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HTC One Stagefright disable instructions
Jul 29th, 2015 by miki

Until your device is sufficiently patched against the Stagefright vulnerabilty I recommend disabling automatic MMS retrieval on any Android phones from 2.2 and up (which is hopefully all in current use) to prevent unattended triggering.

Howtos for Google and Samsung devices are here.

Below are screenshots of how to do it on HTC One M7 using the stock (HTC Sense) messaging application called “SMS”. The procedure is likely to be very similar on most HTC devices using Sense.
The UI shown is in Danish locale, the English menus will be something like SMS->Settings->Multi Media Messages (MMS)->Automatic Retrieval.

wpid-wp-1438164382994.jpeg wpid-wp-1438164394794.jpeg wpid-wp-1438164402504.jpeg

Schneier discusses details here and this seems to be the commit in CyanogenMod for the underlying problem in the media library. Check aælso the issue’s review page

Beaglebone Black periodic boot failure; fixing B_UART0_RX with voltage divider
Nov 4th, 2014 by miki

Investigating further on the BBB boot issue described in this earlier post and following discussion in the mailinglist, here is a test of another BBB modification trying to remedy this.

This time the modification is done on the non-cpu side of U15 (75LVC2G241 buffer/driver), where the buffered uart0 input (B_UART0_RX) is kept stable using a voltage divider. B_UART0_RX is already pulled low by a 100k resistor, but adding another 82k5 ohms pulling against 3,3v makes up a voltage divider, keeping input 1A on U15 stable at all times at approx. half (~55%) of the voltage between VDD_3V3B and DGND. At stable 3,3V that voltage will be 3.3V*100k/(82k5+100k)= 1.81V (EDIT: first edition of this post erroneously stated the voltage drop of ~1.4V over the pull up as the B_UART0_RX’s voltage level).

Beware that this modification might affect the functionality of uart0 rx capability. I’ll probably test this some time soon (TM) when I got access to my TTL<->USB converter.

These results are summed up in this post on the BBB mailinglist.

Results

Providing a stable B_UART0_RX at 1.8V results in a booting BBB in every test case!

The third picture below shows an easy and relatively safe way to make this a permanent fix on the backside of the BBB. It places a resistor (this one is 82k5 ohm ) between VDD_3V3B from terminal 5 on the non-populated P2 header marked as “CTI JTAG, DNI” and the  B_UART0_RX signal on J2 (UART0 Serial Port) pin 4.

Failure Rates

  • Unmodified BBB (DUT#1):  4 fails/65 boots= 6,2%
  • Fixed B_UART0_RX at ~1.8v (DUT#2): 0 fails/50 boots= 0,0%
  • Strong pull down on B_UART0_RX (DUT#3):  3 fails/50 boots= 6.0%

Pictures

Detailed Test Report

(formatted in nice emacs org-mode)

