I have successfully used reverse USB tethering on a flipout. This method should be portable to other devices running the motorola android multi-device driver with usb0.
If you are comparing to any windows drivers, say that installed from the driver installer MSI when connecting a flipout and maybe other devices in 'portal' mode, the (windows) driver will be motousbnet. On linux, the driver is cdc_subset. However, this driver does not know how to bind to the motorola
1. Figure out the usb vendor id, product id, and interface class, interface subclass, and interface protocol of the networking interface. On the flipout, this is named the 'motorola networking interface'. On my device, it has these ids: 0x22b8, 0x41da, 0x02, 0x0a, 0x01. You can find these ids via exploring /sys/bus/usb on a linux system, or with the lsusb utility.
2. patch your cdc_subset driver to support the USB id and interface of the above device. You will need to inspect via lsusb or sysfs to setup a 'product' and 'driver info' structure in cdc_subset.c to select the correct interface and endpoints. The pertinent parts of my cdc_subset.c are as follows:
Code:
add to products
{
// Moto flipout usb
USB_DEVICE_AND_INTERFACE_INFO (0x22b8, 0x41da, 0x02, 0x0a, 0x01),
.driver_info = (unsigned long) &motousb_info,
},
add near other driver_infos:
static const struct driver_info motousb_info = {
.description = "Motorola USB endpoint",
.check_connect = always_connected,
.in=0x84, .out=0x03,
};
3. Doing such a mod and compiling yourself a new cdc_subset.ko, and installing that, will yield a usb driver that can talk to usb0 on your flipout. At this point, you just have to configure networking. I setup proxyarp on my LAN and usb0 interfaces, and set up some manual addresses and routes. Other options could be to add usb0 to a bridge, or do routing and DHCP, or routing + nat + DHCP. You'll probably need to netcfg rmnet0 down and setprop net.dns1 and net.rmnet0.dns1 your ips manually. Make sure you save your old dns. I'm not sure if that gets restored from carrier when you turn rmnet back on.
4. after all that, you should be online.
5. EDIT: all compiling and module installation steps noted above happen on the host PC, if that wasn't clear.
Work to follow:
use SL4A to automate usb0 bringup
interface with APNDroid to soft-down the 3g instead of nuking it the hard way. killing the radio process will get you back online, but thats effectively the same as resetting the baseband, so you'll need to re-unlock your SIM etc.
Thanks man! This is awesome. It worked on my Motorola Defy (same parameters) under Ubunutu.
Hi,
I thing this is what i am looking for, enable a motorola device (defy) to be a usb0 device with ubuntu so you can have an IP, and ssh easly with your droid (using vlc remote with usb cable). I realy appreciate this native feature with my old htc.
where is the cdc_subset.c ?
tkx
balek said:
Hi,
I thing this is what i am looking for, enable a motorola device (defy) to be a usb0 device with ubuntu so you can have an IP, and ssh easly with your droid (using vlc remote with usb cable). I realy appreciate this native feature with my old htc.
where is the cdc_subset.c ?
tkx
Click to expand...
Click to collapse
It's in the kernel source. -- You'll have to download the linux or kernel source package that matches the kernel you run on your ubuntu machine, modify your cdc_subset driver, rebuild it, and install it.
Learning things like the kernel build system and how to install a kernel module are exercises for the reader.
Good job! I'll try it once i get my Ubuntu installation up and running again ^_^
Defy and Debian USB network works partially...
Hello. The idea was good...
My config is:
- on one side: a Defy (CM7 1.0-RC1 Nightly build 2037, Gingerbread 2.3.4)
- on the other side: a Linux Debian (Squeeze , kernel 3.0.0-1-686-pae)
I patched the cdc_subset driver as proposed. I saw a little difference on the endpoints: lsusb -v reports 0x83 for 'in' endpoint and 0x2 (bulk) or 0x3 (interrupt) for 'out' endpoint. I tried all combinations and only 0x83/0x2 give a working ping between hosts. => Are the initial endpoints working (0x84/0x3) ?
See attached file for the complete listing, search 'SDX' to see where I patched.
When I plug the USB cable, the usb0 interface is brought up on linux automatically and that's perfect.
With a simple network configuration, ping works on both hosts.
.
So everything seems right.
I then tried to transfer a huge 100MB file to see the performance:
- scp from linux to defy => OK, ~5MB/s
- scp from defy to linux => FAILURE after a few MB transfered
In the second test, the connection is completely frozen and I see errors on both interfaces (ifconfig usb0, error packets). I repeated the test multiple times with alternate network configs, without wifi etc., and I could never transfer the file completely.
Can someone confirm me:
- that the transfer is working for him in both ways with huge files
- what is reported by "lsusb -v -d 22b8:41da" to see if my endpoints for a Defy are correct
I'm not sure, but maybe cdc_subset is not the right driver to patch ?
Or simply it's a bug in scp or sshd on Defy ! I should try with something else like ftp or http...
