+++ /dev/null
-/*++\r
-\r
-Copyright (c) 2004 - 2005, Intel Corporation \r
-All rights reserved. This program and the accompanying materials \r
-are licensed and made available under the terms and conditions of the BSD License \r
-which accompanies this distribution. The full text of the license may be found at \r
-http://opensource.org/licenses/bsd-license.php \r
- \r
-THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, \r
-WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. \r
-\r
-Module Name:\r
-\r
- VfrServices.cpp\r
-\r
-Abstract:\r
-\r
- Support routines for the VFR compiler\r
- \r
---*/ \r
-\r
-#include <stdio.h> // for FILE routines\r
-#include <stdlib.h> // for malloc() and free()\r
-\r
-#include <Common/UefiBaseTypes.h>\r
-#include <Common/MultiPhase.h>\r
-#include <Common/InternalFormRepresentation.h>\r
-#include <Protocol/UgaDraw.h> // for EFI_UGA_PIXEL definition\r
-#include <Protocol/Hii.h>\r
-\r
-#include "EfiUtilityMsgs.h"\r
-#include "EfiVfr.h"\r
-#include "VfrServices.h"\r
-\r
-\r
-static const char *mSourceFileHeader[] = {\r
- "//",\r
- "// DO NOT EDIT -- auto-generated file",\r
- "//",\r
- "// This file is generated by the VFR compiler.",\r
- "//",\r
- NULL\r
-};\r
-\r
-typedef struct {\r
- CHAR8 *Name;\r
- INT32 Size;\r
-} IFR_OPCODE_SIZES;\r
-\r
-//\r
-// Create a table that can be used to do internal checking on the IFR\r
-// bytes we emit.\r
-//\r
-static const IFR_OPCODE_SIZES mOpcodeSizes[] = {\r
- { 0, 0 }, // invalid\r
- { "EFI_IFR_FORM", sizeof (EFI_IFR_FORM) },\r
- { "EFI_IFR_SUBTITLE", sizeof (EFI_IFR_SUBTITLE) }, \r
- { "EFI_IFR_TEXT", -6 }, //sizeof (EFI_IFR_TEXT) }, \r
- { "unused 0x04 opcode", 0 }, // EFI_IFR_GRAPHIC_OP\r
- { "EFI_IFR_ONE_OF", sizeof (EFI_IFR_ONE_OF) }, \r
- { "EFI_IFR_CHECKBOX", sizeof (EFI_IFR_CHECKBOX) }, \r
- { "EFI_IFR_NUMERIC", sizeof (EFI_IFR_NUMERIC) }, \r
- { "EFI_IFR_PASSWORD", sizeof (EFI_IFR_PASSWORD) }, \r
- { "EFI_IFR_ONE_OF_OPTION", sizeof (EFI_IFR_ONE_OF_OPTION) }, \r
- { "EFI_IFR_SUPPRESS", sizeof (EFI_IFR_SUPPRESS) }, \r
- { "EFI_IFR_END_FORM", sizeof (EFI_IFR_END_FORM) }, \r
- { "EFI_IFR_HIDDEN", sizeof (EFI_IFR_HIDDEN) }, \r
- { "EFI_IFR_END_FORM_SET", sizeof (EFI_IFR_END_FORM_SET) }, \r
- { "EFI_IFR_FORM_SET", sizeof (EFI_IFR_FORM_SET) }, \r
- { "EFI_IFR_REF", sizeof (EFI_IFR_REF) }, \r
- { "EFI_IFR_END_ONE_OF", sizeof (EFI_IFR_END_ONE_OF) }, \r
- { "EFI_IFR_INCONSISTENT", sizeof (EFI_IFR_INCONSISTENT) }, \r
- { "EFI_IFR_EQ_ID_VAL", sizeof (EFI_IFR_EQ_ID_VAL) }, \r
- { "EFI_IFR_EQ_ID_ID", sizeof (EFI_IFR_EQ_ID_ID) }, \r
- { "EFI_IFR_EQ_ID_LIST", -sizeof (EFI_IFR_EQ_ID_LIST) }, \r
- { "EFI_IFR_AND", sizeof (EFI_IFR_AND) }, \r
- { "EFI_IFR_OR", sizeof (EFI_IFR_OR) }, \r
- { "EFI_IFR_NOT", sizeof (EFI_IFR_NOT) }, \r
- { "EFI_IFR_END_EXPR", sizeof (EFI_IFR_END_EXPR) }, \r
- { "EFI_IFR_GRAY_OUT", sizeof (EFI_IFR_GRAY_OUT) }, \r
- { "EFI_IFR_DATE", sizeof (EFI_IFR_DATE) / 3 }, \r
