Jul 5, 2014

Howto: Unlock Lock Pattern Using Command Prompt

Step 1: Connect your Android Phone to Your Computer.
Step 2 : Open command prompt as administrator.
Step 3 : Now in command prompt window type the following code carefully exactly as it is and then press  enter.

adb shell
cd /data/data/com.android.providers.settings/databases
sqlite3 settings.db
update system set value=0 where name='lock_pattern_autolock';
update system set value=0 where name='lockscreen.lockedoutpermanently';
.quit

 Step 4 : Now you will some screen as shown below and then you can reboot your phone and now when your will start again then try unlocking your phone using any random lock pattern and it will work pretty fine.
Step 5 : If you face any problem repeat same steps but instead of the above code try using adb shell rm /data/system/gesture.key and then press enter and now try rebooting your device to see if it works.
 


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Tools: ODAT (Oracle Database Attacking Tool)

ODAT (Oracle Database Attacking Tool) is an open source penetration testing tool that test Oracle database security remotely.
Usage examples of ODAT:
  • You have an Oracle database listening remotely and want to find valid SIDs and credentials in order to connect to the database
  • You have a valid Oracle account on a database and want to escalate your privileges (ex: SYSDBA)
  • You have a valid Oracle account and want to execute commands on the operating system hosting this DB (ex: reverse shell)

Features
  • search valid SID on a remote Oracle Database listener via: a dictionary attack/a brute force attack/ALIAS of the listener
  • search Oracle accounts using: a dictionary attack/each Oracle user like the password
  • execute system commands on the database server using: DBMS_SCHEDULER/JAVA/external tables/oradbg
  • download files stored on the database server using: UTL_FILE/external tables/CTXSYS
  • upload files on the database server using: UTL_FILE/DBMS_XSLPROCESSOR/DBMS_ADVISOR
  • delete files using: UTL_FILE
  • send/reveive HTTP requests from the database server using: UTL_HTTP/HttpUriType
  • scan ports of the local server or a remote server using: UTL_HTTP/HttpUriType/UTL_TCP
  • exploit the CVE-2012-313 (http://cvedetails.com/cve/2012-3137)

Source: http://www.darknet.org.uk/2014/07/odat-oracle-database-attacking-tool-test-oracle-database-security/

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Python script for detecting IP change and send email to admin.

Nice Script for detecting IP Changed and send email to admin.

import os.path
import time
import urllib
import re
from email.MIMEMultipart import MIMEMultipart
from email.MIMEText import MIMEText
import smtplib


fileName = "mylastip.txt"

fileExist = os.path.isfile(fileName)

if fileExist :
    fp = open (fileName, "r")
    last_ip = fp.read()
    fp.close()
else :
    last_ip = "0.0.0.0"

url = "http://checkip.dyndns.org"

while (True):
    request = urllib.urlopen(url).read()
    theIP = re.findall(r"\d{1,3}\.\d{1,3}\.\d{1,3}.\d{1,3}", request)
    theIP2 = theIP[0]
   
    if ( theIP2 != last_ip ):
        fp = open (fileName, "w")
        fp.write(theIP2)
        fp.close()

        fromaddr = "<myname>@gmail.com"
        toaddr = "<myname>@gmail.com"
        msg = MIMEMultipart()
        msg['From'] = fromaddr
        msg['To'] = toaddr
        msg['Subject'] = "my server ip address changed"
       
        body = theIP2
        msg.attach(MIMEText(body, 'plain'))

        server = smtplib.SMTP('smtp.gmail.com', 587)
        server.ehlo()
        server.starttls()
        server.ehlo()
        server.login("<myname>", "<mypassword>")
        text = msg.as_string()
        server.sendmail(fromaddr, toaddr, text)
        server.quit()
        last_ip = theIP2
       
   
    time.sleep(120)  


Source: http://sombatsombat.blogspot.com/2014/07/python-script-email-me-when-my-ip-change.html

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Videos: OWASP - AppSecEU 2014

Link: http://www.youtube.com/playlist?list=PLpr-xdpM8wG_KHsxepT9o6trkqDELhr3_

 



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Jul 4, 2014

Tools: Daphne - Tool for killing, controlling and debugging processes in Windows

Daphne is a small application for killing, controlling and debugging Windows’ processes. It was born to kill a windows process and became almost a task manager replacement. You can kill a process by dragging the mouse over the windows, by right-clicking the process in the main process list, or by typing its name with the “Kill all by name” command. You can set a any window to be always on top, to be transparent, to be enable, et cetera. Although Daphne was born just to kill windows process. You can think of Daphne as a task manager replacement. The main window displays a list of currently running process with detailed information about: CPU usage, Process ID, Process name, Full path (and arguments), Priority, Class (Process / Service), Current memory usage, Peek memory usage, Current swap usage, Peek swap usage and Number of threads.
 
 

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Tools: screenFetch - The Bash Screenshot Information Tool

screenFetch is a "Bash Screenshot Information Tool". This handy Bash script can be used to generate one of those nifty terminal theme information + ASCII distribution logos you see in everyone's screenshots nowadays. It will auto-detect your distribution and display an ASCII version of that distribution's logo and some valuable information to the right. There are options to specify no ascii art, colors, taking a screenshot upon displaying info, and even customizing the screenshot command! This script is very easy to add to and can easily be extended.

