获取进程列表和系统性能计数器信息

unit PerfInfo;

interface

uses

 Windows, SysUtils, Classes;

type

 TPerfCounter = record

   Counter: Integer;

   Value: TLargeInteger;

 end;

 TPerfCounters = Array of TPerfCounter;

 TPerfInstance = class

 private

   FName: string;

   FCounters: TPerfCounters;

 public

   property Name: string read FName;

   property Counters: TPerfCounters read FCounters;

 end;

 TPerfObject = class

 private

   FList: TList;

   FObjectID: DWORD;

   FMachine: string;

   function GetCount: Integer;

   function GetInstance(Index: Integer): TPerfInstance;

   procedure ReadInstances;

 public

   property ObjectID: DWORD read FObjectID;

   property Item[Index: Integer]: TPerfInstance

     read GetInstance; default;

   property Count: Integer read GetCount;

   constructor Create(const AMachine: string; AObjectID: DWORD);

   destructor Destroy; override;

 end;

procedure GetProcesses(const Machine: string; List: TStrings);

implementation

type

 PPerfDataBlock = ^TPerfDataBlock;

 TPerfDataBlock = record

   Signature: array[0..3] of WCHAR;

   LittleEndian: DWORD;

   Version: DWORD;

   Revision: DWORD;

   TotalByteLength: DWORD;

   HeaderLength: DWORD;

   NumObjectTypes: DWORD;

   DefaultObject: Longint;

   SystemTime: TSystemTime;

   PerfTime: TLargeInteger;

   PerfFreq: TLargeInteger;

   PerfTime100nSec: TLargeInteger;

   SystemNameLength: DWORD;

   SystemNameOffset: DWORD;

 end;

 PPerfObjectType = ^TPerfObjectType;

 TPerfObjectType = record

   TotalByteLength: DWORD;

   DefinitionLength: DWORD;

   HeaderLength: DWORD;

   ObjectNameTitleIndex: DWORD;

   ObjectNameTitle: LPWSTR;

   ObjectHelpTitleIndex: DWORD;

   ObjectHelpTitle: LPWSTR;

   DetailLevel: DWORD;

   NumCounters: DWORD;

   DefaultCounter: Longint;

   NumInstances: Longint;

   CodePage: DWORD;

   PerfTime: TLargeInteger;

   PerfFreq: TLargeInteger;

 end;

 PPerfCounterDefinition = ^TPerfCounterDefinition;

 TPerfCounterDefinition = record

   ByteLength: DWORD;

   CounterNameTitleIndex: DWORD;

   CounterNameTitle: LPWSTR;

   CounterHelpTitleIndex: DWORD;

   CounterHelpTitle: LPWSTR;

   DefaultScale: Longint;

   DetailLevel: DWORD;

   CounterType: DWORD;

   CounterSize: DWORD;

   CounterOffset: DWORD;

 end;

 PPerfInstanceDefinition = ^TPerfInstanceDefinition;

 TPerfInstanceDefinition = record

   ByteLength: DWORD;

   ParentObjectTitleIndex: DWORD;

   ParentObjectInstance: DWORD;

   UniqueID: Longint;

   NameOffset: DWORD;

   NameLength: DWORD;

 end;

 PPerfCounterBlock = ^TPerfCounterBlock;

 TPerfCounterBlock = record

   ByteLength: DWORD;

 end;

{Navigation helpers}

function FirstObject(PerfData: PPerfDataBlock): PPerfObjectType;

begin

 Result := PPerfObjectType(DWORD(PerfData) + PerfData.HeaderLength);

end;

function NextObject(PerfObj: PPerfObjectType): PPerfObjectType;

begin

 Result := PPerfObjectType(DWORD(PerfObj) + PerfObj.TotalByteLength);

end;

function FirstInstance(PerfObj: PPerfObjectType): PPerfInstanceDefinition;

begin

 Result := PPerfInstanceDefinition(DWORD(PerfObj) + PerfObj.DefinitionLength);

end;

function NextInstance(PerfInst: PPerfInstanceDefinition): PPerfInstanceDefinition;

var

 PerfCntrBlk: PPerfCounterBlock;

begin

 PerfCntrBlk := PPerfCounterBlock(DWORD(PerfInst) + PerfInst.ByteLength);

 Result := PPerfInstanceDefinition(DWORD(PerfCntrBlk) + PerfCntrBlk.ByteLength);

end;

function FirstCounter(PerfObj: PPerfObjectType): PPerfCounterDefinition;

begin

 Result := PPerfCounterDefinition(DWORD(PerfObj) + PerfObj.HeaderLength);

end;

function NextCounter(PerfCntr: PPerfCounterDefinition): PPerfCounterDefinition;

begin

 Result := PPerfCounterDefinition(DWORD(PerfCntr) + PerfCntr.ByteLength);

end;

