JTAG - HTC Radar

It looks like JTAG is supported for the Radar. The SLDROemMenu.exe has the folowing in it:
BSPBCFG512KB1024KB5MB20MB???0x8047E2 - Default0xC007E7 - Perf0x8147E6 - Boot0x000222 - PowerSerialSerial then QXDMJTAG(DCC4)JTAG(DCC4) then QXDMNo
I am not sure if QXDM is the file name or not

That or it is RUU_signed.nbh

QXDM is Qualcomm Xtensible Diagnostics Manager. I'm sure the file/bootloader was written to be controlled through a jtag with QXDM as the front-end..

Related

[A][SGS2][Serial] How to talk to the Modem with AT commands

This is a LIVE guide to communicating with your phones modem by AT commands. The information contained here is collected on a continuous basis from various places after having some trouble finding all relevant information in one place. Now this place is here, and if not please post a comment on what's missing and where to find it, if you do know.
All results in this guide have been obtained using a Samsung Galaxy S2 running a stock rooted GB 2.3.4 with PDA:XWKI4 and PHONE:XXKI1 on the 2.6.35.7 Kernel.
The key documents to have as a reference when working with the Android AT command set are found at the 3GPP site. In particular these 2 documents:
[1] The ETSI GSM 07.07 (3GPP TS 27.007) specifies AT style
commands for controlling a GSM phone or modem.
[2] The ETSI GSM 07.05 (3GPP TS 27.005) specifies AT style
commands for managing the SMS feature of GSM.
These documents exists in many different versions, so they are not all equal in content. Make sure to check what document version you are using.
Background
To better understand mobile phone modems and the underlying hardware I strongly recommend reading Harald Welte's "Anatomy of contemporary GSM cellphone hardware" [3] and Telica's "Challenges in integrating modems on Open Platforms" [4]. To summarize enormously, I can say this. On a modern Android based "smart phone", there are essentially two processors. The Application Processor (AP) where your Android operating system (AOS) and user interface (UI) lives, and the Baseband/Cellular Processor (BP/CP) where all the GSM and other high-tech communication magic happens, including the modem we wish to communicate with. In the most modern phones the BP and the AP and all possible other peripheral devices are integrated into one piece of hardware, loosely known as a Smartphone or System on a Chip (SoC). On this SoC there are a number of peripheral devices such as RTC, UARTs, SPI, I2C, USB ports, SD/MMC card controllers and an ISO7816 SIM card reader. However, to preserve the layered hardware structure, the AP and BP still communicates via UART (serial line), USB, SPI or through shared RAM and/or a combination of these. Therefore there will always be some path directly accessible from the outside that we should be able to use to communicate directly with the BP. Exactly how this is done, is mostly unknown due to the closed source and protectionisitc nature of the SoC manufacturers, to the great dismay of the developer community.
Although there are several methods for invoking and controlling modem services, the two most common are through the AT Commands (ATC) and/or through Remote Procedural Calls (RPC). The ATC method is by far the most popular and the ATC set can be categorized as follows.
Code:
Call Control: Commands for initiating and controling calls.
Data Call Control: Commands for controlling the data transfer and QoS.
Network Service: Commands for Supplementary services,ME, operator
selection, locking and registraction.
SMS Control: Commands for sending, notifying, setting SMS services.
ME Control & Status: Commands for ME power,keypad,display,phonebook,RTC's.
The AOS provide support for this framwork in the Radio Interface Layer (RIL), which acts as the interface between the radio HW and the Java Applicaiton Programming Interface (API). However, the RIL is divided into 3 parts or layers if you want. (These are just arbitrary, and not GSM layers!)
L3. The Java RIL (AOS API) accessible to all but with a limited set of commands.
L2. The RIL Daemon (RILJ) acting as an interface between AOS and the Vendor RIL.
L1. The Vendor RIL, which is a closed-source and HW-specific implemetation.
L0. The OEM/Vendor modem HW and firmware then acts on the L1 ATC's. (?)
Thus the job of the RIL is to translate all the telephony requests from the Android telephony framework and map them to the corresponding AT commands to the modem, and back again.
Here are two useful pictures that try to explain the various RIL layers.
Fig.1.
Fig.2.
Finding the correct serial device for the phone modem
In your phone you will find hundreds of devices listed under /dev. Knowing which one is the serial device(s) used for communicating with your Baseband Processor's (BP) Modem, is key in getting a useful AT communication going. Here it is also good to know that there are several serial devices connected to the BP. These connections are working in parallel through a MUX. So it is very likely you will be able to use several different devices to send AT commands with.
So how do we find an appropriate local serial device on the phone? One way is of course to try to connect via some terminal application to all devices and send some AT commands and look for a response, but that is not very scientific or practical. Different phones may use different default (Modem) serial devices. One way to find the serial devices is by listing available tty drivers.
Code:
# cat /proc/tty/drivers
...
rfcomm /dev/rfcomm 216 0-255 serial
g_serial /dev/ttyGS 253 0 serial
ttySAC /dev/s3c2410_serial 204 64-68 serial
serial /dev/ttyS 4 64-67 serial
...
So what are these doing and which one should we try?
After Googling around we suspect that:
rfcomm = Used by Bluetooth serial devices
ttySAC = Used by serial SAmsung Console
g_serial = "DataRouter" (also see dun: (10,123) )
In addition and thanks to the documentation in Adam Outler's info package [5], it can be inferred from the block diagram that perhaps:
Code:
s3c2410_serial0 - UART0 - Bluetooth (ttySAC)
s3c2410_serial1 - UART1 - GPS
s3c2410_serial2 - UART2 - AP PMIC - A/S1 ??
s3c2410_serial3 - UART3 - AP PMIC --> AP Level Shifter --> BP UART ??
s3c2410_serial4 - UART4 - not used?
(PMIC = Power Management IC)
The block diagram is this one, from the SGS-2 service manual.
Connecting using: a local terminal application or the ADB shell
So from our previous results, we would suspect that we could use /dev/ttyGS0. Since Busybox contain the microcom terminal program, we can simply do:
Code:
# busybox microcom -t 5000 /dev/ttyGS0
AT
ATI
<nothing> :(
However, although the connection is successful, there is no AT reaction on that line...
[EDIT] (See notes in a later post.)
Connecting using: Windows
If you are using Windows, you can go into Device Manager (DM) to find the correct port(s) used by your phone. However, depending on whether you set your phone to be used as a "USB mass storage" device or not, there may appear different devices in the DM. Here we assume that we just physically connect the phone and do nothing more. I.e. We're not using the device as a USB storage.
Next, under the device class listed as "Modems", you will probably find at least two modem devices. For example, I have one called "HDAUDIO Soft Data Fax Modem with SmartCP", which has nothing to do with Samsung and most likely came with the computer with some bloatware. The other one is called "SAMSUNG Mobile USB Modem", which is what we want. Then right-click to open Properties of the USB Modem device and navigate to the "Diagnostics" tab. Click on the "Query Modem" to send some test AT commands to your modem. If this doesn't work, you have a problem, and I don't have an answer. The result should look something like this:
Code:
ATQ0V1E0 - OK
AT+GMM - AT+GMM
GT-I9100
AT+FCLASS=? - (0,8)
AT#CLS=? - COMMAND NOT SUPPORTED
AT+GCI? - COMMAND NOT SUPPORTED
AT+GCI=? - COMMAND NOT SUPPORTED
ATI1 - Manufacturer: SAMSUNG
Model: I9100
Revision: I9100XXKI1
IMEI: xxxxx
ATI2 - Manufacturer: SAMSUNG
Model: I9100
Revision: I9100XXKI1
IMEI: xxxxx
...
See below for an explanation of these commands.
Now try this yourself with some terminal application. My personal favorite is the free and fully feature loaded "RealTerm". In the Display tab, use ANSI and check the "newLine mode" box, then in the Port tab, find your port as listed in Device Manager. For example, for me the modem port is located on COM port 12. This is listed as "12=\ssudmdm0000" in RealTerm.
Connecting using: Cygwin (on Windows)
First thing to know about using Cygwin, is that the windows COMn ports are addressed as /dev/ttyS[n-1], thus if you have connected your phone with a USB cable, and you find it is connected to COM port 12, then it will be accessible only through /dev/ttyS11 under Cygwin. Other terminal applications may use different ports. In addition you need to have installed/compiled some terminal program like: picocom, microcom or cu etc. Also make sure the COM port is not already occupied by another terminal program.
$ picocom /dev/ttyS11
...
This works as expected.
Some basic AT command structure
I'm not going to say much about the AT commands themselves, as they are almost as old as home computers themselves. However, let's have a brief look at the "Modem Query" above.
Code:
ATQ0V1E0
- This is actually a concatenation of the 3 commands:
(ATQ0 + ATV1 + ATE0) where:
ATQ0 - Disables echo suppression
ATV1 - Enables Verbose command results mode
ATE0 - Turns off local Echo
AT+GMM
- This one doesn't work in direct serial mode (!) and
is equivalent to AT+CGMM which shows the device model
identification. (I9100)
AT+FCLASS=?
- This queries the phone (TA) mode: (data, fax, voice etc.)
ATI
- This lists: Manufacturer, Model, Revision, IMEI
NOTE: AT commands can be concatenated on one line with each line starting with AT, and each command separated by ";". In some cases the semicolon is not needed. Typically a command without "=" or "?" is a general command, that sets or gets some parameters. But any command with "=" is a setting command, unless it is directly followed by "?", in which case you are querying the available/allowed parameters and their range. If the command is followed by "?" without a "=" it is a query, asking the values for something.
WARNING!​DO NOT SEND RANDOM COMMANDS/CHARACTERS TO YOUR PHONE MODEM
Many AT commands can easily wipe or brick your phone or SIM card!
I am in no way responsible for anyone bricking their phones, and
I cannot help you if you do so. So you better know exactly what you
send before you send anything at all.​
General AT command list extracted from 3GPP TS 27.007
Here is a list with general AT commands and a brief description of their functions and the document section they are found at. The document version I used for the info extraction is shown on the first line.
Note: Several of these commands are deprecated or simply not available on the Android/Samsung phone modems, at least not int he form shown in that document.
Code:
3GPP TS 27.007 Release 9 145 V9.4.0 (2010-06)
AT+CAAP 7.25 - Automatic answer for eMLPP Service
AT+CACM 8.25 - Accumulated call meter
AT+CAEMLPP 7.22 - eMLPP Priority Registration and Interrogation
AT+CAHLD 11.1.3 - Leave an ongoing Voice Group or Voice Broadcast Call
AT+CAJOIN 11.1.1 - Accept an incoming Voice Group or Voice Broadcast Call
AT+CALA 8.16 - Alarm
AT+CALCC 11.1.6 - List current Voice Group and Voice Broadcast Calls
AT+CALD 8.38 - Delete alarm
AT+CALM 8.20 - Alert sound mode
AT+CAMM 8.26 - Accumulated call meter maximum
AT+CANCHEV 11.1.8 - NCH Support Indication
AT+CAOC 7.16 - Advice of Charge
AT+CAPD 8.39 - Postpone or dismiss an alarm
AT+CAPTT 11.1.4 - Talker Access for Voice Group Call
AT+CAREJ 11.1.2 - Reject an incoming Voice Group or Voice Broadcast Call
AT+CAULEV 11.1.5 - Voice Group Call Uplink Status Presentation
AT+CBC 8.4 - Battery charge
AT+CBCAP 8.59 - Battery Capacity
AT+CBCHG 8.61 - Battery Charger Status
AT+CBCON 8.60 - Battery Connection Status
AT+CBCS 11.3.2 - VBS subscriptions and GId status
AT+CBKLT 8.51 - Backlight
AT+CBST 6.7 - Select bearer service type
AT+CCFC 7.11 - Call forwarding number and conditions
AT+CCHC 8.46 - Close Logical Channel
AT+CCHO 8.45 - Open Logical Channel
AT+CCLK 8.15 - Clock
AT+CCUG 7.10 - Closed user group
AT+CCWA 7.12 - Call waiting
AT+CCWE 8.28 - Call Meter maximum event
AT+CDIP 7.9 - Called line identification presentation
AT+CDIS 8.8 - Display control
