1 files changed, 902 insertions, 0 deletions

diff --git a/vendor/github.com/seccomp/libseccomp-golang/seccomp.go b/vendor/github.com/seccomp/libseccomp-golang/seccomp.go
new file mode 100644
index 000000000..53bcb024d
--- /dev/null
+++ b/vendor/github.com/seccomp/libseccomp-golang/seccomp.go
@@ -0,0 +1,902 @@
+// +build linux
+
+// Public API specification for libseccomp Go bindings
+// Contains public API for the bindings
+
+// Package seccomp provides bindings for libseccomp, a library wrapping the Linux
+// seccomp syscall. Seccomp enables an application to restrict system call use
+// for itself and its children.
+package seccomp
+
+import (
+	"fmt"
+	"os"
+	"runtime"
+	"strings"
+	"sync"
+	"syscall"
+	"unsafe"
+)
+
+// C wrapping code
+
+// #cgo pkg-config: libseccomp
+// #include <stdlib.h>
+// #include <seccomp.h>
+import "C"
+
+// Exported types
+
+// VersionError denotes that the system libseccomp version is incompatible
+// with this package.
+type VersionError struct {
+	message string
+	minimum string
+}
+
+func (e VersionError) Error() string {
+	format := "Libseccomp version too low: "
+	if e.message != "" {
+		format += e.message + ": "
+	}
+	format += "minimum supported is "
+	if e.minimum != "" {
+		format += e.minimum + ": "
+	} else {
+		format += "2.1.0: "
+	}
+	format += "detected %d.%d.%d"
+	return fmt.Sprintf(format, verMajor, verMinor, verMicro)
+}
+
+// ScmpArch represents a CPU architecture. Seccomp can restrict syscalls on a
+// per-architecture basis.
+type ScmpArch uint
+
+// ScmpAction represents an action to be taken on a filter rule match in
+// libseccomp
+type ScmpAction uint
+
+// ScmpCompareOp represents a comparison operator which can be used in a filter
+// rule
+type ScmpCompareOp uint
+
+// ScmpCondition represents a rule in a libseccomp filter context
+type ScmpCondition struct {
+	Argument uint          `json:"argument,omitempty"`
+	Op       ScmpCompareOp `json:"operator,omitempty"`
+	Operand1 uint64        `json:"operand_one,omitempty"`
+	Operand2 uint64        `json:"operand_two,omitempty"`
+}
+
+// ScmpSyscall represents a Linux System Call
+type ScmpSyscall int32
+
+// Exported Constants
+
+const (
+	// Valid architectures recognized by libseccomp
+	// ARM64 and all MIPS architectures are unsupported by versions of the
+	// library before v2.2 and will return errors if used
+
+	// ArchInvalid is a placeholder to ensure uninitialized ScmpArch
+	// variables are invalid
+	ArchInvalid ScmpArch = iota
+	// ArchNative is the native architecture of the kernel
+	ArchNative ScmpArch = iota
+	// ArchX86 represents 32-bit x86 syscalls
+	ArchX86 ScmpArch = iota
+	// ArchAMD64 represents 64-bit x86-64 syscalls
+	ArchAMD64 ScmpArch = iota
+	// ArchX32 represents 64-bit x86-64 syscalls (32-bit pointers)
+	ArchX32 ScmpArch = iota
+	// ArchARM represents 32-bit ARM syscalls
+	ArchARM ScmpArch = iota
+	// ArchARM64 represents 64-bit ARM syscalls
+	ArchARM64 ScmpArch = iota
+	// ArchMIPS represents 32-bit MIPS syscalls
+	ArchMIPS ScmpArch = iota
+	// ArchMIPS64 represents 64-bit MIPS syscalls
+	ArchMIPS64 ScmpArch = iota
+	// ArchMIPS64N32 represents 64-bit MIPS syscalls (32-bit pointers)
+	ArchMIPS64N32 ScmpArch = iota
+	// ArchMIPSEL represents 32-bit MIPS syscalls (little endian)
+	ArchMIPSEL ScmpArch = iota
+	// ArchMIPSEL64 represents 64-bit MIPS syscalls (little endian)
+	ArchMIPSEL64 ScmpArch = iota
+	// ArchMIPSEL64N32 represents 64-bit MIPS syscalls (little endian,
