More efficient enum representation.

[apitrace] / trace_write.cpp

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 *
 * Copyright 2007-2009 VMware, Inc.
 * All Rights Reserved.
 *
 * Permission is hereby granted, free of charge, to any person obtaining a copy
 * of this software and associated documentation files (the "Software"), to deal
 * in the Software without restriction, including without limitation the rights
 * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
 * copies of the Software, and to permit persons to whom the Software is
 * furnished to do so, subject to the following conditions:
 *
 * The above copyright notice and this permission notice shall be included in
 * all copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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#include <assert.h>
#include <stdarg.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>

#include <map>

#include <zlib.h>

#include "os.hpp"
#include "trace_write.hpp"
#include "trace_format.hpp"


namespace Trace {


static gzFile g_gzFile = NULL;
static void _Close(void) {
   if(g_gzFile != NULL) {
      gzclose(g_gzFile);
      g_gzFile = NULL;
   }
}

static void _Open(const char *szExtension) {
   _Close();
   
   static unsigned dwCounter = 0;

   char szFileName[PATH_MAX];
   const char *lpFileName;

   lpFileName = getenv("TRACE_PATH");
   if (lpFileName) {
       strncpy(szFileName, lpFileName, PATH_MAX);
   }
   else {
       char szProcessName[PATH_MAX];
       char szCurrentDir[PATH_MAX];
       OS::GetProcessName(szProcessName, PATH_MAX);
       OS::GetCurrentDir(szCurrentDir, PATH_MAX);

       for(;;) {
          FILE *file;
          
          if (dwCounter)
             snprintf(szFileName, PATH_MAX, "%s%c%s.%u.%s", szCurrentDir, PATH_SEP, szProcessName, dwCounter, szExtension);
          else
             snprintf(szFileName, PATH_MAX, "%s%c%s.%s", szCurrentDir, PATH_SEP, szProcessName, szExtension);
          
          file = fopen(szFileName, "rb");
          if(file == NULL)
             break;
          
          fclose(file);
          
          ++dwCounter;
       }
   }

   OS::DebugMessage("apitrace: tracing to %s\n", szFileName);

   g_gzFile = gzopen(szFileName, "wb");
}

static inline void Write(const void *sBuffer, size_t dwBytesToWrite) {
   if (g_gzFile == NULL)
      return;
   
   gzwrite(g_gzFile, sBuffer, dwBytesToWrite);
}

static inline void 
WriteByte(char c) {
   Write(&c, 1);
}

void inline 
WriteUInt(unsigned long long value) {
   char buf[2 * sizeof value];
   unsigned len;

   len = 0;
   do {
      assert(len < sizeof buf);
      buf[len] = 0x80 | (value & 0x7f);
      value >>= 7;
      ++len;
   } while (value);

   assert(len);
   buf[len - 1] &= 0x7f;

   Write(buf, len);
}

static inline void 
WriteFloat(float value) {
   assert(sizeof value == 4);
   Write((const char *)&value, sizeof value);
}

static inline void 
WriteDouble(double value) {
   assert(sizeof value == 8);
   Write((const char *)&value, sizeof value);
}

static inline void 
WriteString(const char *str) {
   size_t len = strlen(str);
   WriteUInt(len);
   Write(str, len);
}

typedef std::map<const char *, size_t> namemap;
static namemap names;

static inline void 
WriteName(const char *name) {
   namemap::iterator it = names.find(name);
   if (it == names.end()) {
       size_t name_id = names.size();
       WriteUInt(name_id);
       WriteString(name);
       names[name] = name_id;
   } else {
       WriteUInt(it->second);
   }
}

void Open(void) {
    if (!g_gzFile) {
        _Open("trace");
        WriteUInt(TRACE_VERSION);
    }
}

void Close(void) {
   _Close();
}

static unsigned call_no = 0;

static std::map<Id, bool> functions;
static std::map<Id, bool> enums;
static std::map<Id, bool> bitmasks;