I keep working on this topic...Thx for any clue !
sdxmob said:
Hello. The idea was good...
My config is:
- on one side: a Defy (CM7 1.0-RC1 Nightly build 2037, Gingerbread 2.3.4)
- on the other side: a Linux Debian (Squeeze , kernel 3.0.0-1-686-pae)
I patched the cdc_subset driver as proposed. I saw a little difference on the endpoints: lsusb -v reports 0x83 for 'in' endpoint and 0x2 (bulk) or 0x3 (interrupt) for 'out' endpoint. I tried all combinations and only 0x83/0x2 give a working ping between hosts. => Are the initial endpoints working (0x84/0x3) ?
See attached file for the complete listing, search 'SDX' to see where I patched.
When I plug the USB cable, the usb0 interface is brought up on linux automatically and that's perfect.
With a simple network configuration, ping works on both hosts.
.
So everything seems right.
I then tried to transfer a huge 100MB file to see the performance:
- scp from linux to defy => OK, ~5MB/s
- scp from defy to linux => FAILURE after a few MB transfered
In the second test, the connection is completely frozen and I see errors on both interfaces (ifconfig usb0, error packets). I repeated the test multiple times with alternate network configs, without wifi etc., and I could never transfer the file completely.
Can someone confirm me:
- that the transfer is working for him in both ways with huge files
- what is reported by "lsusb -v -d 22b8:41da" to see if my endpoints for a Defy are correct
I'm not sure, but maybe cdc_subset is not the right driver to patch ?
Or simply it's a bug in scp or sshd on Defy ! I should try with something else like ftp or http...
I keep working on this topic...Thx for any clue !
Click to expand...
Click to collapse
Any news with defy ?
Right, I don't know what kind of sorcery my nexus 7 tablet is employing, but it simply isn't getting the ADB treatment.
I've tried installing Samsung drivers, Naked drivers, all the drivers, bleh, test mode- the whole kaboodle and nothing's working.
ADB isn't recognizing my nexus 7, and I have absolutely no idea why.
I thought maybe it'd have something to do with these specs, maybe?
OS: Windows 8 Pro x64
ROM: ParanoidAndroid 3.1 (Newest, formerly 2.54 but still same problem)
Recovery: TWRP
MTP and PTP are offered at connection. Debugging is available on Nexus 7, but computer seems entirely oblivious to its existence as an ADB device. Device Manager lists Nexus as 'Android ADB Composite Device' after I installed Google's SDK Drivers
Ask questions away
Thanks
A lot of users have luck by using toolkits that install the drivers for you. I simply used the drivers from the Asus website on my Win 8 x64 laptop.
Sent from my SGH-I777 using xda premium
korockinout13 said:
A lot of users have luck by using toolkits that install the drivers for you. I simply used the drivers from the Asus website on my Win 8 x64 laptop.
Sent from my SGH-I777 using xda premium
Click to expand...
Click to collapse
Yep, that's the problem:
I've used:
1) WugFresh drivers
2) ASUS drivers
3) SDK Drivers
4) Whatever else- drivers there are on those toolkits
Three phrases that should never be used on XDA are:
a) "Nothing's working"
b) "I've tried everything"
c) "It doesn't work"
Why? Because they don't really provide any useful details to a reader that might otherwise be able to help.
Look - You said that you observed "ADB Composite Interface" in you device manager, and yet you said NOTHING about whether Windows noted that the device was not working correctly.
At a minimum, that means that you DO (or did) have a driver successfully installed, and moreover, the device on the far end of the cable is properly communicating and asserting a VID/PID hardware identifier that selects the installed Windows driver that is supposed to handle that device. Otherwise you would see nothing or an unknown device in the device manager.
What your OP does not mention is what exactly the symptoms of "doesn't work" actually are: are you saying that "running the command 'adb devices' from the command line produces an 'offline' message"?
Also, you failed to mention whether you are trying to communicate via adb to the regular OS or the custom recovery. It makes a difference because most windows wingnuts end up installing TWO drivers for adb - the custom recoveries claim a completely different VID/PID device identifier than what is used by the OS, and the unmodified Asus/Google drivers don't claim the custom recovery VID/PID hardware ID.
One other thing to note: with jb4.2.2, if /default.prop has
ro.adb.secure=1
then you need to have the screen unlocked when you fire up adb on the PC so that you can accept the connection from the tablet side, otherwise it will report an "offline" device. (This only applies to the OS, not the recoveries. As I noted, you didn't' say which & I don't know what PA does in its ramdisk anyway.)
good luck
Hi. Simple solution for this. Uninstall all the nexus drivers you have and reboot your machine, then go here:
http://support.asus.com/Download.aspx?SLanguage=en&m=Nexus+7&p=28&s=2
download the driver software and reinstall. That should sort you out
Thanks for the response
Well, to clear things up...
I mean, the Nexus 7 says 'USB Debugging connected' when connected.
adb devices displays 'List of devices attached' as nothing, and adb reboot gives 'error: device not found'.
Hardware/PIDs for 'Android Composite ADB Interface', (comes up on Device Manager when Nexus 7 plugged in)
USB\VID_18D1&PID_4E42&REV_9999&MI_01
USB\VID_18D1&PID_4E42&MI_01
General Tab for ADB Interface properties says Device Type: Android Device, Status 'Is working properly'
Opening up recovery yields yet the same problem on ADB- nothing is found.
Plugging in my ZTE Skate with CM7= adb devices picks IT up perfectly and i can do whatever I want with it.
The result is exactly the same on my Windows 7 laptop. The adb I'm trying to communicate with is a Windows 8 x64 'Test Mode' System
MTP/PTP works fine. USB OTG with NTFS is a total failure and doesn't detect
I'm trying to communicate with the normal system OS. But both TWRP and OS are undetected by adb devices
Edit: I've never needed to 'accept' anything from the tablet side- that's odd.I've tried adding certain PIDs to the Google drivers .ini and unin/reinstalling the drivers in vain (I'm unfortunately not exactly sure what those PIDs should look like stuck in the .ini driver file anyway, sorry)
Edit 2: @BluDRed - just tried that again for good measure- still nothing.. thanks anyway
Edit 3: THIS GUIDE does not work > http://zacktutorials.blogspot.ca/2012/08/nexus7-android-development.html
tigrey said:
Hardware/PIDs for 'Android Composite ADB Interface', (comes up on Device Manager when Nexus 7 plugged in)
USB\VID_18D1&PID_4E42&REV_9999&MI_01
USB\VID_18D1&PID_4E42&MI_01
Click to expand...
Click to collapse
Last time I went through all the mode combinations was on 4.2.1 (see the VID/PID listing at the end of the first post in this thread); judging from that info the above sort of looks like ADB mode without either MTP or PTP turned on. Don't know if it is important or not, but I have noticed reports in here with slightly different results than mine - some folks saying "I couldn't get MTP to work unless ADB was turned off" ... my result was the exact opposite! But frankly, I don't remember anyone having the reverse problem where they couldn't get ADB to work and solved it by fooling with MTP/PTP toggling.
tigrey said:
Opening up recovery yields yet the same problem on ADB- nothing is found.
Click to expand...
Click to collapse
Both TWRP and CWM should show up at USB\VID_18D1&PID_D001. So the driver that loads for "adb" from the custom recovery will be different (or "unknown device") unless the .inf file in the driver install kit from Asus/Google claims this VID/PID pair... or you have a completely separate driver installed.
tigrey said:
MTP/PTP works fine.
Click to expand...
Click to collapse
This seems like a very important observation/clue. MTP seems to work extremely well on my Win 7 x64 box - transferring big files at something like 80-90 Mbits/sec! If your pair of devices is capable of those kinds of speeds, it certainly seems to rule out a scenario where the hardware link succeeds at low speed (and thus gets the driver properly set up), but then later screws up after the link transitions to high speed.
tigrey said:
Edit: I've never needed to 'accept' anything from the tablet side- that's odd.I've tried adding certain PIDs to the Google drivers .ini and unin/reinstalling the drivers in vain (I'm unfortunately not exactly sure what those PIDs should look like stuck in the .ini driver file anyway, sorry)
Click to expand...
Click to collapse
That security dialog is new in 4.2.2 stock. As I mentioned in my previous post, you might not notice it in a custom ROM (even if based on 4.2.2) if the ROM dev toggled off that adb security property.
Tell you what - typing detailed posts on my N7 is lame. I'll post this now, and then add some further comments using a real keyboard in a couple minutes...
OK, this isn't meant to be a prescription - more like a recounting of experiences to see if perhaps you get some further ideas.
When I first got my N7 in early January, I already had on my Win7 Pro x64 box the Google SDK, and (iirc) I had a variety of ADB/fastboot drivers installed for a different Android devices. (HTC and Samsung)
Fired it up, and of course no communication to the N7 with either adb or fastboot. So I updated the entire SDK and the Google driver, and now ADB & fastboot worked (with the N7's regular OS).
Rooted the device, installed a custom recovery, and - no communication with the custom recovery via ADB. WTF?
Well, it turns out that my prior Android experience had been with a custom recovery where the developer took pains to make sure that the VID/PID pair used by the custom recovery was the same as that used by the OS for ADB - so only a single "adb" driver was needed for both situations.
But that's not the case for either TWRP or CWM for the N7 - the PID is different than any values appearing in the .INF file for the Google SDK USB driver or the Asus USB drivers. That means that without modification the Google or Asus drivers simply will not work with ADB from the custom recovery.
I didn't know that at the time, so I punted and installed the XDA "Universal Naked" (and unsigned) driver - origin unknown. Ugh.
After seeing all the troubles that other people seemed to be having, and not being too happy about installing random unsigned drivers off of the internet, I decided I wanted to clean up this mess of a situation - even though it was working perfectly fine for me!
So I went and downloaded the Asus drivers (R06 2012-06-24).
