//===-- UnixSignals.cpp ---------------------------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #include "lldb/Target/UnixSignals.h" #include "Plugins/Process/Utility/FreeBSDSignals.h" #include "Plugins/Process/Utility/LinuxSignals.h" #include "Plugins/Process/Utility/MipsLinuxSignals.h" #include "Plugins/Process/Utility/NetBSDSignals.h" #include "lldb/Host/HostInfo.h" #include "lldb/Utility/ArchSpec.h" using namespace lldb_private; using namespace llvm; UnixSignals::Signal::Signal(const char *name, bool default_suppress, bool default_stop, bool default_notify, const char *description, const char *alias) : m_name(name), m_alias(alias), m_description(), m_suppress(default_suppress), m_stop(default_stop), m_notify(default_notify) { if (description) m_description.assign(description); } lldb::UnixSignalsSP UnixSignals::Create(const ArchSpec &arch) { const auto &triple = arch.GetTriple(); switch (triple.getOS()) { case llvm::Triple::Linux: { switch (triple.getArch()) { case llvm::Triple::mips: case llvm::Triple::mipsel: case llvm::Triple::mips64: case llvm::Triple::mips64el: return std::make_shared(); default: return std::make_shared(); } } case llvm::Triple::FreeBSD: case llvm::Triple::OpenBSD: return std::make_shared(); case llvm::Triple::NetBSD: return std::make_shared(); default: return std::make_shared(); } } lldb::UnixSignalsSP UnixSignals::CreateForHost() { static lldb::UnixSignalsSP s_unix_signals_sp = Create(HostInfo::GetArchitecture()); return s_unix_signals_sp; } // UnixSignals constructor UnixSignals::UnixSignals() { Reset(); } UnixSignals::UnixSignals(const UnixSignals &rhs) : m_signals(rhs.m_signals) {} UnixSignals::~UnixSignals() = default; void UnixSignals::Reset() { // This builds one standard set of Unix Signals. If yours aren't quite in // this order, you can either subclass this class, and use Add & Remove to // change them or you can subclass and build them afresh in your constructor. // // Note: the signals below are the Darwin signals. Do not change these! m_signals.clear(); // clang-format off // SIGNO NAME SUPPRESS STOP NOTIFY DESCRIPTION // ====== ============== ======== ====== ====== =================================================== AddSignal(1, "SIGHUP", false, true, true, "hangup"); AddSignal(2, "SIGINT", true, true, true, "interrupt"); AddSignal(3, "SIGQUIT", false, true, true, "quit"); AddSignal(4, "SIGILL", false, true, true, "illegal instruction"); AddSignal(5, "SIGTRAP", true, true, true, "trace trap (not reset when caught)"); AddSignal(6, "SIGABRT", false, true, true, "abort()"); AddSignal(7, "SIGEMT", false, true, true, "pollable event"); AddSignal(8, "SIGFPE", false, true, true, "floating point exception"); AddSignal(9, "SIGKILL", false, true, true, "kill"); AddSignal(10, "SIGBUS", false, true, true, "bus error"); AddSignal(11, "SIGSEGV", false, true, true, "segmentation violation"); AddSignal(12, "SIGSYS", false, true, true, "bad argument to system call"); AddSignal(13, "SIGPIPE", false, false, false, "write on a pipe with no one to read it"); AddSignal(14, "SIGALRM", false, false, false, "alarm clock"); AddSignal(15, "SIGTERM", false, true, true, "software termination signal from kill"); AddSignal(16, "SIGURG", false, false, false, "urgent condition on IO channel"); AddSignal(17, "SIGSTOP", true, true, true, "sendable stop signal not from tty"); AddSignal(18, "SIGTSTP", false, true, true, "stop signal from tty"); AddSignal(19, "SIGCONT", false, false, true, "continue a stopped process"); AddSignal(20, "SIGCHLD", false, false, false, "to parent on child stop or exit"); AddSignal(21, "SIGTTIN", false, true, true, "to readers process group upon background tty read"); AddSignal(22, "SIGTTOU", false, true, true, "to readers process group upon background tty write"); AddSignal(23, "SIGIO", false, false, false, "input/output possible signal"); AddSignal(24, "SIGXCPU", false, true, true, "exceeded CPU time limit"); AddSignal(25, "SIGXFSZ", false, true, true, "exceeded file size limit"); AddSignal(26, "SIGVTALRM", false, false, false, "virtual time alarm"); AddSignal(27, "SIGPROF", false, false, false, "profiling time alarm"); AddSignal(28, "SIGWINCH", false, false, false, "window size changes"); AddSignal(29, "SIGINFO", false, true, true, "information request"); AddSignal(30, "SIGUSR1", false, true, true, "user defined signal 1"); AddSignal(31, "SIGUSR2", false, true, true, "user defined signal 2"); // clang-format on } void UnixSignals::AddSignal(int signo, const char *name, bool default_suppress, bool default_stop, bool default_notify, const char *description, const char *alias) { Signal new_signal(name, default_suppress, default_stop, default_notify, description, alias); m_signals.insert(std::make_pair(signo, new_signal)); ++m_version; } void UnixSignals::RemoveSignal(int signo) { collection::iterator pos = m_signals.find(signo); if (pos != m_signals.end()) m_signals.erase(pos); ++m_version; } const char *UnixSignals::GetSignalAsCString(int signo) const { collection::const_iterator pos = m_signals.find(signo); if (pos == m_signals.end()) return nullptr; else return pos->second.m_name.GetCString(); } bool