Dell EMC Networking VEP1425/VEP1445/VEP1485 Owner's manual

Dell
Brand
Dell
Model
EMC Networking VEP1425/VEP1445/VEP1485
Type
Owner's manual
Dell EMC Virtual Edge Platform 1405 Series
DIAG OS and Tools Release Notes
Rev. A02
August 2020
Abstract
This document describes the DIAG operating system (OS) and DIAG tools information for the Dell EMC Networking Virtual Edge Platform
(VEP) 1405 series of systems.
The VEP1405 series consists of the following models:
VEP1425
VEP1445
VEP1485
NOTE:
For detailed information about the various system offerings, see the Virtual Edge Platform 1405 Series Getting Started
Guide.
Document revision history......................................................................................................................................................................................... 2
Software requirements.............................................................................................................................................................................................. 2
Important information................................................................................................................................................................................................ 2
BIOS installation and configuration.........................................................................................................................................................................15
VEP1405 diagnostic operating system installation................................................................................................................................................19
Update BIOS, CPLD, and PIC firmware using firmware updater package........................................................................................................22
Support resources.................................................................................................................................................................................................... 24
Contacting Dell EMC................................................................................................................................................................................................24
Document revision history
Table 1. Revision history
Revision Date Description
A00 2019-08 Initial release
A01 2020-01 Update of system outputs, and addition of instructions for restoring the system default settings
A02 2020-08 Update to log information within the Important information section, update of Burn DiagOS ISO
image to a bootable USB section, and to update the Software requirements section
Software requirements
Table 2. Software requirements
Software Release version for Configuration 1 (Versa ready) Release version for Configuration 2 (ADVA ready)
DIAG OS 3.43.3.81-18 3.43.3.81-18
DIAG Tools 3.43.4.81-19 3.43.4.81-19
Firmware
Updater
1.5 1.5
Important information
The following is important information you must know when working with your platform:
edatool log (for Versa ready system configurations)
NOTE:
The following output is specific for the VEP1405 series of systems that are Versa ready. For detailed configuration
information, see the Virtual Edge Platform 1405 Series Getting Started Guide.
root@dellemc-diag-os:~# edatool
*****************************
* Diagnostics Application *
*****************************
DellEmc Diag edatool version 1.4, package 3.43.4.81-18 2020/01/15
BIOS version:
3.48.0.9-10
CPLD version:
0.7
PIC version:
v20J
DellEmc Diag UPDATETOOL - version 2.0 package 3.43.4.81-18 2020/01/15
DellEmc Diag phytool - version 1.1 package 3.43.4.81-18 2020/01/15
DellEmc Diag cputool - version 2.0 package 3.43.4.81-18 2020/01/15
DellEmc Diag fantool - version 2.0 package 3.43.4.81-18 2020/01/15
DellEmc Diag eepromtool - version 2.0 package 3.43.4.81-18 2020/01/15
DellEmc Diag gpiotool - version 2.0 package 3.43.4.81-18 2020/01/15
DellEmc Diag i2ctool - version 2.0 package 3.43.4.81-18 2020/01/15
DellEmc Diag ledtool - version 2.0 package 3.43.4.81-18 2020/01/15
DellEmc Diag memtool - version 2.0 package 3.43.4.81-18 2020/01/15
DellEmc Diag nvramtool - version 2.0 package 3.43.4.81-18 2020/01/15
DellEmc Diag opticstool - version 2.0 package 3.43.4.81-18 2020/01/15
DellEmc Diag pcitool - version 2.0 package 3.43.4.81-18 2020/01/15
DellEmc Diag pltool - version 2.0 package 3.43.4.81-18 2020/01/15
DellEmc Diag rtctool - version 1.1 package 3.43.4.81-18 2020/01/15
DellEmc Diag smbiostool - version 1.3 package 3.43.4.81-18 2020/01/15
2
DellEmc Diag storagetool - version 2.0 package 3.43.4.81-18 2020/01/15
DellEmc Diag temptool - version 2.0 package 3.43.4.81-18 2020/01/15
Testing PCI devices:
+ Checking PCI 00:00.0, ID=19808086 ....................... Passed
+ Checking PCI 00:04.0, ID=19a18086 ....................... Passed
+ Checking PCI 00:05.0, ID=19a28086 ....................... Passed
+ Checking PCI 00:06.0, ID=19a38086 ....................... Passed
+ Checking PCI 00:0f.0, ID=19a98086 ....................... Passed
+ Checking PCI 00:12.0, ID=19ac8086 ....................... Passed
+ Checking PCI 00:13.0, ID=19b28086 ....................... Passed
+ Checking PCI 00:15.0, ID=19d08086 ....................... Passed
+ Checking PCI 00:16.0, ID=19d18086 ....................... Passed
+ Checking PCI 00:17.0, ID=19d28086 ....................... Passed
+ Checking PCI 00:18.0, ID=19d38086 ....................... Passed
+ Checking PCI 00:1c.0, ID=19db8086 ....................... Passed
+ Checking PCI 00:1f.0, ID=19dc8086 ....................... Passed
+ Checking PCI 00:1f.2, ID=19de8086 ....................... Passed
+ Checking PCI 00:1f.4, ID=19df8086 ....................... Passed
+ Checking PCI 00:1f.5, ID=19e08086 ....................... Passed
+ Checking PCI 01:00.0, ID=19e28086 ....................... Passed
+ Checking PCI 02:00.0, ID=15218086 ....................... Passed
+ Checking PCI 02:00.1, ID=15218086 ....................... Passed
+ Checking PCI 02:00.2, ID=15218086 ....................... Passed
+ Checking PCI 02:00.3, ID=15218086 ....................... Passed
+ Checking PCI 04:00.0, ID=003c168c ....................... Passed
+ Checking PCI 05:00.0, ID=15c48086 ....................... Passed
+ Checking PCI 05:00.1, ID=15c48086 ....................... Passed
+ Checking PCI 07:00.0, ID=15e48086 ....................... Passed
+ Checking PCI 07:00.1, ID=15e48086 ....................... Passed
PCI devices: Overall test results------------------ >>>> PASSED
Testing I2C devices:
Checking I2C devices on bus 0:
+ Checking DDR4 SPD0 0x50 ..... Passed
+ Checking DDR4 SPD1 0x52 ..... Passed
Checking I2C devices on bus 1:
+ Checking CPLD 0x31 ..... Passed
+ Checking PIC 0x2d ..... Passed
+ Checking SYSTEM EEPROM 0x50 ..... Passed
+ Checking Thermal sensor 0x4a ..... Passed
+ Checking IC Current Monitor 0x40 ..... Passed
+ Checking FAN Controller 0x1b ..... Passed
I2C Devices: Overall test results------------------ >>>> PASSED
Testing Temp sensor devices:
+ Checking [Sensor 0] = 37.0 C ....................... Passed
Temp Sensors: Overall test results------------------ >>>> PASSED
PL Tool test:
System CPLD: SFP LED Link Status Register Reg Addr: 0x15 ...............Passed
PL Tool: Overall test results------------------ >>>> PASSED
Fan Controller Short test: Overall test results------------------ >>>> PASSED
fan1 speed is 7000 RPM
fan2 speed is 7050 RPM
Show Optics in System
Port # Name Status Type Part Number Rev Serial Number
------ ------------ ------ ------- --------------- --- ---------------
1 SFP 1 PRESENT SFP* FTLX8571D3BCL-FC A AP31X9B
2 SFP 2 PRESENT SFP* FTLX8571D3BCL-FC A AP31ECC
Testing Memory Regions:
Testing Memory Region 0:
Address Read Test ......................................... Passed
Address Write Test ........................................ Passed
Address Walking 1's Test .................................. Passed
3
Address Walking 0's Test .................................. Passed
Data Read Test ............................................ Passed
Data Write Test ........................................... Passed
Data Walking 1's Test ..................................... Passed
Data Walking 0's Test ..................................... Passed
Data Sliding 1's Test ..................................... Passed
Data Sliding 0's Test ..................................... Passed
Data Pattern Test ......................................... Passed
Testing Memory Region 1:
Address Read Test ......................................... Passed
Address Write Test ........................................ Passed
Address Walking 1's Test .................................. Passed
Address Walking 0's Test .................................. Passed
Data Read Test ............................................ Passed
Data Write Test ........................................... Passed
Data Walking 1's Test ..................................... Passed
Data Walking 0's Test ..................................... Passed
Data Sliding 1's Test ..................................... Passed
Data Sliding 0's Test ..................................... Passed
Data Pattern Test ......................................... Passed
Memory: Overall test results------------------ >>>> PASSED
MAC Addr Test: Overall test results------------------ >>>> PASSED
Mounted Filesystem Devices:
/dev/sda1 on /mnt/usb-a1 type vfat
(rw,relatime,fmask=0022,dmask=0022,codepage=437,iocharset=iso8859-1,shortname=mixed,errors=rem
ount-ro)
/dev/sdb1 on /mnt/usb-b1 type vfat
(rw,relatime,fmask=0022,dmask=0022,codepage=437,iocharset=iso8859-1,shortname=mixed,errors=rem
ount-ro)
/dev/mmcblk0p2 / ext4
Running Extended Tests:
Testing RTC Devices .......................
Testing RTC Device for rollover .......................
Set Current RTC date to 1/1/2000, RTC time to 00:00:59.
Set Current RTC date to 1/1/2000, RTC time to 00:59:59.
Set Current RTC date to 1/1/2000, RTC time to 23:59:59.
Set Current RTC date to 1/31/2000, RTC time to 23:59:59.
Set Current RTC date to 12/31/2000, RTC time to 23:59:59.
Set Current RTC date to 7/7/2020, RTC time to 20:19:39.
RTC Devices: Overall test results------------------ >>>> PASSED
Testing RTC Device with user interrupts .......................
Counting 5 update (1/sec) interrupts from reading /dev/rtc0: 1 2 3 4 5
Again, from using select(2) on /dev/rtc: 1 2 3 4 5
Passed
Testing RTC Device with periodic interrupts .......................
Periodic IRQ rate is 64Hz.
Counting 20 interrupts at:
2Hz: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
4Hz: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
8Hz: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
16Hz: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
32Hz: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
64Hz: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
Passed
Testing RTC Device with alarm interrupts .......................
Current RTC date/time is 7-7-2020, 20:20:08.
Alarm time now set to 20:20:13.
Waiting 5 seconds for alarm... okay. Alarm rang.
Passed
Fan Controller Test .......................................
Setting speed for fan1 to 6506
Setting speed for fan2 to 6506
Checking Fan Speeds
fan1 Speed: 6650 (6506)
fan2 Speed: 6650 (6506)
Setting speed for fan1 to 8000
Setting speed for fan2 to 8000
Checking Fan Speeds
fan1 Speed: 9300 (8000)
4
fan2 Speed: 9350 (8000)
Setting speed for fan1 to 3893
Setting speed for fan2 to 3893
Checking Fan Speeds
fan1 Speed: 4750 (3893)
fan2 Speed: 4750 (3893)
Setting speed for fan1 to 2400
Setting speed for fan2 to 2400
Checking Fan Speeds
fan1 Speed: 2950 (2400)
fan2 Speed: 3000 (2400)
Fan Controller Test: Overall test results------------------ >>>> PASSED
mount: /dev/sda1 is already mounted or /mnt/usb-a1 busy
/dev/sda1 is already mounted on /mnt/usb-a1
mount: /dev/sdb1 is already mounted or /mnt/usb-b1 busy
/dev/sdb1 is already mounted on /mnt/usb-b1
mount: special device /dev/sdc1 does not exist
Testing Storage Devices ....................... Passed
Testing UEFI mode
Checking UEFI sysfs ........................... Passed
Checking EFI System Partition Presence ........ Passed
Testing Storage Devices ....................... Passed
Testing UEFI mode
Checking UEFI sysfs ........................... Passed
Checking EFI System Partition Presence ........ Passed
Testing Storage Devices .......................
Device /dev/sdc1 was not found
FAILED <<<---
Testing UEFI mode
Checking UEFI sysfs ........................... Passed
Checking EFI System Partition Presence ........ Passed
EDA Stop On Error Configured. Stopping.
EDA: Overall test results ----------------------------- >>> PASSED
root@dellemc-diag-os:~#
edatool log (for ADVA ready system configurations)
NOTE:
The following output is specific for the VEP1405 series of systems that are ADVA ready. For detailed configuration
information, see the Virtual Edge Platform 1405 Series Getting Started Guide.
root@dellemc-diag-os:~# edatool
*****************************
* Diagnostics Application *
*****************************
DellEmc Diag edatool version 1.4, package 3.43.4.81-18 2020/01/15
BIOS version:
3.48.0.9-10
CPLD version:
0.7
PIC version:
v20J
DellEmc Diag UPDATETOOL - version 2.0 package 3.43.4.81-18 2020/01/15
DellEmc Diag phytool - version 1.1 package 3.43.4.81-18 2020/01/15
DellEmc Diag cputool - version 2.0 package 3.43.4.81-18 2020/01/15
DellEmc Diag fantool - version 2.0 package 3.43.4.81-18 2020/01/15
DellEmc Diag eepromtool - version 2.0 package 3.43.4.81-18 2020/01/15
DellEmc Diag gpiotool - version 2.0 package 3.43.4.81-18 2020/01/15
DellEmc Diag i2ctool - version 2.0 package 3.43.4.81-18 2020/01/15
DellEmc Diag ledtool - version 2.0 package 3.43.4.81-18 2020/01/15
DellEmc Diag memtool - version 2.0 package 3.43.4.81-18 2020/01/15
DellEmc Diag nvramtool - version 2.0 package 3.43.4.81-18 2020/01/15
DellEmc Diag opticstool - version 2.0 package 3.43.4.81-18 2020/01/15
DellEmc Diag pcitool - version 2.0 package 3.43.4.81-18 2020/01/15
DellEmc Diag pltool - version 2.0 package 3.43.4.81-18 2020/01/15
DellEmc Diag rtctool - version 1.1 package 3.43.4.81-18 2020/01/15
DellEmc Diag smbiostool - version 1.3 package 3.43.4.81-18 2020/01/15
5
DellEmc Diag storagetool - version 2.0 package 3.43.4.81-18 2020/01/15
DellEmc Diag temptool - version 2.0 package 3.43.4.81-18 2020/01/15
Testing PCI devices:
+ Checking PCI 00:00.0, ID=19808086 ....................... Passed
+ Checking PCI 00:04.0, ID=19a18086 ....................... Passed
+ Checking PCI 00:05.0, ID=19a28086 ....................... Passed
+ Checking PCI 00:06.0, ID=19a38086 ....................... Passed
+ Checking PCI 00:0f.0, ID=19a98086 ....................... Passed
+ Checking PCI 00:12.0, ID=19ac8086 ....................... Passed
+ Checking PCI 00:13.0, ID=19b28086 ....................... Passed
+ Checking PCI 00:15.0, ID=19d08086 ....................... Passed
+ Checking PCI 00:16.0, ID=19d18086 ....................... Passed
+ Checking PCI 00:17.0, ID=19d28086 ....................... Passed
+ Checking PCI 00:18.0, ID=19d38086 ....................... Passed
+ Checking PCI 00:1c.0, ID=19db8086 ....................... Passed
+ Checking PCI 00:1f.0, ID=19dc8086 ....................... Passed
+ Checking PCI 00:1f.2, ID=19de8086 ....................... Passed
+ Checking PCI 00:1f.4, ID=19df8086 ....................... Passed
+ Checking PCI 00:1f.5, ID=19e08086 ....................... Passed
+ Checking PCI 01:00.0, ID=19e28086 ....................... Passed
+ Checking PCI 02:00.0, ID=15218086 ....................... Passed
+ Checking PCI 02:00.1, ID=15218086 ....................... Passed
+ Checking PCI 02:00.2, ID=15218086 ....................... Passed
+ Checking PCI 02:00.3, ID=15218086 ....................... Passed
+ Checking PCI 04:00.0, ID=003c168c ....................... Passed
+ Checking PCI 05:00.0, ID=15c48086 ....................... Passed
+ Checking PCI 05:00.1, ID=15c48086 ....................... Passed
+ Checking PCI 07:00.0, ID=15e48086 ....................... Passed
+ Checking PCI 07:00.1, ID=15e48086 ....................... Passed
PCI devices: Overall test results------------------ >>>> PASSED
Testing I2C devices:
Checking I2C devices on bus 0:
+ Checking DDR4 SPD0 0x50 ..... Passed
+ Checking DDR4 SPD1 0x52 ..... Passed
Checking I2C devices on bus 1:
+ Checking CPLD 0x31 ..... Passed
+ Checking PIC 0x2d ..... Passed
+ Checking SYSTEM EEPROM 0x50 ..... Passed
+ Checking Thermal sensor 0x4a ..... Passed
+ Checking IC Current Monitor 0x40 ..... Passed
+ Checking FAN Controller 0x1b ..... Passed
I2C Devices: Overall test results------------------ >>>> PASSED
Testing Temp sensor devices:
+ Checking [Sensor 0] = 37.0 C ....................... Passed
Temp Sensors: Overall test results------------------ >>>> PASSED
PL Tool test:
System CPLD: SFP LED Link Status Register Reg Addr: 0x15 ...............Passed
PL Tool: Overall test results------------------ >>>> PASSED
Fan Controller Short test: Overall test results------------------ >>>> PASSED
fan1 speed is 7000 RPM
fan2 speed is 7050 RPM
Show Optics in System
Port # Name Status Type Part Number Rev Serial Number
------ ------------ ------ ------- --------------- --- ---------------
1 SFP 1 PRESENT SFP* FTLX8571D3BCL-FC A AP31X9B
2 SFP 2 PRESENT SFP* FTLX8571D3BCL-FC A AP31ECC
Testing Memory Regions:
Testing Memory Region 0:
Address Read Test ......................................... Passed
Address Write Test ........................................ Passed
Address Walking 1's Test .................................. Passed
6
Address Walking 0's Test .................................. Passed
Data Read Test ............................................ Passed
Data Write Test ........................................... Passed
Data Walking 1's Test ..................................... Passed
Data Walking 0's Test ..................................... Passed
Data Sliding 1's Test ..................................... Passed
Data Sliding 0's Test ..................................... Passed
Data Pattern Test ......................................... Passed
Testing Memory Region 1:
Address Read Test ......................................... Passed
Address Write Test ........................................ Passed
Address Walking 1's Test .................................. Passed
Address Walking 0's Test .................................. Passed
Data Read Test ............................................ Passed
Data Write Test ........................................... Passed
Data Walking 1's Test ..................................... Passed
Data Walking 0's Test ..................................... Passed
Data Sliding 1's Test ..................................... Passed
Data Sliding 0's Test ..................................... Passed
Data Pattern Test ......................................... Passed
Memory: Overall test results------------------ >>>> PASSED
MAC Addr Test: Overall test results------------------ >>>> PASSED
Mounted Filesystem Devices:
/dev/sda1 on /mnt/usb-a1 type vfat
(rw,relatime,fmask=0022,dmask=0022,codepage=437,iocharset=iso8859-1,shortname=mixed,errors=rem
ount-ro)
/dev/sdb1 on /mnt/usb-b1 type vfat
(rw,relatime,fmask=0022,dmask=0022,codepage=437,iocharset=iso8859-1,shortname=mixed,errors=rem
ount-ro)
/dev/mmcblk0p2 / ext4
Running Extended Tests:
Testing RTC Devices .......................
Testing RTC Device for rollover .......................
Set Current RTC date to 1/1/2000, RTC time to 00:00:59.
Set Current RTC date to 1/1/2000, RTC time to 00:59:59.
Set Current RTC date to 1/1/2000, RTC time to 23:59:59.
Set Current RTC date to 1/31/2000, RTC time to 23:59:59.
Set Current RTC date to 12/31/2000, RTC time to 23:59:59.
Set Current RTC date to 7/7/2020, RTC time to 20:19:39.
RTC Devices: Overall test results------------------ >>>> PASSED
Testing RTC Device with user interrupts .......................
Counting 5 update (1/sec) interrupts from reading /dev/rtc0: 1 2 3 4 5
Again, from using select(2) on /dev/rtc: 1 2 3 4 5
Passed
Testing RTC Device with periodic interrupts .......................
Periodic IRQ rate is 64Hz.
Counting 20 interrupts at:
2Hz: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
4Hz: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
8Hz: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
16Hz: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
32Hz: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
64Hz: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
Passed
Testing RTC Device with alarm interrupts .......................
Current RTC date/time is 7-7-2020, 20:20:08.
Alarm time now set to 20:20:13.
Waiting 5 seconds for alarm... okay. Alarm rang.
Passed
Fan Controller Test .......................................
Setting speed for fan1 to 6506
Setting speed for fan2 to 6506
Checking Fan Speeds
fan1 Speed: 6650 (6506)
fan2 Speed: 6650 (6506)
Setting speed for fan1 to 8000
Setting speed for fan2 to 8000
Checking Fan Speeds
fan1 Speed: 9300 (8000)
7
fan2 Speed: 9350 (8000)
Setting speed for fan1 to 3893
Setting speed for fan2 to 3893
Checking Fan Speeds
fan1 Speed: 4750 (3893)
fan2 Speed: 4750 (3893)
Setting speed for fan1 to 2400
Setting speed for fan2 to 2400
Checking Fan Speeds
fan1 Speed: 2950 (2400)
fan2 Speed: 3000 (2400)
Fan Controller Test: Overall test results------------------ >>>> PASSED
mount: /dev/sda1 is already mounted or /mnt/usb-a1 busy
/dev/sda1 is already mounted on /mnt/usb-a1
mount: /dev/sdb1 is already mounted or /mnt/usb-b1 busy
/dev/sdb1 is already mounted on /mnt/usb-b1
mount: special device /dev/sdc1 does not exist
Testing Storage Devices ....................... Passed
Testing UEFI mode
Checking UEFI sysfs ........................... Passed
Checking EFI System Partition Presence ........ Passed
Testing Storage Devices ....................... Passed
Testing UEFI mode
Checking UEFI sysfs ........................... Passed
Checking EFI System Partition Presence ........ Passed
Testing Storage Devices .......................
Device /dev/sdc1 was not found
FAILED <<<---
Testing UEFI mode
Checking UEFI sysfs ........................... Passed
Checking EFI System Partition Presence ........ Passed
EDA Stop On Error Configured. Stopping.
EDA: Overall test results ----------------------------- >>> PASSED
root@dellemc-diag-os:~#
Bluetooth
root@dellemc-diag-os:/opt/dellemc/diag/bin# bttool
[0]: <Info> - 2019-11-27 01:46:32.120469
Port opened at 2019-11-27 01:46:32.120469
------------------------------------------------------------------------------
[1]: <Rx> - 01:46:32.426286
Type : 0x04 (Event)
EventCode : 0xFF (HCI_LE_ExtEvent)
Data Length : 0x09 (9) (byte(s))
Event : 0x041B (1051) (HCI_EXT_BuildRevisionCmd)
Status : 0x00 (0) (SUCCESS)
OpCode : 0xFC1B (HCI_EXT_BuildRevision)
UserRevNum : 0x0003 (3)
BuildRevNum : 0x196E (6510)
Dump(Rx):
04 FF 09 1B 04 00 1B FC 03 00 6E 19
User Revision Number: 0x0003
------------------------------------------------------------------------------
[2]: <Rx> - 01:46:32.427104
Type : 0x04 (Event)
EventCode : 0x0E (HCI_CommandCompleteEvent)
Data Length : 0x04 (4) (byte(s))
Packets : 0x01 (1)
OpCode : 0x2024 (HCI_LE_WriteSuggestedDefaultDataLenCmd)
Status : 0x00 (0) (SUCCESS)
Dump(Rx):
04 0E 04 01 24 20 00
------------------------------------------------------------------------------
[3]: <Tx> - 01:46:32.541450
Type : 0x01 (Command)
OpCode : 0x0C03 (HCI_Reset)
8
Data Length : 0x00 (0) (byte(s))
Dump(Tx):
01 03 0C 00
------------------------------------------------------------------------------
[4]: <Rx> - 01:46:32.549125
Type : 0x04 (Event)
EventCode : 0x0E (HCI_CommandCompleteEvent)
Data Length : 0x04 (4) (byte(s))
Packets : 0x01 (1)
OpCode : 0x0C03 (HCI_Reset)
Status : 0x00 (0) (SUCCESS)
Dump(Rx):
04 0E 04 01 03 0C 00
------------------------------------------------------------------------------
[5]: <Tx> - 01:46:32.594631
Type : 0x01 (Command)
OpCode : 0xFE00 (GAP_DeviceInit)
Data Length : 0x26 (38) (byte(s))
ProfileRole : 0x0C (Peripheral Central)
MaxScanRsps : 0x10 (16)
IRK : 00:00:00:00:00:00:00:00:00:00:00:00:00:00:00:00
CRSK : 00:00:00:00:00:00:00:00:00:00:00:00:00:00:00:00
SignCounter : 0x00000001 (1)
Dump(Tx):
01 00 FE 26 0C 10 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 01 00 00 00
------------------------------------------------------------------------------
[6]: <Rx> - 01:46:32.610528
Type : 0x04 (Event)
EventCode : 0xFF (HCI_LE_ExtEvent)
Data Length : 0x06 (6) (byte(s))
Event : 0x067F (1663) (GAP_HCI_ExtensionCommandStatus)
Status : 0x00 (0) (SUCCESS)
OpCode : 0xFE00 (GAP_DeviceInit)
DataLength : 0x00 (0)
Dump(Rx):
04 FF 06 7F 06 00 00 FE 00
------------------------------------------------------------------------------
[7]: <Rx> - 01:46:32.611798
Type : 0x04 (Event)
EventCode : 0xFF (HCI_LE_ExtEvent)
Data Length : 0x2C (44) (byte(s))
Event : 0x0600 (1536) (GAP_DeviceInitDone)
Status : 0x00 (0) (SUCCESS)
DevAddr : 00:81:F9:65:4D:C7
DataPktLen : 0x00FB (251)
NumDataPkts : 0x06 (6)
IRK : 66:71:D4:36:08:DD:5C:7A:1D:6C:1F:9C:10:AA:04:6A
CRSK : CE:2D:E5:FF:64:A6:E7:45:26:A5:15:8D:3C:BB:1A:24
Dump(Rx):
04 FF 2C 00 06 00 C7 4D 65 F9 81 00 FB 00 06 66
71 D4 36 08 DD 5C 7A 1D 6C 1F 9C 10 AA 04 6A CE
2D E5 FF 64 A6 E7 45 26 A5 15 8D 3C BB 1A 24
------------------------------------------------------------------------------
[8]: <Tx> - 01:46:32.646563
Type : 0x01 (Command)
OpCode : 0xFE07 (GAP_UpdateAdvertisingData)
Data Length : 0x0E (14) (byte(s))
AdType : 0x01 (Advertisement Data)
DataLength : 0x0C (12)
AdvertData : 02:01:06:08:08:56:45:50:31:34:30:30
Dump(Tx):
01 07 FE 0E 01 0C 02 01 06 08 08 56 45 50 31 34
30 30
------------------------------------------------------------------------------
[9]: <Rx> - 01:46:32.653254
9
Type : 0x04 (Event)
EventCode : 0xFF (HCI_LE_ExtEvent)
Data Length : 0x06 (6) (byte(s))
Event : 0x067F (1663) (GAP_HCI_ExtensionCommandStatus)
Status : 0x00 (0) (SUCCESS)
OpCode : 0xFE07 (GAP_UpdateAdvertisingData)
DataLength : 0x00 (0)
Dump(Rx):
04 FF 06 7F 06 00 07 FE 00
------------------------------------------------------------------------------
[10]: <Rx> - 01:46:32.653911
Type : 0x04 (Event)
EventCode : 0xFF (HCI_LE_ExtEvent)
Data Length : 0x04 (4) (byte(s))
Event : 0x0602 (1538) (GAP_AdvertDataUpdate)
Status : 0x00 (0) (SUCCESS)
AdType : 0x01 (1) (Advertisement Data)
Dump(Rx):
04 FF 04 02 06 00 01
------------------------------------------------------------------------------
[11]: <Tx> - 01:46:32.698541
Type : 0x01 (Command)
OpCode : 0xFE06 (GAP_MakeDiscoverable)
Data Length : 0x0A (10) (byte(s))
EventType : 0x00 (Connectable Undirected Advertisement)
InitAddrType : 0x00 (ADDRTYPE_PUBLIC)
InitAddrs : 00:00:00:00:00:00
ChannelMap : 0x07 (07)
FilterPolicy : 0x00 (Allow Scan Requests From Any, Allow Connect Request From Any)
Dump(Tx):
01 06 FE 0A 00 00 00 00 00 00 00 00 07 00
------------------------------------------------------------------------------
[12]: <Rx> - 01:46:32.705181
Type : 0x04 (Event)
EventCode : 0xFF (HCI_LE_ExtEvent)
Data Length : 0x06 (6) (byte(s))
Event : 0x067F (1663) (GAP_HCI_ExtensionCommandStatus)
Status : 0x00 (0) (SUCCESS)
OpCode : 0xFE06 (GAP_MakeDiscoverable)
DataLength : 0x00 (0)
Dump(Rx):
04 FF 06 7F 06 00 06 FE 00
------------------------------------------------------------------------------
[13]: <Rx> - 01:46:32.705798
Type : 0x04 (Event)
EventCode : 0xFF (HCI_LE_ExtEvent)
Data Length : 0x03 (3) (byte(s))
Event : 0x0603 (1539) (GAP_MakeDiscoverable)
Status : 0x00 (0) (SUCCESS)
Dump(Rx):
04 FF 03 03 06 00
------------------------------------------------------------------------------
[14]: <Tx> - 01:46:32.750968
Type : 0x01 (Command)
OpCode : 0xFE36 (GAP_BondSetParam)
Data Length : 0x04 (4) (byte(s))
ParamID : 0x0402 (GAPBOND_MITM_PROTECTION)
ParamLength : 0x01 (1)
ParamValue : 01
Dump(Tx):
01 36 FE 04 02 04 01 01
------------------------------------------------------------------------------
[15]: <Rx> - 01:46:32.757019
Type : 0x04 (Event)
EventCode : 0xFF (HCI_LE_ExtEvent)
Data Length : 0x06 (6) (byte(s))
Event : 0x067F (1663) (GAP_HCI_ExtensionCommandStatus)
10
Status : 0x00 (0) (SUCCESS)
OpCode : 0xFE36 (GAP_BondSetParam)
DataLength : 0x00 (0)
Dump(Rx):
04 FF 06 7F 06 00 36 FE 00
------------------------------------------------------------------------------
[16]: <Tx> - 01:46:32.802238
Type : 0x01 (Command)
OpCode : 0xFE36 (GAP_BondSetParam)
Data Length : 0x04 (4) (byte(s))
ParamID : 0x0406 (GAPBOND_BONDING_ENABLED)
ParamLength : 0x01 (1)
ParamValue : 01
Dump(Tx):
01 36 FE 04 06 04 01 01
------------------------------------------------------------------------------
[17]: <Rx> - 01:46:32.808350
Type : 0x04 (Event)
EventCode : 0xFF (HCI_LE_ExtEvent)
Data Length : 0x06 (6) (byte(s))
Event : 0x067F (1663) (GAP_HCI_ExtensionCommandStatus)
Status : 0x00 (0) (SUCCESS)
OpCode : 0xFE36 (GAP_BondSetParam)
DataLength : 0x00 (0)
Dump(Rx):
04 FF 06 7F 06 00 36 FE 00
Welcome to bttool. Please type "help" or "?" to list commands.
[bttool]# quit
Wi-Fi
root@dellemc-diag-os:~# ath10k.sh
##################### ath10k.sh version (Release Date: 2019/4/17 9:30AM) #####################
1. Usage
Example:
ath10k.sh version
ath10k.sh help
ath10k.sh stop
2. Configure the wireless interface to Acess Point or Wireless Station.
Usage: ath10k.sh [options]
Options:
-e [wired Interface] : ethX (default: eth0)
-i [wireless Interface] : wlanX (default: wlan0)
-m [wireless Mode] : ap/sta (default: ap)
-b [wireless Band] : 2.4/5 (default: 5)
-g [wireless 11g Mode] : on/off (default: on)
-s [Wireless SSID] : Strings (Length: expected 1 .. 64) (default:
VEP1400_5GHz)
-f [Wireless Security] : OPEN/WPA-PSK (default: OPEN)
-p [Wireless Pre-shared Keys] : Strings (Length: expected 8 .. 63) (default:
12345678)
-r [Supported Rates] : all or xxxx (*1) (in 100 kbps) (default: all)
-c [Channel ] : 0 (ACS), 2.4GHz: 1 ~ 11, 5GHz: 36 ~ 165
(default: 2.4GHz - 6, 5GHz - 36)
-C [Country Code] : US/DE/FI/FR/PL/TW/JP/xx(*2) (default: US)
-w [Channel Width] : 0 - 20 or 40 MHz, 1 - 80 MHz (default: 1)
-d [DHCP Client] : on/off/xxx.xxx.xxx.xxx (default: off -
192.168.1.1)
11
-n [802.11n Capabilities] : on/off/[xxxxx](*3) (default: [HT40+][LDPC]
[SHORT-GI-20][SHORT-GI-40][TX-STBC][RX-STBC1][DSSS_CCK-40])
-a [802.11ac Capabilities] : on/off/[xxxxx](*4) (default: [MAX-MPDU-11454]
[RXLDPC][SHORT-GI-80][TX-STBC-2BY1][RX-STBC-1][MAX-A-MPDU-LEN-EXP7][RX-ANTENNA-PATTERN][TX-
ANTENNA-PATTERN])
-t [TX power] : auto/xx (dBm)(default: auto)
-F [Force HT40] : on/off (default: off)
-l [Load ATH10K F/W file] : firmware-X-Y.bin_Z(*5) (Current F/W Version:
10.2.4-1.0-00041)
-T [Board TX power table] : on/off (CT F/W Only)(default: off)
-D [ATH10K DEBUG MASK] : 0xYYYYYYYY (default: )
Note: (Each time you use ath10k.sh to set up your device, you can omit this
option setting if the default setting for this option is the one you want to set.)
*1 - xxxx: supported_rates - https://w1.fi/cgit/hostap/plain/hostapd/
hostapd.conf
*2 - xx: https://en.wikipedia.org/wiki/ISO_3166-1_alpha-2#Decoding_table
*3, *4 - [xxxxx]: ht_capab/vht_capab - https://w1.fi/cgit/hostap/plain/
hostapd/hostapd.conf
*5 - firmware-X-Y.bin_Z: (Display the currently available ATH10K firmware
file)
ath10k.sh firmware
ath10k.sh -i wlan2 ........ -l firmware-2-ct-full-
community-21.bin.lede.001
a. Acess Point
- 2.4GHz
ath10k.sh [-i (wireless Interface)] -m ap
[-e (wired Interface)] -b 2.4
[-s (Wireless SSID)] [-f
(Wireless Security)]
[-p (Wireless Pre-shared Keys)] [-c
(Channel )]
[-n (802.11n Capabilities)] [-r
(Supported Rates)]
[-d (DHCP Client)] [-C
(Country Code)]
[-t (TX power)] [-F
(Force HT40)]
[-l (Load ATH10K F/W file)] [-g
(Wireless 11g Mode)]
[-T (Board TX power table)]
Example 1: Configuring the Access Point on 2.4GHz/HT20,
Wireless Interface: wlan2 (Default), SSID: VEP1400_2g, Security: OPEN, DHCP Client: Enable
ath10k.sh -i wlan2 -m ap -b 2.4 -n [HT20] -s
VEP1400_2g -f OPEN -d on
or
ath10k.sh -b 2.4 -n [HT20] -s VEP1400_2g -d on
Example 2: Configuring the Access Point on 2.4GHz/HT40,
Wireless Interface: wlan0, SSID: VEP1400_2g, Security: OPEN, DHCP Client: Disable (Static IP
address: 192.168.1.1)
ath10k.sh -i wlan0 -m ap -b 2.4 -s VEP1400_2g -f
OPEN -d off -F on
or
ath10k.sh -i wlan0 -b 2.4 -s VEP1400_2g -F on
Example 3: Configuring the Access Point on 2.4GHz/11b,
Wireless Interface: wlan0, SSID: VEP1400_2b, Security: OPEN, DHCP Client: Disable (Static IP
address: 192.168.1.1)
ath10k.sh -i wlan0 -m ap -b 2.4 -n off -g off -s
VEP1400_2b -f OPEN -d off
or
ath10k.sh -i wlan0 -b 2.4 -n off -g off -s
VEP1400_2b
12
- 5GHz
ath10k.sh [-i (wireless Interface)] -m ap
[-e (wired Interface)] -b 5
[-s (Wireless SSID)] [-f
(Wireless Security)]
[-p (Wireless Pre-shared Keys)] [-c
(Channel )]
[-n (802.11n Capabilities)] [-a (802.11ac
Capabilities)]
[-r (Supported Rates)] [-d
(DHCP Client)]
[-C (Country Code)] [-t
(TX power)]
[-w (Channel Width)] [-l (Load
ATH10K F/W file)]
[-T (Board TX power table)]
Example 1: Configuring the Access Point on 5GHz/HT80,
Wireless Interface: wlan0 (Default), SSID: VEP1400_5g, Security: WPA-PSK, Pre-shared Keys:
XXXXXXXX, DHCP Client: Disable (Static IP address: 192.168.1.1)
ath10k.sh -i wlan0 -m ap -b 5 -s VEP1400_5g -f
WPA-PSK -p XXXXXXXX -d off
or
ath10k.sh -s VEP1400_5g -f WPA-PSK -p XXXXXXXX
Example 2: Configuring the Access Point on 5GHz/HT40,
Wireless Interface: wlan1, SSID: VEP1400_5g, Channel: 157, Security: OPEN, DHCP Client:
192.168.1.4
ath10k.sh -i wlan1 -m ap -b 5 -a off -s
VEP1400_5g -f OPEN -d 192.168.1.4 -c 157
or
ath10k.sh -i wlan1 -a off -s VEP1400_5g -d
192.168.1.4 -c 157
Example 3: Configuring the Access Point on 5GHz/HT20,
Wireless Interface: wlan2 (Default), SSID: VEP1400_5g, Channel: 140, Security: OPEN, DHCP
Client: 192.168.1.2
ath10k.sh -i wlan2 -m ap -b 5 -a off -n [HT20] -
s VEP1400_5g -f OPEN -d 192.168.1.2 -c 140
or
ath10k.sh -a off -n [HT20] -s VEP1400_5g -d
192.168.1.2 -c 140
b. Wireless Station
ath10k.sh [-i (wireless Interface)] -m sta
[-s (Wireless SSID)] [-f (Wireless
Security)]
[-p (Wireless Pre-shared Keys)] [-C (Country
Code)]
[-d (DHCP Client)] [-l (Load ATH10K F/W
file)]
Example 1: Configuring the Wireless station, Wireless Interface:
wlan1, AP's SSID: VEP1400_2g, AP's Security: OPEN, DHCP Client: Enable
ath10k.sh -i wlan1 -m sta -s VEP1400_2g -f OPEN -d on
or
ath10k.sh -i wlan1 -m sta -s VEP1400_2g -d on
Example 2: Configuring the Wireless station, Wireless Interface:
wlan2 (Default), AP's SSID: VEP1400_5g, AP's Security: WPA-PSK, AP's Pre-shared Keys:
XXXXXXXX, DHCP Client: Enable
ath10k.sh -i wlan2 -m sta -s VEP1400_5g -f WPA-PSK -p
XXXXXXXX -d on
or
ath10k.sh -m sta -s VEP1400_5g -f WPA-PSK -p XXXXXXXX -d on
13
3. ATH10K Kernel modules - Remove/Insert/Reload/Install/Uninstall/Probe
ath10k.sh module_remove
ath10k.sh module_insert [ATH10K Kernel modules Path]
ath10k.sh module_reload [ATH10K Kernel modules Path]
ath10k.sh module_install [ATH10K Kernel modules Path]
ath10k.sh module_uninstall [ATH10K Kernel modules Path]
ath10k.sh module_probe
4. ATH10K Shell file (ath10k.sh) - Install/Uninstall
ath10k.sh sh_install [Shell file Path]
ath10k.sh sh_install usb sdXY
ath10k.sh sh_uninstall [Shell file Path]
5. Candela Technologies(CT) Firmware - Install/Uninstall
ath10k.sh CT_install [ATH10K Kernel modules Path]
ath10k.sh CT_uninstall
6. Display the currently available ATH10K firmware file
ath10k.sh firmware
7. Qcmbr - Run/Stop
ath10k.sh Qcmbr
ath10k.sh Qcmbr wlanX
ath10k.sh Qcmbr_stop
8. IxChariot Endpoint - Run/Stop/Install/Uninstall
ath10k.sh Endpoint
ath10k.sh Endpoint_stop
ath10k.sh Endpoint_install
ath10k.sh Endpoint_uninstall
9. CRDA Build - init_crda_build/backup_crda_build/crda_build_all/crda_build_setup/
crda_build_only/regdb_build_only/crda_build_db_txt
ath10k.sh init_crda_build [db.txt Path]
ath10k.sh backup_crda_build [source]
ath10k.sh crda_build_all [db.txt Path]
ath10k.sh crda_build_setup
ath10k.sh crda_build_only
ath10k.sh regdb_build_only [db.txt Path]
ath10k.sh crda_build_db_txt [db.txt Path] [wireless-regdb's source Path]
10. ATH10K BOARD binary file (board.bin) - Install/Uninstall
ath10k.sh board_install [board file Path]
ath10k.sh board_install usb sdXY
ath10k.sh board_uninstall
11. ATH10K CT power list - Print the maximum power found in any of the diversity columns
(tcp_value[0-3])
ath10k.sh CT_power [phy interface]
root@dellemc-diag-os:~#
DIAG partition
CAUTION:
When installing an operating system, do not remove the DIAG partition from your hard drive. If you accidentally
remove the DIAG partition, see the
DIAG Recovery Guide
at www.dell.com/support.
14
BIOS installation and configuration
Create a serial console connection
To create a serial console connection, perform the following steps:
1. Use a micro USB to USB type-A cable to establish a connection between the VEP1405 series micro USB console port and the personal
computer.
NOTE: Ensure that you have the driver for the CP210X USB - UART Bridge VCP from Silicon Labs installed. For more
information or to download the necessary driver, see https://www.silabs.com/products/development-tools/software/usb-
to-uart-bridge-vcp-drivers.
2. Check the CP2102 drive communications port using the Microsoft Windows OS Device Manager.
Figure 1. Microsoft Windows Device Manager
3. Using a terminal emulator such as PuTTY, locate and configure the serial port that the USB connection represents.
4. In the Serial field, enter a connection name.
5. Enter 115200 as the baud rate, in the Speed field.
6. Select Serial for the Connection type.
NOTE: To save the selected options for future use, enter a name in the Saved Sessions field then click Save.
Figure 2. PuTTY configuration screen
NOTE:
COM5 is used only as an example. The actual USB serial port may be different. Use the USB-serial port that
corresponds to the VEP serial console connection.
7. Click Open.
BIOS setup
NOTE:
To enter the Setup Menu, you must enter the required password. By default, this password consists of the system
Service Tag number followed by an exclamation point. For example, if the system Service Tag number is A1B2C3D, the default
password would be A1B2C3D!. If you do not enter a password when prompted, you can still access the Setup Menu, however
access to certain functions is restricted.
To enter the BIOS setup, perform the following steps:
1. After the system reboots, immediately press the Delete key.
NOTE: By default, the ability to enter the BIOS setup once the boot process starts, is set at three seconds.
2. Using the arrow keys on the keyboard, select the Boot tab.
15
Figure 3. Dell EMC VEP1405 setup prompt timeout screen
3. From the Setup Prompt Timeout field, use the keyboard to enter the time.
4. Press F4 to save the changes made.
5. Using the arrow keys, select the Main tab.
Figure 4. Dell EMC VEP1405 BIOS main screen
Boot order
The BIOS looks for a bootable image in the Boot order setting list. The BIOS then loads and boots the image. To access the boot order
setting from the BIOS setup screen, select the Boot tab, and then select Boot Option Priorities.
Figure 5. Example of VEP1425 system boot order screen
USB 3.0
To support universal serial bus (USB) 3.0 in operating systems, set the extensible host controller interface (xHCI) XHCI Hand-off option
to enabled. To adjust this setting, access the BIOS setup screen and use the arrow keys to select the Advanced tab, and then select USB
Configuration.
NOTE: If the BIOS must support USB 2.0 devices, or legacy USB devices, leave the Legacy USB Support set to Enabled.
16
Figure 6. USB 3.0 settings
Because the system is connected using the universal asynchronous receiver-transmitter (UART) console, a traditional keyboard or mouse
is not connected to the USB ports.
Network interface configuration
Two small form-factor pluggable (SFP) or SFP+ ports that support the following configurations:
10 G SFP+ optics
1 G, only with Intel Dual Speed 10/1 G Optic on SFP+ ports
Regular 1 G SFP
Six ports 10/100/1000MBase-T Ethernet
Trusted computing
The BIOS provides options to enable or disable trusted platform module (TPM) security. The BIOS has two provision coverage ratio (PCR)
banks and provides options to select SHA-1 or SHA256 for these banks. From the BIOS setup screen, use the arrow keys to select the
Advanced tab, and then select Trusted Computing BIOS settings.
Figure 7. Trusted computing BIOS setting
POST test
From the BIOS setup screen, use the arrow keys to select the Advanced tab, and then select POST test.
17
Figure 8. POST test
LED test
Within Test mode, the LED test option allows you to select the color of the system LED lights on the front panel:
None
Green
Yellow
To adjust these settings, go to the BIOS setup screen, use the arrow keys to select the Advanced tab, select POST test, and then select
the LED test option.
Figure 9. LED test screen
Restore defaults
NOTE:
By restoring the system to the original default settings, any assigned system passwords will be restored to the original
default password. See the BIOS setup section in this document for information about the original default password.
To restore the system to the original default settings:
1. From the BIOS setup screen, use the arrow keys to select the Save & Exit tab.
2. Use the arrow keys to select the Restore Defaults option and press Enter. The Load Optimized Defaults? screen displays.
18
Figure 10. Restore system defaults screen
3. Select Yes and press Enter.
Figure 11. Confirm default settings restoration window
VEP1405 diagnostic operating system installation
The installation of the VEP1405 diagnostic operating system supports the following installation procedure:
19
Figure 12. VEP1405 diagnostic operating system installation process
Restore to Manufacture DIAG OS
Manufacture DIAG OS recovery for the VEP1405 series of systems.
Burn DIAG OS ISO image to a bootable USB
NOTE:
Dell Technologies recommends you use Rufus to create the bootable USB drive. To download the latest version of
Rufus, see https://rufus.ie/.
1. Mount the USB flash drive to a Linux computer or VEP1405 with DIAG OS.
2. Log in to the Linux OS.
3. Download the DIAG OS ISO image to the Linux computer using FTP, SCP, or a similar protocol.
4. Use the following Linux command to create a bootable DIAG OS installation USB flash drive:
#dd if=diagos-recovery-x86_64-dellemc_vep1400_c3538-r0.3.43.3.81-17.iso of=/dev/sd<x> bs=1M
NOTE:
When using the /dev/sd<x> command,
<x>
represents the device location where the USB is plugged in to the
system. For example, the location information could be sda, sdb, or sdc.
NOTE: To view the devices, you can use the sdlsblk or df commands.
Configure BIOS to install DIAG OS from USB
1. Select the Save & Exit menu tab.
2. Using the arrow keys, navigate to the Boot Override section and highlight UEFI:
<device name>
.
20
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Dell EMC Networking VEP1425/VEP1445/VEP1485 Owner's manual

Dell
Brand
Dell
Model
EMC Networking VEP1425/VEP1445/VEP1485
Type
Owner's manual
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