# amd64 instructions
* `;` starts a comment
## Values
* __Immediate__, numbers
* __register__, existing registers
* __memory__, memory addresses
## Move
* `MOV`, from source to destination
* `LEA`, loads memory address and stores it in the destination. Address can have an offset. Does not dereference `[var]` or `[var+x]`
* `PUSH` & `POP`, put & delete registers to/from stack.
## Arithmetic
* `INC`, increment
* `DEC`, decrement
* `ADD`
* `SUB`, substracts source from dest and stores in dest
* `MUL` & `IMUL`, result may be stored in upper and lower halfs (rdx:rax)
* `DIV` & `IDIV`, rax is divided by rbx and may be stored in two halfs as well
## Conditionals
* `RET`, return value to the caller
* `CMP`, compare two values and sets flag. Next instruction is a jump condition to a line number. Works as follows
* `JE`, `JEZ`, `JLE` ... followed by linenumber
* `NOP`, `\x90`
* `CALL` a function
## Address Handling
* `[var]`, memory address of var.
* If var contains an address then after `mov [var], 42` var points to the value 42. `[` dereference.
## Zero Handling in Registers
* Move to `eax` will result in zeroing the upper 32 bit of an `rax` register, move to `ax`, `ah`, `al` will not.
* `MOVZX` zeros anything but the value moved to the register inside of it.
## Jumps
* For signed value comparison
* `JL/JNGE` (SF <> OF) ; Jump if less/not greater or equal
* `JGE/JNL` (SF = OF) ; Jump if greater or equal/not less
* `JLE/JNG` (ZF = 1 or SF <> OF); Jump if less or equal/not greater
* `JG/JNLE` (ZF = 0 and SF = OF); Jump if greater/not less or equal
* For unsigned value comparison
* `JB/JNAE` (CF = 1) ; Jump if below/not above or equal
* `JAE/JNB` (CF = 0) ; Jump if above or equal/not below
* `JBE/JNA` (CF = 1 or ZF = 1) ; Jump if below or equal/not above
* `JA/JNBE` (CF = 0 and ZF = 0); Jump if above/not below or equal
## Flags
* `eflags` 32bit
* `rflags` 64bit
### Status
* __Zero Flag__ (ZF), 1 if the result of the comparison is equal.
* __Carry Flag__ (CF), a 1 is stored if a carry is needed after a calculation.
* __Overflow Flag__ (OF), register overflow is 1
* __Sign Flag__ (SF), 1 if result is negative.
* __Adjust/Auxiliary Flag__ (AF), carry flag for BCD.
* __Parity Flag__ (PF), 1 if the last 8 bits are even.
* __Trap Flag__ (TF)
## Calling Conventions
## cdecl
## fastcall
* First four are passed __left to right__
* int -> RCX, RDX, R8, R9
* float -> XMM0, XMM1, XMM2, XMM3
* Rest is __right to left__
* Basepointer is saved by the caller
* Return values is passes via `rax` or `xmm0`
* Caller allocates space for at least four values, so 32 bytes are reserved. `$rsp to $rsp+0x18`
* Volatile registers are `rax, rcx, r8, r9, r10, r11, xmm0, xmm1, xmm2, xmm3, xmm4, xmm5`. These are destroyed after function call.
* Nonvolatile registers are `rbx, rbp, rdi, rsi, rsp, r12, r13, r14, r15, xmm6-15` ares saved and restored after function call.