haiku/src/system/kernel/signal.cpp

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/*
* Copyright 2002-2008, Axel Dörfler, axeld@pinc-software.de.
* Copyright 2002, Angelo Mottola, a.mottola@libero.it.
*
* Distributed under the terms of the MIT License.
*/
/*! POSIX signals handling routines */
* Introduced new job_control_entry structure which, among other things, is used instead of death_entry for team::dead_children. * Added team::{stopped,continued}_children, which, analoguously to dead_children, are used to track the state of stopped/continued children. * A team does have a job_control_entry, which is allocated at team creation time. It will be inserted into the parent's {stopped,continued}_children lists as the team's main thread is stopped/continued and removed when waitpid() retrieves the child state. When the team dies the entry is detached from the team and goes into the parent's dead_children list. * Removed the wait_for_any field from team_dead_children. It was solely used to avoid deletion of the contained entries in certain situations. wait_for_child() (the waitpid() backend) always deletes an entry now, regardless of whether other threads are waiting; that's in accordance with the waidpid() specification. wait_for_thread() removes the entry only, if the caller is the parent of the respective team. * Introduced team_set_job_control_state() which performes the job control entry transitions between the respective lists and wakes up threads waiting in wait_for_child(). It is invoked on team death and when the team's main thread receives job control signals. * Reorganized wait_for_child(). It handles WCONTINUED and WUNTRACED now, too. Removed a block that interpreted the supplied ID as thread ID. * Added missing parts in waitpid(). Job control starts to work, though it seems to have some glitches. git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@22088 a95241bf-73f2-0310-859d-f6bbb57e9c96
2007-08-28 07:29:14 +04:00
#include <stddef.h>
#include <string.h>
#include <OS.h>
#include <KernelExport.h>
#include <condition_variable.h>
#include <debug.h>
#include <kernel.h>
#include <kscheduler.h>
#include <ksignal.h>
#include <sem.h>
#include <team.h>
#include <thread.h>
#include <tracing.h>
#include <user_debugger.h>
* Introduced new job_control_entry structure which, among other things, is used instead of death_entry for team::dead_children. * Added team::{stopped,continued}_children, which, analoguously to dead_children, are used to track the state of stopped/continued children. * A team does have a job_control_entry, which is allocated at team creation time. It will be inserted into the parent's {stopped,continued}_children lists as the team's main thread is stopped/continued and removed when waitpid() retrieves the child state. When the team dies the entry is detached from the team and goes into the parent's dead_children list. * Removed the wait_for_any field from team_dead_children. It was solely used to avoid deletion of the contained entries in certain situations. wait_for_child() (the waitpid() backend) always deletes an entry now, regardless of whether other threads are waiting; that's in accordance with the waidpid() specification. wait_for_thread() removes the entry only, if the caller is the parent of the respective team. * Introduced team_set_job_control_state() which performes the job control entry transitions between the respective lists and wakes up threads waiting in wait_for_child(). It is invoked on team death and when the team's main thread receives job control signals. * Reorganized wait_for_child(). It handles WCONTINUED and WUNTRACED now, too. Removed a block that interpreted the supplied ID as thread ID. * Added missing parts in waitpid(). Job control starts to work, though it seems to have some glitches. git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@22088 a95241bf-73f2-0310-859d-f6bbb57e9c96
2007-08-28 07:29:14 +04:00
#include <util/AutoLock.h>
//#define TRACE_SIGNAL
#ifdef TRACE_SIGNAL
# define TRACE(x) dprintf x
#else
# define TRACE(x) ;
#endif
#define BLOCKABLE_SIGNALS (~(KILL_SIGNALS | SIGNAL_TO_MASK(SIGSTOP)))
#define STOP_SIGNALS \
(SIGNAL_TO_MASK(SIGSTOP) | SIGNAL_TO_MASK(SIGTSTP) \
| SIGNAL_TO_MASK(SIGTTIN) | SIGNAL_TO_MASK(SIGTTOU))
#define DEFAULT_IGNORE_SIGNALS \
(SIGNAL_TO_MASK(SIGCHLD) | SIGNAL_TO_MASK(SIGWINCH) \
| SIGNAL_TO_MASK(SIGCONT))
const char * const sigstr[NSIG] = {
"NONE", "HUP", "INT", "QUIT", "ILL", "CHLD", "ABRT", "PIPE",
"FPE", "KILL", "STOP", "SEGV", "CONT", "TSTP", "ALRM", "TERM",
"TTIN", "TTOU", "USR1", "USR2", "WINCH", "KILLTHR", "TRAP",
"POLL", "PROF", "SYS", "URG", "VTALRM", "XCPU", "XFSZ"
};
static status_t deliver_signal(struct thread *thread, uint signal,
uint32 flags);
// #pragma mark - signal tracing
#ifdef SIGNAL_TRACING
namespace SignalTracing {
class HandleSignals : public AbstractTraceEntry {
public:
HandleSignals(uint32 signals)
:
fSignals(signals)
{
Initialized();
}
virtual void AddDump(TraceOutput& out)
{
out.Print("signal handle: 0x%lx", fSignals);
}
private:
uint32 fSignals;
};
class SendSignal : public AbstractTraceEntry {
public:
SendSignal(pid_t target, uint32 signal, uint32 flags)
:
fTarget(target),
fSignal(signal),
fFlags(flags)
{
Initialized();
}
virtual void AddDump(TraceOutput& out)
{
out.Print("signal send: target: %ld, signal: %lu (%s), "
"flags: 0x%lx", fTarget, fSignal,
(fSignal < NSIG ? sigstr[fSignal] : "invalid"), fFlags);
}
private:
pid_t fTarget;
uint32 fSignal;
uint32 fFlags;
};
class SigAction : public AbstractTraceEntry {
public:
SigAction(struct thread* thread, uint32 signal,
const struct sigaction* act)
:
fThread(thread->id),
fSignal(signal),
fAction(*act)
{
Initialized();
}
virtual void AddDump(TraceOutput& out)
{
out.Print("signal action: thread: %ld, signal: %lu (%s), "
"action: {handler: %p, flags: 0x%x, mask: 0x%lx}",
fThread, fSignal,
(fSignal < NSIG ? sigstr[fSignal] : "invalid"),
fAction.sa_handler, fAction.sa_flags, fAction.sa_mask);
}
private:
thread_id fThread;
uint32 fSignal;
struct sigaction fAction;
};
class SigProcMask : public AbstractTraceEntry {
public:
SigProcMask(int how, sigset_t mask)
:
fHow(how),
fMask(mask),
fOldMask(thread_get_current_thread()->sig_block_mask)
{
Initialized();
}
virtual void AddDump(TraceOutput& out)
{
const char* how = "invalid";
switch (fHow) {
case SIG_BLOCK:
how = "block";
break;
case SIG_UNBLOCK:
how = "unblock";
break;
case SIG_SETMASK:
how = "set";
break;
}
out.Print("signal proc mask: %s 0x%lx, old mask: 0x%lx", how, fMask,
fOldMask);
}
private:
int fHow;
sigset_t fMask;
sigset_t fOldMask;
};
} // namespace SignalTracing
# define T(x) new(std::nothrow) SignalTracing::x
#else
# define T(x)
#endif // SIGNAL_TRACING
// #pragma mark -
Merged branch haiku/branches/developer/bonefish/optimization revision 23139 into trunk, with roughly the following changes (for details svn log the branch): * The int 99 syscall handler is now fully in assembly. * Added a sysenter/sysexit handler and use it on Pentiums that support it (via commpage). * Got rid of i386_handle_trap(). A bit of functionality was moved into the assembly handler which now uses a jump table to call C functions handling the respective interrupt. * Some optimizations to get user debugger support code out of the interrupt handling path. * Introduced a thread::flags fields which allows to skip handling of rare events (signals, user debug enabling/disabling) on the common interrupt handling path. * Got rid of the explicit iframe stack. The iframes can still be retrieved by iterating through the stack frames. * Made the commpage an architecture independent feature. It's used for the real time data stuff (instead of creating a separate area). * The x86 CPU modules can now provide processor optimized versions for common functions (currently memcpy() only). They are used in the kernel and are provided to the userland via commpage entries. * Introduced build system feature allowing easy use of C structure member offsets in assembly code. Changes after merging: * Fixed merge conflict in src/system/kernel/arch/x86/arch_debug.cpp (caused by refactoring and introduction of "call" debugger command). git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@23370 a95241bf-73f2-0310-859d-f6bbb57e9c96
2008-01-11 03:36:44 +03:00
/*! Updates the thread::flags field according to what signals are pending.
Interrupts must be disabled and the thread lock must be held.
