profiles/seccomp/seccomp_linux.go - third_party/github.com/moby/moby - Git at Google

 //go:generate go run -tags 'seccomp' generate.go

 package seccomp // import "github.com/docker/docker/profiles/seccomp"

 import (
 	"encoding/json"
 	"errors"
 	"fmt"
 	"runtime"

 	specs "github.com/opencontainers/runtime-spec/specs-go"
 )

 // GetDefaultProfile returns the default seccomp profile.
 func GetDefaultProfile(rs *specs.Spec) (*specs.LinuxSeccomp, error) {
 	return setupSeccomp(DefaultProfile(), rs)
 }

 // LoadProfile takes a json string and decodes the seccomp profile.
 func LoadProfile(body string, rs *specs.Spec) (*specs.LinuxSeccomp, error) {
 	var config Seccomp
 	if err := json.Unmarshal([]byte(body), &config); err != nil {
 		return nil, fmt.Errorf("Decoding seccomp profile failed: %v", err)
 	}
 	return setupSeccomp(&config, rs)
 }

 // libseccomp string => seccomp arch
 var nativeToSeccomp = map[string]specs.Arch{
 	"x86":         specs.ArchX86,
 	"amd64":       specs.ArchX86_64,
 	"arm":         specs.ArchARM,
 	"arm64":       specs.ArchAARCH64,
 	"mips64":      specs.ArchMIPS64,
 	"mips64n32":   specs.ArchMIPS64N32,
 	"mipsel64":    specs.ArchMIPSEL64,
 	"mips3l64n32": specs.ArchMIPSEL64N32,
 	"mipsle":      specs.ArchMIPSEL,
 	"ppc":         specs.ArchPPC,
 	"ppc64":       specs.ArchPPC64,
 	"ppc64le":     specs.ArchPPC64LE,
 	"s390":        specs.ArchS390,
 	"s390x":       specs.ArchS390X,
 }

 // GOARCH => libseccomp string
 var goToNative = map[string]string{
 	"386":         "x86",
 	"amd64":       "amd64",
 	"arm":         "arm",
 	"arm64":       "arm64",
 	"mips64":      "mips64",
 	"mips64p32":   "mips64n32",
 	"mips64le":    "mipsel64",
 	"mips64p32le": "mips3l64n32",
 	"mipsle":      "mipsel",
 	"ppc":         "ppc",
 	"ppc64":       "ppc64",
 	"ppc64le":     "ppc64le",
 	"s390":        "s390",
 	"s390x":       "s390x",
 }

 // inSlice tests whether a string is contained in a slice of strings or not.
 // Comparison is case sensitive
 func inSlice(slice []string, s string) bool {
 	for _, ss := range slice {
 		if s == ss {
 			return true
 		}
 	}
 	return false
 }

 func setupSeccomp(config *Seccomp, rs *specs.Spec) (*specs.LinuxSeccomp, error) {
 	if config == nil {
 		return nil, nil
 	}

 	// No default action specified, no syscalls listed, assume seccomp disabled
 	if config.DefaultAction == "" && len(config.Syscalls) == 0 {
 		return nil, nil
 	}

 	newConfig := &specs.LinuxSeccomp{}

 	if len(config.Architectures) != 0 && len(config.ArchMap) != 0 {
 		return nil, errors.New("'architectures' and 'archMap' were specified in the seccomp profile, use either 'architectures' or 'archMap'")
 	}

 	// if config.Architectures == 0 then libseccomp will figure out the architecture to use
 	if len(config.Architectures) != 0 {
 		newConfig.Architectures = config.Architectures
 	}

 	arch := goToNative[runtime.GOARCH]
 	seccompArch, archExists := nativeToSeccomp[arch]

 	if len(config.ArchMap) != 0 && archExists {
 		for _, a := range config.ArchMap {
 			if a.Arch == seccompArch {
 				newConfig.Architectures = append(newConfig.Architectures, a.Arch)
 				newConfig.Architectures = append(newConfig.Architectures, a.SubArches...)
 				break
 			}
 		}
 	}