- { "EFI_IFR_TIME", sizeof (EFI_IFR_TIME) / 3 }, \r
- { "EFI_IFR_STRING", sizeof (EFI_IFR_STRING) }, \r
- { "EFI_IFR_LABEL", sizeof (EFI_IFR_LABEL) }, \r
- { "EFI_IFR_SAVE_DEFAULTS", sizeof (EFI_IFR_SAVE_DEFAULTS) }, \r
- { "EFI_IFR_RESTORE_DEFAULTS", sizeof (EFI_IFR_RESTORE_DEFAULTS) }, \r
- { "EFI_IFR_BANNER", sizeof (EFI_IFR_BANNER) },\r
- { "EFI_IFR_INVENTORY", sizeof (EFI_IFR_INVENTORY) },\r
- { "EFI_IFR_EQ_VAR_VAL_OP", sizeof (EFI_IFR_EQ_VAR_VAL) },\r
- { "EFI_IFR_ORDERED_LIST_OP", sizeof (EFI_IFR_ORDERED_LIST) },\r
- { "EFI_IFR_VARSTORE_OP", -sizeof (EFI_IFR_VARSTORE) },\r
- { "EFI_IFR_VARSTORE_SELECT_OP", sizeof (EFI_IFR_VARSTORE_SELECT) },\r
- { "EFI_IFR_VARSTORE_SELECT_PAIR_OP", sizeof (EFI_IFR_VARSTORE_SELECT_PAIR) },\r
- { "EFI_IFR_TRUE", sizeof (EFI_IFR_TRUE)},\r
- { "EFI_IFR_FALSE", sizeof (EFI_IFR_FALSE)},\r
- { "EFI_IFR_GT", sizeof (EFI_IFR_GT)},\r
- { "EFI_IFR_GE", sizeof (EFI_IFR_GE)},\r
- { "EFI_IFR_OEM_DEFINED_OP", -2 },\r
-};\r
-\r
-\r
-VfrOpcodeHandler::VfrOpcodeHandler (\r
- ) \r
-/*++\r
-\r
-Routine Description:\r
- Constructor for the VFR opcode handling class.\r
- \r
-Arguments:\r
- None\r
-\r
-Returns:\r
- None\r
-\r
---*/\r
-{ \r
- mIfrBytes = NULL; \r
- mLastIfrByte = NULL;\r
- mBytesWritten = 0;\r
- mQueuedByteCount = 0;\r
- mQueuedOpcodeByteValid = 0;\r
- mPrimaryVarStoreId = 0;\r
- mSecondaryVarStoreId = 0;\r
- mSecondaryVarStoreIdSet = 0;\r
- mPrimaryVarStoreIdSet = 0;\r
- mDefaultVarStoreId = 0;\r
-}\r
-\r
-VOID \r
-VfrOpcodeHandler::SetVarStoreId (\r
- UINT16 VarStoreId\r
- )\r
-/*++\r
-\r
-Routine Description:\r
- This function is invoked by the parser when a variable is referenced in the \r
- VFR. Save the variable store (and set a flag) so that we can later determine \r
- if we need to emit a varstore-select or varstore-select-pair opcode.\r
- \r
-Arguments:\r
- VarStoreId - ID of the variable store referenced in the VFR\r
-\r
-Returns:\r
- None\r
-\r
---*/\r
-{\r
- mPrimaryVarStoreId = VarStoreId;\r
- mPrimaryVarStoreIdSet = 1;\r
-}\r
-\r
-VOID \r
-VfrOpcodeHandler::SetSecondaryVarStoreId (\r
- UINT16 VarStoreId\r
- )\r
-/*++\r
-\r
-Routine Description:\r
- This function is invoked by the parser when a secondary variable is \r
- referenced in the VFR. Save the variable store (and set a flag) so \r
- that we can later determine if we need to emit a varstore-select or \r
- varstore-pair opcode.\r
- \r
-Arguments:\r
- VarStoreId - ID of the variable store referenced in the VFR\r
-\r
-Returns:\r
- None\r
-\r
---*/\r
-{\r
- mSecondaryVarStoreId = VarStoreId;\r
- mSecondaryVarStoreIdSet = 1;\r
-}\r
-\r
-VOID \r
-VfrOpcodeHandler::WriteIfrBytes (\r
- ) \r
-/*++\r
-\r
-Routine Description:\r
- This function is invoked at the end of parsing. Its purpose\r
- is to write out all the IFR bytes that were queued up while\r
- parsing.\r
- \r
-Arguments:\r
- None\r
-\r
-Returns:\r
- None\r
-\r
---*/\r
-{ \r
- IFR_BYTE *Curr;\r
- IFR_BYTE *Next;\r
- UINT32 Count;\r
- UINT32 LineCount;\r
