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CompTIA Network+ Review Guide
Exam N10-007
Jon Buhagiar
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eBook - ePub
CompTIA Network+ Review Guide
Exam N10-007
Jon Buhagiar
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Essential last-minute review aid for the updated CompTIA Network+ Exam N10-007
CompTIA Network+ Review Guide Exam N10-007, 4th Edition, is your ideal study companion for preparing for the CompTIA Network+ exam (N10-007). Organized by exam objectives, this is a focused, concise review guide that works hand-in-hand with any learning tool, including the Sybex CompTIA Network+ Study Guide, CompTIA Network+ Deluxe Study Guide, and CompTIA Network+ Practice Tests. The book is broken into 5 parts, each part corresponding to one of the 5 objective domain areas of the Network+ exam: Network Architecture; Network Operations; Network Security; Troubleshooting; and Industry Standards, Practices, and Network Theory. Readers will also be given access to the comprehensive online Sybex test bank, which includes two bonus practice tests, electronic flashcards, and a glossary of terms that you'll need to know come exam day.
CompTIA's Network+ certification covers advances in networking technology, and reflects changes in associated job tasks. The exam places greater emphasis on network implementation and support, and includes expanded coverage of wireless networking topics. This review guide gives you the opportunity to identify your level of knowledge while there's still time to study, and avoid exam-day surprises.
- Review network architecture and security
- Understand network operations and troubleshooting
- Gain insight into industry standards and best practices
- Get a firmer grasp of network theory fundamentals
If you're looking for a beginning, vendor-neutral networking certification, look no further than CompTIA Network+.
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Información
Chapter 1
Domain 1.0: Networking Concepts
THE FOLLOWING COMPTIA NETWORK+ OBJECTIVES ARE COVERED IN THIS CHAPTER:
- 1.1 Explain the purposes and uses of ports and protocols.
- Protocols and ports
- SSH 22
- DNS 53
- SMTP 25
- SFTP 22
- FTP 20, 21
- TFTP 69
- TELNET 23
- DHCP 67, 68
- HTTP 80
- HTTPS 443
- SNMP 161
- RDP 3389
- NTP 123
- SIP 5060, 5061
- SMB 445
- POP 110
- IMAP 143
- LDAP 389
- LDAPS 636
- H.323 1720
- Protocol types
- ICMP
- UDP
- TCP
- IP
- Connection-oriented vs. connectionless
- Protocols and ports
- 1.2 Explain devices, applications, protocols and services at their appropriate OSI layers.
- Layer 7 – Application
- Layer 6 – Presentation
- Layer 5 – Session
- Layer 4 – Transport
- Layer 3 – Network
- Layer 2 – Data link
- Layer 1 – Physical
- 1.3 Explain the concepts and characteristics of routing and switching.
- Properties of network traffic
- Collision domains
- Broadcast domains
- CSMA/CD
- CSMA/CA
- Protocol data units
- MTU
- Broadcast
- Multicast
- Unicast
- Segmentation and interface properties
- VLANs
- Trunking (802.1Q)
- Tagging and untagging ports
- Port mirroring
- Switching loops/spanning tree
- PoE and PoE+ (802.3af, 802.3at)
- DMZ
- MAC address table
- ARP table
- Routing
- Routing types
- Static
- Dynamic
- Default
- Routing protocols (IPv4 and IPv6)
- Distance-vector routing protocols
- RIP
- EIGRP
- Link-state routing protocols
- OSPF
- Hybrid
- BGP
- Distance-vector routing protocols
- Routing types
- IPv6 concepts
- Addressing
- Tunneling
- Dual stack
- Router advertisement
- Neighbor discovery
- Performance concepts
- Traffic shaping
- QoS
- Diffserv
- CoS
- NAT/PAT
- Port forwarding
- Access control list
- Distributed switching
- Packet-switched vs. circuit-switched network
- Software-defined networking
- Properties of network traffic
- 1.4 Given a scenario, configure the appropriate IP addressing components.
- Private vs. public
- Loopback and reserved
- Default gateway
- Virtual IP
- Subnet mask
- Subnetting
- Classful
- Classes A, B, C, D, and E
- Classless
- VLSM
- CIDR notation (IPv4 vs. IPv6)
- Address assignments
- DHCP
- DHCPv6
- Static
- APIPA
- EUI64
- IP reservations
- Classful
- 1.5 Compare and contrast the characteristics of network topologies, types and technologies.
- Wired topologies
- Logical vs. physical
- Star
- Ring
- Mesh
- Bus
- Wireless topologies
- Ad-hoc
- Infrastructure
- Mesh
- Types
- LAN
- WLAN
- WAN
- MAN
- CAN
- SAN
- PAN
- Technologies that facilitate the Internet of Things (IoT)
- Z-Wave
- Ant+
- Bluetooth
- NFC
- IR
- RFID
- 802.11
- Wired topologies
- 1.6 Given a scenario, implement the appropriate wireless technologies and configurations.
- 802.11 standards
- b
- a
- g
- n
- ac
- Cellular
- TDMA
- CDMA
- GSM
- Frequencies
- 2.4GHz
- 5.0GHz
- Speed and distance requirements
- Channel bandwidth
- Channel bonding
- MIMO/MU-MIMO
- Unidirectional/omnidirectional
- Site surveys
- 802.11 standards
- 1.7 Summarize cloud concepts and their purposes.
- Types of services
- SaaS
- PaaS
- IaaS
- Cloud delivery models
- Private
- Public
- Hybrid
- Connectivity methods
- Security implications/considerations
- Relationship between local and cloud resources
- Types of services
- 1.8 Explain the functions of network services.
- DNS service
- Record types
- A, AAAA
- TXT (SPF, DKIM)
- SRV
- MX
- CNAME
- NS
- PTR
- Internal vs. external DNS
- Third-party/cloud-hosted DNS
- Hierarchy
- Forward vs. reverse zone
- Record types
- DHCP service
- MAC reservations
- Pools
- IP exclusions
- Scope options
- Lease time
- TTL
- DHCP relay/IP helper
- NTP
- IPAM
- DNS service
When learning network concepts, you might feel you need to know everything before you can learn one thing. This can be an overwhelming feeling for anyone. However, I recommend that you review the sections again once you’ve read the entire chapter. Not only does this help with review and memorization, but the pieces will make more sense once you see the entire picture.
1.1 Explain the purposes and uses of ports and protocols.
As a network professional, you will be expected to be fluent in acronyms. You’ll run across lots and lots of acronyms, and knowing their definitions is going to be the easy part. Understanding the practical application of these protocols will be what defines your knowledge of networking concepts.
Protocols and Ports
In this section I will introduce numerous protocols that are used to support network communications and administer networking components, as well as configure and troubleshoot networking components. The following are associated with each of these protocols:
- A transport layer protocol in which it operates
- A port number where it listens for requests
I will cover the transport layer protocols as well as the entire Open Systems Interconnection (OSI) model in the section “Explain devices, applications, protocols and services at their appropriate OSI layers.”
SSH (22)
Secure Shell (SSH) is a cryptographic protocol that is used to remotely administer Linux server and network equipment through a text console. The SSH protocol uses public key cryptology to authenticate and encrypt network access from the remote computer. This allows the user to securely log in without risk of the password being transmitted in clear text. Once the user is authenticated, all network transmissions are uniquely encrypted. The SSH protocol listens for incoming requests on TCP port 22. It is common practice for cloud providers to use SSH for authentication of administrators. They do this by providing the private key of the key pair to the administrator. I will cover key pairs in Chapter 4, “Domain 4: Network Security.”
DNS (53)
Domain Name Services (DNS) is a distributed director...