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-rw-r--r--pkg/abi/linux/signal.go303
1 files changed, 283 insertions, 20 deletions
diff --git a/pkg/abi/linux/signal.go b/pkg/abi/linux/signal.go
index bbf7f6580..31d020f77 100644
--- a/pkg/abi/linux/signal.go
+++ b/pkg/abi/linux/signal.go
@@ -186,21 +186,11 @@ const (
SS_DISABLE = 2
)
-// Signal info types.
-const (
- SI_MASK = 0xffff0000
- SI_KILL = 0 << 16
- SI_TIMER = 1 << 16
- SI_POLL = 2 << 16
- SI_FAULT = 3 << 16
- SI_CHLD = 4 << 16
- SI_RT = 5 << 16
- SI_MESGQ = 6 << 16
- SI_SYS = 7 << 16
-)
-
// SIGPOLL si_codes.
const (
+ // SI_POLL is defined as __SI_POLL in Linux 2.6.
+ SI_POLL = 2 << 16
+
// POLL_IN indicates that data input available.
POLL_IN = SI_POLL | 1
@@ -220,6 +210,75 @@ const (
POLL_HUP = SI_POLL | 6
)
+// Possible values for si_code.
+const (
+ // SI_USER is sent by kill, sigsend, raise.
+ SI_USER = 0
+
+ // SI_KERNEL is sent by the kernel from somewhere.
+ SI_KERNEL = 0x80
+
+ // SI_QUEUE is sent by sigqueue.
+ SI_QUEUE = -1
+
+ // SI_TIMER is sent by timer expiration.
+ SI_TIMER = -2
+
+ // SI_MESGQ is sent by real time mesq state change.
+ SI_MESGQ = -3
+
+ // SI_ASYNCIO is sent by AIO completion.
+ SI_ASYNCIO = -4
+
+ // SI_SIGIO is sent by queued SIGIO.
+ SI_SIGIO = -5
+
+ // SI_TKILL is sent by tkill system call.
+ SI_TKILL = -6
+
+ // SI_DETHREAD is sent by execve() killing subsidiary threads.
+ SI_DETHREAD = -7
+
+ // SI_ASYNCNL is sent by glibc async name lookup completion.
+ SI_ASYNCNL = -60
+)
+
+// CLD_* codes are only meaningful for SIGCHLD.
+const (
+ // CLD_EXITED indicates that a task exited.
+ CLD_EXITED = 1
+
+ // CLD_KILLED indicates that a task was killed by a signal.
+ CLD_KILLED = 2
+
+ // CLD_DUMPED indicates that a task was killed by a signal and then dumped
+ // core.
+ CLD_DUMPED = 3
+
+ // CLD_TRAPPED indicates that a task was stopped by ptrace.
+ CLD_TRAPPED = 4
+
+ // CLD_STOPPED indicates that a thread group completed a group stop.
+ CLD_STOPPED = 5
+
+ // CLD_CONTINUED indicates that a group-stopped thread group was continued.
+ CLD_CONTINUED = 6
+)
+
+// SYS_* codes are only meaningful for SIGSYS.
+const (
+ // SYS_SECCOMP indicates that a signal originates from seccomp.
+ SYS_SECCOMP = 1
+)
+
+// Possible values for Sigevent.Notify, aka struct sigevent::sigev_notify.
+const (
+ SIGEV_SIGNAL = 0
+ SIGEV_NONE = 1
+ SIGEV_THREAD = 2
+ SIGEV_THREAD_ID = 4
+)
+
// Sigevent represents struct sigevent.
//
// +marshal
@@ -276,10 +335,214 @@ func (s *SignalStack) IsEnabled() bool {
return s.Flags&SS_DISABLE == 0
}
-// Possible values for Sigevent.Notify, aka struct sigevent::sigev_notify.
-const (
- SIGEV_SIGNAL = 0
- SIGEV_NONE = 1
- SIGEV_THREAD = 2
- SIGEV_THREAD_ID = 4
-)
+// SignalInfo represents information about a signal being delivered, and is
+// equivalent to struct siginfo in linux kernel(linux/include/uapi/asm-generic/siginfo.h).
+//
+// +marshal
+// +stateify savable
+type SignalInfo struct {
+ Signo int32 // Signal number
+ Errno int32 // Errno value
+ Code int32 // Signal code
+ _ uint32
+
+ // struct siginfo::_sifields is a union. In SignalInfo, fields in the union
+ // are accessed through methods.
+ //
+ // For reference, here is the definition of _sifields: (_sigfault._trapno,
+ // which does not exist on x86, omitted for clarity)
+ //
+ // union {
+ // int _pad[SI_PAD_SIZE];
+ //
+ // /* kill() */
+ // struct {
+ // __kernel_pid_t _pid; /* sender's pid */
+ // __ARCH_SI_UID_T _uid; /* sender's uid */
+ // } _kill;
+ //
+ // /* POSIX.1b timers */
+ // struct {
+ // __kernel_timer_t _tid; /* timer id */
+ // int _overrun; /* overrun count */
+ // char _pad[sizeof( __ARCH_SI_UID_T) - sizeof(int)];
+ // sigval_t _sigval; /* same as below */
+ // int _sys_private; /* not to be passed to user */
+ // } _timer;
+ //
+ // /* POSIX.1b signals */
+ // struct {
+ // __kernel_pid_t _pid; /* sender's pid */
+ // __ARCH_SI_UID_T _uid; /* sender's uid */
+ // sigval_t _sigval;
+ // } _rt;
+ //
+ // /* SIGCHLD */
+ // struct {
+ // __kernel_pid_t _pid; /* which child */
+ // __ARCH_SI_UID_T _uid; /* sender's uid */
+ // int _status; /* exit code */
+ // __ARCH_SI_CLOCK_T _utime;
+ // __ARCH_SI_CLOCK_T _stime;
+ // } _sigchld;
+ //
+ // /* SIGILL, SIGFPE, SIGSEGV, SIGBUS */
+ // struct {
+ // void *_addr; /* faulting insn/memory ref. */
+ // short _addr_lsb; /* LSB of the reported address */
+ // } _sigfault;
+ //
+ // /* SIGPOLL */
+ // struct {
+ // __ARCH_SI_BAND_T _band; /* POLL_IN, POLL_OUT, POLL_MSG */
+ // int _fd;
+ // } _sigpoll;
+ //
+ // /* SIGSYS */
+ // struct {
+ // void *_call_addr; /* calling user insn */
+ // int _syscall; /* triggering system call number */
+ // unsigned int _arch; /* AUDIT_ARCH_* of syscall */
+ // } _sigsys;
+ // } _sifields;
+ //
+ // _sifields is padded so that the size of siginfo is SI_MAX_SIZE = 128
+ // bytes.
+ Fields [128 - 16]byte
+}
+
+// FixSignalCodeForUser fixes up si_code.
+//
+// The si_code we get from Linux may contain the kernel-specific code in the
+// top 16 bits if it's positive (e.g., from ptrace). Linux's
+// copy_siginfo_to_user does
+// err |= __put_user((short)from->si_code, &to->si_code);
+// to mask out those bits and we need to do the same.
+func (s *SignalInfo) FixSignalCodeForUser() {
+ if s.Code > 0 {
+ s.Code &= 0x0000ffff
+ }
+}
+
+// PID returns the si_pid field.
+func (s *SignalInfo) PID() int32 {
+ return int32(hostarch.ByteOrder.Uint32(s.Fields[0:4]))
+}
+
+// SetPID mutates the si_pid field.
+func (s *SignalInfo) SetPID(val int32) {
+ hostarch.ByteOrder.PutUint32(s.Fields[0:4], uint32(val))
+}
+
+// UID returns the si_uid field.
+func (s *SignalInfo) UID() int32 {
+ return int32(hostarch.ByteOrder.Uint32(s.Fields[4:8]))
+}
+
+// SetUID mutates the si_uid field.
+func (s *SignalInfo) SetUID(val int32) {
+ hostarch.ByteOrder.PutUint32(s.Fields[4:8], uint32(val))
+}
+
+// Sigval returns the sigval field, which is aliased to both si_int and si_ptr.
