OpenFPGA/libs/libfpgabitstream/src/write_xml_arch_bitstream.cpp

211 lines
7.7 KiB
C++

/********************************************************************
* This file includes functions that output bitstream database
* to files in different formats
*******************************************************************/
#include <chrono>
#include <ctime>
#include <fstream>
/* Headers from vtrutil library */
#include "vtr_assert.h"
#include "vtr_log.h"
#include "vtr_time.h"
/* Headers from openfpgautil library */
#include "openfpga_digest.h"
#include "openfpga_tokenizer.h"
#include "openfpga_reserved_words.h"
#include "bitstream_manager_utils.h"
#include "write_xml_arch_bitstream.h"
/* begin namespace openfpga */
namespace openfpga {
/********************************************************************
* This function write header information to a bitstream file
*******************************************************************/
static
void write_bitstream_xml_file_head(std::fstream& fp,
const bool& include_time_stamp) {
valid_file_stream(fp);
fp << "<!--" << std::endl;
fp << "\t- Architecture independent bitstream" << std::endl;
fp << "\t- Author: Xifan TANG" << std::endl;
fp << "\t- Organization: University of Utah" << std::endl;
if (include_time_stamp) {
auto end = std::chrono::system_clock::now();
std::time_t end_time = std::chrono::system_clock::to_time_t(end);
fp << "\t- Date: " << std::ctime(&end_time) ;
}
fp << "-->" << std::endl;
fp << std::endl;
}
/********************************************************************
* Recursively write the bitstream of a block to a xml file
* This function will use a Depth-First Search in outputting bitstream
* for each block
* 1. For block with bits as children, we will output the XML lines
* 2. For block without bits/child blocks, we can return
* 3. For block with child blocks, we visit each child recursively
*******************************************************************/
static
void rec_write_block_bitstream_to_xml_file(std::fstream& fp,
const BitstreamManager& bitstream_manager,
const ConfigBlockId& block,
const size_t& hierarchy_level) {
valid_file_stream(fp);
/* Write the bits of this block */
write_tab_to_file(fp, hierarchy_level);
fp << "<bitstream_block";
fp << " name=\"" << bitstream_manager.block_name(block)<< "\"";
fp << " hierarchy_level=\"" << hierarchy_level << "\"";
fp << ">" << std::endl;
/* Dive to child blocks if this block has any */
for (const ConfigBlockId& child_block : bitstream_manager.block_children(block)) {
rec_write_block_bitstream_to_xml_file(fp, bitstream_manager, child_block, hierarchy_level + 1);
}
if (0 == bitstream_manager.block_bits(block).size()) {
write_tab_to_file(fp, hierarchy_level);
fp << "</bitstream_block>" <<std::endl;
return;
}
std::vector<ConfigBlockId> block_hierarchy = find_bitstream_manager_block_hierarchy(bitstream_manager, block);
/* Output hierarchy of this parent*/
write_tab_to_file(fp, hierarchy_level + 1);
fp << "<hierarchy>" << std::endl;
size_t hierarchy_counter = 0;
for (const ConfigBlockId& temp_block : block_hierarchy) {
write_tab_to_file(fp, hierarchy_level + 2);
fp << "<instance level=\"" << hierarchy_counter << "\"";
fp << " name=\"" << bitstream_manager.block_name(temp_block) << "\"";
fp << "/>" << std::endl;
hierarchy_counter++;
}
write_tab_to_file(fp, hierarchy_level + 1);
fp << "</hierarchy>" << std::endl;
/* Output input/output nets if there are any */
if (false == bitstream_manager.block_input_net_ids(block).empty()) {
write_tab_to_file(fp, hierarchy_level + 1);
fp << "<input_nets>\n";
size_t path_counter = 0;
/* Split with space */