*/
static void
update_thread_signals_flag(struct thread* thread)
{
if (atomic_get(&thread->sig_pending) & ~atomic_get(&thread->sig_block_mask))
atomic_or(&thread->flags, THREAD_FLAGS_SIGNALS_PENDING);
else
atomic_and(&thread->flags, ~THREAD_FLAGS_SIGNALS_PENDING);
}
void
Merged branch haiku/branches/developer/bonefish/optimization revision 23139 into trunk, with roughly the following changes (for details svn log the branch): * The int 99 syscall handler is now fully in assembly. * Added a sysenter/sysexit handler and use it on Pentiums that support it (via commpage). * Got rid of i386_handle_trap(). A bit of functionality was moved into the assembly handler which now uses a jump table to call C functions handling the respective interrupt. * Some optimizations to get user debugger support code out of the interrupt handling path. * Introduced a thread::flags fields which allows to skip handling of rare events (signals, user debug enabling/disabling) on the common interrupt handling path. * Got rid of the explicit iframe stack. The iframes can still be retrieved by iterating through the stack frames. * Made the commpage an architecture independent feature. It's used for the real time data stuff (instead of creating a separate area). * The x86 CPU modules can now provide processor optimized versions for common functions (currently memcpy() only). They are used in the kernel and are provided to the userland via commpage entries. * Introduced build system feature allowing easy use of C structure member offsets in assembly code. Changes after merging: * Fixed merge conflict in src/system/kernel/arch/x86/arch_debug.cpp (caused by refactoring and introduction of "call" debugger command). git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@23370 a95241bf-73f2-0310-859d-f6bbb57e9c96
2008-01-11 03:36:44 +03:00
update_current_thread_signals_flag()
{
InterruptsSpinLocker locker(thread_spinlock);
update_thread_signals_flag(thread_get_current_thread());
}
static bool
notify_debugger(struct thread *thread, int signal, struct sigaction *handler,
bool deadly)
{
uint64 signalMask = SIGNAL_TO_MASK(signal);
// first check the ignore signal masks the debugger specified for the thread
if (atomic_get(&thread->debug_info.ignore_signals_once) & signalMask) {
atomic_and(&thread->debug_info.ignore_signals_once, ~signalMask);
return true;
}
if (atomic_get(&thread->debug_info.ignore_signals) & signalMask)
return true;
// deliver the event
return user_debug_handle_signal(signal, handler, deadly);
}
/*! Actually handles the signal - ie. the thread will exit, a custom signal
handler is prepared, or whatever the signal demands.
*/
bool
handle_signals(struct thread *thread)
{
uint32 signalMask = atomic_get(&thread->sig_pending)
& ~atomic_get(&thread->sig_block_mask);
// If SIGKILL[THR] are pending, we ignore other signals.
// Otherwise check, if the thread shall stop for debugging.
if (signalMask & KILL_SIGNALS) {
signalMask &= KILL_SIGNALS;
} else if (thread->debug_info.flags & B_THREAD_DEBUG_STOP) {
user_debug_stop_thread();
}
if (signalMask == 0)
return 0;
axeld + bonefish: * Implemented automatic syscall restarts: - A syscall can indicate that it has been interrupted and can be restarted by setting a respective bit in thread::flags. It can store parameters it wants to be preserved for the restart in thread::syscall_restart::parameters. Another thread::flags bit indicates whether it has been restarted. - handle_signals() clears the restart flag, if the handled signal has a handler function installed and SA_RESTART is not set. Another thread flag (THREAD_FLAGS_DONT_RESTART_SYSCALL) can prevent syscalls from being restarted, even if they could be (not used yet, but we might want to use it in resume_thread(), so that we stay behaviorally compatible with BeOS). - The architecture specific syscall handler restarts the syscall, if the restart flag is set. Implemented for x86 only. - Added some support functions in the private <syscall_restart.h> to simplify the syscall restart code in the syscalls. - Adjusted all syscalls that can potentially be restarted accordingly. - _user_ioctl() sets new thread flag THREAD_FLAGS_IOCTL_SYSCALL while calling the underlying FS's/driver's hook, so that syscall restarts can also be supported there. * thread_at_kernel_exit() invokes handle_signals() in a loop now, as long as the latter indicates that the thread shall be suspended, so that after waking up signals received in the meantime will be handled before the thread returns to userland. Adjusted handle_signals() accordingly -- when encountering a suspending signal we don't check for further signals. * Fixed sigsuspend(): Suspending the thread and rescheduling doesn't result in the correct behavior. Instead we employ a temporary condition variable and interruptably wait on it. The POSIX test suite test passes, now. * Made the switch_sem[_etc]() behavior on interruption consistent. Depending on when the signal arrived (before the call or when already waiting) the first semaphore would or wouldn't be released. Now we consistently release it. * Refactored _user_{read,write}[v]() syscalls. Use a common function for either pair. The iovec version doesn't fail anymore, if anything could be read/written at all. It also checks whether a complete vector could be read/written, so that we won't skip data, if the underlying FS/driver couldn't read/write more ATM. * Some refactoring in the x86 syscall handler: The int 99 and sysenter handlers use a common subroutine to avoid code duplication. git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@23983 a95241bf-73f2-0310-859d-f6bbb57e9c96
2008-02-17 18:48:30 +03:00
bool restart = (atomic_and(&thread->flags,
~THREAD_FLAGS_DONT_RESTART_SYSCALL)
& THREAD_FLAGS_DONT_RESTART_SYSCALL) == 0;
T(HandleSignals(signalMask));
axeld + bonefish: * Implemented automatic syscall restarts: - A syscall can indicate that it has been interrupted and can be restarted by setting a respective bit in thread::flags. It can store parameters it wants to be preserved for the restart in thread::syscall_restart::parameters. Another thread::flags bit indicates whether it has been restarted. - handle_signals() clears the restart flag, if the handled signal has a handler function installed and SA_RESTART is not set. Another thread flag (THREAD_FLAGS_DONT_RESTART_SYSCALL) can prevent syscalls from being restarted, even if they could be (not used yet, but we might want to use it in resume_thread(), so that we stay behaviorally compatible with BeOS). - The architecture specific syscall handler restarts the syscall, if the restart flag is set. Implemented for x86 only. - Added some support functions in the private <syscall_restart.h> to simplify the syscall restart code in the syscalls. - Adjusted all syscalls that can potentially be restarted accordingly. - _user_ioctl() sets new thread flag THREAD_FLAGS_IOCTL_SYSCALL while calling the underlying FS's/driver's hook, so that syscall restarts can also be supported there. * thread_at_kernel_exit() invokes handle_signals() in a loop now, as long as the latter indicates that the thread shall be suspended, so that after waking up signals received in the meantime will be handled before the thread returns to userland. Adjusted handle_signals() accordingly -- when encountering a suspending signal we don't check for further signals. * Fixed sigsuspend(): Suspending the thread and rescheduling doesn't result in the correct behavior. Instead we employ a temporary condition variable and interruptably wait on it. The POSIX test suite test passes, now. * Made the switch_sem[_etc]() behavior on interruption consistent. Depending on when the signal arrived (before the call or when already waiting) the first semaphore would or wouldn't be released. Now we consistently release it. * Refactored _user_{read,write}[v]() syscalls. Use a common function for either pair. The iovec version doesn't fail anymore, if anything could be read/written at all. It also checks whether a complete vector could be read/written, so that we won't skip data, if the underlying FS/driver couldn't read/write more ATM. * Some refactoring in the x86 syscall handler: The int 99 and sysenter handlers use a common subroutine to avoid code duplication. git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@23983 a95241bf-73f2-0310-859d-f6bbb57e9c96
2008-02-17 18:48:30 +03:00
for (int32 i = 0; i < NSIG; i++) {
bool debugSignal;
int32 signal = i + 1;
if ((signalMask & SIGNAL_TO_MASK(signal)) == 0)
continue;
// clear the signal that we will handle
atomic_and(&thread->sig_pending, ~SIGNAL_TO_MASK(signal));
debugSignal = !(~atomic_get(&thread->team->debug_info.flags)
& (B_TEAM_DEBUG_SIGNALS | B_TEAM_DEBUG_DEBUGGER_INSTALLED));
// TODO: since sigaction_etc() could clobber the fields at any time,
// we should actually copy the relevant fields atomically before
// accessing them (only the debugger is calling sigaction_etc()
// right now).
// Update: sigaction_etc() is only used by the userland debugger
// support. We can just as well restrict getting/setting signal
// handlers to work only when the respective thread is stopped.
// Then sigaction() could be used instead and we could get rid of
// sigaction_etc().
