AppSec ASIA 2016

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We are pleased to announce that the OWASP China-Mainland Chapter will host the OWASP AppSec ASIA 2016 in Wuhan, China. The event will be held on May 21, Saturday.


The OWASP AppSec ASIA 2016 will bring together application security experts and software engineers from all over the world. Industry and academia meet to discuss open problems and new solutions in web & mobile security.


At the age of Internet+, Global AppSec Asia 2016 brings together application security experts and software engineers from all round the world to explore security technologies for core platforms such as Web applications, Mobile internet and Internet of things. Meantime, the sub-forum will focus on how to build cyber security training systems.


Who Should Attend AppSec ASIA 2016 :

  • Application Developers
  • Application Testers and Quality Assurance
  • Application Project Management and Staff
  • Chief Information Officers, Chief Information Security Officers, Chief Technology Officers, Deputies, Associates and Staff
  • Chief Financial Officers, Auditors, and Staff Responsible for IT Security Oversight and Compliance
  • Security Managers and Staff
  • Executives, Managers, and Staff Responsible for IT Security Governance
  • IT Professionals Interested in Improving IT Security


If you have any questions, please email the conference committee: 2016@owasp.org.cn


NO training plan.

Pending...

pending...

pending...

Abusing, Exploiting and Pwning with Firefox Add-ons

Ajin Abraham (Download the Presentation)

The talk is about abusing and exploiting Firefox add-on Security model and explains how JavaScript functions, XPCOM and XPConnect interfaces, technologies like CORS and WebSocket, Session storing and full privilege execution can be abused by a hacker for malicious purposes. The widely popular browser add-ons can be targeted by hackers to implement new malicious attack vectors resulting in confidential data theft and full system compromise. This paper is supported by proof of concept add-ons which abuse and exploits the add-on coding in Firefox 17, the release which Mozilla boasts to have a more secure architecture against malicious plugins and add-ons. The proof of concept includes the implementation of a Local keylogger, a Remote keylogger, stealing Linux password files, spawning a Reverse Shell, stealing the authenticated Firefox session data, and Remote DDoS attack. All of these attack vectors are fully undetectable against anti-virus solutions and can bypass protection mechanisms.


A Call for Drastic Action: A Survey of Web Application Firewalls

Jaeson Yoo (Download the Presentation)

Web application firewalls (WAFs) have become an unquestioned necessity in the modern world.

According to Gartner, 75% of all IT threats target the web application layer. The Ponemon Institute announced earlier this year that 93% of organizations hacked in the past two years were breached via insecure web applications. These are astounding figures, illustrating the vulnerability of web servers, through which we conduct so much of our daily business, as well as the significance of WAFs in addressing this vulnerability.

So why have so many businesses been reluctant to install WAFs? After all, they were designed specifically to deal with web application attacks. WAFs have been proven to block web attacks, and in some cases, provide effective countermeasures against them.

By taking a closer look at first- and second-generation web application firewalls, it seems to me that we can begin to find answers to this question. Until now, WAFs have been undermined by modified attacks, false positives, and an inordinate amount of burden to those who are entrusted to manage them.

First generation WAFs were based on a pattern-matching scheme, and brought about the advent of the Black List. The IT security administration would add a known attack pattern, and compile similar patterns to form the Black List. In so doing, the first-generation WAF could compare web traffic to its updated patterns, analyzing them at the application level. This list was static, meaning that there was no detection system put into place for new or modified attacks against the web application layer.

The first generation WAFs were not particular successful in the IT security market. Perhaps most companies wanted to stick with their Intrusion Detection/Prevention Systems, ignoring the fact that these components did painfully little for the OSI Layer 7, or the web application layer. Perhaps companies wanted to actualize a return-on-investment on their legacy purchases.

But this does not mean that the first generation WAFs themselves didn’t have something to do with their disappointing sales. First, the heavy workload was a drawback. Administrators constantly had to update known attack patterns on the black list. This meant many hours for the WAF administration team, assuming that the end-user even had such a team. More often, it meant having to hire more people, an especially unattractive prospect for smaller, cash-strapped organizations. In other words, not only did you have to invest in WAFs, you also had to invest in an expensive, highly-trained IT staff to run them.

