// +build linux // Internal functions for libseccomp Go bindings // No exported functions package seccomp import ( "fmt" "syscall" ) // Unexported C wrapping code - provides the C-Golang interface // Get the seccomp header in scope // Need stdlib.h for free() on cstrings // #cgo pkg-config: libseccomp /* #include #include #if SCMP_VER_MAJOR < 2 #error Minimum supported version of Libseccomp is v2.2.0 #elif SCMP_VER_MAJOR == 2 && SCMP_VER_MINOR < 2 #error Minimum supported version of Libseccomp is v2.2.0 #endif #define ARCH_BAD ~0 const uint32_t C_ARCH_BAD = ARCH_BAD; #ifndef SCMP_ARCH_PPC #define SCMP_ARCH_PPC ARCH_BAD #endif #ifndef SCMP_ARCH_PPC64 #define SCMP_ARCH_PPC64 ARCH_BAD #endif #ifndef SCMP_ARCH_PPC64LE #define SCMP_ARCH_PPC64LE ARCH_BAD #endif #ifndef SCMP_ARCH_S390 #define SCMP_ARCH_S390 ARCH_BAD #endif #ifndef SCMP_ARCH_S390X #define SCMP_ARCH_S390X ARCH_BAD #endif const uint32_t C_ARCH_NATIVE = SCMP_ARCH_NATIVE; const uint32_t C_ARCH_X86 = SCMP_ARCH_X86; const uint32_t C_ARCH_X86_64 = SCMP_ARCH_X86_64; const uint32_t C_ARCH_X32 = SCMP_ARCH_X32; const uint32_t C_ARCH_ARM = SCMP_ARCH_ARM; const uint32_t C_ARCH_AARCH64 = SCMP_ARCH_AARCH64; const uint32_t C_ARCH_MIPS = SCMP_ARCH_MIPS; const uint32_t C_ARCH_MIPS64 = SCMP_ARCH_MIPS64; const uint32_t C_ARCH_MIPS64N32 = SCMP_ARCH_MIPS64N32; const uint32_t C_ARCH_MIPSEL = SCMP_ARCH_MIPSEL; const uint32_t C_ARCH_MIPSEL64 = SCMP_ARCH_MIPSEL64; const uint32_t C_ARCH_MIPSEL64N32 = SCMP_ARCH_MIPSEL64N32; const uint32_t C_ARCH_PPC = SCMP_ARCH_PPC; const uint32_t C_ARCH_PPC64 = SCMP_ARCH_PPC64; const uint32_t C_ARCH_PPC64LE = SCMP_ARCH_PPC64LE; const uint32_t C_ARCH_S390 = SCMP_ARCH_S390; const uint32_t C_ARCH_S390X = SCMP_ARCH_S390X; const uint32_t C_ACT_KILL = SCMP_ACT_KILL; const uint32_t C_ACT_TRAP = SCMP_ACT_TRAP; const uint32_t C_ACT_ERRNO = SCMP_ACT_ERRNO(0); const uint32_t C_ACT_TRACE = SCMP_ACT_TRACE(0); const uint32_t C_ACT_ALLOW = SCMP_ACT_ALLOW; const uint32_t C_ATTRIBUTE_DEFAULT = (uint32_t)SCMP_FLTATR_ACT_DEFAULT; const uint32_t C_ATTRIBUTE_BADARCH = (uint32_t)SCMP_FLTATR_ACT_BADARCH; const uint32_t C_ATTRIBUTE_NNP = (uint32_t)SCMP_FLTATR_CTL_NNP; const uint32_t C_ATTRIBUTE_TSYNC = (uint32_t)SCMP_FLTATR_CTL_TSYNC; const int C_CMP_NE = (int)SCMP_CMP_NE; const int C_CMP_LT = (int)SCMP_CMP_LT; const int C_CMP_LE = (int)SCMP_CMP_LE; const int C_CMP_EQ = (int)SCMP_CMP_EQ; const int C_CMP_GE = (int)SCMP_CMP_GE; const int C_CMP_GT = (int)SCMP_CMP_GT; const int C_CMP_MASKED_EQ = (int)SCMP_CMP_MASKED_EQ; const int C_VERSION_MAJOR = SCMP_VER_MAJOR; const int C_VERSION_MINOR = SCMP_VER_MINOR; const int C_VERSION_MICRO = SCMP_VER_MICRO; #if SCMP_VER_MAJOR == 2 && SCMP_VER_MINOR >= 3 unsigned int get_major_version() { return seccomp_version()->major; } unsigned int get_minor_version() { return seccomp_version()->minor; } unsigned int get_micro_version() { return seccomp_version()->micro; } #else unsigned int get_major_version() { return (unsigned int)C_VERSION_MAJOR; } unsigned