- UINT32 PoundLines;\r
- UINT32 ByteCount;\r
- CHAR8 Line[MAX_LINE_LEN];\r
- CHAR8 *Cptr;\r
- FILE *InFptr;\r
- FILE *OutFptr;\r
- UINT32 ListFile;\r
- EFI_HII_IFR_PACK_HEADER IfrHeader;\r
- UINT8 *Ptr;\r
- FILE *IfrBinFptr;\r
- UINT32 BytesLeftThisOpcode;\r
- //\r
- // If someone added a new opcode and didn't update our opcode sizes structure, error out.\r
- //\r
- if (sizeof(mOpcodeSizes) / sizeof (mOpcodeSizes[0]) != EFI_IFR_LAST_OPCODE + 1) {\r
- Error (__FILE__, __LINE__, 0, "application error", "internal IFR binary table size is incorrect");\r
- return;\r
- }\r
- //\r
- // Flush the queue\r
- //\r
- FlushQueue (); \r
- //\r
- // If there have been any errors to this point, then skip dumping the IFR\r
- // binary data. This way doing an nmake again will try to build it again, and\r
- // the build will fail if they did not fix the problem.\r
- //\r
- if (GetUtilityStatus () != STATUS_ERROR) {\r
- if ((IfrBinFptr = fopen (gOptions.IfrOutputFileName, "w")) == NULL) {\r
- Error (PROGRAM_NAME, 0, 0, gOptions.IfrOutputFileName, "could not open file for writing");\r
- return;\r
- }\r
- //\r
- // Write the standard file header to the output file\r
- //\r
- WriteStandardFileHeader (IfrBinFptr);\r
- //\r
- // Write the structure header\r
- //\r
- fprintf (IfrBinFptr, "\nunsigned char %sBin[] = {", gOptions.VfrBaseFileName);\r
- //\r
- // Write the header\r
- //\r
- memset ((char *)&IfrHeader, 0, sizeof (IfrHeader));\r
- IfrHeader.Header.Type = EFI_HII_IFR;\r
- IfrHeader.Header.Length = mBytesWritten + sizeof (IfrHeader); \r
- Ptr = (UINT8 *)&IfrHeader;\r
- for (Count = 0; Count < sizeof (IfrHeader); Count++, Ptr++) {\r
- if ((Count & 0x03) == 0) {\r
- fprintf (IfrBinFptr, "\n ");\r
- }\r
- fprintf (IfrBinFptr, "0x%02X, ", *Ptr); \r
- }\r
- //\r
- //\r
- // Write all the IFR bytes\r
- //\r
- fprintf (IfrBinFptr, "\n // start of IFR data");\r
- Curr = mIfrBytes;\r
- Count = 0;\r
- while (Curr != NULL) {\r
- if ((Count & 0x0F) == 0) {\r
- fprintf (IfrBinFptr, "\n ");\r
- }\r
- if (Curr->KeyByte != 0) {\r
- fprintf (IfrBinFptr, "/*%c*/ ", Curr->KeyByte);\r
- }\r
- fprintf (IfrBinFptr, "0x%02X, ", Curr->OpcodeByte);\r
- Count++;\r
- Curr = Curr->Next;\r
- }\r
- fprintf (IfrBinFptr, "\n};\n\n");\r
- //\r
- //\r
- // Close the file\r
- //\r
- fclose (IfrBinFptr); \r
- IfrBinFptr = NULL;\r
- }\r
- //\r
- // Write the bytes as binary data if the user specified to do so\r
- //\r
- if ((GetUtilityStatus () != STATUS_ERROR) && (gOptions.CreateIfrBinFile != 0)) {\r
- //\r
- // Use the Ifr output file name with a ".hpk" extension.\r
- //\r
- for (Cptr = gOptions.IfrOutputFileName + strlen (gOptions.IfrOutputFileName) - 1;\r
- (*Cptr != '.') && (Cptr > gOptions.IfrOutputFileName) && (*Cptr != '\\');\r
- Cptr--) {\r
- //\r
- // do nothing\r
- //\r
- }\r
- if (*Cptr == '.') {\r
- strcpy (Cptr, ".hpk");\r
- } else {\r
- strcat (gOptions.IfrOutputFileName, ".hpk");\r
- }\r
