You are viewing our Forum Archives. To view or take place in current topics click here.
#181. Posted:
Status: Offline
Joined: May 05, 201113Year Member
Posts: 3,656
Reputation Power: 161
Status: Offline
Joined: May 05, 201113Year Member
Posts: 3,656
Reputation Power: 161
I think I got the password.
- 0useful
- 0not useful
#182. Posted:
Status: Offline
Joined: Dec 01, 201014Year Member
Posts: 1,386
Reputation Power: 55
I got
S/Lion
English Motherf***** Do you speak it and RMMT
S/Lion
English Motherf***** Do you speak it and RMMT
- 0useful
- 0not useful
#183. Posted:
Status: Offline
Joined: Jul 18, 201113Year Member
Posts: 1,761
Reputation Power: 18311
Status: Offline
Joined: Jul 18, 201113Year Member
Posts: 1,761
Reputation Power: 18311
A picture within a picture, we must go deeper.
Inception meme.
-Storm
Inception meme.
-Storm
- 0useful
- 4not useful
#184. Posted:
Status: Offline
Joined: Feb 03, 201113Year Member
Posts: 441
Reputation Power: 19
Status: Offline
Joined: Feb 03, 201113Year Member
Posts: 441
Reputation Power: 19
Decoded the 2nd pic, might help
Filename: [C:\Documents and Settings\Dell\Desktop\sign_me_in_here.jpg]
Filesize: [1211] Bytes
Start Offset: 0x00000000
*** Marker: SOI (xFFD8) ***
OFFSET: 0x00000000
*** Marker: APP1 (xFFE1) ***
OFFSET: 0x00000002
length = 24
Identifier = [Exif]
Identifier TIFF = 0x[49492A00 08000000]
Endian = Intel (little)
TAG Mark x002A = 0x002A
EXIF IFD0 @ Absolute 0x00000014
Dir Length = 0x0000
Offset to Next IFD = 0x00000000
*** Marker: APP12 (xFFEC) ***
OFFSET: 0x0000001C
length = 17
Identifier = [Ducky]
Photoshop Save For Web Quality = [0]
*** Marker: APP14 (xFFEE) ***
OFFSET: 0x0000002F
length = 14
*** Marker: DQT (xFFDB) ***
Define a Quantization Table.
OFFSET: 0x0000003F
Table length = 132
----
Precision=8 bits
Destination ID=0 (Luminance)
DQT, Row #0: 27 26 41 65 66 71 71 71
DQT, Row #1: 26 29 38 47 63 71 71 71
DQT, Row #2: 41 38 47 62 71 71 71 71
DQT, Row #3: 65 47 62 71 71 71 71 71
DQT, Row #4: 66 63 71 71 71 71 71 71
DQT, Row #5: 71 71 71 71 71 71 71 71
DQT, Row #6: 71 71 71 71 71 71 71 71
DQT, Row #7: 71 71 71 71 71 71 71 71
Approx quality factor = 30.48 (scaling=164.06 variance=10059.58)
----
Precision=8 bits
Destination ID=1 (Chrominance)
DQT, Row #0: 29 41 52 63 71 71 71 71
DQT, Row #1: 41 38 40 63 71 71 71 71
DQT, Row #2: 52 40 53 71 71 71 71 71
DQT, Row #3: 63 63 71 71 71 71 71 71
DQT, Row #4: 71 71 71 71 71 71 71 71
DQT, Row #5: 71 71 71 71 71 71 71 71
DQT, Row #6: 71 71 71 71 71 71 71 71
DQT, Row #7: 71 71 71 71 71 71 71 71
Approx quality factor = 55.01 (scaling=89.99 variance=1780.96)
*** Marker: SOF0 (Baseline DCT) (xFFC0) ***
OFFSET: 0x000000C5
Frame header length = 17
Precision = 8
Number of Lines = 39
Samples per Line = 112
Image Size = 112 x 39
Raw Image Orientation = Landscape
Number of Img components = 3
Component[1]: ID=0x01, Samp Fac=0x22 (Subsamp 1 x 1), Quant Tbl Sel=0x00 (Lum: Y)
Component[2]: ID=0x02, Samp Fac=0x11 (Subsamp 2 x 2), Quant Tbl Sel=0x01 (Chrom: Cb)
Component[3]: ID=0x03, Samp Fac=0x11 (Subsamp 2 x 2), Quant Tbl Sel=0x01 (Chrom: Cr)
*** Marker: DHT (Define Huffman Table) (xFFC4) ***
OFFSET: 0x000000D8
Huffman table length = 112
----
Destination ID = 0
Class = 0 (DC / Lossless Table)
Codes of length 01 bits (001 total): 00
Codes of length 02 bits (001 total): 03
Codes of length 03 bits (001 total): 04
Codes of length 04 bits (001 total): 05
Codes of length 05 bits (001 total): 01
Codes of length 06 bits (001 total): 02
Codes of length 07 bits (001 total): 06
Codes of length 08 bits (000 total):
Codes of length 09 bits (000 total):
Codes of length 10 bits (000 total):
Codes of length 11 bits (000 total):
Codes of length 12 bits (000 total):
Codes of length 13 bits (000 total):
Codes of length 14 bits (000 total):
Codes of length 15 bits (000 total):
Codes of length 16 bits (000 total):
Total number of codes: 007
Expanded Form of Codes:
Codes of length 01 bits:
0 = 00 (EOB) (Total Len = 1)
Codes of length 02 bits:
10 = 03 (Total Len = 5)
Codes of length 03 bits:
110 = 04 (Total Len = 7)
Codes of length 04 bits:
1110 = 05 (Total Len = 9)
Codes of length 05 bits:
11110 = 01 (Total Len = 6)
Codes of length 06 bits:
111110 = 02 (Total Len = 8)
Codes of length 07 bits:
1111110 = 06 (Total Len = 13)
----
Destination ID = 1
Class = 0 (DC / Lossless Table)
Codes of length 01 bits (001 total): 00
Codes of length 02 bits (000 total):
Codes of length 03 bits (000 total):
Codes of length 04 bits (000 total):
Codes of length 05 bits (000 total):
Codes of length 06 bits (000 total):
Codes of length 07 bits (000 total):
Codes of length 08 bits (000 total):
Codes of length 09 bits (000 total):
Codes of length 10 bits (000 total):
Codes of length 11 bits (000 total):
Codes of length 12 bits (000 total):
Codes of length 13 bits (000 total):
Codes of length 14 bits (000 total):
Codes of length 15 bits (000 total):
Codes of length 16 bits (000 total):
Total number of codes: 001
Expanded Form of Codes:
Codes of length 01 bits:
0 = 00 (EOB) (Total Len = 1)
----
Destination ID = 0
Class = 1 (AC Table)
Codes of length 01 bits (000 total):
Codes of length 02 bits (002 total): 01 02
Codes of length 03 bits (001 total): 11
Codes of length 04 bits (003 total): 00 21 03
Codes of length 05 bits (003 total): 31 12 04
Codes of length 06 bits (002 total): 51 22
Codes of length 07 bits (004 total): 41 61 13 05
Codes of length 08 bits (002 total): F0 42
Codes of length 09 bits (008 total): 71 81 91 C1 32 52 23 14
Codes of length 10 bits (007 total): B1 D1 62 72 73 C3 84
Codes of length 11 bits (001 total): 45
Codes of length 12 bits (000 total):
Codes of length 13 bits (000 total):
Codes of length 14 bits (000 total):
Codes of length 15 bits (000 total):
Codes of length 16 bits (000 total):
Total number of codes: 033
Expanded Form of Codes:
Codes of length 02 bits:
00 = 01 (Total Len = 3)
01 = 02 (Total Len = 4)
Codes of length 03 bits:
100 = 11 (Total Len = 4)
Codes of length 04 bits:
1010 = 00 (EOB) (Total Len = 4)
1011 = 21 (Total Len = 5)
1100 = 03 (Total Len = 7)
Codes of length 05 bits:
11010 = 31 (Total Len = 6)
11011 = 12 (Total Len = 7)
11100 = 04 (Total Len = 9)
Codes of length 06 bits:
111010 = 51 (Total Len = 7)
111011 = 22 (Total Len = 8)
Codes of length 07 bits:
1111000 = 41 (Total Len = 8)
1111001 = 61 (Total Len = 8)
1111010 = 13 (Total Len = 10)
1111011 = 05 (Total Len = 12)
Codes of length 08 bits:
11111000 = F0 (ZRL) (Total Len = 8)
11111001 = 42 (Total Len = 10)
Codes of length 09 bits:
111110100 = 71 (Total Len = 10)
111110101 = 81 (Total Len = 10)
111110110 = 91 (Total Len = 10)
111110111 = C1 (Total Len = 10)
111111000 = 32 (Total Len = 11)
111111001 = 52 (Total Len = 11)
111111010 = 23 (Total Len = 12)
111111011 = 14 (Total Len = 13)
Codes of length 10 bits:
1111111000 = B1 (Total Len = 11)
1111111001 = D1 (Total Len = 11)
1111111010 = 62 (Total Len = 12)
1111111011 = 72 (Total Len = 12)
1111111100 = 73 (Total Len = 13)
1111111101 = C3 (Total Len = 13)
1111111110 = 84 (Total Len = 14)
Codes of length 11 bits:
11111111110 = 45 (Total Len = 16)
----
Destination ID = 1
Class = 1 (AC Table)
Codes of length 01 bits (001 total): 00
Codes of length 02 bits (000 total):
Codes of length 03 bits (000 total):
Codes of length 04 bits (000 total):
Codes of length 05 bits (000 total):
Codes of length 06 bits (000 total):
Codes of length 07 bits (000 total):
Codes of length 08 bits (000 total):
Codes of length 09 bits (000 total):
Codes of length 10 bits (000 total):
Codes of length 11 bits (000 total):
Codes of length 12 bits (000 total):
Codes of length 13 bits (000 total):
Codes of length 14 bits (000 total):
Codes of length 15 bits (000 total):
Codes of length 16 bits (000 total):
Total number of codes: 001
Expanded Form of Codes:
Codes of length 01 bits:
0 = 00 (EOB) (Total Len = 1)
*** Marker: SOS (Start of Scan) (xFFDA) ***
OFFSET: 0x0000014A
Scan header length = 12
Number of img components = 3
Component[1]: selector=0x01, table=0x00
Component[2]: selector=0x02, table=0x11
Component[3]: selector=0x03, table=0x11
Spectral selection = 0 .. 63
Successive approximation = 0x00
*** Decoding SCAN Data ***
OFFSET: 0x00000158
Scan Decode Mode: Full IDCT (AC + DC)
Lum (Tbl #0), MCU=[0,0]
[0x00000158.0]: ZRL=[ 0] Val=[ -38] Coef=[00= DC] Data=[0x FC CD 29 55 = 0b (11111100 11001--- -------- --------)]
[0x00000159.5]: ZRL=[ 0] Val=[ 0] Coef=[01..01] Data=[0x CD 29 55 F4 = 0b (-----101 0------- -------- --------)] EOB
DCT Matrix=[-1026 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
Lum (Tbl #0), MCU=[0,0]
[0x0000015A.1]: ZRL=[ 0] Val=[ 0] Coef=[00= DC] Data=[0x 29 55 F4 5F = 0b (-0------ -------- -------- --------)] EOB
[0x0000015A.2]: ZRL=[ 0] Val=[ 0] Coef=[01..01] Data=[0x 29 55 F4 5F = 0b (--1010-- -------- -------- --------)] EOB
DCT Matrix=[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
Lum (Tbl #0), MCU=[0,0]
[0x0000015A.6]: ZRL=[ 0] Val=[ 0] Coef=[00= DC] Data=[0x 29 55 F4 5F = 0b (------0- -------- -------- --------)] EOB
[0x0000015A.7]: ZRL=[ 0] Val=[ 0] Coef=[01..01] Data=[0x 29 55 F4 5F = 0b (-------1 010----- -------- --------)] EOB
DCT Matrix=[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
Lum (Tbl #0), MCU=[0,0]
[0x0000015B.3]: ZRL=[ 0] Val=[ 5] Coef=[00= DC] Data=[0x 55 F4 5F D3 = 0b (---10101 -------- -------- --------)]
[0x0000015C.0]: ZRL=[ 1] Val=[ -6] Coef=[01..02] Data=[0x F4 5F D3 F5 = 0b (11110100 01------ -------- --------)]
[0x0000015D.2]: ZRL=[ 0] Val=[ 3] Coef=[03..03] Data=[0x 5F D3 F5 A3 = 0b (--0111-- -------- -------- --------)]
[0x0000015D.6]: ZRL=[ 1] Val=[ -4] Coef=[04..05] Data=[0x 5F D3 F5 A3 = 0b (------11 11010011 -------- --------)]
[0x0000015F.0]: ZRL=[ 1] Val=[ 6] Coef=[06..07] Data=[0x F5 A3 B3 76 = 0b (11110101 10------ -------- --------)]
[0x00000160.2]: ZRL=[ 1] Val=[ -1] Coef=[08..09] Data=[0x A3 B3 76 C9 = 0b (--1000-- -------- -------- --------)]
[0x00000160.6]: ZRL=[ 2] Val=[ -3] Coef=[10..12] Data=[0x A3 B3 76 C9 = 0b (------11 101100-- -------- --------)]
[0x00000161.6]: ZRL=[ 1] Val=[ 2] Coef=[13..14] Data=[0x B3 76 C9 B7 = 0b (------11 01110--- -------- --------)]
[0x00000162.5]: ZRL=[ 1] Val=[ -3] Coef=[15..16] Data=[0x 76 C9 B7 E2 = 0b (-----110 1100---- -------- --------)]
[0x00000163.4]: ZRL=[ 1] Val=[ 1] Coef=[17..18] Data=[0x C9 B7 E2 21 = 0b (----1001 -------- -------- --------)]
[0x00000164.0]: ZRL=[ 2] Val=[ -1] Coef=[19..21] Data=[0x B7 E2 21 30 = 0b (10110--- -------- -------- --------)]
[0x00000164.5]: ZRL=[ 3] Val=[ 2] Coef=[22..25] Data=[0x B7 E2 21 30 = 0b (-----111 11100010 -------- --------)]
[0x00000166.0]: ZRL=[ 0] Val=[ 1] Coef=[26..26] Data=[0x 21 30 D7 4F = 0b (001----- -------- -------- --------)]
[0x00000166.3]: ZRL=[ 0] Val=[ -1] Coef=[27..27] Data=[0x 21 30 D7 4F = 0b (---000-- -------- -------- --------)]
[0x00000166.6]: ZRL=[ 0] Val=[ -3] Coef=[28..28] Data=[0x 21 30 D7 4F = 0b (------01 00------ -------- --------)]
[0x00000167.2]: ZRL=[ 0] Val=[ -6] Coef=[29..29] Data=[0x 30 D7 4F AA = 0b (--110000 1------- -------- --------)]
[0x00000168.1]: ZRL=[ 0] Val=[ 0] Coef=[30..30] Data=[0x D7 4F AA 82 = 0b (-1010--- -------- -------- --------)] EOB
DCT Matrix=[ 135 0 -164 0 132 0 -71 -213]
[ -156 0 228 0 -189 71 -426 0]
[ 123 0 -141 0 142 0 0 0]
[ -65 0 62 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ -71 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
Chr(0) (Tbl #1), MCU=[0,0]
*** ERROR: Can't find huffman bitstring @ 0x00000168.6, table 1, value [0xd3eaa080]
*** ERROR: Bad huffman code @ 0x00000168.5
[0x00000168.5]: ZRL=[ 0] Val=[ 0] Coef=[00= DC] Data=[0x D7 4F AA 82 = 0b (-----1-- -------- -------- --------)] ERROR
*** ERROR: Bad scan data in MCU(0,0): Lum AC CSS(0,0) @ Offset 0x00000168.6
MCU located at pixel=(0,0)
Chr(0) (Tbl #1), MCU=[0,0]
*** ERROR: Can't find huffman bitstring @ 0x00000168.7, table 1, value [0xa7d54100]
*** ERROR: Bad huffman code @ 0x00000168.6
[0x00000168.6]: ZRL=[ 0] Val=[ 0] Coef=[00= DC] Data=[0x D7 4F AA 82 = 0b (------1- -------- -------- --------)] ERROR
*** ERROR: Bad scan data in MCU(0,0): Lum AC CSS(1,0) @ Offset 0x00000168.7
MCU located at pixel=(8,0)
*** ERROR: Can't find huffman bitstring @ 0x0000018D.6, table 1, value [0x2a052940]
*** ERROR: Bad huffman code @ 0x0000018D.5
*** ERROR: Bad scan data in MCU(1,0): Lum AC CSS(0,0) @ Offset 0x0000018D.6
MCU located at pixel=(16,0)
*** ERROR: Can't find huffman bitstring @ 0x000001B9.0, table 1, value [0x40a55b91]
*** ERROR: Bad huffman code @ 0x000001B8.7
*** ERROR: Bad scan data in MCU(3,0): Lum AC CSS(0,0) @ Offset 0x000001B9.0
MCU located at pixel=(48,0)
*** ERROR: Can't find huffman bitstring @ 0x000001B9.2, table 1, value [0x02956e44]
*** ERROR: Bad huffman code @ 0x000001B9.1
*** ERROR: Bad scan data in MCU(3,0): Lum AC CSS(1,0) @ Offset 0x000001B9.2
MCU located at pixel=(56,0)
*** ERROR: Can't find huffman bitstring @ 0x000001CB.6, table 0, value [0xffe7ffc0]
*** ERROR: Bad huffman code @ 0x000001CB.5
*** ERROR: Bad scan data in MCU(4,0): Lum DC CSS(1,1) @ Offset 0x000001CB.6
MCU located at pixel=(72,8)
*** ERROR: Can't find huffman bitstring @ 0x000001CB.7, table 1, value [0xffcfff80]
*** ERROR: Bad huffman code @ 0x000001CB.6
Only reported first 20 instances of this message...
Detailed IDCT Dump (RGB):
MCU [ 0, 0]:
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
*** NOTE: YCC Clipped. MCU=( 1, 0) YCC=( -3, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -48, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -49, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -50, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -52, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -54, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -55, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -56, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -57, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -12, 128, 128) Y Underflow @ Offset 0x000003B7.7
Only reported first 10 instances of this message...
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x6B6B6B x000000 x606060 x000000 x000000 x646464 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x6A6A6A x000000 x585858 x000000 x000000 x5D5D5D x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x5D5D5D x000000 x404040 x000000 x000000 x474747 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x3D3D3D x000000 x1F1F1F x000000 x080808 x1A1A1A x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x0C0C0C x000000 x191919 x000000 x222222 x000000 x080808 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x0D0D0D x000000 x090909 x4E4E4E x141414 x4B4B4B x000000 x262626 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x202020 x000000 x3D3D3D xAFAFAF x7E7E7E x818181 x000000 x3F3F3F ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x2B2B2B x000000 x646464 xFDFDFD xD0D0D0 xAAAAAA x000000 x4D4D4D ]
Compression stats:
Compression Ratio: 21.59:1
Bits per pixel: 1.11:1
Huffman code histogram stats:
Huffman Table: (Dest ID: 0, Class: DC)
# codes of length 01 bits: 54 ( 64%)
# codes of length 02 bits: 17 ( 20%)
# codes of length 03 bits: 7 ( 8%)
# codes of length 04 bits: 3 ( 4%)
# codes of length 05 bits: 1 ( 1%)
# codes of length 06 bits: 0 ( 0%)
# codes of length 07 bits: 2 ( 2%)
# codes of length 08 bits: 0 ( 0%)
# codes of length 09 bits: 0 ( 0%)
# codes of length 10 bits: 0 ( 0%)
# codes of length 11 bits: 0 ( 0%)
# codes of length 12 bits: 0 ( 0%)
# codes of length 13 bits: 0 ( 0%)
# codes of length 14 bits: 0 ( 0%)
# codes of length 15 bits: 0 ( 0%)
# codes of length 16 bits: 0 ( 0%)
Huffman Table: (Dest ID: 1, Class: DC)
# codes of length 01 bits: 42 (100%)
# codes of length 02 bits: 0 ( 0%)
# codes of length 03 bits: 0 ( 0%)
# codes of length 04 bits: 0 ( 0%)
# codes of length 05 bits: 0 ( 0%)
# codes of length 06 bits: 0 ( 0%)
# codes of length 07 bits: 0 ( 0%)
# codes of length 08 bits: 0 ( 0%)
# codes of length 09 bits: 0 ( 0%)
# codes of length 10 bits: 0 ( 0%)
# codes of length 11 bits: 0 ( 0%)
# codes of length 12 bits: 0 ( 0%)
# codes of length 13 bits: 0 ( 0%)
# codes of length 14 bits: 0 ( 0%)
# codes of length 15 bits: 0 ( 0%)
# codes of length 16 bits: 0 ( 0%)
Huffman Table: (Dest ID: 0, Class: AC)
# codes of length 01 bits: 1 ( 0%)
# codes of length 02 bits: 439 ( 47%)
# codes of length 03 bits: 113 ( 12%)
# codes of length 04 bits: 199 ( 21%)
# codes of length 05 bits: 85 ( 9%)
# codes of length 06 bits: 32 ( 3%)
# codes of length 07 bits: 33 ( 4%)
# codes of length 08 bits: 9 ( 1%)
# codes of length 09 bits: 19 ( 2%)
# codes of length 10 bits: 6 ( 1%)
# codes of length 11 bits: 0 ( 0%)
# codes of length 12 bits: 0 ( 0%)
# codes of length 13 bits: 0 ( 0%)
# codes of length 14 bits: 0 ( 0%)
# codes of length 15 bits: 0 ( 0%)
# codes of length 16 bits: 0 ( 0%)
Huffman Table: (Dest ID: 1, Class: AC)
# codes of length 01 bits: 28 (100%)
# codes of length 02 bits: 0 ( 0%)
# codes of length 03 bits: 0 ( 0%)
# codes of length 04 bits: 0 ( 0%)
# codes of length 05 bits: 0 ( 0%)
# codes of length 06 bits: 0 ( 0%)
# codes of length 07 bits: 0 ( 0%)
# codes of length 08 bits: 0 ( 0%)
# codes of length 09 bits: 0 ( 0%)
# codes of length 10 bits: 0 ( 0%)
# codes of length 11 bits: 0 ( 0%)
# codes of length 12 bits: 0 ( 0%)
# codes of length 13 bits: 0 ( 0%)
# codes of length 14 bits: 0 ( 0%)
# codes of length 15 bits: 0 ( 0%)
# codes of length 16 bits: 0 ( 0%)
YCC clipping in DC:
Y component: [<0= 10] [>255= 0]
Cb component: [<0= 0] [>255= 0]
Cr component: [<0= 0] [>255= 0]
YCC histogram in DC (DCT sums : pre-ranged:
Y component histo: [min=-5105 max= 2567 avg=-2146.1]
Cb component histo: [min= 0 max= 0 avg= 0.0]
Cr component histo: [min= 0 max= 0 avg= 0.0]
YCC histogram in DC:
Y component histo: [min= -510 max= 448 avg= -140.2]
Cb component histo: [min= 0 max= 128 avg= 128.0]
Cr component histo: [min= 0 max= 128 avg= 128.0]
RGB histogram in DC (before clip):
R component histo: [min= 0 max= 255 avg= 19.8]
G component histo: [min= 0 max= 255 avg= 19.8]
B component histo: [min= 0 max= 255 avg= 19.8]
RGB clipping in DC:
R component: [<0= 0] [>255= 0]
G component: [<0= 0] [>255= 0]
B component: [<0= 0] [>255= 0]
RGB histogram in DC (after clip):
R component histo: [min= 0 max= 255 avg= 19.8]
G component histo: [min= 0 max= 255 avg= 19.8]
B component histo: [min= 0 max= 255 avg= 19.8]
Average Pixel Luminance (Y):
Y=[ 19] (range: 0..255)
Brightest Pixel Search:
YCC=[ 2567, 0, 0] RGB=[255,255,255] @ MCU[ 3, 0]
Finished Decoding SCAN Data
Number of RESTART markers decoded: 0
Next position in scan buffer: Offset 0x000003B7.7
OFFSET: 0x00000351
WARNING: Unknown marker [0xFF6E], stopping decode
Use [Img Search Fwd/Rev] to locate other valid embedded JPEGs
*** Searching Compression Signatures ***
Signature: 0130B2A516BC06C5D54B8D26507991E2
Signature (Rotated): 0130B2A516BC06C5D54B8D26507991E2
File Offset: 0 bytes
Chroma subsampling: 2x2
EXIF Make/Model: NONE
EXIF Makernotes: NONE
EXIF Software: NONE
Searching Compression Signatures: (3327 built-in, 0 user(*) )
EXIF.Make / Software EXIF.Model Quality Subsamp Match?
------------------------- ----------------------------------- ---------------- --------------
SW :[Adobe Photoshop ] [Save For Web 000]
Based on the analysis of compression characteristics and EXIF metadata:
ASSESSMENT: Class 1 - Image is processed/edited
This may be a new software editor for the database.
If this file is processed, and editor doesn't appear in list above,
PLEASE ADD TO DATABASE with [Tools->Add Camera to DB]
*** Additional Info ***
NOTE: Data exists after EOF, range: 0x00000000-0x000004BB (1211 bytes)
Filesize: [1211] Bytes
Start Offset: 0x00000000
*** Marker: SOI (xFFD8) ***
OFFSET: 0x00000000
*** Marker: APP1 (xFFE1) ***
OFFSET: 0x00000002
length = 24
Identifier = [Exif]
Identifier TIFF = 0x[49492A00 08000000]
Endian = Intel (little)
TAG Mark x002A = 0x002A
EXIF IFD0 @ Absolute 0x00000014
Dir Length = 0x0000
Offset to Next IFD = 0x00000000
*** Marker: APP12 (xFFEC) ***
OFFSET: 0x0000001C
length = 17
Identifier = [Ducky]
Photoshop Save For Web Quality = [0]
*** Marker: APP14 (xFFEE) ***
OFFSET: 0x0000002F
length = 14
*** Marker: DQT (xFFDB) ***
Define a Quantization Table.
OFFSET: 0x0000003F
Table length = 132
----
Precision=8 bits
Destination ID=0 (Luminance)
DQT, Row #0: 27 26 41 65 66 71 71 71
DQT, Row #1: 26 29 38 47 63 71 71 71
DQT, Row #2: 41 38 47 62 71 71 71 71
DQT, Row #3: 65 47 62 71 71 71 71 71
DQT, Row #4: 66 63 71 71 71 71 71 71
DQT, Row #5: 71 71 71 71 71 71 71 71
DQT, Row #6: 71 71 71 71 71 71 71 71
DQT, Row #7: 71 71 71 71 71 71 71 71
Approx quality factor = 30.48 (scaling=164.06 variance=10059.58)
----
Precision=8 bits
Destination ID=1 (Chrominance)
DQT, Row #0: 29 41 52 63 71 71 71 71
DQT, Row #1: 41 38 40 63 71 71 71 71
DQT, Row #2: 52 40 53 71 71 71 71 71
DQT, Row #3: 63 63 71 71 71 71 71 71
DQT, Row #4: 71 71 71 71 71 71 71 71
DQT, Row #5: 71 71 71 71 71 71 71 71
DQT, Row #6: 71 71 71 71 71 71 71 71
DQT, Row #7: 71 71 71 71 71 71 71 71
Approx quality factor = 55.01 (scaling=89.99 variance=1780.96)
*** Marker: SOF0 (Baseline DCT) (xFFC0) ***
OFFSET: 0x000000C5
Frame header length = 17
Precision = 8
Number of Lines = 39
Samples per Line = 112
Image Size = 112 x 39
Raw Image Orientation = Landscape
Number of Img components = 3
Component[1]: ID=0x01, Samp Fac=0x22 (Subsamp 1 x 1), Quant Tbl Sel=0x00 (Lum: Y)
Component[2]: ID=0x02, Samp Fac=0x11 (Subsamp 2 x 2), Quant Tbl Sel=0x01 (Chrom: Cb)
Component[3]: ID=0x03, Samp Fac=0x11 (Subsamp 2 x 2), Quant Tbl Sel=0x01 (Chrom: Cr)
*** Marker: DHT (Define Huffman Table) (xFFC4) ***
OFFSET: 0x000000D8
Huffman table length = 112
----
Destination ID = 0
Class = 0 (DC / Lossless Table)
Codes of length 01 bits (001 total): 00
Codes of length 02 bits (001 total): 03
Codes of length 03 bits (001 total): 04
Codes of length 04 bits (001 total): 05
Codes of length 05 bits (001 total): 01
Codes of length 06 bits (001 total): 02
Codes of length 07 bits (001 total): 06
Codes of length 08 bits (000 total):
Codes of length 09 bits (000 total):
Codes of length 10 bits (000 total):
Codes of length 11 bits (000 total):
Codes of length 12 bits (000 total):
Codes of length 13 bits (000 total):
Codes of length 14 bits (000 total):
Codes of length 15 bits (000 total):
Codes of length 16 bits (000 total):
Total number of codes: 007
Expanded Form of Codes:
Codes of length 01 bits:
0 = 00 (EOB) (Total Len = 1)
Codes of length 02 bits:
10 = 03 (Total Len = 5)
Codes of length 03 bits:
110 = 04 (Total Len = 7)
Codes of length 04 bits:
1110 = 05 (Total Len = 9)
Codes of length 05 bits:
11110 = 01 (Total Len = 6)
Codes of length 06 bits:
111110 = 02 (Total Len = 8)
Codes of length 07 bits:
1111110 = 06 (Total Len = 13)
----
Destination ID = 1
Class = 0 (DC / Lossless Table)
Codes of length 01 bits (001 total): 00
Codes of length 02 bits (000 total):
Codes of length 03 bits (000 total):
Codes of length 04 bits (000 total):
Codes of length 05 bits (000 total):
Codes of length 06 bits (000 total):
Codes of length 07 bits (000 total):
Codes of length 08 bits (000 total):
Codes of length 09 bits (000 total):
Codes of length 10 bits (000 total):
Codes of length 11 bits (000 total):
Codes of length 12 bits (000 total):
Codes of length 13 bits (000 total):
Codes of length 14 bits (000 total):
Codes of length 15 bits (000 total):
Codes of length 16 bits (000 total):
Total number of codes: 001
Expanded Form of Codes:
Codes of length 01 bits:
0 = 00 (EOB) (Total Len = 1)
----
Destination ID = 0
Class = 1 (AC Table)
Codes of length 01 bits (000 total):
Codes of length 02 bits (002 total): 01 02
Codes of length 03 bits (001 total): 11
Codes of length 04 bits (003 total): 00 21 03
Codes of length 05 bits (003 total): 31 12 04
Codes of length 06 bits (002 total): 51 22
Codes of length 07 bits (004 total): 41 61 13 05
Codes of length 08 bits (002 total): F0 42
Codes of length 09 bits (008 total): 71 81 91 C1 32 52 23 14
Codes of length 10 bits (007 total): B1 D1 62 72 73 C3 84
Codes of length 11 bits (001 total): 45
Codes of length 12 bits (000 total):
Codes of length 13 bits (000 total):
Codes of length 14 bits (000 total):
Codes of length 15 bits (000 total):
Codes of length 16 bits (000 total):
Total number of codes: 033
Expanded Form of Codes:
Codes of length 02 bits:
00 = 01 (Total Len = 3)
01 = 02 (Total Len = 4)
Codes of length 03 bits:
100 = 11 (Total Len = 4)
Codes of length 04 bits:
1010 = 00 (EOB) (Total Len = 4)
1011 = 21 (Total Len = 5)
1100 = 03 (Total Len = 7)
Codes of length 05 bits:
11010 = 31 (Total Len = 6)
11011 = 12 (Total Len = 7)
11100 = 04 (Total Len = 9)
Codes of length 06 bits:
111010 = 51 (Total Len = 7)
111011 = 22 (Total Len = 8)
Codes of length 07 bits:
1111000 = 41 (Total Len = 8)
1111001 = 61 (Total Len = 8)
1111010 = 13 (Total Len = 10)
1111011 = 05 (Total Len = 12)
Codes of length 08 bits:
11111000 = F0 (ZRL) (Total Len = 8)
11111001 = 42 (Total Len = 10)
Codes of length 09 bits:
111110100 = 71 (Total Len = 10)
111110101 = 81 (Total Len = 10)
111110110 = 91 (Total Len = 10)
111110111 = C1 (Total Len = 10)
111111000 = 32 (Total Len = 11)
111111001 = 52 (Total Len = 11)
111111010 = 23 (Total Len = 12)
111111011 = 14 (Total Len = 13)
Codes of length 10 bits:
1111111000 = B1 (Total Len = 11)
1111111001 = D1 (Total Len = 11)
1111111010 = 62 (Total Len = 12)
1111111011 = 72 (Total Len = 12)
1111111100 = 73 (Total Len = 13)
1111111101 = C3 (Total Len = 13)
1111111110 = 84 (Total Len = 14)
Codes of length 11 bits:
11111111110 = 45 (Total Len = 16)
----
Destination ID = 1
Class = 1 (AC Table)
Codes of length 01 bits (001 total): 00
Codes of length 02 bits (000 total):
Codes of length 03 bits (000 total):
Codes of length 04 bits (000 total):
Codes of length 05 bits (000 total):
Codes of length 06 bits (000 total):
Codes of length 07 bits (000 total):
Codes of length 08 bits (000 total):
Codes of length 09 bits (000 total):
Codes of length 10 bits (000 total):
Codes of length 11 bits (000 total):
Codes of length 12 bits (000 total):
Codes of length 13 bits (000 total):
Codes of length 14 bits (000 total):
Codes of length 15 bits (000 total):
Codes of length 16 bits (000 total):
Total number of codes: 001
Expanded Form of Codes:
Codes of length 01 bits:
0 = 00 (EOB) (Total Len = 1)
*** Marker: SOS (Start of Scan) (xFFDA) ***
OFFSET: 0x0000014A
Scan header length = 12
Number of img components = 3
Component[1]: selector=0x01, table=0x00
Component[2]: selector=0x02, table=0x11
Component[3]: selector=0x03, table=0x11
Spectral selection = 0 .. 63
Successive approximation = 0x00
*** Decoding SCAN Data ***
OFFSET: 0x00000158
Scan Decode Mode: Full IDCT (AC + DC)
Lum (Tbl #0), MCU=[0,0]
[0x00000158.0]: ZRL=[ 0] Val=[ -38] Coef=[00= DC] Data=[0x FC CD 29 55 = 0b (11111100 11001--- -------- --------)]
[0x00000159.5]: ZRL=[ 0] Val=[ 0] Coef=[01..01] Data=[0x CD 29 55 F4 = 0b (-----101 0------- -------- --------)] EOB
DCT Matrix=[-1026 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
Lum (Tbl #0), MCU=[0,0]
[0x0000015A.1]: ZRL=[ 0] Val=[ 0] Coef=[00= DC] Data=[0x 29 55 F4 5F = 0b (-0------ -------- -------- --------)] EOB
[0x0000015A.2]: ZRL=[ 0] Val=[ 0] Coef=[01..01] Data=[0x 29 55 F4 5F = 0b (--1010-- -------- -------- --------)] EOB
DCT Matrix=[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
Lum (Tbl #0), MCU=[0,0]
[0x0000015A.6]: ZRL=[ 0] Val=[ 0] Coef=[00= DC] Data=[0x 29 55 F4 5F = 0b (------0- -------- -------- --------)] EOB
[0x0000015A.7]: ZRL=[ 0] Val=[ 0] Coef=[01..01] Data=[0x 29 55 F4 5F = 0b (-------1 010----- -------- --------)] EOB
DCT Matrix=[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
Lum (Tbl #0), MCU=[0,0]
[0x0000015B.3]: ZRL=[ 0] Val=[ 5] Coef=[00= DC] Data=[0x 55 F4 5F D3 = 0b (---10101 -------- -------- --------)]
[0x0000015C.0]: ZRL=[ 1] Val=[ -6] Coef=[01..02] Data=[0x F4 5F D3 F5 = 0b (11110100 01------ -------- --------)]
[0x0000015D.2]: ZRL=[ 0] Val=[ 3] Coef=[03..03] Data=[0x 5F D3 F5 A3 = 0b (--0111-- -------- -------- --------)]
[0x0000015D.6]: ZRL=[ 1] Val=[ -4] Coef=[04..05] Data=[0x 5F D3 F5 A3 = 0b (------11 11010011 -------- --------)]
[0x0000015F.0]: ZRL=[ 1] Val=[ 6] Coef=[06..07] Data=[0x F5 A3 B3 76 = 0b (11110101 10------ -------- --------)]
[0x00000160.2]: ZRL=[ 1] Val=[ -1] Coef=[08..09] Data=[0x A3 B3 76 C9 = 0b (--1000-- -------- -------- --------)]
[0x00000160.6]: ZRL=[ 2] Val=[ -3] Coef=[10..12] Data=[0x A3 B3 76 C9 = 0b (------11 101100-- -------- --------)]
[0x00000161.6]: ZRL=[ 1] Val=[ 2] Coef=[13..14] Data=[0x B3 76 C9 B7 = 0b (------11 01110--- -------- --------)]
[0x00000162.5]: ZRL=[ 1] Val=[ -3] Coef=[15..16] Data=[0x 76 C9 B7 E2 = 0b (-----110 1100---- -------- --------)]
[0x00000163.4]: ZRL=[ 1] Val=[ 1] Coef=[17..18] Data=[0x C9 B7 E2 21 = 0b (----1001 -------- -------- --------)]
[0x00000164.0]: ZRL=[ 2] Val=[ -1] Coef=[19..21] Data=[0x B7 E2 21 30 = 0b (10110--- -------- -------- --------)]
[0x00000164.5]: ZRL=[ 3] Val=[ 2] Coef=[22..25] Data=[0x B7 E2 21 30 = 0b (-----111 11100010 -------- --------)]
[0x00000166.0]: ZRL=[ 0] Val=[ 1] Coef=[26..26] Data=[0x 21 30 D7 4F = 0b (001----- -------- -------- --------)]
[0x00000166.3]: ZRL=[ 0] Val=[ -1] Coef=[27..27] Data=[0x 21 30 D7 4F = 0b (---000-- -------- -------- --------)]
[0x00000166.6]: ZRL=[ 0] Val=[ -3] Coef=[28..28] Data=[0x 21 30 D7 4F = 0b (------01 00------ -------- --------)]
[0x00000167.2]: ZRL=[ 0] Val=[ -6] Coef=[29..29] Data=[0x 30 D7 4F AA = 0b (--110000 1------- -------- --------)]
[0x00000168.1]: ZRL=[ 0] Val=[ 0] Coef=[30..30] Data=[0x D7 4F AA 82 = 0b (-1010--- -------- -------- --------)] EOB
DCT Matrix=[ 135 0 -164 0 132 0 -71 -213]
[ -156 0 228 0 -189 71 -426 0]
[ 123 0 -141 0 142 0 0 0]
[ -65 0 62 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ -71 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
Chr(0) (Tbl #1), MCU=[0,0]
*** ERROR: Can't find huffman bitstring @ 0x00000168.6, table 1, value [0xd3eaa080]
*** ERROR: Bad huffman code @ 0x00000168.5
[0x00000168.5]: ZRL=[ 0] Val=[ 0] Coef=[00= DC] Data=[0x D7 4F AA 82 = 0b (-----1-- -------- -------- --------)] ERROR
*** ERROR: Bad scan data in MCU(0,0): Lum AC CSS(0,0) @ Offset 0x00000168.6
MCU located at pixel=(0,0)
Chr(0) (Tbl #1), MCU=[0,0]
*** ERROR: Can't find huffman bitstring @ 0x00000168.7, table 1, value [0xa7d54100]
*** ERROR: Bad huffman code @ 0x00000168.6
[0x00000168.6]: ZRL=[ 0] Val=[ 0] Coef=[00= DC] Data=[0x D7 4F AA 82 = 0b (------1- -------- -------- --------)] ERROR
*** ERROR: Bad scan data in MCU(0,0): Lum AC CSS(1,0) @ Offset 0x00000168.7
MCU located at pixel=(8,0)
*** ERROR: Can't find huffman bitstring @ 0x0000018D.6, table 1, value [0x2a052940]
*** ERROR: Bad huffman code @ 0x0000018D.5
*** ERROR: Bad scan data in MCU(1,0): Lum AC CSS(0,0) @ Offset 0x0000018D.6
MCU located at pixel=(16,0)
*** ERROR: Can't find huffman bitstring @ 0x000001B9.0, table 1, value [0x40a55b91]
*** ERROR: Bad huffman code @ 0x000001B8.7
*** ERROR: Bad scan data in MCU(3,0): Lum AC CSS(0,0) @ Offset 0x000001B9.0
MCU located at pixel=(48,0)
*** ERROR: Can't find huffman bitstring @ 0x000001B9.2, table 1, value [0x02956e44]
*** ERROR: Bad huffman code @ 0x000001B9.1
*** ERROR: Bad scan data in MCU(3,0): Lum AC CSS(1,0) @ Offset 0x000001B9.2
MCU located at pixel=(56,0)
*** ERROR: Can't find huffman bitstring @ 0x000001CB.6, table 0, value [0xffe7ffc0]
*** ERROR: Bad huffman code @ 0x000001CB.5
*** ERROR: Bad scan data in MCU(4,0): Lum DC CSS(1,1) @ Offset 0x000001CB.6
MCU located at pixel=(72,8)
*** ERROR: Can't find huffman bitstring @ 0x000001CB.7, table 1, value [0xffcfff80]
*** ERROR: Bad huffman code @ 0x000001CB.6
Only reported first 20 instances of this message...
Detailed IDCT Dump (RGB):
MCU [ 0, 0]:
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
*** NOTE: YCC Clipped. MCU=( 1, 0) YCC=( -3, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -48, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -49, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -50, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -52, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -54, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -55, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -56, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -57, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -12, 128, 128) Y Underflow @ Offset 0x000003B7.7
Only reported first 10 instances of this message...
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x6B6B6B x000000 x606060 x000000 x000000 x646464 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x6A6A6A x000000 x585858 x000000 x000000 x5D5D5D x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x5D5D5D x000000 x404040 x000000 x000000 x474747 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x3D3D3D x000000 x1F1F1F x000000 x080808 x1A1A1A x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x0C0C0C x000000 x191919 x000000 x222222 x000000 x080808 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x0D0D0D x000000 x090909 x4E4E4E x141414 x4B4B4B x000000 x262626 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x202020 x000000 x3D3D3D xAFAFAF x7E7E7E x818181 x000000 x3F3F3F ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x2B2B2B x000000 x646464 xFDFDFD xD0D0D0 xAAAAAA x000000 x4D4D4D ]
Compression stats:
Compression Ratio: 21.59:1
Bits per pixel: 1.11:1
Huffman code histogram stats:
Huffman Table: (Dest ID: 0, Class: DC)
# codes of length 01 bits: 54 ( 64%)
# codes of length 02 bits: 17 ( 20%)
# codes of length 03 bits: 7 ( 8%)
# codes of length 04 bits: 3 ( 4%)
# codes of length 05 bits: 1 ( 1%)
# codes of length 06 bits: 0 ( 0%)
# codes of length 07 bits: 2 ( 2%)
# codes of length 08 bits: 0 ( 0%)
# codes of length 09 bits: 0 ( 0%)
# codes of length 10 bits: 0 ( 0%)
# codes of length 11 bits: 0 ( 0%)
# codes of length 12 bits: 0 ( 0%)
# codes of length 13 bits: 0 ( 0%)
# codes of length 14 bits: 0 ( 0%)
# codes of length 15 bits: 0 ( 0%)
# codes of length 16 bits: 0 ( 0%)
Huffman Table: (Dest ID: 1, Class: DC)
# codes of length 01 bits: 42 (100%)
# codes of length 02 bits: 0 ( 0%)
# codes of length 03 bits: 0 ( 0%)
# codes of length 04 bits: 0 ( 0%)
# codes of length 05 bits: 0 ( 0%)
# codes of length 06 bits: 0 ( 0%)
# codes of length 07 bits: 0 ( 0%)
# codes of length 08 bits: 0 ( 0%)
# codes of length 09 bits: 0 ( 0%)
# codes of length 10 bits: 0 ( 0%)
# codes of length 11 bits: 0 ( 0%)
# codes of length 12 bits: 0 ( 0%)
# codes of length 13 bits: 0 ( 0%)
# codes of length 14 bits: 0 ( 0%)
# codes of length 15 bits: 0 ( 0%)
# codes of length 16 bits: 0 ( 0%)
Huffman Table: (Dest ID: 0, Class: AC)
# codes of length 01 bits: 1 ( 0%)
# codes of length 02 bits: 439 ( 47%)
# codes of length 03 bits: 113 ( 12%)
# codes of length 04 bits: 199 ( 21%)
# codes of length 05 bits: 85 ( 9%)
# codes of length 06 bits: 32 ( 3%)
# codes of length 07 bits: 33 ( 4%)
# codes of length 08 bits: 9 ( 1%)
# codes of length 09 bits: 19 ( 2%)
# codes of length 10 bits: 6 ( 1%)
# codes of length 11 bits: 0 ( 0%)
# codes of length 12 bits: 0 ( 0%)
# codes of length 13 bits: 0 ( 0%)
# codes of length 14 bits: 0 ( 0%)
# codes of length 15 bits: 0 ( 0%)
# codes of length 16 bits: 0 ( 0%)
Huffman Table: (Dest ID: 1, Class: AC)
# codes of length 01 bits: 28 (100%)
# codes of length 02 bits: 0 ( 0%)
# codes of length 03 bits: 0 ( 0%)
# codes of length 04 bits: 0 ( 0%)
# codes of length 05 bits: 0 ( 0%)
# codes of length 06 bits: 0 ( 0%)
# codes of length 07 bits: 0 ( 0%)
# codes of length 08 bits: 0 ( 0%)
# codes of length 09 bits: 0 ( 0%)
# codes of length 10 bits: 0 ( 0%)
# codes of length 11 bits: 0 ( 0%)
# codes of length 12 bits: 0 ( 0%)
# codes of length 13 bits: 0 ( 0%)
# codes of length 14 bits: 0 ( 0%)
# codes of length 15 bits: 0 ( 0%)
# codes of length 16 bits: 0 ( 0%)
YCC clipping in DC:
Y component: [<0= 10] [>255= 0]
Cb component: [<0= 0] [>255= 0]
Cr component: [<0= 0] [>255= 0]
YCC histogram in DC (DCT sums : pre-ranged:
Y component histo: [min=-5105 max= 2567 avg=-2146.1]
Cb component histo: [min= 0 max= 0 avg= 0.0]
Cr component histo: [min= 0 max= 0 avg= 0.0]
YCC histogram in DC:
Y component histo: [min= -510 max= 448 avg= -140.2]
Cb component histo: [min= 0 max= 128 avg= 128.0]
Cr component histo: [min= 0 max= 128 avg= 128.0]
RGB histogram in DC (before clip):
R component histo: [min= 0 max= 255 avg= 19.8]
G component histo: [min= 0 max= 255 avg= 19.8]
B component histo: [min= 0 max= 255 avg= 19.8]
RGB clipping in DC:
R component: [<0= 0] [>255= 0]
G component: [<0= 0] [>255= 0]
B component: [<0= 0] [>255= 0]
RGB histogram in DC (after clip):
R component histo: [min= 0 max= 255 avg= 19.8]
G component histo: [min= 0 max= 255 avg= 19.8]
B component histo: [min= 0 max= 255 avg= 19.8]
Average Pixel Luminance (Y):
Y=[ 19] (range: 0..255)
Brightest Pixel Search:
YCC=[ 2567, 0, 0] RGB=[255,255,255] @ MCU[ 3, 0]
Finished Decoding SCAN Data
Number of RESTART markers decoded: 0
Next position in scan buffer: Offset 0x000003B7.7
OFFSET: 0x00000351
WARNING: Unknown marker [0xFF6E], stopping decode
Use [Img Search Fwd/Rev] to locate other valid embedded JPEGs
*** Searching Compression Signatures ***
Signature: 0130B2A516BC06C5D54B8D26507991E2
Signature (Rotated): 0130B2A516BC06C5D54B8D26507991E2
File Offset: 0 bytes
Chroma subsampling: 2x2
EXIF Make/Model: NONE
EXIF Makernotes: NONE
EXIF Software: NONE
Searching Compression Signatures: (3327 built-in, 0 user(*) )
EXIF.Make / Software EXIF.Model Quality Subsamp Match?
------------------------- ----------------------------------- ---------------- --------------
SW :[Adobe Photoshop ] [Save For Web 000]
Based on the analysis of compression characteristics and EXIF metadata:
ASSESSMENT: Class 1 - Image is processed/edited
This may be a new software editor for the database.
If this file is processed, and editor doesn't appear in list above,
PLEASE ADD TO DATABASE with [Tools->Add Camera to DB]
*** Additional Info ***
NOTE: Data exists after EOF, range: 0x00000000-0x000004BB (1211 bytes)
- 1useful
- 3not useful
#185. Posted:
Status: Offline
Joined: Feb 15, 201014Year Member
Posts: 640
Reputation Power: 27
I was looking at theres a password messed around andd the picture turned into the letters mantras, if that helps
- 0useful
- 0not useful
#186. Posted:
Status: Offline
Joined: Jun 22, 201113Year Member
Posts: 7,773
Reputation Power: 3100
Status: Offline
Joined: Jun 22, 201113Year Member
Posts: 7,773
Reputation Power: 3100
mandoburger6661 wrote Decoded the 2nd pic, might helpWhat the hell does that even mean?
Filename: [C:\Documents and Settings\Dell\Desktop\sign_me_in_here.jpg]
Filesize: [1211] Bytes
Start Offset: 0x00000000
*** Marker: SOI (xFFD8) ***
OFFSET: 0x00000000
*** Marker: APP1 (xFFE1) ***
OFFSET: 0x00000002
length = 24
Identifier = [Exif]
Identifier TIFF = 0x[49492A00 08000000]
Endian = Intel (little)
TAG Mark x002A = 0x002A
EXIF IFD0 @ Absolute 0x00000014
Dir Length = 0x0000
Offset to Next IFD = 0x00000000
*** Marker: APP12 (xFFEC) ***
OFFSET: 0x0000001C
length = 17
Identifier = [Ducky]
Photoshop Save For Web Quality = [0]
*** Marker: APP14 (xFFEE) ***
OFFSET: 0x0000002F
length = 14
*** Marker: DQT (xFFDB) ***
Define a Quantization Table.
OFFSET: 0x0000003F
Table length = 132
----
Precision=8 bits
Destination ID=0 (Luminance)
DQT, Row #0: 27 26 41 65 66 71 71 71
DQT, Row #1: 26 29 38 47 63 71 71 71
DQT, Row #2: 41 38 47 62 71 71 71 71
DQT, Row #3: 65 47 62 71 71 71 71 71
DQT, Row #4: 66 63 71 71 71 71 71 71
DQT, Row #5: 71 71 71 71 71 71 71 71
DQT, Row #6: 71 71 71 71 71 71 71 71
DQT, Row #7: 71 71 71 71 71 71 71 71
Approx quality factor = 30.48 (scaling=164.06 variance=10059.58)
----
Precision=8 bits
Destination ID=1 (Chrominance)
DQT, Row #0: 29 41 52 63 71 71 71 71
DQT, Row #1: 41 38 40 63 71 71 71 71
DQT, Row #2: 52 40 53 71 71 71 71 71
DQT, Row #3: 63 63 71 71 71 71 71 71
DQT, Row #4: 71 71 71 71 71 71 71 71
DQT, Row #5: 71 71 71 71 71 71 71 71
DQT, Row #6: 71 71 71 71 71 71 71 71
DQT, Row #7: 71 71 71 71 71 71 71 71
Approx quality factor = 55.01 (scaling=89.99 variance=1780.96)
*** Marker: SOF0 (Baseline DCT) (xFFC0) ***
OFFSET: 0x000000C5
Frame header length = 17
Precision = 8
Number of Lines = 39
Samples per Line = 112
Image Size = 112 x 39
Raw Image Orientation = Landscape
Number of Img components = 3
Component[1]: ID=0x01, Samp Fac=0x22 (Subsamp 1 x 1), Quant Tbl Sel=0x00 (Lum: Y)
Component[2]: ID=0x02, Samp Fac=0x11 (Subsamp 2 x 2), Quant Tbl Sel=0x01 (Chrom: Cb)
Component[3]: ID=0x03, Samp Fac=0x11 (Subsamp 2 x 2), Quant Tbl Sel=0x01 (Chrom: Cr)
*** Marker: DHT (Define Huffman Table) (xFFC4) ***
OFFSET: 0x000000D8
Huffman table length = 112
----
Destination ID = 0
Class = 0 (DC / Lossless Table)
Codes of length 01 bits (001 total): 00
Codes of length 02 bits (001 total): 03
Codes of length 03 bits (001 total): 04
Codes of length 04 bits (001 total): 05
Codes of length 05 bits (001 total): 01
Codes of length 06 bits (001 total): 02
Codes of length 07 bits (001 total): 06
Codes of length 08 bits (000 total):
Codes of length 09 bits (000 total):
Codes of length 10 bits (000 total):
Codes of length 11 bits (000 total):
Codes of length 12 bits (000 total):
Codes of length 13 bits (000 total):
Codes of length 14 bits (000 total):
Codes of length 15 bits (000 total):
Codes of length 16 bits (000 total):
Total number of codes: 007
Expanded Form of Codes:
Codes of length 01 bits:
0 = 00 (EOB) (Total Len = 1)
Codes of length 02 bits:
10 = 03 (Total Len = 5)
Codes of length 03 bits:
110 = 04 (Total Len = 7)
Codes of length 04 bits:
1110 = 05 (Total Len = 9)
Codes of length 05 bits:
11110 = 01 (Total Len = 6)
Codes of length 06 bits:
111110 = 02 (Total Len = 8)
Codes of length 07 bits:
1111110 = 06 (Total Len = 13)
----
Destination ID = 1
Class = 0 (DC / Lossless Table)
Codes of length 01 bits (001 total): 00
Codes of length 02 bits (000 total):
Codes of length 03 bits (000 total):
Codes of length 04 bits (000 total):
Codes of length 05 bits (000 total):
Codes of length 06 bits (000 total):
Codes of length 07 bits (000 total):
Codes of length 08 bits (000 total):
Codes of length 09 bits (000 total):
Codes of length 10 bits (000 total):
Codes of length 11 bits (000 total):
Codes of length 12 bits (000 total):
Codes of length 13 bits (000 total):
Codes of length 14 bits (000 total):
Codes of length 15 bits (000 total):
Codes of length 16 bits (000 total):
Total number of codes: 001
Expanded Form of Codes:
Codes of length 01 bits:
0 = 00 (EOB) (Total Len = 1)
----
Destination ID = 0
Class = 1 (AC Table)
Codes of length 01 bits (000 total):
Codes of length 02 bits (002 total): 01 02
Codes of length 03 bits (001 total): 11
Codes of length 04 bits (003 total): 00 21 03
Codes of length 05 bits (003 total): 31 12 04
Codes of length 06 bits (002 total): 51 22
Codes of length 07 bits (004 total): 41 61 13 05
Codes of length 08 bits (002 total): F0 42
Codes of length 09 bits (008 total): 71 81 91 C1 32 52 23 14
Codes of length 10 bits (007 total): B1 D1 62 72 73 C3 84
Codes of length 11 bits (001 total): 45
Codes of length 12 bits (000 total):
Codes of length 13 bits (000 total):
Codes of length 14 bits (000 total):
Codes of length 15 bits (000 total):
Codes of length 16 bits (000 total):
Total number of codes: 033
Expanded Form of Codes:
Codes of length 02 bits:
00 = 01 (Total Len = 3)
01 = 02 (Total Len = 4)
Codes of length 03 bits:
100 = 11 (Total Len = 4)
Codes of length 04 bits:
1010 = 00 (EOB) (Total Len = 4)
1011 = 21 (Total Len = 5)
1100 = 03 (Total Len = 7)
Codes of length 05 bits:
11010 = 31 (Total Len = 6)
11011 = 12 (Total Len = 7)
11100 = 04 (Total Len = 9)
Codes of length 06 bits:
111010 = 51 (Total Len = 7)
111011 = 22 (Total Len = 8)
Codes of length 07 bits:
1111000 = 41 (Total Len = 8)
1111001 = 61 (Total Len = 8)
1111010 = 13 (Total Len = 10)
1111011 = 05 (Total Len = 12)
Codes of length 08 bits:
11111000 = F0 (ZRL) (Total Len = 8)
11111001 = 42 (Total Len = 10)
Codes of length 09 bits:
111110100 = 71 (Total Len = 10)
111110101 = 81 (Total Len = 10)
111110110 = 91 (Total Len = 10)
111110111 = C1 (Total Len = 10)
111111000 = 32 (Total Len = 11)
111111001 = 52 (Total Len = 11)
111111010 = 23 (Total Len = 12)
111111011 = 14 (Total Len = 13)
Codes of length 10 bits:
1111111000 = B1 (Total Len = 11)
1111111001 = D1 (Total Len = 11)
1111111010 = 62 (Total Len = 12)
1111111011 = 72 (Total Len = 12)
1111111100 = 73 (Total Len = 13)
1111111101 = C3 (Total Len = 13)
1111111110 = 84 (Total Len = 14)
Codes of length 11 bits:
11111111110 = 45 (Total Len = 16)
----
Destination ID = 1
Class = 1 (AC Table)
Codes of length 01 bits (001 total): 00
Codes of length 02 bits (000 total):
Codes of length 03 bits (000 total):
Codes of length 04 bits (000 total):
Codes of length 05 bits (000 total):
Codes of length 06 bits (000 total):
Codes of length 07 bits (000 total):
Codes of length 08 bits (000 total):
Codes of length 09 bits (000 total):
Codes of length 10 bits (000 total):
Codes of length 11 bits (000 total):
Codes of length 12 bits (000 total):
Codes of length 13 bits (000 total):
Codes of length 14 bits (000 total):
Codes of length 15 bits (000 total):
Codes of length 16 bits (000 total):
Total number of codes: 001
Expanded Form of Codes:
Codes of length 01 bits:
0 = 00 (EOB) (Total Len = 1)
*** Marker: SOS (Start of Scan) (xFFDA) ***
OFFSET: 0x0000014A
Scan header length = 12
Number of img components = 3
Component[1]: selector=0x01, table=0x00
Component[2]: selector=0x02, table=0x11
Component[3]: selector=0x03, table=0x11
Spectral selection = 0 .. 63
Successive approximation = 0x00
*** Decoding SCAN Data ***
OFFSET: 0x00000158
Scan Decode Mode: Full IDCT (AC + DC)
Lum (Tbl #0), MCU=[0,0]
[0x00000158.0]: ZRL=[ 0] Val=[ -38] Coef=[00= DC] Data=[0x FC CD 29 55 = 0b (11111100 11001--- -------- --------)]
[0x00000159.5]: ZRL=[ 0] Val=[ 0] Coef=[01..01] Data=[0x CD 29 55 F4 = 0b (-----101 0------- -------- --------)] EOB
DCT Matrix=[-1026 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
Lum (Tbl #0), MCU=[0,0]
[0x0000015A.1]: ZRL=[ 0] Val=[ 0] Coef=[00= DC] Data=[0x 29 55 F4 5F = 0b (-0------ -------- -------- --------)] EOB
[0x0000015A.2]: ZRL=[ 0] Val=[ 0] Coef=[01..01] Data=[0x 29 55 F4 5F = 0b (--1010-- -------- -------- --------)] EOB
DCT Matrix=[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
Lum (Tbl #0), MCU=[0,0]
[0x0000015A.6]: ZRL=[ 0] Val=[ 0] Coef=[00= DC] Data=[0x 29 55 F4 5F = 0b (------0- -------- -------- --------)] EOB
[0x0000015A.7]: ZRL=[ 0] Val=[ 0] Coef=[01..01] Data=[0x 29 55 F4 5F = 0b (-------1 010----- -------- --------)] EOB
DCT Matrix=[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
Lum (Tbl #0), MCU=[0,0]
[0x0000015B.3]: ZRL=[ 0] Val=[ 5] Coef=[00= DC] Data=[0x 55 F4 5F D3 = 0b (---10101 -------- -------- --------)]
[0x0000015C.0]: ZRL=[ 1] Val=[ -6] Coef=[01..02] Data=[0x F4 5F D3 F5 = 0b (11110100 01------ -------- --------)]
[0x0000015D.2]: ZRL=[ 0] Val=[ 3] Coef=[03..03] Data=[0x 5F D3 F5 A3 = 0b (--0111-- -------- -------- --------)]
[0x0000015D.6]: ZRL=[ 1] Val=[ -4] Coef=[04..05] Data=[0x 5F D3 F5 A3 = 0b (------11 11010011 -------- --------)]
[0x0000015F.0]: ZRL=[ 1] Val=[ 6] Coef=[06..07] Data=[0x F5 A3 B3 76 = 0b (11110101 10------ -------- --------)]
[0x00000160.2]: ZRL=[ 1] Val=[ -1] Coef=[08..09] Data=[0x A3 B3 76 C9 = 0b (--1000-- -------- -------- --------)]
[0x00000160.6]: ZRL=[ 2] Val=[ -3] Coef=[10..12] Data=[0x A3 B3 76 C9 = 0b (------11 101100-- -------- --------)]
[0x00000161.6]: ZRL=[ 1] Val=[ 2] Coef=[13..14] Data=[0x B3 76 C9 B7 = 0b (------11 01110--- -------- --------)]
[0x00000162.5]: ZRL=[ 1] Val=[ -3] Coef=[15..16] Data=[0x 76 C9 B7 E2 = 0b (-----110 1100---- -------- --------)]
[0x00000163.4]: ZRL=[ 1] Val=[ 1] Coef=[17..18] Data=[0x C9 B7 E2 21 = 0b (----1001 -------- -------- --------)]
[0x00000164.0]: ZRL=[ 2] Val=[ -1] Coef=[19..21] Data=[0x B7 E2 21 30 = 0b (10110--- -------- -------- --------)]
[0x00000164.5]: ZRL=[ 3] Val=[ 2] Coef=[22..25] Data=[0x B7 E2 21 30 = 0b (-----111 11100010 -------- --------)]
[0x00000166.0]: ZRL=[ 0] Val=[ 1] Coef=[26..26] Data=[0x 21 30 D7 4F = 0b (001----- -------- -------- --------)]
[0x00000166.3]: ZRL=[ 0] Val=[ -1] Coef=[27..27] Data=[0x 21 30 D7 4F = 0b (---000-- -------- -------- --------)]
[0x00000166.6]: ZRL=[ 0] Val=[ -3] Coef=[28..28] Data=[0x 21 30 D7 4F = 0b (------01 00------ -------- --------)]
[0x00000167.2]: ZRL=[ 0] Val=[ -6] Coef=[29..29] Data=[0x 30 D7 4F AA = 0b (--110000 1------- -------- --------)]
[0x00000168.1]: ZRL=[ 0] Val=[ 0] Coef=[30..30] Data=[0x D7 4F AA 82 = 0b (-1010--- -------- -------- --------)] EOB
DCT Matrix=[ 135 0 -164 0 132 0 -71 -213]
[ -156 0 228 0 -189 71 -426 0]
[ 123 0 -141 0 142 0 0 0]
[ -65 0 62 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ -71 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
Chr(0) (Tbl #1), MCU=[0,0]
*** ERROR: Can't find huffman bitstring @ 0x00000168.6, table 1, value [0xd3eaa080]
*** ERROR: Bad huffman code @ 0x00000168.5
[0x00000168.5]: ZRL=[ 0] Val=[ 0] Coef=[00= DC] Data=[0x D7 4F AA 82 = 0b (-----1-- -------- -------- --------)] ERROR
*** ERROR: Bad scan data in MCU(0,0): Lum AC CSS(0,0) @ Offset 0x00000168.6
MCU located at pixel=(0,0)
Chr(0) (Tbl #1), MCU=[0,0]
*** ERROR: Can't find huffman bitstring @ 0x00000168.7, table 1, value [0xa7d54100]
*** ERROR: Bad huffman code @ 0x00000168.6
[0x00000168.6]: ZRL=[ 0] Val=[ 0] Coef=[00= DC] Data=[0x D7 4F AA 82 = 0b (------1- -------- -------- --------)] ERROR
*** ERROR: Bad scan data in MCU(0,0): Lum AC CSS(1,0) @ Offset 0x00000168.7
MCU located at pixel=(8,0)
*** ERROR: Can't find huffman bitstring @ 0x0000018D.6, table 1, value [0x2a052940]
*** ERROR: Bad huffman code @ 0x0000018D.5
*** ERROR: Bad scan data in MCU(1,0): Lum AC CSS(0,0) @ Offset 0x0000018D.6
MCU located at pixel=(16,0)
*** ERROR: Can't find huffman bitstring @ 0x000001B9.0, table 1, value [0x40a55b91]
*** ERROR: Bad huffman code @ 0x000001B8.7
*** ERROR: Bad scan data in MCU(3,0): Lum AC CSS(0,0) @ Offset 0x000001B9.0
MCU located at pixel=(48,0)
*** ERROR: Can't find huffman bitstring @ 0x000001B9.2, table 1, value [0x02956e44]
*** ERROR: Bad huffman code @ 0x000001B9.1
*** ERROR: Bad scan data in MCU(3,0): Lum AC CSS(1,0) @ Offset 0x000001B9.2
MCU located at pixel=(56,0)
*** ERROR: Can't find huffman bitstring @ 0x000001CB.6, table 0, value [0xffe7ffc0]
*** ERROR: Bad huffman code @ 0x000001CB.5
*** ERROR: Bad scan data in MCU(4,0): Lum DC CSS(1,1) @ Offset 0x000001CB.6
MCU located at pixel=(72,8)
*** ERROR: Can't find huffman bitstring @ 0x000001CB.7, table 1, value [0xffcfff80]
*** ERROR: Bad huffman code @ 0x000001CB.6
Only reported first 20 instances of this message...
Detailed IDCT Dump (RGB):
MCU [ 0, 0]:
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
*** NOTE: YCC Clipped. MCU=( 1, 0) YCC=( -3, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -48, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -49, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -50, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -52, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -54, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -55, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -56, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -57, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -12, 128, 128) Y Underflow @ Offset 0x000003B7.7
Only reported first 10 instances of this message...
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x6B6B6B x000000 x606060 x000000 x000000 x646464 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x6A6A6A x000000 x585858 x000000 x000000 x5D5D5D x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x5D5D5D x000000 x404040 x000000 x000000 x474747 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x3D3D3D x000000 x1F1F1F x000000 x080808 x1A1A1A x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x0C0C0C x000000 x191919 x000000 x222222 x000000 x080808 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x0D0D0D x000000 x090909 x4E4E4E x141414 x4B4B4B x000000 x262626 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x202020 x000000 x3D3D3D xAFAFAF x7E7E7E x818181 x000000 x3F3F3F ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x2B2B2B x000000 x646464 xFDFDFD xD0D0D0 xAAAAAA x000000 x4D4D4D ]
Compression stats:
Compression Ratio: 21.59:1
Bits per pixel: 1.11:1
Huffman code histogram stats:
Huffman Table: (Dest ID: 0, Class: DC)
# codes of length 01 bits: 54 ( 64%)
# codes of length 02 bits: 17 ( 20%)
# codes of length 03 bits: 7 ( 8%)
# codes of length 04 bits: 3 ( 4%)
# codes of length 05 bits: 1 ( 1%)
# codes of length 06 bits: 0 ( 0%)
# codes of length 07 bits: 2 ( 2%)
# codes of length 08 bits: 0 ( 0%)
# codes of length 09 bits: 0 ( 0%)
# codes of length 10 bits: 0 ( 0%)
# codes of length 11 bits: 0 ( 0%)
# codes of length 12 bits: 0 ( 0%)
# codes of length 13 bits: 0 ( 0%)
# codes of length 14 bits: 0 ( 0%)
# codes of length 15 bits: 0 ( 0%)
# codes of length 16 bits: 0 ( 0%)
Huffman Table: (Dest ID: 1, Class: DC)
# codes of length 01 bits: 42 (100%)
# codes of length 02 bits: 0 ( 0%)
# codes of length 03 bits: 0 ( 0%)
# codes of length 04 bits: 0 ( 0%)
# codes of length 05 bits: 0 ( 0%)
# codes of length 06 bits: 0 ( 0%)
# codes of length 07 bits: 0 ( 0%)
# codes of length 08 bits: 0 ( 0%)
# codes of length 09 bits: 0 ( 0%)
# codes of length 10 bits: 0 ( 0%)
# codes of length 11 bits: 0 ( 0%)
# codes of length 12 bits: 0 ( 0%)
# codes of length 13 bits: 0 ( 0%)
# codes of length 14 bits: 0 ( 0%)
# codes of length 15 bits: 0 ( 0%)
# codes of length 16 bits: 0 ( 0%)
Huffman Table: (Dest ID: 0, Class: AC)
# codes of length 01 bits: 1 ( 0%)
# codes of length 02 bits: 439 ( 47%)
# codes of length 03 bits: 113 ( 12%)
# codes of length 04 bits: 199 ( 21%)
# codes of length 05 bits: 85 ( 9%)
# codes of length 06 bits: 32 ( 3%)
# codes of length 07 bits: 33 ( 4%)
# codes of length 08 bits: 9 ( 1%)
# codes of length 09 bits: 19 ( 2%)
# codes of length 10 bits: 6 ( 1%)
# codes of length 11 bits: 0 ( 0%)
# codes of length 12 bits: 0 ( 0%)
# codes of length 13 bits: 0 ( 0%)
# codes of length 14 bits: 0 ( 0%)
# codes of length 15 bits: 0 ( 0%)
# codes of length 16 bits: 0 ( 0%)
Huffman Table: (Dest ID: 1, Class: AC)
# codes of length 01 bits: 28 (100%)
# codes of length 02 bits: 0 ( 0%)
# codes of length 03 bits: 0 ( 0%)
# codes of length 04 bits: 0 ( 0%)
# codes of length 05 bits: 0 ( 0%)
# codes of length 06 bits: 0 ( 0%)
# codes of length 07 bits: 0 ( 0%)
# codes of length 08 bits: 0 ( 0%)
# codes of length 09 bits: 0 ( 0%)
# codes of length 10 bits: 0 ( 0%)
# codes of length 11 bits: 0 ( 0%)
# codes of length 12 bits: 0 ( 0%)
# codes of length 13 bits: 0 ( 0%)
# codes of length 14 bits: 0 ( 0%)
# codes of length 15 bits: 0 ( 0%)
# codes of length 16 bits: 0 ( 0%)
YCC clipping in DC:
Y component: [<0= 10] [>255= 0]
Cb component: [<0= 0] [>255= 0]
Cr component: [<0= 0] [>255= 0]
YCC histogram in DC (DCT sums : pre-ranged:
Y component histo: [min=-5105 max= 2567 avg=-2146.1]
Cb component histo: [min= 0 max= 0 avg= 0.0]
Cr component histo: [min= 0 max= 0 avg= 0.0]
YCC histogram in DC:
Y component histo: [min= -510 max= 448 avg= -140.2]
Cb component histo: [min= 0 max= 128 avg= 128.0]
Cr component histo: [min= 0 max= 128 avg= 128.0]
RGB histogram in DC (before clip):
R component histo: [min= 0 max= 255 avg= 19.8]
G component histo: [min= 0 max= 255 avg= 19.8]
B component histo: [min= 0 max= 255 avg= 19.8]
RGB clipping in DC:
R component: [<0= 0] [>255= 0]
G component: [<0= 0] [>255= 0]
B component: [<0= 0] [>255= 0]
RGB histogram in DC (after clip):
R component histo: [min= 0 max= 255 avg= 19.8]
G component histo: [min= 0 max= 255 avg= 19.8]
B component histo: [min= 0 max= 255 avg= 19.8]
Average Pixel Luminance (Y):
Y=[ 19] (range: 0..255)
Brightest Pixel Search:
YCC=[ 2567, 0, 0] RGB=[255,255,255] @ MCU[ 3, 0]
Finished Decoding SCAN Data
Number of RESTART markers decoded: 0
Next position in scan buffer: Offset 0x000003B7.7
OFFSET: 0x00000351
WARNING: Unknown marker [0xFF6E], stopping decode
Use [Img Search Fwd/Rev] to locate other valid embedded JPEGs
*** Searching Compression Signatures ***
Signature: 0130B2A516BC06C5D54B8D26507991E2
Signature (Rotated): 0130B2A516BC06C5D54B8D26507991E2
File Offset: 0 bytes
Chroma subsampling: 2x2
EXIF Make/Model: NONE
EXIF Makernotes: NONE
EXIF Software: NONE
Searching Compression Signatures: (3327 built-in, 0 user(*) )
EXIF.Make / Software EXIF.Model Quality Subsamp Match?
------------------------- ----------------------------------- ---------------- --------------
SW :[Adobe Photoshop ] [Save For Web 000]
Based on the analysis of compression characteristics and EXIF metadata:
ASSESSMENT: Class 1 - Image is processed/edited
This may be a new software editor for the database.
If this file is processed, and editor doesn't appear in list above,
PLEASE ADD TO DATABASE with [Tools->Add Camera to DB]
*** Additional Info ***
NOTE: Data exists after EOF, range: 0x00000000-0x000004BB (1211 bytes)
- 4useful
- 0not useful
#187. Posted:
Status: Offline
Joined: Apr 14, 201014Year Member
Posts: 563
Reputation Power: 22
Status: Offline
Joined: Apr 14, 201014Year Member
Posts: 563
Reputation Power: 22
i give up...goodnight
- 0useful
- 0not useful
#188. Posted:
Status: Offline
Joined: Apr 29, 201113Year Member
Posts: 4,161
Reputation Power: 237
This is harder than my uncles pet rock.
I think I give up.
I think I give up.
- 8useful
- 1not useful
#189. Posted:
Status: Offline
Joined: Feb 03, 201113Year Member
Posts: 441
Reputation Power: 19
Status: Offline
Joined: Feb 03, 201113Year Member
Posts: 441
Reputation Power: 19
DJ_Pon3 wrotemandoburger6661 wrote Decoded the 2nd pic, might helpWhat the hell does that even mean?
Filename: [C:\Documents and Settings\Dell\Desktop\sign_me_in_here.jpg]
Filesize: [1211] Bytes
Start Offset: 0x00000000
*** Marker: SOI (xFFD8) ***
OFFSET: 0x00000000
*** Marker: APP1 (xFFE1) ***
OFFSET: 0x00000002
length = 24
Identifier = [Exif]
Identifier TIFF = 0x[49492A00 08000000]
Endian = Intel (little)
TAG Mark x002A = 0x002A
EXIF IFD0 @ Absolute 0x00000014
Dir Length = 0x0000
Offset to Next IFD = 0x00000000
*** Marker: APP12 (xFFEC) ***
OFFSET: 0x0000001C
length = 17
Identifier = [Ducky]
Photoshop Save For Web Quality = [0]
*** Marker: APP14 (xFFEE) ***
OFFSET: 0x0000002F
length = 14
*** Marker: DQT (xFFDB) ***
Define a Quantization Table.
OFFSET: 0x0000003F
Table length = 132
----
Precision=8 bits
Destination ID=0 (Luminance)
DQT, Row #0: 27 26 41 65 66 71 71 71
DQT, Row #1: 26 29 38 47 63 71 71 71
DQT, Row #2: 41 38 47 62 71 71 71 71
DQT, Row #3: 65 47 62 71 71 71 71 71
DQT, Row #4: 66 63 71 71 71 71 71 71
DQT, Row #5: 71 71 71 71 71 71 71 71
DQT, Row #6: 71 71 71 71 71 71 71 71
DQT, Row #7: 71 71 71 71 71 71 71 71
Approx quality factor = 30.48 (scaling=164.06 variance=10059.58)
----
Precision=8 bits
Destination ID=1 (Chrominance)
DQT, Row #0: 29 41 52 63 71 71 71 71
DQT, Row #1: 41 38 40 63 71 71 71 71
DQT, Row #2: 52 40 53 71 71 71 71 71
DQT, Row #3: 63 63 71 71 71 71 71 71
DQT, Row #4: 71 71 71 71 71 71 71 71
DQT, Row #5: 71 71 71 71 71 71 71 71
DQT, Row #6: 71 71 71 71 71 71 71 71
DQT, Row #7: 71 71 71 71 71 71 71 71
Approx quality factor = 55.01 (scaling=89.99 variance=1780.96)
*** Marker: SOF0 (Baseline DCT) (xFFC0) ***
OFFSET: 0x000000C5
Frame header length = 17
Precision = 8
Number of Lines = 39
Samples per Line = 112
Image Size = 112 x 39
Raw Image Orientation = Landscape
Number of Img components = 3
Component[1]: ID=0x01, Samp Fac=0x22 (Subsamp 1 x 1), Quant Tbl Sel=0x00 (Lum: Y)
Component[2]: ID=0x02, Samp Fac=0x11 (Subsamp 2 x 2), Quant Tbl Sel=0x01 (Chrom: Cb)
Component[3]: ID=0x03, Samp Fac=0x11 (Subsamp 2 x 2), Quant Tbl Sel=0x01 (Chrom: Cr)
*** Marker: DHT (Define Huffman Table) (xFFC4) ***
OFFSET: 0x000000D8
Huffman table length = 112
----
Destination ID = 0
Class = 0 (DC / Lossless Table)
Codes of length 01 bits (001 total): 00
Codes of length 02 bits (001 total): 03
Codes of length 03 bits (001 total): 04
Codes of length 04 bits (001 total): 05
Codes of length 05 bits (001 total): 01
Codes of length 06 bits (001 total): 02
Codes of length 07 bits (001 total): 06
Codes of length 08 bits (000 total):
Codes of length 09 bits (000 total):
Codes of length 10 bits (000 total):
Codes of length 11 bits (000 total):
Codes of length 12 bits (000 total):
Codes of length 13 bits (000 total):
Codes of length 14 bits (000 total):
Codes of length 15 bits (000 total):
Codes of length 16 bits (000 total):
Total number of codes: 007
Expanded Form of Codes:
Codes of length 01 bits:
0 = 00 (EOB) (Total Len = 1)
Codes of length 02 bits:
10 = 03 (Total Len = 5)
Codes of length 03 bits:
110 = 04 (Total Len = 7)
Codes of length 04 bits:
1110 = 05 (Total Len = 9)
Codes of length 05 bits:
11110 = 01 (Total Len = 6)
Codes of length 06 bits:
111110 = 02 (Total Len = 8)
Codes of length 07 bits:
1111110 = 06 (Total Len = 13)
----
Destination ID = 1
Class = 0 (DC / Lossless Table)
Codes of length 01 bits (001 total): 00
Codes of length 02 bits (000 total):
Codes of length 03 bits (000 total):
Codes of length 04 bits (000 total):
Codes of length 05 bits (000 total):
Codes of length 06 bits (000 total):
Codes of length 07 bits (000 total):
Codes of length 08 bits (000 total):
Codes of length 09 bits (000 total):
Codes of length 10 bits (000 total):
Codes of length 11 bits (000 total):
Codes of length 12 bits (000 total):
Codes of length 13 bits (000 total):
Codes of length 14 bits (000 total):
Codes of length 15 bits (000 total):
Codes of length 16 bits (000 total):
Total number of codes: 001
Expanded Form of Codes:
Codes of length 01 bits:
0 = 00 (EOB) (Total Len = 1)
----
Destination ID = 0
Class = 1 (AC Table)
Codes of length 01 bits (000 total):
Codes of length 02 bits (002 total): 01 02
Codes of length 03 bits (001 total): 11
Codes of length 04 bits (003 total): 00 21 03
Codes of length 05 bits (003 total): 31 12 04
Codes of length 06 bits (002 total): 51 22
Codes of length 07 bits (004 total): 41 61 13 05
Codes of length 08 bits (002 total): F0 42
Codes of length 09 bits (008 total): 71 81 91 C1 32 52 23 14
Codes of length 10 bits (007 total): B1 D1 62 72 73 C3 84
Codes of length 11 bits (001 total): 45
Codes of length 12 bits (000 total):
Codes of length 13 bits (000 total):
Codes of length 14 bits (000 total):
Codes of length 15 bits (000 total):
Codes of length 16 bits (000 total):
Total number of codes: 033
Expanded Form of Codes:
Codes of length 02 bits:
00 = 01 (Total Len = 3)
01 = 02 (Total Len = 4)
Codes of length 03 bits:
100 = 11 (Total Len = 4)
Codes of length 04 bits:
1010 = 00 (EOB) (Total Len = 4)
1011 = 21 (Total Len = 5)
1100 = 03 (Total Len = 7)
Codes of length 05 bits:
11010 = 31 (Total Len = 6)
11011 = 12 (Total Len = 7)
11100 = 04 (Total Len = 9)
Codes of length 06 bits:
111010 = 51 (Total Len = 7)
111011 = 22 (Total Len = 8)
Codes of length 07 bits:
1111000 = 41 (Total Len = 8)
1111001 = 61 (Total Len = 8)
1111010 = 13 (Total Len = 10)
1111011 = 05 (Total Len = 12)
Codes of length 08 bits:
11111000 = F0 (ZRL) (Total Len = 8)
11111001 = 42 (Total Len = 10)
Codes of length 09 bits:
111110100 = 71 (Total Len = 10)
111110101 = 81 (Total Len = 10)
111110110 = 91 (Total Len = 10)
111110111 = C1 (Total Len = 10)
111111000 = 32 (Total Len = 11)
111111001 = 52 (Total Len = 11)
111111010 = 23 (Total Len = 12)
111111011 = 14 (Total Len = 13)
Codes of length 10 bits:
1111111000 = B1 (Total Len = 11)
1111111001 = D1 (Total Len = 11)
1111111010 = 62 (Total Len = 12)
1111111011 = 72 (Total Len = 12)
1111111100 = 73 (Total Len = 13)
1111111101 = C3 (Total Len = 13)
1111111110 = 84 (Total Len = 14)
Codes of length 11 bits:
11111111110 = 45 (Total Len = 16)
----
Destination ID = 1
Class = 1 (AC Table)
Codes of length 01 bits (001 total): 00
Codes of length 02 bits (000 total):
Codes of length 03 bits (000 total):
Codes of length 04 bits (000 total):
Codes of length 05 bits (000 total):
Codes of length 06 bits (000 total):
Codes of length 07 bits (000 total):
Codes of length 08 bits (000 total):
Codes of length 09 bits (000 total):
Codes of length 10 bits (000 total):
Codes of length 11 bits (000 total):
Codes of length 12 bits (000 total):
Codes of length 13 bits (000 total):
Codes of length 14 bits (000 total):
Codes of length 15 bits (000 total):
Codes of length 16 bits (000 total):
Total number of codes: 001
Expanded Form of Codes:
Codes of length 01 bits:
0 = 00 (EOB) (Total Len = 1)
*** Marker: SOS (Start of Scan) (xFFDA) ***
OFFSET: 0x0000014A
Scan header length = 12
Number of img components = 3
Component[1]: selector=0x01, table=0x00
Component[2]: selector=0x02, table=0x11
Component[3]: selector=0x03, table=0x11
Spectral selection = 0 .. 63
Successive approximation = 0x00
*** Decoding SCAN Data ***
OFFSET: 0x00000158
Scan Decode Mode: Full IDCT (AC + DC)
Lum (Tbl #0), MCU=[0,0]
[0x00000158.0]: ZRL=[ 0] Val=[ -38] Coef=[00= DC] Data=[0x FC CD 29 55 = 0b (11111100 11001--- -------- --------)]
[0x00000159.5]: ZRL=[ 0] Val=[ 0] Coef=[01..01] Data=[0x CD 29 55 F4 = 0b (-----101 0------- -------- --------)] EOB
DCT Matrix=[-1026 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
Lum (Tbl #0), MCU=[0,0]
[0x0000015A.1]: ZRL=[ 0] Val=[ 0] Coef=[00= DC] Data=[0x 29 55 F4 5F = 0b (-0------ -------- -------- --------)] EOB
[0x0000015A.2]: ZRL=[ 0] Val=[ 0] Coef=[01..01] Data=[0x 29 55 F4 5F = 0b (--1010-- -------- -------- --------)] EOB
DCT Matrix=[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
Lum (Tbl #0), MCU=[0,0]
[0x0000015A.6]: ZRL=[ 0] Val=[ 0] Coef=[00= DC] Data=[0x 29 55 F4 5F = 0b (------0- -------- -------- --------)] EOB
[0x0000015A.7]: ZRL=[ 0] Val=[ 0] Coef=[01..01] Data=[0x 29 55 F4 5F = 0b (-------1 010----- -------- --------)] EOB
DCT Matrix=[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
Lum (Tbl #0), MCU=[0,0]
[0x0000015B.3]: ZRL=[ 0] Val=[ 5] Coef=[00= DC] Data=[0x 55 F4 5F D3 = 0b (---10101 -------- -------- --------)]
[0x0000015C.0]: ZRL=[ 1] Val=[ -6] Coef=[01..02] Data=[0x F4 5F D3 F5 = 0b (11110100 01------ -------- --------)]
[0x0000015D.2]: ZRL=[ 0] Val=[ 3] Coef=[03..03] Data=[0x 5F D3 F5 A3 = 0b (--0111-- -------- -------- --------)]
[0x0000015D.6]: ZRL=[ 1] Val=[ -4] Coef=[04..05] Data=[0x 5F D3 F5 A3 = 0b (------11 11010011 -------- --------)]
[0x0000015F.0]: ZRL=[ 1] Val=[ 6] Coef=[06..07] Data=[0x F5 A3 B3 76 = 0b (11110101 10------ -------- --------)]
[0x00000160.2]: ZRL=[ 1] Val=[ -1] Coef=[08..09] Data=[0x A3 B3 76 C9 = 0b (--1000-- -------- -------- --------)]
[0x00000160.6]: ZRL=[ 2] Val=[ -3] Coef=[10..12] Data=[0x A3 B3 76 C9 = 0b (------11 101100-- -------- --------)]
[0x00000161.6]: ZRL=[ 1] Val=[ 2] Coef=[13..14] Data=[0x B3 76 C9 B7 = 0b (------11 01110--- -------- --------)]
[0x00000162.5]: ZRL=[ 1] Val=[ -3] Coef=[15..16] Data=[0x 76 C9 B7 E2 = 0b (-----110 1100---- -------- --------)]
[0x00000163.4]: ZRL=[ 1] Val=[ 1] Coef=[17..18] Data=[0x C9 B7 E2 21 = 0b (----1001 -------- -------- --------)]
[0x00000164.0]: ZRL=[ 2] Val=[ -1] Coef=[19..21] Data=[0x B7 E2 21 30 = 0b (10110--- -------- -------- --------)]
