mirror of
https://github.com/go-gitea/gitea.git
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74f0c84fa4
Noteable additions: - `redefines-builtin-id` forbid variable names that shadow go builtins - `empty-lines` remove unnecessary empty lines that `gofumpt` does not remove for some reason - `superfluous-else` eliminate more superfluous `else` branches Rules are also sorted alphabetically and I cleaned up various parts of `.golangci.yml`.
354 lines
10 KiB
Go
354 lines
10 KiB
Go
// Copyright 2022 The Gitea Authors. All rights reserved.
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// SPDX-License-Identifier: MIT
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package process
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import (
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"fmt"
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"io"
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"runtime/pprof"
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"sort"
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"time"
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"github.com/google/pprof/profile"
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)
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// StackEntry is an entry on a stacktrace
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type StackEntry struct {
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Function string
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File string
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Line int
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}
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// Label represents a pprof label assigned to goroutine stack
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type Label struct {
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Name string
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Value string
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}
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// Stack is a stacktrace relating to a goroutine. (Multiple goroutines may have the same stacktrace)
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type Stack struct {
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Count int64 // Number of goroutines with this stack trace
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Description string
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Labels []*Label `json:",omitempty"`
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Entry []*StackEntry `json:",omitempty"`
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}
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// A Process is a combined representation of a Process and a Stacktrace for the goroutines associated with it
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type Process struct {
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PID IDType
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ParentPID IDType
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Description string
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Start time.Time
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Type string
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Children []*Process `json:",omitempty"`
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Stacks []*Stack `json:",omitempty"`
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}
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// Processes gets the processes in a thread safe manner
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func (pm *Manager) Processes(flat, noSystem bool) ([]*Process, int) {
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pm.mutex.Lock()
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processCount := len(pm.processMap)
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processes := make([]*Process, 0, len(pm.processMap))
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if flat {
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for _, process := range pm.processMap {
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if noSystem && process.Type == SystemProcessType {
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continue
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}
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processes = append(processes, process.toProcess())
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}
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} else {
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// We need our own processMap
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processMap := map[IDType]*Process{}
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for _, internalProcess := range pm.processMap {
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process, ok := processMap[internalProcess.PID]
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if !ok {
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process = internalProcess.toProcess()
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processMap[process.PID] = process
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}
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// Check its parent
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if process.ParentPID == "" {
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processes = append(processes, process)
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continue
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}
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internalParentProcess, ok := pm.processMap[internalProcess.ParentPID]
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if ok {
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parentProcess, ok := processMap[process.ParentPID]
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if !ok {
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parentProcess = internalParentProcess.toProcess()
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processMap[parentProcess.PID] = parentProcess
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}
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parentProcess.Children = append(parentProcess.Children, process)
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continue
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}
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processes = append(processes, process)
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}
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}
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pm.mutex.Unlock()
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if !flat && noSystem {
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for i := 0; i < len(processes); i++ {
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process := processes[i]
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if process.Type != SystemProcessType {
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continue
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}
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processes[len(processes)-1], processes[i] = processes[i], processes[len(processes)-1]
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processes = append(processes[:len(processes)-1], process.Children...)
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i--
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}
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}
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// Sort by process' start time. Oldest process appears first.
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sort.Slice(processes, func(i, j int) bool {
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left, right := processes[i], processes[j]
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return left.Start.Before(right.Start)
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})
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return processes, processCount
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}
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// ProcessStacktraces gets the processes and stacktraces in a thread safe manner
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func (pm *Manager) ProcessStacktraces(flat, noSystem bool) ([]*Process, int, int64, error) {
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var stacks *profile.Profile
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var err error
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// We cannot use the pm.ProcessMap here because we will release the mutex ...
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processMap := map[IDType]*Process{}
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var processCount int
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// Lock the manager
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pm.mutex.Lock()
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processCount = len(pm.processMap)
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// Add a defer to unlock in case there is a panic
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unlocked := false
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defer func() {
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if !unlocked {
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pm.mutex.Unlock()
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}
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}()
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processes := make([]*Process, 0, len(pm.processMap))
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if flat {
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for _, internalProcess := range pm.processMap {
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process := internalProcess.toProcess()
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processMap[process.PID] = process
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if noSystem && internalProcess.Type == SystemProcessType {
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continue
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}
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processes = append(processes, process)
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}
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} else {
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for _, internalProcess := range pm.processMap {
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process, ok := processMap[internalProcess.PID]
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if !ok {
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process = internalProcess.toProcess()
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processMap[process.PID] = process
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}
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// Check its parent
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if process.ParentPID == "" {
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processes = append(processes, process)
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continue
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}
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internalParentProcess, ok := pm.processMap[internalProcess.ParentPID]
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if ok {
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parentProcess, ok := processMap[process.ParentPID]
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if !ok {
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parentProcess = internalParentProcess.toProcess()
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processMap[parentProcess.PID] = parentProcess
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}
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parentProcess.Children = append(parentProcess.Children, process)
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continue
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}
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processes = append(processes, process)
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}
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}
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// Now from within the lock we need to get the goroutines.