AT+CEAP 8.47 - EAP authentication
AT+CEER 6.10 - Extended error report
AT+CEMODE 10.1.28 - UE modes of operation for EPS
AT+CEPTT 11.1.10 - Short Data Transmission during ongoing VGCS
AT+CEREG 10.1.22 - EPS network registration status
AT+CERP 8.48 - EAP Retrieve Parameters
AT+CFCS 7.24 - Fast call setup conditions
AT+CFUN 8.2 - Set phone functionality
AT+CGACT 10.1.10 - PDP context activate or deactivate
AT+CGATT 10.1.9 - PS attach or detach
AT+CGCLASS 10.1.17 - GPRS mobile station class
AT+CGCLOSP 10.1.13 - Configure local Octet Stream PAD parameters
AT+CGCMOD 10.1.11 - PDP Context Modify
AT+CGCONTRDP 10.1.23 - PDP Context Read Dynamic Parameters
AT+CGCS 11.3.1 - VGCS subscriptions and GId status
AT+CGDATA 10.1.12 - Enter data state
AT+CGDCONT 10.1.1 - Define PDP Context
AT+CGDSCONT 10.1.2 - Define Secondary PDP Context
AT+CGEQOS 10.1.26 - Define EPS Quality Of Service
AT+CGEQOSRDP 10.1.27 - EPS Quality Of Service Read Dynamic Parameters
AT+CGEREP 10.1.19 - Packet Domain event reporting
AT+CGLA 8.43 - Generic UICC Logical Channel access
AT+CGMI 5.1 - Request manufacturer identification
AT+CGMM 5.2 - Request model identification
AT+CGMR 5.3 - Request revision identification
AT+CGREG 10.1.20 - GPRS network registration status
AT+CGSMS 10.1.21 - Select service for MO SMS messages
AT+CGSN 5.4 - Request product serial number identification
AT+CGTFT 10.1.3 - Traffic Flow Template
AT+CGTFTRDP 10.1.25 - Traffic Flow Template Read Dynamic Parameters
AT+CHLD 7.13 - Call related supplementary services
AT+CHSC 6.15 - HSCSD current call parameters
AT+CHSD 6.12 - HSCSD device parameters
AT+CHSR 6.16 - HSCSD parameters report
AT+CHST 6.13 - HSCSD transparent call configuration
AT+CHSU 6.17 - HSCSD automatic user initiated upgrading
AT+CHUP 6.5 - Hangup call
AT+CIMI 5.6 - Request international mobile subscriber identity
AT+CIND 8.9 - Indicator control
AT+CKPD 8.7 - Keypad control
AT+CLAC 8.37 - List all available AT commands
AT+CLAE 8.31 - Language Event
AT+CLAN 8.30 - Set Language
AT+CLCC 7.18 - List current calls
AT+CLCK 7.4 - Facility lock
AT+CLIP 7.6 - Calling line identification presentation
AT+CLIR 7.7 - Calling line identification restriction
AT+CLVL 8.23 - Loudspeaker volume level
AT+CMAR 8.36 - Master Reset
AT+CMEC 8.6 - Mobile Termination control mode
AT+CMEE 9.1 - Report mobile termination error
AT+CMER 8.10 - Mobile Termination event reporting
AT+CMOD 6.4 - Call mode
AT+CMOLR 8.50 - Mobile Originated Location Request
AT+CMOLRE 9.1 - Report mobile originated location request error
AT+CMOLRE 9.3 - Mobile termination error result code
AT+CMTLR 8.57 - Mobile Terminated Location Request notification
AT+CMUT 8.24 - Mute control
AT+CMUX 5.7 - Multiplexing mode
AT+CNAP 7.30 - Calling name identification presentation
AT+CNUM 7.1 - Subscriber number
AT+COLP 7.8 - Connected line identification presentation
AT+COLR 7.31 - Connected line identification restriction status
AT+COPN 7.21 - Read operator names
AT+COPS 7.3 - PLMN selection
AT+COTDI 11.1.9 - Originator to Dispatcher Information
AT+CPAS 8.1 - Phone activity status
AT+CPBF 8.13 - Find phonebook entries
AT+CPBR 8.12 - Read phonebook entries
AT+CPBS 8.11 - Select phonebook memory storage
AT+CPBW 8.14 - Write phonebook entry
AT+CPIN 8.3 - Enter PIN
AT+CPLS 7.20 - Selection of preferred PLMN list
AT+CPNET 7.27 - Preferred network indication
AT+CPNSTAT 7.28 - Preferred network status
AT+CPOL 7.19 - Preferred PLMN list
AT+CPOS 8.55 - Positioning Control
AT+CPOSR 8.56 - Positioning Reporting
AT+CPPS 7.23 - eMLPP subscriptions
AT+CPROT 8.42 - Enter protocol mode
AT+CPSB 7.29 - Current Packet Switched Bearer
AT+CPUC 8.27 - Price per unit and currency table
AT+CPWC 8.29 - Power class
AT+CPWD 7.5 - Change password
AT+CR 6.9 - Service reporting control
AT+CRC 6.11 - Cellular result codes
AT+CREG 7.2 - Network registration
AT+CRLA 8.44 - Restricted UICC Logical Channel access
AT+CRLP 6.8 - Radio link protocol
AT+CRMC 8.34 - Ring Melody Control
AT+CRMP 8.35 - Ring Melody Playback
AT+CRSL 8.21 - Ringer sound level
AT+CRSM 8.18 - Restricted SIM access
AT+CSCC 8.19 - Secure control command
AT+CSCS 5.5 - Select TE character set
AT+CSDF 6.22 - Settings date format
AT+CSGT 8.32 - Set Greeting Text
AT+CSIL 6.23 - Silence Command
AT+CSIM 8.17 - Generic SIM access
AT+CSNS 6.19 - Single numbering scheme
AT+CSQ 8.5 - Signal quality
AT+CSSAC 7.32 - Service Specific Access Control restriction status
AT+CSSN 7.17 - Supplementary service notifications
AT+CSTA 6.1 - Select type of address
AT+CSTF 6.24 - Settings time format
AT+CSVM 8.33 - Set Voice Mail Number
AT+CTFR 7.14 - Call deflection
AT+CTZR 8.41 - Time Zone Reporting
AT+CTZU 8.40 - Automatic Time Zone Update
AT+CUAD 8.49 - UICC Application Discovery
AT+CUSD 7.15 - Unstructured supplementary service data
AT+CVHU 6.20 - Voice Hangup Control
AT+CVIB 8.22 - Vibrator mode
AT+CVMOD 6.4 - Voice Call Mode
AT+FCLASS C.2.1 - Select mode
AT+VBT C.2.2 - Buffer threshold setting
AT+VCID C.2.3 - Calling number ID presentation
AT+VGR C.2.4 - Receive gain selection
AT+VGT C.2.5 - Transmit gain selection
AT+VIP C.2.6 - Initialise voice parameters
AT+VIT C.2.7 - Inactivity timer
AT+VLS C.2.8 - Line selection
AT+VRX C.2.9 - Receive data state
AT+VSM C.2.10 - Select compression method
AT+VTD C.2.12 - Tone duration
AT+VTS C.2.11 - DTMF and tone generation
AT+VTX C.2.13 - Transmit data state
Questions and Help Needed
Q1: What is the correct device on the SGS2, for ATC communication to the modem?
Q2: How and where is this device selected/configured?
Q3: What do the various Proprietary AT commands (AT+X...) do?
Q4: Where can I find more documentation on the BP/CP?​References:
[1] http://www.3gpp.org/ftp/Specs/html-info/27007.htm
[2] http://www.3gpp.org/ftp/Specs/html-info/27005.htm
[3] Harald Welte's "Anatomy of contemporary GSM cellphone hardware"
http://laforge.gnumonks.org/papers/gsm_phone-anatomy-latest.pdf
[4] Telica's White Paper: "Challenges in integrating modems on Open Platforms"
http://teleca.com/Home/news_room/Whitepapers.aspx
[5] Adam Outler's "The all-in-one Galaxy S2 Hack Pack"
[6] Fabien Sanglard's non-blog: "Tracing the baseband":
http://fabiensanglard.net/cellphoneModem/index2.php
[7] "Android Application Development" (Android Telephony Internals, Ch.15.2),
R.Rogers/J.Lombardo, O'Reilly Media 2009
http://androidapps.org.ua/i_sect18_d1e18369.html
​Keywords: AT Commands, Modem, Terminal, CDC-ACM, RIL, Serial, UART
If you like this work, please hit the thank you button!
The GT-I9100 Baseband Processor (BP/CP) Specifications
Currently I have got two different specifications regarding what BP is used in the SGS2, most likely due to the different versions available of the SGS2 in Europe vs. USA. The ones I have are:
Intel/Infineon XMM6260 is the "platform" that consists of:
a) The X-GOLD 626 (ARM1176?, 40nm) baseband processor
b) The SMARTi UE2 RF-transceiver (65nm CMOS)
c) The 3GPP Release 7 HSPA+ protocol stack with:
Downlink: Category 14, Uplink: Category 7
d) Alternative Names*: Infineon IFX6260 = Intel IMC6260 = Intel XMM6260
e) Picture: http://www.infineon.com/export/sites/default/media/press/Image/press_photo/X-GOLD626.jpg
f) Datasheet: N/A
g) Most likely used in European phones
h) is apparently also present in the iPhone 4S.. (check!)
i) Closest available documentation:
XMM6160 (X-GOLD 616, ARM1176) which is also used in the SGS-1:
http://www.infineon.com/dgdl/X-GOLD...f0004&fileId=db3a30431ed1d7b2011f5bee88ef75eb
The biggest difference is in the SMARTi-UE RF-chip. BP remains similar.
XMM6180 (X-GOLD 618, ARM1176 @416 MHz) used in the iPhone4 & iPad2:
http://www.infineon.com/dgdl/X-GOLD...f0004&fileId=db3a30431ed1d7b2011f5bec418f75e6
.
Qualcomm QSC6085 (65nm,424 CSP, 12x12mm) contain:
a) BP: ARM926EJS @ 192 MHz
b) + QDSP @ 96 MHz (also on BP)
c) Modem: IS-95 A/B, 1X Rel.0, EVDOr0, EVDOrA
d) is apparently also present in the "Verizon Wireless USB760 Modem"
e) Picture: N/A
f) Datasheet: N/A
g) Most likely used in North American (US) phones (CDMA)
*It should be noted that Infineon Technologies (Wireless Division) has been acquired by Intel Mobile Communications, in early 2011.
In fact these two differences just made a whole lot of sense from the available AT command sets. Basically the modem specific AT commands immediately give up the manufacturer of the modem firmware. (Yes, competing OEM developers do work together!) Because the command sets usually consists of 3 types.
The old school "Hayes" AT standard given by ETSI GSM 07.07.
Vendor Proprietary AT commands, specific for each OEM.
Carrier Proprietary AT commands, specific to some service providers. (E.g. AT&T, Sprint, T-mobile, Verizon etc.)
So for our 2 modem cases above we have the obvious Proprietary AT extensions:Qualcomm QSCnnnn: AT$Q<something>
Intel/Infineon XMMnnnn: AT+X<something>​which indeed confirms the BP of my SGS2. Obviously there is a far easier way to reach this conclusion...---------------------------------------------------------------
TIPS!
To see what baseband processor you have,
you can enter into ServiceMode and check.
This should always work as many ServiceMode
functions are directly modem dependent.
---------------------------------------------------------------
Why? Because the ServiceMode application
actually reside in the modem firmware!​Do this:Dial: *#197328640#
Code:
MAIN MENU:
...
[2] VERSION INFO. -->
[1] SW VERSION -->
[5] READ ALL SW VERSION:
...
======>[COLOR=Red] IFX [/COLOR]SW VER: [COLOR=Red]SP6260[/COLOR]_U1_01.1135
...
This implies the phone is using software for the (Infineon) IFX 6260...​But the ServiceMode is just talking to the modem, so you can get the
same information by opening an (external) terminal shell and send
the following ATC:
Code:
[B]AT+XGENDATA[/B]
+XGENDATA: " [COLOR=Red]SP6260[/COLOR]_U1_01.1135_DB110831 2011-Sep-2 18:14:20
PDB_NOT_AVAILABLE
*SP6260_U1_01.1135_DB110831*"
"*"
OK
Here is the FBGA pin-out of that chip:
Fig.4.
A small addendum about the SMARTi UE2 chip
The BP is communicating with the RF-tranceiver chip called SMARTi UE2
(labelled "5712"), using a communication interface that corresponds to
the (MIPI) DigRF 3G (V.3.09) standard. Through this protocol the BP
(or other device) can also control some aspects of the RF to some
minor extent. But without the proper specifications of the 5712, it
may also contain other interfaces...
The DigRF connections:
Fig.5.
The SMARTi UE2 chip:
Fig.6.
Here are more link for the interested reader:
General DigRF info:
http://www.mipi.org/specifications/digrfsm-specifications
http://www.mipi.org/sites/default/files/Specification Overview final.pdf
http://electronicdesign.com/article/test-and-measurement/digrf-faqs19953.aspx
The DigRF protocol details:
http://www.siliconreleasesolutions.com/pdf/DigRF-TMWorld0509-FINAL.pdf
http://www.docstoc.com/docs/53386199/DigRF-BASEBAND-RF-DIGITAL-INTERFACE-SPECIFICATION
Complete AT command list for Samsung Galaxy S2 (GB 2.3.4, KI4)
These were obtained by sending the "list all available AT commands" request: AT+CLAC .
Their functions have been collected from many different sources, none of which originates
from Samsung. Thus many ATC's are marked with one or more "?" to signify the uncertainty.
The standard AT set as shown in the OP, I have not bothered to describe here.
Code:
ATA - Answer
ATD - Dial ...
ATE - Enable command echo (0=disable, 1=enable)
ATH - ??? Hangup/Hook
ATO ?? - Return to Online Data Mode
ATQ - Result code supression
ATS - Command line termination? S[3,4,5]
ATV - Command response format (0=Numerical, 1=Verbose)
ATX - Result code format for CONNECT Mfg!
ATZ - Reset Modem (...)
ATl -
ATm -
AT&C ? - (Received line signal detector) Behaviour
AT&D ? - (Data terminal ready) Behaviour
AT&F ? - Restore Factory Default Configuration
AT\Q ? - Local flow control selection
AT+CACM
AT+CAMM
AT+CAOC
AT+CBC
AT+CBST
AT+CCFC
AT+CCHC
AT+CCHO - Open Logical Channel
AT+CCID - SIM Serial Number
AT+CCLK - Realtime clock
AT+CCUG
AT+CCWA
AT+CCWE
AT+CEER
AT+CFUN * ? This command selects the level of functionality <fun> in the MS. Only some values of<fun> are allowed (see Defined values).
AT+CGACT -
AT+CGATT -
AT+CGAUTO -
AT+CGCLASS -
AT+CGCMOD -
AT+CGDATA -
AT+CGDCONT -
AT+CGDSCONT -
AT+CGEQMIN -
AT+CGEQNEG -
AT+CGEQREQ -
AT+CGEREP * - Packet Domain event reporting
AT+CGLA E - Generic UICC Logical Channel access
AT+CGMI - Request manufacturer identification
AT+CGMM - Request model identification
AT+CGMR - Request revision identification
AT+CGPADDR -
AT+CGQMIN -
AT+CGQREQ -
