//===-- CommandInterpreter.cpp ----------------------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "lldb/lldb-python.h" #include #include #include #include "CommandObjectScript.h" #include "lldb/Interpreter/CommandObjectRegexCommand.h" #include "../Commands/CommandObjectApropos.h" #include "../Commands/CommandObjectArgs.h" #include "../Commands/CommandObjectBreakpoint.h" #include "../Commands/CommandObjectDisassemble.h" #include "../Commands/CommandObjectExpression.h" #include "../Commands/CommandObjectFrame.h" #include "../Commands/CommandObjectGUI.h" #include "../Commands/CommandObjectHelp.h" #include "../Commands/CommandObjectLog.h" #include "../Commands/CommandObjectMemory.h" #include "../Commands/CommandObjectPlatform.h" #include "../Commands/CommandObjectPlugin.h" #include "../Commands/CommandObjectProcess.h" #include "../Commands/CommandObjectQuit.h" #include "../Commands/CommandObjectRegister.h" #include "../Commands/CommandObjectSettings.h" #include "../Commands/CommandObjectSource.h" #include "../Commands/CommandObjectCommands.h" #include "../Commands/CommandObjectSyntax.h" #include "../Commands/CommandObjectTarget.h" #include "../Commands/CommandObjectThread.h" #include "../Commands/CommandObjectType.h" #include "../Commands/CommandObjectVersion.h" #include "../Commands/CommandObjectWatchpoint.h" #include "lldb/Core/Debugger.h" #include "lldb/Core/Log.h" #include "lldb/Core/Stream.h" #include "lldb/Core/StreamFile.h" #include "lldb/Core/Timer.h" #include "lldb/Host/Editline.h" #include "lldb/Host/Host.h" #include "lldb/Interpreter/Args.h" #include "lldb/Interpreter/CommandCompletions.h" #include "lldb/Interpreter/CommandInterpreter.h" #include "lldb/Interpreter/CommandReturnObject.h" #include "lldb/Interpreter/Options.h" #include "lldb/Interpreter/ScriptInterpreterNone.h" #include "lldb/Interpreter/ScriptInterpreterPython.h" #include "lldb/Target/Process.h" #include "lldb/Target/Thread.h" #include "lldb/Target/TargetList.h" #include "lldb/Utility/CleanUp.h" using namespace lldb; using namespace lldb_private; static PropertyDefinition g_properties[] = { { "expand-regex-aliases", OptionValue::eTypeBoolean, true, false, NULL, NULL, "If true, regular expression alias commands will show the expanded command that will be executed. This can be used to debug new regular expression alias commands." }, { "prompt-on-quit", OptionValue::eTypeBoolean, true, true, NULL, NULL, "If true, LLDB will prompt you before quitting if there are any live processes being debugged. If false, LLDB will quit without asking in any case." }, { "stop-command-source-on-error", OptionValue::eTypeBoolean, true, true, NULL, NULL, "If true, LLDB will stop running a 'command source' script upon encountering an error." }, { NULL , OptionValue::eTypeInvalid, true, 0 , NULL, NULL, NULL } }; enum { ePropertyExpandRegexAliases = 0, ePropertyPromptOnQuit = 1, ePropertyStopCmdSourceOnError = 2 }; ConstString & CommandInterpreter::GetStaticBroadcasterClass () { static ConstString class_name ("lldb.commandInterpreter"); return class_name; } CommandInterpreter::CommandInterpreter ( Debugger &debugger, ScriptLanguage script_language, bool synchronous_execution ) : Broadcaster (&debugger, "lldb.command-interpreter"), Properties(OptionValuePropertiesSP(new OptionValueProperties(ConstString("interpreter")))), IOHandlerDelegate (IOHandlerDelegate::Completion::LLDBCommand), m_debugger (debugger), m_synchronous_execution (synchronous_execution), m_skip_lldbinit_files (false), m_skip_app_init_files (false), m_script_interpreter_ap (), m_command_io_handler_sp (), m_comment_char ('#'), m_batch_command_mode (false), m_truncation_warning(eNoTruncation), m_command_source_depth (0) { debugger.SetScriptLanguage (script_language); SetEventName (eBroadcastBitThreadShouldExit, "thread-should-exit"); SetEventName (eBroadcastBitResetPrompt, "reset-prompt"); SetEventName (eBroadcastBitQuitCommandReceived, "quit"); CheckInWithManager (); m_collection_sp->Initialize (g_properties); } bool CommandInterpreter::GetExpandRegexAliases () const { const uint32_t idx = ePropertyExpandRegexAliases; return m_collection_sp->GetPropertyAtIndexAsBoolean (NULL, idx, g_properties[idx].default_uint_value != 0); } bool CommandInterpreter::GetPromptOnQuit () const { const uint32_t idx = ePropertyPromptOnQuit; return m_collection_sp->GetPropertyAtIndexAsBoolean (NULL, idx, g_properties[idx].default_uint_value != 0); } bool CommandInterpreter::GetStopCmdSourceOnError () const { const uint32_t idx = ePropertyStopCmdSourceOnError; return m_collection_sp->GetPropertyAtIndexAsBoolean (NULL, idx, g_properties[idx].default_uint_value != 0); } void CommandInterpreter::Initialize () { Timer scoped_timer (__PRETTY_FUNCTION__, __PRETTY_FUNCTION__); CommandReturnObject result; LoadCommandDictionary (); // Set up some initial aliases. CommandObjectSP cmd_obj_sp = GetCommandSPExact ("quit", false); if (cmd_obj_sp) { AddAlias ("q", cmd_obj_sp); AddAlias ("exit", cmd_obj_sp); } cmd_obj_sp = GetCommandSPExact ("_regexp-attach",false); if (cmd_obj_sp) { AddAlias ("attach", cmd_obj_sp); } cmd_obj_sp = GetCommandSPExact ("process detach",false); if (cmd_obj_sp) { AddAlias ("detach", cmd_obj_sp); } cmd_obj_sp = GetCommandSPExact ("process continue", false); if (cmd_obj_sp) { AddAlias ("c", cmd_obj_sp); AddAlias ("continue", cmd_obj_sp); } cmd_obj_sp = GetCommandSPExact ("_regexp-break",false); if (cmd_obj_sp) AddAlias ("b", cmd_obj_sp); cmd_obj_sp = GetCommandSPExact ("_regexp-tbreak",false); if (cmd_obj_sp) AddAlias ("tbreak", cmd_obj_sp); cmd_obj_sp = GetCommandSPExact ("thread step-inst", false); if (cmd_obj_sp) { AddAlias ("stepi", cmd_obj_sp); AddAlias ("si", cmd_obj_sp); } cmd_obj_sp = GetCommandSPExact ("thread step-inst-over", false); if (cmd_obj_sp) { AddAlias ("nexti", cmd_obj_sp); AddAlias ("ni", cmd_obj_sp); } cmd_obj_sp = GetCommandSPExact ("thread step-in", false); if (cmd_obj_sp) { AddAlias ("s", cmd_obj_sp); AddAlias ("step", cmd_obj_sp); } cmd_obj_sp = GetCommandSPExact ("thread step-over", false); if (cmd_obj_sp) { AddAlias ("n", cmd_obj_sp); AddAlias ("next", cmd_obj_sp); } cmd_obj_sp = GetCommandSPExact ("thread step-out", false); if (cmd_obj_sp) { AddAlias ("finish", cmd_obj_sp); } cmd_obj_sp = GetCommandSPExact ("frame select", false); if (cmd_obj_sp) { AddAlias ("f", cmd_obj_sp); } cmd_obj_sp = GetCommandSPExact ("thread select", false); if (cmd_obj_sp) { AddAlias ("t", cmd_obj_sp); } cmd_obj_sp = GetCommandSPExact ("_regexp-jump",false); if (cmd_obj_sp) { AddAlias ("j", cmd_obj_sp); AddAlias ("jump", cmd_obj_sp); } cmd_obj_sp = GetCommandSPExact ("_regexp-list", false); if (cmd_obj_sp) { AddAlias ("l", cmd_obj_sp); AddAlias ("list", cmd_obj_sp); } cmd_obj_sp = GetCommandSPExact ("_regexp-env", false); if (cmd_obj_sp) { AddAlias ("env", cmd_obj_sp); } cmd_obj_sp = GetCommandSPExact ("memory read", false); if (cmd_obj_sp) AddAlias ("x", cmd_obj_sp); cmd_obj_sp = GetCommandSPExact ("_regexp-up", false); if (cmd_obj_sp) AddAlias ("up", cmd_obj_sp); cmd_obj_sp = GetCommandSPExact ("_regexp-down", false); if (cmd_obj_sp) AddAlias ("down", cmd_obj_sp); cmd_obj_sp = GetCommandSPExact ("_regexp-display", false); if (cmd_obj_sp) AddAlias ("display", cmd_obj_sp); cmd_obj_sp = GetCommandSPExact ("disassemble", false); if (cmd_obj_sp) AddAlias ("dis", cmd_obj_sp); cmd_obj_sp = GetCommandSPExact ("disassemble", false); if (cmd_obj_sp) AddAlias ("di", cmd_obj_sp); cmd_obj_sp = GetCommandSPExact ("_regexp-undisplay", false); if (cmd_obj_sp) AddAlias ("undisplay", cmd_obj_sp); cmd_obj_sp = GetCommandSPExact ("_regexp-bt", false); if (cmd_obj_sp) AddAlias ("bt", cmd_obj_sp); cmd_obj_sp = GetCommandSPExact ("target create", false); if (cmd_obj_sp) AddAlias ("file", cmd_obj_sp); cmd_obj_sp = GetCommandSPExact ("target modules", false); if (cmd_obj_sp) AddAlias ("image", cmd_obj_sp); OptionArgVectorSP alias_arguments_vector_sp (new OptionArgVector); cmd_obj_sp = GetCommandSPExact ("expression", false); if (cmd_obj_sp) { ProcessAliasOptionsArgs (cmd_obj_sp, "--", alias_arguments_vector_sp); AddAlias ("p", cmd_obj_sp); AddAlias ("print", cmd_obj_sp); AddAlias ("call", cmd_obj_sp); AddOrReplaceAliasOptions ("p", alias_arguments_vector_sp); AddOrReplaceAliasOptions ("print", alias_arguments_vector_sp); AddOrReplaceAliasOptions ("call", alias_arguments_vector_sp); alias_arguments_vector_sp.reset (new OptionArgVector); ProcessAliasOptionsArgs (cmd_obj_sp, "-O -- ", alias_arguments_vector_sp); AddAlias ("po", cmd_obj_sp); AddOrReplaceAliasOptions ("po", alias_arguments_vector_sp); } cmd_obj_sp = GetCommandSPExact ("process kill", false); if (cmd_obj_sp) { AddAlias ("kill", cmd_obj_sp); } cmd_obj_sp = GetCommandSPExact ("process launch", false); if (cmd_obj_sp) { alias_arguments_vector_sp.reset (new OptionArgVector); #if defined (__arm__) ProcessAliasOptionsArgs (cmd_obj_sp, "--", alias_arguments_vector_sp); #else ProcessAliasOptionsArgs (cmd_obj_sp, "--shell=" LLDB_DEFAULT_SHELL " --", alias_arguments_vector_sp); #endif AddAlias ("r", cmd_obj_sp); AddAlias ("run", cmd_obj_sp); AddOrReplaceAliasOptions ("r", alias_arguments_vector_sp); AddOrReplaceAliasOptions ("run", alias_arguments_vector_sp); } cmd_obj_sp = GetCommandSPExact ("target symbols add", false); if (cmd_obj_sp) { AddAlias ("add-dsym", cmd_obj_sp); } cmd_obj_sp = GetCommandSPExact ("breakpoint set", false); if (cmd_obj_sp) { alias_arguments_vector_sp.reset (new OptionArgVector); ProcessAliasOptionsArgs (cmd_obj_sp, "--func-regex %1", alias_arguments_vector_sp); AddAlias ("rbreak", cmd_obj_sp); AddOrReplaceAliasOptions("rbreak", alias_arguments_vector_sp); } } const char * CommandInterpreter::ProcessEmbeddedScriptCommands (const char *arg) { // This function has not yet been implemented. // Look for any embedded script command // If found, // get interpreter object from the command dictionary, // call execute_one_command on it, // get the results as a string, // substitute that string for current stuff. return arg; } void CommandInterpreter::LoadCommandDictionary () { Timer scoped_timer (__PRETTY_FUNCTION__, __PRETTY_FUNCTION__); lldb::ScriptLanguage script_language = m_debugger.GetScriptLanguage(); m_command_dict["apropos"] = CommandObjectSP (new CommandObjectApropos (*this)); m_command_dict["breakpoint"]= CommandObjectSP (new CommandObjectMultiwordBreakpoint (*this)); m_command_dict["command"] = CommandObjectSP (new CommandObjectMultiwordCommands (*this)); m_command_dict["disassemble"] = CommandObjectSP (new CommandObjectDisassemble (*this)); m_command_dict["expression"]= CommandObjectSP (new CommandObjectExpression (*this)); m_command_dict["frame"] = CommandObjectSP (new CommandObjectMultiwordFrame (*this)); m_command_dict["gui"] = CommandObjectSP (new CommandObjectGUI (*this)); m_command_dict["help"] = CommandObjectSP (new CommandObjectHelp (*this)); m_command_dict["log"] = CommandObjectSP (new CommandObjectLog (*this)); m_command_dict["memory"] = CommandObjectSP (new CommandObjectMemory (*this)); m_command_dict["platform"] = CommandObjectSP (new CommandObjectPlatform (*this)); m_command_dict["plugin"] = CommandObjectSP (new CommandObjectPlugin (*this)); m_command_dict["process"] = CommandObjectSP (new CommandObjectMultiwordProcess (*this)); m_command_dict["quit"] = CommandObjectSP (new CommandObjectQuit (*this)); m_command_dict["register"] = CommandObjectSP (new CommandObjectRegister (*this)); m_command_dict["script"] = CommandObjectSP (new CommandObjectScript (*this, script_language)); m_command_dict["settings"] = CommandObjectSP (new CommandObjectMultiwordSettings (*this)); m_command_dict["source"] = CommandObjectSP (new CommandObjectMultiwordSource (*this)); m_command_dict["target"] = CommandObjectSP (new CommandObjectMultiwordTarget (*this)); m_command_dict["thread"] = CommandObjectSP (new CommandObjectMultiwordThread (*this)); m_command_dict["type"] = CommandObjectSP (new CommandObjectType (*this)); m_command_dict["version"] = CommandObjectSP (new CommandObjectVersion (*this)); m_command_dict["watchpoint"]= CommandObjectSP (new CommandObjectMultiwordWatchpoint (*this)); const char *break_regexes[][2] = {{"^(.