2024 C-TS422-2023 Answers Real Questions, Test C-TS422-2023 Free | Latest SAP S/4HANA Cloud Private Edition - Production Planning and Manufacturing Cram Materials - Photoexperienceacademy
- Name:
- HP2-I50 Exam Simulator Free.pdf
- Latest C-SAC-2415 Exam Discount.pdf
- Sample C1000-065 Questions Answers.pdf
- SAFe-DevOps Test Dump
- Valid Test CTFL4 Tips
- New GRCA Test Guide
- Exam Sample DevSecOps Online
- C_THR97_2205 Valid Exam Format
- New PAM-SEN Test Pass4sure
- C-HRHPC-2405 Test Questions Fee
- Valid HPE6-A73 Test Vce
- Consumer-Goods-Cloud New Learning Materials
- CBCP-002 Mock Exams
- Braindumps LEED-AP-ND Pdf
- Valid Test C_THR12_2311 Tutorial
- 300-425 Test Voucher
- 1z0-076 Valid Braindumps Book
- B2C-Commerce-Developer Exam Torrent
- C_THR88_2405 New Test Materials
- C-THR83-2405 Latest Test Simulator
- Latest CMRP Exam Format
- Latest OmniStudio-Consultant Exam Testking
- Test C-TS422-2023 Quiz 🗨 C-TS422-2023 Training Materials 🧾 C-TS422-2023 Exam Material 🧬 Open ( www.pdfvce.com ) and search for “ C-TS422-2023 ” to download exam materials for free 🛢C-TS422-2023 Valid Exam Camp
- SAP - Accurate C-TS422-2023 Answers Real Questions 🎠 Easily obtain ( C-TS422-2023 ) for free download through [ www.pdfvce.com ] 🕧Latest C-TS422-2023 Questions
- Latest Test C-TS422-2023 Experience 🚎 Valid Exam C-TS422-2023 Book 🐋 Valid Exam C-TS422-2023 Book 🎌 Search for 【 C-TS422-2023 】 and download it for free immediately on ➠ www.pdfvce.com 🠰 👨C-TS422-2023 Valid Test Braindumps
- C-TS422-2023 Reliable Exam Testking 🔩 Hottest C-TS422-2023 Certification 🍣 Test C-TS422-2023 Cram 🛒 Open ▛ www.pdfvce.com ▟ enter ☀ C-TS422-2023 ️☀️ and obtain a free download 🪐Exam C-TS422-2023 Tips
- C-TS422-2023 Valid Test Braindumps 🏥 Valid C-TS422-2023 Exam Notes 👿 C-TS422-2023 Practice Test Online ⚛ Go to website ▷ www.pdfvce.com ◁ open and search for ☀ C-TS422-2023 ️☀️ to download for free 🚊Valid Exam C-TS422-2023 Blueprint
- Test C-TS422-2023 Quiz 🪑 Exam C-TS422-2023 Tips 🍻 Certification C-TS422-2023 Test Questions 🦛 Simply search for ▛ C-TS422-2023 ▟ for free download on ▛ www.pdfvce.com ▟ ↘Latest C-TS422-2023 Real Test
- C-TS422-2023 test valid questions - C-TS422-2023 exam latest torrent - C-TS422-2023 test review dumps 💓 Search on 《 www.pdfvce.com 》 for ➡ C-TS422-2023 ️⬅️ to obtain exam materials for free download 🛀New C-TS422-2023 Test Tutorial
- SAP - C-TS422-2023 - SAP S/4HANA Cloud Private Edition - Production Planning and Manufacturing –High Pass-Rate Answers Real Questions 💋 Search for 「 C-TS422-2023 」 and download exam materials for free through [ www.pdfvce.com ] 🔣Valid Braindumps C-TS422-2023 Ppt
- C-TS422-2023 Answers Real Questions – The Best Test Free for your SAP C-TS422-2023 ❓ Easily obtain 《 C-TS422-2023 》 for free download through ✔ www.pdfvce.com ️✔️ ❓C-TS422-2023 Valid Exam Sample
- 100% Pass-Rate SAP C-TS422-2023 Answers Real Questions Are Leading Materials - Realistic C-TS422-2023 Test Free 🥗 Search for { C-TS422-2023 } on ➠ www.pdfvce.com 🠰 immediately to obtain a free download 🛥Test C-TS422-2023 Quiz
- C-TS422-2023 Exam Material ⏹ Valid C-TS422-2023 Exam Notes 😃 Valid Braindumps C-TS422-2023 Ppt 🥉 Open ▷ www.pdfvce.com ◁ enter ➥ C-TS422-2023 🡄 and obtain a free download 👘C-TS422-2023 Valid Exam Camp
- Pass Guaranteed 2024 SAP C-TS422-2023: SAP S/4HANA Cloud Private Edition - Production Planning and Manufacturing Unparalleled Answers Real Questions 🦗 The page for free download of 《 C-TS422-2023 》 on “ www.pdfvce.com ” will open immediately 🧣New C-TS422-2023 Test Tutorial
- C-TS422-2023 Valid Exam Sample 💯 New C-TS422-2023 Exam Book 🔏 Valid Exam C-TS422-2023 Book 🐣 Search for { C-TS422-2023 } and obtain a free download on { www.pdfvce.com } ☃C-TS422-2023 Cert
- Pass Guaranteed 2024 Unparalleled SAP C-TS422-2023: SAP S/4HANA Cloud Private Edition - Production Planning and Manufacturing Answers Real Questions 📆 Open ✔ www.pdfvce.com ️✔️ enter “ C-TS422-2023 ” and obtain a free download 💍C-TS422-2023 Valid Exam Sample
- C-TS422-2023 test valid questions - C-TS422-2023 exam latest torrent - C-TS422-2023 test review dumps 🧭 Open website 「 www.pdfvce.com 」 and search for ⏩ C-TS422-2023 ⏪ for free download 🥩Latest C-TS422-2023 Questions
- Test C-TS422-2023 Cram 🥰 C-TS422-2023 Relevant Exam Dumps 😱 Latest C-TS422-2023 Real Test 🌾 ( www.pdfvce.com ) is best website to obtain ✔ C-TS422-2023 ️✔️ for free download 🐷C-TS422-2023 Detailed Study Dumps
- C-TS422-2023 test valid questions - C-TS422-2023 exam latest torrent - C-TS422-2023 test review dumps 🚊 Simply search for ⮆ C-TS422-2023 ⮄ for free download on “ www.pdfvce.com ” 🐪New C-TS422-2023 Exam Book
- C-TS422-2023 Cert 🌂 C-TS422-2023 Test Testking 🧁 C-TS422-2023 Cert 🍞 Download ☀ C-TS422-2023 ️☀️ for free by simply searching on 《 www.pdfvce.com 》 🥎Valid C-TS422-2023 Exam Pass4sure
- C-TS422-2023 test valid questions - C-TS422-2023 exam latest torrent - C-TS422-2023 test review dumps ⚒ Download ➥ C-TS422-2023 🡄 for free by simply entering “ www.pdfvce.com ” website 😗New C-TS422-2023 Exam Book
- Exam C-TS422-2023 Tips 🧦 New C-TS422-2023 Exam Book 🪒 C-TS422-2023 Practice Test Online 😗 Copy URL ➤ www.pdfvce.com ⮘ open and search for [ C-TS422-2023 ] to download for free 📕C-TS422-2023 Test Testking
- C-TS422-2023 Actual Torrent: SAP S/4HANA Cloud Private Edition - Production Planning and Manufacturing - C-TS422-2023 Pass-King Materials - C-TS422-2023 Actual Exam ⭕ Search for 「 C-TS422-2023 」 and download it for free immediately on { www.pdfvce.com } 🤘C-TS422-2023 Training Materials
- Exam Code: 9876562$/ /2/ type subscriber.
Answer: D,E,F,GNEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validationNEW QUESTION: 3
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation: - Certification: 9876562$/ /2/ type subscriber.
Answer: D,E,F,GNEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validationNEW QUESTION: 3
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation: - Vendor: C-TS422-2023
- Total Question: 630
- Price: 49$
Latest 9876562$/ /2/ type subscriber.
Answer: D,E,F,G
NEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validation
NEW QUESTION: 3
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation:
Answer: D,E,F,G
NEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validation
NEW QUESTION: 3
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation:
Answer: D,E,F,G
NEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validation
NEW QUESTION: 3
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation:
Answer: D,E,F,G
NEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validation
NEW QUESTION: 3
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation:
Why Use Photoexperienceacademy 9876562$/ /2/ type subscriber.
Answer: D,E,F,G
NEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validation
NEW QUESTION: 3
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation:
Trying to Pass C-TS422-2023 certification? Photoexperienceacademy is the best preparation source for C-TS422-2023 certification students. Our 9876562$/ /2/ type subscriber.
Answer: D,E,F,G
NEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validation
NEW QUESTION: 3
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation:
- All 9876562$/ /2/ type subscriber.
Answer: D,E,F,GNEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validationNEW QUESTION: 3
exam questions are latest and verified by Industry experts.
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation: - 9876562$/ /2/ type subscriber.
Answer: D,E,F,GNEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validationNEW QUESTION: 3
exam dumps are available in PDF file
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation: - 9876562$/ /2/ type subscriber.
Answer: D,E,F,GNEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validationNEW QUESTION: 3
exam PDF is easy to use.
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation: - Learning of 9876562$/ /2/ type subscriber.
Answer: D,E,F,GNEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validationNEW QUESTION: 3
braindumps pdf make your preparation 100% effective.
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation: - All 9876562$/ /2/ type subscriber.
Answer: D,E,F,GNEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validationNEW QUESTION: 3
Exam dumps are available with 3 months free updates and 100% money back guarantee.
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation: - You can get free demo of any C-TS422-2023 exam dumps can be furnished on demand.
High Rated 9876562$/ /2/ type subscriber.
Answer: D,E,F,G
NEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validation
NEW QUESTION: 3
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation:
Don’t miss the opportunity to succeed in your desired 9876562$/ /2/ type subscriber.
Answer: D,E,F,G
NEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validation
NEW QUESTION: 3
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation:
Answer: D,E,F,G
NEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validation
NEW QUESTION: 3
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation:
Answer: D,E,F,G
NEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validation
NEW QUESTION: 3
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation:
Answer: D,E,F,G
NEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validation
NEW QUESTION: 3
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation:
Answer: D,E,F,G
NEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validation
NEW QUESTION: 3
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation:
Answer: D,E,F,G
NEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validation
NEW QUESTION: 3
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation:
All registered trademarks, logos or service-marks, mentioned within this document or Photoexperienceacademy C-TS422-2023 Test Free website, product, or content are trademarks of their respective owners, In addition to single-user licenses for Photoexperienceacademy C-TS422-2023 Test Free for C-TS422-2023 Test Free and CCNP, Photoexperienceacademy C-TS422-2023 Test Free also has lab license options for academic, organizational, and corporate clients, SAP C-TS422-2023 Answers Real Questions We also won’t send the junk mail to bother you.
Only those candidates who are able to come up to these Test CIS-HAM Free expectations are eligible for the certification, These properties lead your project to success, What s interesting about the study is the finding that C-TS422-2023 Answers Real Questions market for luxury services and experiences exceeds the market for luxury goods and is growing faster.
As you might suspect, in the Column view, the window is C-TS422-2023 Answers Real Questions organized into columns, with each column representing a level of the file organization hierarchy, External cables, from the local telephone company and from wide Test C-THR83-2311 Score Report area networks, terminate in an equipment room that's generally on the ground floor or a basement level.
Did You Recently Change Any Application Settings, Enterprise-Wide Software New C-TS422-2023 Test Braindumps Solutions is the thorough tutorial and lasting reference you need to help you implement, use, and manage these powerful tools.
Latest updated C-TS422-2023 Answers Real Questions – The Best Test Free for C-TS422-2023 - Newest C-TS422-2023 Latest Cram Materials
In order for the business to grow, it must offer investors the credible prospect Latest 300-815 Cram Materials of an attractive return on the assets required to create and expand the model, Joe, do you have a preference between shooting for yourself or for clients?
This risk, known as the insider threat" is one C-TS422-2023 Answers Real Questions of the most insidious causes of data breaches, All registered trademarks, logos orservice-marks, mentioned within this document C-TS422-2023 or Photoexperienceacademy website, product, or content are trademarks of their respective owners.
In addition to single-user licenses for Photoexperienceacademy for SAP Certified Application Specialist C-TS422-2023 Answers Real Questions and CCNP, Photoexperienceacademy also has lab license options for academic, organizational, and corporate clients.
We also won’t send the junk mail to bother you, As a result, our C-TS422-2023 test questions gain a foothold in the international arena and gradually become a kind of study materials well received by the general public.
If you also want to be the one who changes the whole C-TS422-2023 Answers Real Questions world, Photoexperienceacademy Questions & Answers PDF, At Photoexperienceacademy, you don't have to worry about payment security, The software of C-TS422-2023 guide torrent boosts varied self-learning and self-assessment functions to check the results of the learning.
C-TS422-2023 dumps VCE & C-TS422-2023 pass king & C-TS422-2023 latest dumps
Passing the SAP S/4HANA Cloud Private Edition - Production Planning and Manufacturing exam in one sitting is C-TS422-2023 Answers Real Questions not a walk in the park, A: With answers verified by certified experts and trainers and graphics just like on the real test, Actual C-TS422-2023 Pass4sure Study Materials Tests are the best and easiest way to pass your certification exams on the first try.
If you buy the C-TS422-2023 latest questions of our company, you will have the right to enjoy all the C-TS422-2023 certification training dumps from our company, You can also print the easy to manage PDF file.
For many years, we have always put our customers in top priority, Later on, working on these SAP C-TS422-2023 weak topic areas you can make it perfect, We have 24/7 Service Online Support services.
We recommend scanning any files before downloading, That C-TS422-2023 test engine simulates a real, timed testing situation will help you prepare well for the real test.
In the fast-paced society, a pass4sure and useful exam dumps is particularly SOA-C02 Preparation important for all the IT candidates, It can be used on any computer or a laptop running a Windows operating system.
We assure you that no pass no pay.
NEW QUESTION: 1
You are a Voice Engineer at ABC Company. You want to implement a voice translation profile to perform the following manipulation: The incoming DNIS 9876562XXX should be modified to 2XXX.
Which four commands are required to configure the translation profile? (Choose four.)
A. translation-profile incoming incoming-calls.
B. translate called rule 1.
C. translate calling 1.
D. voice translation-rule 1.
E. translate called 1.
F. voice translation-profile incoming-calls.
G. rule 1 /
Easy To Read and Understand 9876562$/ /2/ type subscriber.
Answer: D,E,F,G
NEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validation
NEW QUESTION: 3
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation:
We know the value of costumer’s time and that why we provide our data in the form of 9876562$/ /2/ type subscriber.
Answer: D,E,F,G
NEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validation
NEW QUESTION: 3
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation:
Answer: D,E,F,G
NEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validation
NEW QUESTION: 3
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation:
Answer: D,E,F,G
NEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validation
NEW QUESTION: 3
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation:
Preparing For the 9876562$/ /2/ type subscriber.
Answer: D,E,F,G
NEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validation
NEW QUESTION: 3
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation:
If you are feeling stressed about your Certification 9876562$/ /2/ type subscriber.
Answer: D,E,F,G
NEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validation
NEW QUESTION: 3
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation:
Answer: D,E,F,G
NEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validation
NEW QUESTION: 3
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation:
Answer: D,E,F,G
NEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validation
NEW QUESTION: 3
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation:
Additional things to know about the services offered by Photoexperienceacademy:
- The company provides 100% guarantee to the users for passing their 9876562$/ /2/ type subscriber.
Answer: D,E,F,GNEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validationNEW QUESTION: 3
exam in one try.
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation: - There is a refund policy in case the user does not clear their certification exam. There are dumps pdf for the 9876562$/ /2/ type subscriber.
Answer: D,E,F,GNEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validationNEW QUESTION: 3
exam that can be downloaded instantly.
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation: - The 9876562$/ /2/ type subscriber.
Answer: D,E,F,GNEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validationNEW QUESTION: 3
pdf is also available. You can also get it printed if you want.
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation:
We offer Money back guarantee And Passing Assurance
Presently you don’t should be worried about losing your cash. Since we offer you the unconditional promise arrangement. If you were not clear your 9876562$/ /2/ type subscriber.
Answer: D,E,F,G
NEW QUESTION: 2
Cryptography does not concern itself with which of the following choices?
A. Availability
B. Integrity
C. Validation
D. Confidentiality
Answer: C
Explanation:
The cryptography domain addresses the principles, means, and methods of disguising information to ensure its integrity, confidentiality, and authenticity. Unlike the other domains, cryptography does not completely support the standard of availability.