AT+CGREG * - GPRS network registration status AT+CGREG=2;+CGREG?
AT+CGSMS -
AT+CGSN * - Request product serial number identification (IMEI)
AT+CGTFT
AT+CHLD
AT+CHUP - Hangup call
AT+CIMI * - Request international mobile subscriber identity (IMSI)
AT+CLAC - List all available AT commands
AT+CLAN
AT+CLCC
AT+CLCK
AT+CLIP
AT+CLIR
AT+CMEE - Report mobile termination error (+CME) verbosity mode (0,1,2)
AT+CMGC
AT+CMGD
AT+CMGF
AT+CMGL
AT+CMGR
AT+CMGS
AT+CMGW
AT+CMMS
AT+CMOD
AT+CMSS
AT+CMUX - Set multiplexing protocol control channel mode(s)
AT+CNAP
AT+CNMA
AT+CNMI * - This command selects the procedure, how receiving of new SMS from network is indicated to the TE
AT+CNUM
AT+COLP
AT+COLR
AT+CONNECTPORT
AT+COPN
AT+COPS -
AT+CPAS
AT+CPIN
AT+CPIN2
AT+CPLS
AT+CPMS
AT+CPOL
AT+CPUC
AT+CPWD
AT+CPWROFF
AT+CR
AT+CRC
AT+CREG
AT+CRES
AT+CRLA ? - Restricted UICC Logical Channel access
AT+CRLP * - Radio link protocol
AT+CRSM
AT+CSAS
AT+CSCA
AT+CSCB
AT+CSCS
AT+CSDH
AT+CSIM
AT+CSMP
AT+CSMS
AT+CSQ - Signal Quality
AT+CSSN
AT+CSTA
AT+CSVM
AT+CTFR
AT+CTZR
AT+CTZU
AT+CUAD - UICC Application Discovery
AT+CUSD
AT+CVHU
AT+FCLASS - Select mode: put TA into mode: (data, fax, voice etc.)
AT+IPR - This command specifies the data rate at which the DCE will accept commands. The full range of data rate values may be reduced dependent on HW or other criteria.
AT+NEER
AT+TRACE * ? (see: +XSIO) This command controls the trace; it allows selecting the trace mode, method and the trace data transfer rate.
AT+VTD
AT+VTS
AT+XAACOPS ?
AT+XAPP * ! - Known buffer overflow in Iphone 4S (unsigned code execution): Probably used to send executable code (application) to BB!
AT+XBANDSEL ? This command allows to switch from automatic band selection to selection of one or more (up to four) bands.
AT+XCALLSTAT * ? Set reporting call status: This command allows enabling / disabling the reporting voice call status on DTE using an unsolicited result code +XCALLSTAT: <call_id><stat>.
AT+XCEER ?
AT+XCGCLASS ?? Changing the startup MS Mobile class ("B", "CC")
AT+XCONFIG + ?? This command allows the configuration of DLCs (Data Logical Channels). (see +XMUX)
AT+XCOPS ? Display of the most adapted name of the network.The command parameter <type> allows requesting the name type which shall be displayed.
AT+XCSP ? This command reads the customer service profile (CSP) from the SIM. The CSP indicates the services that are user accessible.
AT+XCSPAGING ? This command allows enable/disable the circuit switching paging. The command has an effect only when used before +COPS or +CGATT.
AT+XCSSMS ? Initiate Resending of SMS over CS if GPRS Fails
AT+XCTMS ? This command allows to set the TTY/CTM behavior. The selected setting is stored also in NVRAM and remains valid also after switch off the mobile
AT+XDATACHANNEL ? This command configures the channel over which CSD or GPRS data shall be routed.
AT+XDLCTEST ?
AT+XDNS ? This command enables / disables a dynamic DNS (Domain Name Service) request before context activation.
AT+XDTMF ? This command allows setting the value of SEND DTMF user setting that controls whether the DTMF tone generation on request from SIM-TK is allowed.
AT+XEER ?
AT+XEONS ? displays the list of available networks with details like long operator name, short operator name, MCC/MNC, Long EONS name, Short EONS name for each PLMN.
AT+XFDOR ? Trigger Fast Dormancy
AT+XFDORT ? Set Fast Dormancy Timer
AT+XGAUTH ? This proprietary command allows to enter the type of authentication for a user-name (using a password) for the specified PDP context
AT+XGENDATA ? This command requests the software version and generation data.
AT+XHOMEZR ? This Set command enables and disables the home zone change event reporting. If the reporting is enabled; the MT returns the unsolicited result code +XHOMEZR: <label> whenever the home zone is changed.
AT+XHSDUPA ? This command configures the mode of HSDPA and HSUPA (by changing the appropriate dynamic NVRAM parameter)
AT+XL1SET ? Call the L1-specific function
AT+XLEMA ??? Emergency number list (Ofono)
AT+XLIN ? This command sets the current line.
AT+XLOG * ! - Known buffer overflow in Iphone 4S (unsigned code execution) ? This command allows displaying the exceptions stored in NVRAM on DTE. The MS-error LOG is contained in a response code formatted as +XLOG: <num>,<code>,<file>,<line>,<count> or an other appropriate format as specified below.
AT+XMER ? Enables or disables sending of unsolicited result codes from the MS to the DTE when the battery charge level or the radio signal level crosses a defined threshold.
AT+XMUX + ? Multiplexing mode: This command configures the GSM 07.10 multiplexing protocol.
AT+XNOTIFYDUNSTATUS ??? (LG) This command is used to notify DNS setting status
AT+XNVMMCC ?
AT+XNVMPLMN ?
AT+XPINCNT - This command reads the remaining attempts for SIM PIN, SIM PIN2, SIM PUK and SIM PUK2.
AT+XPOW ? This command sets the powersaving-mode.
AT+XPROGRESS ? This command allows enabling / disabling the display of an unsolicited result code + XPROGRESS: <cin> (call number indication), <status> on DTE while a call is in progress.
AT+XRAT ? This command forces the selection of the Radio Access Technology (RAT) in the protocol stack.
AT+XREDIAL ? Enabling of automatic redialing if the called party was busy.
AT+XREG ! ? Involved in the iPhone unlock hacks...
AT+XRXDIV * ? This command is used to allow external control of the Rx Diversity feature during runtime.
AT+XSETCAUSE ?
AT+XSIMSTATE ? Display SIM and Phonelock Status (write at+xsimstate=1 to turn on, at+xsimstate=0 to turn off)
AT+XSIO * ? This command allows the configuration of the modem-interface (AT), trace-interface, IrDA interface and MUX-interface by setting the variant number.
AT+XSMS ? Detection of Signal DR_SM_FINISHED_IND
AT+XSVM ? This command allows to set the voice mail server number.
AT+XSYSTRACE ?
AT+XTESM ?
AT+XTRACECONFIG ?
AT+XUBANDSEL ?
AT+XUICC - Checks for UICC Card, whether the current SIM is a 2G or 3G sim.
AT+XVTS -
As you can see there are quite a few OEM commands here, whose functions I have not been able to
figure out yet. Please post if you know anything or have any documentation on these. They all
start with: AT+X<something>. There are also others that, that are not documented at all, AFAIK.
[2012-02-05]
On this list, the most interesting ATC's for our purposes are AT+XSIO and AT+XTRACE as described here:
Code:
[B]AT+XSIO[/B] This command allows the configuration of the modem-interface (AT),
trace-interface, IrDA interface and MUX-interface by setting the
variant number.
• Set command allows the configuration of the modem-interface (AT), trace-interface, IrDA interface and
MUX-interface by setting the variant number. The set variant number becomes active only after a reset
• Read command allows seeing which is the current variant and which is the requested variant. A star marks
the active variant.
• Test command returns the possible and customizable variants.
Defined values:
<requested> requested variant, which may be in range 0-255
<active> currently active variant, which may be in range 0-255
<AT-interface> NULL, UART0, …, UARTn
<Trace> NULL, UART0, …, UARTn
<MUX> 1-x
<IrDA> NULL, UART0, …, UARTn
Example:
[B]AT+XSIO=?[/B]
+XSIO: [SP62XX_es1] Variant=0: AT= USART2 USB[03]; BB-Trace= USB1; 3G-Trace= USB2; OCT= USB6;
+XSIO: Variant=1 : AT= USART2 USB[03]; BB-Trace= TADO0; 3G-Trace= TADO1; OCT= USB1;
+XSIO: Variant=2 : AT= USART2 USB[01]; BB-Trace= BG0; 3G-Trace= BG1;
+XSIO: Variant=3 : AT= USB[01]; BB-Trace= USART2; 3G-Trace= USIF5; OCT= USB6;
+XSIO: Variant=4 : AT= USART2 USB[01]; BB-Trace=/bbt/0; 3G-Trace=/3gt/0;
[B]AT+XSIO? [/B]
+XSIO: 0, *0
-------------------------------------------------------------------------------
[B]AT+TRACE[/B] This command controls the trace; it allows selecting the trace mode,
method and the trace data transfer rate.
• Set command switches the trace on or off. It allows the trace mode, method and the trace data transfer rate.
• Read command allows seeing the current set mode value along with the speed, i.e. data transfer rate. It also
allows knowing which traceable unit is on or off.
• Test command returns all the possible values of mode, data transfer rate, traceable unit, their mode and
power saving countdown.
Command Syntax:
AT+TRACE=[<mode>],[<speed>],[<unit>=<umode>],[<method>],[PowerSavingCountdown]
Defined Valuse:
<mode> may be
0 switch trace off
1 switch trace on (all kinds of traces are switched on)
128 This value can not be entered, it is only displayed via read
syntax if trace configuration is done by unitdefinitions
the last time. See <umode> & <unit> for trace configuration;
<unit>=<umode>
<unit> indicates a traceable unit as follows:
St stack
Pf printf
Bt Bluetooth
Ap apoxi
Db debug
Lt LLT (Low Level Trace)
Li LwIP (Lightweight TCP/IP Stack)
Ga GATE (3rd Party Software Decoding with a Windows DLL)
<umode> defines whether the unit related trace is on or off and can have the values:
0 unit-trace off
1 unit-trace on
<method> sting type indicating the trace method with possible values:
"BTM" byte stuffing trace method
"EBTM" extended byte stuffing trace method
<PowerSavingCountdown>
Integer value indicating the power saving countdown
value in units of milliseconds. The maximum valid value is
30000.
Example:
[B]AT+TRACE? [/B]
+TRACE: 1,921600,"ap=1;st=1;db=1;pr=1;bt=1,lt=1;li=1;ga=1;ae=1","DTM",0
[2012-02-14]
Additional hidden AT commands on the SGS-2
Runing strings on the stock /system/bin/drexe , you will find the following AT commands embedded.
These are probably not directly supported by Modem, but rather interpreted by drexe, as
they're not present in the +CLAC list. In addition, some of them just don't work and maybe only
provided for backward compatibility for other devices and modems.
Code:
AT+APPLIST
AT+AUTHKEY=
AT+BATGETLEVEL?
AT+CERTKEY
AT+CGMM
AT+CGSN
AT+CGTEMR=NewPCStudio
AT+DEVAUTH
AT+DEVCONINFO
AT+DISSTRNO=
AT+FOTALOC?
AT+FOTAREADY?
AT+FOTASTART
AT+FUS?
AT+GMM
AT+GSN
AT+HIDSWVER
AT+IMEINUM
AT+PASSWORDINPUT
AT+PRODUCTCODE
AT+PROF=
AT+SECUKEY
AT+SUDDLMOD=
AT+SUPPORTFUS
AT+SWVER
AT+SYNCML=MOBEXSTART
AT+SYNCML=MOBEXSTOP
[2012-02-09]
Very good to read, thanks for linking me that.
But just to correct - AT is abit deprecated interface in SGS, SGS2 and similiar models. It can be used to control modem directly from PC (not sure if PC is really directly talking to modem or to part of Android's HALs, which is then talking to modem, for eg. USB-UART multiplexer in I9000 and S8500/S8530 is capable to switch phone MicroUSB port between AP USB/UART and CP USB/UART.
The main controlling interface used in above models is RPC through oneDRAM shared-memory area. You can find devices like "dpram", "onedram", "modemctl" in kernel - these are critical for proper working of modem. Even if RIL is using AT commands, it does send them through RPC.
AP-CP UART connection seems to be used only for early booting stage (at least in I9000 and S8500, haven't analysed I9100 but guess that's similiar)
Ad1. There may be no real ability to communicate with modem directly on SGS2 and AT responses you are getting may be from Android, working on AP only, not AMSS (Advanced Mobile Subscriber Software - RTOS working on Qualcomm's CP)
Ad4. These datasheets are most guarded secrets of manufacturers. Only single, incomplete manuals leak from Qualcomm, not really useful. Also AP-CP RPC protocol is proprietary of Samsung, they got AMSS sources from Qualcomm and they are adding their own drivers there.
Oh yes, I gave Qualcomm as example, but is CP in SGS2 Qualcomm? It wasn't QC product on SGS1 but tbh it is also very closed source.
While AP-CP low level protocol is opensource (you can find it in dpram/onedram/modemctl drivers in kernel), higher level of that layer - compiled into sec-RIL, is not.
AP-CP protocol is different between I9000 and S8500 (general concept remains the same, just it has been rewriten so packet types and structures are different), but if you are interested - we're creating opensource RIL for S8000/S8500/S8530/S8600 device series, supposed to work with Android ports for them - http://code.google.com/p/bada-modemril/ (branch experimental-MochaIPC)
As I understand, SGS2 use intel's xmm6260 platform, which might also contain it's own interface/firmware etc.
As long as the modem works well, there is little need to dig into the details of how ril communicate with modem, but when the modem does not work as it should (In my case it refused to register on only one specific mobile operator), an AT command which can do a factory reset of the modem might be helpful
