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axion

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  1. Ok, its up on github now, in csv format to make it easy to read/edit/whatever. I'm really green when it comes to github, I'm not sure what I need to do also to let others contribute. I'm kind of learning as I go. Do you know I I have to do anything to "approve" any commits? here is the repo.
  2. If anyone has played around with gqrx, you might have found that you can locate a "blip" at a given frequency, but not know much else about what it could be, or even where to begin to look up what it might be. I put together this collection as a personal reference to help me understand what I am looking at. I got this from all over the Internet so if I got something wrong, feel free to correct me. Lower (MHz) Upper(MHz) Middle(MHz) Range(MHz) US Amateur (ARRL) 6 Meters 50 54 52 4 US Amateur (ARRL) 2 Meters 144 148 146 4 US Amateur (ARRL) 1.25 Meters 222 225 223.5 3 US Amateur (ARRL) 70 Centimeter 420 450 435 30 UHF IV/V 470 862 666 392 WCDMA XII (SMH 700) TX 698 716 707 18 LTE 12 (700 MHz Lower, A+B+C) T 699 716 707.5 17 LTE 17 (700 MHz Lower, B+C) TX 704 716 710 12 WCDMA XII (SMH 700) 698 746 722 48 LTE 12 (700 MHz Lower, A+B+C) 699 746 722.5 47 LTE 17 (700 MHz Lower, B+C) 704 746 725 42 LTE 28 (700 MHz APAC) TX 703 748 725.5 45 WCDMA XII (SMH 700) RX 728 746 737 18 LTE 12 (700 MHz Lower, A+B+C) R 729 746 737.5 17 LTE 17 (700 MHz Lower, B+C) RX 734 746 740 12 WCMDA XIII (SMH 700) RX 746 756 751 10 LTE 13 (700 MHz Upper) RX 746 756 751 10 LTE 28 (700 MHz APAC) 703 803 753 100 LTE 44 (700 MHz APAC) 703 803 753 100 WCDMA XIV (SMH 700) RX 758 768 763 10 LTE 14 (Public Safety) RX 758 768 763 10 WCMDA XIII (SMH 700) 746 787 766.5 41 LTE 13 (700 MHz Upper) 756 777 766.5 21 WCDMA XIV (SMH 700) 758 798 778 40 LTE 14 (Public Safety) 768 788 778 20 LTE 28 (700 MHz APAC) RX 758 803 780.5 45 WCMDA XIII (SMH 700) TX 777 787 782 10 LTE 13 (700 MHz Upper) TX 777 787 782 10 WCDMA XIV (SMH 700) TX 788 798 793 10 LTE 14 (Public Safety) TX 788 798 793 10 LTE 20 (800 MHz EDD) RX 791 821 806 30 LTE 27 (850 MHz lower) TX 807 824 815.5 17 LTE 18 (Japan 800 MHz lower) TX 815 830 822.5 15 LTE 20 (800 MHz EDD) 821 832 826.5 11 LTE 26 (800 MHz iDEN) TX 814 849 831.5 35 WCDMA VI (800MHz) TX 830 840 835 10 LTE 6 (UTRA only) TX 830 840 835 10 GSM850 TX 824 849 836.5 25 WCDMA V (850MHz) TX 824 849 836.5 25 LTE 5 (850 MHz) TX 824 849 836.5 25 LTE 19 (Japan 800 MHz upper) TX 830 845 837.5 15 LTE 27 (850 MHz lower) 807 869 838 62 LTE 18 (Japan 800 MHz lower) 815 875 845 60 LTE 20 (800 MHz EDD) TX 832 862 847 30 LTE 26 (800 MHz iDEN) 814 894 854 80 WCDMA VI (800MHz) 830 885 857.5 55 LTE 6 (UTRA only) 830 885 857.5 55 GSM 850 (Cellular) 824 894 859 70 WCDMA V (850MHz) 824 894 859 70 LTE 5 (850 MHz) 824 894 859 70 LTE 19 (Japan 800 MHz upper) 830 890 860 60 LTE 27 (850 MHz lower) RX 852 869 860.5 17 LTE 18 (Japan 800 MHz lower) RX 860 875 867.5 15 LTE 26 (800 MHz iDEN) RX 859 894 876.5 35 WCDMA VI (800MHz) RX 875 885 880 10 LTE 6 (UTRA only) RX 875 885 880 10 GSM850 RX 869 894 881.5 25 WCDMA V (850MHz) RX 869 894 881.5 25 LTE 5 (850 MHz) RX 869 894 881.5 25 LTE 19 (Japan 800 MHz upper) RX 875 890 882.5 15 GSM900 TX 880 915 897.5 35 WCDMA VIII (GSM900) TX 880 915 897.5 35 LTE 8 (900 MHz) TX 880 915 897.5 35 US Amateur (ARRL) 33 Centimeter 902 928 915 26 GSM 900 880 960 920 80 WCDMA VIII (GSM900) 880 960 920 80 LTE 8 (900 MHz) 880 960 920 80 GSM900 RX 925 960 942.5 35 WCDMA VIII (GSM900) RX 925 960 942.5 35 LTE 8 (900 MHz) RX 925 960 942.5 35 US Amateur (ARRL) 23 Centimeter 1240 1300 1270 60 WCDMA XI (1500) TX 1427.9 1447.9 1437.9 20 LTE 11 (1.5 GHz Lower) TX 1427.9 1447.9 1437.9 20 WCDMA XI (1500) 1427.9 1459.9 1443.9 32 LTE 21 (1.5 GHz Upper) TX 1447.9 1462.9 1455.4 15 LTE 11 (1.5 GHz Lower) 1427.9 1495.9 1461.9 68 WCDMA XI (1500) RX 1459.9 1475.9 1467.9 16 L band 1452 1492 1472 40 LTE 21 (1.5 GHz Upper) 1447.9 1510.9 1479.4 63 LTE 11 (1.5 GHz Lower) RX 1475.9 1495.9 1485.9 20 LTE 21 (1.5 GHz Upper) RX 1495.9 1510.9 1503.4 15 LTE 24 (L Band) RX 1525 1559 1542 34 GPS 1574.4 1576.4 1575.4 2 LTE 24 (L Band) 1559 1626.5 1592.75 67.5 LTE 24 (L Band) TX 1626.5 1660.5 1643.5 34 WCDMA IV (AWS) TX 1710 1755 1732.5 45 LTE 4 (AWS) TX 1710 1755 1732.5 45 WCDMA X (1700) TX 1710 1770 1740 60 LTE 10 (Extended AWS) TX 1710 1770 1740 60 GSM1800 (DCS) TX 1710 1785 1747.5 75 WCDMA III (PCS) TX 1710 1785 1747.5 75 LTE 3 (DCS 1800) TX 1710 1785 1747.5 75 WCDMA IX (1700) TX 1749.9 1784.9 1767.4 35 LTE 9 (1700 MHz) TX 1749.9 1784.9 1767.4 35 GSM 1800 (DCS) 1710 1880 1795 170 WCDMA III (DCS) 1710 1880 1795 170 LTE 3 (DCS 1800) 1710 1880 1795 170 WCDMA IX (1700) 1749.9 1879.9 1814.9 130 LTE 9 (1700 MHz) 1749.9 1879.9 1814.9 130 GSM1800 (DCS) RX 1805 1880 1842.5 75 WCDMA III (PCS) RX 1805 1880 1842.5 75 LTE 3 (DCS 1800) RX 1805 1880 1842.5 75 WCDMA IX (1700) RX 1844.9 1879.9 1862.4 35 LTE 9 (1700 MHz) RX 1844.9 1879.9 1862.4 35 WCDMA II (PCS) 1850 1900 1875 50 LTE 35 (TDD 1900) 1850 1910 1880 60 GSM1900 (PCS) TX 1850 1910 1880 60 WCDMA II (PCS) TX 