+	// 32-bit pointers)
+	ArchMIPSEL64N32 ScmpArch = iota
+	// ArchPPC represents 32-bit POWERPC syscalls
+	ArchPPC ScmpArch = iota
+	// ArchPPC64 represents 64-bit POWER syscalls (big endian)
+	ArchPPC64 ScmpArch = iota
+	// ArchPPC64LE represents 64-bit POWER syscalls (little endian)
+	ArchPPC64LE ScmpArch = iota
+	// ArchS390 represents 31-bit System z/390 syscalls
+	ArchS390 ScmpArch = iota
+	// ArchS390X represents 64-bit System z/390 syscalls
+	ArchS390X ScmpArch = iota
+)
+
+const (
+	// Supported actions on filter match
+
+	// ActInvalid is a placeholder to ensure uninitialized ScmpAction
+	// variables are invalid
+	ActInvalid ScmpAction = iota
+	// ActKill kills the process
+	ActKill ScmpAction = iota
+	// ActTrap throws SIGSYS
+	ActTrap ScmpAction = iota
+	// ActErrno causes the syscall to return a negative error code. This
+	// code can be set with the SetReturnCode method
+	ActErrno ScmpAction = iota
+	// ActTrace causes the syscall to notify tracing processes with the
+	// given error code. This code can be set with the SetReturnCode method
+	ActTrace ScmpAction = iota
+	// ActAllow permits the syscall to continue execution
+	ActAllow ScmpAction = iota
+)
+
+const (
+	// These are comparison operators used in conditional seccomp rules
+	// They are used to compare the value of a single argument of a syscall
+	// against a user-defined constant
+
+	// CompareInvalid is a placeholder to ensure uninitialized ScmpCompareOp
+	// variables are invalid
+	CompareInvalid ScmpCompareOp = iota
+	// CompareNotEqual returns true if the argument is not equal to the
+	// given value
+	CompareNotEqual ScmpCompareOp = iota
+	// CompareLess returns true if the argument is less than the given value
+	CompareLess ScmpCompareOp = iota
+	// CompareLessOrEqual returns true if the argument is less than or equal
+	// to the given value
+	CompareLessOrEqual ScmpCompareOp = iota
+	// CompareEqual returns true if the argument is equal to the given value
+	CompareEqual ScmpCompareOp = iota
+	// CompareGreaterEqual returns true if the argument is greater than or
+	// equal to the given value
+	CompareGreaterEqual ScmpCompareOp = iota
+	// CompareGreater returns true if the argument is greater than the given
+	// value
+	CompareGreater ScmpCompareOp = iota
+	// CompareMaskedEqual returns true if the argument is equal to the given
+	// value, when masked (bitwise &) against the second given value
+	CompareMaskedEqual ScmpCompareOp = iota
+)
+
+// Helpers for types
+
+// GetArchFromString returns an ScmpArch constant from a string representing an
+// architecture
+func GetArchFromString(arch string) (ScmpArch, error) {
+	if err := ensureSupportedVersion(); err != nil {
+		return ArchInvalid, err
+	}
+
+	switch strings.ToLower(arch) {
+	case "x86":
+		return ArchX86, nil
+	case "amd64", "x86-64", "x86_64", "x64":
+		return ArchAMD64, nil
+	case "x32":
+		return ArchX32, nil
+	case "arm":
+		return ArchARM, nil
+	case "arm64", "aarch64":
+		return ArchARM64, nil
+	case "mips":
+		return ArchMIPS, nil
+	case "mips64":
+		return ArchMIPS64, nil
+	case "mips64n32":
+		return ArchMIPS64N32, nil
+	case "mipsel":
+		return ArchMIPSEL, nil
+	case "mipsel64":
+		return ArchMIPSEL64, nil
+	case "mipsel64n32":
+		return ArchMIPSEL64N32, nil
+	case "ppc":
+		return ArchPPC, nil
+	case "ppc64":
+		return ArchPPC64, nil
+	case "ppc64le":
+		return ArchPPC64LE, nil
+	case "s390":
+		return ArchS390, nil
+	case "s390x":
+		return ArchS390X, nil
+	default:
+		return ArchInvalid, fmt.Errorf("cannot convert unrecognized string %s", arch)
+	}
+}
+
+// String returns a string representation of an architecture constant
+func (a ScmpArch) String() string {
+	switch a {
+	case ArchX86:
+		return "x86"
+	case ArchAMD64:
+		return "amd64"
+	case ArchX32:
+		return "x32"
+	case ArchARM:
+		return "arm"
+	case ArchARM64:
+		return "arm64"
+	case ArchMIPS:
+		return "mips"
+	case ArchMIPS64:
+		return "mips64"
+	case ArchMIPS64N32:
+		return "mips64n32"
+	case ArchMIPSEL:
+		return "mipsel"
+	case ArchMIPSEL64:
+		return "mipsel64"
+	case ArchMIPSEL64N32:
+		return "mipsel64n32"
+	case ArchPPC:
+		return "ppc"
+	case ArchPPC64:
+		return "ppc64"
+	case ArchPPC64LE:
+		return "ppc64le"
+	case ArchS390:
+		return "s390"
+	case ArchS390X:
+		return "s390x"
+	case ArchNative:
+		return "native"
+	case ArchInvalid:
+		return "Invalid architecture"
+	default:
+		return "Unknown architecture"
+	}
+}
+
+// String returns a string representation of a comparison operator constant
+func (a ScmpCompareOp) String() string {
+	switch a {
+	case CompareNotEqual:
+		return "Not equal"
+	case CompareLess:
+		return "Less than"
+	case CompareLessOrEqual:
+		return "Less than or equal to"
+	case CompareEqual:
+		return "Equal"
+	case CompareGreaterEqual:
+		return "Greater than or equal to"
+	case CompareGreater:
+		return "Greater than"
+	case CompareMaskedEqual:
+		return "Masked equality"
+	case CompareInvalid:
+		return "Invalid comparison operator"
+	default:
+		return "Unrecognized comparison operator"
+	}
+}
+
+// String returns a string representation of a seccomp match action
+func (a ScmpAction) String() string {
+	switch a & 0xFFFF {
+	case ActKill:
+		return "Action: Kill Process"
+	case ActTrap:
+		return "Action: Send SIGSYS"
+	case ActErrno:
+		return fmt.Sprintf("Action: Return error code %d", (a >> 16))
+	case ActTrace:
+		return fmt.Sprintf("Action: Notify tracing processes with code %d",
+			(a >> 16))
+	case ActAllow:
+		return "Action: Allow system call"
+	default:
+		return "Unrecognized Action"
+	}
+}
+
+// SetReturnCode adds a return code to a supporting ScmpAction, clearing any
+// existing code Only valid on ActErrno and ActTrace. Takes no action otherwise.
+// Accepts 16-bit return code as argument.
+// Returns a valid ScmpAction of the original type with the new error code set.
+func (a ScmpAction) SetReturnCode(code int16) ScmpAction {
+	aTmp := a & 0x0000FFFF
+	if aTmp == ActErrno || aTmp == ActTrace {
+		return (aTmp | (ScmpAction(code)&0xFFFF)<<16)
+	}
+	return a
+}
+
+// GetReturnCode returns the return code of an ScmpAction
+func (a ScmpAction) GetReturnCode() int16 {
+	return int16(a >> 16)
+}
+
+// General utility functions
+
+// GetLibraryVersion returns the version of the library the bindings are built
+// against.
+// The version is formatted as follows: Major.Minor.Micro
+func GetLibraryVersion() (major, minor, micro int) {
+	return verMajor, verMinor, verMicro
+}
+
+// Syscall functions
+
+// GetName retrieves the name of a syscall from its number.
+// Acts on any syscall number.
+// Returns either a string containing the name of the syscall, or an error.
+func (s ScmpSyscall) GetName() (string, error) {
+	return s.GetNameByArch(ArchNative)
+}
+
+// GetNameByArch retrieves the name of a syscall from its number for a given
+// architecture.
+// Acts on any syscall number.
+// Accepts a valid architecture constant.
+// Returns either a string containing the name of the syscall, or an error.
+// if the syscall is unrecognized or an issue occurred.
+func (s ScmpSyscall) GetNameByArch(arch ScmpArch) (string, error) {
+	if err := sanitizeArch(arch); err != nil {
+		return "", err
+	}
+
+	cString := C.seccomp_syscall_resolve_num_arch(arch.toNative(), C.int(s))
+	if cString == nil {
+		return "", fmt.Errorf("could not resolve syscall name")
+	}
+	defer C.free(unsafe.Pointer(cString))
+
+	finalStr := C.GoString(cString)
+	return finalStr, nil
+}
+
+// GetSyscallFromName returns the number of a syscall by name on the kernel's
+// native architecture.
+// Accepts a string containing the name of a syscall.
+// Returns the number of the syscall, or an error if no syscall with that name
+// was found.
+func GetSyscallFromName(name string) (ScmpSyscall, error) {
+	if err := ensureSupportedVersion(); err != nil {
+		return 0, err
+	}
+
+	cString := C.CString(name)
+	defer C.free(unsafe.Pointer(cString))
+
+	result := C.seccomp_syscall_resolve_name(cString)
+	if result == scmpError {
+		return 0, fmt.Errorf("could not resolve name to syscall")
+	}
+
+	return ScmpSyscall(result), nil
+}
+
+// GetSyscallFromNameByArch returns the number of a syscall by name for a given
+// architecture's ABI.
+// Accepts the name of a syscall and an architecture constant.
+// Returns the number of the syscall, or an error if an invalid architecture is
+// passed or a syscall with that name was not found.
+func GetSyscallFromNameByArch(name string, arch ScmpArch) (ScmpSyscall, error) {
+	if err := ensureSupportedVersion(); err != nil {
+		return 0, err
+	}
+	if err := sanitizeArch(arch); err != nil {
+		return 0, err
+	}
+
+	cString := C.CString(name)
+	defer C.free(unsafe.Pointer(cString))
+
+	result := C.seccomp_syscall_resolve_name_arch(arch.toNative(), cString)
+	if result == scmpError {
+		return 0, fmt.Errorf("could not resolve name to syscall")
+	}
+
+	return ScmpSyscall(result), nil
+}
+
+// MakeCondition creates and returns a new condition to attach to a filter rule.
+// Associated rules will only match if this condition is true.
+// Accepts the number the argument we are checking, and a comparison operator
+// and value to compare to.
+// The rule will match if argument $arg (zero-indexed) of the syscall is
+// $COMPARE_OP the provided comparison value.
+// Some comparison operators accept two values. Masked equals, for example,
+// will mask $arg of the syscall with the second value provided (via bitwise
+// AND) and then compare against the first value provided.
+// For example, in the less than or equal case, if the syscall argument was
+// 0 and the value provided was 1, the condition would match, as 0 is less
+// than or equal to 1.
+// Return either an error on bad argument or a valid ScmpCondition struct.
+func MakeCondition(arg uint, comparison ScmpCompareOp, values ...uint64) (ScmpCondition, error) {
+	var condStruct ScmpCondition
+
+	if err := ensureSupportedVersion(); err != nil {
+		return condStruct, err
+	}
+
+	if comparison == CompareInvalid {
+		return condStruct, fmt.Errorf("invalid comparison operator")
+	} else if arg > 5 {
+		return condStruct, fmt.Errorf("syscalls only have up to 6 arguments")
+	} else if len(values) > 2 {
+		return condStruct, fmt.Errorf("conditions can have at most 2 arguments")
+	} else if len(values) == 0 {
+		return condStruct, fmt.Errorf("must provide at least one value to compare against")
+	}
+
+	condStruct.Argument = arg
+	condStruct.Op = comparison
+	condStruct.Operand1 = values[0]
+	if len(values) == 2 {
+		condStruct.Operand2 = values[1]
+	} else {
+		condStruct.Operand2 = 0 // Unused
+	}
+
+	return condStruct, nil
+}
+
+// Utility Functions
+
+// GetNativeArch returns architecture token representing the native kernel
+// architecture
+func GetNativeArch() (ScmpArch, error) {
+	if err := ensureSupportedVersion(); err != nil {
+		return ArchInvalid, err
+	}
+
+	arch := C.seccomp_arch_native()
+
+	return archFromNative(arch)
+}
+
+// Public Filter API
+
+// ScmpFilter represents a filter context in libseccomp.
+// A filter context is initially empty. Rules can be added to it, and it can
+// then be loaded into the kernel.
+type ScmpFilter struct {
+	filterCtx C.scmp_filter_ctx
+	valid     bool
+	lock      sync.Mutex
+}
+
+// NewFilter creates and returns a new filter context.
+// Accepts a default action to be taken for syscalls which match no rules in
+// the filter.
+// Returns a reference to a valid filter context, or nil and an error if the
+// filter context could not be created or an invalid default action was given.
+func NewFilter(defaultAction ScmpAction) (*ScmpFilter, error) {
+	if err := ensureSupportedVersion(); err != nil {
+		return nil, err
+	}
+
+	if err := sanitizeAction(defaultAction); err != nil {
+		return nil, err
+	}
+
+	fPtr := C.seccomp_init(defaultAction.toNative())
+	if fPtr == nil {
+		return nil, fmt.Errorf("could not create filter")
+	}
+
+	filter := new(ScmpFilter)
+	filter.filterCtx = fPtr
+	filter.valid = true
+	runtime.SetFinalizer(filter, filterFinalizer)
+
+	return filter, nil
+}
+
+// IsValid determines whether a filter context is valid to use.
+// Some operations (Release and Merge) render filter contexts invalid and
+// consequently prevent further use.
+func (f *ScmpFilter) IsValid() bool {
+	f.lock.Lock()
+	defer f.lock.Unlock()
+
+	return f.valid
+}
+
+// Reset resets a filter context, removing all its existing state.
+// Accepts a new default action to be taken for syscalls which do not match.
+// Returns an error if the filter or action provided are invalid.
+func (f *ScmpFilter) Reset(defaultAction ScmpAction) error {
+	f.lock.Lock()
+	defer f.lock.Unlock()
+
+	if err := sanitizeAction(defaultAction); err != nil {
+		return err
+	} else if !f.valid {
+		return errBadFilter
+	}
+
+	retCode := C.seccomp_reset(f.filterCtx, defaultAction.toNative())
+	if retCode != 0 {
+		return syscall.Errno(-1 * retCode)
+	}
+
+	return nil
+}
+
+// Release releases a filter context, freeing its memory. Should be called after
+// loading into the kernel, when the filter is no longer needed.
+// After calling this function, the given filter is no longer valid and cannot
+// be used.
+// Release() will be invoked automatically when a filter context is garbage
+// collected, but can also be called manually to free memory.
+func (f *ScmpFilter) Release() {
+	f.lock.Lock()
+	defer f.lock.Unlock()
+
+	if !f.valid {
+		return
+	}
+
+	f.valid = false
+	C.seccomp_release(f.filterCtx)
+}
+
+// Merge merges two filter contexts.
+// The source filter src will be released as part of the process, and will no
+// longer be usable or valid after this call.
+// To be merged, filters must NOT share any architectures, and all their
+// attributes (Default Action, Bad Arch Action, No New Privs and TSync bools)
+// must match.
+// The filter src will be merged into the filter this is called on.
+// The architectures of the src filter not present in the destination, and all
+// associated rules, will be added to the destination.
+// Returns an error if merging the filters failed.
+func (f *ScmpFilter) Merge(src *ScmpFilter) error {
+	f.lock.Lock()
+	defer f.lock.Unlock()
+
+	src.lock.Lock()
+	defer src.lock.Unlock()
+
+	if !src.valid || !f.valid {
+		return fmt.Errorf("one or more of the filter contexts is invalid or uninitialized")
+	}
+
+	// Merge the filters
+	retCode := C.seccomp_merge(f.filterCtx, src.filterCtx)
+	if syscall.Errno(-1*retCode) == syscall.EINVAL {
+		return fmt.Errorf("filters could not be merged due to a mismatch in attributes or invalid filter")
+	} else if retCode != 0 {
+		return syscall.Errno(-1 * retCode)
+	}
+
+	src.valid = false
+
+	return nil
+}
+
+// IsArchPresent checks if an architecture is present in a filter.
