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/*
* Copyright (c) 1999-2005 Mark D. Hill and David A. Wood
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met: redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer;
* redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution;
* neither the name of the copyright holders nor the names of its
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
/*
* saves configuration information for later runs
*/
/*------------------------------------------------------------------------*/
/* Includes */
/*------------------------------------------------------------------------*/
#ifdef IS_OPAL
#include "hfa.hh"
#endif
#ifdef IS_RUBY
#include "Global.hh"
#define SIM_HALT ASSERT(0)
#endif
#ifdef IS_TOURMALINE
#include "Tourmaline_Global.hh"
#endif
using namespace std;
#include <string>
#include <map>
#include <stdlib.h>
// Maurice
// extern "C" {
// #include "global.hh"
// #include "simics/api.hh"
//
// #ifdef SIMICS22X
// #include "sparc_api.hh"
// #endif
// #ifdef SIMICS30
// #ifdef SPARC
// #include "sparc.hh"
// #else
// #include "x86.hh"
// #endif
// #endif
// };
#include "FakeSimicsDataTypes.hh"
#include "confio.hh"
/*------------------------------------------------------------------------*/
/* Macro declarations */
/*------------------------------------------------------------------------*/
/*------------------------------------------------------------------------*/
/* Variable declarations */
/*------------------------------------------------------------------------*/
/*------------------------------------------------------------------------*/
/* Forward declarations */
/*------------------------------------------------------------------------*/
// C++ Template: explicit instantiation
template class map<string, confnode_t *>;
// These functions are defined in parser/attrlex.l
extern "C" int parseAttrFile( FILE *inputFile, const char *relative_include_path, attr_value_t *myTable );
extern "C" int parseAttrString( const char *str, attr_value_t *myTable );
/*------------------------------------------------------------------------*/
/* Constructor(s) / destructor */
/*------------------------------------------------------------------------*/
//**************************************************************************
confio_t::confio_t( )
{
m_verbose = false;
}
//**************************************************************************
confio_t::~confio_t( )
{
ConfTable::iterator iter;
for ( iter = m_table.begin(); iter != m_table.end(); iter++ ) {
confnode_t *cfnode = (*iter).second;
free( cfnode );
}
}
/*------------------------------------------------------------------------*/
/* Public methods */
/*------------------------------------------------------------------------*/
/*------------------------------------------------------------------------*/
/* Accessor(s) / mutator(s) */
/*------------------------------------------------------------------------*/
//**************************************************************************
int confio_t::register_attribute( const char *name,
get_confio_t get_attr, void *get_attr_data,
set_confio_t set_attr, void *set_attr_data )
{
confnode_t *newnode;
if ( m_table.find(name) == m_table.end() ) {
if (m_verbose)
DEBUG_OUT(" registering checkpoint attribute: \"%s\"\n", name);
// add a new entry to the table
newnode = (confnode_t *) malloc( sizeof( confnode_t ) );
newnode->get_attr = get_attr;
newnode->set_attr = set_attr;
newnode->set_attr_data = set_attr_data;
newnode->get_attr_data = get_attr_data;
newnode->attr_is_set = false;
string key(name);
m_table[key] = newnode;
} else {
ERROR_OUT(" warning: confio: adding existing conf node: %s\n", name);
}
return 0;
}
//**************************************************************************
void fprintAttr( FILE *fp, attr_value_t attr )
{
switch (attr.kind) {
case Sim_Val_Invalid:
fprintf(fp, "invalid");
break;
case Sim_Val_String:
fprintf(fp, "%s", attr.u.string);
break;
case Sim_Val_Integer:
fprintf(fp, "0x%llx", attr.u.integer);
break;
case Sim_Val_Floating:
fprintf(fp, "0x%llx", attr.u.integer);
break;
case Sim_Val_List:
fprintf(fp, "(");
for (uint32 i = 0; i < attr.u.list.size; i++) {
fprintAttr(fp, attr.u.list.vector[i]);
if (i != attr.u.list.size -1) {
fprintf(fp, ", ");
}
}
fprintf(fp, ")");
break;
default:
ERROR_OUT("fprintAttr: unknown/unimplemented attribute %d\n", attr.kind);
}
}
//**************************************************************************
void freeAttribute( attr_value_t *attr )
{
switch (attr->kind) {
case Sim_Val_Invalid:
break;
case Sim_Val_String:
free( (char *) attr->u.string );
break;
case Sim_Val_Integer:
break;
case Sim_Val_Floating:
break;
case Sim_Val_List:
for (uint32 i = 0; i < attr->u.list.size; i++) {
freeAttribute( &(attr->u.list.vector[i]) );
}
free( attr->u.list.vector );
break;
default:
ERROR_OUT("freeAttr: unknown/unimplemented attribute %d\n", attr->kind);
}
}
/**
* Allocates, and initializes a attribute value.
* @param number The number of values to allocate.
* @return A pointer to the newly allocated structure.
*/
//**************************************************************************
attr_value_t *mallocAttribute( uint32 number )
{
attr_value_t *newattr = (attr_value_t *) malloc( number *
sizeof(attr_value_t) );
if ( newattr == NULL ) {
ERROR_OUT( "confio: mallocAttribute: out of memory\n" );
exit(1);
}
memset( newattr, 0, number*sizeof(attr_value_t) );
return (newattr);
}
//**************************************************************************
void fprintMap( FILE *fp, attr_value_t attr )
{
attr_value_t name;
attr_value_t value;
if (attr.kind != Sim_Val_List)
return;
for (int i = 0; i < attr.u.list.size; i++) {
if (attr.u.list.vector[i].kind != Sim_Val_List ||
attr.u.list.vector[i].u.list.size != 2)
return;
name = attr.u.list.vector[i].u.list.vector[0];
value = attr.u.list.vector[i].u.list.vector[1];
fprintf( fp, " %s: ", name.u.string);
fprintAttr( fp, value );
fprintf( fp, "\n");
}
}
/**
* write a configuration file: e.g. save state
*/
//**************************************************************************
int confio_t::writeConfiguration( const char *outputFilename )
{
FILE *fp;
ConfTable::iterator iter;
confnode_t *cfnode;
attr_value_t attr;
memset( &attr, 0, sizeof(attr_value_t) );
if ( outputFilename == NULL ) {
fp = stdout;
} else {
fp = fopen( outputFilename, "w" );
if ( fp == NULL ) {
ERROR_OUT("error: writeConfiguration: unable to open file %s\n",
outputFilename );
return (-1);
}
}
for (iter = m_table.begin(); iter != m_table.end(); iter++) {
fprintf( fp, " %s: ", (*iter).first.c_str() );
cfnode = (*iter).second;
attr = (*(cfnode->get_attr))( cfnode->get_attr_data, NULL );
fprintAttr( fp, attr );
fprintf(fp, "\n");
}
if ( outputFilename != NULL ) {
// wrote to a file: now close it!
fclose( fp );
}
return 0;
}
/**
* read state from an existing configuration file
*/
//**************************************************************************
int confio_t::readConfiguration( const char *inputFilename,
const char *relativeIncludePath )
{
// parse the input stream
FILE *fp;
char relativeFilename[256];
fp = fopen( inputFilename, "r" );
if ( fp == NULL ) {
sprintf( relativeFilename, "%s%s", relativeIncludePath, inputFilename );
fp = fopen( relativeFilename, "r" );
}
if ( fp == NULL ) {
sprintf( relativeFilename, "%s%s%s", relativeIncludePath, "config/",
inputFilename );
fp = fopen( relativeFilename, "r" );
}
if ( fp == NULL ) {
ERROR_OUT("error: readConfiguration: unable to open file %s or %s\n",
inputFilename, relativeFilename);
return (-1);
}
attr_value_t *myattr = mallocAttribute(1);
#ifdef MODINIT_VERBOSE
DEBUG_OUT("confio_t() parsing conf file\n");
#endif
int rc = parseAttrFile( fp, relativeIncludePath, myattr );
#ifdef MODINIT_VERBOSE
DEBUG_OUT("confio_t() parse completed\n");
#endif
if ( rc == 0 ) {
applyConfiguration( myattr );
freeAttribute( myattr );
free(myattr);
}
fclose( fp );
#ifdef MODINIT_VERBOSE
DEBUG_OUT("confio_t() completed\n");
#endif
return (rc);
}
/**
* read state from a configuration string
*/
//**************************************************************************
int confio_t::readConfigurationString( const char *inputBuffer )
{
if ( inputBuffer == NULL ) {
ERROR_OUT( "error: readConfiguration: NULL inputBuffer\n" );
return (-1);
}
attr_value_t *myattr = mallocAttribute(1);
#ifdef MODINIT_VERBOSE
DEBUG_OUT("confio_t() parsing conf string\n");
#endif
int rc = parseAttrString( inputBuffer, myattr );
#ifdef MODINIT_VERBOSE
DEBUG_OUT("confio_t() parse completed\n");
#endif
if ( rc == 0 ) {
applyConfiguration( myattr );
freeAttribute( myattr );
free(myattr);
}
return (rc);
}
//**************************************************************************
void confio_t::checkInitialization( void )
{
ConfTable::iterator iter;
confnode_t *cfnode;
for (iter = m_table.begin(); iter != m_table.end(); iter++) {
cfnode = (*iter).second;
if ( !cfnode->attr_is_set ) {
DEBUG_OUT(" warning: %s is not set in configuration file.\n", (*iter).first.c_str() );
}
}
}
/*------------------------------------------------------------------------*/
/* Private methods */
/*------------------------------------------------------------------------*/
//**************************************************************************
int confio_t::applyConfiguration( attr_value_t *attr )
{
confnode_t *cfnode;
attr_value_t name;
attr_value_t value;
set_error_t seterr;
#ifdef MODINIT_VERBOSE
DEBUG_OUT("confio_t() data in memory\n");
fprintMap( stdout, *attr );
#endif
// apply the configuration the the m_table
if (attr->kind != Sim_Val_List ||
attr->u.list.size <= 0) {
ERROR_OUT("readconfiguration: internal error #1\n");
return -1;
}
for (int i = 0; i < attr->u.list.size; i++) {
if (attr->u.list.vector[i].kind != Sim_Val_List ||
attr->u.list.vector[i].u.list.size != 2) {
ERROR_OUT("readconfiguration: illegal configuration kind:%d size:%lld\n",
attr->u.list.vector[i].kind,
attr->u.list.vector[i].u.list.size);
continue;
}
name = attr->u.list.vector[i].u.list.vector[0];
value = attr->u.list.vector[i].u.list.vector[1];
string newstr((char *) name.u.string);
if ( m_table.find(newstr) != m_table.end()) {
// set the value found in the configuration
cfnode = m_table[newstr];
seterr = (*cfnode->set_attr)( cfnode->set_attr_data, NULL,
&(value) );
if ( seterr == Sim_Set_Ok ) {
cfnode->attr_is_set = true;
if (m_verbose)
DEBUG_OUT("configuration set for: %s\n", name.u.string);
} else {
ERROR_OUT("error: \"%s\" unable to set value: %d\n",
name.u.string, (int) seterr);
}
} else {
ERROR_OUT("error: \"%s\" not found. unable to set value.\n",
name.u.string);
}
}
return 0;
}
/*------------------------------------------------------------------------*/
/* Static methods */
/*------------------------------------------------------------------------*/
/*------------------------------------------------------------------------*/
/* Global functions */
/*------------------------------------------------------------------------*/
/** [Memo].
* [Internal Documentation]
*/
//**************************************************************************
|