*[^[:space:]])[[:space:]]*:[[:space:]]*([[:digit:]]+)[[:space:]]*$", "breakpoint set --file '%1' --line %2"}, {"^([[:digit:]]+)[[:space:]]*$", "breakpoint set --line %1"}, {"^\\*?(0x[[:xdigit:]]+)[[:space:]]*$", "breakpoint set --address %1"}, {"^[\"']?([-+]?\\[.*\\])[\"']?[[:space:]]*$", "breakpoint set --name '%1'"}, {"^(-.*)$", "breakpoint set %1"}, {"^(.*[^[:space:]])`(.*[^[:space:]])[[:space:]]*$", "breakpoint set --name '%2' --shlib '%1'"}, {"^\\&(.*[^[:space:]])[[:space:]]*$", "breakpoint set --name '%1' --skip-prologue=0"}, {"^(.*[^[:space:]])[[:space:]]*$", "breakpoint set --name '%1'"}}; size_t num_regexes = sizeof break_regexes/sizeof(char *[2]); std::unique_ptr break_regex_cmd_ap(new CommandObjectRegexCommand (*this, "_regexp-break", "Set a breakpoint using a regular expression to specify the location, where is in decimal and

is in hex.", "_regexp-break [:]\n_regexp-break []\n_regexp-break [

]\n_regexp-break <...>", 2, CommandCompletions::eSymbolCompletion | CommandCompletions::eSourceFileCompletion)); if (break_regex_cmd_ap.get()) { bool success = true; for (size_t i = 0; i < num_regexes; i++) { success = break_regex_cmd_ap->AddRegexCommand (break_regexes[i][0], break_regexes[i][1]); if (!success) break; } success = break_regex_cmd_ap->AddRegexCommand("^$", "breakpoint list --full"); if (success) { CommandObjectSP break_regex_cmd_sp(break_regex_cmd_ap.release()); m_command_dict[break_regex_cmd_sp->GetCommandName ()] = break_regex_cmd_sp; } } std::unique_ptr tbreak_regex_cmd_ap(new CommandObjectRegexCommand (*this, "_regexp-tbreak", "Set a one shot breakpoint using a regular expression to specify the location, where is in decimal and

is in hex.", "_regexp-tbreak [:]\n_regexp-break []\n_regexp-break [

]\n_regexp-break <...>", 2, CommandCompletions::eSymbolCompletion | CommandCompletions::eSourceFileCompletion)); if (tbreak_regex_cmd_ap.get()) { bool success = true; for (size_t i = 0; i < num_regexes; i++) { // If you add a resultant command string longer than 1024 characters be sure to increase the size of this buffer. char buffer[1024]; int num_printed = snprintf(buffer, 1024, "%s %s", break_regexes[i][1], "-o"); assert (num_printed < 1024); success = tbreak_regex_cmd_ap->AddRegexCommand (break_regexes[i][0], buffer); if (!success) break; } success = tbreak_regex_cmd_ap->AddRegexCommand("^$", "breakpoint list --full"); if (success) { CommandObjectSP tbreak_regex_cmd_sp(tbreak_regex_cmd_ap.release()); m_command_dict[tbreak_regex_cmd_sp->GetCommandName ()] = tbreak_regex_cmd_sp; } } std::unique_ptr attach_regex_cmd_ap(new CommandObjectRegexCommand (*this, "_regexp-attach", "Attach to a process id if in decimal, otherwise treat the argument as a process name to attach to.", "_regexp-attach []\n_regexp-attach []", 2)); if (attach_regex_cmd_ap.get()) { if (attach_regex_cmd_ap->AddRegexCommand("^([0-9]+)[[:space:]]*$", "process attach --pid %1") && attach_regex_cmd_ap->AddRegexCommand("^(-.*|.* -.*)$", "process attach %1") && // Any options that are specified get passed to 'process attach' attach_regex_cmd_ap->AddRegexCommand("^(.+)$", "process attach --name '%1'") && attach_regex_cmd_ap->AddRegexCommand("^$", "process attach")) { CommandObjectSP attach_regex_cmd_sp(attach_regex_cmd_ap.release()); m_command_dict[attach_regex_cmd_sp->GetCommandName ()] = attach_regex_cmd_sp; } } std::unique_ptr down_regex_cmd_ap(new CommandObjectRegexCommand (*this, "_regexp-down", "Go down \"n\" frames in the stack (1 frame by default).", "_regexp-down [n]", 2)); if (down_regex_cmd_ap.get()) { if (down_regex_cmd_ap->AddRegexCommand("^$", "frame select -r -1") && down_regex_cmd_ap->AddRegexCommand("^([0-9]+)$", "frame select -r -%1")) { CommandObjectSP down_regex_cmd_sp(down_regex_cmd_ap.release()); m_command_dict[down_regex_cmd_sp->GetCommandName ()] = down_regex_cmd_sp; } } std::unique_ptr up_regex_cmd_ap(new CommandObjectRegexCommand (*this, "_regexp-up", "Go up \"n\" frames in the stack (1 frame by default).", "_regexp-up [n]", 2)); if (up_regex_cmd_ap.get()) { if (up_regex_cmd_ap->AddRegexCommand("^$", "frame select -r 1") && up_regex_cmd_ap->AddRegexCommand("^([0-9]+)$", "frame select -r %1")) { CommandObjectSP up_regex_cmd_sp(up_regex_cmd_ap.release()); m_command_dict[up_regex_cmd_sp->GetCommandName ()] = up_regex_cmd_sp; } } std::unique_ptr display_regex_cmd_ap(new CommandObjectRegexCommand (*this, "_regexp-display", "Add an expression evaluation stop-hook.", "_regexp-display expression", 2)); if (display_regex_cmd_ap.get()) { if (display_regex_cmd_ap->AddRegexCommand("^(.+)$", "target stop-hook add -o \"expr -- %1\"")) { CommandObjectSP display_regex_cmd_sp(display_regex_cmd_ap.release()); m_command_dict[display_regex_cmd_sp->GetCommandName ()] = display_regex_cmd_sp; } } std::unique_ptr undisplay_regex_cmd_ap(new CommandObjectRegexCommand (*this, "_regexp-undisplay", "Remove an expression evaluation stop-hook.", "_regexp-undisplay stop-hook-number", 2)); if (undisplay_regex_cmd_ap.get()) { if (undisplay_regex_cmd_ap->AddRegexCommand("^([0-9]+)$", "target stop-hook delete %1")) { CommandObjectSP undisplay_regex_cmd_sp(undisplay_regex_cmd_ap.release()); m_command_dict[undisplay_regex_cmd_sp->GetCommandName ()] = undisplay_regex_cmd_sp; } } std::unique_ptr connect_gdb_remote_cmd_ap(new CommandObjectRegexCommand (*this, "gdb-remote", "Connect to a remote GDB server. If no hostname is provided, localhost is assumed.", "gdb-remote [:]", 2)); if (connect_gdb_remote_cmd_ap.get()) { if (connect_gdb_remote_cmd_ap->AddRegexCommand("^([^:]+:[[:digit:]]+)$", "process connect --plugin gdb-remote connect://%1") && connect_gdb_remote_cmd_ap->AddRegexCommand("^([[:digit:]]+)$", "process connect --plugin gdb-remote connect://localhost:%1")) { CommandObjectSP command_sp(connect_gdb_remote_cmd_ap.release()); m_command_dict[command_sp->GetCommandName ()] = command_sp; } } std::unique_ptr connect_kdp_remote_cmd_ap(new CommandObjectRegexCommand (*this, "kdp-remote", "Connect to a remote KDP server. udp port 41139 is the default port number.", "kdp-remote [:]", 2)); if (connect_kdp_remote_cmd_ap.get()) { if (connect_kdp_remote_cmd_ap->AddRegexCommand("^([^:]+:[[:digit:]]+)$", "process connect --plugin kdp-remote udp://%1") && connect_kdp_remote_cmd_ap->AddRegexCommand("^(.+)$", "process connect --plugin kdp-remote udp://%1:41139")) { CommandObjectSP command_sp(connect_kdp_remote_cmd_ap.release()); m_command_dict[command_sp->GetCommandName ()] = command_sp; } } std::unique_ptr bt_regex_cmd_ap(new CommandObjectRegexCommand (*this, "_regexp-bt", "Show a backtrace. An optional argument is accepted; if that argument is a number, it specifies the number of frames to display. If that argument is 'all', full backtraces of all threads are displayed.", "bt [|all]", 2)); if (bt_regex_cmd_ap.get()) { // accept but don't document "bt -c " -- before bt was a regex command if you wanted to backtrace // three frames you would do "bt -c 3" but the intention is to have this emulate the gdb "bt" command and // so now "bt 3" is the preferred form, in line with gdb. if (bt_regex_cmd_ap->AddRegexCommand("^([[:digit:]]+)$", "thread backtrace -c %1") && bt_regex_cmd_ap->AddRegexCommand("^-c ([[:digit:]]+)$", "thread backtrace -c %1") && bt_regex_cmd_ap->AddRegexCommand("^all$", "thread backtrace all") && bt_regex_cmd_ap->AddRegexCommand("^$", "thread backtrace")) { CommandObjectSP command_sp(bt_regex_cmd_ap.release()); m_command_dict[command_sp->GetCommandName ()] = command_sp; } } std::unique_ptr list_regex_cmd_ap(new CommandObjectRegexCommand (*this, "_regexp-list", "Implements the GDB 'list' command in all of its forms except FILE:FUNCTION and maps them to the appropriate 'source list' commands.", "_regexp-list []\n_regexp-list [:]\n_regexp-list [:]", 2, CommandCompletions::eSourceFileCompletion)); if (list_regex_cmd_ap.get()) { if (list_regex_cmd_ap->AddRegexCommand("^([0-9]+)[[:space:]]*$", "source list --line %1") && list_regex_cmd_ap->AddRegexCommand("^(.*[^[:space:]])[[:space:]]*:[[:space:]]*([[:digit:]]+)[[:space:]]*$", "source list --file '%1' --line %2") && list_regex_cmd_ap->AddRegexCommand("^\\*?(0x[[:xdigit:]]+)[[:space:]]*$", "source list --address %1") && list_regex_cmd_ap->AddRegexCommand("^-[[:space:]]*$", "source list --reverse") && list_regex_cmd_ap->AddRegexCommand("^-([[:digit:]]+)[[:space:]]*$", "source list --reverse --count %1") && list_regex_cmd_ap->AddRegexCommand("^(.+)$", "source list --name \"%1\"") && list_regex_cmd_ap->AddRegexCommand("^$", "source list")) { CommandObjectSP list_regex_cmd_sp(list_regex_cmd_ap.release()); m_command_dict[list_regex_cmd_sp->GetCommandName ()] = list_regex_cmd_sp; } } std::unique_ptr env_regex_cmd_ap(new CommandObjectRegexCommand (*this, "_regexp-env", "Implements a shortcut to viewing and setting environment variables.", "_regexp-env\n_regexp-env FOO=BAR", 2)); if (env_regex_cmd_ap.get()) { if (env_regex_cmd_ap->AddRegexCommand("^$", "settings show target.env-vars") && env_regex_cmd_ap->AddRegexCommand("^([A-Za-z_][A-Za-z_0-9]*=.*)$", "settings set target.env-vars %1")) { CommandObjectSP env_regex_cmd_sp(env_regex_cmd_ap.release()); m_command_dict[env_regex_cmd_sp->GetCommandName ()] = env_regex_cmd_sp; } } std::unique_ptr jump_regex_cmd_ap(new CommandObjectRegexCommand (*this, "_regexp-jump", "Sets the program counter to a new address.", "_regexp-jump []\n" "_regexp-jump [<+-lineoffset>]\n" "_regexp-jump [:]\n" "_regexp-jump [*]\n", 2)); if (jump_regex_cmd_ap.get()) { if (jump_regex_cmd_ap->AddRegexCommand("^\\*(.