llvm-project/lldb/source/Interpreter/CommandInterpreter.cpp

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//===-- 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 <string>
#include <vector>
#include <getopt.h>
#include <stdlib.h>
#include "../Commands/CommandObjectApropos.h"
#include "../Commands/CommandObjectArgs.h"
#include "../Commands/CommandObjectBreakpoint.h"
This is a major refactoring of the expression parser. The goal is to separate the parser's data from the data belonging to the parser's clients. This allows clients to use the parser to obtain (for example) a JIT compiled function or some DWARF code, and then discard the parser state. Previously, parser state was held in ClangExpression and used liberally by ClangFunction, which inherited from ClangExpression. The main effects of this refactoring are: - reducing ClangExpression to an abstract class that declares methods that any client must expose to the expression parser, - moving the code specific to implementing the "expr" command from ClangExpression and CommandObjectExpression into ClangUserExpression, a new class, - moving the common parser interaction code from ClangExpression into ClangExpressionParser, a new class, and - making ClangFunction rely only on ClangExpressionParser and not depend on the internal implementation of ClangExpression. Side effects include: - the compiler interaction code has been factored out of ClangFunction and is now in an AST pass (ASTStructExtractor), - the header file for ClangFunction is now fully documented, - several bugs that only popped up when Clang was deallocated (which never happened, since the lifetime of the compiler was essentially infinite) are now fixed, and - the developer-only "call" command has been disabled. I have tested the expr command and the Objective-C step-into code, which use ClangUserExpression and ClangFunction, respectively, and verified that they work. Please let me know if you encounter bugs or poor documentation. llvm-svn: 112249
2010-08-27 09:01:44 +08:00
//#include "../Commands/CommandObjectCall.h"
#include "../Commands/CommandObjectDisassemble.h"
#include "../Commands/CommandObjectExpression.h"
#include "../Commands/CommandObjectFile.h"
#include "../Commands/CommandObjectFrame.h"
#include "../Commands/CommandObjectHelp.h"
#include "../Commands/CommandObjectImage.h"
#include "../Commands/CommandObjectLog.h"
#include "../Commands/CommandObjectMemory.h"
#include "../Commands/CommandObjectProcess.h"
#include "../Commands/CommandObjectQuit.h"
2010-06-10 06:08:29 +08:00
#include "lldb/Interpreter/CommandObjectRegexCommand.h"
#include "../Commands/CommandObjectRegister.h"
#include "CommandObjectScript.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 "lldb/Interpreter/Args.h"
#include "lldb/Core/Debugger.h"
#include "lldb/Core/InputReader.h"
#include "lldb/Core/Stream.h"
#include "lldb/Core/Timer.h"
#include "lldb/Target/Process.h"
#include "lldb/Target/Thread.h"
#include "lldb/Target/TargetList.h"
#include "lldb/Utility/CleanUp.h"
#include "lldb/Interpreter/CommandReturnObject.h"
#include "lldb/Interpreter/CommandInterpreter.h"
using namespace lldb;
using namespace lldb_private;
CommandInterpreter::CommandInterpreter
(
Debugger &debugger,
ScriptLanguage script_language,
bool synchronous_execution
) :
Broadcaster ("lldb.command-interpreter"),
m_debugger (debugger),
m_synchronous_execution (synchronous_execution),
m_skip_lldbinit_files (false)
{
const char *dbg_name = debugger.GetInstanceName().AsCString();
std::string lang_name = ScriptInterpreter::LanguageToString (script_language);
StreamString var_name;
var_name.Printf ("[%s].script-lang", dbg_name);
debugger.GetSettingsController()->SetVariable (var_name.GetData(), lang_name.c_str(),
lldb::eVarSetOperationAssign, false,
m_debugger.GetInstanceName().AsCString());
SetEventName (eBroadcastBitThreadShouldExit, "thread-should-exit");
SetEventName (eBroadcastBitResetPrompt, "reset-prompt");
SetEventName (eBroadcastBitQuitCommandReceived, "quit");
}
void
CommandInterpreter::Initialize ()
{
Timer scoped_timer (__PRETTY_FUNCTION__, __PRETTY_FUNCTION__);
CommandReturnObject result;
LoadCommandDictionary ();
// Set up some initial aliases.
result.Clear(); HandleCommand ("command alias q quit", false, result);
result.Clear(); HandleCommand ("command alias run process launch --", false, result);
result.Clear(); HandleCommand ("command alias r process launch --", false, result);
result.Clear(); HandleCommand ("command alias c process continue", false, result);
result.Clear(); HandleCommand ("command alias continue process continue", false, result);
result.Clear(); HandleCommand ("command alias expr expression", false, result);
result.Clear(); HandleCommand ("command alias exit quit", false, result);
result.Clear(); HandleCommand ("command alias b regexp-break", false, result);
result.Clear(); HandleCommand ("command alias bt thread backtrace", false, result);
result.Clear(); HandleCommand ("command alias si thread step-inst", false, result);
result.Clear(); HandleCommand ("command alias step thread step-in", false, result);
result.Clear(); HandleCommand ("command alias s thread step-in", false, result);
result.Clear(); HandleCommand ("command alias next thread step-over", false, result);
result.Clear(); HandleCommand ("command alias n thread step-over", false, result);
result.Clear(); HandleCommand ("command alias finish thread step-out", false, result);
result.Clear(); HandleCommand ("command alias x memory read", false, result);
result.Clear(); HandleCommand ("command alias l source list", false, result);
result.Clear(); HandleCommand ("command alias list source list", false, result);
result.Clear(); HandleCommand ("command alias p frame variable", false, result);
result.Clear(); HandleCommand ("command alias print frame variable", false, result);
result.Clear(); HandleCommand ("command alias po expression -o --", false, result);
}
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__);
// **** IMPORTANT **** IMPORTANT *** IMPORTANT *** **** IMPORTANT **** IMPORTANT *** IMPORTANT ***
//
// Command objects that are used as cross reference objects (i.e. they inherit from CommandObjectCrossref)
// *MUST* be created and put into the command dictionary *BEFORE* any multi-word commands (which may use
// the cross-referencing stuff) are created!!!
//
// **** IMPORTANT **** IMPORTANT *** IMPORTANT *** **** IMPORTANT **** IMPORTANT *** IMPORTANT ***
// Command objects that inherit from CommandObjectCrossref must be created before other command objects
// are created. This is so that when another command is created that needs to go into a crossref object,
// the crossref object exists and is ready to take the cross reference. Put the cross referencing command
// objects into the CommandDictionary now, so they are ready for use when the other commands get created.
// Non-CommandObjectCrossref commands can now be created.
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["call"] = CommandObjectSP (new CommandObjectCall (*this));
m_command_dict["commands"] = CommandObjectSP (new CommandObjectMultiwordCommands (*this));
m_command_dict["disassemble"] = CommandObjectSP (new CommandObjectDisassemble (*this));
m_command_dict["expression"]= CommandObjectSP (new CommandObjectExpression (*this));
m_command_dict["file"] = CommandObjectSP (new CommandObjectFile (*this));
m_command_dict["frame"] = CommandObjectSP (new CommandObjectMultiwordFrame (*this));
m_command_dict["help"] = CommandObjectSP (new CommandObjectHelp (*this));
m_command_dict["image"] = CommandObjectSP (new CommandObjectImage (*this));
m_command_dict["log"] = CommandObjectSP (new CommandObjectLog (*this));
m_command_dict["memory"] = CommandObjectSP (new CommandObjectMemory (*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));
std::auto_ptr<CommandObjectRegexCommand>
break_regex_cmd_ap(new CommandObjectRegexCommand (*this,
"regexp-break",
"Set a breakpoint using a regular expression to specify the location.",
"regexp-break [<filename>:<linenum>]\nregexp-break [<address>]\nregexp-break <...>", 2));
if (break_regex_cmd_ap.get())
{
if (break_regex_cmd_ap->AddRegexCommand("^(.*[^[:space:]])[[:space:]]*:[[:space:]]*([[:digit:]]+)[[:space:]]*$", "breakpoint set --file '%1' --line %2") &&
break_regex_cmd_ap->AddRegexCommand("^(0x[[:xdigit:]]+)[[:space:]]*$", "breakpoint set --address %1") &&
break_regex_cmd_ap->AddRegexCommand("^[\"']?([-+]\\[.*\\])[\"']?[[:space:]]*$", "breakpoint set --name '%1'") &&
break_regex_cmd_ap->AddRegexCommand("^$", "breakpoint list") &&
break_regex_cmd_ap->AddRegexCommand("^(-.*)$", "breakpoint set %1") &&
break_regex_cmd_ap->AddRegexCommand("^(.*[^[:space:]])[[:space:]]*$", "breakpoint set --name '%1'"))
{
CommandObjectSP break_regex_cmd_sp(break_regex_cmd_ap.release());
m_command_dict[break_regex_cmd_sp->GetCommandName ()] = break_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 ret_val;
std::string cmd(cmd_cstr);
if (HasCommands())
{
pos = m_command_dict.find(cmd);
if (pos != m_command_dict.end())
ret_val = pos->second;
}
if (include_aliases && HasAliases())
{
pos = m_alias_dict.find(cmd);
if (pos != m_alias_dict.end())
ret_val = pos->second;
}
if (HasUserCommands())
{
pos = m_user_dict.find(cmd);
if (pos != m_user_dict.end())
ret_val = pos->second;
}
if (!exact && ret_val == NULL)
{
// 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 && ret_val != NULL)
{
matches->AppendString (cmd_cstr);
}
return ret_val;
}
CommandObjectSP
CommandInterpreter::GetCommandSPExact (const char *cmd_cstr, bool include_aliases)
{
return GetCommandSP(cmd_cstr, include_aliases, true, NULL);
}
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 == NULL)
{
command_obj = GetCommandSP (cmd_cstr, true, true, matches).get();
}
// Finally, if there wasn't an exact match among the aliases, look for an inexact match
// in both the commands and the aliases.