{Registry helpers}

function GetPerformanceKey(const Machine: string): HKey;

var

 s: string;

begin

 Result := 0;

 if Length(Machine) = 0 then

   Result := HKEY_PERFORMANCE_DATA

 else

 begin

   s := Machine;

   if Pos('\\', s) <> 1 then

     s := '\\' + s;

   if RegConnectRegistry(PChar(s), HKEY_PERFORMANCE_DATA, Result) <> ERROR_SUCCESS then

     Result := 0;

 end;

end;

{TPerfObject}

constructor TPerfObject.Create(const AMachine: string; AObjectID: DWORD);

begin

 inherited Create;

 FList := TList.Create;

 FMachine := AMachine;

 FObjectID := AObjectID;

 ReadInstances;

end;

destructor TPerfObject.Destroy;

var

 i: Integer;

begin

 for i := 0 to FList.Count - 1 do

   TPerfInstance(FList[i]).Free;

 FList.Free;

 inherited Destroy;

end;

function TPerfObject.GetCount: Integer;

begin

 Result := FList.Count;

end;

function TPerfObject.GetInstance(Index: Integer): TPerfInstance;

begin

 Result := FList[Index];

end;

procedure TPerfObject.ReadInstances;

var

 PerfData: PPerfDataBlock;

 PerfObj: PPerfObjectType;

 PerfInst: PPerfInstanceDefinition;

 PerfCntr, CurCntr: PPerfCounterDefinition;

 PtrToCntr: PPerfCounterBlock;

 BufferSize: Integer;

 i, j, k: Integer;

 pData: PLargeInteger;

 Key: HKey;

 CurInstance: TPerfInstance;

begin

 for i := 0 to FList.Count - 1 do

   TPerfInstance(FList[i]).Free;

 FList.Clear;

 Key := GetPerformanceKey(FMachine);

 if Key = 0 then Exit;

 PerfData := nil;

 try

   {Allocate initial buffer for object information}

   BufferSize := 65536;

   GetMem(PerfData, BufferSize);

   {retrieve data}

   while RegQueryValueEx(Key,

     PChar(IntToStr(FObjectID)),  {Object name}

     nil, nil, Pointer(PerfData), @BufferSize) = ERROR_MORE_DATA do

   begin

     {buffer is too small}

     Inc(BufferSize, 1024);

     ReallocMem(PerfData, BufferSize);

   end;

   RegCloseKey(HKEY_PERFORMANCE_DATA);

   {Get the first object type}

   PerfObj := FirstObject(PerfData);

   {Process all objects}

   for i := 0 to PerfData.NumObjectTypes - 1 do

   begin

     {Check for requested object}

     if PerfObj.ObjectNameTitleIndex = FObjectID then

     begin

       {Get the first counter}

       PerfCntr := FirstCounter(PerfObj);

       if PerfObj.NumInstances > 0  then

       begin

         {Get the first instance}

         PerfInst := FirstInstance(PerfObj);

         {Retrieve all instances}

         for k := 0 to PerfObj.NumInstances - 1 do

         begin

           {Create entry for instance}

           CurInstance := TPerfInstance.Create;

           CurInstance.FName := WideCharToString(PWideChar(DWORD(PerfInst) +

                                                     PerfInst.NameOffset));

           FList.Add(CurInstance);

           CurCntr := PerfCntr;

           {Retrieve all counters}

           SetLength(CurInstance.FCounters, PerfObj.NumCounters);

           for j := 0 to PerfObj.NumCounters - 1 do

           begin

             PtrToCntr := PPerfCounterBlock(DWORD(PerfInst) + PerfInst.ByteLength);

             pData := Pointer(DWORD(PtrToCntr) + CurCntr.CounterOffset);

             {Add counter to array}

             CurInstance.FCounters[j].Counter := CurCntr.CounterNameTitleIndex;

             CurInstance.FCounters[j].Value := pData^;

             {Get the next counter}

             CurCntr := NextCounter(CurCntr);

           end;

           {Get the next instance.}

           PerfInst := NextInstance(PerfInst);

         end;

       end;

     end;

     {Get the next object type}

     PerfObj := NextObject(PerfObj);

   end;

 finally

   {Release buffer}

   FreeMem(PerfData);

   {Close remote registry handle}

   if Key <> HKEY_PERFORMANCE_DATA then

     RegCloseKey(Key);

 end;

end;

procedure GetProcesses(const Machine: string; List: TStrings);

var

 Processes: TPerfObject;

 i, j: Integer;

 ProcessID: DWORD;

begin

 Processes := nil;

 List.Clear;

 try

   Processes := TPerfObject.Create(Machine, 230);  {230 = Process}

   for i := 0 to Processes.Count - 1 do

     {Find process ID}

     for j := 0 to Length(Processes[i].Counters) - 1 do

       if (Processes[i].Counters[j].Counter = 784) then

       begin

         ProcessID := Processes[i].Counters[j].Value;

         if ProcessID <> 0 then

           List.AddObject(Processes[i].Name, Pointer(ProcessID));

         Break;

       end;

 finally

   Processes.Free;

 end;

end;

end.