StringToken input_net_tokenizer(bitstream_manager.block_input_net_ids(block));
for (const std::string& net : input_net_tokenizer.split(std::string(" "))) {
write_tab_to_file(fp, hierarchy_level + 2);
fp << "<path id=\"" << path_counter << "\"";
fp << " net_name=\"";
fp << net;
fp << "\"/>";
fp << "\n";
path_counter++;
}
write_tab_to_file(fp, hierarchy_level + 1);
fp << "</input_nets>\n";
}
if (false == bitstream_manager.block_output_net_ids(block).empty()) {
write_tab_to_file(fp, hierarchy_level + 1);
fp << "<output_nets>\n";
size_t path_counter = 0;
/* Split with space */
StringToken output_net_tokenizer(bitstream_manager.block_output_net_ids(block));
for (const std::string& net : output_net_tokenizer.split(std::string(" "))) {
write_tab_to_file(fp, hierarchy_level + 2);
fp << "<path id=\"" << path_counter << "\"";
fp << " net_name=\"";
fp << net;
fp << "\"/>";
fp << "\n";
path_counter++;
}
write_tab_to_file(fp, hierarchy_level + 1);
fp << "</output_nets>\n";
}
/* Output child bits under this block */
size_t bit_counter = 0;
write_tab_to_file(fp, hierarchy_level + 1);
fp << "<bitstream";
/* Output path id only when it is valid */
if (true == bitstream_manager.valid_block_path_id(block)) {
fp << " path_id=\"" << bitstream_manager.block_path_id(block) << "\"";
}
fp << ">" << std::endl;
for (const ConfigBitId& child_bit : bitstream_manager.block_bits(block)) {
write_tab_to_file(fp, hierarchy_level + 2);
fp << "<bit";
fp << " memory_port=\"" << CONFIGURABLE_MEMORY_DATA_OUT_NAME << "[" << bit_counter << "]" << "\"";
fp << " value=\"" << bitstream_manager.bit_value(child_bit) << "\"";
fp << "/>" << std::endl;
bit_counter++;
}
write_tab_to_file(fp, hierarchy_level + 1);
fp << "</bitstream>" << std::endl;
write_tab_to_file(fp, hierarchy_level);
fp << "</bitstream_block>" <<std::endl;
}
/********************************************************************
* Write the bitstream to a file without binding to the configuration
* procotols of a given FPGA fabric in XML format
*
* Notes:
* This is a very generic representation for bitstream that are implemented
* by VPR engine. It shows the bitstream for each blocks in the FPGA
* architecture that users are modeling.
* This function can be used to:
* 1. Debug the bitstream decoding to see if there is any bug
* 2. Create an intermediate file to reorganize a bitstream for
* specific FPGAs
* 3. TODO: support FASM format
*******************************************************************/
void write_xml_architecture_bitstream(const BitstreamManager& bitstream_manager,
const std::string& fname,
const bool& include_time_stamp) {
/* Ensure that we have a valid file name */
if (true == fname.empty()) {
VTR_LOG_ERROR("Received empty file name to output bitstream!\n\tPlease specify a valid file name.\n");
}
std::string timer_message = std::string("Write ") + std::to_string(bitstream_manager.bits().size()) + std::string(" architecture independent bitstream into XML file '") + fname + std::string("'");
vtr::ScopedStartFinishTimer timer(timer_message);
/* Create the file stream */
std::fstream fp;
fp.open(fname, std::fstream::out | std::fstream::trunc);
check_file_stream(fname.c_str(), fp);
/* Put down a brief introduction */
write_bitstream_xml_file_head(fp, include_time_stamp);
/* Find the top block, which has not parents */
std::vector<ConfigBlockId> top_block = find_bitstream_manager_top_blocks(bitstream_manager);
/* Make sure we have only 1 top block */
VTR_ASSERT(1 == top_block.size());
/* Write bitstream, block by block, in a recursive way */
rec_write_block_bitstream_to_xml_file(fp, bitstream_manager, top_block[0], 0);
/* Close file handler */
fp.close();
}
} /* end namespace openfpga */