dolphin/Source/DSPTool/DSPTool.cpp

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// Copyright 2009 Dolphin Emulator Project
// SPDX-License-Identifier: GPL-2.0-or-later
#include <string>
#include <utility>
#include <vector>
#include <fmt/format.h>
#include "Common/CommonTypes.h"
#include "Common/FileUtil.h"
#include "Common/StringUtil.h"
#include "Core/DSP/DSPCodeUtil.h"
#include "Core/DSP/DSPDisassembler.h"
#include "Core/DSP/DSPHost.h"
#include "Core/DSP/DSPTables.h"
// Stub out the dsplib host stuff, since this is just a simple cmdline tools.
u8 DSP::Host::ReadHostMemory(u32 addr)
{
return 0;
}
void DSP::Host::WriteHostMemory(u8 value, u32 addr)
{
}
void DSP::Host::DMAToDSP(u16* dst, u32 addr, u32 size)
{
}
void DSP::Host::DMAFromDSP(const u16* src, u32 addr, u32 size)
{
}
void DSP::Host::OSD_AddMessage(std::string str, u32 ms)
{
}
bool DSP::Host::OnThread()
{
return false;
}
bool DSP::Host::IsWiiHost()
{
return false;
}
DSP: Eliminate most global state An unfortunately large single commit that deglobalizes the DSP code. (which I'm very sorry about). This would have otherwise been extremely difficult to separate due to extensive use of the globals in very coupling ways that would result in more scaffolding to work around than is worth it. Aside from the video code, I believe only the DSP code is the hairiest to deal with in terms of globals, so I guess it's best to get this dealt with right off the bat. A summary of what this commit does: - Turns the DSPInterpreter into its own class This is the most involved portion of this change. The bulk of the changes are turning non-member functions into member functions that would be situated into the Interpreter class. - Eliminates all usages to globals within DSPCore. This generally involves turning a lot of non-member functions into member functions that are either situated within SDSP or DSPCore. - Discards DSPDebugInterface (it wasn't hooked up to anything, and for the sake of eliminating global state, I'd rather get rid of it than think up ways for this class to be integrated with everything else. - Readjusts the DSP JIT to handle calling out to member functions. In most cases, this just means wrapping respective member function calles into thunk functions. Surprisingly, this doesn't even make use of the introduced System class. It was possible all along to do this without it. We can house everything within the DSPLLE class, which is quite nice =)
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void DSP::Host::CodeLoaded(DSPCore& dsp, u32 addr, size_t size)
{
}
DSP: Eliminate most global state An unfortunately large single commit that deglobalizes the DSP code. (which I'm very sorry about). This would have otherwise been extremely difficult to separate due to extensive use of the globals in very coupling ways that would result in more scaffolding to work around than is worth it. Aside from the video code, I believe only the DSP code is the hairiest to deal with in terms of globals, so I guess it's best to get this dealt with right off the bat. A summary of what this commit does: - Turns the DSPInterpreter into its own class This is the most involved portion of this change. The bulk of the changes are turning non-member functions into member functions that would be situated into the Interpreter class. - Eliminates all usages to globals within DSPCore. This generally involves turning a lot of non-member functions into member functions that are either situated within SDSP or DSPCore. - Discards DSPDebugInterface (it wasn't hooked up to anything, and for the sake of eliminating global state, I'd rather get rid of it than think up ways for this class to be integrated with everything else. - Readjusts the DSP JIT to handle calling out to member functions. In most cases, this just means wrapping respective member function calles into thunk functions. Surprisingly, this doesn't even make use of the introduced System class. It was possible all along to do this without it. We can house everything within the DSPLLE class, which is quite nice =)
