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.\" Copyright (c) 2003-2007 Tim Kientzle
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.\" All rights reserved.
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.\"
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.\" Redistribution and use in source and binary forms, with or without
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.\" modification, are permitted provided that the following conditions
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.\" are met:
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.\" 1. Redistributions of source code must retain the above copyright
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.\" notice, this list of conditions and the following disclaimer.
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.\" 2. Redistributions in binary form must reproduce the above copyright
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.\" notice, this list of conditions and the following disclaimer in the
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.\" documentation and/or other materials provided with the distribution.
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.\"
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.\" THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
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.\" ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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.\" IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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.\" ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
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.\" FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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.\" DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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.\" OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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.\" HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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.\" LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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.\" OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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.\" SUCH DAMAGE.
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.\"
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.\" $FreeBSD$
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.\"
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.Dd January 26, 2011
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.Dt LIBARCHIVE_INTERNALS 3
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.Os
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.Sh NAME
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.Nm libarchive_internals
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.Nd description of libarchive internal interfaces
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.Sh OVERVIEW
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The
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.Nm libarchive
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library provides a flexible interface for reading and writing
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streaming archive files such as tar and cpio.
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Internally, it follows a modular layered design that should
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make it easy to add new archive and compression formats.
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.Sh GENERAL ARCHITECTURE
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Externally, libarchive exposes most operations through an
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opaque, object-style interface.
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The
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.Xr archive_entry 3
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objects store information about a single filesystem object.
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The rest of the library provides facilities to write
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.Xr archive_entry 3
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objects to archive files,
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read them from archive files,
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and write them to disk.
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(There are plans to add a facility to read
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.Xr archive_entry 3
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objects from disk as well.)
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.Pp
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The read and write APIs each have four layers: a public API
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layer, a format layer that understands the archive file format,
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a compression layer, and an I/O layer.
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The I/O layer is completely exposed to clients who can replace
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it entirely with their own functions.
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.Pp
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In order to provide as much consistency as possible for clients,
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some public functions are virtualized.
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Eventually, it should be possible for clients to open
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an archive or disk writer, and then use a single set of
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code to select and write entries, regardless of the target.
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.Sh READ ARCHITECTURE
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From the outside, clients use the
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.Xr archive_read 3
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API to manipulate an
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.Nm archive
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object to read entries and bodies from an archive stream.
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Internally, the
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.Nm archive
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object is cast to an
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.Nm archive_read
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object, which holds all read-specific data.
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The API has four layers:
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The lowest layer is the I/O layer.
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This layer can be overridden by clients, but most clients use
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the packaged I/O callbacks provided, for example, by
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.Xr archive_read_open_memory 3 ,
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and
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.Xr archive_read_open_fd 3 .
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The compression layer calls the I/O layer to
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read bytes and decompresses them for the format layer.
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The format layer unpacks a stream of uncompressed bytes and
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creates
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.Nm archive_entry
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objects from the incoming data.
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The API layer tracks overall state
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(for example, it prevents clients from reading data before reading a header)
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and invokes the format and compression layer operations
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through registered function pointers.
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In particular, the API layer drives the format-detection process:
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When opening the archive, it reads an initial block of data
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and offers it to each registered compression handler.
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The one with the highest bid is initialized with the first block.
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Similarly, the format handlers are polled to see which handler
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is the best for each archive.
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(Prior to 2.4.0, the format bidders were invoked for each
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entry, but this design hindered error recovery.)
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.Ss I/O Layer and Client Callbacks
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The read API goes to some lengths to be nice to clients.
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As a result, there are few restrictions on the behavior of
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the client callbacks.
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.Pp
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The client read callback is expected to provide a block
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of data on each call.
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A zero-length return does indicate end of file, but otherwise
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blocks may be as small as one byte or as large as the entire file.
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In particular, blocks may be of different sizes.
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.Pp
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The client skip callback returns the number of bytes actually
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skipped, which may be much smaller than the skip requested.
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The only requirement is that the skip not be larger.
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In particular, clients are allowed to return zero for any
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skip that they don't want to handle.
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The skip callback must never be invoked with a negative value.
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.Pp
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Keep in mind that not all clients are reading from disk:
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clients reading from networks may provide different-sized
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blocks on every request and cannot skip at all;
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advanced clients may use
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.Xr mmap 2
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to read the entire file into memory at once and return the
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entire file to libarchive as a single block;
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other clients may begin asynchronous I/O operations for the
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next block on each request.
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.Ss Decompresssion Layer
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The decompression layer not only handles decompression,
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it also buffers data so that the format handlers see a
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much nicer I/O model.
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The decompression API is a two stage peek/consume model.
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A read_ahead request specifies a minimum read amount;
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the decompression layer must provide a pointer to at least
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that much data.
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If more data is immediately available, it should return more:
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the format layer handles bulk data reads by asking for a minimum
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of one byte and then copying as much data as is available.
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.Pp
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A subsequent call to the
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.Fn consume
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function advances the read pointer.
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Note that data returned from a
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.Fn read_ahead
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call is guaranteed to remain in place until
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the next call to
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.Fn read_ahead .
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Intervening calls to
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.Fn consume
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should not cause the data to move.
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.Pp
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Skip requests must always be handled exactly.
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Decompression handlers that cannot seek forward should
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not register a skip handler;
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the API layer fills in a generic skip handler that reads and discards data.
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.Pp
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A decompression handler has a specific lifecycle:
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.Bl -tag -compact -width indent
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.It Registration/Configuration
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When the client invokes the public support function,
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the decompression handler invokes the internal
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.Fn __archive_read_register_compression
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function to provide bid and initialization functions.
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This function returns
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.Cm NULL
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on error or else a pointer to a
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.Cm struct decompressor_t .
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This structure contains a
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.Va void * config
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slot that can be used for storing any customization information.
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.It Bid
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The bid function is invoked with a pointer and size of a block of data.
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The decompressor can access its config data
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through the
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.Va decompressor
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element of the
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.Cm archive_read
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object.
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The bid function is otherwise stateless.
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In particular, it must not perform any I/O operations.
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.Pp
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The value returned by the bid function indicates its suitability
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for handling this data stream.
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A bid of zero will ensure that this decompressor is never invoked.
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Return zero if magic number checks fail.
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Otherwise, your initial implementation should return the number of bits
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actually checked.
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For example, if you verify two full bytes and three bits of another
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byte, bid 19.
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Note that the initial block may be very short;
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be careful to only inspect the data you are given.
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(The current decompressors require two bytes for correct bidding.)
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.It Initialize
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The winning bidder will have its init function called.
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This function should initialize the remaining slots of the
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.Va struct decompressor_t
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object pointed to by the
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.Va decompressor
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element of the
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.Va archive_read
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object.
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In particular, it should allocate any working data it needs
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in the
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.Va data
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slot of that structure.
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The init function is called with the block of data that
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was used for tasting.
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At this point, the decompressor is responsible for all I/O
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requests to the client callbacks.
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The decompressor is free to read more data as and when
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necessary.
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.It Satisfy I/O requests
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The format handler will invoke the
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.Va read_ahead ,
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.Va consume ,
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and
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.Va skip
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functions as needed.
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.It Finish
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The finish method is called only once when the archive is closed.
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It should release anything stored in the
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.Va data
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and
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.Va config
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slots of the
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.Va decompressor
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object.
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It should not invoke the client close callback.
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.El
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.Ss Format Layer
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The read formats have a similar lifecycle to the decompression handlers:
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.Bl -tag -compact -width indent
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.It Registration
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Allocate your private data and initialize your pointers.
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.It Bid
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Formats bid by invoking the
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.Fn read_ahead
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decompression method but not calling the
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.Fn consume
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method.
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This allows each bidder to look ahead in the input stream.
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Bidders should not look further ahead than necessary, as long
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look aheads put pressure on the decompression layer to buffer
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lots of data.
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Most formats only require a few hundred bytes of look ahead;
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look aheads of a few kilobytes are reasonable.
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(The ISO9660 reader sometimes looks ahead by 48k, which
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should be considered an upper limit.)
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.It Read header
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The header read is usually the most complex part of any format.
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There are a few strategies worth mentioning:
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For formats such as tar or cpio, reading and parsing the header is
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straightforward since headers alternate with data.
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For formats that store all header data at the beginning of the file,
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the first header read request may have to read all headers into
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memory and store that data, sorted by the location of the file
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data.
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Subsequent header read requests will skip forward to the
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beginning of the file data and return the corresponding header.
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.It Read Data
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The read data interface supports sparse files; this requires that
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each call return a block of data specifying the file offset and
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size.
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This may require you to carefully track the location so that you
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can return accurate file offsets for each read.
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Remember that the decompressor will return as much data as it has.
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Generally, you will want to request one byte,
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examine the return value to see how much data is available, and
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possibly trim that to the amount you can use.
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You should invoke consume for each block just before you return it.
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.It Skip All Data
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The skip data call should skip over all file data and trailing padding.
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This is called automatically by the API layer just before each
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header read.
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It is also called in response to the client calling the public
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.Fn data_skip
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function.
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.It Cleanup
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On cleanup, the format should release all of its allocated memory.
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.El
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.Ss API Layer
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XXX to do XXX
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.Sh WRITE ARCHITECTURE
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The write API has a similar set of four layers:
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an API layer, a format layer, a compression layer, and an I/O layer.
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The registration here is much simpler because only
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one format and one compression can be registered at a time.
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.Ss I/O Layer and Client Callbacks
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XXX To be written XXX
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.Ss Compression Layer
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XXX To be written XXX
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.Ss Format Layer
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XXX To be written XXX
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.Ss API Layer
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XXX To be written XXX
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.Sh WRITE_DISK ARCHITECTURE
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The write_disk API is intended to look just like the write API
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to clients.
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Since it does not handle multiple formats or compression, it
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is not layered internally.
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.Sh GENERAL SERVICES
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The
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.Nm archive_read ,
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.Nm archive_write ,
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and
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.Nm archive_write_disk
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objects all contain an initial
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.Nm archive
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object which provides common support for a set of standard services.
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(Recall that ANSI/ISO C90 guarantees that you can cast freely between
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a pointer to a structure and a pointer to the first element of that
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structure.)
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The
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.Nm archive
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object has a magic value that indicates which API this object
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is associated with,
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slots for storing error information,
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and function pointers for virtualized API functions.
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.Sh MISCELLANEOUS NOTES
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Connecting existing archiving libraries into libarchive is generally
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quite difficult.
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In particular, many existing libraries strongly assume that you
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are reading from a file; they seek forwards and backwards as necessary
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to locate various pieces of information.
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In contrast, libarchive never seeks backwards in its input, which
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sometimes requires very different approaches.
|
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.Pp
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For example, libarchive's ISO9660 support operates very differently
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from most ISO9660 readers.
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The libarchive support utilizes a work-queue design that
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keeps a list of known entries sorted by their location in the input.
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Whenever libarchive's ISO9660 implementation is asked for the next
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header, checks this list to find the next item on the disk.
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Directories are parsed when they are encountered and new
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items are added to the list.
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This design relies heavily on the ISO9660 image being optimized so that
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directories always occur earlier on the disk than the files they
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describe.
|
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|
.Pp
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|
Depending on the specific format, such approaches may not be possible.
|
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|
The ZIP format specification, for example, allows archivers to store
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|
key information only at the end of the file.
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|
In theory, it is possible to create ZIP archives that cannot
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be read without seeking.
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|
Fortunately, such archives are very rare, and libarchive can read
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most ZIP archives, though it cannot always extract as much information
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|
as a dedicated ZIP program.
|
|
|
|
.Sh SEE ALSO
|
|
|
|
.Xr archive 3 ,
|
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|
|
.Xr archive_entry 3 ,
|
|
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|
.Xr archive_read 3 ,
|
|
|
|
.Xr archive_write 3 ,
|
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|
.Xr archive_write_disk 3
|
|
|
|
.Sh HISTORY
|
|
|
|
The
|
|
|
|
.Nm libarchive
|
|
|
|
library first appeared in
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|
.Fx 5.3 .
|
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|
.Sh AUTHORS
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|
|
.An -nosplit
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|
The
|
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|
.Nm libarchive
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|
|
|
library was written by
|
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|
|
.An Tim Kientzle Aq kientzle@acm.org .
|