#include "os.h" #include "toolbox.h" #include "mpw_time.h" #include #include #include #include #include #include #include #include #include #include #include namespace { using namespace OS; uint16_t errno_to_oserr(int xerrno) { switch (xerrno) { case 0: return 0; case EBADF: return rfNumErr; case EIO: return ioErr; case EACCES: return permErr; case ENOENT: return fnfErr; case ENOTDIR: return dirNFErr; case EISDIR: return notAFileErr; case ENOTSUP: return extFSErr; case EROFS: return wPrErr; case EEXIST: return dupFNErr; case EBUSY: return fBsyErr; case EDQUOT: return dskFulErr; case ENOSPC: return dskFulErr; default: return ioErr; } } } namespace OS { uint16_t Create(uint16_t trap) { uint32_t d0; uint32_t parm = cpuGetAReg(0); fprintf(stderr, "%04x Create(%08x)\n", trap, parm); uint32_t ioCompletion = memoryReadLong(parm + 12); uint32_t namePtr = memoryReadLong(parm + 18); uint16_t ioVRefNum = memoryReadWord(parm + 22); uint8_t ioFVersNum = memoryReadByte(parm + 26); std::string sname = ToolBox::ReadPString(namePtr); if (!sname.length()) { memoryWriteWord(bdNamErr, parm + 16); return bdNamErr; } fprintf(stderr, " Create(%s)\n", sname.c_str()); int fd; fd = ::open(sname.c_str(), O_WRONLY | O_CREAT | O_EXCL, 0666); if (fd < 0) { d0 = errno_to_oserr(errno); } else { ::close(fd); d0 = 0; } memoryWriteWord(d0, parm + 16); return d0; } uint16_t Delete(uint16_t trap) { uint32_t d0; uint32_t parm = cpuGetAReg(0); fprintf(stderr, "%04x Delete(%08x)\n", trap, parm); uint32_t ioCompletion = memoryReadLong(parm + 12); uint32_t namePtr = memoryReadLong(parm + 18); uint16_t ioVRefNum = memoryReadWord(parm + 22); uint8_t ioFVersNum = memoryReadByte(parm + 26); std::string sname = ToolBox::ReadPString(namePtr); if (!sname.length()) { memoryWriteWord(bdNamErr, parm + 16); return bdNamErr; } fprintf(stderr, " Delete(%s)\n", sname.c_str()); int ok = ::unlink(sname.c_str()); if (ok < 0) d0 = errno_to_oserr(errno); else d0 = 0; memoryWriteWord(d0, parm + 16); return d0; } // return the name of the default volume. // this does not translate well. uint16_t GetVol(uint16_t trap) { uint32_t parm = cpuGetAReg(0); fprintf(stderr, "%04x GetVol(%08x)\n", trap, parm); uint32_t ioCompletion = memoryReadLong(parm + 12); uint32_t namePtr = memoryReadLong(parm + 18); // ioResult memoryWriteWord(0, parm + 16); // ioVRefNum memoryWriteWord(0, parm + 22); std::string tmp = "MacOS"; ToolBox::WritePString(namePtr, tmp); return 0; } uint16_t GetFileInfo(uint16_t trap) { uint16_t d0; uint32_t parm = cpuGetAReg(0); fprintf(stderr, "%04x GetFileInfo(%08x)\n", trap, parm); uint32_t ioCompletion = memoryReadLong(parm + 12); uint32_t ioNamePtr = memoryReadLong(parm + 18); uint16_t ioVRefNum = memoryReadWord(parm + 22); uint8_t ioFVersNum = memoryReadByte(parm + 26); int16_t ioFDirIndex = memoryReadWord(parm + 28); if (ioFDirIndex <= 0) { // based name std::string sname; if (!ioNamePtr) { memoryWriteWord(bdNamErr, parm + 16); return bdNamErr; } sname = ToolBox::ReadPString(ioNamePtr); fprintf(stderr, " GetFileInfo(%s)\n", sname.c_str()); // todo -- how are absolute, relative, etc paths handled... struct stat st; if (::stat(sname.c_str(), &st) < 0) { d0 = errno_to_oserr(errno); memoryWriteWord(d0, parm + 16); return d0; } // finder info { uint8_t buffer[32]; std::memset(buffer, 0, sizeof(buffer)); ::getxattr(sname.c_str(), XATTR_FINDERINFO_NAME, buffer, 32, 0, 0); // only 16 bytes copied. std::memcpy(memoryPointer(parm + 32), buffer, 16); } // file reference number memoryWriteWord(0, parm + 24); // file attributes memoryWriteWord(0, parm + 30); // version (unused) memoryWriteWord(0, parm + 32); // file id memoryWriteLong(0, parm + 48); // file size memoryWriteWord(0, parm + 52); memoryWriteLong(st.st_size, parm + 54); memoryWriteLong(st.st_size, parm + 58); // create date. memoryWriteLong(Time::UnixToMac(st.st_birthtime), parm + 72); memoryWriteLong(Time::UnixToMac(st.st_mtime), parm + 76); // res fork... // do this last since it adjusts the name and the stat. sname.append(_PATH_RSRCFORKSPEC); if (::stat(sname.c_str(), &st) >= 0) { memoryWriteWord(0, parm + 62); memoryWriteLong(st.st_size, parm + 64); memoryWriteLong(st.st_size, parm + 68); } else { memoryWriteWord(0, parm + 62); memoryWriteLong(0, parm + 64); memoryWriteLong(0, parm + 68); } // no error. memoryWriteWord(0, parm + 16); } else { fprintf(stderr, "GetFileInfo -- ioFDirIndex not yet supported\n"); exit(1); } // if iocompletion handler && asyn call.... return 0; } uint16_t SetFileInfo(uint16_t trap) { std::string sname; uint16_t d0; uint32_t parm = cpuGetAReg(0); fprintf(stderr, "%04x SetFileInfo(%08x)\n", trap, parm); uint32_t ioCompletion = memoryReadLong(parm + 12); uint32_t ioNamePtr = memoryReadLong(parm + 18); uint16_t ioVRefNum = memoryReadWord(parm + 22); uint8_t ioFVersNum = memoryReadByte(parm + 26); //int16_t ioFDirIndex = memoryReadWord(parm + 28); // + 32 = finder data - 16 bytes. uint32_t ioFlCrDat = memoryReadLong(parm + 72); uint32_t ioFlMdDat = memoryReadLong(parm + 76); // currently, only sets finder info. if (!ioNamePtr) { memoryWriteWord(bdNamErr, parm + 16); return bdNamErr; } sname = ToolBox::ReadPString(ioNamePtr); fprintf(stderr, " SetFileInfo(%s)\n", sname.c_str()); // check if the file actually exists { struct stat st; int ok; ok = ::stat(sname.c_str(), &st); if (ok < 0) { d0 = errno_to_oserr(errno); memoryWriteWord(d0, parm + 16); return d0; } } // finder info is actually 32 bytes, so read and update the first 16. { uint8_t buffer[32]; int ok; std::memset(buffer, 0, sizeof(buffer)); ok = ::getxattr(sname.c_str(), XATTR_FINDERINFO_NAME, buffer, 32, 0, 0); // only 16 bytes copied. std::memcpy(buffer, memoryPointer(parm + 32), 16); ok = ::setxattr(sname.c_str(), XATTR_FINDERINFO_NAME, buffer, 32, 0, 0); if (ok < 0) { d0 = errno_to_oserr(errno); memoryWriteWord(d0, parm + 16); return d0; } } d0 = 0; memoryWriteWord(d0, parm + 16); return d0; } }