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/*++
Copyright (c) 1991 Microsoft Corporation
Module Name:
message.c
Abstract:
Message table resource accessing functions
Author:
Steve Wood (stevewo) 10-Sep-1991
Revision History:
--*/
#include "ntrtlp.h"
#include "string.h"
#include "stdio.h"
#if defined(ALLOC_PRAGMA) && defined(NTOS_KERNEL_RUNTIME)
#pragma alloc_text(PAGE,RtlFindMessage)
#endif
NTSTATUS RtlFindMessage( IN PVOID DllHandle, IN ULONG MessageTableId, IN ULONG MessageLanguageId, IN ULONG MessageId, OUT PMESSAGE_RESOURCE_ENTRY *MessageEntry ) { NTSTATUS Status; ULONG NumberOfBlocks; ULONG EntryIndex; PIMAGE_RESOURCE_DATA_ENTRY ResourceDataEntry; PMESSAGE_RESOURCE_DATA MessageData; PMESSAGE_RESOURCE_BLOCK MessageBlock; PCHAR s; ULONG_PTR ResourceIdPath[ 3 ];
RTL_PAGED_CODE();
ResourceIdPath[ 0 ] = MessageTableId; ResourceIdPath[ 1 ] = 1; ResourceIdPath[ 2 ] = MessageLanguageId;
Status = LdrpSearchResourceSection_U( DllHandle, ResourceIdPath, 3, 0, (PVOID *)&ResourceDataEntry ); if (!NT_SUCCESS( Status )) { return( Status ); }
Status = LdrpAccessResourceData( DllHandle, ResourceDataEntry, (PVOID *)&MessageData, NULL ); if (!NT_SUCCESS( Status )) { return( Status ); }
NumberOfBlocks = MessageData->NumberOfBlocks; MessageBlock = &MessageData->Blocks[ 0 ]; while (NumberOfBlocks--) { if (MessageId >= MessageBlock->LowId && MessageId <= MessageBlock->HighId ) { s = (PCHAR)MessageData + MessageBlock->OffsetToEntries; EntryIndex = MessageId - MessageBlock->LowId; while (EntryIndex--) { s += ((PMESSAGE_RESOURCE_ENTRY)s)->Length; }
*MessageEntry = (PMESSAGE_RESOURCE_ENTRY)s; return( STATUS_SUCCESS ); }
MessageBlock++; }
return( STATUS_MESSAGE_NOT_FOUND ); }
#ifndef NTOS_KERNEL_RUNTIME
#define MAX_INSERTS 200
NTSTATUS RtlFormatMessage( IN PWSTR MessageFormat, IN ULONG MaximumWidth OPTIONAL, IN BOOLEAN IgnoreInserts, IN BOOLEAN ArgumentsAreAnsi, IN BOOLEAN ArgumentsAreAnArray, IN va_list *Arguments, OUT PWSTR Buffer, IN ULONG Length, OUT PULONG ReturnLength OPTIONAL ) { ULONG Column; int cchRemaining, cchWritten; PULONG_PTR ArgumentsArray = (PULONG_PTR)Arguments; ULONG_PTR rgInserts[ MAX_INSERTS ]; ULONG cSpaces; ULONG MaxInsert, CurInsert; ULONG PrintParameterCount; ULONG_PTR PrintParameter1; ULONG_PTR PrintParameter2; WCHAR PrintFormatString[ 32 ]; BOOLEAN DefaultedFormatString; WCHAR c; PWSTR s, s1, s2, s3; PWSTR lpDst, lpDstBeg, lpDstLastSpace; BOOLEAN WideArg = FALSE;
cchRemaining = Length / sizeof( WCHAR ); lpDst = Buffer; MaxInsert = 0; lpDstLastSpace = NULL; Column = 0; s = MessageFormat; while (*s != UNICODE_NULL) { if (*s == L'%') { s++; lpDstBeg = lpDst; if (*s >= L'1' && *s <= L'9') { CurInsert = *s++ - L'0'; if (*s >= L'0' && *s <= L'9') { CurInsert = (CurInsert * 10) + (*s++ - L'0'); if (*s >= L'0' && *s <= L'9') { CurInsert = (CurInsert * 10) + (*s++ - L'0'); if (*s >= L'0' && *s <= L'9') { return( STATUS_INVALID_PARAMETER ); } } } CurInsert -= 1;
PrintParameterCount = 0; if (*s == L'!') { DefaultedFormatString = FALSE; s1 = PrintFormatString; *s1++ = L'%'; s2 = s1; s++; while (*s != L'!') { if (*s != UNICODE_NULL) { if (s1 >= &PrintFormatString[ 31 ]) { return( STATUS_INVALID_PARAMETER ); }
if (*s == L'*') { if (PrintParameterCount++ > 1) { return( STATUS_INVALID_PARAMETER ); } }
*s1++ = *s++; } else { return( STATUS_INVALID_PARAMETER ); } }
s++; *s1 = UNICODE_NULL; WideArg = FALSE; #if !defined(_IA64_)
// look for I64 format string
s3 = s2; while (*s3 && !WideArg) { if (s3[0] == L'I' && s3[1] == L'6' && s3[2] == L'4') { WideArg = TRUE; } s3 += 1; } #endif
} else { DefaultedFormatString = TRUE; wcscpy( PrintFormatString, L"%s" ); s1 = PrintFormatString + wcslen( PrintFormatString ); WideArg = FALSE; }
if (IgnoreInserts) { if (!wcscmp( PrintFormatString, L"%s" )) { cchWritten = _snwprintf( lpDst, cchRemaining, L"%%%u", CurInsert+1 ); } else { cchWritten = _snwprintf( lpDst, cchRemaining, L"%%%u!%s!", CurInsert+1, &PrintFormatString[ 1 ] ); }
if (cchWritten == -1) { return(STATUS_BUFFER_OVERFLOW); } } else if (ARGUMENT_PRESENT( Arguments )) { if ((CurInsert+PrintParameterCount) >= MAX_INSERTS) { return( STATUS_INVALID_PARAMETER ); }
if (ArgumentsAreAnsi) { if (s1[ -1 ] == L'c' && s1[ -2 ] != L'h' && s1[ -2 ] != L'w' && s1[ -2 ] != L'l') { wcscpy( &s1[ -1 ], L"hc" ); } else if (s1[ -1 ] == L's' && s1[ -2 ] != L'h' && s1[ -2 ] != L'w' && s1[ -2 ] != L'l') { wcscpy( &s1[ -1 ], L"hs" ); } else if (s1[ -1 ] == L'S') { s1[ -1 ] = L's'; } else if (s1[ -1 ] == L'C') { s1[ -1 ] = L'c'; } }
while (CurInsert >= MaxInsert) { if (ArgumentsAreAnArray) { rgInserts[ MaxInsert++ ] = *((PULONG_PTR)Arguments)++; } else { if (WideArg) { rgInserts[ MaxInsert++ ] = va_arg( *Arguments, ULONG_PTR ); rgInserts[ MaxInsert++ ] = va_arg( *Arguments, ULONG_PTR ); } else { rgInserts[ MaxInsert++ ] = va_arg( *Arguments, ULONG_PTR ); } } }
s1 = (PWSTR)rgInserts[ CurInsert ]; PrintParameter1 = 0; PrintParameter2 = 0; if (PrintParameterCount > 0) { if (ArgumentsAreAnArray) { PrintParameter1 = rgInserts[ MaxInsert++ ] = *((PULONG_PTR)Arguments)++; } else { PrintParameter1 = va_arg( *Arguments, ULONG_PTR ); }
if (PrintParameterCount > 1) { if (ArgumentsAreAnArray) { PrintParameter2 = rgInserts[ MaxInsert++ ] = *((PULONG_PTR)Arguments)++; } else { PrintParameter2 = rgInserts[ MaxInsert++ ] = va_arg( *Arguments, ULONG_PTR ); } } }
if (WideArg) { cchWritten = _snwprintf( lpDst, cchRemaining, PrintFormatString, *(PULONGLONG)&rgInserts[CurInsert], PrintParameter1, PrintParameter2 ); } else { cchWritten = _snwprintf( lpDst, cchRemaining, PrintFormatString, s1, PrintParameter1, PrintParameter2 ); }
if (cchWritten == -1) { return(STATUS_BUFFER_OVERFLOW); } } else { return( STATUS_INVALID_PARAMETER ); }
