Annotation of www/errata63.html, Revision 1.44
1.35 bentley 1: <!doctype html>
2: <html lang=en id=errata>
3: <meta charset=utf-8>
4:
1.1 deraadt 5: <title>OpenBSD 6.3 Errata</title>
6: <meta name="description" content="the OpenBSD errata page">
7: <meta name="viewport" content="width=device-width, initial-scale=1">
8: <link rel="stylesheet" type="text/css" href="openbsd.css">
9: <link rel="canonical" href="https://www.openbsd.org/errata63.html">
10:
11: <!--
12: IMPORTANT REMINDER
13: IF YOU ADD A NEW ERRATUM, MAIL THE PATCH TO TECH AND ANNOUNCE
14: -->
15:
1.35 bentley 16: <h2 id=OpenBSD>
1.1 deraadt 17: <a href="index.html">
1.35 bentley 18: <i>Open</i><b>BSD</b></a>
19: 6.3 Errata
1.1 deraadt 20: </h2>
21: <hr>
22:
23: For errata on a certain release, click below:<br>
1.38 schwarze 24: <a href="errata20.html">2.0</a>,
1.1 deraadt 25: <a href="errata21.html">2.1</a>,
26: <a href="errata22.html">2.2</a>,
27: <a href="errata23.html">2.3</a>,
28: <a href="errata24.html">2.4</a>,
29: <a href="errata25.html">2.5</a>,
30: <a href="errata26.html">2.6</a>,
31: <a href="errata27.html">2.7</a>,
32: <a href="errata28.html">2.8</a>,
33: <a href="errata29.html">2.9</a>,
34: <a href="errata30.html">3.0</a>,
35: <a href="errata31.html">3.1</a>,
36: <a href="errata32.html">3.2</a>,
37: <a href="errata33.html">3.3</a>,
38: <a href="errata34.html">3.4</a>,
39: <a href="errata35.html">3.5</a>,
1.38 schwarze 40: <br>
1.1 deraadt 41: <a href="errata36.html">3.6</a>,
42: <a href="errata37.html">3.7</a>,
43: <a href="errata38.html">3.8</a>,
44: <a href="errata39.html">3.9</a>,
45: <a href="errata40.html">4.0</a>,
46: <a href="errata41.html">4.1</a>,
47: <a href="errata42.html">4.2</a>,
48: <a href="errata43.html">4.3</a>,
49: <a href="errata44.html">4.4</a>,
50: <a href="errata45.html">4.5</a>,
51: <a href="errata46.html">4.6</a>,
52: <a href="errata47.html">4.7</a>,
53: <a href="errata48.html">4.8</a>,
54: <a href="errata49.html">4.9</a>,
55: <a href="errata50.html">5.0</a>,
56: <a href="errata51.html">5.1</a>,
1.38 schwarze 57: <br>
1.1 deraadt 58: <a href="errata52.html">5.2</a>,
59: <a href="errata53.html">5.3</a>,
60: <a href="errata54.html">5.4</a>,
61: <a href="errata55.html">5.5</a>,
62: <a href="errata56.html">5.6</a>,
63: <a href="errata57.html">5.7</a>,
64: <a href="errata58.html">5.8</a>,
65: <a href="errata59.html">5.9</a>,
66: <a href="errata60.html">6.0</a>,
67: <a href="errata61.html">6.1</a>,
1.19 deraadt 68: <a href="errata62.html">6.2</a>,
1.32 deraadt 69: <a href="errata64.html">6.4</a>,
1.37 deraadt 70: <a href="errata65.html">6.5</a>,
1.39 deraadt 71: <a href="errata66.html">6.6</a>,
1.40 deraadt 72: <a href="errata67.html">6.7</a>,
1.41 deraadt 73: <a href="errata68.html">6.8</a>,
1.42 tj 74: <br>
1.43 deraadt 75: <a href="errata69.html">6.9</a>,
1.44 ! deraadt 76: <a href="errata70.html">7.0</a>,
! 77: <a href="errata71.html">7.1</a>.
