trick/trick_source/sim_services/JITInputFile/JITInputFile.cpp
Derek Bankieris 3a03f7af53 Remove to_string from JITInputFile.cpp
Follow the existing error reporting pattern
2019-09-03 11:08:38 -05:00

281 lines
9.7 KiB
C++

#include <iostream>
#include <fstream>
#include <sstream>
#include <cstring>
#include <string>
#include <string.h>
#include <dlfcn.h>
#include <stdlib.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <unistd.h>
#include <errno.h>
#include "trick/JITInputFile.hh"
#include "trick/command_line_protos.h"
#include "trick/message_type.h"
#include "trick/message_proto.h"
#include "trick/env_proto.h"
#include "trick/exec_proto.h"
#include "trick/exec_proto.hh"
#include "trick/TrickConstant.hh"
Trick::JITInputFile * the_jit = NULL ;
//TODO: Move JITLibInfo code into the JITLibInfo object.
Trick::JITInputFile::JITInputFile() {
the_jit = this ;
JITLibInfo li ;
li.library_name = "S_main" ;
li.handle = dlopen( NULL , RTLD_LAZY ) ;
file_to_libinfo_map["S_main"] = li ;
}
/**
@details
-# Test if the input file on the command line ends in .cpp or .cc
-# If it does save the input file locally and clear the command line argument so
the cpp input file will not go through the input processor.
*/
int Trick::JITInputFile::process_sim_args() {
std::string cpp = ".cpp" ;
std::string cc = ".cc" ;
std::string & ifr = command_line_args_get_input_file_ref() ;
if ( ! ifr.empty() ) {
if (! ifr.compare( ifr.length() - cpp.length() , cpp.length(), cpp) or
! ifr.compare( ifr.length() - cc.length() , cc.length(), cc) ) {
input_file = ifr ;
ifr.clear() ;
}
}
return 0 ;
}
/**
@details
-# If the incoming file name has already been successfully compiled, return 0
-# Get the basename of the input file
-# Get the root name of the input file (no extension)
-# Set all of the output file names based on the output directory and the input file root name
-# Make the output directory
-# Open the makefile for writing
-# Create a makefile that will compile the input file to a shared library
-# Call make to compile the library file.
-# Extract the return status from the system call.
-# If the compilation was unsuccessful, exec_terminate
-# The library compile successfully. Add library name to map
*/
int Trick::JITInputFile::compile(std::string file_name) {
std::ofstream outfile ;
std::ostringstream ss ;
std::string output_directory ;
std::string object_fullpath_name ;
std::string library_fullpath_name ;
std::string makefile_fullpath_name ;
std::string input_file_rootname ;
std::string input_file_basename ;
std::string dep_file_name ;
struct stat output_dir_stat ;
int ret ;
size_t pos ;
// If the incoming file name has already been successfully compiled, return now.
if ( file_to_libinfo_map.find(file_name) != file_to_libinfo_map.end() ) {
return 0 ;
}
// get the basename of the input file
if ( (pos = file_name.find_last_of("/")) != std::string::npos ) {
input_file_basename = file_name.substr(pos + 1 ) ;
} else {
input_file_basename = file_name ;
}
// get the root name of the input file (no extension)
if ( (pos = input_file_basename.find_last_of(".")) != std::string::npos ) {
input_file_rootname = input_file_basename.substr(0, pos) ;
} else {
input_file_rootname = input_file_basename ;
}
// set all of the output file names based on the output directory and the input file root name
output_directory = std::string(command_line_args_get_output_dir()) + "/jitlib" ;
makefile_fullpath_name = output_directory + "/Makefile." + input_file_rootname ;
object_fullpath_name = output_directory + "/" + input_file_rootname + ".o" ;
library_fullpath_name = output_directory + "/lib" + input_file_rootname + ".so" ;
dep_file_name = output_directory + "/" + input_file_rootname + ".d" ;
// make the output directory
ret = stat( output_directory.c_str(), &output_dir_stat) ;
if ( ret == -1 and errno == ENOENT ) {
mkdir(output_directory.c_str(), 0775) ;
} else if ( ret == 0 and ! S_ISDIR(output_dir_stat.st_mode)) {
std::string error_message = "JITInputfile could not create directory " + output_directory ;
exec_terminate_with_return(-1 , __FILE__ , __LINE__ , error_message.c_str() ) ;
}
// open the makefile for writing
outfile.open(makefile_fullpath_name.c_str()) ;
// create a makefile that will compile the input file to a shared library
outfile << "# JITInputFile auto generated Makefile. Paths are relative to the simulation directory" << std::endl ;
outfile << "# To manually use this file go to sim directory and use \"make -f " << makefile_fullpath_name << " <makefile_target>\"" ;
outfile << std::endl << std::endl ;
// rule to link shared library
outfile << library_fullpath_name << ": " << object_fullpath_name << std::endl ;
outfile << "\t" << get_trick_env((char *)"TRICK_CXX") << " -shared -o $@ $<" << std::endl << std::endl ;
// rule to compile cpp file
outfile << object_fullpath_name << ": " << file_name << std::endl ;
outfile << "\t" << get_trick_env((char *)"TRICK_CXX") << " " << get_trick_env((char *)"TRICK_CXXFLAGS") ;
outfile << " " << get_trick_env((char *)"TRICK_SYSTEM_CXXFLAGS") ;
outfile << " -MMD -c -fPIC -o $@ $<" << std::endl << std::endl ;
// rule to clean
outfile << "clean:" << std::endl ;
outfile << "\t rm -f " << object_fullpath_name << " " << library_fullpath_name ;
outfile << " " << command_line_args_get_output_dir() << "/" << dep_file_name << std::endl << std::endl ;
// dependency file
outfile << "-include " << dep_file_name << std::endl ;
outfile.close() ;
// call make to compile the library file.
