Dismiss
Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

# About the je in assembly

``````77f4bccd 741a            je      SHLWAPI!UrlIsW+0x3d (77f4bce9)
``````

According to this formula:

``````7x xx                 RIP=RIP+8 bit displacement
``````

The dest address should be `77f4bccd+1a=77F4BCE7`,but it's actually `77f4bce9`.

Why?

UPDATE

``````77f4bce2 0f85a20a0000    jne     SHLWAPI!Ordinal152+0x101 (77f4c78a)
``````

The dest address should be `77f4bce2+a20a0000=119FEBCE2`,but it's `77f4c78a`,why?

-
The displacement is relative to the address after the instruction has been read, i.e. you need to add 2 bytes for the instruction itself. – Paul R May 16 '11 at 12:49

The offset is after the end of the current instruction. Since the instruction is encoded in two bytes in this case, you need to add two to your calculation.

Quoting the AMD64 Architecture Programmer’s Manual Volume 3: General-Purpose and System Instructions section 1.7:

In 64-bit mode, addressing relative to the contents of the 64-bit instruction pointer (program counter)—called RIP-relative addressing or PC-relative addressing—is implemented for certain instructions. In such cases, the effective address is formed by adding the displacement to the 64-bit RIP of the next instruction.

For the second one, you're reading the offset the wrong byte order (remember that x86 CPUs are little-endian). It's actually `0x00000aa2`. Add the 6 bytes of instruction and the jump does compute to:

``````0x77f4bce2 + 0x0aa2 + 0x06 = 0x77f4c78a
``````
-
Can you explain the other example above? – compile-fan May 16 '11 at 13:04
@compile-fan: updated. – Mat May 16 '11 at 13:14

Because `RIP` is already incremented to point to the next instruction by the time pipeline gets to add the displacement.

-
If this example is not obvious,how to explain this one: `77f4bce2 0f85a20a0000 jne SHLWAPI!Ordinal152+0x101 (77f4c78a)`? – compile-fan May 16 '11 at 13:08
I think @Mat explained that - the little endian offset of `0xaa2`. – Nikolai N Fetissov May 16 '11 at 13:19

Apparently the destination address is calculated from the incremented instruction pointer (the address after the `je`) and the displacement.

-