Next, I hacked the .INF file "android_winusb.inf" in the Asus driver bundle.
Code:
$ diff android_winusb.inf.distro android_winusb.inf
30,41[b]d[/b]29
[color=red]< ;Google Nexus One
< %SingleAdbInterface% = USB_Install, USB\VID_18D1&PID_0D02
< %CompositeAdbInterface% = USB_Install, USB\VID_18D1&PID_0D02&MI_01
< %SingleAdbInterface% = USB_Install, USB\VID_18D1&PID_4E11
< %CompositeAdbInterface% = USB_Install, USB\VID_18D1&PID_4E12&MI_01
<
< ;Google Nexus S
< %SingleAdbInterface% = USB_Install, USB\VID_18D1&PID_4E21
< %CompositeAdbInterface% = USB_Install, USB\VID_18D1&PID_4E22&MI_01
< %SingleAdbInterface% = USB_Install, USB\VID_18D1&PID_4E23
< %CompositeAdbInterface% = USB_Install, USB\VID_18D1&PID_4E24&MI_01
<[/color]
47[b]a[/b]36
[color=green]> %CustomRecoveryAdbInterface% = USB_Install, USB\VID_18D1&PID_D001[/color]
51,62[b]d[/b]39
[color=red]< ;Google Nexus One
< %SingleAdbInterface% = USB_Install, USB\VID_18D1&PID_0D02
< %CompositeAdbInterface% = USB_Install, USB\VID_18D1&PID_0D02&MI_01
< %SingleAdbInterface% = USB_Install, USB\VID_18D1&PID_4E11
< %CompositeAdbInterface% = USB_Install, USB\VID_18D1&PID_4E12&MI_01
< ;Google Nexus S
< %SingleAdbInterface% = USB_Install, USB\VID_18D1&PID_4E21
< %CompositeAdbInterface% = USB_Install, USB\VID_18D1&PID_4E22&MI_01
< %SingleAdbInterface% = USB_Install, USB\VID_18D1&PID_4E23
< %CompositeAdbInterface% = USB_Install, USB\VID_18D1&PID_4E24&MI_01
<[/color]
68[b]a[/b]46
[color=green]> %CustomRecoveryAdbInterface% = USB_Install, USB\VID_18D1&PID_D001[/color]
130[b]a[/b]109
[color=green]> CustomRecoveryAdbInterface = "Custom Recovery ADB Interface"[/color]
The above might be a little hard to read, but basically I deleted all the lines pertaining to Nexus One (PIDs 0D02, 4E11, & 4E12) and Nexus S (PIDs 4E21, 4E22, 4E23, 4E24), and added to the Nexus 7 sections the line
Code:
%CustomRecoveryAdbInterface% = USB_Install, USB\VID_18D1&PID_D001
to both the [Google.NTx86] and [Google.NTamd64] sections of the .INF file
The deletions of the Nexus One and Nexus S were not necessary - if you want, they could be left in there. I wanted to be sure that this driver would ONLY be used with the Nexus 7 though.
Also - note the string "CustomRecoveryAdbInterface" - this needs to be defined in the [Strings] section at the end of the .INF file. It was shown above, but I'll show it again here:
Code:
CustomRecoveryAdbInterface = "Custom Recovery ADB Interface"
The reason I did it this way is because this is the string which will be displayed in the Windows device manager when this particular driver loads! If you want, you can customize this behavior - including putting your own name or other string in there - so that when the driver loads in Windows you will be 100% sure Windows is using the driver you intend!
For instance, I could have used
%MyFearsomeHackedDriver% = USB_Install, USB\VID_18D1&PID_D001
in the [Google.NTx86] and [Google.NTamd64] sections of the .INF file, and
MyFearsomeHackedDriver = "TWRP/CWM Recovery Using Asus Driver R06"
in the [Strings] section of the .INF file. Anyway, you get the idea. Change those strings to say whatever you want (but avoid using any special characters).
Important Note: I would avoid using Wordpad or any other editor which is likely to fool with line termination characters in the .INF file. - edit the .INF file using Notepad
OK, onward.
What I did next was to:
1) Disconnect my PC from the internet.
2) Disconnected N7 from the PC
3) Put "devmgr_show_nonpresent_devices=1" into the Windows Environment - system variables (search for devmgr_show_nonpresent_devices=1 if you don't know what it means. Computer->Properties->Advanced System Settings->Environment Variables)
4) Start up the device Manager, and then View->show hidden devices
#3 and #4 together will display every driver ever installed on your computer, even for devices which are not attached. (Devices which actually are attached will show up in bold, rather than washed-out colors)
Then what I did was - looking in all the usual places in the Device Manager - e.g.