unsigned BeginEnter(const FunctionSig &function) {
   OS::AcquireMutex();
   Open();
   WriteByte(Trace::EVENT_ENTER);
   WriteUInt(function.id);
   if (!functions[function.id]) {
      WriteString(function.name);
      WriteUInt(function.num_args);
      for (unsigned i = 0; i < function.num_args; ++i) {
         WriteString(function.args[i]);
      }
      functions[function.id] = true;
   }
   return call_no++;
}

void EndEnter(void) {
   WriteByte(Trace::CALL_END);
   gzflush(g_gzFile, Z_SYNC_FLUSH);
   OS::ReleaseMutex();
}

void BeginLeave(unsigned call) {
   OS::AcquireMutex();
   WriteByte(Trace::EVENT_LEAVE);
   WriteUInt(call);
}

void EndLeave(void) {
   WriteByte(Trace::CALL_END);
   gzflush(g_gzFile, Z_SYNC_FLUSH);
   OS::ReleaseMutex();
}

void BeginArg(unsigned index) {
   WriteByte(Trace::CALL_ARG);
   WriteUInt(index);
}

void BeginReturn(void) {
   WriteByte(Trace::CALL_RET);
}

void BeginArray(size_t length) {
   WriteByte(Trace::TYPE_ARRAY);
   WriteUInt(length);
}

void BeginStruct(size_t length) {
   WriteByte(Trace::TYPE_STRUCT);
   WriteUInt(length);
}

void BeginMember(const char *name) {
   WriteName(name);
}

void LiteralBool(bool value) {
   WriteByte(value ? Trace::TYPE_TRUE : Trace::TYPE_FALSE);
}

void LiteralSInt(signed long long value) {
   if (value < 0) {
      WriteByte(Trace::TYPE_SINT);
      WriteUInt(-value);
   } else {
      WriteByte(Trace::TYPE_UINT);
      WriteUInt(value);
   }
}

void LiteralUInt(unsigned long long value) {
   WriteByte(Trace::TYPE_UINT);
   WriteUInt(value);
}

void LiteralFloat(float value) {
   WriteByte(Trace::TYPE_FLOAT);
   WriteFloat(value);
}

void LiteralFloat(double value) {
   WriteByte(Trace::TYPE_DOUBLE);
   WriteDouble(value);
}

void LiteralString(const char *str) {
   if (!str) {
      LiteralNull();
      return;
   }
   WriteByte(Trace::TYPE_STRING);
   WriteString(str);
}

void LiteralString(const char *str, size_t len) {
   if (!str) {
      LiteralNull();
      return;
   }
   WriteByte(Trace::TYPE_STRING);
   WriteUInt(len);
   Write(str, len);
}

void LiteralWString(const wchar_t *str) {
   if (!str) {
      LiteralNull();
      return;
   }
   WriteByte(Trace::TYPE_STRING);
   WriteString("<wide-string>");
}
   
void LiteralBlob(const void *data, size_t size) {
   if (!data) {
      LiteralNull();
      return;
   }
   WriteByte(Trace::TYPE_BLOB);
   WriteUInt(size);
   if (size) {
      Write(data, size);
   }
}

void LiteralEnum(const EnumSig *sig) {
   WriteByte(Trace::TYPE_ENUM);
   WriteUInt(sig->id);
   if (!enums[sig->id]) {
      WriteString(sig->name);
      LiteralSInt(sig->value);
      enums[sig->id] = true;
   }
}

void LiteralBitmask(const BitmaskSig &bitmask, unsigned long long value) {
   WriteByte(Trace::TYPE_BITMASK);
   WriteUInt(bitmask.id);
   if (!bitmasks[bitmask.id]) {
      WriteUInt(bitmask.count);
      for (unsigned i = 0; i < bitmask.count; ++i) {
         WriteString(bitmask.values[i].name);
         WriteUInt(bitmask.values[i].value);
      }
      bitmasks[bitmask.id] = true;
   }
   WriteUInt(value);
}

void LiteralNull(void) {
   WriteByte(Trace::TYPE_NULL);
}

void LiteralOpaque(const void *addr) {
   if (!addr) {
      LiteralNull();
      return;
   }
   WriteByte(Trace::TYPE_OPAQUE);
   WriteUInt((size_t)addr);
}

void Abort(void) {
    Close();
    OS::Abort();
}

} /* namespace Trace */