Leaked source code of windows server 2003
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/*++
Copyright (c) 1996 Microsoft Corporation
Module Name:
log.c
Abstract:
Tools for logging problems for the user.
Author:
Jim Schmidt (jimschm) 23-Jan-1997
Revisions:
ovidiut 08-Oct-1999 Updated for new coding conventions and Win64 compliance
ovidiut 23-Oct-1998 Implemented a new log mechanism and added new logging capabilities
marcw 2-Sep-1999 Moved over from Win9xUpg project.
ovidiut 15-Mar-2000 Eliminate dependencies on HashTable/PoolMemory
--*/
#include "pch.h"
#include "commonp.h"
//
// Includes
//
// None
//
// Strings
//
#define S_COLUMNDOUBLELINEA ":\r\n\r\n"
#define S_COLUMNDOUBLELINEW L":\r\n\r\n"
#define S_NEWLINEA "\r\n"
#define S_NEWLINEW L"\r\n"
#define DEBUG_SECTION "Debug"
#define ENTRY_ALL "All"
#define ENTRY_DEFAULTOVERRIDE "DefaultOverride"
//
// Constants
//
#define OUTPUT_BUFSIZE_LARGE 8192
#define OUTPUT_BUFSIZE_SMALL 1024
#define MAX_MSGTITLE_LEN 13
#define MSGBODY_INDENT 14
#define SCREEN_WIDTH 80
#define MAX_TYPE 32
#define TYPE_ARRAY_SIZE 10
//
// Macros
//
#define OUT_UNDEFINED(OutDest) (OutDest == OD_UNDEFINED)
#define OUT_DEBUGLOG(OutDest) ((OutDest & OD_DEBUGLOG) != 0)
#define OUT_SUPPRESSED(OutDest) ((OutDest & OD_SUPPRESS) != 0)
#define OUT_NO_OUTPUT(OutDest) (OUT_UNDEFINED(OutDest) || OUT_SUPPRESSED(OutDest))
#define OUT_ERROR(OutDest) ((OutDest & OD_ERROR) != 0)
#define OUT_LOGFILE(OutDest) ((OutDest & OD_LOGFILE) != 0)
#define OUT_DEBUGGER(OutDest) ((OutDest & OD_DEBUGGER) != 0)
#define OUT_CONSOLE(OutDest) ((OutDest & OD_CONSOLE) != 0)
#define OUT_POPUP(OutDest) ((OutDest & (OD_POPUP|OD_FORCE_POPUP|OD_UNATTEND_POPUP)) != 0)
#define OUT_POPUP_CANCEL(OutDest) ((OutDest & (OD_POPUP_CANCEL|OD_FORCE_POPUP)) == OD_POPUP_CANCEL)
#define OUT_FORCED_POPUP(OutDest) ((OutDest & (OD_FORCE_POPUP|OD_UNATTEND_POPUP)) != 0)
#define MUST_BE_LOCALIZED(OutDest) ((OutDest & OD_MUST_BE_LOCALIZED) == OD_MUST_BE_LOCALIZED)
#define OUT_ASSERT(OutDest) ((OutDest & OD_ASSERT) != 0)
#ifdef DEBUG
#define DEFAULT_ERROR_FLAGS (OD_DEBUGLOG | OD_LOGFILE | OD_POPUP | OD_ERROR | OD_UNATTEND_POPUP | OD_ASSERT)
#define USER_POPUP_FLAGS (OD_FORCE_POPUP)
#else
#define DEFAULT_ERROR_FLAGS (OD_LOGFILE | OD_POPUP | OD_ERROR | OD_MUST_BE_LOCALIZED)
#define USER_POPUP_FLAGS (OD_FORCE_POPUP | OD_MUST_BE_LOCALIZED)
#endif
#define END_OF_BUFFER(buf) ((buf) + (sizeof(buf) / sizeof(buf[0])) - 1)
// This constant sets the default output
#ifndef DEBUG
#define NORMAL_DEFAULT OD_LOGFILE
#else
#define NORMAL_DEFAULT OD_DEBUGLOG
#endif
#ifdef DEBUG
#define PRIVATE_ASSERT(expr) pPrivateAssert(expr,#expr,__LINE__);
#else
#define PRIVATE_ASSERT(expr)
#endif // DEBUG
#define NEWLINE_CHAR_COUNTA (sizeof (S_NEWLINEA) / sizeof (CHAR) - 1)
#define NEWLINE_CHAR_COUNTW (sizeof (S_NEWLINEW) / sizeof (WCHAR) - 1)
//
// Types
//
typedef DWORD OUTPUTDEST;
typedef struct {
PCSTR Value; // string value entered by the user (LOG,POPUP,SUPPRESS etc.)
OUTPUTDEST OutDest; // any combination of OutDest flags
} STRING2BINARY, *PSTRING2BINARY;
typedef struct {
PCSTR Type;
DWORD Flags;
} DEFAULT_DESTINATION, *PDEFAULT_DESTINATION;
typedef struct {
CHAR Type[MAX_TYPE];
DWORD OutputDest;
} MAPTYPE2OUTDEST, *PMAPTYPE2OUTDEST;
//
// Globals
//
const STRING2BINARY g_String2Binary[] = {
"SUPPRESS", OD_SUPPRESS,
"LOG", OD_LOGFILE,
"POPUP", OD_POPUP,
"DEBUGGER", OD_DEBUGGER,
"CONSOLE", OD_CONSOLE,
"ERROR", OD_ERROR,
"NOCANCEL", OD_FORCE_POPUP,
"ASSERT", OD_ASSERT
};
const PCSTR g_IgnoreKeys[] = {
"Debug",
"KeepTempFiles"
};
BOOL g_LogInit;
HMODULE g_LibHandle;
CHAR g_MainLogFile [MAX_PATH] = "";
HANDLE g_LogMutex;
INT g_LoggingNow;
// a window handle for popup parent
HWND g_LogPopupParentWnd = NULL;
// thread id that set this window handle
DWORD g_InitThreadId = 0;
DWORD g_LogError;
//
// type table elements
//
PMAPTYPE2OUTDEST g_FirstTypePtr = NULL;
DWORD g_TypeTableCount = 0;
DWORD g_TypeTableFreeCount = 0;
OUTPUTDEST g_OutDestAll = OD_UNDEFINED;
OUTPUTDEST g_OutDestDefault = NORMAL_DEFAULT;
BOOL g_HasTitle = FALSE;
CHAR g_LastType [MAX_TYPE];
BOOL g_SuppressAllPopups = FALSE;
BOOL g_ResetLog = FALSE;
PLOGCALLBACKA g_LogCallbackA;
PLOGCALLBACKW g_LogCallbackW;
#ifdef DEBUG
CHAR g_DebugInfPathBufA[] = "C:\\debug.inf";
CHAR g_DebugLogFile[MAX_PATH];
// If g_DoLog is TRUE, then, debug logging is enabled in the
// checked build even if there is no debug.inf.
BOOL g_DoLog = FALSE;
DWORD g_FirstTickCount = 0;
DWORD g_LastTickCount = 0;
#endif
//
// Macro expansion list
//
#ifndef DEBUG
#define TYPE_DEFAULTS \
DEFMAC(LOG_FATAL_ERROR, DEFAULT_ERROR_FLAGS|USER_POPUP_FLAGS) \
DEFMAC(LOG_MODULE_ERROR, DEFAULT_ERROR_FLAGS|USER_POPUP_FLAGS) \
DEFMAC(LOG_ERROR, DEFAULT_ERROR_FLAGS) \
DEFMAC(LOG_INFORMATION, OD_LOGFILE) \
DEFMAC(LOG_STATUS, OD_SUPPRESS) \
#else
#define TYPE_DEFAULTS \
DEFMAC(LOG_FATAL_ERROR, DEFAULT_ERROR_FLAGS|USER_POPUP_FLAGS) \
DEFMAC(LOG_MODULE_ERROR, DEFAULT_ERROR_FLAGS|USER_POPUP_FLAGS) \
DEFMAC(LOG_ERROR, DEFAULT_ERROR_FLAGS) \
DEFMAC(DBG_WHOOPS, DEFAULT_ERROR_FLAGS) \
DEFMAC(DBG_WARNING, OD_LOGFILE|OD_DEBUGGER) \
DEFMAC(DBG_ASSERT,DEFAULT_ERROR_FLAGS|OD_UNATTEND_POPUP) \
DEFMAC(LOG_INFORMATION, OD_LOGFILE) \
DEFMAC(LOG_STATUS, OD_SUPPRESS) \
#endif
//
// Private function prototypes
//
VOID
InitializeLog (
VOID
);
BOOL
pWriteFileStringA (
IN HANDLE File,
IN PCSTR String
)
/*++
Routine Description:
Writes a DBCS string to the specified file.
Arguments:
File - Specifies the file handle that was opened with write access.
String - Specifies the nul-terminated string to write to the file.
Return Value:
TRUE if successful, FALSE if an error occurred. Call GetLastError
for error condition.
--*/
{
DWORD DontCare;
return WriteFile (File, String, SzByteCountA (String), &DontCare, NULL);
}
BOOL
pWriteFileStringW (
IN HANDLE File,
IN PCWSTR String
)
/*++
Routine Description:
Converts a UNICODE string to DBCS, then Writes it to the specified file.
Arguments:
File - Specifies the file handle that was opened with write access.
String - Specifies the UNICODE nul-terminated string to convert and
write to the file.
Return Value:
TRUE if successful, FALSE if an error occurred. Call GetLastError for
error condition.
