emulator/qtools/gtrace.cpp - platform/sdk - Git at Google

 #include <stdio.h>
 #include <stdlib.h>
 #include <inttypes.h>
 #include "gtrace.h"

 // A buffer of zeros
 static char zeros[Gtrace::kGtraceEntriesPerBlock * sizeof(Gtrace::trace_entry)];

 Gtrace::Gtrace() {
   gtrace_file_ = NULL;
   ftrace_ = NULL;
   fnames_ = NULL;
   start_sec_ = 0;
   pdate_ = 0;
   ptime_ = 0;
   num_entries_ = 0;
   blockno_ = 1;
   current_pid_ = 0;
 }

 Gtrace::~Gtrace() {
   if (ftrace_) {
     // Extend the trace file to a multiple of 8k. Otherwise gtracepost64
     // complains.
     long pos = ftell(ftrace_);
     long pos_end = (pos + 0x1fff) & ~0x1fff;
     if (pos_end > pos) {
       char ch = 0;
       fseek(ftrace_, pos_end - 1, SEEK_SET);
       fwrite(&ch, 1, 1, ftrace_);
     }
     fclose(ftrace_);
   }
   if (fnames_)
     fclose(fnames_);
 }

 void Gtrace::Open(const char *gtrace_file, uint32_t pdate, uint32_t ptime)
 {
   ftrace_ = fopen(gtrace_file, "w");
   if (ftrace_ == NULL) {
     perror(gtrace_file);
     exit(1);
   }
   gtrace_file_ = gtrace_file;

   pdate_ = pdate;
   ptime_ = ptime;
   sprintf(gname_file_, "gname_%x_%06x.txt", pdate, ptime);
   fnames_ = fopen(gname_file_, "w");
   if (fnames_ == NULL) {
     perror(gname_file_);
     exit(1);
   }
   fprintf(fnames_, "# File# Proc# Line# Name\n");
 }

 void Gtrace::WriteFirstHeader(uint32_t start_sec, uint32_t pid)
 {
   first_header fh;
   current_pid_ = pid;
   start_sec_ = start_sec;
   FillFirstHeader(start_sec, pid, &fh);
   fwrite(&fh, sizeof(fh), 1, ftrace_);
   num_entries_ = 8;
 }

 void Gtrace::FillFirstHeader(uint32_t start_sec, uint32_t pid,
                              first_header *fh) {
   int cpu = 0;
   int max_files = 16;
   int max_procedures = 12;

   fh->common.blockno = 0;
   fh->common.entry_width = 8;
   fh->common.block_tic = kBaseTic;
   fh->common.block_time = start_sec;
   //fh->common.usec_cpu = (start_usec << 8) | (cpu & 0xff);
   fh->common.usec_cpu = cpu & 0xff;
   fh->common.pid = pid;
   fh->common.bug_count = 0;
   fh->common.zero_count = 0;

   fh->tic = kBaseTic + 1;
   fh->one = 1;
   fh->tics_per_second = kTicsPerSecond;
   fh->trace_time = start_sec;
   fh->version = 5;
   fh->file_proc = (max_files << 8) | max_procedures;
   fh->pdate = pdate_;
   fh->ptime = ptime_;
 }

 void Gtrace::WriteBlockHeader(uint32_t cycle, uint32_t pid)
 {
   int cpu = 0;
   block_header bh;

   bh.blockno = blockno_++;
   bh.entry_width = 8;
   bh.block_tic = cycle + kBaseTic;
   bh.block_time = start_sec_ + cycle / kTicsPerSecond;
   //bh.usec_cpu = (start_usec << 8) | (cpu & 0xff);
   bh.usec_cpu = cpu & 0xff;
   bh.pid = pid;
   bh.bug_count = 0;
   bh.zero_count = 0;
   fwrite(&bh, sizeof(bh), 1, ftrace_);
 }

 void Gtrace::AddGtraceRecord(int filenum, int procnum, uint32_t cycle, uint32_t pid,
                              int is_exit)
 {
   trace_entry	entry;

   if (current_pid_ != pid) {
     current_pid_ = pid;

     // We are switching to a new process id, so pad the current block
     // with zeros.
     int num_zeros = (kGtraceEntriesPerBlock - num_entries_) * sizeof(entry);
     fwrite(zeros, num_zeros, 1, ftrace_);
     WriteBlockHeader(cycle, pid);
     num_entries_ = 4;
   }

   // If the current block is full, write out a new block header
   if (num_entries_ == kGtraceEntriesPerBlock) {
     WriteBlockHeader(cycle, pid);
     num_entries_ = 4;
   }

   entry.cycle = cycle + kBaseTic;
   entry.event = (filenum << 13) | (procnum << 1) | is_exit;
   fwrite(&entry, sizeof(entry), 1, ftrace_);
   num_entries_ += 1;
 }

 void Gtrace::AddProcEntry(int filenum, int procnum, uint32_t cycle, uint32_t pid)
 {
   AddGtraceRecord(filenum, procnum, cycle, pid, 0);
 }

 void Gtrace::AddProcExit(int filenum, int procnum, uint32_t cycle, uint32_t pid)
 {
   AddGtraceRecord(filenum, procnum, cycle, pid, 1);
 }

 void Gtrace::AddProcedure(int filenum, int procnum, const char *proc_name)
 {
   fprintf(fnames_, "%d %d %d %s\n", filenum, procnum, procnum, proc_name);
 }
	#include <stdio.h>
	#include <stdlib.h>
	#include <inttypes.h>
	#include "gtrace.h"

	// A buffer of zeros
	static char zeros[Gtrace::kGtraceEntriesPerBlock * sizeof(Gtrace::trace_entry)];

	Gtrace::Gtrace() {
	gtrace_file_ = NULL;
	ftrace_ = NULL;
	fnames_ = NULL;
	start_sec_ = 0;
	pdate_ = 0;
	ptime_ = 0;
	num_entries_ = 0;
	blockno_ = 1;
	current_pid_ = 0;
	}

	Gtrace::~Gtrace() {
	if (ftrace_) {
	// Extend the trace file to a multiple of 8k. Otherwise gtracepost64
	// complains.
	long pos = ftell(ftrace_);
	long pos_end = (pos + 0x1fff) & ~0x1fff;
	if (pos_end > pos) {
	char ch = 0;
	fseek(ftrace_, pos_end - 1, SEEK_SET);
	fwrite(&ch, 1, 1, ftrace_);
	}
	fclose(ftrace_);
	}
	if (fnames_)
	fclose(fnames_);
	}

	void Gtrace::Open(const char *gtrace_file, uint32_t pdate, uint32_t ptime)
	{
	ftrace_ = fopen(gtrace_file, "w");
	if (ftrace_ == NULL) {
	perror(gtrace_file);
	exit(1);
	}
	gtrace_file_ = gtrace_file;

	pdate_ = pdate;
	ptime_ = ptime;
	sprintf(gname_file_, "gname_%x_%06x.txt", pdate, ptime);
	fnames_ = fopen(gname_file_, "w");
	if (fnames_ == NULL) {
	perror(gname_file_);
	exit(1);
	}
	fprintf(fnames_, "# File# Proc# Line# Name\n");
	}

	void Gtrace::WriteFirstHeader(uint32_t start_sec, uint32_t pid)
	{
	first_header fh;
	current_pid_ = pid;
	start_sec_ = start_sec;
	FillFirstHeader(start_sec, pid, &fh);
	fwrite(&fh, sizeof(fh), 1, ftrace_);
	num_entries_ = 8;
	}

	void Gtrace::FillFirstHeader(uint32_t start_sec, uint32_t pid,
	first_header *fh) {
	int cpu = 0;
	int max_files = 16;
	int max_procedures = 12;

	fh->common.blockno = 0;
	fh->common.entry_width = 8;
	fh->common.block_tic = kBaseTic;
	fh->common.block_time = start_sec;
	//fh->common.usec_cpu = (start_usec << 8) \| (cpu & 0xff);
	fh->common.usec_cpu = cpu & 0xff;
	fh->common.pid = pid;
	fh->common.bug_count = 0;
	fh->common.zero_count = 0;

	fh->tic = kBaseTic + 1;
	fh->one = 1;
	fh->tics_per_second = kTicsPerSecond;
	fh->trace_time = start_sec;
	fh->version = 5;
	fh->file_proc = (max_files << 8) \| max_procedures;
	fh->pdate = pdate_;
	fh->ptime = ptime_;
	}

	void Gtrace::WriteBlockHeader(uint32_t cycle, uint32_t pid)
	{
	int cpu = 0;
	block_header bh;

	bh.blockno = blockno_++;
	bh.entry_width = 8;
	bh.block_tic = cycle + kBaseTic;
	bh.block_time = start_sec_ + cycle / kTicsPerSecond;
	//bh.usec_cpu = (start_usec << 8) \| (cpu & 0xff);
	bh.usec_cpu = cpu & 0xff;
	bh.pid = pid;
	bh.bug_count = 0;
	bh.zero_count = 0;
	fwrite(&bh, sizeof(bh), 1, ftrace_);
	}

	void Gtrace::AddGtraceRecord(int filenum, int procnum, uint32_t cycle, uint32_t pid,
	int is_exit)
	{
	trace_entry entry;

	if (current_pid_ != pid) {
	current_pid_ = pid;

	// We are switching to a new process id, so pad the current block
	// with zeros.
	int num_zeros = (kGtraceEntriesPerBlock - num_entries_) * sizeof(entry);
	fwrite(zeros, num_zeros, 1, ftrace_);
	WriteBlockHeader(cycle, pid);
	num_entries_ = 4;
	}

	// If the current block is full, write out a new block header
	if (num_entries_ == kGtraceEntriesPerBlock) {
	WriteBlockHeader(cycle, pid);
	num_entries_ = 4;
	}

	entry.cycle = cycle + kBaseTic;
	entry.event = (filenum << 13) \| (procnum << 1) \| is_exit;
	fwrite(&entry, sizeof(entry), 1, ftrace_);
	num_entries_ += 1;
	}

	void Gtrace::AddProcEntry(int filenum, int procnum, uint32_t cycle, uint32_t pid)
	{
	AddGtraceRecord(filenum, procnum, cycle, pid, 0);
	}

	void Gtrace::AddProcExit(int filenum, int procnum, uint32_t cycle, uint32_t pid)
	{
	AddGtraceRecord(filenum, procnum, cycle, pid, 1);
	}

	void Gtrace::AddProcedure(int filenum, int procnum, const char *proc_name)
	{
	fprintf(fnames_, "%d %d %d %s\n", filenum, procnum, procnum, proc_name);
	}