Snmpcheck

"snmpcheck is a free open source utility to get information via SNMP protocols. It works fine against Windows, Linux, Cisco, HP-UX, SunOS systems and any devices with SNMP protocol support. It could be useful for penetration testing or systems monitoring. snmpcheck has been tested on GNU/Linux, *BSD, Windows systems and Cygwin. snmpcheck is distributed under GPL license and based on Athena-2k script by jshaw. " read more...

Website: http://www.nothink.org/perl/snmpcheck

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How To Automatically Translate Any Android App Into Any Language

There is the number of applications which are not having the features of translating apps to your favorite languages. This makes it difficult for the users to translate apps into their native language. Today, I am going to tell you about an application which will help you to Automatically Translate Any Android App into Any Language.

Nowadays there are around hundreds of application on play store which is having the feature of translate but some applications don't have this features. This is just because they don't have proper developers or sometimes translators.

There is an application launched by Akhil Kedia from XDA Developer which made it possible for all the users to translate the application to any language you need. This is something which everyone needs it.

Akhil Kedia built an Xposed module in which users can easily change the language of any application to whichever they like or love. Personally, we all love English language but there are peoples in many parts of the world they are suitable for other languages.

Automatically Translate Any Android App into Any Language

Automatically Translate Any Android App into Any Language

The best part about this Xposed Module is that it translates the application to any language whichever you like and there are around many languages which you can try it. The other best part about this application is that the user interface which is amazing.

In an Android application, the best thing is the user interface. This is something which helps users to download the module or application to run again and again. There are about many settings which can be changed from the application.

Read also;- How To Hack and Track any Phone

The setup process is a bit different from other applications but if you will look at the application you will definitely love it. Just because of too many settings and features available in the application and you can turn it to any language without any crashing issues of the application.

Requirements:

• Rooted Android Phone
• Xposed Framework installed on your phone.
• Android 5.0 or higher.
• Unknown Source enabled (You might be knowing it)

How to Automatically Translate Any Android App into Any Language

• Download the module called as All Trans from here: Download

• Now, after installation, it will ask you to reboot your phone to activate the module
• Now, you need to get the API Key to get it you need to sign up with Yandex first so sign up: Yandex Sign up

• Then after sign up you will get the API key just enter the API key in the All-Trans application.

• Open All Trans Application and the swipe right to Global Settings.

• Click on Enter Yandex Subscription key and then enter your key.

• In Global Settings click on Translate from and select the Language the application is already in. (Eg: English)

• Now, click on translate to and select your favorite language. This will change the language.

• Swipe left and select the applications which you need to translate and done.

• After selecting just open the application and the language is translated automatically.

Final Words:

This is the best and easy way to Automatically Translate Any Android App into Any Language. I hope you love this article.Share this article with your friends and keep visiting for more tips and tricks like this and I will meet you in the next one.

Stay Updated Tune IemHacker

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Snmpcheck

"snmpcheck is a free open source utility to get information via SNMP protocols. It works fine against Windows, Linux, Cisco, HP-UX, SunOS systems and any devices with SNMP protocol support. It could be useful for penetration testing or systems monitoring. snmpcheck has been tested on GNU/Linux, *BSD, Windows systems and Cygwin. snmpcheck is distributed under GPL license and based on Athena-2k script by jshaw. " read more...

Website: http://www.nothink.org/perl/snmpcheck

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Aircrack-ng: The Next Generation Of Aircrack

"Aircrack-ng is an 802.11 WEP and WPA-PSK keys cracking program that can recover keys once enough data packets have been captured. It implements the standard FMS attack along with some optimizations like KoreK attacks, as well as the all-new PTW attack, thus making the attack much faster compared to other WEP cracking tools. In fact, Aircrack-ng is a set of tools for auditing wireless networks." read more...

Website: http://www.aircrack-ng.org

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New Printers Vulnerable To Old Languages

When we published our research on network printer security at the beginning of the year, one major point of criticism was that the tested printers models had been quite old. This is a legitimate argument. Most of the evaluated devices had been in use at our university for years and one may raise the question if new printers share the same weaknesses.

