Generic POSIX printf itself can be Turing complete as shown in Control-Flow Bending. Here we take printf-oriented programming one step further and preset a brainfuck interpreter inside a single printf statement.
An attacker can control a printf statement through a format string vulnerability (where an attacker-controlled string is used as first parameter to a printf-like statement) or if the attacker can control the first argument to a printf statement through, e.g., a generic memory corruption. See the disclaimer below for practical in the wild considerations.
Brainfuck is a Turing-complete language that has the following commands (and their mapping to format strings):
>
== dataptr++ (%1$.*1$d %2$hn
)<
== dataptr-- (%1$65535d%1$.*1$d%2$hn
)+
== (*dataptr)++ (%3$.*3$d %4$hhn
)-
== (*dataptr)-- (%3$255d%3$.*3$d%4$hhn
-- plus check for ovfl).
== putchar(*dataptr) (%3$.*3$d%5$hn
),
== getchar(dataptr) (%13$.*13$d%4$hn
)[
== if (*dataptr == 0) goto]
(%1$.*1$d%10$.*10$d%2$hn
)]
== if (*dataptr != 0) goto[
(%1$.*1$d%10$.*10$d%2$hn
)
Have a look at the bf_pre.c sources to see what is needed to setup the interpreter and also look at the tokenizer in toker.py.
Run make in ./src to generate a couple of sample programs (in ./src).
Keep in mind that this printbf interpreter is supposed to be a fun example of Turing completeness that is available in current programs and not a new generic attack vector. This demo is NOT intended to be a generic FORTIFY_SOURCE bypass.
Current systems often either (i) disable %n (which is used to write to memory and allowed according to the standard but rarely used in practice) or (ii) through a set of of patches that test for attack-like conditions, e.g., if the format string is in writable memory.
To use printbf in the wild an attacker will either have to disable FORTIFY_SOURCE checking or get around the checks by placing lining up the format strings and placing them in readonly memory. The FORTIFY_SOURCE mitigations are glibc specific. The attacker model for printbf assumes that the attacker can use memory corruption vulnerabilities to set-up the attack or that the sources are compiled without enabled FORTIFY_SOURCE defenses.