2020-04-16 14:29:56 +00:00
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#include "psf_loader.h"
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2021-01-24 03:55:19 +00:00
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#include "bios.h"
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2020-04-16 14:29:56 +00:00
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#include "common/assert.h"
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#include "common/file_system.h"
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#include "common/log.h"
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2021-01-24 03:17:22 +00:00
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#include "system.h"
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2020-04-16 14:29:56 +00:00
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#include "zlib.h"
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#include <cctype>
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#include <cstring>
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Log_SetChannel(PSFLoader);
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namespace PSFLoader {
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std::optional<std::string> File::GetTagString(const char* tag_name) const
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2020-04-16 14:29:56 +00:00
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{
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auto it = m_tags.find(tag_name);
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if (it == m_tags.end())
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return std::nullopt;
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2020-04-16 14:29:56 +00:00
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return it->second;
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}
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std::optional<int> File::GetTagInt(const char* tag_name) const
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2020-04-16 14:29:56 +00:00
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{
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auto it = m_tags.find(tag_name);
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if (it == m_tags.end())
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return std::nullopt;
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2020-04-16 14:29:56 +00:00
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return std::atoi(it->second.c_str());
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}
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std::optional<float> File::GetTagFloat(const char* tag_name) const
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2020-04-16 14:29:56 +00:00
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{
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auto it = m_tags.find(tag_name);
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if (it == m_tags.end())
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return std::nullopt;
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2020-04-16 14:29:56 +00:00
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return static_cast<float>(std::atof(it->second.c_str()));
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}
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std::string File::GetTagString(const char* tag_name, const char* default_value) const
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{
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std::optional<std::string> value(GetTagString(tag_name));
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if (value.has_value())
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return value.value();
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return default_value;
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}
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int File::GetTagInt(const char* tag_name, int default_value) const
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{
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return GetTagInt(tag_name).value_or(default_value);
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}
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float File::GetTagFloat(const char* tag_name, float default_value) const
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{
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return GetTagFloat(tag_name).value_or(default_value);
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}
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bool File::Load(const char* path)
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{
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std::optional<std::vector<u8>> file_data(FileSystem::ReadBinaryFile(path));
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if (!file_data.has_value() || file_data->empty())
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{
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Log_ErrorPrintf("Failed to open/read PSF file '%s'", path);
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return false;
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}
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2021-04-17 10:20:09 +00:00
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const u8* file_pointer = file_data->data();
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const u8* file_pointer_end = file_data->data() + file_data->size();
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const u32 file_size = static_cast<u32>(file_data->size());
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PSFHeader header;
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std::memcpy(&header, file_pointer, sizeof(header));
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file_pointer += sizeof(header);
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if (header.id[0] != 'P' || header.id[1] != 'S' || header.id[2] != 'F' || header.version != 0x01 ||
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header.compressed_program_size == 0 ||
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(sizeof(header) + header.reserved_area_size + header.compressed_program_size) > file_size)
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{
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Log_ErrorPrintf("Invalid or incompatible header in PSF '%s'", path);
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return false;
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}
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file_pointer += header.reserved_area_size;
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m_program_data.resize(MAX_PROGRAM_SIZE);
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z_stream strm = {};
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strm.avail_in = static_cast<uInt>(file_pointer_end - file_pointer);
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strm.next_in = static_cast<Bytef*>(const_cast<u8*>(file_pointer));
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strm.avail_out = static_cast<uInt>(m_program_data.size());
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strm.next_out = static_cast<Bytef*>(m_program_data.data());
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int err = inflateInit(&strm);
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if (err != Z_OK)
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{
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Log_ErrorPrintf("inflateInit() failed: %d", err);
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return false;
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}
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// we can do this in one pass because we preallocate the max size
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err = inflate(&strm, Z_NO_FLUSH);
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if (err != Z_STREAM_END)
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{
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Log_ErrorPrintf("inflate() failed: %d", err);
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inflateEnd(&strm);
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return false;
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}
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else if (strm.total_in != header.compressed_program_size)
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{
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Log_WarningPrintf("Mismatch between compressed size in header and stream %u/%u", header.compressed_program_size,
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static_cast<u32>(strm.total_in));
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}
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m_program_data.resize(strm.total_out);
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file_pointer += header.compressed_program_size;
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inflateEnd(&strm);
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u32 remaining_tag_data = static_cast<u32>(file_pointer_end - file_pointer);
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static constexpr char tag_signature[] = {'[', 'T', 'A', 'G', ']'};
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if (remaining_tag_data >= sizeof(tag_signature) &&
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std::memcmp(file_pointer, tag_signature, sizeof(tag_signature)) == 0)
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{
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file_pointer += sizeof(tag_signature);
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while (file_pointer < file_pointer_end)
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{
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// skip whitespace
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while (file_pointer < file_pointer_end && *file_pointer <= 0x20)
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file_pointer++;
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std::string tag_key;
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while (file_pointer < file_pointer_end && *file_pointer != '=')
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tag_key += (static_cast<char>(*(file_pointer++)));
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// skip =
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if (file_pointer < file_pointer_end)
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file_pointer++;
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std::string tag_value;
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while (file_pointer < file_pointer_end && *file_pointer != '\n')
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tag_value += (static_cast<char>(*(file_pointer++)));
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if (!tag_key.empty())
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{
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Log_DevPrintf("PSF Tag: '%s' = '%s'", tag_key.c_str(), tag_value.c_str());
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m_tags.emplace(std::move(tag_key), std::move(tag_value));
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}
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}
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}
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2021-01-24 03:55:19 +00:00
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// Region detection.
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m_region = BIOS::GetPSExeDiscRegion(*reinterpret_cast<const BIOS::PSEXEHeader*>(m_program_data.data()));
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// _refresh tag takes precedence.
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const int refresh_tag = GetTagInt("_region", 0);
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if (refresh_tag == 60)
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m_region = DiscRegion::NTSC_U;
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else if (refresh_tag == 50)
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m_region = DiscRegion::PAL;
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2020-04-16 14:29:56 +00:00
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return true;
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}
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2021-01-24 03:17:22 +00:00
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static bool LoadLibraryPSF(const char* path, bool use_pc_sp, u32 depth = 0)
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{
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// don't recurse past 10 levels just in case of broken files
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if (depth >= 10)
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{
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Log_ErrorPrintf("Recursion depth exceeded when loading PSF '%s'", path);
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return false;
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}
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File file;
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if (!file.Load(path))
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{
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Log_ErrorPrintf("Failed to load main PSF '%s'", path);
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return false;
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}
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// load the main parent library - this has to be done first so the specified PSF takes precedence
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std::optional<std::string> lib_name(file.GetTagString("_lib"));
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if (lib_name.has_value())
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{
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const std::string lib_path(FileSystem::BuildRelativePath(path, lib_name.value()));
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Log_InfoPrintf("Loading main parent PSF '%s'", lib_path.c_str());
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// We should use the initial SP/PC from the **first** parent lib.
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const bool lib_use_pc_sp = (depth == 0);
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if (!LoadLibraryPSF(lib_path.c_str(), lib_use_pc_sp, depth + 1))
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{
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Log_ErrorPrintf("Failed to load main parent PSF '%s'", lib_path.c_str());
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return false;
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}
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// Don't apply the PC/SP from the minipsf file.
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if (lib_use_pc_sp)
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use_pc_sp = false;
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}
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// apply the main psf
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if (!System::InjectEXEFromBuffer(file.GetProgramData().data(), static_cast<u32>(file.GetProgramData().size()),
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use_pc_sp))
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{
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Log_ErrorPrintf("Failed to parse EXE from PSF '%s'", path);
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return false;
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}
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// load any other parent psfs
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u32 lib_counter = 2;
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for (;;)
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{
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lib_name = file.GetTagString(TinyString::FromFormat("_lib%u", lib_counter++));
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if (!lib_name.has_value())
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break;
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2021-04-16 17:47:40 +00:00
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const std::string lib_path(FileSystem::BuildRelativePath(path, lib_name.value()));
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Log_InfoPrintf("Loading parent PSF '%s'", lib_path.c_str());
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if (!LoadLibraryPSF(lib_path.c_str(), false, depth + 1))
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{
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Log_ErrorPrintf("Failed to load parent PSF '%s'", lib_path.c_str());
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return false;
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}
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}
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return true;
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}
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bool Load(const char* path)
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{
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Log_InfoPrintf("Loading PSF file from '%s'", path);
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return LoadLibraryPSF(path, true);
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}
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2020-04-16 14:29:56 +00:00
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} // namespace PSFLoader
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