#include "CDvdFile.hpp" #include "CDvdRequest.hpp" #include "CStopwatch.hpp" namespace urde { hecl::ProjectPath CDvdFile::m_DvdRoot; std::unordered_map CDvdFile::m_caseInsensitiveMap; class CFileDvdRequest : public IDvdRequest { std::shared_ptr m_reader; void* m_buf; u32 m_len; ESeekOrigin m_whence; int m_offset; std::atomic_bool m_cancel = {false}; std::atomic_bool m_complete = {false}; std::function m_callback; public: ~CFileDvdRequest() { PostCancelRequest(); } void WaitUntilComplete() { while (!m_complete.load() && !m_cancel.load()) { std::unique_lock lk(CDvdFile::m_WaitMutex); } } bool IsComplete() { return m_complete.load(); } void PostCancelRequest() { std::unique_lock waitlk(CDvdFile::m_WaitMutex); m_cancel.store(true); } EMediaType GetMediaType() const { return EMediaType::File; } CFileDvdRequest(CDvdFile& file, void* buf, u32 len, ESeekOrigin whence, int off, std::function&& cb) : m_reader(file.m_reader), m_buf(buf), m_len(len), m_whence(whence), m_offset(off), m_callback(std::move(cb)) {} void DoRequest() { if (m_cancel.load()) return; u32 readLen; if (m_whence == ESeekOrigin::Cur && m_offset == 0) { readLen = m_reader->readBytesToBuf(m_buf, m_len); } else { m_reader->seek(m_offset, athena::SeekOrigin(m_whence)); readLen = m_reader->readBytesToBuf(m_buf, m_len); } if (m_callback) m_callback(readLen); m_complete.store(true); } }; std::thread CDvdFile::m_WorkerThread; std::mutex CDvdFile::m_WorkerMutex; std::condition_variable CDvdFile::m_WorkerCV; std::mutex CDvdFile::m_WaitMutex; std::atomic_bool CDvdFile::m_WorkerRun = {false}; std::vector> CDvdFile::m_RequestQueue; void CDvdFile::WorkerProc() { logvisor::RegisterThreadName("CDvdFile"); while (m_WorkerRun.load()) { std::unique_lock lk(CDvdFile::m_WorkerMutex); while (CDvdFile::m_RequestQueue.size()) { std::vector> swapQueue; swapQueue.swap(CDvdFile::m_RequestQueue); lk.unlock(); std::unique_lock waitlk(CDvdFile::m_WaitMutex); for (std::shared_ptr& req : swapQueue) { CFileDvdRequest& concreteReq = static_cast(*req); concreteReq.DoRequest(); } waitlk.unlock(); swapQueue.clear(); lk.lock(); } if (!m_WorkerRun.load()) break; m_WorkerCV.wait(lk); } } std::shared_ptr CDvdFile::AsyncSeekRead(void* buf, u32 len, ESeekOrigin whence, int off, std::function&& cb) { std::shared_ptr ret = std::make_shared(*this, buf, len, whence, off, std::move(cb)); std::unique_lock lk(CDvdFile::m_WorkerMutex); m_RequestQueue.emplace_back(ret); lk.unlock(); m_WorkerCV.notify_one(); return ret; } hecl::ProjectPath CDvdFile::ResolvePath(std::string_view path) { auto start = path.begin(); while (*start == '/') ++start; std::string lowerChStr(start, path.end()); std::transform(lowerChStr.begin(), lowerChStr.end(), lowerChStr.begin(), ::tolower); auto search = m_caseInsensitiveMap.find(lowerChStr); if (search == m_caseInsensitiveMap.end()) return {}; return hecl::ProjectPath(m_DvdRoot, search->second); } void CDvdFile::RecursiveBuildCaseInsensitiveMap(const hecl::ProjectPath& path, std::string::size_type prefixLen) { for (const auto& p : path.enumerateDir()) { if (p.m_isDir) { RecursiveBuildCaseInsensitiveMap(hecl::ProjectPath(path, p.m_name), prefixLen); } else { hecl::ProjectPath ch(path, p.m_name); std::string chStr(ch.getAbsolutePathUTF8().begin() + prefixLen, ch.getAbsolutePathUTF8().end()); std::string lowerChStr(chStr); std::transform(lowerChStr.begin(), lowerChStr.end(), lowerChStr.begin(), ::tolower); m_caseInsensitiveMap[lowerChStr] = chStr; } } } void CDvdFile::Initialize(const hecl::ProjectPath& path) { m_DvdRoot = path; RecursiveBuildCaseInsensitiveMap(path, path.getAbsolutePathUTF8().length() + 1); if (m_WorkerRun.load()) return; m_WorkerRun.store(true); m_WorkerThread = std::thread(WorkerProc); } void CDvdFile::Shutdown() { if (!m_WorkerRun.load()) return; m_WorkerRun.store(false); m_WorkerCV.notify_one(); if (m_WorkerThread.joinable()) m_WorkerThread.join(); m_RequestQueue.clear(); } } // namespace urde