EDIT: 2012-02-01
Rebellos said:
... not sure if PC is really directly talking to modem or to part of Android's HALs, which is then talking to modem, for eg. USB-UART multiplexer in I9000 and S8500/S8530 is capable to switch phone MicroUSB port between AP USB/UART and CP USB/UART.
Click to expand...
Click to collapse
Hi, thanks for deep insight! I had to read your post 5+ times to take it all in.
That the AT is deprecated is no secret, but the fact (at least according to some firmware specialists) is that it will still be a while before the OEM's can get rid of the (AT) dependence of their secret and crappy proprietary firmware, that often need to be backward compatible...
Regarding whether I'm talking to AP or CP. You are probably correct that I am talking to AP through HAL. At least from SGS2 block diagram, UART-3 is in the AP, but connected to a level-shifter in the PMIC (still on the same SoC), which is in turn connected to the BP UART-X. (I don't have a clue why this is done so.) So in any case it seem that the AT's are reaching their destination, through some abstraction layer, which may explain why I can only talk ATC's from Samsung Drivers and not from a local (phone) terminal shells.
The question is, what happens if we try to use the Bada trick, to go into ServiceMode (SM) and enable the corresponding BP access? But the SM is different on SGS and that option is not clearly available. However, there is:
Code:
MAIN MENU --> COMMON --> DIAG CONFIG
[1] LOG VIA USB *
[2] LOG VIA UART
[3] LOG VIA IPC
[4] SPEED 115200
[5] SPEED 921600 *
[6] DBG MSG OFF (toggle)
[7] RAMDUMP OFF (toggle)
[8] DUMP ALL TRACE
But these do not seem related to AP/BP connections...[EDIT]
I found it! The selection of AP/BP connection behavior
when connecting your phone as a USB client, to a PC
host, can be manually set in the PhoneUtil (PU) menu.
This sets the behavior of your phone when connecting it
to a PC, so that you can select whether you like it to act
as a Modem or PDA, on the USB and/or UART port.
The PU menu is different from the ServiceMode menu.
Dial: *#7284#
Code:
UART:
[[B]o[/B]] MODEM[B]*[/B]
[ ] PDA
USB:
[ ] MODEM
[[B]o[/B]] PDA[B]*[/B]
* is default SGS2 setting.
However, after making the change to use USB in MODEM mode,
my host is asking for new drivers, which I cannot find... ​Now, if the modem controlling interface is using RPC, how is this reflected at the OS level? Still, any Linux based kernel is device based, so there have to be a way to talk to that device. (I have no idea how to work with RPC's...)
There may be no real ability to communicate with modem directly on SGS2 and AT responses you are getting may be from Android, working on AP only, not AMSS (Advanced Mobile Subscriber Software - RTOS working on Qualcomm's CP)
Click to expand...
Click to collapse
A: There is no AMSS, since we are not using a Qualcomm BP in this device...
... Only single, incomplete manuals leak from Qualcomm, not really useful. Also AP-CP RPC protocol is proprietary of Samsung, they got AMSS sources from Qualcomm and they are adding their own drivers there.
Click to expand...
Click to collapse
A: Agree, but HW hackers are often too much concerned with getting the exact datasheets. Rather try to get an old/similar one that is available... The old device drivers probably have not changed THAT much, but at least it would be a start.
While AP-CP low level protocol is opensource (you can find it in dpram/onedram/modemctl drivers in kernel), higher level of that layer - compiled into sec-RIL, is not.
Click to expand...
Click to collapse
Can you be more specific? (I'm starting to get lost here somewhere...)
AP-CP protocol is different between I9000 and S8500 (general concept remains the same, just it has been rewriten so packet types and structures are different), but if you are interested - we're creating opensource RIL for S8000/S8500/S8530/S8600 device series, supposed to work with Android ports for them - http://code.google.com/p/bada-modemril/ (branch experimental-MochaIPC)
Click to expand...
Click to collapse
Yes, I am. How/where can I find what these differences are?
PS. Regarding the BP on the SGS2, see my 2nd post...
E:V:A said:
A: There is no AMSS, since we are not using a Qualcomm BP in this device...
Click to expand...
Click to collapse
Doesn't matter that much at all, it's likely almost the same stuff.
E:V:A said:
Can you be more specific? (I'm starting to get lost here somewhere...)
Yes, I am. How/where can I find what these differences are?
Click to expand...
Click to collapse
Not hard to get lost, it took me literally few months to understand all these things. Sources are very messy - pay attention to Makefiles, some of drivers aren't even compiled in.
I9000 GB driver (it was reorganised, comparing to Froyo)
https://github.com/project-voodoo/l...erbread-samsung/drivers/misc/samsung_modemctl
I9100 driver is in I9100 kernel sources in /drivers/svnet/ and /drivers/dpram/ (maybe also somewhere else, couldn't find direct link)
You can find my implementation of SHP OneDram frames-protocol there, based on I9000 GB driver - http://code.google.com/p/bada-modemctl/ (it isn't working yet - noone tested it)
As you can see - it's only lowlevel interface of sending frames and few parsers.
Real parsers and senders of frames are in libsec-ril.so library of platform - you can open it with IDA (I suggest 6.0+, it does deal with GOT of linux DLLs much better than previous versions) and find booting modem, installing callbacks inside of dpram/modemctl, parsing and sending packets and so on. Have fun.
I have to say I'm pretty lost on the topic already. I've read about such stuff at the replicant project a while ago. Maybe you find some useful information there.
replicant.us (can't link yet)
Looks to me like they have free ril implementations for dream, n1 and nexus S.
XdxH62 said:
I have to say I'm pretty lost on the topic already. I've read about such stuff at the replicant project a while ago. Maybe you find some useful information there.
Click to expand...
Click to collapse
Copy that! I don't even know where to begin...
But I have collected (thanks to you guys) the following very interesting links:
Available Source Code:
XGOLD-RIL (Omapzoom):
http://dev.omapzoom.org/?p=modem-int/xgold-ril.git;a=tree
Voodoo SGS-1 GB modem:
https://github.com/project-voodoo/l...ung/drivers/misc/samsung_modemctl/modem_ctl.c
https://github.com/project-voodoo/l...erbread-samsung/drivers/misc/samsung_modemctl
General...
https://github.com/GalaxySII/samsung-kernel-galaxysii
bada-modemril: Android RIL library for communication with baseband processor using Samsung OneDram.
https://code.google.com/p/bada-modemril/
bada-modemctl: Android kernel driver for communication with baseband processor using Samsung OneDram.
http://code.google.com/p/bada-modemctl/
Samsung H1 / Nexus S RIL/Modem support:
http://replicant.us/
http://trac.osuosl.org/trac/replicant/wiki
https://gitorious.org/replicant
https://gitorious.org/replicant/samsung-ril
http://github.com/morphis/libsamsung-ipc
http://ftp.osuosl.org/pub/replicant/
Nice!
http://trac.osuosl.org/trac/replicant/wiki/How_to_port_Replicant
https://github.com/morphis/libsamsung-ipc/tree/master/samsung-ipc/device/aries
Unrelated?
Android USB-to-serial: IOIO API
https://github.com/ytai/ioio/wiki
Android App: android-serialport-api
https://code.google.com/p/android-serialport-api/
Great USB GSM/3G stick hacking:
http://blogs.gnome.org/dcbw/category/drivers/
ModemManager Hmm??
https://launchpad.net/modemmanager
http://cgit.freedesktop.org/ModemManager/ModemManager/tree/README
http://cgit.freedesktop.org/ModemManager/ModemManager/tree/libqcdm/src/dm-commands.h
I am the Replicant developer who worked on Nexus S port and also did the work on aries (galaxy s, galaxy tab) devices and wrote a big part of the free RIL.
Replicant is a fully free Android derivate running on some devices (mostly Google phones).
If you have any question regarding samsung modems in Android phones, i'd be happy to answer them!
I'll attach the mail I sent back to E:V:A next
---------- Post added at 08:27 PM ---------- Previous post was at 08:22 PM ----------
Modems on Android devices is a wide domain.
Phones differ on many things, like:
* modem chipset
* modem firmware
* transport modem <-> AP
* modem protocol
* user-space integration (Android RIL)
First thing is the modem chipset. There are quite a few. For instance on
HTC phones, you'll have the ones included in the MSM or QSD SoCs (which
is quite unusual, modems aren't often part of the SoC) IIRC.
On other devices, it'll be a separate chip connected to the SoC via
various transport methods.
I know better the case of recent Samsung phones, like Nexus S, Galaxy S,
Galaxy Tab (first gen), Galaxy S2, etc.
There, you have the modem, usually an intel x-gold 6xx, that is wired to
the SoC. So transport is done via serial line and/or some dedicated RAM
memory (not from the main sticks).
Even though a phone can have the same modem wired (at hardware level)
the same way, the kernel drivers can be different. That's the case of
nexus s and galaxy s. On the first one, modem Rx/Tx with AP is done via
ioctls while on galaxy s it's done via a PHONET network interface
(svnet0). SO it's not (and particularly on Samsung phones) only a serial
interface you can open with screen: you need to understand how it's done
and write dedicated software to reproduce this (cf. the code on
libsamsung-ipc/devices/ that is device-specific).
So once you have transport set up, you need to know about the protocol
the modem speaks. This depends on the firmware the modem is running.
I know that the modem used in Nexus S is also used in some iPhone (4G
IIRC) but it has a different firmware and so speaks a different
protocol. I suspect it to be AT on the iPhone while Nexus S speaks a
samsung-specific modem protocol. They invented that protocol and
rewritten the modem firmware to use it instead of AT or anything else.
This protocol is usually called "Samsung IPC Protocol" and we have a
free implementation of it in libsamsung-ipc and samsung-ril.
On the Nokia N900, transport is also a PHONET socket and the protocol is
neither AT nor Samsung IPC but some protocol made by nokia and
implemented in ofono.
So you have exemples of different transport methods and modem protocols.
I could give you more exemples.
Of course, on Android, you need to have the user-space programs (the RIL
mainly) to match both the transport scheme and the modem protocol to
have anything working.
> Please have a look at our XDA-forum thread:
>
> "How to talk to the Modem with AT commands":
> http://forum.xda-developers.com/showthread.php?t=1471241
Apparently you were able to contact the modem with some AT commands.
Either the modem has an AT mode that can run along with IPC (would
surprise me, but why not), but it may very well be uncompleted and is
anyway not used at all in official binaries, either this is Android
emulating and AT device while sending back stuff from and to the RIL,
either this is not the modem.
Anyway I can tell you for sure that this is absolutely not the way to
talk to the modem properly. The correct way is to use the IPC protocol
and appropriate transport handling (which is way more complex than only
opening a serial line).
I just started the work on galaxy s2, I'll soon have done the transport
layer and we already know the protocol.
PaulKocialkowski said:
..Anyway I can tell you for sure that this is absolutely not the way to
talk to the modem properly. The correct way is to use the IPC protocol
and appropriate transport handling (which is way more complex than only
opening a serial line).
I just started the work on galaxy s2, I'll soon have done the transport
layer and we already know the protocol.
Click to expand...
Click to collapse
So no way to talk with the modem in Nexus S? Also if I use the REPLICANT rom?
Thanks.
alextreme said:
So no way to talk with the modem in Nexus S? Also if I use the REPLICANT rom?
Thanks.
Click to expand...
Click to collapse
Oh Nexus S status is very good (actually the best). That's the device we initally created libsamsung-ipc for (before, it was for samsung H1 and wasn't called libsamsung-ipc).
State of the modem using libsamsung-ipc and samsung-ril is at: redmine.replicant.us/projects/replicant/wiki/SamsungModems
