#include "CProtocolUtil.h" #include "IInputStream.h" #include "IOutputStream.h" #include "CLog.h" #include #include #include // // CProtocolUtil // void CProtocolUtil::writef(IOutputStream* stream, const char* fmt, ...) { assert(stream != NULL); assert(fmt != NULL); log((CLOG_DEBUG "writef(%s)", fmt)); va_list args; // determine total size to write va_start(args, fmt); UInt32 count = getLength(fmt, args); va_end(args); // done if nothing to write if (count == 0) { return; } // fill buffer UInt8* buffer = new UInt8[count]; va_start(args, fmt); writef(buffer, fmt, args); va_end(args); // write buffer UInt8* scan = buffer; while (count > 0) { const UInt32 n = stream->write(scan, count); log((CLOG_DEBUG "wrote %d of %d bytes", n, count)); count -= n; scan += n; } delete[] buffer; } void CProtocolUtil::readf(IInputStream* stream, const char* fmt, ...) { assert(stream != NULL); assert(fmt != NULL); va_list args; va_start(args, fmt); // begin scanning while (*fmt) { if (*fmt == '%') { // format specifier. determine argument size. ++fmt; UInt32 len = eatLength(&fmt); switch (*fmt) { case 'i': { // check for valid length assert(len == 1 || len == 2 || len == 4); // read the data UInt8 buffer[4]; read(stream, buffer, len); // convert it UInt32* v = va_arg(args, UInt32*); switch (len) { case 1: // 1 byte integer *v = static_cast(buffer[0]); break; case 2: // 2 byte integer *v = (static_cast(buffer[0]) << 8) | static_cast(buffer[1]); break; case 4: // 4 byte integer *v = (static_cast(buffer[0]) << 24) | (static_cast(buffer[1]) << 16) | (static_cast(buffer[2]) << 8) | static_cast(buffer[3]); break; } break; } case 's': { assert(len == 0); // read the string length UInt8 buffer[128]; read(stream, buffer, 4); UInt32 len = (static_cast(buffer[0]) << 24) | (static_cast(buffer[1]) << 16) | (static_cast(buffer[2]) << 8) | static_cast(buffer[3]); // use a fixed size buffer if its big enough const bool useFixed = (len <= sizeof(buffer)); // allocate a buffer to read the data UInt8* sBuffer; if (useFixed) { sBuffer = buffer; } else { sBuffer = new UInt8[len]; } // read the data try { read(stream, sBuffer, len); } catch (...) { if (!useFixed) { delete[] sBuffer; } throw; } // save the data CString* dst = va_arg(args, CString*); dst->assign((const char*)sBuffer, len); // release the buffer if (!useFixed) { delete[] sBuffer; } break; } case '%': assert(len == 0); break; default: assert(0 && "invalid format specifier"); } // next format character ++fmt; } else { // read next character char buffer[1]; read(stream, buffer, 1); // verify match if (buffer[0] != *fmt) { throw XIOReadMismatch(); } // next format character ++fmt; } } va_end(args); } UInt32 CProtocolUtil::getLength( const char* fmt, va_list args) { UInt32 n = 0; while (*fmt) { if (*fmt == '%') { // format specifier. determine argument size. ++fmt; UInt32 len = eatLength(&fmt); switch (*fmt) { case 'i': assert(len == 1 || len == 2 || len == 4); (void)va_arg(args, UInt32); break; case 's': assert(len == 0); len = va_arg(args, UInt32) + 4; (void)va_arg(args, UInt8*); break; case '%': assert(len == 0); len = 1; break; default: assert(0 && "invalid format specifier"); } // accumulate size n += len; ++fmt; } else { // regular character ++n; ++fmt; } } return n; } void CProtocolUtil::writef(void* buffer, const char* fmt, va_list args) { UInt8* dst = reinterpret_cast(buffer); while (*fmt) { if (*fmt == '%') { // format specifier. determine argument size. ++fmt; UInt32 len = eatLength(&fmt); switch (*fmt) { case 'i': { const UInt32 v = va_arg(args, UInt32); switch (len) { case 1: // 1 byte integer *dst++ = static_cast(v & 0xff); break; case 2: // 2 byte integer *dst++ = static_cast((v >> 8) & 0xff); *dst++ = static_cast( v & 0xff); break; case 4: // 4 byte integer *dst++ = static_cast((v >> 24) & 0xff); *dst++ = static_cast((v >> 16) & 0xff); *dst++ = static_cast((v >> 8) & 0xff); *dst++ = static_cast( v & 0xff); break; default: assert(0 && "invalid integer format length"); return; } break; } case 's': { assert(len == 0); const UInt32 len = va_arg(args, UInt32); const UInt8* src = va_arg(args, UInt8*); *dst++ = static_cast((len >> 24) & 0xff); *dst++ = static_cast((len >> 16) & 0xff); *dst++ = static_cast((len >> 8) & 0xff); *dst++ = static_cast( len & 0xff); memcpy(dst, src, len); dst += len; break; } case '%': assert(len == 0); *dst++ = '%'; break; default: assert(0 && "invalid format specifier"); } // next format character ++fmt; } else { // copy regular character *dst++ = *fmt++; } } } UInt32 CProtocolUtil::eatLength(const char** pfmt) { const char* fmt = *pfmt; UInt32 n = 0; for (;;) { UInt32 d; switch (*fmt) { case '0': d = 0; break; case '1': d = 1; break; case '2': d = 2; break; case '3': d = 3; break; case '4': d = 4; break; case '5': d = 5; break; case '6': d = 6; break; case '7': d = 7; break; case '8': d = 8; break; case '9': d = 9; break; default: *pfmt = fmt; return n; } n = 10 * n + d; ++fmt; } } void CProtocolUtil::read(IInputStream* stream, void* vbuffer, UInt32 count) { assert(stream != NULL); assert(vbuffer != NULL); UInt8* buffer = reinterpret_cast(vbuffer); while (count > 0) { // read more UInt32 n = stream->read(buffer, count); // bail if stream has hungup if (n == 0) { throw XIOEndOfStream(); } // prepare for next read buffer += n; count -= n; } } // // XIOReadMismatch // CString XIOReadMismatch::getWhat() const throw() { return "CProtocolUtil::readf() mismatch"; }