--*/
{
DWORD DontCare;
PCSTR AnsiVersion;
BOOL b;
AnsiVersion = SzConvertWToA (String);
if (!AnsiVersion) {
return FALSE;
}
b = WriteFile (File, AnsiVersion, SzByteCountA (AnsiVersion), &DontCare, NULL);
SzFreeA (AnsiVersion);
return b;
}
//
// Macro expansion definition
//
/*++
Macro Expansion List Description:
TYPE_DEFAULTS specify the default destination for the frequently used types,
such as LOG_ERROR, LOG_FATAL_ERROR, and so on.
Line Syntax:
DEFMAC(TypeString, Flags)
Arguments:
TypeString - Specifies the LOG_ constant as defined in log.h
Flags - One or more of:
DEFAULT_ERROR_FLAGS - Specifies debug log, setup log, debugger,
popup, and the value of GetLastError.
OD_DEBUGLOG - Specifies the debug log
OD_ERROR - Specifies type is an error (gets value of
GetLastError)
OD_SUPPRESS - Suppresses all output for the type
OD_LOGFILE - Specifies the setup log
OD_DEBUGGER - Specifies the debugger (i.e., VC or remote debugger)
OD_CONSOLE - Specifies the console (via printf)
OD_POPUP - Specifies a message box
OD_FORCE_POPUP - Specifies a message box, even if debug message
was turned off via a click on Cancel
OD_MUST_BE_LOCALIZED - Indicates the type must originate from a
localized message; used for LOG() calls that
generate popups. (So English messages
don't sneak into the project.)
OD_UNATTEND_POPUP - Causes popup even in unattend mode
OD_ASSERT - Give DebugBreak option in popup
Variables Generated From List:
g_DefaultDest
--*/
#define DEFMAC(typestr, flags) {typestr, (flags)},
DEFAULT_DESTINATION g_DefaultDest[] = {
TYPE_DEFAULTS /* , */
{NULL, 0}
};
#undef DEFMAC
//
// Code
//
#ifdef DEBUG
VOID
pPrivateAssert (
IN BOOL Expr,
IN PCSTR StringExpr,
IN UINT Line
)
{
CHAR buffer[256];
if (Expr) {
return;
}
wsprintfA (buffer, "LOG FAILURE: %s (log.c line %u)", StringExpr, Line);
MessageBoxA (NULL, buffer, NULL, MB_OK);
}
#endif
BOOL
pIgnoreKey (
IN PCSTR Key
)
/*++
Routine Description:
pIgnoreKey decides if a key from [debug] section of DEBUG.INF
should be ignored for our purposes (we are only looking for
<All>, <DefaultOverride> and log/debug types).
Specifically, we ignore all keywords in <g_IgnoreKeys> table.
Arguments:
Key - Specifies the key from [debug] section of DEBUG.INF
Return Value:
TRUE if the key should be ignored, or FALSE if it will be taken into consideration.
--*/
{
UINT i;
for (i = 0; i < sizeof (g_IgnoreKeys) / sizeof (PCSTR); i++) {
if (SzIMatchA (Key, g_IgnoreKeys[i])) {
return TRUE;
}
}
return FALSE;
}
OUTPUTDEST
pConvertToOutputType (
IN PCSTR Value
)
/*++
Routine Description:
pConvertToOutputType converts a text value entered by the user in
DEBUG.INF file, associated with a type (e.g. "LOG", "POPUP" etc.).
Arguments:
Value - Specifies the text value
Return Value:
The OUTPUT_DESTINATION value associated with the given value or
OD_UNDEFINED if the value is not valid.
--*/
{
UINT i;
for (i = 0; i < sizeof (g_String2Binary) / sizeof (STRING2BINARY); i++) {
if (SzIMatchA (Value, g_String2Binary[i].Value)) {
return g_String2Binary[i].OutDest;
}
}
return OD_UNDEFINED;
}
OUTPUTDEST
pGetTypeOutputDestFromTable (
IN PCSTR Type
)
/*++
Routine Description:
pGetTypeOutputDestFromTable returns the output destination associated
with the specified type in the global table
Arguments:
Type - Specifies the type
Return Value:
Any combination of enum OUTPUT_DESTINATION values associated with
the given type.
--*/
{
PMAPTYPE2OUTDEST typePtr;
PMAPTYPE2OUTDEST last;
OUTPUTDEST outDest = OD_UNDEFINED;
if (g_FirstTypePtr) {
typePtr = g_FirstTypePtr;
last = g_FirstTypePtr + g_TypeTableCount;
while (typePtr < last) {
if (SzIMatchA (typePtr->Type, Type)) {
outDest = typePtr->OutputDest;
#ifdef DEBUG
if (g_DoLog) {
outDest |= OD_DEBUGLOG;
}
#endif
break;
}
typePtr++;
}
}
return outDest;
}
OUTPUTDEST
pGetTypeOutputDest (
IN PCSTR Type
)
/*++
Routine Description:
pGetTypeOutputDest returns the default output
destination for the specified type.
Arguments:
Type - Specifies the type
Return Value:
Any combination of enum OUTPUT_DESTINATION values associated with
the given type.
--*/
{
OUTPUTDEST outDest;
//
// first check for ALL
//
if (!OUT_UNDEFINED (g_OutDestAll)) {
outDest = g_OutDestAll;
} else {
//
// otherwise try to get it from the table
//
outDest = pGetTypeOutputDestFromTable (Type);
if (OUT_UNDEFINED (outDest)) {
//
// just return the default
//
outDest = g_OutDestDefault;
}
}
#ifdef DEBUG
if (g_DoLog) {
outDest |= OD_DEBUGLOG;
}
#endif
return outDest;
}
BOOL
pIsPopupEnabled (
IN PCSTR Type
)
/*++
Routine Description:
pIsPopupEnabled decides if the type should produce a popup output. The user may
disable popup display for a type.
Arguments:
Type - Specifies the type
Return Value:
TRUE if the type should display a popup message.
--*/
{
OUTPUTDEST outDest;
//
// first check if any specific output is available for this type,
// and if so, check if the OUT_POPUP_CANCEL flag is not set
//
if (g_SuppressAllPopups) {
return FALSE;
}
outDest = pGetTypeOutputDestFromTable (Type);
if (OUT_POPUP_CANCEL (outDest)) {
return FALSE;
}
// just return the popup type of ALL of DefaultOverride
return OUT_POPUP (pGetTypeOutputDest (Type));
}
LOGSEVERITY
pGetSeverityFromType (
IN PCSTR Type
)
/*++
Routine Description:
pGetSeverityFromType converts a type to a default severity
that will be used by the debug log system.
Arguments:
Type - Specifies the type
Return Value:
The default log severity associated with the given type; if the specified
type is not found, it returns LOGSEV_INFORMATION.
--*/
{
if (OUT_ERROR (pGetTypeOutputDest (Type))) {
return LOGSEV_ERROR;
}
return LOGSEV_INFORMATION;
}
BOOL
LogSetErrorDest (
IN PCSTR Type,
IN OUTPUT_DESTINATION OutDest
)
/*++
Routine Description:
LogSetErrorDest adds a <Type, OutDest> association
to the table g_FirstTypePtr. If an association of Type already exists,
it is modified to reflect the new association.
Arguments:
Type - Specifies the log/debug type string
OutDest - Specifies what new destination(s) are associated with the type
Return Value:
TRUE if the association was successful and the Type is now in the table
--*/
{
PMAPTYPE2OUTDEST typePtr;
UINT u;
//
// Try to locate the existing type
//
for (u = 0 ; u < g_TypeTableCount ; u++) {
typePtr = g_FirstTypePtr + u;
if (SzIMatchA (typePtr->Type, Type)) {
typePtr->OutputDest = OutDest;
return TRUE;
}
}
//
// look if any free slots are available first
//
if (!g_TypeTableFreeCount) {
PRIVATE_ASSERT (g_hHeap != NULL);
if (!g_FirstTypePtr) {
typePtr = HeapAlloc (
g_hHeap,
0,
sizeof (MAPTYPE2OUTDEST) * TYPE_ARRAY_SIZE
);
} else {
typePtr = HeapReAlloc (
g_hHeap,
0,
g_FirstTypePtr,
sizeof (MAPTYPE2OUTDEST) * (TYPE_ARRAY_SIZE + g_TypeTableCount)
);
}
if (!typePtr) {
return FALSE;
}
g_FirstTypePtr = typePtr;
g_TypeTableFreeCount = TYPE_ARRAY_SIZE;
}
typePtr = g_FirstTypePtr + g_TypeTableCount;
SzCopyBytesA (typePtr->Type, Type, sizeof (typePtr->Type));
typePtr->OutputDest = OutDest;
g_TypeTableCount++;
g_TypeTableFreeCount--;
return TRUE;
}
OUTPUTDEST
pGetAttributes (
IN OUT PINFCONTEXT InfContext
)
/*++
Routine Description:
pGetAttributes converts the text values associated with the key on
the line specified by the given context. If multiple values are
specified, the corresponding OUTPUT_DESTINATION values are ORed together
in the return value.
Arguments:
InfContext - Specifies the DEBUG.INF context of the key whose values
are being converted and receives the updated context
after this processing is done
Return Value:
Any combination of enum OUTPUT_DESTINATION values associated with
the given key.