basically, we have calls, sms, network registration and much more. Data is working but it's unclean on the code and needs more work. Note that I'm the only active dev on samsung-ril, and we're 2 on libsamsung-ipc. I'm also the one who added support for galaxy s and galaxy tab devices.
So in Nexus S, you can talk with the modem very easily, using libsamsung-ipc (which is a lib, so you need to use a binary, like modemctrl that comes with libsamsung-ipc).
Also, note that the SHR GNU/Linux distribution supports Nexus S as well and uses libsamung-ipc.
PaulKocialkowski said:
I am the Replicant developer who worked on Nexus S port and also did the work on aries (galaxy s, galaxy tab) devices and wrote a big part of the free RIL. ... I just started the work on galaxy s2, I'll soon have done the transport layer and we already know the protocol.
Click to expand...
Click to collapse
Hi Paul!
Thank you very much for your important contribution,
which really helped sort out, clarify and confirm many things!
I have just prepared a long response, but while writing it, more
fog has cleared and I will just go straight to my questions.
The rest (which is now less relevant) will be posted later as
a reference to others following this thread.
So my Questions to you at this point are:
Given the above pictures of the various abstraction layers,
how/where does the PHONET network interface fit in?
.
How does the "Samsung IPC Protocol" fit into this picture, regarding the translation and transmission of external terminal AT commands and their interpretation. [Perhaps you have link to a good/easy explanation of this protcol?]
.
How could we use this, to send ATC's from a local terminal?
I guess the ultimate reason for wanting to do this, is to be able to get closer to the radio-interface-layer, and thus be able to get access to those radio parameters, not normally available to applications via the limited Java API.
.
Alternatively, how would you propose a better way to obtain the various low-level modem variables such as the ones shown here? (Freesmartphone.org)
.
From the (poor) OMAPedia RIL-layer picture and the GT-I9100 block-diagram, it seem that there might perhaps be other channels available to communicate with the BP/Modem. (I.e. Through the UART, GPIO, McSPI?) Any ideas on how/if this could be done?
.
How could we build our own RIL(s) with minimal effort and test it?
.
For example, here is a copy of this, which is an example how to build Replicant RIL and then replace the local rild from command line to test with. Would be great to be able to do the same on the SGS2...without having to flash new ROMs.
.
How does the Replicant "libsamsung-ipc" differ from that used in the "Project-Vodoo: samsung_modemctl" ?
That was a bunch...
However, I would be happy to help contribute to Replicant if possible,
although you should keep in mind that I am not a professional
programmer in any way.
Here is the direct link to Replicant's Samsung RIL status page:
http://redmine.replicant.us/projects/replicant/wiki/SamsungModems
Recap of recent results
After the last post by Paul, things have become more clear. The following are the results I got up until then.
On the first one [Nexus S], modem Rx/Tx with AP is done via
ioctls while on Galaxy S it's done via a PHONET network interface
(svnet0). SO it's not (and particularly on Samsung phones) only a serial
interface you can open with screen: you need to understand how it's done
and write dedicated software to reproduce this...
Click to expand...
Click to collapse
The problem is to understand why I can communicate with ATC's from
outside (USB connected) terminal, but not from a local (on phone)
terminal, like for example /dev/ttyGS0. At this point I do understand that
the "SAMSUNG Mobile USB Modem" interface, together with ADB drivers,
provides some kind of (USB to HCI-socket to Modem) protocol converter,
and probably speaks directly to RIL and not the CP or Modem. We now
know that this is the Proprietary protocol called "Samsung IPC Protocol".
But if this is the case I thought I should still be able to find (and intercept)
whatever internal sockets or protocols used, to be able to establish and
send ATC's to the modem. But so far I have only been able to do the
following.
The setup:
Code:
[MY-PC] [RealTerm] <-- USB-cable --> [I9100]
Sending ATC's here is working as expected. I then tried to find the
devices/sockets/processes that handle this communication, and suddenly
I found myself in very murky waters. Trying to connect to the various local
devices on the phone, and not to sockets, as I do not know how to do that.
I had partial success, when I earlier tracked down /dev/ttyGS0 as having
something to do with the DataRouter. As I used nc to connect to
the ttyGS0 device during a RealTerm session, like this:
# nc -f /dev/ttyGS0
I could send characters to
RealTerm side, but the Modem never got anything. And when I typed on
RealTerm, only a few characters appeared on ttyGS0, but the modem did
respond normally. So I concluded that /dev/ttyGS0 is somehow used for
receiving modem responses, while some other protocol or device is used
for transmitting to modem. (This is now confirmed by the previous posts!)
How did I do this?
Unlike on other/older Android phones, the ATC's are not shown in logcat
under the tag "D/AT" but rather under "E/DataRouter"! So open another
window (adb shell) session and run: # logcat DataRouter:E *:S
Then open your (PC) terminal and send a few ATC's.
When sending an "AT"command, they will appear as:
Code:
E/DataRouter( 2585): After the usb select
E/DataRouter( 2585): Before checking the modem suspend state
E/DataRouter( 2585): PDP is resumed now
E/DataRouter( 2585): After checking the modem suspend state
E/DataRouter( 2585): Path set is [B][COLOR=Black]DATA_PATH_CHAR_MODEM[/COLOR][/B]
E/DataRouter( 2585): Send [1] bytes to SMD. message:A
E/DataRouter( 2585): Sending data to SMD: Len = [1]
E/DataRouter( 2585): buffer = [A]
E/DataRouter( 2585): Wrote 1 chars to EXTERNAL PORT [B][COLOR=Red]fd=17 ch = 41[/COLOR][/B]
E/DataRouter( 2585): Before the usb select
E/DataRouter( 2585): After the Modem Read select
E/DataRouter( 2585): Read 1 chars from SMD Modem file fd = 17
E/DataRouter( 2585): buf = A
E/DataRouter( 2585): Wrote 1 chars to USB PORT fd=29
E/DataRouter( 2585): buf=A
E/DataRouter( 2585): Before the Modem Read select
E/DataRouter( 2585): After the usb select
E/DataRouter( 2585): Before checking the modem suspend state
E/DataRouter( 2585): PDP is resumed now
E/DataRouter( 2585): After checking the modem suspend state
E/DataRouter( 2585): Path set is DATA_PATH_CHAR_MODEM
E/DataRouter( 2585): Send [1] bytes to SMD. message:T
E/DataRouter( 2585): Sending data to SMD: Len = [1]
E/DataRouter( 2585): buffer = [T]
But I didn't know exactly what to make from this, for example;
a) What is the "ch = 41" specification? It is just the ASCII of an "A" sent to
a device/file called 17. But when writing, it is called "EXTERNAL PORT"
while on reading, it's from "SMD Modem file"...
b) What is the DATA_PATH_CHAR_MODEM variable? I cannot find any
reference to this anywhere! I then found the devices and sockets by
identifying the file handles (fd) in the (datarouter) process directory:
Code:
[B]# busybox ls -al --color=never /proc/2585/fd[/B]
fd=17 --> socket:[1904]
fd=29 --> /dev/ttyGS0
NOTE: I prefer to always use the busybox binaries, as I no longer trust
the Samsung ones to give the complete/proper information...
Given the more recent information from previous posts, I decided to look for svnet.
Code:
[B]# find / -iname "*svnet*"[/B]
/proc/sys/net/ipv4/neigh/svnet0
/proc/sys/net/ipv4/conf/svnet0
/proc/sys/net/ipv6/neigh/svnet0
/proc/sys/net/ipv6/conf/svnet0
...
/proc/[B][COLOR=SeaGreen]<process-id>[/COLOR][/B]/net/dev_snmp6/svnet0
...
/sys/devices/virtual/net/svnet0
/sys/bus/usb/drivers/cdc_svnet
/sys/class/net/svnet0
[B]
# ls -l /sys/devices/virtual/net[/B]
drwxr-xr-x root root 2012-02-03 05:56 lo
drwxr-xr-x root root 2012-02-02 12:34 svnet0
drwxr-xr-x root root 2012-02-02 12:34 sit0
drwxr-xr-x root root 2012-02-02 17:21 pdp0
These are all interesting and relevant , but I have no idea what
they all do... But /sys/bus/usb/drivers/cdc_svnet are all linked to
the HCI-USB devices under: /sys/devices/platform/s5p-ehci/usb1/1-2
and contain 4 of each of:
- "CDC Communication Interface"
- "CDC Data Interface"
PaulKocialkowski said:
Oh Nexus S status is very good (actually the best). That's the device we initally created libsamsung-ipc for (before, it was for samsung H1 and wasn't called libsamsung-ipc).
State of the modem using libsamsung-ipc and samsung-ril is at: redmine.replicant.us/projects/replicant/wiki/SamsungModems
basically, we have calls, sms, network registration and much more. Data is working but it's unclean on the code and needs more work. Note that I'm the only active dev on samsung-ril, and we're 2 on libsamsung-ipc. I'm also the one who added support for galaxy s and galaxy tab devices.
So in Nexus S, you can talk with the modem very easily, using libsamsung-ipc (which is a lib, so you need to use a binary, like modemctrl that comes with libsamsung-ipc).
Also, note that the SHR GNU/Linux distribution supports Nexus S as well and uses libsamung-ipc.
Click to expand...
Click to collapse
Okay but I would like to send AT Commands from Android terminal to the modem or from an APP in Android. Can I find using REPLICANT ROM the folder /dev/smd0?
I found this an interesting read. http://download.maritex.com.pl/pdfs/wi/GSM-TM2.pdf It has a lot of information in it.
AdamOutler said:
I found this an interesting read. ... It has a lot of information in it.
Click to expand...
Click to collapse
Sorry, but I just can't see how it is relevant. Did I miss something? It's just another GSM module without HW specs as usual... Thanks anyway.
E:V:A said:
Sorry, but I just can't see how it is relevant. Did I miss something? It's just another GSM module without HW specs as usual... Thanks anyway.
Click to expand...
Click to collapse
It has AT command descriptions which may assist in adding more descriptions to the first page. I noticed alot of yours were incomplete, so I posted that.
AdamOutler said:
It has AT command descriptions which may assist in adding more descriptions to the first page. I noticed alot of yours were incomplete, so I posted that.
Click to expand...
Click to collapse
Ahh, yes. I was just updating the AT+Xzzzz sets form various sources. (The best one by far was the Google available: "AMOD HSPA Modules_AT_Command Specification".) I had to move the list to post #3. Now there are only a very few missing. The others I did not bother to re-explain/merge with the already known and "standard" ones...
There are a lot of implementations of the AT set. There are official documents with all the standard commands. Take a look at wiki.openmoko.org page: Hardware:AT_Commands (links to ETSI and 3GPP documents).
---------- Post added at 09:15 PM ---------- Previous post was at 08:41 PM ----------
IIRC, there is an UART debug line that can be used to talk to the modem directly. On Nexus S, the ttyFIQ0 node was related to UART. Maybe you can route the modem to ttyFIQ0 by dealing with /sys/class/sec/uart_switch/UART_SEL/value
Important fact: note this on Galaxy S2 init.rc:
chown radio system /sys/class/sec/uart_switch/UART_SEL/value
Really try to look at that sys node and you'll perhaps succeed to get it (modem UART line) routed on ttyFIQ0 on the device.
Also, look at the FSA something component in the kernel sources: it's highly related to the UART line. It was FSA9480 on Nexus S. Look at NexusSBootloader#Serial-Console on Replicant Redmine wiki to see how we used it.
I seriously doubt there is any kind of protocol converter that converts Samsung IPC data to AT commands on this line. In my opinion the line you get is most probably the modem debug UART line.
It looks like this:
Modem <-> UART line <-> FSA9480 <-> USB <-> Host PC
|<-> kernel driver <-> RIL <-> Android framework
And the idea would be to redirect the modem uart line to ttyFIQ0. I don't know if you have to do the routing via the FSA component. I know someone who perhaps knows better about that.
---------- Post added at 09:21 PM ---------- Previous post was at 09:15 PM ----------
The logs with DataRouter are really interesting. These are not part of the RIL (I checked with strings) but there is definitely something *software* between the modem and your terminal on PC.