if ((cchRemaining -= cchWritten) <= 0) { return STATUS_BUFFER_OVERFLOW; }
lpDst += cchWritten; } else if (*s == L'0') { break; } else if (!*s) { return( STATUS_INVALID_PARAMETER ); } else if (*s == L'r') { if ((cchRemaining -= 1) <= 0) { return STATUS_BUFFER_OVERFLOW; }
*lpDst++ = L'\r'; s++; lpDstBeg = NULL; } else if (*s == L'n') { if ((cchRemaining -= 2) <= 0) { return STATUS_BUFFER_OVERFLOW; }
*lpDst++ = L'\r'; *lpDst++ = L'\n'; s++; lpDstBeg = NULL; } else if (*s == L't') { if ((cchRemaining -= 1) <= 0) { return STATUS_BUFFER_OVERFLOW; }
if (Column % 8) { Column = (Column + 7) & ~7; } else { Column += 8; }
lpDstLastSpace = lpDst; *lpDst++ = L'\t'; s++; } else if (*s == L'b') { if ((cchRemaining -= 1) <= 0) { return STATUS_BUFFER_OVERFLOW; }
lpDstLastSpace = lpDst; *lpDst++ = L' '; s++; } else if (IgnoreInserts) { if ((cchRemaining -= 2) <= 0) { return STATUS_BUFFER_OVERFLOW; }
*lpDst++ = L'%'; *lpDst++ = *s++; } else { if ((cchRemaining -= 1) <= 0) { return STATUS_BUFFER_OVERFLOW; }
*lpDst++ = *s++; }
if (lpDstBeg == NULL) { lpDstLastSpace = NULL; Column = 0; } else { Column += (ULONG)(lpDst - lpDstBeg); } } else { c = *s++; if (c == L'\r' || c == L'\n') { if ((c == L'\n' && *s == L'\r') || (c == L'\r' && *s == L'\n') ) { s++; }
if (MaximumWidth != 0) { lpDstLastSpace = lpDst; c = L' '; } else { c = L'\n'; } }
if (c == L'\n') { if ((cchRemaining -= 2) <= 0) { return STATUS_BUFFER_OVERFLOW; }
*lpDst++ = L'\r'; *lpDst++ = L'\n'; lpDstLastSpace = NULL; Column = 0; } else { if ((cchRemaining -= 1) <= 0) { return STATUS_BUFFER_OVERFLOW; }
if (c == L' ') { lpDstLastSpace = lpDst; }
*lpDst++ = c; Column += 1; } }
if (MaximumWidth != 0 && MaximumWidth != 0xFFFFFFFF && Column >= MaximumWidth ) { if (lpDstLastSpace != NULL) { lpDstBeg = lpDstLastSpace; while (*lpDstBeg == L' ' || *lpDstBeg == L'\t') { lpDstBeg += 1; if (lpDstBeg == lpDst) { break; } } while (lpDstLastSpace > Buffer) { if (lpDstLastSpace[ -1 ] == L' ' || lpDstLastSpace[ -1 ] == L'\t') { lpDstLastSpace -= 1; } else { break; } }
cSpaces = (ULONG)(lpDstBeg - lpDstLastSpace); if (cSpaces == 1) { if ((cchRemaining -= 1) <= 0) { return STATUS_BUFFER_OVERFLOW; } } else if (cSpaces > 2) { cchRemaining += (cSpaces - 2); }
memmove( lpDstLastSpace + 2, lpDstBeg, (ULONG) ((lpDst - lpDstBeg) * sizeof( WCHAR )) ); *lpDstLastSpace++ = L'\r'; *lpDstLastSpace++ = L'\n'; Column = (ULONG)(lpDst - lpDstBeg); lpDst = lpDstLastSpace + Column; lpDstLastSpace = NULL; } else { if ((cchRemaining -= 2) <= 0) { return STATUS_BUFFER_OVERFLOW; }
*lpDst++ = L'\r'; *lpDst++ = L'\n'; lpDstLastSpace = NULL; Column = 0; } } }
if ((cchRemaining -= 1) <= 0) { return STATUS_BUFFER_OVERFLOW; }
*lpDst++ = '\0'; if ( ARGUMENT_PRESENT(ReturnLength) ) { *ReturnLength = (ULONG)(lpDst - Buffer) * sizeof( WCHAR ); } return( STATUS_SUCCESS ); } #endif
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