open-consul/vendor/github.com/shirou/gopsutil/process/process_windows.go

976 lines
27 KiB
Go

// +build windows
package process
import (
"context"
"errors"
"fmt"
"os"
"strings"
"syscall"
"unsafe"
cpu "github.com/shirou/gopsutil/cpu"
"github.com/shirou/gopsutil/internal/common"
net "github.com/shirou/gopsutil/net"
"golang.org/x/sys/windows"
)
var (
modpsapi = windows.NewLazySystemDLL("psapi.dll")
procGetProcessMemoryInfo = modpsapi.NewProc("GetProcessMemoryInfo")
procGetProcessImageFileNameW = modpsapi.NewProc("GetProcessImageFileNameW")
advapi32 = windows.NewLazySystemDLL("advapi32.dll")
procLookupPrivilegeValue = advapi32.NewProc("LookupPrivilegeValueW")
procAdjustTokenPrivileges = advapi32.NewProc("AdjustTokenPrivileges")
procQueryFullProcessImageNameW = common.Modkernel32.NewProc("QueryFullProcessImageNameW")
procGetPriorityClass = common.Modkernel32.NewProc("GetPriorityClass")
procGetProcessIoCounters = common.Modkernel32.NewProc("GetProcessIoCounters")
procGetNativeSystemInfo = common.Modkernel32.NewProc("GetNativeSystemInfo")
processorArchitecture uint
)
type SystemProcessInformation struct {
NextEntryOffset uint64
NumberOfThreads uint64
Reserved1 [48]byte
Reserved2 [3]byte
UniqueProcessID uintptr
Reserved3 uintptr
HandleCount uint64
Reserved4 [4]byte
Reserved5 [11]byte
PeakPagefileUsage uint64
PrivatePageCount uint64
Reserved6 [6]uint64
}
type systemProcessorInformation struct {
ProcessorArchitecture uint16
ProcessorLevel uint16
ProcessorRevision uint16
Reserved uint16
ProcessorFeatureBits uint16
}
type systemInfo struct {
wProcessorArchitecture uint16
wReserved uint16
dwPageSize uint32
lpMinimumApplicationAddress uintptr
lpMaximumApplicationAddress uintptr
dwActiveProcessorMask uintptr
dwNumberOfProcessors uint32
dwProcessorType uint32
dwAllocationGranularity uint32
wProcessorLevel uint16
wProcessorRevision uint16
}
// Memory_info_ex is different between OSes
type MemoryInfoExStat struct {
}
type MemoryMapsStat struct {
}
// ioCounters is an equivalent representation of IO_COUNTERS in the Windows API.
// https://docs.microsoft.com/windows/win32/api/winnt/ns-winnt-io_counters
type ioCounters struct {
ReadOperationCount uint64
WriteOperationCount uint64
OtherOperationCount uint64
ReadTransferCount uint64
WriteTransferCount uint64
OtherTransferCount uint64
}
type processBasicInformation32 struct {
Reserved1 uint32
PebBaseAddress uint32
Reserved2 uint32
Reserved3 uint32
UniqueProcessId uint32
Reserved4 uint32
}
type processBasicInformation64 struct {
Reserved1 uint64
PebBaseAddress uint64
Reserved2 uint64
Reserved3 uint64
UniqueProcessId uint64
Reserved4 uint64
}
type winLUID struct {
LowPart winDWord
HighPart winLong
}
// LUID_AND_ATTRIBUTES
type winLUIDAndAttributes struct {
Luid winLUID
Attributes winDWord
}
// TOKEN_PRIVILEGES
type winTokenPriviledges struct {
PrivilegeCount winDWord
Privileges [1]winLUIDAndAttributes
}
type winLong int32
type winDWord uint32
func init() {
var systemInfo systemInfo
procGetNativeSystemInfo.Call(uintptr(unsafe.Pointer(&systemInfo)))
processorArchitecture = uint(systemInfo.wProcessorArchitecture)
// enable SeDebugPrivilege https://github.com/midstar/proci/blob/6ec79f57b90ba3d9efa2a7b16ef9c9369d4be875/proci_windows.go#L80-L119
handle, err := syscall.GetCurrentProcess()
if err != nil {
return
}
var token syscall.Token
err = syscall.OpenProcessToken(handle, 0x0028, &token)
if err != nil {
return
}
defer token.Close()
tokenPriviledges := winTokenPriviledges{PrivilegeCount: 1}
lpName := syscall.StringToUTF16("SeDebugPrivilege")
ret, _, _ := procLookupPrivilegeValue.Call(
0,
uintptr(unsafe.Pointer(&lpName[0])),
uintptr(unsafe.Pointer(&tokenPriviledges.Privileges[0].Luid)))
if ret == 0 {
return
}
tokenPriviledges.Privileges[0].Attributes = 0x00000002 // SE_PRIVILEGE_ENABLED
procAdjustTokenPrivileges.Call(
uintptr(token),
0,
uintptr(unsafe.Pointer(&tokenPriviledges)),
uintptr(unsafe.Sizeof(tokenPriviledges)),
0,
0)
}
func pidsWithContext(ctx context.Context) ([]int32, error) {
// inspired by https://gist.github.com/henkman/3083408
// and https://github.com/giampaolo/psutil/blob/1c3a15f637521ba5c0031283da39c733fda53e4c/psutil/arch/windows/process_info.c#L315-L329
var ret []int32
var read uint32 = 0
var psSize uint32 = 1024
const dwordSize uint32 = 4
for {
ps := make([]uint32, psSize)
if err := windows.EnumProcesses(ps, &read); err != nil {
return nil, err
}
if uint32(len(ps)) == read { // ps buffer was too small to host every results, retry with a bigger one
psSize += 1024
continue
}
for _, pid := range ps[:read/dwordSize] {
ret = append(ret, int32(pid))
}
return ret, nil
}
}
func PidExistsWithContext(ctx context.Context, pid int32) (bool, error) {
if pid == 0 { // special case for pid 0 System Idle Process
return true, nil
}
if pid < 0 {
return false, fmt.Errorf("invalid pid %v", pid)
}
if pid%4 != 0 {
// OpenProcess will succeed even on non-existing pid here https://devblogs.microsoft.com/oldnewthing/20080606-00/?p=22043
// so we list every pid just to be sure and be future-proof
pids, err := PidsWithContext(ctx)
if err != nil {
return false, err
}
for _, i := range pids {
if i == pid {
return true, err
}
}
return false, err
}
const STILL_ACTIVE = 259 // https://docs.microsoft.com/en-us/windows/win32/api/processthreadsapi/nf-processthreadsapi-getexitcodeprocess
h, err := windows.OpenProcess(windows.PROCESS_QUERY_LIMITED_INFORMATION, false, uint32(pid))
if err == windows.ERROR_ACCESS_DENIED {
return true, nil
}
if err == windows.ERROR_INVALID_PARAMETER {
return false, nil
}
if err != nil {
return false, err
}
defer syscall.CloseHandle(syscall.Handle(h))
var exitCode uint32
err = windows.GetExitCodeProcess(h, &exitCode)
return exitCode == STILL_ACTIVE, err
}
func (p *Process) Ppid() (int32, error) {
return p.PpidWithContext(context.Background())
}
func (p *Process) PpidWithContext(ctx context.Context) (int32, error) {
ppid, _, _, err := getFromSnapProcess(p.Pid)
if err != nil {
return 0, err
}
return ppid, nil
}
func (p *Process) Name() (string, error) {
return p.NameWithContext(context.Background())
}
func (p *Process) NameWithContext(ctx context.Context) (string, error) {
_, _, name, err := getFromSnapProcess(p.Pid)
if err != nil {
return "", fmt.Errorf("could not get Name: %s", err)
}
return name, nil
}
func (p *Process) Tgid() (int32, error) {
return 0, common.ErrNotImplementedError
}
func (p *Process) Exe() (string, error) {
return p.ExeWithContext(context.Background())
}
func (p *Process) ExeWithContext(ctx context.Context) (string, error) {
c, err := windows.OpenProcess(windows.PROCESS_QUERY_LIMITED_INFORMATION, false, uint32(p.Pid))
if err != nil {
return "", err
}
defer windows.CloseHandle(c)
buf := make([]uint16, syscall.MAX_LONG_PATH)
size := uint32(syscall.MAX_LONG_PATH)
if err := procQueryFullProcessImageNameW.Find(); err == nil { // Vista+
ret, _, err := procQueryFullProcessImageNameW.Call(
uintptr(c),
uintptr(0),
uintptr(unsafe.Pointer(&buf[0])),
uintptr(unsafe.Pointer(&size)))
if ret == 0 {
return "", err
}
return windows.UTF16ToString(buf[:]), nil
}
// XP fallback
ret, _, err := procGetProcessImageFileNameW.Call(uintptr(c), uintptr(unsafe.Pointer(&buf[0])), uintptr(size))
if ret == 0 {
return "", err
}
return common.ConvertDOSPath(windows.UTF16ToString(buf[:])), nil
}
func (p *Process) Cmdline() (string, error) {
return p.CmdlineWithContext(context.Background())
}
func (p *Process) CmdlineWithContext(_ context.Context) (string, error) {
cmdline, err := getProcessCommandLine(p.Pid)
if err != nil {
return "", fmt.Errorf("could not get CommandLine: %s", err)
}
return cmdline, nil
}
// CmdlineSlice returns the command line arguments of the process as a slice with each
// element being an argument. This merely returns the CommandLine informations passed
// to the process split on the 0x20 ASCII character.
func (p *Process) CmdlineSlice() ([]string, error) {
return p.CmdlineSliceWithContext(context.Background())
}
func (p *Process) CmdlineSliceWithContext(ctx context.Context) ([]string, error) {
cmdline, err := p.CmdlineWithContext(ctx)
if err != nil {
return nil, err
}
return strings.Split(cmdline, " "), nil
}
func (p *Process) createTimeWithContext(ctx context.Context) (int64, error) {
ru, err := getRusage(p.Pid)
if err != nil {
return 0, fmt.Errorf("could not get CreationDate: %s", err)
}
return ru.CreationTime.Nanoseconds() / 1000000, nil
}
func (p *Process) Cwd() (string, error) {
return p.CwdWithContext(context.Background())
}
func (p *Process) CwdWithContext(ctx context.Context) (string, error) {
return "", common.ErrNotImplementedError
}
func (p *Process) Parent() (*Process, error) {
return p.ParentWithContext(context.Background())
}
func (p *Process) ParentWithContext(ctx context.Context) (*Process, error) {
ppid, err := p.PpidWithContext(ctx)
if err != nil {
return nil, fmt.Errorf("could not get ParentProcessID: %s", err)
}
return NewProcess(ppid)
}
func (p *Process) Status() (string, error) {
return p.StatusWithContext(context.Background())
}
func (p *Process) StatusWithContext(ctx context.Context) (string, error) {
return "", common.ErrNotImplementedError
}
func (p *Process) Foreground() (bool, error) {
return p.ForegroundWithContext(context.Background())
}
func (p *Process) ForegroundWithContext(ctx context.Context) (bool, error) {
return false, common.ErrNotImplementedError
}
func (p *Process) Username() (string, error) {
return p.UsernameWithContext(context.Background())
}
func (p *Process) UsernameWithContext(ctx context.Context) (string, error) {
pid := p.Pid
c, err := windows.OpenProcess(windows.PROCESS_QUERY_LIMITED_INFORMATION, false, uint32(pid))
if err != nil {
return "", err
}
defer windows.CloseHandle(c)
var token syscall.Token
err = syscall.OpenProcessToken(syscall.Handle(c), syscall.TOKEN_QUERY, &token)
if err != nil {
return "", err
}
defer token.Close()
tokenUser, err := token.GetTokenUser()
if err != nil {
return "", err
}
user, domain, _, err := tokenUser.User.Sid.LookupAccount("")
return domain + "\\" + user, err
}
func (p *Process) Uids() ([]int32, error) {
return p.UidsWithContext(context.Background())
}
func (p *Process) UidsWithContext(ctx context.Context) ([]int32, error) {
var uids []int32
return uids, common.ErrNotImplementedError
}
func (p *Process) Gids() ([]int32, error) {
return p.GidsWithContext(context.Background())
}
func (p *Process) GidsWithContext(ctx context.Context) ([]int32, error) {
var gids []int32
return gids, common.ErrNotImplementedError
}
func (p *Process) Terminal() (string, error) {
return p.TerminalWithContext(context.Background())
}
func (p *Process) TerminalWithContext(ctx context.Context) (string, error) {
return "", common.ErrNotImplementedError
}
// priorityClasses maps a win32 priority class to its WMI equivalent Win32_Process.Priority
// https://docs.microsoft.com/en-us/windows/desktop/api/processthreadsapi/nf-processthreadsapi-getpriorityclass
// https://docs.microsoft.com/en-us/windows/desktop/cimwin32prov/win32-process
var priorityClasses = map[int]int32{
0x00008000: 10, // ABOVE_NORMAL_PRIORITY_CLASS
0x00004000: 6, // BELOW_NORMAL_PRIORITY_CLASS
0x00000080: 13, // HIGH_PRIORITY_CLASS
0x00000040: 4, // IDLE_PRIORITY_CLASS
0x00000020: 8, // NORMAL_PRIORITY_CLASS
0x00000100: 24, // REALTIME_PRIORITY_CLASS
}
// Nice returns priority in Windows
func (p *Process) Nice() (int32, error) {
return p.NiceWithContext(context.Background())
}
func (p *Process) NiceWithContext(ctx context.Context) (int32, error) {
c, err := windows.OpenProcess(windows.PROCESS_QUERY_LIMITED_INFORMATION, false, uint32(p.Pid))
if err != nil {
return 0, err
}
defer windows.CloseHandle(c)
ret, _, err := procGetPriorityClass.Call(uintptr(c))
if ret == 0 {
return 0, err
}
priority, ok := priorityClasses[int(ret)]
if !ok {
return 0, fmt.Errorf("unknown priority class %v", ret)
}
return priority, nil
}
func (p *Process) IOnice() (int32, error) {
return p.IOniceWithContext(context.Background())
}
func (p *Process) IOniceWithContext(ctx context.Context) (int32, error) {
return 0, common.ErrNotImplementedError
}
func (p *Process) Rlimit() ([]RlimitStat, error) {
return p.RlimitWithContext(context.Background())
}
func (p *Process) RlimitWithContext(ctx context.Context) ([]RlimitStat, error) {
var rlimit []RlimitStat
return rlimit, common.ErrNotImplementedError
}
func (p *Process) RlimitUsage(gatherUsed bool) ([]RlimitStat, error) {
return p.RlimitUsageWithContext(context.Background(), gatherUsed)
}
func (p *Process) RlimitUsageWithContext(ctx context.Context, gatherUsed bool) ([]RlimitStat, error) {
var rlimit []RlimitStat
return rlimit, common.ErrNotImplementedError
}
func (p *Process) IOCounters() (*IOCountersStat, error) {
return p.IOCountersWithContext(context.Background())
}
func (p *Process) IOCountersWithContext(ctx context.Context) (*IOCountersStat, error) {
c, err := windows.OpenProcess(windows.PROCESS_QUERY_LIMITED_INFORMATION, false, uint32(p.Pid))
if err != nil {
return nil, err
}
defer windows.CloseHandle(c)
var ioCounters ioCounters
ret, _, err := procGetProcessIoCounters.Call(uintptr(c), uintptr(unsafe.Pointer(&ioCounters)))
if ret == 0 {
return nil, err
}
stats := &IOCountersStat{
ReadCount: ioCounters.ReadOperationCount,
ReadBytes: ioCounters.ReadTransferCount,
WriteCount: ioCounters.WriteOperationCount,
WriteBytes: ioCounters.WriteTransferCount,
}
return stats, nil
}
func (p *Process) NumCtxSwitches() (*NumCtxSwitchesStat, error) {
return p.NumCtxSwitchesWithContext(context.Background())
}