UnixSignals::SignalIsValid(int32_t signo) const { return m_signals.find(signo) != m_signals.end(); } ConstString UnixSignals::GetShortName(ConstString name) const { if (name) return ConstString(name.GetStringRef().substr(3)); // Remove "SIG" from name return name; } int32_t UnixSignals::GetSignalNumberFromName(const char *name) const { ConstString const_name(name); collection::const_iterator pos, end = m_signals.end(); for (pos = m_signals.begin(); pos != end; pos++) { if ((const_name == pos->second.m_name) || (const_name == pos->second.m_alias) || (const_name == GetShortName(pos->second.m_name)) || (const_name == GetShortName(pos->second.m_alias))) return pos->first; } int32_t signo; if (llvm::to_integer(name, signo)) return signo; return LLDB_INVALID_SIGNAL_NUMBER; } int32_t UnixSignals::GetFirstSignalNumber() const { if (m_signals.empty()) return LLDB_INVALID_SIGNAL_NUMBER; return (*m_signals.begin()).first; } int32_t UnixSignals::GetNextSignalNumber(int32_t current_signal) const { collection::const_iterator pos = m_signals.find(current_signal); collection::const_iterator end = m_signals.end(); if (pos == end) return LLDB_INVALID_SIGNAL_NUMBER; else { pos++; if (pos == end) return LLDB_INVALID_SIGNAL_NUMBER; else return pos->first; } } const char *UnixSignals::GetSignalInfo(int32_t signo, bool &should_suppress, bool &should_stop, bool &should_notify) const { collection::const_iterator pos = m_signals.find(signo); if (pos == m_signals.end()) return nullptr; else { const Signal &signal = pos->second; should_suppress = signal.m_suppress; should_stop = signal.m_stop; should_notify = signal.m_notify; return signal.m_name.AsCString(""); } } bool UnixSignals::GetShouldSuppress(int signo) const { collection::const_iterator pos = m_signals.find(signo); if (pos != m_signals.end()) return pos->second.m_suppress; return false; } bool UnixSignals::SetShouldSuppress(int signo, bool value) { collection::iterator pos = m_signals.find(signo); if (pos != m_signals.end()) { pos->second.m_suppress = value; ++m_version; return true; } return false; } bool UnixSignals::SetShouldSuppress(const char *signal_name, bool value) { const int32_t signo = GetSignalNumberFromName(signal_name); if (signo != LLDB_INVALID_SIGNAL_NUMBER) return SetShouldSuppress(signo, value); return false; } bool UnixSignals::GetShouldStop(int signo) const { collection::const_iterator pos = m_signals.find(signo); if (pos != m_signals.end()) return pos->second.m_stop; return false; } bool UnixSignals::SetShouldStop(int signo, bool value) { collection::iterator pos = m_signals.find(signo); if (pos != m_signals.end()) { pos->second.m_stop = value; ++m_version; return true; } return false; } bool UnixSignals::SetShouldStop(const char *signal_name, bool value) { const int32_t signo = GetSignalNumberFromName(signal_name); if (signo != LLDB_INVALID_SIGNAL_NUMBER) return SetShouldStop(signo, value); return false; } bool UnixSignals::GetShouldNotify(int signo) const { collection::const_iterator pos = m_signals.find(signo); if (pos != m_signals.end()) return pos->second.m_notify; return false; } bool UnixSignals::SetShouldNotify(int signo, bool value) { collection::iterator pos = m_signals.find(signo); if (pos != m_signals.end()) { pos->second.m_notify = value; ++m_version; return true; } return false; } bool UnixSignals::SetShouldNotify(const char *signal_name, bool value) { const int32_t signo = GetSignalNumberFromName(signal_name); if (signo != LLDB_INVALID_SIGNAL_NUMBER) return SetShouldNotify(signo, value); return false; } int32_t UnixSignals::GetNumSignals() const { return m_signals.size(); } int32_t UnixSignals::GetSignalAtIndex(int32_t index) const { if (index < 0 || m_signals.size() <= static_cast(index)) return LLDB_INVALID_SIGNAL_NUMBER; auto it = m_signals.begin(); std::advance(it, index); return it->first; } uint64_t UnixSignals::GetVersion() const { return m_version; } std::vector UnixSignals::GetFilteredSignals(llvm::Optional should_suppress, llvm::Optional should_stop, llvm::Optional should_notify) { std::vector result; for (int32_t signo = GetFirstSignalNumber(); signo != LLDB_INVALID_SIGNAL_NUMBER; signo = GetNextSignalNumber(signo)) { bool signal_suppress = false; bool signal_stop = false; bool signal_notify = false; GetSignalInfo(signo, signal_suppress, signal_stop, signal_notify); // If any of filtering conditions are not met, we move on to the next // signal. if (should_suppress.hasValue() && signal_suppress != should_suppress.getValue()) continue; if (should_stop.hasValue() && signal_stop != should_stop.getValue()) continue; if (should_notify.hasValue() && signal_notify != should_notify.getValue()) continue; result.push_back(signo); } return result; } void UnixSignals::IncrementSignalHitCount(int signo) { collection::iterator pos = m_signals.find(signo); if (pos != m_signals.end()) pos->second.m_hit_count += 1; } json::Value UnixSignals::GetHitCountStatistics() const { json::Array json_signals; for (const auto &pair: m_signals) { if (pair.second.m_hit_count > 0) json_signals.emplace_back(json::Object{ { pair.second.m_name.GetCString(), pair.second.m_hit_count } }); } return std::move(json_signals); }