*)$", "thread jump --addr %1") && jump_regex_cmd_ap->AddRegexCommand("^([0-9]+)$", "thread jump --line %1") && jump_regex_cmd_ap->AddRegexCommand("^([^:]+):([0-9]+)$", "thread jump --file %1 --line %2") && jump_regex_cmd_ap->AddRegexCommand("^([+\\-][0-9]+)$", "thread jump --by %1")) { CommandObjectSP jump_regex_cmd_sp(jump_regex_cmd_ap.release()); m_command_dict[jump_regex_cmd_sp->GetCommandName ()] = jump_regex_cmd_sp; } } } int CommandInterpreter::GetCommandNamesMatchingPartialString (const char *cmd_str, bool include_aliases, StringList &matches) { CommandObject::AddNamesMatchingPartialString (m_command_dict, cmd_str, matches); if (include_aliases) { CommandObject::AddNamesMatchingPartialString (m_alias_dict, cmd_str, matches); } return matches.GetSize(); } CommandObjectSP CommandInterpreter::GetCommandSP (const char *cmd_cstr, bool include_aliases, bool exact, StringList *matches) { CommandObject::CommandMap::iterator pos; CommandObjectSP command_sp; std::string cmd(cmd_cstr); if (HasCommands()) { pos = m_command_dict.find(cmd); if (pos != m_command_dict.end()) command_sp = pos->second; } if (include_aliases && HasAliases()) { pos = m_alias_dict.find(cmd); if (pos != m_alias_dict.end()) command_sp = pos->second; } if (HasUserCommands()) { pos = m_user_dict.find(cmd); if (pos != m_user_dict.end()) command_sp = pos->second; } if (!exact && !command_sp) { // We will only get into here if we didn't find any exact matches. CommandObjectSP user_match_sp, alias_match_sp, real_match_sp; StringList local_matches; if (matches == NULL) matches = &local_matches; unsigned int num_cmd_matches = 0; unsigned int num_alias_matches = 0; unsigned int num_user_matches = 0; // Look through the command dictionaries one by one, and if we get only one match from any of // them in toto, then return that, otherwise return an empty CommandObjectSP and the list of matches. if (HasCommands()) { num_cmd_matches = CommandObject::AddNamesMatchingPartialString (m_command_dict, cmd_cstr, *matches); } if (num_cmd_matches == 1) { cmd.assign(matches->GetStringAtIndex(0)); pos = m_command_dict.find(cmd); if (pos != m_command_dict.end()) real_match_sp = pos->second; } if (include_aliases && HasAliases()) { num_alias_matches = CommandObject::AddNamesMatchingPartialString (m_alias_dict, cmd_cstr, *matches); } if (num_alias_matches == 1) { cmd.assign(matches->GetStringAtIndex (num_cmd_matches)); pos = m_alias_dict.find(cmd); if (pos != m_alias_dict.end()) alias_match_sp = pos->second; } if (HasUserCommands()) { num_user_matches = CommandObject::AddNamesMatchingPartialString (m_user_dict, cmd_cstr, *matches); } if (num_user_matches == 1) { cmd.assign (matches->GetStringAtIndex (num_cmd_matches + num_alias_matches)); pos = m_user_dict.find (cmd); if (pos != m_user_dict.end()) user_match_sp = pos->second; } // If we got exactly one match, return that, otherwise return the match list. if (num_user_matches + num_cmd_matches + num_alias_matches == 1) { if (num_cmd_matches) return real_match_sp; else if (num_alias_matches) return alias_match_sp; else return user_match_sp; } } else if (matches && command_sp) { matches->AppendString (cmd_cstr); } return command_sp; } bool CommandInterpreter::AddCommand (const char *name, const lldb::CommandObjectSP &cmd_sp, bool can_replace) { if (name && name[0]) { std::string name_sstr(name); bool found = (m_command_dict.find (name_sstr) != m_command_dict.end()); if (found && !can_replace) return false; if (found && m_command_dict[name_sstr]->IsRemovable() == false) return false; m_command_dict[name_sstr] = cmd_sp; return true; } return false; } bool CommandInterpreter::AddUserCommand (std::string name, const lldb::CommandObjectSP &cmd_sp, bool can_replace) { if (!name.empty()) { const char* name_cstr = name.c_str(); // do not allow replacement of internal commands if (CommandExists(name_cstr)) { if (can_replace == false) return false; if (m_command_dict[name]->IsRemovable() == false) return false; } if (UserCommandExists(name_cstr)) { if (can_replace == false) return false; if (m_user_dict[name]->IsRemovable() == false) return false; } m_user_dict[name] = cmd_sp; return true; } return false; } CommandObjectSP CommandInterpreter::GetCommandSPExact (const char *cmd_cstr, bool include_aliases) { Args cmd_words (cmd_cstr); // Break up the command string into words, in case it's a multi-word command. CommandObjectSP ret_val; // Possibly empty return value. if (cmd_cstr == NULL) return ret_val; if (cmd_words.GetArgumentCount() == 1) return GetCommandSP(cmd_cstr, include_aliases, true, NULL); else { // We have a multi-word command (seemingly), so we need to do more work. // First, get the cmd_obj_sp for the first word in the command. CommandObjectSP cmd_obj_sp = GetCommandSP (cmd_words.GetArgumentAtIndex (0), include_aliases, true, NULL); if (cmd_obj_sp.get() != NULL) { // Loop through the rest of the words in the command (everything passed in was supposed to be part of a // command name), and find the appropriate sub-command SP for each command word.... size_t end = cmd_words.GetArgumentCount(); for (size_t j= 1; j < end; ++j) { if (cmd_obj_sp->IsMultiwordObject()) { cmd_obj_sp = cmd_obj_sp->GetSubcommandSP (cmd_words.GetArgumentAtIndex (j)); if (cmd_obj_sp.get() == NULL) // The sub-command name was invalid. Fail and return the empty 'ret_val'. return ret_val; } else // We have more words in the command name, but we don't have a multiword object. Fail and return // empty 'ret_val'. return ret_val; } // We successfully looped through all the command words and got valid command objects for them. Assign the // last object retrieved to 'ret_val'. ret_val = cmd_obj_sp; } } return ret_val; } CommandObject * CommandInterpreter::GetCommandObjectExact (const char *cmd_cstr, bool include_aliases) { return GetCommandSPExact (cmd_cstr, include_aliases).get(); } CommandObject * CommandInterpreter::GetCommandObject (const char *cmd_cstr, StringList *matches) { CommandObject *command_obj = GetCommandSP (cmd_cstr, false, true, matches).get(); // If we didn't find an exact match to the command string in the commands, look in // the aliases. if (command_obj) return command_obj; command_obj = GetCommandSP (cmd_cstr, true, true, matches).get(); if (command_obj) return command_obj; // If there wasn't an exact match then look for an inexact one in just the commands command_obj = GetCommandSP(cmd_cstr, false, false, NULL).get(); // Finally, if there wasn't an inexact match among the commands, look for an inexact // match in both the commands and aliases. if (command_obj) { if (matches) matches->AppendString(command_obj->GetCommandName()); return command_obj; } return GetCommandSP(cmd_cstr, true, false, matches).get(); } bool CommandInterpreter::CommandExists (const char *cmd) { return m_command_dict.find(cmd) != m_command_dict.end(); } bool CommandInterpreter::ProcessAliasOptionsArgs (lldb::CommandObjectSP &cmd_obj_sp, const char *options_args, OptionArgVectorSP &option_arg_vector_sp) { bool success = true; OptionArgVector *option_arg_vector = option_arg_vector_sp.get(); if (!options_args || (strlen (options_args) < 1)) return true; std::string options_string (options_args); Args args (options_args); CommandReturnObject result; // Check to see if the command being aliased can take any command options. Options *options = cmd_obj_sp->GetOptions (); if (options) { // See if any options were specified as part of the alias; if so, handle them appropriately. options->NotifyOptionParsingStarting (); args.Unshift ("dummy_arg"); args.ParseAliasOptions (*options, result, option_arg_vector, options_string); args.Shift (); if (result.Succeeded()) options->VerifyPartialOptions (result); if (!result.Succeeded() && result.GetStatus() != lldb::eReturnStatusStarted) { result.AppendError ("Unable to create requested alias.\n"); return false; } } if (!options_string.empty()) { if (cmd_obj_sp->WantsRawCommandString ()) option_arg_vector->push_back (OptionArgPair ("", OptionArgValue (-1, options_string))); else { const size_t argc = args.GetArgumentCount(); for (size_t i = 0; i < argc; ++i) if (strcmp (args.GetArgumentAtIndex (i), "") != 0) option_arg_vector->push_back (OptionArgPair ("", OptionArgValue (-1, std::string (args.GetArgumentAtIndex (i))))); } } return success; } bool CommandInterpreter::GetAliasFullName (const char *cmd, std::string &full_name) { bool exact_match = (m_alias_dict.find(cmd) != m_alias_dict.end()); if (exact_match) { full_name.assign(cmd); return exact_match; } else { StringList matches; size_t num_alias_matches; num_alias_matches = CommandObject::AddNamesMatchingPartialString (m_alias_dict, cmd, matches); if (num_alias_matches == 1) { // Make sure this isn't shadowing a command in the regular command space: StringList regular_matches; const bool include_aliases = false; const bool exact = false; CommandObjectSP cmd_obj_sp(GetCommandSP (cmd, include_aliases, exact, ®ular_matches)); if (cmd_obj_sp || regular_matches.GetSize() > 0) return false; else { full_name.assign (matches.GetStringAtIndex(0)); return true; } } else return false; } } bool CommandInterpreter::AliasExists (const char *cmd) { return m_alias_dict.find(cmd) != m_alias_dict.end(); } bool CommandInterpreter::UserCommandExists (const char *cmd) { return m_user_dict.find(cmd) != m_user_dict.end(); } void CommandInterpreter::AddAlias (const char *alias_name, CommandObjectSP& command_obj_sp) { command_obj_sp->SetIsAlias (true); m_alias_dict[alias_name] = command_obj_sp; } bool CommandInterpreter::RemoveAlias (const char *alias_name) { CommandObject::CommandMap::iterator pos = m_alias_dict.find(alias_name); if (pos != m_alias_dict.end()) { m_alias_dict.erase(pos); return true; } return false; } bool CommandInterpreter::RemoveUser (const char *alias_name) { CommandObject::CommandMap::iterator pos = m_user_dict.find(alias_name); if (pos != m_user_dict.end()) { m_user_dict.erase(pos); return true; } return false; } void CommandInterpreter::GetAliasHelp (const char *alias_name, const char *command_name, StreamString &help_string) { help_string.Printf ("'%s", command_name); OptionArgVectorSP option_arg_vector_sp = GetAliasOptions (alias_name); if (option_arg_vector_sp) { OptionArgVector *options = option_arg_vector_sp.get(); for (size_t i = 0; i < options->size(); ++i) { OptionArgPair cur_option = (*options)[i]; std::string opt = cur_option.first; OptionArgValue value_pair = cur_option.second; std::string value = value_pair.second; if (opt.compare("") == 0) { help_string.Printf (" %s", value.c_str()); } else { help_string.Printf (" %s", opt.c_str()); if ((value.compare ("") != 0) && (value.compare ("first.size(); if (max_len < len) max_len = len; } return max_len; } void CommandInterpreter::GetHelp (CommandReturnObject &result, uint32_t