func (p *Process) NumCtxSwitchesWithContext(ctx context.Context) (*NumCtxSwitchesStat, error) {
return nil, common.ErrNotImplementedError
}
func (p *Process) NumFDs() (int32, error) {
return p.NumFDsWithContext(context.Background())
}
func (p *Process) NumFDsWithContext(ctx context.Context) (int32, error) {
return 0, common.ErrNotImplementedError
}
func (p *Process) NumThreads() (int32, error) {
return p.NumThreadsWithContext(context.Background())
}
func (p *Process) NumThreadsWithContext(ctx context.Context) (int32, error) {
_, ret, _, err := getFromSnapProcess(p.Pid)
if err != nil {
return 0, err
}
return ret, nil
}
func (p *Process) Threads() (map[int32]*cpu.TimesStat, error) {
return p.ThreadsWithContext(context.Background())
}
func (p *Process) ThreadsWithContext(ctx context.Context) (map[int32]*cpu.TimesStat, error) {
ret := make(map[int32]*cpu.TimesStat)
return ret, common.ErrNotImplementedError
}
func (p *Process) Times() (*cpu.TimesStat, error) {
return p.TimesWithContext(context.Background())
}
func (p *Process) TimesWithContext(ctx context.Context) (*cpu.TimesStat, error) {
sysTimes, err := getProcessCPUTimes(p.Pid)
if err != nil {
return nil, err
}
// User and kernel times are represented as a FILETIME structure
// which contains a 64-bit value representing the number of
// 100-nanosecond intervals since January 1, 1601 (UTC):
// http://msdn.microsoft.com/en-us/library/ms724284(VS.85).aspx
// To convert it into a float representing the seconds that the
// process has executed in user/kernel mode I borrowed the code
// below from psutil's _psutil_windows.c, and in turn from Python's
// Modules/posixmodule.c
user := float64(sysTimes.UserTime.HighDateTime)*429.4967296 + float64(sysTimes.UserTime.LowDateTime)*1e-7
kernel := float64(sysTimes.KernelTime.HighDateTime)*429.4967296 + float64(sysTimes.KernelTime.LowDateTime)*1e-7
return &cpu.TimesStat{
User: user,
System: kernel,
}, nil
}
func (p *Process) CPUAffinity() ([]int32, error) {
return p.CPUAffinityWithContext(context.Background())
}
func (p *Process) CPUAffinityWithContext(ctx context.Context) ([]int32, error) {
return nil, common.ErrNotImplementedError
}
func (p *Process) MemoryInfo() (*MemoryInfoStat, error) {
return p.MemoryInfoWithContext(context.Background())
}
func (p *Process) MemoryInfoWithContext(ctx context.Context) (*MemoryInfoStat, error) {
mem, err := getMemoryInfo(p.Pid)
if err != nil {
return nil, err
}
ret := &MemoryInfoStat{
RSS: uint64(mem.WorkingSetSize),
VMS: uint64(mem.PagefileUsage),
}
return ret, nil
}
func (p *Process) MemoryInfoEx() (*MemoryInfoExStat, error) {
return p.MemoryInfoExWithContext(context.Background())
}
func (p *Process) MemoryInfoExWithContext(ctx context.Context) (*MemoryInfoExStat, error) {
return nil, common.ErrNotImplementedError
}
func (p *Process) PageFaults() (*PageFaultsStat, error) {
return p.PageFaultsWithContext(context.Background())
}
func (p *Process) PageFaultsWithContext(ctx context.Context) (*PageFaultsStat, error) {
return nil, common.ErrNotImplementedError
}
func (p *Process) Children() ([]*Process, error) {
return p.ChildrenWithContext(context.Background())
}
func (p *Process) ChildrenWithContext(ctx context.Context) ([]*Process, error) {
out := []*Process{}
snap, err := windows.CreateToolhelp32Snapshot(windows.TH32CS_SNAPPROCESS, uint32(0))
if err != nil {
return out, err
}
defer windows.CloseHandle(snap)
var pe32 windows.ProcessEntry32
pe32.Size = uint32(unsafe.Sizeof(pe32))
if err := windows.Process32First(snap, &pe32); err != nil {
return out, err
}
for {
if pe32.ParentProcessID == uint32(p.Pid) {
p, err := NewProcess(int32(pe32.ProcessID))
if err == nil {
out = append(out, p)
}
}
if err = windows.Process32Next(snap, &pe32); err != nil {
break
}
}
return out, nil
}
func (p *Process) OpenFiles() ([]OpenFilesStat, error) {
return p.OpenFilesWithContext(context.Background())
}
func (p *Process) OpenFilesWithContext(ctx context.Context) ([]OpenFilesStat, error) {
return nil, common.ErrNotImplementedError
}
func (p *Process) Connections() ([]net.ConnectionStat, error) {
return p.ConnectionsWithContext(context.Background())
}
func (p *Process) ConnectionsWithContext(ctx context.Context) ([]net.ConnectionStat, error) {
return net.ConnectionsPidWithContext(ctx, "all", p.Pid)
}
func (p *Process) ConnectionsMax(max int) ([]net.ConnectionStat, error) {
return p.ConnectionsMaxWithContext(context.Background(), max)
}
func (p *Process) ConnectionsMaxWithContext(ctx context.Context, max int) ([]net.ConnectionStat, error) {
return []net.ConnectionStat{}, common.ErrNotImplementedError
}
func (p *Process) NetIOCounters(pernic bool) ([]net.IOCountersStat, error) {
return p.NetIOCountersWithContext(context.Background(), pernic)
}
func (p *Process) NetIOCountersWithContext(ctx context.Context, pernic bool) ([]net.IOCountersStat, error) {
return nil, common.ErrNotImplementedError
}
func (p *Process) MemoryMaps(grouped bool) (*[]MemoryMapsStat, error) {
return p.MemoryMapsWithContext(context.Background(), grouped)
}
func (p *Process) MemoryMapsWithContext(ctx context.Context, grouped bool) (*[]MemoryMapsStat, error) {
var ret []MemoryMapsStat
return &ret, common.ErrNotImplementedError
}
func (p *Process) SendSignal(sig windows.Signal) error {
return p.SendSignalWithContext(context.Background(), sig)
}
func (p *Process) SendSignalWithContext(ctx context.Context, sig windows.Signal) error {
return common.ErrNotImplementedError
}
func (p *Process) Suspend() error {
return p.SuspendWithContext(context.Background())
}
func (p *Process) SuspendWithContext(ctx context.Context) error {
return common.ErrNotImplementedError
}
func (p *Process) Resume() error {
return p.ResumeWithContext(context.Background())
}
func (p *Process) ResumeWithContext(ctx context.Context) error {
return common.ErrNotImplementedError
}
func (p *Process) Terminate() error {
return p.TerminateWithContext(context.Background())
}
func (p *Process) TerminateWithContext(ctx context.Context) error {
proc, err := windows.OpenProcess(windows.PROCESS_TERMINATE, false, uint32(p.Pid))
if err != nil {
return err
}
err = windows.TerminateProcess(proc, 0)
windows.CloseHandle(proc)
return err
}
func (p *Process) Kill() error {
return p.KillWithContext(context.Background())
}
func (p *Process) KillWithContext(ctx context.Context) error {
process := os.Process{Pid: int(p.Pid)}
return process.Kill()
}
func getFromSnapProcess(pid int32) (int32, int32, string, error) {
snap, err := windows.CreateToolhelp32Snapshot(windows.TH32CS_SNAPPROCESS, uint32(pid))
if err != nil {
return 0, 0, "", err
}
defer windows.CloseHandle(snap)
var pe32 windows.ProcessEntry32
pe32.Size = uint32(unsafe.Sizeof(pe32))
if err = windows.Process32First(snap, &pe32); err != nil {
return 0, 0, "", err
}
for {
if pe32.ProcessID == uint32(pid) {
szexe := windows.UTF16ToString(pe32.ExeFile[:])
return int32(pe32.ParentProcessID), int32(pe32.Threads), szexe, nil
}
if err = windows.Process32Next(snap, &pe32); err != nil {
break
}
}
return 0, 0, "", fmt.Errorf("couldn't find pid: %d", pid)
}
// Get processes
func Processes() ([]*Process, error) {
return ProcessesWithContext(context.Background())
}
func ProcessesWithContext(ctx context.Context) ([]*Process, error) {
out := []*Process{}
pids, err := PidsWithContext(ctx)
if err != nil {
return out, fmt.Errorf("could not get Processes %s", err)
}
for _, pid := range pids {
p, err := NewProcess(pid)
if err != nil {
continue
}
out = append(out, p)
}
return out, nil
}
func getRusage(pid int32) (*windows.Rusage, error) {
var CPU windows.Rusage
c, err := windows.OpenProcess(windows.PROCESS_QUERY_LIMITED_INFORMATION, false, uint32(pid))
if err != nil {
return nil, err
}
defer windows.CloseHandle(c)
if err := windows.GetProcessTimes(c, &CPU.CreationTime, &CPU.ExitTime, &CPU.KernelTime, &CPU.UserTime); err != nil {
return nil, err
}
return &CPU, nil
}
func getMemoryInfo(pid int32) (PROCESS_MEMORY_COUNTERS, error) {
var mem PROCESS_MEMORY_COUNTERS
c, err := windows.OpenProcess(windows.PROCESS_QUERY_LIMITED_INFORMATION, false, uint32(pid))
if err != nil {
return mem, err
}
defer windows.CloseHandle(c)
if err := getProcessMemoryInfo(c, &mem); err != nil {
return mem, err
}
return mem, err
}
func getProcessMemoryInfo(h windows.Handle, mem *PROCESS_MEMORY_COUNTERS) (err error) {
r1, _, e1 := syscall.Syscall(procGetProcessMemoryInfo.Addr(), 3, uintptr(h), uintptr(unsafe.Pointer(mem)), uintptr(unsafe.Sizeof(*mem)))
if r1 == 0 {
if e1 != 0 {
err = error(e1)
} else {
err = syscall.EINVAL
}
}
return
}
type SYSTEM_TIMES struct {
CreateTime syscall.Filetime
ExitTime syscall.Filetime
KernelTime syscall.Filetime
UserTime syscall.Filetime
}
func getProcessCPUTimes(pid int32) (SYSTEM_TIMES, error) {
var times SYSTEM_TIMES
h, err := windows.OpenProcess(windows.PROCESS_QUERY_LIMITED_INFORMATION, false, uint32(pid))
if err != nil {
return times, err
}
defer windows.CloseHandle(h)
err = syscall.GetProcessTimes(
syscall.Handle(h),
&times.CreateTime,
&times.ExitTime,
&times.KernelTime,
&times.UserTime,
)
return times, err
}
func is32BitProcess(procHandle syscall.Handle) bool {
var wow64 uint
ret, _, _ := common.ProcNtQueryInformationProcess.Call(
uintptr(procHandle),
uintptr(common.ProcessWow64Information),
uintptr(unsafe.Pointer(&wow64)),
uintptr(unsafe.Sizeof(wow64)),
uintptr(0),
)
if int(ret) >= 0 {
if wow64 != 0 {
return true
}
} else {
//if the OS does not support the call, we fallback into the bitness of the app
if unsafe.Sizeof(wow64) == 4 {
return true
}
}
return false
}
func getProcessCommandLine(pid int32) (string, error) {
h, err := windows.OpenProcess(windows.PROCESS_QUERY_LIMITED_INFORMATION | windows.PROCESS_VM_READ, false, uint32(pid))
if err == windows.ERROR_ACCESS_DENIED || err == windows.ERROR_INVALID_PARAMETER {
return "", nil
}
if err != nil {
return "", err
}
defer syscall.CloseHandle(syscall.Handle(h))
const (
PROCESSOR_ARCHITECTURE_INTEL = 0
PROCESSOR_ARCHITECTURE_ARM = 5
PROCESSOR_ARCHITECTURE_ARM64 = 12
PROCESSOR_ARCHITECTURE_IA64 = 6
PROCESSOR_ARCHITECTURE_AMD64 = 9
)
procIs32Bits := true
switch processorArchitecture {
case PROCESSOR_ARCHITECTURE_INTEL:
