event/source.go - exp - Git at Google

 // Copyright 2019 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 //go:build !disable_events
 // +build !disable_events

 package event

 import (
 	"reflect"
 	"runtime"
 	"sort"
 	"strings"
 )

 const (
 	// this is the maximum amount of helpers we scan past to find a non helper
 	helperDepthLimit = 5
 )

 type sources struct {
 	entries []caller
 }

 type Source struct {
 	Space string
 	Owner string
 	Name  string
 }

 type caller struct {
 	helper bool
 	pc     uintptr
 	source Source
 }

 var globalCallers chan *sources

 // RegisterHelper records a function as being an event helper that should not
 // be used when capturing the source information on events.
 // v should be either a string or a function pointer.
 // If v is a string it is of the form
 //
 //	Space.Owner.Name
 //
 // where Owner and Name cannot contain '/' and Name also cannot contain '.'
 func RegisterHelper(v interface{}) {
 	g := <-globalCallers
 	defer func() { globalCallers <- g }()
 	switch v := v.(type) {
 	case string:
 		g.entries = append(g.entries, caller{source: splitName(v), helper: true})
 	default:
 		g.helperFunction(v)
 	}
 }

 func init() {
 	g := &sources{}
 	// make all entries in the event package helpers
 	globalCallers = make(chan *sources, 1)
 	globalCallers <- g
 	RegisterHelper("golang.org/x/exp/event")
 }

 func newCallers() sources {
 	g := <-globalCallers
 	defer func() { globalCallers <- g }()
 	c := sources{}
 	c.entries = make([]caller, len(g.entries))
 	copy(c.entries, g.entries)
 	return c
 }

 func (c *sources) addCaller(entry caller) {
 	i := sort.Search(len(c.entries), func(i int) bool {
 		return c.entries[i].pc >= entry.pc
 	})
 	if i >= len(c.entries) {
 		// add to end
 		c.entries = append(c.entries, entry)
 		return
 	}
 	if c.entries[i].pc == entry.pc {
 		// already present
 		return
 	}
 	//expand the array
 	c.entries = append(c.entries, caller{})
 	//make a space
 	copy(c.entries[i+1:], c.entries[i:])
 	// insert the entry
 	c.entries[i] = entry
 }

 func (c *sources) getCaller(pc uintptr) (caller, bool) {
 	i := sort.Search(len(c.entries), func(i int) bool {
 		return c.entries[i].pc >= pc
 	})
 	if i == len(c.entries) || c.entries[i].pc != pc {
 		return caller{}, false
 	}
 	return c.entries[i], true
 }

 func scanStack() Source {
 	g := <-globalCallers
 	defer func() { globalCallers <- g }()
 	return g.scanStack()
 }

 func (c *sources) scanStack() Source {
 	// first capture the caller stack
 	var stack [helperDepthLimit]uintptr
 	// we can skip the first three entries
 	//   runtime.Callers
 	//   event.(*sources).scanStack (this function)
 	//   another function in this package (because scanStack is private)
 	depth := runtime.Callers(3, stack[:]) // start at 2 to skip Callers and this function
 	// do a cheap first pass to see if we have an entry for this stack
 	for i := 0; i < depth; i++ {
 		pc := stack[i]
 		e, found := c.getCaller(pc)
 		if found {
 			if !e.helper {
 				// exact non helper match match found, return it
 				return e.source
 			}
 			// helper found, keep scanning
 			continue
 		}
 		// stack entry not found, we need to fill one in
 		f := runtime.FuncForPC(stack[i])
 		if f == nil {
 			// symtab lookup failed, pretend it does not exist
 			continue
 		}
 		e = caller{
 			source: splitName(f.Name()),
 			pc:     pc,
 		}
 		e.helper = c.isHelper(e)
 		c.addCaller(e)
 		if !e.helper {
 			// found a non helper entry, add it and return it
 			return e.source
 		}
 	}
 	// ran out of stack, was all helpers
 	return Source{}
 }

 // we do helper matching by name, if the pc matched we would have already found
 // that, but helper registration does not know the call stack pcs
 func (c *sources) isHelper(entry caller) bool {
 	// scan to see if it matches any of the helpers
 	// we match by name in case of inlining
 	for _, e := range c.entries {
 		if !e.helper {
 			// ignore all the non helper entries
 			continue
 		}
 		if isMatch(entry.source.Space, e.source.Space) &&
 			isMatch(entry.source.Owner, e.source.Owner) &&
 			isMatch(entry.source.Name, e.source.Name) {
 			return true
 		}
 	}
 	return false
 }

 func isMatch(value, against string) bool {
 	return len(against) == 0 || value == against
 }

 func (c *sources) helperFunction(v interface{}) {
 	r := reflect.ValueOf(v)
 	pc := r.Pointer()
 	f := runtime.FuncForPC(pc)
 	entry := caller{
 		source: splitName(f.Name()),
 		pc:     f.Entry(),
 		helper: true,
 	}
 	c.addCaller(entry)
 	if entry.pc != pc {
 		entry.pc = pc
 		c.addCaller(entry)
 	}
 }

 func splitName(full string) Source {
 	// Function is the fully-qualified function name. The name itself may
 	// have dots (for a closure, for instance), but it can't have slashes.
 	// So the package path ends at the first dot after the last slash.
 	entry := Source{Space: full}
 	slash := strings.LastIndexByte(full, '/')
 	if slash < 0 {
 		slash = 0
 	}
 	if dot := strings.IndexByte(full[slash:], '.'); dot >= 0 {
 		entry.Space = full[:slash+dot]
 		entry.Name = full[slash+dot+1:]
 		if dot = strings.LastIndexByte(entry.Name, '.'); dot >= 0 {
 			entry.Owner = entry.Name[:dot]
 			entry.Name = entry.Name[dot+1:]
 		}
 	}
 	return entry
 }
	// Copyright 2019 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	//go:build !disable_events
	// +build !disable_events

