Monday, August 24, 2020

Shadow Attacks: Hiding And Replacing Content In Signed PDFs

Last year we presented How to Spoof PDF Signatures. We showed three different attack classes. In cooperation with the CERT-Bund (BSI), we contacted the vendors of affected PDF applications to inform them about the vulnerabilities and to support them in developing countermeasures. Most vendors reacted promptly and closed the reported vulnerabilities promptly.
One of those three attack classes was Incremental Saving Attacks (ISA). The proposed countermeasures aimed to distinguish PDF objects appended to the file via updates into dangerous and non-dangerous. In other words, black and whitelisting approaches were used. 

Naturally, this countermeasure succeeds as long as the PDF update contains evil objects. So we came up with the idea to attack PDFs with only non-dangerous updates. We achieve this by adding invisible, malicious content when creating the PDF document (before it is signed) and to reveal them after signing.
Today, we present Shadow Attacks! Our evaluation of 28 PDF applications reveals that 15 of them, including Adobe Acrobat and Foxit Reader, are vulnerable.
We responsibly disclosed all affected vendors. Together with the CERT-Bund (BSI), we supported the vendors in developing suitable countermeasures. The attacks are documented in CVE-2020-9592 and CVE-2020-9596.
Full results are available in our vulnerability report and on our website.

What are PDF signatures used for and what is the legal status?

PDFs can be secured against manipulations by using digital signatures. This feature enables use-cases such as signing contracts, agreements, payments, and invoices. Regulations like the eSign Act in the USA or the eIDAS regulation in Europe facilitate the acceptance of digitally signed documents by companies and governments. Asian and South American countries also accept digitally signed documents as an equivalent to manually signed paper documents. Adobe Cloud, a leading online service for signing PDF documents, provided 8 billion electronic and digital signature transactions in 2019. The same year, DocuSign processed 15 million documents each day.

What could a Simple Signing Process look like?
The process of digitally signing a contract involves multiple entities and can look as follows: The PDF contract is prepared by the collaborators. The collaborators can be lawyers, designers, typewriters, or members of different companies. Finally, the contract is digitally signed.

PDF Structure and Signature Basics


A PDF consists of three parts: Body, Xref table, and Trailer

The PDF is a platform-independent document format. It starts with a Header, to set the version, and is followed by three main parts, as depicted in the figure.

The first part defines the PDF Body. It contains different objects, which are identified by its object number. The most important object is the root object, which is called the Catalog. In the figure, the Catalog has the object identifier 1 0. The Catalog defines the whole PDF structure by linking to other objects in the Body. In the example given, the Catalog links to form object AcroForm, to some PDF MetaData, and to actual PDF Pages. The latter can reference multiple Page objects, which in turn reference, for example, the actual Content, Font, and Images.
The second part of the PDF is the Xref table. It contains references to the byte positions of all objects used in the PDF Body.
The third part is the Trailer. It consists of two further references: one to the byte position at which the Xref table starts, and another link to the identifier of the root object (1 0).

Incremental Updates and Digitally Signing a PDF



The content of a PDF may be updated for different reasons, for example, by adding review comments or by filling out PDF forms. From a technical perspective, it is possible to add this new content directly into the existing PDF Body and add new references in the Xref table. However, this is not the case according to the PDF specification. Changes to a PDF are implemented using Incremental Updates. An Incremental Update adds new objects into a new PDF Body, which is directly appended after the previous Trailer as shown in the figure to the right. To adequately address the new objects, a new Xref table and Trailer are also appended as well for each Incremental Update. Summarized, a PDF can have multiple Bodies, Xref tables, and Trailers, if Incremental Update is applied.
For protecting the integrity and the authenticity of a PDF, digital signatures can be applied. For this purpose, a Signature object is created and appended to the PDF by using Incremental Update. It is also possible to sign a PDF multiple times (e.g., a contract), resulting in multiple Incremental Updates. The Signature object contains all relevant information for validating the signature, such as the algorithms used and the signing certificate. Once a PDF containing a PDF Signature is opened, the viewer application automatically validates the signature and provides a warning if the content has been modified.

Shadow Attacks

The main idea of the attacks is that the attackers prepare a PDF document containing invisible content. Afterward, the document is sent to a signing entity like a person or a service which reviews the document, signs it and sends it back to the attackers. Despite the integrity protection provided by the digital signature, the attackers can make modifications to the document and change the visibility of the hidden content. Nevertheless, the manipulation is not detected. The digital signature remains valid. Finally, the attackers send the modified signed document to the victim. Although the document is altered, the signature validation is successful, but the victims see different content than the signing entity.

Do the Attacks match a Real-World Scenario?

Of course! In companies and authorities, relevant documents like contracts or agreements are often prepared by the employees who take care of most of the details and technicalities. The document is then signed by an authorized person after a careful review. Another scenario is the signing process of a document within a consortium. Usually, one participant creates the final version of the document, which is then signed by all consortium members. Considering the given examples, an employee or consortium member acting maliciously can hide invisible shadow content during the editing. Consequentially, this content will be signed later.
Additionally, multiple cloud signing services like Adobe Cloud, DocuSign, or Digital Signature Service exist. Among other functionalities, such services receive a document and sign it. This process can also be used also to sign shadow documents.

Different Attack Classes of Shadow Attacks

Shadow Attacks can be divided into the three attack classes Hide, Replace, and Hide-and-Replace, as shown in the figure below. Each class offers the possibility of taking a significant influence on the content of a signed PDF document. In the following, we describe the functionality of the individual classes in more detail.


Shadow Attack: Hide

The concept of this class of shadow attacks is to hide the content relevant for the victims behind a visible layer. For example, the attackers can hide the text "You are fired!" behind a full-page picture showing "Sign me to get the reward!". Once the attackers receive the signed document, they manipulate the document in such a way that the picture is no longer rendered by the viewer application. Hide attacks have two advantages from the attackers' perspective:
  1. Many viewers show warnings if new visible content is added using an Incremental Update. However, they do not warn in most cases if content is removed.
  2. The objects are still accessible within the PDF. In the example above, the text "You are fired!" can still be detected by a search function. This might be important if an online signing service is used and it reviews the document by searching for specific keywords. We identified two variants of this attack class.
Hiding Content via Page.
This attack variant uses an Incremental Update to create a new Page object. It contains all previously used objects except for the overlay, for example, the image. This attack variant is depicted on the left side of figure above.
Hiding Content via Xref.
If the viewer application does not accept changes to PDF structuring objects, such as Page, Pages, or Contents, the second attack variant can be applied. This variant directly affects the overlay object. The simplest method for this is to create an Incremental Update, which only updates the Xref table by setting the overlay object to free. However, making this change is interpreted as a dangerous in many viewers (e.g., Adobe) and an error or a warning is thrown. For this reason, we use another approach: we use the same object ID within the Incremental Update, but we define it as a different object type. For example, we change the overlay type Image to XML/Metadata.

When opening this manipulated document, the overlay is hidden because Metadata cannot be shown. Since adding Metadata to a signed PDF using Incremental Update is considered harmless, the signature remains valid.

Shadow Attack: Replace

In this attack class, specific content of the PDF document is to be exchanged. The first variant uses the visual properties of text fields for this purpose. The second variant is based on a fatal misconception that fonts cannot be used for manipulation purposes.
Replace via Overlay.

This attack targets an interactive feature in PDFs: interactive forms. Forms support different input masks (e.g., text fields, text areas, radio/selection buttons) where users dynamically enter new content and store it in the PDF document. The main idea of the attack is to create a form, which shows one value before (PDF1) and after signing (PDF2), as illustrated on the leftside in the figure below. After the attackers manipulate the PDF and create PDF3, different values are shown in the form (and can be seen on the right side of the figure below). The attack abuses a special property of PDF text fields. A text field can show two different values: the real field value and an overlay value which disappears as soon as the text field is selected. The real value of a form field is contained in an object key named /V. The content of the overlay element is defined within a /BBox object. The /BBox object is comparable to the hint labels known from HTML forms; for example, the hint username to indicate that the username should be entered into a specific login field. In contrast to HTML, in PDF there is no visual difference between the hint and the actual value.


In summary, we can say that this variant allows attackers to manipulate the contents of the text fields for the visible layer arbitrary. As shown in the figure above, this can be used, for example, to maliciously redirect a payment.
Replace via Overwrite.
The main idea of this variant is to append new objects to the signed document which are considered harmless but directly influence the presentation of the signed content. As shown in figure of the three attack classes, the attackers prepare a shadow document that defines a font and includes its description into the document. The font is used for the presentation of specific content. After the document is signed, the attackers append a new font description and overwrite the previous description.  The definition of new fonts is considered harmless, because of that, the applications verifying the signature do not show any warning regarding the made changes. For instance, the (re)definition of fonts does not change the content directly. However, it influences the view of the displayed content and makes number or character swapping possible.

Shadow Attack: Hide-and-Replace

In this attack class, the attackers create a shadow PDF document that is sent to the signers. The PDF document contains a hidden description of another document with different content. Since the signers cannot detect the hidden (malicious) content, they sign the document. After signing, the attackers receive the document and only append a new Xref table and Trailer. Within the Xref table, only one change takes place: the reference to the document Catalog (or any other hidden object), which now points to the shadow document.
In fact, the document contains two independent content paths. One path to show the signer harmless content, and one path with malicious content that replaces the first content after it is signed and activated by the attackers. The figure above visually illustrates the described relationships once again.
This attack variant is the most powerful one since the content of the entire document can be exchanged, including text content, forms, fonts, and annotations. The attackers can build a complete shadow document influencing the presentation of each page and each object.

Evaluation

Overall, 15 out of 28 PDF viewing applications were vulnerable to at least one presented attack. Surprisingly, for 11 PDF viewers, all three attack classes were successful. The Table shows that some applications have limited vulnerabilities. These applications respond to any type of Incremental Update with a post-signature modification note, including modifications that are allowed due to the specification. We have evaluated the latest (at the time of evaluation) available versions of the applications on all supported desktop platforms: Windows, macOS, and Linux.

Evaluation results.


Authors of this Post

Simon Rohlmann 
Christian Mainka
Vladislav Mladenov
Jörg Schwenk

Acknowledgments

Many thanks to the CERT-Bund (BSI) team for the great support during the responsible disclosure. We also want to acknowledge the teams of the vendors which reacted to our report and fixed the vulnerable implementations.

Related word
  1. Pentest Tools Online
  2. Hacker Tools 2019
  3. Tools 4 Hack
  4. Best Hacking Tools 2020
  5. What Is Hacking Tools
  6. Hak5 Tools
  7. Hacking Tools For Mac
  8. Hacker Tools Github
  9. Physical Pentest Tools
  10. Nsa Hack Tools
  11. Hacker Tools Free
  12. Ethical Hacker Tools
  13. Hacking Tools For Mac
  14. New Hack Tools
  15. Hacking Tools Windows 10
  16. Hacker Tools For Ios
  17. Wifi Hacker Tools For Windows
  18. Hack Rom Tools
  19. World No 1 Hacker Software
  20. Hacker Tools Linux
  21. Pentest Tools Framework
  22. Hack Tools
  23. Install Pentest Tools Ubuntu
  24. Hacking Tools For Games
  25. Hack Tool Apk No Root
  26. Pentest Recon Tools
  27. Pentest Tools For Android
  28. Kik Hack Tools
  29. Pentest Tools Subdomain
  30. Hacker Tools Mac
  31. Kik Hack Tools
  32. Pentest Tools Windows
  33. How To Hack
  34. Hacker Tools List
  35. Hack Tools Online
  36. Nsa Hacker Tools
  37. Hacking Tools Hardware
  38. Pentest Tools Website
  39. Hak5 Tools
  40. Hak5 Tools
  41. Pentest Tools Windows
  42. Hack Tools Mac
  43. Pentest Tools For Mac
  44. Hacker Tools
  45. Hack Tools Github
  46. Growth Hacker Tools
  47. Usb Pentest Tools
  48. Hacking Tools For Windows
  49. Pentest Tools List
  50. Hacking Tools For Windows 7
  51. Underground Hacker Sites
  52. Hack Tools
  53. Hacking Tools For Beginners
  54. Hack Tools For Pc
  55. Hack Tools Online
  56. Hack And Tools
  57. Wifi Hacker Tools For Windows
  58. World No 1 Hacker Software
  59. Hack Tools Github
  60. Black Hat Hacker Tools
  61. Game Hacking
  62. New Hacker Tools
  63. Underground Hacker Sites
  64. Pentest Box Tools Download
  65. Hack Tool Apk
  66. How To Make Hacking Tools
  67. Pentest Tools For Ubuntu
  68. Pentest Tools Linux
  69. Pentest Tools Nmap
  70. Hacking App
  71. Wifi Hacker Tools For Windows
  72. Beginner Hacker Tools
  73. Hacks And Tools
  74. Hacker Tools Software
  75. Best Hacking Tools 2019
  76. Hacker Tools Windows
  77. Hacker Tools
  78. Hacker Tools Apk Download
  79. Hack Tools Pc
  80. Blackhat Hacker Tools
  81. Hacking Tools For Beginners
  82. New Hack Tools
  83. Hacking Tools Free Download
  84. Hacker Tools 2019
  85. Pentest Automation Tools
  86. Computer Hacker
  87. Hacker
  88. Hack Tools For Mac
  89. Growth Hacker Tools
  90. Hacker Tools Hardware
  91. Black Hat Hacker Tools
  92. Kik Hack Tools
  93. Top Pentest Tools
  94. Hacker Tools Linux
  95. Hack Tools For Mac
  96. Pentest Tools Subdomain
  97. Hacker Tools For Windows
  98. Physical Pentest Tools
  99. New Hack Tools
  100. Hack Tool Apk
  101. Pentest Tools Android
  102. Hacker Tools Mac
  103. Hacking Tools Usb
  104. Hacker Tools
  105. Hack Tool Apk No Root
  106. World No 1 Hacker Software
  107. Hack Apps
  108. Growth Hacker Tools
  109. Hack Tools Pc
  110. Usb Pentest Tools
  111. Install Pentest Tools Ubuntu
  112. Hacker Tools 2019
  113. Computer Hacker
  114. Hackers Toolbox
  115. Hacking Tools Github
  116. Pentest Tools Find Subdomains
  117. Nsa Hack Tools
  118. Hacking Tools 2020
  119. Hacker Tools Free Download
  120. Hacking Tools Software
  121. Pentest Tools Download
  122. Hacking Tools Hardware
  123. Pentest Tools Free
  124. Hacker Tools For Pc
  125. Pentest Tools Port Scanner
  126. Hack Tools For Games
  127. Hack Tools For Pc

No comments: