mirror of
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6aff8a1328
* common/util.h (EXTERN_UNLESS_MAIN_MODULE): Add the definion only
here but now without the Norcroft-C. Change all other places where it
gets defined.
* common/iobuf.h (iobuf_debug_mode): Declare unconditionally as
extern.
* common/iobuf.c (iobuf_debug_mode): Define it here.
* agent/gpg-agent.c (INCLUDED_BY_MAIN_MODULE): Define here and also in
all main modules of all other programs.
* g10/main.h: Put util.h before the local header files.
--
This change is required for use with gcc/ld's LTO feature which does
not allow common blocks. Further gcc 10 will make -fno-common the
default and thus this chnage is always needed. What a pitty.
Co-authored-by: Tomáš Mráz
GnuPG-bug-id: 4831
Signed-off-by: Werner Koch <wk@gnupg.org>
(cherry picked from commit 21d9bd8b87
)
- Applied respective chnages also to gpg-card and keyboxd.
Signed-off-by: Werner Koch <wk@gnupg.org>
624 lines
26 KiB
C
624 lines
26 KiB
C
/* iobuf.h - I/O buffer
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* Copyright (C) 1998, 1999, 2000, 2001, 2003,
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* 2010 Free Software Foundation, Inc.
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*
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* This file is part of GnuPG.
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*
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* This file is free software; you can redistribute it and/or modify
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* it under the terms of either
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*
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* - the GNU Lesser General Public License as published by the Free
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* Software Foundation; either version 3 of the License, or (at
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* your option) any later version.
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*
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* or
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*
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* - the GNU General Public License as published by the Free
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* Software Foundation; either version 2 of the License, or (at
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* your option) any later version.
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*
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* or both in parallel, as here.
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*
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* This file is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, see <https://www.gnu.org/licenses/>.
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*/
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#ifndef GNUPG_COMMON_IOBUF_H
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#define GNUPG_COMMON_IOBUF_H
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/* An iobuf is basically a filter in a pipeline.
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Consider the following command, which consists of three filters
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that are chained together:
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$ cat file | base64 --decode | gunzip
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The first filter reads the file from the file system and sends that
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data to the second filter. The second filter decodes
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base64-encoded data and sends the data to the third and last
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filter. The last filter decompresses the data and the result is
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displayed on the terminal. The iobuf system works in the same way
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where each iobuf is a filter and the individual iobufs can be
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chained together.
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There are number of predefined filters. iobuf_open(), for
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instance, creates a filter that reads from a specified file. And,
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iobuf_temp_with_content() creates a filter that returns some
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specified contents. There are also filters for writing content.
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iobuf_openrw opens a file for writing. iobuf_temp creates a filter
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that writes data to a fixed-sized buffer.
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To chain filters together, you use the iobuf_push_filter()
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function. The filters are chained together using the chain field
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in the iobuf_t.
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A pipeline can only be used for reading (IOBUF_INPUT) or for
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writing (IOBUF_OUTPUT / IOBUF_OUTPUT_TEMP). When reading, data
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flows from the last filter towards the first. That is, the user
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calls iobuf_read(), the module reads from the first filter, which
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gets its input from the second filter, etc. When writing, data
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flows from the first filter towards the last. In this case, when
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the user calls iobuf_write(), the data is written to the first
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filter, which writes the transformed data to the second filter,
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etc.
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An iobuf_t contains some state about the filter. For instance, it
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indicates if the filter has already returned EOF (filter_eof) and
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the next filter in the pipeline, if any (chain). It also contains
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a function pointer, filter. This is a generic function. It is
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called when input is needed or output is available. In this case
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it is passed a pointer to some filter-specific persistent state
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(filter_ov), the actual operation, the next filter in the chain, if
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any, and a buffer that either contains the contents to write, if
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the pipeline is setup to write data, or is the place to store data,
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if the pipeline is setup to read data.