--*/
{
OUTPUTDEST outDest = OD_UNDEFINED;
CHAR value[OUTPUT_BUFSIZE_SMALL];
UINT field;
/* BUGBUG - eliminate setupapi
for (field = SetupGetFieldCount (InfContext); field > 0; field--) {
if (SetupGetStringFieldA (
InfContext,
field,
value,
OUTPUT_BUFSIZE_SMALL,
NULL
)) {
outDest |= pConvertToOutputType(value);
}
}
*/
return outDest;
}
BOOL
pGetUserPreferences (
IN HINF Inf
)
/*++
Routine Description:
pGetUserPreferences converts user's options specified in the given Inf file
(usually DEBUG.INF) and stores them in g_FirstTypePtr table. If <All> and
<DefaultOverride> entries are found, their values are stored in OutputTypeAll
and OutputTypeDefault, respectivelly, if not NULL.
Arguments:
Inf - Specifies the open inf file hanlde to process
OutputTypeAll - Receives the Output Dest for the special <All> entry
OutputTypeDefault - Receives the Output Dest for the special <DefaultOverride> entry
Return Value:
TRUE if the processing of the INF file was OK.
--*/
{
INFCONTEXT infContext;
OUTPUTDEST outDest;
CHAR key[OUTPUT_BUFSIZE_SMALL];
/* BUGBUG - eliminate setupapi
if (SetupFindFirstLineA (Inf, DEBUG_SECTION, NULL, &infContext)) {
do {
// check to see if this key is not interesting
if (!SetupGetStringFieldA (
&infContext,
0,
key,
OUTPUT_BUFSIZE_SMALL,
NULL
)) {
continue;
}
if (pIgnoreKey (key)) {
continue;
}
// check for special cases
if (SzIMatchA (key, ENTRY_ALL)) {
g_OutDestAll = pGetAttributes (&infContext);
// no reason to continue since ALL types will take this setting...
break;
} else {
if (SzIMatchA (key, ENTRY_DEFAULTOVERRIDE)) {
g_OutDestDefault = pGetAttributes(&infContext);
} else {
outDest = pGetAttributes(&infContext);
// lines like <Type>= or like <Type>=<not a keyword(s)> are ignored
if (!OUT_UNDEFINED (outDest)) {
if (!LogSetErrorDest (key, outDest)) {
return FALSE;
}
}
}
}
} while (SetupFindNextLine (&infContext, &infContext));
}
*/
return TRUE;
}
/*++
Routine Description:
pPadTitleA and pPadTitleW append to Title a specified number of spaces.
Arguments:
Title - Specifies the title (it will appear on the left column).
The buffer must be large enough to hold the additional spaces
Indent - Specifies the indent of the message body. If necessary,
spaces will be appended to the Title to get to Indent column.
Return Value:
none
--*/
VOID
pPadTitleA (
IN OUT PSTR Title,
IN UINT Indent
)
{
UINT i;
PSTR p;
if (Title == NULL) {
return;
}
for (i = SzByteCountA (Title), p = SzGetEndA (Title); i < Indent; i++) {
*p++ = ' '; //lint !e613 !e794
}
*p = 0; //lint !e613 !e794
}
VOID
pPadTitleW (
IN OUT PWSTR Title,
IN UINT Indent
)
{
UINT i;
PWSTR p;
if (Title == NULL) {
return;
}
for (i = SzTcharCountW (Title), p = SzGetEndW (Title); i < Indent; i++) {
*p++ = L' '; //lint !e613
}
*p = 0; //lint !e613
}
/*++
Routine Description:
pFindNextLineA and pFindNextLineW return the position where
the next line begins
Arguments:
Line - Specifies the current line
Indent - Specifies the indent of the message body. The next line
will start preferably after a newline or a white space,
but no further than the last column, which is
SCREEN_WIDTH - Indent.
Return Value:
The position of the first character on the next line.
--*/
PCSTR
pFindNextLineA (
IN PCSTR Line,
IN UINT Indent,
OUT PBOOL TrimLeadingSpace
)
{
UINT column = 0;
UINT columnMax = SCREEN_WIDTH - 1 - Indent;
PCSTR lastSpace = NULL;
PCSTR prevLine = Line;
UINT ch;
*TrimLeadingSpace = FALSE;
while ( (ch = _mbsnextc (Line)) != 0 && column < columnMax) {
if (ch == '\n') {
lastSpace = Line;
break;
}
if (ch > 255) {
lastSpace = Line;
column++;
} else {
if (_ismbcspace (ch)) {
lastSpace = Line;
}
}
column++;
prevLine = Line;
Line = _mbsinc (Line);
}
if (ch == 0) {
return Line;
}
if (lastSpace == NULL) {
// we must cut this even if no white space or 2-byte char was found
lastSpace = prevLine;
}
if (ch != '\n') {
*TrimLeadingSpace = TRUE;
}
return _mbsinc (lastSpace);
}
PCWSTR
pFindNextLineW (
IN PCWSTR Line,
IN UINT Indent,
OUT PBOOL TrimLeadingSpace
)
{
UINT column = 0;
UINT columnMax = SCREEN_WIDTH - 1 - Indent;
PCWSTR lastSpace = NULL;
PCWSTR prevLine = Line;
WCHAR ch;
*TrimLeadingSpace = FALSE;
while ( (ch = *Line) != 0 && column < columnMax) {
if (ch == L'\n') {
lastSpace = Line;
break;
}
if (ch > 255) {
lastSpace = Line;
} else {
if (iswspace (ch)) {
lastSpace = Line;
}
}
column++;
prevLine = Line;
Line++;
}
if (ch == 0) {
return Line;
}
if (lastSpace == NULL) {
// we must cut this even if no white space was found
lastSpace = prevLine;
}
if (ch != L'\n') {
*TrimLeadingSpace = TRUE;
}
return lastSpace + 1;
}
/*++
Routine Description:
pHangingIndentA and pHangingIndentW break in lines and indent
the text in buffer, which is no larger than Size.
Arguments:
buffer - Specifies the buffer containing text to format. The resulting
text will be put in the same buffer
Size - Specifies the size of this buffer, in bytes
Indent - Specifies the indent to be used by all new generated lines.
Return Value:
none
--*/
VOID
pHangingIndentA (
IN OUT PSTR buffer,
IN DWORD Size,
IN UINT Indent
)
{
CHAR indentBuffer[OUTPUT_BUFSIZE_LARGE];
PCSTR nextLine;
PCSTR s;
PSTR d;
UINT i;
BOOL trimLeadingSpace;
PCSTR endOfBuf;
BOOL appendNewLine = FALSE;
nextLine = buffer;
s = buffer;
d = indentBuffer;
endOfBuf = END_OF_BUFFER(indentBuffer) - 3;
while (*s && d < endOfBuf) {
//
// Find end of next line
//
nextLine = (PSTR)pFindNextLineA (s, Indent, &trimLeadingSpace);
//
// Copy one line from source to dest
//
while (s < nextLine && d < endOfBuf) {
switch (*s) {
case '\r':
s++;
if (*s == '\r') {
continue;
} else if (*s != '\n') {
s--;
}
// fall through
case '\n':
*d++ = '\r';
*d++ = '\n';
s++;
break;
default:
if (isleadbyte (*s)) {
*d++ = *s++;
}
*d++ = *s++;
break;
}
}
//
// Trim leading space if necessary
//
if (trimLeadingSpace) {
while (*s == ' ') {
s++;
}
}
if (*s) {
//
// If another line, prepare an indent and insert a new line
// after this multiline message
//
appendNewLine = TRUE;
if (d < endOfBuf && trimLeadingSpace) {
*d++ = L'\r';
*d++ = L'\n';
}
for (i = 0 ; i < Indent && d < endOfBuf ; i++) {
*d++ = ' ';
}
}
}
if (appendNewLine && d < endOfBuf) {
*d++ = L'\r';
*d++ = L'\n';
}
// make sure the string is zero-terminated
PRIVATE_ASSERT (d <= END_OF_BUFFER(indentBuffer));
*d = 0;
// copy the result to output buffer
SzCopyBytesA (buffer, indentBuffer, Size);
}
VOID
pHangingIndentW (
IN OUT PWSTR buffer,
IN DWORD Size,
IN UINT Indent
)
{
WCHAR indentBuffer[OUTPUT_BUFSIZE_LARGE];
PCWSTR nextLine;
PCWSTR s;
PWSTR d;
UINT i;
BOOL trimLeadingSpace;
PCWSTR endOfBuf;
BOOL appendNewLine = FALSE;
nextLine = buffer;
s = buffer;
d = indentBuffer;
endOfBuf = END_OF_BUFFER(indentBuffer) - 1;
while (*s && d < endOfBuf) {
//
// Find end of next line
//
nextLine = (PWSTR)pFindNextLineW (s, Indent, &trimLeadingSpace);
//
// Copy one line from source to dest
//
while (s < nextLine && d < endOfBuf) {
switch (*s) {
case L'\r':
s++;
if (*s == L'\r') {
continue;
} else if (*s != L'\n') {
s--;
}
// fall through
case L'\n':
*d++ = L'\r';
*d++ = L'\n';
s++;
break;
default:
*d++ = *s++;
break;
}
}
//
// Trim leading space if necessary
//
if (trimLeadingSpace) {
while (*s == L' ') {
s++;
}
}
if (*s) {
//
// If another line, prepare an indent and insert a new line
// after this multiline message
//
appendNewLine = TRUE;
if (d < endOfBuf && trimLeadingSpace) {
*d++ = L'\r';
*d++ = L'\n';
}
for (i = 0 ; i < Indent && d < endOfBuf ; i++) {
*d++ = L' ';
}
}
}
if (appendNewLine && d < endOfBuf) {
*d++ = L'\r';
*d++ = L'\n';
}
// make sure the string is zero-terminated
PRIVATE_ASSERT (d <= END_OF_BUFFER(indentBuffer));
*d = 0;
// copy the result to output buffer
SzCopyTcharsW (buffer, indentBuffer, Size);
}
/*++
Routine Description:
pAppendLastErrorA and pAppendLastErrorW append the specified error code
to the Message and writes the output to the MsgWithErr buffer.
