Indirect branch explained

An indirect branch (also known as a computed jump, indirect jump and register-indirect jump) is a type of program control instruction present in some machine language instruction sets. Rather than specifying the address of the next instruction to execute, as in a direct branch, the argument specifies where the address is located. An example is 'jump indirect on the r1 register', which means that the next instruction to be executed is at the address in register r1. The address to be jumped to is not known until the instruction is executed. Indirect branches can also depend on the value of a memory location.

An indirect branch can be useful to make a conditional branch, especially a multiway branch. For instance, based on program input, a value could be looked up in a jump table of pointers to code for handling the various cases implied by the data value. The data value could be added to the address of the table, with the result stored in a register. An indirect jump could then be made based on the value of that register, efficiently dispatching program control to the code appropriate to the input.

In a similar manner, subroutine call instructions can be indirect, with the address of the subroutine to be called specified in memory. Function Pointers are typically implemented with indirect subroutine calls.

Indirect branches were one of the attack surfaces of Spectre. To mitigate the attack GCC 8.1 introduced the following new options: -mindirect-branch=, -mfunction-return= and -mindirect-branch-register.

Example assembler syntax

MSP430

  

br r15
SPARC

  

jmpl %o7
MIPS

   

x86 (AT&T Syntax):     
x86 (Intel Syntax):     
ARM

    

,
Itanium (x86 family):   br.ret.sptk.few rp
6502

   

65C816

 

6809

 

jmp [$0DEA], jmp B,X, jmp [B,X]
6800

 

jmp 0,X
Z80

 

jp (hl)
Intel MCS-51

 

jmp @A+DPTR
Intel 8080

 

pchl
IBM System z

 

bcr cond,r1
RISC-Vjalr x0, 0(x1)

See also