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Unlike a Unix pipeline, an IOBUF pipeline can return EOF multiple
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times. This is similar to the following:
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{ cat file1; cat file2; } | grep foo
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However, instead of grep seeing a single stream, grep would see
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each byte stream followed by an EOF marker. (When a filter returns
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EOF, the EOF is returned to the user exactly once and then the
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filter is removed from the pipeline.) */
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/* For estream_t. */
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#include <gpg-error.h>
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#include "../common/types.h"
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#include "../common/sysutils.h"
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#define DBG_IOBUF iobuf_debug_mode
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/* Filter control modes. */
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enum
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{
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IOBUFCTRL_INIT = 1,
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IOBUFCTRL_FREE = 2,
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IOBUFCTRL_UNDERFLOW = 3,
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IOBUFCTRL_FLUSH = 4,
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IOBUFCTRL_DESC = 5,
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IOBUFCTRL_CANCEL = 6,
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IOBUFCTRL_USER = 16
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};
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/* Command codes for iobuf_ioctl. */
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typedef enum
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{
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IOBUF_IOCTL_KEEP_OPEN = 1, /* Uses intval. */
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IOBUF_IOCTL_INVALIDATE_CACHE = 2, /* Uses ptrval. */
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IOBUF_IOCTL_NO_CACHE = 3, /* Uses intval. */
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IOBUF_IOCTL_FSYNC = 4 /* Uses ptrval. */
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} iobuf_ioctl_t;
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enum iobuf_use
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{
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/* Pipeline is in input mode. The data flows from the end to the
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beginning. That is, when reading from the pipeline, the first
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filter gets its input from the second filter, etc. */
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IOBUF_INPUT,
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/* Pipeline is in input mode. The last filter in the pipeline is
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a temporary buffer from which the data is "read". */
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IOBUF_INPUT_TEMP,
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/* Pipeline is in output mode. The data flows from the beginning
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to the end. That is, when writing to the pipeline, the user
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writes to the first filter, which transforms the data and sends
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it to the second filter, etc. */
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IOBUF_OUTPUT,
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/* Pipeline is in output mode. The last filter in the pipeline is
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a temporary buffer that grows as necessary. */
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IOBUF_OUTPUT_TEMP
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};
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typedef struct iobuf_struct *iobuf_t;
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typedef struct iobuf_struct *IOBUF; /* Compatibility with gpg 1.4. */
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/* fixme: we should hide most of this stuff */
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struct iobuf_struct
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{
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/* The type of filter. Either IOBUF_INPUT, IOBUF_OUTPUT or
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IOBUF_OUTPUT_TEMP. */
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enum iobuf_use use;
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/* nlimit can be changed using iobuf_set_limit. If non-zero, it is
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the number of additional bytes that can be read from the filter
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before EOF is forcefully returned. */
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off_t nlimit;
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/* nbytes if the number of bytes that have been read (using
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iobuf_get / iobuf_readbyte / iobuf_read) since the last call to
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iobuf_set_limit. */
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off_t nbytes;
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/* The number of bytes read prior to the last call to
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iobuf_set_limit. Thus, the total bytes read (i.e., the position
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of stream) is ntotal + nbytes. */
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off_t ntotal;
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/* Whether we need to read from the filter one byte at a time or
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whether we can do bulk reads. We need to read one byte at a time
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if a limit (set via iobuf_set_limit) is active. */
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int nofast;
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/* A buffer for unread/unwritten data.
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For an output pipeline (IOBUF_OUTPUT), this is the data that has
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not yet been written to the filter. Consider a simple pipeline
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consisting of a single stage, which writes to a file. When you
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write to the pipeline (iobuf_writebyte or iobuf_write), the data
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is first stored in this buffer. Only when the buffer is full or
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you call iobuf_flush() is FILTER actually called and the data
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written to the file.
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For an input pipeline (IOBUF_INPUT), this is the data that has
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been read from this filter, but not yet been read from the
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preceding filter (or the user, if this filter is the head of the
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pipeline). Again, consider a simple pipeline consisting of a
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single stage. This stage reads from a file. If you read a
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single byte (iobuf_get) and the buffer is empty, then FILTER is
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called to fill the buffer. In this case, a single byte is not
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requested, but the whole buffer is filled (if possible). */
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struct
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{
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/* Size of the buffer. */
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size_t size;
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/* Number of bytes at the beginning of the buffer that have
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already been consumed. (In other words: the index of the first
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byte that hasn't been consumed.) This is only non-zero for
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input filters. */
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size_t start;
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/* The number of bytes in the buffer including any bytes that have
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been consumed. */
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size_t len;
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/* The buffer itself. */
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byte *buf;
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} d;
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/* When FILTER is called to read some data, it may read some data
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and then return EOF. We can't return the EOF immediately.