if (command_obj == NULL)
command_obj = GetCommandSP(cmd_cstr, true, false, matches).get();
return command_obj;
}
bool
CommandInterpreter::CommandExists (const char *cmd)
{
return m_command_dict.find(cmd) != m_command_dict.end();
}
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 != NULL)
{
OptionArgVector *options = option_arg_vector_sp.get();
for (int 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("<argument>") == 0)
{
help_string.Printf (" %s", value.c_str());
}
else
{
help_string.Printf (" %s", opt.c_str());
if ((value.compare ("<no-argument>") != 0)
&& (value.compare ("<need-argument") != 0))
{
help_string.Printf (" %s", value.c_str());
}
}
}
}
help_string.Printf ("'");
}
size_t
CommandInterpreter::FindLongestCommandWord (CommandObject::CommandMap &dict)
{
CommandObject::CommandMap::const_iterator pos;
CommandObject::CommandMap::const_iterator end = dict.end();
size_t max_len = 0;
for (pos = dict.begin(); pos != end; ++pos)
{
size_t len = pos->first.size();
if (max_len < len)
max_len = len;
}
return max_len;
}
void
CommandInterpreter::GetHelp (CommandReturnObject &result)
{
CommandObject::CommandMap::const_iterator pos;
result.AppendMessage("The following is a list of built-in, permanent debugger commands:");
result.AppendMessage("");
uint32_t max_len = FindLongestCommandWord (m_command_dict);
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.size() > 0)
{
result.AppendMessage("The following is a list of your current command abbreviations "
"(see 'help commands 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.size() > 0)
{
result.AppendMessage ("The following is a list of your current user-defined commands:");
result.AppendMessage("");
for (pos = m_user_dict.begin(); pos != m_user_dict.end(); ++pos)
{
result.AppendMessageWithFormat ("%s -- %s\n", pos->first.c_str(), pos->second->GetHelp());
}
result.AppendMessage("");
}
result.AppendMessage("For more information on any particular command, try 'help <command-name>'.");
}
bool
CommandInterpreter::HandleCommand
(
const char *command_line,
bool add_to_history,
CommandReturnObject &result,
ExecutionContext *override_context
)
{
LogSP log (lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_COMMANDS));
// FIXME: there should probably be a mutex to make sure only one thread can
// run the interpreter at a time.
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 <const char *, void> crash_description_cleanup(NULL, Host::SetCrashDescription);
// TODO: this should be a logging channel in lldb.
// if (DebugSelf())
// {
// result.AppendMessageWithFormat ("Processing command: %s\n", command_line);
// }
Timer scoped_timer (__PRETTY_FUNCTION__, "Handling command: %s.", command_line);
m_debugger.UpdateExecutionContext (override_context);
if (command_line == NULL || command_line[0] == '\0')
{
if (m_command_history.empty())
{
result.AppendError ("empty command");
result.SetStatus(eReturnStatusFailed);
return false;
}
else
{
command_line = m_repeat_command.c_str();
if (m_repeat_command.empty())
{
result.AppendErrorWithFormat("No auto repeat.\n");
result.SetStatus (eReturnStatusFailed);
return false;
}
}
add_to_history = false;
}
if (log)
log->Printf ("CommandInterpreter::HandleCommand, command_line = '%s'", command_line);
Args command_args(command_line);
if (command_args.GetArgumentCount() > 0)
{
std::string raw_command_string (command_line); // For commands that take raw input but may be aliased or
// have command options.
const char *command_cstr = command_args.GetArgumentAtIndex(0);
if (command_cstr)
{
// We're looking up the command object here. So first find an exact match to the
// command in the commands.