If first-generation WAFs provided top-notch security, perhaps the additional investments could have been digested. But WAFs did not protect against new or modified attacks. They also produced a significant number of false positives. Most significantly, all this work for marginal security also resulted in poor performance. If you put more than 3,000 signature-based rules, system performance begins to slow. More than 5,000 signatures means that you may have to delete some old rules, just to make rooms for new ones.

In light of these limitations, WAF providers came up with a second-generation solution to address some of these problems. Second-generation WAFs came with a white list, or a list that includes all permissible traffic. By using the white list along with the black list, these updated WAFs were supposed to make things easier for the WAF administrator, since the white list would essentially serve as an automated security policy.

Unfortunately, second-generation WAFs did little to alleviate manpower requirements. In fact, these updated WAFs resulted in a heavier workload for the administrator. The white list would take up to two weeks to implement. Also, in spite of the fact that these automated security policies were supposed to make things easier for the administrator, second-generation WAFs still needed manual configuration. All of this meant more work, not less.

Again, if all this meant greater web security, perhaps all of these problems could have been overlooked. But this wasn’t the case. It was still a pattern-matching solution, meaning that it was vulnerable to unknown or modified attacks. It still produced false positives at a significant rate. And with the white list, it now worsened the system performance problem.

WAFs were and are definitely necessary. But these first- and second-generation solutions were coming up significantly short. More importantly, hackers were becoming increasingly sophisticated with every new day. So what was needed?

A whole new breed of WAF, an intelligent WAF, based on an entirely new concept, is needed. This new breed should be capable of analyzing web traffic, and detect attacks by analyzing and classifying their modus operandi. After detecting attacks, WAFs needed to apply appropriate countermeasures to block the threat. And finally, for practically purposes (especially for smaller companies that can’t hire a whole brigade of security administrators), WAFs needed to do all this without continual administrative involvement. In other words, a new solution was needed to provide much better security, while lessening the administrative burden for customers.


Design Secure Web Applications

Ashish Rao (Download the Presentation)


Checklist for securing web application design


We are all aware of “secure coding” and practice it to great extent while developing applications. But do we give equal attention to – “Secure Design”? Most of us would probably say, NO. Design level flaws are lesser known concepts but their presence is a very big risk to the applications. Such flaws are hard to find in static or dynamic application scans and instead require deep understanding of application architecture and layout to uncover them manually. With increasing business needs the complexities in application design and architecture are also increasing. There is a rise in the use of custom design techniques and diverse technologies in the applications today. But in the midst of all this, have we ever thought about design level security?

Will only secure coding practices help to keep a multi-tiered custom designed application safe?

If that question gets you thinking this presentation will help fetch you an answer for it.

This presentation focuses on highlighting some important secure design principles that developers and architects must adapt to build a secure application design. With the help of some design flaws we will see the areas of design that are exposed to security risks and what measures can be taken to avoid them in our design.


Dissecting Smart Meters

Justin Searle (Download the Presentation)

The Smart Grid brings greater benefits for electric utilities and customer alike, however these benefits come at a cost from a security perspective. This presentation will explore the architecture of most Smart Meters, the protocols they use, a breakdown of their embedded components, and the functionality their headend servers contain. We'll explain the methodologies we've developed to perform penetration testing these AMI systems, enumerate the types of vulnerabilities we commonly find, and discuss the solutions we recommend to Smart Meter vendors. We will even demonstrate at least one of the attacks we commonly perform in our penetration tests. This will be done without the FUD and over-hyped framing that we usually find in the media and other Smart Grid presentations.


The Droid Exploitation Saga

Aditya Gupta & Subho Halder (Download the Presentation)

In this talk, we will be discussing about the recent trends in Android Security Exploitation, as well as we will be carrying out all the possible attacks using a framework which we've designed called as Android Framework for Exploitation.

