RIFF JTAG – eMMC Partition Table FullFlash Image Files Processing Plugin (eMMCDiskPartitions.dll) v2.00

23.11.2012   RIFF JTAG – eMMC Partition Table FullFlash Image Files Processing Plugin (eMMCDiskPartitions.dll) v2.00

This plugin is a powerfull tool which enormously simplifies resurrection process (providing you have the required boot files from an official firmware or you have a ‘donor’ device) for those devices which are not yet supported by a dedicated resurrector DLL.

This plugin works with eMMC image files and phones which have following formatting:

  •  Image Files or Phones with Standard Master Boot Record (MBR) and Extended Boot Record (EBR) formatting. Most of eMMC-bootable mobile phones have their eMMC memory formatted in such style. In this case partitions are accessed in standard way, by Partition ID: for example boot loader partitions or OS image partition (compare with qualcomm MIBIB partitioning: while ‘MIBIB’-type partitions have standalone partition descriptor block which contains info on all partitions and is posistioned in a definite NAND address, the eMMC partitioning is one MBR sector at fixed position + a chain of EBR sectors which are scattered throughout the eMMC address space in a literally random way);
  •  Image Files or Phones which do not have standard Master Boot Record (MBR) and Extended Boot Record (EBR) formatting, but instead, partition information for such phones is taken from the PIT Table (some Samsung phones);
  •  Image Files or Phones which do not have standard Master Boot Record (MBR) and Extended Boot Record (EBR) formatting, but instead, partition information for such phones is taken from the EFI Table (some Samsung, LG, Pantech and other phones).

Please note, in previous versions this plugin worked only with devices from topic #1, while #2 was supported by different plugin. Now everything is combined in this plugin (as well as EFI support added), and other eMMC plugin (PIT-Based) become obsolete, and no longer will be supported.

With the help of this plugin you can do:

  •  Disassemble a full (or, since eMMC full image files are too large, a partial) eMMC Image File previously obtained with JTAG Manager (DCC Read/Write Page);
  •  Inspect each partition contents;
  •  Save separate partitions to HDD;
  •  Save all partitions as standalone files to HDD;
  •  Build-up your own full image file: for this you need to read from device (by clicking “Load Image from Device” button) or open from file (by clicking “Load Image from File” button) the eMMC partitioning data and then by selecting desired partitions click “Inject Into Partition” button to upload data from file into selected partition. Then you can save all full image file to HDD or flash injected partitions directly into device;
  •  Write a chosen partition directly into device;
  •  Read a chosen partition directly from device and substitute old partition contents to new ones;
  •  Create eMMC partitioning snapshot (that is storing info on full EBR chain: each EBR sector position).
  •  Restore eMMC partitioning from previously taken file: it is convenient if eMMC memory is erased and all formatting data is lost.
  •  Plugin supports new RIFF™ shrinked binary files format (*.riffpbin): which allows to shrink huge eMMC Image files into small sized-files (for example, Image File for 14GB empty eMMC chip is shrinked into ~10 KByte(!) size), thus HDD space is preserved, while performance is not visibly effected.

Please note, direct read/write operations from/to the device will require proper resurrector to be set (Resurrector Settings: thus before clicking the Activate Plugin button make sure proper model is selected as well as other settings like TCK/RTCK frequencies).

This plugin will support all possible devices, based either on Samsung Exynos or Qualcomm cores with eMMC memory as boot device.

Please visit RIFF Box FAQ page for detailed instructions !

Sample partition layout from Pantech Sky IM A850L boot repair pack, based on QUALCOMM APQ8064:
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RIFF JTAG – HTC via USB more phones supported

 27.04.2012   RIFF JTAG – HTC via USB more phones supported

  • HTC Thunderbolt USB support added
  • HTC Sensation XL USB support added
  • HTC Inspire USB support added
  • HTC Incredible S USB support added
  • HTC Incredible 2 USB support added

These new updates will allow You to use USB cable to perform any operation on listed models. Remember that this work if Your phone is enumerated on USB port as QHUSB_Dload or Qualcomm HS-USB QDLoader device.
In case phone is not enumerated, You might need to use test point method first.

Please visit RIFF FAQ section to see how to install drivers, and how to find eMMC Vdd test points:

If You need to repair phone after replacing eMMC chip, these are the steps:
  • Launch eMMC MBR/EBR partitioning tool
  • Open desired partitioning file
  • Click “Load Image from file”
  • Click “Repartition eMMC”
  • Close the eMMC plugin
  • Click “Resurrection” and select all options to be repaired, including IMEI and CID
  • Click “Resurrect”

Please click “Check for updates” button to download and install new updates.