axeld + bonefish: * Implemented automatic syscall restarts: - A syscall can indicate that it has been interrupted and can be restarted by setting a respective bit in thread::flags. It can store parameters it wants to be preserved for the restart in thread::syscall_restart::parameters. Another thread::flags bit indicates whether it has been restarted. - handle_signals() clears the restart flag, if the handled signal has a handler function installed and SA_RESTART is not set. Another thread flag (THREAD_FLAGS_DONT_RESTART_SYSCALL) can prevent syscalls from being restarted, even if they could be (not used yet, but we might want to use it in resume_thread(), so that we stay behaviorally compatible with BeOS). - The architecture specific syscall handler restarts the syscall, if the restart flag is set. Implemented for x86 only. - Added some support functions in the private <syscall_restart.h> to simplify the syscall restart code in the syscalls. - Adjusted all syscalls that can potentially be restarted accordingly. - _user_ioctl() sets new thread flag THREAD_FLAGS_IOCTL_SYSCALL while calling the underlying FS's/driver's hook, so that syscall restarts can also be supported there. * thread_at_kernel_exit() invokes handle_signals() in a loop now, as long as the latter indicates that the thread shall be suspended, so that after waking up signals received in the meantime will be handled before the thread returns to userland. Adjusted handle_signals() accordingly -- when encountering a suspending signal we don't check for further signals. * Fixed sigsuspend(): Suspending the thread and rescheduling doesn't result in the correct behavior. Instead we employ a temporary condition variable and interruptably wait on it. The POSIX test suite test passes, now. * Made the switch_sem[_etc]() behavior on interruption consistent. Depending on when the signal arrived (before the call or when already waiting) the first semaphore would or wouldn't be released. Now we consistently release it. * Refactored _user_{read,write}[v]() syscalls. Use a common function for either pair. The iovec version doesn't fail anymore, if anything could be read/written at all. It also checks whether a complete vector could be read/written, so that we won't skip data, if the underlying FS/driver couldn't read/write more ATM. * Some refactoring in the x86 syscall handler: The int 99 and sysenter handlers use a common subroutine to avoid code duplication. git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@23983 a95241bf-73f2-0310-859d-f6bbb57e9c96
2008-02-17 18:48:30 +03:00
struct sigaction* handler = &thread->sig_action[i];
TRACE(("Thread 0x%lx received signal %s\n", thread->id, sigstr[signal]));
if (handler->sa_handler == SIG_IGN) {
// signal is to be ignored
// ToDo: apply zombie cleaning on SIGCHLD
// notify the debugger
if (debugSignal)
notify_debugger(thread, signal, handler, false);
continue;
axeld + bonefish: * Implemented automatic syscall restarts: - A syscall can indicate that it has been interrupted and can be restarted by setting a respective bit in thread::flags. It can store parameters it wants to be preserved for the restart in thread::syscall_restart::parameters. Another thread::flags bit indicates whether it has been restarted. - handle_signals() clears the restart flag, if the handled signal has a handler function installed and SA_RESTART is not set. Another thread flag (THREAD_FLAGS_DONT_RESTART_SYSCALL) can prevent syscalls from being restarted, even if they could be (not used yet, but we might want to use it in resume_thread(), so that we stay behaviorally compatible with BeOS). - The architecture specific syscall handler restarts the syscall, if the restart flag is set. Implemented for x86 only. - Added some support functions in the private <syscall_restart.h> to simplify the syscall restart code in the syscalls. - Adjusted all syscalls that can potentially be restarted accordingly. - _user_ioctl() sets new thread flag THREAD_FLAGS_IOCTL_SYSCALL while calling the underlying FS's/driver's hook, so that syscall restarts can also be supported there. * thread_at_kernel_exit() invokes handle_signals() in a loop now, as long as the latter indicates that the thread shall be suspended, so that after waking up signals received in the meantime will be handled before the thread returns to userland. Adjusted handle_signals() accordingly -- when encountering a suspending signal we don't check for further signals. * Fixed sigsuspend(): Suspending the thread and rescheduling doesn't result in the correct behavior. Instead we employ a temporary condition variable and interruptably wait on it. The POSIX test suite test passes, now. * Made the switch_sem[_etc]() behavior on interruption consistent. Depending on when the signal arrived (before the call or when already waiting) the first semaphore would or wouldn't be released. Now we consistently release it. * Refactored _user_{read,write}[v]() syscalls. Use a common function for either pair. The iovec version doesn't fail anymore, if anything could be read/written at all. It also checks whether a complete vector could be read/written, so that we won't skip data, if the underlying FS/driver couldn't read/write more ATM. * Some refactoring in the x86 syscall handler: The int 99 and sysenter handlers use a common subroutine to avoid code duplication. git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@23983 a95241bf-73f2-0310-859d-f6bbb57e9c96
2008-02-17 18:48:30 +03:00
} else if (handler->sa_handler == SIG_DFL) {
// default signal behaviour
switch (signal) {
case SIGCHLD:
case SIGWINCH:
case SIGURG:
// notify the debugger
if (debugSignal)
notify_debugger(thread, signal, handler, false);
continue;
* Introduced new job_control_entry structure which, among other things, is used instead of death_entry for team::dead_children. * Added team::{stopped,continued}_children, which, analoguously to dead_children, are used to track the state of stopped/continued children. * A team does have a job_control_entry, which is allocated at team creation time. It will be inserted into the parent's {stopped,continued}_children lists as the team's main thread is stopped/continued and removed when waitpid() retrieves the child state. When the team dies the entry is detached from the team and goes into the parent's dead_children list. * Removed the wait_for_any field from team_dead_children. It was solely used to avoid deletion of the contained entries in certain situations. wait_for_child() (the waitpid() backend) always deletes an entry now, regardless of whether other threads are waiting; that's in accordance with the waidpid() specification. wait_for_thread() removes the entry only, if the caller is the parent of the respective team. * Introduced team_set_job_control_state() which performes the job control entry transitions between the respective lists and wakes up threads waiting in wait_for_child(). It is invoked on team death and when the team's main thread receives job control signals. * Reorganized wait_for_child(). It handles WCONTINUED and WUNTRACED now, too. Removed a block that interpreted the supplied ID as thread ID. * Added missing parts in waitpid(). Job control starts to work, though it seems to have some glitches. git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@22088 a95241bf-73f2-0310-859d-f6bbb57e9c96
2007-08-28 07:29:14 +04:00
case SIGCONT:
// notify the debugger
if (debugSignal
&& !notify_debugger(thread, signal, handler, false))
continue;
// notify threads waiting for team state changes
if (thread == thread->team->main_thread) {
InterruptsSpinLocker locker(team_spinlock);
team_set_job_control_state(thread->team,
JOB_CONTROL_STATE_CONTINUED, signal, false);
// The standard states that the system *may* send a
// SIGCHLD when a child is continued. I haven't found
// a good reason why we would want to, though.
* Introduced new job_control_entry structure which, among other things, is used instead of death_entry for team::dead_children. * Added team::{stopped,continued}_children, which, analoguously to dead_children, are used to track the state of stopped/continued children. * A team does have a job_control_entry, which is allocated at team creation time. It will be inserted into the parent's {stopped,continued}_children lists as the team's main thread is stopped/continued and removed when waitpid() retrieves the child state. When the team dies the entry is detached from the team and goes into the parent's dead_children list. * Removed the wait_for_any field from team_dead_children. It was solely used to avoid deletion of the contained entries in certain situations. wait_for_child() (the waitpid() backend) always deletes an entry now, regardless of whether other threads are waiting; that's in accordance with the waidpid() specification. wait_for_thread() removes the entry only, if the caller is the parent of the respective team. * Introduced team_set_job_control_state() which performes the job control entry transitions between the respective lists and wakes up threads waiting in wait_for_child(). It is invoked on team death and when the team's main thread receives job control signals. * Reorganized wait_for_child(). It handles WCONTINUED and WUNTRACED now, too. Removed a block that interpreted the supplied ID as thread ID. * Added missing parts in waitpid(). Job control starts to work, though it seems to have some glitches. git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@22088 a95241bf-73f2-0310-859d-f6bbb57e9c96
2007-08-28 07:29:14 +04:00
}
continue;
case SIGSTOP:
case SIGTSTP:
case SIGTTIN:
case SIGTTOU:
// notify the debugger
if (debugSignal
&& !notify_debugger(thread, signal, handler, false))
continue;
thread->next_state = B_THREAD_SUSPENDED;
* Introduced new job_control_entry structure which, among other things, is used instead of death_entry for team::dead_children. * Added team::{stopped,continued}_children, which, analoguously to dead_children, are used to track the state of stopped/continued children. * A team does have a job_control_entry, which is allocated at team creation time. It will be inserted into the parent's {stopped,continued}_children lists as the team's main thread is stopped/continued and removed when waitpid() retrieves the child state. When the team dies the entry is detached from the team and goes into the parent's dead_children list. * Removed the wait_for_any field from team_dead_children. It was solely used to avoid deletion of the contained entries in certain situations. wait_for_child() (the waitpid() backend) always deletes an entry now, regardless of whether other threads are waiting; that's in accordance with the waidpid() specification. wait_for_thread() removes the entry only, if the caller is the parent of the respective team. * Introduced team_set_job_control_state() which performes the job control entry transitions between the respective lists and wakes up threads waiting in wait_for_child(). It is invoked on team death and when the team's main thread receives job control signals. * Reorganized wait_for_child(). It handles WCONTINUED and WUNTRACED now, too. Removed a block that interpreted the supplied ID as thread ID. * Added missing parts in waitpid(). Job control starts to work, though it seems to have some glitches. git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@22088 a95241bf-73f2-0310-859d-f6bbb57e9c96
2007-08-28 07:29:14 +04:00
// notify threads waiting for team state changes
if (thread == thread->team->main_thread) {
InterruptsSpinLocker locker(team_spinlock);
team_set_job_control_state(thread->team,
JOB_CONTROL_STATE_STOPPED, signal, false);
// send a SIGCHLD to the parent (if it does have
// SA_NOCLDSTOP defined)
SpinLocker _(thread_spinlock);
struct thread* parentThread
= thread->team->parent->main_thread;
struct sigaction& parentHandler
= parentThread->sig_action[SIGCHLD - 1];
if ((parentHandler.sa_flags & SA_NOCLDSTOP) == 0)
deliver_signal(parentThread, SIGCHLD, 0);