Attempting to recover data from old DNA that will not power on.

Hi guys,
I'm trying to get my old DNA hooked up to my PC to recover a couple of file. The issue that I'm having at the moment is that I can't seem to get it to turn on. I've tried charging it with both a wall and wireless charging and neither one gives me any lights on the device at all. No orange power light, no red blinking error lights, just nothing. I've tried to pull it apart and remove and reseat the power ribbon, but that did nothing for me either. When I plug it into the PC it gives me some noises like it recognizes the device, but it doesn't map the drive like I would hope. To compound the issue further, I had issues with the power button long before I stopped using the device, so I'm not sure if when I'm holding it down it's actually doing anything. Below is the info I'm able to obtain from the device when it's plugged into the PC. Any ideas on how I could use this to perform a back up? It looks to me like it's trying to connect via serial, but not sure if this is beneficial or detrimental, or just wrong.
HTML isn't work, so lets try a list I suppose.
Device Name: QHSUSB_DLOAD
Description: RELINK HS-USB QDLoader 9008
Device Type: Vendor Specific
Connected: Yes
Safe to Unplug: Yes
Disabled: No
USB Hub: No
Drive Letter: COM4
Serial Number:
Created Date: 9/12/2016 2:12:36 PM
Last Plug/Unplug Date: 9/12/2016 2:42:39 PM
VedorID: 05c6
ProductID: 9008
Firmware Revision: 0.00
USB Class: ff
USB SubClass: ff
USB Protocol: ff
Service Name: cmnxusbser
Service Description: Mobile Connector USB Device for Legacy Serial Communication LCT2053s 20140303
Driver Filename: cmnxusbser.sys
Device Class: Ports
Device MFG: Mobile Connector
Power: 2 mA
USB Version: 2.00
Driver Description: RELINK HS-USB QDLoader 9008
Driver Version: 2.1.0.3
Driver InfSection: CMNSportInstall00
Driver InfPath: oem89.inf
Instance ID: USB\VID_05C6&PID_9008\5&3acdd96d&0&1
Capabilities: SurpriseRemovalOK
HTML:
<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 3.2 Final//EN">
<html><head><title>USB Devices List</title></head>
<body>
<h3>USB Devices List</h3>
<br><h4>link to nirsoft was here, XDA won't let it post though.
<th>Device Name
<th>Description
<th>Device Type
<th>Connected
<th>Safe To Unplug
<th>Disabled
<th>USB Hub
<th>Drive Letter
<th>Serial Number
<th>Created Date
<th>Last Plug/Unplug Date
<th>VendorID
<th>ProductID
<th>Firmware Revision
<th>USB Class
<th>USB SubClass
<th>USB Protocol
<th>Hub / Port
<th>Computer Name
<th>Vendor Name
<th>Product Name
<th>ParentId Prefix
<th>Service Name
<th>Service Description
<th>Driver Filename
<th>Device Class
<th>Device Mfg
<th>Power
<th>USB Version
<th>Driver Description
<th>Driver Version
<th>Driver InfSection
<th>Driver InfPath
<th>Instance ID
<th>Capabilities
<tr><td bgcolor=#FFFFF0 nowrap>QHSUSB_DLOAD<td bgcolor=#FFFEF0 nowrap>RELINK HS-USB QDLoader 9008<td bgcolor=#FFFDF0 nowrap>Vendor Specific<td bgcolor=#FFFCF0 nowrap>Yes<td bgcolor=#FFFBF0 nowrap>Yes<td bgcolor=#FFFAF0 nowrap>No<td bgcolor=#FFF9F0 nowrap>No<td bgcolor=#FFF8F0 nowrap>COM4<td bgcolor=#FFF7F0 nowrap> <td bgcolor=#FFF7F0 nowrap>9/12/2016 2:12:36 PM<td bgcolor=#FFF6F0 nowrap>9/12/2016 2:42:39 PM<td bgcolor=#FFF5F0 nowrap>05c6<td bgcolor=#FFF4F0 nowrap>9008<td bgcolor=#FFF3F0 nowrap>0.00<td bgcolor=#FFF2F0 nowrap>ff<td bgcolor=#FFF1F0 nowrap>ff<td bgcolor=#FFF0F0 nowrap>ff<td bgcolor=#FFF0F0 nowrap> <td bgcolor=#FEF0F0 nowrap> <td bgcolor=#FDF0F1 nowrap> <td bgcolor=#FCF0F2 nowrap> <td bgcolor=#FBF0F3 nowrap> <td bgcolor=#FAF0F4 nowrap>cmnxusbser<td bgcolor=#F9F0F5 nowrap>Mobile Connector USB Device for Legacy Serial Communication LCT2053s 20140303<td bgcolor=#F8F0F6 nowrap>cmnxusbser.sys<td bgcolor=#F7F0F7 nowrap>Ports<td bgcolor=#F7F0F7 nowrap>Mobile Connector<td bgcolor=#F6F0F8 nowrap>2 mA<td bgcolor=#F5F0F9 nowrap>2.00<td bgcolor=#F4F0FA nowrap>RELINK HS-USB QDLoader 9008<td bgcolor=#F3F0FB nowrap>2.1.0.3<td bgcolor=#F2F0FC nowrap>CMNSportInstall00<td bgcolor=#F1F0FD nowrap>oem89.inf<td bgcolor=#F0F0FE nowrap>USB\VID_05C6&PID_9008\5&3acdd96d&0&1<td bgcolor=#F0F0FF nowrap>SurpriseRemovalOK
</table>
</body></html>
Any Help is greatly appreciated.

