// Copyright 2006 The Android Open Source Project
#include <stdio.h>
#include <unistd.h>
#include <stdlib.h>
#include <inttypes.h>
#include <assert.h>
#include "trace_reader.h"
#include "bitvector.h"
#include "parse_options.h"
#include "dmtrace.h"
#include "armdis.h"
struct symbol {
uint32_t id;
};
typedef TraceReader<symbol> TraceReaderType;
#include "parse_options-inl.h"
#include "callstack.h"
DmTrace *dmtrace;
class MyFrame : public StackFrame<symbol_type> {
public:
void push(int stackLevel, uint64_t time, CallStackBase *base);
void pop(int stackLevel, uint64_t time, CallStackBase *base);
};
typedef CallStack<MyFrame> CallStackType;
static const int kNumStackFrames = 500;
static const int kMaxThreads = (32 * 1024);
uint64_t thread_time[kMaxThreads];
class FunctionStack {
public:
FunctionStack() {
top = 0;
}
void push(symbol_type *sym) {
if (top >= kNumStackFrames)
return;
frames[top] = sym;
top += 1;
}
symbol_type* pop() {
if (top <= 0) {
return NULL;
}
top -= 1;
return frames[top];
}
void showStack() {
fprintf(stderr, "top %d\n", top);
for (int ii = 0; ii < top; ii++) {
fprintf(stderr, " %d: %s\n", ii, frames[ii]->name);
}
}
private:
int top;
symbol_type *frames[kNumStackFrames];
};
FunctionStack *dmtrace_stack[kMaxThreads];
void MyFrame::push(int stackLevel, uint64_t time, CallStackBase *base)
{
int pid = base->getId();
CallStackType *stack = (CallStackType *) base;
#if 0
fprintf(stderr, "native push t %llu p %d s %d fid %d 0x%x %s\n",
stack->getGlobalTime(time), pid, stackLevel,
function->id, function->addr, function->name);
#endif
FunctionStack *fstack = dmtrace_stack[pid];
if (fstack == NULL) {
fstack = new FunctionStack();
dmtrace_stack[pid] = fstack;
}
fstack->push(function);
thread_time[pid] = time;
dmtrace->addFunctionEntry(function->id, time, pid);
}
void MyFrame::pop(int stackLevel, uint64_t time, CallStackBase *base)
{
int pid = base->getId();
CallStackType *stack = (CallStackType *) base;
#if 0
fprintf(stderr, "native pop t %llu p %d s %d fid %d 0x%x %s\n",
stack->getGlobalTime(time), pid, stackLevel,
function->id, function->addr, function->name);
#endif
FunctionStack *fstack = dmtrace_stack[pid];
if (fstack == NULL) {
fstack = new FunctionStack();
dmtrace_stack[pid] = fstack;
}
symbol_type *sym = fstack->pop();
if (sym != NULL && sym != function) {
fprintf(stderr, "Error: q2dm function mismatch at time %llu pid %d sym %s\n",
stack->getGlobalTime(time), pid, sym->name);
fstack->showStack();
exit(1);
}
thread_time[pid] = time;
dmtrace->addFunctionExit(function->id, time, pid);
}
uint32_t nextFunctionId = 4;
CallStackType *stacks[kMaxThreads];
void Usage(const char *program)
{
fprintf(stderr, "Usage: %s [options] trace_name elf_file dmtrace_name\n",
program);
OptionsUsage();
}
int main(int argc, char **argv)
{
bool useKernelStack = true;
ParseOptions(argc, argv);
if (argc - optind != 3) {
Usage(argv[0]);
exit(1);
}
char *qemu_trace_file = argv[optind++];
char *elf_file = argv[optind++];
char *dmtrace_file = argv[optind++];
TraceReaderType *trace = new TraceReaderType;
trace->Open(qemu_trace_file);
trace->SetDemangle(demangle);
trace->ReadKernelSymbols(elf_file);
trace->SetRoot(root);
TraceHeader *qheader = trace->GetHeader();
uint64_t startTime = qheader->start_sec;
startTime = (startTime << 32) | qheader->start_usec;
int kernelPid = qheader->first_unused_pid;
dmtrace = new DmTrace;
dmtrace->open(dmtrace_file, startTime);
bool inKernel = false;
CallStackType *kernelStack = NULL;
if (useKernelStack) {
// Create a fake kernel thread stack where we will put all the kernel
// code.
kernelStack = new CallStackType(kernelPid, kNumStackFrames, trace);
dmtrace->addThread(kernelPid, "(kernel)");
}
CallStackType *prevStack = NULL;
BBEvent event;
while (1) {
BBEvent ignored;
symbol_type *function;
if (GetNextValidEvent(trace, &event, &ignored, &function))
break;
if (event.bb_num == 0)
break;
#if 0
fprintf(stderr, "event t %llu p %d %s\n",
event.time, event.pid, function->name);
#endif
CallStackType *pStack;
if (useKernelStack) {
uint32_t flags = function->region->flags;
uint32_t region_mask = region_type::kIsKernelRegion
| region_type::kIsUserMappedRegion;
if ((flags & region_mask) == region_type::kIsKernelRegion) {
// Use the kernel stack
pStack = kernelStack;
inKernel = true;
} else {
// If we were just in the kernel then pop off all of the
// stack frames for the kernel thread.
if (inKernel == true) {
inKernel = false;
kernelStack->popAll(event.time);
}
// Get the stack for the current thread
pStack = stacks[event.pid];
}
} else {
// Get the stack for the current thread
pStack = stacks[event.pid];
}
// If the stack does not exist, then allocate a new one.
if (pStack == NULL) {
pStack = new CallStackType(event.pid, kNumStackFrames, trace);
stacks[event.pid] = pStack;
const char *name = trace->GetProcessName(event.pid);
dmtrace->addThread(event.pid, name);
}
if (prevStack != pStack) {
pStack->threadStart(event.time);
if (prevStack)
prevStack->threadStop(event.time);
}
prevStack = pStack;
// If we have never seen this function before, then add it to the
// list of known functions.
if (function->id == 0) {
function->id = nextFunctionId;
nextFunctionId += 4;
uint32_t flags = function->region->flags;
const char *name = function->name;
if (flags & region_type::kIsKernelRegion) {
// To distinguish kernel function names from user library
// names, add a marker to the name.
int len = strlen(name) + strlen(" [kernel]") + 1;
char *kernelName = new char[len];
strcpy(kernelName, name);
strcat(kernelName, " [kernel]");
name = kernelName;
}
dmtrace->parseAndAddFunction(function->id, name);
}
// Update the stack
pStack->updateStack(&event, function);
}
if (prevStack == NULL) {
fprintf(stderr, "Error: no events in trace.\n");
exit(1);
}
prevStack->threadStop(event.time);
for (int ii = 0; ii < kMaxThreads; ++ii) {
if (stacks[ii]) {
stacks[ii]->threadStart(event.time);
stacks[ii]->popAll(event.time);
}
}
if (useKernelStack) {
kernelStack->popAll(event.time);
}
// Read the pid events to find the names of the processes
while (1) {
PidEvent pid_event;
if (trace->ReadPidEvent(&pid_event))
break;
if (pid_event.rec_type == kPidName) {
dmtrace->updateName(pid_event.pid, pid_event.path);
}
}
dmtrace->close();
delete dmtrace;
delete trace;
return 0;
}