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Instead, we note that we observed the EOF and when the buffer is
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finally empty, we return the EOF. */
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int filter_eof;
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/* Like filter_eof, when FILTER is called to read some data, it may
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read some data and then return an error. We can't return the
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error (in the form of an EOF) immediately. Instead, we note that
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we observed the error and when the buffer is finally empty, we
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return the EOF. */
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int error;
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/* The callback function to read data from the filter, etc. See
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iobuf_filter_push for details. */
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int (*filter) (void *opaque, int control,
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iobuf_t chain, byte * buf, size_t * len);
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/* An opaque pointer that can be used for local filter state. This
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is passed as the first parameter to FILTER. */
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void *filter_ov;
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/* Whether the iobuf code should free(filter_ov) when destroying the
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filter. */
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int filter_ov_owner;
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/* When using iobuf_open, iobuf_create, iobuf_openrw to open a file,
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the file's name is saved here. This is used to delete the file
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when an output pipeline (IOBUF_OUPUT) is canceled
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(iobuf_cancel). */
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char *real_fname;
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/* The next filter in the pipeline. */
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iobuf_t chain;
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/* This field is for debugging. Each time a filter is allocated
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(via iobuf_alloc()), a monotonically increasing counter is
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incremented and this field is set to the new value. This field
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should only be accessed via the iobuf_io macro. */
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int no;
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/* The number of filters in the pipeline following (not including)
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this one. When you call iobuf_push_filter or iobuf_push_filter2,
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this value is used to check the length of the pipeline if the
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pipeline already contains 65 stages then these functions fail.
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This amount of nesting typically indicates corrupted data or an
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active denial of service attack. */
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int subno;
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};
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extern int iobuf_debug_mode;
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/* Change the default size for all IOBUFs to KILOBYTE. This needs to
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* be called before any iobufs are used and can only be used once.
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* Returns the current value. Using 0 has no effect except for
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* returning the current value. */
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unsigned int iobuf_set_buffer_size (unsigned int kilobyte);
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/* Returns whether the specified filename corresponds to a pipe. In
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particular, this function checks if FNAME is "-" and, if special
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filenames are enabled (see check_special_filename), whether
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FNAME is a special filename. */
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int iobuf_is_pipe_filename (const char *fname);
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/* Allocate a new filter. This filter doesn't have a function
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assigned to it. Thus you need to manually set IOBUF->FILTER and
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IOBUF->FILTER_OV, if required. This function is intended to help
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create a new primary source or primary sink, i.e., the last filter
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in the pipeline.
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USE is IOBUF_INPUT, IOBUF_INPUT_TEMP, IOBUF_OUTPUT or
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IOBUF_OUTPUT_TEMP.
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BUFSIZE is the desired internal buffer size (that is, the size of
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the typical read / write request). */
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iobuf_t iobuf_alloc (int use, size_t bufsize);
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/* Create an output filter that simply buffers data written to it.
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This is useful for collecting data for later processing. The
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buffer can be written to in the usual way (iobuf_write, etc.). The
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data can later be extracted using iobuf_write_temp() or
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iobuf_temp_to_buffer(). */
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iobuf_t iobuf_temp (void);
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/* Create an input filter that contains some data for reading. */
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iobuf_t iobuf_temp_with_content (const char *buffer, size_t length);
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/* Create an input file filter that reads from a file. If FNAME is
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'-', reads from stdin. If special filenames are enabled
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(iobuf_enable_special_filenames), then interprets special
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filenames. */
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iobuf_t iobuf_open (const char *fname);
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/* Create an output file filter that writes to a file. If FNAME is
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NULL or '-', writes to stdout. If special filenames are enabled
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(iobuf_enable_special_filenames), then interprets special
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filenames. If FNAME is not NULL, '-' or a special filename, the
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file is opened for writing. If the file exists, it is truncated.
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If MODE700 is TRUE, the file is created with mode 600. Otherwise,
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mode 666 is used. */
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iobuf_t iobuf_create (const char *fname, int mode700);
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/* Create an output file filter that writes to a specified file.
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Neither '-' nor special file names are recognized. */
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iobuf_t iobuf_openrw (const char *fname);
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/* Create a file filter using an existing file descriptor. If MODE
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contains the letter 'w', creates an output filter. Otherwise,
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creates an input filter. Note: MODE must reflect the file
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descriptors actual mode! When the filter is destroyed, the file
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descriptor is closed. */
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iobuf_t iobuf_fdopen (int fd, const char *mode);
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/* Like iobuf_fdopen, but doesn't close the file descriptor when the
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filter is destroyed. */
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iobuf_t iobuf_fdopen_nc (int fd, const char *mode);
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/* Create a filter using an existing estream. If MODE contains the
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letter 'w', creates an output filter. Otherwise, creates an input
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filter. If KEEP_OPEN is TRUE, then the stream is not closed when
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the filter is destroyed. Otherwise, the stream is closed when the
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filter is destroyed. If READLIMIT is not 0 this gives a limit on
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the number of bytes to read from estream. */
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iobuf_t iobuf_esopen (estream_t estream, const char *mode, int keep_open,
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size_t readlimit);
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/* Create a filter using an existing socket. On Windows creates a
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special socket filter. On non-Windows systems simply, this simply
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calls iobuf_fdopen. */
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iobuf_t iobuf_sockopen (int fd, const char *mode);
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/* Set various options / perform different actions on a PIPELINE. See
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the IOBUF_IOCTL_* macros above. */
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int iobuf_ioctl (iobuf_t a, iobuf_ioctl_t cmd, int intval, void *ptrval);
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/* Close a pipeline. The filters in the pipeline are first flushed
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using iobuf_flush, if they are output filters, and then
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IOBUFCTRL_FREE is called on each filter.
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If any filter returns a non-zero value in response to the
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IOBUFCTRL_FREE, that first such non-zero value is returned. Note:
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processing is not aborted in this case. If all filters are freed
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successfully, 0 is returned. */
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int iobuf_close (iobuf_t iobuf);
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/* Calls IOBUFCTRL_CANCEL on each filter in the pipeline. Then calls
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io_close() on the pipeline. Finally, if the pipeline is an output
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pipeline, deletes the file. Returns the result of calling
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iobuf_close on the pipeline. */
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int iobuf_cancel (iobuf_t iobuf);
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/* Add a new filter to the front of a pipeline. A is the head of the
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pipeline. F is the filter implementation. OV is an opaque pointer
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that is passed to F and is normally used to hold any internal
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state, such as a file pointer.
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Note: you may only maintain a reference to an iobuf_t as a
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reference to the head of the pipeline. That is, don't think about
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setting a pointer in OV to point to the filter's iobuf_t. This is
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because when we add a new filter to a pipeline, we memcpy the state
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in A into new buffer. This has the advantage that there is no need
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to update any references to the pipeline when a filter is added or
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removed, but it also means that a filter's state moves around in
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memory.
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The behavior of the filter function is determined by the value of
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the control parameter:
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IOBUFCTRL_INIT: Called this value just before the filter is
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linked into the pipeline. This can be used to initialize
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internal data structures.
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IOBUFCTRL_FREE: Called with this value just before the filter is
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removed from the pipeline. Normally used to release internal
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data structures, close a file handle, etc.
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IOBUFCTRL_UNDERFLOW: Called with this value to fill the passed
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buffer with more data. *LEN is the size of the buffer. Before
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returning, it should be set to the number of bytes which were
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written into the buffer. The function must return 0 to
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indicate success, -1 on EOF and a GPG_ERR_xxxxx code for any
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error.
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Note: this function may both return data and indicate an error
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or EOF. In this case, it simply writes the data to BUF, sets
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*LEN and returns the appropriate return code. The implication
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is that if an error occurs and no data has yet been written, it
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is essential that *LEN be set to 0!
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IOBUFCTRL_FLUSH: Called with this value to write out any
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collected data. *LEN is the number of bytes in BUF that need
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to be written out. Returns 0 on success and a GPG_ERR_* code
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otherwise. *LEN must be set to the number of bytes that were
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written out.
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IOBUFCTRL_CANCEL: Called with this value when iobuf_cancel() is
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called on the pipeline.
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IOBUFCTRL_DESC: Called with this value to get a human-readable
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description of the filter. *LEN is the size of the buffer.
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The description is filled into BUF, NUL-terminated. Always
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returns 0.
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*/
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int iobuf_push_filter (iobuf_t a, int (*f) (void *opaque, int control,
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iobuf_t chain, byte * buf,
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size_t * len), void *ov);
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/* This variant of iobuf_push_filter allows the called to indicate
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that OV should be freed when this filter is freed. That is, if
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REL_OV is TRUE, then when the filter is popped or freed OV will be
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freed after the filter function is called with control set to
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IOBUFCTRL_FREE. */
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int iobuf_push_filter2 (iobuf_t a,
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int (*f) (void *opaque, int control, iobuf_t chain,
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byte * buf, size_t * len), void *ov,
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int rel_ov);
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/* Pop the top filter. The top filter must have the filter function F
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and the cookie OV. The cookie check is ignored if OV is NULL. */
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int iobuf_pop_filter (iobuf_t a,
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int (*f) (void *opaque, int control,
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iobuf_t chain, byte * buf, size_t * len),
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void *ov);
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/* Used for debugging. Prints out the chain using log_debug if
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IOBUF_DEBUG_MODE is not 0. */
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int iobuf_print_chain (iobuf_t a);
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/* Indicate that some error occurred on the specified filter. */
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#define iobuf_set_error(a) do { (a)->error = 1; } while(0)
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/* Return any pending error on filter A. */
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#define iobuf_error(a) ((a)->error)
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/* Limit the amount of additional data that may be read from the
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filter. That is, if you've already read 100 bytes from A and you
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set the limit to 50, then you can read up to an additional 50 bytes
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(i.e., a total of 150 bytes) before EOF is forcefully returned.
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Setting NLIMIT to 0 removes any active limit.
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Note: using iobuf_seek removes any currently enforced limit! */
|
|
void iobuf_set_limit (iobuf_t a, off_t nlimit);
|
|
|
|
/* Returns the number of bytes that have been read from the pipeline.
|
|
Note: the result is undefined for IOBUF_OUTPUT and IOBUF_OUTPUT_TEMP
|
|
pipelines! */
|
|
off_t iobuf_tell (iobuf_t a);
|
|
|
|
/* There are two cases:
|
|
|
|
- If A is an INPUT or OUTPUT pipeline, then the last filter in the
|
|
pipeline is found. If that is not a file filter, -1 is returned.
|
|
Otherwise, an fseek(..., SEEK_SET) is performed on the file
|
|
descriptor.
|
|
|
|
- If A is a TEMP pipeline and the *first* (and thus only filter) is
|
|
a TEMP filter, then the "file position" is effectively unchanged.
|
|
That is, data is appended to the buffer and the seek does not
|
|
cause the size of the buffer to grow.
|
|
|
|
If no error occurred, then any limit previous set by
|
|
iobuf_set_limit() is cleared. Further, any error on the filter
|
|
(the file filter or the temp filter) is cleared.
|
|
|
|
Returns 0 on success and -1 if an error occurs. */
|
|
int iobuf_seek (iobuf_t a, off_t newpos);
|
|
|
|
/* Read a single byte. If a filter has no more data, returns -1 to
|
|
indicate the EOF. Generally, you don't want to use this function,
|
|
but instead prefer the iobuf_get macro, which is faster if there is
|
|
data in the internal buffer. */
|
|
int iobuf_readbyte (iobuf_t a);
|
|
|
|
/* Get a byte from the iobuf; must check for eof prior to this
|
|
function. This function returns values in the range 0 .. 255 or -1
|
|
to indicate EOF. iobuf_get_noeof() does not return -1 to indicate
|
|
EOF, but masks the returned value to be in the range 0 .. 255. */
|
|
#define iobuf_get(a) \
|
|
( ((a)->nofast || (a)->d.start >= (a)->d.len )? \
|
|
iobuf_readbyte((a)) : ( (a)->nbytes++, (a)->d.buf[(a)->d.start++] ) )
|
|
#define iobuf_get_noeof(a) (iobuf_get((a))&0xff)
|
|
|
|
/* Fill BUF with up to BUFLEN bytes. If a filter has no more data,
|
|
returns -1 to indicate the EOF. Otherwise returns the number of
|
|
bytes read. */
|
|
int iobuf_read (iobuf_t a, void *buf, unsigned buflen);
|
|
|
|
/* Read a line of input (including the '\n') from the pipeline.
|
|
|
|
The semantics are the same as for fgets(), but if the buffer is too
|
|
short a larger one will be allocated up to *MAX_LENGTH and the end
|
|
of the line except the trailing '\n' discarded. (Thus,
|
|
*ADDR_OF_BUFFER must be allocated using malloc().) If the buffer
|
|
is enlarged, then *LENGTH_OF_BUFFER will be updated to reflect the
|
|
new size. If the line is truncated, then *MAX_LENGTH will be set
|
|
to 0. If *ADDR_OF_BUFFER is NULL, a buffer is allocated using
|
|
malloc().
|
|
|
|
A line is considered a byte stream ending in a '\n'. Returns the
|
|
number of characters written to the buffer (i.e., excluding any
|
|
discarded characters due to truncation). Thus, use this instead of
|
|
strlen(buffer) to determine the length of the string as this is
|
|
unreliable if the input contains NUL characters.
|
|
|
|
EOF is indicated by a line of length zero.
|
|
|
|
The last LF may be missing due to an EOF. */
|
|
unsigned iobuf_read_line (iobuf_t a, byte ** addr_of_buffer,
|
|
unsigned *length_of_buffer, unsigned *max_length);
|
|
|
|
/* Read up to BUFLEN bytes from pipeline A. Note: this function can't
|
|
return more than the pipeline's internal buffer size. The return
|
|
value is the number of bytes actually written to BUF. If the
|
|
filter returns EOF, then this function returns -1.
|
|
|
|
This function does not clear any pending EOF. That is, if the
|
|
pipeline consists of two filters and the first one returns EOF
|
|
during the peek, then the subsequent iobuf_read* will still return
|
|
EOF before returning the data from the second filter. */
|
|
int iobuf_peek (iobuf_t a, byte * buf, unsigned buflen);
|
|
|
|
/* Write a byte to the pipeline. Returns 0 on success and an error
|
|
code otherwise. */
|
|
int iobuf_writebyte (iobuf_t a, unsigned c);
|
|
|
|
/* Alias for iobuf_writebyte. */
|
|
#define iobuf_put(a,c) iobuf_writebyte(a,c)
|
|
|
|
/* Write a sequence of bytes to the pipeline. Returns 0 on success
|
|
and an error code otherwise. */
|
|
int iobuf_write (iobuf_t a, const void *buf, unsigned buflen);
|
|
|
|
/* Write a string (not including the NUL terminator) to the pipeline.
