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LogManager inline is gone

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Pete McNeil 4 years ago
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1 changed files with 0 additions and 122 deletions
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      snfLOGmgr.inline.hpp

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snfLOGmgr.inline.hpp View File

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// snfLOGmgr.inline.hpp
//
// (C) Copyright 2006 - 2009 ARM Research Labs, LLC.
// Inline methods for the snfLOGmgr

//// snfScanData ///////////////////////////////////////////////////////////////

inline int snfScanData::IPScanCount() { // Return the number of IPs.
return MyIPCount;
}

inline IPScanRecord& snfScanData::newIPScanRecord() { // Get the next free IP scan record.
if(MaxIPsPerMessage <= MyIPCount) { // Check that we have more records.
throw NoFreeIPScanRecords(); // If we do not then throw!
} // If we do have more records then
IPScanRecord& NewRecord = MyIPScanData[MyIPCount]; // Pick the next available one,
NewRecord.Ordinal = MyIPCount; // set the ordinal value,
++MyIPCount; // increase our count, and
return NewRecord; // return the one we picked.
}

inline IPScanRecord& snfScanData::IPScanData(int i) { // Return the IP scan record i.
if(MyIPCount <= i || 0 > i) { // First check that i is in bounds.
throw OutOfBounds(); // if it is not then throw!
} // If the record for [i] is available
return MyIPScanData[i]; // return it.
}

inline void snfScanData::drillPastOrdinal(int O) { // Sets Drill Down flag for IP record O.
if(0 <= O && O < MaxIPsPerMessage) { // If O is a useable Received ordinal
DrillDownFlags[O] = true; // then set the Drill Down Flag for O.
}
}

inline bool snfScanData::isDrillDownSource(IPScanRecord& X) { // True if we drill through this source.
if(
(0UL != myCallerForcedSourceIP) || // If the source IP has been forced by
(0UL != myHeaderDirectiveSourceIP) // the caller or by a header directive
) return false; // then drilldowns are disabled.
// Otherwise check for a drilldown flag.
return DrillDownFlags[X.Ordinal]; // Presuming X is valid, return the flag.
} // If X is not valid we may blow up!

inline IPScanRecord& snfScanData::SourceIPRecord(IPScanRecord& X) { // Sets the source IP record.
SourceIPOrdinal = X.Ordinal; // Here's the ordinal.
SourceIPFoundFlag = true; // Here's the truth flag.
return X; // Return what was set.
}

inline IPScanRecord& snfScanData::SourceIPRecord() { // Gets the source IP record.
return IPScanData(SourceIPOrdinal); // Return the IP record, or throw
} // OutOfBounds.

inline bool snfScanData::FoundSourceIP() { // True if the source IP record was set.
return SourceIPFoundFlag; // Return what the flag says.
}

inline snfIPRange snfScanData::SourceIPRange(snfIPRange R) { // Establish the IP range.
return (SourceIPRangeFlag = R); // set and return the value w/ R.
}

inline snfIPRange snfScanData::SourceIPRange() { // Gets the source IP detection range.
return SourceIPRangeFlag; // Return what the flag says.
}

inline IP4Address snfScanData::HeaderDirectiveSourceIP(IP4Address A) { // set Header directive source IP.
if(0UL == myHeaderDirectiveSourceIP) myHeaderDirectiveSourceIP = A; // If this value is not set, set it.
return myHeaderDirectiveSourceIP; // Return the value.
}

inline IP4Address snfScanData::HeaderDirectiveSourceIP() { // get Header directive source IP.
return myHeaderDirectiveSourceIP; // Return the current value.
}

inline IP4Address snfScanData::CallerForcedSourceIP(IP4Address A) { // set Caller forced source IP.
if(0UL == myCallerForcedSourceIP) myCallerForcedSourceIP = A; // If this value is not set, set it.
return myCallerForcedSourceIP; // Return the value.
}

inline IP4Address snfScanData::CallerForcedSourceIP() { // get Caller forced source IP.
return myCallerForcedSourceIP; // Return the current value.
}

//// snfLOGmgr /////////////////////////////////////////////////////////////////

inline void snfLOGmgr::updateActiveUTC(string ActiveUTC) { // Update Active Rulebase UTC.
ScopeMutex Freeze(MyMutex); // Protect the strings.
ActiveRulebaseUTC = ActiveUTC; // Update the active timestamp.
NewerRulebaseIsAvailable = false; // Update availability is now unknown.
}

inline void snfLOGmgr::updateAvailableUTC(string& AvailableRulebaseTimestamp) { // Changes update avialability stamp.
ScopeMutex Freeze(MyMutex); // Protect the strings.
AvailableRulebaseUTC = AvailableRulebaseTimestamp; // Store the new timestamp.
if(0 < AvailableRulebaseUTC.compare(ActiveRulebaseUTC)) { // If the available timestamp is newer
NewerRulebaseIsAvailable = true; // than the active then set the flag.
} else { // If it is not newer then
NewerRulebaseIsAvailable = false; // reset the flag.
}
}

inline string snfLOGmgr::ActiveRulebaseTimestamp() { // Get active rulebase timestamp.
ScopeMutex Freeze(MyMutex); // Protect the string.
return ActiveRulebaseUTC; // Return it.
}

inline string snfLOGmgr::AvailableRulebaseTimestamp() { // Get available rulebase timestamp.
ScopeMutex Freeze(MyMutex); // Protect the strings.
return AvailableRulebaseUTC; // Return the available timestamp.
}

inline bool snfLOGmgr::isUpdateAvailable() { // True if update is available.
return NewerRulebaseIsAvailable; // Return the flag's value.
}

inline int snfLOGmgr::LatestRuleID() { // Query the latest rule id.
return Status.LatestRuleID; // This simple value is atomic
} // so we can read it without the mutex.

inline int snfLOGmgr::RunningTime() { // Get the time we've been alive.
return (int) difftime(Timestamp(), StartupTime);
}

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