Source: https://github.com/KittyKatt/screenFetch



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Jul 3, 2014

x86 Instruction Reference

I needed a parsable copy of Intel's x86 instruction set documentation for a personal project, so I downloaded volumes 2A and 2B of the Intel® 64 and IA-32 Architectures Software Developer's Manual (which can be found here and here, respectively), and used a online PDF-to-HTML tool to transform them to HTML files.
The result was beyond terrible and absolutely unusable.
To fix that, I made a Python script with BeautifulSoup to extract in bulk the documentation for each instruction and write it to cleaner HTML files. There are still some issues:
  • Nested lists are broken;
  • Figures simply can't be translated correctly.
Even then, this is significantly more useful, so I'm publishing it in case anyone needs it. Most of what's missing will probably have to be dealt with manually.
The files can be viewed at felixcloutier.com/x86.

AAAASCII Adjust After Addition
AADASCII Adjust AX Before Division
AAMASCII Adjust AX After Multiply
AASASCII Adjust AL After Subtraction
ADCAdd with Carry
ADDAdd
ADDPDAdd Packed Double-Precision Floating-Point Values
ADDPSAdd Packed Single-Precision Floating-Point Values
ADDSDAdd Scalar Double-Precision Floating-Point Values
ADDSSAdd Scalar Single-Precision Floating-Point Values
ADDSUBPDPacked Double-FP Add/Subtract
ADDSUBPSPacked Single-FP Add/Subtract
AESDECPerform One Round of an AES Decryption Flow
AESDECLASTPerform Last Round of an AES Decryption Flow
AESENCPerform One Round of an AES Encryption Flow
AESENCLASTPerform Last Round of an AES Encryption Flow
AESIMCPerform the AES InvMixColumn Transformation
AESKEYGENASSISTAES Round Key Generation Assist
ANDLogical AND
ANDNLogical AND NOT
ANDNPDBitwise Logical AND NOT of Packed Double-Precision Floating-Point Values
ANDNPSBitwise Logical AND NOT of Packed Single-Precision Floating-Point Values
ANDPDBitwise Logical AND of Packed Double-Precision Floating-Point Values
ANDPSBitwise Logical AND of Packed Single-Precision Floating-Point Values
ARPLAdjust RPL Field of Segment Selector
BEXTRBit Field Extract
BLENDPDBlend Packed Double Precision Floating-Point Values
BLENDPSBlend Packed Single Precision Floating-Point Values
BLENDVPDVariable Blend Packed Double Precision Floating-Point Values
BLENDVPSVariable Blend Packed Single Precision Floating-Point Values
BLSIExtract Lowest Set Isolated Bit
BLSMSKGet Mask Up to Lowest Set Bit
BLSRReset Lowest Set Bit
BOUNDCheck Array Index Against Bounds
BSFBit Scan Forward
BSRBit Scan Reverse
BSWAPByte Swap
BTBit Test
BTCBit Test and Complement
BTRBit Test and Reset
BTSBit Test and Set
BZHIZero High Bits Starting with Specified Bit Position
CALLCall Procedure
CBWConvert Byte to Word/Convert Word to Doubleword/Convert Doubleword to Quadword
CWDEConvert Byte to Word/Convert Word to Doubleword/Convert Doubleword to Quadword
CDQEConvert Byte to Word/Convert Word to Doubleword/Convert Doubleword to Quadword
CLCClear Carry Flag
CLDClear Direction Flag
CLFLUSHFlush Cache Line
CLIClear Interrupt Flag
CLTSClear Task-Switched Flag in CR0
CMCComplement Carry Flag
CMOVccConditional Move
CMPCompare Two Operands
CMPPDCompare Packed Double-Precision Floating-Point Values
CMPPSCompare Packed Single-Precision Floating-Point Values
CMPSCompare String Operands
CMPSBCompare String Operands
CMPSWCompare String Operands
CMPSDCompare String Operands
CMPSQCompare String Operands
CMPSDCompare Scalar Double-Precision Floating-Point Values
CMPSSCompare Scalar Single-Precision Floating-Point Values
CMPXCHGCompare and Exchange
CMPXCHG8BCompare and Exchange Bytes
CMPXCHG16BCompare and Exchange Bytes
COMISDCompare Scalar Ordered Double-Precision Floating-Point Values and Set EFLAGS
COMISSCompare Scalar Ordered Single-Precision Floating-Point Values and Set EFLAGS
CPUIDCPU Identification
CRC32Accumulate CRC32 Value
CVTDQ2PDConvert Packed Dword Integers to Packed Double-Precision FP Values
CVTDQ2PSConvert Packed Dword Integers to Packed Single-Precision FP Values
CVTPD2DQConvert Packed Double-Precision FP Values to Packed Dword Integers
CVTPD2PIConvert Packed Double-Precision FP Values to Packed Dword Integers
CVTPD2PSConvert Packed Double-Precision FP Values to Packed Single-Precision FP Values
