CVE-2010-4476

aka The GLUEY input

CVE: CVE-2010-4476
CWE: 682
bugs: []
vccs:
- note: Where the code was causing the vulnerability
  commit: 407841c426dc52a4c6b8ccd297df6c484a540056
fixes:
- note: This code contains the fix of the vulnerability and converts the string thats
    causing the forloop to be more readable data.
  commit: 2f7901c77ae57ecb97eac6c37aee1a34c4970845
bounty:
  amt: 
  url: 
  announced: 
lessons:
  yagni:
    note: 
    applies: false
  question: |
    Are there any common lessons we have learned from class that apply to this
    vulnerability? In other words, could this vulnerability serve as an example
    of one of those lessons?
    Leave "applies" blank or put false if you did not see that lesson (you do
    not need to put a reason). Put "true" if you feel the lesson applies and put
    a quick explanation of how it applies.
    Don't feel the need to claim that ALL of these apply, but it's pretty likely
    that one or two of them apply.
    If you think of another lesson we covered in class that applies here, feel
    free to give it a small name and add one in the same format as these.
  serial_killer:
    note: 
    applies: false
  complex_inputs:
    note: 
    applies: false
  distrust_input:
    note: This is distrusted input because it converts the floating point numbers
      and sticking the system to one loop
    applies: true
  least_privilege:
    note: 
    applies: false
  native_wrappers:
    note: 
    applies: false
  defense_in_depth:
    note: 
    applies: false
  secure_by_default:
    note: 
    applies: false
  environment_variables:
    note: 
    applies: false
  security_by_obscurity:
    note: 
    applies: false
  frameworks_are_optional:
    note: 
    applies: false
upvotes: 2
mistakes:
  answer: This is an easy "I didnt think about it" sort of maintainability considering
    the quick fix was a form of string concatination.
  question: |
    In your opinion, after all of this research, what mistakes were made that
    led to this vulnerability? Coding mistakes? Design mistakes?
    Maintainability? Requirements? Miscommunications?
    Look at the CWE entry for this vulnerability and examine the mitigations
    they have written there. Are they doing those? Does the fix look proper?
    Use those questions to inspire your answer. Don't feel obligated to answer
    every one. Write a thoughtful entry here that those ing the software
    engineering industry would find interesting.
nickname: The GLUEY input
reported: '2011-02-01'
announced: '2011-01-31'
subsystem:
  name: catalina
  answer: The path to the file = container/catalina/src/share/org/apache/catalina/connector/Request.java
  question: |
    What subsystems was the mistake in?
    Look at the path of the source code files code that were fixed to get
    directory names. Look at comments in the code. Look at the bug reports how
    the bug report was tagged.
    Examples: "clipboard", "gpu", "ssl", "speech", "renderer"
discovered:
  date: '2011-01-31'
  answer: "Date discovered from the Tomcat website and verified through the commit
    hashes.\nIt doesnt say who discovered or what happened, it just says it was reported
    to the security team. \n"
  contest: false
  question: |
    How was this vulnerability discovered?
    Go to the bug report and read the conversation to find out how this was
    originally found.
    * Answer in longform below in "answer"
    * Fill in the date in YYYY-MM-DD
    * If it's clear that the vulnerability was discovered by a contest,
      fill in the name there.
    * The "automated" flag can be true, false, or nil.
    If there is no evidence as to how this vulnerability was found, then you
    may leave the entries blank except for "answer", BUT please write down
    where you looked in "answer".
  automated: false
description: Attackers causing denial of service via a certain number input to loop
  infinitely through estimations during a conversion of data to a floating number
  in some of the earlier versions of Java.
unit_tested:
  fix: true
  code: true
  answer: |
    The unit tests were found in the Git blame history of the files involved.
    There was other code tested in the area before the vulnerability but did not cover this specific case
  question: |
    Were automated unit tests involved in this vulnerability?
    Was the original code unit tested, or not unit tested? Did the fix involve
    improving the automated tests?
    Write the reasoning behind your answer in the "answer" field.
    For the "code" answer below, look not only at the fix but the surrounding
    code near the fix and determine if and was there were unit tests involved
    for this module. Must be just "true" or "false".
    For the "fix" answer below, check if the fix for the vulnerability involves
    adding or improving an automated test to ensure this doesn't happen again.
    Must be just "true" or "false".
curation_level: 1
CWE_instructions: |
  Please go to cwe.mitre.org and find the most specific, appropriate CWE entry
  that describes your vulnerability. (Tip: this may not be a good one to start
  with - spend time understanding this vulnerability before making your choice!)
incomplete_fixes:
- note: 
  commit: 
- note: 
  commit: 
bounty_instructions: |
  If you came across any indications that a bounty was paid out for this
  vulnerability, fill it out here. Or correct it if the information already here
  was wrong. Otherwise, leave it blank.
interesting_commits:
  answer: There was only one commit enough to search through and nothing else
  commits:
  - note: This is the only commit that had the fix
    commit: 2f7901c77ae57ecb97eac6c37aee1a34c4970845
  question: |
    Are there any interesting commits between your VCC(s) and fix(es)?
    Write a brief (under 100 words) description of why you think this commit was
    interesting in light of the lessons learned from this vulnerability. Any
    emerging themes?
    If there are no interesting commits, demonstrate that you completed this
    section by explaining what happened between the VCCs and the fix.
curated_instructions: |
  If you are manually editing this file, then you are "curating" it. Set the
  entry below to "true" as soon as you start. This will enable additional
  integrity checks on this file to make sure you fill everything out properly.
  If you are a student, we cannot accept your work as finished unless curated is
  set to true.
upvotes_instructions: |
  Students: when initially writing this, ignore this upvotes number.
  Once this work is being reviewed, you will be giving a certain amount of
  upvotes to each vulnerability you see. Your peers will tell you how
  interesting they think this vulnerability is, and you'll add that to the
  upvotes score on your branch.
nickname_instructions: |
  Nickname is optional. Provide a useful, professional, and catchy nickname for
  this vulnerability. Ideally fewer than 30 characters. This will be shown
  alongside its CVE to make it more easily distinguished from the rest.
reported_instructions: |
  Was there a date that this vulnerability was reported to the team? You can
  find this in changelogs, blogs, bug reports, or perhaps the CVE data.
  Please enter your date in YYYY-MM-DD format.
announced_instructions: |
  Was there a date that this vulnerability was announced to the world? You can
  find this in changelogs, blogs, bug reports, or perhaps the CVE data.
  Please enter your date in YYYY-MM-DD format.
fixes_vcc_instructions: |
  Please put the Git commit SHA in "commit" below, and any notes about how this
  was discovered in the "note" field.
  Refer to our instructions on how to find a Git SHA from an SVN revision.
description_instructions: |
  You can get an initial description from the CVE entry on cve.mitre.org. These
  descriptions are a fine start, but they can be kind of jargony.
  Rewrite this description in your own words. Make it interesting and easy to
  read to anyone with some programming experience. We can always pull up the NVD
  description later to get more technical.
  Try to still be specific in your description, but remove Chromium-specific
  stuff. Remove references to versions, specific filenames, and other jargon
  that outsiders to Chromium would not understand. Technology like "regular
  expressions" is fine, and security phrases like "invalid write" are fine to
  keep too.
incomplete_fix_instructions: |
  Did the above "fixes" actually fix the vulnerability?
  Please list any fix commits for this vulnerability that had to be corrected
  at a later date.