/* -*- Mode: C; tab-width: 8; indent-tabs-mode: t; c-basic-offset: 8 -*- */ /* camel-stream-buffer.c : Buffer any other other stream */ /* * * Author : * Michael Zucchi * * Copyright 1999, 2000 Helix Code, Inc. (http://www.helixcode.com) * * This program 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 of the * License, or (at your option) any later version. * * This program 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 this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 * USA */ #include #include "camel-stream-buffer.h" #include #include #include #include #include "camel-log.h" static CamelStreamBufferClass *parent_class=NULL; enum { BUF_USER = 1<<0, /* user-supplied buffer, do not free */ }; #define BUF_SIZE 1024 static gint _read (CamelStream *stream, gchar *buffer, gint n); static gint _write (CamelStream *stream, const gchar *buffer, gint n); static void _flush (CamelStream *stream); static gint _available (CamelStream *stream); static gboolean _eos (CamelStream *stream); static void _close (CamelStream *stream); static void _finalize (GtkObject *object); static void _destroy (GtkObject *object); static void _init_vbuf(CamelStreamBuffer *sbf, CamelStream *s, CamelStreamBufferMode mode, char *buf, guint32 size); static void _init(CamelStreamBuffer *sbuf, CamelStream *s, CamelStreamBufferMode mode); static void camel_stream_buffer_class_init (CamelStreamBufferClass *camel_stream_buffer_class) { CamelStreamClass *camel_stream_class = CAMEL_STREAM_CLASS (camel_stream_buffer_class); GtkObjectClass *gtk_object_class = GTK_OBJECT_CLASS (camel_stream_buffer_class); parent_class = gtk_type_class (camel_stream_get_type ()); /* virtual method definition */ camel_stream_buffer_class->init = _init; camel_stream_buffer_class->init_vbuf = _init_vbuf; /* virtual method overload */ camel_stream_class->read = _read; camel_stream_class->write = _write; camel_stream_class->flush = _flush; camel_stream_class->available = _available; camel_stream_class->eos = _eos; camel_stream_class->close = _close; gtk_object_class->finalize = _finalize; gtk_object_class->destroy = _destroy; } static void camel_stream_buffer_init (gpointer object, gpointer klass) { CamelStreamBuffer *sbf = CAMEL_STREAM_BUFFER (object); sbf->flags = 0; sbf->size = BUF_SIZE; sbf->buf = g_malloc(BUF_SIZE); sbf->ptr = sbf->buf; sbf->end = sbf->buf; sbf->mode = CAMEL_STREAM_BUFFER_READ | CAMEL_STREAM_BUFFER_BUFFER; sbf->stream = 0; } GtkType camel_stream_buffer_get_type (void) { static GtkType camel_stream_buffer_type = 0; gdk_threads_enter (); if (!camel_stream_buffer_type) { GtkTypeInfo camel_stream_buffer_info = { "CamelStreamBuffer", sizeof (CamelStreamBuffer), sizeof (CamelStreamBufferClass), (GtkClassInitFunc) camel_stream_buffer_class_init, (GtkObjectInitFunc) camel_stream_buffer_init, /* reserved_1 */ NULL, /* reserved_2 */ NULL, (GtkClassInitFunc) NULL, }; camel_stream_buffer_type = gtk_type_unique (camel_stream_get_type (), &camel_stream_buffer_info); } gdk_threads_leave (); return camel_stream_buffer_type; } static void _destroy (GtkObject *object) { CamelStreamBuffer *stream_buffer = CAMEL_STREAM_BUFFER (object); CAMEL_LOG_FULL_DEBUG ("Entering CamelStreamBuffer::destroy\n"); /* NOP to remove warnings */ stream_buffer->buf = stream_buffer->buf; GTK_OBJECT_CLASS (parent_class)->destroy (object); CAMEL_LOG_FULL_DEBUG ("Leaving CamelStreamBuffer::destroy\n"); } static void _finalize (GtkObject *object) { CamelStreamBuffer *sbf = CAMEL_STREAM_BUFFER (object); CAMEL_LOG_FULL_DEBUG ("Entering CamelStreamBuffer::finalize\n"); if (!(sbf->flags & BUF_USER)) { g_free(sbf->buf); } if (sbf->stream) gtk_object_unref(GTK_OBJECT(sbf->stream)); GTK_OBJECT_CLASS (parent_class)->finalize (object); CAMEL_LOG_FULL_DEBUG ("Leaving CamelStreamBuffer::finalize\n"); } static void _set_vbuf(CamelStreamBuffer *sbf, char *buf, CamelStreamBufferMode mode, int size) { if (sbf->buf && !(sbf->flags & BUF_USER)) { g_free(sbf->buf); } if (buf) { sbf->buf = buf; sbf->flags |= BUF_USER; } else { sbf->buf = g_malloc(size); sbf->flags &= ~BUF_USER; } sbf->size = size; sbf->mode = mode; } static void _init_vbuf(CamelStreamBuffer *sbf, CamelStream *s, CamelStreamBufferMode mode, char *buf, guint32 size) { _set_vbuf(sbf, buf, mode, size); if (sbf->stream) gtk_object_unref(GTK_OBJECT(sbf->stream)); sbf->stream = s; } static void _init(CamelStreamBuffer *sbuf, CamelStream *s, CamelStreamBufferMode mode) { _init_vbuf(sbuf, s, mode, NULL, BUF_SIZE); } /** * camel_stream_buffer_new: * @stream: Existing stream to buffer. * @mode: Operational mode of buffered stream. * * Create a new buffered stream of another stream. A default * buffer size (1024 bytes), automatically managed will be used * for buffering. * * See camel_stream_buffer_new_with_vbuf() for details on the * @mode parameter. * * Return value: A newly created buffered stream. **/ CamelStream * camel_stream_buffer_new (CamelStream *stream, CamelStreamBufferMode mode) { CamelStreamBuffer *sbf; sbf = gtk_type_new (camel_stream_buffer_get_type ()); CAMEL_STREAM_BUFFER_CLASS (GTK_OBJECT(sbf)->klass)->init (sbf, stream, mode); return CAMEL_STREAM (sbf); } /** * camel_stream_buffer_new_with_vbuf: * @stream: An existing stream to buffer. * @mode: Mode to buffer in. * @buf: Memory to use for buffering. * @size: Size of buffer to use. * * Create a new stream which buffers another stream, @stream. * * The following values are available for @mode: * * CAMEL_STREAM_BUFFER_BUFFER, Buffer the input/output in blocks. * CAMEL_STREAM_BUFFER_NEWLINE, Buffer on newlines (for output). * CAMEL_STREAM_BUFFER_NONE, Perform no buffering. * * Note that currently this is ignored and CAMEL_STREAM_BUFFER_BUFFER * is always used. * * In addition, one of the following mode options should be or'd * together with the buffering mode: * * CAMEL_STREAM_BUFFER_WRITE, Buffer in write mode. * CAMEL_STREAM_BUFFER_READ, Buffer in read mode. * * Buffering can only be done in one direction for any * buffer instance. * * If @buf is non-NULL, then use the memory pointed to * (for upto @size bytes) as the buffer for all buffering * operations. It is upto the application to free this buffer. * If @buf is NULL, then allocate and manage @size bytes * for all buffering. * * Return value: A new stream with buffering applied. **/ CamelStream *camel_stream_buffer_new_with_vbuf (CamelStream *stream, CamelStreamBufferMode mode, char *buf, guint32 size) { CamelStreamBuffer *sbf; sbf = gtk_type_new (camel_stream_buffer_get_type ()); CAMEL_STREAM_BUFFER_CLASS (GTK_OBJECT(sbf)->klass)->init_vbuf (sbf, stream, mode, buf, size); return CAMEL_STREAM (sbf); } /** * _read: read bytes from a stream * @stream: stream * @buffer: buffer where bytes are stored * @n: max number of bytes to read * * * * Return value: number of bytes actually read. **/ static gint _read (CamelStream *stream, gchar *buffer, gint n) { CamelStreamBuffer *sbf = CAMEL_STREAM_BUFFER (stream); int bytes_read=1; int bytes_left; gchar *bptr = buffer; g_return_val_if_fail( (sbf->mode & CAMEL_STREAM_BUFFER_MODE) == CAMEL_STREAM_BUFFER_READ, 0); while (n && bytes_read>0) { bytes_left = sbf->end - sbf->ptr; if (bytes_left0) { memcpy(bptr, sbf->ptr, bytes_left); n -= bytes_left; bptr += bytes_left; sbf->ptr += bytes_left; } /* if we are reading a lot, then read directly to the destination buffer */ if (n >= sbf->size/3) { bytes_read = camel_stream_read(sbf->stream, bptr, n); if (bytes_read>0) { n -= bytes_read; bptr += bytes_read; } } else { bytes_read = camel_stream_read(sbf->stream, sbf->buf, sbf->size); if (bytes_read>0) { sbf->ptr = sbf->buf; sbf->end = sbf->buf+bytes_read; memcpy(bptr, sbf->ptr, n); sbf->ptr += n; bptr += n; n -= bytes_read; } } } else { memcpy(bptr, sbf->ptr, bytes_left); sbf->ptr += n; bptr += n; n = 0; } } return bptr-buffer; } static gint _write (CamelStream *stream, const gchar *buffer, gint n) { CamelStreamBuffer *sbf = CAMEL_STREAM_BUFFER (stream); const gchar *bptr = buffer; int bytes_written = 1; int bytes_left; g_return_val_if_fail( (sbf->mode & CAMEL_STREAM_BUFFER_MODE) == CAMEL_STREAM_BUFFER_WRITE, 0); while (n && bytes_written > 0) { bytes_left = sbf->size - (sbf->ptr-sbf->buf); if (bytes_leftptr, bptr, bytes_left); n -= bytes_left; bptr += bytes_left; bytes_written = camel_stream_write(sbf->stream, sbf->buf, sbf->size); sbf->ptr = sbf->buf; /* if we are writing a lot, write directly to the stream */ if (n >= sbf->size/3) { bytes_written = camel_stream_write(sbf->stream, bptr, n); bytes_written = n; n -= bytes_written; bptr += bytes_written; } else { memcpy(sbf->ptr, bptr, n); sbf->ptr += n; bptr += n; n = 0; } } else { memcpy(sbf->ptr, bptr, n); sbf->ptr += n; bptr += n; n = 0; } } return 0; } static void _flush (CamelStream *stream) { CamelStreamBuffer *sbf = CAMEL_STREAM_BUFFER (stream); if ((sbf->mode & CAMEL_STREAM_BUFFER_MODE) == CAMEL_STREAM_BUFFER_WRITE) { int written = camel_stream_write(sbf->stream, sbf->buf, sbf->ptr-sbf->buf); if (written > 0) { sbf->ptr += written; } } else { /* nothing to do for read mode 'flush' */ } camel_stream_flush(sbf->stream); } static gint _available (CamelStream *stream) { /* unimplemented */ return 0; } static gboolean _eos (CamelStream *stream) { CamelStreamBuffer *sbf = CAMEL_STREAM_BUFFER (stream); return camel_stream_eos(sbf->stream); } static void _close (CamelStream *stream) { CamelStreamBuffer *sbf = CAMEL_STREAM_BUFFER (stream); _flush(stream); camel_stream_close(sbf->stream); } /** * camel_stream_buffer_gets: * @sbf: A CamelStreamBuffer. * @buf: Memory to write the string to. * @max: Maxmimum number of characters to store. * * Read a line of characters up to the next newline character or * @max characters. * * If the newline character is encountered, then it will be * included in the buffer @buf. The buffer will be #NUL terminated. * * Return value: The number of characters read, or 0 for end of file or * file error. **/ int camel_stream_buffer_gets(CamelStreamBuffer *sbf, char *buf, int max) { register char *outptr, *inptr, *inend, c, *outend; int bytes_read; outptr = buf; inptr = sbf->ptr; inend = sbf->end; outend = buf+max-1; /* room for NUL */ do { while (inptrptr = inptr; return outptr-buf; } } if (outptr == outend) break; bytes_read = camel_stream_read(sbf->stream, sbf->buf, sbf->size); if (bytes_read>0) { inptr = sbf->ptr = sbf->buf; inend = sbf->end = sbf->buf + bytes_read; } } while (bytes_read>0); sbf->ptr = inptr; if (outptr<=outend) *outptr = 0; return outptr-buf; } /** * camel_stream_buffer_read_line: read a complete line from the stream * @sbf: A CamelStreamBuffer * * This function reads a complete newline-terminated line from the stream * and returns it in allocated memory. The trailing newline (and carriage * return if any) are not included in the returned string. * * Return value: the line read, which the caller must free when done with, * or NULL on eof or error. **/ char * camel_stream_buffer_read_line (CamelStreamBuffer *sbf) { char *buf, *p; int bufsiz, nread; bufsiz = 80; p = buf = g_malloc (bufsiz); while (1) { nread = camel_stream_buffer_gets (sbf, p, bufsiz - (p - buf)); if (nread == 0) { g_free (buf); return NULL; } p += nread; if (*(p - 1) == '\n') break; nread = p - buf; bufsiz *= 2; buf = g_realloc (buf, bufsiz); p = buf + nread; } *--p = '\0'; if (*(p - 1) == '\r') *--p = '\0'; return buf; }