//======================================================================== // // stream.cxx // // Implementations of internal C library stdio stream functions // //======================================================================== // ####ECOSGPLCOPYRIGHTBEGIN#### // ------------------------------------------- // This file is part of eCos, the Embedded Configurable Operating System. // Copyright (C) 1998, 1999, 2000, 2001, 2002, 2006 Free Software Foundation, Inc. // // eCos is free software; you can redistribute it and/or modify it under // the terms of the GNU General Public License as published by the Free // Software Foundation; either version 2 or (at your option) any later // version. // // eCos is distributed in the hope that it will be useful, but WITHOUT // ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or // FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License // for more details. // // You should have received a copy of the GNU General Public License // along with eCos; if not, write to the Free Software Foundation, Inc., // 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. // // As a special exception, if other files instantiate templates or use // macros or inline functions from this file, or you compile this file // and link it with other works to produce a work based on this file, // this file does not by itself cause the resulting work to be covered by // the GNU General Public License. However the source code for this file // must still be made available in accordance with section (3) of the GNU // General Public License v2. // // This exception does not invalidate any other reasons why a work based // on this file might be covered by the GNU General Public License. // ------------------------------------------- // ####ECOSGPLCOPYRIGHTEND#### //======================================================================== //#####DESCRIPTIONBEGIN#### // // Author(s): jlarmour // Contributors: // Date: 2000-04-20 // Purpose: // Description: // Usage: // //####DESCRIPTIONEND#### // //======================================================================== // CONFIGURATION #include // Configuration header // INCLUDES #include // Common project-wide type definitions #include // Assertion infrastructure #include // NULL and size_t from compiler #include // Error codes #include // memcpy() and memset() #include // Header for this file #include // Stdio support functions #include // I/O system inlines // FUNCTIONS Cyg_StdioStream::Cyg_StdioStream(cyg_stdio_handle_t dev, OpenMode open_mode, cyg_bool append, cyg_bool binary, int buffer_mode, cyg_ucount32 buffer_size, cyg_uint8 *buffer_addr ) #ifdef CYGSEM_LIBC_STDIO_WANT_BUFFERED_IO : io_buf( buffer_size, buffer_addr ) #endif { initialize( dev, open_mode, append, binary, buffer_mode, buffer_size, buffer_addr); } void Cyg_StdioStream::initialize(cyg_stdio_handle_t dev, OpenMode open_mode, cyg_bool append, cyg_bool binary, int buffer_mode, cyg_ucount32 buffer_size, cyg_uint8 *buffer_addr ) { #ifdef CYGDBG_USE_ASSERTS magic_validity_word = 0xbadbad; #endif my_device = dev; // Clear all flags memset( &flags, 0, sizeof(flags) ); switch (open_mode) { case CYG_STREAM_READ: flags.opened_for_read = true; break; case CYG_STREAM_WRITE: flags.opened_for_write = true; break; case CYG_STREAM_READWRITE_NOCREATE: case CYG_STREAM_READWRITE_CREATE: flags.opened_for_read = true; flags.opened_for_write = true; break; default: error=EINVAL; return; } // switch if (flags.opened_for_write) { #if 0 // FIXME: need some replacement for this if (!my_device->write_blocking) { error = EDEVNOSUPP; return; } // if #endif #ifdef CYGSEM_LIBC_STDIO_WANT_BUFFERED_IO flags.last_buffer_op_was_read = false; #endif } // if if (flags.opened_for_read) { #if 0 // FIXME: need some replacement for this if (!my_device->read_blocking) { error = EDEVNOSUPP; return; } // if #endif // NB also if opened for read AND write, then say last op was read #ifdef CYGSEM_LIBC_STDIO_WANT_BUFFERED_IO flags.last_buffer_op_was_read = true; #endif } // if flags.binary = binary ? 1 : 0; error = ENOERR; // in due course we would do an equivalent to fseek(...,0, SEEK_END); // when appending. for now, there's nothing, except set eof flags.at_eof = append ? 1 : 0; position = 0; #ifdef CYGSEM_LIBC_STDIO_WANT_BUFFERED_IO switch (buffer_mode) { case _IONBF: CYG_ASSERT( (buffer_size == 0) && (buffer_addr == NULL), "No buffering wanted but size/address specified!" ); flags.buffering = flags.line_buffering = false; break; case _IOLBF: flags.buffering = true; flags.line_buffering = true; break; case _IOFBF: flags.buffering = true; flags.line_buffering = false; break; default: error = EINVAL; return; } // switch // one way of checking the buffer was set up correctly if (flags.buffering && io_buf.get_buffer_size()==-1) { error = ENOMEM; return; } #endif #if 0 // FIXME - Need to set binary mode. if (my_device->open) { error = (*my_device->open)( my_device->cookie, binary ? CYG_DEVICE_OPEN_MODE_RAW : CYG_DEVICE_OPEN_MODE_TEXT ); if (error != ENOERR) return; // keep error code the same } // if #endif #ifdef CYGDBG_USE_ASSERTS magic_validity_word = 0x7b4321ce; #endif } // Cyg_StdioStream constructor Cyg_StdioStream::Cyg_StdioStream( OpenMode open_mode, cyg_ucount32 buffer_size, cyg_uint8 *buffer_addr ) #ifdef CYGSEM_LIBC_STDIO_WANT_BUFFERED_IO : io_buf( buffer_size, buffer_addr ) #endif { initialize( CYG_STDIO_HANDLE_NULL, open_mode, false, false, _IOFBF, buffer_size, buffer_addr ); if( error != ENOERR ) return; switch( open_mode ) { case CYG_STREAM_READ: // Fix up the stream so it looks like the buffer contents has just // been read in. #ifdef CYGSEM_LIBC_STDIO_WANT_BUFFERED_IO io_buf.set_bytes_written( buffer_size ); #endif break; case CYG_STREAM_WRITE: // Fix up the stream so it looks like the buffer is ready to accept // new data. break; default: error = EINVAL; return; } } Cyg_ErrNo Cyg_StdioStream::refill_read_buffer( void ) { Cyg_ErrNo read_err; cyg_uint8 *buffer; cyg_uint32 len; CYG_ASSERTCLASS( this, "Stream object is not a valid stream!" ); if (!lock_me()) return EBADF; // assume file is now invalid // first just check that we _can_ read this device! if (!flags.opened_for_read) { unlock_me(); return EINVAL; } #ifdef CYGSEM_LIBC_STDIO_WANT_BUFFERED_IO // If there is pending output to write, then this will check and // write it if (flags.buffering) { read_err = flush_output_unlocked(); // we're now reading flags.last_buffer_op_was_read = true; // flush ALL streams if (read_err == ENOERR) read_err = cyg_libc_stdio_flush_all_but(this); if (read_err != ENOERR) { unlock_me(); return read_err; } // if len = io_buf.get_buffer_addr_to_write( (cyg_uint8**)&buffer ); if (!len) { // no buffer space available unlock_me(); return ENOERR; // isn't an error, just needs user to read out data } // if } else #endif if (!flags.readbuf_char_in_use) { len = 1; buffer = &readbuf_char; } else { // no buffer space available unlock_me(); return ENOERR; // isn't an error, just needs user to read out data } // else read_err = cyg_stdio_read(my_device, buffer, &len); #ifdef CYGSEM_LIBC_STDIO_WANT_BUFFERED_IO if (flags.buffering) io_buf.set_bytes_written( len ); else #endif flags.readbuf_char_in_use = len ? 