doxygen/NowindHost_8cc_source.html

 #include "NowindHost.hh"
 #include "DiskContainer.hh"
 #include "SectorAccessibleDisk.hh"
 #include "serialize.hh"
 #include "serialize_stl.hh"
 #include "unreachable.hh"
 #include <algorithm>
 #include <cassert>
 #include <cctype>
 #include <cstdio>
 #include <cstdarg>
 #include <ctime>
 #include <fstream>
 #include <memory>

 using std::string;
 using std::vector;
 using std::fstream;
 using std::ios;

 namespace openmsx {

 static const unsigned SECTOR_SIZE = sizeof(SectorBuffer);

 static void DBERR(const char* message, ...)
 {
         (void)message;
 #if 0
         va_list args;
         va_start(args, message);
         printf("nowind: ");
         vprintf(message, args);
         va_end(args);
 #endif
 }


 NowindHost::NowindHost(const Drives& drives_)
         : drives(drives_)
         , lastTime(0)
         , state(STATE_SYNC1)
         , romdisk(255)
         , allowOtherDiskroms(false)
         , enablePhantomDrives(true)
 {
 }

 NowindHost::~NowindHost() = default;

 byte NowindHost::peek() const
 {
         return isDataAvailable() ? hostToMsxFifo.front() : 0xFF;
 }

 // receive:  msx <- pc
 byte NowindHost::read()
 {
         return isDataAvailable() ? hostToMsxFifo.pop_front() : 0xFF;
 }

 bool NowindHost::isDataAvailable() const
 {
         return !hostToMsxFifo.empty();
 }


 // send:  msx -> pc
 void NowindHost::write(byte data, unsigned time)
 {
         unsigned duration = time - lastTime;
         lastTime = time;
         if (duration >= 500) {
                 // timeout (500ms), start looking for AF05
                 purge();
                 state = STATE_SYNC1;
         }

         switch (state) {
         case STATE_SYNC1:
                 if (data == 0xAF) state = STATE_SYNC2;
                 break;
         case STATE_SYNC2:
                 switch (data) {
                 case 0x05: state = STATE_COMMAND; recvCount = 0; break;
                 case 0xAF: state = STATE_SYNC2; break;
                 case 0xFF: state = STATE_SYNC1; msxReset(); break;
                 default:   state = STATE_SYNC1; break;
                 }
                 break;
         case STATE_COMMAND:
                 assert(recvCount < 9);
                 cmdData[recvCount] = data;
                 if (++recvCount == 9) {
                         executeCommand();
                 }
                 break;
         case STATE_DISKREAD:
                 assert(recvCount < 2);
                 extraData[recvCount] = data;
                 if (++recvCount == 2) {
                         doDiskRead2();
                 }
                 break;
         case STATE_DISKWRITE:
                 assert(recvCount < (transferSize + 2));
                 extraData[recvCount] = data;
                 if (++recvCount == (transferSize + 2)) {
                         doDiskWrite2();
                 }
                 break;
         case STATE_DEVOPEN:
                 assert(recvCount < 11);
                 extraData[recvCount] = data;
                 if (++recvCount == 11) {
                         deviceOpen();
                 }
                 break;
         case STATE_IMAGE:
                 assert(recvCount < 40);
                 extraData[recvCount] = data;
                 if ((data == 0) || (data == ':') ||
                     (++recvCount == 40)) {
                         char* eData = reinterpret_cast<char*>(extraData);
                         callImage(string(eData, recvCount));
                         state = STATE_SYNC1;
                 }
                 break;
         case STATE_MESSAGE:
                 assert(recvCount < (240 - 1));
                 extraData[recvCount] = data;
                 if ((data == 0) || (++recvCount == (240 - 1))) {
                         extraData[recvCount] = 0;
                         DBERR("%s\n", reinterpret_cast<char*>(extraData));
                         state = STATE_SYNC1;
                 }
                 break;
         default:
                 UNREACHABLE;
         }
 }

 void NowindHost::msxReset()
 {
         for (auto& dev : devices) {
                 dev.fs.reset();
         }
         DBERR("MSX reset\n");
 }