"ADB Interface", or "Android Phone" or "Other Devices"
I laboriously inspected every driver's VID/PID pair one by one. For any that matched
VID_18D1&PID_4E40 - N7 bootloader
VID_18D1&PID_4E41 - ADB off + MTP on
VID_18D1&PID_4E42 - ADB on + MTP off (&REV_9999&MI_01) or MTP on (&REV_9999&MI_00)
VID_18D1&PID_4E43 - ADB off + PTP on
VID_18D1&PID_4E44 - ADB on + PTP on
VID_18D1&PID_D001 - Custom Recovery (either CWM or TWRP)
I not only removed them as the driver, but when presented with the option "do you want to also delete this driver", I clicked YES.
NOTE: You can skip over the section in the device manager labeled as "Portable Devices", as these pertain to MTP/PTP drivers. OR, depending on how you feel about them, you could also uninstall them - just don't say yes to the "do you want to also delete this driver" query. The idea is that we are trying to rid the machine of prior Asus/Google or other drivers matching the N7 - but not delete Microsoft drivers for MTP/PTP. If you uninstall them, they will get re-installed the next time the device starts up.
The reason for this is that Windows maintains a hidden database of every driver that has ever been installed on the machine, and includes with them the matching conditions that cause them to be loaded once they are installed - in particular, VID/PID USB hardware IDs. This is how Windows can re-instate an old driver as soon as you plug the hardware into the machine - even without asking you first!
After walking through all drivers that look like they might match (Note for instance you might have drivers for other Android Devices that you want to leave alone - they will show up with different VID/PID pairs however), and deleting ALL of them that match the above-listed Nexus 7 (and "Universal Naked Google VID/PID of VID_18D1&PID_D001), your machine should be expunged of old drivers.
The disconnection from the internet was to also make sure that Windows wouldn't automatically go out onto the internet and start downloading stuff. I wanted to be SURE that it only was capable of a manual driver install of my choosing.
So, I booted the N7 into the OS, made sure that ADB debugging was enabled, and plugged the N7 into my PC. I suppose it might have been even better to boot into the custom recovery and attach - if Windows installed a driver before it offered me a chance to manually install one, that would mean that I hadn't properly expunged matching drivers from the machine.
When given the option to install a driver, I pointed it at the folder with my (modded) Asus driver, and asked it to install.
Now the Asus driver is signed - and modifying the .INF file breaks the signing. So, in my case Windows 7 complained about the broken signature - but at least it let me over-ride it's complaints and install it anyway. Windows 8 is more fussy about this sort of thing I suppose - at a minimum you would need to be in Win 8 test mode when you do this; perhaps even worse.
Anyway - long story short is that it worked. No Google USB driver, no "Universal Naked Driver" - only a single hacked Asus driver for everything: fastboot and ADB (from both the OS and the custom recoveries - I've used it with both TWRP and CWM).
If you go through this procedure correctly, you should not need to re-connect to the Internet in order to install any drivers - everything you need should already be on the machine. If you want, before you re-attache to the internet, you can toggle on and off MTP/PTP, boot into the the OS and enable/disable ADB, boot into the custom recovery - and verify that all connections are satisfied with your "hacked" Asus driver plus any drivers previously on the machine (hopefully only for the MTP and PTP modes).
I don't know if this will work for you - it sounds like youve tried similar stuff (although perhaps were fuzzy about the .INF mangling). I hope this post provides you with some things to attempt.
As I said before - if you really can transmit lots of data at high speed (via MTP), that suggests that problem is not hardware, and this entire nightmare revolves around Windows drivers issues. TBH though, I would feel a whole lot better about saying this if you were using rooted stock instead of a dev ROM. In either event, you can certainly use TWRP or CWM - that would remove any question about "is it the ROM?".
Another way to validate that it is not hardware is to attempt the whole thing using Linux: boot a Linux "live" CD/DVD Distro on the PC, and cobble together a fastboot/adb executable (plus any required shared libs not present in the Linux distro) and speak to the N7 device using exactly the same PC hardware and cabling, but eliminating Windows temporarily. If it works, the problem has to be Windows.
Jeebus. To think that neither the Mac nor any Linux box need any driver at all for this crap - it really is amazing that "easy to use Windows" is the hardest platform to get this stupid sh!t working. The ADB and fastboot protocols used "on the wire" are incredibly, incredibly bare and simplistic.
anyway, I hope this helps somebody, even if the OP's troubles can't be resolved.
cheers
bftb0 said:
-snip-
Click to expand...
Click to collapse
Good news and bad news!
First, thanks for taking time to answer my cry for help The effort was amazing.
Bad news being... it didn't work :/
I managed to mangle the INF into this:
Code:
;
; Android WinUsb driver installation.
;
[Version]
Signature = "$Windows NT$"
Class = AndroidUsbDeviceClass
ClassGuid = {3F966BD9-FA04-4ec5-991C-D326973B5128}
Provider = %ProviderName%
DriverVer = 05/24/2012,6.0.0000.00000
CatalogFile.NTx86 = androidwinusb86.cat
CatalogFile.NTamd64 = androidwinusba64.cat
;
; This section seems to be required for WinUsb driver installation.
; If this section is removed the installer will report an error
; "Required section not found in INF file".