35 year old bugs features

The key point here is that we exploited PostScript and PJL interpreters. Both printer languages are ancient, de-facto standards and still supported by almost any laser printer out there. And as it seems, they are not going to disappear anytime soon. Recently, we got the chance to test a $2,799 HP PageWide Color Flow MFP 586 brand-new high-end printer. Like its various predecessors, the device was vulnerable to the following attacks:

• Capture print jobs of other users if they used PostScript as a printer driver; This is done by first infecting the device with PostScript code
• Manipulate printouts of other users (overlay graphics, introduce misspellings, etc.) by infecting the device with PostScript malware
• List, read from and write to files on the printers file system with PostScript as well as PJL functions; limited to certain directories
• Recover passwords for PostScript and PJL credentials; This is not an attack per se but the implementation makes brute-force rather easy
• Launch denial of Service attacks of various kinds:
  • PostScript based infinite loops
  • PostScript showpage redefinition
  • Disable jobmedia with proprietary PJL
  • Set the device to offline mode with PJL

Now exploitable from the web

All attacks can be carried out by anyone who can print, which includes:

• Web attacker:
  • A malicious website that uses XSP
• Network access:
  • Via Jetdirect (port 9100/tcp)
  • Via LPD (port 515/tcp)
  • Via IPP (port 631/tcp)
• Wireless access:
  • Apple Air Print (enabled by default)
• Cloud access:
  • Google Cloud Print (disabled by default)
• Physical access:
  • Printing via USB cable or USB drive
  • Potentially NFC printing (haven't tested)

Note that the product was tested in the default configuration. To be fair, one has to say that the HP PageWide Color Flow MFP 586 allows strong, Kerberos based user authentication. The permission to print, and therefore to attack the device, can be be limited to certain employees, if configured correctly. The attacks can be easily reproduced using our PRET software. We informed HP's Software Security Response Team (SSRT) in February.

Conclusion: Christian Slater is right

PostScript and PJL based security weaknesses have been present in laser printers for decades. Both languages make no clear distinction between page description and printer control functionality. Using the very same channel for data (to be printed) and code (to control the device) makes printers insecure by design. Manufacturers however are hard to blame. When the languages were invented, printers used to be connected to a computer's parallel or serial port. No one probably thought about taking over a printer from the web (actually the WWW did not even exist, when PostScript was invented back in 1982). So, what to do? Cutting support for established and reliable languages like PostScript from one day to the next would break compatibility with existing printer drivers. As long as we have legacy languages, we need workarounds to mitigate the risks. Otherwise, "The Wolf" like scenarios can get very real in your office…

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$$$ Bug Bounty $$$

What is Bug Bounty ?

A bug bounty program, also called a vulnerability rewards program (VRP), is a crowdsourcing initiative that rewards individuals for discovering and reporting software bugs. Bug bounty programs are often initiated to supplement internal code audits and penetration tests as part of an organization's vulnerability management strategy.




Many software vendors and websites run bug bounty programs, paying out cash rewards to software security researchers and white hat hackers who report software vulnerabilities that have the potential to be exploited. Bug reports must document enough information for for the organization offering the bounty to be able to reproduce the vulnerability. Typically, payment amounts are commensurate with the size of the organization, the difficulty in hacking the system and how much impact on users a bug might have.


Mozilla paid out a $3,000 flat rate bounty for bugs that fit its criteria, while Facebook has given out as much as $20,000 for a single bug report. Google paid Chrome operating system bug reporters a combined $700,000 in 2012 and Microsoft paid UK researcher James Forshaw $100,000 for an attack vulnerability in Windows 8.1.  In 2016, Apple announced rewards that max out at $200,000 for a flaw in the iOS secure boot firmware components and up to $50,000 for execution of arbitrary code with kernel privileges or unauthorized iCloud access.


While the use of ethical hackers to find bugs can be very effective, such programs can also be controversial. To limit potential risk, some organizations are offering closed bug bounty programs that require an invitation. Apple, for example, has limited bug bounty participation to few dozen researchers.

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HiddenWasp Linux Malware Backdoor Samples

Here are Hidden Wasp Linux backdoor samples. 
Enjoy

Reference

Intezer HiddenWasp Malware Stings Targeted Linux Systems 

Download

Download. Email me if you need the password (see in my profile)

File informatio

8914fd1cfade5059e626be90f18972ec963bbed75101c7fbf4a88a6da2bc671b
8f1c51c4963c0bad6cf04444feb411d7
 shell

f321685342fa373c33eb9479176a086a1c56c90a1826a0aef3450809ffc01e5d
52137157fdf019145d7f524d1da884d7
elf

f38ab11c28e944536e00ca14954df5f4d08c1222811fef49baded5009bbbc9a2
ba02a964d08c2afe41963bf897d385e7
shell

e9e2e84ed423bfc8e82eb434cede5c9568ab44e7af410a85e5d5eb24b1e622e3
cbcda5c0dba07faced5f4641aab1e2cd
 elf shared-lib

d66bbbccd19587e67632585d0ac944e34e4d5fa2b9f3bb3f900f517c7bbf518b
2b13e6f7d9fafd2eca809bba4b5ea9a6
64bits elf shared-lib

2ea291aeb0905c31716fe5e39ff111724a3c461e3029830d2bfa77c1b3656fc0
568d1ebd8b6fb17744d3c70837e801b9
shell

8e3b92e49447a67ed32b3afadbc24c51975ff22acbd0cf8090b078c0a4a7b53d
33c3f807caea64293add29719596f156
 shell

609bbf4ccc2cb0fcbe0d5891eea7d97a05a0b29431c468bf3badd83fc4414578
71d78c97eb0735ec6152a6ff6725b9b2
tar-bundle gzip contains-elf

d596acc70426a16760a2b2cc78ca2cc65c5a23bb79316627c0b2e16489bf86c0
6d1cd68384de9839357a8be27894182b
 tar-bundle gzip

0fe1248ecab199bee383cef69f2de77d33b269ad1664127b366a4e745b1199c8
5b134e0a1a89a6c85f13e08e82ea35c3
64bits elf 

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Group Instant Messaging: Why Blaming Developers Is Not Fair But Enhancing The Protocols Would Be Appropriate

After presenting our work at Real World Crypto 2018 [1] and seeing the enormous press coverage, we want to get two things straight: 1. Most described weaknesses are only exploitable by the malicious server or by knowing a large secret number and thereby the protocols are still very secure (what we wrote in the paper but some newspapers did not adopt) and 2. we see ways to enhance the WhatsApp protocol without breaking its features.


We are of course very happy that our research reached so many people and even though IT security and cryptography are often hard to understand for outsiders, Andy Greenberg [2], Patrick Beuth [3] and other journalists [4,5,6,7,8] wrote articles that were understandable on the one hand and very accurate and precise on the other hand. In contrast to this, we also saw some inaccurate articles [9,10] that fanned fear and greatly diverged in their description from what we wrote in our paper. We expected this from the boulevard press in Germany and therefore asked them to stick to the facts when they were contacting us. But none of the worst two articles' [9,10] authors contacted us in advance. Since our aim was never to blame any application or protocol but rather we wanted to encourage the developers to enhance the protocols, it contradicts our aim that WhatsApp and Signal are partially declared attackable by "anyone" "easily" [9,10].

Against this background, we understand Moxie's vexation about certain headlines that were on the Internet in the last days [11]. However, we believe that the ones who understand the weaknesses, comprehend that only the malicious server can detectably make use of them (in WhatsApp) or the secret group ID needs to be obtained from a member (in Signal). As such, we want to make clear that our paper does not primarily focus on the description of weaknesses but presents a new approach for analyzing and evaluating the security of group instant messaging protocols. Further we propose measures to enhance the analyzed protocols. The description of the protocols' weaknesses is only one part of the evaluation of our analysis approach and thereby of the investigation of real world protocols. This is the scientific contribution of our paper. The practical contribution of the analyzed messengers, which is the communication confidentiality for billion users (in most cases), is great and should be noted. Therefore we believe that being Signal, WhatsApp, or Threema by applying encryption to all messages and consequently risking research with negative results is much better than being a messenger that does not encrypt group messages end-to-end at all. We do not want to blame messengers that are far less secure (read Moxie's post [11] if you are interested).

Finally we want note that applying security measures according to the ticket approach (as we call it in the paper [12]) to the invitation links would solve the issues that Facebook's security head mentioned in his reply [13] on our findings. To our knowledge, adding authenticity to group update messages would not affect invitation links: If no invitation link was generated for a group, group members should only accept joining users if they were added by an authentic group update message. As soon as a group invitation link was generated, all joining users would need to be accepted as new group members with the current design. However there are plenty ways how WhatsApp could use invitation links without endowing the server with the power to manage groups without the group admins' permission:
One approach would be generating the invitation links secretly and sharing them without the knowledge of the server. An invitation link could then contain a secret ticket for the group and the ID of the group. As soon as a user, who received the link, wants to join the group, she can request the server with the group ID to obtain all current group members. The secret ticket can now be sent to all existing group members encrypted such that the legitimate join can be verified.