2020-12-21 14:22:06 +00:00
void DSP::Host::CodeLoaded(DSPCore& dsp, const u8* ptr, size_t size)
{
}
void DSP::Host::InterruptRequest()
{
}
void DSP::Host::UpdateDebugger()
{
}
static std::string CodeToHeader(const std::vector<u16>& code, const std::string& filename)
{
std::vector<u16> code_padded = code;
// Pad with nops to 32byte boundary
while (code_padded.size() & 0x7f)
code_padded.push_back(0);
std::string header;
header.reserve(code_padded.size() * 4);
header.append("#define NUM_UCODES 1\n\n");
std::string filename_without_extension;
SplitPath(filename, nullptr, &filename_without_extension, nullptr);
header.append(fmt::format("const char* UCODE_NAMES[NUM_UCODES] = {{\"{}\"}};\n\n",
filename_without_extension));
header.append("alignas(0x20) const unsigned short dsp_code[NUM_UCODES][0x1000] = {\n");
header.append("\t{\n\t\t");
for (u32 j = 0; j < code_padded.size(); j++)
{
if (j && ((j & 15) == 0))
header.append("\n\t\t");
header.append(fmt::format("{:#06x}, ", code_padded[j]));
}
header.append("\n\t},\n");
header.append("};\n");
return header;
}
static std::string CodesToHeader(const std::vector<std::vector<u16>>& codes,
const std::vector<std::string>& filenames)
{
std::vector<std::vector<u16>> codes_padded;
std::size_t reserve_size = 0;
for (std::size_t i = 0; i < codes.size(); i++)
{
codes_padded.push_back(codes[i]);
// Pad with nops to 32byte boundary
while (codes_padded[i].size() & 0x7f)
codes_padded[i].push_back(0);
reserve_size += codes_padded[i].size();
}
std::string header;
header.reserve(reserve_size * 4);
header.append(fmt::format("#define NUM_UCODES {}\n\n", codes.size()));
header.append("const char* UCODE_NAMES[NUM_UCODES] = {\n");
for (const std::string& in_filename : filenames)
{
std::string filename;
if (!SplitPath(in_filename, nullptr, &filename, nullptr))
filename = in_filename;
header.append(fmt::format("\t\"{}\",\n", filename));
}
header.append("};\n\n");
header.append("const unsigned short dsp_code[NUM_UCODES][0x1000] = {\n");
for (std::size_t i = 0; i < codes.size(); i++)
{
if (codes[i].empty())
continue;
header.append("\t{\n\t\t");
for (std::size_t j = 0; j < codes_padded[i].size(); j++)
{
if (j && ((j & 15) == 0))
header.append("\n\t\t");
header.append(fmt::format("{:#06x}, ", codes_padded[i][j]));
}
header.append("\n\t},\n");
}
header.append("};\n");
return header;
}
static bool PerformBinaryComparison(const std::string& lhs, const std::string& rhs)
{
std::string binary_code;
File::ReadFileToString(lhs, binary_code);
const std::vector<u16> code1 = DSP::BinaryStringBEToCode(binary_code);
File::ReadFileToString(rhs, binary_code);
const std::vector<u16> code2 = DSP::BinaryStringBEToCode(binary_code);
return DSP::Compare(code1, code2);
}
static void PrintResults(const std::string& input_name, const std::string& output_name,
bool print_results_srhack, bool print_results_prodhack)
{
std::string dumpfile;
File::ReadFileToString(input_name, dumpfile);
const std::vector<u16> reg_vector = DSP::BinaryStringBEToCode(dumpfile);
std::string results("Start:\n");
for (int initial_reg = 0; initial_reg < 32; initial_reg++)
{
results.append(fmt::format("{:02x} {:04x} ", initial_reg, reg_vector.at(initial_reg)));
if ((initial_reg + 1) % 8 == 0)
results.append("\n");
}
results.append("\n");
results.append("Step [number]:\n[Reg] [last value] [current value]\n\n");
for (unsigned int step = 1; step < reg_vector.size() / 32; step++)
{
bool changed = false;
u16 current_reg;
u16 last_reg;
u32 htemp;
// results.append(fmt::format("Step {:3d}: (CW {:#06x}) UC:{:03d}\n", step, 0x8fff+step,
// (step-1)/32));
results.append(fmt::format("Step {:3d}:\n", step));