1 : 0; unlock_me(); if (read_err == ENOERR) { if (len == 0) { read_err = EAGAIN; flags.at_eof = true; } else flags.at_eof = false; } // if return read_err; } // refill_read_buffer() Cyg_ErrNo Cyg_StdioStream::read( cyg_uint8 *user_buffer, cyg_ucount32 buffer_length, cyg_ucount32 *bytes_read ) { Cyg_ErrNo read_err=ENOERR; CYG_ASSERTCLASS( this, "Stream object is not a valid stream!" ); *bytes_read = 0; if (!lock_me()) return EBADF; // assume file is now invalid if (!flags.opened_for_read) { unlock_me(); return EINVAL; } #ifdef CYGFUN_LIBC_STDIO_ungetc if (flags.unread_char_buf_in_use && buffer_length) { *user_buffer++ = unread_char_buf; ++*bytes_read; flags.unread_char_buf_in_use = false; --buffer_length; } // if #endif // ifdef CYGFUN_LIBC_STDIO_ungetc #ifdef CYGSEM_LIBC_STDIO_WANT_BUFFERED_IO if (flags.buffering) { // need to flush output if we were writing before if (!flags.last_buffer_op_was_read) { Cyg_ErrNo err = flush_output_unlocked(); if (ENOERR != err) { unlock_me(); return err; } } cyg_uint8 *buff_to_read_from; cyg_ucount32 bytes_available; bytes_available = io_buf.get_buffer_addr_to_read( (cyg_uint8 **)&buff_to_read_from ); cyg_ucount32 count = (bytes_available < buffer_length) ? bytes_available : buffer_length; if (count) { memcpy( user_buffer, buff_to_read_from, count ); io_buf.set_bytes_read( count ); *bytes_read += count; } // if } // if else #endif if (flags.readbuf_char_in_use && buffer_length) { *user_buffer = readbuf_char; *bytes_read = 1; flags.readbuf_char_in_use = false; } // if we are unbuffered, we read as much as we can directly from the // file system at this point. // // unless we do this, we could end up reading byte-by-byte from the filing system // due to the readbuf_char scheme. if ( #ifdef CYGSEM_LIBC_STDIO_WANT_BUFFERED_IO !flags.buffering && #endif (*bytes_read 0, "There should be data to read but there isn't!"); write_err = cyg_stdio_write(my_device, buffer, &len); // since we're doing a concerted flush, we tell the I/O layer to // flush too, otherwise output may just sit there forever if (!write_err) cyg_stdio_flush( my_device ); // we've just read it all, so just wipe it out io_buf.drain_buffer(); return write_err; #else // ifdef CYGSEM_LIBC_STDIO_WANT_BUFFERED_IO CYG_ASSERTCLASS( this, "Stream object is not a valid stream!" ); return ENOERR; #endif // ifdef CYGSEM_LIBC_STDIO_WANT_BUFFERED_IO } // flush_output_unlocked() Cyg_ErrNo Cyg_StdioStream::write( const cyg_uint8 *buffer, cyg_ucount32 buffer_length, cyg_ucount32 *bytes_written ) { Cyg_ErrNo write_err = ENOERR; CYG_ASSERTCLASS( this, "Stream object is not a valid stream!" ); *bytes_written = 0; if (!lock_me()) return EBADF; // assume file is now invalid // first just check that we _can_ write to the device! if ( !flags.opened_for_write ) { unlock_me(); return EINVAL; } #ifdef CYGSEM_LIBC_STDIO_WANT_BUFFERED_IO if (flags.last_buffer_op_was_read == true) { #ifdef CYGPKG_LIBC_STDIO_FILEIO if ( 0 != io_buf.get_buffer_space_used() ) { off_t newpos = position; io_buf.drain_buffer(); // nuke input bytes to prevent confusion Cyg_ErrNo err = cyg_stdio_lseek( my_device, &newpos, SEEK_SET ); if (err) { unlock_me(); return err; } } #else io_buf.drain_buffer(); // nuke input bytes to prevent confusion #endif } flags.last_buffer_op_was_read = false; if (!flags.buffering) { #endif cyg_uint32 len = buffer_length; write_err = cyg_stdio_write(my_device, buffer, &len); *bytes_written = len; #ifdef CYGSEM_LIBC_STDIO_WANT_BUFFERED_IO } // if else { cyg_ucount32 bytes_available; cyg_ucount32 bytes_to_write; cyg_ucount32 newline_pos; cyg_uint8 *write_addr; cyg_bool must_flush = false; while ( buffer_length > 0 ) { bytes_available = io_buf.get_buffer_addr_to_write( &write_addr ); // we need to flush if we've no room or the buffer has an up // and coming newline if ( !bytes_available || must_flush ) { write_err = flush_output_unlocked(); // harmless even if there was an error bytes_available = io_buf.get_buffer_addr_to_write( &write_addr ); CYG_ASSERT( bytes_available > 0, "Help! still no bytes available in " "write buffer" ); } // if if (write_err) { unlock_me(); return write_err; } // if // choose the lower of the buffer available and the length // to write bytes_to_write=(bytes_available < buffer_length) ? bytes_available : buffer_length; // if we're line buffered, we may want want to flush if there's // a newline character, so lets find out if (flags.line_buffering) { for (newline_pos=0; newline_pos