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// Why? If we release the lock then between between filling the above map and getting
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// the stacktraces another process could be created which would then look like a dead process below
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reader, writer := io.Pipe()
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defer reader.Close()
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go func() {
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err := pprof.Lookup("goroutine").WriteTo(writer, 0)
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_ = writer.CloseWithError(err)
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}()
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stacks, err = profile.Parse(reader)
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if err != nil {
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return nil, 0, 0, err
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}
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// Unlock the mutex
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pm.mutex.Unlock()
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unlocked = true
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goroutineCount := int64(0)
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// Now walk through the "Sample" slice in the goroutines stack
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for _, sample := range stacks.Sample {
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// In the "goroutine" pprof profile each sample represents one or more goroutines
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// with the same labels and stacktraces.
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// We will represent each goroutine by a `Stack`
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stack := &Stack{}
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// Add the non-process associated labels from the goroutine sample to the Stack
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for name, value := range sample.Label {
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if name == DescriptionPProfLabel || name == PIDPProfLabel || (!flat && name == PPIDPProfLabel) || name == ProcessTypePProfLabel {
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continue
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}
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// Labels from the "goroutine" pprof profile only have one value.
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// This is because the underlying representation is a map[string]string
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if len(value) != 1 {
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// Unexpected...
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return nil, 0, 0, fmt.Errorf("label: %s in goroutine stack with unexpected number of values: %v", name, value)
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}
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stack.Labels = append(stack.Labels, &Label{Name: name, Value: value[0]})
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}
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// The number of goroutines that this sample represents is the `stack.Value[0]`
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stack.Count = sample.Value[0]
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goroutineCount += stack.Count
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// Now we want to associate this Stack with a Process.
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var process *Process
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// Try to get the PID from the goroutine labels
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if pidvalue, ok := sample.Label[PIDPProfLabel]; ok && len(pidvalue) == 1 {
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pid := IDType(pidvalue[0])
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// Now try to get the process from our map
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process, ok = processMap[pid]
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if !ok && pid != "" {
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// This means that no process has been found in the process map - but there was a process PID
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// Therefore this goroutine belongs to a dead process and it has escaped control of the process as it
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// should have died with the process context cancellation.
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// We need to create a dead process holder for this process and label it appropriately
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// get the parent PID
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ppid := IDType("")
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if value, ok := sample.Label[PPIDPProfLabel]; ok && len(value) == 1 {
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ppid = IDType(value[0])
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}
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// format the description
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description := "(dead process)"
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if value, ok := sample.Label[DescriptionPProfLabel]; ok && len(value) == 1 {
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description = value[0] + " " + description
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}
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// override the type of the process to "code" but add the old type as a label on the first stack
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ptype := NoneProcessType
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if value, ok := sample.Label[ProcessTypePProfLabel]; ok && len(value) == 1 {
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stack.Labels = append(stack.Labels, &Label{Name: ProcessTypePProfLabel, Value: value[0]})
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}
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process = &Process{
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PID: pid,
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ParentPID: ppid,
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Description: description,
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Type: ptype,
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}
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// Now add the dead process back to the map and tree so we don't go back through this again.
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processMap[process.PID] = process
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added := false
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if process.ParentPID != "" && !flat {
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if parent, ok := processMap[process.ParentPID]; ok {
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parent.Children = append(parent.Children, process)
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added = true
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}
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}
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if !added {
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processes = append(processes, process)
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}
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}
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}
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if process == nil {
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// This means that the sample we're looking has no PID label
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var ok bool
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process, ok = processMap[""]
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if !ok {
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// this is the first time we've come acrross an unassociated goroutine so create a "process" to hold them
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process = &Process{
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Description: "(unassociated)",
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Type: NoneProcessType,
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}
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processMap[process.PID] = process
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processes = append(processes, process)
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}
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}
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// The sample.Location represents a stack trace for this goroutine,
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// however each Location can represent multiple lines (mostly due to inlining)
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// so we need to walk the lines too
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for _, location := range sample.Location {
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for _, line := range location.Line {
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entry := &StackEntry{
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Function: line.Function.Name,
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File: line.Function.Filename,
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Line: int(line.Line),
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}
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stack.Entry = append(stack.Entry, entry)
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}
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}
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// Now we need a short-descriptive name to call the stack trace if when it is folded and
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// assuming the stack trace has some lines we'll choose the bottom of the stack (i.e. the
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// initial function that started the stack trace.) The top of the stack is unlikely to
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// be very helpful as a lot of the time it will be runtime.select or some other call into
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// a std library.
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stack.Description = "(unknown)"
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if len(stack.Entry) > 0 {
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stack.Description = stack.Entry[len(stack.Entry)-1].Function
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}
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process.Stacks = append(process.Stacks, stack)
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}
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// restrict to not show system processes
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if noSystem {
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for i := 0; i < len(processes); i++ {
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process := processes[i]
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if process.Type != SystemProcessType && process.Type != NoneProcessType {
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continue
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}
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processes[len(processes)-1], processes[i] = processes[i], processes[len(processes)-1]
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processes = append(processes[:len(processes)-1], process.Children...)
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i--
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}
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}
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// Now finally re-sort the processes. Newest process appears first
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after := func(processes []*Process) func(i, j int) bool {
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return func(i, j int) bool {
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left, right := processes[i], processes[j]
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return left.Start.After(right.Start)
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}
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}
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sort.Slice(processes, after(processes))
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if !flat {
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var sortChildren func(process *Process)
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sortChildren = func(process *Process) {
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sort.Slice(process.Children, after(process.Children))
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for _, child := range process.Children {
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sortChildren(child)
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}
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}
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}
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return processes, processCount, goroutineCount, err
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}
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