Arguments:
MsgWithErr - Receives the formatted message. This buffer
is supplied by caller
BufferSize - Specifies the size of the buffer, in bytes
Message - Specifies the body of the message
LastError - Specifies the error code that will be appended
Return Value:
none
--*/
VOID
pAppendLastErrorA (
OUT PSTR MsgWithErr,
IN DWORD BufferSize,
IN PCSTR Message,
IN DWORD LastError
)
{
PSTR append;
DWORD errMsgLen;
SzCopyBytesA (MsgWithErr, Message, BufferSize);
append = SzGetEndA (MsgWithErr);
errMsgLen = (DWORD)(MsgWithErr + BufferSize - append); //lint !e613
if (errMsgLen > 0) {
if (LastError < 10) {
_snprintf (append, errMsgLen, " [ERROR=%lu]", LastError);
} else {
_snprintf (append, errMsgLen, " [ERROR=%lu (%lXh)]", LastError, LastError);
}
}
}
VOID
pAppendLastErrorW (
OUT PWSTR MsgWithErr,
IN DWORD BufferSize,
IN PCWSTR Message,
IN DWORD LastError
)
{
PWSTR append;
DWORD errMsgLen;
SzCopyTcharsW (MsgWithErr, Message, BufferSize / sizeof(WCHAR));
append = SzGetEndW (MsgWithErr);
errMsgLen = (DWORD)(MsgWithErr + (BufferSize / sizeof(WCHAR)) - append);
if (errMsgLen > 0) {
if (LastError < 10) {
_snwprintf (append, errMsgLen, L" [ERROR=%lu]", LastError);
} else {
_snwprintf (append, errMsgLen, L" [ERROR=%lu (%lXh)]", LastError, LastError);
}
}
}
/*++
Routine Description:
pIndentMessageA and pIndentMessageW format the specified message
with the type in the left column and body of the message in the right.
Arguments:
formattedMsg - Receives the formatted message. This buffer
is supplied by caller
BufferSize - Specifies the size of the buffer
Type - Specifies the type of the message
Body - Specifies the body of the message
Indent - Specifies the column to indent to
LastError - Specifies the last error code if different than ERROR_SUCCESS;
in this case it will be appended to the message
Return Value:
none
--*/
VOID
pIndentMessageA (
OUT PSTR formattedMsg,
IN DWORD BufferSize,
IN PCSTR Type,
IN PCSTR Body,
IN UINT Indent,
IN DWORD LastError
)
{
CHAR bodyWithErr[OUTPUT_BUFSIZE_LARGE];
PCSTR myMsgBody;
PSTR currentPos;
DWORD remaining;
myMsgBody = Body;
remaining = BufferSize - Indent;
if (LastError != ERROR_SUCCESS) {
myMsgBody = bodyWithErr;
pAppendLastErrorA (bodyWithErr, sizeof (bodyWithErr), Body, LastError);
}
SzCopyBytesA (formattedMsg, Type, MAX_MSGTITLE_LEN);
pPadTitleA (formattedMsg, Indent);
currentPos = formattedMsg + Indent;
SzCopyBytesA (currentPos, myMsgBody, remaining);
pHangingIndentA (currentPos, remaining, Indent);
// append a new line if space left
currentPos = SzGetEndA (currentPos);
if (currentPos + NEWLINE_CHAR_COUNTA + 1 < formattedMsg + BufferSize) { //lint !e613
*currentPos++ = '\r'; //lint !e613
*currentPos++ = '\n'; //lint !e613
*currentPos = 0; //lint !e613
}
}
VOID
pIndentMessageW (
OUT PWSTR formattedMsg,
IN DWORD BufferSize,
IN PCSTR Type,
IN PCWSTR Body,
IN UINT Indent,
IN DWORD LastError
)
{
WCHAR typeW[OUTPUT_BUFSIZE_SMALL];
WCHAR bodyWithErr[OUTPUT_BUFSIZE_LARGE];
PCWSTR myMsgBody;
PWSTR currentPos;
DWORD remaining;
myMsgBody = Body;
remaining = BufferSize - Indent;
if (LastError != ERROR_SUCCESS) {
myMsgBody = bodyWithErr;
pAppendLastErrorW (bodyWithErr, sizeof (bodyWithErr), Body, LastError);
}
SzConvertBufferAToW (typeW, Type);
SzCopyTcharsW (formattedMsg, typeW, MAX_MSGTITLE_LEN);
pPadTitleW (formattedMsg, Indent);
currentPos = formattedMsg + Indent;
SzCopyTcharsW (currentPos, myMsgBody, remaining);
pHangingIndentW (currentPos, remaining, Indent);
// append a new line if space left
currentPos = SzGetEndW (currentPos);
if (currentPos + NEWLINE_CHAR_COUNTW + 1 < formattedMsg + BufferSize) {
*currentPos++ = L'\r';
*currentPos++ = L'\n';
*currentPos = 0;
}
}
PCSTR
pGetSeverityStr (
IN LOGSEVERITY Severity,
IN BOOL Begin
)
{
switch (Severity) {
case LogSevFatalError:
return Begin?"":"\r\n***";
case LogSevError:
return Begin?"":"\r\n***";
case LogSevWarning:
return "";
}
return "";
}
/*++
Routine Description:
pWriteToMainLogA and pWriteToMainLogW log the specified message to the main
end-user log.
Arguments:
Severity - Specifies the severity of the message, as defined by the Setup API
formattedMsg - Specifies the message
Return Value:
none
--*/
VOID
pWriteToMainLogA (
IN PCSTR Type,
IN LOGSEVERITY Severity,
IN PCSTR FormattedMsg
)
{
HANDLE logHandle = NULL;
logHandle = CreateFileA (
g_MainLogFile,
GENERIC_WRITE,
FILE_SHARE_READ,
NULL,
OPEN_ALWAYS,
FILE_ATTRIBUTE_NORMAL,
NULL
);
if (logHandle != INVALID_HANDLE_VALUE) {
SetFilePointer (logHandle, 0, NULL, FILE_END);
pWriteFileStringA (logHandle, pGetSeverityStr (Severity, TRUE));
pWriteFileStringA (logHandle, FormattedMsg);
pWriteFileStringA (logHandle, pGetSeverityStr (Severity, FALSE));
CloseHandle (logHandle);
}
}
VOID
pWriteToMainLogW (
IN PCSTR Type,
IN LOGSEVERITY Severity,
IN PCWSTR FormattedMsg
)
{
HANDLE logHandle = NULL;
logHandle = CreateFileA (
g_MainLogFile,
GENERIC_WRITE,
FILE_SHARE_READ,
NULL,
OPEN_ALWAYS,
FILE_ATTRIBUTE_NORMAL,
NULL
);
if (logHandle != INVALID_HANDLE_VALUE) {
SetFilePointer (logHandle, 0, NULL, FILE_END);
pWriteFileStringA (logHandle, pGetSeverityStr (Severity, TRUE));
pWriteFileStringW (logHandle, FormattedMsg);
pWriteFileStringA (logHandle, pGetSeverityStr (Severity, FALSE));
CloseHandle (logHandle);
}
}
/*++
Routine Description:
pDisplayPopupA and pDisplayPopupW displays the specified message to
a popup window, if <g_LogPopupParentWnd> is not NULL (attended mode).
Arguments:
Type - Specifies the type of the message, displayed as the popup's title
Msg - Specifies the message
LastError - Specifies the last error; it will be printed if != ERROR_SUCCESS
Forced - Specifies TRUE to force the popup, even in unattended mode
Return Value:
none
--*/
VOID
pDisplayPopupA (
IN PCSTR Type,
IN PCSTR Msg,
IN DWORD LastError,
IN BOOL Forced
)
{
#ifdef DEBUG
CHAR formattedMsg[OUTPUT_BUFSIZE_LARGE];
CHAR buffer[OUTPUT_BUFSIZE_SMALL];
PSTR currentPos = buffer;
#endif
UINT mbStyle;
LONG rc;
OUTPUTDEST outDest;
HWND parentWnd;
PCSTR displayMessage = Msg;
LOGSEVERITY severity = pGetSeverityFromType (Type);
outDest = pGetTypeOutputDest (Type);
if (g_LogPopupParentWnd || Forced) {
#ifdef DEBUG
if (LastError != ERROR_SUCCESS) {
if (LastError < 10) {
currentPos += wsprintfA (buffer, " [ERROR=%u]", LastError);
} else {
currentPos += wsprintfA (buffer, " [ERROR=%u (%Xh)]", LastError, LastError);
}
}
if (OUT_ASSERT (outDest)) {
currentPos += wsprintfA (
currentPos,
"\n\nBreak now? (Hit Yes to break, No to continue, or Cancel to disable '%s' message boxes)",
Type
);
} else {
currentPos += wsprintfA (
currentPos,
"\n\n(Hit Cancel to disable '%s' message boxes)",
Type
);
}
if (currentPos > buffer) {
//
// the displayed message should be modified to include additional info
//
displayMessage = formattedMsg;
SzCopyBytesA (
formattedMsg,
Msg,
ARRAYSIZE(formattedMsg) - (HALF_PTR) (currentPos - buffer)
);
SzCatA (formattedMsg, buffer);
}
#endif
switch (severity) {
case LOGSEV_FATAL_ERROR:
mbStyle = MB_ICONSTOP;
break;
case LOGSEV_ERROR:
mbStyle = MB_ICONERROR;
break;
case LOGSEV_WARNING:
mbStyle = MB_ICONEXCLAMATION;
break;
default:
mbStyle = MB_ICONINFORMATION;
}
mbStyle |= MB_SETFOREGROUND;
#ifdef DEBUG
if (OUT_ASSERT (outDest)) {
mbStyle |= MB_YESNOCANCEL|MB_DEFBUTTON2;
} else {
mbStyle |= MB_OKCANCEL;
}
#else
mbStyle |= MB_OK;
#endif
//
// check current thread id; if different than thread that initialized
// parent window handle, set parent to NULL
//
if (GetCurrentThreadId () == g_InitThreadId) {
parentWnd = g_LogPopupParentWnd;
} else {
parentWnd = NULL;
}
rc = MessageBoxA (parentWnd, displayMessage, Type, mbStyle);
#ifdef DEBUG
if (rc == IDCANCEL) {
//
// cancel this type of messages
//
LogSetErrorDest (Type, outDest | OD_POPUP_CANCEL);
} else if (rc == IDYES) {
//
// If Yes was clicked, call DebugBreak to get assert behavoir
//
DebugBreak();
}
#endif
}
}
VOID
pDisplayPopupW (
IN PCSTR Type,
IN PWSTR Msg,
IN DWORD LastError,
IN BOOL Forced
)
{
PCSTR msgA;
//
// call the ANSI version because wsprintfW is not properly implemented on Win9x
//
msgA = SzConvertWToA (Msg);
pDisplayPopupA (Type, msgA, LastError, Forced);
SzFreeA (msgA);
}
/*++
Routine Description:
pRawWriteLogOutputA and pRawWriteLogOutputW output specified message
to all character devices implied by the type. The message is not
formatted in any way
Arguments:
Type - Specifies the type of the message, displayed as the popup's title
Msg - Specifies the message
Return Value:
none
--*/
VOID
pRawWriteLogOutputA (
IN PCSTR Type,
IN PCSTR Message,
IN PCSTR formattedMsg,
IN BOOL NoMainLog
)
{
OUTPUTDEST outDest;
LOGARGA callbackArgA;
LOGARGW callbackArgW;
static BOOL inCallback = FALSE;
#ifdef DEBUG
HANDLE handle;
#endif
outDest = pGetTypeOutputDest (Type);
if (OUT_NO_OUTPUT (outDest)) {
return;
}
if (!inCallback && (g_LogCallbackA || g_LogCallbackW)) {
inCallback = TRUE;
if (g_LogCallbackA) {
ZeroMemory (&callbackArgA, sizeof (callbackArgA));
callbackArgA.Type = Type;
callbackArgA.ModuleInstance = g_LibHandle;
callbackArgA.Message = Message;
callbackArgA.FormattedMessage = formattedMsg;
callbackArgA.Debug = NoMainLog;
g_LogCallbackA (&callbackArgA);
} else {
ZeroMemory (&callbackArgW, sizeof (callbackArgW));
callbackArgW.Type = Type;
callbackArgW.ModuleInstance = g_LibHandle;
callbackArgW.Message = SzConvertAToW (Message);
callbackArgW.FormattedMessage = SzConvertAToW (formattedMsg);
callbackArgW.Debug = NoMainLog;
g_LogCallbackW (&callbackArgW);
if (callbackArgW.Message) {
SzFreeW (callbackArgW.Message);
}
if (callbackArgW.FormattedMessage) {
SzFreeW (callbackArgW.FormattedMessage);
}
}
inCallback = FALSE;
return;
}
if (!NoMainLog && OUT_LOGFILE (outDest)) {
pWriteToMainLogA (Type, LOGSEV_INFORMATION, formattedMsg);
}
//
// log to each specified device
//
if (OUT_DEBUGGER(outDest)) {
OutputDebugStringA (formattedMsg);
}
if (OUT_CONSOLE(outDest)) {
fprintf (stderr, "%s", formattedMsg);
}
#ifdef DEBUG
if (OUT_DEBUGLOG (outDest)) {
handle = CreateFileA (
g_DebugLogFile,
GENERIC_WRITE,
FILE_SHARE_READ,
NULL,
OPEN_ALWAYS,
FILE_ATTRIBUTE_NORMAL,
NULL
);
if (handle != INVALID_HANDLE_VALUE) {
SetFilePointer (handle, 0, NULL, FILE_END);
pWriteFileStringA (handle, formattedMsg);
CloseHandle (handle);
}
}
#endif
}
VOID
pRawWriteLogOutputW (
IN PCSTR Type,
IN PCWSTR Message,
IN PCWSTR formattedMsg,
IN BOOL NoMainLog
)
{
OUTPUTDEST outDest;
LOGARGA callbackArgA;
LOGARGW callbackArgW;
static BOOL inCallback = FALSE;
#ifdef DEBUG
HANDLE handle;
#endif
outDest = pGetTypeOutputDest (Type);
if (OUT_NO_OUTPUT (outDest)) {
return;
}
if (!inCallback && (g_LogCallbackA || g_LogCallbackW)) {
inCallback = TRUE;
if (g_LogCallbackW) {
ZeroMemory (&callbackArgW, sizeof (callbackArgW));
callbackArgW.Type = Type;
callbackArgW.ModuleInstance = g_LibHandle;
callbackArgW.Message = Message;
callbackArgW.FormattedMessage = formattedMsg;
callbackArgW.Debug = NoMainLog;
g_LogCallbackW (&callbackArgW);
} else {
ZeroMemory (&callbackArgA, sizeof (callbackArgA));
callbackArgA.Type = Type;
callbackArgA.ModuleInstance = g_LibHandle;
callbackArgA.Message = SzConvertWToA (Message);
callbackArgA.FormattedMessage = SzConvertWToA (formattedMsg);
callbackArgA.Debug = NoMainLog;
g_LogCallbackA (&callbackArgA);
if (callbackArgA.Message) {
SzFreeA (callbackArgA.Message);
}
if (callbackArgA.FormattedMessage) {
SzFreeA (callbackArgA.FormattedMessage);
}
}
inCallback = FALSE;
return;
}
if (!NoMainLog && OUT_LOGFILE (outDest)) {
pWriteToMainLogW (Type, LOGSEV_INFORMATION, formattedMsg);
}
//
// log to each specified device
//
if (OUT_DEBUGGER(outDest)) {
OutputDebugStringW (formattedMsg);
}
if (OUT_CONSOLE(outDest)) {
fwprintf (stderr, L"%s", formattedMsg);
}
#ifdef DEBUG
if (OUT_DEBUGLOG (outDest)) {
handle = CreateFileA (
g_DebugLogFile,
GENERIC_WRITE,
FILE_SHARE_READ,
NULL,
OPEN_ALWAYS,
FILE_ATTRIBUTE_NORMAL,
NULL
);
if (handle != INVALID_HANDLE_VALUE) {
SetFilePointer (handle, 0, NULL, FILE_END);
pWriteFileStringW (handle, formattedMsg);
CloseHandle (handle);
}
}
#endif
}
/*++
Routine Description:
pFormatAndWriteMsgA and pFormatAndWriteMsgW format the message
specified by the Format argument and outputs it to all destinations
specified in OutDest. If no destination for the message,
no action is performed.
Arguments:
Type - Specifies the type (category) of the message
Format - Specifies either the message in ASCII format or
a message ID (if SHIFTRIGHT16(Format) == 0). The message
will be formatted using args.