We will show how easy it could get to break into any Android Device, either using any exploit, or creating a malware using AFE. Also, in case the malware gets detected by any of the anti malwares, you 'll have the option to make it Fully Undetectable again and again, using the framework.

The things you would be able to steal with the help of AFE-created malwares, aren't limited to Contacts, Call Logs or Text messages, but you could also steal the application specific information (contained within the database files or saved using Content Providers).

We will be covering each topic with live demonstrations and will also discuss the case studies of vulnerabilities in some of the most popular android applications.


Growing sophistication of DDoS attacks

John Ellis (Download the Presentation)

2012 saw the unprecedented growth in DDoS attacks, not only in volume but also in sophistication.

Gone are the days where DDoS attacks were the simple cheap and nasty, simplistic syn floods. Now they have evolved into a powerful cyber weapon, a weapon of choice for: cyber extortion, aiding cyber criminals in their fraud activities, and hacktivists in pushing their cause.

Join John Ellis as he takes a deep dive into the growing sophistication of DDoS attack and examines:latest tools like 'itsoknoproblembro'the migration from the botnet to the Virtual Private Systems (VPS) as the attack platform of choice evolving C2 architecture the use of multi-vector attacks and the increasing attacks against and over SSL common approaches to defending against these attacks, whats worked and what hasn't what organisations should be thinking about next; and ideas on how to build a protect and perform strategy along with the message to senior management to secure funding.


Hacking Authentication Checks in Web Applications

Siddharth Anbalahan (Download the Presentation)

Authentication is one of the most coveted and targeted features for security attacks. Despite its importance and sensitivity we still fail to see robust implementations of this control in our applications. Developers just don’t seem to get it right and security researchers just cannot stop identifying flaws in them. In this talk we will look at 4 insecure authentication control implementation in web applications that will leave you astounded and make you understand why most of the applications will be prone to these flaws.


HTML 5

Han-Ik Joo (Download the Presentation)

HTML5 unlike the predecessors HTML that was impossible to implement features is the next generation standard language. However, vulnerability also is extended, and the fact that it is now possible to bypass existing countermeasures for Web-based security threats. In this talk, We will handle Demonstrations and the presentation of the security threats that can occur in the browser with the newly added features in HTML5. This talk include the following information as below:

  • CSRF Using XHR Level2
  • XSS using Newly added tag in HTML5
  • Web Storage using information extraction
  • WebSQL Information extraction using JavaScript
  • Web Worker Injection


Invisibility Purge – Unmasking the Dormant Events of Invisible Web Controls – Advanced Hacking Methods for Asp.Net, Mono and RIA

Shay Chen (Download the Presentation)

Web Controls have become common in many popular platforms, enhancing the software lifecycle by speeding up development, and enabling developers to reuse custom content.

In platforms such as ASP.Net and Mono, the implementations of Web controls are packed with features that can enhance the security of applications, usually with minimum effort.

There are many ways to restrict the access to web controls, including privilege validation, deletion from pages that were duplicated for low privileged users, disabling controls, or even by making them invisible to anyone but users with pre-defined roles.

However, the event activation mechanism can also be a double-edged sword.

Invisibility, by definition, is in the eyes of the observer.

An object might be invisible to some eyes, while still being visible to instruments that were designed to locate it.

A new research reveals several methods that attackers can harness to unmask, enumerate and activate events of hidden web controls, even in popular platforms such as ASP.Net and Mono.

The slightest mistake or the right conditions can make this development model a fertile ground for attacks, enabling the attacker to completely ignore the security features of controls, and gain access to restricted and dormant server side events.

Locating invisible controls, Unmasking hidden events and activating them in-spite of various default and custom security measures – once only in theory, and now a step by step methodology that could be performed manually, or using designated tools.

This presentation will demonstrate several methods that can be used to locate invisible web controls, unmask secret events and activate dormant code. It will also discuss designated modules which are embedded into the upcoming release of the Diviner extension, an extension of the OWASP ZAP proxy project.


