fltstream.c
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/* GNU Mailutils -- a suite of utilities for electronic mail
Copyright (C) 2009-2012 Free Software Foundation, Inc.
This library is free software; you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
This library 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 Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License
along with GNU Mailutils. If not, see <http://www.gnu.org/licenses/>. */
#ifdef HAVE_CONFIG_H
# include <config.h>
#endif
#include <stdlib.h>
#include <string.h>
#include <mailutils/types.h>
#include <mailutils/alloc.h>
#include <mailutils/error.h>
#include <mailutils/errno.h>
#include <mailutils/nls.h>
#include <mailutils/stream.h>
#include <mailutils/sys/filter.h>
#define MFB_BASE(buf) ((buf).base)
#define MFB_CURPTR(buf) ((buf).base + (buf).pos)
#define MFB_ENDPTR(buf) ((buf).base + (buf).level)
#define MFB_SIZE(buf) ((buf).size)
#define MFB_LEVEL(buf) ((buf).level)
#define MFB_POS(buf) ((buf).pos)
#define MFB_RDBYTES(buf) \
(MFB_LEVEL (buf) - MFB_POS (buf))
#define MFB_FREESIZE(buf) \
(MFB_SIZE (buf) - MFB_LEVEL (buf))
#define MBF_CLEAR(buf) ((buf).pos = (buf).level = 0)
#define MBF_FREE(buf) free ((buf).base)
static void
init_iobuf (struct mu_filter_io *io, struct _mu_filter_stream *fs)
{
io->input = MFB_CURPTR (fs->inbuf);
io->isize = MFB_RDBYTES (fs->inbuf);
io->output = MFB_ENDPTR (fs->outbuf);
io->osize = MFB_FREESIZE (fs->outbuf);
io->errcode = MU_ERR_FAILURE;
io->eof = 0;
}
static int
filter_stream_init (struct _mu_filter_stream *fs)
{
if (fs->xdata)
{
struct mu_filter_io iobuf;
memset (&iobuf, 0, sizeof (iobuf));
iobuf.errcode = MU_ERR_FAILURE;
if (fs->xcode (fs->xdata, mu_filter_init, &iobuf) == mu_filter_failure)
return iobuf.errcode;
}
return 0;
}
static int
MFB_require (struct _mu_filter_buffer *buf, size_t size)
{
if (size > MFB_FREESIZE (*buf))
{
/* Compact the buffer */
if (MFB_POS (*buf))
{
memmove (MFB_BASE (*buf), MFB_CURPTR (*buf), MFB_RDBYTES (*buf));
buf->level -= buf->pos;
buf->pos = 0;
}
if (size > MFB_FREESIZE (*buf))
{
char *p;
size += MFB_LEVEL (*buf);
p = realloc (buf->base, size);
if (!p)
return ENOMEM;
buf->size = size;
buf->base = p;
}
}
return 0;
}
static void
MFB_advance_pos (struct _mu_filter_buffer *buf, size_t delta)
{
buf->pos += delta;
if (buf->pos == buf->level)
buf->pos = buf->level = 0;
}
static void
MFB_advance_level (struct _mu_filter_buffer *buf, size_t delta)
{
buf->level += delta;
}
static int
filter_read (mu_stream_t stream, char *buf, size_t size, size_t *pret)
{
struct _mu_filter_stream *fs = (struct _mu_filter_stream *)stream;
struct mu_filter_io iobuf;
size_t min_input_level = MU_FILTER_BUF_SIZE;
size_t min_output_size = MU_FILTER_BUF_SIZE;
enum mu_filter_command cmd = mu_filter_xcode;
size_t total = 0;
int stop = 0;
int again = 0;
if (fs->fltflag & _MU_FILTER_DISABLED)
return mu_stream_read (fs->transport, buf, size, pret);
do
{
size_t rdsize;
if (MFB_RDBYTES (fs->outbuf) == 0)
{
enum mu_filter_result res;
int rc;
if (fs->fltflag & _MU_FILTER_EOF)
break;
if (MFB_RDBYTES (fs->inbuf) < min_input_level && !again)
{
rc = MFB_require (&fs->inbuf, min_input_level);
if (rc)
return rc;
rc = mu_stream_read (fs->transport,
MFB_ENDPTR (fs->inbuf),
MFB_FREESIZE (fs->inbuf),
&rdsize);
if (rc)
return rc;
if (rdsize == 0 &&
MFB_RDBYTES (fs->outbuf) == 0 &&
MFB_RDBYTES (fs->inbuf) == 0)
cmd = mu_filter_lastbuf;
MFB_advance_level (&fs->inbuf, rdsize);
}
if (min_output_size < MFB_RDBYTES (fs->inbuf))
min_output_size = MFB_RDBYTES (fs->inbuf);
rc = MFB_require (&fs->outbuf, min_output_size);
if (rc)
return rc;
init_iobuf (&iobuf, fs);
if (cmd != mu_filter_lastbuf)
cmd = mu_stream_eof (fs->transport) ?
