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653 lines
20 KiB
EmacsLisp
653 lines
20 KiB
EmacsLisp
;;; bindat.el --- binary data structure packing and unpacking.
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;; Copyright (C) 2002-2013 Free Software Foundation, Inc.
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;; Author: Kim F. Storm <storm@cua.dk>
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;; Assignment name: struct.el
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;; Keywords: comm data processes
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;; This file is part of GNU Emacs.
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;; GNU Emacs is free software: you can redistribute it and/or modify
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;; it under the terms of the GNU General Public License as published by
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;; the Free Software Foundation, either version 3 of the License, or
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;; (at your option) any later version.
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;; GNU Emacs 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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;; You should have received a copy of the GNU General Public License
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;; along with GNU Emacs. If not, see <http://www.gnu.org/licenses/>.
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;;; Commentary:
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;; Packing and unpacking of (binary) data structures.
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;;
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;; The data formats used in binary files and network protocols are
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;; often structed data which can be described by a C-style structure
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;; such as the one shown below. Using the bindat package, decoding
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;; and encoding binary data formats like these is made simple using a
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;; structure specification which closely resembles the C style
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;; structure declarations.
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;;
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;; Encoded (binary) data is stored in a unibyte string or vector,
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;; while the decoded data is stored in an alist with (FIELD . VALUE)
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;; pairs.
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;; Example:
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;; Consider the following C structures:
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;;
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;; struct header {
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;; unsigned long dest_ip;
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;; unsigned long src_ip;
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;; unsigned short dest_port;
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;; unsigned short src_port;
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;; };
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;;
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;; struct data {
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;; unsigned char type;
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;; unsigned char opcode;
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;; unsigned long length; /* In little endian order */
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;; unsigned char id[8]; /* nul-terminated string */
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;; unsigned char data[/* (length + 3) & ~3 */];
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;; };
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;;
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;; struct packet {
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;; struct header header;
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;; unsigned char items;
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;; unsigned char filler[3];
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;; struct data item[/* items */];
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;; };
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;;
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;; The corresponding Lisp bindat specification looks like this:
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;;
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;; (setq header-bindat-spec
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;; '((dest-ip ip)
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;; (src-ip ip)
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;; (dest-port u16)
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;; (src-port u16)))
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;;
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;; (setq data-bindat-spec
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;; '((type u8)
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;; (opcode u8)
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;; (length u16r) ;; little endian order
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;; (id strz 8)
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;; (data vec (length))
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;; (align 4)))
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;;
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;; (setq packet-bindat-spec
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;; '((header struct header-bindat-spec)
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;; (items u8)
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;; (fill 3)
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;; (item repeat (items)
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;; (struct data-bindat-spec))))
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;;
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;;
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;; A binary data representation may look like
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;; [ 192 168 1 100 192 168 1 101 01 28 21 32 2 0 0 0
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;; 2 3 5 0 ?A ?B ?C ?D ?E ?F 0 0 1 2 3 4 5 0 0 0
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;; 1 4 7 0 ?B ?C ?D ?E ?F ?G 0 0 6 7 8 9 10 11 12 0 ]
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;;
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;; The corresponding decoded structure looks like
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;;
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;; ((header
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;; (dest-ip . [192 168 1 100])
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;; (src-ip . [192 168 1 101])
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;; (dest-port . 284)
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;; (src-port . 5408))
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;; (items . 2)
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;; (item ((data . [1 2 3 4 5])
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;; (id . "ABCDEF")
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;; (length . 5)
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;; (opcode . 3)
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;; (type . 2))
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;; ((data . [6 7 8 9 10 11 12])
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;; (id . "BCDEFG")
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;; (length . 7)
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;; (opcode . 4)
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;; (type . 1))))
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;;
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;; To access a specific value in this structure, use the function
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;; bindat-get-field with the structure as first arg followed by a list
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;; of field names and array indexes, e.g. using the data above,
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;; (bindat-get-field decoded-structure 'item 1 'id)
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;; returns "BCDEFG".
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;; Binary Data Structure Specification Format
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;; ------------------------------------------
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;; We recommend using names that end in `-bindat-spec'; such names
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;; are recognized automatically as "risky" variables.