args - Specifies a list of arguments to be used when formatting
the message. If a message ID is used for Format, args
is supposed to be an array of pointers to strings
Return Value:
none
--*/
VOID
pFormatAndWriteMsgA (
IN BOOL NoMainLog,
IN PCSTR Type,
IN PCSTR Format,
IN va_list args
)
{
CHAR output[OUTPUT_BUFSIZE_LARGE];
CHAR formattedMsg[OUTPUT_BUFSIZE_LARGE];
OUTPUTDEST outDest;
DWORD lastError;
PRIVATE_ASSERT (g_LoggingNow > 0);
// clear LOGTITLE flag on each regular LOG
g_HasTitle = FALSE;
outDest = pGetTypeOutputDest (Type);
if (OUT_NO_OUTPUT(outDest)) {
return;
}
if (OUT_ERROR (outDest)) {
lastError = GetLastError();
} else {
lastError = ERROR_SUCCESS;
}
// format output string
if (SHIFTRIGHT16((ULONG_PTR)Format) == 0) {
//
// this is actually a Resource String ID
//
if (!FormatMessageA (
FORMAT_MESSAGE_FROM_HMODULE,
(LPVOID) g_LibHandle,
(DWORD)(ULONG_PTR) Format,
MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT),
(LPVOID) output,
OUTPUT_BUFSIZE_LARGE,
&args
)) {
// the string is missing from Resources
DEBUGMSG ((DBG_WHOOPS, "Log() called with invalid MsgID, Instance=0x%08X", g_LibHandle));
return;
}
} else {
//
// format given string using printf style
//
_vsnprintf(output, OUTPUT_BUFSIZE_LARGE, Format, args);
}
pIndentMessageA (
formattedMsg,
OUTPUT_BUFSIZE_LARGE,
Type,
output,
MSGBODY_INDENT,
lastError
);
pRawWriteLogOutputA (Type, output, formattedMsg, NoMainLog);
if (pIsPopupEnabled (Type)) {
#ifdef DEBUG
if (MUST_BE_LOCALIZED (outDest)) {
PRIVATE_ASSERT (
!MUST_BE_LOCALIZED (outDest) ||
(SHIFTRIGHT16((ULONG_PTR)Format) == 0)
);
}
pDisplayPopupA (Type, output, lastError, OUT_FORCED_POPUP(outDest));
#else
if (SHIFTRIGHT16 ((ULONG_PTR)Format) == 0) {
pDisplayPopupA (Type, output, lastError, OUT_FORCED_POPUP(outDest));
}
#endif
}
}
VOID
pFormatAndWriteMsgW (
IN BOOL NoMainLog,
IN PCSTR Type,
IN PCSTR Format,
IN va_list args
)
{
WCHAR formatW[OUTPUT_BUFSIZE_LARGE];
WCHAR output[OUTPUT_BUFSIZE_LARGE];
WCHAR formattedMsg[OUTPUT_BUFSIZE_LARGE];
OUTPUTDEST outDest;
DWORD lastError;
PRIVATE_ASSERT (g_LoggingNow > 0);
// clear LOGTITLE flag on each regular LOG
g_HasTitle = FALSE;
outDest = pGetTypeOutputDest (Type);
if (OUT_NO_OUTPUT(outDest)) {
return;
}
if (OUT_ERROR (outDest)) {
lastError = GetLastError();
} else {
lastError = ERROR_SUCCESS;
}
// format output string
if (SHIFTRIGHT16((ULONG_PTR)Format) == 0) {
//
// this is actually a Resource String ID
//
if (!FormatMessageW (
FORMAT_MESSAGE_FROM_HMODULE,
(LPVOID) g_LibHandle,
(DWORD)(ULONG_PTR) Format,
MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT),
(LPVOID) output,
OUTPUT_BUFSIZE_LARGE,
&args
)) {
// the string is missing from Resources
DEBUGMSG ((DBG_WHOOPS, "Log() called with invalid MsgID, Instance=0x%08X", g_LibHandle));
return;
}
} else {
SzConvertBufferAToW (formatW, Format);
//
// format given string using printf style
//
_vsnwprintf(output, OUTPUT_BUFSIZE_LARGE, formatW, args);
}
pIndentMessageW (
formattedMsg,
OUTPUT_BUFSIZE_LARGE,
Type,
output,
MSGBODY_INDENT,
lastError
);
pRawWriteLogOutputW (Type, output, formattedMsg, NoMainLog);
if (pIsPopupEnabled (Type)) {
#ifdef DEBUG
if (MUST_BE_LOCALIZED (outDest)) {
PRIVATE_ASSERT (SHIFTRIGHT16((ULONG_PTR)Format) == 0);
}
pDisplayPopupW (Type, output, lastError, OUT_FORCED_POPUP(outDest));
#else
if (SHIFTRIGHT16 ((ULONG_PTR)Format) == 0) {
pDisplayPopupW (Type, output, lastError, OUT_FORCED_POPUP(outDest));
}
#endif
}
}
BOOL
pInitLog (
IN BOOL FirstTimeInit,
IN HWND LogPopupParentWnd, OPTIONAL
OUT HWND *OrgPopupParentWnd, OPTIONAL
IN PCSTR LogFile, OPTIONAL
IN PLOGCALLBACKA LogCallbackA, OPTIONAL
IN PLOGCALLBACKW LogCallbackW OPTIONAL
)
/*++
Routine Description:
pInitLog actually initializes the log system.
Arguments:
LogPopupParentWnd - Specifies the parent window to be used by the
popups, or NULL if popups are to be suppressed.
This value is not optional on the first call
to this function.
OrgPopupParentWnd - Receives the original parent window.
LogFile - Specifies the name of the log file. If not specified,
logging goes to a default file (%windir%\cobra.log).
LogCallback - Specifies a function to call instead of the internal
logging functions.
Return Value:
TRUE if log system successfully initialized
--*/
{
HINF hInf = INVALID_HANDLE_VALUE;
BOOL result = FALSE;
PDEFAULT_DESTINATION dest;
#ifdef DEBUG
PSTR p;
#endif
__try {
g_LogInit = FALSE;
if (FirstTimeInit) {
PRIVATE_ASSERT (!g_FirstTypePtr);
dest = g_DefaultDest;
while (dest->Type) {
LogSetErrorDest (dest->Type, dest->Flags);
dest++;
}
GetWindowsDirectoryA (g_MainLogFile, ARRAYSIZE(g_MainLogFile));
SzCatA (g_MainLogFile, "\\cobra");
#ifdef DEBUG
SzCopyA (g_DebugLogFile, g_MainLogFile);
SzCatA (g_DebugLogFile, ".dbg");
g_DebugInfPathBufA[0] = g_DebugLogFile[0];
#endif
SzCatA (g_MainLogFile, ".log");
}
if (LogFile) {
SzBufferCopyA (g_MainLogFile, LogFile);
#ifdef DEBUG
SzCopyA (g_DebugLogFile, g_MainLogFile);
p = _mbsrchr (g_DebugLogFile, '.');
if (p) {
if (_mbschr (p, TEXT('\\'))) {
p = NULL;
}
}
if (p) {
SzCopyA (p, ".dbg");
} else {
SzCatA (g_DebugLogFile, ".dbg");
}
#endif
}
if (g_ResetLog) {
SetFileAttributesA (g_MainLogFile, FILE_ATTRIBUTE_NORMAL);
DeleteFileA (g_MainLogFile);
}
#ifdef DEBUG
if (g_ResetLog) {
SetFileAttributesA (g_DebugLogFile, FILE_ATTRIBUTE_NORMAL);
DeleteFileA (g_DebugLogFile);
}
#endif
if (LogCallbackA) {
g_LogCallbackA = LogCallbackA;
}
if (LogCallbackW) {
g_LogCallbackW = LogCallbackW;
}
#ifdef DEBUG
/* BUGBUG - eliminate setupapi
if (FirstTimeInit) {
//
// get user's preferences
//
hInf = SetupOpenInfFileA (g_DebugInfPathBufA, NULL, INF_STYLE_WIN4 | INF_STYLE_OLDNT, NULL);
if (INVALID_HANDLE_VALUE != hInf && pGetUserPreferences(hInf)) {
g_DoLog = TRUE;
}
}
*/
if (g_ResetLog) {
SetFileAttributesA (g_DebugLogFile, FILE_ATTRIBUTE_NORMAL);
DeleteFileA (g_DebugLogFile);
}
#endif
if (OrgPopupParentWnd) {
*OrgPopupParentWnd = g_LogPopupParentWnd;
}
if (LogPopupParentWnd) {
g_LogPopupParentWnd = LogPopupParentWnd;
g_InitThreadId = GetCurrentThreadId ();
}
result = TRUE;
}
__finally {
/* BUGBUG - eliminate setupapi
if (hInf != INVALID_HANDLE_VALUE) {
SetupCloseInfFile (hInf);
}
*/
if (!result) { //lint !e774
if (g_FirstTypePtr) {
HeapFree (g_hHeap, 0, g_FirstTypePtr);
g_FirstTypePtr = NULL;
g_TypeTableCount = 0;
g_TypeTableFreeCount = 0;
}
g_OutDestAll = OD_UNDEFINED;
g_OutDestDefault = OD_UNDEFINED;
#ifdef DEBUG
g_DoLog = FALSE;
#endif
}
g_LogInit = TRUE;
g_ResetLog = FALSE;
}
return result;
}
VOID
LogSetVerboseLevel (
IN OUTPUT_DESTINATION Level
)
{
OUTPUT_DESTINATION Debugger = 0;
if (Level > 3) {
Debugger = OD_DEBUGGER|OD_ASSERT;
}
LogSetErrorDest (LOG_FATAL_ERROR, Level > 0 ? OD_POPUP_CANCEL|OD_LOGFILE|OD_ERROR|OD_CONSOLE|Debugger : OD_SUPPRESS);
LogSetErrorDest (LOG_ERROR, Level > 0 ? OD_POPUP_CANCEL|OD_LOGFILE|OD_ERROR|OD_CONSOLE|Debugger : OD_SUPPRESS);
LogSetErrorDest (LOG_MODULE_ERROR, Level > 0 ? OD_POPUP_CANCEL|OD_LOGFILE|OD_ERROR|OD_CONSOLE|Debugger : OD_SUPPRESS);
LogSetErrorDest (LOG_WARNING, Level > 1 ? OD_LOGFILE|Debugger : OD_SUPPRESS);
LogSetErrorDest (LOG_INFORMATION, Level > 2 ? OD_LOGFILE|Debugger : OD_SUPPRESS);
LogSetErrorDest ("Assert", OD_POPUP|OD_ERROR|Debugger);
LogSetErrorDest ("Verbose", Level > 2 ? OD_LOGFILE|Debugger : OD_SUPPRESS);
}
VOID
LogSetVerboseBitmap (
IN LOG_LEVEL Bitmap,
IN LOG_LEVEL BitsToAdjustMask,
IN BOOL EnableDebugger
)
{
OUTPUT_DESTINATION Debugger = 0;
if (EnableDebugger) {
Debugger = OD_DEBUGGER|OD_ASSERT;
}
if (BitsToAdjustMask & LL_FATAL_ERROR) {
LogSetErrorDest (LOG_FATAL_ERROR, (Bitmap & LL_FATAL_ERROR) ? OD_LOGFILE|OD_ERROR|OD_CONSOLE|Debugger : OD_SUPPRESS);
}
if (BitsToAdjustMask & LL_MODULE_ERROR) {
LogSetErrorDest (LOG_MODULE_ERROR, (Bitmap & LL_MODULE_ERROR) ? OD_LOGFILE|OD_ERROR|OD_CONSOLE|Debugger : OD_SUPPRESS);
}
if (BitsToAdjustMask & LL_ERROR) {
LogSetErrorDest (LOG_ERROR, (Bitmap & LL_ERROR) ? OD_LOGFILE|OD_ERROR|OD_CONSOLE|Debugger : OD_SUPPRESS);
}
if (BitsToAdjustMask & LL_WARNING) {
LogSetErrorDest (LOG_WARNING, (Bitmap & LL_WARNING) ? OD_LOGFILE|Debugger : OD_SUPPRESS);
}
if (BitsToAdjustMask & LL_INFORMATION) {
LogSetErrorDest (LOG_INFORMATION, (Bitmap & LL_INFORMATION) ? OD_LOGFILE|Debugger : OD_SUPPRESS);
}
if (BitsToAdjustMask & LL_STATUS) {
LogSetErrorDest (LOG_STATUS, (Bitmap & LL_STATUS) ? OD_LOGFILE|Debugger : OD_SUPPRESS);
}
if (BitsToAdjustMask & LL_UPDATE) {
LogSetErrorDest (LOG_UPDATE, (Bitmap & LL_UPDATE) ? OD_CONSOLE : OD_SUPPRESS);
}
}
/*++
Routine Description:
pInitialize initializes the log system calling the worker pInitLog. This function
should be only called once
Arguments:
None
Return Value:
TRUE if log system successfully initialized
--*/
BOOL
pInitialize (
VOID
)
{
return pInitLog (TRUE, NULL, NULL, NULL, NULL, NULL);
}
/*++
Routine Description:
LogReInit re-initializes the log system calling the worker pInitLog.
