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#include "querymanager.hh"
// TODO(fusion): Support windows eventually?
#if OS_LINUX
# include <errno.h>
# include <signal.h>
# include <sys/random.h>
#else
# error "Operating system not currently supported."
#endif
// Shutdown Signal
int g_ShutdownSignal = 0;
// Time
int g_MonotonicTimeMS = 0;
// Database Config
char g_DatabaseFile[1024] = "tibia.db";
int g_MaxCachedStatements = 100;
// HostCache Config
int g_MaxCachedHostNames = 100;
int g_HostNameExpireTime = 30 * 60 * 1000; // milliseconds
// Connection Config
int g_UpdateRate = 20;
int g_QueryManagerPort = 7174;
char g_QueryManagerPassword[30] = "";
int g_MaxConnections = 50;
int g_MaxConnectionIdleTime = 60 * 1000; // milliseconds
int g_MaxConnectionPacketSize = (int)MB(1);
void LogAdd(const char *Prefix, const char *Format, ...){
char Entry[4096];
va_list ap;
va_start(ap, Format);
vsnprintf(Entry, sizeof(Entry), Format, ap);
va_end(ap);
if(!StringEmpty(Entry)){
struct tm LocalTime = GetLocalTime(time(NULL));
fprintf(stdout, "%04d/%02d/%02d %02d:%02d:%02d [%s] %s\n",
LocalTime.tm_year + 1900, LocalTime.tm_mon + 1, LocalTime.tm_mday,
LocalTime.tm_hour, LocalTime.tm_min, LocalTime.tm_sec,
Prefix, Entry);
}
}
void LogAddVerbose(const char *Prefix, const char *Function,
const char *File, int Line, const char *Format, ...){
char Entry[4096];
va_list ap;
va_start(ap, Format);
vsnprintf(Entry, sizeof(Entry), Format, ap);
va_end(ap);
if(!StringEmpty(Entry)){
(void)File;
(void)Line;
struct tm LocalTime = GetLocalTime(time(NULL));
fprintf(stdout, "%04d/%02d/%02d %02d:%02d:%02d [%s] %s: %s\n",
LocalTime.tm_year + 1900, LocalTime.tm_mon + 1, LocalTime.tm_mday,
LocalTime.tm_hour, LocalTime.tm_min, LocalTime.tm_sec,
Prefix, Function, Entry);
}
}
struct tm GetLocalTime(time_t t){
struct tm result;
#if COMPILER_MSVC
localtime_s(&result, &t);
#else
localtime_r(&t, &result);
#endif
return result;
}
int64 GetClockMonotonicMS(void){
#if OS_WINDOWS
LARGE_INTEGER Counter, Frequency;
QueryPerformanceCounter(&Counter);
QueryPerformanceFrequency(&Frequency);
return (int64)((Counter.QuadPart * 1000) / Frequency.QuadPart);
#else
struct timespec Time;
clock_gettime(CLOCK_MONOTONIC, &Time);
return ((int64)Time.tv_sec * 1000)
+ ((int64)Time.tv_nsec / 1000000);
#endif
}
void SleepMS(int64 DurationMS){
#if OS_WINDOWS
Sleep((DWORD)DurationMS);
#else
struct timespec Duration;
Duration.tv_sec = (time_t)(DurationMS / 1000);
Duration.tv_nsec = (long)((DurationMS % 1000) * 1000000);
nanosleep(&Duration, NULL);
#endif
}
void CryptoRandom(uint8 *Buffer, int Count){
#if 0 && OS_WINDOWS
// TODO(fusion): Not sure about this one.
if(BCryptGenRandom(NULL, Buffer, (ULONG)Count, BCRYPT_USE_SYSTEM_PREFERRED_RNG) != STATUS_SUCCESS){
PANIC("Failed to generate cryptographically safe random data.");
}
#else
// NOTE(fusion): This shouldn't fail unless the kernel doesn't implement the
// required system call, in which case we should have a fallback method. See
// `getrandom(2)` for the whole story.
if((int)getrandom(Buffer, Count, 0) != Count){
PANIC("Failed to generate cryptographically safe random data.");
}
#endif
}
int RoundSecondsToDays(int Seconds){
return (Seconds + 86399) / 86400;
}
bool StringEmpty(const char *String){
return String[0] == 0;
}
bool StringEq(const char *A, const char *B){
int Index = 0;
while(true){
if(A[Index] != B[Index]){
return false;
}else if(A[Index] == 0){
return true;
}
Index += 1;
}
}
bool StringEqCI(const char *A, const char *B){
int Index = 0;
while(true){
if(tolower(A[Index]) != tolower(B[Index])){
return false;
}else if(A[Index] == 0){
return true;
}
Index += 1;
}
}
bool StringCopyN(char *Dest, int DestCapacity, const char *Src, int SrcLength){
ASSERT(DestCapacity > 0);
bool Result = (SrcLength < DestCapacity);
if(Result && SrcLength > 0){
memcpy(Dest, Src, SrcLength);
Dest[SrcLength] = 0;
}else{
Dest[0] = 0;
}
return Result;
}
bool StringCopy(char *Dest, int DestCapacity, const char *Src){
// IMPORTANT(fusion): `sqlite3_column_text` may return NULL if the column is
// also NULL so we have an incentive to properly handle the case where `Src`
// is NULL.