Missile of Cyber-terrorism, the reality of APT and Countermeasures

Security Expert, Growing (Download the Presentation)

APT’s attack is represented intelligented and sophisticated Hacking. As a result APT can be used to disturb the tackets. Here, this paper proposed to understand the reality of APT. In other words, APT’s definitions, properties, and Life-Cycle. Depending on derived properties, Security defense strategy is suggested differently.


Open Source Metasploit - The Elixir of Network Security

Harish Chowdhary and Shubham Mittal

Talk Cancelled

Today every organization intensely relies on the communication. Every part of an organization ought to operate closely & ought to be interconnected for the benefit of the organization. The term interconnected & communication signifies one of the most vital a part of an organization primarily of an IT organization is the Computer NETWORK. Network is the backbone of an IT organizations Network security is a crucial concern for enterprises, government agencies, and organizations of all sizes. Today’s advanced threats demand an organized approach to network security. Information within a network has same importance like blood in our veins. But the increasing incidence of the network breaches leading to the critical information loss, finally loss of business & credibility, clearly indicates that computers networks are not secured as they seem. Therefore they must be tested for their security. The aim of this paper is to present the most effective open-source Framework for network security testing-METASPLOIT. This paper will provide the focused views on.

What is Metaspliot, how to use Metasploit for Penetration testing & its various advantages, how to customize you pen test. It will additionally also put lights on, how to find the intrusion in the network & mitigation techniques to keep away from the cyber assaults. Whole, the objective of this paper is to provide a detailed understanding of what is Metasploit and how to utilize it as a security professional.


Pentesting Web Apps with Python

Justin Searle (Download the Presentation)


Interested in expanding your scripting skills to further customize your penetration testing approach? The goal of this talk is to teach you basic python skills you can use every day. Join one of the SamuraiWTF project leads and learn how to interact with websites using python scripts and python shells. Understand the differences between the major HTTP libraries like httplib and urllib2. Walk through sample code that performs username harvesting and dictionary attacks. Learn how to use Python's multithreaded features to speed up your scripts. And most importantly, discover PyCIT, a new opensource project that provides simple, documented, and functional python templates to accelerate your python scripting efforts.


Putting Security within the SDLC via Application Threat Modeling

Tony UV (Download the Presentation)

As delusions of effective risk management for application environments continue to spread, companies continue to bleed large amounts of security spending without truly knowing if the amount is warranted, effective, or even elevating security at all. In parallel, hybrid, thought provoking security strategies are moving beyond conceptual ideas to practical applications within ripe environments. Application Threat Modeling is one of those areas where, beyond the hype, provides practical and sensible security strategy that leverages already existing security efforts for an improved threat model of what is lurking in the shadows.

This presentation seeks to walk though practical applications and exercises associated with application threat modeling. Integration to multi-security focused disciplines will be included, such as dynamic analysis, static analysis, incident monitoring, vulnerability management, social engineering, penetration testing, and more.

The objective of the presentation is to illustrate the efficiency and effectiveness of application threat modeling in properly integrating and leveraging security information in order to evolve beyond a broken risk analysis model for application security today. The PASTA (Process for Attack Simulation & Threat Analysis) methodology will be introduced as part of this talk.

The target audience will encompass motley of both IS and IT professional, ideally providing a cross section of developers, project managers, system administrators, quality assurance engineers, security analysts, pen testers, network engineers, security risk analysts, and even compliance professionals. Due to the level of depth to be covered in the presentation which will go over Data Flow Diagramming, Application Decomposition exercises, correlation to existing frameworks such as Building Security-In Maturity Modeling, Software Assurance Maturity Modeling, and more.


Securing data with a Data Encryption Infrastructure

Arshad Noor (Download the Presentation)

As companies are challenged to keep up with an increasing number of data-security regulations worldwide, encryption of sensitive data has become the universal ""safe-harbor"", the last bastion of defense against unauthorized disclosure of data, mandated or highly recommended in every regulation.

While the protection of structured data-elements such as Credit Card Numbers, Bank Account numbers, etc., is addressed by applications on a case-by-case basis, we are entering an era where unstructured sensitive data are becoming equally attractive targets. Military documents, medical data, blueprints of new products, financial and legal documents, etc. are just as valuable as credit card numbers to attackers depending on their motiviation and backers.