	package event

	import (
	"reflect"
	"runtime"
	"sort"
	"strings"
	)

	const (
	// this is the maximum amount of helpers we scan past to find a non helper
	helperDepthLimit = 5
	)

	type sources struct {
	entries []caller
	}

	type Source struct {
	Space string
	Owner string
	Name string
	}

	type caller struct {
	helper bool
	pc uintptr
	source Source
	}

	var globalCallers chan *sources

	// RegisterHelper records a function as being an event helper that should not
	// be used when capturing the source information on events.
	// v should be either a string or a function pointer.
	// If v is a string it is of the form
	//
	// Space.Owner.Name
	//
	// where Owner and Name cannot contain '/' and Name also cannot contain '.'
	func RegisterHelper(v interface{}) {
	g := <-globalCallers
	defer func() { globalCallers <- g }()
	switch v := v.(type) {
	case string:
	g.entries = append(g.entries, caller{source: splitName(v), helper: true})
	default:
	g.helperFunction(v)
	}
	}

	func init() {
	g := &sources{}
	// make all entries in the event package helpers
	globalCallers = make(chan *sources, 1)
	globalCallers <- g
	RegisterHelper("golang.org/x/exp/event")
	}

	func newCallers() sources {
	g := <-globalCallers
	defer func() { globalCallers <- g }()
	c := sources{}
	c.entries = make([]caller, len(g.entries))
	copy(c.entries, g.entries)
	return c
	}

	func (c *sources) addCaller(entry caller) {
	i := sort.Search(len(c.entries), func(i int) bool {
	return c.entries[i].pc >= entry.pc
	})
	if i >= len(c.entries) {
	// add to end
	c.entries = append(c.entries, entry)
	return
	}
	if c.entries[i].pc == entry.pc {
	// already present
	return
	}
	//expand the array
	c.entries = append(c.entries, caller{})
	//make a space
	copy(c.entries[i+1:], c.entries[i:])
	// insert the entry
	c.entries[i] = entry
	}

	func (c *sources) getCaller(pc uintptr) (caller, bool) {
	i := sort.Search(len(c.entries), func(i int) bool {
	return c.entries[i].pc >= pc
	})
	if i == len(c.entries) \|\| c.entries[i].pc != pc {
	return caller{}, false
	}
	return c.entries[i], true
	}

	func scanStack() Source {
	g := <-globalCallers
	defer func() { globalCallers <- g }()
	return g.scanStack()
	}

	func (c *sources) scanStack() Source {
	// first capture the caller stack
	var stack [helperDepthLimit]uintptr
	// we can skip the first three entries
	// runtime.Callers
	// event.(*sources).scanStack (this function)
	// another function in this package (because scanStack is private)
	depth := runtime.Callers(3, stack[:]) // start at 2 to skip Callers and this function
	// do a cheap first pass to see if we have an entry for this stack
	for i := 0; i < depth; i++ {
	pc := stack[i]
	e, found := c.getCaller(pc)
	if found {
	if !e.helper {
	// exact non helper match match found, return it
	return e.source
	}
	// helper found, keep scanning
	continue
	}
	// stack entry not found, we need to fill one in
	f := runtime.FuncForPC(stack[i])
	if f == nil {
	// symtab lookup failed, pretend it does not exist
	continue
	}
	e = caller{
	source: splitName(f.Name()),
	pc: pc,
	}
	e.helper = c.isHelper(e)
	c.addCaller(e)
	if !e.helper {
	// found a non helper entry, add it and return it
	return e.source
	}
	}
	// ran out of stack, was all helpers
	return Source{}
	}

	// we do helper matching by name, if the pc matched we would have already found
	// that, but helper registration does not know the call stack pcs
	func (c *sources) isHelper(entry caller) bool {
	// scan to see if it matches any of the helpers
	// we match by name in case of inlining
	for _, e := range c.entries {
	if !e.helper {
	// ignore all the non helper entries
	continue
	}
	if isMatch(entry.source.Space, e.source.Space) &&
	isMatch(entry.source.Owner, e.source.Owner) &&
	isMatch(entry.source.Name, e.source.Name) {
	return true
	}
	}
	return false
	}

	func isMatch(value, against string) bool {
	return len(against) == 0 \|\| value == against
	}

	func (c *sources) helperFunction(v interface{}) {
	r := reflect.ValueOf(v)
	pc := r.Pointer()
	f := runtime.FuncForPC(pc)
	entry := caller{
	source: splitName(f.Name()),
	pc: f.Entry(),
	helper: true,
	}
	c.addCaller(entry)
	if entry.pc != pc {
	entry.pc = pc
	c.addCaller(entry)
	}
	}

	func splitName(full string) Source {
	// Function is the fully-qualified function name. The name itself may
	// have dots (for a closure, for instance), but it can't have slashes.
	// So the package path ends at the first dot after the last slash.
	entry := Source{Space: full}
	slash := strings.LastIndexByte(full, '/')
	if slash < 0 {
	slash = 0
	}
	if dot := strings.IndexByte(full[slash:], '.'); dot >= 0 {
	entry.Space = full[:slash+dot]
	entry.Name = full[slash+dot+1:]
	if dot = strings.LastIndexByte(entry.Name, '.'); dot >= 0 {
	entry.Owner = entry.Name[:dot]
	entry.Name = entry.Name[dot+1:]
	}
	}
	return entry
	}