Team Fortress 2 Source Code as on 22/4/2020
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//========= Copyright Valve Corporation, All rights reserved. ============//
// vp4mutex.cpp : Defines the entry point for the console application.
//
#define Error DbgError
#include "tier0/platform.h"
#include <stdio.h>
#include <conio.h>
#include <vector> // SEE NOTES BELOW ABOUT REVERTING THIS IF REQUIRED
#undef Error
#undef Verify
#include "clientapi.h"
#include <time.h>
#include <ctype.h>
#include <windows.h>
#undef SetPort
#define RemoveAll clear
#define AddToTail push_back
#define Count size
#define CLIENTSPEC_BUFFER_SIZE (8 * 1024)
//-----------------------------------------------------------------------------
// internal
//-----------------------------------------------------------------------------
ClientApi client;
ClientUser user;
//
// NOTE: All of this crap is here since we don't want to have the .exe depend on tier0 or vstdlib.dll. If we change that, this can go away and std::vector can go back
// to CUtlVector and CUtlSymbol can be used like it's supposed to be used....
//
//
//
//
static void Q_strncpy( char *pDest, char const *pSrc, int maxLen )
{
strncpy( pDest, pSrc, maxLen );
if ( maxLen > 0 )
{
pDest[maxLen-1] = 0;
}
}
static int Q_strlen( const char *str )
{
return strlen( str );
}
#if defined( _WIN32 ) || defined( WIN32 )
#define PATHSEPARATOR(c) ((c) == '\\' || (c) == '/')
#else //_WIN32
#define PATHSEPARATOR(c) ((c) == '/')
#endif //_WIN32
static void Q_FileBase( const char *in, char *out, int maxlen )
{
if ( !in || !in[ 0 ] )
{
*out = 0;
return;
}
int len, start, end;
len = Q_strlen( in );
// scan backward for '.'
end = len - 1;
while ( end&& in[end] != '.' && !PATHSEPARATOR( in[end] ) )
{
end--;
}
if ( in[end] != '.' ) // no '.', copy to end
{
end = len-1;
}
else
{
end--; // Found ',', copy to left of '.'
}
// Scan backward for '/'
start = len-1;
while ( start >= 0 && !PATHSEPARATOR( in[start] ) )
{
start--;
}
if ( start < 0 || !PATHSEPARATOR( in[start] ) )
{
start = 0;
}
else
{
start++;
}
// Length of new sting
len = end - start + 1;
int maxcopy = min( len + 1, maxlen );
// Copy partial string
Q_strncpy( out, &in[start], maxcopy );
}
#define COPY_ALL_CHARACTERS -1
static char *Q_strncat(char *pDest, const char *pSrc, size_t destBufferSize, int max_chars_to_copy )
{
size_t charstocopy = (size_t)0;
size_t len = strlen(pDest);
size_t srclen = strlen( pSrc );
if ( max_chars_to_copy <= COPY_ALL_CHARACTERS )
{
charstocopy = srclen;
}
else
{
charstocopy = (size_t)min( max_chars_to_copy, (int)srclen );
}
if ( len + charstocopy >= destBufferSize )
{
charstocopy = destBufferSize - len - 1;
}
if ( !charstocopy )
{
return pDest;
}
char *pOut = strncat( pDest, pSrc, charstocopy );
pOut[destBufferSize-1] = 0;
return pOut;
}
//-----------------------------------------------------------------------------
// Finds a string in another string with a case insensitive test
//-----------------------------------------------------------------------------
static char const* Q_stristr( char const* pStr, char const* pSearch )
{
if (!pStr || !pSearch)
return 0;
char const* pLetter = pStr;
// Check the entire string
while (*pLetter != 0)
{
// Skip over non-matches
if (tolower((unsigned char)*pLetter) == tolower((unsigned char)*pSearch))
{
// Check for match
char const* pMatch = pLetter + 1;
char const* pTest = pSearch + 1;
while (*pTest != 0)
{
// We've run off the end; don't bother.
if (*pMatch == 0)
return 0;
if (tolower((unsigned char)*pMatch) != tolower((unsigned char)*pTest))
break;
++pMatch;
++pTest;
}
// Found a match!