Fixed fastboot issue of legacy ZTE Blade V880 on Win10

First of all, as we all know, ZTE Blade V880 is an ancient phone. I did this just for fun.
My laptop is a 4th gen Intel platform (haswell), which has both EHCI and xHCI.
After plugging my Blade into the laptop, I found that fastboot cannot function. If it's plugged into the USB3.0 port, the device manager complained "code 10" (it was recognised as "Android Bootloader Interface" made by "Marshall London Device"), while it's plugged into the USB2.0 port, the error code was "code 43", with a message of "enumeration of BOS descriptor failed". (in this case it's just cataloged into abnormal USB device, lol)
After some googling (thanks to the code 43 actually!), I found that a registry hack of SkipBOSDescriptorQuery works. However, ironically, this fix only works on USB3.0 ports, which didn't throw "code 43" at all.
Steps:
1. Plug the phone into the USB3.0 port
2. Open the device manager, find out the hardware ID (vendor id and product id, aka VID and PID). For my Blade it was VID_18D1 PID_D00D REV_0100
3. Open regedit, locate to HKEY_LOCAL_MACHINE\SYSTEM\CurrentControlSet\Control\usbflags\18D1D00D0100 (see, it's [VID][PID][REV])
4. Create a DWORD value named "SkipBOSDescriptorQuery" and then change its value to 1
5. Done, just unplug and replug the USB cable once again, then it should work.

Question Bootloop after C10 update

Hey,
I've recently updated my Nord 2 from A21 to C10. Phone was unlocked and rooted, so after having reflashed the original boot.img, I forced the installation of the official OTA through TWRP. I had to set ro.commonsoft.ota=OP515BL1 to make it work. After the installation, TWRP failed to mount /system, but that didn't surprised me. I checked that the boot partition has been well flashed.
Now every time I try to power on the phone, it directly tries to run into recovery mode. However it fails and start again and again...
Maybe the system tries to install the OTA using the original recovery, which of course fails, and because of an unknown reason, it doesn't reboot to system.
Because of the last update, fastboot is not accessible anymore using vol -, and BROM mode is not accessible using vol + / vol -.
I tried to crash the preloader using mtkclient but it didn't work.
I tried to use META mode to switch to fastboot, but preloader only answers "READY" (instead of "READYTOOBTSAF"), and nothing changes.
I try to reverse engineer preloader and lk but it's something new for me. META mode code is still present in the preloader, so I don't understand what's wrong with it. Maybe disabled by default on USB...
Does anyone has a solution to boot into BROM mode or make META mode work ?
Or maybe I could find DA authentication files somewhere ?
@Petitoto can you share a bit about how you got the meta command running?
I'm in a similar situation with a Nord 2T. While mtkclient can get some info out of the preloader, meta never seems to connect.
Code:
mtk gettargetconfig
Preloader - Status: Waiting for PreLoader VCOM, please connect mobile
Port - Device detected :)
Preloader - CPU: MT6893(Dimensity 1200)
Preloader - HW version: 0x0
Preloader - WDT: 0x10007000
Preloader - Uart: 0x11002000
Preloader - Brom payload addr: 0x100a00
Preloader - DA payload addr: 0x201000
Preloader - CQ_DMA addr: 0x10212000
Preloader - Var1: 0xa
Preloader - Disabling Watchdog...
Preloader - HW code: 0x950
Preloader - Target config: 0x5
Preloader - SBC enabled: True
Preloader - SLA enabled: False
Preloader - DAA enabled: True
Preloader - SWJTAG enabled: True
Preloader - EPP_PARAM at 0x600 after EMMC_BOOT/SDMMC_BOOT: False
Preloader - Root cert required: False
Preloader - Mem read auth: False
Preloader - Mem write auth: False
Preloader - Cmd 0xC8 blocked: False
Preloader - Get Target info
Preloader - HW subcode: 0x8a00
Preloader - HW Ver: 0xca00
Preloader - SW Ver: 0x0
Main - Getting target info...
Preloader - Target config: 0x5
Preloader - SBC enabled: True
Preloader - SLA enabled: False
Preloader - DAA enabled: True
Preloader - SWJTAG enabled: True
Preloader - EPP_PARAM at 0x600 after EMMC_BOOT/SDMMC_BOOT: False
Preloader - Root cert required: False
Preloader - Mem read auth: False
Preloader - Mem write auth: False
Preloader - Cmd 0xC8 blocked: False
Code:
mtk meta FASTBOOT
META - Status: Waiting for PreLoader VCOM, please connect mobile
META - Hint:
Power off the phone before connecting.
For preloader mode, don't press any hw button and connect usb.
...........
META - Hint:
Power off the phone before connecting.
For preloader mode, don't press any hw button and connect usb.
...........
META - Hint:
Power off the phone before connecting.
For preloader mode, don't press any hw button and connect usb.
Hey @Beanow,
I have the same gettargetconfig output, which indicates that the phone is not in BROM mode but stuck in preloader. Trying to interact with the preloader always lead to error because of the DAA (DAA_SIG_VERIFY_FAILED for example).
I have the same issue with mtkclient and meta mode. You can use the following modified mtk-bootseq.py:
py mtk-bootseq.py FASTBOOT COMXX (or python3 mtk-bootseq.py FASTBOOT /dev/ttyACMXX on linux).
Python:
import sys
import time
from serial import Serial
BOOTSEQ = bytes(sys.argv[1], "ascii")
DEVICE = sys.argv[2]
CONFIRM = b"READY" + BOOTSEQ[::-1]
while True:
try:
s = Serial(DEVICE, 115200, timeout=0.1)
print(".\n[+] Device detected")
break
except OSError as e:
sys.stdout.write("."); sys.stdout.flush()
time.sleep(0.1)
print("<-", s.read(256))
def send(bytes):
s.write(bytes)
print("->", str(bytes))
resp = s.read(256)
print("<-", str(resp))
return resp
resp = b''
while resp != CONFIRM:
resp = send(BOOTSEQ)
print("[+] Boot sequence sent")
On another device, it works and I get:
Code:
...............................
[+] Device detected
<- b'READYREADYREADYREADYREADY'
-> b'FASTBOOT'
<- b'READYTOOBTSAF'
[+] Boot sequence sent
However, on my Nord 2, I get:
Code:
...........................................
[+] Device detected
<- b'READYREADYREADYREADYREADY'
-> b'FASTBOOT'
<- b'READY'
-> b'FASTBOOT'
<- b''
-> b'FASTBOOT'
<- b''
Then the next s.write() is hanging.
I get the same result for any other boot mode. However, the code is still present in the preloader.
I unfolded my phone to try to find a test point. I tried all golden points but I only found:
- a point which loads preloader (and not BROM...) in the same way vol + / - do (in red in the picture)
- a point which boots the phone but without Android and OnePlus pictures (what's that ??) (in green)
{
"lightbox_close": "Close",
"lightbox_next": "Next",
"lightbox_previous": "Previous",
"lightbox_error": "The requested content cannot be loaded. Please try again later.",
"lightbox_start_slideshow": "Start slideshow",
"lightbox_stop_slideshow": "Stop slideshow",
"lightbox_full_screen": "Full screen",
"lightbox_thumbnails": "Thumbnails",
"lightbox_download": "Download",
"lightbox_share": "Share",
"lightbox_zoom": "Zoom",
"lightbox_new_window": "New window",
"lightbox_toggle_sidebar": "Toggle sidebar"
}
I don't know how test point is handled: if that's the role of preloader, it may have been disabled by the update (as the BROM and fastboot). We may need to find the DAT0 point of the eMMC to short it and prevent the BROM to find the preloader, making it to go in EDL mode. However, I think that this point isn't exposed, and I won't disassemble my phone further without beeing sure of success...
Thank you so much for the work so far!
Unfortunately I get no response at all on the Nord 2T.
Code:
.......................................
[+] Device detected
<- b''
-> b'FASTBOOT'
<- b''
-> b'FASTBOOT'
Traceback (most recent call last):
File "/media/droid-work/mtkclient/mtk-bootseq.py", line 31, in <module>
resp = send(BOOTSEQ)
File "/media/droid-work/mtkclient/mtk-bootseq.py", line 24, in send
resp = s.read(256)
File "/usr/lib/python3.10/site-packages/pyserial-3.5-py3.10.egg/serial/serialposix.py", line 595, in read
raise SerialException(
serial.serialutil.SerialException: device reports readiness to read but returned no data (device disconnected or multiple access on port?)
How did you connect to the device that you're getting these responses?
In my case, I need to use vol+, vol- and power, like mtkclient, or the ttyACM0 won't exist.
(I've got udevadm monitor up, watching for the usb/tty to be added)
Indeed, you need to run into preloader using vol +, vol -
Maybe a driver / python module issue. I've got similar issues on my linux. Try on windows or try to reinstall drivers.
It should work at least for the first answer. Else it means that your preloader doesn't send any data, which is not the case as mtkclient works.
I also tried a different baud, because a pl_lk log from oplusreserve2 partition suggested it may be used. No luck though. Note, this was a very old log I saved early on. Definitely not reflective of latest Nord 2T update.
Code:
[PLFM] boot_tag size = 0x0
BOOT_TAG_VERSION: 0
BOOT_REASON: 0
BOOT_MODE: 0
META_COM TYPE: 0
META_COM ID: 0
META_COM PORT: 285220864
META LOG DISABLE: 0
FAST META GPIO: 5906
LOG_COM PORT: 285220864
LOG_COM BAUD: 921600
LOG_COM EN: 1
LOG_COM SWITCH: 0
MEM_NUM: 2
MEM_SIZE: 0xAE7B
MEM_SIZE: 0xAE8D
I guess I'll try windows then
Code:
python mtk-bootseq.py FASTBOOT COM4
...................................................................................................................................
[+] Device detected
<- b''
-> b'FASTBOOT'
<- b''
-> b'FASTBOOT'
<- b''
-> b'FASTBOOT'
<- b''
Windows looks to behave similar. Though windows wouldn't take the MTK VCOM driver, so this is win10 default serial, in a VM over USB passthrough.
So, same result not in a VM. Though specifically with powershell I got the same output as you did.
Code:
...........................................
[+] Device detected
<- b'READYREADYREADYREADYREADY'
-> b'FASTBOOT'
<- b'READY'
-> b'FASTBOOT'
<- b''
-> b'FASTBOOT'
<- b''
This is really a helpfull post for us. I've already a oneplus nord 2 phn,from this post i know the more information about this phn.
Thank you so much.
@Beanow So same results...
It's weird that it doesn't work on Linux. Maybe an issue related to pyserial or connection settings.
What's preventing the device to be detected by mtkclient is line 54 in mtkclient/Library/meta.py: and cdc.pid == 0x2000 should be removed. So you can try to switch to fastboot using mtkclient on Linux, but with my Nord2 I get the same results as mtk-bootseq.py on Windows
Petitoto said:
@Beanow So same results...
It's weird that it doesn't work on Linux. Maybe an issue related to pyserial or connection settings.
What's preventing the device to be detected by mtkclient is line 54 in mtkclient/Library/meta.py: and cdc.pid == 0x2000 should be removed. So you can try to switch to fastboot using mtkclient on Linux, but with my Nord2 I get the same results as mtk-bootseq.py on Windows
Click to expand...
Click to collapse
Thanks for this. No need to switch to windows anymore, to use mtk client.
Petitoto said:
It's weird that it doesn't work on Linux. Maybe an issue related to pyserial or connection settings.
Click to expand...
Click to collapse
Is it 'not working' though? It's also weird to me that I had the same output as Linux using Windows' cmd, while there was READY spam in powershell. Same drivers, same python, same libraries, but different output?
I suspect that it might be a timing issue. Maybe the serial console doesn't care about or wait for input at all. And just spams READY a few times. It would be a matter of how fast the connection is established.
Perhaps as well there's a different subsystem sending commands to the 'meta' environment and the READY spam means it's processing those commands rather than whatever we're sending.
All theories, but I would find it really hard to believe there's a problem with Linux drivers / libraries for something as basic as a UART/serial console over USB.
Petitoto said:
@Beanow So same results...
It's weird that it doesn't work on Linux. Maybe an issue related to pyserial or connection settings.
What's preventing the device to be detected by mtkclient is line 54 in mtkclient/Library/meta.py: and cdc.pid == 0x2000 should be removed. So you can try to switch to fastboot using mtkclient on Linux, but with my Nord2 I get the same results as mtk-bootseq.py on Windows
Click to expand...
Click to collapse
I also suspected this PID check and tried to log the else cases, but never reaches those for me.
So removing the check didn't help for mtkclients' meta commands.
Is it 'not working' though? It's also weird to me that I had the same output as Linux using Windows' cmd, while there was READY spam in powershell. Same drivers, same python, same libraries, but different output?
Click to expand...
Click to collapse
Differents results when using cmd and powershell? There is really no reason for that. Unless it's not the same Python environment, with different pyserial for eg. I have issues to run mtk-bootseq on Linux, but always the same output on Windows' cmd.
I suspect that it might be a timing issue. Maybe the serial console doesn't care about or wait for input at all. And just spams READY a few times. It would be a matter of how fast the connection is established.
Click to expand...
Click to collapse
Maybe. On linux, I can get different results depending on baud rate, timeout (and luck?). If there is an issue related to the connection, it might explain why the preloader doesn't answer as expected. But as other commands (like mtk gettargetconfig, but also manually handshaking connections and gathering informations in pyserial) work well, I tend to think it's just disabled.
Perhaps as well there's a different subsystem sending commands to the 'meta' environment and the READY spam means it's processing those commands rather than whatever we're sending.
Click to expand...
Click to collapse
I don't really know how it works. The code is still present in the preloader. However this functionnality is not always enabled. Maybe reversing the preloader more or analysing the log you provided on Github might help to determine whether or not it is enabled. Moreover, even if we manage to switch to fastboot, if the bootloader has been fully disabled, we may face the issue of the preloader trying to run into a non existant fastboot. Maybe the FACTFACT mode may help to reset the device, but I don't really know a lot about this mode.
So removing the check didn't help for mtkclients' meta commands.
Click to expand...
Click to collapse
Once you removed this check, if you print the data sent by the preloader, you'll get the multiple "READY" like mtk-bootseq on Windows. Moreover, I can switch to fastboot using this command on another MTK device.
Dear Sir,
Do you have any method to recover my phone as the figure show?
Thank You

Help analyzing how to trigger demo mode on "LINE desk" smart speaker/display by Infomark

Hello. I am trying to modify the "LINE desk" smart speaker/display from the Korean company infomark.
The information I have researched is listed below. (It is in Japanese so please use Google Translate)
LINE clova desk - SmileTabLabo
スペック 型番 NL-V100JP 製造元 infomark CPU APQ8053 GPU Adreno 506 チップメーカー Qualcomm RAM 不明 ROM 16GB ディスプレイ tv...
wiki3.jp
adb goes into engineering mode and can be enabled, but it is blocked.
I found that I can get more debug items if I can enter demo mode as a result of reverse compiling. So I did some research and found that the /system/bin/keyevent program is responsible for monitoring key events and switching to demo mode.
This program performs a factory reset and a demo mode based on key input.
The factory reset is performed by pressing the mute key and the power button for a long time.
However, I do not know the key for the demo mode.
The following is the result of the reverse compilation, but the variable and function names are unknown and difficult to understand.
clova deskの/sysyem/bin/keyeventの逆コンパイル(binaryninja)
clova deskの/sysyem/bin/keyeventの逆コンパイル(binaryninja) - bin-keyevent.c
gist.github.com
Here are the variable and function names as best as I can.
clova deskの/sysyem/bin/keyeventの逆コンパイル(binaryninja)
clova deskの/sysyem/bin/keyeventの逆コンパイル(binaryninja) - bin-keyevent.c
gist.github.com
EMMC dump:https://archive.org/details/if-s-70...-n-2-g-47-h-kmqe-60013-m-b-318-5883-a-869.-7z
Could you please help me to analyze under what circumstances the demo mode is triggered? Thank you in advance.

Categories

Resources