1.1 deraadt 78: <hr>
79:
80: <p>
81: Patches for the OpenBSD base system are distributed as unified diffs.
82: Each patch is cryptographically signed with the
83: <a href="https://man.openbsd.org/OpenBSD-6.3/signify.1">signify(1)</a> tool and contains
84: usage instructions.
85: All the following patches are also available in one
86: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3.tar.gz">tar.gz file</a>
87: for convenience.
88:
89: <p>
90: Alternatively, the <a href="https://man.openbsd.org/syspatch">syspatch(8)</a>
91: utility can be used to apply binary updates on the following architectures:
92: amd64, i386, arm64.
93:
94: <p>
95: Patches for supported releases are also incorporated into the
1.33 tj 96: <a href="stable.html">-stable branch</a>.
1.1 deraadt 97:
98: <hr>
99:
100: <ul>
101:
1.2 afresh1 102: <li id="p001_perl">
1.35 bentley 103: <strong>001: SECURITY FIX: April 14, 2018</strong>
1.2 afresh1 104: <i>All architectures</i>
105: <br>
106: Heap overflows exist in perl which can lead to segmentation faults,
107: crashes, and reading memory past the buffer.
108: <br>
109: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/001_perl.patch.sig">
110: A source code patch exists which remedies this problem.</a>
111: <p>
1.1 deraadt 112:
1.4 tj 113: <li id="p002_libtls">
1.35 bentley 114: <strong>002: RELIABILITY FIX: April 21, 2018</strong>
1.3 tj 115: <i>All architectures</i>
116: <br>
1.4 tj 117: Additional data is inadvertently removed when private keys are cleared from
118: TLS configuration, which can prevent OCSP from functioning correctly.
1.3 tj 119: <br>
1.4 tj 120: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/002_libtls.patch.sig">
1.3 tj 121: A source code patch exists which remedies this problem.</a>
122: <p>
123:
1.4 tj 124: <li id="p003_arp">
1.35 bentley 125: <strong>003: RELIABILITY FIX: April 21, 2018</strong>
1.3 tj 126: <i>All architectures</i>
127: <br>
1.4 tj 128: ARP replies could be sent on the wrong member of a bridge(4) interface.
1.3 tj 129: <br>
1.4 tj 130: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/003_arp.patch.sig">
1.3 tj 131: A source code patch exists which remedies this problem.</a>
132: <p>
133:
134: <li id="p004_gif">
1.35 bentley 135: <strong>004: SECURITY FIX: April 21, 2018</strong>
1.3 tj 136: <i>All architectures</i>
137: <br>
138: In the gif(4) interface, use the specified protocol for IPv6, plug
139: a mbuf leak and avoid a use after free.
140: <br>
141: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/004_gif.patch.sig">
142: A source code patch exists which remedies this problem.</a>
143: <p>
144:
145: <li id="p005_httpd">
1.35 bentley 146: <strong>005: RELIABILITY FIX: April 21, 2018</strong>
1.3 tj 147: <i>All architectures</i>
148: <br>
149: httpd can leak file descriptors when servicing range requests.
150: <br>
151: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/005_httpd.patch.sig">
152: A source code patch exists which remedies this problem.</a>
153: <p>
154:
1.5 tj 155: <li id="p006_ipseclen">
1.35 bentley 156: <strong>006: RELIABILITY FIX: May 8, 2018</strong>
1.5 tj 157: <i>All architectures</i>
158: <br>
159: Incorrect handling of fragmented IPsec packets could result in a system crash.
160: <br>
161: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/006_ipseclen.patch.sig">
162: A source code patch exists which remedies this problem.</a>
163: <p>
164:
165: <li id="p007_libcrypto">
1.35 bentley 166: <strong>007: RELIABILITY FIX: May 8, 2018</strong>
1.5 tj 167: <i>All architectures</i>
168: <br>
169: Incorrect checks in libcrypto can prevent Diffie-Hellman Exchange operations
170: from working.