;
[ClassInstall32]
Addreg = AndroidWinUsbClassReg
[AndroidWinUsbClassReg]
HKR,,,0,%ClassName%
HKR,,Icon,,-1
[Manufacturer]
%ProviderName% = Google, NTx86, NTamd64
[Google.NTx86]
;Google Nexus 7
%TWRPNexus7Recovery% = USB_Install, USB\VID_18D1&PID_D001
%bootloader% = USB_Install, USB\VID_18D1&PID_4E40
%ADBoff_MTPNexus7OS% = USB_Install, USB\VID_18D1&PID_4E41
%ADB_MTPNexus7OS% = USB_Install, USB\VID_18D1&PID_4E42&MI_00
%ADB_MTPoffNexus7OS% = USB_Install, USB\VID_18D1&PID_4E42&MI_01
%ADBoff_PTPoffNexus7OS% = USB_Install, USB\VID_18D1&PID_4E43
%ADB_PTPNexus7OS% = USB_Install, USB\VID_18D1&PID_4E44
[Google.NTamd64]
;Google Nexus 7
%TWRPNexus7Recovery% = USB_Install, USB\VID_18D1&PID_D001
%bootloader% = USB_Install, USB\VID_18D1&PID_4E40
%ADBoff_MTPNexus7OS% = USB_Install, USB\VID_18D1&PID_4E41
%ADB_MTPNexus7OS% = USB_Install, USB\VID_18D1&PID_4E42&MI_00
%ADB_MTPoffNexus7OS% = USB_Install, USB\VID_18D1&PID_4E42&MI_01
%ADBoff_PTPoffNexus7OS% = USB_Install, USB\VID_18D1&PID_4E43
%ADB_PTPNexus7OS% = USB_Install, USB\VID_18D1&PID_4E44
[USB_Install]
Include = winusb.inf
Needs = WINUSB.NT
[USB_Install.Services]
Include = winusb.inf
AddService = WinUSB,0x00000002,WinUSB_ServiceInstall
[WinUSB_ServiceInstall]
DisplayName = %WinUSB_SvcDesc%
ServiceType = 1
StartType = 3
ErrorControl = 1
ServiceBinary = %12%\WinUSB.sys
[USB_Install.Wdf]
KmdfService = WINUSB, WinUSB_Install
[WinUSB_Install]
KmdfLibraryVersion = 1.9
[USB_Install.HW]
AddReg = Dev_AddReg
[Dev_AddReg]
HKR,,DeviceInterfaceGUIDs,0x10000,"{F72FE0D4-CBCB-407d-8814-9ED673D0DD6B}"
[USB_Install.CoInstallers]
AddReg = CoInstallers_AddReg
CopyFiles = CoInstallers_CopyFiles
[CoInstallers_AddReg]
HKR,,CoInstallers32,0x00010000,"WdfCoInstaller01009.dll,WdfCoInstaller","WinUSBCoInstaller2.dll"
[CoInstallers_CopyFiles]
WinUSBCoInstaller2.dll
WdfCoInstaller01009.dll
[DestinationDirs]
CoInstallers_CopyFiles=11
[SourceDisksNames]
1 = %DISK_NAME%,,,\i386
2 = %DISK_NAME%,,,\amd64
[SourceDisksFiles.x86]
WinUSBCoInstaller2.dll = 1
WdfCoInstaller01009.dll = 1
[SourceDisksFiles.amd64]
WinUSBCoInstaller2.dll = 2
WdfCoInstaller01009.dll = 2
[Strings]
ProviderName = "Google, Inc."
SingleAdbInterface = "Android ADB Interface"
CompositeAdbInterface = "Android Composite ADB Interface"
SingleBootLoaderInterface = "Android Bootloader Interface"
WinUSB_SvcDesc = "Android USB Driver"
DISK_NAME = "Android WinUsb installation disk"
ClassName = "Android Phone"
TWRPNexus7Recovery = "TWRP Nexus 7 Recovery"
bootloader = "Nexus 7 Bootloader"
ADBoff_MTPNexus7OS = "ADB off, MTP on Nexus 7 OS"
ADB_MTPNexus7OS = "ADB on, MTP on Nexus 7 OS"
ADB_MTPoffNexus7OS = "ADB on, MTP off Nexus 7 OS"
ADBoff_PTPoffNexus7OS = "ADB off, PTP off Nexus 7 OS"
ADB_PTPNexus7OS = "ADB on, PTP on Nexus 7 OS"
I then went around into recovery and fiddled about with the MTP PTP settings after enabling devmgr to show hidden drivers. I uninstalled them all, then reinstalled them from the Asus R06 drivers with my ethernet link disabled.
When booting into the Nexus 7 OS with ADB on and MTP off, then installing the drivers, the description ADB on, MTP off Nexus 7 OS was seen in device manager, and the hardware ID was
Code:
%ADB_MTPoffNexus7OS% = USB_Install, USB\VID_18D1&PID_4E42&MI_01
Therefore, it installed properly.
But running cmd>adb kill-server>adb start-server>adb devices
yielded... nothing.
So, I rebooted into recovery, and "TWRP Nexus 7 Recovery" showed up in devmgr. But adb devices remained oblivious.
I think I'm lost to this cause :/
P.S- you mentioned MTP could do up to 80mbit/s? Mine is very slow indeed. I use a USB OTG cable to do any transfers, and it doesn't work with NTFS, even with Paragon NTFS/HFS+ root app :/
P.P.S- word of advice, Windows 8 is the most useless, horrendous, unusable and awful OS you could ever use if you don't have a touchscreen. 1) Hacky unsigned driver install leaves you open to attacks 2) Boots a useless 'Metro' start screen with crap app selection that eats memory. 3) Clearly doesn't work with Android out of the box. Or any other Linux OS for that matter. for the love of god DON'T. GET. IT.
@tigrey
Sorry it didn't work out. Really strange though that it seems to function correctly for some things but not others.
Way OT question... is it possible to boot that Win 8 machine with anything else, or does it have mandatory signing requirements that prevents that from happening? (e.g. will it boot a Linux "live" CD?). Just curious - I haven't been keeping up with what M$ has been forcing on their hardware partners.
bftb0 said:
@tigrey
Sorry it didn't work out. Really strange though that it seems to function correctly for some things but not others.
Way OT question... is it possible to boot that Win 8 machine with anything else, or does it have mandatory signing requirements that prevents that from happening? (e.g. will it boot a Linux "live" CD?). Just curious - I haven't been keeping up with what M$ has been forcing on their hardware partners.
Click to expand...
Click to collapse
Well, it doesn't have a CD drive, but I'm sure i'd be able to make a live USB boot before windows. I haven't tried it.
I don't know anything about Linux, sorry, so I wouldn't know how to 'cobble together a fastboot/adb executable' :/
I think you can: http://mjg59.dreamwidth.org/20522.html for select distros
tigrey said:
Well, it doesn't have a CD drive, but I'm sure i'd be able to make a live USB boot before windows. I haven't tried it.
I don't know anything about Linux, sorry, so I wouldn't know how to 'cobble together a fastboot/adb executable' :/
I think you can: http://mjg59.dreamwidth.org/20522.html for select distros
Click to expand...
Click to collapse
Well the fastboot executable for Linux is dynamically linked; exactly analogous to how dynamically-linked executables for Windows require supporting .DLLs, Linux executables require ".so" files (Shared Object libraries). Usually, most of them are already part of the distro, but perhaps one of two are shipped with the executable. The last time I used a Linux Live CD with Google's fastboot for Linux, I only had to grab two files out of the Google Linux SDK - the fastboot executable itself and a single .so file - and put them on a USB key drive in order to use fastboot (from the live cd boot) without installing the Google SDK.
There is only one additional trick to getting this done - adding an environment variable LD_LIBRARY_PATH - to the command shell's environment so that when you start up "fastboot" it knows where to find the missing .so file(s).
PM me if you want some assistance - but it sort of sounds like you don't want to go down that path, especially if it were to turn out that the N7 really is the source of the trouble.
Thanks for the link - it sure looks like that UEFI/ secure boot technology is in play and some sort of signed boot shim from M$ is needed. Ugh.
Are you sure Win 8 is accepting Un-signed drivers?
I had issues before. Un-installed any android related drivers.
Accepted unsigned drivers.
Reboot.
Install Android drivers.
BAM!
bftb0 said:
Well the fastboot executable for Linux is dynamically linked; exactly analogous to how dynamically-linked executables for Windows require supporting .DLLs, Linux executables require ".so" files (Shared Object libraries). Usually, most of them are already part of the distro, but perhaps one of two are shipped with the executable. The last time I used a Linux Live CD with Google's fastboot for Linux, I only had to grab two files out of the Google Linux SDK - the fastboot executable itself and a single .so file - and put them on a USB key drive in order to use fastboot (from the live cd boot) without installing the Google SDK.
There is only one additional trick to getting this done - adding an environment variable LD_LIBRARY_PATH - to the command shell's environment so that when you start up "fastboot" it knows where to find the missing .so file(s).
PM me if you want some assistance - but it sort of sounds like you don't want to go down that path, especially if it were to turn out that the N7 really is the source of the trouble.
Thanks for the link - it sure looks like that UEFI/ secure boot technology is in play and some sort of signed boot shim from M$ is needed. Ugh.
Click to expand...
Click to collapse
Holy mother of jesus
After a month of tinkering, I just solved the problem! I have no idea how any of this is linked together, but I updated the bootloader from 4.13 to 4.18 and bam, the device is now recognised in ADB. Since fastboot and adb are mutually exclusive, I find it odd that it worked. Thanks for the help, thought I'd end the thread with some closure
tigrey said:
Holy mother of jesus
After a month of tinkering, I just solved the problem! I have no idea how any of this is linked together, but I updated the bootloader from 4.13 to 4.18 and bam, the device is now recognised in ADB. Since fastboot and adb are mutually exclusive, I find it odd that it worked. Thanks for the help, thought I'd end the thread with some closure
Click to expand...