mu_filter_lastbuf : mu_filter_xcode;
res = fs->xcode (fs->xdata, cmd, &iobuf);
switch (res)
{
case mu_filter_again:
if (++again > MU_FILTER_MAX_AGAIN)
{
/* FIXME: What filter? Need some id. */
mu_debug (MU_DEBCAT_FILTER, MU_DEBUG_ERROR,
(_("filter returned `again' too many times")));
again = 0;
}
break;
case mu_filter_ok:
break;
case mu_filter_failure:
return iobuf.errcode;
case mu_filter_moreinput:
if (cmd == mu_filter_lastbuf)
return MU_ERR_FAILURE;
min_input_level = iobuf.isize;
continue;
case mu_filter_moreoutput:
min_output_size = iobuf.osize;
continue;
}
if (iobuf.isize > MFB_RDBYTES (fs->inbuf)
|| iobuf.osize > MFB_FREESIZE (fs->outbuf))
return MU_ERR_BUFSPACE;
/* iobuf.osize contains number of bytes written to output */
MFB_advance_level (&fs->outbuf, iobuf.osize);
/* iobuf.isize contains number of bytes read from input */
MFB_advance_pos (&fs->inbuf, iobuf.isize);
if (res == mu_filter_ok)
{
if (iobuf.eof)
{
fs->fltflag |= _MU_FILTER_EOF;
stop = 1;
}
else if (cmd == mu_filter_lastbuf)
{
if (MFB_RDBYTES (fs->inbuf))
{
/* If xcoder has not consumed all input, try again */
if (++again > MU_FILTER_MAX_AGAIN)
{
/* FIXME: What filter? Need some id. */
mu_debug (MU_DEBCAT_FILTER, MU_DEBUG_ERROR,
(_("filter returned `again' too many times")));
stop = 1;
}
}
else
{
fs->fltflag |= _MU_FILTER_EOF;
stop = 1;
}
}
else
again = 0;
}
}
rdsize = size - total;
if (rdsize > MFB_RDBYTES (fs->outbuf))
rdsize = MFB_RDBYTES (fs->outbuf);
memcpy (buf + total, MFB_CURPTR (fs->outbuf), rdsize);
MFB_advance_pos (&fs->outbuf, rdsize);
total += rdsize;
}
while (!stop && total < size);
*pret = total;
return 0;
}
static int
filter_rd_flush (mu_stream_t stream)
{
struct _mu_filter_stream *fs = (struct _mu_filter_stream *)stream;
return filter_stream_init (fs);
}
static int
filter_write_internal (mu_stream_t stream, enum mu_filter_command cmd,
const char *buf, size_t size, size_t *pret)
{
struct _mu_filter_stream *fs = (struct _mu_filter_stream *)stream;
struct mu_filter_io iobuf;
size_t min_input_level = cmd == mu_filter_xcode ? MU_FILTER_BUF_SIZE : 0;
size_t min_output_size = MU_FILTER_BUF_SIZE;
size_t total = 0;
int rc = 0;
int again;
int stop = 0;
do
{
size_t rdsize;
enum mu_filter_result res;
if (MFB_RDBYTES (fs->inbuf) < min_input_level)
{
rdsize = size - total;
if (rdsize == 0)
break;
rc = MFB_require (&fs->inbuf, min_input_level);
if (rc)
break;
if (rdsize > MFB_FREESIZE (fs->inbuf))
rdsize = MFB_FREESIZE (fs->inbuf);
memcpy (MFB_ENDPTR (fs->inbuf), buf + total, rdsize);
MFB_advance_level (&fs->inbuf, rdsize);
total += rdsize;
}
if (min_output_size < MFB_RDBYTES (fs->inbuf))
min_output_size = MFB_RDBYTES (fs->inbuf);
rc = MFB_require (&fs->outbuf, min_output_size);
if (rc)
return rc;
init_iobuf (&iobuf, fs);
res = fs->xcode (fs->xdata, cmd, &iobuf);
switch (res)
{
case mu_filter_again:
if (++again > MU_FILTER_MAX_AGAIN)
{
/* FIXME: What filter? Need some id. */
mu_debug (MU_DEBCAT_FILTER, MU_DEBUG_ERROR,
(_("filter returned `again' too many times")));
again = 0;
}
break;
case mu_filter_ok:
again = 0;
if (cmd == mu_filter_lastbuf || iobuf.eof)
{
_mu_stream_seteof (stream);
stop = 1;
}
break;
case mu_filter_failure:
return iobuf.errcode;
case mu_filter_moreinput:
min_input_level = iobuf.isize;
continue;
case mu_filter_moreoutput:
min_output_size = iobuf.osize;
continue;
}
if (iobuf.isize > MFB_RDBYTES (fs->inbuf)
|| iobuf.osize > MFB_FREESIZE (fs->outbuf))
return MU_ERR_BUFSPACE;
/* iobuf.osize contains number of bytes written to output */
MFB_advance_level (&fs->outbuf, iobuf.osize);
/* iobuf.isize contains number of bytes read from input */
MFB_advance_pos (&fs->inbuf, iobuf.isize);
rc = mu_stream_write (fs->transport,
MFB_CURPTR (fs->outbuf),
MFB_RDBYTES (fs->outbuf),
&rdsize);
if (rc == 0)
MFB_advance_pos (&fs->outbuf, rdsize);
else
break;
}
while (!stop && (MFB_RDBYTES (fs->outbuf) || again));
if (pret)
*pret = total;
else if (total < size && rc == 0)
rc = MU_ERR_FAILURE;
return rc;
}
static int
filter_write (mu_stream_t stream, const char *buf, size_t size, size_t *pret)
{
struct _mu_filter_stream *fs = (struct _mu_filter_stream *)stream;
if (fs->fltflag & _MU_FILTER_DISABLED)
return mu_stream_write (fs->transport, buf, size, pret);
return filter_write_internal (stream, mu_filter_xcode, buf, size, pret);
}
static int
filter_wr_flush (mu_stream_t stream)
{
struct _mu_filter_stream *fs = (struct _mu_filter_stream *)stream;
size_t dummy;
int rc = filter_write_internal (stream, mu_filter_flush, NULL, 0, &dummy);
if (rc == 0)
rc = mu_stream_flush (fs->transport);
return rc;
}
static int
filter_seek (struct _mu_stream *stream, mu_off_t off, mu_off_t *ppos)
{
struct _mu_filter_stream *fs = (struct _mu_filter_stream *)stream;
int status;
status = mu_stream_seek (fs->transport, 0, MU_SEEK_SET, NULL);
if (status)
return status;
stream->offset = 0;
return mu_stream_skip_input_bytes (stream, off, ppos);
}
static int
filter_ctl (struct _mu_stream *stream, int code, int opcode, void *ptr)
{
struct _mu_filter_stream *fs = (struct _mu_filter_stream *)stream;
switch (code)
{
case MU_IOCTL_FILTER:
switch (opcode)
{
case MU_IOCTL_FILTER_SET_DISABLED:
if (ptr && *(int*)ptr)
fs->fltflag |= _MU_FILTER_DISABLED;
else
fs->fltflag &= ~_MU_FILTER_DISABLED;
break;
case MU_IOCTL_FILTER_GET_DISABLED:
if (!ptr)
return EINVAL;
*(int*)ptr = fs->fltflag & _MU_FILTER_DISABLED;
break;
default:
return ENOSYS;
}
break;
case MU_IOCTL_TRANSPORT:
switch (opcode)
{
case MU_IOCTL_OP_GET:
if (!ptr)
return EINVAL;
else
{
mu_transport_t *ptrans = ptr;
ptrans[0] = (mu_transport_t) fs->transport;
ptrans[1] = NULL;
}
break;
default:
return ENOSYS;
}
break;
default:
return mu_stream_ioctl (fs->transport, code, opcode, ptr);
}
return 0;
}
static int
filter_shutdown (struct _mu_stream *str, int how)
{
struct _mu_filter_stream *fs = (struct _mu_filter_stream *)str;
return mu_stream_shutdown (fs->transport, how);
}
static const char *
filter_error_string (struct _mu_stream *stream, int rc)
{
struct _mu_filter_stream *fs = (struct _mu_filter_stream *)stream;
const char *p = mu_stream_strerror (fs->transport, rc);
if (!p)
p = mu_strerror (rc);
return p;
}
static void
filter_done (mu_stream_t stream)
{
struct _mu_filter_stream *fs = (struct _mu_filter_stream *)stream;
MBF_FREE (fs->inbuf);
MBF_FREE (fs->outbuf);
if (fs->xdata)
{
