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mirror of https://github.com/RPCS3/rpcs3.git synced 2024-11-22 02:32:36 +01:00

rsx: Shaders cache loading and saving bugfixes

* Fixed crash whenever files are missing from the cache.
* Fixed crash whenever files are empty.
* Fixed crash whenever file creation/overwrite of cache files failed. (handled by fs::write_file)
* Fixed crash whenever there are any subdirectories inside the pipelines cache directories.
* Overwrite invalid shader cache files if encountered such.
* Optimizations have been added.
This commit is contained in:
Eladash 2021-01-02 07:20:11 +02:00 committed by kd-11
parent 2b8eb8deb6
commit 247e90b3d0
2 changed files with 59 additions and 35 deletions

View File

@ -732,11 +732,20 @@ namespace fs
{
// Always use write flag, remove read flag
if (fs::file f{path, mode + fs::write - fs::read})
{
if constexpr (sizeof...(args) == 2u && (std::is_pointer_v<Args> || ...))
{
// Specialization for [const void*, usz] args
f.write(args...);
return true;
}
else
{
// Write args sequentially
(f.write(args), ...);
return true;
}
}
return false;
}

View File

@ -447,20 +447,34 @@ namespace rsx
fs::dir_entry tmp = entries[pos];
const auto filename = directory_path + "/" + tmp.name;
std::vector<u8> bytes;
fs::file f(filename);
if (!f)
{
// Unexpected error, but avoid crash
continue;
}
if (f.size() != sizeof(pipeline_data))
{
rsx_log.error("Removing cached pipeline object %s since it's not binary compatible with the current shader cache", tmp.name.c_str());
fs::remove_file(filename);
continue;
}
f.read<u8>(bytes, f.size());
auto entry = unpack(*reinterpret_cast<pipeline_data*>(bytes.data()));
pipeline_data pdata{};
f.read(&pdata, f.size());
auto entry = unpack(pdata);
if (std::get<1>(entry).data.empty() || !std::get<2>(entry).ucode_length)
{
continue;
}
m_storage.preload_programs(std::get<1>(entry), std::get<2>(entry));
unpacked[unpacked.push_begin()] = entry;
unpacked[unpacked.push_begin()] = std::move(entry);
}
// Do not account for an extra shader that was never processed
processed--;
@ -573,23 +587,20 @@ namespace rsx
std::string directory_path = root_path + "/pipelines/" + pipeline_class_name + "/" + version_prefix;
if (!fs::is_dir(directory_path))
fs::dir root = fs::dir(directory_path);
if (!root)
{
fs::create_path(directory_path);
fs::create_path(root_path + "/raw");
return;
}
fs::dir root = fs::dir(directory_path);
u32 entry_count = 0;
std::vector<fs::dir_entry> entries;
for (auto It = root.begin(); It != root.end(); ++It, entry_count++)
{
fs::dir_entry tmp = *It;
if (tmp.name == "." || tmp.name == "..")
if (tmp.is_directory)
continue;
entries.push_back(tmp);
@ -643,17 +654,20 @@ namespace rsx
}
pipeline_data data = pack(pipeline, vp, fp);
std::string fp_name = root_path + "/raw/" + fmt::format("%llX.fp", data.fragment_program_hash);
std::string vp_name = root_path + "/raw/" + fmt::format("%llX.vp", data.vertex_program_hash);
if (!fs::is_file(fp_name))
// Writeback to cache either if file does not exist or it is invalid (unexpected size)
// Note: fs::write_file is not atomic, if the process is terminated in the middle an empty file is created
if (fs::stat_t s{}; !fs::stat(fp_name, s) || s.size != fp.ucode_length)
{
fs::file(fp_name, fs::rewrite).write(fp.get_data(), fp.ucode_length);
fs::write_file(fp_name, fs::rewrite, fp.get_data(), fp.ucode_length);
}
if (!fs::is_file(vp_name))
if (fs::stat_t s{}; !fs::stat(vp_name, s) || s.size != vp.data.size() * sizeof(u32))
{
fs::file(vp_name, fs::rewrite).write<u32>(vp.data);
fs::write_file(vp_name, fs::rewrite, vp.data);
}
u64 state_hash = 0;
@ -669,21 +683,20 @@ namespace rsx
state_hash ^= rpcs3::hash_base<u16>(data.fp_shadow_textures);
state_hash ^= rpcs3::hash_base<u16>(data.fp_redirected_textures);
std::string pipeline_file_name = fmt::format("%llX+%llX+%llX+%llX.bin", data.vertex_program_hash, data.fragment_program_hash, data.pipeline_storage_hash, state_hash);
std::string pipeline_path = root_path + "/pipelines/" + pipeline_class_name + "/" + version_prefix + "/" + pipeline_file_name;
fs::file(pipeline_path, fs::rewrite).write(&data, sizeof(pipeline_data));
const std::string pipeline_file_name = fmt::format("%llX+%llX+%llX+%llX.bin", data.vertex_program_hash, data.fragment_program_hash, data.pipeline_storage_hash, state_hash);
const std::string pipeline_path = root_path + "/pipelines/" + pipeline_class_name + "/" + version_prefix + "/" + pipeline_file_name;
fs::write_file(pipeline_path, fs::rewrite, &data, sizeof(data));
}
RSXVertexProgram load_vp_raw(u64 program_hash)
{
std::vector<u32> data;
RSXVertexProgram vp = {};
std::string filename = fmt::format("%llX.vp", program_hash);
fs::file f(root_path + "/raw/" + filename);
f.read<u32>(data, f.size() / sizeof(u32));
if (f) f.read(vp.data, f.size() / sizeof(u32));
RSXVertexProgram vp = {};
vp.data = data;
vp.skip_vertex_input_check = true;
return vp;
@ -695,24 +708,26 @@ namespace rsx
std::string filename = fmt::format("%llX.fp", program_hash);
fs::file f(root_path + "/raw/" + filename);
f.read<u8>(data, f.size());
if (f) f.read(data, f.size());
RSXFragmentProgram fp = {};
{
std::lock_guard<std::mutex> lock(fpd_mutex);
fragment_program_data[program_hash] = data;
fp.data = fragment_program_data[program_hash].data();
}
fp.ucode_length = ::size32(data);
{
std::lock_guard lock(fpd_mutex);
fp.data = fragment_program_data.insert_or_assign(program_hash, std::move(data)).first->second.data();
}
return fp;
}
std::tuple<pipeline_storage_type, RSXVertexProgram, RSXFragmentProgram> unpack(pipeline_data &data)
{
RSXVertexProgram vp = load_vp_raw(data.vertex_program_hash);
RSXFragmentProgram fp = load_fp_raw(data.fragment_program_hash);
pipeline_storage_type pipeline = data.pipeline_properties;
std::tuple<pipeline_storage_type, RSXVertexProgram, RSXFragmentProgram> result;
auto& [pipeline, vp, fp] = result;
vp = load_vp_raw(data.vertex_program_hash);
fp = load_fp_raw(data.fragment_program_hash);
pipeline = data.pipeline_properties;
vp.output_mask = data.vp_ctrl;
vp.texture_dimensions = data.vp_texture_dimensions;
@ -741,7 +756,7 @@ namespace rsx
fp.shadow_textures = data.fp_shadow_textures;
fp.redirected_textures = data.fp_redirected_textures;
return std::make_tuple(pipeline, vp, fp);
return result;
}
pipeline_data pack(const pipeline_storage_type &pipeline, const RSXVertexProgram &vp, const RSXFragmentProgram &fp)