This function may be called any number of times, but only after pInitialize()
Arguments:
NewParent - Specifies the new parent handle.
OrgParent - Receives the old parent handle.
LogFile - Specifies a new log file name
LogCallback - Specifies a callback function that handles the log message (so
one module can pass log messages to another)
ResourceImage - Specifies the module path to use in FormatMessage when the
message is resource-based
Return Value:
TRUE if log system was successfully re-initialized
--*/
BOOL
LogReInitA (
IN HWND NewParent, OPTIONAL
OUT HWND *OrgParent, OPTIONAL
IN PCSTR LogFile, OPTIONAL
IN PLOGCALLBACKA LogCallback OPTIONAL
)
{
return pInitLog (FALSE, NewParent, OrgParent, LogFile, LogCallback, NULL);
}
BOOL
LogReInitW (
IN HWND NewParent, OPTIONAL
OUT HWND *OrgParent, OPTIONAL
IN PCWSTR LogFile, OPTIONAL
IN PLOGCALLBACKW LogCallback OPTIONAL
)
{
CHAR ansiLogFile[MAX_PATH];
if (LogFile) {
SzConvertBufferWToA (ansiLogFile, LogFile);
LogFile = (PWSTR) ansiLogFile;
}
return pInitLog (FALSE, NewParent, OrgParent, (PCSTR) LogFile, NULL, LogCallback);
}
VOID
LogBegin (
IN HMODULE ModuleInstance
)
{
DWORD threadError;
DWORD rc;
threadError = GetLastError ();
if (!g_LogMutex) {
InitializeLog();
}
rc = WaitForSingleObject (g_LogMutex, INFINITE);
PRIVATE_ASSERT (rc == WAIT_OBJECT_0 || rc == WAIT_ABANDONED);
if (rc == WAIT_ABANDONED) {
g_LoggingNow = 0;
}
if (!g_LoggingNow) {
g_LibHandle = ModuleInstance;
SetLastError (threadError);
g_LogError = threadError;
}
g_LoggingNow++;
}
VOID
LogEnd (
VOID
)
{
g_LoggingNow--;
if (!g_LoggingNow) {
g_LibHandle = g_hInst;
SetLastError (g_LogError);
}
ReleaseMutex (g_LogMutex);
}
VOID
pDisableLog (
VOID
)
{
g_LogInit = FALSE;
}
VOID
pExitLog (
VOID
)
/*++
Routine Description:
pExitLog cleans up any resources used by the log system
Arguments:
none
Return Value:
none
--*/
{
g_LogInit = FALSE;
WaitForSingleObject (g_LogMutex, 60000);
CloseHandle (g_LogMutex);
g_LogMutex = NULL;
if (g_FirstTypePtr) {
HeapFree (g_hHeap, 0, g_FirstTypePtr);
g_FirstTypePtr = NULL;
g_TypeTableCount = 0;
g_TypeTableFreeCount = 0;
}
g_OutDestAll = OD_UNDEFINED;
g_OutDestDefault = OD_UNDEFINED;
}
/*++
Routine Description:
LogA and LogW preserve the last error code; they call the helpers
pFormatAndWriteMsgA and pFormatAndWriteMsgW respectivelly.
Arguments:
Type - Specifies the type (category) of the message
Format - Specifies either the message in ASCII format or
a message ID (if SHIFTRIGHT16(Format) == 0). The message
will be formatted using args.
... - Specifies a list of arguments to be used when formatting
the message. If a message ID is used for Format, args
is supposed to be an array of pointers to strings
Return Value:
none
--*/
VOID
_cdecl
LogA (
IN PCSTR Type,
IN PCSTR Format,
...
)
{
va_list args;
if (!g_LogInit) {
return;
}
va_start (args, Format);
pFormatAndWriteMsgA (
FALSE,
Type,
Format,
args
);
va_end (args);
}
VOID
_cdecl
LogW (
IN PCSTR Type,
IN PCSTR Format,
...
)
{
va_list args;
if (!g_LogInit) {
return;
}
va_start (args, Format);
pFormatAndWriteMsgW (
FALSE,
Type,
Format,
args
);
va_end (args);
}
VOID
_cdecl
LogIfA (
IN BOOL Condition,
IN PCSTR Type,
IN PCSTR Format,
...
)
{
va_list args;
if (!g_LogInit) {
return;
}
if (!Condition) {
return;
}
va_start (args, Format);
pFormatAndWriteMsgA (
FALSE,
Type,
Format,
args
);
va_end (args);
}
VOID
_cdecl
LogIfW (
IN BOOL Condition,
IN PCSTR Type,
IN PCSTR Format,
...
)
{
va_list args;
if (!g_LogInit) {
return;
}
if (!Condition) {
return;
}
va_start (args, Format);
pFormatAndWriteMsgW (
FALSE,
Type,
Format,
args
);
va_end (args);
}
#ifdef DEBUG
VOID
_cdecl
DbgLogA (
IN PCSTR Type,
IN PCSTR Format,
...
)
{
va_list args;
if (!g_LogInit) {
return;
}
va_start (args, Format);
pFormatAndWriteMsgA (
TRUE,
Type,
Format,
args
);
va_end (args);
}
VOID
_cdecl
DbgLogW (
IN PCSTR Type,
IN PCSTR Format,
...
)
{
va_list args;
if (!g_LogInit) {
return;
}
va_start (args, Format);
pFormatAndWriteMsgW (
TRUE,
Type,
Format,
args
);
va_end (args);
}
VOID
_cdecl
DbgLogIfA (
IN BOOL Condition,
IN PCSTR Type,
IN PCSTR Format,
...
)
{
va_list args;
if (!g_LogInit) {
return;
}
if (!Condition) {
return;
}
va_start (args, Format);
pFormatAndWriteMsgA (
TRUE,
Type,
Format,
args
);
va_end (args);
}
VOID
_cdecl
DbgLogIfW (
IN BOOL Condition,
IN PCSTR Type,
IN PCSTR Format,
...
