// Copyright 2014 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. // callgraph: a tool for reporting the call graph of a Go program. // See Usage for details, or run with -help. package main // import "golang.org/x/tools/cmd/callgraph" // TODO(adonovan): // // Features: // - restrict graph to a single package // - output // - functions reachable from root (use digraph tool?) // - unreachable functions (use digraph tool?) // - dynamic (runtime) types // - indexed output (numbered nodes) // - JSON output // - additional template fields: // callee file/line/col import ( "bufio" "bytes" "flag" "fmt" "go/build" "go/token" "io" "log" "os" "runtime" "text/template" "golang.org/x/tools/go/buildutil" "golang.org/x/tools/go/callgraph" "golang.org/x/tools/go/callgraph/cha" "golang.org/x/tools/go/callgraph/rta" "golang.org/x/tools/go/callgraph/static" "golang.org/x/tools/go/loader" "golang.org/x/tools/go/pointer" "golang.org/x/tools/go/ssa" "golang.org/x/tools/go/ssa/ssautil" ) // flags var ( algoFlag = flag.String("algo", "rta", `Call graph construction algorithm (static, cha, rta, pta)`) testFlag = flag.Bool("test", false, "Loads test code (*_test.go) for imported packages") formatFlag = flag.String("format", "{{.Caller}}\t--{{.Dynamic}}-{{.Line}}:{{.Column}}-->\t{{.Callee}}", "A template expression specifying how to format an edge") ptalogFlag = flag.String("ptalog", "", "Location of the points-to analysis log file, or empty to disable logging.") ) func init() { flag.Var((*buildutil.TagsFlag)(&build.Default.BuildTags), "tags", buildutil.TagsFlagDoc) } const Usage = `callgraph: display the the call graph of a Go program. Usage: callgraph [-algo=static|cha|rta|pta] [-test] [-format=...] ... Flags: -algo Specifies the call-graph construction algorithm, one of: static static calls only (unsound) cha Class Hierarchy Analysis rta Rapid Type Analysis pta inclusion-based Points-To Analysis The algorithms are ordered by increasing precision in their treatment of dynamic calls (and thus also computational cost). RTA and PTA require a whole program (main or test), and include only functions reachable from main. -test Include the package's tests in the analysis. -format Specifies the format in which each call graph edge is displayed. One of: digraph output suitable for input to golang.org/x/tools/cmd/digraph. graphviz output in AT&T GraphViz (.dot) format. All other values are interpreted using text/template syntax. The default value is: {{.Caller}}\t--{{.Dynamic}}-{{.Line}}:{{.Column}}-->\t{{.Callee}} The structure passed to the template is (effectively): type Edge struct { Caller *ssa.Function // calling function Callee *ssa.Function // called function // Call site: Filename string // containing file Offset int // offset within file of '(' Line int // line number Column int // column number of call Dynamic string // "static" or "dynamic" Description string // e.g. "static method call" } Caller and Callee are *ssa.Function values, which print as "(*sync/atomic.Mutex).Lock", but other attributes may be derived from them, e.g. Caller.Pkg.Pkg.Path yields the import path of the enclosing package. Consult the go/ssa API documentation for details. ` + loader.FromArgsUsage + ` Examples: Show the call graph of the trivial web server application: callgraph -format digraph $GOROOT/src/net/http/triv.go Same, but show only the packages of each function: callgraph -format '{{.Caller.Pkg.Pkg.Path}} -> {{.Callee.Pkg.Pkg.Path}}' \ $GOROOT/src/net/http/triv.go | sort | uniq Show functions that make dynamic calls into the 'fmt' test package, using the pointer analysis algorithm: callgraph -format='{{.Caller}} -{{.Dynamic}}-> {{.Callee}}' -test -algo=pta fmt | sed -ne 's/-dynamic-/--/p' | sed -ne 's/-->.*fmt_test.*$//p' | sort | uniq Show all functions directly called by the callgraph tool's main function: callgraph -format=digraph golang.org/x/tools/cmd/callgraph | digraph succs golang.org/x/tools/cmd/callgraph.main ` func init() { // If $GOMAXPROCS isn't set, use the full capacity of the machine. // For small machines, use at least 4 threads. if os.Getenv("GOMAXPROCS") == "" { n := runtime.NumCPU() if n < 4 { n = 4 } runtime.GOMAXPROCS(n) } } func main() { flag.Parse() if err := doCallgraph(&build.Default, *algoFlag, *formatFlag, *testFlag, flag.Args()); err != nil { fmt.Fprintf(os.Stderr, "callgraph: %s\n", err) os.Exit(1) } } var stdout io.Writer = os.Stdout func doCallgraph(ctxt *build.Context, algo, format string, tests bool, args []string) error { conf := loader.Config{Build: ctxt} if len(args) == 0 { fmt.Fprintln(os.Stderr, Usage) return nil } // Use the initial packages from the command line. _, err := conf.FromArgs(args, tests) if err != nil { return err } // Load, parse and type-check the whole program. iprog, err := conf.Load() if err != nil { return err } // Create and build SSA-form program representation. prog := ssautil.CreateProgram(iprog, 0) prog.Build() // -- call graph construction ------------------------------------------ var cg *callgraph.Graph switch algo { case "static": cg = static.CallGraph(prog) case "cha": cg = cha.CallGraph(prog) case "pta": // Set up points-to analysis log file. var ptalog io.Writer if *ptalogFlag != "" { if f, err := os.Create(*ptalogFlag); err != nil { log.Fatalf("Failed to create PTA log file: %s", err) } else { buf := bufio.NewWriter(f) ptalog = buf defer func() { if err := buf.Flush(); err != nil { log.Printf("flush: %s", err) } if err := f.Close(); err != nil { log.Printf("close: %s", err) } }() } } mains, err := mainPackages(prog, tests) if err != nil { return err } config := &pointer.Config{ Mains: mains, BuildCallGraph: true, Log: ptalog, } ptares, err := pointer.Analyze(config) if err != nil { return err // internal error in pointer analysis } cg = ptares.CallGraph case "rta": mains, err := mainPackages(prog, tests) if err != nil { return err } var roots []*ssa.Function for _, main := range mains { roots = append(roots, main.Func("init"), main.Func("main")) } rtares := rta.Analyze(roots, true) cg = rtares.CallGraph // NB: RTA gives us Reachable and RuntimeTypes too. default: return fmt.Errorf("unknown algorithm: %s", algo) } cg.DeleteSyntheticNodes() // -- output------------------------------------------------------------ var before, after string // Pre-canned formats. switch format { case "digraph": format = `{{printf "%q %q" .Caller .Callee}}` case "graphviz": before = "digraph callgraph {\n" after = "}\n" format = ` {{printf "%q" .Caller}} -> {{printf "%q" .Callee}}` } tmpl, err := template.New("-format").Parse(format) if err != nil { return fmt.Errorf("invalid -format template: %v", err) } // Allocate these once, outside the traversal. var buf bytes.Buffer data := Edge{fset: prog.Fset} fmt.Fprint(stdout, before) if err := callgraph.GraphVisitEdges(cg, func(edge *callgraph.Edge) error { data.position.Offset = -1 data.edge = edge data.Caller = edge.Caller.Func data.Callee = edge.Callee.Func buf.Reset() if err := tmpl.Execute(&buf, &data); err != nil { return err } stdout.Write(buf.Bytes()) if len := buf.Len(); len == 0 || buf.Bytes()[len-1] != '\n' { fmt.Fprintln(stdout) } return nil }); err != nil { return err } fmt.Fprint(stdout, after) return nil } // mainPackages returns the main packages to analyze. // Each resulting package is named "main" and has a main function. func mainPackages(prog *ssa.Program, tests bool) ([]*ssa.Package, error) { pkgs := prog.AllPackages() // TODO(adonovan): use only initial packages // If tests, create a "testmain" package for each test. var mains []*ssa.Package if tests { for _, pkg := range pkgs { if main := prog.CreateTestMainPackage(pkg); main != nil { mains = append(mains, main) } } if mains == nil { return nil, fmt.Errorf("no tests") } return mains, nil } // Otherwise, use the main packages. mains = append(mains, ssautil.MainPackages(pkgs)...) if len(mains) == 0 { return nil, fmt.Errorf("no main packages") } return mains, nil } type Edge struct { Caller *ssa.Function Callee *ssa.Function edge *callgraph.Edge fset *token.FileSet position token.Position // initialized lazily } func (e *Edge) pos() *token.Position { if e.position.Offset == -1 { e.position = e.fset.Position(e.edge.Pos()) // called lazily } return &e.position } func (e *Edge) Filename() string { return e.pos().Filename } func (e *Edge) Column() int { return e.pos().Column } func (e *Edge) Line() int { return e.pos().Line } func (e *Edge) Offset() int { return e.pos().Offset } func (e *Edge) Dynamic() string { if e.edge.Site != nil && e.edge.Site.Common().StaticCallee() == nil { return "dynamic" } return "static" } func (e *Edge) Description() string { return e.edge.Description() }