services/device/deviced/internal/impl/profile.go - release.go.x.ref - Git at Google

 // Copyright 2015 The Vanadium 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 impl

 import (
 	"bytes"
 	"errors"
 	"os/exec"
 	"runtime"
 	"strings"

 	"v.io/v23/services/build"
 	"v.io/v23/services/device"
 	"v.io/x/ref/services/internal/profiles"
 	"v.io/x/ref/services/profile"
 )

 // ComputeDeviceProfile generates a description of the runtime
 // environment (supported file format, OS, architecture, libraries) of
 // the host device.
 //
 // TODO(jsimsa): Avoid computing the host device description from
 // scratch if a recent cached copy exists.
 func ComputeDeviceProfile() (*profile.Specification, error) {
 	result := profile.Specification{}

 	// Find out what the supported operating system, file format, and
 	// architecture is.
 	var os build.OperatingSystem
 	if err := os.SetFromGoOS(runtime.GOOS); err != nil {
 		return nil, err
 	}
 	result.Os = os
 	switch os {
 	case build.OperatingSystemDarwin:
 		result.Format = build.FormatMach
 	case build.OperatingSystemLinux:
 		result.Format = build.FormatElf
 	case build.OperatingSystemWindows:
 		result.Format = build.FormatPe
 	case build.OperatingSystemAndroid:
 		result.Format = build.FormatElf
 	default:
 		return nil, errors.New("Unsupported operating system: " + os.String())
 	}
 	var arch build.Architecture
 	if err := arch.SetFromGoArch(runtime.GOARCH); err != nil {
 		return nil, err
 	}
 	result.Arch = arch

 	// Find out what the installed dynamically linked libraries are.
 	switch runtime.GOOS {
 	case "linux":
 		// For Linux, we identify what dynamically linked libraries are
 		// installed by parsing the output of "ldconfig -p".
 		command := exec.Command("/sbin/ldconfig", "-p")
 		output, err := command.CombinedOutput()
 		if err != nil {
 			return nil, err
 		}
 		buf := bytes.NewBuffer(output)
 		// Throw away the first line of output from ldconfig.
 		if _, err := buf.ReadString('\n'); err != nil {
 			return nil, errors.New("Could not identify libraries.")
 		}
 		// Extract the library name and version from every subsequent line.
 		result.Libraries = make(map[profile.Library]struct{})
 		line, err := buf.ReadString('\n')
 		for err == nil {
 			words := strings.Split(strings.Trim(line, " \t\n"), " ")
 			if len(words) > 0 {
 				tokens := strings.Split(words[0], ".so")
 				if len(tokens) != 2 {
 					return nil, errors.New("Could not identify library: " + words[0])
 				}
 				name := strings.TrimPrefix(tokens[0], "lib")
 				major, minor := "", ""
 				tokens = strings.SplitN(tokens[1], ".", 3)
 				if len(tokens) >= 2 {
 					major = tokens[1]
 				}
 				if len(tokens) >= 3 {
 					minor = tokens[2]
 				}
 				result.Libraries[profile.Library{Name: name, MajorVersion: major, MinorVersion: minor}] = struct{}{}
 			}
 			line, err = buf.ReadString('\n')
 		}
 	case "darwin":
 		// TODO(jsimsa): Implement.
 	case "windows":
 		// TODO(jsimsa): Implement.
 	case "android":
 		// TODO(caprita): Implement.
 	default:
 		return nil, errors.New("Unsupported operating system: " + runtime.GOOS)
 	}
 	return &result, nil
 }

 // getProfile gets a profile description for the given profile.
 //
 // TODO(jsimsa): Avoid retrieving the list of known profiles from a
 // remote server if a recent cached copy exists.
 func getProfile(name string) (*profile.Specification, error) {
 	profiles, err := profiles.GetKnownProfiles()
 	if err != nil {
 		return nil, err
 	}
 	for _, p := range profiles {
 		if p.Label == name {
 			return p, nil
 		}
 	}
 	return nil, nil

