Visual NAND Reconstructor 8.0

Dear Users,
We are glad to introduce Visual NAND Reconstructor 8.0!
We continue to reform our platform for data recovery and digital forensics and trying to automate every step to make your job easier and faster.
Since this version we bring a new approach to the work with NAND memory blocks in order to simplify and improve the logical image assembly process.
You can now clearly distinguish between data blocks, empty blocks, garbage blocks, etc., and manage them in more interactive way.
It’s a first step for full automatization of the block management that will replace Markers Table element in the future.
We have also added several new protocols for handling of newest 3D NAND memory chips such as 3D TLC and 3D QLC devices with high capacities such as 64GB, 128GB and higher.
Here’s the full list of new features:

New Block Manager

We have developed a new approach and element for block management and logical image reconstruction.
It is intended to replace the old Markers Table with much more powerful analysis, new features and interactive interface.
The new concept has been added – it is now possible to GROUP block by LBN or by any other markers in order to precisely analyze and select the proper data.

All the steps for filtering and sorting are performed using interactive table elements (table tabs).
The fields are “sticky” meaning that once it’s sorted in asc/desc order it’ll keep the arrangement. Filter option is available right on the tab of the column.

With the block manager it has become much easier to distinguish between copies of blocks due to ability to identify a type of block (actual block, garbage block, empty block, etc).
It is now possible to comprehensively remove all garbage and empty blocks from analysis and focus on the data only.

Using new grouping feature it is now much easier to spot the freshest/oldest data blocks and select the ones that are needed.

The history of all operations is conveniently stored in the Commands view.

The Block Manager replaces Markers Table and Logical Image elements, so normally it would be the last element in the chain of dump transformations.

New Protocols

We have researched the newest 3D NAND chips such as 3D TLC and 3D QLC and added several new protocols to the VNR. It is mainly chips from Micron/Intel/Spectek.

NVDDR3 3D NAND (6x ALE)
Async SDR 3D NAND
Async DDR 3D NAND
EZ-NAND SDR
EZ-NAND DDR

The very specific so-called “EZ-NAND” chips with built-in ECC engine have also been added to support. These chips are easy to identify because they respond with constant ID 50504E010003

NAND chips

2C64643CA5040000
453C98B3766B081E
453C98B3766B089E
453C98B37672090E
453C98B376720A0E
453C98B376720B0E
453C98B376720D0E
453CA9927A570B14
453E97837E560C00
453E98B3766B0816
453E98B3F66B081E
453E99B37A6B081E
453E99B37A720D0E
454899B3FA6B081E
45489AB37E720D0E
4548ABA27E510B14
45499A037E6C081E
454C95837A560C00
45CC9095D6
8988243BA9
8989D31C32C60000
89C41832A2
983AA4937A510844
983C98B3766B081E
983C98B3F6E3081E
983C98B3F6EB081E
983E980376E40816
983E980376E4081E
983E98B376720806
983E98B376720A06
98D798B276
98DA901576
ADBC905554ADBC90
EC1E98AF84
EC3AD9CE78
EC5E98AF84CD
ECD784C3A0CA
ECD798DE94C5ECD7
EFA18015

New scramblers (XOR keys)

AU6989SNCS(16k_792p)_988EE1
AU_noname(8k_256p)_A683F9
AllWinner_A13(9216b_128p_xoredSA_ECC70b)_CF7ED4
Allwiner_A33(18048b_256p_XoredSA-4b_XoredECC-84b)_CF7ED4
Appotech(18432_1152p)_XoredSA_5385E9
CBM2199(16k_64p)_CF7ED4
CBM2199E(16k_128p)_CF7ED4
DM8261(8832b_256p_ecc60b_xoredSA)_D3C1FC
IT1176E(17664b_256p_xoredECC)_988EE1
JMF670H(18256b_256p_ecc112_xoredSA_ECC)_0A46D2
PS_MicroSD(18432_256p_xoredSA_ECC)_5061FD
RK3026(17664b_256p(1024_4_70))_xoredSA_ECC_D36627
SSS6137(18592_1536p_1154_126ecc_xored_ECC)_5AFF4E
mSD_PNY(18432b_256p_ecc126_xoresSA_ECC)_1775CE

New ECC/BCH

ATJ3315D-X_17664(ecc70b)_16
AllWinnerA13_9216b_70ecc_8.bch
Allwinner_A33_18048b(ecc84)_16_X
Appotech_18432(ecc112b)_17
DM8261_8832(ecc490bits)_8
IT1167BE-48A_8640(ecc46b)_8
JMF670H_18256(ecc112)_16
MediaTek MT8518_4352_4
RK3026_17664(ecc70)_16
SSS6137_18592(ecc126)_16_X
mSD_PNY_18432_16.bch

New monolithic chip pinouts

Bug fixes and other changes

Dramatic increase of file header test in file system viewer
Filter by PBN (Phy block number) in Markers table
Revamped design of some wizards and windows
The solution database synchronization process was accelerated
Many minor bugs have been fixed

Visual NAND Reconstructor 8.0

Visual NAND Reconstructor 8.0

New Block Manager

All the steps for filtering and sorting are performed using interactive table elements (table tabs). The fields are “sticky” meaning that once it’s sorted in asc/desc order it’ll keep the arrangement. Filter option is available right on the tab of the column.

With the block manager it has become much easier to distinguish between copies of blocks due to ability to identify a type of block (actual block, garbage block, empty block, etc). It is now possible to comprehensively remove all garbage and empty blocks from analysis and focus on the data only.

Using new grouping feature it is now much easier to spot the freshest/oldest data blocks and select the ones that are needed.

The history of all operations is conveniently stored in the Commands view.

The Block Manager replaces Markers Table and Logical Image elements, so normally it would be the last element in the chain of dump transformations.

New Protocols

We have researched the newest 3D NAND chips such as 3D TLC and 3D QLC and added several new protocols to the VNR. It is mainly chips from Micron/Intel/Spectek.

NVDDR3 3D NAND (6x ALE)

Async SDR 3D NAND

Async DDR 3D NAND

EZ-NAND SDR

EZ-NAND DDR

The very specific so-called “EZ-NAND” chips with built-in ECC engine have also been added to support. These chips are easy to identify because they respond with constant ID 50504E010003

NAND chips

2C64643CA5040000

453C98B3766B081E

453C98B3766B089E

453C98B37672090E

453C98B376720A0E

453C98B376720B0E

453C98B376720D0E

453CA9927A570B14

453E97837E560C00

453E98B3766B0816

453E98B3F66B081E

453E99B37A6B081E

453E99B37A720D0E

454899B3FA6B081E

45489AB37E720D0E

4548ABA27E510B14

45499A037E6C081E

454C95837A560C00

45CC9095D6

8988243BA9

8989D31C32C60000

89C41832A2

983AA4937A510844

983C98B3766B081E

983C98B3F6E3081E

983C98B3F6EB081E

983E980376E40816

983E980376E4081E

983E98B376720806

983E98B376720A06

98D798B276

98DA901576

ADBC905554ADBC90

EC1E98AF84

EC3AD9CE78

EC5E98AF84CD

ECD784C3A0CA

ECD798DE94C5ECD7

EFA18015

New scramblers (XOR keys)

AU6989SNCS(16k_792p)_988EE1

AU_noname(8k_256p)_A683F9

AllWinner_A13(9216b_128p_xoredSA_ECC70b)_CF7ED4

Allwiner_A33(18048b_256p_XoredSA-4b_XoredECC-84b)_CF7ED4

Appotech(18432_1152p)_XoredSA_5385E9

CBM2199(16k_64p)_CF7ED4

CBM2199E(16k_128p)_CF7ED4

DM8261(8832b_256p_ecc60b_xoredSA)_D3C1FC

IT1176E(17664b_256p_xoredECC)_988EE1

JMF670H(18256b_256p_ecc112_xoredSA_ECC)_0A46D2

PS_MicroSD(18432_256p_xoredSA_ECC)_5061FD

RK3026(17664b_256p(1024_4_70))_xoredSA_ECC_D36627

SSS6137(18592_1536p_1154_126ecc_xored_ECC)_5AFF4E

mSD_PNY(18432b_256p_ecc126_xoresSA_ECC)_1775CE

New ECC/BCH

ATJ3315D-X_17664(ecc70b)_16

AllWinnerA13_9216b_70ecc_8.bch

Allwinner_A33_18048b(ecc84)_16_X

Appotech_18432(ecc112b)_17

DM8261_8832(ecc490bits)_8

IT1167BE-48A_8640(ecc46b)_8

JMF670H_18256(ecc112)_16

MediaTek MT8518_4352_4

All the steps for filtering and sorting are performed using interactive table elements (table tabs).
The fields are “sticky” meaning that once it’s sorted in asc/desc order it’ll keep the arrangement. Filter option is available right on the tab of the column.

With the block manager it has become much easier to distinguish between copies of blocks due to ability to identify a type of block (actual block, garbage block, empty block, etc).
It is now possible to comprehensively remove all garbage and empty blocks from analysis and focus on the data only.