int get_minor_version() { return (unsigned int)C_VERSION_MINOR; } unsigned int get_micro_version() { return (unsigned int)C_VERSION_MICRO; } #endif typedef struct scmp_arg_cmp* scmp_cast_t; void* make_arg_cmp_array(unsigned int length) { return calloc(length, sizeof(struct scmp_arg_cmp)); } // Wrapper to add an scmp_arg_cmp struct to an existing arg_cmp array void add_struct_arg_cmp( struct scmp_arg_cmp* arr, unsigned int pos, unsigned int arg, int compare, uint64_t a, uint64_t b ) { arr[pos].arg = arg; arr[pos].op = compare; arr[pos].datum_a = a; arr[pos].datum_b = b; return; } */ import "C" // Nonexported types type scmpFilterAttr uint32 // Nonexported constants const ( filterAttrActDefault scmpFilterAttr = iota filterAttrActBadArch scmpFilterAttr = iota filterAttrNNP scmpFilterAttr = iota filterAttrTsync scmpFilterAttr = iota ) const ( // An error return from certain libseccomp functions scmpError C.int = -1 // Comparison boundaries to check for architecture validity archStart ScmpArch = ArchNative archEnd ScmpArch = ArchS390X // Comparison boundaries to check for action validity actionStart ScmpAction = ActKill actionEnd ScmpAction = ActAllow // Comparison boundaries to check for comparison operator validity compareOpStart ScmpCompareOp = CompareNotEqual compareOpEnd ScmpCompareOp = CompareMaskedEqual ) var ( // Error thrown on bad filter context errBadFilter = fmt.Errorf("filter is invalid or uninitialized") // Constants representing library major, minor, and micro versions verMajor = uint(C.get_major_version()) verMinor = uint(C.get_minor_version()) verMicro = uint(C.get_micro_version()) ) // Nonexported functions // Check if library version is greater than or equal to the given one func checkVersionAbove(major, minor, micro uint) bool { return (verMajor > major) || (verMajor == major && verMinor > minor) || (verMajor == major && verMinor == minor && verMicro >= micro) } // Ensure that the library is supported, i.e. >= 2.2.0. func ensureSupportedVersion() error { if !checkVersionAbove(2, 2, 0) { return VersionError{} } return nil } // Filter helpers // Filter finalizer - ensure that kernel context for filters is freed func filterFinalizer(f *ScmpFilter) { f.Release() } // Get a raw filter attribute func (f *ScmpFilter) getFilterAttr(attr scmpFilterAttr) (C.uint32_t, error) { f.lock.Lock() defer f.lock.Unlock() if !f.valid { return 0x0, errBadFilter } var attribute C.uint32_t retCode := C.seccomp_attr_get(f.filterCtx, attr.toNative(), &attribute) if retCode != 0 { return 0x0, syscall.Errno(-1 * retCode) } return attribute, nil } // Set a raw filter attribute func (f *ScmpFilter) setFilterAttr(attr scmpFilterAttr, value C.uint32_t) error { f.lock.Lock() defer f.lock.Unlock() if !f.valid { return errBadFilter } retCode := C.seccomp_attr_set(f.filterCtx, attr.toNative(), value) if retCode != 0 { return syscall.Errno(-1 * retCode) } return nil } // DOES NOT LOCK OR CHECK VALIDITY // Assumes caller has already done