While it is feasible for companies to address the protection of such documents on a case-by-case basis, it is far more effective to deploy a ubiquitous network service that addresses all of the following requirements:

  • Provide a single point/protocol for commuication to the service (much like DNS or DHCP);
  • Is accessible to any platform or programming environment;
  • Provides automated scheduling of cryptographic operations (synchronous and asynchronous);
  • Provides automated key-management (generation, escrow, recovery, etc.);
  • Auto-scales cryptographic capability to address peaks/valleys of processing loads;
  • Integrates with existing Identity and Access Management (IAM) infrastructure;
  • Integrates with existing public/private Cloud services;
  • Provides load-balancing and is highly-available; and
  • Meets regulatory requirements of any data-security regulation anywhere.

While sounding more like a pipe-dream, this paper presents a case-study of a real-world implementation of such a network service to protect structured and unstructured content worth hundreds of millions of dollars, for one of the largest e-commerce companies in the world.

The Regulatory Compliant Cloud Computing (RC3) - a web-application architecture for secure cloud-computing - was presented at OWASP AppSec APAC 2012 in Sydney by this author, where it was fairly well received (to the best of my knowledge). RC3 is gaining attention worldwide, with IBM having translated the paper into Chinese, Portuguese and Russian for the BRIC markets on its developerWorks web-site (http://ibm.co/rc3dw), and the paper presented at various other conferences around the world (after AppSec APAC 2012).

This paper continues the discussion to present, for the first time, a real-world RC3 implementation, and discusses how the experience can be leveraged by others to address data-protection requirements. It will include details of the architecture, technology components (FOSS), and performance data to support the tenets described in the original RC3 paper from 2012.


Security Challenges of Hybrid Mobile Applications

Mikko Saario (Download the Presentation)

Mobile application development leveraging a hybrid technology stack is an accelerated way to bring new apps to market reusing existing competencies. Hybrid technology essentially refers to using several different coding languages instead of just the ""native"" one - whatever it may be in each case. Often existing code and services are reused to avoid expensive development for each distinctive platform. This way the ‘desktop web’ and the ‘mobile web’ are converging quickly - code can be shared and reused more and more. The focus technologies in this presentation are Windows Phone 8 and the Qt framework. Mikko will take a look into what kind of fundamental security mechanisms or threats do or do not exist in the two platforms to protect the user and the application from attacks when mixing several technology stacks. The expanding availability of development technologies opens up new attack surface, often with old attacks, to mobile applications: For instance, Windows Phone 8 introduced the possibility to implement applications in C++ in addition to the existing C#/Silverlight + web technologies. Are buffer overflows back? Qt is built on top of C++ and implements for instance the WebKit and QtQuick (QML with inline JavaScript) technologies for quickly developing cross-platform applications. The combination of these multiple stacks provide ample attack surface against mobile applications.

The presentation will cover security pitfalls when mixing native code and JavaScript in the Qt/QML stack, Qt-specific XSS and other injection issues, deploying code in webviews in both platforms - and the lack of common user security indicators in them, how malicious code can identify native methods exposed to a hybrid environment, how the same origin policy and code sandboxing differ from the typical desktop browser, how to leak your geolocation in Windows Phone, surprising differences in using a headless browser vs. IE Mobile in the older Windows Phone 7.5 and much more. Using a live demo application I will walk through several hybrid platform issues and threats in Windows Phone 8.

During the testing vulnerabilities were discovered in both the WP8 and Qt platforms and these will be demoed in cases where the vendor has either fixed the issue or the information is otherwise already public.


Using the Wisdom of the Crowd to Enhance Application Security

Moshe Lerner (Download the Presentation)

Security-oriented source code analysis tools detect vulnerabilities only for well-defined hacks and tend to return many results which are hard to remediate. Two problems result: One, how can we overcome the lack of coverage? And two, how can we improve the ability to fix?

These problems are all the more pressing considering today’s short development cycles through Agile methodologies, the ever-increasing requirement for continuous deployment and large applications containing vast amounts of source code. In these environments, automation and accuracy are absolute necessities in order to achieve high rates of vulnerability detection and furthermore, taking the right preventive actions.

To address these challenges our research turned to the field of Big Data analysis to integrate their advanced technologies into our research. In this talk we present our research methodology and findings. In particular, we show how to:

  1. Adopt new technologies from the Big Data realm - used to locate required data and enable proper call for action – and apply them into source code analysis
  2. Identify security vulnerabilities through code irregularities using the Wisdom of the Crowds (large scale apps reference)
  3. Optimize vulnerability remediation of large result sets using smart graph methods that pinpoint vulnerability junctions and best-fix locations


Web Security - New Browser Security Technologies

Tobias Gondrom (Download the Presentation)

This is cutting edge and will talk about new browser security technologies that have recently been developed and/or will be coming up in the coming months to counter risks that became apparent from the current trust model used in browsers. This will be improving channel protection and enabling better protection against XSS, Clickjacking and XSRF.

In the recent months global standard developing bodies and the browser vendors have in a joined effort developed and implemented many new major security capabilities in the browsers allowing web application developers to counter common security problems with comprehensive new mechanisms. This talk will be talking about:

  • Channel protection: Securing SSL against Man-in-the-middle-attacks: New technologies - HTTP Strict Transport Security and and Pinning of Certs
  • Protection against XSS and clickjacking: the future of X-Frame-Options and the Content Security Policy

The presented technologies are cutting edge and although some parts of the specifications are not final yet, they will be rolled-out in about 6 months time.


What your CISO has not told you - Outbound security of cloud and enterprise web services

Wong Onn Chee (Download the Presentation)

This presentation will cover an important topic which no CISO ever mentions. Cloud and enterprise e-services are accessible 24x7 by anyone across the world, especially via mobile devices. Yet, efforts for past decades have sorely neglected the outbound risks of enterprise e-services and, in recent years, cloud and mobile services. Without outbound protection, incidents such as leaking private data, infecting visitors with malware and displaying defaced web pages are often reported by the press, damaging reputation and customer confidence. With tighter data privacy laws, many organisations are risking hefty legal penalties if they continue to neglect this risk area.

This talk will highlight the growing trend of web sites being used to leak information, transmit malware and display defaced content. The speaker will walk through a number of case studies and share with the audience on the lessons learnt from each case study. The speaker will also explain how the lack of outbound security protection contributed to the realized risk in each case study.


OWASP Project Track Talks

OWASP AppSensor the future of Application Security

Dennis Groves (Download the Presentation)

The OWASP AppSensor is commonly described as an application layer intrusion detection system. However, it is far more that this. It is also an architecture design pattern, as well as a development practice and an operations methodology. I propose the following outline for my talk:

  1. (describe) I will describe what OWASP AppSenor is and why you would want one.
  2. (design) I will give a brief talk about the principles of secure architecture and design.
  3. I will give a brief history of IDS and NIDS, their strengths and weaknesses.
  4. I will then discuss how how and where AppSensor fits into that history, and how it improves upon the past for example:
  5. (development) The concept in implementation is roughly analogous to an intrusion detection (and prevention) system in the network security world. However, this concept can be applied inside of an application in a more specific way that (importantly) reduces false positives, which is an issue that often plagues network intrusion detection systems. This means that the core of the AppSensor system performs detection, monitoring, and (possibly) response depending on configuration settings.
  6. (deployment) I will the discuss deployment and operation of AppSensor.
  7. I will then describe why I believe this is the most important development in application security, and why everbody will develop software this way by the end of the decade.
  8. I will then propose future developments and enhancements for the OWASP AppSensor


Using ESAPI for Java to Build Secure Web Applications

Jim Manico (Download the Presentation)

We cannot “firewall” or “patch” our way to secure websites. In the past, security professionals thought firewalls, Secure Sockets Layer (SSL), patching, and privacy policies were enough. Today, however, these methods are outdated and ineffective, as attacks on prominent, well-protected websites are occurring every day. Organizations around the world rely on web security services to maintain the safety of their websites in today’s hostile online environment. Website developers must also learn to code in a secure fashion to have any chance of providing organizations with proper defenses in the current threat-scape. The session will provide specific tips and guidelines to make website code both low risk and less vulnerable using the OWASP ESAPI for Java project.