Of course this would require engineering but the capability of WhatsApp, shipping drastic protocol updates, can be assumed since they applied end-to-end encryption in the first place.

[1] https://www.youtube.com/watch?v=i5i38WlHfds
[2] https://www.wired.com/story/whatsapp-security-flaws-encryption-group-chats/
[3] http://www.spiegel.de/netzwelt/apps/whatsapp-gruppenchats-schwachstelle-im-verschluesselungs-protokoll-a-1187338.html
[4] http://www.sueddeutsche.de/digital/it-sicherheit-wie-fremde-sich-in-whatsapp-gruppenchats-einladen-koennen-1.3821656
[5] https://techcrunch.com/2018/01/10/security-researchers-flag-invite-bug-in-whatsapp-group-chats/
[6] http://www.telegraph.co.uk/technology/2018/01/10/whatsapp-bug-raises-questions-group-message-privacy/
[7] http://www.handelsblatt.com/technik/it-internet/verschluesselung-umgangen-forscher-finden-sicherheitsluecke-bei-whatsapp/20836518.html
[8] https://www.heise.de/security/meldung/WhatsApp-und-Signal-Forscher-beschreiben-Schwaechen-verschluesselter-Gruppenchats-3942046.html
[9] https://www.theinquirer.net/inquirer/news/3024215/whatsapp-bug-lets-anyone-easily-infiltrate-private-group-chats
[10] http://www.dailymail.co.uk/sciencetech/article-5257713/WhatsApp-security-flaw-lets-spy-private-chats.html
[11] https://news.ycombinator.com/item?id=16117487
[12] https://eprint.iacr.org/2017/713.pdf
[13] https://twitter.com/alexstamos/status/951169036947107840

Further articles:
- Matthew Green's blog post: https://blog.cryptographyengineering.com/2018/01/10/attack-of-the-week-group-messaging-in-whatsapp-and-signal/
- Schneier on Security: https://www.schneier.com/blog/archives/2018/01/whatsapp_vulner.html
- Bild: http://www.bild.de/digital/smartphone-und-tablet/whatsapp/whatsapp-sicherheitsluecke-in-gruppenchats-54452080.bild.html
- Sun: https://www.thesun.co.uk/tech/5316110/new-whatsapp-bug-how-to-stay-safe/

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iCloudBrutter - AppleID Bruteforce

iCloudBrutter is a simple python (3.x) script to perform basic bruteforce attack againts AppleID.

Usage of iCloudBrutter for attacking targets without prior mutual consent is illegal. iCloudBrutter developer not responsible to any damage caused by iCloudBrutter.

Installation

$ git clone https://github.com/m4ll0k/iCloudBrutter.git
$ cd iCloudBrutter
$ pip3 install requests,urllib3,socks
$ python3 icloud.py

Download iCloudBrutter

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Why Receipt Notifications Increase Security In Signal

This blog post is aimed to express and explain my surprise about Signal being more secure than I thought (due to receipt acknowledgments). I hope you find it interesting, too.

Signal, and especially its state update protocol, the Double Ratchet algorithm, are widely known for significantly increasing security for instant messaging. While most users first see the end-to-end security induced by employing Signal in messaging apps, the properties achieved due to ratcheting go far beyond protecting communication against (active) attackers on the wire. Due to updating the local device secrets via the Double Ratchet algorithm, the protocol ensures that attackers, who temporarily obtain a device's local storage (on which Signal runs), only compromise confidentiality of parts of the communications with this device. Thus, the leakage of local secrets from a device only affects security of a short frame of communication. The exact duration of compromise depends on the messaging pattern among the communicating parties (i.e., who sends and receives when), as the state update is conducted during the sending and receiving of payload messages.