 	// TODO(jsimsa): This function assumes the existence of a profile
 	// server from which the profiles can be retrieved. The profile
 	// server is a work in progress. When it exists, the commented out
 	// code below should work.
 	/*
 		var profile profile.Specification
 				client, err := r.NewClient()
 				if err != nil {
 					return nil, verror.New(ErrOperationFailed, nil, fmt.Sprintf("NewClient() failed: %v", err))
 				}
 				defer client.Close()
 			  server := // TODO
 				method := "Specification"
 				inputs := make([]interface{}, 0)
 				call, err := client.StartCall(server + "/" + name, method, inputs)
 				if err != nil {
 					return nil, verror.New(ErrOperationFailed, nil, fmt.Sprintf("StartCall(%s, %q, %v) failed: %v\n", server + "/" + name, method, inputs, err))
 				}
 				if err := call.Finish(&profiles); err != nil {
 					return nil, verror.New(ErrOperationFailed, nil, fmt.Sprintf("Finish(%v) failed: %v\n", &profiles, err))
 				}
 		return &profile, nil
 	*/
 }

 // matchProfiles inputs a profile that describes the host device and a
 // set of publicly known profiles and outputs a device description that
 // identifies the publicly known profiles supported by the host device.
 func matchProfiles(p *profile.Specification, known []*profile.Specification) device.Description {
 	result := device.Description{Profiles: make(map[string]struct{})}
 loop:
 	for _, profile := range known {
 		if profile.Format != p.Format {
 			continue
 		}
 		if profile.Os != p.Os {
 			continue
 		}
 		if profile.Arch != p.Arch {
 			continue
 		}
 		for library := range profile.Libraries {
 			// Current implementation requires exact library name and version match.
 			if _, found := p.Libraries[library]; !found {
 				continue loop
 			}
 		}
 		result.Profiles[profile.Label] = struct{}{}
 	}
 	return result
 }

 // Describe returns a Description containing the profile that matches the
 // current device.  It's declared as a variable so we can override it for
 // testing.
 var Describe = func() (device.Description, error) {
 	empty := device.Description{}
 	deviceProfile, err := ComputeDeviceProfile()
 	if err != nil {
 		return empty, err
 	}
 	knownProfiles, err := profiles.GetKnownProfiles()
 	if err != nil {
 		return empty, err
 	}
 	result := matchProfiles(deviceProfile, knownProfiles)
 	if len(result.Profiles) == 0 {
 		// For now, return "unknown" as the profile, if no known profile
 		// matches the device's profile.
 		//
 		// TODO(caprita): Get rid of this crutch once we have profiles
 		// defined for our supported systems; for now it helps us make
 		// the integration test work on e.g. Mac.
 		result.Profiles["unknown"] = struct{}{}
 	}
 	return result, nil
 }
	// Copyright 2015 The Vanadium 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 impl

	import (
	"bytes"
	"errors"
	"os/exec"
	"runtime"
	"strings"

	"v.io/v23/services/build"
	"v.io/v23/services/device"
	"v.io/x/ref/services/internal/profiles"
	"v.io/x/ref/services/profile"
	)

	// ComputeDeviceProfile generates a description of the runtime
	// environment (supported file format, OS, architecture, libraries) of
	// the host device.
	//
	// TODO(jsimsa): Avoid computing the host device description from
	// scratch if a recent cached copy exists.
	func ComputeDeviceProfile() (*profile.Specification, error) {
	result := profile.Specification{}

	// Find out what the supported operating system, file format, and
	// architecture is.
	var os build.OperatingSystem
	if err := os.SetFromGoOS(runtime.GOOS); err != nil {
	return nil, err
	}
	result.Os = os
	switch os {
	case build.OperatingSystemDarwin:
	result.Format = build.FormatMach
	case build.OperatingSystemLinux:
	result.Format = build.FormatElf
	case build.OperatingSystemWindows:
	result.Format = build.FormatPe
	case build.OperatingSystemAndroid:
	result.Format = build.FormatElf
	default:
	return nil, errors.New("Unsupported operating system: " + os.String())
	}
	var arch build.Architecture
	if err := arch.SetFromGoArch(runtime.GOARCH); err != nil {
	return nil, err
	}
	result.Arch = arch

	// Find out what the installed dynamically linked libraries are.
	switch runtime.GOOS {
	case "linux":
	// For Linux, we identify what dynamically linked libraries are
	// installed by parsing the output of "ldconfig -p".
	command := exec.Command("/sbin/ldconfig", "-p")
	output, err := command.CombinedOutput()
	if err != nil {
	return nil, err
	}
	buf := bytes.NewBuffer(output)
	// Throw away the first line of output from ldconfig.
	if _, err := buf.ReadString('\n'); err != nil {
	return nil, errors.New("Could not identify libraries.")
	}
	// Extract the library name and version from every subsequent line.
	result.Libraries = make(map[profile.Library]struct{})
	line, err := buf.ReadString('\n')
	for err == nil {
	words := strings.Split(strings.Trim(line, " \t\n"), " ")
	if len(words) > 0 {
	tokens := strings.Split(words[0], ".so")
	if len(tokens) != 2 {
	return nil, errors.New("Could not identify library: " + words[0])
	}
	name := strings.TrimPrefix(tokens[0], "lib")
	major, minor := "", ""
	tokens = strings.SplitN(tokens[1], ".", 3)
	if len(tokens) >= 2 {
	major = tokens[1]
	}
	if len(tokens) >= 3 {
	minor = tokens[2]
	}
	result.Libraries[profile.Library{Name: name, MajorVersion: major, MinorVersion: minor}] = struct{}{}
	}
	line, err = buf.ReadString('\n')
	}
	case "darwin":
	// TODO(jsimsa): Implement.
	case "windows":
	// TODO(jsimsa): Implement.
	case "android":
	// TODO(caprita): Implement.
	default:
	return nil, errors.New("Unsupported operating system: " + runtime.GOOS)
	}
	return &result, nil
	}

	// getProfile gets a profile description for the given profile.
	//
	// TODO(jsimsa): Avoid retrieving the list of known profiles from a
	// remote server if a recent cached copy exists.
	func getProfile(name string) (*profile.Specification, error) {
	profiles, err := profiles.GetKnownProfiles()
	if err != nil {
	return nil, err
	}
	for _, p := range profiles {
	if p.Label == name {
	return p, nil
	}
	}
	return nil, nil

	// TODO(jsimsa): This function assumes the existence of a profile
	// server from which the profiles can be retrieved. The profile
	// server is a work in progress. When it exists, the commented out
	// code below should work.
	/*
	var profile profile.Specification
	client, err := r.NewClient()
	if err != nil {
	return nil, verror.New(ErrOperationFailed, nil, fmt.Sprintf("NewClient() failed: %v", err))
	}
	defer client.Close()
	server := // TODO
	method := "Specification"
	inputs := make([]interface{}, 0)
	call, err := client.StartCall(server + "/" + name, method, inputs)
	if err != nil {
	return nil, verror.New(ErrOperationFailed, nil, fmt.Sprintf("StartCall(%s, %q, %v) failed: %v\n", server + "/" + name, method, inputs, err))
	}
	if err := call.Finish(&profiles); err != nil {
	return nil, verror.New(ErrOperationFailed, nil, fmt.Sprintf("Finish(%v) failed: %v\n", &profiles, err))
	}
	return &profile, nil
	*/
	}

	// matchProfiles inputs a profile that describes the host device and a
	// set of publicly known profiles and outputs a device description that
	// identifies the publicly known profiles supported by the host device.
	func matchProfiles(p profile.Specification, known []profile.Specification) device.Description {
	result := device.Description{Profiles: make(map[string]struct{})}
	loop:
	for _, profile := range known {
	if profile.Format != p.Format {
	continue
	}
	if profile.Os != p.Os {
	continue
	}
	if profile.Arch != p.Arch {
	continue
	}
	for library := range profile.Libraries {
	// Current implementation requires exact library name and version match.
	if _, found := p.Libraries[library]; !found {
	continue loop
	}
	}
	result.Profiles[profile.Label] = struct{}{}
	}
	return result
	}

	// Describe returns a Description containing the profile that matches the
	// current device. It's declared as a variable so we can override it for
	// testing.
	var Describe = func() (device.Description, error) {
	empty := device.Description{}
	deviceProfile, err := ComputeDeviceProfile()
	if err != nil {
	return empty, err
	}
	knownProfiles, err := profiles.GetKnownProfiles()
	if err != nil {
	return empty, err
	}
	result := matchProfiles(deviceProfile, knownProfiles)
	if len(result.Profiles) == 0 {
	// For now, return "unknown" as the profile, if no known profile
	// matches the device's profile.
	//
	// TODO(caprita): Get rid of this crutch once we have profiles
	// defined for our supported systems; for now it helps us make
	// the integration test work on e.g. Mac.
	result.Profiles["unknown"] = struct{}{}
	}
	return result, nil
	}