## https://sploitus.com/exploit?id=EDB-ID:47097
-----=====[ Background ]=====-----
AFDKO (Adobe Font Development Kit for OpenType) is a set of tools for examining, modifying and building fonts. The core part of this toolset is a font handling library written in C, which provides interfaces for reading and writing Type 1, OpenType, TrueType (to some extent) and several other font formats. While the library existed as early as 2000, it was open-sourced by Adobe in 2014 on GitHub [1, 2], and is still actively developed. The font parsing code can be generally found under afdko/c/public/lib/source/*read/*.c in the project directory tree.
At the time of this writing, based on the available source code, we conclude that AFDKO was originally developed to only process valid, well-formatted font files. It contains very few to no sanity checks of the input data, which makes it susceptible to memory corruption issues (e.g. buffer overflows) and other memory safety problems, if the input file doesn't conform to the format specification.
We have recently discovered that starting with Windows 10 1709 (Fall Creators Update, released in October 2017), Microsoft's DirectWrite library [3] includes parts of AFDKO, and specifically the modules for reading and writing OpenType/CFF fonts (internally called cfr/cfw). The code is reachable through dwrite!AdobeCFF2Snapshot, called by methods of the FontInstancer class, called by dwrite!DWriteFontFace::CreateInstancedStream and dwrite!DWriteFactory::CreateInstancedStream. This strongly indicates that the code is used for instancing the relatively new variable fonts [4], i.e. building a single instance of a variable font with a specific set of attributes. The CreateInstancedStream method is not a member of a public COM interface, but we have found that it is called by d2d1!dxc::TextConvertor::InstanceFontResources, which led us to find out that it can be reached through the Direct2D printing interface. It is unclear if there are other ways to trigger the font instancing functionality.
One example of a client application which uses Direct2D printing is Microsoft Edge. If a user opens a specially crafted website with an embedded OpenType variable font and decides to print it (to PDF, XPS, or another physical or virtual printer), the AFDKO code will execute with the attacker's font file as input. Below is a description of one such security vulnerability in Adobe's library exploitable through the Edge web browser.
-----=====[ Description ]=====-----
The readFDSelect() function in afdko/c/public/lib/source/cffread/cffread.c is designed to read and parse the FDSelect table of an input OpenType font. It is called by cfrBegFont(), the standard entry point function for the "cfr" (CFF Reader) module of AFDKO. The relevant part of the function is shown below:
--- cut ---
2347 switch (read1(h)) {
2348 case 0:
2349 for (gid = 0; gid < h->glyphs.cnt; gid++)
2350 h->glyphs.array[gid].iFD = read1(h);
2351 break;
2352 case 3: {
2353 int nRanges = read2(h);
2354
2355 gid = read2(h);
2356 while (nRanges--) {
2357 int fd = read1(h);
2358 long next = read2(h);
2359
2360 while (gid < next)
2361 h->glyphs.array[gid++].iFD = (unsigned char)fd;
2362 }
2363 } break;
--- cut ---
The "iFD" field is an unsigned char, as defined in afdko/c/public/lib/api/absfont.h:
--- cut ---
393 unsigned char iFD; /* CID-keyed: FD index */
--- cut ---
As shown above, it is initialized directly from the input stream and so the font file has complete control over it. There are no bounds checks to verify if the value is consistent with other structures in the font.
The field is used to store an index into the h->fdicts array, whose size is determined by the length of the FDArray index, see readFDArray():
--- cut ---
1698 readINDEX(h, &h->region.FDArrayINDEX, &h->index.FDArray);
1699 if (h->index.FDArray.count > 256)
1700 fatal(h, cfrErrBadFDArray);
1701
1702 /* Read FDArray */
1703 dnaSET_CNT(h->FDArray, h->index.FDArray.count);
1704 dnaSET_CNT(h->fdicts, h->index.FDArray.count);
--- cut ---
If any of the iFD fields are set to a value exceeding the lengths of the h->FDArray / h->fdicts arrays, the library may access invalid memory in the following locations in code:
--- cut ---
2796 if (h->fdicts.array[info->iFD].Private.LanguageGroup == 1)
2797 info->flags |= ABF_GLYPH_LANG_1;
[...]
