fix: stop using "magic" numbers in string operations for the copyannofile2log feature
fix: When using the copylogfromannofile workaround, extract the build ID and build duration and add to the log as these are useful for analysis. The log should now be identical to the stdout file.
fix: Remove extra blank lines from output in copylogfromannofile mode.
/*
* Copyright (c) 1995-2009 Nokia Corporation and/or its subsidiary(-ies).
* All rights reserved.
* This component and the accompanying materials are made available
* under the terms of the License "Eclipse Public License v1.0"
* which accompanies this distribution, and is available
* at the URL "http://www.eclipse.org/legal/epl-v10.html".
*
* Initial Contributors:
* Nokia Corporation - initial contribution.
*
* Contributors:
*
* Description:
*
*/
#define __INCLUDE_CAPABILITY_NAMES__
#if defined(_MSVCDOTNET__) || defined(__TOOLS2__)
#include <string>
#else //!__MSVCDOTNET__
#include <string.h>
#endif //__MSVCDOTNET__
#include <stdarg.h>
#include <stdlib.h>
#include <e32std.h>
#include <e32std_private.h>
#include "h_utl.h"
#ifdef __LINUX__
// Convert the supplied string to uppercase, in-place
char* strupr(char *a)
{
char *ret = a;
while (*a)
{
*a = toupper(*a);
a++;
}
return ret;
}
off_t filelength(int filedes)
{
struct stat buf;
if(!fstat(filedes, &buf))
{
return buf.st_size;
}
perror("fstat failed");
return 0;
}
#endif
TBool PVerbose=ETrue;
HPrint H;
HPrint::~HPrint()
{
iLogFile.close();
}
void HPrint::SetLogFile(TText *aFileName)
{
iLogFile.open((const char *)aFileName);
}
/**
Closing the logfile.(since 'n' number of drive images can be created)
@internalComponent
@released
*/
void HPrint::CloseLogFile()
{
if(iLogFile.is_open())
iLogFile.close();
}
TInt HPrint::PrintString(TPrintType aType,const char *aFmt,...)
//
// Print text, noting where to send it.
//
{
TInt r=KErrNone;
va_list list;
va_start(list,aFmt);
_vsnprintf((char *)iText,KMaxStringLength,aFmt,list);
va_end(list);
switch (aType)
{
case EAlways:
cout << iText;
iLogFile << iText;
break;
case EScreen:
cout << iText;
break;
case ELog:
if (iVerbose)
cout << iText;
iLogFile << iText;
break;
case EWarning:
cerr << "WARNING: " << iText;
iLogFile << "WARNING: "<<iText;
break;
case EError:
cerr << "ERROR: " << iText;
iLogFile << "ERROR: " << iText;
r=KErrGeneral;
break;
case EPeError:
if (PVerbose)
{
cerr << "ERROR: " << iText;
iLogFile << "ERROR: " << iText;
}
r=KErrGeneral;
break;
case ESevereError:
cerr << "ERROR: " << iText;
iLogFile << "ERROR: " << iText;
r=KErrGeneral;
break;
case EDiagnostic:
cerr << "DIAGNOSTIC MESSAGE: " << iText;
iLogFile << "DIAGNOSTIC MESSAGE: "<<iText;
break;
default:
cerr << "ERROR: Invalid print type" << endl;
r=KErrGeneral;
}
cout.flush();
iLogFile.flush();
return r;
}
TVersion::TVersion()
{}
TVersion::TVersion(TInt aMajor, TInt aMinor, TInt aBuild)
: iMajor((TInt8)aMajor), iMinor((TInt8)aMinor), iBuild((TInt16)aBuild)
{}
#ifdef __TOOLS2__
istringstream &operator>>(istringstream &is, TVersion &aVersion)
#else
istrstream &operator>>(istrstream &is, TVersion &aVersion)
#endif
//
// Input a TVersion with syntax: major[.minor][(build)]
//
{
#ifdef __TOOLS2__
string tmp = is.str();
const char *str=tmp.c_str();
#else
#ifdef __LINUX__
char *str = is.rdbuf()->str();
#else
char *str=is.str();
#endif
#endif
TInt build=0;
memset(&aVersion, sizeof(TVersion), 0);
TInt i;
TInt len=strlen(str);
for (i=0; i<len; i++)
if (str[i]=='(')
break;
if (i<len)
build=atoi(str+i+1);
aVersion.iMajor = (TInt8)Min(KMaxTInt8, atoi(str));
int majorV = atoi(str);
// iMajor is defined as TInt8 so it should not be bigger than 127
if (majorV > 127)
{
cout << "\n Warning: major version must be in range 0 - 127 \n";
}
char* pMinor = strchr(str, '.');
if (pMinor)
{
pMinor++;
aVersion.iMinor = (TInt8)Min(KMaxTInt8, atoi(pMinor));
int minorV = atoi(pMinor);
// iMinor is defined as TInt8 so it should not be bigger than 127
if (minorV > 127)
{
cout << "\n Warning: minor version must be in range 0 - 127 \n";
}
}
aVersion.iBuild=(TInt16)build;
return is;
}
TInt Locate(const char *aString, char aChar)
//
// Locate aChar in aString
//
{
if (aString==NULL)
return KErrNotFound;
TInt i=0;
while (*aString!=0)
{
if (*aString==aChar)
return i;
aString++;
i++;
}
return KErrNotFound;
}
#define KHoursToMicroSeconds Int64(3600000000UL)
#define KDaysToMicroSeconds (Int64(24)*KHoursToMicroSeconds)
const TInt KMinutesToMicroSeconds = 60000000;
const TInt KSecondsToMicroSeconds = 1000000;
const TInt8 mTab[2][12]=
{
{31,28,31,30,31,30,31,31,30,31,30,31}, // 28 days in Feb
{31,29,31,30,31,30,31,31,30,31,30,31} // 29 days in Feb
};
TInt Time::LeapYearsUpTo(TInt aYear)
//
// from 0AD to present year according to the rule above
//
{
if (aYear<=0)
return(aYear/4);
if (aYear<=1600)
return(1+((aYear-1)/4));
TInt num=401; // 1600/4+1
aYear-=1601;
num+=(aYear/4-aYear/100+aYear/400);
return(num);
}
TBool Time::IsLeapYear(TInt aYear)
//
// up to and including 1600 leap years were every 4 years,since then leap years are every 4 years unless
// the year falls on a century which is not divisible by 4 (ie 1900 wasnt,2000 will be)
// for simplicity define year 0 as a leap year
//
{
if (aYear>1600)
return(!(aYear%4) && (aYear%100 || !(aYear%400)));
return(!(aYear%4));
}
Int64 ConvertTime(TInt aDay, TInt aMonth, TInt aYear, TInt aHour, TInt aMinute, TInt aSecond, TInt aMilliSeconds)
//
// converts TDateTime into a TTime, doesnt check for overflows
//
{
TInt days=365*aYear+Time::LeapYearsUpTo(aYear);
TBool isleap=Time::IsLeapYear(aYear);
for (TInt ii=0; ii<aMonth; ii++)
days+=(mTab[isleap][ii]);
days+=aDay;
TInt sum=aMilliSeconds+aSecond*KSecondsToMicroSeconds;
return((Int64(days)*KDaysToMicroSeconds+Int64(aHour)*KHoursToMicroSeconds)
+(Int64(KMinutesToMicroSeconds)*Int64(aMinute)+Int64(sum)));
}
TInt StringToTime(Int64 &aTime, char *aString)
//
// Convert string to time. String is in the format:
//
// dd/mm/yyyy hh:mm:ss.mmmmmmm
//
{
TInt day=1;
TInt month=1;
TInt year=1997;
TInt hour=10;
TInt minute=10;
TInt sec=0;
TInt mill=0;
char ch;
#ifdef __TOOLS2__
istringstream val(aString);
#else
istrstream val(aString,strlen(aString));
#endif
val >> dec >> day; // locks istrstream in decimal mode for further extractions
val >> ch;
if (ch!='/')
return KErrGeneral;
val >> month;
val >> ch;
if (ch!='/')
return KErrGeneral;
val >> year;
val >> ch;
if (ch=='_')
{
// time too.
val >> hour;
val >> ch;
if (ch!=':')
return KErrGeneral;
val >> minute;
val >> ch;
if (ch!=':')
return KErrGeneral;
val >> sec;
val >> ch;
if (ch=='.')
{
val >> mill;
}
}
if (day<1 || day>31)
return KErrArgument;
if (month<1 || month>12)
return KErrArgument;
if (year<1970 || year>2060)
return KErrArgument;
if (hour<0 || hour>23)
return KErrArgument;
if (minute<0 || minute>59)
return KErrArgument;
if (sec<0 || sec>59)
return KErrArgument;
if (mill<0 || mill>999999)
return KErrArgument;
aTime=ConvertTime(day-1, month-1, year, hour, minute, sec, mill);
return KErrNone;
}
void ByteSwap(TUint &aVal)
{
TUint t0=aVal & 0xff;
TUint t1=(aVal>>8) & 0xff;
TUint t2=(aVal>>16) & 0xff;
TUint t3=aVal>>24;
aVal=(t0 << 24) | (t1 << 16) | (t2 << 8) | (t3);
}
void ByteSwap(TUint16 &aVal)
{
TUint16 t0=(TUint16)((aVal >> 8) & 0xff);
TUint16 t1=(TUint16)(aVal & 0xff);
aVal=(TUint16)((t1 << 8) | t0);
}
void ByteSwap(TUint *aPtr, TInt aSize)
{
while ((aSize-=4)>=0)
ByteSwap(*aPtr++);
}
TBool IsBracketedHex(const char* s, const char* brackets, TInt digits, TUint32& aValue)
{
if (s[0]!=brackets[0] || s[1+digits]!=brackets[1])
return EFalse;
TInt i;
TUint32 x = 0;
for (i=1; i<=digits; ++i)
{
TInt c = s[i];
if (c>='a' && c<='z') c-=32;
if (c<'0' || (c>'9' && c<'A') || c>'F')
return EFalse;
c-='0';
if (c>9) c-=7;
x = (x<<4) | (TUint32)c;
}
aValue = x;
return ETrue;
}
TInt CheckForDecimalVersion(const char* begin, const char* s, TUint32& aValue)
{
aValue = 0;
if (s <= begin || *s != '}')
return 0;
TUint32 v[2] = {0,0};
TUint32 m = 1;
TInt pos = 0;
const char* s0 = s + 1;
for (--s; s >= begin; --s)
{
int c = *s;
if (c >= '0' && c <= '9')
{
v[pos] += m * (c - '0');
if (v[pos] >= 65536u)
return 0;
m *= 10;
}
else if (c == '.')
{
m = 1;
if (++pos >= 2)
return 0;
}
else if (c == '{')
break;
else
return 0;
}
if (s < begin)
return 0;
aValue = (v[1] << 16) | v[0];
return s0 - s;
}
// Decompose a name of the form NAME{MMMMmmmm}[UUUUUUUU].EXT where the bracketed
// sections and extension are both optional.
// Return a newly malloc-ed string containing NAME.EXT
// Set aUid = 0xUUUUUUUU if present, 0 if not
// Set aModuleVersion = 0xMMMMmmmm if present, 0 if not
// Set aFlags according to which of these are present
char* SplitFileName(const char* aName, TUint32& aUid, TUint32& aModuleVersion, TUint32& aFlags)
{
TFileNameInfo f(aName, ETrue);
aUid = f.iUid3;
aModuleVersion = f.iModuleVersion;
aFlags = f.iFlags;
TInt nl = f.iBaseLength;
TInt el = f.iTotalLength - f.iExtPos;
TInt tl = nl + el;
char* t = (char*)malloc(tl + 1);
if (t)
{
memcpy(t, aName, nl);
if (el)
memcpy(t + nl, aName + f.iExtPos, el);
t[tl] = 0;
}
return t;
}
// Decompose a name of the form NAME{MMMMmmmm}.EXT where the bracketed
// sections and extension are both optional.
// Return a newly malloc-ed string containing NAME.EXT
// Set aModuleVersion = 0xMMMMmmmm if present, 0 if not
// Set aFlags according to whether version present
char* SplitFileName(const char* aName, TUint32& aModuleVersion, TUint32& aFlags)
{
TFileNameInfo f(aName, EFalse);
aModuleVersion = f.iModuleVersion;
aFlags = f.iFlags;
TInt nl = f.iBaseLength;
TInt el = f.iTotalLength - f.iExtPos;
TInt tl = nl + el;
char* t = (char*)malloc(tl + 1);
if (t)
{
memcpy(t, aName, nl);
if (el)
memcpy(t + nl, aName + f.iExtPos, el);
t[tl] = 0;
}
return t;
}
// Parse a filename and convert decimal version number to hex
char* NormaliseFileName(const char* aName)
{
//convert forward slashes into back slashes.
char* filename = strdup(aName); //prevent violated access from stack.
char* fwdslashfinder = filename;
fwdslashfinder=strstr(fwdslashfinder, "/");
while(fwdslashfinder)
{
*fwdslashfinder++ = '\\';
fwdslashfinder=strstr(fwdslashfinder, "/");
}
//normalize filename.
TFileNameInfo f(filename, EFalse);
TInt nl = f.iBaseLength;
TInt el = f.iTotalLength - f.iExtPos;
TInt tl = nl + el;
if (f.iFlags & EVerPresent)
tl += 10;
char* t = (char*)malloc(tl + 1);
if (t)
{
memcpy(t, filename, nl);
if (f.iFlags & EVerPresent)
sprintf(t + nl, "{%08lx}%s", f.iModuleVersion, filename + f.iExtPos);
else if (el)
memcpy(t + nl, filename + f.iExtPos, el);
t[tl] = 0;
}
free(filename);
return t;
}
TFileNameInfo::TFileNameInfo(const char* aFileName, TBool aLookForUid)
{
iFileName = aFileName;
TInt l = strlen(aFileName);
iTotalLength = l;
TInt remain = l;
iFlags = 0;
iUid3 = 0;
iModuleVersion = 0;
iBaseLength = l;
iExtPos = l;
const char* s = iFileName + l;
for (; s>=iFileName && *s!='.' && *s!='}' && (!aLookForUid || *s!=']'); --s) {}
if (s<iFileName)
return;
if (*s == '.')
{
iExtPos = s - iFileName;
if (iExtPos == 0)
{
iBaseLength = 0;
return;
}
remain = iExtPos;
--s;
}
else if (s != iFileName + l)
return;
if (aLookForUid && remain>=10 && IsBracketedHex(s-9, "[]", 8, iUid3))
{
iFlags |= EUidPresent;
remain -= 10;
s -= 10;
}
if (remain>=10 && IsBracketedHex(s-9, "{}", 8, iModuleVersion))
{
iFlags |= EVerPresent;
remain -= 10;
s -= 10;
}
else
{
TInt n = CheckForDecimalVersion(iFileName, s, iModuleVersion);
if (n>0)
{
iFlags |= EVerPresent;
remain -= n;
s -= n;
}
}
iBaseLength = remain;
}
#define PARSE_CAPABILITIES_ERROR(aMessage) Print(EError, "%s\n",aMessage)
#define PARSE_CAPABILITIES_ERROR2(aMessage1,aMessage2) Print(EError, "%s%s\n",aMessage1,aMessage2)
TInt ParseCapabilitiesArg(SCapabilitySet& aCapabilities, const char *aText)
//
// This is a cun'n'paste copy of the function in BASE\WINS\SPECIFIC\PROPERTY.CPP
// Keep both of these versions up to date with each other
//
{
memset(&aCapabilities,0,sizeof(aCapabilities));
char c;
while((c=*aText)!=0)
{
if(c<=' ')
{
++aText;
continue;
}
int invert=0;
if(c=='+')
{
++aText;
c=*aText;
}
if(c=='-')
{
invert=1;
++aText;
}
const char* name = aText;
while((c=*aText)>' ')
{
if(c=='-' || c=='+')
break;
++aText;
}
TUint n = aText-name;
TInt i;
if(n==3 && strnicmp("all",name,n)==0)
{
if(invert)
{
PARSE_CAPABILITIES_ERROR("Capability '-ALL' not allowed");
return KErrArgument;
}
for(i=0; i<ECapability_Limit; i++)
{
if(CapabilityNames[i])
aCapabilities[i>>5] |= (1<<(i&31));
}
continue;
}
if(n==4 && strnicmp("none",name,n)==0)
{
if(invert)
{
PARSE_CAPABILITIES_ERROR("Capability '-NONE' not allowed");
return KErrArgument;
}
memset(&aCapabilities,0,sizeof(aCapabilities));
continue;
}
for(i=0; i<ECapability_Limit; i++)
{
const char* cap = CapabilityNames[i];
if(!cap)
continue;
if((TUint)strlen(cap)!=n)
continue;
if(strnicmp(cap,name,n)!=0)
continue;
break;
}
if(i>=ECapability_Limit)
{
char badName[32];
if(n>=sizeof(badName)) n=sizeof(badName)-1;
memcpy(badName,name,n);
badName[n]=0;
PARSE_CAPABILITIES_ERROR2("Unrecognised capability name: ",badName);
return KErrArgument;
}
if(invert)
aCapabilities[i>>5] &= ~(1<<(i&31));
else
aCapabilities[i>>5] |= (1<<(i&31));
}
return KErrNone;
}
TInt ParseBoolArg(TBool& aValue, const char *aText)
{
if (_stricmp(aText, "on")==0 || _stricmp(aText, "yes")==0 || _stricmp(aText, "1")==0 || strlen(aText)==0)
{
aValue = ETrue;
return KErrNone;
}
if (_stricmp(aText, "off")==0 || _stricmp(aText, "no")==0 || _stricmp(aText, "0")==0 )
{
aValue = EFalse;
return KErrNone;
}
Print(EError, "Expected a boolean on/off value but found %s\n",aText);
return KErrArgument;
}