cmd_types) { CommandObject::CommandMap::const_iterator pos; size_t max_len = FindLongestCommandWord (m_command_dict); if ( (cmd_types & eCommandTypesBuiltin) == eCommandTypesBuiltin ) { result.AppendMessage("The following is a list of built-in, permanent debugger commands:"); result.AppendMessage(""); for (pos = m_command_dict.begin(); pos != m_command_dict.end(); ++pos) { OutputFormattedHelpText (result.GetOutputStream(), pos->first.c_str(), "--", pos->second->GetHelp(), max_len); } result.AppendMessage(""); } if (!m_alias_dict.empty() && ( (cmd_types & eCommandTypesAliases) == eCommandTypesAliases )) { result.AppendMessage("The following is a list of your current command abbreviations " "(see 'help command alias' for more info):"); result.AppendMessage(""); max_len = FindLongestCommandWord (m_alias_dict); for (pos = m_alias_dict.begin(); pos != m_alias_dict.end(); ++pos) { StreamString sstr; StreamString translation_and_help; std::string entry_name = pos->first; std::string second_entry = pos->second.get()->GetCommandName(); GetAliasHelp (pos->first.c_str(), pos->second->GetCommandName(), sstr); translation_and_help.Printf ("(%s) %s", sstr.GetData(), pos->second->GetHelp()); OutputFormattedHelpText (result.GetOutputStream(), pos->first.c_str(), "--", translation_and_help.GetData(), max_len); } result.AppendMessage(""); } if (!m_user_dict.empty() && ( (cmd_types & eCommandTypesUserDef) == eCommandTypesUserDef )) { result.AppendMessage ("The following is a list of your current user-defined commands:"); result.AppendMessage(""); max_len = FindLongestCommandWord (m_user_dict); for (pos = m_user_dict.begin(); pos != m_user_dict.end(); ++pos) { OutputFormattedHelpText (result.GetOutputStream(), pos->first.c_str(), "--", pos->second->GetHelp(), max_len); } result.AppendMessage(""); } result.AppendMessage("For more information on any particular command, try 'help '."); } CommandObject * CommandInterpreter::GetCommandObjectForCommand (std::string &command_string) { // This function finds the final, lowest-level, alias-resolved command object whose 'Execute' function will // eventually be invoked by the given command line. CommandObject *cmd_obj = NULL; std::string white_space (" \t\v"); size_t start = command_string.find_first_not_of (white_space); size_t end = 0; bool done = false; while (!done) { if (start != std::string::npos) { // Get the next word from command_string. end = command_string.find_first_of (white_space, start); if (end == std::string::npos) end = command_string.size(); std::string cmd_word = command_string.substr (start, end - start); if (cmd_obj == NULL) // Since cmd_obj is NULL we are on our first time through this loop. Check to see if cmd_word is a valid // command or alias. cmd_obj = GetCommandObject (cmd_word.c_str()); else if (cmd_obj->IsMultiwordObject ()) { // Our current object is a multi-word object; see if the cmd_word is a valid sub-command for our object. CommandObject *sub_cmd_obj = cmd_obj->GetSubcommandObject (cmd_word.c_str()); if (sub_cmd_obj) cmd_obj = sub_cmd_obj; else // cmd_word was not a valid sub-command word, so we are donee done = true; } else // We have a cmd_obj and it is not a multi-word object, so we are done. done = true; // If we didn't find a valid command object, or our command object is not a multi-word object, or // we are at the end of the command_string, then we are done. Otherwise, find the start of the // next word. if (!cmd_obj || !cmd_obj->IsMultiwordObject() || end >= command_string.size()) done = true; else start = command_string.find_first_not_of (white_space, end); } else // Unable to find any more words. done = true; } if (end == command_string.size()) command_string.clear(); else command_string = command_string.substr(end); return cmd_obj; } static const char *k_white_space = " \t\v"; static const char *k_valid_command_chars = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789-_"; static void StripLeadingSpaces (std::string &s) { if (!s.empty()) { size_t pos = s.find_first_not_of (k_white_space); if (pos == std::string::npos) s.clear(); else if (pos == 0) return; s.erase (0, pos); } } static size_t FindArgumentTerminator (const std::string &s) { const size_t s_len = s.size(); size_t offset = 0; while (offset < s_len) { size_t pos = s.find ("--", offset); if (pos == std::string::npos) break; if (pos > 0) { if (isspace(s[pos-1])) { // Check if the string ends "\s--" (where \s is a space character) // or if we have "\s--\s". if ((pos + 2 >= s_len) || isspace(s[pos+2])) { return pos; } } } offset = pos + 2; } return std::string::npos; } static bool ExtractCommand (std::string &command_string, std::string &command, std::string &suffix, char "e_char) { command.clear(); suffix.clear(); StripLeadingSpaces (command_string); bool result = false; quote_char = '\0'; if (!command_string.empty()) { const char first_char = command_string[0]; if (first_char == '\'' || first_char == '"') { quote_char = first_char; const size_t end_quote_pos = command_string.find (quote_char, 1); if (end_quote_pos == std::string::npos) { command.swap (command_string); command_string.erase (); } else { command.assign (command_string, 1, end_quote_pos - 1); if (end_quote_pos + 1 < command_string.size()) command_string.erase (0, command_string.find_first_not_of (k_white_space, end_quote_pos + 1)); else command_string.erase (); } } else { const size_t first_space_pos = command_string.find_first_of (k_white_space); if (first_space_pos == std::string::npos) { command.swap (command_string); command_string.erase(); } else { command.assign (command_string, 0, first_space_pos); command_string.erase(0, command_string.find_first_not_of (k_white_space, first_space_pos)); } } result = true; } if (!command.empty()) { // actual commands can't start with '-' or '_' if (command[0] != '-' && command[0] != '_') { size_t pos = command.find_first_not_of(k_valid_command_chars); if (pos > 0 && pos != std::string::npos) { suffix.assign (command.begin() + pos, command.end()); command.erase (pos); } } } return result; } CommandObject * CommandInterpreter::BuildAliasResult (const char *alias_name, std::string &raw_input_string, std::string &alias_result, CommandReturnObject &result) { CommandObject *alias_cmd_obj = NULL; Args cmd_args (raw_input_string.c_str()); alias_cmd_obj = GetCommandObject (alias_name); StreamString result_str; if (alias_cmd_obj) { std::string alias_name_str = alias_name; if ((cmd_args.GetArgumentCount() == 0) || (alias_name_str.compare (cmd_args.GetArgumentAtIndex(0)) != 0)) cmd_args.Unshift (alias_name); result_str.Printf ("%s", alias_cmd_obj->GetCommandName ()); OptionArgVectorSP option_arg_vector_sp = GetAliasOptions (alias_name); if (option_arg_vector_sp.get()) { OptionArgVector *option_arg_vector = option_arg_vector_sp.get(); for (size_t i = 0; i < option_arg_vector->size(); ++i) { OptionArgPair option_pair = (*option_arg_vector)[i]; OptionArgValue value_pair = option_pair.second; int value_type = value_pair.first; std::string option = option_pair.first; std::string value = value_pair.second; if (option.compare ("") == 0) result_str.Printf (" %s", value.c_str()); else { result_str.Printf (" %s", option.c_str()); if (value_type != OptionParser::eOptionalArgument) result_str.Printf (" "); if (value.compare ("") != 0) { int index = GetOptionArgumentPosition (value.c_str()); if (index == 0) result_str.Printf ("%s", value.c_str()); else if (index >= cmd_args.GetArgumentCount()) { result.AppendErrorWithFormat ("Not enough arguments provided; you need at least %d arguments to use this alias.\n", index); result.SetStatus (eReturnStatusFailed); return alias_cmd_obj; } else { size_t strpos = raw_input_string.find (cmd_args.GetArgumentAtIndex (index)); if (strpos != std::string::npos) raw_input_string = raw_input_string.erase (strpos, strlen (cmd_args.GetArgumentAtIndex (index))); result_str.Printf ("%s", cmd_args.GetArgumentAtIndex (index)); } } } } } alias_result = result_str.GetData(); } return alias_cmd_obj; } Error CommandInterpreter::PreprocessCommand (std::string &command) { // The command preprocessor needs to do things to the command // line before any parsing of arguments or anything else is done. // The only current stuff that gets proprocessed is anyting enclosed // in backtick ('`') characters is evaluated as an expression and // the result of the expression must be a scalar that can be substituted // into the command. An example would be: // (lldb) memory read `$rsp + 20` Error error; // Error for any expressions that might not evaluate size_t start_backtick; size_t pos = 0; while ((start_backtick = command.find ('`', pos)) != std::string::npos) { if (start_backtick > 0 && command[start_backtick-1] == '\\') { // The backtick was preceeded by a '\' character, remove the slash // and don't treat the backtick as the start of an expression command.erase(start_backtick-1, 1); // No need to add one to start_backtick since we just deleted a char pos = start_backtick; } else { const size_t expr_content_start = start_backtick + 1; const size_t end_backtick = command.find ('`', expr_content_start); if (end_backtick == std::string::npos) return error; else if (end_backtick == expr_content_start) { // Empty expression (two backticks in a row) command.erase (start_backtick, 2); } else { std::string expr_str (command, expr_content_start, end_backtick - expr_content_start); ExecutionContext exe_ctx(GetExecutionContext()); Target *target = exe_ctx.GetTargetPtr(); // Get a dummy target to allow for calculator mode while processing backticks. // This also helps break the infinite loop caused when target is null. if (!target) target = Host::GetDummyTarget(GetDebugger()).get(); if (target) { ValueObjectSP expr_result_valobj_sp; EvaluateExpressionOptions options; options.SetCoerceToId(false); options.SetUnwindOnError(true); options.SetIgnoreBreakpoints(true); options.SetKeepInMemory(false); options.SetTryAllThreads(true); options.SetTimeoutUsec(0); ExecutionResults expr_result = target->EvaluateExpression (expr_str.c_str(), exe_ctx.GetFramePtr(), expr_result_valobj_sp, options); if (expr_result == eExecutionCompleted) { Scalar scalar; if (expr_result_valobj_sp->ResolveValue (scalar)) { command.erase (start_backtick, end_backtick - start_backtick + 1); StreamString value_strm; const bool show_type = false; scalar.GetValue (&value_strm, show_type); size_t value_string_size = value_strm.GetSize(); if (value_string_size) { command.insert (start_backtick, value_strm.GetData(), value_string_size); pos = start_backtick + value_string_size; continue; } else { error.SetErrorStringWithFormat("expression value didn't result in a scalar value for the expression '%s'", expr_str.c_str()); } } else { error.SetErrorStringWithFormat("expression value didn't result in a scalar value for the expression '%s'", expr_str.c_str()); } } else { if (expr_result_valobj_sp) error = expr_result_valobj_sp->GetError(); if (error.Success()) { switch (expr_result) { case eExecutionSetupError: error.SetErrorStringWithFormat("expression setup error for the expression '%s'", expr_str.c_str()); break; case eExecutionCompleted: break; case eExecutionDiscarded: error.SetErrorStringWithFormat("expression discarded for the expression '%s'", expr_str.c_str()); break; case eExecutionInterrupted: error.SetErrorStringWithFormat("expression interrupted for the expression '%s'", expr_str.c_str()); break; case eExecutionHitBreakpoint: error.SetErrorStringWithFormat("expression hit breakpoint for the expression '%s'", expr_str.c_str()); break; case eExecutionTimedOut: error.SetErrorStringWithFormat("expression timed out for the expression '%s'", expr_str.c_str()); break; case eExecutionStoppedForDebug: error.SetErrorStringWithFormat("expression stop at entry point for debugging for the expression '%s'", expr_str.c_str()); break; } } } } } if (error.Fail()) break; } } return error; } bool CommandInterpreter::HandleCommand (const char *command_line, LazyBool lazy_add_to_history, CommandReturnObject &result, ExecutionContext *override_context, bool repeat_on_empty_command, bool no_context_switching) { bool done = false; CommandObject *cmd_obj = NULL; bool wants_raw_input = false; std::string command_string (command_line); std::string original_command_string (command_line); Log *log (lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_COMMANDS)); Host::SetCrashDescriptionWithFormat ("HandleCommand(command = \"%s\")", command_line); // Make a scoped cleanup object that will clear the crash description string // on exit of this function. lldb_utility::CleanUp crash_description_cleanup(NULL, Host::SetCrashDescription); if (log) log->Printf ("Processing command: %s", command_line); Timer scoped_timer (__PRETTY_FUNCTION__, "Handling command: %s.", command_line); if (!no_context_switching) UpdateExecutionContext (override_context); bool add_to_history; if (lazy_add_to_history == eLazyBoolCalculate) add_to_history = (m_command_source_depth == 0); else add_to_history = (lazy_add_to_history == eLazyBoolYes); bool empty_command = false; bool comment_command = false; if (command_string.empty()) empty_command = true; else { const char *k_space_characters = "\t\n\v\f\r "; size_t non_space = command_string.find_first_not_of (k_space_characters); // Check for empty line or comment line (lines whose first // non-space character is the comment character for this interpreter) if (non_space == std::string::npos) empty_command = true; else if (command_string[non_space] == m_comment_char) comment_command = true; else if (command_string[non_space] == CommandHistory::g_repeat_char) { const char *history_string = m_command_history.FindString(command_string.c_str() + non_space); if (history_string == NULL) { result.AppendErrorWithFormat ("Could not find entry: %s in history", command_string.c_str()); result.SetStatus(eReturnStatusFailed); return false; } add_to_history = false; command_string = history_string; original_command_string = history_string; } } if (empty_command) { if (repeat_on_empty_command) { if (m_command_history.IsEmpty()) { result.AppendError ("empty command"); result.SetStatus(eReturnStatusFailed); return false; } else { command_line = m_repeat_command.c_str(); command_string = command_line; original_command_string = command_line; if (m_repeat_command.empty()) { result.AppendErrorWithFormat("No auto repeat.\n"); result.SetStatus (eReturnStatusFailed); return false; } } add_to_history = false; } else { result.SetStatus (eReturnStatusSuccessFinishNoResult); return true; } } else if (comment_command) { result.SetStatus (eReturnStatusSuccessFinishNoResult); return true; } Error error (PreprocessCommand (command_string)); if (error.Fail()) { result.AppendError (error.AsCString()); result.SetStatus(eReturnStatusFailed); return false; } // Phase 1. // Before we do ANY kind of argument processing, etc. we need to figure out what the real/final command object // is for the specified command, and whether or not it wants raw input. This gets complicated by the fact that // the user could have specified an alias, and in translating the alias there may also be command options and/or // even data (including raw text strings) that need to be found and inserted into the command line as part of // the translation. So this first step is plain look-up & replacement, resulting in three things: 1). the command // object whose Execute method will actually be called; 2). a revised command string, with all substitutions & // replacements taken care of; 3). whether or not the Execute function wants raw input or not. StreamString revised_command_line; size_t actual_cmd_name_len = 0; std::string next_word; StringList matches; while (!done) { char quote_char = '\0'; std::string suffix; ExtractCommand (command_string, next_word, suffix, quote_char); if (cmd_obj == NULL) { std::string full_name; if (GetAliasFullName(next_word.c_str(), full_name)) { std::string alias_result; cmd_obj = BuildAliasResult (full_name.c_str(), command_string, alias_result, result); revised_command_line.Printf ("%s", alias_result.c_str()); if (cmd_obj) { wants_raw_input = cmd_obj->WantsRawCommandString (); actual_cmd_name_len = strlen (cmd_obj->GetCommandName()); } } else { cmd_obj = GetCommandObject (next_word.c_str(), &matches); if (cmd_obj) { actual_cmd_name_len += next_word.length(); revised_command_line.Printf ("%s", next_word.c_str()); wants_raw_input = cmd_obj->WantsRawCommandString (); } else { revised_command_line.Printf ("%s", next_word.c_str()); } } } else { if (cmd_obj->IsMultiwordObject ()) { CommandObject *sub_cmd_obj = cmd_obj->GetSubcommandObject (next_word.c_str()); if (sub_cmd_obj) { actual_cmd_name_len += next_word.length() + 1; revised_command_line.Printf (" %s", next_word.c_str()); cmd_obj = sub_cmd_obj; wants_raw_input = cmd_obj->WantsRawCommandString (); } else { if (quote_char) revised_command_line.Printf (" %c%s%s%c", quote_char, next_word.c_str(), suffix.c_str(), quote_char); else revised_command_line.Printf (" %s%s", next_word.c_str(), suffix.c_str()); done = true; } } else { if (quote_char) revised_command_line.Printf (" %c%s%s%c", quote_char, next_word.c_str(), suffix.c_str(), quote_char); else revised_command_line.Printf (" %s%s", next_word.c_str(), suffix.c_str()); done = true; } } if (cmd_obj == NULL) { const size_t num_matches = matches.GetSize(); if (matches.GetSize() > 1) { StreamString error_msg; error_msg.Printf ("Ambiguous command '%s'. Possible matches:\n", next_word.c_str()); for (uint32_t i = 0; i < num_matches; ++i) { error_msg.Printf ("\t%s\n", matches.GetStringAtIndex(i)); } result.AppendRawError (error_msg.GetString().c_str()); } else { // We didn't have only one match, otherwise we wouldn't get here. assert(num_matches == 0); result.AppendErrorWithFormat ("'%s' is not a valid command.\n", next_word.c_str()); } result.SetStatus (eReturnStatusFailed); return false; } if (cmd_obj->IsMultiwordObject ()) { if (!suffix.empty()) { result.AppendErrorWithFormat ("command '%s' did not recognize '%s%s%s' as valid (subcommand might be invalid).\n", cmd_obj->GetCommandName(), next_word.empty() ? "" : next_word.c_str(), next_word.empty() ? " -- " : " ", suffix.c_str()); result.SetStatus (eReturnStatusFailed); return false; } } else { // If we found a normal command, we are done done = true; if (!suffix.empty()) { switch (suffix[0]) { case '/': // GDB format suffixes { Options *command_options = cmd_obj->GetOptions(); if (command_options && command_options->SupportsLongOption("gdb-format")) { std::string gdb_format_option ("--gdb-format="); gdb_format_option += (suffix.c_str() + 1); bool inserted = false; std::string &cmd = revised_command_line.GetString(); size_t arg_terminator_idx = FindArgumentTerminator (cmd); if (arg_terminator_idx != std::string::npos) { // Insert the gdb format option before the "--" that terminates options gdb_format_option.append(1,' '); cmd.insert(arg_terminator_idx, gdb_format_option); inserted = true; } if (!inserted) revised_command_line.Printf (" %s", gdb_format_option.c_str()); if (wants_raw_input && FindArgumentTerminator(cmd) == std::string::npos) revised_command_line.PutCString (" --"); } else { result.AppendErrorWithFormat ("the '%s' command doesn't support the --gdb-format option\n", cmd_obj->GetCommandName()); result.SetStatus (eReturnStatusFailed); return false; } } break; default: result.AppendErrorWithFormat ("unknown command shorthand suffix: '%s'\n", suffix.c_str()); result.SetStatus (eReturnStatusFailed); return false; } } } if (command_string.length() == 0) done = true; } if (!command_string.empty()) revised_command_line.Printf (" %s", command_string.c_str()); // End of Phase 1. // At this point cmd_obj should contain the CommandObject whose Execute method will be called, if the command // specified was valid; revised_command_line contains the complete command line (including command name(s)), // fully translated with all substitutions & translations taken care of (still in raw text format); and // wants_raw_input specifies whether the Execute method expects raw input or not. if (log) { log->Printf ("HandleCommand, cmd_obj : '%s'", cmd_obj ? cmd_obj->GetCommandName() : ""); log->Printf ("HandleCommand, revised_command_line: '%s'", revised_command_line.GetData()); log->Printf ("HandleCommand, wants_raw_input:'%s'", wants_raw_input ? "True" : "False"); } // Phase 2. // Take care of things like setting up the history command & calling the appropriate Execute method on the // CommandObject, with the appropriate arguments. if (cmd_obj != NULL) { if (add_to_history) { Args command_args (revised_command_line.GetData()); const char *repeat_command = cmd_obj->GetRepeatCommand(command_args, 0); if (repeat_command != NULL) m_repeat_command.assign(repeat_command); else m_repeat_command.assign(original_command_string.c_str()); m_command_history.AppendString (original_command_string); } command_string = revised_command_line.GetData(); std::string command_name (cmd_obj->GetCommandName()); std::string remainder; if (actual_cmd_name_len < command_string.length()) remainder = command_string.substr (actual_cmd_name_len); // Note: 'actual_cmd_name_len' may be considerably shorter // than cmd_obj->GetCommandName(), because name completion // allows users to enter short versions of the names, // e.g. 