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;; The data specification is formatted as follows:
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;; SPEC ::= ( ITEM... )
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;; ITEM ::= ( [FIELD] TYPE )
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;; | ( [FIELD] eval FORM ) -- eval FORM for side-effect only
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;; | ( [FIELD] fill LEN ) -- skip LEN bytes
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;; | ( [FIELD] align LEN ) -- skip to next multiple of LEN bytes
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;; | ( [FIELD] struct SPEC_NAME )
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;; | ( [FIELD] union TAG_VAL (TAG SPEC)... [(t SPEC)] )
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;; | ( [FIELD] repeat COUNT ITEM... )
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;; -- In (eval EXPR), the value of the last field is available in
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;; the dynamically bound variable `last'.
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;; TYPE ::= ( eval EXPR ) -- interpret result as TYPE
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;; | u8 | byte -- length 1
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;; | u16 | word | short -- length 2, network byte order
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;; | u24 -- 3-byte value
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;; | u32 | dword | long -- length 4, network byte order
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;; | u16r | u24r | u32r -- little endian byte order.
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;; | str LEN -- LEN byte string
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;; | strz LEN -- LEN byte (zero-terminated) string
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;; | vec LEN [TYPE] -- vector of LEN items of TYPE (default: u8)
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;; | ip -- 4 byte vector
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;; | bits LEN -- List with bits set in LEN bytes.
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;;
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;; -- Note: 32 bit values may be limited by emacs' INTEGER
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;; implementation limits.
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;;
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;; -- Example: `bits 2' will unpack 0x28 0x1c to (2 3 4 11 13)
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;; and 0x1c 0x28 to (3 5 10 11 12).
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;; FIELD ::= ( eval EXPR ) -- use result as NAME
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;; | NAME
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;; LEN ::= ARG
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;; | <omitted> | nil -- LEN = 1
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;; TAG_VAL ::= ARG
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;; TAG ::= LISP_CONSTANT
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;; | ( eval EXPR ) -- return non-nil if tag match;
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;; current TAG_VAL in `tag'.
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;; ARG ::= ( eval EXPR ) -- interpret result as ARG
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;; | INTEGER_CONSTANT
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;; | DEREF
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;; DEREF ::= ( [NAME | INTEGER]... ) -- Field NAME or Array index relative
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;; to current structure spec.
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;; -- see bindat-get-field
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;; A `union' specification
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;; ([FIELD] union TAG_VAL (TAG SPEC) ... [(t SPEC)])
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;; is interpreted by evalling TAG_VAL and then comparing that to
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;; each TAG using equal; if a match is found, the corresponding SPEC
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;; is used.
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;; If TAG is a form (eval EXPR), EXPR is evalled with `tag' bound to the
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;; value of TAG_VAL; the corresponding SPEC is used if the result is non-nil.
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;; Finally, if TAG is t, the corresponding SPEC is used unconditionally.
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;;
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;; An `eval' specification
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;; ([FIELD] eval FORM)
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;; is interpreted by evalling FORM for its side effects only.
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;; If FIELD is specified, the value is bound to that field.
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;; The FORM may access and update `bindat-raw' and `bindat-idx' (see `bindat-unpack').
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;;; Code:
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;; Helper functions for structure unpacking.