ss << "make -s -f " << makefile_fullpath_name << std::endl ;
ret = system(ss.str().c_str()) ;
// extract the return status from the system call.
ret = WEXITSTATUS(ret) ;
// If the compilation was unsuccessful, exec_terminate
if ( ret != 0 ) {
std::string error_message = std::string("JITInputFile shared library creation failed: ")
+ std::strerror(errno);
exec_terminate_with_return(-1 , __FILE__ , __LINE__ , error_message.c_str());
}
// The library compile successfully. Add library name to map
JITLibInfo li ;
li.library_name = library_fullpath_name ;
file_to_libinfo_map[file_name] = li ;
return 0 ;
}
/**
@details
-# Check if we have compiled this library yet
-# If we have not compiled the library then exec_terminate
-# If the library handle is NULL, try and open the library
-# If the library open fails, exec_terminate
-# Look up the symbol run_function
-# If the symbol is not found exec_terminate.
-# Call the function
*/
int Trick::JITInputFile::run(std::string file_name , std::string run_function ) {
// Check if we have compiled this library yet.
if ( file_to_libinfo_map.find(file_name) == file_to_libinfo_map.end() ) {
// If we have not compiled the library then exec_terminate
std::string error_message = "JITInputfile library not found for " + file_name ;
exec_terminate_with_return(-1 , __FILE__ , __LINE__ , error_message.c_str() ) ;
}
JITLibInfo & li = file_to_libinfo_map.find(file_name)->second ;
// if the library handle is NULL, try and open the library.
if ( li.handle == NULL ) {
li.handle = dlopen( li.library_name.c_str() , RTLD_LAZY ) ;
// if the library open fails, exec_terminate
if ( li.handle == NULL ) {
std::string error_message = "JITInputfile dlopen failed on " + li.library_name ;
exec_terminate_with_return(-1 , __FILE__ , __LINE__ , error_message.c_str() ) ;
}
}
// Look up the symbol name
int (*call_me)(void) = (int (*)(void))dlsym( li.handle , run_function.c_str()) ;
if ( call_me == NULL ) {
std::string error_message = "JITInputfile could not find function " + run_function ;
return exec_terminate_with_return(-1 , __FILE__ , __LINE__ , error_message.c_str() ) ;
} else {
// We found the function, call it!
return (*call_me)() ;
}
}
/**
@details
-# If the file_name is not empty
-# Compile the file_name
-# If the file compiled successfully
-# Execute the run_function
*/
int Trick::JITInputFile::compile_and_run(std::string file_name, std::string run_function) {
int ret = 0 ;
// If the file name is not empty
if ( ! file_name.empty() ) {
// Attempt to compile the library.
ret = compile(file_name) ;
if ( ret == 0 ) {
// If the compilation was successful execute run_function.
ret = run( file_name , run_function ) ;
}
}
// Return 0 or the return value of compile/run.
return ret ;
}
/**
@details
-# If the incoming file name has already been added, return 0
-# Add library name to map
*/
int Trick::JITInputFile::add_library(std::string lib_name) {
// If the incoming file name has already been added, return 0
if ( file_to_libinfo_map.find(lib_name) != file_to_libinfo_map.end() ) {
return 0 ;
}
// Add library name to map
JITLibInfo li ;
li.library_name = lib_name ;
li.handle = dlopen( li.library_name.c_str() , RTLD_LAZY ) ;
file_to_libinfo_map[lib_name] = li ;
return 0 ;
}
void * Trick::JITInputFile::find_symbol(std::string sym) {
std::map< std::string , JITLibInfo >::iterator it ;
for ( it = file_to_libinfo_map.begin() ; it != file_to_libinfo_map.end() ; it++ ) {
void * ret = (*it).second.find_symbol(sym) ;
if (ret != NULL) {
return ret ;
}
}
return NULL ;
}
/**
@details
-# Call compile_and_run with the input_file from the command line
*/
int Trick::JITInputFile::init() {
// Compile and run the input file. It's ok if input_file is empty.
return compile_and_run(input_file) ;
}