 

RIFF JTAG – eMMC Partition Plugin v1.0 (Qualcomm EBR-MBR based eMMC flash images processing)

RIFF JTAG – eMMC Partition Plugin v1.0 (Qualcomm EBR-MBR based eMMC flash images processing)

This plugin works with eMMC image files which have standard Master Boot Record (MBR) and Extended Boot Record (EBR) formatting. Most of eMMC-bootable mobile phones have their eMMC memory formatted in such style. In this case partitions are accessed in standard way, by Partition ID: for example boot loader partitions or OS image partition (compare with qualcomm MIBIB partitioning: while ‘MIBIB’-type partitions have standalone partition descriptor block which contains info on all partitions and is posistioned in a definite NAND address, the eMMC partitioning is one MBR sector at fixed position + a chain of EBR sectors which are scattered throughout the eMMC address space in a literally random way).
This plugin is a powerfull tool which enormously simplifies resurrection process (providing you have the required boot files from an official firmware or you have a ‘donor’ device) for those devices which are not yet supported by a dedicated resurrector DLL.
Please note, such phones as Samsung Exynos MCU based pohones (for example I9100, P6200, P6800, N7000, I9220 and etc), though have eMMC chip, are not partitioned in MBR way and thus are not the subject for the current plugin. These phones are to be processed by different plugin.

With the help of this plugin you can do:

  •  Disassemble a full (or, since eMMC full image files are too large, a partial) eMMC Image File previously obtained with JTAG Manager (DCC Read/Write Page);
  •  Inspect each partition contents;
  •  Save separate partitions to HDD;
  •  Save all partitions as standalone files to HDD;
  •  Build-up your own full image file: for this you need to read from device (by clicking “Load Image from Device” button) or open from file (by clicking “Load Image from File” button) the eMMC partitioning data and then by selecting desired partitions click “Inject Into Partition” button to upload data from file into selected partition. Then you can save all full image file to HDD or flash injected partitions directly into device;
  •  Write a chosen partition directly into device;
  •  Read a chosen partition directly from device and substitute old partition contents to new ones;
  •  Create eMMC partitioning snapshot (that is storing info on full EBR chain: each EBR sector position).
  •  Restore eMMC partitioning from previously taken file: it is convenient if eMMC memory is erased and all formatting data is lost.
  •  Plugin supports new RIFF™ shrinked binary files format (*.riffpbin): which allows to shrink huge eMMC Image files into small sized-files (for example, Image File for 14GB empty eMMC chip is shrinked into ~10 KByte(!) size), thus HDD space is preserved, while performance is not visibly effected.

Please note, direct read/write operations from/to the device will require proper resurrector to be set (Resurrector Settings: thus before clicking the Activate Plugin button make sure proper model is selected as well as other settings like TCK/RTCK frequencies).
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RIFF JTAG – JTAG Manager v1.41, RIFF Box firmware v1.31 released

14.03.2012   RIFF JTAG – JTAG Manager v1.41, RIFF Box firmware v1.31 released

Whats new:

 

  • RIFF Box firmware v1.31

    APQ8060, MSM8260, MSM8660 (3rd generation Qualcomm chipsets) support is added.
    – Fixed ARM7 bug: exit from debug state into THUMB mode was corrupted.
    – Added after-halt “Emergency” script execution for ARM7 cores. 
  • RIFF JTAG Manager v1.41

    APQ8060, MSM8260, MSM8660 (3rd generation Qualcomm chipsets) support is added.
    – Fixed SettingsCode bug which was spawned after we’ve transfered to 12-digit wide 64-bit hex numbers representation.
  •  RIFF Direct JTAG Access plugin v1.03

    – Added chipsets APQ8060, MSM8260, MSM8660
    – Added APQ8060 eMMC controllers #1..5 support
    – Added MSM8260 eMMC controllers #1..5 support
    – Added MSM8660 eMMC controllers #1..5 support

     

RIFF JTAG – Direct Access Plugin 1.02 -World First! TEGRA2, S5PC100 eMMC Programming

25.02.2012    DirectProgramming.dll Version 1.02


Whats new:

  •  Added MSM7627A eMMC controller #3 support
  •  Added S5PC100/S5PC110 eMMC controllers #0..3 support
  •  Added MDM9600 NAND Controller support
  •  Addres/Length fields are changed into custom GUI representation:
    now 12-digit hex values are shown in more human ‘readable’ way.

Please check here for more details.

RIFF JTAG – Direct JTAG Access to Flash Memory Plugin v1.01, TEGRA2 eMMC Supported

28.12.2011   Direct JTAG Access to Flash Memory Plugin v1.01, TEGRA2 eMMC Supported
Whats new:

 

  •  Added MSM6500
  •  Added TEGRA2 eMMC controller #2 support
  •  Added partition access selection for eMMC devices
  • Fixed AutoFlash Size bug for eMMC devices

Important info:

TEGRA 2 can be connected via CORTEX or ARM7 cores. In some cases, where CORTEX core is in sleep mode, it’s only possible to access ARM7 core, thus allowing access to shared memory space. Restoring Boot partitions via ARM7 core will enable access to CORTEX core after power reset.

Sample: