//--------------------------------------------------------------------------- // // X68000 EMULATOR "XM6" // // Copyright (C) 2001-2006 PI.(ytanaka@ipc-tokai.or.jp) // Copyright (C) 2014-2020 GIMONS // // XM6i // Copyright (C) 2010-2015 isaki@NetBSD.org // Copyright (C) 2010 Y.Sugahara // // Imported sava's Anex86/T98Next image and MO format support patch. // Comments translated to english by akuker. // //--------------------------------------------------------------------------- #include "disk_track.h" #include "disk_cache.h" #include #include #include DiskCache::DiskCache(const string& path, int size, uint32_t blocks, off_t imgoff) : sec_path(path), sec_size(size), sec_blocks(blocks), imgoffset(imgoff) { assert(blocks > 0); assert(imgoff >= 0); } bool DiskCache::Save() const { // Save valid tracks return none_of(cache.begin(), cache.end(), [this](const cache_t& c) { return c.disktrk != nullptr && !c.disktrk->Save(sec_path); }); } shared_ptr DiskCache::GetTrack(uint32_t block) { // Update first UpdateSerialNumber(); // Calculate track (fixed to 256 sectors/track) int track = block >> 8; // Get track data return Assign(track); } bool DiskCache::ReadSector(vector& buf, uint32_t block) { shared_ptr disktrk = GetTrack(block); if (disktrk == nullptr) { return false; } // Read the track data to the cache return disktrk->ReadSector(buf, block & 0xff); } bool DiskCache::WriteSector(const vector& buf, uint32_t block) { shared_ptr disktrk = GetTrack(block); if (disktrk == nullptr) { return false; } // Write the data to the cache return disktrk->WriteSector(buf, block & 0xff); } //--------------------------------------------------------------------------- // // Track Assignment // //--------------------------------------------------------------------------- shared_ptr DiskCache::Assign(int track) { assert(sec_size != 0); assert(track >= 0); // First, check if it is already assigned for (cache_t& c : cache) { if (c.disktrk && c.disktrk->GetTrack() == track) { // Track match c.serial = serial; return c.disktrk; } } // Next, check for empty for (size_t i = 0; i < cache.size(); i++) { if (cache[i].disktrk == nullptr) { // Try loading if (Load(static_cast(i), track, nullptr)) { // Success loading cache[i].serial = serial; return cache[i].disktrk; } // Load failed return nullptr; } } // Finally, find the youngest serial number and delete it // Set index 0 as candidate c uint32_t s = cache[0].serial; size_t c = 0; // Compare candidate with serial and update to smaller one for (size_t i = 0; i < cache.size(); i++) { assert(cache[i].disktrk); // Compare and update the existing serial if (cache[i].serial < s) { s = cache[i].serial; c = i; } } // Save this track if (!cache[c].disktrk->Save(sec_path)) { return nullptr; } // Delete this track shared_ptr disktrk = cache[c].disktrk; cache[c].disktrk.reset(); if (Load(static_cast(c), track, disktrk)) { // Successful loading cache[c].serial = serial; return cache[c].disktrk; } // Load failed return nullptr; } //--------------------------------------------------------------------------- // // Load cache // //--------------------------------------------------------------------------- bool DiskCache::Load(int index, int track, shared_ptr disktrk) { assert(index >= 0 && index < static_cast(cache.size())); assert(track >= 0); assert(cache[index].disktrk == nullptr); // Get the number of sectors on this track int sectors = sec_blocks - (track << 8); assert(sectors > 0); if (sectors > 0x100) { sectors = 0x100; } // Create a disk track if (disktrk == nullptr) { disktrk = make_shared(); } // Initialize disk track disktrk->Init(track, sec_size, sectors, cd_raw, imgoffset); // Try loading if (!disktrk->Load(sec_path)) { // Failure return false; } // Allocation successful, work set cache[index].disktrk = disktrk; return true; } void DiskCache::UpdateSerialNumber() { // Update and do nothing except 0 serial++; if (serial != 0) { return; } // Clear serial of all caches for (cache_t& c : cache) { c.serial = 0; } }