AppSec APAC 2013 will be held at the Hyatt Regency in Jeju, South Korea.


The conference training and talk will be held in the Regency Ballroom and Terrace Ballroom. Exhibitor booths will be set up in the foyer outside the ballrooms on Thursday and Friday.


APAC13 Floorplan.JPG



Conference Registration is now open! Click Here to Register.


OWASP AppSec Asia Pacific features two days of training February 19-20, and two days of talks, February 21-22, 2013

Please note - all prices below appear in USD; however arrangements can be made for payment in South Korean Won.


Conference Registration Fees (not including training)

Ticket Type
Early (until January 18) Regular Price
Non-Member $295 USD $395 USD
Non-Member plus 1-year OWASP Membership! $295 USD $395 USD
Active OWASP Member $275 USD $375 USD
Student $75 USD $100 USD
Training Only (See pricing table below)


Training Fees

Course Length
Course Date(s)
Price
1-Day Class Wednesday, Feb 20 $400 USD
2-Day Class Tuesday and Wednesday, Feb 19-20 $800 USD

Price per attendee. Please note that conference Registration is separate.

For more information on available training courses and trainer bios, please select the "Trainers and Training Schedule" tab.


Optional Conference Events

Item
Date & Time
Price
1/2 Day Developer Workshop Wednesday, Feb 20, 1-5pm Complimentary
Chapter Leader Workshop Wednesday, Feb 20, 6:30-9:30pm Complimentary
Conference Networking Dinner Thursday, Feb 21, 7-9pm $50 USD


Sign up for any of these optional items by registering for the conference.


Group Discounts

10% off for groups of 10-19 20% off for groups of 20-29 30% off for groups of 30 or more

Please Contact Us for more information about registering a group.


Membership Discounts

We are pleased to offer $20 off admission for active OWASP members. Multiple discounts can not be applied.


Registration for Trainers and Speakers

If you have been selected to deliver a training or talk at the conference, you should have received a discount code for complimentary admission.
If you did not receive this code or have questions, please Contact Us.


Registration for OWASP Leaders

Complimentary admission to the conference is offered to active OWASP Chapter and Project Leaders. Additionally, two seats for each of the training courses are available at no cost to active OWASP Chapter and Project Leaders (available on a first come, first serve basis). To register as an active Chapter or Project leader, please select the general event registration option and enter discount code: OWASPLEADER.


Please note: conference and training registration using the OWASPLEADER discount code will be verified by the conference team and if you are not an active OWASP Chapter or Project Leader, you will be contacted regarding your status and your registration may be subject to cancellation.


We are looking for sponsors for 2013 edition of Global AppSec APAC.


If you are interested to sponsor Global AppSec APAC 2013, please contact the conference team: AppSecAPAC2013@owasp.org


Sponsorship Deadline is January 15, 2013.


To find out more about the different sponsorship opportunities please check the document below:
OWASP AppSec APAC 2013 Sponsorship Options - English
OWASP AppSec APAC 2013 Sponsorship Options - Korean


Conference Exhibitor Information Pack


For assistance with booking a flight or hotel, feel free to utilize OWASP's preferred travel agency:
Segale Travel Service contact information is: +1-800-841-2276
Sr. Travel Consultants:
Maria Martinez...ext 524
Linn Vander Molen...ext 520


Additionally, the Conference Planning Team is available to answer any questions!


Accommodation

We've been able to arrange for special rates at the Hyatt Regency Jeju(where the training and conference will be held).

The special room rates are available two nights either side of the event ensuring that if you are travelling domestic or international it's easy to find a room at a good rate.