* Introduced new job_control_entry structure which, among other things, is used instead of death_entry for team::dead_children. * Added team::{stopped,continued}_children, which, analoguously to dead_children, are used to track the state of stopped/continued children. * A team does have a job_control_entry, which is allocated at team creation time. It will be inserted into the parent's {stopped,continued}_children lists as the team's main thread is stopped/continued and removed when waitpid() retrieves the child state. When the team dies the entry is detached from the team and goes into the parent's dead_children list. * Removed the wait_for_any field from team_dead_children. It was solely used to avoid deletion of the contained entries in certain situations. wait_for_child() (the waitpid() backend) always deletes an entry now, regardless of whether other threads are waiting; that's in accordance with the waidpid() specification. wait_for_thread() removes the entry only, if the caller is the parent of the respective team. * Introduced team_set_job_control_state() which performes the job control entry transitions between the respective lists and wakes up threads waiting in wait_for_child(). It is invoked on team death and when the team's main thread receives job control signals. * Reorganized wait_for_child(). It handles WCONTINUED and WUNTRACED now, too. Removed a block that interpreted the supplied ID as thread ID. * Added missing parts in waitpid(). Job control starts to work, though it seems to have some glitches. git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@22088 a95241bf-73f2-0310-859d-f6bbb57e9c96
2007-08-28 07:29:14 +04:00
}
axeld + bonefish: * Implemented automatic syscall restarts: - A syscall can indicate that it has been interrupted and can be restarted by setting a respective bit in thread::flags. It can store parameters it wants to be preserved for the restart in thread::syscall_restart::parameters. Another thread::flags bit indicates whether it has been restarted. - handle_signals() clears the restart flag, if the handled signal has a handler function installed and SA_RESTART is not set. Another thread flag (THREAD_FLAGS_DONT_RESTART_SYSCALL) can prevent syscalls from being restarted, even if they could be (not used yet, but we might want to use it in resume_thread(), so that we stay behaviorally compatible with BeOS). - The architecture specific syscall handler restarts the syscall, if the restart flag is set. Implemented for x86 only. - Added some support functions in the private <syscall_restart.h> to simplify the syscall restart code in the syscalls. - Adjusted all syscalls that can potentially be restarted accordingly. - _user_ioctl() sets new thread flag THREAD_FLAGS_IOCTL_SYSCALL while calling the underlying FS's/driver's hook, so that syscall restarts can also be supported there. * thread_at_kernel_exit() invokes handle_signals() in a loop now, as long as the latter indicates that the thread shall be suspended, so that after waking up signals received in the meantime will be handled before the thread returns to userland. Adjusted handle_signals() accordingly -- when encountering a suspending signal we don't check for further signals. * Fixed sigsuspend(): Suspending the thread and rescheduling doesn't result in the correct behavior. Instead we employ a temporary condition variable and interruptably wait on it. The POSIX test suite test passes, now. * Made the switch_sem[_etc]() behavior on interruption consistent. Depending on when the signal arrived (before the call or when already waiting) the first semaphore would or wouldn't be released. Now we consistently release it. * Refactored _user_{read,write}[v]() syscalls. Use a common function for either pair. The iovec version doesn't fail anymore, if anything could be read/written at all. It also checks whether a complete vector could be read/written, so that we won't skip data, if the underlying FS/driver couldn't read/write more ATM. * Some refactoring in the x86 syscall handler: The int 99 and sysenter handlers use a common subroutine to avoid code duplication. git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@23983 a95241bf-73f2-0310-859d-f6bbb57e9c96
2008-02-17 18:48:30 +03:00
return true;
case SIGQUIT:
case SIGILL:
case SIGTRAP:
case SIGABRT:
case SIGFPE:
case SIGSEGV:
case SIGPOLL:
case SIGPROF:
case SIGSYS:
case SIGVTALRM:
case SIGXCPU:
case SIGXFSZ:
TRACE(("Shutting down thread 0x%lx due to signal #%ld\n",
thread->id, signal));
case SIGKILL:
case SIGKILLTHR:
default:
// if the thread exited normally, the exit reason is already set
if (thread->exit.reason != THREAD_RETURN_EXIT) {
thread->exit.reason = THREAD_RETURN_INTERRUPTED;
thread->exit.signal = (uint16)signal;
}
// notify the debugger
if (debugSignal && signal != SIGKILL && signal != SIGKILLTHR
&& !notify_debugger(thread, signal, handler, true))
continue;
thread_exit();
// won't return
}
}
axeld + bonefish: * Implemented automatic syscall restarts: - A syscall can indicate that it has been interrupted and can be restarted by setting a respective bit in thread::flags. It can store parameters it wants to be preserved for the restart in thread::syscall_restart::parameters. Another thread::flags bit indicates whether it has been restarted. - handle_signals() clears the restart flag, if the handled signal has a handler function installed and SA_RESTART is not set. Another thread flag (THREAD_FLAGS_DONT_RESTART_SYSCALL) can prevent syscalls from being restarted, even if they could be (not used yet, but we might want to use it in resume_thread(), so that we stay behaviorally compatible with BeOS). - The architecture specific syscall handler restarts the syscall, if the restart flag is set. Implemented for x86 only. - Added some support functions in the private <syscall_restart.h> to simplify the syscall restart code in the syscalls. - Adjusted all syscalls that can potentially be restarted accordingly. - _user_ioctl() sets new thread flag THREAD_FLAGS_IOCTL_SYSCALL while calling the underlying FS's/driver's hook, so that syscall restarts can also be supported there. * thread_at_kernel_exit() invokes handle_signals() in a loop now, as long as the latter indicates that the thread shall be suspended, so that after waking up signals received in the meantime will be handled before the thread returns to userland. Adjusted handle_signals() accordingly -- when encountering a suspending signal we don't check for further signals. * Fixed sigsuspend(): Suspending the thread and rescheduling doesn't result in the correct behavior. Instead we employ a temporary condition variable and interruptably wait on it. The POSIX test suite test passes, now. * Made the switch_sem[_etc]() behavior on interruption consistent. Depending on when the signal arrived (before the call or when already waiting) the first semaphore would or wouldn't be released. Now we consistently release it. * Refactored _user_{read,write}[v]() syscalls. Use a common function for either pair. The iovec version doesn't fail anymore, if anything could be read/written at all. It also checks whether a complete vector could be read/written, so that we won't skip data, if the underlying FS/driver couldn't read/write more ATM. * Some refactoring in the x86 syscall handler: The int 99 and sysenter handlers use a common subroutine to avoid code duplication. git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@23983 a95241bf-73f2-0310-859d-f6bbb57e9c96
2008-02-17 18:48:30 +03:00
// User defined signal handler
// notify the debugger
if (debugSignal && !notify_debugger(thread, signal, handler, false))
continue;
axeld + bonefish: * Implemented automatic syscall restarts: - A syscall can indicate that it has been interrupted and can be restarted by setting a respective bit in thread::flags. It can store parameters it wants to be preserved for the restart in thread::syscall_restart::parameters. Another thread::flags bit indicates whether it has been restarted. - handle_signals() clears the restart flag, if the handled signal has a handler function installed and SA_RESTART is not set. Another thread flag (THREAD_FLAGS_DONT_RESTART_SYSCALL) can prevent syscalls from being restarted, even if they could be (not used yet, but we might want to use it in resume_thread(), so that we stay behaviorally compatible with BeOS). - The architecture specific syscall handler restarts the syscall, if the restart flag is set. Implemented for x86 only. - Added some support functions in the private <syscall_restart.h> to simplify the syscall restart code in the syscalls. - Adjusted all syscalls that can potentially be restarted accordingly. - _user_ioctl() sets new thread flag THREAD_FLAGS_IOCTL_SYSCALL while calling the underlying FS's/driver's hook, so that syscall restarts can also be supported there. * thread_at_kernel_exit() invokes handle_signals() in a loop now, as long as the latter indicates that the thread shall be suspended, so that after waking up signals received in the meantime will be handled before the thread returns to userland. Adjusted handle_signals() accordingly -- when encountering a suspending signal we don't check for further signals. * Fixed sigsuspend(): Suspending the thread and rescheduling doesn't result in the correct behavior. Instead we employ a temporary condition variable and interruptably wait on it. The POSIX test suite test passes, now. * Made the switch_sem[_etc]() behavior on interruption consistent. Depending on when the signal arrived (before the call or when already waiting) the first semaphore would or wouldn't be released. Now we consistently release it. * Refactored _user_{read,write}[v]() syscalls. Use a common function for either pair. The iovec version doesn't fail anymore, if anything could be read/written at all. It also checks whether a complete vector could be read/written, so that we won't skip data, if the underlying FS/driver couldn't read/write more ATM. * Some refactoring in the x86 syscall handler: The int 99 and sysenter handlers use a common subroutine to avoid code duplication. git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@23983 a95241bf-73f2-0310-859d-f6bbb57e9c96
2008-02-17 18:48:30 +03:00
if (!restart || (handler->sa_flags & SA_RESTART) == 0)
atomic_and(&thread->flags, ~THREAD_FLAGS_RESTART_SYSCALL);
TRACE(("### Setting up custom signal handler frame...\n"));
axeld + bonefish: * Implemented automatic syscall restarts: - A syscall can indicate that it has been interrupted and can be restarted by setting a respective bit in thread::flags. It can store parameters it wants to be preserved for the restart in thread::syscall_restart::parameters. Another thread::flags bit indicates whether it has been restarted. - handle_signals() clears the restart flag, if the handled signal has a handler function installed and SA_RESTART is not set. Another thread flag (THREAD_FLAGS_DONT_RESTART_SYSCALL) can prevent syscalls from being restarted, even if they could be (not used yet, but we might want to use it in resume_thread(), so that we stay behaviorally compatible with BeOS). - The architecture specific syscall handler restarts the syscall, if the restart flag is set. Implemented for x86 only. - Added some support functions in the private <syscall_restart.h> to simplify the syscall restart code in the syscalls. - Adjusted all syscalls that can potentially be restarted accordingly. - _user_ioctl() sets new thread flag THREAD_FLAGS_IOCTL_SYSCALL while calling the underlying FS's/driver's hook, so that syscall restarts can also be supported there. * thread_at_kernel_exit() invokes handle_signals() in a loop now, as long as the latter indicates that the thread shall be suspended, so that after waking up signals received in the meantime will be handled before the thread returns to userland. Adjusted handle_signals() accordingly -- when encountering a suspending signal we don't check for further signals. * Fixed sigsuspend(): Suspending the thread and rescheduling doesn't result in the correct behavior. Instead we employ a temporary condition variable and interruptably wait on it. The POSIX test suite test passes, now. * Made the switch_sem[_etc]() behavior on interruption consistent. Depending on when the signal arrived (before the call or when already waiting) the first semaphore would or wouldn't be released. Now we consistently release it. * Refactored _user_{read,write}[v]() syscalls. Use a common function for either pair. The iovec version doesn't fail anymore, if anything could be read/written at all. It also checks whether a complete vector could be read/written, so that we won't skip data, if the underlying FS/driver couldn't read/write more ATM. * Some refactoring in the x86 syscall handler: The int 99 and sysenter handlers use a common subroutine to avoid code duplication. git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@23983 a95241bf-73f2-0310-859d-f6bbb57e9c96
2008-02-17 18:48:30 +03:00
arch_setup_signal_frame(thread, handler, signal,
atomic_get(&thread->sig_block_mask));
if (handler->sa_flags & SA_ONESHOT)
handler->sa_handler = SIG_DFL;
if ((handler->sa_flags & SA_NOMASK) == 0) {
// Update the block mask while the signal handler is running - it
// will be automatically restored when the signal frame is left.
atomic_or(&thread->sig_block_mask,
(handler->sa_mask | SIGNAL_TO_MASK(signal)) & BLOCKABLE_SIGNALS);
}
Merged branch haiku/branches/developer/bonefish/optimization revision 23139 into trunk, with roughly the following changes (for details svn log the branch): * The int 99 syscall handler is now fully in assembly. * Added a sysenter/sysexit handler and use it on Pentiums that support it (via commpage). * Got rid of i386_handle_trap(). A bit of functionality was moved into the assembly handler which now uses a jump table to call C functions handling the respective interrupt. * Some optimizations to get user debugger support code out of the interrupt handling path. * Introduced a thread::flags fields which allows to skip handling of rare events (signals, user debug enabling/disabling) on the common interrupt handling path. * Got rid of the explicit iframe stack. The iframes can still be retrieved by iterating through the stack frames. * Made the commpage an architecture independent feature. It's used for the real time data stuff (instead of creating a separate area). * The x86 CPU modules can now provide processor optimized versions for common functions (currently memcpy() only). They are used in the kernel and are provided to the userland via commpage entries. * Introduced build system feature allowing easy use of C structure member offsets in assembly code. Changes after merging: * Fixed merge conflict in src/system/kernel/arch/x86/arch_debug.cpp (caused by refactoring and introduction of "call" debugger command). git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@23370 a95241bf-73f2-0310-859d-f6bbb57e9c96
2008-01-11 03:36:44 +03:00
update_current_thread_signals_flag();
axeld + bonefish: * Implemented automatic syscall restarts: - A syscall can indicate that it has been interrupted and can be restarted by setting a respective bit in thread::flags. It can store parameters it wants to be preserved for the restart in thread::syscall_restart::parameters. Another thread::flags bit indicates whether it has been restarted. - handle_signals() clears the restart flag, if the handled signal has a handler function installed and SA_RESTART is not set. Another thread flag (THREAD_FLAGS_DONT_RESTART_SYSCALL) can prevent syscalls from being restarted, even if they could be (not used yet, but we might want to use it in resume_thread(), so that we stay behaviorally compatible with BeOS). - The architecture specific syscall handler restarts the syscall, if the restart flag is set. Implemented for x86 only. - Added some support functions in the private <syscall_restart.h> to simplify the syscall restart code in the syscalls. - Adjusted all syscalls that can potentially be restarted accordingly. - _user_ioctl() sets new thread flag THREAD_FLAGS_IOCTL_SYSCALL while calling the underlying FS's/driver's hook, so that syscall restarts can also be supported there. * thread_at_kernel_exit() invokes handle_signals() in a loop now, as long as the latter indicates that the thread shall be suspended, so that after waking up signals received in the meantime will be handled before the thread returns to userland. Adjusted handle_signals() accordingly -- when encountering a suspending signal we don't check for further signals. * Fixed sigsuspend(): Suspending the thread and rescheduling doesn't result in the correct behavior. Instead we employ a temporary condition variable and interruptably wait on it. The POSIX test suite test passes, now. * Made the switch_sem[_etc]() behavior on interruption consistent. Depending on when the signal arrived (before the call or when already waiting) the first semaphore would or wouldn't be released. Now we consistently release it. * Refactored _user_{read,write}[v]() syscalls. Use a common function for either pair. The iovec version doesn't fail anymore, if anything could be read/written at all. It also checks whether a complete vector could be read/written, so that we won't skip data, if the underlying FS/driver couldn't read/write more ATM. * Some refactoring in the x86 syscall handler: The int 99 and sysenter handlers use a common subroutine to avoid code duplication. git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@23983 a95241bf-73f2-0310-859d-f6bbb57e9c96
2008-02-17 18:48:30 +03:00
return false;
}
axeld + bonefish: * Implemented automatic syscall restarts: - A syscall can indicate that it has been interrupted and can be restarted by setting a respective bit in thread::flags. It can store parameters it wants to be preserved for the restart in thread::syscall_restart::parameters. Another thread::flags bit indicates whether it has been restarted. - handle_signals() clears the restart flag, if the handled signal has a handler function installed and SA_RESTART is not set. Another thread flag (THREAD_FLAGS_DONT_RESTART_SYSCALL) can prevent syscalls from being restarted, even if they could be (not used yet, but we might want to use it in resume_thread(), so that we stay behaviorally compatible with BeOS). - The architecture specific syscall handler restarts the syscall, if the restart flag is set. Implemented for x86 only. - Added some support functions in the private <syscall_restart.h> to simplify the syscall restart code in the syscalls. - Adjusted all syscalls that can potentially be restarted accordingly. - _user_ioctl() sets new thread flag THREAD_FLAGS_IOCTL_SYSCALL while calling the underlying FS's/driver's hook, so that syscall restarts can also be supported there. * thread_at_kernel_exit() invokes handle_signals() in a loop now, as long as the latter indicates that the thread shall be suspended, so that after waking up signals received in the meantime will be handled before the thread returns to userland. Adjusted handle_signals() accordingly -- when encountering a suspending signal we don't check for further signals. * Fixed sigsuspend(): Suspending the thread and rescheduling doesn't result in the correct behavior. Instead we employ a temporary condition variable and interruptably wait on it. The POSIX test suite test passes, now. * Made the switch_sem[_etc]() behavior on interruption consistent. Depending on when the signal arrived (before the call or when already waiting) the first semaphore would or wouldn't be released. Now we consistently release it. * Refactored _user_{read,write}[v]() syscalls. Use a common function for either pair. The iovec version doesn't fail anymore, if anything could be read/written at all. It also checks whether a complete vector could be read/written, so that we won't skip data, if the underlying FS/driver couldn't read/write more ATM. * Some refactoring in the x86 syscall handler: The int 99 and sysenter handlers use a common subroutine to avoid code duplication. git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@23983 a95241bf-73f2-0310-859d-f6bbb57e9c96
2008-02-17 18:48:30 +03:00
// clear syscall restart thread flag, if we're not supposed to restart the
// syscall
if (!restart)
atomic_and(&thread->flags, ~THREAD_FLAGS_RESTART_SYSCALL);
Merged branch haiku/branches/developer/bonefish/optimization revision 23139 into trunk, with roughly the following changes (for details svn log the branch): * The int 99 syscall handler is now fully in assembly. * Added a sysenter/sysexit handler and use it on Pentiums that support it (via commpage). * Got rid of i386_handle_trap(). A bit of functionality was moved into the assembly handler which now uses a jump table to call C functions handling the respective interrupt. * Some optimizations to get user debugger support code out of the interrupt handling path. * Introduced a thread::flags fields which allows to skip handling of rare events (signals, user debug enabling/disabling) on the common interrupt handling path. * Got rid of the explicit iframe stack. The iframes can still be retrieved by iterating through the stack frames. * Made the commpage an architecture independent feature. It's used for the real time data stuff (instead of creating a separate area). * The x86 CPU modules can now provide processor optimized versions for common functions (currently memcpy() only). They are used in the kernel and are provided to the userland via commpage entries. * Introduced build system feature allowing easy use of C structure member offsets in assembly code. Changes after merging: * Fixed merge conflict in src/system/kernel/arch/x86/arch_debug.cpp (caused by refactoring and introduction of "call" debugger command). git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@23370 a95241bf-73f2-0310-859d-f6bbb57e9c96
2008-01-11 03:36:44 +03:00
update_current_thread_signals_flag();
axeld + bonefish: * Implemented automatic syscall restarts: - A syscall can indicate that it has been interrupted and can be restarted by setting a respective bit in thread::flags. It can store parameters it wants to be preserved for the restart in thread::syscall_restart::parameters. Another thread::flags bit indicates whether it has been restarted. - handle_signals() clears the restart flag, if the handled signal has a handler function installed and SA_RESTART is not set. Another thread flag (THREAD_FLAGS_DONT_RESTART_SYSCALL) can prevent syscalls from being restarted, even if they could be (not used yet, but we might want to use it in resume_thread(), so that we stay behaviorally compatible with BeOS). - The architecture specific syscall handler restarts the syscall, if the restart flag is set. Implemented for x86 only. - Added some support functions in the private <syscall_restart.h> to simplify the syscall restart code in the syscalls. - Adjusted all syscalls that can potentially be restarted accordingly. - _user_ioctl() sets new thread flag THREAD_FLAGS_IOCTL_SYSCALL while calling the underlying FS's/driver's hook, so that syscall restarts can also be supported there. * thread_at_kernel_exit() invokes handle_signals() in a loop now, as long as the latter indicates that the thread shall be suspended, so that after waking up signals received in the meantime will be handled before the thread returns to userland. Adjusted handle_signals() accordingly -- when encountering a suspending signal we don't check for further signals. * Fixed sigsuspend(): Suspending the thread and rescheduling doesn't result in the correct behavior. Instead we employ a temporary condition variable and interruptably wait on it. The POSIX test suite test passes, now. * Made the switch_sem[_etc]() behavior on interruption consistent. Depending on when the signal arrived (before the call or when already waiting) the first semaphore would or wouldn't be released. Now we consistently release it. * Refactored _user_{read,write}[v]() syscalls. Use a common function for either pair. The iovec version doesn't fail anymore, if anything could be read/written at all. It also checks whether a complete vector could be read/written, so that we won't skip data, if the underlying FS/driver couldn't read/write more ATM. * Some refactoring in the x86 syscall handler: The int 99 and sysenter handlers use a common subroutine to avoid code duplication. git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@23983 a95241bf-73f2-0310-859d-f6bbb57e9c96
2008-02-17 18:48:30 +03:00
return false;
}
bool
is_kill_signal_pending(void)
{
return (atomic_get(&thread_get_current_thread()->sig_pending)
& KILL_SIGNALS) != 0;
}
bool
is_signal_blocked(int signal)
{
return (atomic_get(&thread_get_current_thread()->sig_block_mask)
& SIGNAL_TO_MASK(signal)) != 0;
}
/*! Tries to interrupt a thread waiting for a semaphore or a condition variable.
