Provided by: mescc-tools_1.4.0-1_amd64 bug

NAME
       hex2 - The trivially bootstrappable linker that is designed to be introspectable by humans


SYNOPSIS
       hex2 --architecture ARCHITECTURE --base-address ADDRESS --file FILE [--output FILE [--non-executable]]


DESCRIPTION
       hex2 is designed to allow humans to write elf and other binary files by hand in a format that allows
       comments and ease of understanding.

       At its core is read 2 hex characters add them together and output a single byte. You can override this
       and use binary or octal input if you so desire, using the --octal or --binary option.
       If no output file is specified the output will be send to standard out.  By default the file will be
       executable unless the option: --non-executable is also passed.

       The supported ARCHITECTURES are as follows: knight-native, knight-posix, x86, amd64, armv7l and aarch64.
       If you fail to specify an architecture, the default of knight-native will be used.
       The base address for which the binary is to be loaded into memory and thus the relative and absolute
       pointers should be based, is passed via --base-address if it is not provided the default value of ZERO
       will be assumed.

       hex2 also support labels in the :LABEL format and relative and absolute pointers to those labels in 8,
       16, 24 or 32bit sizes.  !LABEL, @LABEL, ~LABEL and %LABEL for 8, 16, 24 and 32bit relative addresses
       respectively and $LABEL and &LABEL for 16 and 32bit absolute addresses respectively.  Should you wish to
       specify the bit and byte encoding of the addresses to match your target --big-endian and --little-endian

       On architectures that require word alignment the < and ^ characters have a special meaning; particularly
       pad to word and use word base address calculation rather than standard byte based address calculation;
       generally seen in the form: ^~LABEL EB for calls in ARM


EXAMPLES
       Typically, hex2 will be called in scripts used in bootstrapping
       # hex2 -f ELF-armv7l.hex2 -f cc.hex2 --little-endian --architecture armv7l --base-address 0x10000 -o cc


COMPATIBILITY
       hex2 is compatible with all Turing complete machines; even the ones that try to be Turing complete -1


AUTHORS
       Jeremiah Orians <Jeremiah@pdp10.guru>
       Jan (janneke) Nieuwenhuizen <janneke@gnu.org>


COPYRIGHT
       Copyright 2016-2019 Jeremiah Orians <Jeremiah@pdp10.guru>
       Copyright 2017 Jan Nieuwenhuizen <janneke@gnu.org>
       License GPLv3+.


SEE ALSO
       M1(1), blood-elf(1), kaem(1), syscalls(2)

Linux                                               JULY 2019                                            hex2(1)