CVTPI2PDConvert Packed Dword Integers to Packed Double-Precision FP Values
CVTPI2PSConvert Packed Dword Integers to Packed Single-Precision FP Values
CVTPS2DQConvert Packed Single-Precision FP Values to Packed Dword Integers
CVTPS2PDConvert Packed Single-Precision FP Values to Packed Double-Precision FP Values
CVTPS2PIConvert Packed Single-Precision FP Values to Packed Dword Integers
CVTSD2SIConvert Scalar Double-Precision FP Value to Integer
CVTSD2SSConvert Scalar Double-Precision FP Value to Scalar Single-Precision FP Value
CVTSI2SDConvert Dword Integer to Scalar Double-Precision FP Value
CVTSI2SSConvert Dword Integer to Scalar Single-Precision FP Value
CVTSS2SDConvert Scalar Single-Precision FP Value to Scalar Double-Precision FP Value
CVTSS2SIConvert Scalar Single-Precision FP Value to Dword Integer
CVTTPD2DQConvert with Truncation Packed Double-Precision FP Values to Packed Dword Integers
CVTTPD2PIConvert with Truncation Packed Double-Precision FP Values to Packed Dword Integers
CVTTPS2DQConvert with Truncation Packed Single-Precision FP Values to Packed Dword Integers
CVTTPS2PIConvert with Truncation Packed Single-Precision FP Values to Packed Dword Integers
CVTTSD2SIConvert with Truncation Scalar Double-Precision FP Value to Signed Integer
CVTTSS2SIConvert with Truncation Scalar Single-Precision FP Value to Dword Integer
CWDConvert Word to Doubleword/Convert Doubleword to Quadword
CDQConvert Word to Doubleword/Convert Doubleword to Quadword
CQOConvert Word to Doubleword/Convert Doubleword to Quadword
DAADecimal Adjust AL after Addition
DASDecimal Adjust AL after Subtraction
DECDecrement by 1
DIVUnsigned Divide
DIVPDDivide Packed Double-Precision Floating-Point Values
DIVPSDivide Packed Single-Precision Floating-Point Values
DIVSDDivide Scalar Double-Precision Floating-Point Values
DIVSSDivide Scalar Single-Precision Floating-Point Values
DPPDDot Product of Packed Double Precision Floating-Point Values
DPPSDot Product of Packed Single Precision Floating-Point Values
EMMSEmpty MMX Technology State
ENTERMake Stack Frame for Procedure Parameters
EXTRACTPSExtract Packed Single Precision Floating-Point Value
F2XM1Compute 2x-1
FABSAbsolute Value
FADDAdd
FADDPAdd
FIADDAdd
FBLDLoad Binary Coded Decimal
FBSTPStore BCD Integer and Pop
FCHSChange Sign
FCLEXClear Exceptions
FNCLEXClear Exceptions
FCMOVccFloating-Point Conditional Move
FCOMCompare Floating Point Values
FCOMPCompare Floating Point Values
FCOMPPCompare Floating Point Values
FCOMICompare Floating Point Values and Set EFLAGS
FCOMIPCompare Floating Point Values and Set EFLAGS
FUCOMICompare Floating Point Values and Set EFLAGS
FUCOMIPCompare Floating Point Values and Set EFLAGS
FCOSCosine
FDECSTPDecrement Stack-Top Pointer
FDIVDivide
FDIVPDivide
FIDIVDivide
FDIVRReverse Divide
FDIVRPReverse Divide
FIDIVRReverse Divide
FFREEFree Floating-Point Register
FICOMCompare Integer
FICOMPCompare Integer
FILDLoad Integer
FINCSTPIncrement Stack-Top Pointer
FINITInitialize Floating-Point Unit
FNINITInitialize Floating-Point Unit
FISTStore Integer
FISTPStore Integer
FISTTPStore Integer with Truncation
FLDLoad Floating Point Value
FLD1Load Constant
FLDL2TLoad Constant
FLDL2ELoad Constant
FLDPILoad Constant
FLDLG2Load Constant
FLDLN2Load Constant
FLDZLoad Constant
FLDCWLoad x87 FPU Control Word
FLDENVLoad x87 FPU Environment
FMULMultiply
FMULPMultiply
FIMULMultiply
FNOPNo Operation
FPATANPartial Arctangent
FPREMPartial Remainder
FPREM1Partial Remainder
FPTANPartial Tangent
FRNDINTRound to Integer
FRSTORRestore x87 FPU State
FSAVEStore x87 FPU State
FNSAVEStore x87 FPU State
FSCALEScale
FSINSine
FSINCOSSine and Cosine
FSQRTSquare Root
FSTStore Floating Point Value
FSTPStore Floating Point Value
FSTCWStore x87 FPU Control Word
FNSTCWStore x87 FPU Control Word
FSTENVStore x87 FPU Environment
FNSTENVStore x87 FPU Environment
FSTSWStore x87 FPU Status Word
FNSTSWStore x87 FPU Status Word
FSUBSubtract
FSUBPSubtract
FISUBSubtract
FSUBRReverse Subtract
FSUBRPReverse Subtract
FISUBRReverse Subtract
FTSTTEST
FUCOMUnordered Compare Floating Point Values
FUCOMPUnordered Compare Floating Point Values
FUCOMPPUnordered Compare Floating Point Values
FXAMExamine ModR/M
FXCHExchange Register Contents
FXRSTORRestore x87 FPU, MMX , XMM, and MXCSR State
FXSAVESave x87 FPU, MMX Technology, and SSE State
FXTRACTExtract Exponent and Significand
FYL2XCompute y ∗ log2x
FYL2XP1Compute y ∗ log2(x +1)
HADDPDPacked Double-FP Horizontal Add
HADDPSPacked Single-FP Horizontal Add
HLTHalt
HSUBPDPacked Double-FP Horizontal Subtract
HSUBPSPacked Single-FP Horizontal Subtract
IDIVSigned Divide
IMULSigned Multiply
INInput from Port
INCIncrement by 1
INSInput from Port to String
INSBInput from Port to String
INSWInput from Port to String
INSDInput from Port to String
INSERTPSInsert Packed Single Precision Floating-Point Value
INT nCall to Interrupt Procedure
INTOCall to Interrupt Procedure
INT 3Call to Interrupt Procedure
INVDInvalidate Internal Caches
INVLPGInvalidate TLB Entry
INVPCIDInvalidate Process-Context Identifier
IRETInterrupt Return
IRETDInterrupt Return
JMPJump
JccJump if Condition Is Met
LAHFLoad Status Flags into AH Register
LARLoad Access Rights Byte
LDDQULoad Unaligned Integer 128 Bits
LDMXCSRLoad MXCSR Register
LDSLoad Far Pointer
LESLoad Far Pointer
LFSLoad Far Pointer
LGSLoad Far Pointer
LSSLoad Far Pointer
LEALoad Effective Address
LEAVEHigh Level Procedure Exit
LFENCELoad Fence
LGDTLoad Global/Interrupt Descriptor Table Register
LIDTLoad Global/Interrupt Descriptor Table Register
LLDTLoad Local Descriptor Table Register
LMSWLoad Machine Status Word
LOCKAssert LOCK# Signal Prefix
LODSLoad String
LODSBLoad String
LODSWLoad String
LODSDLoad String
LODSQLoad String
LOOPLoop According to ECX Counter
LOOPccLoop According to ECX Counter
LSLLoad Segment Limit
LTRLoad Task Register
LZCNTCount the Number of Leading Zero Bits
MASKMOVDQUStore Selected Bytes of Double Quadword
MASKMOVQStore Selected Bytes of Quadword
MAXPDReturn Maximum Packed Double-Precision Floating-Point Values
MAXPSReturn Maximum Packed Single-Precision Floating-Point Values
MAXSDReturn Maximum Scalar Double-Precision Floating-Point Value
MAXSSReturn Maximum Scalar Single-Precision Floating-Point Value
MFENCEMemory Fence
MINPDReturn Minimum Packed Double-Precision Floating-Point Values
MINPSReturn Minimum Packed Single-Precision Floating-Point Values
MINSDReturn Minimum Scalar Double-Precision Floating-Point Value
MINSSReturn Minimum Scalar Single-Precision Floating-Point Value
MONITORSet Up Monitor Address
MOVMove to/from Control Registers
MOVMove to/from Debug Registers
MOVMove
MOVAPDMove Aligned Packed Double-Precision Floating-Point Values
MOVAPSMove Aligned Packed Single-Precision Floating-Point Values
MOVBEMove Data After Swapping Bytes
MOVDMove Doubleword/Move Quadword
MOVQMove Doubleword/Move Quadword
MOVDDUPMove One Double-FP and Duplicate
MOVDQ2QMove Quadword from XMM to MMX Technology Register
MOVDQAMove Aligned Double Quadword
MOVDQUMove Unaligned Double Quadword
MOVHLPSMove Packed Single-Precision Floating-Point Values High to Low
MOVHPDMove High Packed Double-Precision Floating-Point Value
MOVHPSMove High Packed Single-Precision Floating-Point Values
MOVLHPSMove Packed Single-Precision Floating-Point Values Low to High
MOVLPDMove Low Packed Double-Precision Floating-Point Value
MOVLPSMove Low Packed Single-Precision Floating-Point Values
MOVMSKPDExtract Packed Double-Precision Floating-Point Sign Mask
MOVMSKPSExtract Packed Single-Precision Floating-Point Sign Mask
MOVNTDQStore Double Quadword Using Non-Temporal Hint
MOVNTDQALoad Double Quadword Non-Temporal Aligned Hint
MOVNTIStore Doubleword Using Non-Temporal Hint
MOVNTPDStore Packed Double-Precision Floating-Point Values Using Non-Temporal Hint
MOVNTPSStore Packed Single-Precision Floating-Point Values Using Non-Temporal Hint
MOVNTQStore of Quadword Using Non-Temporal Hint
MOVQMove Quadword
MOVQ2DQMove Quadword from MMX Technology to XMM Register
MOVSMove Data from String to String
MOVSBMove Data from String to String
MOVSWMove Data from String to String
MOVSDMove Data from String to String
MOVSQMove Data from String to String
MOVSDMove Scalar Double-Precision Floating-Point Value
MOVSHDUPMove Packed Single-FP High and Duplicate
MOVSLDUPMove Packed Single-FP Low and Duplicate
MOVSSMove Scalar Single-Precision Floating-Point Values
MOVSXMove with Sign-Extension
MOVSXDMove with Sign-Extension
MOVUPDMove Unaligned Packed Double-Precision Floating-Point Values
MOVUPSMove Unaligned Packed Single-Precision Floating-Point Values
MOVZXMove with Zero-Extend
MPSADBWCompute Multiple Packed Sums of Absolute Difference