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;; Relies on dynamic binding of BINDAT-RAW and BINDAT-IDX
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(defvar bindat-raw)
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(defvar bindat-idx)
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(defun bindat--unpack-u8 ()
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(prog1
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(aref bindat-raw bindat-idx)
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(setq bindat-idx (1+ bindat-idx))))
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(defun bindat--unpack-u16 ()
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(logior (lsh (bindat--unpack-u8) 8) (bindat--unpack-u8)))
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(defun bindat--unpack-u24 ()
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(logior (lsh (bindat--unpack-u16) 8) (bindat--unpack-u8)))
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(defun bindat--unpack-u32 ()
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(logior (lsh (bindat--unpack-u16) 16) (bindat--unpack-u16)))
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(defun bindat--unpack-u16r ()
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(logior (bindat--unpack-u8) (lsh (bindat--unpack-u8) 8)))
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(defun bindat--unpack-u24r ()
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(logior (bindat--unpack-u16r) (lsh (bindat--unpack-u8) 16)))
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(defun bindat--unpack-u32r ()
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(logior (bindat--unpack-u16r) (lsh (bindat--unpack-u16r) 16)))
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(defun bindat--unpack-item (type len &optional vectype)
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(if (eq type 'ip)
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(setq type 'vec len 4))
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(cond
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((memq type '(u8 byte))
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(bindat--unpack-u8))
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((memq type '(u16 word short))
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(bindat--unpack-u16))
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((eq type 'u24)
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(bindat--unpack-u24))
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((memq type '(u32 dword long))
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(bindat--unpack-u32))
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((eq type 'u16r)
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(bindat--unpack-u16r))
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((eq type 'u24r)
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(bindat--unpack-u24r))
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((eq type 'u32r)
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(bindat--unpack-u32r))
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((eq type 'bits)
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(let ((bits nil) (bnum (1- (* 8 len))) j m)
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(while (>= bnum 0)
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(if (= (setq m (bindat--unpack-u8)) 0)
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(setq bnum (- bnum 8))
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(setq j 128)
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(while (> j 0)
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(if (/= 0 (logand m j))
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(setq bits (cons bnum bits)))
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(setq bnum (1- bnum)
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j (lsh j -1)))))
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bits))
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((eq type 'str)
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(let ((s (substring bindat-raw bindat-idx (+ bindat-idx len))))
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(setq bindat-idx (+ bindat-idx len))
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(if (stringp s) s
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(string-make-unibyte (concat s)))))
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((eq type 'strz)
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(let ((i 0) s)
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(while (and (< i len) (/= (aref bindat-raw (+ bindat-idx i)) 0))
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(setq i (1+ i)))
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(setq s (substring bindat-raw bindat-idx (+ bindat-idx i)))
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(setq bindat-idx (+ bindat-idx len))
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(if (stringp s) s
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(string-make-unibyte (concat s)))))
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((eq type 'vec)
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(let ((v (make-vector len 0)) (i 0) (vlen 1))
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(if (consp vectype)
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(setq vlen (nth 1 vectype)
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vectype (nth 2 vectype))
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(setq type (or vectype 'u8)
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vectype nil))
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(while (< i len)
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(aset v i (bindat--unpack-item type vlen vectype))
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(setq i (1+ i)))
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v))
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(t nil)))
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(defun bindat--unpack-group (spec)
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(let (struct last)
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(while spec
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(let* ((item (car spec))
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(field (car item))
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(type (nth 1 item))
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(len (nth 2 item))
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(vectype (and (eq type 'vec) (nth 3 item)))
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(tail 3)
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data)
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(setq spec (cdr spec))
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(if (and (consp field) (eq (car field) 'eval))
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(setq field (eval (car (cdr field)))))
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(if (and type (consp type) (eq (car type) 'eval))
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(setq type (eval (car (cdr type)))))
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(if (and len (consp len) (eq (car len) 'eval))
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(setq len (eval (car (cdr len)))))
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(if (memq field '(eval fill align struct union))
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(setq tail 2
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len type
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type field
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field nil))
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(if (and (consp len) (not (eq type 'eval)))
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(setq len (apply 'bindat-get-field struct len)))
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(if (not len)
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(setq len 1))
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(cond
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((eq type 'eval)
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(if field
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(setq data (eval len))
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(eval len)))
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((eq type 'fill)
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(setq bindat-idx (+ bindat-idx len)))
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((eq type 'align)
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(while (/= (% bindat-idx len) 0)
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(setq bindat-idx (1+ bindat-idx))))
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((eq type 'struct)
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(setq data (bindat--unpack-group (eval len))))
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((eq type 'repeat)
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(let ((index 0) (count len))
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(while (< index count)
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(setq data (cons (bindat--unpack-group (nthcdr tail item)) data))
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(setq index (1+ index)))
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(setq data (nreverse data))))
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((eq type 'union)
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(let ((tag len) (cases (nthcdr tail item)) case cc)
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(while cases
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(setq case (car cases)
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cases (cdr cases)
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cc (car case))
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(if (or (equal cc tag) (equal cc t)
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(and (consp cc) (eval cc)))
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(setq data (bindat--unpack-group (cdr case))
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cases nil)))))
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(t
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(setq data (bindat--unpack-item type len vectype)
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last data)))
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(if data
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(if field
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(setq struct (cons (cons field data) struct))
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(setq struct (append data struct))))))
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struct))
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(defun bindat-unpack (spec bindat-raw &optional bindat-idx)
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"Return structured data according to SPEC for binary data in BINDAT-RAW.