)
{
va_list args;
if (!g_LogInit) {
return;
}
if (!Condition) {
return;
}
va_start (args, Format);
pFormatAndWriteMsgW (
TRUE,
Type,
Format,
args
);
va_end (args);
}
#endif
VOID
LogTitleA (
IN PCSTR Type,
IN PCSTR Title OPTIONAL
)
{
CHAR formattedMsg[OUTPUT_BUFSIZE_LARGE];
if (!g_LogInit) {
return;
}
SzCopyBytesA (g_LastType, Type, sizeof (g_LastType));
if (!Title) {
Title = Type;
}
SzCopyBytesA (formattedMsg, Title, sizeof (formattedMsg) - sizeof (S_COLUMNDOUBLELINEA));
SzCatA (formattedMsg, S_COLUMNDOUBLELINEA);
pRawWriteLogOutputA (Type, NULL, formattedMsg, FALSE);
//
// set LOGTITLE flag
//
g_HasTitle = TRUE;
}
VOID
LogTitleW (
IN PCSTR Type,
IN PCWSTR Title OPTIONAL
)
{
WCHAR formattedMsg[OUTPUT_BUFSIZE_LARGE];
WCHAR typeW[OUTPUT_BUFSIZE_SMALL];
if (!g_LogInit) {
return;
}
SzCopyTcharsA (g_LastType, Type, sizeof (g_LastType));
if (!Title) {
SzConvertBufferAToW (typeW, Type);
Title = typeW;
}
SzCopyTcharsW (formattedMsg, Title, sizeof (formattedMsg) - sizeof (S_COLUMNDOUBLELINEW));
SzCatW (formattedMsg, S_COLUMNDOUBLELINEW);
pRawWriteLogOutputW (Type, NULL, formattedMsg, FALSE);
//
// set LOGTITLE flag
//
g_HasTitle = TRUE;
}
VOID
LogLineA (
IN PCSTR Line
)
{
CHAR output[OUTPUT_BUFSIZE_LARGE];
BOOL hasNewLine = FALSE;
PCSTR p;
if (!g_LogInit) {
return;
}
if (!Line) {
return;
}
if (!g_HasTitle) {
DEBUGMSG ((DBG_WHOOPS, "LOGTITLE missing before LOGLINE"));
return;
}
SzCopyBytesA (output, Line, sizeof (output) - 4);
//
// find out if the line terminates with newline
//
for (p = _mbsstr (output, S_NEWLINEA); p; p = _mbsstr (p + NEWLINE_CHAR_COUNTA, S_NEWLINEA)) {
if (p[NEWLINE_CHAR_COUNTA] == 0) {
//
// the line ends with a newline
//
hasNewLine = TRUE;
break;
}
}
if (!hasNewLine) {
SzCatA (output, S_NEWLINEA);
}
pRawWriteLogOutputA (g_LastType, NULL, output, FALSE);
}
VOID
LogLineW (
IN PCWSTR Line
)
{
WCHAR output[OUTPUT_BUFSIZE_LARGE];
BOOL hasNewLine = FALSE;
PCWSTR p;
if (!g_LogInit) {
return;
}
if (!Line) {
return;
}
if (!g_HasTitle) {
DEBUGMSG ((DBG_WHOOPS, "LOGTITLE missing before LOGLINE"));
return;
}
SzCopyTcharsW (output, Line, sizeof (output) / sizeof (WCHAR) - 4);
//
// find out if the line terminates with newline
//
for (p = wcsstr (output, S_NEWLINEW); p; p = wcsstr (p + NEWLINE_CHAR_COUNTW, S_NEWLINEW)) {
if (p[NEWLINE_CHAR_COUNTW] == 0) {
//
// the line ends with a newline
//
hasNewLine = TRUE;
break;
}
}
if (!hasNewLine) {
SzCatW (output, S_NEWLINEW);
}
pRawWriteLogOutputW (g_LastType, NULL, output, FALSE);
}
VOID
LogDirectA (
IN PCSTR Type,
IN PCSTR Text
)
{
if (!g_LogInit) {
return;
}
g_HasTitle = FALSE;
pRawWriteLogOutputA (Type, NULL, Text, FALSE);
}
VOID
LogDirectW (
IN PCSTR Type,
IN PCWSTR Text
)
{
if (!g_LogInit) {
return;
}
g_HasTitle = FALSE;
pRawWriteLogOutputW (Type, NULL, Text, FALSE);
}
#ifdef DEBUG
VOID
DbgDirectA (
IN PCSTR Type,
IN PCSTR Text
)
{
if (!g_LogInit) {
return;
}
g_HasTitle = FALSE;
pRawWriteLogOutputA (Type, NULL, Text, TRUE);
}
VOID
DbgDirectW (
IN PCSTR Type,
IN PCWSTR Text
)
{
if (!g_LogInit) {
return;
}
g_HasTitle = FALSE;
pRawWriteLogOutputW (Type, NULL, Text, TRUE);
}
#endif
VOID
SuppressAllLogPopups (
IN BOOL SuppressOn
)
{
g_SuppressAllPopups = SuppressOn;
}
#ifdef DEBUG
/*++
Routine Description:
DebugLogTimeA and DebugLogTimeW preserve the last error code;
they append the current date and time to the formatted message,
then call LogA and LogW to actually process the message.
Arguments:
Format - Specifies either the message in ASCII format or
a message ID (if SHIFTRIGHT16(Format) == 0). The message
will be formatted using args.
... - Specifies a list of arguments to be used when formatting
the message. If a message ID is used for Format, args
is supposed to be an array of pointers to strings
Return Value:
none
--*/
VOID
_cdecl
DebugLogTimeA (
IN PCSTR Format,
...
)
{
CHAR msg[OUTPUT_BUFSIZE_LARGE];
CHAR date[OUTPUT_BUFSIZE_SMALL];
CHAR ttime[OUTPUT_BUFSIZE_SMALL];
PSTR appendPos, end;
DWORD currentTickCount;
va_list args;
if (!g_LogInit) {
return;
}
if (!g_DoLog) {
return;
}
//
// first, get the current date and time into the string.
//
if (!GetDateFormatA (
LOCALE_SYSTEM_DEFAULT,
LOCALE_NOUSEROVERRIDE,
NULL,
NULL,
date,
OUTPUT_BUFSIZE_SMALL)) {
SzCopyA (date,"** Error retrieving date. **");
}
if (!GetTimeFormatA (
LOCALE_SYSTEM_DEFAULT,
LOCALE_NOUSEROVERRIDE,
NULL,
NULL,
ttime,
OUTPUT_BUFSIZE_SMALL)) {
SzCopyA (ttime,"** Error retrieving time. **");
}
//
// Now, get the current tick count.
//
currentTickCount = GetTickCount();
//
// If this is the first call save the tick count.
//
if (!g_FirstTickCount) {
g_FirstTickCount = currentTickCount;
g_LastTickCount = currentTickCount;
}
//
// Now, build the passed in string.
//
va_start (args, Format);
appendPos = msg + _vsnprintf (msg, OUTPUT_BUFSIZE_LARGE, Format, args);
va_end (args);
//
// Append the time statistics to the end of the string.
//
end = msg + OUTPUT_BUFSIZE_LARGE;
_snprintf(
appendPos,
((ULONG_PTR)end - (ULONG_PTR)appendPos) / (sizeof (CHAR)),
"\nCurrent Date and Time: %s %s\n"
"Milliseconds since last DEBUGLOGTIME call : %u\n"
"Milliseconds since first DEBUGLOGTIME call: %u\n",
date,
ttime,
currentTickCount - g_LastTickCount,
currentTickCount - g_FirstTickCount
);
g_LastTickCount = currentTickCount;
//
// Now, pass the results onto debugoutput.
//
LogA (DBG_TIME, "%s", msg);
}
VOID
_cdecl
DebugLogTimeW (
IN PCSTR Format,
...
)
{
WCHAR msgW[OUTPUT_BUFSIZE_LARGE];
WCHAR dateW[OUTPUT_BUFSIZE_SMALL];
WCHAR timeW[OUTPUT_BUFSIZE_SMALL];
PCWSTR formatW;
PWSTR appendPosW, endW;
DWORD currentTickCount;
va_list args;
if (!g_LogInit) {
return;
}
if (!g_DoLog) {
return;
}
//
// first, get the current date and time into the string.
//
if (!GetDateFormatW (
LOCALE_SYSTEM_DEFAULT,
LOCALE_NOUSEROVERRIDE,
NULL,
NULL,
dateW,
OUTPUT_BUFSIZE_SMALL)) {
SzCopyW (dateW, L"** Error retrieving date. **");
}
if (!GetTimeFormatW (
LOCALE_SYSTEM_DEFAULT,
LOCALE_NOUSEROVERRIDE,
NULL,
NULL,
timeW,
OUTPUT_BUFSIZE_SMALL)) {
SzCopyW (timeW, L"** Error retrieving time. **");
}
//
// Now, get the current tick count.
//
currentTickCount = GetTickCount();
//
// If this is the first call save the tick count.
//
if (!g_FirstTickCount) {
g_FirstTickCount = currentTickCount;
g_LastTickCount = currentTickCount;
}
//
// Now, build the passed in string.
//
va_start (args, Format);
formatW = SzConvertAToW (Format);
appendPosW = msgW + _vsnwprintf (msgW, OUTPUT_BUFSIZE_LARGE, formatW, args);
SzFreeW (formatW);
va_end (args);
//
// Append the time statistics to the end of the string.
//
endW = msgW + OUTPUT_BUFSIZE_LARGE;
_snwprintf(
appendPosW,
((ULONG_PTR)endW - (ULONG_PTR)appendPosW) / (sizeof (WCHAR)),
L"\nCurrent Date and Time: %s %s\n"
L"Milliseconds since last DEBUGLOGTIME call : %u\n"
L"Milliseconds since first DEBUGLOGTIME call: %u\n",
dateW,
timeW,
currentTickCount - g_LastTickCount,
currentTickCount - g_FirstTickCount
);
g_LastTickCount = currentTickCount;
//
// Now, pass the results onto debugoutput.
//
LogW (DBG_TIME, "%s", msgW);
}
#endif // DEBUG
VOID
InitializeLog (
VOID
)
{
g_LogMutex = CreateMutex (NULL, FALSE, TEXT("cobra_log_mutex"));
pInitialize ();
}
#if 0
EXPORT
BOOL
WINAPI
DllMain (
IN HINSTANCE hInstance,
IN DWORD dwReason,
IN LPVOID lpReserved
)
{
if (dwReason == DLL_PROCESS_ATTACH) {
g_hInst = hInstance;
g_LibHandle = hInstance;
InitializeLog ();
PRIVATE_ASSERT (g_LogMutex != NULL);
}
return TRUE;
}
#endif
VOID
LogDeleteOnNextInit(
VOID
)
{
g_ResetLog = TRUE;
}
#ifdef DEBUG
VOID
LogCopyDebugInfPathA(
OUT PSTR MaxPathBuffer
)
{
SzCopyBytesA (MaxPathBuffer, g_DebugInfPathBufA, MAX_PATH);
}
VOID
LogCopyDebugInfPathW(
OUT PWSTR MaxPathBuffer
)
{
SzConvertBufferAToW (MaxPathBuffer, g_DebugInfPathBufA);
}
#endif