 	newConfig.DefaultAction = config.DefaultAction

 Loop:
 	// Loop through all syscall blocks and convert them to libcontainer format after filtering them
 	for _, call := range config.Syscalls {
 		if len(call.Excludes.Arches) > 0 {
 			if inSlice(call.Excludes.Arches, arch) {
 				continue Loop
 			}
 		}
 		if len(call.Excludes.Caps) > 0 {
 			for _, c := range call.Excludes.Caps {
 				if inSlice(rs.Process.Capabilities.Bounding, c) {
 					continue Loop
 				}
 			}
 		}
 		if call.Excludes.MinKernel != nil {
 			if ok, err := kernelGreaterEqualThan(*call.Excludes.MinKernel); err != nil {
 				return nil, err
 			} else if ok {
 				continue Loop
 			}
 		}
 		if len(call.Includes.Arches) > 0 {
 			if !inSlice(call.Includes.Arches, arch) {
 				continue Loop
 			}
 		}
 		if len(call.Includes.Caps) > 0 {
 			for _, c := range call.Includes.Caps {
 				if !inSlice(rs.Process.Capabilities.Bounding, c) {
 					continue Loop
 				}
 			}
 		}
 		if call.Includes.MinKernel != nil {
 			if ok, err := kernelGreaterEqualThan(*call.Includes.MinKernel); err != nil {
 				return nil, err
 			} else if !ok {
 				continue Loop
 			}
 		}

 		if call.Name != "" && len(call.Names) != 0 {
 			return nil, errors.New("'name' and 'names' were specified in the seccomp profile, use either 'name' or 'names'")
 		}

 		if call.Name != "" {
 			newConfig.Syscalls = append(newConfig.Syscalls, createSpecsSyscall([]string{call.Name}, call.Action, call.Args))
 		} else {
 			newConfig.Syscalls = append(newConfig.Syscalls, createSpecsSyscall(call.Names, call.Action, call.Args))
 		}
 	}

 	return newConfig, nil
 }

 func createSpecsSyscall(names []string, action specs.LinuxSeccompAction, args []*specs.LinuxSeccompArg) specs.LinuxSyscall {
 	newCall := specs.LinuxSyscall{
 		Names:  names,
 		Action: action,
 	}

 	// Loop through all the arguments of the syscall and convert them
 	for _, arg := range args {
 		newCall.Args = append(newCall.Args, *arg)
 	}
 	return newCall
 }
	//go:generate go run -tags 'seccomp' generate.go

	package seccomp // import "github.com/docker/docker/profiles/seccomp"

	import (
	"encoding/json"
	"errors"
	"fmt"
	"runtime"

	specs "github.com/opencontainers/runtime-spec/specs-go"
	)

	// GetDefaultProfile returns the default seccomp profile.
	func GetDefaultProfile(rs specs.Spec) (specs.LinuxSeccomp, error) {
	return setupSeccomp(DefaultProfile(), rs)
	}

	// LoadProfile takes a json string and decodes the seccomp profile.
	func LoadProfile(body string, rs specs.Spec) (specs.LinuxSeccomp, error) {
	var config Seccomp
	if err := json.Unmarshal([]byte(body), &config); err != nil {
	return nil, fmt.Errorf("Decoding seccomp profile failed: %v", err)
	}
	return setupSeccomp(&config, rs)
	}

	// libseccomp string => seccomp arch
	var nativeToSeccomp = map[string]specs.Arch{
	"x86": specs.ArchX86,
	"amd64": specs.ArchX86_64,
	"arm": specs.ArchARM,
	"arm64": specs.ArchAARCH64,
	"mips64": specs.ArchMIPS64,
	"mips64n32": specs.ArchMIPS64N32,
	"mipsel64": specs.ArchMIPSEL64,
	"mips3l64n32": specs.ArchMIPSEL64N32,
	"mipsle": specs.ArchMIPSEL,
	"ppc": specs.ArchPPC,
	"ppc64": specs.ArchPPC64,
	"ppc64le": specs.ArchPPC64LE,
	"s390": specs.ArchS390,
	"s390x": specs.ArchS390X,
	}

	// GOARCH => libseccomp string
	var goToNative = map[string]string{
	"386": "x86",
	"amd64": "amd64",
	"arm": "arm",
	"arm64": "arm64",
	"mips64": "mips64",
	"mips64p32": "mips64n32",
	"mips64le": "mipsel64",
	"mips64p32le": "mips3l64n32",
	"mipsle": "mipsel",
	"ppc": "ppc",
	"ppc64": "ppc64",
	"ppc64le": "ppc64le",
	"s390": "s390",
	"s390x": "s390x",
	}

	// inSlice tests whether a string is contained in a slice of strings or not.
	// Comparison is case sensitive
	func inSlice(slice []string, s string) bool {
	for _, ss := range slice {
	if s == ss {
	return true
	}
	}
	return false
	}

	func setupSeccomp(config Seccomp, rs specs.Spec) (*specs.LinuxSeccomp, error) {
	if config == nil {
	return nil, nil
	}

	// No default action specified, no syscalls listed, assume seccomp disabled
	if config.DefaultAction == "" && len(config.Syscalls) == 0 {
	return nil, nil
	}

	newConfig := &specs.LinuxSeccomp{}

	if len(config.Architectures) != 0 && len(config.ArchMap) != 0 {
	return nil, errors.New("'architectures' and 'archMap' were specified in the seccomp profile, use either 'architectures' or 'archMap'")
	}

	// if config.Architectures == 0 then libseccomp will figure out the architecture to use
	if len(config.Architectures) != 0 {
	newConfig.Architectures = config.Architectures
	}

	arch := goToNative[runtime.GOARCH]
	seccompArch, archExists := nativeToSeccomp[arch]

	if len(config.ArchMap) != 0 && archExists {
	for _, a := range config.ArchMap {
	if a.Arch == seccompArch {
	newConfig.Architectures = append(newConfig.Architectures, a.Arch)
	newConfig.Architectures = append(newConfig.Architectures, a.SubArches...)
	break
	}
	}
	}

	newConfig.DefaultAction = config.DefaultAction

	Loop:
	// Loop through all syscall blocks and convert them to libcontainer format after filtering them
	for _, call := range config.Syscalls {
	if len(call.Excludes.Arches) > 0 {
	if inSlice(call.Excludes.Arches, arch) {
	continue Loop
	}
	}
	if len(call.Excludes.Caps) > 0 {
	for _, c := range call.Excludes.Caps {
	if inSlice(rs.Process.Capabilities.Bounding, c) {
	continue Loop
	}
	}
	}
	if call.Excludes.MinKernel != nil {
	if ok, err := kernelGreaterEqualThan(*call.Excludes.MinKernel); err != nil {
	return nil, err
	} else if ok {
	continue Loop
	}
	}
	if len(call.Includes.Arches) > 0 {
	if !inSlice(call.Includes.Arches, arch) {
	continue Loop
	}
	}
	if len(call.Includes.Caps) > 0 {
	for _, c := range call.Includes.Caps {
	if !inSlice(rs.Process.Capabilities.Bounding, c) {
	continue Loop
	}
	}
	}
	if call.Includes.MinKernel != nil {
	if ok, err := kernelGreaterEqualThan(*call.Includes.MinKernel); err != nil {
	return nil, err
	} else if !ok {
	continue Loop
	}
	}

	if call.Name != "" && len(call.Names) != 0 {
	return nil, errors.New("'name' and 'names' were specified in the seccomp profile, use either 'name' or 'names'")
	}

	if call.Name != "" {
	newConfig.Syscalls = append(newConfig.Syscalls, createSpecsSyscall([]string{call.Name}, call.Action, call.Args))
	} else {
	newConfig.Syscalls = append(newConfig.Syscalls, createSpecsSyscall(call.Names, call.Action, call.Args))
	}
	}

	return newConfig, nil
	}

	func createSpecsSyscall(names []string, action specs.LinuxSeccompAction, args []*specs.LinuxSeccompArg) specs.LinuxSyscall {
	newCall := specs.LinuxSyscall{
	Names: names,
	Action: action,
	}

	// Loop through all the arguments of the syscall and convert them
	for _, arg := range args {
	newCall.Args = append(newCall.Args, *arg)
	}
	return newCall
	}