MULUnsigned Multiply
MULPDMultiply Packed Double-Precision Floating-Point Values
MULPSMultiply Packed Single-Precision Floating-Point Values
MULSDMultiply Scalar Double-Precision Floating-Point Values
MULSSMultiply Scalar Single-Precision Floating-Point Values
MULXUnsigned Multiply Without Affecting Flags
MWAITMonitor Wait
NEGTwo's Complement Negation
NOPNo Operation
NOTOne's Complement Negation
ORLogical Inclusive OR
ORPDBitwise Logical OR of Double-Precision Floating-Point Values
ORPSBitwise Logical OR of Single-Precision Floating-Point Values
OUTOutput to Port
OUTSOutput String to Port
OUTSBOutput String to Port
OUTSWOutput String to Port
OUTSDOutput String to Port
PABSBPacked Absolute Value
PABSWPacked Absolute Value
PABSDPacked Absolute Value
PACKSSWBPack with Signed Saturation
PACKSSDWPack with Signed Saturation
PACKUSDWPack with Unsigned Saturation
PACKUSWBPack with Unsigned Saturation
PADDBAdd Packed Integers
PADDWAdd Packed Integers
PADDDAdd Packed Integers
PADDQAdd Packed Quadword Integers
PADDSBAdd Packed Signed Integers with Signed Saturation
PADDSWAdd Packed Signed Integers with Signed Saturation
PADDUSBAdd Packed Unsigned Integers with Unsigned Saturation
PADDUSWAdd Packed Unsigned Integers with Unsigned Saturation
PALIGNRPacked Align Right
PANDLogical AND
PANDNLogical AND NOT
PAUSESpin Loop Hint
PAVGBAverage Packed Integers
PAVGWAverage Packed Integers
PBLENDVBVariable Blend Packed Bytes
PBLENDWBlend Packed Words
PCLMULQDQCarry-Less Multiplication Quadword
PCMPEQBCompare Packed Data for Equal
PCMPEQWCompare Packed Data for Equal
PCMPEQDCompare Packed Data for Equal
PCMPEQQCompare Packed Qword Data for Equal
PCMPESTRIPacked Compare Explicit Length Strings, Return Index
PCMPESTRMPacked Compare Explicit Length Strings, Return Mask
PCMPGTBCompare Packed Signed Integers for Greater Than
PCMPGTWCompare Packed Signed Integers for Greater Than
PCMPGTDCompare Packed Signed Integers for Greater Than
PCMPGTQCompare Packed Data for Greater Than
PCMPISTRIPacked Compare Implicit Length Strings, Return Index
PCMPISTRMPacked Compare Implicit Length Strings, Return Mask
PDEPParallel Bits Deposit
PEXTParallel Bits Extract
PEXTRBExtract Byte/Dword/Qword
PEXTRDExtract Byte/Dword/Qword
PEXTRQExtract Byte/Dword/Qword
PEXTRWExtract Word
PHADDSWPacked Horizontal Add and Saturate
PHADDWPacked Horizontal Add
PHADDDPacked Horizontal Add
PHMINPOSUWPacked Horizontal Word Minimum
PHSUBSWPacked Horizontal Subtract and Saturate
PHSUBWPacked Horizontal Subtract
PHSUBDPacked Horizontal Subtract
PINSRBInsert Byte/Dword/Qword
PINSRDInsert Byte/Dword/Qword
PINSRQInsert Byte/Dword/Qword
PINSRWInsert Word
PMADDUBSWMultiply and Add Packed Signed and Unsigned Bytes
PMADDWDMultiply and Add Packed Integers
PMAXSBMaximum of Packed Signed Byte Integers
PMAXSDMaximum of Packed Signed Dword Integers
PMAXSWMaximum of Packed Signed Word Integers
PMAXUBMaximum of Packed Unsigned Byte Integers
PMAXUDMaximum of Packed Unsigned Dword Integers
PMAXUWMaximum of Packed Word Integers
PMINSBMinimum of Packed Signed Byte Integers
PMINSDMinimum of Packed Dword Integers
PMINSWMinimum of Packed Signed Word Integers
PMINUBMinimum of Packed Unsigned Byte Integers
PMINUDMinimum of Packed Dword Integers
PMINUWMinimum of Packed Word Integers
PMOVMSKBMove Byte Mask
PMOVSXPacked Move with Sign Extend
PMOVZXPacked Move with Zero Extend
PMULDQMultiply Packed Signed Dword Integers
PMULHRSWPacked Multiply High with Round and Scale
PMULHUWMultiply Packed Unsigned Integers and Store High Result
PMULHWMultiply Packed Signed Integers and Store High Result
PMULLDMultiply Packed Signed Dword Integers and Store Low Result
PMULLWMultiply Packed Signed Integers and Store Low Result
PMULUDQMultiply Packed Unsigned Doubleword Integers
POPPop a Value from the Stack
POPAPop All General-Purpose Registers
POPADPop All General-Purpose Registers
POPCNTReturn the Count of Number of Bits Set to 1
POPFPop Stack into EFLAGS Register
POPFDPop Stack into EFLAGS Register
POPFQPop Stack into EFLAGS Register
PORBitwise Logical OR
PREFETCHWPrefetch Data into Caches in Anticipation of a Write
PREFETCHhPrefetch Data Into Caches
PSADBWCompute Sum of Absolute Differences
PSHUFBPacked Shuffle Bytes
PSHUFDShuffle Packed Doublewords
PSHUFHWShuffle Packed High Words
PSHUFLWShuffle Packed Low Words
PSHUFWShuffle Packed Words
PSIGNBPacked SIGN
PSIGNWPacked SIGN
PSIGNDPacked SIGN
PSLLDQShift Double Quadword Left Logical
PSLLWShift Packed Data Left Logical
PSLLDShift Packed Data Left Logical
PSLLQShift Packed Data Left Logical
PSRAWShift Packed Data Right Arithmetic
PSRADShift Packed Data Right Arithmetic
PSRLDQShift Double Quadword Right Logical
PSRLWShift Packed Data Right Logical
PSRLDShift Packed Data Right Logical
PSRLQShift Packed Data Right Logical
PSUBBSubtract Packed Integers
PSUBWSubtract Packed Integers
PSUBDSubtract Packed Integers
PSUBQSubtract Packed Quadword Integers
PSUBSBSubtract Packed Signed Integers with Signed Saturation
PSUBSWSubtract Packed Signed Integers with Signed Saturation
PSUBUSBSubtract Packed Unsigned Integers with Unsigned Saturation
PSUBUSWSubtract Packed Unsigned Integers with Unsigned Saturation
PTESTLogical Compare
PUNPCKHBWUnpack High Data
PUNPCKHWDUnpack High Data
PUNPCKHDQUnpack High Data
PUNPCKHQDQUnpack High Data
PUNPCKLBWUnpack Low Data
PUNPCKLWDUnpack Low Data
PUNPCKLDQUnpack Low Data
PUNPCKLQDQUnpack Low Data
PUSHPush Word, Doubleword or Quadword Onto the Stack
PUSHAPush All General-Purpose Registers
PUSHADPush All General-Purpose Registers
PUSHFPush EFLAGS Register onto the Stack
PUSHFDPush EFLAGS Register onto the Stack
PXORLogical Exclusive OR
RCLRotate
RCRRotate
ROLRotate
RORRotate
RCPPSCompute Reciprocals of Packed Single-Precision Floating-Point Values
RCPSSCompute Reciprocal of Scalar Single-Precision Floating-Point Values
RDFSBASERead FS/GS Segment Base
RDGSBASERead FS/GS Segment Base
RDMSRRead from Model Specific Register
RDPMCRead Performance-Monitoring Counters
RDRANDRead Random Number
RDTSCRead Time-Stamp Counter
RDTSCPRead Time-Stamp Counter and Processor ID
REPRepeat String Operation Prefix
REPERepeat String Operation Prefix
REPZRepeat String Operation Prefix
REPNERepeat String Operation Prefix
REPNZRepeat String Operation Prefix
RETReturn from Procedure
RORXRotate Right Logical Without Affecting Flags
ROUNDPDRound Packed Double Precision Floating-Point Values
ROUNDPSRound Packed Single Precision Floating-Point Values
ROUNDSDRound Scalar Double Precision Floating-Point Values
ROUNDSSRound Scalar Single Precision Floating-Point Values
RSMResume from System Management Mode
RSQRTPSCompute Reciprocals of Square Roots of Packed Single-Precision Floating-Point Values
RSQRTSSCompute Reciprocal of Square Root of Scalar Single-Precision Floating-Point Value
SAHFStore AH into Flags
SALShift
SARShift
SHLShift
SHRShift
SARXShift Without Affecting Flags
SHLXShift Without Affecting Flags
SHRXShift Without Affecting Flags
SBBInteger Subtraction with Borrow
SCASScan String
SCASBScan String
SCASWScan String
SCASDScan String
SETccSet Byte on Condition
SFENCEStore Fence
SGDTStore Global Descriptor Table Register
SHLDDouble Precision Shift Left
SHRDDouble Precision Shift Right
SHUFPDShuffle Packed Double-Precision Floating-Point Values
SHUFPSShuffle Packed Single-Precision Floating-Point Values
SIDTStore Interrupt Descriptor Table Register
SLDTStore Local Descriptor Table Register
SMSWStore Machine Status Word
SQRTPDCompute Square Roots of Packed Double-Precision Floating-Point Values
SQRTPSCompute Square Roots of Packed Single-Precision Floating-Point Values
SQRTSDCompute Square Root of Scalar Double-Precision Floating-Point Value
SQRTSSCompute Square Root of Scalar Single-Precision Floating-Point Value
STCSet Carry Flag
STDSet Direction Flag
STISet Interrupt Flag
STMXCSRStore MXCSR Register State
STOSStore String
STOSBStore String
STOSWStore String
STOSDStore String
STOSQStore String
STRStore Task Register
SUBSubtract
SUBPDSubtract Packed Double-Precision Floating-Point Values
SUBPSSubtract Packed Single-Precision Floating-Point Values
SUBSDSubtract Scalar Double-Precision Floating-Point Values
SUBSSSubtract Scalar Single-Precision Floating-Point Values
SWAPGSSwap GS Base Register
SYSCALLFast System Call
SYSENTERFast System Call
SYSEXITFast Return from Fast System Call
SYSRETReturn From Fast System Call
TESTLogical Compare
TZCNTCount the Number of Trailing Zero Bits
UCOMISDUnordered Compare Scalar Double-Precision Floating-Point Values and Set EFLAGS
UCOMISSUnordered Compare Scalar Single-Precision Floating-Point Values and Set EFLAGS
UD2Undefined Instruction
UNPCKHPDUnpack and Interleave High Packed Double-Precision Floating-Point Values