* BBB boot lockup test report 2
** Equipment*** Device Under Test #1
Unmodified Beaglebone Black (BBB) produced by Element 14
(PCB REV B6, serial EM-400524+XA6001961, marked "Element 14").
*** Device Under test #2
Modify DUT#1 by applying a 82k5 ohm pull up resistor from J1,
pin 4 (B_UART0_RX, U15-pin 2, signal 1A) to P8, pin 4 (VDD_3V3B),
effectively creating a voltage divider with existing pull down
resistor R165 (100k ohm) fixing voltage on B_UART0_RX to
3.3V*100k/(82k5+100k)= 1.81V.
*** Device Under Test #3
Modify DUT#1 by applying a 82k5 ohm pull down resistor from J1,
pin 4 (B_UART0_RX, U15-pin 2, signal 1A) to P8, pin 1 (DGND),
thus forming a stronger pull down on B_UART0_RX with resistive
value of 1/(1/100k+1/82k5)= 45k2 ohm
*** Power Supply Unit
 Huawei HW-050200E3W, output 5V 2A, USB A-connector. Danish plug.
 Sourced from Huawei E589 mobile wifi.
*** Power Cable
20 cm no-name USB A male connector to USB Mini-B male connector.
** Test 1 Procedure
Insert PSU into mains socket. Test boot capability of DUT#1 by
inserting the USB A connector into the mains socket adaptor while
keeping the USB Mini-B connector inserted into the BBB. Then verify
that the power led light up, and note whether boot succeeded or
failed by watching if USR0-USR3 lights up indicating boot. Then
remove the A connector from the mains adaptor wait 3 seconds and repeat.
Results can be seen in section Test Results, column Test 1.
** Test 2 Procedure
Repeat Test 1 procedure using DUT#2.
Results can be seen in section Test Results, column Test 2.
** Test 3 procedure
Repeat Test 1 procedure using DUT#3.
Results can be seen in section Test results, column Test 3.
** Interpretation
DUT#1 failure rate= 4 fails/65 boots= *6,2%*
DUT#2 failure rate= 0 fails/50 boots= *0,0%*
DUT#3 failure rate= 3 fails/50 boots= *6.0%*
Test 2 in reference to Test 1 shows that fixing B_UART0_RX to
1.4v using a voltage divider increases the system boot success
rate from 94% to 100%. Though the modification might affect the
functionality of uart0 rx capability.
Test 3 shows that forming a stronger pull down on B_UART0_RX
(100k->45k), dosn't change the failure rate as might be expected.
This suggest that some strong (internal?) signal that a pull
down in itself can't correct is driving the the 75LVC2G241's
1A input sometime during powerup.
** Test results
 | Boot no. | Test 1  | Test 2 | Test 3  |
 |        1 | boot    | boot   | boot    |
 |        2 | boot    | boot   | boot    |
 |        3 | boot    | boot   | boot    |
 |        4 | boot    | boot   | boot    |
 |        5 | boot    | boot   | boot    |
 |        6 | boot    | boot   | boot    |
 |        7 | boot    | boot   | boot    |
 |        8 | boot    | boot   | boot    |
 |        9 | boot    | boot   | boot    |
 |       10 | boot    | boot   | boot    |
 |       11 | boot    | boot   | boot    |
 |       12 | boot    | boot   | boot    |
 |       13 | boot    | boot   | boot    |
 |       14 | boot    | boot   | boot    |
 |       15 | boot    | boot   | boot    |
 |       16 | boot    | boot   | boot    |
 |       17 | boot    | boot   | boot    |
 |       18 | boot    | boot   | boot    |
 |       19 | boot    | boot   | boot    |
 |       20 | boot    | boot   | boot    |
 |       21 | no boot | boot   | boot    |
 |       22 | boot    | boot   | boot    |
 |       23 | boot    | boot   | boot    |
 |       24 | boot    | boot   | boot    |
 |       25 | boot    | boot   | boot    |
 |       26 | boot    | boot   | boot    |
 |       27 | boot    | boot   | boot    |
 |       28 | boot    | boot   | boot    |
 |       29 | boot    | boot   | boot    |
 |       30 | boot    | boot   | boot    |
 |       31 | boot    | boot   | boot    |
 |       32 | boot    | boot   | boot    |
 |       33 | boot    | boot   | no boot |
 |       34 | boot    | boot   | no boot |
 |       35 | boot    | boot   | boot    |
 |       36 | boot    | boot   | boot    |
 |       37 | boot    | boot   | boot    |
 |       38 | no boot | boot   | boot    |
 |       39 | boot    | boot   | boot    |
 |       40 | boot    | boot   | boot    |
 |       41 | boot    | boot   | boot    |
 |       52 | boot    | boot   | boot    |
 |       53 | boot    | boot   | boot    |
 |       44 | boot    | boot   | no boot |
 |       45 | no boot | boot   | boot    |
 |       46 | boot    | boot   | boot    |
 |       47 | boot    | boot   | boot    |
 |       48 | boot    | boot   | boot    |
 |       49 | boot    | boot   | boot    |
 |       50 | boot    | boot   | boot    |
 |       51 | boot    |        |         |
 |       52 | boot    |        |         |
 |       53 | boot    |        |         |
 |       54 | boot    |        |         |
 |       55 | boot    |        |         |
 |       56 | boot    |        |         |
 |       57 | boot    |        |         |
 |       58 | boot    |        |         |
 |       59 | boot    |        |         |
 |       60 | boot    |        |         |
 |       61 | boot    |        |         |
 |       62 | boot    |        |         |
 |       63 | boot    |        |         |
 |       64 | boot    |        |         |
 |       65 | no boot |        |         |
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