fallthrough
case PROCESSOR_ARCHITECTURE_ARM:
procIs32Bits = true
case PROCESSOR_ARCHITECTURE_ARM64:
fallthrough
case PROCESSOR_ARCHITECTURE_IA64:
fallthrough
case PROCESSOR_ARCHITECTURE_AMD64:
procIs32Bits = is32BitProcess(syscall.Handle(h))
default:
//for other unknown platforms, we rely on process platform
if unsafe.Sizeof(processorArchitecture) == 8 {
procIs32Bits = false
}
}
pebAddress := queryPebAddress(syscall.Handle(h), procIs32Bits)
if pebAddress == 0 {
return "", errors.New("cannot locate process PEB")
}
if procIs32Bits {
buf := readProcessMemory(syscall.Handle(h), procIs32Bits, pebAddress + uint64(16), 4)
if len(buf) != 4 {
return "", errors.New("cannot locate process user parameters")
}
userProcParams := uint64(buf[0]) | (uint64(buf[1]) << 8) | (uint64(buf[2]) << 16) | (uint64(buf[3]) << 24)
//read CommandLine field from PRTL_USER_PROCESS_PARAMETERS
remoteCmdLine := readProcessMemory(syscall.Handle(h), procIs32Bits, userProcParams + uint64(64), 8)
if len(remoteCmdLine) != 8 {
return "", errors.New("cannot read cmdline field")
}
//remoteCmdLine is actually a UNICODE_STRING32
//the first two bytes has the length
cmdLineLength := uint(remoteCmdLine[0]) | (uint(remoteCmdLine[1]) << 8)
if cmdLineLength > 0 {
//and, at offset 4, is the pointer to the buffer
bufferAddress := uint32(remoteCmdLine[4]) | (uint32(remoteCmdLine[5]) << 8) |
(uint32(remoteCmdLine[6]) << 16) | (uint32(remoteCmdLine[7]) << 24)
cmdLine := readProcessMemory(syscall.Handle(h), procIs32Bits, uint64(bufferAddress), cmdLineLength)
if len(cmdLine) != int(cmdLineLength) {
return "", errors.New("cannot read cmdline")
}
return convertUTF16ToString(cmdLine), nil
}
} else {
buf := readProcessMemory(syscall.Handle(h), procIs32Bits, pebAddress + uint64(32), 8)
if len(buf) != 8 {
return "", errors.New("cannot locate process user parameters")
}
userProcParams := uint64(buf[0]) | (uint64(buf[1]) << 8) | (uint64(buf[2]) << 16) | (uint64(buf[3]) << 24) |
(uint64(buf[4]) << 32) | (uint64(buf[5]) << 40) | (uint64(buf[6]) << 48) | (uint64(buf[7]) << 56)
//read CommandLine field from PRTL_USER_PROCESS_PARAMETERS
remoteCmdLine := readProcessMemory(syscall.Handle(h), procIs32Bits, userProcParams + uint64(112), 16)
if len(remoteCmdLine) != 16 {
return "", errors.New("cannot read cmdline field")
}
//remoteCmdLine is actually a UNICODE_STRING64
//the first two bytes has the length
cmdLineLength := uint(remoteCmdLine[0]) | (uint(remoteCmdLine[1]) << 8)
if cmdLineLength > 0 {
//and, at offset 8, is the pointer to the buffer
bufferAddress := uint64(remoteCmdLine[8]) | (uint64(remoteCmdLine[9]) << 8) |
(uint64(remoteCmdLine[10]) << 16) | (uint64(remoteCmdLine[11]) << 24) |
(uint64(remoteCmdLine[12]) << 32) | (uint64(remoteCmdLine[13]) << 40) |
(uint64(remoteCmdLine[14]) << 48) | (uint64(remoteCmdLine[15]) << 56)
cmdLine := readProcessMemory(syscall.Handle(h), procIs32Bits, bufferAddress, cmdLineLength)
if len(cmdLine) != int(cmdLineLength) {
return "", errors.New("cannot read cmdline")
}
return convertUTF16ToString(cmdLine), nil
}
}
//if we reach here, we have no command line
return "", nil
}
func convertUTF16ToString(src []byte) string {
srcLen := len(src) / 2
codePoints := make([]uint16, srcLen)
srcIdx := 0
for i := 0; i < srcLen; i++ {
codePoints[i] = uint16(src[srcIdx]) | uint16(src[srcIdx + 1] << 8)
srcIdx += 2
}
return syscall.UTF16ToString(codePoints)
}