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| //===-- StructuredDataDarwinLog.cpp -----------------------------*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "StructuredDataDarwinLog.h"
#include <string.h>
#include <memory>
#include <sstream>
#include "lldb/Breakpoint/StoppointCallbackContext.h"
#include "lldb/Core/Debugger.h"
#include "lldb/Core/Module.h"
#include "lldb/Core/PluginManager.h"
#include "lldb/Host/OptionParser.h"
#include "lldb/Interpreter/CommandInterpreter.h"
#include "lldb/Interpreter/CommandObjectMultiword.h"
#include "lldb/Interpreter/CommandReturnObject.h"
#include "lldb/Interpreter/OptionArgParser.h"
#include "lldb/Interpreter/OptionValueProperties.h"
#include "lldb/Interpreter/OptionValueString.h"
#include "lldb/Interpreter/Property.h"
#include "lldb/Target/Process.h"
#include "lldb/Target/Target.h"
#include "lldb/Target/ThreadPlanCallOnFunctionExit.h"
#include "lldb/Utility/Log.h"
#include "lldb/Utility/RegularExpression.h"
#define DARWIN_LOG_TYPE_VALUE "DarwinLog"
using namespace lldb;
using namespace lldb_private;
#pragma mark -
#pragma mark Anonymous Namespace
// Anonymous namespace
namespace sddarwinlog_private {
const uint64_t NANOS_PER_MICRO = 1000;
const uint64_t NANOS_PER_MILLI = NANOS_PER_MICRO * 1000;
const uint64_t NANOS_PER_SECOND = NANOS_PER_MILLI * 1000;
const uint64_t NANOS_PER_MINUTE = NANOS_PER_SECOND * 60;
const uint64_t NANOS_PER_HOUR = NANOS_PER_MINUTE * 60;
static bool DEFAULT_FILTER_FALLTHROUGH_ACCEPTS = true;
/// Global, sticky enable switch. If true, the user has explicitly
/// run the enable command. When a process launches or is attached to,
/// we will enable DarwinLog if either the settings for auto-enable is
/// on, or if the user had explicitly run enable at some point prior
/// to the launch/attach.
static bool s_is_explicitly_enabled;
class EnableOptions;
using EnableOptionsSP = std::shared_ptr<EnableOptions>;
using OptionsMap =
std::map<DebuggerWP, EnableOptionsSP, std::owner_less<DebuggerWP>>;
static OptionsMap &GetGlobalOptionsMap() {
static OptionsMap s_options_map;
return s_options_map;
}
static std::mutex &GetGlobalOptionsMapLock() {
static std::mutex s_options_map_lock;
return s_options_map_lock;
}
EnableOptionsSP GetGlobalEnableOptions(const DebuggerSP &debugger_sp) {
if (!debugger_sp)
return EnableOptionsSP();
std::lock_guard<std::mutex> locker(GetGlobalOptionsMapLock());
OptionsMap &options_map = GetGlobalOptionsMap();
DebuggerWP debugger_wp(debugger_sp);
auto find_it = options_map.find(debugger_wp);
if (find_it != options_map.end())
return find_it->second;
else
return EnableOptionsSP();
}
void SetGlobalEnableOptions(const DebuggerSP &debugger_sp,
const EnableOptionsSP &options_sp) {
std::lock_guard<std::mutex> locker(GetGlobalOptionsMapLock());
OptionsMap &options_map = GetGlobalOptionsMap();
DebuggerWP debugger_wp(debugger_sp);
auto find_it = options_map.find(debugger_wp);
if (find_it != options_map.end())
find_it->second = options_sp;
else
options_map.insert(std::make_pair(debugger_wp, options_sp));
}
#pragma mark -
#pragma mark Settings Handling
/// Code to handle the StructuredDataDarwinLog settings
#define LLDB_PROPERTIES_darwinlog
#include "StructuredDataDarwinLogProperties.inc"
enum {
#define LLDB_PROPERTIES_darwinlog
#include "StructuredDataDarwinLogPropertiesEnum.inc"
};
class StructuredDataDarwinLogProperties : public Properties {
public:
static ConstString &GetSettingName() {
static ConstString g_setting_name("darwin-log");
return g_setting_name;
}
StructuredDataDarwinLogProperties() : Properties() {
m_collection_sp = std::make_shared<OptionValueProperties>(GetSettingName());
m_collection_sp->Initialize(g_darwinlog_properties);
}
~StructuredDataDarwinLogProperties() override {}
bool GetEnableOnStartup() const {
const uint32_t idx = ePropertyEnableOnStartup;
return m_collection_sp->GetPropertyAtIndexAsBoolean(
nullptr, idx, g_darwinlog_properties[idx].default_uint_value != 0);
}
llvm::StringRef GetAutoEnableOptions() const {
const uint32_t idx = ePropertyAutoEnableOptions;
return m_collection_sp->GetPropertyAtIndexAsString(
nullptr, idx, g_darwinlog_properties[idx].default_cstr_value);
}
const char *GetLoggingModuleName() const { return "libsystem_trace.dylib"; }
};
using StructuredDataDarwinLogPropertiesSP =
std::shared_ptr<StructuredDataDarwinLogProperties>;
static const StructuredDataDarwinLogPropertiesSP &GetGlobalProperties() {
static StructuredDataDarwinLogPropertiesSP g_settings_sp;
if (!g_settings_sp)
g_settings_sp = std::make_shared<StructuredDataDarwinLogProperties>();
return g_settings_sp;
}
const char *const s_filter_attributes[] = {
"activity", // current activity
"activity-chain", // entire activity chain, each level separated by ':'
"category", // category of the log message
"message", // message contents, fully expanded
"subsystem" // subsystem of the log message
// Consider implementing this action as it would be cheaper to filter.
// "message" requires always formatting the message, which is a waste of
// cycles if it ends up being rejected. "format", // format string
// used to format message text
};
static ConstString GetDarwinLogTypeName() {
static const ConstString s_key_name("DarwinLog");
return s_key_name;
}
static ConstString GetLogEventType() {
static const ConstString s_event_type("log");
return s_event_type;
}
class FilterRule;
using FilterRuleSP = std::shared_ptr<FilterRule>;
class FilterRule {
public:
virtual ~FilterRule() {}
using OperationCreationFunc =
std::function<FilterRuleSP(bool accept, size_t attribute_index,
const std::string &op_arg, Status &error)>;
static void RegisterOperation(ConstString operation,
const OperationCreationFunc &creation_func) {
GetCreationFuncMap().insert(std::make_pair(operation, creation_func));
}
static FilterRuleSP CreateRule(bool match_accepts, size_t attribute,
ConstString operation,
const std::string &op_arg, Status &error) {
// Find the creation func for this type of filter rule.
auto map = GetCreationFuncMap();
auto find_it = map.find(operation);
if (find_it == map.end()) {
error.SetErrorStringWithFormat("unknown filter operation \""
"%s\"",
operation.GetCString());
return FilterRuleSP();
}
return find_it->second(match_accepts, attribute, op_arg, error);
}
StructuredData::ObjectSP Serialize() const {
StructuredData::Dictionary *dict_p = new StructuredData::Dictionary();
// Indicate whether this is an accept or reject rule.
dict_p->AddBooleanItem("accept", m_accept);
// Indicate which attribute of the message this filter references. This can
// drop into the rule-specific DoSerialization if we get to the point where
// not all FilterRule derived classes work on an attribute. (e.g. logical
// and/or and other compound operations).
dict_p->AddStringItem("attribute", s_filter_attributes[m_attribute_index]);
// Indicate the type of the rule.
dict_p->AddStringItem("type", GetOperationType().GetCString());
// Let the rule add its own specific details here.
DoSerialization(*dict_p);
return StructuredData::ObjectSP(dict_p);
}
virtual void Dump(Stream &stream) const = 0;
ConstString GetOperationType() const { return m_operation; }
protected:
FilterRule(bool accept, size_t attribute_index, ConstString operation)
: m_accept(accept), m_attribute_index(attribute_index),
m_operation(operation) {}
virtual void DoSerialization(StructuredData::Dictionary &dict) const = 0;
bool GetMatchAccepts() const { return m_accept; }
const char *GetFilterAttribute() const {
return s_filter_attributes[m_attribute_index];
}
private:
using CreationFuncMap = std::map<ConstString, OperationCreationFunc>;
static CreationFuncMap &GetCreationFuncMap() {
static CreationFuncMap s_map;
return s_map;
}
const bool m_accept;
const size_t m_attribute_index;
const ConstString m_operation;
};
using FilterRules = std::vector<FilterRuleSP>;
class RegexFilterRule : public FilterRule {
public:
static void RegisterOperation() {
FilterRule::RegisterOperation(StaticGetOperation(), CreateOperation);
}
void Dump(Stream &stream) const override {
stream.Printf("%s %s regex %s", GetMatchAccepts() ? "accept" : "reject",
GetFilterAttribute(), m_regex_text.c_str());
}
protected:
void DoSerialization(StructuredData::Dictionary &dict) const override {
dict.AddStringItem("regex", m_regex_text);
}
private:
static FilterRuleSP CreateOperation(bool accept, size_t attribute_index,
const std::string &op_arg,
Status &error) {
// We treat the op_arg as a regex. Validate it.
if (op_arg.empty()) {
error.SetErrorString("regex filter type requires a regex "
"argument");
return FilterRuleSP();
}
// Instantiate the regex so we can report any errors.
auto regex = RegularExpression(op_arg);
if (llvm::Error err = regex.GetError()) {
error.SetErrorString(llvm::toString(std::move(err)));
return FilterRuleSP();
}
// We passed all our checks, this appears fine.
error.Clear();
return FilterRuleSP(new RegexFilterRule(accept, attribute_index, op_arg));
}
static ConstString StaticGetOperation() {
static ConstString s_operation("regex");
return s_operation;
}
RegexFilterRule(bool accept, size_t attribute_index,
const std::string ®ex_text)
: FilterRule(accept, attribute_index, StaticGetOperation()),
m_regex_text(regex_text) {}
const std::string m_regex_text;
};
class ExactMatchFilterRule : public FilterRule {
public:
static void RegisterOperation() {
FilterRule::RegisterOperation(StaticGetOperation(), CreateOperation);
}
void Dump(Stream &stream) const override {
stream.Printf("%s %s match %s", GetMatchAccepts() ? "accept" : "reject",
GetFilterAttribute(), m_match_text.c_str());
}
protected:
void DoSerialization(StructuredData::Dictionary &dict) const override {
dict.AddStringItem("exact_text", m_match_text);
}
private:
static FilterRuleSP CreateOperation(bool accept, size_t attribute_index,
const std::string &op_arg,
Status &error) {
if (op_arg.empty()) {
error.SetErrorString("exact match filter type requires an "
"argument containing the text that must "
"match the specified message attribute.");
return FilterRuleSP();
}
error.Clear();
return FilterRuleSP(
new ExactMatchFilterRule(accept, attribute_index, op_arg));
}
static ConstString StaticGetOperation() {
static ConstString s_operation("match");
return s_operation;
}
ExactMatchFilterRule(bool accept, size_t attribute_index,
const std::string &match_text)
: FilterRule(accept, attribute_index, StaticGetOperation()),
m_match_text(match_text) {}
const std::string m_match_text;
};
static void RegisterFilterOperations() {
ExactMatchFilterRule::RegisterOperation();
RegexFilterRule::RegisterOperation();
}
// =========================================================================
// Commands
// =========================================================================
/// Provides the main on-off switch for enabling darwin logging.
///
/// It is valid to run the enable command when logging is already enabled.
/// This resets the logging with whatever settings are currently set.
static constexpr OptionDefinition g_enable_option_table[] = {
// Source stream include/exclude options (the first-level filter). This one
// should be made as small as possible as everything that goes through here
// must be processed by the process monitor.
{LLDB_OPT_SET_ALL, false, "any-process", 'a', OptionParser::eNoArgument,
nullptr, {}, 0, eArgTypeNone,
"Specifies log messages from other related processes should be "
"included."},
{LLDB_OPT_SET_ALL, false, "debug", 'd', OptionParser::eNoArgument, nullptr,
{}, 0, eArgTypeNone,
"Specifies debug-level log messages should be included. Specifying"
" --debug implies --info."},
{LLDB_OPT_SET_ALL, false, "info", 'i', OptionParser::eNoArgument, nullptr,
{}, 0, eArgTypeNone,
"Specifies info-level log messages should be included."},
{LLDB_OPT_SET_ALL, false, "filter", 'f', OptionParser::eRequiredArgument,
nullptr, {}, 0, eArgRawInput,
// There doesn't appear to be a great way for me to have these multi-line,
// formatted tables in help. This looks mostly right but there are extra
// linefeeds added at seemingly random spots, and indentation isn't
// handled properly on those lines.
"Appends a filter rule to the log message filter chain. Multiple "
"rules may be added by specifying this option multiple times, "
"once per filter rule. Filter rules are processed in the order "
"they are specified, with the --no-match-accepts setting used "
"for any message that doesn't match one of the rules.\n"
"\n"
" Filter spec format:\n"
"\n"
" --filter \"{action} {attribute} {op}\"\n"
"\n"
" {action} :=\n"
" accept |\n"
" reject\n"
"\n"
" {attribute} :=\n"
" activity | // message's most-derived activity\n"
" activity-chain | // message's {parent}:{child} activity\n"
" category | // message's category\n"
" message | // message's expanded contents\n"
" subsystem | // message's subsystem\n"
"\n"
" {op} :=\n"
" match {exact-match-text} |\n"
" regex {search-regex}\n"
"\n"
"The regex flavor used is the C++ std::regex ECMAScript format. "
"Prefer character classes like [[:digit:]] to \\d and the like, as "
"getting the backslashes escaped through properly is error-prone."},
{LLDB_OPT_SET_ALL, false, "live-stream", 'l',
OptionParser::eRequiredArgument, nullptr, {}, 0, eArgTypeBoolean,
"Specify whether logging events are live-streamed or buffered. "
"True indicates live streaming, false indicates buffered. The "
"default is true (live streaming). Live streaming will deliver "
"log messages with less delay, but buffered capture mode has less "
"of an observer effect."},
{LLDB_OPT_SET_ALL, false, "no-match-accepts", 'n',
OptionParser::eRequiredArgument, nullptr, {}, 0, eArgTypeBoolean,
"Specify whether a log message that doesn't match any filter rule "
"is accepted or rejected, where true indicates accept. The "
"default is true."},
{LLDB_OPT_SET_ALL, false, "echo-to-stderr", 'e',
OptionParser::eRequiredArgument, nullptr, {}, 0, eArgTypeBoolean,
"Specify whether os_log()/NSLog() messages are echoed to the "
"target program's stderr. When DarwinLog is enabled, we shut off "
"the mirroring of os_log()/NSLog() to the program's stderr. "
"Setting this flag to true will restore the stderr mirroring."
"The default is false."},
{LLDB_OPT_SET_ALL, false, "broadcast-events", 'b',
OptionParser::eRequiredArgument, nullptr, {}, 0, eArgTypeBoolean,
"Specify if the plugin should broadcast events. Broadcasting "
"log events is a requirement for displaying the log entries in "
"LLDB command-line. It is also required if LLDB clients want to "
"process log events. The default is true."},
// Message formatting options
{LLDB_OPT_SET_ALL, false, "timestamp-relative", 'r',
OptionParser::eNoArgument, nullptr, {}, 0, eArgTypeNone,
"Include timestamp in the message header when printing a log "
"message. The timestamp is relative to the first displayed "
"message."},
{LLDB_OPT_SET_ALL, false, "subsystem", 's', OptionParser::eNoArgument,
nullptr, {}, 0, eArgTypeNone,
"Include the subsystem in the message header when displaying "
"a log message."},
{LLDB_OPT_SET_ALL, false, "category", 'c', OptionParser::eNoArgument,
nullptr, {}, 0, eArgTypeNone,
"Include the category in the message header when displaying "
"a log message."},
{LLDB_OPT_SET_ALL, false, "activity-chain", 'C', OptionParser::eNoArgument,
nullptr, {}, 0, eArgTypeNone,
"Include the activity parent-child chain in the message header "
"when displaying a log message. The activity hierarchy is "
"displayed as {grandparent-activity}:"
"{parent-activity}:{activity}[:...]."},
{LLDB_OPT_SET_ALL, false, "all-fields", 'A', OptionParser::eNoArgument,
nullptr, {}, 0, eArgTypeNone,
"Shortcut to specify that all header fields should be displayed."}};
class EnableOptions : public Options {
public:
EnableOptions()
: Options(), m_include_debug_level(false), m_include_info_level(false),
m_include_any_process(false),
m_filter_fall_through_accepts(DEFAULT_FILTER_FALLTHROUGH_ACCEPTS),
m_echo_to_stderr(false), m_display_timestamp_relative(false),
m_display_subsystem(false), m_display_category(false),
m_display_activity_chain(false), m_broadcast_events(true),
m_live_stream(true), m_filter_rules() {}
void OptionParsingStarting(ExecutionContext *execution_context) override {
m_include_debug_level = false;
m_include_info_level = false;
m_include_any_process = false;
m_filter_fall_through_accepts = DEFAULT_FILTER_FALLTHROUGH_ACCEPTS;
m_echo_to_stderr = false;
m_display_timestamp_relative = false;
m_display_subsystem = false;
m_display_category = false;
m_display_activity_chain = false;
m_broadcast_events = true;
m_live_stream = true;
m_filter_rules.clear();
}
Status SetOptionValue(uint32_t option_idx, llvm::StringRef option_arg,
ExecutionContext *execution_context) override {
Status error;
const int short_option = m_getopt_table[option_idx].val;
switch (short_option) {
case 'a':
m_include_any_process = true;
break;
case 'A':
m_display_timestamp_relative = true;
m_display_category = true;
m_display_subsystem = true;
m_display_activity_chain = true;
break;
case 'b':
m_broadcast_events =
OptionArgParser::ToBoolean(option_arg, true, nullptr);
break;
case 'c':
m_display_category = true;
break;
case 'C':
m_display_activity_chain = true;
break;
case 'd':
m_include_debug_level = true;
break;
case 'e':
m_echo_to_stderr = OptionArgParser::ToBoolean(option_arg, false, nullptr);
break;
case 'f':
return ParseFilterRule(option_arg);
case 'i':
m_include_info_level = true;
break;
case 'l':
m_live_stream = OptionArgParser::ToBoolean(option_arg, false, nullptr);
break;
case 'n':
m_filter_fall_through_accepts =
OptionArgParser::ToBoolean(option_arg, true, nullptr);
break;
case 'r':
m_display_timestamp_relative = true;
break;
case 's':
m_display_subsystem = true;
break;
default:
error.SetErrorStringWithFormat("unsupported option '%c'", short_option);
}
return error;
}
llvm::ArrayRef<OptionDefinition> GetDefinitions() override {
return llvm::makeArrayRef(g_enable_option_table);
}
StructuredData::DictionarySP BuildConfigurationData(bool enabled) {
StructuredData::DictionarySP config_sp(new StructuredData::Dictionary());
// Set the basic enabled state.
config_sp->AddBooleanItem("enabled", enabled);
// If we're disabled, there's nothing more to add.
if (!enabled)
return config_sp;
// Handle source stream flags.
auto source_flags_sp =
StructuredData::DictionarySP(new StructuredData::Dictionary());
config_sp->AddItem("source-flags", source_flags_sp);
source_flags_sp->AddBooleanItem("any-process", m_include_any_process);
source_flags_sp->AddBooleanItem("debug-level", m_include_debug_level);
// The debug-level flag, if set, implies info-level.
source_flags_sp->AddBooleanItem("info-level", m_include_info_level ||
m_include_debug_level);
source_flags_sp->AddBooleanItem("live-stream", m_live_stream);
// Specify default filter rule (the fall-through)
config_sp->AddBooleanItem("filter-fall-through-accepts",
m_filter_fall_through_accepts);
// Handle filter rules
if (!m_filter_rules.empty()) {
auto json_filter_rules_sp =
StructuredData::ArraySP(new StructuredData::Array);
config_sp->AddItem("filter-rules", json_filter_rules_sp);
for (auto &rule_sp : m_filter_rules) {
if (!rule_sp)
continue;
json_filter_rules_sp->AddItem(rule_sp->Serialize());
}
}
return config_sp;
}
bool GetIncludeDebugLevel() const { return m_include_debug_level; }
bool GetIncludeInfoLevel() const {
// Specifying debug level implies info level.
return m_include_info_level || m_include_debug_level;
}
const FilterRules &GetFilterRules() const { return m_filter_rules; }
bool GetFallthroughAccepts() const { return m_filter_fall_through_accepts; }
bool GetEchoToStdErr() const { return m_echo_to_stderr; }
bool GetDisplayTimestampRelative() const {
return m_display_timestamp_relative;
}
bool GetDisplaySubsystem() const { return m_display_subsystem; }
bool GetDisplayCategory() const { return m_display_category; }
bool GetDisplayActivityChain() const { return m_display_activity_chain; }
bool GetDisplayAnyHeaderFields() const {
return m_display_timestamp_relative || m_display_activity_chain ||
m_display_subsystem || m_display_category;
}
bool GetBroadcastEvents() const { return m_broadcast_events; }
private:
Status ParseFilterRule(llvm::StringRef rule_text) {
Status error;
if (rule_text.empty()) {
error.SetErrorString("invalid rule_text");
return error;
}
// filter spec format:
//
// {action} {attribute} {op}
//
// {action} :=
// accept |
// reject
//
// {attribute} :=
// category |
// subsystem |
// activity |
// activity-chain |
// message |
// format
//
// {op} :=
// match {exact-match-text} |
// regex {search-regex}
// Parse action.
auto action_end_pos = rule_text.find(" ");
if (action_end_pos == std::string::npos) {
error.SetErrorStringWithFormat("could not parse filter rule "
"action from \"%s\"",
rule_text.str().c_str());
return error;
}
auto action = rule_text.substr(0, action_end_pos);
bool accept;
if (action == "accept")
accept = true;
else if (action == "reject")
accept = false;
else {
error.SetErrorString("filter action must be \"accept\" or \"deny\"");
return error;
}
// parse attribute
auto attribute_end_pos = rule_text.find(" ", action_end_pos + 1);
if (attribute_end_pos == std::string::npos) {
error.SetErrorStringWithFormat("could not parse filter rule "
"attribute from \"%s\"",
rule_text.str().c_str());
return error;
}
auto attribute = rule_text.substr(action_end_pos + 1,
attribute_end_pos - (action_end_pos + 1));
auto attribute_index = MatchAttributeIndex(attribute);
if (attribute_index < 0) {
error.SetErrorStringWithFormat("filter rule attribute unknown: "
"%s",
attribute.str().c_str());
return error;
}
// parse operation
auto operation_end_pos = rule_text.find(" ", attribute_end_pos + 1);
auto operation = rule_text.substr(
attribute_end_pos + 1, operation_end_pos - (attribute_end_pos + 1));
// add filter spec
auto rule_sp =
FilterRule::CreateRule(accept, attribute_index, ConstString(operation),
rule_text.substr(operation_end_pos + 1), error);
if (rule_sp && error.Success())
m_filter_rules.push_back(rule_sp);
return error;
}
int MatchAttributeIndex(llvm::StringRef attribute_name) const {
for (const auto &Item : llvm::enumerate(s_filter_attributes)) {
if (attribute_name == Item.value())
return Item.index();
}
// We didn't match anything.
return -1;
}
bool m_include_debug_level;
bool m_include_info_level;
bool m_include_any_process;
bool m_filter_fall_through_accepts;
bool m_echo_to_stderr;
bool m_display_timestamp_relative;
bool m_display_subsystem;
bool m_display_category;
bool m_display_activity_chain;
bool m_broadcast_events;
bool m_live_stream;
FilterRules m_filter_rules;
};
class EnableCommand : public CommandObjectParsed {
public:
EnableCommand(CommandInterpreter &interpreter, bool enable, const char *name,
const char *help, const char *syntax)
: CommandObjectParsed(interpreter, name, help, syntax), m_enable(enable),
m_options_sp(enable ? new EnableOptions() : nullptr) {}
protected:
void AppendStrictSourcesWarning(CommandReturnObject &result,
const char *source_name) {
if (!source_name)
return;
// Check if we're *not* using strict sources. If not, then the user is
// going to get debug-level info anyways, probably not what they're
// expecting. Unfortunately we can only fix this by adding an env var,
// which would have had to have happened already. Thus, a warning is the
// best we can do here.
StreamString stream;
stream.Printf("darwin-log source settings specify to exclude "
"%s messages, but setting "
"'plugin.structured-data.darwin-log."
"strict-sources' is disabled. This process will "
"automatically have %s messages included. Enable"
" the property and relaunch the target binary to have"
" these messages excluded.",
source_name, source_name);
result.AppendWarning(stream.GetString());
}
bool DoExecute(Args &command, CommandReturnObject &result) override {
// First off, set the global sticky state of enable/disable based on this
// command execution.
s_is_explicitly_enabled = m_enable;
// Next, if this is an enable, save off the option data. We will need it
// later if a process hasn't been launched or attached yet.
if (m_enable) {
// Save off enabled configuration so we can apply these parsed options
// the next time an attach or launch occurs.
DebuggerSP debugger_sp =
GetCommandInterpreter().GetDebugger().shared_from_this();
SetGlobalEnableOptions(debugger_sp, m_options_sp);
}
// Now check if we have a running process. If so, we should instruct the
// process monitor to enable/disable DarwinLog support now.
Target &target = GetSelectedOrDummyTarget();
// Grab the active process.
auto process_sp = target.GetProcessSP();
if (!process_sp) {
// No active process, so there is nothing more to do right now.
result.SetStatus(eReturnStatusSuccessFinishNoResult);
return true;
}
// If the process is no longer alive, we can't do this now. We'll catch it
// the next time the process is started up.
if (!process_sp->IsAlive()) {
result.SetStatus(eReturnStatusSuccessFinishNoResult);
return true;
}
// Get the plugin for the process.
auto plugin_sp =
process_sp->GetStructuredDataPlugin(GetDarwinLogTypeName());
if (!plugin_sp || (plugin_sp->GetPluginName() !=
StructuredDataDarwinLog::GetStaticPluginName())) {
result.AppendError("failed to get StructuredDataPlugin for "
"the process");
result.SetStatus(eReturnStatusFailed);
}
StructuredDataDarwinLog &plugin =
*static_cast<StructuredDataDarwinLog *>(plugin_sp.get());
if (m_enable) {
// Hook up the breakpoint for the process that detects when libtrace has
// been sufficiently initialized to really start the os_log stream. This
// is insurance to assure us that logging is really enabled. Requesting
// that logging be enabled for a process before libtrace is initialized
// results in a scenario where no errors occur, but no logging is
// captured, either. This step is to eliminate that possibility.
plugin.AddInitCompletionHook(*process_sp);
}
// Send configuration to the feature by way of the process. Construct the
// options we will use.
auto config_sp = m_options_sp->BuildConfigurationData(m_enable);
const Status error =
process_sp->ConfigureStructuredData(GetDarwinLogTypeName(), config_sp);
// Report results.
if (!error.Success()) {
result.AppendError(error.AsCString());
result.SetStatus(eReturnStatusFailed);
// Our configuration failed, so we're definitely disabled.
plugin.SetEnabled(false);
} else {
result.SetStatus(eReturnStatusSuccessFinishNoResult);
// Our configuration succeeded, so we're enabled/disabled per whichever
// one this command is setup to do.
plugin.SetEnabled(m_enable);
}
return result.Succeeded();
}
Options *GetOptions() override {
// We don't have options when this represents disable.
return m_enable ? m_options_sp.get() : nullptr;
}
private:
const bool m_enable;
EnableOptionsSP m_options_sp;
};
/// Provides the status command.
class StatusCommand : public CommandObjectParsed {
public:
StatusCommand(CommandInterpreter &interpreter)
: CommandObjectParsed(interpreter, "status",
"Show whether Darwin log supported is available"
" and enabled.",
"plugin structured-data darwin-log status") {}
protected:
bool DoExecute(Args &command, CommandReturnObject &result) override {
auto &stream = result.GetOutputStream();
// Figure out if we've got a process. If so, we can tell if DarwinLog is
// available for that process.
Target &target = GetSelectedOrDummyTarget();
auto process_sp = target.GetProcessSP();
if (!process_sp) {
stream.PutCString("Availability: unknown (requires process)\n");
stream.PutCString("Enabled: not applicable "
"(requires process)\n");
} else {
auto plugin_sp =
process_sp->GetStructuredDataPlugin(GetDarwinLogTypeName());
stream.Printf("Availability: %s\n",
plugin_sp ? "available" : "unavailable");
ConstString plugin_name = StructuredDataDarwinLog::GetStaticPluginName();
const bool enabled =
plugin_sp ? plugin_sp->GetEnabled(plugin_name) : false;
stream.Printf("Enabled: %s\n", enabled ? "true" : "false");
}
// Display filter settings.
DebuggerSP debugger_sp =
GetCommandInterpreter().GetDebugger().shared_from_this();
auto options_sp = GetGlobalEnableOptions(debugger_sp);
if (!options_sp) {
// Nothing more to do.
result.SetStatus(eReturnStatusSuccessFinishResult);
return true;
}
// Print filter rules
stream.PutCString("DarwinLog filter rules:\n");
stream.IndentMore();
if (options_sp->GetFilterRules().empty()) {
stream.Indent();
stream.PutCString("none\n");
} else {
// Print each of the filter rules.
int rule_number = 0;
for (auto rule_sp : options_sp->GetFilterRules()) {
++rule_number;
if (!rule_sp)
continue;
stream.Indent();
stream.Printf("%02d: ", rule_number);
rule_sp->Dump(stream);
stream.PutChar('\n');
}
}
stream.IndentLess();
// Print no-match handling.
stream.Indent();
stream.Printf("no-match behavior: %s\n",
options_sp->GetFallthroughAccepts() ? "accept" : "reject");
result.SetStatus(eReturnStatusSuccessFinishResult);
return true;
}
};
/// Provides the darwin-log base command
class BaseCommand : public CommandObjectMultiword {
public:
BaseCommand(CommandInterpreter &interpreter)
: CommandObjectMultiword(interpreter, "plugin structured-data darwin-log",
"Commands for configuring Darwin os_log "
"support.",
"") {
// enable
auto enable_help = "Enable Darwin log collection, or re-enable "
"with modified configuration.";
auto enable_syntax = "plugin structured-data darwin-log enable";
auto enable_cmd_sp = CommandObjectSP(
new EnableCommand(interpreter,
true, // enable
"enable", enable_help, enable_syntax));
LoadSubCommand("enable", enable_cmd_sp);
// disable
auto disable_help = "Disable Darwin log collection.";
auto disable_syntax = "plugin structured-data darwin-log disable";
auto disable_cmd_sp = CommandObjectSP(
new EnableCommand(interpreter,
false, // disable
"disable", disable_help, disable_syntax));
LoadSubCommand("disable", disable_cmd_sp);
// status
auto status_cmd_sp = CommandObjectSP(new StatusCommand(interpreter));
LoadSubCommand("status", status_cmd_sp);
}
};
EnableOptionsSP ParseAutoEnableOptions(Status &error, Debugger &debugger) {
Log *log = GetLogIfAllCategoriesSet(LIBLLDB_LOG_PROCESS);
// We are abusing the options data model here so that we can parse options
// without requiring the Debugger instance.
// We have an empty execution context at this point. We only want to parse
// options, and we don't need any context to do this here. In fact, we want
// to be able to parse the enable options before having any context.
ExecutionContext exe_ctx;
EnableOptionsSP options_sp(new EnableOptions());
options_sp->NotifyOptionParsingStarting(&exe_ctx);
CommandReturnObject result;
// Parse the arguments.
auto options_property_sp =
debugger.GetPropertyValue(nullptr, "plugin.structured-data.darwin-log."
"auto-enable-options",
false, error);
if (!error.Success())
return EnableOptionsSP();
if (!options_property_sp) {
error.SetErrorString("failed to find option setting for "
"plugin.structured-data.darwin-log.");
return EnableOptionsSP();
}
const char *enable_options =
options_property_sp->GetAsString()->GetCurrentValue();
Args args(enable_options);
if (args.GetArgumentCount() > 0) {
// Eliminate the initial '--' that would be required to set the settings
// that themselves include '-' and/or '--'.
const char *first_arg = args.GetArgumentAtIndex(0);
if (first_arg && (strcmp(first_arg, "--") == 0))
args.Shift();
}
bool require_validation = false;
llvm::Expected<Args> args_or =
options_sp->Parse(args, &exe_ctx, PlatformSP(), require_validation);
if (!args_or) {
LLDB_LOG_ERROR(
log, args_or.takeError(),
"Parsing plugin.structured-data.darwin-log.auto-enable-options value "
"failed: {0}");
return EnableOptionsSP();
}
if (!options_sp->VerifyOptions(result))
return EnableOptionsSP();
// We successfully parsed and validated the options.
return options_sp;
}
bool RunEnableCommand(CommandInterpreter &interpreter) {
StreamString command_stream;
command_stream << "plugin structured-data darwin-log enable";
auto enable_options = GetGlobalProperties()->GetAutoEnableOptions();
if (!enable_options.empty()) {
command_stream << ' ';
command_stream << enable_options;
}
// Run the command.
CommandReturnObject return_object;
interpreter.HandleCommand(command_stream.GetData(), eLazyBoolNo,
return_object);
return return_object.Succeeded();
}
}
using namespace sddarwinlog_private;
#pragma mark -
#pragma mark Public static API
// Public static API
void StructuredDataDarwinLog::Initialize() {
RegisterFilterOperations();
PluginManager::RegisterPlugin(
GetStaticPluginName(), "Darwin os_log() and os_activity() support",
&CreateInstance, &DebuggerInitialize, &FilterLaunchInfo);
}
void StructuredDataDarwinLog::Terminate() {
PluginManager::UnregisterPlugin(&CreateInstance);
}
ConstString StructuredDataDarwinLog::GetStaticPluginName() {
static ConstString s_plugin_name("darwin-log");
return s_plugin_name;
}
#pragma mark -
#pragma mark PluginInterface API
// PluginInterface API
ConstString StructuredDataDarwinLog::GetPluginName() {
return GetStaticPluginName();
}
uint32_t StructuredDataDarwinLog::GetPluginVersion() { return 1; }
#pragma mark -
#pragma mark StructuredDataPlugin API
// StructuredDataPlugin API
bool StructuredDataDarwinLog::SupportsStructuredDataType(
ConstString type_name) {
return type_name == GetDarwinLogTypeName();
}
void StructuredDataDarwinLog::HandleArrivalOfStructuredData(
Process &process, ConstString type_name,
const StructuredData::ObjectSP &object_sp) {
Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_PROCESS));
if (log) {
StreamString json_stream;
if (object_sp)
object_sp->Dump(json_stream);
else
json_stream.PutCString("<null>");
LLDB_LOGF(log, "StructuredDataDarwinLog::%s() called with json: %s",
__FUNCTION__, json_stream.GetData());
}
// Ignore empty structured data.
if (!object_sp) {
LLDB_LOGF(log,
"StructuredDataDarwinLog::%s() StructuredData object "
"is null",
__FUNCTION__);
return;
}
// Ignore any data that isn't for us.
if (type_name != GetDarwinLogTypeName()) {
LLDB_LOGF(log,
"StructuredDataDarwinLog::%s() StructuredData type "
"expected to be %s but was %s, ignoring",
__FUNCTION__, GetDarwinLogTypeName().AsCString(),
type_name.AsCString());
return;
}
// Broadcast the structured data event if we have that enabled. This is the
// way that the outside world (all clients) get access to this data. This
// plugin sets policy as to whether we do that.
DebuggerSP debugger_sp = process.GetTarget().GetDebugger().shared_from_this();
auto options_sp = GetGlobalEnableOptions(debugger_sp);
if (options_sp && options_sp->GetBroadcastEvents()) {
LLDB_LOGF(log, "StructuredDataDarwinLog::%s() broadcasting event",
__FUNCTION__);
process.BroadcastStructuredData(object_sp, shared_from_this());
}
// Later, hang on to a configurable amount of these and allow commands to
// inspect, including showing backtraces.
}
static void SetErrorWithJSON(Status &error, const char *message,
StructuredData::Object &object) {
if (!message) {
error.SetErrorString("Internal error: message not set.");
return;
}
StreamString object_stream;
object.Dump(object_stream);
object_stream.Flush();
error.SetErrorStringWithFormat("%s: %s", message, object_stream.GetData());
}
Status StructuredDataDarwinLog::GetDescription(
const StructuredData::ObjectSP &object_sp, lldb_private::Stream &stream) {
Status error;
if (!object_sp) {
error.SetErrorString("No structured data.");
return error;
}
// Log message payload objects will be dictionaries.
const StructuredData::Dictionary *dictionary = object_sp->GetAsDictionary();
if (!dictionary) {
SetErrorWithJSON(error, "Structured data should have been a dictionary "
"but wasn't",
*object_sp);
return error;
}
// Validate this is really a message for our plugin.
ConstString type_name;
if (!dictionary->GetValueForKeyAsString("type", type_name)) {
SetErrorWithJSON(error, "Structured data doesn't contain mandatory "
"type field",
*object_sp);
return error;
}
if (type_name != GetDarwinLogTypeName()) {
// This is okay - it simply means the data we received is not a log
// message. We'll just format it as is.
object_sp->Dump(stream);
return error;
}
// DarwinLog dictionaries store their data
// in an array with key name "events".
StructuredData::Array *events = nullptr;
if (!dictionary->GetValueForKeyAsArray("events", events) || !events) {
SetErrorWithJSON(error, "Log structured data is missing mandatory "
"'events' field, expected to be an array",
*object_sp);
return error;
}
events->ForEach(
[&stream, &error, &object_sp, this](StructuredData::Object *object) {
if (!object) {
// Invalid. Stop iterating.
SetErrorWithJSON(error, "Log event entry is null", *object_sp);
return false;
}
auto event = object->GetAsDictionary();
if (!event) {
// Invalid, stop iterating.
SetErrorWithJSON(error, "Log event is not a dictionary", *object_sp);
return false;
}
// If we haven't already grabbed the first timestamp value, do that
// now.
if (!m_recorded_first_timestamp) {
uint64_t timestamp = 0;
if (event->GetValueForKeyAsInteger("timestamp", timestamp)) {
m_first_timestamp_seen = timestamp;
m_recorded_first_timestamp = true;
}
}
HandleDisplayOfEvent(*event, stream);
return true;
});
stream.Flush();
return error;
}
bool StructuredDataDarwinLog::GetEnabled(ConstString type_name) const {
if (type_name == GetStaticPluginName())
return m_is_enabled;
else
return false;
}
void StructuredDataDarwinLog::SetEnabled(bool enabled) {
m_is_enabled = enabled;
}
void StructuredDataDarwinLog::ModulesDidLoad(Process &process,
ModuleList &module_list) {
Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_PROCESS));
LLDB_LOGF(log, "StructuredDataDarwinLog::%s called (process uid %u)",
__FUNCTION__, process.GetUniqueID());
// Check if we should enable the darwin log support on startup/attach.
if (!GetGlobalProperties()->GetEnableOnStartup() &&
!s_is_explicitly_enabled) {
// We're neither auto-enabled or explicitly enabled, so we shouldn't try to
// enable here.
LLDB_LOGF(log,
"StructuredDataDarwinLog::%s not applicable, we're not "
"enabled (process uid %u)",
__FUNCTION__, process.GetUniqueID());
return;
}
// If we already added the breakpoint, we've got nothing left to do.
{
std::lock_guard<std::mutex> locker(m_added_breakpoint_mutex);
if (m_added_breakpoint) {
LLDB_LOGF(log,
"StructuredDataDarwinLog::%s process uid %u's "
"post-libtrace-init breakpoint is already set",
__FUNCTION__, process.GetUniqueID());
return;
}
}
// The logging support module name, specifies the name of the image name that
// must be loaded into the debugged process before we can try to enable
// logging.
const char *logging_module_cstr =
GetGlobalProperties()->GetLoggingModuleName();
if (!logging_module_cstr || (logging_module_cstr[0] == 0)) {
// We need this. Bail.
LLDB_LOGF(log,
"StructuredDataDarwinLog::%s no logging module name "
"specified, we don't know where to set a breakpoint "
"(process uid %u)",
__FUNCTION__, process.GetUniqueID());
return;
}
const ConstString logging_module_name = ConstString(logging_module_cstr);
// We need to see libtrace in the list of modules before we can enable
// tracing for the target process.
bool found_logging_support_module = false;
for (size_t i = 0; i < module_list.GetSize(); ++i) {
auto module_sp = module_list.GetModuleAtIndex(i);
if (!module_sp)
continue;
auto &file_spec = module_sp->GetFileSpec();
found_logging_support_module =
(file_spec.GetLastPathComponent() == logging_module_name);
if (found_logging_support_module)
break;
}
if (!found_logging_support_module) {
LLDB_LOGF(log,
"StructuredDataDarwinLog::%s logging module %s "
"has not yet been loaded, can't set a breakpoint "
"yet (process uid %u)",
__FUNCTION__, logging_module_name.AsCString(),
process.GetUniqueID());
return;
}
// Time to enqueue the breakpoint so we can wait for logging support to be
// initialized before we try to tap the libtrace stream.
AddInitCompletionHook(process);
LLDB_LOGF(log,
"StructuredDataDarwinLog::%s post-init hook breakpoint "
"set for logging module %s (process uid %u)",
__FUNCTION__, logging_module_name.AsCString(),
process.GetUniqueID());
// We need to try the enable here as well, which will succeed in the event
// that we're attaching to (rather than launching) the process and the
// process is already past initialization time. In that case, the completion
// breakpoint will never get hit and therefore won't start that way. It
// doesn't hurt much beyond a bit of bandwidth if we end up doing this twice.
// It hurts much more if we don't get the logging enabled when the user
// expects it.
EnableNow();
}
// public destructor
StructuredDataDarwinLog::~StructuredDataDarwinLog() {
if (m_breakpoint_id != LLDB_INVALID_BREAK_ID) {
ProcessSP process_sp(GetProcess());
if (process_sp) {
process_sp->GetTarget().RemoveBreakpointByID(m_breakpoint_id);
m_breakpoint_id = LLDB_INVALID_BREAK_ID;
}
}
}
#pragma mark -
#pragma mark Private instance methods
// Private constructors
StructuredDataDarwinLog::StructuredDataDarwinLog(const ProcessWP &process_wp)
: StructuredDataPlugin(process_wp), m_recorded_first_timestamp(false),
m_first_timestamp_seen(0), m_is_enabled(false),
m_added_breakpoint_mutex(), m_added_breakpoint(),
m_breakpoint_id(LLDB_INVALID_BREAK_ID) {}
// Private static methods
StructuredDataPluginSP
StructuredDataDarwinLog::CreateInstance(Process &process) {
// Currently only Apple targets support the os_log/os_activity protocol.
if (process.GetTarget().GetArchitecture().GetTriple().getVendor() ==
llvm::Triple::VendorType::Apple) {
auto process_wp = ProcessWP(process.shared_from_this());
return StructuredDataPluginSP(new StructuredDataDarwinLog(process_wp));
} else {
return StructuredDataPluginSP();
}
}
void StructuredDataDarwinLog::DebuggerInitialize(Debugger &debugger) {
// Setup parent class first.
StructuredDataPlugin::InitializeBasePluginForDebugger(debugger);
// Get parent command.
auto &interpreter = debugger.GetCommandInterpreter();
llvm::StringRef parent_command_text = "plugin structured-data";
auto parent_command =
interpreter.GetCommandObjectForCommand(parent_command_text);
if (!parent_command) {
// Ut oh, parent failed to create parent command.
// TODO log
return;
}
auto command_name = "darwin-log";
auto command_sp = CommandObjectSP(new BaseCommand(interpreter));
bool result = parent_command->LoadSubCommand(command_name, command_sp);
if (!result) {
// TODO log it once we setup structured data logging
}
if (!PluginManager::GetSettingForPlatformPlugin(
debugger, StructuredDataDarwinLogProperties::GetSettingName())) {
const bool is_global_setting = true;
PluginManager::CreateSettingForStructuredDataPlugin(
debugger, GetGlobalProperties()->GetValueProperties(),
ConstString("Properties for the darwin-log"
" plug-in."),
is_global_setting);
}
}
Status StructuredDataDarwinLog::FilterLaunchInfo(ProcessLaunchInfo &launch_info,
Target *target) {
Status error;
// If we're not debugging this launched process, there's nothing for us to do
// here.
if (!launch_info.GetFlags().AnySet(eLaunchFlagDebug))
return error;
// Darwin os_log() support automatically adds debug-level and info-level
// messages when a debugger is attached to a process. However, with
// integrated support for debugging built into the command-line LLDB, the
// user may specifically set to *not* include debug-level and info-level
// content. When the user is using the integrated log support, we want to
// put the kabosh on that automatic adding of info and debug level. This is
// done by adding an environment variable to the process on launch. (This
// also means it is not possible to suppress this behavior if attaching to an
// already-running app).
// Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_PLATFORM));
// If the target architecture is not one that supports DarwinLog, we have
// nothing to do here.
auto &triple = target ? target->GetArchitecture().GetTriple()
: launch_info.GetArchitecture().GetTriple();
if (triple.getVendor() != llvm::Triple::Apple) {
return error;
}
// If DarwinLog is not enabled (either by explicit user command or via the
// auto-enable option), then we have nothing to do.
if (!GetGlobalProperties()->GetEnableOnStartup() &&
!s_is_explicitly_enabled) {
// Nothing to do, DarwinLog is not enabled.
return error;
}
// If we don't have parsed configuration info, that implies we have enable-
// on-startup set up, but we haven't yet attempted to run the enable command.
if (!target) {
// We really can't do this without a target. We need to be able to get to
// the debugger to get the proper options to do this right.
// TODO log.
error.SetErrorString("requires a target to auto-enable DarwinLog.");
return error;
}
DebuggerSP debugger_sp = target->GetDebugger().shared_from_this();
auto options_sp = GetGlobalEnableOptions(debugger_sp);
if (!options_sp && debugger_sp) {
options_sp = ParseAutoEnableOptions(error, *debugger_sp.get());
if (!options_sp || !error.Success())
return error;
// We already parsed the options, save them now so we don't generate them
// again until the user runs the command manually.
SetGlobalEnableOptions(debugger_sp, options_sp);
}
if (!options_sp->GetEchoToStdErr()) {
// The user doesn't want to see os_log/NSLog messages echo to stderr. That
// mechanism is entirely separate from the DarwinLog support. By default we
// don't want to get it via stderr, because that would be in duplicate of
// the explicit log support here.
// Here we need to strip out any OS_ACTIVITY_DT_MODE setting to prevent
// echoing of os_log()/NSLog() to stderr in the target program.
launch_info.GetEnvironment().erase("OS_ACTIVITY_DT_MODE");
// We will also set the env var that tells any downstream launcher from
// adding OS_ACTIVITY_DT_MODE.
launch_info.GetEnvironment()["IDE_DISABLED_OS_ACTIVITY_DT_MODE"] = "1";
}
// Set the OS_ACTIVITY_MODE env var appropriately to enable/disable debug and
// info level messages.
const char *env_var_value;
if (options_sp->GetIncludeDebugLevel())
env_var_value = "debug";
else if (options_sp->GetIncludeInfoLevel())
env_var_value = "info";
else
env_var_value = "default";
launch_info.GetEnvironment()["OS_ACTIVITY_MODE"] = env_var_value;
return error;
}
bool StructuredDataDarwinLog::InitCompletionHookCallback(
void *baton, StoppointCallbackContext *context, lldb::user_id_t break_id,
lldb::user_id_t break_loc_id) {
// We hit the init function. We now want to enqueue our new thread plan,
// which will in turn enqueue a StepOut thread plan. When the StepOut
// finishes and control returns to our new thread plan, that is the time when
// we can execute our logic to enable the logging support.
Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_PROCESS));
LLDB_LOGF(log, "StructuredDataDarwinLog::%s() called", __FUNCTION__);
// Get the current thread.
if (!context) {
LLDB_LOGF(log,
"StructuredDataDarwinLog::%s() warning: no context, "
"ignoring",
__FUNCTION__);
return false;
}
// Get the plugin from the process.
auto process_sp = context->exe_ctx_ref.GetProcessSP();
if (!process_sp) {
LLDB_LOGF(log,
"StructuredDataDarwinLog::%s() warning: invalid "
"process in context, ignoring",
__FUNCTION__);
return false;
}
LLDB_LOGF(log, "StructuredDataDarwinLog::%s() call is for process uid %d",
__FUNCTION__, process_sp->GetUniqueID());
auto plugin_sp = process_sp->GetStructuredDataPlugin(GetDarwinLogTypeName());
if (!plugin_sp) {
LLDB_LOGF(log,
"StructuredDataDarwinLog::%s() warning: no plugin for "
"feature %s in process uid %u",
__FUNCTION__, GetDarwinLogTypeName().AsCString(),
process_sp->GetUniqueID());
return false;
}
// Create the callback for when the thread plan completes.
bool called_enable_method = false;
const auto process_uid = process_sp->GetUniqueID();
std::weak_ptr<StructuredDataPlugin> plugin_wp(plugin_sp);
ThreadPlanCallOnFunctionExit::Callback callback =
[plugin_wp, &called_enable_method, log, process_uid]() {
LLDB_LOGF(log,
"StructuredDataDarwinLog::post-init callback: "
"called (process uid %u)",
process_uid);
auto strong_plugin_sp = plugin_wp.lock();
if (!strong_plugin_sp) {
LLDB_LOGF(log,
"StructuredDataDarwinLog::post-init callback: "
"plugin no longer exists, ignoring (process "
"uid %u)",
process_uid);
return;
}
// Make sure we only call it once, just in case the thread plan hits
// the breakpoint twice.
if (!called_enable_method) {
LLDB_LOGF(log,
"StructuredDataDarwinLog::post-init callback: "
"calling EnableNow() (process uid %u)",
process_uid);
static_cast<StructuredDataDarwinLog *>(strong_plugin_sp.get())
->EnableNow();
called_enable_method = true;
} else {
// Our breakpoint was hit more than once. Unexpected but no harm
// done. Log it.
LLDB_LOGF(log,
"StructuredDataDarwinLog::post-init callback: "
"skipping EnableNow(), already called by "
"callback [we hit this more than once] "
"(process uid %u)",
process_uid);
}
};
// Grab the current thread.
auto thread_sp = context->exe_ctx_ref.GetThreadSP();
if (!thread_sp) {
LLDB_LOGF(log,
"StructuredDataDarwinLog::%s() warning: failed to "
"retrieve the current thread from the execution "
"context, nowhere to run the thread plan (process uid "
"%u)",
__FUNCTION__, process_sp->GetUniqueID());
return false;
}
// Queue the thread plan.
auto thread_plan_sp =
ThreadPlanSP(new ThreadPlanCallOnFunctionExit(*thread_sp, callback));
const bool abort_other_plans = false;
thread_sp->QueueThreadPlan(thread_plan_sp, abort_other_plans);
LLDB_LOGF(log,
"StructuredDataDarwinLog::%s() queuing thread plan on "
"trace library init method entry (process uid %u)",
__FUNCTION__, process_sp->GetUniqueID());
// We return false here to indicate that it isn't a public stop.
return false;
}
void StructuredDataDarwinLog::AddInitCompletionHook(Process &process) {
Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_PROCESS));
LLDB_LOGF(log, "StructuredDataDarwinLog::%s() called (process uid %u)",
__FUNCTION__, process.GetUniqueID());
// Make sure we haven't already done this.
{
std::lock_guard<std::mutex> locker(m_added_breakpoint_mutex);
if (m_added_breakpoint) {
LLDB_LOGF(log,
"StructuredDataDarwinLog::%s() ignoring request, "
"breakpoint already set (process uid %u)",
__FUNCTION__, process.GetUniqueID());
return;
}
// We're about to do this, don't let anybody else try to do it.
m_added_breakpoint = true;
}
// Set a breakpoint for the process that will kick in when libtrace has
// finished its initialization.
Target &target = process.GetTarget();
// Build up the module list.
FileSpecList module_spec_list;
auto module_file_spec =
FileSpec(GetGlobalProperties()->GetLoggingModuleName());
module_spec_list.Append(module_file_spec);
// We aren't specifying a source file set.
FileSpecList *source_spec_list = nullptr;
const char *func_name = "_libtrace_init";
const lldb::addr_t offset = 0;
const LazyBool skip_prologue = eLazyBoolCalculate;
// This is an internal breakpoint - the user shouldn't see it.
const bool internal = true;
const bool hardware = false;
auto breakpoint_sp = target.CreateBreakpoint(
&module_spec_list, source_spec_list, func_name, eFunctionNameTypeFull,
eLanguageTypeC, offset, skip_prologue, internal, hardware);
if (!breakpoint_sp) {
// Huh? Bail here.
LLDB_LOGF(log,
"StructuredDataDarwinLog::%s() failed to set "
"breakpoint in module %s, function %s (process uid %u)",
__FUNCTION__, GetGlobalProperties()->GetLoggingModuleName(),
func_name, process.GetUniqueID());
return;
}
// Set our callback.
breakpoint_sp->SetCallback(InitCompletionHookCallback, nullptr);
m_breakpoint_id = breakpoint_sp->GetID();
LLDB_LOGF(log,
"StructuredDataDarwinLog::%s() breakpoint set in module %s,"
"function %s (process uid %u)",
__FUNCTION__, GetGlobalProperties()->GetLoggingModuleName(),
func_name, process.GetUniqueID());
}
void StructuredDataDarwinLog::DumpTimestamp(Stream &stream,
uint64_t timestamp) {
const uint64_t delta_nanos = timestamp - m_first_timestamp_seen;
const uint64_t hours = delta_nanos / NANOS_PER_HOUR;
uint64_t nanos_remaining = delta_nanos % NANOS_PER_HOUR;
const uint64_t minutes = nanos_remaining / NANOS_PER_MINUTE;
nanos_remaining = nanos_remaining % NANOS_PER_MINUTE;
const uint64_t seconds = nanos_remaining / NANOS_PER_SECOND;
nanos_remaining = nanos_remaining % NANOS_PER_SECOND;
stream.Printf("%02" PRIu64 ":%02" PRIu64 ":%02" PRIu64 ".%09" PRIu64, hours,
minutes, seconds, nanos_remaining);
}
size_t
StructuredDataDarwinLog::DumpHeader(Stream &output_stream,
const StructuredData::Dictionary &event) {
StreamString stream;
ProcessSP process_sp = GetProcess();
if (!process_sp) {
// TODO log
return 0;
}
DebuggerSP debugger_sp =
process_sp->GetTarget().GetDebugger().shared_from_this();
if (!debugger_sp) {
// TODO log
return 0;
}
auto options_sp = GetGlobalEnableOptions(debugger_sp);
if (!options_sp) {
// TODO log
return 0;
}
// Check if we should even display a header.
if (!options_sp->GetDisplayAnyHeaderFields())
return 0;
stream.PutChar('[');
int header_count = 0;
if (options_sp->GetDisplayTimestampRelative()) {
uint64_t timestamp = 0;
if (event.GetValueForKeyAsInteger("timestamp", timestamp)) {
DumpTimestamp(stream, timestamp);
++header_count;
}
}
if (options_sp->GetDisplayActivityChain()) {
llvm::StringRef activity_chain;
if (event.GetValueForKeyAsString("activity-chain", activity_chain) &&
!activity_chain.empty()) {
if (header_count > 0)
stream.PutChar(',');
// Display the activity chain, from parent-most to child-most activity,
// separated by a colon (:).
stream.PutCString("activity-chain=");
stream.PutCString(activity_chain);
++header_count;
}
}
if (options_sp->GetDisplaySubsystem()) {
llvm::StringRef subsystem;
if (event.GetValueForKeyAsString("subsystem", subsystem) &&
!subsystem.empty()) {
if (header_count > 0)
stream.PutChar(',');
stream.PutCString("subsystem=");
stream.PutCString(subsystem);
++header_count;
}
}
if (options_sp->GetDisplayCategory()) {
llvm::StringRef category;
if (event.GetValueForKeyAsString("category", category) &&
!category.empty()) {
if (header_count > 0)
stream.PutChar(',');
stream.PutCString("category=");
stream.PutCString(category);
++header_count;
}
}
stream.PutCString("] ");
output_stream.PutCString(stream.GetString());
return stream.GetSize();
}
size_t StructuredDataDarwinLog::HandleDisplayOfEvent(
const StructuredData::Dictionary &event, Stream &stream) {
// Check the type of the event.
ConstString event_type;
if (!event.GetValueForKeyAsString("type", event_type)) {
// Hmm, we expected to get events that describe what they are. Continue
// anyway.
return 0;
}
if (event_type != GetLogEventType())
return 0;
size_t total_bytes = 0;
// Grab the message content.
llvm::StringRef message;
if (!event.GetValueForKeyAsString("message", message))
return true;
// Display the log entry.
const auto len = message.size();
total_bytes += DumpHeader(stream, event);
stream.Write(message.data(), len);
total_bytes += len;
// Add an end of line.
stream.PutChar('\n');
total_bytes += sizeof(char);
return total_bytes;
}
void StructuredDataDarwinLog::EnableNow() {
Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_PROCESS));
LLDB_LOGF(log, "StructuredDataDarwinLog::%s() called", __FUNCTION__);
// Run the enable command.
auto process_sp = GetProcess();
if (!process_sp) {
// Nothing to do.
LLDB_LOGF(log,
"StructuredDataDarwinLog::%s() warning: failed to get "
"valid process, skipping",
__FUNCTION__);
return;
}
LLDB_LOGF(log, "StructuredDataDarwinLog::%s() call is for process uid %u",
__FUNCTION__, process_sp->GetUniqueID());
// If we have configuration data, we can directly enable it now. Otherwise,
// we need to run through the command interpreter to parse the auto-run
// options (which is the only way we get here without having already-parsed
// configuration data).
DebuggerSP debugger_sp =
process_sp->GetTarget().GetDebugger().shared_from_this();
if (!debugger_sp) {
LLDB_LOGF(log,
"StructuredDataDarwinLog::%s() warning: failed to get "
"debugger shared pointer, skipping (process uid %u)",
__FUNCTION__, process_sp->GetUniqueID());
return;
}
auto options_sp = GetGlobalEnableOptions(debugger_sp);
if (!options_sp) {
// We haven't run the enable command yet. Just do that now, it'll take
// care of the rest.
auto &interpreter = debugger_sp->GetCommandInterpreter();
const bool success = RunEnableCommand(interpreter);
if (log) {
if (success)
LLDB_LOGF(log,
"StructuredDataDarwinLog::%s() ran enable command "
"successfully for (process uid %u)",
__FUNCTION__, process_sp->GetUniqueID());
else
LLDB_LOGF(log,
"StructuredDataDarwinLog::%s() error: running "
"enable command failed (process uid %u)",
__FUNCTION__, process_sp->GetUniqueID());
}
// Report failures to the debugger error stream.
auto error_stream_sp = debugger_sp->GetAsyncErrorStream();
if (error_stream_sp) {
error_stream_sp->Printf("failed to configure DarwinLog "
"support\n");
error_stream_sp->Flush();
}
return;
}
// We've previously been enabled. We will re-enable now with the previously
// specified options.
auto config_sp = options_sp->BuildConfigurationData(true);
if (!config_sp) {
LLDB_LOGF(log,
"StructuredDataDarwinLog::%s() warning: failed to "
"build configuration data for enable options, skipping "
"(process uid %u)",
__FUNCTION__, process_sp->GetUniqueID());
return;
}
// We can run it directly.
// Send configuration to the feature by way of the process.
const Status error =
process_sp->ConfigureStructuredData(GetDarwinLogTypeName(), config_sp);
// Report results.
if (!error.Success()) {
LLDB_LOGF(log,
"StructuredDataDarwinLog::%s() "
"ConfigureStructuredData() call failed "
"(process uid %u): %s",
__FUNCTION__, process_sp->GetUniqueID(), error.AsCString());
auto error_stream_sp = debugger_sp->GetAsyncErrorStream();
if (error_stream_sp) {
error_stream_sp->Printf("failed to configure DarwinLog "
"support: %s\n",
error.AsCString());
error_stream_sp->Flush();
}
m_is_enabled = false;
} else {
m_is_enabled = true;
LLDB_LOGF(log,
"StructuredDataDarwinLog::%s() success via direct "
"configuration (process uid %u)",
__FUNCTION__, process_sp->GetUniqueID());
}
}
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