Click to collapse
Ouch!
Well, at least it is working now - congrats on your persistence (although I'm sure you would have preferred to have spent the time on other stuff). I don't know why that would make a difference for adb, either.
I had a similar issue as the OP with Win7 x64 presenting my Nexus 7 as an "Android Composite ADB Interface" but no devices showing up in 'adb devices'. This is using the auto-downloaded Windows Update drivers; nothing special.
On a whim, I pulled down the notification where it said, "Connected as a Media Device. Select to change" and changed it from a Media device (MTP) to a Camera (PTP). Windows beeped and booped, installed two more drivers, and I immediately got the prompt to authorize connection via ADB on the tablet. Now 'adb devices' shows the device and I'm ready to rock.
- Dave
ViperGeek said:
I had a similar issue as the OP with Win7 x64 presenting my Nexus 7 as an "Android Composite ADB Interface" but no devices showing up in 'adb devices'. This is using the auto-downloaded Windows Update drivers; nothing special.
On a whim, I pulled down the notification where it said, "Connected as a Media Device. Select to change" and changed it from a Media device (MTP) to a Camera (PTP). Windows beeped and booped, installed two more drivers, and I immediately got the prompt to authorize connection via ADB on the tablet. Now 'adb devices' shows the device and I'm ready to rock.
- Dave
Click to expand...
Click to collapse
You Sir, are a legend.
BS...
I know this is an old thread but it shows up on Google, so I thought I would add something useful to it.
If you don't want to hack your drivers and mess with unsigned drivers on Windows 8, I suggest you install the UniversalADBDriver
https://github.com/koush/UniversalAdbDriver
Your device might show up under another name in the device manager, but who cared. It works.
Continuing the work of @ofutur and @ViperGeek, there's one other suggestion that it doesn't appear to have fully been made that has been known to work...
Go into your device manager for your computer, and where the device shows up when you plug it in (Android/Portable Devices/wherever...), go to the device properties and select the Driver tab, and down at the bottom, select Uninstall. There will be a small prompt that has a check-box in it that says "Delete the driver software for this device", and check that box. When it's done removing everything, unplug the device and go into it's developer options (selecting debugging on) and going into your storage options (selecting MTP/Media Device), and then plug the device back into the computer. Drivers will start installing themselves, and when they complete, refresh your C:/ folder to see if anything's appeared there (namely, your device). If it has, in MTP mode, you're good to go. If nothing's shown there while you're in MTP mode on your device, then what's happened is that your computer used other drivers that (still) aren't compatible upon the new installation. The reason why this happened is because you have so many different driver options on your computer that it essentially doesn't know which of the multiple options you have is the right one. NakedDrivers/Cyogenmod Drivers/CompanyDrivers/WhateverDrivers, there's a lot of options out there that many people have used/installed. Effectively, you need to weed out which ones are completely compatible, and which ones aren't. So keep plugging in your device, uninstalling the drivers (and the driver software), un-plugging and re-plugging in your device (and there-by installing different drivers), until your computer installs the drivers that are the correct and most compatible drivers. Upon doing this, chances are your computer will show a different driver type in the installation, including MTP in it. From there, you should be good to go. In short, you don't need to download and install anything, you just need to uninstall whatever software and drivers you have on your machine until when you plug your device in, they communicate in the way they're supposed to.
i have spent hours stuffing around with my nexus 7 2012 (wifi) and wanted to share a tip. hope this helps someone!
i wanted to downgrade from 5.x back to 4.4.4 so i could play the old tetris (mission failed anyway, no longer available, where do you get old versions of apps & games?) anyway i found that adb 1.0.32 only shows devices once my nexus is fully powered on to the normal state
when i reboot into bootloader aka fastboot mode, i was being driven mad by adb "not showing my device"
then i realised that both the bootloader image and the 4.4.4 zip file only needed the "fastboot" command not the "adb" command. also noticed that "adb devices" has a similar command "fastboot devices" and in bootloader mode, fastboot devices DID return my device...
so i was trying to solve a problem that didn't exist! adb does not need to see devices in bootloader aka fastboot mode!! and so i was able to use fastboot to do the last steps of boot image and system zip file update
Code:
fastboot flash bootloader [bootloader file].img
fastboot -w update [image file].zip
PS. i had stumbled onto these "manual" commands at first, but they failed, so i assumed it was because of adb no devices. it turns out the nexus 7 has a 2013 model (wifi) called "flo-flo" i had downloaded from android central. well, my device was listed further down under nexus 7 2012 (wifi) called "grouper". this was the root cause of the fastboot error (not adb lack of devices in bootloader aka fastboot mode) once i used "grouper" the boot.img and image.zip worked fine. my nexus 7 actually had a little echo up top left saying "signature match" which i presume was the "flo-flo" vs. "grouper" issue.