for (int reg = 0; reg < 32; reg++)
{
if (reg >= 0x0c && reg <= 0x0f)
continue;
if (print_results_srhack && reg == 0x13)
continue;
if (print_results_prodhack && reg >= 0x15 && reg <= 0x17)
{
switch (reg)
{
case 0x15: // DSP_REG_PRODM
last_reg =
reg_vector.at((step * 32 - 32) + reg) + reg_vector.at((step * 32 - 32) + reg + 2);
current_reg = reg_vector.at(step * 32 + reg) + reg_vector.at(step * 32 + reg + 2);
break;
case 0x16: // DSP_REG_PRODH
htemp = ((reg_vector.at(step * 32 + reg - 1) + reg_vector.at(step * 32 + reg + 1)) &
~0xffff) >>
16;
current_reg = (u8)(reg_vector.at(step * 32 + reg) + htemp);
htemp =
((reg_vector.at(step * 32 - 32 + reg - 1) + reg_vector.at(step * 32 - 32 + reg + 1)) &
~0xffff) >>
16;
last_reg = (u8)(reg_vector.at(step * 32 - 32 + reg) + htemp);
break;
case 0x17: // DSP_REG_PRODM2
default:
current_reg = 0;
last_reg = 0;
break;
}
}
else
{
current_reg = reg_vector.at(step * 32 + reg);
last_reg = reg_vector.at((step * 32 - 32) + reg);
}
if (last_reg != current_reg)
{
results.append(fmt::format("{:02x} {:7s}: {:04x} {:04x}\n", reg, DSP::pdregname(reg),
last_reg, current_reg));
changed = true;
}
}
if (changed)
results.append("\n");
else
results.append("No Change\n\n");
}
if (output_name.empty())
printf("%s", results.c_str());
else
File::WriteStringToFile(output_name, results);
}
static bool PerformDisassembly(const std::string& input_name, const std::string& output_name)
{
if (input_name.empty())
{
printf("Disassemble: Must specify input.\n");
return false;
}
std::string binary_code;
File::ReadFileToString(input_name, binary_code);
const std::vector<u16> code = DSP::BinaryStringBEToCode(binary_code);
std::string text;
DSP::Disassemble(code, true, text);
if (output_name.empty())
printf("%s", text.c_str());
else
File::WriteStringToFile(output_name, text);
printf("Disassembly completed successfully!\n");
return true;
}
static std::vector<std::string> GetAssemblerFiles(const std::string& source)
{
std::vector<std::string> files;
std::size_t last_pos = 0;
std::size_t pos = 0;
while ((pos = source.find('\n', last_pos)) != std::string::npos)
{
std::string temp = source.substr(last_pos, pos - last_pos);
if (!temp.empty())
files.push_back(std::move(temp));
last_pos = pos + 1;
}
return files;
}
static bool PerformAssembly(const std::string& input_name, const std::string& output_name,
const std::string& output_header_name, bool multiple, bool force,
bool output_size)
{
if (input_name.empty())
{
printf("Assemble: Must specify input.\n");
return false;
}
std::string source;
if (File::ReadFileToString(input_name, source))
{
if (multiple)
{
source.append("\n");
// When specifying a list of files we must compile a header
// (we can't assemble multiple files to one binary)
// since we checked it before, we assume output_header_name isn't empty
std::string currentSource;
const std::vector<std::string> files = GetAssemblerFiles(source);
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std::size_t lines = files.size();
if (lines == 0)
{
printf("ERROR: Must specify at least one file\n");
return false;
}
std::vector<std::vector<u16>> codes(lines);
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for (std::size_t i = 0; i < lines; i++)
{
if (!File::ReadFileToString(files[i], currentSource))
{
printf("ERROR reading %s, skipping...\n", files[i].c_str());
lines--;
}
else
{
if (!DSP::Assemble(currentSource, codes[i], force))
{
printf("Assemble: Assembly of %s failed due to errors\n", files[i].c_str());
lines--;
}
if (output_size)
{
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printf("%s: %zu\n", files[i].c_str(), codes[i].size());
}
}
}
const std::string header = CodesToHeader(codes, files);
File::WriteStringToFile(output_header_name + ".h", header);
}
else
{
std::vector<u16> code;
if (!DSP::Assemble(source, code, force))
{
printf("Assemble: Assembly failed due to errors\n");