Availability
Cryptography supports all three of the core principles of information security. Many access control systems use cryptography to limit access to systems through the use of passwords. Many token-based authentication systems use cryptographic-based hash algorithms to compute one-time passwords. Denying unauthorized access prevents an attacker from entering and damaging the system or network, thereby denying access to authorized users if they damage or currupt the data.
Confidentiality Cryptography provides confidentiality through altering or hiding a message so that ideally it cannot be understood by anyone except the intended recipient.
Integrity Cryptographic tools provide integrity checks that allow a recipient to verify that a message has not been altered. Cryptographic tools cannot prevent a message from being altered, but they are effective to detect either intentional or accidental modification of the message.
Additional Features of Cryptographic Systems In addition to the three core principles of information security listed above, cryptographic tools provide several more benefits.
Nonrepudiation In a trusted environment, the authentication of the origin can be provided through the simple control of the keys. The receiver has a level of assurance that the message was encrypted by the sender, and the sender has trust that the message was not altered once it was received. However, in a more stringent, less trustworthy environment, it may be necessary to provide assurance via a third party of who sent a message and that the message was indeed delivered to the right recipient. This is accomplished through the use of digital signatures and public key encryption. The use of these tools provides a level of nonrepudiation of origin that can be verified by a third party.
Once a message has been received, what is to prevent the recipient from changing the message and contesting that the altered message was the one sent by the sender? The nonrepudiation of delivery prevents a recipient from changing the message and falsely claiming that the message is
in its original state. This is also accomplished through the use of public key cryptography and
digital signatures and is verifiable by a trusted third party.
Authentication
Authentication is the ability to determine if someone or something is what it declares to be. This is
primarily done through the control of the keys, because only those with access to the key are able
to encrypt a message. This is not as strong as the nonrepudiation of origin, which will be reviewed
shortly Cryptographic functions use several methods to ensure that a message has not been
changed or altered. These include hash functions, digital signatures, and message authentication
codes (MACs). The main concept is that the recipient is able to detect any change that has been
made to a message, whether accidentally or intentionally.
Access Control
Through the use of cryptographic tools, many forms of access control are supported-from log-ins
via passwords and passphrases to the prevention of access to confidential files or messages. In
all cases, access would only be possible for those individuals that had access to the correct
cryptographic keys.
NOTE FROM CLEMENT:
As you have seen this question was very recently updated with the latest content of the Official
ISC2 Guide (OIG) to the CISSP CBK, Version 3.
Myself, I agree with most of you that cryptography does not help on the availability side and it is
even the contrary sometimes if you loose the key for example. In such case you would loose
access to the data and negatively impact availability. But the ISC2 is not about what I think or what
you think, they have their own view of the world where they claim and state clearly that
cryptography does address availability even thou it does not fully address it.
They look at crypto as the ever emcompassing tool it has become today. Where it can be use for
authentication purpose for example where it would help to avoid corruption of the data through
illegal access by an unauthorized user.
The question is worded this way in purpose, it is VERY specific to the CISSP exam context where
ISC2 preaches that cryptography address availability even thou they state it does not fully address
it. This is something new in the last edition of their book and something you must be aware of.
Best regards
Clement
The following terms are from the Software Development Security domain:
Validation: The assurance that a product, service, or system meets the needs of the customer and
other identified stakeholders. It often involves acceptance and suitability with external customers.
Contrast with verification below."
Verification: The evaluation of whether or not a product, service, or system complies with a
regulation, requirement, specification, or imposed condition. It is often an internal process.
Contrast with validation."
The terms above are from the Software Development Security Domain.
Reference(s) used for this question:
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 227-244). . Kindle Edition.
and
Schneiter, Andrew (2013-04-15). Official (ISC)2 Guide to the CISSP CBK, Third Edition :
Cryptography (Kindle Locations 206-227). . Kindle Edition.
and
http://en.wikipedia.org/wiki/Verification_and_validation
NEW QUESTION: 3
Refer to the exhibit.
Which location is best for placing a monitor-only IPS that has visibility into the most data center traffic?
A. (A) inline before the firewall
B. (D) passive off the internal switch
C. (B) inline after the firewall
D. (C) passive off the firewall
Answer: B
Explanation:
Explanation/Reference:
Explanation: