Update dependencies (#1929)

vendor/modernc.org/libc/signal/signal_linux_arm64.go

@@ -239,7 +239,8 @@ const ( /* siginfo-consts.h:189:1: */
 // Architecture-specific adjustments to siginfo_t.
 
 // Values for `si_code'.  Positive values are reserved for kernel-generated
-//    signals.
+//
+//	signals.
 const ( /* siginfo-consts.h:35:1: */
 	SI_ASYNCNL  = -60 // Sent by asynch name lookup completion.
 	SI_DETHREAD = -7  // Sent by execve killing subsidiary
@@ -1102,7 +1103,8 @@ type X__syscall_slong_t = int64 /* types.h:196:33 */
 type X__syscall_ulong_t = uint64 /* types.h:198:33 */
 
 // These few don't really vary by system, they always correspond
-//    to one of the other defined types.
+//
+//	to one of the other defined types.
 type X__loff_t = X__off64_t /* types.h:202:19 */ // Type of file sizes and offsets (LFS).
 type X__caddr_t = uintptr   /* types.h:203:14 */
 
@@ -1113,8 +1115,9 @@ type X__intptr_t = int64 /* types.h:206:25 */
 type X__socklen_t = uint32 /* types.h:209:23 */
 
 // C99: An integer type that can be accessed as an atomic entity,
-//    even in the presence of asynchronous interrupts.
-//    It is not currently necessary for this to be machine-specific.
+//
+//	even in the presence of asynchronous interrupts.
+//	It is not currently necessary for this to be machine-specific.
 type X__sig_atomic_t = int32 /* types.h:214:13 */
 
 // Seconds since the Epoch, visible to user code when time_t is too
@@ -1214,7 +1217,8 @@ type X__sig_atomic_t = int32 /* types.h:214:13 */
 // Never include this file directly; use <sys/types.h> instead.
 
 // An integral type that can be modified atomically, without the
-//    possibility of a signal arriving in the middle of the operation.
+//
+//	possibility of a signal arriving in the middle of the operation.
 type Sig_atomic_t = X__sig_atomic_t /* sig_atomic_t.h:8:24 */
 
 type X__sigset_t = struct{ F__val [16]uint64 } /* __sigset_t.h:8:3 */
@@ -1282,7 +1286,8 @@ type Uid_t = X__uid_t /* signal.h:46:17 */
 //    values.
 
 // POSIX.1b structure for a time value.  This is like a `struct timeval' but
-//    has nanoseconds instead of microseconds.
+//
+//	has nanoseconds instead of microseconds.
 type Timespec = struct {
 	Ftv_sec  X__time_t
 	Ftv_nsec X__syscall_slong_t
@@ -2188,7 +2193,8 @@ type Time_t = X__time_t /* time_t.h:7:18 */
 // Never include this file directly; use <sys/types.h> instead.
 
 // A time value that is accurate to the nearest
-//    microsecond but also has a range of years.
+//
+//	microsecond but also has a range of years.
 type Timeval = struct {
 	Ftv_sec  X__time_t
 	Ftv_usec X__suseconds_t
@@ -2297,14 +2303,16 @@ type Fd_mask = X__fd_mask /* select.h:77:19 */
 // Define some inlines helping to catch common problems.
 
 // Structure crudely representing a timezone.
-//    This is obsolete and should never be used.
+//
+//	This is obsolete and should never be used.
 type Timezone = struct {
 	Ftz_minuteswest int32
 	Ftz_dsttime     int32
 } /* time.h:52:1 */
 
 // Type of the second argument to `getitimer' and
-//    the second and third arguments `setitimer'.
+//
+//	the second and third arguments `setitimer'.
 type Itimerval = struct {
 	Fit_interval struct {
 		Ftv_sec  X__time_t
@@ -2944,18 +2952,21 @@ type X__pthread_cond_s = struct {
 } /* thread-shared-types.h:92:1 */
 
 // Thread identifiers.  The structure of the attribute type is not
-//    exposed on purpose.
+//
+//	exposed on purpose.
 type Pthread_t = uint64 /* pthreadtypes.h:27:27 */
 
 // Data structures for mutex handling.  The structure of the attribute
-//    type is not exposed on purpose.
+//
+//	type is not exposed on purpose.
 type Pthread_mutexattr_t = struct {
 	F__ccgo_pad1 [0]uint32
 	F__size      [8]uint8
 } /* pthreadtypes.h:36:3 */
 
 // Data structure for condition variable handling.  The structure of
-//    the attribute type is not exposed on purpose.
+//
+//	the attribute type is not exposed on purpose.
 type Pthread_condattr_t = struct {
 	F__ccgo_pad1 [0]uint32
 	F__size      [8]uint8
@@ -2975,7 +2986,8 @@ type Pthread_mutex_t = struct {
 type Pthread_cond_t = struct{ F__data X__pthread_cond_s } /* pthreadtypes.h:80:3 */
 
 // Data structure for reader-writer lock variable handling.  The
-//    structure of the attribute type is deliberately not exposed.
+//
+//	structure of the attribute type is deliberately not exposed.
 type Pthread_rwlock_t = struct{ F__data X__pthread_rwlock_arch_t } /* pthreadtypes.h:91:3 */
 
 type Pthread_rwlockattr_t = struct {
@@ -2987,7 +2999,8 @@ type Pthread_rwlockattr_t = struct {
 type Pthread_spinlock_t = int32 /* pthreadtypes.h:103:22 */
 
 // POSIX barriers data type.  The structure of the type is
-//    deliberately not exposed.
+//
+//	deliberately not exposed.
 type Pthread_barrier_t = struct {
 	F__ccgo_pad1 [0]uint64
 	F__size      [32]uint8
@@ -3055,9 +3068,10 @@ type User_fpsimd_struct = struct {
 type Elf_greg_t = X__uint64_t /* procfs.h:25:20 */
 
 // And the whole bunch of them.  We could have used `struct
-//    pt_regs' directly in the typedef, but tradition says that
-//    the register set is an array, which does have some peculiar
-//    semantics, so leave it that way.
+//
+//	pt_regs' directly in the typedef, but tradition says that
+//	the register set is an array, which does have some peculiar
+//	semantics, so leave it that way.
 type Elf_gregset_t = [34]Elf_greg_t /* procfs.h:32:20 */
 
 // Register set for the floating-point registers.
@@ -3187,7 +3201,8 @@ type Prgregset_t = X__prgregset_t   /* procfs.h:109:23 */
 type Prfpregset_t = X__prfpregset_t /* procfs.h:110:24 */
 
 // We don't have any differences between processes and threads,
-//    therefore have only one PID type.
+//
+//	therefore have only one PID type.
 type Lwpid_t = X__pid_t /* procfs.h:114:17 */
 
 // Process status and info.  In the end we do provide typedefs for them.
@@ -3224,9 +3239,10 @@ type Gregset_t = Elf_gregset_t /* ucontext.h:42:23 */
 type Fpregset_t = Elf_fpregset_t /* ucontext.h:45:24 */
 
 // Context to describe whole processor state.  This only describes
-//    the core registers; coprocessor registers get saved elsewhere
-//    (e.g. in uc_regspace, or somewhere unspecified on the stack
-//    during non-RT signal handlers).
+//
+//	the core registers; coprocessor registers get saved elsewhere
+//	(e.g. in uc_regspace, or somewhere unspecified on the stack
+//	during non-RT signal handlers).
 type Mcontext_t = struct {
 	Ffault_address uint64
 	Fregs          [31]uint64