if (*pTest == 0)
return pLetter;
}
++pLetter;
}
return 0;
}
static int Q_stricmp( const char *s1, const char *s2 )
{
return stricmp( s1, s2 );
}
//-----------------------------------------------------------------------------
// Purpose: utility function to split a typical P4 line output into var and value
//-----------------------------------------------------------------------------
static void SplitP4Output(const_char *data, char *pszCmd, char *pszInfo, int bufLen)
{
Q_strncpy(pszCmd, data, bufLen);
char *mid = (char *)Q_stristr(pszCmd, " ");
if (mid)
{
*mid = 0;
Q_strncpy(pszInfo, data + (mid - pszCmd) + 1, bufLen);
}
else
{
pszInfo[0] = 0;
}
}
static int Q_atoi (const char *str)
{
int val;
int sign;
int c;
if (*str == '-')
{
sign = -1;
str++;
}
else
sign = 1;
val = 0;
//
// check for hex
//
if (str[0] == '0' && (str[1] == 'x' || str[1] == 'X') )
{
str += 2;
while (1)
{
c = *str++;
if (c >= '0' && c <= '9')
val = (val<<4) + c - '0';
else if (c >= 'a' && c <= 'f')
val = (val<<4) + c - 'a' + 10;
else if (c >= 'A' && c <= 'F')
val = (val<<4) + c - 'A' + 10;
else
return val*sign;
}
}
//
// check for character
//
if (str[0] == '\'')
{
return sign * str[1];
}
//
// assume decimal
//
while (1)
{
c = *str++;
if (c <'0' || c > '9')
return val*sign;
val = val*10 + c - '0';
}
return 0;
}
static int Q_snprintf( char *pDest, int maxLen, char const *pFormat, ... )
{
va_list marker;
va_start( marker, pFormat );
#ifdef _WIN32
int len = _vsnprintf( pDest, maxLen, pFormat, marker );
#elif _LINUX
int len = vsnprintf( pDest, maxLen, pFormat, marker );
#else
#error "define vsnprintf type."
#endif
va_end( marker );
// Len < 0 represents an overflow
if( len < 0 )
{
len = maxLen;
pDest[maxLen-1] = 0;
}
return len;
}
//-----------------------------------------------------------------------------
// Purpose: base class for parse input from the P4 server
//-----------------------------------------------------------------------------
template< class T >
class CDataRetrievalUser : public ClientUser
{
public:
std::vector<T> &GetData()
{
return m_Data;
}
// call this to start retrieving data
void InitRetrievingData()
{
m_bAwaitingNewRecord = true;
m_Data.RemoveAll();
}
// implement this to parse out input from the server into the specified object
virtual void OutputRecord(T &obj, const char *pszVar, const char *pszInfo) = 0;
private:
bool m_bAwaitingNewRecord;
std::vector<T> m_Data;
virtual void OutputInfo(char level, const_char *data)
{
if (Q_strlen(data) < 1)
{
// end of a record, await the new one
m_bAwaitingNewRecord = true;
return;
}
if (m_bAwaitingNewRecord)
{
// add in the new record
T newRec;
m_Data.AddToTail( newRec );
T &record = m_Data[ m_Data.Count() - 1 ];
memset(&record, 0, sizeof(record));
m_bAwaitingNewRecord = false;
}
// parse
char szVar[_MAX_PATH];
char szInfo[_MAX_PATH];
SplitP4Output(data, szVar, szInfo, sizeof(szVar));
// emit
T &record = m_Data[m_Data.Count() - 1];
OutputRecord(record, szVar, szInfo);
}
};
class CP4Counter
{
public:
CP4Counter() :
m_nValue( 0 )
{
m_szName[ 0 ] = 0;
}
char const *GetCounterName() const
{
return m_szName;
}
int GetValue() const
{
return m_nValue;
}
void SetName( char const *name )
{
Q_strncpy( m_szName, name, sizeof( m_szName ) );
}
void SetValue( int value )
{
m_nValue = value;
}
private:
char m_szName[ 128 ];
int m_nValue;
};
//-----------------------------------------------------------------------------
// Purpose: Retrieves a file list
//-----------------------------------------------------------------------------
class CCountersUser : public CDataRetrievalUser<CP4Counter>
{
public:
void RetrieveCounters()
{
// clear the list
InitRetrievingData();