this // Wrapper for seccomp_rule_add_... functions func (f *ScmpFilter) addRuleWrapper(call ScmpSyscall, action ScmpAction, exact bool, length C.uint, cond C.scmp_cast_t) error { if length != 0 && cond == nil { return fmt.Errorf("null conditions list, but length is nonzero") } var retCode C.int if exact { retCode = C.seccomp_rule_add_exact_array(f.filterCtx, action.toNative(), C.int(call), length, cond) } else { retCode = C.seccomp_rule_add_array(f.filterCtx, action.toNative(), C.int(call), length, cond) } if syscall.Errno(-1*retCode) == syscall.EFAULT { return fmt.Errorf("unrecognized syscall") } else if syscall.Errno(-1*retCode) == syscall.EPERM { return fmt.Errorf("requested action matches default action of filter") } else if syscall.Errno(-1*retCode) == syscall.EINVAL { return fmt.Errorf("two checks on same syscall argument") } else if retCode != 0 { return syscall.Errno(-1 * retCode) } return nil } // Generic add function for filter rules func (f *ScmpFilter) addRuleGeneric(call ScmpSyscall, action ScmpAction, exact bool, conds []ScmpCondition) error { f.lock.Lock() defer f.lock.Unlock() if !f.valid { return errBadFilter } if len(conds) == 0 { if err := f.addRuleWrapper(call, action, exact, 0, nil); err != nil { return err } } else { // We don't support conditional filtering in library version v2.1 if !checkVersionAbove(2, 2, 1) { return VersionError{ message: "conditional filtering is not supported", minimum: "2.2.1", } } argsArr := C.make_arg_cmp_array(C.uint(len(conds))) if argsArr == nil { return fmt.Errorf("error allocating memory for conditions") } defer C.free(argsArr) for i, cond := range conds { C.add_struct_arg_cmp(C.scmp_cast_t(argsArr), C.uint(i), C.uint(cond.Argument), cond.Op.toNative(), C.uint64_t(cond.Operand1), C.uint64_t(cond.Operand2)) } if err := f.addRuleWrapper(call, action, exact, C.uint(len(conds)), C.scmp_cast_t(argsArr)); err != nil { return err } } return nil } // Generic Helpers // Helper - Sanitize Arch token input func sanitizeArch(in ScmpArch) error { if in < archStart || in > archEnd { return fmt.Errorf("unrecognized architecture") } if in.toNative() == C.C_ARCH_BAD { return fmt.Errorf("architecture is not supported on this version of the library") } return nil } func sanitizeAction(in ScmpAction) error { inTmp := in & 0x0000FFFF if inTmp < actionStart || inTmp > actionEnd { return fmt.Errorf("unrecognized action") } if inTmp != ActTrace && inTmp != ActErrno && (in&0xFFFF0000) != 0 { return fmt.Errorf("highest 16 bits must be zeroed except for Trace and Errno") } return nil } func sanitizeCompareOp(in ScmpCompareOp) error { if in < compareOpStart || in > compareOpEnd { return fmt.Errorf("unrecognized comparison operator") } return nil } func archFromNative(a C.uint32_t) (ScmpArch, error) { switch a { case C.C_ARCH_X86: return ArchX86, nil case C.C_ARCH_X86_64: return ArchAMD64, nil case C.C_ARCH_X32: return ArchX32, nil case C.C_ARCH_ARM: return ArchARM, nil case C.C_ARCH_NATIVE: return ArchNative, nil case C.C_ARCH_AARCH64: return ArchARM64, nil case C.C_ARCH_MIPS: return ArchMIPS, nil case C.C_ARCH_MIPS64: return ArchMIPS64, nil case C.C_ARCH_MIPS64N32: return ArchMIPS64N32, nil case C.C_ARCH_MIPSEL: return ArchMIPSEL, nil case C.C_ARCH_MIPSEL64: return ArchMIPSEL64, nil case C.C_ARCH_MIPSEL64N32: return ArchMIPSEL64N32, nil case C.C_ARCH_PPC: return ArchPPC, nil case C.C_ARCH_PPC64: return ArchPPC64, nil case C.C_ARCH_PPC64LE: return ArchPPC64LE, nil case C.C_ARCH_S390: return ArchS390, nil case C.C_ARCH_S390X: return ArchS390X, nil default: return 0x0, fmt.Errorf("unrecognized architecture") } } // Only use with sanitized arches, no error handling func (a ScmpArch) toNative() C.uint32_t { switch a { case ArchX86: return C.C_ARCH_X86 case ArchAMD64: return C.C_ARCH_X86_64 case ArchX32: return C.C_ARCH_X32 case ArchARM: return C.C_ARCH_ARM case ArchARM64: return C.C_ARCH_AARCH64 case ArchMIPS: return C.C_ARCH_MIPS case ArchMIPS64: return C.C_ARCH_MIPS64 case ArchMIPS64N32: return C.C_ARCH_MIPS64N32 case ArchMIPSEL: return C.C_ARCH_MIPSEL case ArchMIPSEL64: return C.C_ARCH_MIPSEL64 case ArchMIPSEL64N32: return C.C_ARCH_MIPSEL64N32 case ArchPPC: return C.C_ARCH_PPC case ArchPPC64: return C.C_ARCH_PPC64 case ArchPPC64LE: return C.C_ARCH_PPC64LE case ArchS390: return C.C_ARCH_S390 case ArchS390X: return C.C_ARCH_S390X case ArchNative: return C.C_ARCH_NATIVE default: return 0x0 } } // Only use with sanitized ops, no error handling func (a ScmpCompareOp) toNative() C.int { switch a { case CompareNotEqual: return C.C_CMP_NE case CompareLess: return C.C_CMP_LT case CompareLessOrEqual: return C.C_CMP_LE case CompareEqual: return C.C_CMP_EQ case CompareGreaterEqual: return C.C_CMP_GE case CompareGreater: return C.C_CMP_GT case CompareMaskedEqual: return C.C_CMP_MASKED_EQ default: return 0x0 } } func actionFromNative(a C.uint32_t) (ScmpAction, error) { aTmp := a & 0xFFFF switch a & 0xFFFF0000 { case C.C_ACT_KILL: return ActKill, nil case C.C_ACT_TRAP: return ActTrap, nil case C.C_ACT_ERRNO: return ActErrno.SetReturnCode(int16(aTmp)), nil case C.C_ACT_TRACE: return ActTrace.SetReturnCode(int16(aTmp)), nil case C.C_ACT_ALLOW: return ActAllow, nil default: return 0x0, fmt.Errorf("unrecognized action") } } // Only use with sanitized actions, no error handling func (a ScmpAction) toNative() C.uint32_t { switch a & 0xFFFF { case ActKill: return C.C_ACT_KILL case ActTrap: return C.C_ACT_TRAP case ActErrno: return C.C_ACT_ERRNO | (C.uint32_t(a) >> 16) case ActTrace: return C.C_ACT_TRACE | (C.uint32_t(a) >> 16) case ActAllow: return C.C_ACT_ALLOW default: return 0x0 } } // Internal only, assumes safe attribute func (a scmpFilterAttr) toNative() uint32 { switch a { case filterAttrActDefault: return uint32(C.C_ATTRIBUTE_DEFAULT) case filterAttrActBadArch: return uint32(C.C_ATTRIBUTE_BADARCH) case filterAttrNNP: return uint32(C.C_ATTRIBUTE_NNP) case filterAttrTsync: return uint32(C.C_ATTRIBUTE_TSYNC) default: return 0x0 } }