//===-- PlatformLinux.cpp ---------------------------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "PlatformLinux.h" #include "lldb/Host/Config.h" // C Includes #include #ifndef LLDB_DISABLE_POSIX #include #endif // C++ Includes // Other libraries and framework includes // Project includes #include "lldb/Core/Debugger.h" #include "lldb/Core/PluginManager.h" #include "lldb/Core/State.h" #include "lldb/Host/HostInfo.h" #include "lldb/Target/Process.h" #include "lldb/Target/Target.h" #include "lldb/Utility/Error.h" #include "lldb/Utility/FileSpec.h" #include "lldb/Utility/Log.h" #include "lldb/Utility/StreamString.h" // Define these constants from Linux mman.h for use when targeting // remote linux systems even when host has different values. #define MAP_PRIVATE 2 #define MAP_ANON 0x20 using namespace lldb; using namespace lldb_private; using namespace lldb_private::platform_linux; static uint32_t g_initialize_count = 0; //------------------------------------------------------------------ PlatformSP PlatformLinux::CreateInstance(bool force, const ArchSpec *arch) { Log *log(GetLogIfAllCategoriesSet(LIBLLDB_LOG_PLATFORM)); LLDB_LOG(log, "force = {0}, arch=({1}, {2})", force, arch ? arch->GetArchitectureName() : "", arch ? arch->GetTriple().getTriple() : ""); bool create = force; if (create == false && arch && arch->IsValid()) { const llvm::Triple &triple = arch->GetTriple(); switch (triple.getOS()) { case llvm::Triple::Linux: create = true; break; #if defined(__linux__) // Only accept "unknown" for the OS if the host is linux and // it "unknown" wasn't specified (it was just returned because it // was NOT specified) case llvm::Triple::OSType::UnknownOS: create = !arch->TripleOSWasSpecified(); break; #endif default: break; } } LLDB_LOG(log, "create = {0}", create); if (create) { return PlatformSP(new PlatformLinux(false)); } return PlatformSP(); } ConstString PlatformLinux::GetPluginNameStatic(bool is_host) { if (is_host) { static ConstString g_host_name(Platform::GetHostPlatformName()); return g_host_name; } else { static ConstString g_remote_name("remote-linux"); return g_remote_name; } } const char *PlatformLinux::GetPluginDescriptionStatic(bool is_host) { if (is_host) return "Local Linux user platform plug-in."; else return "Remote Linux user platform plug-in."; } ConstString PlatformLinux::GetPluginName() { return GetPluginNameStatic(IsHost()); } void PlatformLinux::Initialize() { PlatformPOSIX::Initialize(); if (g_initialize_count++ == 0) { #if defined(__linux__) && !defined(__ANDROID__) PlatformSP default_platform_sp(new PlatformLinux(true)); default_platform_sp->SetSystemArchitecture(HostInfo::GetArchitecture()); Platform::SetHostPlatform(default_platform_sp); #endif PluginManager::RegisterPlugin( PlatformLinux::GetPluginNameStatic(false), PlatformLinux::GetPluginDescriptionStatic(false), PlatformLinux::CreateInstance, nullptr); } } void PlatformLinux::Terminate() { if (g_initialize_count > 0) { if (--g_initialize_count == 0) { PluginManager::UnregisterPlugin(PlatformLinux::CreateInstance); } } PlatformPOSIX::Terminate(); } //------------------------------------------------------------------ /// Default Constructor //------------------------------------------------------------------ PlatformLinux::PlatformLinux(bool is_host) : PlatformPOSIX(is_host) // This is the local host platform {} PlatformLinux::~PlatformLinux() = default; bool PlatformLinux::GetSupportedArchitectureAtIndex(uint32_t idx, ArchSpec &arch) { if (IsHost()) { ArchSpec hostArch = HostInfo::GetArchitecture(HostInfo::eArchKindDefault); if (hostArch.GetTriple().isOSLinux()) { if (idx == 0) { arch = hostArch; return arch.IsValid(); } else if (idx == 1) { // If the default host architecture is 64-bit, look for a 32-bit variant if (hostArch.IsValid() && hostArch.GetTriple().isArch64Bit()) { arch = HostInfo::GetArchitecture(HostInfo::eArchKind32); return arch.IsValid(); } } } } else { if (m_remote_platform_sp) return m_remote_platform_sp->GetSupportedArchitectureAtIndex(idx, arch); llvm::Triple triple; // Set the OS to linux triple.setOS(llvm::Triple::Linux); // Set the architecture switch (idx) { case 0: triple.setArchName("x86_64"); break; case 1: triple.setArchName("i386"); break; case 2: triple.setArchName("arm"); break; case 3: triple.setArchName("aarch64"); break; case 4: triple.setArchName("mips64"); break; case 5: triple.setArchName("hexagon"); break; case 6: triple.setArchName("mips"); break; case 7: triple.setArchName("mips64el"); break; case 8: triple.setArchName("mipsel"); break; case 9: triple.setArchName("s390x"); break; default: return false; } // Leave the vendor as "llvm::Triple:UnknownVendor" and don't specify the // vendor by // calling triple.SetVendorName("unknown") so that it is a "unspecified // unknown". // This means when someone calls triple.GetVendorName() it will return an // empty string // which indicates that the vendor can be set when two architectures are // merged // Now set the triple into "arch" and return true arch.SetTriple(triple); return true; } return false; } void PlatformLinux::GetStatus(Stream &strm) { Platform::GetStatus(strm); #ifndef LLDB_DISABLE_POSIX // Display local kernel information only when we are running in host mode. // Otherwise, we would end up printing non-Linux information (when running // on Mac OS for example). if (IsHost()) { struct utsname un; if (uname(&un)) return; strm.Printf(" Kernel: %s\n", un.sysname); strm.Printf(" Release: %s\n", un.release); strm.Printf(" Version: %s\n", un.version); } #endif } int32_t PlatformLinux::GetResumeCountForLaunchInfo(ProcessLaunchInfo &launch_info) { int32_t resume_count = 0; // Always resume past the initial stop when we use eLaunchFlagDebug if (launch_info.GetFlags().Test(eLaunchFlagDebug)) { // Resume past the stop for the final exec into the true inferior. ++resume_count; } // If we're not launching a shell, we're done. const FileSpec &shell = launch_info.GetShell(); if (!shell) return resume_count; std::string shell_string = shell.GetPath(); // We're in a shell, so for sure we have to resume past the shell exec. ++resume_count; // Figure out what shell we're planning on using. const char *shell_name = strrchr(shell_string.c_str(), '/'); if (shell_name == NULL) shell_name = shell_string.c_str(); else shell_name++; if (strcmp(shell_name, "csh") == 0 || strcmp(shell_name, "tcsh") == 0 || strcmp(shell_name, "zsh") == 0 || strcmp(shell_name, "sh") == 0) { // These shells seem to re-exec themselves. Add another resume. ++resume_count; } return resume_count; } bool PlatformLinux::CanDebugProcess() { if (IsHost()) { return true; } else { // If we're connected, we can debug. return IsConnected(); } } // For local debugging, Linux will override the debug logic to use llgs-launch // rather than lldb-launch, llgs-attach. This differs from current lldb-launch, // debugserver-attach approach on MacOSX. lldb::ProcessSP PlatformLinux::DebugProcess(ProcessLaunchInfo &launch_info, Debugger &debugger, Target *target, // Can be NULL, if NULL create a new // target, else use existing one Error &error) { Log *log(GetLogIfAllCategoriesSet(LIBLLDB_LOG_PLATFORM)); LLDB_LOG(log, "target {0}", target); // If we're a remote host, use standard behavior from parent class. if (!IsHost()) return PlatformPOSIX::DebugProcess(launch_info, debugger, target, error); // // For local debugging, we'll insist on having ProcessGDBRemote create the // process. // ProcessSP process_sp; // Make sure we stop at the entry point launch_info.GetFlags().Set(eLaunchFlagDebug); // We always launch the process we are going to debug in a separate process // group, since then we can handle ^C interrupts ourselves w/o having to worry // about the target getting them as well. launch_info.SetLaunchInSeparateProcessGroup(true); // Ensure we have a target. if (target == nullptr) { LLDB_LOG(log, "creating new target"); TargetSP new_target_sp; error = debugger.GetTargetList().CreateTarget(debugger, "", "", false, nullptr, new_target_sp); if (error.Fail()) { LLDB_LOG(log, "failed to create new target: {0}", error); return process_sp; } target = new_target_sp.get(); if (!target) { error.SetErrorString("CreateTarget() returned nullptr"); LLDB_LOG(log, "error: {0}", error); return process_sp; } } // Mark target as currently selected target. debugger.GetTargetList().SetSelectedTarget(target); // Now create the gdb-remote process. LLDB_LOG(log, "having target create process with gdb-remote plugin"); process_sp = target->CreateProcess( launch_info.GetListenerForProcess(debugger), "gdb-remote", nullptr); if (!process_sp) { error.SetErrorString("CreateProcess() failed for gdb-remote process"); LLDB_LOG(log, "error: {0}", error); return process_sp; } LLDB_LOG(log, "successfully created process"); // Adjust launch for a hijacker. ListenerSP listener_sp; if (!launch_info.GetHijackListener()) { LLDB_LOG(log, "setting up hijacker"); listener_sp = Listener::MakeListener("lldb.PlatformLinux.DebugProcess.hijack"); launch_info.SetHijackListener(listener_sp); process_sp->HijackProcessEvents(listener_sp); } // Log file actions. if (log) { LLDB_LOG(log, "launching process with the following file actions:"); StreamString stream; size_t i = 0; const FileAction *file_action; while ((file_action = launch_info.GetFileActionAtIndex(i++)) != nullptr) { file_action->Dump(stream); LLDB_LOG(log, "{0}", stream.GetData()); stream.Clear(); } } // Do the launch. error = process_sp->Launch(launch_info); if (error.Success()) { // Handle the hijacking of process events. if (listener_sp) { const StateType state = process_sp->WaitForProcessToStop( llvm::None, NULL, false, listener_sp); LLDB_LOG(log, "pid {0} state {0}", process_sp->GetID(), state); } // Hook up process PTY if we have one (which we should for local debugging // with llgs). int pty_fd = launch_info.GetPTY().ReleaseMasterFileDescriptor(); if (pty_fd != lldb_utility::PseudoTerminal::invalid_fd) { process_sp->SetSTDIOFileDescriptor(pty_fd); LLDB_LOG(log, "hooked up STDIO pty to process"); } else LLDB_LOG(log, "not using process STDIO pty"); } else { LLDB_LOG(log, "process launch failed: {0}", error); // FIXME figure out appropriate cleanup here. Do we delete the target? Do // we delete the process? Does our caller do that? } return process_sp; } void PlatformLinux::CalculateTrapHandlerSymbolNames() { m_trap_handlers.push_back(ConstString("_sigtramp")); } uint64_t PlatformLinux::ConvertMmapFlagsToPlatform(const ArchSpec &arch, unsigned flags) { uint64_t flags_platform = 0; uint64_t map_anon = MAP_ANON; // To get correct flags for MIPS Architecture if (arch.GetTriple().getArch() == llvm::Triple::mips64 || arch.GetTriple().getArch() == llvm::Triple::mips64el || arch.GetTriple().getArch() == llvm::Triple::mips || arch.GetTriple().getArch() == llvm::Triple::mipsel) map_anon = 0x800; if (flags & eMmapFlagsPrivate) flags_platform |= MAP_PRIVATE; if (flags & eMmapFlagsAnon) flags_platform |= map_anon; return flags_platform; }