- if ((IfrBinFptr = fopen (gOptions.IfrOutputFileName, "wb")) == NULL) {\r
- Error (PROGRAM_NAME, 0, 0, gOptions.IfrOutputFileName, "could not open file for writing");\r
- return;\r
- }\r
- //\r
- // Write the structure header\r
- //\r
- memset ((char *)&IfrHeader, 0, sizeof (IfrHeader));\r
- IfrHeader.Header.Type = EFI_HII_IFR;\r
- IfrHeader.Header.Length = mBytesWritten + sizeof (IfrHeader); \r
- Ptr = (UINT8 *)&IfrHeader;\r
- for (Count = 0; Count < sizeof (IfrHeader); Count++, Ptr++) {\r
- fwrite (Ptr, 1, 1, IfrBinFptr);\r
- }\r
- //\r
- //\r
- // Write all the IFR bytes\r
- //\r
- Curr = mIfrBytes;\r
- Count = 0;\r
- while (Curr != NULL) {\r
- fwrite (&Curr->OpcodeByte, 1, 1, IfrBinFptr);\r
- Curr = Curr->Next;\r
- }\r
- //\r
- //\r
- // Close the file\r
- //\r
- fclose (IfrBinFptr); \r
- IfrBinFptr = NULL;\r
- }\r
- //\r
- // If creating a listing file, then open the input and output files\r
- //\r
- ListFile = 0;\r
- if (gOptions.CreateListFile) {\r
- //\r
- // Open the input VFR file and the output list file\r
- //\r
- if ((InFptr = fopen (gOptions.VfrFileName, "r")) == NULL) {\r
- Warning (PROGRAM_NAME, 0, 0, gOptions.VfrFileName, "could not open file for creating a list file");\r
- } else {\r
- if ((OutFptr = fopen (gOptions.VfrListFileName, "w")) == NULL) {\r
- Warning (PROGRAM_NAME, 0, 0, gOptions.VfrListFileName, "could not open output list file for writing");\r
- fclose (InFptr);\r
- InFptr = NULL;\r
- } else {\r
- LineCount = 0;\r
- ListFile = 1;\r
- PoundLines = 0;\r
- ByteCount = 0;\r
- }\r
- }\r
- }\r
- //\r
- // Write the list file\r
- //\r
- if (ListFile) {\r
- //\r
- // Write out the VFR compiler version\r
- //\r
- fprintf (OutFptr, "//\n// VFR compiler version " VFR_COMPILER_VERSION "\n//\n");\r
- Curr = mIfrBytes;\r
- while (Curr != NULL) {\r
- //\r
- // Print lines until we reach the line of the current opcode\r
- //\r
- while (LineCount < PoundLines + Curr->LineNum) {\r
- if (fgets (Line, sizeof (Line), InFptr) != NULL) {\r
- //\r
- // We should check for line length exceeded on the fgets(). Otherwise it\r
- // throws the listing file output off. Future enhancement perhaps.\r
- //\r
- fprintf (OutFptr, "%s", Line);\r
- if (strncmp (Line, "#line", 5) == 0) {\r
- PoundLines++;\r
- }\r
- }\r
- LineCount++;\r
- }\r
- //\r
- // Print all opcodes with line numbers less than where we are now\r
- //\r
- BytesLeftThisOpcode = 0;\r
- while ((Curr != NULL) && ((Curr->LineNum == 0) || (LineCount >= PoundLines + Curr->LineNum))) {\r
- if (BytesLeftThisOpcode == 0) {\r
- fprintf (OutFptr, ">%08X: ", ByteCount);\r
- if (Curr->Next != NULL) {\r
- BytesLeftThisOpcode = (UINT32)Curr->Next->OpcodeByte;\r
- }\r
- }\r
- fprintf (OutFptr, "%02X ", (UINT32)Curr->OpcodeByte);\r
- ByteCount++;\r
- BytesLeftThisOpcode--;\r
- if (BytesLeftThisOpcode == 0) {\r
- fprintf (OutFptr, "\n");\r
- }\r
- Curr = Curr->Next;\r
- }\r
- }\r
- //\r
- // Dump any remaining lines from the input file\r
- //\r