1850 1910 1880 60 LTE 2 (PCS 1900) TX 1850 1910 1880 60 LTE 25 (PCS 1900 + G Block) TX 1850 1915 1882.5 65 LTE 39 (China TDD 1.9 GHz) 1880 1920 1900 40 LTE 33 (TDD 2000) 1900 1920 1910 20 WCDMA II (PCS) RX 1900 1930 1915 30 GSM 1900 (PCS) 1850 1990 1920 140 LTE 2 (PCS 1900) 1850 1990 1920 140 LTE 37 (TDD PCS) 1910 1930 1920 20 LTE 25 (PCS 1900 + G Block) 1850 1995 1922.5 145 WCDMA IV (AWS) 1710 2155 1932.5 445 LTE 4 (AWS) 1710 2155 1932.5 445 WCDMA X (1700) 1710 2170 1940 460 LTE 10 (Extended AWS) 1710 2170 1940 460 WCDMA I TX 1920 1980 1950 60 LTE 1 (IMT 2.1 GHz) TX 1920 1980 1950 60 LTE 36 (TDD 1900) 1930 1990 1960 60 GSM1900 (PCS) RX 1930 1990 1960 60 LTE 2 (PCS 1900) RX 1930 1990 1960 60 LTE 25 (PCS 1900 + G Block) RX 1930 1995 1962.5 65 LTE 23 (2 GHz S-Band) TX 2000 2020 2010 20 LTE 34 (TDD 2000) 2010 2025 2017.5 15 WCDMA I (2100MHz) 1920 2170 2045 250 LTE 1 (IMT 2.1 GHz) 1920 2170 2045 250 LTE 23 (2 GHz S-Band) 2000 2200 2100 200 WCDMA IV (AWS) RX 2110 2155 2132.5 45 LTE 4 (AWS) RX 2110 2155 2132.5 45 WCDMA I RX 2110 2170 2140 60 WCDMA X (1700) RX 2110 2170 2140 60 LTE 1 (IMT 2.1 GHz) RX 2110 2170 2140 60 LTE 10 (Extended AWS) RX 2110 2170 2140 60 LTE 23 (2 GHz S-Band) RX 2180 2200 2190 20 US Amateur (ARRL) 13 Centimeter 2300 2310 2305 10 Wimax US WCS 2305 2320 2312.5 15 Wimax US WCS (both) 2305 2360 2332.5 55 LTE 40 (China TDD 2.3 GHz) 2300 2400 2350 100 Wimax US WCS 2345 2360 2352.5 15 US Amateur (ARRL) 12.4 Centimet 2390 2450 2420 60 Wimax ISM 2400 2480 2440 80 Bluetooth (2500MHz) 2400 2500 2450 100 WCDMA VII (2600MHz) TX 2500 2570 2535 70 LTE 7 (2.6 GHz) TX 2500 2570 2535 70 LTE 41 (TDD 2.5 GHz) 2496 2690 2593 194 WCDMA VII (2600MHz) 2500 2690 2595 190 LTE 7 (2.6 GHz) 2500 2690 2595 190 Wimax MMDS 2500 2690 2595 190 LTE 38 (TDD 2.6 GHz) 2570 2620 2595 50 Wimax 2.5 GHz all 2305 2900 2602.5 595 WCDMA VII (2600MHz) RX 2620 2690 2655 70 LTE 7 (2.6 GHz) RX 2620 2690 2655 70 Wimax MMDS (both) 2500 2900 2700 400 Wimax MMDS 2700 2900 2800 200 Wimax 3.5 GHz band 3300 3400 3350 100 US Amateur (ARRL) 9 Centimeters 3300 3500 3400 200 Wimax 3.5 GHz all 3300 3600 3450 300 LTE 22 (3.5 Ghz) TX 3410 3490 3450 80 LTE 42 (TDD 3.4 GHz) 3400 3600 3500 200 Wimax 3.5 GHz band 3400 3600 3500 200 LTE 22 (3.5 Ghz) 3410 3590 3500 180 LTE 22 (3.5 Ghz) RX 3510 3590 3550 80 LTE 43 (TDD 3.6 GHz) 3600 3800 3700 200 Wimax U-NII (Low & Mid) 5150 5350 5250 200 Wimax WRC 5470 5725 5597.5 255 Wimax U-NII (Upper)/ISM 5725 5850 5787.5 125
  3. if you use $ ifconfig -a it will list all adapters, including any iface that is down.