Hyatt Regency Jeju
114, Jungmungwangwang-ro 72 beon-gil, Seogwipo-si
Jeju Special Self-Governing Province
South Korea 697-130

Tel: +82 64 733 1234 Fax: +82 64 732 2039
Email: jeju.regency@hyatt.com


Hotel Regency Information Sheet


To book a room at the special rate:
*Add the room to your online conference registration or
*Complete the Hotel Booking Form and fax or email to the address on the form.  


Please notice that if you add the room to your conference registration, the rates are in USD and include all service fees and taxes.

Airport Transportation

Jeju International Airport is approximately 40 minutes by car from the Hyatt Regency. Hotel Map & Directions


Arrival by Airport Limousine Bus (Recommended)

The Airport Limousine Bus (Bus No.600) will be waiting at the Airport exit at all times during its operating hours of 6:20 am to 10:10 pm. The bus will leave the airport at 15 minute intervals, and will take around 50 minutes to reach the hotel’s main entrance. The price is KW 3,900 per person (less than $4 USD).


Arrival by private car

  1. Exit Jeju International Airport and enter Jungmun Highway.
  2. Follow the signs to Jungmun.
  3. Make a right from the junction where the wind power plant can be seen on the right.
  4. Go straight ahead to find the sign for the hotel.
  5. Follow the road indicated by the sign for Hyatt Regency Jeju.


Arrival by rental car

  1. Press the navigation code ‘4327’ for the rental car.
  2. Input the address: 3039-1 Saekdal-Dong Seogwipo-Si, Jeju Island.
  3. Input the telephone number: 064-733-1234.


Parking at the Hyatt Regency Jeju

Hyatt Regency Jeju offers the outdoor parking on hotel premises available to hotel guests at no charge.

Complimentary valet parking is also available on request. The hotel’s parking area is accessible 24 hours a day.

Information +82 64 735 8495


We will be hosting a networking dinner with Korean-style food and beverages on Thursday evening, February 21 from 7:00pm to 9:00 pm at the Hyatt Regency Jeju.

The cost of this dinner is approximately 53,000 KRW ($50 USD) and can be added to your online conference registration.


About the Workshop

When: Wednesday evening, February 20th, from 6:30 to 9:30 pm
Where: Hyatt Regency Jeju.

The Global Chapter Committee invites all chapter leaders to participate in the upcoming Chapter Leader Workshops at AppSec APAC 2013.

The Chapter Leader Workshop format will continue to follow the Q & A format used during AppSec USA and AppSec LATAM. Questions and discussion will focus on sections of the Chapter Leader Handbook, OWASP Global Chapter resources, and local chapter challenges.


Dinner will be provided for workshop participants.


Register for the Workshop

To confirm your participation in the event, register for the conference and be sure to select "Chapter Leader Workshop" as an optional registration item.


Chapter Leader Sponsorships

IMPORTANT DEADLINES - January 7, 2013 - Appsec APAC Chapters Workshop sponsorships applications due
- January 14 - Applicants notified of status


  • If you need financial assistance* to attend the Chapter Leader Workshops please contact us by the application deadline.


  • Priority of sponsorships will be given to those not covered by sponsorship to attend a previous workshop. Additionally, we are looking for new or struggling chapter leaders who need assistance kick starting their chapter.
  • When you apply for funding, please let us know *why we should sponsor you*. While we prefer that chapter leaders use their own chapter's funds before requesting a sponsorship, this is not a requirement for application.
  • If your chapter has fund but will not be using them to sponsor your attendance, please include why you will not be using the funds for this purpose (i.e. what are the other plans for those funds?).


Questions

If any questions, please contact us


2013 AppSec APAC Conference Volunteer Team

  • Johnny Cho
  • Yune Sung
  • Hyung Geun Park


Do you want to volunteer for AppSec APAC 2013? Click here to sign up


OWASP Staff Support

  • Sarah Baso
  • Samantha Groves
  • Kelly Santalucia
  • Kate Hartmann
  • Alison Shrader


Contact us at appsecAPAC2013@owasp.org



Diamond Sponsor

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Platinum Sponsor

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Gold Sponsor

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Silver Sponsor

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Lanyard Sponsor

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Supporting Organization

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Media Sponsor

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