UNPCKHPSUnpack and Interleave High Packed Single-Precision Floating-Point Values
UNPCKLPDUnpack and Interleave Low Packed Double-Precision Floating-Point Values
UNPCKLPSUnpack and Interleave Low Packed Single-Precision Floating-Point Values
VBROADCASTBroadcast Floating-Point Data
VCVTPH2PSConvert 16-bit FP Values to Single-Precision FP Values
VCVTPS2PHConvert Single-Precision FP value to 16-bit FP value
VERRVerify a Segment for Reading or Writing
VERWVerify a Segment for Reading or Writing
VEXTRACTF128Extract Packed Floating-Point Values
VEXTRACTI128Extract packed Integer Values
VFMADD132PDFused Multiply-Add of Packed DoublePrecision Floating-Point Values
VFMADD213PDFused Multiply-Add of Packed DoublePrecision Floating-Point Values
VFMADD231PDFused Multiply-Add of Packed DoublePrecision Floating-Point Values
VFMADD132PSFused Multiply-Add of Packed SinglePrecision Floating-Point Values
VFMADD213PSFused Multiply-Add of Packed SinglePrecision Floating-Point Values
VFMADD231PSFused Multiply-Add of Packed SinglePrecision Floating-Point Values
VFMADD132SDFused Multiply-Add of Scalar DoublePrecision Floating-Point Values
VFMADD213SDFused Multiply-Add of Scalar DoublePrecision Floating-Point Values
VFMADD231SDFused Multiply-Add of Scalar DoublePrecision Floating-Point Values
VFMADD132SSFused Multiply-Add of Scalar Single-Precision Floating-Point Values
VFMADD213SSFused Multiply-Add of Scalar Single-Precision Floating-Point Values
VFMADD231SSFused Multiply-Add of Scalar Single-Precision Floating-Point Values
VFMADDSUB132PDFused Multiply-Alternating Add/Subtract of Packed Double-Precision Floating-Point Values
VFMADDSUB213PDFused Multiply-Alternating Add/Subtract of Packed Double-Precision Floating-Point Values
VFMADDSUB231PDFused Multiply-Alternating Add/Subtract of Packed Double-Precision Floating-Point Values
VFMADDSUB132PSFused Multiply-Alternating Add/Subtract of Packed Single-Precision Floating-Point Values
VFMADDSUB213PSFused Multiply-Alternating Add/Subtract of Packed Single-Precision Floating-Point Values
VFMADDSUB231PSFused Multiply-Alternating Add/Subtract of Packed Single-Precision Floating-Point Values
VFMSUB132PDFused Multiply-Subtract of Packed DoublePrecision Floating-Point Values
VFMSUB213PDFused Multiply-Subtract of Packed DoublePrecision Floating-Point Values
VFMSUB231PDFused Multiply-Subtract of Packed DoublePrecision Floating-Point Values
VFMSUB132PSFused Multiply-Subtract of Packed SinglePrecision Floating-Point Values
VFMSUB213PSFused Multiply-Subtract of Packed SinglePrecision Floating-Point Values
VFMSUB231PSFused Multiply-Subtract of Packed SinglePrecision Floating-Point Values
VFMSUB132SDFused Multiply-Subtract of Scalar DoublePrecision Floating-Point Values
VFMSUB213SDFused Multiply-Subtract of Scalar DoublePrecision Floating-Point Values
VFMSUB231SDFused Multiply-Subtract of Scalar DoublePrecision Floating-Point Values
VFMSUB132SSFused Multiply-Subtract of Scalar SinglePrecision Floating-Point Values
VFMSUB213SSFused Multiply-Subtract of Scalar SinglePrecision Floating-Point Values
VFMSUB231SSFused Multiply-Subtract of Scalar SinglePrecision Floating-Point Values
VFMSUBADD132PDFused Multiply-Alternating Subtract/Add of Packed Double-Precision Floating-Point Values
VFMSUBADD213PDFused Multiply-Alternating Subtract/Add of Packed Double-Precision Floating-Point Values
VFMSUBADD231PDFused Multiply-Alternating Subtract/Add of Packed Double-Precision Floating-Point Values
VFMSUBADD132PSFused Multiply-Alternating Subtract/Add of Packed Single-Precision Floating-Point Values
VFMSUBADD213PSFused Multiply-Alternating Subtract/Add of Packed Single-Precision Floating-Point Values
VFMSUBADD231PSFused Multiply-Alternating Subtract/Add of Packed Single-Precision Floating-Point Values
VFNMADD132PDFused Negative Multiply-Add of Packed Double-Precision Floating-Point Values
VFNMADD213PDFused Negative Multiply-Add of Packed Double-Precision Floating-Point Values
VFNMADD231PDFused Negative Multiply-Add of Packed Double-Precision Floating-Point Values
VFNMADD132PSFused Negative Multiply-Add of Packed Single-Precision Floating-Point Values
VFNMADD213PSFused Negative Multiply-Add of Packed Single-Precision Floating-Point Values
VFNMADD231PSFused Negative Multiply-Add of Packed Single-Precision Floating-Point Values
VFNMADD132SDFused Negative Multiply-Add of Scalar Double-Precision Floating-Point Values
VFNMADD213SDFused Negative Multiply-Add of Scalar Double-Precision Floating-Point Values
VFNMADD231SDFused Negative Multiply-Add of Scalar Double-Precision Floating-Point Values
VFNMADD132SSFused Negative Multiply-Add of Scalar Single-Precision Floating-Point Values
VFNMADD213SSFused Negative Multiply-Add of Scalar Single-Precision Floating-Point Values
VFNMADD231SSFused Negative Multiply-Add of Scalar Single-Precision Floating-Point Values
VFNMSUB132PDFused Negative Multiply-Subtract of Packed Double-Precision Floating-Point Values
VFNMSUB213PDFused Negative Multiply-Subtract of Packed Double-Precision Floating-Point Values
VFNMSUB231PDFused Negative Multiply-Subtract of Packed Double-Precision Floating-Point Values
VFNMSUB132PSFused Negative Multiply-Subtract of Packed Single-Precision Floating-Point Values
VFNMSUB213PSFused Negative Multiply-Subtract of Packed Single-Precision Floating-Point Values
VFNMSUB231PSFused Negative Multiply-Subtract of Packed Single-Precision Floating-Point Values
VFNMSUB132SDFused Negative Multiply-Subtract of Scalar Double-Precision Floating-Point Values
VFNMSUB213SDFused Negative Multiply-Subtract of Scalar Double-Precision Floating-Point Values
VFNMSUB231SDFused Negative Multiply-Subtract of Scalar Double-Precision Floating-Point Values
VFNMSUB132SSFused Negative Multiply-Subtract of Scalar Single-Precision Floating-Point Values
VFNMSUB213SSFused Negative Multiply-Subtract of Scalar Single-Precision Floating-Point Values
VFNMSUB231SSFused Negative Multiply-Subtract of Scalar Single-Precision Floating-Point Values
VGATHERDPDGather Packed DP FP Values Using Signed Dword/Qword Indices
VGATHERQPDGather Packed DP FP Values Using Signed Dword/Qword Indices
VGATHERDPSGather Packed SP FP values Using Signed Dword/Qword Indices
VGATHERQPSGather Packed SP FP values Using Signed Dword/Qword Indices
VINSERTF128Insert Packed Floating-Point Values
VINSERTI128Insert Packed Integer Values
VMASKMOVConditional SIMD Packed Loads and Stores
VPBLENDDBlend Packed Dwords
VPBROADCASTBroadcast Integer Data
VPERM2F128Permute Floating-Point Values
VPERM2I128Permute Integer Values
VPERMDFull Doublewords Element Permutation
VPERMILPDPermute Double-Precision Floating-Point Values
VPERMILPSPermute Single-Precision Floating-Point Values
VPERMPDPermute Double-Precision Floating-Point Elements
VPERMPSPermute Single-Precision Floating-Point Elements
VPERMQQwords Element Permutation
VPGATHERDDGather Packed Dword Values Using Signed Dword/Qword Indices
VPGATHERQDGather Packed Dword Values Using Signed Dword/Qword Indices
VPGATHERDQGather Packed Qword Values Using Signed Dword/Qword Indices
VPGATHERQQGather Packed Qword Values Using Signed Dword/Qword Indices
VPMASKMOVConditional SIMD Integer Packed Loads and Stores
VPSLLVDVariable Bit Shift Left Logical
VPSLLVQVariable Bit Shift Left Logical
VPSRAVDVariable Bit Shift Right Arithmetic
VPSRLVDVariable Bit Shift Right Logical
VPSRLVQVariable Bit Shift Right Logical
VTESTPDPacked Bit Test
VTESTPSPacked Bit Test
VZEROALLZero All YMM Registers
VZEROUPPERZero Upper Bits of YMM Registers
WAITWait
FWAITWait
WBINVDWrite Back and Invalidate Cache
WRFSBASEWrite FS/GS Segment Base
WRGSBASEWrite FS/GS Segment Base
WRMSRWrite to Model Specific Register
XABORTTransactional Abort
XACQUIREHardware Lock Elision Prefix Hints
XRELEASEHardware Lock Elision Prefix Hints
XADDExchange and Add
XBEGINTransactional Begin
XCHGExchange Register/Memory with Register
XENDTransactional End
XGETBVGet Value of Extended Control Register
XLATTable Look-up Translation
XLATBTable Look-up Translation
XORLogical Exclusive OR
XORPDBitwise Logical XOR for Double-Precision Floating-Point Values
XORPSBitwise Logical XOR for Single-Precision Floating-Point Values
XRSTORRestore Processor Extended States
XRSTORSRestore Processor Extended States Supervisor
XSAVESave Processor Extended States
XSAVECSave Processor Extended States with Compaction
XSAVEOPTSave Processor Extended States Optimized
XSAVESSave Processor Extended States Supervisor
XSETBVSet Extended Control Register
XTESTTest If In Transactional Execution


Source:  https://github.com/zneak/x86doc



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