  4. So, although it looks like a usb drive, it is really a keyboard, and will not show up as an external device on your computer. The only other thing I can think of is do you have a compiled "inject.bin" file on the sd card? Is the the file actually named inject.bin? If you have already done that, then I'm thinking you probably need to contact the hakshop (might be defective?).
  5. It acts just like a keyboard, so my first question is, do you have a spare (real) keyboard to plug into the chromebook to test that you can type with it? Also, can you test the ducky out on a Windows/Mac/Linux box at all, just to see if it works on that?
  6. try adding a delay to the start: DELAY 5000 it does take a little time for the computer to load the keyboard drivers before it understands what it's typing.
  7. from https://ducky-decode.googlecode.com/files/The USB Rubber Ducky Draft.doc: Make sure the sd card is all the way in. I think it might need to be formatted as FAT. If your using your own personal sd card, try using the one that it came with.
  8. have you altered the firmware in any way? If you haven't then you might just have a bad usb ducky, (contact the hakshop). If you have, then you should try to reflash back to the default firmware and try again.
  9. what happens when you plug the ducky into your computer? you need encoder.jar to create an inject.bin https://github.com/hak5darren/USB-Rubber-Ducky/blob/master/Encoder/encoder.jar?raw=true This new version allows you to use alternative layout. It supports ASCII, ISO-8859-1 and unicode. $java -jar duckencode.jar -i script.txt -o inject.bin -l fr or $java -jar duckencode.jar -i script.txt -o inject.bin -l resources/mylayout.properties ---------- Hak5 Duck Encoder 2.6.3 usage: duckencode -i [file ..] encode specified file or: duckencode -i [file ..] -o [file ..] encode to specified file Arguments: -i [file ..] Input File -o [file ..] Output File -l [file ..] Keyboard Layout (us/uk/fr/pt or a path to a properties file) Script Commands: ALT [key name] (ex: ALT F4, ALT SPACE) ALT-SHIFT (Input Lanugage Swap) CTRL | CONTROL [key name] (ex: CTRL ESC) CTRL-ALT [key name] (ex: CTRL-ALT DEL) CTRL-SHIFT [key name] (ex: CTRL-SHIFT ESC) DEFAULT_DELAY | DEFAULTDELAY [Time in millisecond * 10] (change the delay between each command) DELAY [Time in millisecond * 10] (used to overide temporary the default delay) COMMAND | COMMAND [key] (For OSX Users ex: COMMAND SPACE) GUI | WINDOWS [key name] (ex: GUI r, GUI l) REM [anything] (used to comment your code, no obligation :) ) SHIFT [key name] (ex: SHIFT DEL) REPEAT [Number] (Repeat last command N times) STRING [any character of your layout] [key name] (anything in the keyboard.properties) Note: Getting strange behaviour with GUI to open windows-menu, WINDOWS appears to work ok (but GUI maps to WINDOWS), strange? take the sd card out of the ducky. transfer the new inject.bin file to the sd card. put the sd card back into the ducky. you're ready to rock and roll.
  10. This should be in everyone's signature
  11. This looks like it should be really easy to run: https://enigma0x3.net/2016/07/22/bypassing-uac-on-windows-10-using-disk-cleanup/
  12. Most automatic car locks are actuated by a solenoid; any chance they were just using a really strong magnet to open the doors?
  13. because kaspersky is blocking it, im guessing its able to test powershell.exe being executed with the shellcode. or maybe it works by analyzing the process while its running in memory. I have no real idea how you would do this effectively, maybe ask google?
  14. kaspersky uses sandboxing to determine if a program is harmful. It executes the code in a controlled environment to test it before it really executes the program in the normal system. I believe (though i don't really know for sure) that it's looking for a pattern of calls to certain functions, which is why its getting detected. you might need to rewrite the payload somehow, but that could be very hard to do, I'm not sure.
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