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BINDAT-RAW is a unibyte string or vector.
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Optional third arg BINDAT-IDX specifies the starting offset in BINDAT-RAW."
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(when (multibyte-string-p bindat-raw)
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(error "String is multibyte"))
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(unless bindat-idx (setq bindat-idx 0))
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(bindat--unpack-group spec))
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(defun bindat-get-field (struct &rest field)
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"In structured data STRUCT, return value of field named FIELD.
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If multiple field names are specified, use the field names to
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lookup nested sub-structures in STRUCT, corresponding to the
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C-language syntax STRUCT.FIELD1.FIELD2.FIELD3...
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An integer value in the field list is taken as an array index,
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e.g. corresponding to STRUCT.FIELD1[INDEX2].FIELD3..."
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(while (and struct field)
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(setq struct (if (integerp (car field))
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(nth (car field) struct)
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(let ((val (assq (car field) struct)))
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(if (consp val) (cdr val)))))
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(setq field (cdr field)))
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struct)
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;; Calculate bindat-raw length of structured data
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(defvar bindat--fixed-length-alist
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'((u8 . 1) (byte . 1)
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(u16 . 2) (u16r . 2) (word . 2) (short . 2)
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(u24 . 3) (u24r . 3)
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(u32 . 4) (u32r . 4) (dword . 4) (long . 4)
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(ip . 4)))
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(defun bindat--length-group (struct spec)
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(let (last)
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(while spec
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(let* ((item (car spec))
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(field (car item))
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(type (nth 1 item))
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(len (nth 2 item))
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(vectype (and (eq type 'vec) (nth 3 item)))
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(tail 3))
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(setq spec (cdr spec))
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(if (and (consp field) (eq (car field) 'eval))
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(setq field (eval (car (cdr field)))))
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(if (and type (consp type) (eq (car type) 'eval))
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(setq type (eval (car (cdr type)))))
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(if (and len (consp len) (eq (car len) 'eval))
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(setq len (eval (car (cdr len)))))
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(if (memq field '(eval fill align struct union))
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(setq tail 2
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len type
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type field
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field nil))
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(if (and (consp len) (not (eq type 'eval)))
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(setq len (apply 'bindat-get-field struct len)))
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(if (not len)
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(setq len 1))
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(while (eq type 'vec)
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(let ((vlen 1))
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(if (consp vectype)
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(setq len (* len (nth 1 vectype))
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type (nth 2 vectype))
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(setq type (or vectype 'u8)
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vectype nil))))
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(cond
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((eq type 'eval)
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(if field
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(setq struct (cons (cons field (eval len)) struct))
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(eval len)))
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((eq type 'fill)
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(setq bindat-idx (+ bindat-idx len)))
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((eq type 'align)
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(while (/= (% bindat-idx len) 0)
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(setq bindat-idx (1+ bindat-idx))))
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((eq type 'struct)
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(bindat--length-group
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(if field (bindat-get-field struct field) struct) (eval len)))
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((eq type 'repeat)
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(let ((index 0) (count len))
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(while (< index count)
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(bindat--length-group
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(nth index (bindat-get-field struct field))
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(nthcdr tail item))
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(setq index (1+ index)))))
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((eq type 'union)
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(let ((tag len) (cases (nthcdr tail item)) case cc)
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(while cases
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(setq case (car cases)
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cases (cdr cases)
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cc (car case))
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(if (or (equal cc tag) (equal cc t)
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(and (consp cc) (eval cc)))
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(progn
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(bindat--length-group struct (cdr case))
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(setq cases nil))))))
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(t
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(if (setq type (assq type bindat--fixed-length-alist))
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(setq len (* len (cdr type))))
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(if field
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(setq last (bindat-get-field struct field)))
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(setq bindat-idx (+ bindat-idx len))))))))
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(defun bindat-length (spec struct)
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"Calculate bindat-raw length for STRUCT according to bindat SPEC."