+// If a filter contains an architecture, it uses its default action for
+// syscalls which do not match rules in it, and its rules can match syscalls
+// for that ABI.
+// If a filter does not contain an architecture, all syscalls made to that
+// kernel ABI will fail with the filter's default Bad Architecture Action
+// (by default, killing the process).
+// Accepts an architecture constant.
+// Returns true if the architecture is present in the filter, false otherwise,
+// and an error on an invalid filter context, architecture constant, or an
+// issue with the call to libseccomp.
+func (f *ScmpFilter) IsArchPresent(arch ScmpArch) (bool, error) {
+	f.lock.Lock()
+	defer f.lock.Unlock()
+
+	if err := sanitizeArch(arch); err != nil {
+		return false, err
+	} else if !f.valid {
+		return false, errBadFilter
+	}
+
+	retCode := C.seccomp_arch_exist(f.filterCtx, arch.toNative())
+	if syscall.Errno(-1*retCode) == syscall.EEXIST {
+		// -EEXIST is "arch not present"
+		return false, nil
+	} else if retCode != 0 {
+		return false, syscall.Errno(-1 * retCode)
+	}
+
+	return true, nil
+}
+
+// AddArch adds an architecture to the filter.
+// Accepts an architecture constant.
+// Returns an error on invalid filter context or architecture token, or an
+// issue with the call to libseccomp.
+func (f *ScmpFilter) AddArch(arch ScmpArch) error {
+	f.lock.Lock()
+	defer f.lock.Unlock()
+
+	if err := sanitizeArch(arch); err != nil {
+		return err
+	} else if !f.valid {
+		return errBadFilter
+	}
+
+	// Libseccomp returns -EEXIST if the specified architecture is already
+	// present. Succeed silently in this case, as it's not fatal, and the
+	// architecture is present already.
+	retCode := C.seccomp_arch_add(f.filterCtx, arch.toNative())
+	if retCode != 0 && syscall.Errno(-1*retCode) != syscall.EEXIST {
+		return syscall.Errno(-1 * retCode)
+	}
+
+	return nil
+}
+
+// RemoveArch removes an architecture from the filter.
+// Accepts an architecture constant.
+// Returns an error on invalid filter context or architecture token, or an
+// issue with the call to libseccomp.
+func (f *ScmpFilter) RemoveArch(arch ScmpArch) error {
+	f.lock.Lock()
+	defer f.lock.Unlock()
+
+	if err := sanitizeArch(arch); err != nil {
+		return err
+	} else if !f.valid {
+		return errBadFilter
+	}
+
+	// Similar to AddArch, -EEXIST is returned if the arch is not present
+	// Succeed silently in that case, this is not fatal and the architecture
+	// is not present in the filter after RemoveArch
+	retCode := C.seccomp_arch_remove(f.filterCtx, arch.toNative())
+	if retCode != 0 && syscall.Errno(-1*retCode) != syscall.EEXIST {
+		return syscall.Errno(-1 * retCode)
+	}
+
+	return nil
+}
+
+// Load loads a filter context into the kernel.
+// Returns an error if the filter context is invalid or the syscall failed.
+func (f *ScmpFilter) Load() error {
+	f.lock.Lock()
+	defer f.lock.Unlock()
+
+	if !f.valid {
+		return errBadFilter
+	}
+
+	if retCode := C.seccomp_load(f.filterCtx); retCode != 0 {
+		return syscall.Errno(-1 * retCode)
+	}
+
+	return nil
+}
+
+// GetDefaultAction returns the default action taken on a syscall which does not
+// match a rule in the filter, or an error if an issue was encountered
+// retrieving the value.