int SrcLength = (Src != NULL ? (int)strlen(Src) : 0);
return StringCopyN(Dest, DestCapacity, Src, SrcLength);
}
bool ParseIPAddress(const char *String, int *OutAddr){
if(StringEmpty(String)){
LOG_ERR("Empty IP Address string");
return false;
}
int Addr[4];
if(sscanf(String, "%d.%d.%d.%d", &Addr[0], &Addr[1], &Addr[2], &Addr[3]) != 4){
LOG_ERR("Invalid IP Address format \"%s\"", String);
return false;
}
if(Addr[0] < 0 || Addr[0] > 0xFF
|| Addr[1] < 0 || Addr[1] > 0xFF
|| Addr[2] < 0 || Addr[2] > 0xFF
|| Addr[3] < 0 || Addr[3] > 0xFF){
LOG_ERR("Invalid IP Address \"%s\"", String);
return false;
}
if(OutAddr){
*OutAddr = ((int)Addr[0] << 24)
| ((int)Addr[1] << 16)
| ((int)Addr[2] << 8)
| ((int)Addr[3] << 0);
}
return true;
}
bool ReadBooleanConfig(bool *Dest, const char *Val){
ASSERT(Dest && Val);
*Dest = StringEqCI(Val, "true");
return *Dest || StringEqCI(Val, "false");
}
bool ReadIntegerConfig(int *Dest, const char *Val){
ASSERT(Dest && Val);
const char *ValEnd;
*Dest = (int)strtol(Val, (char**)&ValEnd, 0);
return ValEnd > Val;
}
bool ReadDurationConfig(int *Dest, const char *Val){
ASSERT(Dest && Val);
const char *Suffix;
*Dest = (int)strtol(Val, (char**)&Suffix, 0);
if(Suffix == Val){
return false;
}
while(Suffix[0] != 0 && isspace(Suffix[0])){
Suffix += 1;
}
if(Suffix[0] == 'S' || Suffix[0] == 's'){
*Dest *= (1000);
}else if(Suffix[0] == 'M' || Suffix[0] == 'm'){
*Dest *= (60 * 1000);
}else if(Suffix[0] == 'H' || Suffix[0] == 'h'){
*Dest *= (60 * 60 * 1000);
}
return true;
}
bool ReadSizeConfig(int *Dest, const char *Val){
ASSERT(Dest && Val);
const char *Suffix;
*Dest = (int)strtol(Val, (char**)&Suffix, 0);
if(Suffix == Val){
return false;
}
while(Suffix[0] != 0 && isspace(Suffix[0])){
Suffix += 1;
}
if(Suffix[0] == 'K' || Suffix[0] == 'k'){
*Dest *= (1024);
}else if(Suffix[0] == 'M' || Suffix[0] == 'm'){
*Dest *= (1024 * 1024);
}
return true;
}
bool ReadStringConfig(char *Dest, int DestCapacity, const char *Val){
ASSERT(Dest && DestCapacity > 0 && Val);
int ValStart = 0;
int ValEnd = (int)strlen(Val);
if(ValEnd >= 2){
if((Val[0] == '"' && Val[ValEnd - 1] == '"')
|| (Val[0] == '\'' && Val[ValEnd - 1] == '\'')
|| (Val[0] == '`' && Val[ValEnd - 1] == '`')){
ValStart += 1;
ValEnd -= 1;
}
}
return StringCopyN(Dest, DestCapacity,
&Val[ValStart], (ValEnd - ValStart));
}
bool ReadConfig(const char *FileName){
FILE *File = fopen(FileName, "rb");
if(File == NULL){
LOG_ERR("Failed to open config file \"%s\"", FileName);
return false;
}
bool EndOfFile = false;
for(int LineNumber = 1; !EndOfFile; LineNumber += 1){
char Line[1024];
int MaxLineSize = (int)sizeof(Line);
int LineSize = 0;
int KeyStart = -1;
int EqualPos = -1;
while(true){
int ch = fgetc(File);
if(ch == EOF || ch == '\n'){
if(ch == EOF){
EndOfFile = true;
}
break;
}
if(LineSize < MaxLineSize){
Line[LineSize] = (char)ch;
}
if(KeyStart == -1 && !isspace(ch)){
KeyStart = LineSize;
}
if(EqualPos == -1 && ch == '='){
EqualPos = LineSize;
}
LineSize += 1;
}
// NOTE(fusion): Check line size limit.
if(LineSize > MaxLineSize){
LOG_WARN("%s:%d: Exceeded line size limit of %d characters",
FileName, LineNumber, MaxLineSize);
continue;
}
// NOTE(fusion): Check empty line or comment.
if(KeyStart == -1 || Line[KeyStart] == '#'){
continue;
}
// NOTE(fusion): Check assignment.
if(EqualPos == -1){
LOG_WARN("%s:%d: No assignment found on non empty line",
FileName, LineNumber);
continue;
}
// NOTE(fusion): Check empty key.
int KeyEnd = EqualPos;
while(KeyEnd > KeyStart && isspace(Line[KeyEnd - 1])){
KeyEnd -= 1;
}
if(KeyStart == KeyEnd){
LOG_WARN("%s:%d: Empty key", FileName, LineNumber);
continue;
}
// NOTE(fusion): Check empty value.
int ValStart = EqualPos + 1;
int ValEnd = LineSize;
while(ValStart < ValEnd && isspace(Line[ValStart])){
ValStart += 1;
}
while(ValEnd > ValStart && isspace(Line[ValEnd - 1])){
ValEnd -= 1;
}
if(ValStart == ValEnd){
LOG_WARN("%s:%d: Empty value", FileName, LineNumber);
continue;
}
// NOTE(fusion): Parse KV pair.
char Key[256];
if(!StringCopyN(Key, (int)sizeof(Key), &Line[KeyStart], (KeyEnd - KeyStart))){
LOG_WARN("%s:%d: Exceeded key size limit of %d characters",
FileName, LineNumber, (int)(sizeof(Key) - 1));
continue;
}
char Val[256];
if(!StringCopyN(Val, (int)sizeof(Val), &Line[ValStart], (ValEnd - ValStart))){
LOG_WARN("%s:%d: Exceeded value size limit of %d characters",
FileName, LineNumber, (int)(sizeof(Val) - 1));
continue;
}
if(StringEqCI(Key, "DatabaseFile")){
ReadStringConfig(g_DatabaseFile, (int)sizeof(g_DatabaseFile), Val);
}else if(StringEqCI(Key, "MaxCachedStatements")){
ReadIntegerConfig(&g_MaxCachedStatements, Val);
}else if(StringEqCI(Key, "MaxCachedHostNames")){
ReadIntegerConfig(&g_MaxCachedHostNames, Val);
}else if(StringEqCI(Key, "HostNameExpireTime")){
ReadDurationConfig(&g_HostNameExpireTime, Val);
}else if(StringEqCI(Key, "UpdateRate")){
ReadIntegerConfig(&g_UpdateRate, Val);
}else if(StringEqCI(Key, "QueryManagerPort")){
ReadIntegerConfig(&g_QueryManagerPort, Val);
}else if(StringEqCI(Key, "QueryManagerPassword")){
ReadStringConfig(g_QueryManagerPassword, (int)sizeof(g_QueryManagerPassword), Val);
}else if(StringEqCI(Key, "MaxConnections")){
ReadIntegerConfig(&g_MaxConnections, Val);
}else if(StringEqCI(Key, "MaxConnectionIdleTime")){
ReadDurationConfig(&g_MaxConnectionIdleTime, Val);
}else if(StringEqCI(Key, "MaxConnectionPacketSize")){
ReadSizeConfig(&g_MaxConnectionPacketSize, Val);
}else{
LOG_WARN("Unknown config \"%s\"", Key);
}
}
fclose(File);
return true;
}
static bool SigHandler(int SigNr, sighandler_t Handler){
struct sigaction Action = {};
Action.sa_handler = Handler;
sigfillset(&Action.sa_mask);
if(sigaction(SigNr, &Action, NULL) == -1){
LOG_ERR("Failed to change handler for signal %d (%s): (%d) %s",
SigNr, sigdescr_np(SigNr), errno, strerrordesc_np(errno));
return false;
}
return true;
}
static void ShutdownHandler(int SigNr){
g_ShutdownSignal = SigNr;
}
int main(int argc, const char **argv){
(void)argc;
(void)argv;
g_ShutdownSignal = 0;
if(!SigHandler(SIGPIPE, SIG_IGN)
|| !SigHandler(SIGINT, ShutdownHandler)
|| !SigHandler(SIGTERM, ShutdownHandler)){
return EXIT_FAILURE;
}
int64 StartTime = GetClockMonotonicMS();
g_MonotonicTimeMS = 0;
LOG("Tibia Query Manager v0.1");
if(!ReadConfig("config.cfg")){
return EXIT_FAILURE;
}
if(!CheckSHA256()){
return EXIT_FAILURE;
}
atexit(ExitHostCache);
atexit(ExitDatabase);
atexit(ExitConnections);
if(!InitHostCache()
|| !InitDatabase()
|| !InitConnections()){
return EXIT_FAILURE;
}
LOG("Running at %d updates per second...", g_UpdateRate);
int64 UpdateInterval = 1000 / (int64)g_UpdateRate;
while(g_ShutdownSignal == 0){
int64 UpdateStart = GetClockMonotonicMS();
g_MonotonicTimeMS = (int)(UpdateStart - StartTime);
ProcessConnections();
int64 UpdateEnd = GetClockMonotonicMS();
int64 NextUpdate = UpdateStart + UpdateInterval;
if(NextUpdate > UpdateEnd){
SleepMS(NextUpdate - UpdateEnd);
}
}
LOG("Received signal %d (%s), shutting down...",
g_ShutdownSignal, sigdescr_np(g_ShutdownSignal));
return EXIT_SUCCESS;
}
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