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(let ((bindat-idx 0))
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(bindat--length-group struct spec)
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bindat-idx))
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;; Pack structured data into bindat-raw
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(defun bindat--pack-u8 (v)
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(aset bindat-raw bindat-idx (logand v 255))
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(setq bindat-idx (1+ bindat-idx)))
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(defun bindat--pack-u16 (v)
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(aset bindat-raw bindat-idx (logand (lsh v -8) 255))
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(aset bindat-raw (1+ bindat-idx) (logand v 255))
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(setq bindat-idx (+ bindat-idx 2)))
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(defun bindat--pack-u24 (v)
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(bindat--pack-u8 (lsh v -16))
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(bindat--pack-u16 v))
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(defun bindat--pack-u32 (v)
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(bindat--pack-u16 (lsh v -16))
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(bindat--pack-u16 v))
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(defun bindat--pack-u16r (v)
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(aset bindat-raw (1+ bindat-idx) (logand (lsh v -8) 255))
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(aset bindat-raw bindat-idx (logand v 255))
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(setq bindat-idx (+ bindat-idx 2)))
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(defun bindat--pack-u24r (v)
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(bindat--pack-u16r v)
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(bindat--pack-u8 (lsh v -16)))
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(defun bindat--pack-u32r (v)
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(bindat--pack-u16r v)
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(bindat--pack-u16r (lsh v -16)))
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(defun bindat--pack-item (v type len &optional vectype)
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(if (eq type 'ip)
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(setq type 'vec len 4))
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(cond
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((null v)
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(setq bindat-idx (+ bindat-idx len)))
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((memq type '(u8 byte))
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(bindat--pack-u8 v))
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((memq type '(u16 word short))
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(bindat--pack-u16 v))
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((eq type 'u24)
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(bindat--pack-u24 v))
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((memq type '(u32 dword long))
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(bindat--pack-u32 v))
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((eq type 'u16r)
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(bindat--pack-u16r v))
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((eq type 'u24r)
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(bindat--pack-u24r v))
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((eq type 'u32r)
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(bindat--pack-u32r v))
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((eq type 'bits)
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(let ((bnum (1- (* 8 len))) j m)
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(while (>= bnum 0)
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(setq m 0)
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(if (null v)
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(setq bnum (- bnum 8))
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(setq j 128)
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(while (> j 0)
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(if (memq bnum v)
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(setq m (logior m j)))
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(setq bnum (1- bnum)
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j (lsh j -1))))
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(bindat--pack-u8 m))))
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((memq type '(str strz))
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(let ((l (length v)) (i 0))
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(if (> l len) (setq l len))
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(while (< i l)
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(aset bindat-raw (+ bindat-idx i) (aref v i))
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(setq i (1+ i)))
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(setq bindat-idx (+ bindat-idx len))))
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((eq type 'vec)
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(let ((l (length v)) (i 0) (vlen 1))
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(if (consp vectype)