CommandObject *command_obj = GetCommandObject(command_cstr);
if (command_obj != NULL)
{
// Strip command name from the raw_command_string.
if (raw_command_string.find (command_cstr) == 0)
{
// The command name is at the front of the string (where it should be) so strip it off.
raw_command_string = raw_command_string.substr (strlen (command_cstr));
}
std::string aliased_cmd_str;
if (command_obj->IsAlias())
{
if (log)
log->Printf ("Command '%s' is an alias. Building alias command args.", command_cstr);
BuildAliasCommandArgs (command_obj, command_cstr, command_args, raw_command_string, result);
if (!result.Succeeded())
{
if (log)
log->Printf ("Building alias command args failed.");
return false;
}
else
{
// We need to transfer the newly constructed args back into the command_line, in case
// this happens to be an alias for a command that takes raw input.
if (command_args.GetCommandString (aliased_cmd_str))
{
if (log)
log->Printf ("Result string from BuildAliasCommandArgs is '%s'", aliased_cmd_str.c_str());
if (command_obj->WantsRawCommandString())
{
if (log)
{
log->Printf ("This command takes raw input.");
}
aliased_cmd_str.append (" ");
aliased_cmd_str.append (raw_command_string);
}
else
{
if (log)
log->Printf ("This command does NOT take raw input.");
}
command_line = aliased_cmd_str.c_str();
command_cstr = command_args.GetArgumentAtIndex (0);
if (log)
{
log->Printf ("Final command line, after resolving aliases is '%s'", command_line);
}
}
}
}
if (add_to_history)
{
const char *repeat_command = command_obj->GetRepeatCommand(command_args, 0);
if (repeat_command != NULL)
m_repeat_command.assign(repeat_command);
else
m_repeat_command.assign(command_line);
m_command_history.push_back (command_line);
}
if (command_obj->WantsRawCommandString())
{
const char *stripped_command = ::strstr (command_line, command_cstr);
if (stripped_command)
{
stripped_command += strlen(command_cstr);
while (isspace(*stripped_command))
++stripped_command;
if (log)
log->Printf ("Input string being passed to ExecuteRawCommandString for '%s' command is '%s'",
command_obj->GetCommandName(), stripped_command);
command_obj->ExecuteRawCommandString (stripped_command, result);
}
}
else
{
// Remove the command from the args.
command_args.Shift();
if (log)
{
size_t count = command_args.GetArgumentCount();
log->Printf ("ExecuteWithOptions for '%s' command is being called with %d args:",
command_obj->GetCommandName(), count);
for (size_t k = 0; k < count; ++k)
log->Printf (" arg[%d]='%s'", k, command_args.GetArgumentAtIndex (k));
}
command_obj->ExecuteWithOptions (command_args, result);
}
}
else
{
// We didn't find the first command object, so complete the first argument.
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_cstr);
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(), error_msg.size());
}
else
result.AppendErrorWithFormat ("Unrecognized command '%s'.\n", command_cstr);
result.SetStatus (eReturnStatusFailed);
}
}
}
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)
{
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);
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));
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);
int 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 ()
{
}
const char *
CommandInterpreter::GetPrompt ()
{
return m_debugger.GetPrompt();
}
void
CommandInterpreter::SetPrompt (const char *new_prompt)
{
m_debugger.SetPrompt (new_prompt);
}
size_t
CommandInterpreter::GetConfirmationInputReaderCallback (void *baton,
InputReader &reader,
lldb::InputReaderAction action,
const char *bytes,
size_t bytes_len)
{
FILE *out_fh = reader.GetDebugger().GetOutputFileHandle();
bool *response_ptr = (bool *) baton;
switch (action)
{
case eInputReaderActivate:
if (out_fh)
{
if (reader.GetPrompt())
::fprintf (out_fh, "%s", reader.GetPrompt());
}
break;
case eInputReaderDeactivate:
break;
case eInputReaderReactivate:
if (out_fh && reader.GetPrompt())
::fprintf (out_fh, "%s", reader.GetPrompt());
break;
case eInputReaderGotToken:
if (bytes_len == 0)
{
reader.SetIsDone(true);
}
else if (bytes[0] == 'y')
{
*response_ptr = true;
reader.SetIsDone(true);
}
else if (bytes[0] == 'n')
{
*response_ptr = false;
reader.SetIsDone(true);
}
else
{
if (out_fh && !reader.IsDone() && reader.GetPrompt())
{
::fprintf (out_fh, "Please answer \"y\" or \"n\"\n");
::fprintf (out_fh, "%s", reader.GetPrompt());
}
}
break;
case eInputReaderInterrupt:
case eInputReaderEndOfFile:
*response_ptr = false; // Assume ^C or ^D means cancel the proposed action
reader.SetIsDone (true);
break;
case eInputReaderDone:
break;
}
return bytes_len;
}
bool
CommandInterpreter::Confirm (const char *message, bool default_answer)
{
// Check AutoConfirm first:
if (m_debugger.GetAutoConfirm())
return default_answer;
InputReaderSP reader_sp (new InputReader(GetDebugger()));
bool response = default_answer;
if (reader_sp)
{
std::string prompt(message);
prompt.append(": [");
if (default_answer)
prompt.append ("Y/n] ");
else
prompt.append ("y/N] ");
Error err (reader_sp->Initialize (CommandInterpreter::GetConfirmationInputReaderCallback,
&response, // baton
eInputReaderGranularityLine, // token size, to pass to callback function
NULL, // end token
prompt.c_str(), // prompt
true)); // echo input
if (err.Success())
{
GetDebugger().PushInputReader (reader_sp);
}
reader_sp->WaitOnReaderIsDone();
}
return response;
}
void
CommandInterpreter::CrossRegisterCommand (const char * dest_cmd, const char * object_type)
{
CommandObjectSP cmd_obj_sp = GetCommandSPExact (dest_cmd, true);
if (cmd_obj_sp != NULL)
{
CommandObject *cmd_obj = cmd_obj_sp.get();
if (cmd_obj->IsCrossRefObject ())
cmd_obj->AddObject (object_type);
}
}
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();
int old_size = cmd_args.GetArgumentCount();
std::vector<bool> used (old_size + 1, false);
used[0] = true;
for (int 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 ("<argument>") == 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 != optional_argument)
new_args.AppendArgument (option.c_str());
if (value.compare ("<no-argument>") != 0)
{
int index = GetOptionArgumentPosition (value.c_str());
if (index == 0)
{
// value was NOT a positional argument; must be a real value
if (value_type != optional_argument)
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 != optional_argument)
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 (int 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)
{
// Don't parse any .lldbinit files if we were asked not to
if (m_skip_lldbinit_files)
return;
const char *init_file_path = in_cwd ? "./.lldbinit" : "~/.lldbinit";
FileSpec init_file (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())
{
char path[PATH_MAX];
init_file.GetPath(path, sizeof(path));
StreamString source_command;
source_command.Printf ("command source '%s'", path);
HandleCommand (source_command.GetData(), false, result);
}
else
{
// nothing to be done if the file doesn't exist
result.SetStatus(eReturnStatusSuccessFinishNoResult);
}
}
ScriptInterpreter *
CommandInterpreter::GetScriptInterpreter ()
{
CommandObject::CommandMap::iterator pos;
pos = m_command_dict.find ("script");
if (pos != m_command_dict.end())
{
CommandObject *script_cmd_obj = pos->second.get();
return ((CommandObjectScript *) script_cmd_obj)->GetInterpreter ();
}
return NULL;
}
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,
uint32_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);
int len = indent_size + strlen (help_text) + 1;
char *text = (char *) malloc (len);
sprintf (text, "%-*s %s %s", max_word_len, word_text, separator, help_text);
if (text[len - 1] == '\n')
text[--len] = '\0';
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;
int start = 0;
int end = start;
int final_end = strlen (text);
int sub_len;
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--;
}
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);
free (text);
}
void
CommandInterpreter::AproposAllSubCommands (CommandObject *cmd_obj, const char *prefix, const char *search_word,
StringList &commands_found, StringList &commands_help)
{
CommandObject::CommandMap::const_iterator pos;
CommandObject::CommandMap sub_cmd_dict = ((CommandObjectMultiword *) cmd_obj)->m_subcommand_dict;
CommandObject *sub_cmd_obj;
for (pos = sub_cmd_dict.begin(); pos != sub_cmd_dict.end(); ++pos)
{
const char * command_name = pos->first.c_str();
sub_cmd_obj = pos->second.get();
StreamString complete_command_name;
complete_command_name.Printf ("%s %s", prefix, command_name);
if (sub_cmd_obj->HelpTextContainsWord (search_word))
{
commands_found.AppendString (complete_command_name.GetData());
commands_help.AppendString (sub_cmd_obj->GetHelp());
}
if (sub_cmd_obj->IsMultiwordObject())
AproposAllSubCommands (sub_cmd_obj, complete_command_name.GetData(), search_word, commands_found,
commands_help);
}
}
void
CommandInterpreter::FindCommandsForApropos (const char *search_word, StringList &commands_found,
StringList &commands_help)
{
CommandObject::CommandMap::const_iterator pos;
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())
AproposAllSubCommands (cmd_obj, command_name, search_word, commands_found, commands_help);
}
}