 SectorAccessibleDisk* NowindHost::getDisk() const
 {
         byte num = cmdData[7]; // reg_a
         if (num >= drives.size()) {
                 return nullptr;
         }
         return drives[num]->getSectorAccessibleDisk();
 }

 void NowindHost::executeCommand()
 {
         assert(recvCount == 9);
         byte cmd = cmdData[8];
         switch (cmd) {
         //case 0x0D: BDOS_0DH_DiskReset();
         //case 0x0F: BDOS_0FH_OpenFile();
         //case 0x10: BDOS_10H_CloseFile();
         //case 0x11: BDOS_11H_FindFirst();
         //case 0x12: BDOS_12H_FindNext();
         //case 0x13: BDOS_13H_DeleteFile();
         //case 0x14: BDOS_14H_ReadSeq();
         //case 0x15: BDOS_15H_WriteSeq();
         //case 0x16: BDOS_16H_CreateFile();
         //case 0x17: BDOS_17H_RenameFile();
         //case 0x21: BDOS_21H_ReadRandomFile();
         //case 0x22: BDOS_22H_WriteRandomFile();
         //case 0x23: BDOS_23H_GetFileSize();
         //case 0x24: BDOS_24H_SetRandomRecordField();
         //case 0x26: BDOS_26H_WriteRandomBlock();
         //case 0x27: BDOS_27H_ReadRandomBlock();
         //case 0x28: BDOS_28H_WriteRandomFileWithZeros();
         //case 0x2A: BDOS_2AH_GetDate();
         //case 0x2B: BDOS_2BH_SetDate();
         //case 0x2C: BDOS_2CH_GetTime();
         //case 0x2D: BDOS_2DH_SetTime();
         //case 0x2E: BDOS_2EH_Verify();
         //case 0x2F: BDOS_2FH_ReadLogicalSector();
         //case 0x30: BDOS_30H_WriteLogicalSector();

         case 0x80: { // DSKIO
                 auto* disk = getDisk();
                 if (!disk) {
                         // no such drive or no disk inserted
                         // (causes a timeout on the MSX side)
                         state = STATE_SYNC1;
                         return;
                 }
                 byte reg_f = cmdData[6];
                 if (reg_f & 1) { // carry flag
                         diskWriteInit(*disk);
                 } else {
                         diskReadInit(*disk);
                 }
                 break;
         }

         case 0x81: DSKCHG();      state = STATE_SYNC1; break;
         //case 0x82: GETDPB();
         //case 0x83: CHOICE();
         //case 0x84: DSKFMT();
         case 0x85: DRIVES();      state = STATE_SYNC1; break;
         case 0x86: INIENV();      state = STATE_SYNC1; break;
         case 0x87: setDateMSX();  state = STATE_SYNC1; break;
         case 0x88: state = STATE_DEVOPEN; recvCount = 0; break;
         case 0x89: deviceClose(); state = STATE_SYNC1; break;
         //case 0x8A: deviceRandomIO(fcb);
         case 0x8B: deviceWrite(); state = STATE_SYNC1; break;
         case 0x8C: deviceRead();  state = STATE_SYNC1; break;
         //case 0x8D: deviceEof(fcb);
         //case 0x8E: auxIn();
         //case 0x8F: auxOut();
         case 0x90: state = STATE_MESSAGE; recvCount = 0; break;
         case 0xA0: state = STATE_IMAGE;   recvCount = 0; break;
         //case 0xFF: vramDump();
         default:
                 // Unknown USB command!
                 state = STATE_SYNC1;
                 break;
         }
 }

 // send:  pc -> msx
 void NowindHost::send(byte value)
 {
         hostToMsxFifo.push_back(value);
 }
 void NowindHost::send16(word value)
 {
         hostToMsxFifo.push_back(value & 255);
         hostToMsxFifo.push_back(value >> 8);
 }

 void NowindHost::purge()
 {
         hostToMsxFifo.clear();
 }

 void NowindHost::sendHeader()
 {
         send(0xFF); // needed because first read might fail!
         send(0xAF);
         send(0x05);
 }

 void NowindHost::DSKCHG()
 {
         auto* disk = getDisk();
         if (!disk) {
                 // no such drive or no disk inserted
                 return;
         }

         sendHeader();
         byte num = cmdData[7]; // reg_a
         assert(num < drives.size());
         if (drives[num]->diskChanged()) {
                 send(255); // changed
                 // read first FAT sector (contains media descriptor)
                 SectorBuffer sectorBuffer;
                 if (disk->readSectors(&sectorBuffer, 1, 1)) {
                         // TODO read error
                         sectorBuffer.raw[0] = 0;
                 }
                 send(sectorBuffer.raw[0]); // new mediadescriptor
         } else {
                 send(0); // not changed
                 // TODO shouldn't we send some (dummy) byte here?
                 //      nowind-diskrom seems to read it (but doesn't use it)
         }
 }

 void NowindHost::DRIVES()
 {
         // at least one drive (MSXDOS1 cannot handle 0 drives)
         byte numberOfDrives = std::max<byte>(1, byte(drives.size()));

         byte reg_a = cmdData[7];
         sendHeader();
         send(getEnablePhantomDrives() ? 0x02 : 0);
         send(reg_a | (getAllowOtherDiskroms() ? 0 : 0x80));
         send(numberOfDrives);

         romdisk = 255; // no romdisk
         for (size_t i = 0; i < drives.size(); ++i) {
                 if (drives[i]->isRomdisk()) {
                         romdisk = i;
                         break;
                 }
         }
 }

 void NowindHost::INIENV()
 {
         sendHeader();
         send(romdisk); // calculated in DRIVES()
 }

 void NowindHost::setDateMSX()
 {
         auto td = time(nullptr);
         auto* tm = localtime(&td);

         sendHeader();
         send(tm->tm_mday);          // day
         send(tm->tm_mon + 1);       // month
         send16(tm->tm_year + 1900); // year
 }


 unsigned NowindHost::getSectorAmount() const
 {
         byte reg_b = cmdData[1];
         return reg_b;
 }
 unsigned NowindHost::getStartSector() const
 {
         byte reg_c = cmdData[0];
         byte reg_e = cmdData[2];
         byte reg_d = cmdData[3];
         unsigned startSector = reg_e + (reg_d * 256);
         if (reg_c < 0x80) {
                 // FAT16 read/write sector
                 startSector += reg_c << 16;
         }
         return startSector;
 }
 unsigned NowindHost::getStartAddress() const
 {
         byte reg_l = cmdData[4];
         byte reg_h = cmdData[5];
         return reg_h * 256 + reg_l;
 }
 unsigned NowindHost::getCurrentAddress() const
 {
         unsigned startAdress = getStartAddress();
         return startAdress + transfered;
 }


 void NowindHost::diskReadInit(SectorAccessibleDisk& disk)
 {
         unsigned sectorAmount = getSectorAmount();
         buffer.resize(sectorAmount);
         unsigned startSector = getStartSector();
         if (disk.readSectors(buffer.data(), startSector, sectorAmount)) {
                 // read error
                 state = STATE_SYNC1;
                 return;
         }

         transfered = 0;
         retryCount = 0;
         doDiskRead1();
 }

 void NowindHost::doDiskRead1()
 {
         unsigned bytesLeft = unsigned(buffer.size() * SECTOR_SIZE) - transfered;
         if (bytesLeft == 0) {
                 sendHeader();
                 send(0x01); // end of receive-loop
                 send(0x00); // no more data
                 state = STATE_SYNC1;
                 return;
         }

         static const unsigned NUMBEROFBLOCKS = 32; // 32 * 64 bytes = 2048 bytes
         transferSize = std::min(bytesLeft, NUMBEROFBLOCKS * 64); // hardcoded in firmware

         unsigned address = getCurrentAddress();
         if (address >= 0x8000) {
                 if (transferSize & 0x003F) {
                         transferSectors(address, transferSize);
                 } else {
                         transferSectorsBackwards(address, transferSize);
                 }
         } else {
                 // transfer below 0x8000
                 // TODO shouldn't we also test for (transferSize & 0x3F)?
                 unsigned endAddress = address + transferSize;
                 if (endAddress <= 0x8000) {
                         transferSectorsBackwards(address, transferSize);
                 } else {
                         transferSize = 0x8000 - address;
                         transferSectors(address, transferSize);
                 }
         }

         // wait for 2 bytes
         state = STATE_DISKREAD;
         recvCount = 0;
 }

 void NowindHost::doDiskRead2()
 {
         // diskrom sends back the last two bytes read
         assert(recvCount == 2);
         byte tail1 = extraData[0];
         byte tail2 = extraData[1];
         if ((tail1 == 0xAF) && (tail2 == 0x07)) {
                 transfered += transferSize;
                 retryCount = 0;

                 unsigned address = getCurrentAddress();
                 size_t bytesLeft = (buffer.size() * SECTOR_SIZE) - transfered;
                 if ((address == 0x8000) && (bytesLeft > 0)) {
                         sendHeader();
                         send(0x01); // end of receive-loop
                         send(0xff); // more data for page 2/3
                 }

                 // continue the rest of the disk read
                 doDiskRead1();
         } else {
                 purge();
                 if (++retryCount == 10) {
                         // do nothing, timeout on MSX
                         // too many retries, aborting readDisk()
                         state = STATE_SYNC1;
                         return;
                 }

                 // try again, wait for two bytes
                 state = STATE_DISKREAD;
                 recvCount = 0;
         }
 }

 // sends "02" + "transfer_addr" + "amount" + "data" + "0F 07"
 void NowindHost::transferSectors(unsigned transferAddress, unsigned amount)
 {
         sendHeader();
         send(0x00); // don't exit command, (more) data is coming
         send16(transferAddress);
         send16(amount);

         auto* bufferPointer = buffer[0].raw + transfered;
         for (unsigned i = 0; i < amount; ++i) {
                 send(bufferPointer[i]);
         }
         send(0xAF);
         send(0x07); // used for validation
 }

  // sends "02" + "transfer_addr" + "amount" + "data" + "0F 07"
 void NowindHost::transferSectorsBackwards(unsigned transferAddress, unsigned amount)
 {
         sendHeader();
         send(0x02); // don't exit command, (more) data is coming
         send16(transferAddress + amount);
         send(amount / 64);

         auto* bufferPointer = buffer[0].raw + transfered;
         for (int i = amount - 1; i >= 0; --i) {
                 send(bufferPointer[i]);
         }
         send(0xAF);
         send(0x07); // used for validation
 }


 void NowindHost::diskWriteInit(SectorAccessibleDisk& disk)
 {
         if (disk.isWriteProtected()) {
                 sendHeader();
                 send(1);
                 send(0); // WRITEPROTECTED
                 state = STATE_SYNC1;
                 return;
         }

         unsigned sectorAmount = std::min(128u, getSectorAmount());
         buffer.resize(sectorAmount);
         transfered = 0;
         doDiskWrite1();
 }

 void NowindHost::doDiskWrite1()
 {
         unsigned bytesLeft = unsigned(buffer.size() * SECTOR_SIZE) - transfered;
         if (bytesLeft == 0) {
                 // All data transferred!
                 auto sectorAmount = unsigned(buffer.size());
                 unsigned startSector = getStartSector();
                 if (auto* disk = getDisk()) {
                         if (disk->writeSectors(&buffer[0], startSector, sectorAmount)) {
                                 // TODO write error
                         }
                 }
                 sendHeader();
                 send(255);
                 state = STATE_SYNC1;
                 return;
         }

         static const unsigned BLOCKSIZE = 240;
         transferSize = std::min(bytesLeft, BLOCKSIZE);

         unsigned address = getCurrentAddress();
         unsigned endAddress = address + transferSize;
         if ((address ^ endAddress) & 0x8000) {
                 // would cross page 1-2 boundary -> limit to page 1
                 transferSize = 0x8000 - address;
         }

         sendHeader();
         send(0);          // data ahead!
         send16(address);
         send16(transferSize);
         send(0xaa);

         // wait for data
         state = STATE_DISKWRITE;
         recvCount = 0;
 }

 void NowindHost::doDiskWrite2()
 {
         assert(recvCount == (transferSize + 2));
         auto* buf = buffer[0].raw + transfered;
         for (unsigned i = 0; i < transferSize; ++i) {
                 buf[i] = extraData[i + 1];
         }

         byte seq1 = extraData[0];
         byte seq2 = extraData[transferSize + 1];
         if ((seq1 == 0xaa) && (seq2 == 0xaa)) {
                 // good block received
                 transfered += transferSize;

                 unsigned address = getCurrentAddress();
                 size_t bytesLeft = (buffer.size() * SECTOR_SIZE) - transfered;
                 if ((address == 0x8000) && (bytesLeft > 0)) {
                         sendHeader();
                         send(254); // more data for page 2/3
                 }
         } else {
                 // ERROR!!!
                 // This situation is still not handled correctly!
                 purge();
         }

         // continue the rest of the disk write
         doDiskWrite1();
 }


 unsigned NowindHost::getFCB() const
 {
         // note: same code as getStartAddress(), merge???
         byte reg_l = cmdData[4];
         byte reg_h = cmdData[5];
         return reg_h * 256 + reg_l;
 }

 string NowindHost::extractName(int begin, int end) const
 {
         string result;
         for (int i = begin; i < end; ++i) {
                 char c = extraData[i];
                 if (c == ' ') break;
                 result += char(toupper(c));
         }
         return result;
 }

 int NowindHost::getDeviceNum() const
 {
         unsigned fcb = getFCB();
         for (unsigned i = 0; i < MAX_DEVICES; ++i) {
                 if (devices[i].fs && devices[i].fcb == fcb) {
                         return i;
                 }
         }
         return -1;
 }

 int NowindHost::getFreeDeviceNum()
 {
         int dev = getDeviceNum();
         if (dev != -1) {
                 // There already was a device open with this fcb address,
                 // reuse that device.
                 return dev;
         }
         // Search for free device.
         for (unsigned i = 0; i < MAX_DEVICES; ++i) {
                 if (!devices[i].fs) {
                         return i;
                 }
         }
         // All devices are in use. This can't happen when the MSX software
         // functions correctly. We'll simply reuse the first device. It would
         // be nicer if we reuse the oldest device, but that's harder to
         // implement, and actually it doesn't really matter.
         return 0;
 }

 void NowindHost::deviceOpen()
 {
         state = STATE_SYNC1;

         assert(recvCount == 11);
         string filename = extractName(0, 8);
         string ext      = extractName(8, 11);
         if (!ext.empty()) {
                 strAppend(filename, '.', ext);
         }

         unsigned fcb = getFCB();
         unsigned dev = getFreeDeviceNum();
         devices[dev].fs = std::make_unique<fstream>(); // takes care of deleting old fs
         devices[dev].fcb = fcb;

         sendHeader();
         byte errorCode = 0;
         byte openMode = cmdData[2]; // reg_e
         switch (openMode) {
         case 1: // read-only mode
                 devices[dev].fs->open(filename.c_str(), ios::in  | ios::binary);
                 errorCode = 53; // file not found
                 break;
         case 2: // create new file, write-only
                 devices[dev].fs->open(filename.c_str(), ios::out | ios::binary);
                 errorCode = 56; // bad file name
                 break;
         case 8: // append to existing file, write-only
                 devices[dev].fs->open(filename.c_str(), ios::out | ios::binary | ios::app);
                 errorCode = 53; // file not found
                 break;
         case 4:
                 send(58); // sequential I/O only
                 return;
         default:
                 send(0xFF); // TODO figure out a good error number
                 return;
         }
         assert(errorCode != 0);
         if (devices[dev].fs->fail()) {
                 devices[dev].fs.reset();
                 send(errorCode);
                 return;
         }

         unsigned readLen = 0;
         bool eof = false;
         char buf[256];
         if (openMode == 1) {
                 // read-only mode, already buffer first 256 bytes
                 readLen = readHelper1(dev, buf);
                 assert(readLen <= 256);
                 eof = readLen < 256;
         }

         send(0x00); // no error
         send16(fcb);
         send16(9 + readLen + (eof ? 1 : 0)); // number of bytes to transfer

         send(openMode);
         send(0);
         send(0);
         send(0);
         send(cmdData[3]); // reg_d
         send(0);
         send(0);
         send(0);
         send(0);

         if (openMode == 1) {
                 readHelper2(readLen, buf);
         }
 }

 void NowindHost::deviceClose()
 {
         int dev = getDeviceNum();
         if (dev == -1) return;
         devices[dev].fs.reset();
 }

 void NowindHost::deviceWrite()
 {
         int dev = getDeviceNum();
         if (dev == -1) return;
         char data = cmdData[0]; // reg_c
         devices[dev].fs->write(&data, 1);
 }

 void NowindHost::deviceRead()
 {
         int dev = getDeviceNum();
         if (dev == -1) return;

         char buf[256];
         unsigned readLen = readHelper1(dev, buf);
         bool eof = readLen < 256;
         send(0xAF);
         send(0x05);
         send(0x00); // dummy
         send16(getFCB() + 9);
         send16(readLen + (eof ? 1 : 0));
         readHelper2(readLen, buf);
 }

 unsigned NowindHost::readHelper1(unsigned dev, char* buf)
 {
         assert(dev < MAX_DEVICES);
         unsigned len = 0;
         for (; len < 256; ++len) {
                 devices[dev].fs->read(&buf[len], 1);
                 if (devices[dev].fs->eof()) break;
         }
         return len;
 }

 void NowindHost::readHelper2(unsigned len, const char* buf)
 {
         for (unsigned i = 0; i < len; ++i) {
                 send(buf[i]);
         }
         if (len < 256) {
                 send(0x1A); // end-of-file
         }
 }


 // strips a string from outer double-quotes and anything outside them
 // ie: 'pre("foo")bar' will result in 'foo'
 static string_view stripquotes(string_view str)
 {
         auto first = str.find_first_of('\"');
         if (first == string::npos) {
                 // There are no quotes, return the whole string.
                 return str;
         }
         auto last = str.find_last_of ('\"');
         if (first == last) {
                 // Error, there's only a single double-quote char.
                 return {};
         }
         // Return the part between the quotes.
         return str.substr(first + 1, last - first - 1);
 }

 void NowindHost::callImage(const string& filename)
 {
         byte num = cmdData[7]; // reg_a
         if (num >= drives.size()) {
                 // invalid drive number
                 return;
         }
         if (drives[num]->insertDisk(stripquotes(filename))) {
                 // TODO error handling
         }
 }


 static std::initializer_list<enum_string<NowindHost::State>> stateInfo = {
         { "SYNC1",     NowindHost::STATE_SYNC1     },
         { "SYNC2",     NowindHost::STATE_SYNC2     },
         { "COMMAND",   NowindHost::STATE_COMMAND   },
         { "DISKREAD",  NowindHost::STATE_DISKREAD  },
         { "DISKWRITE", NowindHost::STATE_DISKWRITE },
         { "DEVOPEN",   NowindHost::STATE_DEVOPEN   },
         { "IMAGE",     NowindHost::STATE_IMAGE     },
 };
 SERIALIZE_ENUM(NowindHost::State, stateInfo);

 template<typename Archive>
 void NowindHost::serialize(Archive& ar, unsigned /*version*/)
 {
         // drives is serialized elsewhere

         ar.serialize("hostToMsxFifo", hostToMsxFifo,
                      "lastTime",      lastTime,
                      "state",         state,
                      "recvCount",     recvCount,
                      "cmdData",       cmdData,
                      "extraData",     extraData);

         // for backwards compatibility, serialize buffer as a vector<byte>
         size_t bufSize = buffer.size() * sizeof(SectorBuffer);
         byte* bufRaw = buffer.data()->raw;
         vector<byte> tmp(bufRaw, bufRaw + bufSize);
         ar.serialize("buffer", tmp);
         memcpy(bufRaw, tmp.data(), bufSize);

         ar.serialize("transfered",          transfered,
                      "retryCount",          retryCount,
                      "transferSize",        transferSize,
                      "romdisk",             romdisk,
                      "allowOtherDiskroms",  allowOtherDiskroms,
                      "enablePhantomDrives", enablePhantomDrives);

         // Note: We don't serialize 'devices'. So after a loadstate it will be
         // as-if the devices are closed again. The reason for not serializing
         // this is that it's very hard to serialize a fstream (and we anyway
         // can't restore the state of the host filesystem).
 }
 INSTANTIATE_SERIALIZE_METHODS(NowindHost);

 } // namspace openmsx
NowindHost.hh

openmsx::SERIALIZE_ENUM
SERIALIZE_ENUM(CassettePlayer::State, stateInfo)

openmsx::NowindHost::fcb
unsigned fcb
Definition: NowindHost.hh:113

openmsx::NowindHost::read
byte read()
Definition: NowindHost.cc:56

openmsx::NowindHost::STATE_COMMAND
Definition: NowindHost.hh:52

openmsx::SectorAccessibleDisk::readSectors
int readSectors(SectorBuffer *buffers, size_t startSector, size_t nbSectors)
Definition: SectorAccessibleDisk.cc:106

string_view::find_first_of
size_type find_first_of(string_view s) const
Definition: string_view.cc:87

gl::min
vecN< N, T > min(const vecN< N, T > &x, const vecN< N, T > &y)
Definition: gl_vec.hh:269

cb_queue::clear
void clear()
Definition: circular_buffer.hh:386

openmsx::NowindHost::STATE_SYNC1
Definition: NowindHost.hh:50

string_view::find_last_of
size_type find_last_of(string_view s) const
Definition: string_view.cc:101

openmsx::byte
uint8_t byte
8 bit unsigned integer
Definition: openmsx.hh:26

SectorAccessibleDisk.hh

openmsx::SectorBuffer
Definition: DiskImageUtils.hh:90

cb_queue::empty
bool empty() const
Definition: circular_buffer.hh:385

openmsx::SectorAccessibleDisk::isWriteProtected
bool isWriteProtected() const
Definition: SectorAccessibleDisk.cc:132

openmsx::SectorBuffer::raw
byte raw[512]
Definition: DiskImageUtils.hh:91

strAppend
void strAppend(std::string &result, Ts &&...ts)
Definition: strCat.hh:648

begin
auto begin(const string_view &x)
Definition: string_view.hh:151

detail::data
constexpr auto data(C &c) -> decltype(c.data())
Definition: span.hh:69

openmsx::NowindHost::write
void write(byte data, unsigned time)
Definition: NowindHost.cc:68

openmsx::NowindHost::STATE_IMAGE
Definition: NowindHost.hh:56

openmsx::NowindHost::STATE_SYNC2
Definition: NowindHost.hh:51

serialize_stl.hh

DiskContainer.hh

openmsx::NowindHost::State
State
Definition: NowindHost.hh:49

openmsx::NowindHost::getEnablePhantomDrives
bool getEnablePhantomDrives() const
Definition: NowindHost.hh:43

openmsx::NowindHost::peek
byte peek() const
Definition: NowindHost.cc:50

openmsx
Thanks to enen for testing this on a real cartridge:
Definition: Autofire.cc:5

openmsx::NowindHost::fs
std::unique_ptr< std::fstream > fs
Definition: NowindHost.hh:112

openmsx::NowindHost::STATE_DISKREAD
Definition: NowindHost.hh:53

openmsx::NowindHost::Drives
std::vector< std::unique_ptr< DiskContainer > > Drives
Definition: NowindHost.hh:20

openmsx::NowindHost::getAllowOtherDiskroms
bool getAllowOtherDiskroms() const
Definition: NowindHost.hh:40

openmsx::word
uint16_t word
16 bit unsigned integer
Definition: openmsx.hh:29

string_view
This class implements a (close approximation) of the std::string_view class.
Definition: string_view.hh:16

serialize.hh

INSTANTIATE_SERIALIZE_METHODS
#define INSTANTIATE_SERIALIZE_METHODS(CLASS)
Definition: serialize.hh:1006

openmsx::NowindHost::serialize
void serialize(Archive &ar, unsigned version)
Definition: NowindHost.cc:779

openmsx::NowindHost::STATE_DISKWRITE
Definition: NowindHost.hh:54

openmsx::NowindHost::NowindHost
NowindHost(const Drives &drives)
Definition: NowindHost.cc:38

string_view::substr
string_view substr(size_type pos, size_type n=npos) const
Definition: string_view.cc:32

cb_queue::pop_front
T pop_front()
Definition: circular_buffer.hh:365

openmsx::NowindHost::STATE_DEVOPEN
Definition: NowindHost.hh:55

openmsx::NowindHost::~NowindHost
~NowindHost()

cb_queue::push_back
void push_back(U &&u)
Definition: circular_buffer.hh:358

openmsx::NowindHost::STATE_MESSAGE
Definition: NowindHost.hh:57

openmsx::SectorAccessibleDisk::writeSectors
int writeSectors(const SectorBuffer *buffers, size_t startSector, size_t nbSectors)
Definition: SectorAccessibleDisk.cc:119

openmsx::NowindHost
Definition: NowindHost.hh:17

end
auto end(const string_view &x)
Definition: string_view.hh:152

unreachable.hh

openmsx::SectorAccessibleDisk
Definition: SectorAccessibleDisk.hh:15

cb_queue::front
const T & front() const
Definition: circular_buffer.hh:371

openmsx::NowindHost::isDataAvailable
bool isDataAvailable() const
Definition: NowindHost.cc:61

UNREACHABLE
#define UNREACHABLE
Definition: unreachable.hh:38