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(setq vlen (nth 1 vectype)
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vectype (nth 2 vectype))
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(setq type (or vectype 'u8)
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vectype nil))
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(if (> l len) (setq l len))
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(while (< i l)
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(bindat--pack-item (aref v i) type vlen vectype)
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(setq i (1+ i)))))
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(t
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(setq bindat-idx (+ bindat-idx len)))))
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(defun bindat--pack-group (struct spec)
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(let (last)
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(while spec
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(let* ((item (car spec))
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(field (car item))
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(type (nth 1 item))
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(len (nth 2 item))
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(vectype (and (eq type 'vec) (nth 3 item)))
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(tail 3))
|
|
(setq spec (cdr spec))
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(if (and (consp field) (eq (car field) 'eval))
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(setq field (eval (car (cdr field)))))
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(if (and type (consp type) (eq (car type) 'eval))
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(setq type (eval (car (cdr type)))))
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(if (and len (consp len) (eq (car len) 'eval))
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(setq len (eval (car (cdr len)))))
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|
(if (memq field '(eval fill align struct union))
|
|
(setq tail 2
|
|
len type
|
|
type field
|
|
field nil))
|
|
(if (and (consp len) (not (eq type 'eval)))
|
|
(setq len (apply 'bindat-get-field struct len)))
|
|
(if (not len)
|
|
(setq len 1))
|
|
(cond
|
|
((eq type 'eval)
|
|
(if field
|
|
(setq struct (cons (cons field (eval len)) struct))
|
|
(eval len)))
|
|
((eq type 'fill)
|
|
(setq bindat-idx (+ bindat-idx len)))
|
|
((eq type 'align)
|
|
(while (/= (% bindat-idx len) 0)
|
|
(setq bindat-idx (1+ bindat-idx))))
|
|
((eq type 'struct)
|
|
(bindat--pack-group
|
|
(if field (bindat-get-field struct field) struct) (eval len)))
|
|
((eq type 'repeat)
|
|
(let ((index 0) (count len))
|
|
(while (< index count)
|
|
(bindat--pack-group
|
|
(nth index (bindat-get-field struct field))
|
|
(nthcdr tail item))
|
|
(setq index (1+ index)))))
|
|
((eq type 'union)
|
|
(let ((tag len) (cases (nthcdr tail item)) case cc)
|
|
(while cases
|
|
(setq case (car cases)
|
|
cases (cdr cases)
|
|
cc (car case))
|
|
(if (or (equal cc tag) (equal cc t)
|
|
(and (consp cc) (eval cc)))
|
|
(progn
|
|
(bindat--pack-group struct (cdr case))
|
|
(setq cases nil))))))
|
|
(t
|
|
(setq last (bindat-get-field struct field))
|
|
(bindat--pack-item last type len vectype)
|
|
))))))
|
|
|
|
(defun bindat-pack (spec struct &optional bindat-raw bindat-idx)
|
|
"Return binary data packed according to SPEC for structured data STRUCT.
|
|
Optional third arg BINDAT-RAW is a pre-allocated unibyte string or vector to
|
|
pack into.
|
|
Optional fourth arg BINDAT-IDX is the starting offset into BINDAT-RAW."
|
|
(when (multibyte-string-p bindat-raw)
|
|
(error "Pre-allocated string is multibyte"))
|
|
(let ((no-return bindat-raw))
|
|
(unless bindat-idx (setq bindat-idx 0))
|
|
(unless bindat-raw
|
|
(setq bindat-raw (make-string (+ bindat-idx (bindat-length spec struct)) 0)))
|
|
(bindat--pack-group struct spec)
|
|
(if no-return nil bindat-raw)))
|
|
|
|
|
|
;; Misc. format conversions
|
|
|
|
(defun bindat-format-vector (vect fmt sep &optional len)
|
|
"Format vector VECT using element format FMT and separator SEP.
|
|
Result is a string with each element of VECT formatted using FMT and
|
|
separated by the string SEP. If optional fourth arg LEN is given, use
|
|
only that many elements from VECT."
|
|
(unless len
|
|
(setq len (length vect)))
|
|
(let ((i len) (fmt2 (concat sep fmt)) (s nil))
|
|
(while (> i 0)
|
|
(setq i (1- i)
|
|
s (cons (format (if (= i 0) fmt fmt2) (aref vect i)) s)))
|
|
(apply 'concat s)))
|
|
|
|
(defun bindat-vector-to-dec (vect &optional sep)
|
|
"Format vector VECT in decimal format separated by dots.
|
|
If optional second arg SEP is a string, use that as separator."
|
|
(bindat-format-vector vect "%d" (if (stringp sep) sep ".")))
|
|
|
|
(defun bindat-vector-to-hex (vect &optional sep)
|
|
"Format vector VECT in hex format separated by dots.
|
|
If optional second arg SEP is a string, use that as separator."
|
|
(bindat-format-vector vect "%02x" (if (stringp sep) sep ":")))
|
|
|
|
(defun bindat-ip-to-string (ip)
|
|
"Format vector IP as an ip address in dotted notation.
|
|
The port (if any) is omitted. IP can be a string, as well."
|
|
(if (vectorp ip)
|
|
(format-network-address ip t)
|
|
(format "%d.%d.%d.%d"
|
|
(aref ip 0) (aref ip 1) (aref ip 2) (aref ip 3))))
|
|
|
|
(provide 'bindat)
|
|
|
|
;;; bindat.el ends here
|