2887 t2cAuxData *aux = &h->FDArray.array[info->iFD].aux;
--- cut ---
The second instance is especially dangerous in the context of memory safety, as the "aux" pointer fetched from an invalid memory location (potentially attacker-controlled) is later extensively used during the Type 2 CharString execution for reading and writing.
As a side note, we believe that the FDArray / fdicts arrays should consist of at least one element for every CID-keyed font, so we would suggest adding an additional check for "h->index.FDArray.count < 1" in the if statement shown below:
--- cut ---
1698 readINDEX(h, &h->region.FDArrayINDEX, &h->index.FDArray);
1699 if (h->index.FDArray.count > 256)
1700 fatal(h, cfrErrBadFDArray);
--- cut ---
-----=====[ Proof of Concept ]=====-----
The proof of concept file contains a one-element FDArray. It also sets the iFD index of all glyphs to 1, which triggers a slightly out-of-bounds (off by one) access to h->fdicts.array[1] that is easily detected by AddressSanitizer. In non-ASAN builds, the code crashes later on when trying to access an invalid h->FDArray.array[1].aux pointer.
The font is also specially crafted to parse correctly with DirectWrite but trigger the bug in AFDKO. The original CFF2 table was left untouched, and a second copy of it with the modified iFD was inserted at the end of the font with the tag "CFF ". This way, DirectWrite successfully loads the legitimate variable font, and AFDKO processes the modified version as the CFF table takes precedence over CFF2 due to the logic implemented in srcOpen() in afdko/c/public/lib/source/cffread/cffread.c.
-----=====[ Crash logs ]=====-----
A 64-bit build of "tx" compiled with AddressSanitizer, started with ./tx -cff poc.otf prints out the following report:
--- cut ---
=================================================================
==199139==ERROR: AddressSanitizer: heap-buffer-overflow on address 0x62f00000d808 at pc 0x000000529c2c bp 0x7ffd5db0b270 sp 0x7ffd5db0b268
READ of size 8 at 0x62f00000d808 thread T0
#0 0x529c2b in cfrBegFont afdko/c/public/lib/source/cffread/cffread.c:2796:56
#1 0x50928d in cfrReadFont afdko/c/tx/source/tx.c:137:9
#2 0x508cc3 in doFile afdko/c/tx/source/tx.c:429:17
#3 0x506b2e in doSingleFileSet afdko/c/tx/source/tx.c:488:5
#4 0x4fc91e in parseArgs afdko/c/tx/source/tx.c:558:17
#5 0x4f9470 in main afdko/c/tx/source/tx.c:1631:9
#6 0x7f10333f82b0 in __libc_start_main
#7 0x41e5b9 in _start
0x62f00000d808 is located 2440 bytes to the right of 51840-byte region [0x62f000000400,0x62f00000ce80)
allocated by thread T0 here:
#0 0x4c63f3 in __interceptor_malloc
#1 0x6c9ac2 in mem_manage afdko/c/public/lib/source/tx_shared/tx_shared.c:73:20
#2 0x5474a4 in dna_manage afdko/c/public/lib/source/cffread/cffread.c:271:17
#3 0x7de64e in dnaGrow afdko/c/public/lib/source/dynarr/dynarr.c:86:23
#4 0x7dec75 in dnaSetCnt afdko/c/public/lib/source/dynarr/dynarr.c:119:13