Interrupts must be disabled, the thread lock be held.
*/
static status_t
signal_interrupt_thread(struct thread* thread)
{
if (thread->sem.blocking >= 0)
return sem_interrupt_thread(thread);
else if (thread->condition_variable_entry)
return condition_variable_interrupt_thread(thread);
return B_BAD_VALUE;
}
/*! Delivers the \a signal to the \a thread, but doesn't handle the signal -
it just makes sure the thread gets the signal, ie. unblocks it if needed.
This function must be called with interrupts disabled and the
thread lock held.
*/
static status_t
deliver_signal(struct thread *thread, uint signal, uint32 flags)
{
if (flags & B_CHECK_PERMISSION) {
// ToDo: introduce euid & uid fields to the team and check permission
}
if (signal == 0)
return B_OK;
if (thread->team == team_get_kernel_team()) {
// Signals to kernel threads will only wake them up
if (thread->state == B_THREAD_SUSPENDED)
scheduler_enqueue_in_run_queue(thread);
return B_OK;
}
atomic_or(&thread->sig_pending, SIGNAL_TO_MASK(signal));
switch (signal) {
case SIGKILL:
{
struct thread *mainThread = thread->team->main_thread;
// Forward KILLTHR to the main thread of the team
mainThread->sig_pending |= SIGNAL_TO_MASK(SIGKILLTHR);
// Wake up main thread
if (mainThread->state == B_THREAD_SUSPENDED)
scheduler_enqueue_in_run_queue(mainThread);
else if (mainThread->state == B_THREAD_WAITING)
signal_interrupt_thread(mainThread);
// Supposed to fall through
}
case SIGKILLTHR:
// Wake up suspended threads and interrupt waiting ones
if (thread->state == B_THREAD_SUSPENDED)
scheduler_enqueue_in_run_queue(thread);
else if (thread->state == B_THREAD_WAITING)
signal_interrupt_thread(thread);
break;
case SIGCONT:
// Wake up thread if it was suspended
if (thread->state == B_THREAD_SUSPENDED)
scheduler_enqueue_in_run_queue(thread);
if ((flags & SIGNAL_FLAG_DONT_RESTART_SYSCALL) != 0)
atomic_or(&thread->flags, THREAD_FLAGS_DONT_RESTART_SYSCALL);
atomic_and(&thread->sig_pending, ~STOP_SIGNALS);
// remove any pending stop signals
break;
default:
if (thread->sig_pending
& (~thread->sig_block_mask | SIGNAL_TO_MASK(SIGCHLD))) {
// Interrupt thread if it was waiting
if (thread->state == B_THREAD_WAITING)
signal_interrupt_thread(thread);
}
break;
}
Merged branch haiku/branches/developer/bonefish/optimization revision 23139 into trunk, with roughly the following changes (for details svn log the branch): * The int 99 syscall handler is now fully in assembly. * Added a sysenter/sysexit handler and use it on Pentiums that support it (via commpage). * Got rid of i386_handle_trap(). A bit of functionality was moved into the assembly handler which now uses a jump table to call C functions handling the respective interrupt. * Some optimizations to get user debugger support code out of the interrupt handling path. * Introduced a thread::flags fields which allows to skip handling of rare events (signals, user debug enabling/disabling) on the common interrupt handling path. * Got rid of the explicit iframe stack. The iframes can still be retrieved by iterating through the stack frames. * Made the commpage an architecture independent feature. It's used for the real time data stuff (instead of creating a separate area). * The x86 CPU modules can now provide processor optimized versions for common functions (currently memcpy() only). They are used in the kernel and are provided to the userland via commpage entries. * Introduced build system feature allowing easy use of C structure member offsets in assembly code. Changes after merging: * Fixed merge conflict in src/system/kernel/arch/x86/arch_debug.cpp (caused by refactoring and introduction of "call" debugger command). git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@23370 a95241bf-73f2-0310-859d-f6bbb57e9c96
2008-01-11 03:36:44 +03:00
update_thread_signals_flag(thread);
return B_OK;
}
int
send_signal_etc(pid_t id, uint signal, uint32 flags)
{
status_t status = B_BAD_THREAD_ID;
struct thread *thread;
cpu_status state = 0;
if (signal < 0 || signal > MAX_SIGNO)
return B_BAD_VALUE;
T(SendSignal(id, signal, flags));
if ((flags & SIGNAL_FLAG_TEAMS_LOCKED) == 0)
state = disable_interrupts();
if (id > 0) {
// send a signal to the specified thread
GRAB_THREAD_LOCK();
thread = thread_get_thread_struct_locked(id);
if (thread != NULL)
status = deliver_signal(thread, signal, flags);
} else {
// send a signal to the specified process group
// (the absolute value of the id)
struct process_group *group;
// TODO: handle -1 correctly
if (id == 0 || id == -1) {
// send a signal to the current team
id = thread_get_current_thread()->team->id;
} else
id = -id;
if ((flags & SIGNAL_FLAG_TEAMS_LOCKED) == 0)
GRAB_TEAM_LOCK();
group = team_get_process_group_locked(NULL, id);
if (group != NULL) {
struct team *team, *next;
// Send a signal to all teams in this process group
for (team = group->teams; team != NULL; team = next) {
next = team->group_next;
id = team->id;
GRAB_THREAD_LOCK();
thread = thread_get_thread_struct_locked(id);
if (thread != NULL) {
// we don't stop because of an error sending the signal; we
// rather want to send as much signals as possible
status = deliver_signal(thread, signal, flags);
}
RELEASE_THREAD_LOCK();
}
}
if ((flags & SIGNAL_FLAG_TEAMS_LOCKED) == 0)
RELEASE_TEAM_LOCK();
GRAB_THREAD_LOCK();
}
// ToDo: maybe the scheduler should only be invoked if there is reason to do it?
// (ie. deliver_signal() moved some threads in the running queue?)
if ((flags & (B_DO_NOT_RESCHEDULE | SIGNAL_FLAG_TEAMS_LOCKED)) == 0)
scheduler_reschedule();
RELEASE_THREAD_LOCK();
if ((flags & SIGNAL_FLAG_TEAMS_LOCKED) == 0)
restore_interrupts(state);
return status;
}
int
send_signal(pid_t threadID, uint signal)
{
// The BeBook states that this function wouldn't be exported
// for drivers, but, of course, it's wrong.
return send_signal_etc(threadID, signal, 0);
}
int
has_signals_pending(void *_thread)
{
struct thread *thread = (struct thread *)_thread;
if (thread == NULL)
thread = thread_get_current_thread();
return atomic_get(&thread->sig_pending)
& ~atomic_get(&thread->sig_block_mask);
}
int
sigprocmask(int how, const sigset_t *set, sigset_t *oldSet)
{
struct thread *thread = thread_get_current_thread();
sigset_t oldMask = atomic_get(&thread->sig_block_mask);
if (set != NULL) {
T(SigProcMask(how, *set));
switch (how) {
case SIG_BLOCK:
atomic_or(&thread->sig_block_mask, *set & BLOCKABLE_SIGNALS);
break;
case SIG_UNBLOCK:
atomic_and(&thread->sig_block_mask, ~*set);
break;
case SIG_SETMASK:
atomic_set(&thread->sig_block_mask, *set & BLOCKABLE_SIGNALS);
break;
default:
return B_BAD_VALUE;
}
Merged branch haiku/branches/developer/bonefish/optimization revision 23139 into trunk, with roughly the following changes (for details svn log the branch): * The int 99 syscall handler is now fully in assembly. * Added a sysenter/sysexit handler and use it on Pentiums that support it (via commpage). * Got rid of i386_handle_trap(). A bit of functionality was moved into the assembly handler which now uses a jump table to call C functions handling the respective interrupt. * Some optimizations to get user debugger support code out of the interrupt handling path. * Introduced a thread::flags fields which allows to skip handling of rare events (signals, user debug enabling/disabling) on the common interrupt handling path. * Got rid of the explicit iframe stack. The iframes can still be retrieved by iterating through the stack frames. * Made the commpage an architecture independent feature. It's used for the real time data stuff (instead of creating a separate area). * The x86 CPU modules can now provide processor optimized versions for common functions (currently memcpy() only). They are used in the kernel and are provided to the userland via commpage entries. * Introduced build system feature allowing easy use of C structure member offsets in assembly code. Changes after merging: * Fixed merge conflict in src/system/kernel/arch/x86/arch_debug.cpp (caused by refactoring and introduction of "call" debugger command). git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@23370 a95241bf-73f2-0310-859d-f6bbb57e9c96
2008-01-11 03:36:44 +03:00
update_current_thread_signals_flag();
}
if (oldSet != NULL)
*oldSet = oldMask;
return B_OK;
}
/*! \brief sigaction() for the specified thread.
A \a threadID is < 0 specifies the current thread.
*/
int
sigaction_etc(thread_id threadID, int signal, const struct sigaction *act,
struct sigaction *oldAction)
{
struct thread *thread;
cpu_status state;
status_t error = B_OK;
if (signal < 1 || signal > MAX_SIGNO
|| (SIGNAL_TO_MASK(signal) & ~BLOCKABLE_SIGNALS) != 0)
return B_BAD_VALUE;
state = disable_interrupts();
GRAB_THREAD_LOCK();
thread = (threadID < 0
? thread_get_current_thread()
: thread_get_thread_struct_locked(threadID));
if (thread) {
if (oldAction) {
// save previous sigaction structure
memcpy(oldAction, &thread->sig_action[signal - 1],
sizeof(struct sigaction));
}
if (act) {
T(SigAction(thread, signal, act));
// set new sigaction structure
memcpy(&thread->sig_action[signal - 1], act,
sizeof(struct sigaction));
thread->sig_action[signal - 1].sa_mask &= BLOCKABLE_SIGNALS;
}
if (act && act->sa_handler == SIG_IGN) {
// remove pending signal if it should now be ignored
atomic_and(&thread->sig_pending, ~SIGNAL_TO_MASK(signal));
} else if (act && act->sa_handler == SIG_DFL
&& (SIGNAL_TO_MASK(signal) & DEFAULT_IGNORE_SIGNALS) != NULL) {
// remove pending signal for those signals whose default
// action is to ignore them
atomic_and(&thread->sig_pending, ~SIGNAL_TO_MASK(signal));
}
} else
error = B_BAD_THREAD_ID;
RELEASE_THREAD_LOCK();
restore_interrupts(state);
return error;
}
int
sigaction(int signal, const struct sigaction *act, struct sigaction *oldAction)
{
return sigaction_etc(-1, signal, act, oldAction);
}
/*! Triggers a SIGALRM to the thread that issued the timer and reschedules */
static int32
alarm_event(timer *t)
{
// The hook can be called from any context, but we have to
// deliver the signal to the thread that originally called
// set_alarm().
// Since thread->alarm is this timer structure, we can just
// cast it back - ugly but it works for now
struct thread *thread = (struct thread *)((uint8 *)t
- offsetof(struct thread, alarm));
// ToDo: investigate adding one user parameter to the timer structure to fix this hack
TRACE(("alarm_event: thread = %p\n", thread));
send_signal_etc(thread->id, SIGALRM, B_DO_NOT_RESCHEDULE);
return B_INVOKE_SCHEDULER;
}
/*! Sets the alarm timer for the current thread. The timer fires at the
specified time in the future, periodically or just once, as determined
by \a mode.
\return the time left until a previous set alarm would have fired.
*/
bigtime_t
set_alarm(bigtime_t time, uint32 mode)
{
struct thread *thread = thread_get_current_thread();
bigtime_t remainingTime = 0;
ASSERT(B_ONE_SHOT_RELATIVE_ALARM == B_ONE_SHOT_RELATIVE_TIMER);
// just to be sure no one changes the headers some day
TRACE(("set_alarm: thread = %p\n", thread));
if (thread->alarm.period)
remainingTime = (bigtime_t)thread->alarm.entry.key - system_time();
cancel_timer(&thread->alarm);
if (time != B_INFINITE_TIMEOUT)
add_timer(&thread->alarm, &alarm_event, time, mode);
else {
// this marks the alarm as canceled (for returning the remaining time)
thread->alarm.period = 0;
}
return remainingTime;
}
/*! Replace the current signal block mask and wait for any event to happen.
Before returning, the original signal block mask is reinstantiated.
*/
int
sigsuspend(const sigset_t *mask)
{
struct thread *thread = thread_get_current_thread();
sigset_t oldMask = atomic_get(&thread->sig_block_mask);
axeld + bonefish: * Implemented automatic syscall restarts: - A syscall can indicate that it has been interrupted and can be restarted by setting a respective bit in thread::flags. It can store parameters it wants to be preserved for the restart in thread::syscall_restart::parameters. Another thread::flags bit indicates whether it has been restarted. - handle_signals() clears the restart flag, if the handled signal has a handler function installed and SA_RESTART is not set. Another thread flag (THREAD_FLAGS_DONT_RESTART_SYSCALL) can prevent syscalls from being restarted, even if they could be (not used yet, but we might want to use it in resume_thread(), so that we stay behaviorally compatible with BeOS). - The architecture specific syscall handler restarts the syscall, if the restart flag is set. Implemented for x86 only. - Added some support functions in the private <syscall_restart.h> to simplify the syscall restart code in the syscalls. - Adjusted all syscalls that can potentially be restarted accordingly. - _user_ioctl() sets new thread flag THREAD_FLAGS_IOCTL_SYSCALL while calling the underlying FS's/driver's hook, so that syscall restarts can also be supported there. * thread_at_kernel_exit() invokes handle_signals() in a loop now, as long as the latter indicates that the thread shall be suspended, so that after waking up signals received in the meantime will be handled before the thread returns to userland. Adjusted handle_signals() accordingly -- when encountering a suspending signal we don't check for further signals. * Fixed sigsuspend(): Suspending the thread and rescheduling doesn't result in the correct behavior. Instead we employ a temporary condition variable and interruptably wait on it. The POSIX test suite test passes, now. * Made the switch_sem[_etc]() behavior on interruption consistent. Depending on when the signal arrived (before the call or when already waiting) the first semaphore would or wouldn't be released. Now we consistently release it. * Refactored _user_{read,write}[v]() syscalls. Use a common function for either pair. The iovec version doesn't fail anymore, if anything could be read/written at all. It also checks whether a complete vector could be read/written, so that we won't skip data, if the underlying FS/driver couldn't read/write more ATM. * Some refactoring in the x86 syscall handler: The int 99 and sysenter handlers use a common subroutine to avoid code duplication. git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@23983 a95241bf-73f2-0310-859d-f6bbb57e9c96
2008-02-17 18:48:30 +03:00
// Set the new block mask and interuptably block wait for a condition
// variable no one will ever notify.
atomic_set(&thread->sig_block_mask, *mask & BLOCKABLE_SIGNALS);
axeld + bonefish: * Implemented automatic syscall restarts: - A syscall can indicate that it has been interrupted and can be restarted by setting a respective bit in thread::flags. It can store parameters it wants to be preserved for the restart in thread::syscall_restart::parameters. Another thread::flags bit indicates whether it has been restarted. - handle_signals() clears the restart flag, if the handled signal has a handler function installed and SA_RESTART is not set. Another thread flag (THREAD_FLAGS_DONT_RESTART_SYSCALL) can prevent syscalls from being restarted, even if they could be (not used yet, but we might want to use it in resume_thread(), so that we stay behaviorally compatible with BeOS). - The architecture specific syscall handler restarts the syscall, if the restart flag is set. Implemented for x86 only. - Added some support functions in the private <syscall_restart.h> to simplify the syscall restart code in the syscalls. - Adjusted all syscalls that can potentially be restarted accordingly. - _user_ioctl() sets new thread flag THREAD_FLAGS_IOCTL_SYSCALL while calling the underlying FS's/driver's hook, so that syscall restarts can also be supported there. * thread_at_kernel_exit() invokes handle_signals() in a loop now, as long as the latter indicates that the thread shall be suspended, so that after waking up signals received in the meantime will be handled before the thread returns to userland. Adjusted handle_signals() accordingly -- when encountering a suspending signal we don't check for further signals. * Fixed sigsuspend(): Suspending the thread and rescheduling doesn't result in the correct behavior. Instead we employ a temporary condition variable and interruptably wait on it. The POSIX test suite test passes, now. * Made the switch_sem[_etc]() behavior on interruption consistent. Depending on when the signal arrived (before the call or when already waiting) the first semaphore would or wouldn't be released. Now we consistently release it. * Refactored _user_{read,write}[v]() syscalls. Use a common function for either pair. The iovec version doesn't fail anymore, if anything could be read/written at all. It also checks whether a complete vector could be read/written, so that we won't skip data, if the underlying FS/driver couldn't read/write more ATM. * Some refactoring in the x86 syscall handler: The int 99 and sysenter handlers use a common subroutine to avoid code duplication. git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@23983 a95241bf-73f2-0310-859d-f6bbb57e9c96
2008-02-17 18:48:30 +03:00
ConditionVariable<sigset_t> conditionVar;
conditionVar.Publish(mask, "sigsuspend");
Merged branch haiku/branches/developer/bonefish/optimization revision 23139 into trunk, with roughly the following changes (for details svn log the branch): * The int 99 syscall handler is now fully in assembly. * Added a sysenter/sysexit handler and use it on Pentiums that support it (via commpage). * Got rid of i386_handle_trap(). A bit of functionality was moved into the assembly handler which now uses a jump table to call C functions handling the respective interrupt. * Some optimizations to get user debugger support code out of the interrupt handling path. * Introduced a thread::flags fields which allows to skip handling of rare events (signals, user debug enabling/disabling) on the common interrupt handling path. * Got rid of the explicit iframe stack. The iframes can still be retrieved by iterating through the stack frames. * Made the commpage an architecture independent feature. It's used for the real time data stuff (instead of creating a separate area). * The x86 CPU modules can now provide processor optimized versions for common functions (currently memcpy() only). They are used in the kernel and are provided to the userland via commpage entries. * Introduced build system feature allowing easy use of C structure member offsets in assembly code. Changes after merging: * Fixed merge conflict in src/system/kernel/arch/x86/arch_debug.cpp (caused by refactoring and introduction of "call" debugger command). git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@23370 a95241bf-73f2-0310-859d-f6bbb57e9c96
2008-01-11 03:36:44 +03:00
axeld + bonefish: * Implemented automatic syscall restarts: - A syscall can indicate that it has been interrupted and can be restarted by setting a respective bit in thread::flags. It can store parameters it wants to be preserved for the restart in thread::syscall_restart::parameters. Another thread::flags bit indicates whether it has been restarted. - handle_signals() clears the restart flag, if the handled signal has a handler function installed and SA_RESTART is not set. Another thread flag (THREAD_FLAGS_DONT_RESTART_SYSCALL) can prevent syscalls from being restarted, even if they could be (not used yet, but we might want to use it in resume_thread(), so that we stay behaviorally compatible with BeOS). - The architecture specific syscall handler restarts the syscall, if the restart flag is set. Implemented for x86 only. - Added some support functions in the private <syscall_restart.h> to simplify the syscall restart code in the syscalls. - Adjusted all syscalls that can potentially be restarted accordingly. - _user_ioctl() sets new thread flag THREAD_FLAGS_IOCTL_SYSCALL while calling the underlying FS's/driver's hook, so that syscall restarts can also be supported there. * thread_at_kernel_exit() invokes handle_signals() in a loop now, as long as the latter indicates that the thread shall be suspended, so that after waking up signals received in the meantime will be handled before the thread returns to userland. Adjusted handle_signals() accordingly -- when encountering a suspending signal we don't check for further signals. * Fixed sigsuspend(): Suspending the thread and rescheduling doesn't result in the correct behavior. Instead we employ a temporary condition variable and interruptably wait on it. The POSIX test suite test passes, now. * Made the switch_sem[_etc]() behavior on interruption consistent. Depending on when the signal arrived (before the call or when already waiting) the first semaphore would or wouldn't be released. Now we consistently release it. * Refactored _user_{read,write}[v]() syscalls. Use a common function for either pair. The iovec version doesn't fail anymore, if anything could be read/written at all. It also checks whether a complete vector could be read/written, so that we won't skip data, if the underlying FS/driver couldn't read/write more ATM. * Some refactoring in the x86 syscall handler: The int 99 and sysenter handlers use a common subroutine to avoid code duplication. git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@23983 a95241bf-73f2-0310-859d-f6bbb57e9c96
2008-02-17 18:48:30 +03:00
while (true) {
ConditionVariableEntry<sigset_t> entry;
entry.Wait(mask, B_CAN_INTERRUPT);
if (has_signals_pending(thread))
break;
}
conditionVar.Unpublish();
// restore the original block mask
atomic_set(&thread->sig_block_mask, oldMask);
Merged branch haiku/branches/developer/bonefish/optimization revision 23139 into trunk, with roughly the following changes (for details svn log the branch): * The int 99 syscall handler is now fully in assembly. * Added a sysenter/sysexit handler and use it on Pentiums that support it (via commpage). * Got rid of i386_handle_trap(). A bit of functionality was moved into the assembly handler which now uses a jump table to call C functions handling the respective interrupt. * Some optimizations to get user debugger support code out of the interrupt handling path. * Introduced a thread::flags fields which allows to skip handling of rare events (signals, user debug enabling/disabling) on the common interrupt handling path. * Got rid of the explicit iframe stack. The iframes can still be retrieved by iterating through the stack frames. * Made the commpage an architecture independent feature. It's used for the real time data stuff (instead of creating a separate area). * The x86 CPU modules can now provide processor optimized versions for common functions (currently memcpy() only). They are used in the kernel and are provided to the userland via commpage entries. * Introduced build system feature allowing easy use of C structure member offsets in assembly code. Changes after merging: * Fixed merge conflict in src/system/kernel/arch/x86/arch_debug.cpp (caused by refactoring and introduction of "call" debugger command). git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@23370 a95241bf-73f2-0310-859d-f6bbb57e9c96
2008-01-11 03:36:44 +03:00
update_current_thread_signals_flag();
// we're not supposed to actually succeed
return B_INTERRUPTED;
}
int
sigpending(sigset_t *set)
{
struct thread *thread = thread_get_current_thread();
if (set == NULL)
return B_BAD_VALUE;
*set = atomic_get(&thread->sig_pending);
return B_OK;
}
// #pragma mark -
bigtime_t
_user_set_alarm(bigtime_t time, uint32 mode)
{
Merged branch haiku/branches/developer/bonefish/optimization revision 23139 into trunk, with roughly the following changes (for details svn log the branch): * The int 99 syscall handler is now fully in assembly. * Added a sysenter/sysexit handler and use it on Pentiums that support it (via commpage). * Got rid of i386_handle_trap(). A bit of functionality was moved into the assembly handler which now uses a jump table to call C functions handling the respective interrupt. * Some optimizations to get user debugger support code out of the interrupt handling path. * Introduced a thread::flags fields which allows to skip handling of rare events (signals, user debug enabling/disabling) on the common interrupt handling path. * Got rid of the explicit iframe stack. The iframes can still be retrieved by iterating through the stack frames. * Made the commpage an architecture independent feature. It's used for the real time data stuff (instead of creating a separate area). * The x86 CPU modules can now provide processor optimized versions for common functions (currently memcpy() only). They are used in the kernel and are provided to the userland via commpage entries. * Introduced build system feature allowing easy use of C structure member offsets in assembly code. Changes after merging: * Fixed merge conflict in src/system/kernel/arch/x86/arch_debug.cpp (caused by refactoring and introduction of "call" debugger command). git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@23370 a95241bf-73f2-0310-859d-f6bbb57e9c96
2008-01-11 03:36:44 +03:00
syscall_64_bit_return_value();
return set_alarm(time, mode);
}
status_t
_user_send_signal(pid_t team, uint signal)
{
return send_signal_etc(team, signal, B_CHECK_PERMISSION);
}
status_t
_user_sigprocmask(int how, const sigset_t *userSet, sigset_t *userOldSet)
{
sigset_t set, oldSet;
status_t status;
if ((userSet != NULL && user_memcpy(&set, userSet, sizeof(sigset_t)) < B_OK)
|| (userOldSet != NULL && user_memcpy(&oldSet, userOldSet,
sizeof(sigset_t)) < B_OK))
return B_BAD_ADDRESS;
status = sigprocmask(how, userSet ? &set : NULL,
userOldSet ? &oldSet : NULL);
// copy old set if asked for
if (status >= B_OK && userOldSet != NULL
&& user_memcpy(userOldSet, &oldSet, sizeof(sigset_t)) < B_OK)
return B_BAD_ADDRESS;
return status;
}
status_t
_user_sigaction(int signal, const struct sigaction *userAction,
struct sigaction *userOldAction)
{
struct sigaction act, oact;
status_t status;
if ((userAction != NULL && user_memcpy(&act, userAction,
sizeof(struct sigaction)) < B_OK)
|| (userOldAction != NULL && user_memcpy(&oact, userOldAction,
sizeof(struct sigaction)) < B_OK))
return B_BAD_ADDRESS;
status = sigaction(signal, userAction ? &act : NULL,
userOldAction ? &oact : NULL);
// only copy the old action if a pointer has been given
if (status >= B_OK && userOldAction != NULL
&& user_memcpy(userOldAction, &oact, sizeof(struct sigaction)) < B_OK)
return B_BAD_ADDRESS;
return status;
}
status_t
_user_sigsuspend(const sigset_t *userMask)
{
sigset_t mask;
if (userMask == NULL)
return B_BAD_VALUE;
if (user_memcpy(&mask, userMask, sizeof(sigset_t)) < B_OK)
return B_BAD_ADDRESS;
return sigsuspend(&mask);
}
status_t
_user_sigpending(sigset_t *userSet)
{
sigset_t set;
int status;
if (userSet == NULL)
return B_BAD_VALUE;
if (!IS_USER_ADDRESS(userSet))
return B_BAD_ADDRESS;
status = sigpending(&set);
if (status == B_OK
&& user_memcpy(userSet, &set, sizeof(sigset_t)) < B_OK)
return B_BAD_ADDRESS;
return status;
}
status_t
_user_set_signal_stack(const stack_t *newUserStack, stack_t *oldUserStack)
{
struct thread *thread = thread_get_current_thread();
struct stack_t newStack, oldStack;
bool onStack = false;
if ((newUserStack != NULL && user_memcpy(&newStack, newUserStack,
sizeof(stack_t)) < B_OK)
|| (oldUserStack != NULL && user_memcpy(&oldStack, oldUserStack,
sizeof(stack_t)) < B_OK))
return B_BAD_ADDRESS;
if (thread->signal_stack_enabled) {
// determine wether or not the user thread is currently
// on the active signal stack
onStack = arch_on_signal_stack(thread);
}
if (oldUserStack != NULL) {
oldStack.ss_sp = (void *)thread->signal_stack_base;
oldStack.ss_size = thread->signal_stack_size;
oldStack.ss_flags = (thread->signal_stack_enabled ? 0 : SS_DISABLE)
| (onStack ? SS_ONSTACK : 0);
}
if (newUserStack != NULL) {
// no flags other than SS_DISABLE are allowed
if ((newStack.ss_flags & ~SS_DISABLE) != 0)
return B_BAD_VALUE;
if ((newStack.ss_flags & SS_DISABLE) == 0) {
// check if the size is valid
if (newStack.ss_size < MINSIGSTKSZ)
return B_NO_MEMORY;
if (onStack)
return B_NOT_ALLOWED;
if (!IS_USER_ADDRESS(newStack.ss_sp))
return B_BAD_VALUE;
thread->signal_stack_base = (addr_t)newStack.ss_sp;
thread->signal_stack_size = newStack.ss_size;
thread->signal_stack_enabled = true;
} else
thread->signal_stack_enabled = false;
}
// only copy the old stack info if a pointer has been given
if (oldUserStack != NULL
&& user_memcpy(oldUserStack, &oldStack, sizeof(stack_t)) < B_OK)
return B_BAD_ADDRESS;
return B_OK;
}