module Arm # There are only three call instructions in arm branch (b), call (bl) and syscall (swi) # A branch could be called a jump as it has no notion of returning # The pc is put into the link register to make a return possible # a return is affected by moving the stored link register into the pc, effectively a branch # swi (SoftWareInterrupt) or system call is how we call the kernel. # in Arm the register layout is different and so we have to place the syscall code into register 7 # Riscs 0-6 hold the call values as for a normal c call class CallInstruction < Instruction attr_reader :first def initialize(first, attributes) super(nil, nil) @attributes = attributes raise "no target" if first.nil? @first = first opcode = @attributes[:opcode].to_s if opcode.length == 3 and opcode[0] == "b" @attributes[:condition_code] = opcode[1,2].to_sym @attributes[:opcode] = :b end if opcode.length == 6 and opcode[0] == "c" @attributes[:condition_code] = opcode[4,2].to_sym @attributes[:opcode] = :call end @attributes[:update_status] = 0 @attributes[:condition_code] = :al if @attributes[:condition_code] == nil end def assemble(io) case @attributes[:opcode] when :b, :call handle_call(io) when :swi handle_swi(io) else raise "Should not be the case #{inspect}" end end def handle_call(io) case @first when Risc::Label # relative addressing for jumps/calls # but because of the arm "theoretical" 3- stage pipeline, # we have to subtract 2 words (fetch/decode) arg = Risc::Position.get(@first) - Risc::Position.get(self) - 8 when Parfait::BinaryCode # But, for methods, this happens to be the size of the object header, # so there it balances out, but not blocks # have to use the code, not the method object for methods arg = Risc::Position.get(@first) - Risc::Position.get(self) + 4 else arg = @first end write_call(arg, io) end def write_call(arg,io) raise "else not Attributed arg =\n#{arg.to_s[0..1000]}: #{inspect[0..1000]}" unless (arg.is_a?(Numeric)) val = (arg >> 2) & 0xFFFFFF raise "too big #{val}" if (val & 0xFFFFFFFF000000) != 0 val |= shift(op_bit_code , 24) val |= shift(COND_CODES[@attributes[:condition_code]] , 28) io.write_unsigned_int_32( val ) end def handle_swi(io) arg = @first raise "expected literal not #{arg} #{inspect}" unless (arg.is_a?(Numeric)) val = arg & 0xFFFFFF val |= shift(0b1111 , 24) val |= shift(COND_CODES[@attributes[:condition_code]] , 28) io.write_unsigned_int_32 val end def to_s "#{opcode} #{@first} #{super}" end end end