The Double Ratchet

The Double Ratchet algorithm consists of two different update mechanisms: the symmetric ratchet and the asymmetric ratchet. The former updates symmetric key material by hashing and then overwriting it with the hash output (i.e.,  k:=H(k)). Thus, an attacker, obtaining key material can only predict future versions of the state but, due to the one-wayness of the hash function, cannot recover past states. The asymmetric ratchet consists of Diffie-Hellman key exchanges (DHKE). If, during the communication, party A receives a new DH share g^b as part of a message from the communication partner B, then A samples a new DH exponent a and responds with the respective DH share g^a in the next sent message. On receipt of this DH share, B will again sample a new DH exponent b' and attach the DH share g^b' to the next message to A. With every new DH share, a new DHKE g^ab is computed among A and B and mixed into the key material (i.e., k:=H(k,g^ab)). For clarity, I leave out a lot of details and accuracy. As new DH shares g^a and g^b are generated from randomly sampled DH exponents a and b, and the computation of g^ab is hard if neither a nor b are known, the key material recovers from an exposure of the local secrets to an attacker after a new value g^ab was freshly established and mixed into it. Summing up this mechanism, if an attacker obtains the local state of a Signal client, then this attacker cannot recover any previously received message (if the message itself was not contained in the local state), nor can it read messages that are sent after a new g^ab was established and mixed into the state. The latter case happens with every full round-trip among A and B (i.e., A receives from B, A sends to B, and A receives again from B).

Conceptual depiction of Double Ratchet in Signal two years ago (acknowledgments were only protected between client and server). The asymmetric ratchet fully updates the local secrets after one round-trip of payload messages.

Research on Ratcheting

During the last two years, the Signal protocol inspired the academic research community: First, a formal security proof of Signal was conducted [1] and then ratcheting was formalized as a generic primitive (independent of Signal) [2,3,4]. This formalization includes security definitions that are derived via 1. defining an attacker, 2. requiring security unless it is obvious that security cannot be reached. Protocols, meeting this optimal notion of security, were less performant than the Double Ratchet algorithm [3,4]. However, it became evident that the Double Ratchet algorithm is not as secure as it could be (e.g., recovery from exposure could be achieved quicker than after a full round-trip; see, e.g., Appendix G of our paper [3]). Afterwards, protocols (for slightly weakened security notions) were proposed that are similarly performant as Signal but also a bit more secure [5,6,7].

Protecting Acknowledgments ...

In our analysis of instant messaging group chats [8] two years ago (blog posts: [9,10]), we found out that none of the group chat protocols (Signal, WhatsApp, Threema) actually achieves real recovery from an exposure (thus the asymmetric ratchet is not really effective in groups; a good motivation for the MLS project) and that receipt acknowledgments were not integrity protected in Signal nor WhatsApp. The latter issue allowed an attacker to drop payload messages in transmission and forge receipt acknowledgments to the sender such that the sender falsely thinks the message was received. Signal quickly reacted on our report by treating acknowledgments as normal payload messages: they are now authenticated(-encrypted) using the Double Ratchet algorithm.

... Supports Asymmetric Ratchet

Two years after our analysis, I recently looked into the Signal code again. For a training on ratcheting I wanted to create an exercise for which the lines in the code should be found that execute the symmetric and the asymmetric ratchet respectively. Somehow I observed that the pure symmetric ratchet (only updates via hash functions) was nearly never executed (especially not when I expected it) when lively debugging the app but almost always new DH shares were sent or received. I realized that, due to encrypting the receipt acknowledgments now, the app always conducts full round-trips with every payload message. In order to observe the symmetric ratchet, I needed to temporarily turn on the flight mode on my phone such that acknowledgments are not immediately returned.

Conceptual depiction of Double Ratchet in Signal now (acknowledgments encrypted). The asymmetric ratchet fully updates the local secrets after an acknowledgment for a message is received.

Consequently, Signal conducts a full DHKE on every sent payload message (in case the receiving device is not offline) and mixes the result into the state. However, a new DH exponent is always already sampled on the previous receipt (see sketch of protocol above). Thus, the exponent for computing a DHKE maybe remained in the local device state for a while. In order to fully update the state's key material, two round-trips must be initiated by sending two payload messages and receiving the resulting two acknowledgments. Please note that not only the mandatory receipt acknowledgments are encrypted but also notifications on typing and reading a message.

If you didn't understand exactly what that means, here a tl;dr: If an attacker obtains your local device state, then with Signal all previous messages stay secure and (if the attacker does not immediately use these secrets to actively manipulate future conversations) all future messages are secure after you wrote two messages (and received receipt acknowledgments) in all of your conversations. Even though this is very (in practice certainly sufficiently) secure, recent protocols provide stronger security (as mentioned above) and it remains an interesting research goal to increase their performance.

[1] https://eprint.iacr.org/2016/1013.pdf
[2] https://eprint.iacr.org/2016/1028.pdf
[3] https://eprint.iacr.org/2018/296.pdf
[4] https://eprint.iacr.org/2018/553.pdf
[5] https://eprint.iacr.org/2018/889.pdf
[6] https://eprint.iacr.org/2018/954.pdf
[7] https://eprint.iacr.org/2018/1037.pdf
[8] https://eprint.iacr.org/2017/713.pdf
[9] https://web-in-security.blogspot.com/2017/07/insecurities-of-whatsapps-signals-and.html
[10] https://web-in-security.blogspot.com/2018/01/group-instant-messaging-why-baming.html

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Zirikatu Tool - Fud Payload Generator Script

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November 2019 Connector

*|MC_PREVIEW_TEXT|*

OWASP Connector November 2019 Communications | Projects | Events | Community | Membership COMMUNICATIONS Letter from the Vice-Chairman Dear OWASP Community,  Preparation for next year's conferences is underway. I had the pleasure of meeting people from our community at a recent ISACA Ireland event where I had an OWASP stand. I also had lots of swag to give away, loads left which I plan to share out amongst the community.  I was on a call recently with both WIA leadership and a number of individuals looking to broaden our diversity reach, forming DIA (diversity in AppSec). This was a positive call and I look forward to reviewing their proposal under the committee 2.0 operating model. I'd like to thank our volunteers, chapter and project leaders for making OWASP what it is today. We wouldn't have a foundation without you. We always want to make things better, to this end, it would be great if you could fill out the following feedback form. Thank you,  Owen Pendlebury, Vice-Chairman FROM THE EXECUTIVE DIRECTOR As we wind down 2019, we are planning lots of new opportunities to get involved with OWASP next year. The current working draft of the 2020 Operating Plan can be found on our staging site for our new website which is planned to launch next month.   Some of the highlights for 2020: Quarterly Town Hall meetings. Two Project Summits - the first in February 2020 Pilot single-day AppSec Days worldwide to offer local training and community. We are also set to further increase the transparency of the daily workings of OWASP through our Staff Projects page. The pages linked there will always be a work in progress; some of which today are still only templates but still a great resource to know what's going on at OWASP. All of this which adds to our Global and Regional Events, ongoing local chapter support, and other member activities. Our plans are ambitious and we look forward to your continued support this and every month as we look to better secure the web. OWASP Foundation Global AppSec Event Dates for 2020 Global AppSec Dublin, June 15 - 19, 2020 (Formerly known as AppSec EU) Sponsorship is now available Call for Papers & Call for Training December 2019   Global AppSec San Francisco, October 19 - 23, 2020 (Formerly known as AppSec US) CFP &  CFT February 2020 ** Visit our website for future announcements.** NEW OWASP Project Summit - Winter 2020 February 2020 in Cancun, Mexico   The OWASP Foundation will host a three-day working session for FIVE selected projects in Cancun, Mexico, February 2020. Arrival day will be Wednesday the 19th and departures will be the 23rd. Projects must apply and then get selected to participate. The application process will require project meeting goals, work plans, key contributors, and expected attendance. The OWASP Foundation Officers Group will make the final selection. For more information click here.  You can also email Emily Berman Global Events Director or Harold Blankenship Director of Technology and Projects. Announcing a New Opportunity to become part of a Global AppSec Program Team   Conference Program Teams are constituted for each Global AppSec event and consists of members of OWASP members and staff. The selection of team members is based on subject-matter expertise and a balanced representation of the OWASP community. For planning purposes, team members shall reside on the continent of the Global AppSec for which they serve. Teams are constituted no later than six months prior to the Global AppSec event. To apply to become a member of the Conference Program Team click here.   We are so excited to announce that both the London OWASP and WIA community have been asked to speak at BlackHat Europe 2019 on Wednesday 4 December at the EXCEL London.   Andra Lezza is leading the panel of women to "Share insights gained at different stages of their careers to help other women in the field."  Thank you, Andra, for leading the initiative and also to Sonya Moisset, Bibi Sanjarani, Katy Anton and Lauren Chiesa for volunteering to be part of the panel.  Also from the OWASP Community and a London Chapter Leader Sam Stepanyan and Paul Harragan.  Sam and Pau will be presenting a more in-depth demo on the OWASP Nettacker.  Good luck to all the speakers have a great conference. I would like to encourage all of the OWASP community that will be attending BlackHat Europe to please make every effort to attend and support our fellow OWASP members Wednesday, 4 December 2019. (Click to view the schedule details.) OWASP Members don't forget you are eligible for € 200.00 discount, email marketing@owasp.org for code to use when registering. BlackHat Europe has extended an invitation to our London WIA community  to  lead a panel to "Share insights gained at different stages of their careers that could help other women in the field."  Thank you to Andra Lezza for leading this initiative and Sonya Moisset, Bibi Sanjarani, Katy Anton and Lauren Chiesa for volunteering to be part of the panel and to contribute.  Good luck I am sure your session will be a huge success. BlackHat Europe 2019 London at EXCEL London 2019 December 2-5  The OWASP Booth 1015 Business Hall December 4 & 5  December 4, 10:30 AM - 7:00 PM December 5: 10:00 AM - 4:00 PM EVENTS  You may also be interested in one of our other affiliated events: REGIONAL EVENTS Event Date Location German OWASP Day 2019 December 10, 2019 Karlsruhe, Germany AppSec California 2020 January 21 - 24, 2020 Santa Monica, CA OWASP New Zealand Day 2020 February 20 - 21, 2020 Auckland, New Zealand OWASP Seasides March 3 - 5, 2020 Panjim Goa, India SnowFROC 2020 March 5, 2020 Denver, CO AppSec Morocco & Africa 2020 June 4 - 5, 2020 Rabat, Morocco GLOBAL PARTNERSHIP EVENTS Event Date Location BlackHat Europe 2019 December 2 - 5, 2019 London PROJECTS As the foundation moves toward the migration of the OWASP web presence from the old wiki site to our new Github-hosted home, some of you may still have questions regarding what to move and how to move it. Essentially, if you have a chapter page or project page and you have not migrated it to the new website, that would be first. Steps on what to do and what is needed can be found at https://www2.owasp.org/migration There are also some minor instructions on the default project or chapter page itself. And if you are wondering where that page is located, you can go to https://github.com/OWASP and type your chapter name in the repository search bar. If your project or chapter is not there, contact me. Lastly, there are a number of excellent examples already done by other leaders (also linked on the migration page). And, as a precaution, you should click over into the 'Settings' of your repository and then click the 'Collaborators & teams' link on the left menu and check to make sure that the usernames added to Collaborators match what you expect.  Having someone you do not know edit your web page without your knowledge is no longer the expected behavior. Some resources, mostly for projects, have been uploaded to the OWASP Site Theme Repository and can be linked to via the /assets/image/common/<file> URL. After your chapter or project page is done, there is a www-community repository which would include any files from the wiki that are not currently in a project or chapter or board/staff policy area.  For instance, there are pages there for GSoC and XSS and CSRF.  A list of the top pages that need to be migrated can be found attached to one of the TODO cards on our website migration Trello board which you are invited to join if you want to help migrate loose pages and/or perform some automation work. Our current plan can be found on the Website Relaunch project page. PROJECT ANNOUNCEMENT As part of OWASP's participation in Google's Season of Docs, the ZAP project has had Nirojan Selvanathan (@sshniro)  working on API documentation.  The first iteration of the documentation is now live.  It includes Java, Python, and shell example snippets all presented in a responsive and accessible design which we will continue to build on in the future. Big thanks to Nirojan for his efforts on this wonderful initiative! Congratulations and thanks to Google Open Source for helping to bring the open-source and technical writer communities together! COMMUNITY   Welcome to our New OWASP Chapters Colombo, Sri Lanka Des Moines, IA Harrisburg, PA Louisville, KY Monterrey, Brazil Moscow, Russia   Contributor Corporate Members     *Ads and logos are not endorsements and reflect the messages of the advertiser only. * Join us Donate Our mailing address is: OWASP Foundation  1200-C Agora Drive, #232 Bel Air, MD 21014   Contact Us Unsubscribe

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