fs->xcode (fs->xdata, mu_filter_done, NULL);
free (fs->xdata);
}
mu_stream_destroy (&fs->transport);
}
static int
filter_wr_close (mu_stream_t stream)
{
struct _mu_filter_stream *fs = (struct _mu_filter_stream *)stream;
if (!mu_stream_eof (stream) && !(fs->fltflag & _MU_FILTER_EOF))
{
size_t dummy;
int rc = filter_write_internal (stream, mu_filter_lastbuf, NULL, 0,
&dummy);
if (rc)
return rc;
}
MBF_CLEAR (fs->inbuf);
MBF_CLEAR (fs->outbuf);
return mu_stream_close (fs->transport);
}
static int
filter_rd_close (mu_stream_t stream)
{
struct _mu_filter_stream *fs = (struct _mu_filter_stream *)stream;
MBF_CLEAR (fs->inbuf);
MBF_CLEAR (fs->outbuf);
return mu_stream_close (fs->transport);
}
static int
filter_read_through (struct _mu_stream *stream,
char *buf, size_t bufsize,
size_t *pnread)
{
struct _mu_filter_stream *fs = (struct _mu_filter_stream *)stream;
return mu_stream_read (fs->transport, buf, bufsize, pnread);
}
static int
filter_write_through (struct _mu_stream *stream,
const char *buf, size_t bufsize,
size_t *pnwrite)
{
struct _mu_filter_stream *fs = (struct _mu_filter_stream *)stream;
return mu_stream_write (fs->transport, buf, bufsize, pnwrite);
}
static int
filter_wait (struct _mu_stream *stream, int *pflags, struct timeval *tvp)
{
struct _mu_filter_stream *fs = (struct _mu_filter_stream *)stream;
/* FIXME: Take into account internal buffer state. */
return mu_stream_wait (fs->transport, pflags, tvp);
}
int
mu_filter_stream_create (mu_stream_t *pflt,
mu_stream_t str,
int mode,
mu_filter_xcode_t xcode,
void *xdata, int flags)
{
int rc;
struct _mu_filter_stream *fs;
if ((flags & MU_STREAM_RDWR) == MU_STREAM_RDWR
|| !(flags & MU_STREAM_RDWR)
|| (flags & (MU_STREAM_WRITE|MU_STREAM_SEEK)) ==
(MU_STREAM_WRITE|MU_STREAM_SEEK)
|| (flags & (MU_STREAM_RDTHRU|MU_STREAM_WRTHRU)) ==
(MU_STREAM_RDTHRU|MU_STREAM_WRTHRU)
|| (flags & (MU_STREAM_READ|MU_STREAM_RDTHRU)) ==
(MU_STREAM_READ|MU_STREAM_RDTHRU)
|| (flags & (MU_STREAM_WRITE|MU_STREAM_WRTHRU)) ==
(MU_STREAM_WRITE|MU_STREAM_WRTHRU))
return EINVAL;
fs = (struct _mu_filter_stream *) _mu_stream_create (sizeof (*fs), flags);
if (!fs)
return ENOMEM;
flags |= _MU_STR_OPEN;
if (flags & MU_STREAM_READ)
{
fs->stream.read = filter_read;
fs->stream.flush = filter_rd_flush;
fs->stream.close = filter_rd_close;
if (flags & MU_STREAM_WRTHRU)
{
flags |= MU_STREAM_WRITE;
fs->stream.write = filter_write_through;
}
}
else
{
fs->stream.write = filter_write;
fs->stream.flush = filter_wr_flush;
fs->stream.close = filter_wr_close;
if (flags & MU_STREAM_RDTHRU)
{
flags |= MU_STREAM_READ;
fs->stream.read = filter_read_through;
}
}
fs->stream.done = filter_done;
if (flags & MU_STREAM_SEEK)
fs->stream.seek = filter_seek;
fs->stream.shutdown = filter_shutdown;
fs->stream.ctl = filter_ctl;
fs->stream.wait = filter_wait;
fs->stream.error_string = filter_error_string;
fs->stream.flags = flags;
mu_stream_ref (str);
fs->transport = str;
fs->xcode = xcode;
fs->xdata = xdata;
fs->mode = mode;
fs->fltflag = 0;
mu_stream_set_buffer ((mu_stream_t) fs, mu_buffer_full,
MU_FILTER_BUF_SIZE);
rc = filter_stream_init (fs);
if (rc)
{
free (fs);
return rc;
}
*pflt = (mu_stream_t) fs;
return 0;
}