[0x00000164.5]: ZRL=[ 3] Val=[ 2] Coef=[22..25] Data=[0x B7 E2 21 30 = 0b (-----111 11100010 -------- --------)]
[0x00000166.0]: ZRL=[ 0] Val=[ 1] Coef=[26..26] Data=[0x 21 30 D7 4F = 0b (001----- -------- -------- --------)]
[0x00000166.3]: ZRL=[ 0] Val=[ -1] Coef=[27..27] Data=[0x 21 30 D7 4F = 0b (---000-- -------- -------- --------)]
[0x00000166.6]: ZRL=[ 0] Val=[ -3] Coef=[28..28] Data=[0x 21 30 D7 4F = 0b (------01 00------ -------- --------)]
[0x00000167.2]: ZRL=[ 0] Val=[ -6] Coef=[29..29] Data=[0x 30 D7 4F AA = 0b (--110000 1------- -------- --------)]
[0x00000168.1]: ZRL=[ 0] Val=[ 0] Coef=[30..30] Data=[0x D7 4F AA 82 = 0b (-1010--- -------- -------- --------)] EOB
DCT Matrix=[ 135 0 -164 0 132 0 -71 -213]
[ -156 0 228 0 -189 71 -426 0]
[ 123 0 -141 0 142 0 0 0]
[ -65 0 62 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
[ -71 0 0 0 0 0 0 0]
[ 0 0 0 0 0 0 0 0]
Chr(0) (Tbl #1), MCU=[0,0]
*** ERROR: Can't find huffman bitstring @ 0x00000168.6, table 1, value [0xd3eaa080]
*** ERROR: Bad huffman code @ 0x00000168.5
[0x00000168.5]: ZRL=[ 0] Val=[ 0] Coef=[00= DC] Data=[0x D7 4F AA 82 = 0b (-----1-- -------- -------- --------)] ERROR
*** ERROR: Bad scan data in MCU(0,0): Lum AC CSS(0,0) @ Offset 0x00000168.6
MCU located at pixel=(0,0)
Chr(0) (Tbl #1), MCU=[0,0]
*** ERROR: Can't find huffman bitstring @ 0x00000168.7, table 1, value [0xa7d54100]
*** ERROR: Bad huffman code @ 0x00000168.6
[0x00000168.6]: ZRL=[ 0] Val=[ 0] Coef=[00= DC] Data=[0x D7 4F AA 82 = 0b (------1- -------- -------- --------)] ERROR
*** ERROR: Bad scan data in MCU(0,0): Lum AC CSS(1,0) @ Offset 0x00000168.7
MCU located at pixel=(8,0)
*** ERROR: Can't find huffman bitstring @ 0x0000018D.6, table 1, value [0x2a052940]
*** ERROR: Bad huffman code @ 0x0000018D.5
*** ERROR: Bad scan data in MCU(1,0): Lum AC CSS(0,0) @ Offset 0x0000018D.6
MCU located at pixel=(16,0)
*** ERROR: Can't find huffman bitstring @ 0x000001B9.0, table 1, value [0x40a55b91]
*** ERROR: Bad huffman code @ 0x000001B8.7
*** ERROR: Bad scan data in MCU(3,0): Lum AC CSS(0,0) @ Offset 0x000001B9.0
MCU located at pixel=(48,0)
*** ERROR: Can't find huffman bitstring @ 0x000001B9.2, table 1, value [0x02956e44]
*** ERROR: Bad huffman code @ 0x000001B9.1
*** ERROR: Bad scan data in MCU(3,0): Lum AC CSS(1,0) @ Offset 0x000001B9.2
MCU located at pixel=(56,0)
*** ERROR: Can't find huffman bitstring @ 0x000001CB.6, table 0, value [0xffe7ffc0]
*** ERROR: Bad huffman code @ 0x000001CB.5
*** ERROR: Bad scan data in MCU(4,0): Lum DC CSS(1,1) @ Offset 0x000001CB.6
MCU located at pixel=(72,8)
*** ERROR: Can't find huffman bitstring @ 0x000001CB.7, table 1, value [0xffcfff80]
*** ERROR: Bad huffman code @ 0x000001CB.6
Only reported first 20 instances of this message...
Detailed IDCT Dump (RGB):
MCU [ 0, 0]:
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
*** NOTE: YCC Clipped. MCU=( 1, 0) YCC=( -3, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -48, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -49, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -50, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -52, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -54, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -55, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -56, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -57, 128, 128) Y Underflow @ Offset 0x000003B7.7
*** NOTE: YCC Clipped. MCU=( 6, 0) YCC=( -12, 128, 128) Y Underflow @ Offset 0x000003B7.7
Only reported first 10 instances of this message...
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x6B6B6B x000000 x606060 x000000 x000000 x646464 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x6A6A6A x000000 x585858 x000000 x000000 x5D5D5D x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x5D5D5D x000000 x404040 x000000 x000000 x474747 x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x3D3D3D x000000 x1F1F1F x000000 x080808 x1A1A1A x000000 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x0C0C0C x000000 x191919 x000000 x222222 x000000 x080808 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x0D0D0D x000000 x090909 x4E4E4E x141414 x4B4B4B x000000 x262626 ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x202020 x000000 x3D3D3D xAFAFAF x7E7E7E x818181 x000000 x3F3F3F ]
[ x000000 x000000 x000000 x000000 x000000 x000000 x000000 x000000 x2B2B2B x000000 x646464 xFDFDFD xD0D0D0 xAAAAAA x000000 x4D4D4D ]
Compression stats:
Compression Ratio: 21.59:1
Bits per pixel: 1.11:1
Huffman code histogram stats:
Huffman Table: (Dest ID: 0, Class: DC)
# codes of length 01 bits: 54 ( 64%)
# codes of length 02 bits: 17 ( 20%)
# codes of length 03 bits: 7 ( 8%)
# codes of length 04 bits: 3 ( 4%)
# codes of length 05 bits: 1 ( 1%)
# codes of length 06 bits: 0 ( 0%)
# codes of length 07 bits: 2 ( 2%)
# codes of length 08 bits: 0 ( 0%)
# codes of length 09 bits: 0 ( 0%)
# codes of length 10 bits: 0 ( 0%)
# codes of length 11 bits: 0 ( 0%)
# codes of length 12 bits: 0 ( 0%)
# codes of length 13 bits: 0 ( 0%)
# codes of length 14 bits: 0 ( 0%)
# codes of length 15 bits: 0 ( 0%)
# codes of length 16 bits: 0 ( 0%)
Huffman Table: (Dest ID: 1, Class: DC)
# codes of length 01 bits: 42 (100%)
# codes of length 02 bits: 0 ( 0%)
# codes of length 03 bits: 0 ( 0%)
# codes of length 04 bits: 0 ( 0%)
# codes of length 05 bits: 0 ( 0%)
# codes of length 06 bits: 0 ( 0%)
# codes of length 07 bits: 0 ( 0%)
# codes of length 08 bits: 0 ( 0%)
# codes of length 09 bits: 0 ( 0%)
# codes of length 10 bits: 0 ( 0%)
# codes of length 11 bits: 0 ( 0%)
# codes of length 12 bits: 0 ( 0%)
# codes of length 13 bits: 0 ( 0%)
# codes of length 14 bits: 0 ( 0%)
# codes of length 15 bits: 0 ( 0%)
# codes of length 16 bits: 0 ( 0%)
Huffman Table: (Dest ID: 0, Class: AC)
# codes of length 01 bits: 1 ( 0%)
# codes of length 02 bits: 439 ( 47%)
# codes of length 03 bits: 113 ( 12%)
# codes of length 04 bits: 199 ( 21%)
# codes of length 05 bits: 85 ( 9%)
# codes of length 06 bits: 32 ( 3%)
# codes of length 07 bits: 33 ( 4%)
# codes of length 08 bits: 9 ( 1%)
# codes of length 09 bits: 19 ( 2%)
# codes of length 10 bits: 6 ( 1%)
# codes of length 11 bits: 0 ( 0%)
# codes of length 12 bits: 0 ( 0%)
# codes of length 13 bits: 0 ( 0%)
# codes of length 14 bits: 0 ( 0%)
# codes of length 15 bits: 0 ( 0%)
# codes of length 16 bits: 0 ( 0%)
Huffman Table: (Dest ID: 1, Class: AC)
# codes of length 01 bits: 28 (100%)
# codes of length 02 bits: 0 ( 0%)
# codes of length 03 bits: 0 ( 0%)
# codes of length 04 bits: 0 ( 0%)
# codes of length 05 bits: 0 ( 0%)
# codes of length 06 bits: 0 ( 0%)
# codes of length 07 bits: 0 ( 0%)
# codes of length 08 bits: 0 ( 0%)
# codes of length 09 bits: 0 ( 0%)
# codes of length 10 bits: 0 ( 0%)
# codes of length 11 bits: 0 ( 0%)
# codes of length 12 bits: 0 ( 0%)
# codes of length 13 bits: 0 ( 0%)
# codes of length 14 bits: 0 ( 0%)
# codes of length 15 bits: 0 ( 0%)
# codes of length 16 bits: 0 ( 0%)
YCC clipping in DC:
Y component: [<0= 10] [>255= 0]
Cb component: [<0= 0] [>255= 0]
Cr component: [<0= 0] [>255= 0]
YCC histogram in DC (DCT sums : pre-ranged:
Y component histo: [min=-5105 max= 2567 avg=-2146.1]
Cb component histo: [min= 0 max= 0 avg= 0.0]
Cr component histo: [min= 0 max= 0 avg= 0.0]
YCC histogram in DC:
Y component histo: [min= -510 max= 448 avg= -140.2]
Cb component histo: [min= 0 max= 128 avg= 128.0]
Cr component histo: [min= 0 max= 128 avg= 128.0]
RGB histogram in DC (before clip):
R component histo: [min= 0 max= 255 avg= 19.8]
G component histo: [min= 0 max= 255 avg= 19.8]
B component histo: [min= 0 max= 255 avg= 19.8]
RGB clipping in DC:
R component: [<0= 0] [>255= 0]
G component: [<0= 0] [>255= 0]
B component: [<0= 0] [>255= 0]
RGB histogram in DC (after clip):
R component histo: [min= 0 max= 255 avg= 19.8]
G component histo: [min= 0 max= 255 avg= 19.8]
B component histo: [min= 0 max= 255 avg= 19.8]
Average Pixel Luminance (Y):
Y=[ 19] (range: 0..255)
Brightest Pixel Search:
YCC=[ 2567, 0, 0] RGB=[255,255,255] @ MCU[ 3, 0]
Finished Decoding SCAN Data
Number of RESTART markers decoded: 0
Next position in scan buffer: Offset 0x000003B7.7
OFFSET: 0x00000351
WARNING: Unknown marker [0xFF6E], stopping decode
Use [Img Search Fwd/Rev] to locate other valid embedded JPEGs
*** Searching Compression Signatures ***
Signature: 0130B2A516BC06C5D54B8D26507991E2
Signature (Rotated): 0130B2A516BC06C5D54B8D26507991E2
File Offset: 0 bytes
Chroma subsampling: 2x2
EXIF Make/Model: NONE
EXIF Makernotes: NONE
EXIF Software: NONE
Searching Compression Signatures: (3327 built-in, 0 user(*) )
EXIF.Make / Software EXIF.Model Quality Subsamp Match?
------------------------- ----------------------------------- ---------------- --------------
SW :[Adobe Photoshop ] [Save For Web 000]
Based on the analysis of compression characteristics and EXIF metadata:
ASSESSMENT: Class 1 - Image is processed/edited
This may be a new software editor for the database.
If this file is processed, and editor doesn't appear in list above,
PLEASE ADD TO DATABASE with [Tools->Add Camera to DB]
*** Additional Info ***
NOTE: Data exists after EOF, range: 0x00000000-0x000004BB (1211 bytes)
Don't know, I've tried to Base64 decode it but nothing
- 0useful
- 2not useful
#190. Posted:
Status: Offline
Joined: Dec 01, 201014Year Member
Posts: 1,386
Reputation Power: 55
ducky is the password
- 0useful
- 5not useful
You are viewing our Forum Archives. To view or take place in current topics click here.