return false;
}
if (output_size)
{
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printf("%s: %zu\n", input_name.c_str(), code.size());
}
if (!output_name.empty())
{
const std::string binary_code = DSP::CodeToBinaryStringBE(code);
File::WriteStringToFile(output_name, binary_code);
}
if (!output_header_name.empty())
{
const std::string header = CodeToHeader(code, input_name);
File::WriteStringToFile(output_header_name + ".h", header);
}
}
}
source.clear();
if (!output_size)
printf("Assembly completed successfully!\n");
return true;
}
static bool IsHelpFlag(const std::string& argument)
{
return argument == "--help" || argument == "-?";
}
// Usage:
// Disassemble a file:
// dsptool -d -o asdf.txt asdf.bin
// Disassemble a file, output to standard output:
// dsptool -d asdf.bin
// Assemble a file:
// dsptool [-f] -o asdf.bin asdf.txt
// Assemble a file, output header:
// dsptool [-f] -h asdf.h asdf.txt
// Print results from DSPSpy register dump
// dsptool -p dsp_dump0.bin
int main(int argc, const char* argv[])
{
if (argc == 1 || (argc == 2 && IsHelpFlag(argv[1])))
{
printf("USAGE: DSPTool [-?] [--help] [-f] [-d] [-m] [-p <FILE>] [-o <FILE>] [-h <FILE>] <DSP "
"ASSEMBLER FILE>\n");
printf("-? / --help: Prints this message\n");
printf("-d: Disassemble\n");
printf("-m: Input file contains a list of files (Header assembly only)\n");
printf("-s: Print the final size in bytes (only)\n");
printf("-f: Force assembly (errors are not critical)\n");
printf("-o <OUTPUT FILE>: Results from stdout redirected to a file\n");
printf("-h <HEADER FILE>: Output assembly results to a header\n");
printf("-p <DUMP FILE>: Print results of DSPSpy register dump\n");
printf("-ps <DUMP FILE>: Print results of DSPSpy register dump (disable SR output)\n");
printf("-pm <DUMP FILE>: Print results of DSPSpy register dump (convert PROD values)\n");
printf("-psm <DUMP FILE>: Print results of DSPSpy register dump (convert PROD values/disable "
"SR output)\n");
return 0;
}
std::string input_name;
std::string output_header_name;
std::string output_name;
bool disassemble = false, compare = false, multiple = false, outputSize = false, force = false,
print_results = false, print_results_prodhack = false, print_results_srhack = false;
for (int i = 1; i < argc; i++)
{
const std::string argument = argv[i];
if (argument == "-d")
{
disassemble = true;
}
else if (argument == "-o")
{
if (++i < argc)
output_name = argv[i];
}
else if (argument == "-h")
{
if (++i < argc)
output_header_name = argv[i];
}
else if (argument == "-c")
{
compare = true;
}
else if (argument == "-s")
{
outputSize = true;
}
else if (argument == "-m")
{
multiple = true;
}
else if (argument == "-f")
{
force = true;
}
else if (argument == "-p")
{
print_results = true;
}
else if (argument == "-ps")
{
print_results = true;
print_results_srhack = true;
}
else if (argument == "-pm")
{
print_results = true;
print_results_prodhack = true;
}
else if (argument == "-psm")
{
print_results = true;
print_results_srhack = true;
print_results_prodhack = true;
}
else
{
if (!input_name.empty())
{
printf("ERROR: Can only take one input file.\n");
return 1;
}
input_name = argv[i];
if (!File::Exists(input_name))
{
printf("ERROR: Input path does not exist.\n");
return 1;
}
}
}
if (multiple && (compare || disassemble || !output_name.empty() || input_name.empty()))
{
printf("ERROR: Multiple files can only be used with assembly "
"and must compile a header file.\n");
return 1;
}
if (compare)
{
return PerformBinaryComparison(input_name, output_name) ? 0 : 1;
}
if (print_results)
{
PrintResults(input_name, output_name, print_results_srhack, print_results_prodhack);
return 0;
}
if (disassemble)
{
if (!PerformDisassembly(input_name, output_name))
return 1;
}
else
{
if (!PerformAssembly(input_name, output_name, output_header_name, multiple, force, outputSize))
return 1;
}
return 0;
}