client.Run("counters", this);
}
private:
virtual void OutputRecord(CP4Counter &counter, const char *szCmd, const char *szInfo)
{
if ( !Q_stricmp( szCmd, "counter" ) )
{
counter.SetName( szInfo );
}
else if ( !Q_stricmp( szCmd, "value" ) )
{
counter.SetValue( Q_atoi( szInfo ) );
}
}
};
//-----------------------------------------------------------------------------
// Purpose: Retrieves a file list
//-----------------------------------------------------------------------------
class CSetCounterUser : public ClientUser
{
public:
void SetCounter( char *countername, int value )
{
char valuestr[ 32 ];
Q_snprintf( valuestr, sizeof( valuestr ), "%d", value );
char *argv[] = { countername, valuestr, NULL };
client.SetArgv( 2, argv );
client.Run("counter", this);
}
virtual void HandleError( Error *err )
{
}
virtual void Message( Error *err )
{
}
virtual void OutputError( const_char *errBuf )
{
}
virtual void OutputInfo( char level, const_char *data )
{
}
virtual void OutputBinary( const_char *data, int length )
{
}
virtual void OutputText( const_char *data, int length )
{
}
};
static CSetCounterUser g_SetCounterUser;
static CCountersUser g_CountersUser;
typedef enum
{
MUTEX_QUERY = 0,
MUTEX_LOCK,
MUTEX_RELEASE,
} MUTEXACTION;
static void printusage( char const *basefile )
{
printf( "usage: %s \n\
\t< query | release | lock > <branchname> <sleepseconds> <clientname> [<ip:port>]\n\
\te.g.:\n\
\t%s query src_main 3 yahn\n\
\t%s query\n\
", basefile, basefile, basefile );
}
struct CUtlSymbol
{
public:
CUtlSymbol()
{
m_szValue[ 0 ] = 0;
}
CUtlSymbol& operator =( const char * lhs )
{
Q_strncpy( m_szValue, lhs, sizeof( m_szValue ) );
return *this;
}
char const *String()
{
return m_szValue;
}
private:
char m_szValue[ 256 ];
};
int FindLockUsers( CCountersUser& counters, char const *branchspec, std::vector< CUtlSymbol >& users, std::vector< int >& locktimes, std::vector< CUtlSymbol >* branchnames = NULL )
{
users.RemoveAll();
char lockstr[ 256 ];
if ( branchspec != NULL )
{
Q_snprintf( lockstr, sizeof( lockstr ), "%s_lock_", branchspec );
}
else
{
Q_snprintf( lockstr, sizeof( lockstr ), "_lock_", branchspec );
}
counters.RetrieveCounters();
std::vector< CP4Counter >& list = counters.GetData();
int count = list.Count();
for ( int i = 0; i < count; ++i )
{
char const *name = list[ i ].GetCounterName();
int value = list[ i ].GetValue();
char const *p = Q_stristr( name, lockstr );
if ( !p )
continue;
if ( value != 0 )
{
CUtlSymbol sym;
sym = p + Q_strlen( lockstr );
users.AddToTail( sym );
locktimes.AddToTail( value );
if ( branchnames )
{
char branchname[ 512 ];
Q_strncpy( branchname, name, p - name + 1 );
CUtlSymbol sym;
sym = branchname;
branchnames->AddToTail( sym );
}
}
}
return users.Count();
}
static void GetHourMinuteSecondsString( int nInputSeconds, char *pOut, int outLen )
{
int nMinutes = nInputSeconds / 60;
int nSeconds = nInputSeconds - nMinutes * 60;
int nHours = nMinutes / 60;
nMinutes -= nHours * 60;
char *extra[2] = { "", "s" };
if ( nHours > 0 )
Q_snprintf( pOut, outLen, "%d hour%s, %d minute%s, %d second%s", nHours, extra[nHours != 1], nMinutes, extra[nMinutes != 1], nSeconds, extra[nSeconds != 1] );
else if ( nMinutes > 0 )
Q_snprintf( pOut, outLen, "%d minute%s, %d second%s", nMinutes, extra[nMinutes != 1], nSeconds, extra[nSeconds != 1] );
else
Q_snprintf( pOut, outLen, "%d second%s", nSeconds, extra[nSeconds != 1] );
}
static void ComputeHoldTime( int holdtime, char *buf, size_t bufsize )
{
buf[ 0 ] = 0;
if ( holdtime < 100 )
{
Q_snprintf( buf, bufsize, "UNKNOWN" );
}
else
{
// Prepend the time.
time_t aclock = (time_t)holdtime;
struct tm *newtime = localtime( &aclock );
// Get rid of the \n.
