| File name: | fwpuclnt.dll.mui |
| Size: | 117248 byte |
| MD5: | 107dca67b707ba8492d40188c3a88135 |
| SHA1: | cf2d345b9a15882eaeabc28c9b000030ecc7a0c9 |
| SHA256: | afa460ed9155d84f069ad664b97a2782e6738b5f61dcc6ca874d546860d9f184 |
| Operating systems: | Windows 10 |
| Extension: | MUI |
If an error occurred or the following message in English (U.S.) language and you cannot find a solution, than check answer in English. Table below helps to know how correctly this phrase sounds in English.
| id | English (U.S.) | English |
|---|---|---|
| 1 | WFPv4 | WFPv4 |
| 3 | WFPv4 is the set of Windows Filtering Platform counters that apply to traffic and connections over Internet Protocol version 4. | WFPv4 is the set of Windows Filtering Platform counters that apply to traffic and connections over Internet Protocol version 4. |
| 5 | Inbound Packets Discarded/sec | Inbound Packets Discarded/sec |
| 7 | Inbound Packets Discarded per Second is the rate at which inbound packets are discarded by the Windows Filtering Platform. | Inbound Packets Discarded per Second is the rate at which inbound packets are discarded by the Windows Filtering Platform. |
| 9 | Outbound Packets Discarded/sec | Outbound Packets Discarded/sec |
| 11 | Outbound Packets Discarded per Second is the rate at which outbound packets are discarded by the Windows Filtering Platform. | Outbound Packets Discarded per Second is the rate at which outbound packets are discarded by the Windows Filtering Platform. |
| 13 | Packets Discarded/sec | Packets Discarded/sec |
| 15 | Packets Discarded per Second is the rate at which the total of inbound and outbound packets are discarded by the Windows Filtering Platform. | Packets Discarded per Second is the rate at which the total of inbound and outbound packets are discarded by the Windows Filtering Platform. |
| 17 | Blocked Binds | Blocked Binds |
| 19 | Blocked Binds is the number of network resource assignment requests blocked by the Windows Filtering Platform since the computer was last started. | Blocked Binds is the number of network resource assignment requests blocked by the Windows Filtering Platform since the computer was last started. |
| 21 | Inbound Connections Blocked/sec | Inbound Connections Blocked/sec |
| 23 | Inbound Connections Blocked per Second is the rate at which inbound connections are being blocked by the Windows Filtering Platform. | Inbound Connections Blocked per Second is the rate at which inbound connections are being blocked by the Windows Filtering Platform. |
| 25 | Outbound Connections Blocked/sec | Outbound Connections Blocked/sec |
| 27 | Outbound Connections Blocked per Second is the rate at which outbound connections are being blocked by the Windows Filtering Platform. | Outbound Connections Blocked per Second is the rate at which outbound connections are being blocked by the Windows Filtering Platform. |
| 29 | Inbound Connections Allowed/sec | Inbound Connections Allowed/sec |
| 31 | Inbound Connections Allowed per Second is the rate at which inbound connections are being allowed by the Windows Filtering Platform. | Inbound Connections Allowed per Second is the rate at which inbound connections are being allowed by the Windows Filtering Platform. |
| 33 | Outbound Connections Allowed/sec | Outbound Connections Allowed/sec |
| 35 | Outbound Connections Allowed per Second is the rate at which outbound connections are being allowed by the Windows Filtering Platform. | Outbound Connections Allowed per Second is the rate at which outbound connections are being allowed by the Windows Filtering Platform. |
| 37 | Inbound Connections | Inbound Connections |
| 39 | Inbound Connections is the number of inbound connections allowed by the Windows Filtering Platform since the computer was last started. | Inbound Connections is the number of inbound connections allowed by the Windows Filtering Platform since the computer was last started. |
| 41 | Outbound Connections | Outbound Connections |
| 43 | Outbound Connections is the number of outbound connections allowed by the Windows Filtering Platform since the computer was last started. | Outbound Connections is the number of outbound connections allowed by the Windows Filtering Platform since the computer was last started. |
| 45 | Active Inbound Connections | Active Inbound Connections |
| 47 | Active Inbound Connections is the number of current inbound connections allowed by the Windows Filtering Platform. | Active Inbound Connections is the number of current inbound connections allowed by the Windows Filtering Platform. |
| 49 | Active Outbound Connections | Active Outbound Connections |
| 51 | Active Outbound Connections is the number of current outbound connections allowed by the Windows Filtering Platform. | Active Outbound Connections is the number of current outbound connections allowed by the Windows Filtering Platform. |
| 53 | Allowed Classifies/sec | Allowed Classifies/sec |
| 55 | Allowed Classifies per Second is the rate of Windows Filtering Platform security rule evaluations which allow network activity. | Allowed Classifies per Second is the rate of Windows Filtering Platform security rule evaluations which allow network activity. |
| 57 | WFPv6 | WFPv6 |
| 59 | WFPv6 is the set of Windows Filtering Platform counters that apply to traffic and connections over Internet Protocol version 6. | WFPv6 is the set of Windows Filtering Platform counters that apply to traffic and connections over Internet Protocol version 6. |
| 113 | WFP | WFP |
| 115 | WFP is the set of Windows Filtering Platform counters that do not apply to any specific Internet Protocol version. | WFP is the set of Windows Filtering Platform counters that do not apply to any specific Internet Protocol version. |
| 117 | Provider Count | Provider Count |
| 119 | Provider Count is the number of providers registered with the Windows Filtering Platform. | Provider Count is the number of providers registered with the Windows Filtering Platform. |
| 121 | IPsec Driver | IPsec Driver |
| 123 | IPsec Driver is the set of Internet Protocol security (IPsec) driver counters that apply to traffic over Internet Protocol version 4 and Internet Protocol version 6. | IPsec Driver is the set of Internet Protocol security (IPsec) driver counters that apply to traffic over Internet Protocol version 4 and Internet Protocol version 6. |
| 125 | Active Security Associations | Active Security Associations |
| 127 | Active Security Associations is the number of active quick mode security associations. | Active Security Associations is the number of active quick mode security associations. |
| 129 | Pending Security Associations | Pending Security Associations |
| 131 | Pending Security Associations is the number of pending quick mode security associations. | Pending Security Associations is the number of pending quick mode security associations. |
| 133 | Incorrect SPI Packets | Incorrect SPI Packets |
| 135 | Incorrect SPI packets is the number of packets for which the Security Parameter Index (SPI) was incorrect since the computer was last started. A large number of packets with bad SPIs within a short amount of time might indicate a packet spoofing attack. | Incorrect SPI packets is the number of packets for which the Security Parameter Index (SPI) was incorrect since the computer was last started. A large number of packets with bad SPIs within a short amount of time might indicate a packet spoofing attack. |
| 137 | Incorrect SPI Packets/sec | Incorrect SPI Packets/sec |
| 139 | Incorrect SPI packets per Second is the rate of packets for which the Security Parameter Index (SPI) was incorrect since the computer was last started. A large number of packets with bad SPIs within a short amount of time might indicate a packet spoofing attack. | Incorrect SPI packets per Second is the rate of packets for which the Security Parameter Index (SPI) was incorrect since the computer was last started. A large number of packets with bad SPIs within a short amount of time might indicate a packet spoofing attack. |
| 141 | Bytes Received in Tunnel Mode/sec | Bytes Received in Tunnel Mode/sec |
| 143 | Bytes Received in Tunnel Mode per Second is the rate of bytes received using tunnel mode. | Bytes Received in Tunnel Mode per Second is the rate of bytes received using tunnel mode. |
| 145 | Bytes Sent in Tunnel Mode/sec | Bytes Sent in Tunnel Mode/sec |
| 147 | Bytes Sent in Tunnel Mode per Second is the rate of bytes sent using tunnel mode. | Bytes Sent in Tunnel Mode per Second is the rate of bytes sent using tunnel mode. |
| 149 | Bytes Received in Transport Mode/sec | Bytes Received in Transport Mode/sec |
| 151 | Bytes Received in Transport Mode per Second is the rate of bytes received using transport mode. | Bytes Received in Transport Mode per Second is the rate of bytes received using transport mode. |
| 153 | Bytes Sent in Transport Mode/sec | Bytes Sent in Transport Mode/sec |
| 155 | Bytes Sent in Transport Mode per Second is the rate of bytes sent using transport mode. | Bytes Sent in Transport Mode per Second is the rate of bytes sent using transport mode. |
| 157 | Offloaded Security Associations | Offloaded Security Associations |
| 159 | Offloaded Security Associations is the number of active quick mode security associations offloaded to hardware. Certain network adapters can accelerate IPsec processing by performing hardware offload of IPsec cryptographic functions. | Offloaded Security Associations is the number of active quick mode security associations offloaded to hardware. Certain network adapters can accelerate IPsec processing by performing hardware offload of IPsec cryptographic functions. |
| 161 | Offloaded Bytes Received/sec | Offloaded Bytes Received/sec |
| 163 | Offloaded Bytes Received per Second is the rate of bytes received using IPsec hardware offload. Certain network adapters can accelerate IPsec processing by performing hardware offload of IPsec cryptographic functions. | Offloaded Bytes Received per Second is the rate of bytes received using IPsec hardware offload. Certain network adapters can accelerate IPsec processing by performing hardware offload of IPsec cryptographic functions. |
| 165 | Offloaded Bytes Sent/sec | Offloaded Bytes Sent/sec |
| 167 | Offloaded Bytes Sent per Second is the rate of bytes sent using IPsec hardware offload. Certain network adapters can accelerate IPsec processing by performing hardware offload of IPsec cryptographic functions. | Offloaded Bytes Sent per Second is the rate of bytes sent using IPsec hardware offload. Certain network adapters can accelerate IPsec processing by performing hardware offload of IPsec cryptographic functions. |
| 169 | Packets That Failed Replay Detection | Packets That Failed Replay Detection |
| 171 | Packets That Failed Replay Detection is the number of packets that contained an invalid sequence number since the computer was last started. Increases in this counter might indicate a network problem or replay attack. | Packets That Failed Replay Detection is the number of packets that contained an invalid sequence number since the computer was last started. Increases in this counter might indicate a network problem or replay attack. |
| 173 | Packets That Failed Replay Detection/sec | Packets That Failed Replay Detection/sec |
| 175 | Packets That Failed Replay Detection per Second is the rate of packets that contained an invalid sequence number since the computer was last started. Increases in this counter might indicate a network problem or replay attack. | Packets That Failed Replay Detection per Second is the rate of packets that contained an invalid sequence number since the computer was last started. Increases in this counter might indicate a network problem or replay attack. |
| 177 | Packets Not Authenticated | Packets Not Authenticated |
| 179 | Packets Not Authenticated is the number of packets for which data could not be verified (for which the integrity hash verification failed) since the computer was last started. Increases in this counter might indicate an IPsec packet spoofing or modification attack, or packet corruption by network devices. | Packets Not Authenticated is the number of packets for which data could not be verified (for which the integrity hash verification failed) since the computer was last started. Increases in this counter might indicate an IPsec packet spoofing or modification attack, or packet corruption by network devices. |
| 181 | Packets Not Authenticated/sec | Packets Not Authenticated/sec |
| 183 | Packets Not Authenticated per Second is the rate of packets for which data could not be verified (for which the integrity hash verification failed) since the computer was last started. Increases in this counter might indicate an IPsec packet spoofing or modification attack, or packet corruption by network devices. | Packets Not Authenticated per Second is the rate of packets for which data could not be verified (for which the integrity hash verification failed) since the computer was last started. Increases in this counter might indicate an IPsec packet spoofing or modification attack, or packet corruption by network devices. |
| 185 | Packets Not Decrypted | Packets Not Decrypted |
| 187 | Packets Not Decrypted is the number of packets that could not be decrypted since the computer was last started. A packet might not be decrypted if it fails a validation check. | Packets Not Decrypted is the number of packets that could not be decrypted since the computer was last started. A packet might not be decrypted if it fails a validation check. |
| 189 | Packets Not Decrypted/sec | Packets Not Decrypted/sec |
| 191 | Packets Not Decrypted per Second is the rate of packets that could not be decrypted since the computer was last started. A packet might not be decrypted if it fails a validation check. | Packets Not Decrypted per Second is the rate of packets that could not be decrypted since the computer was last started. A packet might not be decrypted if it fails a validation check. |
| 193 | SA Rekeys | SA Rekeys |
| 195 | SA Rekeys is the number of successful rekey operations for quick mode security associations since the computer was last started. | SA Rekeys is the number of successful rekey operations for quick mode security associations since the computer was last started. |
| 197 | Security Associations Added | Security Associations Added |
| 199 | Security Associations Added is the number of security associations added since the computer was last started. | Security Associations Added is the number of security associations added since the computer was last started. |
| 201 | Packets That Failed ESP Validation | Packets That Failed ESP Validation |
| 203 | Packets That Failed ESP Validation is the number of packets received that failed ESP validation since the computer was last started. | Packets That Failed ESP Validation is the number of packets received that failed ESP validation since the computer was last started. |
| 205 | Packets That Failed ESP Validation/sec | Packets That Failed ESP Validation/sec |
| 207 | Packets That Failed ESP Validation per Second is the rate of packets received that failed ESP validation since the computer was last started. | Packets That Failed ESP Validation per Second is the rate of packets received that failed ESP validation since the computer was last started. |
| 209 | Packets That Failed UDP-ESP Validation | Packets That Failed UDP-ESP Validation |
| 211 | Packets That Failed UDP-ESP Validation is the number of packets received that failed UDP-ESP validation (used for NAT traversal) since the computer was last started. | Packets That Failed UDP-ESP Validation is the number of packets received that failed UDP-ESP validation (used for NAT traversal) since the computer was last started. |
| 213 | Packets That Failed UDP-ESP Validation/sec | Packets That Failed UDP-ESP Validation/sec |
| 215 | Packets That Failed UDP-ESP Validation per Second is the rate of packets received that failed UDP-ESP validation (used for NAT traversal) since the computer was last started. | Packets That Failed UDP-ESP Validation per Second is the rate of packets received that failed UDP-ESP validation (used for NAT traversal) since the computer was last started. |
| 217 | Packets Received Over Wrong SA | Packets Received Over Wrong SA |
| 219 | Packets Received Over Wrong SA is the number of packets received over the wrong security association since the computer was last started. | Packets Received Over Wrong SA is the number of packets received over the wrong security association since the computer was last started. |
| 221 | Packets Received Over Wrong SA/sec | Packets Received Over Wrong SA/sec |
| 223 | Packets Received Over Wrong SA per Second is the rate of packets received over the wrong security association since the computer was last started. | Packets Received Over Wrong SA per Second is the rate of packets received over the wrong security association since the computer was last started. |
| 225 | Plaintext Packets Received | Plaintext Packets Received |
| 227 | Plaintext Packets Received is the number of clear text packets received since the computer was last started. | Plaintext Packets Received is the number of clear text packets received since the computer was last started. |
| 229 | Plaintext Packets Received/sec | Plaintext Packets Received/sec |
| 231 | Plaintext Packets Received per Second is the rate of clear text packets received since the computer was last started. | Plaintext Packets Received per Second is the rate of clear text packets received since the computer was last started. |
| 233 | Total Inbound Packets Received | Total Inbound Packets Received |
| 235 | Total Inbound Packets Received is the total number of inbound packets successfully processed by IPsec, since the computer was last started. | Total Inbound Packets Received is the total number of inbound packets successfully processed by IPsec, since the computer was last started. |
| 237 | Inbound Packets Received/sec | Inbound Packets Received/sec |
| 239 | Inbound Packets Received per Second is the rate of inbound packets successfully processed by IPsec. | Inbound Packets Received per Second is the rate of inbound packets successfully processed by IPsec. |
| 241 | Total Inbound Packets Dropped | Total Inbound Packets Dropped |
| 243 | Total Inbound Packets Dropped is the total number of inbound packets dropped by IPsec, since the computer was last started. | Total Inbound Packets Dropped is the total number of inbound packets dropped by IPsec, since the computer was last started. |
| 245 | Inbound Packets Dropped/sec | Inbound Packets Dropped/sec |
| 247 | Inbound Packets Dropped per Second is the rate of inbound packets dropped by IPsec. | Inbound Packets Dropped per Second is the rate of inbound packets dropped by IPsec. |
| 249 | IPsec IKEv1 IPv4 | IPsec IKEv1 IPv4 |
| 251 | IPsec IKEv1 IPv4 is the set of Internet Protocol security (IPsec) Internet Key Exchange version 1 (IKEv1) counters that apply to traffic and connections over Internet Protocol version 4. | IPsec IKEv1 IPv4 is the set of Internet Protocol security (IPsec) Internet Key Exchange version 1 (IKEv1) counters that apply to traffic and connections over Internet Protocol version 4. |
| 253 | Active Main Mode SAs | Active Main Mode SAs |
| 255 | Active Main Mode SAs is the number of currently active main mode security associations. | Active Main Mode SAs is the number of currently active main mode security associations. |
| 257 | Pending Main Mode Negotiations | Pending Main Mode Negotiations |
| 259 | Pending Main Mode Negotiations is the number of pending main mode negotiations. | Pending Main Mode Negotiations is the number of pending main mode negotiations. |
| 261 | Main Mode Negotiations | Main Mode Negotiations |
| 263 | Main Mode Negotiations is the number of main mode negotiations attempted since IPsec was last started. | Main Mode Negotiations is the number of main mode negotiations attempted since IPsec was last started. |
| 265 | Main Mode Negotiations/sec | Main Mode Negotiations/sec |
| 267 | Main Mode Negotiations per Second is the rate at which main mode negotiations are being attempted. | Main Mode Negotiations per Second is the rate at which main mode negotiations are being attempted. |
| 269 | Successful Main Mode Negotiations | Successful Main Mode Negotiations |
| 271 | Successful Main Mode Negotiations is the number of main mode negotiations completed since IPsec was last started. | Successful Main Mode Negotiations is the number of main mode negotiations completed since IPsec was last started. |
| 273 | Successful Main Mode Negotiations/sec | Successful Main Mode Negotiations/sec |
| 275 | Successful Main Mode Negotiations per Second is the rate of main mode negotiations completed. | Successful Main Mode Negotiations per Second is the rate of main mode negotiations completed. |
| 277 | Failed Main Mode Negotiations | Failed Main Mode Negotiations |
| 279 | Failed Main Mode Negotiations is the number of failed main mode negotiations since IPsec was last started. | Failed Main Mode Negotiations is the number of failed main mode negotiations since IPsec was last started. |
| 281 | Failed Main Mode Negotiations/sec | Failed Main Mode Negotiations/sec |
| 283 | Failed Main Mode Negotiations per Second is the rate of failed main mode negotiations. | Failed Main Mode Negotiations per Second is the rate of failed main mode negotiations. |
| 285 | Main Mode Negotiation Requests Received | Main Mode Negotiation Requests Received |
| 287 | Main Mode Negotiation Requests Received is the number of main mode negotiations initiated by a peer since IPsec was last started. | Main Mode Negotiation Requests Received is the number of main mode negotiations initiated by a peer since IPsec was last started. |
| 289 | Main Mode Negotiation Requests Received/sec | Main Mode Negotiation Requests Received/sec |
| 291 | Main Mode Negotiation Requests Received per Second is the rate of main mode negotiations initiated by a peer. | Main Mode Negotiation Requests Received per Second is the rate of main mode negotiations initiated by a peer. |
| 293 | Active Quick Mode SAs | Active Quick Mode SAs |
| 295 | Active Quick Mode SAs is the number of currently active quick mode security associations. | Active Quick Mode SAs is the number of currently active quick mode security associations. |
| 297 | Pending Quick Mode Negotiations | Pending Quick Mode Negotiations |
| 299 | Pending Quick Mode Negotiations is the number of pending quick mode negotiations. | Pending Quick Mode Negotiations is the number of pending quick mode negotiations. |
| 301 | Quick Mode Negotiations | Quick Mode Negotiations |
| 303 | Quick Mode Negotiations is the number of quick mode negotiations attempted since IPsec was last started. | Quick Mode Negotiations is the number of quick mode negotiations attempted since IPsec was last started. |
| 305 | Quick Mode Negotiations/sec | Quick Mode Negotiations/sec |
| 307 | Quick Mode Negotiations per Second is the rate at which quick mode negotiations are being attempted. | Quick Mode Negotiations per Second is the rate at which quick mode negotiations are being attempted. |
| 309 | Successful Quick Mode Negotiations | Successful Quick Mode Negotiations |
| 311 | Successful Quick Mode Negotiations is the number of quick mode negotiations completed since IPsec was last started. | Successful Quick Mode Negotiations is the number of quick mode negotiations completed since IPsec was last started. |
| 313 | Successful Quick Mode Negotiations/sec | Successful Quick Mode Negotiations/sec |
| 315 | Successful Quick Mode Negotiations per Second is the rate of quick mode negotiations completed. | Successful Quick Mode Negotiations per Second is the rate of quick mode negotiations completed. |
| 317 | Failed Quick Mode Negotiations | Failed Quick Mode Negotiations |
| 319 | Failed Quick Mode Negotiations is the number of failed quick mode negotiations since IPsec was last started. | Failed Quick Mode Negotiations is the number of failed quick mode negotiations since IPsec was last started. |
| 321 | Failed Quick Mode Negotiations/sec | Failed Quick Mode Negotiations/sec |
| 323 | Failed Quick Mode Negotiations per Second is the rate of failed quick mode negotiations. | Failed Quick Mode Negotiations per Second is the rate of failed quick mode negotiations. |
| 325 | IPsec IKEv1 IPv6 | IPsec IKEv1 IPv6 |
| 327 | IPsec IKEv1 IPv6 is the set of Internet Protocol security (IPsec) Internet Key Exchange version 1 (IKEv1) counters that apply to traffic and connections over Internet Protocol version 6. | IPsec IKEv1 IPv6 is the set of Internet Protocol security (IPsec) Internet Key Exchange version 1 (IKEv1) counters that apply to traffic and connections over Internet Protocol version 6. |
| 401 | IPsec AuthIP IPv4 | IPsec AuthIP IPv4 |
| 403 | IPsec AuthIP IPv4 is the set of Internet Protocol security (IPsec) Authenticated IP (AuthIP) counters that apply to traffic and connections over Internet Protocol version 4. | IPsec AuthIP IPv4 is the set of Internet Protocol security (IPsec) Authenticated IP (AuthIP) counters that apply to traffic and connections over Internet Protocol version 4. |
| 445 | Main Mode SAs That Used Impersonation | Main Mode SAs That Used Impersonation |
| 447 | Main Mode SAs That Used Impersonation is the number of main mode security associations completed using impersonation since IPsec was last started. | Main Mode SAs That Used Impersonation is the number of main mode security associations completed using impersonation since IPsec was last started. |
| 449 | Main Mode SAs That Used Impersonation/sec | Main Mode SAs That Used Impersonation/sec |
| 451 | Main Mode SAs That Used Impersonation per Second is the rate of main mode security associations completed using impersonation. | Main Mode SAs That Used Impersonation per Second is the rate of main mode security associations completed using impersonation. |
| 485 | Active Extended Mode SAs | Active Extended Mode SAs |
| 487 | Active Extended Mode SAs is the number of currently active extended mode security associations. | Active Extended Mode SAs is the number of currently active extended mode security associations. |
| 489 | Pending Extended Mode Negotiations | Pending Extended Mode Negotiations |
| 491 | Pending Extended Mode Negotiations is the number of pending extended mode negotiations. | Pending Extended Mode Negotiations is the number of pending extended mode negotiations. |
| 493 | Extended Mode Negotiations | Extended Mode Negotiations |
| 495 | Extended Mode Negotiations is the number of extended mode negotiations attempted since IPsec was last started. | Extended Mode Negotiations is the number of extended mode negotiations attempted since IPsec was last started. |
| 497 | Extended Mode Negotiations/sec | Extended Mode Negotiations/sec |
| 499 | Extended Mode Negotiations per Second is the rate at which extended mode negotiations are being attempted. | Extended Mode Negotiations per Second is the rate at which extended mode negotiations are being attempted. |
| 501 | Successful Extended Mode Negotiations | Successful Extended Mode Negotiations |
| 503 | Successful Extended Mode Negotiations is the number of extended mode negotiations completed since IPsec was last started. | Successful Extended Mode Negotiations is the number of extended mode negotiations completed since IPsec was last started. |
| 505 | Successful Extended Mode Negotiations/sec | Successful Extended Mode Negotiations/sec |
| 507 | Successful Extended Mode Negotiations per Second is the rate of extended mode negotiations completed. | Successful Extended Mode Negotiations per Second is the rate of extended mode negotiations completed. |
| 509 | Failed Extended Mode Negotiations | Failed Extended Mode Negotiations |
| 511 | Failed Extended Mode Negotiations is the number of failed extended mode negotiations since IPsec was last started. | Failed Extended Mode Negotiations is the number of failed extended mode negotiations since IPsec was last started. |
| 513 | Failed Extended Mode Negotiations/sec | Failed Extended Mode Negotiations/sec |
| 515 | Failed Extended Mode Negotiations per Second is the rate of failed extended mode negotiations. | Failed Extended Mode Negotiations per Second is the rate of failed extended mode negotiations. |
| 517 | Extended Mode SAs That Used Impersonation | Extended Mode SAs That Used Impersonation |
| 519 | Extended Mode SAs That Used Impersonation is the number of extended mode security associations completed using impersonation since IPsec was last started. | Extended Mode SAs That Used Impersonation is the number of extended mode security associations completed using impersonation since IPsec was last started. |
| 521 | IPsec AuthIP IPv6 | IPsec AuthIP IPv6 |
| 523 | IPsec AuthIP IPv6 is the set of Internet Protocol security (IPsec) Authenticated IP (AuthIP) counters that apply to traffic and connections over Internet Protocol version 6. | IPsec AuthIP IPv6 is the set of Internet Protocol security (IPsec) Authenticated IP (AuthIP) counters that apply to traffic and connections over Internet Protocol version 6. |
| 641 | Generic IKEv1, AuthIP, and IKEv2 | Generic IKEv1, AuthIP, and IKEv2 |
| 643 | Generic IKEv1, AuthIP, and IKEv2 is the set of Internet Protocol security (IPsec) Internet Key Exchange Version 1 (IKEv1), Authenticated IP (AuthIP), and Internet Key Exchange Version 2 (IKEv2) counters that are generic and do not apply to a specific Internet Protocol version. | Generic IKEv1, AuthIP, and IKEv2 is the set of Internet Protocol security (IPsec) Internet Key Exchange Version 1 (IKEv1), Authenticated IP (AuthIP), and Internet Key Exchange Version 2 (IKEv2) counters that are generic and do not apply to a specific Internet Protocol version. |
| 645 | IKEv1 Main Mode Negotiation Time | IKEv1 Main Mode Negotiation Time |
| 647 | IKEv1 Main Mode Negotiation Time is the number of milliseconds taken for the last IKEv1 main mode security association negotiated. | IKEv1 Main Mode Negotiation Time is the number of milliseconds taken for the last IKEv1 main mode security association negotiated. |
| 649 | AuthIP Main Mode Negotiation Time | AuthIP Main Mode Negotiation Time |
| 651 | AuthIP Main Mode Negotiation Time is the number of milliseconds taken for the last Authenticated IP main mode security association negotiated. | AuthIP Main Mode Negotiation Time is the number of milliseconds taken for the last Authenticated IP main mode security association negotiated. |
| 653 | IKEv1 Quick Mode Negotiation Time | IKEv1 Quick Mode Negotiation Time |
| 655 | IKEv1 Quick Mode Negotiation Time is the number of milliseconds taken for the last IKEv1 quick mode security association negotiated. | IKEv1 Quick Mode Negotiation Time is the number of milliseconds taken for the last IKEv1 quick mode security association negotiated. |
| 657 | AuthIP Quick Mode Negotiation Time | AuthIP Quick Mode Negotiation Time |
| 659 | AuthIP Quick Mode Negotiation Time is the number of milliseconds taken for the last Authenticated IP quick mode security association negotiated. | AuthIP Quick Mode Negotiation Time is the number of milliseconds taken for the last Authenticated IP quick mode security association negotiated. |
| 661 | Extended Mode Negotiation Time | Extended Mode Negotiation Time |
| 663 | Extended Mode Negotiation Time is the number of milliseconds taken for the last extended mode security association negotiated. | Extended Mode Negotiation Time is the number of milliseconds taken for the last extended mode security association negotiated. |
| 665 | Packets Received/sec | Packets Received/sec |
| 667 | Packets Received per Second is the rate at which validated IPsec packets are being received. | Packets Received per Second is the rate at which validated IPsec packets are being received. |
| 669 | Invalid Packets Received/sec | Invalid Packets Received/sec |
| 671 | Invalid Packets Received per Second is the rate at which invalid IPsec packets are being received. | Invalid Packets Received per Second is the rate at which invalid IPsec packets are being received. |
| 673 | Successful Negotiations | Successful Negotiations |
| 675 | Successful Negotiations is the number of negotiations completed for IKEv1, AuthIP, and IKEv2 since IPsec was last started. | Successful Negotiations is the number of negotiations completed for IKEv1, AuthIP, and IKEv2 since IPsec was last started. |
| 677 | Successful Negotiations/sec | Successful Negotiations/sec |
| 679 | Successful Negotiations per Second is the rate of negotiations completed for IKEv1, AuthIP, and IKEv2. | Successful Negotiations per Second is the rate of negotiations completed for IKEv1, AuthIP, and IKEv2. |
| 681 | Failed Negotiations | Failed Negotiations |
| 683 | Failed Negotiations is the number of failed negotiations for IKEv1, AuthIP, and IKEv2 since IPsec was last started. | Failed Negotiations is the number of failed negotiations for IKEv1, AuthIP, and IKEv2 since IPsec was last started. |
| 685 | Failed Negotiations/sec | Failed Negotiations/sec |
| 687 | Failed Negotiations per Second is the rate of failed negotiations attempted for IKEv1, AuthIP, and IKEv2. | Failed Negotiations per Second is the rate of failed negotiations attempted for IKEv1, AuthIP, and IKEv2. |
| 689 | IKEv2 Main Mode Negotiation Time | IKEv2 Main Mode Negotiation Time |
| 691 | IKEv2 Main Mode Negotiation Time is the number of milliseconds taken for the last IKEv2 main mode security association negotiated. | IKEv2 Main Mode Negotiation Time is the number of milliseconds taken for the last IKEv2 main mode security association negotiated. |
| 693 | IKEv2 Quick Mode Negotiation Time | IKEv2 Quick Mode Negotiation Time |
| 695 | IKEv2 Quick Mode Negotiation Time is the number of milliseconds taken for the last IKEv2 quick mode security association negotiated. | IKEv2 Quick Mode Negotiation Time is the number of milliseconds taken for the last IKEv2 quick mode security association negotiated. |
| 697 | IPsec IKEv2 IPv4 | IPsec IKEv2 IPv4 |
| 699 | IPsec IKEv2 IPv4 is the set of Internet Protocol security (IPsec) Internet Key Exchange version 2 (IKEv2) counters that apply to traffic and connections over Internet Protocol version 4. | IPsec IKEv2 IPv4 is the set of Internet Protocol security (IPsec) Internet Key Exchange version 2 (IKEv2) counters that apply to traffic and connections over Internet Protocol version 4. |
| 773 | IPsec IKEv2 IPv6 | IPsec IKEv2 IPv6 |
| 775 | IPsec IKEv2 IPv6 is the set of Internet Protocol security (IPsec) Internet Key Exchange version 2 (IKEv2) counters that apply to traffic and connections over Internet Protocol version 6. | IPsec IKEv2 IPv6 is the set of Internet Protocol security (IPsec) Internet Key Exchange version 2 (IKEv2) counters that apply to traffic and connections over Internet Protocol version 6. |
| 849 | IPsec Connections | IPsec Connections |
| 851 | IPsec Connections is the set of Internet Protocol security (IPsec) counters that apply to IPsec encapsulated connections. | IPsec Connections is the set of Internet Protocol security (IPsec) counters that apply to IPsec encapsulated connections. |
| 853 | Total Number current Connections | Total Number current Connections |
| 857 | Total number of cumulative connections since boot | Total number of cumulative connections since boot |
| 861 | Max number of connections since boot | Max number of connections since boot |
| 865 | Total Bytes In since start | Total Bytes In since start |
| 867 | Total Bytes In since boot | Total Bytes In since boot |
| 869 | Total Bytes Out since start | Total Bytes Out since start |
| 871 | Total Bytes Out since boot | Total Bytes Out since boot |
| 873 | Number of failed authentications | Number of failed authentications |
| 1000 | IPsec DoS Protection | IPsec DoS Protection |
| 1002 | IPsec DoS Protection is the set of counters that apply to the traffic flowing through the IPsec DoS Protection component. | IPsec DoS Protection is the set of counters that apply to the traffic flowing through the IPsec DoS Protection component. |
| 1004 | State Entries | State Entries |
| 1006 | State Entries is the total number of state entries created by the IPsec Denial of Service Protection component since it was last started. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. | State Entries is the total number of state entries created by the IPsec Denial of Service Protection component since it was last started. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. |
| 1008 | State Entries/sec | State Entries/sec |
| 1010 | State Entries per Second is the rate at which state entries are created by the IPsec Denial of Service Protection component. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. | State Entries per Second is the rate at which state entries are created by the IPsec Denial of Service Protection component. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. |
| 1012 | Current State Entries | Current State Entries |
| 1014 | Current State Entries is the number of state entries in the table. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. | Current State Entries is the number of state entries in the table. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. |
| 1016 | Inbound Allowed IPv6 IPsec Unauthenticated Packets | Inbound Allowed IPv6 IPsec Unauthenticated Packets |
| 1018 | Inbound Allowed IPv6 IPsec Unauthenticated Packets is the total number of unauthenticated IKEv1, IKEv2, AuthIP, or ESP IPv6 packets forwarded from a public interface to an internal interface. An unauthenticated packet is an IPsec packet without an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. | Inbound Allowed IPv6 IPsec Unauthenticated Packets is the total number of unauthenticated IKEv1, IKEv2, AuthIP, or ESP IPv6 packets forwarded from a public interface to an internal interface. An unauthenticated packet is an IPsec packet without an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. |
| 1020 | Inbound Allowed IPv6 IPsec Unauthenticated Packets/sec | Inbound Allowed IPv6 IPsec Unauthenticated Packets/sec |
| 1022 | Inbound Allowed IPv6 IPsec Unauthenticated Packets per Second is the rate at which unauthenticated IKEv1, IKEv2, AuthIP, or ESP IPv6 packets are forwarded from a public interface to an internal interface. An unauthenticated packet is an IPsec packet without an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. | Inbound Allowed IPv6 IPsec Unauthenticated Packets per Second is the rate at which unauthenticated IKEv1, IKEv2, AuthIP, or ESP IPv6 packets are forwarded from a public interface to an internal interface. An unauthenticated packet is an IPsec packet without an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. |
| 1024 | Inbound Allowed IPv6 IPsec Authenticated Packets | Inbound Allowed IPv6 IPsec Authenticated Packets |
| 1026 | Inbound Allowed IPv6 IPsec Authenticated Packets is the total number of authenticated IKEv1, IKEv2, AuthIP, or ESP IPv6 packets forwarded from a public interface to an internal interface. An authenticated packet is an IPsec packet with an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. | Inbound Allowed IPv6 IPsec Authenticated Packets is the total number of authenticated IKEv1, IKEv2, AuthIP, or ESP IPv6 packets forwarded from a public interface to an internal interface. An authenticated packet is an IPsec packet with an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. |
| 1028 | Inbound Allowed IPv6 IPsec Authenticated Packets/sec | Inbound Allowed IPv6 IPsec Authenticated Packets/sec |
| 1030 | Inbound Allowed IPv6 IPsec Authenticated Packets per Second is the rate at which authenticated IKEv1, IKEv2, AuthIP or ESP IPv6 packets are forwarded from a public interface to an internal interface. An authenticated packet is an IPsec packet with an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. | Inbound Allowed IPv6 IPsec Authenticated Packets per Second is the rate at which authenticated IKEv1, IKEv2, AuthIP or ESP IPv6 packets are forwarded from a public interface to an internal interface. An authenticated packet is an IPsec packet with an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. |
| 1032 | Inbound Allowed ICMPv6 Packets | Inbound Allowed ICMPv6 Packets |
| 1034 | Inbound Allowed ICMPv6 Packets is the total number of ICMPv6 packets forwarded from a public interface to an internal interface. | Inbound Allowed ICMPv6 Packets is the total number of ICMPv6 packets forwarded from a public interface to an internal interface. |
| 1036 | Inbound Allowed ICMPv6 Packets/sec | Inbound Allowed ICMPv6 Packets/sec |
| 1038 | Inbound Allowed ICMPv6 Packets per Second is the rate at which ICMPv6 packets are forwarded from a public interface to an internal interface. | Inbound Allowed ICMPv6 Packets per Second is the rate at which ICMPv6 packets are forwarded from a public interface to an internal interface. |
| 1040 | Inbound Allowed Filter Exempt IPv6 Packets | Inbound Allowed Filter Exempt IPv6 Packets |
| 1042 | Inbound Allowed Filter Exempt IPv6 Packets is the total number of IPv6 filter exempt packets forwarded from a public interface to an internal interface. A filter exempt packet is a packet that is configured by an administrator to bypass the Denial of Service Protection component. | Inbound Allowed Filter Exempt IPv6 Packets is the total number of IPv6 filter exempt packets forwarded from a public interface to an internal interface. A filter exempt packet is a packet that is configured by an administrator to bypass the Denial of Service Protection component. |
| 1044 | Inbound Allowed Filter Exempt IPv6 Packets/sec | Inbound Allowed Filter Exempt IPv6 Packets/sec |
| 1046 | Inbound Allowed Filter Exempt IPv6 Packets per Second is the rate at which IPv6 filter exempt packets are forwarded from a public interface to an internal interface. A filter exempt packet is a packet that is configured by an administrator to bypass the Denial of Service Protection component. | Inbound Allowed Filter Exempt IPv6 Packets per Second is the rate at which IPv6 filter exempt packets are forwarded from a public interface to an internal interface. A filter exempt packet is a packet that is configured by an administrator to bypass the Denial of Service Protection component. |
| 1048 | Inbound Allowed Default Block Exempt Packets | Inbound Allowed Default Block Exempt Packets |
| 1050 | Inbound Allowed Default Block Exempt Packets is the total number of default block exempt packets forwarded from a public interface to an internal interface. An allowed default block exempt packet can be an AH IPv6 packet, an IPv6 packet without IPsec, or an IPv4 packet. These packets are blocked by default by the Denial of Service Protection component but can be explicitly allowed by an administrator. | Inbound Allowed Default Block Exempt Packets is the total number of default block exempt packets forwarded from a public interface to an internal interface. An allowed default block exempt packet can be an AH IPv6 packet, an IPv6 packet without IPsec, or an IPv4 packet. These packets are blocked by default by the Denial of Service Protection component but can be explicitly allowed by an administrator. |
| 1052 | Inbound Allowed Default Block Exempt Packets/sec | Inbound Allowed Default Block Exempt Packets/sec |
| 1054 | Inbound Allowed Default Block Exempt Packets per Second is the rate at which default block exempt packets are forwarded from a public interface to an internal interface. An allowed default block exempt packet can be an AH IPv6 packet, an IPv6 packet without IPsec, or an IPv4 packet. These packets are blocked by default by the Denial of Service Protection component but can be explicitly allowed by an administrator. | Inbound Allowed Default Block Exempt Packets per Second is the rate at which default block exempt packets are forwarded from a public interface to an internal interface. An allowed default block exempt packet can be an AH IPv6 packet, an IPv6 packet without IPsec, or an IPv4 packet. These packets are blocked by default by the Denial of Service Protection component but can be explicitly allowed by an administrator. |
| 1056 | Inbound Rate Limit Discarded IPv6 IPsec Unauthenticated Packets | Inbound Rate Limit Discarded IPv6 IPsec Unauthenticated Packets |
| 1058 | Inbound Rate Limit Discarded IPv6 IPsec Unauthenticated Packets is the total number of unauthenticated IKEv1, IKEv2, AuthIP, or ESP IPv6 packets received on a public interface and discarded because they exceeded the rate limit for IPv6 IPsec unauthenticated packets. An unauthenticated packet is an IPsec packet without an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. | Inbound Rate Limit Discarded IPv6 IPsec Unauthenticated Packets is the total number of unauthenticated IKEv1, IKEv2, AuthIP, or ESP IPv6 packets received on a public interface and discarded because they exceeded the rate limit for IPv6 IPsec unauthenticated packets. An unauthenticated packet is an IPsec packet without an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. |
| 1060 | Inbound Rate Limit Discarded IPv6 IPsec Unauthenticated Packets/sec | Inbound Rate Limit Discarded IPv6 IPsec Unauthenticated Packets/sec |
| 1062 | Inbound Rate Limit Discarded IPv6 IPsec Unauthenticated Packets per Second is the rate of unauthenticated IKEv1, IKEv2, AuthIP, or ESP IPv6 packets received on a public interface and discarded because they exceeded the rate limit for IPv6 IPsec unauthenticated packets. An unauthenticated packet is an IPsec packet without an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. | Inbound Rate Limit Discarded IPv6 IPsec Unauthenticated Packets per Second is the rate of unauthenticated IKEv1, IKEv2, AuthIP, or ESP IPv6 packets received on a public interface and discarded because they exceeded the rate limit for IPv6 IPsec unauthenticated packets. An unauthenticated packet is an IPsec packet without an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. |
| 1064 | Inbound Per IP Rate Limit Discarded IPv6 IPsec Unauthenticated Packets | Inbound Per IP Rate Limit Discarded IPv6 IPsec Unauthenticated Packets |
| 1066 | Inbound per IP Rate Limit Discarded IPv6 IPsec Unauthenticated Packets is the total number of unauthenticated IKEv1, IKEv2, AuthIP, or ESP IPv6 packets received on a public interface and discarded because they exceeded the per internal IP address rate limit for IPv6 IPsec unauthenticated packets. An unauthenticated packet is an IPsec packet without an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. | Inbound per IP Rate Limit Discarded IPv6 IPsec Unauthenticated Packets is the total number of unauthenticated IKEv1, IKEv2, AuthIP, or ESP IPv6 packets received on a public interface and discarded because they exceeded the per internal IP address rate limit for IPv6 IPsec unauthenticated packets. An unauthenticated packet is an IPsec packet without an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. |
| 1068 | Inbound Per IP Rate Limit Discarded IPv6 IPsec Unauthenticated Packets/sec | Inbound Per IP Rate Limit Discarded IPv6 IPsec Unauthenticated Packets/sec |
| 1070 | Inbound per IP Rate Limit Discarded IPv6 IPsec Unauthenticated Packets per Second is the rate at which unauthenticated IKEv1, IKEv2, AuthIP, or ESP IPv6 packets are received on a public interface and discarded because they exceeded the per internal IP address rate limit for IPv6 IPsec unauthenticated packets. An unauthenticated packet is an IPsec packet without an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. | Inbound per IP Rate Limit Discarded IPv6 IPsec Unauthenticated Packets per Second is the rate at which unauthenticated IKEv1, IKEv2, AuthIP, or ESP IPv6 packets are received on a public interface and discarded because they exceeded the per internal IP address rate limit for IPv6 IPsec unauthenticated packets. An unauthenticated packet is an IPsec packet without an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. |
| 1072 | Inbound Other Discarded IPv6 IPsec Unauthenticated Packets | Inbound Other Discarded IPv6 IPsec Unauthenticated Packets |
| 1074 | Inbound Other Discarded IPv6 IPsec Unauthenticated Packets is the total number of unauthenticated IKEv1, IKEv2 ,AuthIP, or ESP IPv6 packets received on a public interface and discarded because of errors or packet abnormalities. An unauthenticated packet is an IPsec packet without an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. | Inbound Other Discarded IPv6 IPsec Unauthenticated Packets is the total number of unauthenticated IKEv1, IKEv2 ,AuthIP, or ESP IPv6 packets received on a public interface and discarded because of errors or packet abnormalities. An unauthenticated packet is an IPsec packet without an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. |
| 1076 | Inbound Other Discarded IPv6 IPsec Unauthenticated Packets/sec | Inbound Other Discarded IPv6 IPsec Unauthenticated Packets/sec |
| 1078 | Inbound Other Discarded IPv6 IPsec Unauthenticated Packets per Second is the rate at which unauthenticated IKEv1, IKEv2 , AuthIP, or ESP IPv6 packets are received on a public interface and discarded because of errors or packet abnormalities. An unauthenticated packet is an IPsec packet without an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. | Inbound Other Discarded IPv6 IPsec Unauthenticated Packets per Second is the rate at which unauthenticated IKEv1, IKEv2 , AuthIP, or ESP IPv6 packets are received on a public interface and discarded because of errors or packet abnormalities. An unauthenticated packet is an IPsec packet without an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. |
| 1080 | Inbound Rate Limit Discarded IPv6 IPsec Authenticated Packets | Inbound Rate Limit Discarded IPv6 IPsec Authenticated Packets |
| 1082 | Inbound Rate Limit Discarded IPv6 IPsec Authenticated Packets is the total number of authenticated IKEv1, IKEv2, AuthIP, or ESP IPv6 packets received on a public interface and discarded because they exceeded the rate limit for IPv6 IPsec authenticated packets. An authenticated packet is an IPsec packet with an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. | Inbound Rate Limit Discarded IPv6 IPsec Authenticated Packets is the total number of authenticated IKEv1, IKEv2, AuthIP, or ESP IPv6 packets received on a public interface and discarded because they exceeded the rate limit for IPv6 IPsec authenticated packets. An authenticated packet is an IPsec packet with an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. |
| 1084 | Inbound Rate Limit Discarded IPv6 IPsec Authenticated Packets/sec | Inbound Rate Limit Discarded IPv6 IPsec Authenticated Packets/sec |
| 1086 | Inbound Rate Limit Discarded IPv6 IPsec Authenticated Packets per Second is the rate at which authenticated IKEv1, IKEv2, AuthIP, or ESP IPv6 packets are received on a public interface and discarded because they exceed the rate limit for IPv6 IPsec authenticated packets. An authenticated packet is an IPsec packet with an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. | Inbound Rate Limit Discarded IPv6 IPsec Authenticated Packets per Second is the rate at which authenticated IKEv1, IKEv2, AuthIP, or ESP IPv6 packets are received on a public interface and discarded because they exceed the rate limit for IPv6 IPsec authenticated packets. An authenticated packet is an IPsec packet with an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. |
| 1088 | Inbound Other Discarded IPv6 IPsec Authenticated Packets | Inbound Other Discarded IPv6 IPsec Authenticated Packets |
| 1090 | Inbound Other Discarded IPv6 IPsec Authenticated Packets is the total number of authenticated IKEv1, IKEv2, AuthIP, or ESP IPv6 packets received on a public interface and discarded because of errors or packet abnormalities. An authenticated packet is an IPsec packet with an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. | Inbound Other Discarded IPv6 IPsec Authenticated Packets is the total number of authenticated IKEv1, IKEv2, AuthIP, or ESP IPv6 packets received on a public interface and discarded because of errors or packet abnormalities. An authenticated packet is an IPsec packet with an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. |
| 1092 | Inbound Other Discarded IPv6 IPsec Authenticated Packets/sec | Inbound Other Discarded IPv6 IPsec Authenticated Packets/sec |
| 1094 | Inbound Other Discarded IPv6 IPsec Authenticated Packets per Second is the rate at which authenticated IKEv1, IKEv2, AuthIP, or ESP IPv6 packets are received on a public interface and discarded because of errors or packet abnormalities. An authenticated packet is an IPsec packet with an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. | Inbound Other Discarded IPv6 IPsec Authenticated Packets per Second is the rate at which authenticated IKEv1, IKEv2, AuthIP, or ESP IPv6 packets are received on a public interface and discarded because of errors or packet abnormalities. An authenticated packet is an IPsec packet with an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. |
| 1096 | Inbound Rate Limit Discarded ICMPv6 Packets | Inbound Rate Limit Discarded ICMPv6 Packets |
| 1098 | Inbound Rate Limit Discarded ICMPv6 Packets is the total number of ICMPv6 packets received on a public interface and discarded because they exceeded the rate limit for ICMPv6 packets. | Inbound Rate Limit Discarded ICMPv6 Packets is the total number of ICMPv6 packets received on a public interface and discarded because they exceeded the rate limit for ICMPv6 packets. |
| 1100 | Inbound Rate Limit Discarded ICMPv6 Packets/sec | Inbound Rate Limit Discarded ICMPv6 Packets/sec |
| 1102 | Inbound Rate Limit Discarded ICMPv6 Packets per Second is the rate at which ICMPv6 packets are received on a public interface and discarded because they exceeded the rate limit for ICMPv6 packets. | Inbound Rate Limit Discarded ICMPv6 Packets per Second is the rate at which ICMPv6 packets are received on a public interface and discarded because they exceeded the rate limit for ICMPv6 packets. |
| 1104 | Inbound Rate Limit Discarded Filter Exempt IPv6 Packets | Inbound Rate Limit Discarded Filter Exempt IPv6 Packets |
| 1106 | Inbound Rate Limit Discarded Filter Exempt IPv6 Packets is the total number of filter exempt IPv6 packets received on a public interface and discarded because they exceeded the rate limit for filter exempt IPv6 packets. A filter exempt packet is a packet that is configured by an administrator to bypass the Denial of Service Protection component. | Inbound Rate Limit Discarded Filter Exempt IPv6 Packets is the total number of filter exempt IPv6 packets received on a public interface and discarded because they exceeded the rate limit for filter exempt IPv6 packets. A filter exempt packet is a packet that is configured by an administrator to bypass the Denial of Service Protection component. |
| 1108 | Inbound Rate Limit Discarded Filter Exempt IPv6 Packets/sec | Inbound Rate Limit Discarded Filter Exempt IPv6 Packets/sec |
| 1110 | Inbound Rate Limit Discarded Filter Exempt IPv6 Packets per Second is the rate at which filter exempt IPv6 packets are received on a public interface and discarded because they exceeded the rate limit for filter exempt IPv6 packets. A filter exempt packet is a packet that is configured by an administrator to bypass the Denial of Service Protection component. | Inbound Rate Limit Discarded Filter Exempt IPv6 Packets per Second is the rate at which filter exempt IPv6 packets are received on a public interface and discarded because they exceeded the rate limit for filter exempt IPv6 packets. A filter exempt packet is a packet that is configured by an administrator to bypass the Denial of Service Protection component. |
| 1112 | Inbound Discarded Filter Block IPv6 Packets | Inbound Discarded Filter Block IPv6 Packets |
| 1114 | Inbound Discarded Filter Blocked IPv6 Packets is the total number of filter blocked IPv6 packets received and discarded on a public interface. A filter blocked IPv6 packet is a packet that is configured by an administrator to be blocked by the Denial of Service Protection component. | Inbound Discarded Filter Blocked IPv6 Packets is the total number of filter blocked IPv6 packets received and discarded on a public interface. A filter blocked IPv6 packet is a packet that is configured by an administrator to be blocked by the Denial of Service Protection component. |
| 1116 | Inbound Discarded Filter Block IPv6 Packets/sec | Inbound Discarded Filter Block IPv6 Packets/sec |
| 1118 | Inbound Discarded Filter Blocked IPv6 Packets per Second is the rate at which filter blocked IPv6 packets are received and discarded on a public interface. A filter blocked IPv6 packet is a packet that is configured by an administrator to be blocked by the Denial of Service Protection component. | Inbound Discarded Filter Blocked IPv6 Packets per Second is the rate at which filter blocked IPv6 packets are received and discarded on a public interface. A filter blocked IPv6 packet is a packet that is configured by an administrator to be blocked by the Denial of Service Protection component. |
| 1120 | Inbound Rate Limit Discarded Default Block Exempt Packets | Inbound Rate Limit Discarded Default Block Exempt Packets |
| 1122 | Inbound Rate Limit Discarded Default Block Exempt Packets is the total number of default block exempt packets received on a public interface and discarded because they exceeded the rate limit for default block exempt packets. A discarded default block exempt packet can be an AH IPv6 packet, an IPv6 packet without IPsec, or an IPv4 packet. These packets are blocked by default by the Denial of Service Protection component, but can be explicitly allowed by the administrator. | Inbound Rate Limit Discarded Default Block Exempt Packets is the total number of default block exempt packets received on a public interface and discarded because they exceeded the rate limit for default block exempt packets. A discarded default block exempt packet can be an AH IPv6 packet, an IPv6 packet without IPsec, or an IPv4 packet. These packets are blocked by default by the Denial of Service Protection component, but can be explicitly allowed by the administrator. |
| 1124 | Inbound Rate Limit Discarded Default Block Exempt Packets/sec | Inbound Rate Limit Discarded Default Block Exempt Packets/sec |
| 1126 | Inbound Rate Limit Discarded Default Block Exempt Packets per Second is the rate at which default block exempt packets are received on a public interface and discarded because they exceeded the rate limit for default block exempt IPv6 packets. A default block exempt packet can be an AH IPv6 packet, an IPv6 packet without IPsec, or an IPv4 packet. These packets are blocked by default by the Denial of Service Protection component but explicitly allowed by the administrator. | Inbound Rate Limit Discarded Default Block Exempt Packets per Second is the rate at which default block exempt packets are received on a public interface and discarded because they exceeded the rate limit for default block exempt IPv6 packets. A default block exempt packet can be an AH IPv6 packet, an IPv6 packet without IPsec, or an IPv4 packet. These packets are blocked by default by the Denial of Service Protection component but explicitly allowed by the administrator. |
| 1128 | Inbound Discarded Default Block Packets | Inbound Discarded Default Block Packets |
| 1130 | Inbound Discarded Default Block Packets is the total number of default block packets received and discarded on a public interface. A discarded default block packet can be an AH IPv6 packet, an IPv6 packet without IPsec, or an IPv4 packet. These packets are blocked by default by the Denial of Service Protection component. | Inbound Discarded Default Block Packets is the total number of default block packets received and discarded on a public interface. A discarded default block packet can be an AH IPv6 packet, an IPv6 packet without IPsec, or an IPv4 packet. These packets are blocked by default by the Denial of Service Protection component. |
| 1132 | Inbound Discarded Default Block Packets/sec | Inbound Discarded Default Block Packets/sec |
| 1134 | Inbound Discarded Default Block Packets per Second is the rate at which default block discarded packets are received and discarded on a public interface. A discarded default block packet can be an AH IPv6 packet, an IPv6 packet without IPsec, or an IPv4 packet. These packets are blocked by default by the Denial of Service Protection component. | Inbound Discarded Default Block Packets per Second is the rate at which default block discarded packets are received and discarded on a public interface. A discarded default block packet can be an AH IPv6 packet, an IPv6 packet without IPsec, or an IPv4 packet. These packets are blocked by default by the Denial of Service Protection component. |
| 1136 | Inbound Discarded Packets | Inbound Discarded Packets |
| 1138 | Inbound Discarded Packets is the total number of packets received and discarded on a public interface. This counter represents the summation of all the various specific discarded counters. | Inbound Discarded Packets is the total number of packets received and discarded on a public interface. This counter represents the summation of all the various specific discarded counters. |
| 1140 | Inbound Discarded Packets/sec | Inbound Discarded Packets/sec |
| 1142 | Inbound Discarded Packets per Second is the rate at which packets are received and discarded on a public interface. This counter represents the summation of all the various specific discarded counter rates. | Inbound Discarded Packets per Second is the rate at which packets are received and discarded on a public interface. This counter represents the summation of all the various specific discarded counter rates. |
| 1144 | Per IP Rate Limit Queues | Per IP Rate Limit Queues |
| 1146 | Per IP Rate Limit Queues is the current number of per internal IP address rate limit queues for unauthenticated IKEv1, IKEv2, AuthIP, or ESP IPv6 packets. An unauthenticated packet is an IPsec packet without an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. Unauthenticated packets are placed in a separate queue for each destination IP address that is available on the internal interface. | Per IP Rate Limit Queues is the current number of per internal IP address rate limit queues for unauthenticated IKEv1, IKEv2, AuthIP, or ESP IPv6 packets. An unauthenticated packet is an IPsec packet without an associated state entry. A state entry is a pair of IPv6 addresses that is authorized to pass through from a public to an internal interface. Unauthenticated packets are placed in a separate queue for each destination IP address that is available on the internal interface. |
| 0x30000000 | Info | Info |
| 0x30000001 | Start | Start |
| 0x30000002 | Stop | Stop |
| 0x50000005 | Verbose | Verbose |
| 0xB0000321 | SA Context %1 was created | SA Context %1 was created |
| 0xB0000322 | SA Context %1: Result=%2 | SA Context %1: Result=%2 |
| 0xB0000323 | SA Context %1:\ Local Address: %2:%4\ Remote Address: %3:%5\ Protocol: %6 |
SA Context %1:\ Local Address: %2:%4\ Remote Address: %3:%5\ Protocol: %6 |
| 0xB0000324 | SA Context %1 was deleted | SA Context %1 was deleted |
| 0xB0000325 | SA Context %1: SPI=%2 | SA Context %1: SPI=%2 |
| 0xB0000326 | ----- BEGIN BFE_SA_CONTEXT processing ----- | ----- BEGIN BFE_SA_CONTEXT processing ----- |
| 0xB0000327 | ----- END BFE_SA_CONTEXT processing ----- | ----- END BFE_SA_CONTEXT processing ----- |
| 0xB0000328 | ----- BFE SA CONTEXT ID: (%1) ----- | ----- BFE SA CONTEXT ID: (%1) ----- |
| 0xD0000001 | Driver | Driver |
| 0xD0000002 | External | External |
| 0xD0000003 | Responder | Responder |
| File Description: | FWP/IPsec User-Mode API |
| File Version: | 10.0.15063.0 (WinBuild.160101.0800) |
| Company Name: | Microsoft Corporation |
| Internal Name: | fwpuclnt.dll |
| Legal Copyright: | © Microsoft Corporation. All rights reserved. |
| Original Filename: | fwpuclnt.dll.mui |
| Product Name: | Microsoft® Windows® Operating System |
| Product Version: | 10.0.15063.0 |
| Translation: | 0x409, 1200 |