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path: root/vendor/github.com/maruel/panicparse/stack/source.go
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// Copyright 2015 Marc-Antoine Ruel. All rights reserved.
// Use of this source code is governed under the Apache License, Version 2.0
// that can be found in the LICENSE file.

// This file contains the code to process sources, to be able to deduct the
// original types.

package stack

import (
    "bytes"
    "fmt"
    "go/ast"
    "go/parser"
    "go/token"
    "io/ioutil"
    "log"
    "math"
    "strings"
)

// cache is a cache of sources on the file system.
type cache struct {
    files  map[string][]byte
    parsed map[string]*parsedFile
}

// Augment processes source files to improve calls to be more descriptive.
//
// It modifies goroutines in place.
func Augment(goroutines []Goroutine) {
    c := &cache{}
    for i := range goroutines {
        c.augmentGoroutine(&goroutines[i])
    }
}

// augmentGoroutine processes source files to improve call to be more
// descriptive.
//
// It modifies the routine.
func (c *cache) augmentGoroutine(goroutine *Goroutine) {
    if c.files == nil {
        c.files = map[string][]byte{}
    }
    if c.parsed == nil {
        c.parsed = map[string]*parsedFile{}
    }
    // For each call site, look at the next call and populate it. Then we can
    // walk back and reformat things.
    for i := range goroutine.Stack.Calls {
        c.load(goroutine.Stack.Calls[i].SourcePath)
    }

    // Once all loaded, we can look at the next call when available.
    for i := 1; i < len(goroutine.Stack.Calls); i++ {
        // Get the AST from the previous call and process the call line with it.
        if f := c.getFuncAST(&goroutine.Stack.Calls[i]); f != nil {
            processCall(&goroutine.Stack.Calls[i], f)
        }
    }
}

// Private stuff.

// load loads a source file and parses the AST tree. Failures are ignored.
func (c *cache) load(fileName string) {
    if _, ok := c.parsed[fileName]; ok {
        return
    }
    c.parsed[fileName] = nil
    if !strings.HasSuffix(fileName, ".go") {
        // Ignore C and assembly.
        c.files[fileName] = nil
        return
    }
    log.Printf("load(%s)", fileName)
    if _, ok := c.files[fileName]; !ok {
        var err error
        if c.files[fileName], err = ioutil.ReadFile(fileName); err != nil {
            log.Printf("Failed to read %s: %s", fileName, err)
            c.files[fileName] = nil
            return
        }
    }
    fset := token.NewFileSet()
    src := c.files[fileName]
    parsed, err := parser.ParseFile(fset, fileName, src, 0)
    if err != nil {
        log.Printf("Failed to parse %s: %s", fileName, err)
        return
    }
    // Convert the line number into raw file offset.
    offsets := []int{0, 0}
    start := 0
    for l := 1; start < len(src); l++ {
        start += bytes.IndexByte(src[start:], '\n') + 1
        offsets = append(offsets, start)
    }
    c.parsed[fileName] = &parsedFile{offsets, parsed}
}

func (c *cache) getFuncAST(call *Call) *ast.FuncDecl {
    if p := c.parsed[call.SourcePath]; p != nil {
        return p.getFuncAST(call.Func.Name(), call.Line)
    }
    return nil
}

type parsedFile struct {
    lineToByteOffset []int
    parsed           *ast.File
}

// getFuncAST gets the callee site function AST representation for the code
// inside the function f at line l.
func (p *parsedFile) getFuncAST(f string, l int) (d *ast.FuncDecl) {
    // Walk the AST to find the lineToByteOffset that fits the line number.
    var lastFunc *ast.FuncDecl
    var found ast.Node
    // Inspect() goes depth first. This means for example that a function like:
    // func a() {
    //   b := func() {}
    //   c()
    // }
    //
    // Were we are looking at the c() call can return confused values. It is
    // important to look at the actual ast.Node hierarchy.
    ast.Inspect(p.parsed, func(n ast.Node) bool {
        if d != nil {
            return false
        }
        if n == nil {
            return true
        }
        if found != nil {
            // We are walking up.
        }
        if int(n.Pos()) >= p.lineToByteOffset[l] {
            // We are expecting a ast.CallExpr node. It can be harder to figure out
            // when there are multiple calls on a single line, as the stack trace
            // doesn't have file byte offset information, only line based.
            // gofmt will always format to one function call per line but there can
            // be edge cases, like:
            //   a = A{Foo(), Bar()}
            d = lastFunc
            //p.processNode(call, n)
            return false
        } else if f, ok := n.(*ast.FuncDecl); ok {
            lastFunc = f
        }
        return true
    })
    return
}

func name(n ast.Node) string {
    if _, ok := n.(*ast.InterfaceType); ok {
        return "interface{}"
    }
    if i, ok := n.(*ast.Ident); ok {
        return i.Name
    }
    if _, ok := n.(*ast.FuncType); ok {
        return "func"
    }
    if s, ok := n.(*ast.SelectorExpr); ok {
        return s.Sel.Name
    }
    // TODO(maruel): Implement anything missing.
    return "<unknown>"
}

// fieldToType returns the type name and whether if it's an ellipsis.
func fieldToType(f *ast.Field) (string, bool) {
    switch arg := f.Type.(type) {
    case *ast.ArrayType:
        return "[]" + name(arg.Elt), false
    case *ast.Ellipsis:
        return name(arg.Elt), true
    case *ast.FuncType:
        // Do not print the function signature to not overload the trace.
        return "func", false
    case *ast.Ident:
        return arg.Name, false
    case *ast.InterfaceType:
        return "interface{}", false
    case *ast.SelectorExpr:
        return arg.Sel.Name, false
    case *ast.StarExpr:
        return "*" + name(arg.X), false
    default:
        // TODO(maruel): Implement anything missing.
        return "<unknown>", false
    }
}

// extractArgumentsType returns the name of the type of each input argument.
func extractArgumentsType(f *ast.FuncDecl) ([]string, bool) {
    var fields []*ast.Field
    if f.Recv != nil {
        if len(f.Recv.List) != 1 {
            panic("Expect only one receiver; please fix panicparse's code")
        }
        // If it is an object receiver (vs a pointer receiver), its address is not
        // printed in the stack trace so it needs to be ignored.
        if _, ok := f.Recv.List[0].Type.(*ast.StarExpr); ok {
            fields = append(fields, f.Recv.List[0])
        }
    }
    var types []string
    extra := false
    for _, arg := range append(fields, f.Type.Params.List...) {
        // Assert that extra is only set on the last item of fields?
        var t string
        t, extra = fieldToType(arg)
        mult := len(arg.Names)
        if mult == 0 {
            mult = 1
        }
        for i := 0; i < mult; i++ {
            types = append(types, t)
        }
    }
    return types, extra
}

// processCall walks the function and populate call accordingly.
func processCall(call *Call, f *ast.FuncDecl) {
    values := make([]uint64, len(call.Args.Values))
    for i := range call.Args.Values {
        values[i] = call.Args.Values[i].Value
    }
    index := 0
    pop := func() uint64 {
        if len(values) != 0 {
            x := values[0]
            values = values[1:]
            index++
            return x
        }
        return 0
    }
    popName := func() string {
        n := call.Args.Values[index].Name
        v := pop()
        if len(n) == 0 {
            return fmt.Sprintf("0x%x", v)
        }
        return n
    }

    types, extra := extractArgumentsType(f)
    for i := 0; len(values) != 0; i++ {
        var t string
        if i >= len(types) {
            if !extra {
                // These are unexpected value! Print them as hex.
                call.Args.Processed = append(call.Args.Processed, popName())
                continue
            }
            t = types[len(types)-1]
        } else {
            t = types[i]
        }
        switch t {
        case "float32":
            call.Args.Processed = append(call.Args.Processed, fmt.Sprintf("%g", math.Float32frombits(uint32(pop()))))
        case "float64":
            call.Args.Processed = append(call.Args.Processed, fmt.Sprintf("%g", math.Float64frombits(pop())))
        case "int", "int8", "int16", "int32", "int64", "uint", "uint8", "uint16", "uint32", "uint64":
            call.Args.Processed = append(call.Args.Processed, fmt.Sprintf("%d", pop()))
        case "string":
            call.Args.Processed = append(call.Args.Processed, fmt.Sprintf("%s(%s, len=%d)", t, popName(), pop()))
        default:
            if strings.HasPrefix(t, "*") {
                call.Args.Processed = append(call.Args.Processed, fmt.Sprintf("%s(%s)", t, popName()))
            } else if strings.HasPrefix(t, "[]") {
                call.Args.Processed = append(call.Args.Processed, fmt.Sprintf("%s(%s len=%d cap=%d)", t, popName(), pop(), pop()))
            } else {
                // Assumes it's an interface. For now, discard the object value, which
                // is probably not a good idea.
                call.Args.Processed = append(call.Args.Processed, fmt.Sprintf("%s(%s)", t, popName()))
                pop()
            }
        }
        if len(values) == 0 && call.Args.Elided {
            return
        }
    }
}