Q_strncpy( buf, asctime( newtime ), bufsize );
char *pEnd = (char *)Q_stristr( buf, "\n" );
if ( pEnd )
{
*pEnd = 0;
}
time_t curtime;
time( &curtime );
int holdSeconds = curtime - holdtime;
if ( holdSeconds > 0 )
{
char durstring[ 256 ];
durstring[ 0 ] = 0;
GetHourMinuteSecondsString( holdSeconds, durstring, sizeof( durstring ) );
Q_strncat( buf, ", held for ", bufsize, COPY_ALL_CHARACTERS );
Q_strncat( buf, durstring, bufsize, COPY_ALL_CHARACTERS );
}
}
}
int _tmain(int argc, _TCHAR* argv[])
{
char basefile[ 256 ];
Q_FileBase( argv[ 0 ], basefile, sizeof( basefile ) );
bool validAction = false;
MUTEXACTION action = MUTEX_QUERY;
bool validBranch = false;
CUtlSymbol branchspec;
bool validSleepSeconds = false;
int sleepSeconds = 1;
bool validClient = false;
CUtlSymbol clientname;
bool validIP = false;
CUtlSymbol ipport;
for ( int i = 1; i < argc; ++i )
{
switch ( i )
{
default:
break;
case 1:
validAction = true;
if ( !Q_stricmp( argv[ i ], "query" ) )
{
action = MUTEX_QUERY;
}
else if ( !Q_stricmp( argv[ i ], "release" ) )
{
action = MUTEX_RELEASE;
}
else if ( !Q_stricmp( argv[ i ], "lock" ) )
{
action = MUTEX_LOCK;
}
else
{
validAction = false;
}
break;
case 2:
{
validBranch = true;
branchspec = argv[ i ];
}
break;
case 3:
{
validSleepSeconds = true;
sleepSeconds = clamp( Q_atoi( argv[ i ] ), 0, 100 );
}
break;
case 4:
{
validClient = true;
clientname = argv[ i ];
}
break;
case 5:
{
validIP = true;
ipport = argv[ i ];
}
break;
}
}
bool describeLocksOnly = false;
if ( !validBranch ||
!validSleepSeconds ||
!validClient ||
!validIP )
{
if ( !validAction || action != MUTEX_QUERY )
{
printusage( basefile );
return -1;
}
describeLocksOnly = true;
sleepSeconds = 5;
}
// set the protocol return all data as key/value pairs
client.SetProtocol( "tag", "" );
// connect to the p4 server
Error e;
if ( ipport.String()[ 0 ] )
{
client.SetPort( ipport.String() );
}
if ( clientname.String()[ 0 ] )
{
client.SetUser( clientname.String() );
}
client.Init( &e );
bool connected = ( e.Test() == 0 ) ? true : false;
if ( !connected )
{
printf( "Unable to connect to perforce server\n" );
return -1;
}
if ( describeLocksOnly )
{
std::vector< CUtlSymbol > users;
std::vector< int > locktimes;
std::vector< CUtlSymbol > branchnames;
int holdCount = FindLockUsers( g_CountersUser, NULL, users, locktimes, &branchnames );
for ( int i = 0; i < holdCount; ++i )
{
char timestr[ 128 ];
ComputeHoldTime( locktimes[ i ], timestr, sizeof( timestr ) );
printf( "'%s' HELD by: %s\n\ttime: %s\n", branchnames[ i ].String(), users[ i ].String(), timestr );
}
}
else
{
std::vector< CUtlSymbol > users;
std::vector< int > locktimes;
int holdCount = FindLockUsers( g_CountersUser, branchspec.String(), users, locktimes );
if ( holdCount >= 2 )
{
char userlist[ 1024 ];
userlist[ 0 ] = 0;
for ( int i = 0; i < (int)users.Count(); ++i )
{
Q_strncat( userlist, users[ i ].String(), sizeof( userlist ), COPY_ALL_CHARACTERS );
if ( i != users.Count() - 1 )
{
Q_strncat( userlist, ", ", sizeof( userlist ), COPY_ALL_CHARACTERS );
}
}
printf( "%s: ERROR, multiple users (%s) holding lock on '%s'\n", basefile, userlist, branchspec.String() );
printusage( basefile );
return -1;
}
char setcountername[ 256 ];
Q_snprintf( setcountername, sizeof( setcountername ), "%s_lock_%s", branchspec.String(), clientname.String() );
switch ( action )
{
default:
break;
case MUTEX_QUERY:
{
if ( holdCount == 1 )
{
bool isHeldByLocal = false;
if ( !Q_stricmp( users[ 0 ].String(), clientname.String() ) )
{
isHeldByLocal = true;
}
char timestr[ 128 ];
ComputeHoldTime( locktimes[ 0 ], timestr, sizeof( timestr ) );
printf( "%s: '%s' lock on %s is HELD by: %s\nHOLD INFO: %s\n", basefile, branchspec.String(), ipport.String(), users[ 0 ].String(), timestr );
}
else if ( holdCount == 0 )
{
printf( "%s: '%s' lock on %s is FREE\n", basefile, branchspec.String(), ipport.String() );
}
}
break;
case MUTEX_LOCK:
{
printf( "%s: Attempting to lock the '%s' codeline for %s on %s\n\n", basefile, branchspec.String(), clientname.String(), ipport.String() );
// p4mutex: Attempting to lock the 'main_src' codeline for yahn on 207.173.178.12:1666.
if ( holdCount == 1 )
{
bool isHeldByLocal = false;
if ( !Q_stricmp( users[ 0 ].String(), clientname.String() ) )
{
isHeldByLocal = true;
}
char timestr[ 128 ];
ComputeHoldTime( locktimes[ 0 ], timestr, sizeof( timestr ) );
if ( isHeldByLocal )
{
// Success: You already have the 'main_src' codeline lock.
printf( "Success: You already have the '%s' codeline lock\nInfo: %s\n", branchspec.String(), timestr );
}
else
{
// Failed: 'main_goldsrc' lock currently owned by alfred
printf( "Failed: '%s' lock currently owned by %s\nInfo: %s\n", branchspec.String(), users[ 0 ].String(), timestr );
}
}
else if ( holdCount == 0 )
{
// Success: 'main_src' codeline lock granted to yahn.
// Set the counter
time_t aclock;
time( &aclock );
g_SetCounterUser.SetCounter( setcountername, (int)aclock );
printf( "Success: '%s' codeline lock granted to %s\n", branchspec.String(), clientname.String() );
}
}
break;
case MUTEX_RELEASE:
{
printf( "%s: Attempting to release the '%s' codeline for %s on %s\n\n", basefile, branchspec.String(), clientname.String(), ipport.String() );
// p4mutex: Attempting to release the 'main_src' codeline for yahn on 207.173.178.12:1666.
if ( holdCount == 1 )
{
bool isHeldByLocal = false;
if ( !Q_stricmp( users[ 0 ].String(), clientname.String() ) )
{
isHeldByLocal = true;
}
char timestr[ 128 ];
ComputeHoldTime( locktimes[ 0 ], timestr, sizeof( timestr ) );
if ( isHeldByLocal )
{
// Success: 'main_src' codeline lock released.
// Set the counter
g_SetCounterUser.SetCounter( setcountername, 0 );
printf( "Success: '%s' codeline lock released.\n", branchspec.String() );
}
else
{
// Failed: 'main_goldsrc' lock currently owned by alfred
printf( "Failed: '%s' lock currently owned by %s\nInfo: %s\n", branchspec.String(), users[ 0 ].String(), timestr );
}
}
else if ( holdCount == 0 )
{
// Success: The 'main_src' codeline lock is already free.
printf( "Success: The '%s' codeline lock is already free\n", branchspec.String() );
}
}
break;
}
}
if ( sleepSeconds > 0 )
{
time_t starttime;
time( &starttime );
int elapsed = 0;
do
{
time_t curtime;
time( &curtime );
elapsed = curtime - starttime;
Sleep( 50 );
} while ( elapsed < sleepSeconds && !kbhit() );
}
return 0;
}