
2519 //\r
2520 // Find the matched FormSet and Form\r
2521 //\r
2522 if ((IfrOpHdr->OpCode == EFI_IFR_FORM_SET_OP) && (FormSetGuid != NULL)) {\r
2523 if (CompareGuid((GUID *)(VOID *)&((EFI_IFR_FORM_SET *) IfrOpHdr)->Guid, FormSetGuid)) {\r
2524 GetFormSet = TRUE;\r
2525 } else {\r
2526 GetFormSet = FALSE;\r
2527 }\r
2528 } else if (IfrOpHdr->OpCode == EFI_IFR_FORM_OP) {\r
2529 if (CompareMem (&((EFI_IFR_FORM *) IfrOpHdr)->FormId, &FormId, sizeof (EFI_FORM_ID)) == 0) {\r
2530 GetForm = TRUE;\r
2531 } else {\r
2532 GetForm = FALSE;\r
2533 }\r
2534 }\r
2535 \r
2536 //\r
2537 // The matched Form is found, and Update data in this form\r
2538 //\r
2539 if (GetFormSet && GetForm && !Updated) {\r
2540 UpdateIfrOpHdr = (EFI_IFR_OP_HEADER *) OpCodeBufferStart->Buffer;\r
2541 if ((UpdateIfrOpHdr->Length == IfrOpHdr->Length) && \\r
2542 (CompareMem (IfrOpHdr, UpdateIfrOpHdr, UpdateIfrOpHdr->Length) == 0)) {\r
2543 //\r
2544 // Remove the original data when End OpCode buffer exist.\r
2545 //\r
2546 if (OpCodeBufferEnd != NULL) {\r
2547 Offset += IfrOpHdr->Length;\r
2548 IfrOpHdr = (EFI_IFR_OP_HEADER *) ((UINT8 *) (IfrOpHdr) + IfrOpHdr->Length);\r
2549 UpdateIfrOpHdr = (EFI_IFR_OP_HEADER *) OpCodeBufferEnd->Buffer;\r
2550 while (Offset < PackageHeader.Length) {\r
2551 //\r
2552 // Search the matched end opcode\r
2553 //\r
2554 if ((UpdateIfrOpHdr->Length == IfrOpHdr->Length) && \\r
2555 (CompareMem (IfrOpHdr, UpdateIfrOpHdr, UpdateIfrOpHdr->Length) == 0)) {\r
2556 break;\r
2557 }\r
2558 //\r
2559 // Go to the next Op-Code\r
2560 //\r
2561 Offset += IfrOpHdr->Length;\r
2562 IfrOpHdr = (EFI_IFR_OP_HEADER *) ((UINT8 *) (IfrOpHdr) + IfrOpHdr->Length);\r
2563 }\r
2564 \r
2565 if (Offset >= PackageHeader.Length) {\r
2566 //\r
2567 // The end opcode is not found.\r
2568 //\r
2569 return EFI_NOT_FOUND;\r
2570 }\r
2571 }\r
2572 //\r
2573 // Insert the updated data\r
2574 //\r
2575 UpdateIfrOpHdr = (EFI_IFR_OP_HEADER *) OpCodeBufferStart->Buffer;\r
2576 AddOpCode = (EFI_IFR_OP_HEADER *) (OpCodeBufferStart->Buffer + UpdateIfrOpHdr->Length);\r
2577 AddSize = UpdateIfrOpHdr->Length;\r
2578 while (AddSize < OpCodeBufferStart->Position) {\r
2579 CopyMem (BufferPos, AddOpCode, AddOpCode->Length);\r
2580 BufferPos += AddOpCode->Length;\r
2581 UpdatePackageLength += AddOpCode->Length;\r
2582\r
2583 AddOpCode = (EFI_IFR_OP_HEADER *) ((UINT8 *) (AddOpCode) + AddOpCode->Length);\r
2584 AddSize += AddOpCode->Length; \r
2585 }\r
2586\r
2587 if (OpCodeBufferEnd != NULL) {\r
2588 //\r
2589 // Add the end opcode\r
2590 //\r
2591 CopyMem (BufferPos, IfrOpHdr, IfrOpHdr->Length);\r
2592 BufferPos += IfrOpHdr->Length;\r
2593 UpdatePackageLength += IfrOpHdr->Length;\r
2594 }\r
2595 //\r
2596 // Set update flag\r
2597 //\r
2598 Updated = TRUE;\r
2599 }\r
2600 }\r
2601\r
2602 //\r
2603 // Go to the next Op-Code\r
2604 //\r
2605 Offset += IfrOpHdr->Length;\r
2606 IfrOpHdr = (EFI_IFR_OP_HEADER *) ((CHAR8 *) (IfrOpHdr) + IfrOpHdr->Length);\r
2607 }\r
2608 \r
2609 if (!Updated) {\r
2610 //\r
2611 // The updated opcode buffer is not found.\r
2612 //\r
2613 return EFI_NOT_FOUND;\r
2614 }\r
2615 //\r
2616 // Update the package length.\r
2617 //\r
2618 PackageHeader.Length = UpdatePackageLength;\r
2619 CopyMem (TempPackage, &PackageHeader, sizeof (EFI_HII_PACKAGE_HEADER));\r
2620\r
2621 return EFI_SUCCESS;\r
2622}\r
2623\r
2624/**\r
2625 This function updates a form that has previously been registered with the HII \r
2626 Database. This function will perform at most one update operation.\r
2627 \r
2628 The form to update is specified by Handle, FormSetGuid, and FormId. Binary \r
2629 comparisons of IFR opcodes are performed from the beginning of the form being \r
2630 updated until an IFR opcode is found that exactly matches the first IFR opcode \r
2631 specifed by StartOpCodeHandle. The following rules are used to determine if\r
2632 an insert, replace, or delete operation is performed.\r
2633 \r
2634 1) If no matches are found, then NULL is returned. \r
2635 2) If a match is found, and EndOpCodeHandle is NULL, then all of the IFR opcodes\r
2636 from StartOpcodeHandle except the first opcode are inserted immediately after \r
2637 the matching IFR opcode in the form beng updated.\r
2638 3) If a match is found, and EndOpCodeHandle is not NULL, then a search is made \r
2639 from the matching IFR opcode until an IFR opcode exatly matches the first \r
2640 IFR opcode specified by EndOpCodeHandle. If no match is found for the first\r
2641 IFR opcode specified by EndOpCodeHandle, then NULL is returned. If a match\r
2642 is found, then all of the IFR opcodes between the start match and the end \r
2643 match are deleted from the form being updated and all of the IFR opcodes\r
2644 from StartOpcodeHandle except the first opcode are inserted immediately after \r
2645 the matching start IFR opcode. If StartOpCcodeHandle only contains one\r
2646 IFR instruction, then the result of ths operation will delete all of the IFR\r
2647 opcodes between the start end matches.\r
2648\r
2649 If HiiHandle is NULL, then ASSERT().\r
2650 If StartOpCodeHandle is NULL, then ASSERT().\r
2651\r
2652 @param[in] HiiHandle The HII Handle of the form to update.\r
2653 @param[in] FormSetGuid The Formset GUID of the form to update. This\r
2654 is an optional parameter that may be NULL.\r
2655 If it is NULL, all FormSet will be updated.\r
2656 @param[in] FormId The ID of the form to update.\r
2657 @param[in] StartOpCodeHandle An OpCode Handle that contains the set of IFR \r
2658 opcodes to be inserted or replaced in the form.\r
2659 The first IFR instruction in StartOpCodeHandle \r
2660 is used to find matching IFR opcode in the \r
2661 form. \r
2662 @param[in] EndOpCodeHandle An OpCcode Handle that contains the IFR opcode\r
2663 that marks the end of a replace operation in\r
2664 the form. This is an optional parameter that\r
2665 may be NULL. If it is NULL, then an the IFR\r
2666 opcodes specified by StartOpCodeHandle are \r
2667 inserted into the form.\r
2668 \r
2669 @retval EFI_OUT_OF_RESOURCES No enough memory resource is allocated.\r
2670 @retval EFI_NOT_FOUND The following cases will return EFI_NOT_FOUND.\r
2671 1) The form specified by HiiHandle, FormSetGuid, \r
2672 and FormId could not be found in the HII Database.\r
2673 2) No IFR opcodes in the target form match the first\r
2674 IFR opcode in StartOpCodeHandle.\r
2675 3) EndOpCOde is not NULL, and no IFR opcodes in the \r
2676 target form following a matching start opcode match \r
2677 the first IFR opcode in EndOpCodeHandle.\r
2678 @retval EFI_SUCCESS The matched form is updated by StartOpcode.\r
2679\r
2680**/\r
2681EFI_STATUS\r
2682EFIAPI\r
2683HiiUpdateForm (\r
2684 IN EFI_HII_HANDLE HiiHandle, \r
2685 IN EFI_GUID *FormSetGuid, OPTIONAL\r
2686 IN EFI_FORM_ID FormId,\r
2687 IN VOID *StartOpcodeHandle,\r
2688 IN VOID *EndOpcodeHandle OPTIONAL\r
2689 )\r
2690{\r
2691 EFI_STATUS Status;\r
2692 EFI_HII_PACKAGE_LIST_HEADER *HiiPackageList;\r
2693 UINT32 PackageListLength; \r
2694 UINT32 Offset;\r
2695 EFI_HII_PACKAGE_LIST_HEADER *UpdatePackageList;\r
2696 UINTN BufferSize;\r
2697 UINT8 *UpdateBufferPos;\r
2698 EFI_HII_PACKAGE_HEADER *Package;\r
2699 EFI_HII_PACKAGE_HEADER *TempPacakge;\r
2700 EFI_HII_PACKAGE_HEADER PackageHeader;\r
2701 BOOLEAN Updated;\r
2702 HII_LIB_OPCODE_BUFFER *OpCodeBufferStart;\r
2703 HII_LIB_OPCODE_BUFFER *OpCodeBufferEnd;\r
2704 \r
2705 //\r
2706 // Input update data can't be NULL.\r
2707 //\r
2708 ASSERT (HiiHandle != NULL);\r
2709 ASSERT (StartOpcodeHandle != NULL);\r
2710 UpdatePackageList = NULL;\r
2711 TempPacakge = NULL;\r
2712 HiiPackageList = NULL;\r
2713 \r
2714 //\r
2715 // Restrive buffer data from Opcode Handle\r
2716 //\r
2717 OpCodeBufferStart = (HII_LIB_OPCODE_BUFFER *) StartOpcodeHandle;\r
2718 OpCodeBufferEnd = (HII_LIB_OPCODE_BUFFER *) EndOpcodeHandle;\r
2719 \r
2720 //\r
2721 // Get the orginal package list\r
2722 //\r
2723 BufferSize = 0;\r
2724 HiiPackageList = NULL;\r
2725 Status = gHiiDatabase->ExportPackageLists (gHiiDatabase, HiiHandle, &BufferSize, HiiPackageList);\r
2726 //\r
2727 // The return status should always be EFI_BUFFER_TOO_SMALL as input buffer's size is 0.\r
2728 //\r
2729 if (Status != EFI_BUFFER_TOO_SMALL) {\r
2730 return Status;\r
2731 }\r
2732\r
2733 HiiPackageList = AllocatePool (BufferSize);\r
2734 if (HiiPackageList == NULL) {\r
2735 Status = EFI_OUT_OF_RESOURCES;\r
2736 goto Finish;\r
2737 }\r
2738\r
2739 Status = gHiiDatabase->ExportPackageLists (gHiiDatabase, HiiHandle, &BufferSize, HiiPackageList);\r
2740 if (EFI_ERROR (Status)) {\r
2741 goto Finish;\r
2742 }\r
2743\r
2744 //\r
2745 // Calculate and allocate space for retrieval of IFR data\r
2746 //\r
2747 BufferSize += OpCodeBufferStart->Position;\r
2748 UpdatePackageList = AllocateZeroPool (BufferSize);\r
2749 if (UpdatePackageList == NULL) {\r
2750 Status = EFI_OUT_OF_RESOURCES;\r
2751 goto Finish;\r
2752 }\r
2753 \r
2754 //\r
2755 // Allocate temp buffer to store the temp updated package buffer\r
2756 //\r
2757 TempPacakge = AllocateZeroPool (BufferSize);\r
2758 if (TempPacakge == NULL) {\r
2759 Status = EFI_OUT_OF_RESOURCES;\r
2760 goto Finish;\r
2761 }\r
2762\r
2763 UpdateBufferPos = (UINT8 *) UpdatePackageList;\r
2764\r
2765 //\r
2766 // Copy the package list header\r
2767 //\r
2768 CopyMem (UpdateBufferPos, HiiPackageList, sizeof (EFI_HII_PACKAGE_LIST_HEADER));\r
2769 UpdateBufferPos += sizeof (EFI_HII_PACKAGE_LIST_HEADER);\r
2770 \r
2771 //\r
2772 // Go through each package to find the matched pacakge and update one by one\r
2773 //\r
2774 Updated = FALSE;\r
2775 Offset = sizeof (EFI_HII_PACKAGE_LIST_HEADER);\r
2776 PackageListLength = ReadUnaligned32 (&HiiPackageList->PackageLength);\r
2777 while (Offset < PackageListLength) {\r
2778 Package = (EFI_HII_PACKAGE_HEADER *) (((UINT8 *) HiiPackageList) + Offset);\r
2779 CopyMem (&PackageHeader, Package, sizeof (EFI_HII_PACKAGE_HEADER));\r
2780 Offset += Package->Length;\r
2781\r
2782 if (Package->Type == EFI_HII_PACKAGE_FORMS) {\r
2783 //\r
2784 // Check this package is the matched package.\r
2785 //\r
2786 Status = InternalHiiUpdateFormPackageData (FormSetGuid, FormId, Package, OpCodeBufferStart, OpCodeBufferEnd, TempPacakge);\r
2787 //\r
2788 // The matched package is found. Its pacakge buffer will be updated by the input new data.\r
2789 //\r
2790 if (!EFI_ERROR(Status)) {\r
2791 //\r
2792 // Set Update Flag\r
2793 // \r
2794 Updated = TRUE;\r
2795 //\r
2796 // Add updated package buffer\r
2797 //\r
2798 Package = TempPacakge;\r
2799 }\r
2800 }\r
2801\r
2802 //\r
2803 // Add pacakge buffer\r
2804 //\r
2805 CopyMem (&PackageHeader, Package, sizeof (EFI_HII_PACKAGE_HEADER));\r
2806 CopyMem (UpdateBufferPos, Package, PackageHeader.Length);\r
2807 UpdateBufferPos += PackageHeader.Length;\r
2808 }\r
2809 \r
2810 if (Updated) {\r
2811 //\r
2812 // Update package list length\r
2813 //\r
2814 BufferSize = UpdateBufferPos - (UINT8 *) UpdatePackageList;\r
2815 WriteUnaligned32 (&UpdatePackageList->PackageLength, (UINT32) BufferSize);\r
2816 \r
2817 //\r
2818 // Update Pacakge to show form\r
2819 //\r
2820 Status = gHiiDatabase->UpdatePackageList (gHiiDatabase, HiiHandle, UpdatePackageList);\r
2821 } else {\r
2822 //\r
2823 // Not matched form is found and updated.\r
2824 //\r
2825 Status = EFI_NOT_FOUND;\r
2826 }\r
2827\r
2828Finish:\r
2829 if (HiiPackageList != NULL) {\r
2830 FreePool (HiiPackageList);\r
2831 }\r
2832 \r
2833 if (UpdatePackageList != NULL) {\r
2834 FreePool (UpdatePackageList);\r
2835 }\r
2836 \r
2837 if (TempPacakge != NULL) {\r
2838 FreePool (TempPacakge);\r
2839 }\r
2840\r
2841 return Status; \r
2842}\r
2843\r
2844/**\r
2845 Configure the buffer accrording to ConfigBody strings in the format of\r
2846 <Length:4 bytes>, <Offset: 2 bytes>, <Width:2 bytes>, <Data:n bytes>.\r
2847 This ConfigBody strings is generated by UEFI VfrCompiler for the default\r
2848 values in a Form Set. The name of the ConfigBody strings is VfrMyIfrNVDataDefault0000\r
2849 constructed following this rule: \r
2850 "Vfr" + varstore.name + "Default" + defaultstore.attributes.\r
2851 Check the generated C file in Output for details.\r
2852\r
2853 @param Buffer The start address of buffer.\r
2854 @param BufferSize The size of buffer.\r
2855 @param Number The number of the strings.\r
2856 @param ... Variable argument list for default value in <AltResp> format \r
2857 generated by the tool.\r
2858\r
2859 @retval EFI_BUFFER_TOO_SMALL the BufferSize is too small to operate.\r
2860 @retval EFI_INVALID_PARAMETER Buffer is NULL or BufferSize is 0.\r
2861 @retval EFI_SUCCESS Operation successful.\r
2862\r
2863**/\r
2864EFI_STATUS\r
2865EFIAPI\r
3c7449e4 2866HiiIfrLibExtractDefault(\r
7e3bcccb
LG		 2867 IN VOID *Buffer,\r
2868 IN UINTN *BufferSize,\r
2869 UINTN Number,\r
2870 ...\r
2871 )\r
2872{\r
2873 VA_LIST Args;\r
2874 UINTN Index;\r
2875 UINT32 TotalLen;\r
2876 UINT8 *BufCfgArray;\r
2877 UINT8 *BufferPos;\r
2878 UINT16 Offset;\r
2879 UINT16 Width;\r
2880 UINT8 *Value;\r
2881\r
2882 if ((Buffer == NULL) || (BufferSize == NULL)) {\r
2883 return EFI_INVALID_PARAMETER;\r
2884 }\r
2885\r
2886 Offset = 0;\r
2887 Width = 0;\r
2888 Value = NULL;\r
2889\r
2890 VA_START (Args, Number);\r
2891 for (Index = 0; Index < Number; Index++) {\r
2892 BufCfgArray = (UINT8 *) VA_ARG (Args, VOID *);\r
2893 TotalLen = ReadUnaligned32 ((UINT32 *)BufCfgArray);\r
2894 BufferPos = BufCfgArray + sizeof (UINT32);\r
2895\r
2896 while ((UINT32)(BufferPos - BufCfgArray) < TotalLen) {\r
2897 Offset = ReadUnaligned16 ((UINT16 *)BufferPos);\r
2898 BufferPos += sizeof (UINT16);\r
2899 Width = ReadUnaligned16 ((UINT16 *)BufferPos);\r
2900 BufferPos += sizeof (UINT16);\r
2901 Value = BufferPos;\r
2902 BufferPos += Width;\r
2903\r
2904 if ((UINTN)(Offset + Width) > *BufferSize) {\r
2905 return EFI_BUFFER_TOO_SMALL;\r
2906 }\r
2907\r
2908 CopyMem ((UINT8 *)Buffer + Offset, Value, Width);\r
2909 }\r
2910 }\r
2911 VA_END (Args);\r
2912\r
2913 *BufferSize = (UINTN)Offset;\r
2914\r
2915 return EFI_SUCCESS;\r
2916}\r
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