'br s' for 'breakpoint set'. // Remove any initial spaces std::string white_space (" \t\v"); size_t pos = remainder.find_first_not_of (white_space); if (pos != 0 && pos != std::string::npos) remainder.erase(0, pos); if (log) log->Printf ("HandleCommand, command line after removing command name(s): '%s'", remainder.c_str()); cmd_obj->Execute (remainder.c_str(), result); } else { // We didn't find the first command object, so complete the first argument. Args command_args (revised_command_line.GetData()); StringList matches; int num_matches; int cursor_index = 0; int cursor_char_position = strlen (command_args.GetArgumentAtIndex(0)); bool word_complete; num_matches = HandleCompletionMatches (command_args, cursor_index, cursor_char_position, 0, -1, word_complete, matches); if (num_matches > 0) { std::string error_msg; error_msg.assign ("ambiguous command '"); error_msg.append(command_args.GetArgumentAtIndex(0)); error_msg.append ("'."); error_msg.append (" Possible completions:"); for (int i = 0; i < num_matches; i++) { error_msg.append ("\n\t"); error_msg.append (matches.GetStringAtIndex (i)); } error_msg.append ("\n"); result.AppendRawError (error_msg.c_str()); } else result.AppendErrorWithFormat ("Unrecognized command '%s'.\n", command_args.GetArgumentAtIndex (0)); result.SetStatus (eReturnStatusFailed); } if (log) log->Printf ("HandleCommand, command %s", (result.Succeeded() ? "succeeded" : "did not succeed")); return result.Succeeded(); } int CommandInterpreter::HandleCompletionMatches (Args &parsed_line, int &cursor_index, int &cursor_char_position, int match_start_point, int max_return_elements, bool &word_complete, StringList &matches) { int num_command_matches = 0; bool look_for_subcommand = false; // For any of the command completions a unique match will be a complete word. word_complete = true; if (cursor_index == -1) { // We got nothing on the command line, so return the list of commands bool include_aliases = true; num_command_matches = GetCommandNamesMatchingPartialString ("", include_aliases, matches); } else if (cursor_index == 0) { // The cursor is in the first argument, so just do a lookup in the dictionary. CommandObject *cmd_obj = GetCommandObject (parsed_line.GetArgumentAtIndex(0), &matches); num_command_matches = matches.GetSize(); if (num_command_matches == 1 && cmd_obj && cmd_obj->IsMultiwordObject() && matches.GetStringAtIndex(0) != NULL && strcmp (parsed_line.GetArgumentAtIndex(0), matches.GetStringAtIndex(0)) == 0) { if (parsed_line.GetArgumentCount() == 1) { word_complete = true; } else { look_for_subcommand = true; num_command_matches = 0; matches.DeleteStringAtIndex(0); parsed_line.AppendArgument (""); cursor_index++; cursor_char_position = 0; } } } if (cursor_index > 0 || look_for_subcommand) { // We are completing further on into a commands arguments, so find the command and tell it // to complete the command. // First see if there is a matching initial command: CommandObject *command_object = GetCommandObject (parsed_line.GetArgumentAtIndex(0)); if (command_object == NULL) { return 0; } else { parsed_line.Shift(); cursor_index--; num_command_matches = command_object->HandleCompletion (parsed_line, cursor_index, cursor_char_position, match_start_point, max_return_elements, word_complete, matches); } } return num_command_matches; } int CommandInterpreter::HandleCompletion (const char *current_line, const char *cursor, const char *last_char, int match_start_point, int max_return_elements, StringList &matches) { // We parse the argument up to the cursor, so the last argument in parsed_line is // the one containing the cursor, and the cursor is after the last character. Args parsed_line(current_line, last_char - current_line); Args partial_parsed_line(current_line, cursor - current_line); // Don't complete comments, and if the line we are completing is just the history repeat character, // substitute the appropriate history line. const char *first_arg = parsed_line.GetArgumentAtIndex(0); if (first_arg) { if (first_arg[0] == m_comment_char) return 0; else if (first_arg[0] == CommandHistory::g_repeat_char) { const char *history_string = m_command_history.FindString (first_arg); if (history_string != NULL) { matches.Clear(); matches.InsertStringAtIndex(0, history_string); return -2; } else return 0; } } int num_args = partial_parsed_line.GetArgumentCount(); int cursor_index = partial_parsed_line.GetArgumentCount() - 1; int cursor_char_position; if (cursor_index == -1) cursor_char_position = 0; else cursor_char_position = strlen (partial_parsed_line.GetArgumentAtIndex(cursor_index)); if (cursor > current_line && cursor[-1] == ' ') { // We are just after a space. If we are in an argument, then we will continue // parsing, but if we are between arguments, then we have to complete whatever the next // element would be. // We can distinguish the two cases because if we are in an argument (e.g. because the space is // protected by a quote) then the space will also be in the parsed argument... const char *current_elem = partial_parsed_line.GetArgumentAtIndex(cursor_index); if (cursor_char_position == 0 || current_elem[cursor_char_position - 1] != ' ') { parsed_line.InsertArgumentAtIndex(cursor_index + 1, "", '\0'); cursor_index++; cursor_char_position = 0; } } int num_command_matches; matches.Clear(); // Only max_return_elements == -1 is supported at present: assert (max_return_elements == -1); bool word_complete; num_command_matches = HandleCompletionMatches (parsed_line, cursor_index, cursor_char_position, match_start_point, max_return_elements, word_complete, matches); if (num_command_matches <= 0) return num_command_matches; if (num_args == 0) { // If we got an empty string, insert nothing. matches.InsertStringAtIndex(0, ""); } else { // Now figure out if there is a common substring, and if so put that in element 0, otherwise // put an empty string in element 0. std::string command_partial_str; if (cursor_index >= 0) command_partial_str.assign(parsed_line.GetArgumentAtIndex(cursor_index), parsed_line.GetArgumentAtIndex(cursor_index) + cursor_char_position); std::string common_prefix; matches.LongestCommonPrefix (common_prefix); const size_t partial_name_len = command_partial_str.size(); // If we matched a unique single command, add a space... // Only do this if the completer told us this was a complete word, however... if (num_command_matches == 1 && word_complete) { char quote_char = parsed_line.GetArgumentQuoteCharAtIndex(cursor_index); if (quote_char != '\0') common_prefix.push_back(quote_char); common_prefix.push_back(' '); } common_prefix.erase (0, partial_name_len); matches.InsertStringAtIndex(0, common_prefix.c_str()); } return num_command_matches; } CommandInterpreter::~CommandInterpreter () { } void CommandInterpreter::UpdatePrompt (const char *new_prompt) { EventSP prompt_change_event_sp (new Event(eBroadcastBitResetPrompt, new EventDataBytes (new_prompt)));; BroadcastEvent (prompt_change_event_sp); if (m_command_io_handler_sp) m_command_io_handler_sp->SetPrompt(new_prompt); } bool CommandInterpreter::Confirm (const char *message, bool default_answer) { // Check AutoConfirm first: if (m_debugger.GetAutoConfirm()) return default_answer; IOHandlerConfirm *confirm = new IOHandlerConfirm(m_debugger, message, default_answer); IOHandlerSP io_handler_sp (confirm); m_debugger.RunIOHandler (io_handler_sp); return confirm->GetResponse(); } OptionArgVectorSP CommandInterpreter::GetAliasOptions (const char *alias_name) { OptionArgMap::iterator pos; OptionArgVectorSP ret_val; std::string alias (alias_name); if (HasAliasOptions()) { pos = m_alias_options.find (alias); if (pos != m_alias_options.end()) ret_val = pos->second; } return ret_val; } void CommandInterpreter::RemoveAliasOptions (const char *alias_name) { OptionArgMap::iterator pos = m_alias_options.find(alias_name); if (pos != m_alias_options.end()) { m_alias_options.erase (pos); } } void CommandInterpreter::AddOrReplaceAliasOptions (const char *alias_name, OptionArgVectorSP &option_arg_vector_sp) { m_alias_options[alias_name] = option_arg_vector_sp; } bool CommandInterpreter::HasCommands () { return (!m_command_dict.empty()); } bool CommandInterpreter::HasAliases () { return (!m_alias_dict.empty()); } bool CommandInterpreter::HasUserCommands () { return (!m_user_dict.empty()); } bool CommandInterpreter::HasAliasOptions () { return (!m_alias_options.empty()); } void CommandInterpreter::BuildAliasCommandArgs (CommandObject *alias_cmd_obj, const char *alias_name, Args &cmd_args, std::string &raw_input_string, CommandReturnObject &result) { OptionArgVectorSP option_arg_vector_sp = GetAliasOptions (alias_name); bool wants_raw_input = alias_cmd_obj->WantsRawCommandString(); // Make sure that the alias name is the 0th element in cmd_args std::string alias_name_str = alias_name; if (alias_name_str.compare (cmd_args.GetArgumentAtIndex(0)) != 0) cmd_args.Unshift (alias_name); Args new_args (alias_cmd_obj->GetCommandName()); if (new_args.GetArgumentCount() == 2) new_args.Shift(); if (option_arg_vector_sp.get()) { if (wants_raw_input) { // We have a command that both has command options and takes raw input. Make *sure* it has a // " -- " in the right place in the raw_input_string. size_t pos = raw_input_string.find(" -- "); if (pos == std::string::npos) { // None found; assume it goes at the beginning of the raw input string raw_input_string.insert (0, " -- "); } } OptionArgVector *option_arg_vector = option_arg_vector_sp.get(); const size_t old_size = cmd_args.GetArgumentCount(); std::vector used (old_size + 1, false); used[0] = true; for (size_t i = 0; i < option_arg_vector->size(); ++i) { OptionArgPair option_pair = (*option_arg_vector)[i]; OptionArgValue value_pair = option_pair.second; int value_type = value_pair.first; std::string option = option_pair.first; std::string value = value_pair.second; if (option.compare ("") == 0) { if (!wants_raw_input || (value.compare("--") != 0)) // Since we inserted this above, make sure we don't insert it twice new_args.AppendArgument (value.c_str()); } else { if (value_type != OptionParser::eOptionalArgument) new_args.AppendArgument (option.c_str()); if (value.compare ("") != 0) { int index = GetOptionArgumentPosition (value.c_str()); if (index == 0) { // value was NOT a positional argument; must be a real value if (value_type != OptionParser::eOptionalArgument) new_args.AppendArgument (value.c_str()); else { char buffer[255]; ::snprintf (buffer, sizeof (buffer), "%s%s", option.c_str(), value.c_str()); new_args.AppendArgument (buffer); } } else if (index >= cmd_args.GetArgumentCount()) { result.AppendErrorWithFormat ("Not enough arguments provided; you need at least %d arguments to use this alias.\n", index); result.SetStatus (eReturnStatusFailed); return; } else { // Find and remove cmd_args.GetArgumentAtIndex(i) from raw_input_string size_t strpos = raw_input_string.find (cmd_args.GetArgumentAtIndex (index)); if (strpos != std::string::npos) { raw_input_string = raw_input_string.erase (strpos, strlen (cmd_args.GetArgumentAtIndex (index))); } if (value_type != OptionParser::eOptionalArgument) new_args.AppendArgument (cmd_args.GetArgumentAtIndex (index)); else { char buffer[255]; ::snprintf (buffer, sizeof(buffer), "%s%s", option.c_str(), cmd_args.GetArgumentAtIndex (index)); new_args.AppendArgument (buffer); } used[index] = true; } } } } for (size_t j = 0; j < cmd_args.GetArgumentCount(); ++j) { if (!used[j] && !wants_raw_input) new_args.AppendArgument (cmd_args.GetArgumentAtIndex (j)); } cmd_args.Clear(); cmd_args.SetArguments (new_args.GetArgumentCount(), (const char **) new_args.GetArgumentVector()); } else { result.SetStatus (eReturnStatusSuccessFinishNoResult); // This alias was not created with any options; nothing further needs to be done, unless it is a command that // wants raw input, in which case we need to clear the rest of the data from cmd_args, since its in the raw // input string. if (wants_raw_input) { cmd_args.Clear(); cmd_args.SetArguments (new_args.GetArgumentCount(), (const char **) new_args.GetArgumentVector()); } return; } result.SetStatus (eReturnStatusSuccessFinishNoResult); return; } int CommandInterpreter::GetOptionArgumentPosition (const char *in_string) { int position = 0; // Any string that isn't an argument position, i.e. '%' followed by an integer, gets a position // of zero. char *cptr = (char *) in_string; // Does it start with '%' if (cptr[0] == '%') { ++cptr; // Is the rest of it entirely digits? if (isdigit (cptr[0])) { const char *start = cptr; while (isdigit (cptr[0])) ++cptr; // We've gotten to the end of the digits; are we at the end of the string? if (cptr[0] == '\0') position = atoi (start); } } return position; } void CommandInterpreter::SourceInitFile (bool in_cwd, CommandReturnObject &result) { FileSpec init_file; if (in_cwd) { // In the current working directory we don't load any program specific // .lldbinit files, we only look for a "./.lldbinit" file. if (m_skip_lldbinit_files) return; init_file.SetFile ("./.lldbinit", true); } else { // If we aren't looking in the current working directory we are looking // in the home directory. We will first see if there is an application // specific ".lldbinit" file whose name is "~/.lldbinit" followed by a // "-" and the name of the program. If this file doesn't exist, we fall // back to just the "~/.lldbinit" file. We also obey any requests to not // load the init files. const char *init_file_path = "~/.lldbinit"; if (m_skip_app_init_files == false) { FileSpec program_file_spec (Host::GetProgramFileSpec()); const char *program_name = program_file_spec.GetFilename().AsCString(); if (program_name) { char program_init_file_name[PATH_MAX]; ::snprintf (program_init_file_name, sizeof(program_init_file_name), "%s-%s", init_file_path, program_name); init_file.SetFile (program_init_file_name, true); if (!init_file.Exists()) init_file.Clear(); } } if (!init_file && !m_skip_lldbinit_files) init_file.SetFile (init_file_path, true); } // If the file exists, tell HandleCommand to 'source' it; this will do the actual broadcasting // of the commands back to any appropriate listener (see CommandObjectSource::Execute for more details). if (init_file.Exists()) { const bool saved_batch = SetBatchCommandMode (true); HandleCommandsFromFile (init_file, NULL, // Execution context eLazyBoolYes, // Stop on continue eLazyBoolNo, // Stop on error eLazyBoolNo, // Don't echo commands eLazyBoolNo, // Don't print command output eLazyBoolNo, // Don't add the commands that are sourced into the history buffer result); SetBatchCommandMode (saved_batch); } else { // nothing to be done if the file doesn't exist result.SetStatus(eReturnStatusSuccessFinishNoResult); } } PlatformSP CommandInterpreter::GetPlatform (bool prefer_target_platform) { PlatformSP platform_sp; if (prefer_target_platform) { ExecutionContext exe_ctx(GetExecutionContext()); Target *target = exe_ctx.GetTargetPtr(); if (target) platform_sp = target->GetPlatform(); } if (!platform_sp) platform_sp = m_debugger.GetPlatformList().GetSelectedPlatform(); return platform_sp; } void CommandInterpreter::HandleCommands (const StringList &commands, ExecutionContext *override_context, bool stop_on_continue, bool stop_on_error, bool echo_commands, bool print_results, LazyBool add_to_history, CommandReturnObject &result) { size_t num_lines = commands.GetSize(); // If we are going to continue past a "continue" then we need to run the commands synchronously. // Make sure you reset this value anywhere you return from the function. bool old_async_execution = m_debugger.GetAsyncExecution(); // If we've been given an execution context, set it at the start, but don't keep resetting it or we will // cause series of commands that change the context, then do an operation that relies on that context to fail. if (override_context != NULL) UpdateExecutionContext (override_context); if (!stop_on_continue) { m_debugger.SetAsyncExecution (false); } for (size_t idx = 0; idx < num_lines; idx++) { const char *cmd = commands.GetStringAtIndex(idx); if (cmd[0] == '\0') continue; if (echo_commands) { result.AppendMessageWithFormat ("%s %s\n", m_debugger.GetPrompt(), cmd); } CommandReturnObject tmp_result; // If override_context is not NULL, pass no_context_switching = true for // HandleCommand() since we updated our context already. // We might call into a regex or alias command, in which case the add_to_history will get lost. This // m_command_source_depth dingus is the way we turn off adding to the history in that case, so set it up here. if (!add_to_history) m_command_source_depth++; bool success = HandleCommand(cmd, add_to_history, tmp_result, NULL, /* override_context */ true, /* repeat_on_empty_command */ override_context != NULL /* no_context_switching */); if (!add_to_history) m_command_source_depth--; if (print_results) { if (tmp_result.Succeeded()) result.AppendMessageWithFormat("%s", tmp_result.GetOutputData()); } if (!success || !tmp_result.Succeeded()) { const char *error_msg = tmp_result.GetErrorData(); if (error_msg == NULL || error_msg[0] == '\0') error_msg = ".\n"; if (stop_on_error) { result.AppendErrorWithFormat("Aborting reading of commands after command #%zu: '%s' failed with %s", idx, cmd, error_msg); result.SetStatus (eReturnStatusFailed); m_debugger.SetAsyncExecution (old_async_execution); return; } else if (print_results) { result.AppendMessageWithFormat ("Command #%zu '%s' failed with %s", idx + 1, cmd, error_msg); } } if (result.GetImmediateOutputStream()) result.GetImmediateOutputStream()->Flush(); if (result.GetImmediateErrorStream()) result.GetImmediateErrorStream()->Flush(); // N.B. Can't depend on DidChangeProcessState, because the state coming into the command execution // could be running (for instance in Breakpoint Commands. // So we check the return value to see if it is has running in it. if ((tmp_result.GetStatus() == eReturnStatusSuccessContinuingNoResult) || (tmp_result.GetStatus() == eReturnStatusSuccessContinuingResult)) { if (stop_on_continue) { // If we caused the target to proceed, and we're going to stop in that case, set the // status in our real result before returning. This is an error if the continue was not the // last command in the set of commands to be run. if (idx != num_lines - 1) result.AppendErrorWithFormat("Aborting reading of commands after command #%zu: '%s' continued the target.\n", idx + 1, cmd); else result.AppendMessageWithFormat ("Command #%zu '%s' continued the target.\n", idx + 1, cmd); result.SetStatus(tmp_result.GetStatus()); m_debugger.SetAsyncExecution (old_async_execution); return; } } } result.SetStatus (eReturnStatusSuccessFinishResult); m_debugger.SetAsyncExecution (old_async_execution); return; } // Make flags that we can pass into the IOHandler so our delegates can do the right thing enum { eHandleCommandFlagStopOnContinue = (1u << 0), eHandleCommandFlagStopOnError = (1u << 1), eHandleCommandFlagEchoCommand = (1u << 2), eHandleCommandFlagPrintResult = (1u << 3) }; void CommandInterpreter::HandleCommandsFromFile (FileSpec &cmd_file, ExecutionContext *context, LazyBool stop_on_continue, LazyBool stop_on_error, LazyBool echo_command, LazyBool print_result, LazyBool add_to_history, CommandReturnObject &result) { if (cmd_file.Exists()) { StreamFileSP input_file_sp (new StreamFile()); std::string cmd_file_path = cmd_file.GetPath(); Error error = input_file_sp->GetFile().Open(cmd_file_path.c_str(), File::eOpenOptionRead); if (error.Success()) { Debugger &debugger = GetDebugger(); uint32_t flags = 0; if (stop_on_continue == eLazyBoolCalculate) { if (m_command_source_flags.empty()) { // Stop on continue by default flags |= eHandleCommandFlagStopOnContinue; } else if (m_command_source_flags.back() & eHandleCommandFlagStopOnContinue) { flags |= eHandleCommandFlagStopOnContinue; } } else if (stop_on_continue == eLazyBoolYes) { flags |= eHandleCommandFlagStopOnContinue; } if (stop_on_error == eLazyBoolCalculate) { if (m_command_source_flags.empty()) { if (GetStopCmdSourceOnError()) flags |= eHandleCommandFlagStopOnError; } else if (m_command_source_flags.back() & eHandleCommandFlagStopOnError) { flags |= eHandleCommandFlagStopOnError; } } else if (stop_on_error == eLazyBoolYes) { flags |= eHandleCommandFlagStopOnError; } if (echo_command == eLazyBoolCalculate) { if (m_command_source_flags.empty()) { // Echo command by default flags |= eHandleCommandFlagEchoCommand; } else if (m_command_source_flags.back() & eHandleCommandFlagEchoCommand) { flags |= eHandleCommandFlagEchoCommand; } } else if (echo_command == eLazyBoolYes) { flags |= eHandleCommandFlagEchoCommand; } if (print_result == eLazyBoolCalculate) { if (m_command_source_flags.empty()) { // Print output by default flags |= eHandleCommandFlagPrintResult; } else if (m_command_source_flags.back() & eHandleCommandFlagPrintResult) { flags |= eHandleCommandFlagPrintResult; } } else if (print_result == eLazyBoolYes) { flags |= eHandleCommandFlagPrintResult; } if (flags & eHandleCommandFlagPrintResult) { debugger.GetOutputFile()->Printf("Executing commands in '%s'.\n", cmd_file_path.c_str()); } // Used for inheriting the right settings when "command source" might have // nested "command source" commands lldb::StreamFileSP empty_stream_sp; m_command_source_flags.push_back(flags); IOHandlerSP io_handler_sp (new IOHandlerEditline (debugger, input_file_sp, empty_stream_sp, // Pass in an empty stream so we inherit the top input reader output stream empty_stream_sp, // Pass in an empty stream so we inherit the top input reader error stream flags, NULL, // Pass in NULL for "editline_name" so no history is saved, or written debugger.GetPrompt(), false, // Not multi-line *this)); const bool old_async_execution = debugger.GetAsyncExecution(); // Set synchronous execution if we not stopping when we continue if ((flags & eHandleCommandFlagStopOnContinue) == 0) debugger.SetAsyncExecution (false); m_command_source_depth++; debugger.RunIOHandler(io_handler_sp); if (!m_command_source_flags.empty()) m_command_source_flags.pop_back(); m_command_source_depth--; result.SetStatus (eReturnStatusSuccessFinishNoResult); debugger.SetAsyncExecution (old_async_execution); } else { result.AppendErrorWithFormat ("error: an error occurred read file '%s': %s\n", cmd_file_path.c_str(), error.AsCString()); result.SetStatus (eReturnStatusFailed); } } else { result.AppendErrorWithFormat ("Error reading commands from file %s - file not found.