171: <br>
172: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/007_libcrypto.patch.sig">
173: A source code patch exists which remedies this problem.</a>
174: <p>
175:
1.6 tj 176: <li id="p008_ipsecout">
1.35 bentley 177: <strong>008: RELIABILITY FIX: May 17, 2018</strong>
1.6 tj 178: <i>All architectures</i>
179: <br>
180: A malicious packet can cause a kernel crash when using IPsec over IPv6.
181: <br>
182: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/008_ipsecout.patch.sig">
183: A source code patch exists which remedies this problem.</a>
184: <p>
185:
1.7 tb 186: <li id="p009_libcrypto">
1.35 bentley 187: <strong>009: SECURITY FIX: June 14, 2018</strong>
1.7 tb 188: <i>All architectures</i>
189: <br>
190: DSA and ECDSA signature generation can potentially leak secret information
191: to a timing side-channel attack.
192: <br>
193: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/009_libcrypto.patch.sig">
194: A source code patch exists which remedies this problem.</a>
195: <p>
196:
1.8 tj 197: <li id="p010_intelfpu">
1.35 bentley 198: <strong>010: SECURITY FIX: June 17, 2018</strong>
1.8 tj 199: <i>amd64</i>
200: <br>
201: Intel CPUs speculatively access FPU registers even when the FPU is disabled,
202: so data (including AES keys) from previous contexts could be discovered
203: if using the lazy-save approach.
204: <br>
205: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/010_intelfpu.patch.sig">
206: A source code patch exists which remedies this problem.</a>
207: <p>
208:
1.9 afresh1 209: <li id="p011_perl">
1.35 bentley 210: <strong>011: SECURITY FIX: June 21, 2018</strong>
1.9 afresh1 211: <i>All architectures</i>
212: <br>
213: Perl's Archive::Tar module could be made to write files outside of
214: its working directory.
215: <br>
216: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/011_perl.patch.sig">
217: A source code patch exists which remedies this problem.</a>
218: <p>
219:
1.10 tj 220: <li id="p012_execsize">
1.35 bentley 221: <strong>012: RELIABILITY FIX: July 25, 2018</strong>
1.10 tj 222: <i>All architectures</i>
223: <br>
224: A regular user could trigger a kernel panic by executing an invalid
225: ELF binary.
226: <br>
227: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/012_execsize.patch.sig">
228: A source code patch exists which remedies this problem.</a>
229: <p>
230:
231: <li id="p013_ipsecexpire">
1.35 bentley 232: <strong>013: RELIABILITY FIX: July 25, 2018</strong>
1.10 tj 233: <i>All architectures</i>
234: <br>
235: When an IPsec key expired, the kernel could panic due to unfinished
236: timeout tasks.
237: <br>
238: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/013_ipsecexpire.patch.sig">
239: A source code patch exists which remedies this problem.</a>
240: <p>
241:
1.11 tj 242: <li id="p014_amdlfence">
1.35 bentley 243: <strong>014: SECURITY FIX: July 31, 2018</strong>
1.11 tj 244: <i>amd64 and i386</i>
245: <br>
246: On AMD CPUs, set a chicken bit which turns LFENCE into a serialization
247: instruction against speculation.
248: <br>
249: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/014_amdlfence.patch.sig">
250: A source code patch exists which remedies this problem.</a>
251: <p>
252:
253: <li id="p015_ioport">
1.35 bentley 254: <strong>015: SECURITY FIX: July 31, 2018</strong>
1.11 tj 255: <i>i386</i>
256: <br>
257: IO port permissions were incorrectly restricted.
258: <br>
259: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/015_ioport.patch.sig">
260: A source code patch exists which remedies this problem.</a>
261: <p>
262:
1.14 tj 263: <li id="p016_fpuinit">
1.35 bentley 264: <strong>016: RELIABILITY FIX: August 4, 2018</strong>
1.14 tj 265: <i>amd64</i>
266: <br>
267: Incorrect initialization of the FPU caused floating point exceptions
268: when running on Xen.
269: <br>
270: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/016_fpuinit.patch.sig">
271: A source code patch exists which remedies this problem.</a>
272: <p>
273:
1.17 tj 274: <li id="p017_fpufork">
1.35 bentley 275: <strong>017: SECURITY FIX: August 24, 2018</strong>
1.17 tj 276: <i>amd64</i>
277: <br>
278: State from the FPU of one userland process could be exposed to other processes.
279: <br>
280: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/017_fpufork.patch.sig">
281: A source code patch exists which remedies this problem.</a>
282: <p>
283:
284: <li id="p018_vmml1tf">
1.35 bentley 285: <strong>018: SECURITY FIX: August 24, 2018</strong>
1.17 tj 286: <i>amd64</i>
287: <br>
288: The Intel L1TF bug allows a vmm guest to read host memory.
289: Install the CPU firmware using fw_update(1) and apply this workaround.
290: <br>
291: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/018_vmml1tf.patch.sig">
292: A source code patch exists which remedies this problem.</a>
293: <p>
294:
1.18 tj 295: <li id="p019_ldtr">
1.35 bentley 296: <strong>019: SECURITY FIX: September 21, 2018</strong>
1.18 tj 297: <i>amd64</i>
298: <br>
299: On AMD CPUs, LDTR must be managed crossing between VMs.
300: <br>
301: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/019_ldtr.patch.sig">
302: A source code patch exists which remedies this problem.</a>
303: <p>
304:
1.20 tj 305: <li id="p020_xserver">
1.35 bentley 306: <strong>020: SECURITY FIX: October 25, 2018</strong>
1.20 tj 307: <i>All architectures</i>
308: <br>
1.36 deraadt 309: The Xorg X server incorrectly validates certain options, allowing arbitrary
1.20 tj 310: files to be overwritten.
311: As an immediate (temporary) workaround, the Xorg binary can be disabled
312: by running: <code>chmod u-s /usr/X11R6/bin/Xorg</code>
313: <br>
314: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/020_xserver.patch.sig">
315: A source code patch exists which remedies this problem.</a>
316: <p>
317:
1.21 tj 318: <li id="p021_syspatch">
1.35 bentley 319: <strong>021: RELIABILITY FIX: November 2, 2018</strong>
1.21 tj 320: <i>i386, amd64, arm64</i>
321: <br>
322: The syspatch utility incorrectly handles symbolic links.
323: <br>
324: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/021_syspatch.patch.sig">
325: A source code patch exists which remedies this problem.</a>
326: <p>
327:
1.22 tj 328: <li id="p022_blinding">
1.35 bentley 329: <strong>022: SECURITY FIX: November 17, 2018</strong>
1.22 tj 330: <i>All architectures</i>
331: <br>
332: Timing side channels may leak information about DSA and ECDSA private keys.
333: <br>
334: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/022_blinding.patch.sig">
335: A source code patch exists which remedies this problem.</a>
336: <p>
337:
338: <li id="p023_lockf">
1.35 bentley 339: <strong>023: RELIABILITY FIX: November 17, 2018</strong>
1.22 tj 340: <i>All architectures</i>
341: <br>
342: A recent change to POSIX file locks could cause incorrect results
343: during lock acquisition.
344: <br>
345: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/023_lockf.patch.sig">
346: A source code patch exists which remedies this problem.</a>
347: <p>
348:
1.23 tj 349: <li id="p024_perl">
1.35 bentley 350: <strong>024: SECURITY FIX: November 29, 2018</strong>
1.23 tj 351: <i>All architectures</i>
352: <br>
353: Various overflows exist in perl.
354: <br>
355: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/024_perl.patch.sig">
356: A source code patch exists which remedies this problem.</a>
357: <p>
358:
359: <li id="p025_uipc">
1.35 bentley 360: <strong>025: RELIABILITY FIX: November 29, 2018</strong>
1.23 tj 361: <i>All architectures</i>
362: <br>
363: UNIX domain sockets leak kernel memory with MSG_PEEK on SCM_RIGHTS, or can
364: attempt excessive memory allocations leading to a crash.
365: <br>
366: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/025_uipc.patch.sig">
367: A source code patch exists which remedies this problem.</a>
368: <p>
369:
1.24 tj 370: <li id="p026_recvwait">
1.35 bentley 371: <strong>026: RELIABILITY FIX: December 20, 2018</strong>
1.24 tj 372: <i>All architectures</i>
373: <br>
374: While recv(2) with the MSG_WAITALL flag was receiving control
375: messages from a socket, the kernel could panic.
376: <br>
377: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/026_recvwait.patch.sig">
378: A source code patch exists which remedies this problem.</a>
379: <p>
380:
1.25 tj 381: <li id="p027_pcbopts">
1.35 bentley 382: <strong>027: SECURITY FIX: December 22, 2018</strong>
1.25 tj 383: <i>All architectures</i>
384: <br>
385: The setsockopt(2) system call could overflow mbuf cluster kernel
386: memory by 4 bytes.
387: <br>
388: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/027_pcbopts.patch.sig">
389: A source code patch exists which remedies this problem.</a>
390: <p>
391:
1.28 tj 392: <li id="p028_mincore">
1.35 bentley 393: <strong>028: SECURITY FIX: February 5, 2019</strong>
1.28 tj 394: <i>All architectures</i>
395: <br>
396: The mincore() system call can be used to observe memory access patterns
397: of other processes.
398: <br>
399: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/028_mincore.patch.sig">
400: A source code patch exists which remedies this problem.</a>
401: <p>
402:
403: <li id="p029_nfs">
1.35 bentley 404: <strong>029: RELIABILITY FIX: February 5, 2019</strong>
1.28 tj 405: <i>All architectures</i>
406: <br>
407: Missing length checks in the NFS server and client can lead to crashes
408: and other errors.
409: <br>
410: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/029_nfs.patch.sig">
411: A source code patch exists which remedies this problem.</a>
412: <p>
413:
1.29 tj 414: <li id="p030_pf6frag">
1.35 bentley 415: <strong>030: SECURITY FIX: March 1, 2019</strong>
1.29 tj 416: <i>All architectures</i>
417: <br>
418: Fragmented IPv6 packets may be erroneously passed by pf or lead to a crash.
419: <br>
420: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/030_pf6frag.patch.sig">
421: A source code patch exists which remedies this problem.</a>
422: <p>
423:
1.30 tj 424: <li id="p031_pficmp">
1.35 bentley 425: <strong>031: SECURITY FIX: March 22, 2019</strong>
1.30 tj 426: <i>All architectures</i>
427: <br>
428: A state in pf could pass ICMP packets to a destination IP address
429: that did not match the state.
430: <br>
431: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/031_pficmp.patch.sig">
432: A source code patch exists which remedies this problem.</a>
433: <p>
434:
1.31 tj 435: <li id="p032_vmmints">
1.35 bentley 436: <strong>032: SECURITY FIX: March 27, 2019</strong>
1.31 tj 437: <i>amd64 and i386</i>
438: <br>
439: GDT and IDT limits were improperly restored during VMM context switches.
440: <br>
441: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/032_vmmints.patch.sig">
442: A source code patch exists which remedies this problem.</a>
443: <p>
444:
1.34 tj 445: <li id="p033_rip6cksum">
1.35 bentley 446: <strong>033: RELIABILITY FIX: May 3, 2019</strong>
1.34 tj 447: <i>All architectures</i>
448: <br>
449: If a userland program sets the IPv6 checksum offset on a raw socket,
450: an incoming packet could crash the kernel. ospf6d is such a program.
451: <br>
452: <a href="https://ftp.openbsd.org/pub/OpenBSD/patches/6.3/common/033_rip6cksum.patch.sig">
453: A source code patch exists which remedies this problem.</a>
454: <p>
455:
1.1 deraadt 456: </ul>
457:
458: <hr>