cli-wrapper-pt.cpp
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//===-- cli-wrapper-pt.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
//
// CLI Wrapper of PTDecoder Tool to enable it to be used through LLDB's CLI. The
// wrapper provides a new command called processor-trace with 4 child
// subcommands as follows:
// processor-trace start
// processor-trace stop
// processor-trace show-trace-options
// processor-trace show-instr-log
//
//===----------------------------------------------------------------------===//
#include <cerrno>
#include <cinttypes>
#include <cstring>
#include <string>
#include <vector>
#include "PTDecoder.h"
#include "cli-wrapper-pt.h"
#include "lldb/API/SBCommandInterpreter.h"
#include "lldb/API/SBCommandReturnObject.h"
#include "lldb/API/SBDebugger.h"
#include "lldb/API/SBProcess.h"
#include "lldb/API/SBStream.h"
#include "lldb/API/SBStructuredData.h"
#include "lldb/API/SBTarget.h"
#include "lldb/API/SBThread.h"
static bool GetProcess(lldb::SBDebugger &debugger,
lldb::SBCommandReturnObject &result,
lldb::SBProcess &process) {
if (!debugger.IsValid()) {
result.Printf("error: invalid debugger\n");
result.SetStatus(lldb::eReturnStatusFailed);
return false;
}
lldb::SBTarget target = debugger.GetSelectedTarget();
if (!target.IsValid()) {
result.Printf("error: invalid target inside debugger\n");
result.SetStatus(lldb::eReturnStatusFailed);
return false;
}
process = target.GetProcess();
if (!process.IsValid() ||
(process.GetState() == lldb::StateType::eStateDetached) ||
(process.GetState() == lldb::StateType::eStateExited) ||
(process.GetState() == lldb::StateType::eStateInvalid)) {
result.Printf("error: invalid process inside debugger's target\n");
result.SetStatus(lldb::eReturnStatusFailed);
return false;
}
return true;
}
static bool ParseCommandOption(char **command,
lldb::SBCommandReturnObject &result,
uint32_t &index, const std::string &arg,
uint32_t &parsed_result) {
char *endptr;
if (!command[++index]) {
result.Printf("error: option \"%s\" requires an argument\n", arg.c_str());
result.SetStatus(lldb::eReturnStatusFailed);
return false;
}
errno = 0;
unsigned long output = strtoul(command[index], &endptr, 0);
if ((errno != 0) || (*endptr != '\0')) {
result.Printf("error: invalid value \"%s\" provided for option \"%s\"\n",
command[index], arg.c_str());
result.SetStatus(lldb::eReturnStatusFailed);
return false;
}
if (output > UINT32_MAX) {
result.Printf("error: value \"%s\" for option \"%s\" exceeds UINT32_MAX\n",
command[index], arg.c_str());
result.SetStatus(lldb::eReturnStatusFailed);
return false;
}
parsed_result = (uint32_t)output;
return true;
}
static bool ParseCommandArgThread(char **command,
lldb::SBCommandReturnObject &result,
lldb::SBProcess &process, uint32_t &index,
lldb::tid_t &thread_id) {
char *endptr;
if (!strcmp(command[index], "all"))
thread_id = LLDB_INVALID_THREAD_ID;
else {
uint32_t thread_index_id;
errno = 0;
unsigned long output = strtoul(command[index], &endptr, 0);
if ((errno != 0) || (*endptr != '\0') || (output > UINT32_MAX)) {
result.Printf("error: invalid thread specification: \"%s\"\n",
command[index]);
result.SetStatus(lldb::eReturnStatusFailed);
return false;
}
thread_index_id = (uint32_t)output;
lldb::SBThread thread = process.GetThreadByIndexID(thread_index_id);
if (!thread.IsValid()) {
result.Printf(
"error: process has no thread with thread specification: \"%s\"\n",
command[index]);
result.SetStatus(lldb::eReturnStatusFailed);
return false;
}
thread_id = thread.GetThreadID();
}
return true;
}
class ProcessorTraceStart : public lldb::SBCommandPluginInterface {
public:
ProcessorTraceStart(std::shared_ptr<ptdecoder::PTDecoder> &pt_decoder)
: SBCommandPluginInterface(), pt_decoder_sp(pt_decoder) {}
~ProcessorTraceStart() {}
virtual bool DoExecute(lldb::SBDebugger debugger, char **command,
lldb::SBCommandReturnObject &result) {
lldb::SBProcess process;
lldb::SBThread thread;
if (!GetProcess(debugger, result, process))
return false;
// Default initialize API's arguments
lldb::SBTraceOptions lldb_SBTraceOptions;
uint32_t trace_buffer_size = m_default_trace_buff_size;
lldb::tid_t thread_id;
// Parse Command line options
bool thread_argument_provided = false;
if (command) {
for (uint32_t i = 0; command[i]; i++) {
if (!strcmp(command[i], "-b")) {
if (!ParseCommandOption(command, result, i, "-b", trace_buffer_size))
return false;
} else {
thread_argument_provided = true;
if (!ParseCommandArgThread(command, result, process, i, thread_id))
return false;
}
}
}
if (!thread_argument_provided) {
thread = process.GetSelectedThread();
if (!thread.IsValid()) {
result.Printf("error: invalid current selected thread\n");
result.SetStatus(lldb::eReturnStatusFailed);
return false;
}
thread_id = thread.GetThreadID();
}
if (trace_buffer_size > m_max_trace_buff_size)
trace_buffer_size = m_max_trace_buff_size;
// Set API's arguments with parsed values
lldb_SBTraceOptions.setType(lldb::TraceType::eTraceTypeProcessorTrace);
lldb_SBTraceOptions.setTraceBufferSize(trace_buffer_size);
lldb_SBTraceOptions.setMetaDataBufferSize(0);
lldb_SBTraceOptions.setThreadID(thread_id);
lldb::SBStream sb_stream;
sb_stream.Printf("{\"trace-tech\":\"intel-pt\"}");
lldb::SBStructuredData custom_params;
lldb::SBError error = custom_params.SetFromJSON(sb_stream);
if (!error.Success()) {
result.Printf("error: %s\n", error.GetCString());
result.SetStatus(lldb::eReturnStatusFailed);
return false;
}
lldb_SBTraceOptions.setTraceParams(custom_params);
// Start trace
pt_decoder_sp->StartProcessorTrace(process, lldb_SBTraceOptions, error);
if (!error.Success()) {
result.Printf("error: %s\n", error.GetCString());
result.SetStatus(lldb::eReturnStatusFailed);
return false;
}
return true;
}
private:
std::shared_ptr<ptdecoder::PTDecoder> pt_decoder_sp;
const uint32_t m_max_trace_buff_size = 0x3fff;
const uint32_t m_default_trace_buff_size = 4096;
};
class ProcessorTraceInfo : public lldb::SBCommandPluginInterface {
public:
ProcessorTraceInfo(std::shared_ptr<ptdecoder::PTDecoder> &pt_decoder)
: SBCommandPluginInterface(), pt_decoder_sp(pt_decoder) {}
~ProcessorTraceInfo() {}
virtual bool DoExecute(lldb::SBDebugger debugger, char **command,
lldb::SBCommandReturnObject &result) {
lldb::SBProcess process;
lldb::SBThread thread;
if (!GetProcess(debugger, result, process))
return false;
lldb::tid_t thread_id;
// Parse command line options
bool thread_argument_provided = false;
if (command) {
for (uint32_t i = 0; command[i]; i++) {
thread_argument_provided = true;
if (!ParseCommandArgThread(command, result, process, i, thread_id))
return false;
}
}
if (!thread_argument_provided) {
thread = process.GetSelectedThread();
if (!thread.IsValid()) {
result.Printf("error: invalid current selected thread\n");
result.SetStatus(lldb::eReturnStatusFailed);
return false;
}
thread_id = thread.GetThreadID();
}
size_t loop_count = 1;
bool entire_process_tracing = false;
if (thread_id == LLDB_INVALID_THREAD_ID) {
entire_process_tracing = true;
loop_count = process.GetNumThreads();
}
// Get trace information
lldb::SBError error;
lldb::SBCommandReturnObject res;
for (size_t i = 0; i < loop_count; i++) {
error.Clear();
res.Clear();
if (entire_process_tracing)
thread = process.GetThreadAtIndex(i);
else
thread = process.GetThreadByID(thread_id);
thread_id = thread.GetThreadID();
ptdecoder::PTTraceOptions options;
pt_decoder_sp->GetProcessorTraceInfo(process, thread_id, options, error);
if (!error.Success()) {
res.Printf("thread #%" PRIu32 ": tid=%" PRIu64 ", error: %s",
thread.GetIndexID(), thread_id, error.GetCString());
result.AppendMessage(res.GetOutput());
continue;
}
lldb::SBStructuredData data = options.GetTraceParams(error);
if (!error.Success()) {
res.Printf("thread #%" PRIu32 ": tid=%" PRIu64 ", error: %s",
thread.GetIndexID(), thread_id, error.GetCString());
result.AppendMessage(res.GetOutput());
continue;
}
lldb::SBStream s;
error = data.GetAsJSON(s);
if (!error.Success()) {
res.Printf("thread #%" PRIu32 ": tid=%" PRIu64 ", error: %s",
thread.GetIndexID(), thread_id, error.GetCString());
result.AppendMessage(res.GetOutput());
continue;
}
res.Printf("thread #%" PRIu32 ": tid=%" PRIu64
", trace buffer size=%" PRIu64 ", meta buffer size=%" PRIu64
", trace type=%" PRIu32 ", custom trace params=%s",
thread.GetIndexID(), thread_id, options.GetTraceBufferSize(),
options.GetMetaDataBufferSize(), options.GetType(),
s.GetData());
result.AppendMessage(res.GetOutput());
}
return true;
}
private:
std::shared_ptr<ptdecoder::PTDecoder> pt_decoder_sp;
};
class ProcessorTraceShowInstrLog : public lldb::SBCommandPluginInterface {
public:
ProcessorTraceShowInstrLog(std::shared_ptr<ptdecoder::PTDecoder> &pt_decoder)
: SBCommandPluginInterface(), pt_decoder_sp(pt_decoder) {}
~ProcessorTraceShowInstrLog() {}
virtual bool DoExecute(lldb::SBDebugger debugger, char **command,
lldb::SBCommandReturnObject &result) {
lldb::SBProcess process;
lldb::SBThread thread;
if (!GetProcess(debugger, result, process))
return false;
// Default initialize API's arguments
uint32_t offset;
bool offset_provided = false;
uint32_t count = m_default_count;
lldb::tid_t thread_id;
// Parse command line options
bool thread_argument_provided = false;
if (command) {
for (uint32_t i = 0; command[i]; i++) {
if (!strcmp(command[i], "-o")) {
if (!ParseCommandOption(command, result, i, "-o", offset))
return false;
offset_provided = true;
} else if (!strcmp(command[i], "-c")) {
if (!ParseCommandOption(command, result, i, "-c", count))
return false;
} else {
thread_argument_provided = true;
if (!ParseCommandArgThread(command, result, process, i, thread_id))
return false;
}
}
}
if (!thread_argument_provided) {
thread = process.GetSelectedThread();
if (!thread.IsValid()) {
result.Printf("error: invalid current selected thread\n");
result.SetStatus(lldb::eReturnStatusFailed);
return false;
}
thread_id = thread.GetThreadID();
}
size_t loop_count = 1;
bool entire_process_tracing = false;
if (thread_id == LLDB_INVALID_THREAD_ID) {
entire_process_tracing = true;
loop_count = process.GetNumThreads();
}
// Get instruction log and disassemble it
lldb::SBError error;
lldb::SBCommandReturnObject res;
for (size_t i = 0; i < loop_count; i++) {
error.Clear();
res.Clear();
if (entire_process_tracing)
thread = process.GetThreadAtIndex(i);
else
thread = process.GetThreadByID(thread_id);
thread_id = thread.GetThreadID();
// If offset is not provided then calculate a default offset (to display
// last 'count' number of instructions)
if (!offset_provided)
offset = count - 1;
// Get the instruction log
ptdecoder::PTInstructionList insn_list;
pt_decoder_sp->GetInstructionLogAtOffset(process, thread_id, offset,
count, insn_list, error);
if (!error.Success()) {
res.Printf("thread #%" PRIu32 ": tid=%" PRIu64 ", error: %s",
thread.GetIndexID(), thread_id, error.GetCString());
result.AppendMessage(res.GetOutput());
continue;
}
// Disassemble the instruction log
std::string disassembler_command("dis -c 1 -s ");
res.Printf("thread #%" PRIu32 ": tid=%" PRIu64 "\n", thread.GetIndexID(),
thread_id);
lldb::SBCommandInterpreter sb_cmnd_interpreter(
debugger.GetCommandInterpreter());
lldb::SBCommandReturnObject result_obj;
for (size_t i = 0; i < insn_list.GetSize(); i++) {
ptdecoder::PTInstruction insn = insn_list.GetInstructionAtIndex(i);
uint64_t addr = insn.GetInsnAddress();
std::string error = insn.GetError();
if (!error.empty()) {
res.AppendMessage(error.c_str());
continue;
}
result_obj.Clear();
std::string complete_disassembler_command =
disassembler_command + std::to_string(addr);
sb_cmnd_interpreter.HandleCommand(complete_disassembler_command.c_str(),
result_obj, false);
std::string result_str(result_obj.GetOutput());
if (result_str.empty()) {
lldb::SBCommandReturnObject output;
output.Printf(" Disassembly not found for address: %" PRIu64, addr);
res.AppendMessage(output.GetOutput());
continue;
}
// LLDB's disassemble command displays assembly instructions along with
// the names of the functions they belong to. Parse this result to
// display only the assembly instructions and not the function names
// in an instruction log
std::size_t first_new_line_index = result_str.find_first_of('\n');
std::size_t last_new_line_index = result_str.find_last_of('\n');
if (first_new_line_index != last_new_line_index)
res.AppendMessage((result_str.substr(first_new_line_index + 1,
last_new_line_index -
first_new_line_index - 1))
.c_str());
else
res.AppendMessage(
(result_str.substr(0, result_str.length() - 1)).c_str());
}
result.AppendMessage(res.GetOutput());
}
return true;
}
private:
std::shared_ptr<ptdecoder::PTDecoder> pt_decoder_sp;
const uint32_t m_default_count = 10;
};
class ProcessorTraceStop : public lldb::SBCommandPluginInterface {
public:
ProcessorTraceStop(std::shared_ptr<ptdecoder::PTDecoder> &pt_decoder)
: SBCommandPluginInterface(), pt_decoder_sp(pt_decoder) {}
~ProcessorTraceStop() {}
virtual bool DoExecute(lldb::SBDebugger debugger, char **command,
lldb::SBCommandReturnObject &result) {
lldb::SBProcess process;
lldb::SBThread thread;
if (!GetProcess(debugger, result, process))
return false;
lldb::tid_t thread_id;
// Parse command line options
bool thread_argument_provided = false;
if (command) {
for (uint32_t i = 0; command[i]; i++) {
thread_argument_provided = true;
if (!ParseCommandArgThread(command, result, process, i, thread_id))
return false;
}
}
if (!thread_argument_provided) {
thread = process.GetSelectedThread();
if (!thread.IsValid()) {
result.Printf("error: invalid current selected thread\n");
result.SetStatus(lldb::eReturnStatusFailed);
return false;
}
thread_id = thread.GetThreadID();
}
// Stop trace
lldb::SBError error;
pt_decoder_sp->StopProcessorTrace(process, error, thread_id);
if (!error.Success()) {
result.Printf("error: %s\n", error.GetCString());
result.SetStatus(lldb::eReturnStatusFailed);
return false;
}
return true;
}
private:
std::shared_ptr<ptdecoder::PTDecoder> pt_decoder_sp;
};
bool PTPluginInitialize(lldb::SBDebugger &debugger) {
lldb::SBCommandInterpreter interpreter = debugger.GetCommandInterpreter();
lldb::SBCommand proc_trace = interpreter.AddMultiwordCommand(
"processor-trace", "Intel(R) Processor Trace for thread/process");
std::shared_ptr<ptdecoder::PTDecoder> PTDecoderSP(
new ptdecoder::PTDecoder(debugger));
lldb::SBCommandPluginInterface *proc_trace_start =
new ProcessorTraceStart(PTDecoderSP);
const char *help_proc_trace_start = "start Intel(R) Processor Trace on a "
"specific thread or on the whole process";
const char *syntax_proc_trace_start =
"processor-trace start <cmd-options>\n\n"
"\rcmd-options Usage:\n"
"\r processor-trace start [-b <buffer-size>] [<thread-index>]\n\n"
"\t\b-b <buffer-size>\n"
"\t size of the trace buffer to store the trace data. If not "
"specified then a default value will be taken\n\n"
"\t\b<thread-index>\n"
"\t thread index of the thread. If no threads are specified, "
"currently selected thread is taken.\n"
"\t Use the thread-index 'all' to start tracing the whole process\n";
proc_trace.AddCommand("start", proc_trace_start, help_proc_trace_start,
syntax_proc_trace_start);
lldb::SBCommandPluginInterface *proc_trace_stop =
new ProcessorTraceStop(PTDecoderSP);
const char *help_proc_trace_stop =
"stop Intel(R) Processor Trace on a specific thread or on whole process";
const char *syntax_proc_trace_stop =
"processor-trace stop <cmd-options>\n\n"
"\rcmd-options Usage:\n"
"\r processor-trace stop [<thread-index>]\n\n"
"\t\b<thread-index>\n"
"\t thread index of the thread. If no threads are specified, "
"currently selected thread is taken.\n"
"\t Use the thread-index 'all' to stop tracing the whole process\n";
proc_trace.AddCommand("stop", proc_trace_stop, help_proc_trace_stop,
syntax_proc_trace_stop);
lldb::SBCommandPluginInterface *proc_trace_show_instr_log =
new ProcessorTraceShowInstrLog(PTDecoderSP);
const char *help_proc_trace_show_instr_log =
"display a log of assembly instructions executed for a specific thread "
"or for the whole process.\n"
"The length of the log to be displayed and the offset in the whole "
"instruction log from where the log needs to be displayed can also be "
"provided. The offset is counted from the end of this whole "
"instruction log which means the last executed instruction is at offset "
"0 (zero)";
const char *syntax_proc_trace_show_instr_log =
"processor-trace show-instr-log <cmd-options>\n\n"
"\rcmd-options Usage:\n"
"\r processor-trace show-instr-log [-o <offset>] [-c <count>] "
"[<thread-index>]\n\n"
"\t\b-o <offset>\n"
"\t offset in the whole instruction log from where the log will be "
"displayed. If not specified then a default value will be taken\n\n"
"\t\b-c <count>\n"
"\t number of instructions to be displayed. If not specified then a "
"default value will be taken\n\n"
"\t\b<thread-index>\n"
"\t thread index of the thread. If no threads are specified, "
"currently selected thread is taken.\n"
"\t Use the thread-index 'all' to show instruction log for all the "
"threads of the process\n";
proc_trace.AddCommand("show-instr-log", proc_trace_show_instr_log,
help_proc_trace_show_instr_log,
syntax_proc_trace_show_instr_log);
lldb::SBCommandPluginInterface *proc_trace_options =
new ProcessorTraceInfo(PTDecoderSP);
const char *help_proc_trace_show_options =
"display all the information regarding Intel(R) Processor Trace for a "
"specific thread or for the whole process.\n"
"The information contains trace buffer size and configuration options"
" of Intel(R) Processor Trace.";
const char *syntax_proc_trace_show_options =
"processor-trace show-options <cmd-options>\n\n"
"\rcmd-options Usage:\n"
"\r processor-trace show-options [<thread-index>]\n\n"
"\t\b<thread-index>\n"
"\t thread index of the thread. If no threads are specified, "
"currently selected thread is taken.\n"
"\t Use the thread-index 'all' to display information for all threads "
"of the process\n";
proc_trace.AddCommand("show-trace-options", proc_trace_options,
help_proc_trace_show_options,
syntax_proc_trace_show_options);
return true;
}