- while (fgets (Line, sizeof (Line), InFptr) != NULL) {\r
- fprintf (OutFptr, "%s", Line);\r
- }\r
- fclose (InFptr);\r
- fclose (OutFptr);\r
- }\r
- //\r
- // Debug code to make sure that each opcode we write out has as many\r
- // bytes as the IFR structure requires. If there were errors, then\r
- // don't do this step.\r
- //\r
- if (GetUtilityStatus () != STATUS_ERROR) {\r
- Curr = mIfrBytes;\r
- ByteCount = 0;\r
- while (Curr != NULL) {\r
- //\r
- // First byte is the opcode, second byte is the length\r
- //\r
- if (Curr->Next == NULL) {\r
- Error (__FILE__, __LINE__, 0, "application error", "last opcode written does not contain a length byte");\r
- break;\r
- }\r
- Count = (UINT32)Curr->Next->OpcodeByte;\r
- if (Count == 0) {\r
- Error (\r
- __FILE__, \r
- __LINE__, \r
- 0, \r
- "application error", \r
- "opcode with 0 length specified in output at offset 0x%X", \r
- ByteCount\r
- );\r
- break;\r
- }\r
- //\r
- // Check the length\r
- //\r
- if ((Curr->OpcodeByte > EFI_IFR_LAST_OPCODE) || (Curr->OpcodeByte == 0)) {\r
- Error (\r
- __FILE__, \r
- __LINE__, \r
- 0, \r
- "application error", \r
- "invalid opcode 0x%X in output at offset 0x%X", \r
- (UINT32) Curr->OpcodeByte, ByteCount\r
- );\r
- } else if (mOpcodeSizes[Curr->OpcodeByte].Size < 0) {\r
- //\r
- // For those cases where the length is variable, the size is negative, and indicates\r
- // the miniumum size.\r
- //\r
- if ((mOpcodeSizes[Curr->OpcodeByte].Size * -1) > Count) {\r
- Error (\r
- __FILE__, \r
- __LINE__, \r
- 0, \r
- "application error", \r
- "insufficient number of bytes written for %s at offset 0x%X",\r
- mOpcodeSizes[Curr->OpcodeByte].Name, \r
- ByteCount\r
- );\r
- }\r
- } else {\r
- //\r
- // Check for gaps\r
- //\r
- if (mOpcodeSizes[Curr->OpcodeByte].Size == 0) {\r
- Error (\r
- __FILE__, \r
- __LINE__, \r
- 0, \r
- "application error", \r
- "invalid opcode 0x%X in output at offset 0x%X", \r
- (UINT32)Curr->OpcodeByte, \r
- ByteCount\r
- );\r
- } else {\r
- //\r
- // Check size\r
- //\r
- if (mOpcodeSizes[Curr->OpcodeByte].Size != Count) {\r
- Error (\r
- __FILE__, \r
- __LINE__, \r
- 0, \r
- "application error", \r
- "invalid number of bytes (%d written s/b %d) written for %s at offset 0x%X",\r
- Count, \r
- mOpcodeSizes[Curr->OpcodeByte].Size, \r
- mOpcodeSizes[Curr->OpcodeByte].Name, \r
- ByteCount\r
- );\r
- }\r
- }\r
- }\r
- //\r
- // Skip to next opcode\r
- //\r
- while (Count > 0) {\r
- ByteCount++;\r
- if (Curr == NULL) {\r
- Error (__FILE__, __LINE__, 0, "application error", "last opcode written has invalid length");\r
- break;\r
- }\r
- Curr = Curr->Next;\r
- Count--;\r
- }\r
- }\r
- }\r
-}\r
-\r
-VfrOpcodeHandler::~VfrOpcodeHandler(\r
- ) \r
-/*++\r
-\r
-Routine Description:\r
- Destructor for the VFR opcode handler. Free up memory allocated\r
- while parsing the VFR script.\r
- \r
-Arguments:\r
- None\r
-\r
-Returns:\r
- None\r
-\r
---*/\r
-{\r
- IFR_BYTE *Curr;\r
- IFR_BYTE *Next;\r
- //\r
- // Free up the IFR bytes\r
- //\r
- Curr = mIfrBytes;\r
- while (Curr != NULL) {\r
- Next = Curr->Next;\r
- free (Curr);\r
- Curr = Next;\r
- }\r
-}\r
-\r
-int \r
-VfrOpcodeHandler::AddOpcodeByte (\r
- UINT8 OpcodeByte, \r
- UINT32 LineNum\r
- ) \r
-/*++\r
-\r
-Routine Description:\r
- This function is invoked by the parser when a new IFR\r
- opcode should be emitted.\r
- \r
-Arguments:\r
- OpcodeByte - the IFR opcode\r
- LineNum - the line number from the source file that resulted\r
- in the opcode being emitted.\r
-\r
-Returns:\r
- 0 always\r
-\r
---*/\r
-{\r
- UINT32 Count;\r
-\r
- FlushQueue();\r
- //\r
- // Now add this new byte\r
- //\r
- mQueuedOpcodeByte = OpcodeByte;\r
- mQueuedLineNum = LineNum;\r
- mQueuedOpcodeByteValid = 1;\r
- return 0;\r
-}\r
-\r
-VOID \r
-VfrOpcodeHandler::AddByte (\r
- UINT8 ByteVal, \r
- UINT8 KeyByte\r
- )\r
-/*++\r
-\r
-Routine Description:\r
- This function is invoked by the parser when it determines\r
- that more raw IFR bytes should be emitted to the output stream.\r
- Here we just queue them up into an output buffer.\r
- \r
-Arguments:\r
- ByteVal - the raw byte to emit to the output IFR stream\r
- KeyByte - a value that can be used for debug. \r
-\r
-Returns:\r
- None\r
-\r
---*/\r
-{\r
- //\r
- // Check for buffer overflow\r
- //\r
- if (mQueuedByteCount > MAX_QUEUE_COUNT) {\r
- Error (PROGRAM_NAME, 0, 0, NULL, "opcode queue overflow");\r
- } else {\r
- mQueuedBytes[mQueuedByteCount] = ByteVal;\r
- mQueuedKeyBytes[mQueuedByteCount] = KeyByte;\r
- mQueuedByteCount++;\r
- }\r
-}\r
-\r
-int \r
-VfrOpcodeHandler::FlushQueue (\r
- )\r
-/*++\r
-\r
-Routine Description:\r
- This function is invoked to flush the internal IFR buffer.\r
- \r
-Arguments:\r
- None\r
-\r
-Returns:\r
- 0 always\r
-\r
---*/\r
-{\r
- UINT32 Count;\r
- UINT32 EmitNoneOnePair;\r
-\r
- EmitNoneOnePair = 0;\r
- //\r
- // If the secondary varstore was specified, then we have to emit\r
- // a varstore-select-pair opcode, which only applies to the following\r
- // statement. \r
- //\r
- if (mSecondaryVarStoreIdSet) {\r
- mSecondaryVarStoreIdSet = 0;\r
- //\r
- // If primary and secondary are the same as the current default\r
- // varstore, then we don't have to do anything.\r
- // Note that the varstore-select-pair only applies to the following\r
- // opcode.\r
- //\r
- if ((mPrimaryVarStoreId != mSecondaryVarStoreId) || (mPrimaryVarStoreId != mDefaultVarStoreId)) {\r
- IAddByte (EFI_IFR_VARSTORE_SELECT_PAIR_OP, 'O', mQueuedLineNum);\r
- IAddByte ((UINT8)sizeof (EFI_IFR_VARSTORE_SELECT_PAIR), 'L', 0);\r
- IAddByte ((UINT8)mPrimaryVarStoreId, 0, 0);\r
- IAddByte ((UINT8)(mPrimaryVarStoreId >> 8), 0, 0);\r
- IAddByte ((UINT8)mSecondaryVarStoreId, 0, 0);\r
- IAddByte ((UINT8)(mSecondaryVarStoreId >> 8), 0, 0);\r
- }\r
- } else if (mPrimaryVarStoreIdSet != 0) {\r
- mPrimaryVarStoreIdSet = 0;\r
- if (mDefaultVarStoreId != mPrimaryVarStoreId) {\r
- //\r
- // The VFR statement referenced a different variable store \r
- // than the last one we reported. Insert a new varstore select \r
- // statement. \r
- //\r
- IAddByte (EFI_IFR_VARSTORE_SELECT_OP, 'O', mQueuedLineNum);\r
- IAddByte ((UINT8)sizeof (EFI_IFR_VARSTORE_SELECT), 'L', 0);\r
- IAddByte ((UINT8)mPrimaryVarStoreId, 0, 0);\r
- IAddByte ((UINT8)(mPrimaryVarStoreId >> 8), 0, 0);\r
- mDefaultVarStoreId = mPrimaryVarStoreId;\r
- }\r
- }\r
- //\r
- // Likely a new opcode is being added. Since each opcode item in the IFR has \r
- // a header that specifies the size of the opcode item (which we don't\r
- // know until we find the next opcode in the VFR), we queue up bytes\r
- // until we know the size. Then we write them out. So flush the queue\r
- // now.\r
- //\r
- if (mQueuedOpcodeByteValid != 0) {\r
- // \r
- // Add the previous opcode byte, the length byte, and the binary\r
- // data.\r
- //\r
- IAddByte (mQueuedOpcodeByte, 'O', mQueuedLineNum);\r
- IAddByte ((UINT8)(mQueuedByteCount + 2), 'L', 0);\r
- for (Count = 0; Count < mQueuedByteCount; Count++) {\r
- IAddByte (mQueuedBytes[Count], mQueuedKeyBytes[Count], 0); \r
- }\r
- mQueuedByteCount = 0;\r
- mQueuedOpcodeByteValid = 0;\r
- } \r
- return 0;\r
-}\r
-\r
-int \r
-VfrOpcodeHandler::IAddByte (\r
- UINT8 ByteVal, \r
- UINT8 KeyByte, \r
- UINT32 LineNum\r
- )\r
-/*++\r
-\r
-Routine Description:\r
- This internal function is used to add actual IFR bytes to\r
- the output stream. Most other functions queue up the bytes\r
- in an internal buffer. Once they come here, there's no\r
- going back.\r
-\r
- \r
-Arguments:\r
- ByteVal - value to write to output \r
- KeyByte - key value tied to the byte -- useful for debug\r
- LineNum - line number from source file the byte resulted from\r
-\r
-Returns:\r
- 0 - if successful\r
- 1 - failed due to memory allocation failure\r
-\r
---*/\r
-{\r
- IFR_BYTE *NewByte;\r
- NewByte = (IFR_BYTE *)malloc (sizeof (IFR_BYTE));\r
- if (NewByte == NULL) {\r
- return 1;\r
- }\r
- memset ((char *)NewByte, 0, sizeof (IFR_BYTE));\r
- NewByte->OpcodeByte = ByteVal;\r
- NewByte->KeyByte = KeyByte;\r
- NewByte->LineNum = LineNum;\r
- //\r
- // Add to the list\r
- //\r
- if (mIfrBytes == NULL) {\r
- mIfrBytes = NewByte;\r
- } else {\r
- mLastIfrByte->Next = NewByte;\r
- } \r
- mLastIfrByte = NewByte;\r
- mBytesWritten++;\r
- return 0;\r
-}\r
-\r
-VOID \r
-WriteStandardFileHeader (\r
- FILE *OutFptr\r
- ) \r
-/*++\r
-\r
-Routine Description:\r
- This function is invoked to emit a standard header to an\r
- output text file.\r
- \r
-Arguments:\r
- OutFptr - file to write the header to\r
-\r
-Returns:\r
- None\r
-\r
---*/\r
-{\r
- UINT32 TempIndex;\r
- for (TempIndex = 0; mSourceFileHeader[TempIndex] != NULL; TempIndex++) {\r
- fprintf (OutFptr, "%s\n", mSourceFileHeader[TempIndex]);\r
- }\r
- //\r
- // Write out the VFR compiler version\r
- //\r
- fprintf (OutFptr, "// VFR compiler version " VFR_COMPILER_VERSION "\n//\n");\r
-}\r