\n", cmd_file.GetFilename().AsCString()); result.SetStatus (eReturnStatusFailed); return; } } ScriptInterpreter * CommandInterpreter::GetScriptInterpreter (bool can_create) { if (m_script_interpreter_ap.get() != NULL) return m_script_interpreter_ap.get(); if (!can_create) return NULL; // // we need to protect the initialization of the script interpreter // otherwise we could end up with two threads both trying to create // their instance of it, and for some languages (e.g. Python) // this is a bulletproof recipe for disaster! // this needs to be a function-level static because multiple Debugger instances living in the same process // still need to be isolated and not try to initialize Python concurrently static Mutex g_interpreter_mutex(Mutex::eMutexTypeRecursive); Mutex::Locker interpreter_lock(g_interpreter_mutex); Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_OBJECT)); if (log) log->Printf("Initializing the ScriptInterpreter now\n"); lldb::ScriptLanguage script_lang = GetDebugger().GetScriptLanguage(); switch (script_lang) { case eScriptLanguagePython: #ifndef LLDB_DISABLE_PYTHON m_script_interpreter_ap.reset (new ScriptInterpreterPython (*this)); break; #else // Fall through to the None case when python is disabled #endif case eScriptLanguageNone: m_script_interpreter_ap.reset (new ScriptInterpreterNone (*this)); break; }; return m_script_interpreter_ap.get(); } bool CommandInterpreter::GetSynchronous () { return m_synchronous_execution; } void CommandInterpreter::SetSynchronous (bool value) { m_synchronous_execution = value; } void CommandInterpreter::OutputFormattedHelpText (Stream &strm, const char *word_text, const char *separator, const char *help_text, size_t max_word_len) { const uint32_t max_columns = m_debugger.GetTerminalWidth(); int indent_size = max_word_len + strlen (separator) + 2; strm.IndentMore (indent_size); StreamString text_strm; text_strm.Printf ("%-*s %s %s", (int)max_word_len, word_text, separator, help_text); size_t len = text_strm.GetSize(); const char *text = text_strm.GetData(); if (text[len - 1] == '\n') { text_strm.EOL(); len = text_strm.GetSize(); } if (len < max_columns) { // Output it as a single line. strm.Printf ("%s", text); } else { // We need to break it up into multiple lines. bool first_line = true; int text_width; size_t start = 0; size_t end = start; const size_t final_end = strlen (text); while (end < final_end) { if (first_line) text_width = max_columns - 1; else text_width = max_columns - indent_size - 1; // Don't start the 'text' on a space, since we're already outputting the indentation. if (!first_line) { while ((start < final_end) && (text[start] == ' ')) start++; } end = start + text_width; if (end > final_end) end = final_end; else { // If we're not at the end of the text, make sure we break the line on white space. while (end > start && text[end] != ' ' && text[end] != '\t' && text[end] != '\n') end--; assert (end > 0); } const size_t sub_len = end - start; if (start != 0) strm.EOL(); if (!first_line) strm.Indent(); else first_line = false; assert (start <= final_end); assert (start + sub_len <= final_end); if (sub_len > 0) strm.Write (text + start, sub_len); start = end + 1; } } strm.EOL(); strm.IndentLess(indent_size); } void CommandInterpreter::OutputHelpText (Stream &strm, const char *word_text, const char *separator, const char *help_text, uint32_t max_word_len) { int indent_size = max_word_len + strlen (separator) + 2; strm.IndentMore (indent_size); StreamString text_strm; text_strm.Printf ("%-*s %s %s", max_word_len, word_text, separator, help_text); const uint32_t max_columns = m_debugger.GetTerminalWidth(); size_t len = text_strm.GetSize(); const char *text = text_strm.GetData(); uint32_t chars_left = max_columns; for (uint32_t i = 0; i < len; i++) { if ((text[i] == ' ' && ::strchr((text+i+1), ' ') && chars_left < ::strchr((text+i+1), ' ')-(text+i)) || text[i] == '\n') { chars_left = max_columns - indent_size; strm.EOL(); strm.Indent(); } else { strm.PutChar(text[i]); chars_left--; } } strm.EOL(); strm.IndentLess(indent_size); } void CommandInterpreter::FindCommandsForApropos (const char *search_word, StringList &commands_found, StringList &commands_help, bool search_builtin_commands, bool search_user_commands) { CommandObject::CommandMap::const_iterator pos; if (search_builtin_commands) { for (pos = m_command_dict.begin(); pos != m_command_dict.end(); ++pos) { const char *command_name = pos->first.c_str(); CommandObject *cmd_obj = pos->second.get(); if (cmd_obj->HelpTextContainsWord (search_word)) { commands_found.AppendString (command_name); commands_help.AppendString (cmd_obj->GetHelp()); } if (cmd_obj->IsMultiwordObject()) cmd_obj->AproposAllSubCommands (command_name, search_word, commands_found, commands_help); } } if (search_user_commands) { for (pos = m_user_dict.begin(); pos != m_user_dict.end(); ++pos) { const char *command_name = pos->first.c_str(); CommandObject *cmd_obj = pos->second.get(); if (cmd_obj->HelpTextContainsWord (search_word)) { commands_found.AppendString (command_name); commands_help.AppendString (cmd_obj->GetHelp()); } if (cmd_obj->IsMultiwordObject()) cmd_obj->AproposAllSubCommands (command_name, search_word, commands_found, commands_help); } } } void CommandInterpreter::UpdateExecutionContext (ExecutionContext *override_context) { if (override_context != NULL) { m_exe_ctx_ref = *override_context; } else { const bool adopt_selected = true; m_exe_ctx_ref.SetTargetPtr (m_debugger.GetSelectedTarget().get(), adopt_selected); } } size_t CommandInterpreter::GetProcessOutput () { // The process has stuff waiting for stderr; get it and write it out to the appropriate place. char stdio_buffer[1024]; size_t len; size_t total_bytes = 0; Error error; TargetSP target_sp (m_debugger.GetTargetList().GetSelectedTarget()); if (target_sp) { ProcessSP process_sp (target_sp->GetProcessSP()); if (process_sp) { while ((len = process_sp->GetSTDOUT (stdio_buffer, sizeof (stdio_buffer), error)) > 0) { size_t bytes_written = len; m_debugger.GetOutputFile()->Write (stdio_buffer, bytes_written); total_bytes += len; } while ((len = process_sp->GetSTDERR (stdio_buffer, sizeof (stdio_buffer), error)) > 0) { size_t bytes_written = len; m_debugger.GetErrorFile()->Write (stdio_buffer, bytes_written); total_bytes += len; } } } return total_bytes; } void CommandInterpreter::IOHandlerInputComplete (IOHandler &io_handler, std::string &line) { const bool is_interactive = io_handler.GetIsInteractive(); if (is_interactive == false) { // When we are not interactive, don't execute blank lines. This will happen // sourcing a commands file. We don't want blank lines to repeat the previous // command and cause any errors to occur (like redefining an alias, get an error // and stop parsing the commands file). if (line.empty()) return; // When using a non-interactive file handle (like when sourcing commands from a file) // we need to echo the command out so we don't just see the command output and no // command... if (io_handler.GetFlags().Test(eHandleCommandFlagEchoCommand)) io_handler.GetOutputStreamFile()->Printf("%s%s\n", io_handler.GetPrompt(), line.c_str()); } lldb_private::CommandReturnObject result; HandleCommand(line.c_str(), eLazyBoolCalculate, result); // Now emit the command output text from the command we just executed if (io_handler.GetFlags().Test(eHandleCommandFlagPrintResult)) { // Display any STDOUT/STDERR _prior_ to emitting the command result text GetProcessOutput (); if (!result.GetImmediateOutputStream()) { const char *output = result.GetOutputData(); if (output && output[0]) io_handler.GetOutputStreamFile()->PutCString(output); } // Now emit the command error text from the command we just executed if (!result.GetImmediateErrorStream()) { const char *error = result.GetErrorData(); if (error && error[0]) io_handler.GetErrorStreamFile()->PutCString(error); } } switch (result.GetStatus()) { case eReturnStatusInvalid: case eReturnStatusSuccessFinishNoResult: case eReturnStatusSuccessFinishResult: case eReturnStatusStarted: break; case eReturnStatusSuccessContinuingNoResult: case eReturnStatusSuccessContinuingResult: if (io_handler.GetFlags().Test(eHandleCommandFlagStopOnContinue)) io_handler.SetIsDone(true); break; case eReturnStatusFailed: if (io_handler.GetFlags().Test(eHandleCommandFlagStopOnError)) io_handler.SetIsDone(true); break; case eReturnStatusQuit: io_handler.SetIsDone(true); break; } } void CommandInterpreter::GetLLDBCommandsFromIOHandler (const char *prompt, IOHandlerDelegate &delegate, bool asynchronously, void *baton) { Debugger &debugger = GetDebugger(); IOHandlerSP io_handler_sp (new IOHandlerEditline (debugger, "lldb", // Name of input reader for history prompt, // Prompt true, // Get multiple lines delegate)); // IOHandlerDelegate if (io_handler_sp) { io_handler_sp->SetUserData (baton); if (asynchronously) debugger.PushIOHandler(io_handler_sp); else debugger.RunIOHandler(io_handler_sp); } } void CommandInterpreter::GetPythonCommandsFromIOHandler (const char *prompt, IOHandlerDelegate &delegate, bool asynchronously, void *baton) { Debugger &debugger = GetDebugger(); IOHandlerSP io_handler_sp (new IOHandlerEditline (debugger, "lldb-python", // Name of input reader for history prompt, // Prompt true, // Get multiple lines delegate)); // IOHandlerDelegate if (io_handler_sp) { io_handler_sp->SetUserData (baton); if (asynchronously) debugger.PushIOHandler(io_handler_sp); else debugger.RunIOHandler(io_handler_sp); } } bool CommandInterpreter::IsActive () { return m_debugger.IsTopIOHandler (m_command_io_handler_sp); } void CommandInterpreter::RunCommandInterpreter(bool auto_handle_events, bool spawn_thread) { const bool multiple_lines = false; // Only get one line at a time if (!m_command_io_handler_sp) m_command_io_handler_sp.reset(new IOHandlerEditline (m_debugger, m_debugger.GetInputFile(), m_debugger.GetOutputFile(), m_debugger.GetErrorFile(), eHandleCommandFlagEchoCommand | eHandleCommandFlagPrintResult, "lldb", m_debugger.GetPrompt(), multiple_lines, *this)); m_debugger.PushIOHandler(m_command_io_handler_sp); if (auto_handle_events) m_debugger.StartEventHandlerThread(); if (spawn_thread) { m_debugger.StartIOHandlerThread(); } else { m_debugger.ExecuteIOHanders(); if (auto_handle_events) m_debugger.StopEventHandlerThread(); } }