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go/oracle/oracle.go
Alan Donovan 08fadac071 go.tools/go/loader: simplify command-line syntax.
Previously, each word could be a package import path or a
comma-separated list of *.go file names.  Now, if the
first word ends with ".go", all words are assumed to be
Go source files.  This makes it impossible to specify
two ad-hoc packages from source files, but no-one needs that.

FromArgs also takes a boolean indicating whether tests
are wanted or not.

Also: ssadump: add -test flag to set that boolean.
For the oracle it's always true.

LGTM=gri
R=gri
CC=golang-codereviews
https://golang.org/cl/61470047
2014-02-11 16:52:16 -05:00

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// Copyright 2013 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.
// Package oracle contains the implementation of the oracle tool whose
// command-line is provided by code.google.com/p/go.tools/cmd/oracle.
//
// http://golang.org/s/oracle-design
// http://golang.org/s/oracle-user-manual
//
package oracle
// This file defines oracle.Query, the entry point for the oracle tool.
// The actual executable is defined in cmd/oracle.
// TODO(adonovan): new queries
// - show all statements that may update the selected lvalue
// (local, global, field, etc).
// - show all places where an object of type T is created
// (&T{}, var t T, new(T), new(struct{array [3]T}), etc.
// ORACLE CONTROL FLOW
//
// The Oracle is somewhat convoluted due to the need to support two
// very different use-cases, "one-shot" and "long running", and to do
// so quickly.
//
// The cmd/oracle tool issues "one-shot" queries via the exported
// Query function, which creates an Oracle to answer a single query.
// newOracle consults the 'needs' flags of the query mode and the
// package containing the query to avoid doing more work than it needs
// (loading, parsing, type checking, SSA construction).
//
// The Pythia tool (github.com/fzipp/pythia) is an example of a "long
// running" tool. It calls New() and then loops, calling
// ParseQueryPos and (*Oracle).Query to handle each incoming HTTP
// query. Since New cannot see which queries will follow, it must
// load, parse, type-check and SSA-build the entire transitive closure
// of the analysis scope, retaining full debug information and all
// typed ASTs.
//
// TODO(adonovan): experiment with inverting the control flow by
// making each mode consist of two functions: a "one-shot setup"
// function and the existing "impl" function. The one-shot setup
// function would do all of the work of Query and newOracle,
// specialized to each mode, calling library utilities for the common
// things. This would give it more control over "scope reduction".
// Long running tools would not call the one-shot setup function but
// would have their own setup function equivalent to the existing
// 'needsAll' flow path.
import (
"fmt"
"go/ast"
"go/build"
"go/token"
"io"
"code.google.com/p/go.tools/astutil"
"code.google.com/p/go.tools/go/loader"
"code.google.com/p/go.tools/go/pointer"
"code.google.com/p/go.tools/go/ssa"
"code.google.com/p/go.tools/go/types"
"code.google.com/p/go.tools/oracle/serial"
)
// An Oracle holds the program state required for one or more queries.
type Oracle struct {
fset *token.FileSet // file set [all queries]
prog *ssa.Program // the SSA program [needSSA]
ptaConfig pointer.Config // pointer analysis configuration [needPTA]
typeInfo map[*types.Package]*loader.PackageInfo // type info for all ASTs in the program [needRetainTypeInfo]
}
// A set of bits indicating the analytical requirements of each mode.
//
// Typed ASTs for the whole program are always constructed
// transiently; they are retained only for the queried package unless
// needRetainTypeInfo is set.
const (
needPos = 1 << iota // needs a position
needExactPos // needs an exact AST selection; implies needPos
needRetainTypeInfo // needs to retain type info for all ASTs in the program
needSSA // needs ssa.Packages for whole program
needSSADebug // needs debug info for ssa.Packages
needPTA = needSSA // needs pointer analysis
needAll = -1 // needs everything (e.g. a sequence of queries)
)
type modeInfo struct {
name string
needs int
impl func(*Oracle, *QueryPos) (queryResult, error)
}
var modes = []*modeInfo{
// Pointer analyses, whole program:
{"callees", needPTA | needExactPos, callees},
{"callers", needPTA | needPos, callers},
{"callgraph", needPTA, doCallgraph},
{"callstack", needPTA | needPos, callstack},
{"peers", needPTA | needSSADebug | needPos, peers},
{"pointsto", needPTA | needSSADebug | needExactPos, pointsto},
// Type-based, modular analyses:
{"definition", needPos, definition},
{"describe", needExactPos, describe},
{"freevars", needPos, freevars},
// Type-based, whole-program analyses:
{"implements", needRetainTypeInfo | needPos, implements},
{"referrers", needRetainTypeInfo | needPos, referrers},
}
func findMode(mode string) *modeInfo {
for _, m := range modes {
if m.name == mode {
return m
}
}
return nil
}
type printfFunc func(pos interface{}, format string, args ...interface{})
// queryResult is the interface of each query-specific result type.
type queryResult interface {
toSerial(res *serial.Result, fset *token.FileSet)
display(printf printfFunc)
}
// A QueryPos represents the position provided as input to a query:
// a textual extent in the program's source code, the AST node it
// corresponds to, and the package to which it belongs.
// Instances are created by ParseQueryPos.
//
type QueryPos struct {
fset *token.FileSet
start, end token.Pos // source extent of query
path []ast.Node // AST path from query node to root of ast.File
exact bool // 2nd result of PathEnclosingInterval
info *loader.PackageInfo // type info for the queried package (nil for fastQueryPos)
}
// TypeString prints type T relative to the query position.
func (qpos *QueryPos) TypeString(T types.Type) string {
return types.TypeString(qpos.info.Pkg, T)
}
// ObjectString prints object obj relative to the query position.
func (qpos *QueryPos) ObjectString(obj types.Object) string {
return types.ObjectString(qpos.info.Pkg, obj)
}
// SelectionString prints selection sel relative to the query position.
func (qpos *QueryPos) SelectionString(sel *types.Selection) string {
return types.SelectionString(qpos.info.Pkg, sel)
}
// A Result encapsulates the result of an oracle.Query.
type Result struct {
fset *token.FileSet
q queryResult // the query-specific result
mode string // query mode
warnings []pointer.Warning // pointer analysis warnings
}
// Serial returns an instance of serial.Result, which implements the
// {xml,json}.Marshaler interfaces so that query results can be
// serialized as JSON or XML.
//
func (res *Result) Serial() *serial.Result {
resj := &serial.Result{Mode: res.mode}
res.q.toSerial(resj, res.fset)
for _, w := range res.warnings {
resj.Warnings = append(resj.Warnings, serial.PTAWarning{
Pos: res.fset.Position(w.Pos).String(),
Message: w.Message,
})
}
return resj
}
// Query runs a single oracle query.
//
// args specify the main package in (*loader.Config).FromArgs syntax.
// mode is the query mode ("callers", etc).
// ptalog is the (optional) pointer-analysis log file.
// buildContext is the go/build configuration for locating packages.
// reflection determines whether to model reflection soundly (currently slow).
//
// Clients that intend to perform multiple queries against the same
// analysis scope should use this pattern instead:
//
// conf := loader.Config{Build: buildContext, SourceImports: true}
// ... populate config, e.g. conf.FromArgs(args) ...
// iprog, err := conf.Load()
// if err != nil { ... }
// o, err := oracle.New(iprog, nil, false)
// if err != nil { ... }
// for ... {
// qpos, err := oracle.ParseQueryPos(imp, pos, needExact)
// if err != nil { ... }
//
// res, err := o.Query(mode, qpos)
// if err != nil { ... }
//
// // use res
// }
//
// TODO(adonovan): the ideal 'needsExact' parameter for ParseQueryPos
// depends on the query mode; how should we expose this?
//
func Query(args []string, mode, pos string, ptalog io.Writer, buildContext *build.Context, reflection bool) (*Result, error) {
if mode == "what" {
// Bypass package loading, type checking, SSA construction.
return what(pos, buildContext)
}
minfo := findMode(mode)
if minfo == nil {
return nil, fmt.Errorf("invalid mode type: %q", mode)
}
conf := loader.Config{Build: buildContext, SourceImports: true}
// Determine initial packages.
args, err := conf.FromArgs(args, true)
if err != nil {
return nil, err
}
if len(args) > 0 {
return nil, fmt.Errorf("surplus arguments: %q", args)
}
// For queries needing only a single typed package,
// reduce the analysis scope to that package.
if minfo.needs&(needSSA|needRetainTypeInfo) == 0 {
reduceScope(pos, &conf)
}
// TODO(adonovan): report type errors to the user via Serial
// types, not stderr?
// conf.TypeChecker.Error = func(err error) {
// E := err.(types.Error)
// fmt.Fprintf(os.Stderr, "%s: %s\n", E.Fset.Position(E.Pos), E.Msg)
// }
// Load/parse/type-check the program.
iprog, err := conf.Load()
if err != nil {
return nil, err
}
o, err := newOracle(iprog, ptalog, minfo.needs, reflection)
if err != nil {
return nil, err
}
var qpos *QueryPos
if minfo.needs&(needPos|needExactPos) != 0 {
qpos, err = ParseQueryPos(iprog, pos, minfo.needs&needExactPos != 0)
if err != nil {
return nil, err
}
}
// SSA is built and we have the QueryPos.
// Release the other ASTs and type info to the GC.
iprog = nil
return o.query(minfo, qpos)
}
// reduceScope is called for one-shot queries that need only a single
// typed package. It attempts to guess the query package from pos and
// reduce the analysis scope (set of loaded packages) to just that one
// plus (the exported parts of) its dependencies. It leaves its
// arguments unchanged on failure.
//
// TODO(adonovan): this is a real mess... but it's fast.
//
func reduceScope(pos string, conf *loader.Config) {
fqpos, err := fastQueryPos(pos)
if err != nil {
return // bad query
}
// TODO(adonovan): fix: this gives the wrong results for files
// in non-importable packages such as tests and ad-hoc packages
// specified as a list of files (incl. the oracle's tests).
_, importPath, err := guessImportPath(fqpos.fset.File(fqpos.start).Name(), conf.Build)
if err != nil {
return // can't find GOPATH dir
}
if importPath == "" {
return
}
// Check that it's possible to load the queried package.
// (e.g. oracle tests contain different 'package' decls in same dir.)
// Keep consistent with logic in loader/util.go!
cfg2 := *conf.Build
cfg2.CgoEnabled = false
bp, err := cfg2.Import(importPath, "", 0)
if err != nil {
return // no files for package
}
_ = bp
// TODO(adonovan): fix: also check that the queried file appears in the package.
// for _, f := range bp.GoFiles, bp.TestGoFiles, bp.XTestGoFiles {
// if sameFile(f, fqpos.filename) { goto found }
// }
// return // not found
// found:
conf.TypeCheckFuncBodies = func(p string) bool { return p == importPath }
// Ignore packages specified on command line.
conf.CreatePkgs = nil
conf.ImportPkgs = nil
// Instead load just the one containing the query position
// (and possibly its corresponding tests/production code).
// TODO(adonovan): set 'augment' based on which file list
// contains
_ = conf.ImportWithTests(importPath) // ignore error
}
// New constructs a new Oracle that can be used for a sequence of queries.
//
// iprog specifies the program to analyze.
// ptalog is the (optional) pointer-analysis log file.
// reflection determines whether to model reflection soundly (currently slow).
//
func New(iprog *loader.Program, ptalog io.Writer, reflection bool) (*Oracle, error) {
return newOracle(iprog, ptalog, needAll, reflection)
}
func newOracle(iprog *loader.Program, ptalog io.Writer, needs int, reflection bool) (*Oracle, error) {
o := &Oracle{fset: iprog.Fset}
// Retain type info for all ASTs in the program.
if needs&needRetainTypeInfo != 0 {
o.typeInfo = iprog.AllPackages
}
// Create SSA package for the initial packages and their dependencies.
if needs&needSSA != 0 {
var mode ssa.BuilderMode
if needs&needSSADebug != 0 {
mode |= ssa.GlobalDebug
}
prog := ssa.Create(iprog, mode)
// For each initial package (specified on the command line),
// if it has a main function, analyze that,
// otherwise analyze its tests, if any.
var testPkgs, mains []*ssa.Package
for _, info := range iprog.InitialPackages() {
initialPkg := prog.Package(info.Pkg)
// Add package to the pointer analysis scope.
if initialPkg.Func("main") != nil {
mains = append(mains, initialPkg)
} else {
testPkgs = append(testPkgs, initialPkg)
}
}
if testPkgs != nil {
if p := prog.CreateTestMainPackage(testPkgs...); p != nil {
mains = append(mains, p)
}
}
if mains == nil {
return nil, fmt.Errorf("analysis scope has no main and no tests")
}
o.ptaConfig.Log = ptalog
o.ptaConfig.Reflection = reflection
o.ptaConfig.Mains = mains
o.prog = prog
}
return o, nil
}
// Query runs the query of the specified mode and selection.
//
// TODO(adonovan): fix: this function does not currently support the
// "what" query, which needs to access the go/build.Context.
//
func (o *Oracle) Query(mode string, qpos *QueryPos) (*Result, error) {
minfo := findMode(mode)
if minfo == nil {
return nil, fmt.Errorf("invalid mode type: %q", mode)
}
return o.query(minfo, qpos)
}
func (o *Oracle) query(minfo *modeInfo, qpos *QueryPos) (*Result, error) {
// Clear out residue of previous query (for long-running clients).
o.ptaConfig.Queries = nil
o.ptaConfig.IndirectQueries = nil
res := &Result{
mode: minfo.name,
fset: o.fset,
}
var err error
res.q, err = minfo.impl(o, qpos)
if err != nil {
return nil, err
}
return res, nil
}
// ParseQueryPos parses the source query position pos.
// If needExact, it must identify a single AST subtree;
// this is appropriate for queries that allow fairly arbitrary syntax,
// e.g. "describe".
//
func ParseQueryPos(iprog *loader.Program, posFlag string, needExact bool) (*QueryPos, error) {
filename, startOffset, endOffset, err := parsePosFlag(posFlag)
if err != nil {
return nil, err
}
start, end, err := findQueryPos(iprog.Fset, filename, startOffset, endOffset)
if err != nil {
return nil, err
}
info, path, exact := iprog.PathEnclosingInterval(start, end)
if path == nil {
return nil, fmt.Errorf("no syntax here")
}
if needExact && !exact {
return nil, fmt.Errorf("ambiguous selection within %s", astutil.NodeDescription(path[0]))
}
return &QueryPos{iprog.Fset, start, end, path, exact, info}, nil
}
// WriteTo writes the oracle query result res to out in a compiler diagnostic format.
func (res *Result) WriteTo(out io.Writer) {
printf := func(pos interface{}, format string, args ...interface{}) {
fprintf(out, res.fset, pos, format, args...)
}
res.q.display(printf)
// Print warnings after the main output.
if res.warnings != nil {
fmt.Fprintln(out, "\nPointer analysis warnings:")
for _, w := range res.warnings {
printf(w.Pos, "warning: "+w.Message)
}
}
}
// ---------- Utilities ----------
// buildSSA constructs the SSA representation of Go-source function bodies.
// Not needed in simpler modes, e.g. freevars.
//
func buildSSA(o *Oracle) {
o.prog.BuildAll()
}
// ptrAnalysis runs the pointer analysis and returns its result.
func ptrAnalysis(o *Oracle) *pointer.Result {
return pointer.Analyze(&o.ptaConfig)
}
// unparen returns e with any enclosing parentheses stripped.
func unparen(e ast.Expr) ast.Expr {
for {
p, ok := e.(*ast.ParenExpr)
if !ok {
break
}
e = p.X
}
return e
}
// deref returns a pointer's element type; otherwise it returns typ.
func deref(typ types.Type) types.Type {
if p, ok := typ.Underlying().(*types.Pointer); ok {
return p.Elem()
}
return typ
}
// fprintf prints to w a message of the form "location: message\n"
// where location is derived from pos.
//
// pos must be one of:
// - a token.Pos, denoting a position
// - an ast.Node, denoting an interval
// - anything with a Pos() method:
// ssa.Member, ssa.Value, ssa.Instruction, types.Object, pointer.Label, etc.
// - a QueryPos, denoting the extent of the user's query.
// - nil, meaning no position at all.
//
// The output format is is compatible with the 'gnu'
// compilation-error-regexp in Emacs' compilation mode.
// TODO(adonovan): support other editors.
//
func fprintf(w io.Writer, fset *token.FileSet, pos interface{}, format string, args ...interface{}) {
var start, end token.Pos
switch pos := pos.(type) {
case ast.Node:
start = pos.Pos()
end = pos.End()
case token.Pos:
start = pos
end = start
case interface {
Pos() token.Pos
}:
start = pos.Pos()
end = start
case *QueryPos:
start = pos.start
end = pos.end
case nil:
// no-op
default:
panic(fmt.Sprintf("invalid pos: %T", pos))
}
if sp := fset.Position(start); start == end {
// (prints "-: " for token.NoPos)
fmt.Fprintf(w, "%s: ", sp)
} else {
ep := fset.Position(end)
// The -1 below is a concession to Emacs's broken use of
// inclusive (not half-open) intervals.
// Other editors may not want it.
// TODO(adonovan): add an -editor=vim|emacs|acme|auto
// flag; auto uses EMACS=t / VIM=... / etc env vars.
fmt.Fprintf(w, "%s:%d.%d-%d.%d: ",
sp.Filename, sp.Line, sp.Column, ep.Line, ep.Column-1)
}
fmt.Fprintf(w, format, args...)
io.WriteString(w, "\n")
}