+func (s *SignalInfo) Sigval() uint64 {
+ return hostarch.ByteOrder.Uint64(s.Fields[8:16])
+}
+
+// SetSigval mutates the sigval field.
+func (s *SignalInfo) SetSigval(val uint64) {
+ hostarch.ByteOrder.PutUint64(s.Fields[8:16], val)
+}
+
+// TimerID returns the si_timerid field.
+func (s *SignalInfo) TimerID() TimerID {
+ return TimerID(hostarch.ByteOrder.Uint32(s.Fields[0:4]))
+}
+
+// SetTimerID sets the si_timerid field.
+func (s *SignalInfo) SetTimerID(val TimerID) {
+ hostarch.ByteOrder.PutUint32(s.Fields[0:4], uint32(val))
+}
+
+// Overrun returns the si_overrun field.
+func (s *SignalInfo) Overrun() int32 {
+ return int32(hostarch.ByteOrder.Uint32(s.Fields[4:8]))
+}
+
+// SetOverrun sets the si_overrun field.
+func (s *SignalInfo) SetOverrun(val int32) {
+ hostarch.ByteOrder.PutUint32(s.Fields[4:8], uint32(val))
+}
+
+// Addr returns the si_addr field.
+func (s *SignalInfo) Addr() uint64 {
+ return hostarch.ByteOrder.Uint64(s.Fields[0:8])
+}
+
+// SetAddr sets the si_addr field.
+func (s *SignalInfo) SetAddr(val uint64) {
+ hostarch.ByteOrder.PutUint64(s.Fields[0:8], val)
+}
+
+// Status returns the si_status field.
+func (s *SignalInfo) Status() int32 {
+ return int32(hostarch.ByteOrder.Uint32(s.Fields[8:12]))
+}
+
+// SetStatus mutates the si_status field.
+func (s *SignalInfo) SetStatus(val int32) {
+ hostarch.ByteOrder.PutUint32(s.Fields[8:12], uint32(val))
+}
+
+// CallAddr returns the si_call_addr field.
+func (s *SignalInfo) CallAddr() uint64 {
+ return hostarch.ByteOrder.Uint64(s.Fields[0:8])
+}
+
+// SetCallAddr mutates the si_call_addr field.
+func (s *SignalInfo) SetCallAddr(val uint64) {
+ hostarch.ByteOrder.PutUint64(s.Fields[0:8], val)
+}
+
+// Syscall returns the si_syscall field.
+func (s *SignalInfo) Syscall() int32 {
+ return int32(hostarch.ByteOrder.Uint32(s.Fields[8:12]))
+}
+
+// SetSyscall mutates the si_syscall field.
+func (s *SignalInfo) SetSyscall(val int32) {
+ hostarch.ByteOrder.PutUint32(s.Fields[8:12], uint32(val))
+}
+
+// Arch returns the si_arch field.
+func (s *SignalInfo) Arch() uint32 {
+ return hostarch.ByteOrder.Uint32(s.Fields[12:16])
+}
+
+// SetArch mutates the si_arch field.
+func (s *SignalInfo) SetArch(val uint32) {
+ hostarch.ByteOrder.PutUint32(s.Fields[12:16], val)
+}
+
+// Band returns the si_band field.
+func (s *SignalInfo) Band() int64 {
+ return int64(hostarch.ByteOrder.Uint64(s.Fields[0:8]))
+}
+
+// SetBand mutates the si_band field.
+func (s *SignalInfo) SetBand(val int64) {
+ // Note: this assumes the platform uses `long` as `__ARCH_SI_BAND_T`.
+ // On some platforms, which gVisor doesn't support, `__ARCH_SI_BAND_T` is
+ // `int`. See siginfo.h.
+ hostarch.ByteOrder.PutUint64(s.Fields[0:8], uint64(val))
+}
+
+// FD returns the si_fd field.
+func (s *SignalInfo) FD() uint32 {
+ return hostarch.ByteOrder.Uint32(s.Fields[8:12])
+}
+
+// SetFD mutates the si_fd field.
+func (s *SignalInfo) SetFD(val uint32) {
+ hostarch.ByteOrder.PutUint32(s.Fields[8:12], val)
+}