+func (f *ScmpFilter) GetDefaultAction() (ScmpAction, error) {
+	action, err := f.getFilterAttr(filterAttrActDefault)
+	if err != nil {
+		return 0x0, err
+	}
+
+	return actionFromNative(action)
+}
+
+// GetBadArchAction returns the default action taken on a syscall for an
+// architecture not in the filter, or an error if an issue was encountered
+// retrieving the value.
+func (f *ScmpFilter) GetBadArchAction() (ScmpAction, error) {
+	action, err := f.getFilterAttr(filterAttrActBadArch)
+	if err != nil {
+		return 0x0, err
+	}
+
+	return actionFromNative(action)
+}
+
+// GetNoNewPrivsBit returns the current state the No New Privileges bit will be set
+// to on the filter being loaded, or an error if an issue was encountered
+// retrieving the value.
+// The No New Privileges bit tells the kernel that new processes run with exec()
+// cannot gain more privileges than the process that ran exec().
+// For example, a process with No New Privileges set would be unable to exec
+// setuid/setgid executables.
+func (f *ScmpFilter) GetNoNewPrivsBit() (bool, error) {
+	noNewPrivs, err := f.getFilterAttr(filterAttrNNP)
+	if err != nil {
+		return false, err
+	}
+
+	if noNewPrivs == 0 {
+		return false, nil
+	}
+
+	return true, nil
+}
+
+// GetTsyncBit returns whether Thread Synchronization will be enabled on the
+// filter being loaded, or an error if an issue was encountered retrieving the
+// value.
+// Thread Sync ensures that all members of the thread group of the calling
+// process will share the same Seccomp filter set.
+// Tsync is a fairly recent addition to the Linux kernel and older kernels
+// lack support. If the running kernel does not support Tsync and it is
+// requested in a filter, Libseccomp will not enable TSync support and will
+// proceed as normal.
+// This function is unavailable before v2.2 of libseccomp and will return an
+// error.
+func (f *ScmpFilter) GetTsyncBit() (bool, error) {
+	tSync, err := f.getFilterAttr(filterAttrTsync)
+	if err != nil {
+		return false, err
+	}
+
+	if tSync == 0 {
+		return false, nil
+	}
+
+	return true, nil
+}
+
+// SetBadArchAction sets the default action taken on a syscall for an
+// architecture not in the filter, or an error if an issue was encountered
+// setting the value.
+func (f *ScmpFilter) SetBadArchAction(action ScmpAction) error {
+	if err := sanitizeAction(action); err != nil {
+		return err
+	}
+
+	return f.setFilterAttr(filterAttrActBadArch, action.toNative())
+}
+
+// SetNoNewPrivsBit sets the state of the No New Privileges bit, which will be
+// applied on filter load, or an error if an issue was encountered setting the
+// value.
+// Filters with No New Privileges set to 0 can only be loaded if the process
+// has the CAP_SYS_ADMIN capability.
+func (f *ScmpFilter) SetNoNewPrivsBit(state bool) error {
+	var toSet C.uint32_t = 0x0
+
+	if state {
+		toSet = 0x1
+	}
+
+	return f.setFilterAttr(filterAttrNNP, toSet)
+}
+
+// SetTsync sets whether Thread Synchronization will be enabled on the filter
+// being loaded. Returns an error if setting Tsync failed, or the filter is
+// invalid.
+// Thread Sync ensures that all members of the thread group of the calling
+// process will share the same Seccomp filter set.
+// Tsync is a fairly recent addition to the Linux kernel and older kernels
+// lack support. If the running kernel does not support Tsync and it is
+// requested in a filter, Libseccomp will not enable TSync support and will
+// proceed as normal.
+// This function is unavailable before v2.2 of libseccomp and will return an
+// error.
+func (f *ScmpFilter) SetTsync(enable bool) error {
+	var toSet C.uint32_t = 0x0
+
+	if enable {
+		toSet = 0x1
+	}
+
+	return f.setFilterAttr(filterAttrTsync, toSet)
+}
+
+// SetSyscallPriority sets a syscall's priority.
+// This provides a hint to the filter generator in libseccomp about the
+// importance of this syscall. High-priority syscalls are placed
+// first in the filter code, and incur less overhead (at the expense of
+// lower-priority syscalls).
+func (f *ScmpFilter) SetSyscallPriority(call ScmpSyscall, priority uint8) error {
+	f.lock.Lock()
+	defer f.lock.Unlock()
+
+	if !f.valid {
+		return errBadFilter
+	}
+
+	if retCode := C.seccomp_syscall_priority(f.filterCtx, C.int(call),
+		C.uint8_t(priority)); retCode != 0 {
+		return syscall.Errno(-1 * retCode)
+	}
+
+	return nil
+}
+
+// AddRule adds a single rule for an unconditional action on a syscall.
+// Accepts the number of the syscall and the action to be taken on the call
+// being made.
+// Returns an error if an issue was encountered adding the rule.
+func (f *ScmpFilter) AddRule(call ScmpSyscall, action ScmpAction) error {
+	return f.addRuleGeneric(call, action, false, nil)
+}
+
+// AddRuleExact adds a single rule for an unconditional action on a syscall.
+// Accepts the number of the syscall and the action to be taken on the call
+// being made.
+// No modifications will be made to the rule, and it will fail to add if it
+// cannot be applied to the current architecture without modification.
+// The rule will function exactly as described, but it may not function identically
+// (or be able to be applied to) all architectures.
+// Returns an error if an issue was encountered adding the rule.
+func (f *ScmpFilter) AddRuleExact(call ScmpSyscall, action ScmpAction) error {
+	return f.addRuleGeneric(call, action, true, nil)
+}
+
+// AddRuleConditional adds a single rule for a conditional action on a syscall.
+// Returns an error if an issue was encountered adding the rule.
+// All conditions must match for the rule to match.
+// There is a bug in library versions below v2.2.1 which can, in some cases,
+// cause conditions to be lost when more than one are used. Consequently,
+// AddRuleConditional is disabled on library versions lower than v2.2.1
+func (f *ScmpFilter) AddRuleConditional(call ScmpSyscall, action ScmpAction, conds []ScmpCondition) error {
+	return f.addRuleGeneric(call, action, false, conds)
+}
+
+// AddRuleConditionalExact adds a single rule for a conditional action on a
+// syscall.
+// No modifications will be made to the rule, and it will fail to add if it
+// cannot be applied to the current architecture without modification.
+// The rule will function exactly as described, but it may not function identically
+// (or be able to be applied to) all architectures.
+// Returns an error if an issue was encountered adding the rule.
+// There is a bug in library versions below v2.2.1 which can, in some cases,
+// cause conditions to be lost when more than one are used. Consequently,
+// AddRuleConditionalExact is disabled on library versions lower than v2.2.1
+func (f *ScmpFilter) AddRuleConditionalExact(call ScmpSyscall, action ScmpAction, conds []ScmpCondition) error {
+	return f.addRuleGeneric(call, action, true, conds)
+}
+
+// ExportPFC output PFC-formatted, human-readable dump of a filter context's
+// rules to a file.
+// Accepts file to write to (must be open for writing).
+// Returns an error if writing to the file fails.
+func (f *ScmpFilter) ExportPFC(file *os.File) error {
+	f.lock.Lock()
+	defer f.lock.Unlock()
+
+	fd := file.Fd()
+
+	if !f.valid {
+		return errBadFilter
+	}
+
+	if retCode := C.seccomp_export_pfc(f.filterCtx, C.int(fd)); retCode != 0 {
+		return syscall.Errno(-1 * retCode)
+	}
+
+	return nil
+}
+
+// ExportBPF outputs Berkeley Packet Filter-formatted, kernel-readable dump of a
+// filter context's rules to a file.
+// Accepts file to write to (must be open for writing).
+// Returns an error if writing to the file fails.
+func (f *ScmpFilter) ExportBPF(file *os.File) error {
+	f.lock.Lock()
+	defer f.lock.Unlock()
+
+	fd := file.Fd()
+
+	if !f.valid {
+		return errBadFilter
+	}
+
+	if retCode := C.seccomp_export_bpf(f.filterCtx, C.int(fd)); retCode != 0 {
+		return syscall.Errno(-1 * retCode)
+	}
+
+	return nil
+}