#5 0x526b21 in cfrBegFont afdko/c/public/lib/source/cffread/cffread.c:2631:5
#6 0x50928d in cfrReadFont afdko/c/tx/source/tx.c:137:9
#7 0x508cc3 in doFile afdko/c/tx/source/tx.c:429:17
#8 0x506b2e in doSingleFileSet afdko/c/tx/source/tx.c:488:5
#9 0x4fc91e in parseArgs afdko/c/tx/source/tx.c:558:17
#10 0x4f9470 in main afdko/c/tx/source/tx.c:1631:9
#11 0x7f10333f82b0 in __libc_start_main
SUMMARY: AddressSanitizer: heap-buffer-overflow afdko/c/public/lib/source/cffread/cffread.c:2796:56 in cfrBegFont
Shadow bytes around the buggy address:
0x0c5e7fff9ab0: fa fa fa fa fa fa fa fa fa fa fa fa fa fa fa fa
0x0c5e7fff9ac0: fa fa fa fa fa fa fa fa fa fa fa fa fa fa fa fa
0x0c5e7fff9ad0: fa fa fa fa fa fa fa fa fa fa fa fa fa fa fa fa
0x0c5e7fff9ae0: fa fa fa fa fa fa fa fa fa fa fa fa fa fa fa fa
0x0c5e7fff9af0: fa fa fa fa fa fa fa fa fa fa fa fa fa fa fa fa
=>0x0c5e7fff9b00: fa[fa]fa fa fa fa fa fa fa fa fa fa fa fa fa fa
0x0c5e7fff9b10: fa fa fa fa fa fa fa fa fa fa fa fa fa fa fa fa
0x0c5e7fff9b20: fa fa fa fa fa fa fa fa fa fa fa fa fa fa fa fa
0x0c5e7fff9b30: fa fa fa fa fa fa fa fa fa fa fa fa fa fa fa fa
0x0c5e7fff9b40: fa fa fa fa fa fa fa fa fa fa fa fa fa fa fa fa
0x0c5e7fff9b50: fa fa fa fa fa fa fa fa fa fa fa fa fa fa fa fa
Shadow byte legend (one shadow byte represents 8 application bytes):
Addressable: 00
Partially addressable: 01 02 03 04 05 06 07
Heap left redzone: fa
Freed heap region: fd
Stack left redzone: f1
Stack mid redzone: f2
Stack right redzone: f3
Stack after return: f5
Stack use after scope: f8
Global redzone: f9
Global init order: f6
Poisoned by user: f7
Container overflow: fc
Array cookie: ac
Intra object redzone: bb
ASan internal: fe
Left alloca redzone: ca
Right alloca redzone: cb
Shadow gap: cc
==199139==ABORTING
--- cut ---
A non-instrumented version of "tx" crashes with a SIGSEGV trying to fetch a function pointer from an unmapped memory area:
--- cut ---
Program received signal SIGSEGV, Segmentation fault.
0x000000000046382f in srcSeek (h=0x7ffffff60188, offset=23445) at ../../../../../source/t2cstr/t2cstr.c:255
255 if (h->aux->stm->seek(h->aux->stm, h->aux->src, offset))
(gdb) x/15i $rip
=> 0x46382f <srcSeek+31>: mov 0x20(%rsi),%rsi
0x463833 <srcSeek+35>: mov -0x10(%rbp),%rdi
0x463837 <srcSeek+39>: mov 0x9cef8(%rdi),%rdi
0x46383e <srcSeek+46>: mov 0x10(%rdi),%rdi
0x463842 <srcSeek+50>: mov -0x10(%rbp),%rax
0x463846 <srcSeek+54>: mov 0x9cef8(%rax),%rax
0x46384d <srcSeek+61>: mov 0x8(%rax),%rax
0x463851 <srcSeek+65>: mov -0x18(%rbp),%rdx
0x463855 <srcSeek+69>: mov %rsi,-0x20(%rbp)
0x463859 <srcSeek+73>: mov %rax,%rsi
0x46385c <srcSeek+76>: mov -0x20(%rbp),%rax
0x463860 <srcSeek+80>: callq *%rax
0x463862 <srcSeek+82>: cmp $0x0,%eax
0x463865 <srcSeek+85>: je 0x463877 <srcSeek+103>
0x46386b <srcSeek+91>: movl $0x1,-0x4(%rbp)
(gdb) info reg $rsi
rsi 0x440cc00044098000 4903505201673633792
(gdb) x/10gx $rsi
0x440cc00044098000: Cannot access memory at address 0x440cc00044098000
(gdb) print h->aux
$1 = (t2cAuxData *) 0x7157f8
(gdb) print h->aux->stm
$2 = (ctlStreamCallbacks *) 0x440cc00044098000
(gdb) print h->aux->stm->seek
Cannot access memory at address 0x440cc00044098020
(gdb) bt
#0 0x000000000046382f in srcSeek (h=0x7ffffff60188, offset=23445) at ../../../../../source/t2cstr/t2cstr.c:255
#1 0x000000000045da61 in t2Decode (h=0x7ffffff60188, offset=23445) at ../../../../../source/t2cstr/t2cstr.c:1271
#2 0x000000000045cb26 in t2cParse (offset=23445, endOffset=23563, aux=0x7157f8, gid=0, cff2=0x715118, glyph=0x6fd6e8, mem=0x7150b8)
at ../../../../../source/t2cstr/t2cstr.c:2591
#3 0x000000000041371f in readGlyph (h=0x710380, gid=0, glyph_cb=0x6fd6e8) at ../../../../../source/cffread/cffread.c:2927
#4 0x0000000000413495 in cfrIterateGlyphs (h=0x710380, glyph_cb=0x6fd6e8) at ../../../../../source/cffread/cffread.c:2966
#5 0x0000000000405f11 in cfrReadFont (h=0x6f6010, origin=0, ttcIndex=0) at ../../../../source/tx.c:151
#6 0x0000000000405c9e in doFile (h=0x6f6010, srcname=0x7fffffffdf1b "poc.otf") at ../../../../source/tx.c:429
#7 0x000000000040532e in doSingleFileSet (h=0x6f6010, srcname=0x7fffffffdf1b "poc.otf")
at ../../../../source/tx.c:488
#8 0x0000000000402f59 in parseArgs (h=0x6f6010, argc=2, argv=0x7fffffffdc20) at ../../../../source/tx.c:558
#9 0x0000000000401df2 in main (argc=2, argv=0x7fffffffdc20) at ../../../../source/tx.c:1631
--- cut ---
A similar Microsoft Edge renderer process crash is also shown below:
--- cut ---
(1838.4490): Access violation - code c0000005 (first chance)
First chance exceptions are reported before any exception handling.
This exception may be expected and handled.
DWrite!srcSeek+0x21:
00007ffc`c59f1549 488b4120 mov rax,qword ptr [rcx+20h] ds:0030002f`00330050=????????????????
DWrite!srcSeek:
00007ffc`c59f1528 48895c2408 mov qword ptr [rsp+8],rbx
00007ffc`c59f152d 57 push rdi
00007ffc`c59f152e 4883ec20 sub rsp,20h
00007ffc`c59f1532 8bda mov ebx,edx
00007ffc`c59f1534 488bf9 mov rdi,rcx
00007ffc`c59f1537 488b91a8f40000 mov rdx,qword ptr [rcx+0F4A8h]
00007ffc`c59f153e 448bc3 mov r8d,ebx
00007ffc`c59f1541 488b4a10 mov rcx,qword ptr [rdx+10h]
00007ffc`c59f1545 488b5208 mov rdx,qword ptr [rdx+8]
00007ffc`c59f1549 488b4120 mov rax,qword ptr [rcx+20h]
00007ffc`c59f154d ff15edd20200 call qword ptr [DWrite!_guard_dispatch_icall_fptr (00007ffc`c5a1e840)]
00007ffc`c59f1553 85c0 test eax,eax
00007ffc`c59f1555 7407 je DWrite!srcSeek+0x36 (00007ffc`c59f155e)
00007ffc`c59f1557 b801000000 mov eax,1
00007ffc`c59f155c eb08 jmp DWrite!srcSeek+0x3e (00007ffc`c59f1566)
00007ffc`c59f155e 899f94f40000 mov dword ptr [rdi+0F494h],ebx
00007ffc`c59f1564 33c0 xor eax,eax
00007ffc`c59f1566 488b5c2430 mov rbx,qword ptr [rsp+30h]
00007ffc`c59f156b 4883c420 add rsp,20h
00007ffc`c59f156f 5f pop rdi
00007ffc`c59f1570 c3 ret
0:038> db poi(rdi+f4a8)
0000020c`ffd04170 ee 01 64 00 6f 00 77 00-73 00 2f 00 32 00 30 00 ..d.o.w.s./.2.0.
0000020c`ffd04180 30 00 33 00 2f 00 30 00-38 00 2f 00 70 00 72 00 0.3./.0.8./.p.r.
0000020c`ffd04190 69 00 6e 00 74 00 69 00-6e 00 67 00 2f 00 70 00 i.n.t.i.n.g./.p.
0000020c`ffd041a0 72 00 69 00 6e 00 74 00-73 00 63 00 68 00 65 00 r.i.n.t.s.c.h.e.
0000020c`ffd041b0 6d 00 61 00 6b 00 65 00-79 00 77 00 6f 00 72 00 m.a.k.e.y.w.o.r.
0000020c`ffd041c0 64 00 73 00 7d 00 50 00-00 00 67 00 65 00 52 00 d.s.}.P...g.e.R.
0000020c`ffd041d0 65 00 73 00 6f 00 6c 00-75 00 74 00 69 00 6f 00 e.s.o.l.u.t.i.o.
0000020c`ffd041e0 6e 00 00 00 00 00 80 3e-00 00 80 3e 00 00 80 3e n......>...>...>
0:038> k
# Child-SP RetAddr Call Site
00 0000008a`e128be10 00007ffc`c59f3fe5 DWrite!srcSeek+0x21
01 0000008a`e128be40 00007ffc`c59f4a5b DWrite!t2DecodeSubr+0x21
02 0000008a`e128bea0 00007ffc`c59dc103 DWrite!t2cParse+0x287
03 0000008a`e129b800 00007ffc`c59de3f7 DWrite!readGlyph+0x12b
04 0000008a`e129b870 00007ffc`c59d2272 DWrite!cfrIterateGlyphs+0x37
05 0000008a`e129b8c0 00007ffc`c596157a DWrite!AdobeCFF2Snapshot+0x19a
06 0000008a`e129bdc0 00007ffc`c5960729 DWrite!FontInstancer::InstanceCffTable+0x212
07 0000008a`e129bfa0 00007ffc`c596039a DWrite!FontInstancer::CreateInstanceInternal+0x249
08 0000008a`e129c1c0 00007ffc`c5945a4e DWrite!FontInstancer::CreateInstance+0x192
09 0000008a`e129c520 00007ffc`d4ae61ab DWrite!DWriteFontFace::CreateInstancedStream+0x9e
0a 0000008a`e129c5b0 00007ffc`d4ad9148 d2d1!dxc::TextConvertor::InstanceFontResources+0x19f
0b 0000008a`e129c6d0 00007ffc`b3ff5464 d2d1!dxc::CXpsPrintControl::Close+0xc8
0c 0000008a`e129c720 00007ffc`b3fcfd30 edgehtml!CDXPrintControl::Close+0x44
0d 0000008a`e129c770 00007ffc`b3fd48bd edgehtml!CTemplatePrinter::EndPrintD2D+0x5c
0e 0000008a`e129c7a0 00007ffc`b3eab995 edgehtml!CPrintManagerTemplatePrinter::endPrint+0x2d
0f 0000008a`e129c7d0 00007ffc`b3b09485 edgehtml!CFastDOM::CMSPrintManagerTemplatePrinter::Trampoline_endPrint+0x45
10 0000008a`e129c810 00007ffc`a3c244c1 edgehtml!CFastDOM::CMSPrintManagerTemplatePrinter::Profiler_endPrint+0x25
[...]
--- cut ---
-----=====[ References ]=====-----
[1] https://blog.typekit.com/2014/09/19/new-from-adobe-type-open-sourced-font-development-tools/
[2] https://github.com/adobe-type-tools/afdko
[3] https://docs.microsoft.com/en-us/windows/desktop/directwrite/direct-write-portal
[4] https://medium.com/variable-fonts/https-medium-com-tiro-introducing-opentype-variable-fonts-12ba6cd2369
Proof of Concept:
https://gitlab.com/exploit-database/exploitdb-bin-sploits/-/raw/main/bin-sploits/47097.zip