|
|
Returns 0 on success and an error code otherwise. */
|
|
int iobuf_writestr (iobuf_t a, const char *buf);
|
|
|
|
/* Flushes the pipeline removing all filters but the sink (the last
|
|
filter) in the process. */
|
|
void iobuf_flush_temp (iobuf_t temp);
|
|
|
|
/* Flushes the pipeline SOURCE removing all filters but the sink (the
|
|
last filter) in the process (i.e., it calls
|
|
iobuf_flush_temp(source)) and then writes the data to the pipeline
|
|
DEST. Note: this doesn't free (iobuf_close()) SOURCE. Both SOURCE
|
|
and DEST must be output pipelines. */
|
|
int iobuf_write_temp (iobuf_t dest, iobuf_t source);
|
|
|
|
/* Flushes each filter in the pipeline (i.e., sends any buffered data
|
|
to the filter by calling IOBUFCTRL_FLUSH). Then, copies up to the
|
|
first BUFLEN bytes from the last filter's internal buffer (which
|
|
will only be non-empty if it is a temp filter) to the buffer
|
|
BUFFER. Returns the number of bytes actually copied. */
|
|
size_t iobuf_temp_to_buffer (iobuf_t a, byte * buffer, size_t buflen);
|
|
|
|
/* Copies the data from the input iobuf SOURCE to the output iobuf
|
|
DEST until either an error is encountered or EOF is reached.
|
|
Returns the number of bytes successfully written. If an error
|
|
occurred, then any buffered bytes are not returned to SOURCE and are
|
|
effectively lost. To check if an error occurred, use
|
|
iobuf_error. */
|
|
size_t iobuf_copy (iobuf_t dest, iobuf_t source);
|
|
|
|
/* Return the size of any underlying file. This only works with
|
|
file_filter based pipelines.
|
|
|
|
On Win32, it is sometimes not possible to determine the size of
|
|
files larger than 4GB. In this case, *OVERFLOW (if not NULL) is
|
|
set to 1. Otherwise, *OVERFLOW is set to 0. */
|
|
off_t iobuf_get_filelength (iobuf_t a, int *overflow);
|
|
#define IOBUF_FILELENGTH_LIMIT 0xffffffff
|
|
|
|
/* Return the file descriptor designating the underlying file. This
|
|
only works with file_filter based pipelines. */
|
|
int iobuf_get_fd (iobuf_t a);
|
|
|
|
/* Return the real filename, if available. This only supports
|
|
pipelines that end in file filters. Returns NULL if not
|
|
available. */
|
|
const char *iobuf_get_real_fname (iobuf_t a);
|
|
|
|
/* Return the filename or a description thereof. For instance, for
|
|
iobuf_open("-"), this will return "[stdin]". This only supports
|
|
pipelines that end in file filters. Returns NULL if not
|
|
available. */
|
|
const char *iobuf_get_fname (iobuf_t a);
|
|
|
|
/* Like iobuf_getfname, but instead of returning NULL if no
|
|
description is available, return "[?]". */
|
|
const char *iobuf_get_fname_nonnull (iobuf_t a);
|
|
|
|
/* Pushes a filter on the pipeline that interprets the datastream as
|
|
an OpenPGP data block whose length is encoded using partial body
|
|
length headers (see Section 4.2.2.4 of RFC 4880). Concretely, it
|
|
just returns / writes the data and finishes the packet with an
|
|
EOF. */
|
|
void iobuf_set_partial_body_length_mode (iobuf_t a, size_t len);
|
|
|
|
/* If PARTIAL is set, then read from the pipeline until the first EOF
|
|
is returned.
|
|
|
|
If PARTIAL is 0, then read up to N bytes or until the first EOF is
|
|
returned.
|
|
|
|
Recall: a filter can return EOF. In this case, it and all
|
|
preceding filters are popped from the pipeline and the next read is
|
|
from the following filter (which may or may not return EOF). */
|
|
void iobuf_skip_rest (iobuf_t a, unsigned long n, int partial);
|
|
|
|
#define iobuf_where(a) "[don't know]"
|
|
|
|
/* Each time a filter is allocated (via iobuf_alloc()), a
|
|
monotonically increasing counter is incremented and this field is
|
|
set to the new value. This macro returns that number. */
|
|
#define iobuf_id(a) ((a)->no)
|
|
|
|
#define iobuf_get_temp_buffer(a) ( (a)->d.buf )
|
|
#define iobuf_get_temp_length(a) ( (a)->d.len )
|
|
|
|
/* Whether the filter uses an in-memory buffer. */
|
|
#define iobuf_is_temp(a) ( (a)->use == IOBUF_OUTPUT_TEMP )
|
|
|
|
#endif /*GNUPG_COMMON_IOBUF_H*/
|