evalcmd.go - platform/build/kati - Gitiles

 // Copyright 2015 Google Inc. All rights reserved
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //      http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 package kati

 import (
 	"fmt"
 	"os/exec"
 	"strings"
 	"sync"

 	"github.com/golang/glog"
 )

 type execContext struct {
 	shell string

 	mu     sync.Mutex
 	ev     *Evaluator
 	vpaths searchPaths
 	output string
 	inputs []string
 }

 func newExecContext(vars Vars, vpaths searchPaths, avoidIO bool) *execContext {
 	ev := NewEvaluator(vars)
 	ev.avoidIO = avoidIO

 	ctx := &execContext{
 		ev:     ev,
 		vpaths: vpaths,
 	}
 	av := autoVar{ctx: ctx}
 	for k, v := range map[string]Var{
 		"@": autoAtVar{autoVar: av},
 		"<": autoLessVar{autoVar: av},
 		"^": autoHatVar{autoVar: av},
 		"+": autoPlusVar{autoVar: av},
 		"*": autoStarVar{autoVar: av},
 	} {
 		ev.vars[k] = v
 		// $<k>D = $(patsubst %/,%,$(dir $<k>))
 		ev.vars[k+"D"] = suffixDVar(k)
 		// $<k>F = $(notdir $<k>)
 		ev.vars[k+"F"] = suffixFVar(k)
 	}

 	// TODO: We should move this to somewhere around evalCmd so that
 	// we can handle SHELL in target specific variables.
 	shell, err := ev.EvaluateVar("SHELL")
 	if err != nil {
 		shell = "/bin/sh"
 	}
 	ctx.shell = shell
 	return ctx
 }

 func (ec *execContext) uniqueInputs() []string {
 	var uniqueInputs []string
 	seen := make(map[string]bool)
 	for _, input := range ec.inputs {
 		if !seen[input] {
 			seen[input] = true
 			uniqueInputs = append(uniqueInputs, input)
 		}
 	}
 	return uniqueInputs
 }

 type autoVar struct{ ctx *execContext }

 func (v autoVar) Flavor() string  { return "undefined" }
 func (v autoVar) Origin() string  { return "automatic" }
 func (v autoVar) IsDefined() bool { return true }
 func (v autoVar) Append(*Evaluator, string) (Var, error) {
 	return nil, fmt.Errorf("cannot append to autovar")
 }
 func (v autoVar) AppendVar(*Evaluator, Value) (Var, error) {
 	return nil, fmt.Errorf("cannot append to autovar")
 }
 func (v autoVar) serialize() serializableVar {
 	return serializableVar{Type: ""}
 }
 func (v autoVar) dump(d *dumpbuf) {
 	d.err = fmt.Errorf("cannot dump auto var: %v", v)
 }

 type autoAtVar struct{ autoVar }

 func (v autoAtVar) Eval(w evalWriter, ev *Evaluator) error {
 	fmt.Fprint(w, v.String())
 	return nil
 }
 func (v autoAtVar) String() string { return v.ctx.output }

 type autoLessVar struct{ autoVar }

 func (v autoLessVar) Eval(w evalWriter, ev *Evaluator) error {
 	fmt.Fprint(w, v.String())
 	return nil
 }
 func (v autoLessVar) String() string {
 	if len(v.ctx.inputs) > 0 {
 		return v.ctx.inputs[0]
 	}
 	return ""
 }

 type autoHatVar struct{ autoVar }

 func (v autoHatVar) Eval(w evalWriter, ev *Evaluator) error {
 	fmt.Fprint(w, v.String())
 	return nil
 }
 func (v autoHatVar) String() string {
 	return strings.Join(v.ctx.uniqueInputs(), " ")
 }

 type autoPlusVar struct{ autoVar }

 func (v autoPlusVar) Eval(w evalWriter, ev *Evaluator) error {
 	fmt.Fprint(w, v.String())
 	return nil
 }
 func (v autoPlusVar) String() string { return strings.Join(v.ctx.inputs, " ") }

 type autoStarVar struct{ autoVar }

 func (v autoStarVar) Eval(w evalWriter, ev *Evaluator) error {
 	fmt.Fprint(w, v.String())
 	return nil
 }

 // TODO: Use currentStem. See auto_stem_var.mk
 func (v autoStarVar) String() string { return stripExt(v.ctx.output) }

 func suffixDVar(k string) Var {
 	return &recursiveVar{
 		expr: expr{
 			&funcPatsubst{
 				fclosure: fclosure{
 					args: []Value{
 						literal("(patsubst"),
 						literal("%/"),
 						literal("%"),
 						&funcDir{
 							fclosure: fclosure{
 								args: []Value{
 									literal("(dir"),
 									&varref{
 										varname: literal(k),
 									},
 								},
 							},
 						},
 					},
 				},
 			},
 		},
 		origin: "automatic",
 	}
 }

 func suffixFVar(k string) Var {
 	return &recursiveVar{
 		expr: expr{
 			&funcNotdir{
 				fclosure: fclosure{
 					args: []Value{
 						literal("(notdir"),
 						&varref{varname: literal(k)},
 					},
 				},
 			},
 		},
 		origin: "automatic",
 	}
 }

 // runner is a single shell command invocation.
 type runner struct {
 	output      string
 	cmd         string
 	echo        bool
 	ignoreError bool
 	shell       string
 }

 func (r runner) String() string {
 	cmd := r.cmd
 	if !r.echo {
 		cmd = "@" + cmd
 	}
 	if r.ignoreError {
 		cmd = "-" + cmd
 	}
 	return cmd
 }

 func (r runner) forCmd(s string) runner {
 	for {
 		s = trimLeftSpace(s)
 		if s == "" {
 			return runner{}
 		}
 		switch s[0] {
 		case '@':
 			if !DryRunFlag {
 				r.echo = false
 			}
 			s = s[1:]
 			continue
 		case '-':
 			r.ignoreError = true
 			s = s[1:]
 			continue
 		}
 		break
 	}
 	r.cmd = s
 	return r
 }

 func (r runner) eval(ev *Evaluator, s string) ([]runner, error) {
 	r = r.forCmd(s)
 	if strings.IndexByte(r.cmd, '$') < 0 {
 		// fast path
 		return []runner{r}, nil
 	}
 	// TODO(ukai): parse once more earlier?
 	expr, _, err := parseExpr([]byte(r.cmd), nil, parseOp{})
 	if err != nil {
 		return nil, ev.errorf("parse cmd %q: %v", r.cmd, err)
 	}
 	buf := newEbuf()
 	err = expr.Eval(buf, ev)
 	if err != nil {
 		return nil, err
 	}
 	cmds := buf.String()
 	buf.release()
 	glog.V(1).Infof("evalcmd: %q => %q", r.cmd, cmds)
 	var runners []runner
 	for _, cmd := range strings.Split(cmds, "\n") {
 		if len(runners) > 0 && strings.HasSuffix(runners[len(runners)-1].cmd, "\\") {
 			runners[len(runners)-1].cmd += "\n"
 			runners[len(runners)-1].cmd += cmd
 			continue
 		}
 		runners = append(runners, r.forCmd(cmd))
 	}
 	return runners, nil
 }

 func (r runner) run(output string) error {
 	if r.echo || DryRunFlag {
 		fmt.Printf("%s\n", r.cmd)
 	}
 	s := cmdline(r.cmd)
 	glog.Infof("sh:%q", s)
 	if DryRunFlag {
 		return nil
 	}
 	args := []string{r.shell, "-c", s}
 	cmd := exec.Cmd{
 		Path: args[0],
 		Args: args,
 	}
 	out, err := cmd.CombinedOutput()
 	fmt.Printf("%s", out)
 	exit := exitStatus(err)
 	if r.ignoreError && exit != 0 {
 		fmt.Printf("[%s] Error %d (ignored)\n", output, exit)
 		err = nil
 	}
 	return err
 }

 func createRunners(ctx *execContext, n *DepNode) ([]runner, bool, error) {
 	var runners []runner
 	if len(n.Cmds) == 0 {
 		return runners, false, nil
 	}

 	ctx.mu.Lock()
 	defer ctx.mu.Unlock()
 	// For automatic variables.
 	ctx.output = n.Output
 	ctx.inputs = n.ActualInputs
 	for k, v := range n.TargetSpecificVars {
 		restore := ctx.ev.vars.save(k)
 		defer restore()
 		ctx.ev.vars[k] = v
 		if glog.V(1) {
 			glog.Infof("set tsv: %s=%s", k, v)
 		}
 	}

 	ctx.ev.filename = n.Filename
 	ctx.ev.lineno = n.Lineno
 	glog.Infof("Building: %s cmds:%q", n.Output, n.Cmds)
 	r := runner{
 		output: n.Output,
 		echo:   true,
 		shell:  ctx.shell,
 	}
 	for _, cmd := range n.Cmds {
 		rr, err := r.eval(ctx.ev, cmd)
 		if err != nil {
 			return nil, false, err
 		}
 		for _, r := range rr {
 			if len(r.cmd) != 0 {
 				runners = append(runners, r)
 			}
 		}
 	}
 	if len(ctx.ev.delayedOutputs) > 0 {
 		var nrunners []runner
 		r := runner{
 			output: n.Output,
 			shell:  ctx.shell,
 		}
 		for _, o := range ctx.ev.delayedOutputs {
 			nrunners = append(nrunners, r.forCmd(o))
 		}
 		nrunners = append(nrunners, runners...)
 		runners = nrunners
 		ctx.ev.delayedOutputs = nil
 	}
 	return runners, ctx.ev.hasIO, nil
 }

 func evalCommands(nodes []*DepNode, vars Vars) error {
 	ioCnt := 0
 	ectx := newExecContext(vars, searchPaths{}, true)
 	for i, n := range nodes {
 		runners, hasIO, err := createRunners(ectx, n)
 		if err != nil {
 			return err
 		}
 		if hasIO {
 			ioCnt++
 			if ioCnt%100 == 0 {
 				logStats("%d/%d rules have IO", ioCnt, i+1)
 			}
 			continue
 		}

 		n.Cmds = []string{}
 		n.TargetSpecificVars = make(Vars)
 		for _, r := range runners {
 			n.Cmds = append(n.Cmds, r.String())
 		}
 	}
 	logStats("%d/%d rules have IO", ioCnt, len(nodes))
 	return nil
 }
	// Copyright 2015 Google Inc. All rights reserved
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	package kati

	import (
	"fmt"
	"os/exec"
	"strings"
	"sync"

	"github.com/golang/glog"
	)

	type execContext struct {
	shell string

	mu sync.Mutex
	ev *Evaluator
	vpaths searchPaths
	output string
	inputs []string
	}

	func newExecContext(vars Vars, vpaths searchPaths, avoidIO bool) *execContext {
	ev := NewEvaluator(vars)
	ev.avoidIO = avoidIO

	ctx := &execContext{
	ev: ev,
	vpaths: vpaths,
	}
	av := autoVar{ctx: ctx}
	for k, v := range map[string]Var{
	"@": autoAtVar{autoVar: av},
	"<": autoLessVar{autoVar: av},
	"^": autoHatVar{autoVar: av},
	"+": autoPlusVar{autoVar: av},
	"*": autoStarVar{autoVar: av},
	} {
	ev.vars[k] = v
	// $<k>D = $(patsubst %/,%,$(dir $<k>))
	ev.vars[k+"D"] = suffixDVar(k)
	// $<k>F = $(notdir $<k>)
	ev.vars[k+"F"] = suffixFVar(k)
	}

	// TODO: We should move this to somewhere around evalCmd so that
	// we can handle SHELL in target specific variables.
	shell, err := ev.EvaluateVar("SHELL")
	if err != nil {
	shell = "/bin/sh"
	}
	ctx.shell = shell
	return ctx
	}

	func (ec *execContext) uniqueInputs() []string {
	var uniqueInputs []string
	seen := make(map[string]bool)
	for _, input := range ec.inputs {
	if !seen[input] {
	seen[input] = true
	uniqueInputs = append(uniqueInputs, input)
	}
	}
	return uniqueInputs
	}

	type autoVar struct{ ctx *execContext }

	func (v autoVar) Flavor() string { return "undefined" }
	func (v autoVar) Origin() string { return "automatic" }
	func (v autoVar) IsDefined() bool { return true }
	func (v autoVar) Append(*Evaluator, string) (Var, error) {
	return nil, fmt.Errorf("cannot append to autovar")
	}
	func (v autoVar) AppendVar(*Evaluator, Value) (Var, error) {
	return nil, fmt.Errorf("cannot append to autovar")
	}
	func (v autoVar) serialize() serializableVar {
	return serializableVar{Type: ""}
	}
	func (v autoVar) dump(d *dumpbuf) {
	d.err = fmt.Errorf("cannot dump auto var: %v", v)
	}

	type autoAtVar struct{ autoVar }

	func (v autoAtVar) Eval(w evalWriter, ev *Evaluator) error {
	fmt.Fprint(w, v.String())
	return nil
	}
	func (v autoAtVar) String() string { return v.ctx.output }

	type autoLessVar struct{ autoVar }

	func (v autoLessVar) Eval(w evalWriter, ev *Evaluator) error {
	fmt.Fprint(w, v.String())
	return nil
	}
	func (v autoLessVar) String() string {
	if len(v.ctx.inputs) > 0 {
	return v.ctx.inputs[0]
	}
	return ""
	}

	type autoHatVar struct{ autoVar }

	func (v autoHatVar) Eval(w evalWriter, ev *Evaluator) error {
	fmt.Fprint(w, v.String())
	return nil
	}
	func (v autoHatVar) String() string {
	return strings.Join(v.ctx.uniqueInputs(), " ")
	}

	type autoPlusVar struct{ autoVar }

	func (v autoPlusVar) Eval(w evalWriter, ev *Evaluator) error {
	fmt.Fprint(w, v.String())
	return nil
	}
	func (v autoPlusVar) String() string { return strings.Join(v.ctx.inputs, " ") }

	type autoStarVar struct{ autoVar }

	func (v autoStarVar) Eval(w evalWriter, ev *Evaluator) error {
	fmt.Fprint(w, v.String())
	return nil
	}

	// TODO: Use currentStem. See auto_stem_var.mk
	func (v autoStarVar) String() string { return stripExt(v.ctx.output) }

	func suffixDVar(k string) Var {
	return &recursiveVar{
	expr: expr{
	&funcPatsubst{
	fclosure: fclosure{
	args: []Value{
	literal("(patsubst"),
	literal("%/"),
	literal("%"),
	&funcDir{
	fclosure: fclosure{
	args: []Value{
	literal("(dir"),
	&varref{
	varname: literal(k),
	},
	},
	},
	},
	},
	},
	},
	},
	origin: "automatic",
	}
	}

	func suffixFVar(k string) Var {
	return &recursiveVar{
	expr: expr{
	&funcNotdir{
	fclosure: fclosure{
	args: []Value{
	literal("(notdir"),
	&varref{varname: literal(k)},
	},
	},
	},
	},
	origin: "automatic",
	}
	}

	// runner is a single shell command invocation.
	type runner struct {
	output string
	cmd string
	echo bool
	ignoreError bool
	shell string
	}

	func (r runner) String() string {
	cmd := r.cmd
	if !r.echo {
	cmd = "@" + cmd
	}
	if r.ignoreError {
	cmd = "-" + cmd
	}
	return cmd
	}

	func (r runner) forCmd(s string) runner {
	for {
	s = trimLeftSpace(s)
	if s == "" {
	return runner{}
	}
	switch s[0] {
	case '@':
	if !DryRunFlag {
	r.echo = false
	}
	s = s[1:]
	continue
	case '-':
	r.ignoreError = true
	s = s[1:]
	continue
	}
	break
	}
	r.cmd = s
	return r
	}

	func (r runner) eval(ev *Evaluator, s string) ([]runner, error) {
	r = r.forCmd(s)
	if strings.IndexByte(r.cmd, '$') < 0 {
	// fast path
	return []runner{r}, nil
	}
	// TODO(ukai): parse once more earlier?
	expr, _, err := parseExpr([]byte(r.cmd), nil, parseOp{})
	if err != nil {
	return nil, ev.errorf("parse cmd %q: %v", r.cmd, err)
	}
	buf := newEbuf()
	err = expr.Eval(buf, ev)
	if err != nil {
	return nil, err
	}
	cmds := buf.String()
	buf.release()
	glog.V(1).Infof("evalcmd: %q => %q", r.cmd, cmds)
	var runners []runner
	for _, cmd := range strings.Split(cmds, "\n") {
	if len(runners) > 0 && strings.HasSuffix(runners[len(runners)-1].cmd, "\\") {
	runners[len(runners)-1].cmd += "\n"
	runners[len(runners)-1].cmd += cmd
	continue
	}
	runners = append(runners, r.forCmd(cmd))
	}
	return runners, nil
	}

	func (r runner) run(output string) error {
	if r.echo \|\| DryRunFlag {
	fmt.Printf("%s\n", r.cmd)
	}
	s := cmdline(r.cmd)
	glog.Infof("sh:%q", s)
	if DryRunFlag {
	return nil
	}
	args := []string{r.shell, "-c", s}
	cmd := exec.Cmd{
	Path: args[0],
	Args: args,
	}
	out, err := cmd.CombinedOutput()
	fmt.Printf("%s", out)
	exit := exitStatus(err)
	if r.ignoreError && exit != 0 {
	fmt.Printf("[%s] Error %d (ignored)\n", output, exit)
	err = nil
	}
	return err
	}

	func createRunners(ctx execContext, n DepNode) ([]runner, bool, error) {
	var runners []runner
	if len(n.Cmds) == 0 {
	return runners, false, nil
	}

	ctx.mu.Lock()
	defer ctx.mu.Unlock()
	// For automatic variables.
	ctx.output = n.Output
	ctx.inputs = n.ActualInputs
	for k, v := range n.TargetSpecificVars {
	restore := ctx.ev.vars.save(k)
	defer restore()
	ctx.ev.vars[k] = v
	if glog.V(1) {
	glog.Infof("set tsv: %s=%s", k, v)
	}
	}

	ctx.ev.filename = n.Filename
	ctx.ev.lineno = n.Lineno
	glog.Infof("Building: %s cmds:%q", n.Output, n.Cmds)
	r := runner{
	output: n.Output,
	echo: true,
	shell: ctx.shell,
	}
	for _, cmd := range n.Cmds {
	rr, err := r.eval(ctx.ev, cmd)
	if err != nil {
	return nil, false, err
	}
	for _, r := range rr {
	if len(r.cmd) != 0 {
	runners = append(runners, r)
	}
	}
	}
	if len(ctx.ev.delayedOutputs) > 0 {
	var nrunners []runner
	r := runner{
	output: n.Output,
	shell: ctx.shell,
	}
	for _, o := range ctx.ev.delayedOutputs {
	nrunners = append(nrunners, r.forCmd(o))
	}
	nrunners = append(nrunners, runners...)
	runners = nrunners
	ctx.ev.delayedOutputs = nil
	}
	return runners, ctx.ev.hasIO, nil
	}

	func evalCommands(nodes []*DepNode, vars Vars) error {
	ioCnt := 0
	ectx := newExecContext(vars, searchPaths{}, true)
	for i, n := range nodes {
	runners, hasIO, err := createRunners(ectx, n)
	if err != nil {
	return err
	}
	if hasIO {
	ioCnt++
	if ioCnt%100 == 0 {
	logStats("%d/%d rules have IO", ioCnt, i+1)
	}
	continue
	}

	n.Cmds = []string{}
	n.TargetSpecificVars = make(Vars)
	for _, r := range runners {
	n.Cmds = append(n.Cmds, r.String())
	}
	}
	logStats("%d/%d rules have IO", ioCnt, len(nodes))
	return nil
	}