Erlang源码汇编格式
April 16th, 2010
原创文章,转载请注明: 转载自系统技术非业余研究
本文链接地址: Erlang源码汇编格式
我们在编码的时候, 通常会好奇, 这时候需要观察erl源码生成的VM opcode. Erlang的VM是register based的VM, 生产的opcode很容易理解.
生成汇编格式有2种方式:
1. 从源码生成抽象码. erlc +”‘S'” mod.erl, 生成mod.S
2. 从beam生成Opcode. 未公开的功能. erts_debug:df 参数M或者 M, F, 生成mod.dis
来吧,实践下:
root@ubuntu:~/exam# ls eg.erl root@ubuntu:~/exam# erlc +"'S'" eg.erl root@ubuntu:~/exam# erlc eg.erl root@ubuntu:~/exam# erl Erlang R14A (erts-5.8) [source] [smp:2:2] [rq:2] [async-threads:0] [hipe] [kernel-poll:false] [lock-counting] Eshell V5.8 (abort with ^G) 1> erts_debug:df(eg). ok 2> User switch command --> q root@ubuntu:~/exam# ls eg* eg.beam eg.dis eg.erl eg.S
我们得到了eg.S, eg.dis这2个反汇编的结果. 我们再来参观下.
先看源码:
root@ubuntu:~/exam# cat eg.erl
-module(eg). -import(lists). -import(lists,[sum/1]). -compile(export_all). kilo_byte() -> kilo_byte(10, [42]). kilo_byte(0, Acc) -> Acc; kilo_byte(N, Acc) -> kilo_byte(N-1, [Acc|Acc]). loop()-> sum(lists:seq(1,100)), loop().
中间汇编码, 供transform进行处理和编译器进一步生成opcode.
root@ubuntu:~/exam# cat eg.S
{module, eg}. %% version = 0 {exports, [{kilo_byte,0}, {kilo_byte,2}, {loop,0}, {module_info,0}, {module_info,1}]}. {attributes, []}. {labels, 12}. {function, kilo_byte, 0, 2}. {label,1}. {func_info,{atom,eg},{atom,kilo_byte},0}. {label,2}. {move,{literal,"*"},{x,1}}. {move,{integer,10},{x,0}}. {call_only,2,{f,4}}. {function, kilo_byte, 2, 4}. {label,3}. {func_info,{atom,eg},{atom,kilo_byte},2}. {label,4}. {test,is_eq_exact,{f,5},[{x,0},{integer,0}]}. {move,{x,1},{x,0}}. return. {label,5}. {gc_bif,'-',{f,0},2,[{x,0},{integer,1}],{x,0}}. {test_heap,2,2}. {put_list,{x,1},{x,1},{x,1}}. {call_only,2,{f,4}}. {function, loop, 0, 7}. {label,6}. {func_info,{atom,eg},{atom,loop},0}. {label,7}. {allocate,0,0}. {move,{integer,100},{x,1}}. {move,{integer,1},{x,0}}. {call_ext,2,{extfunc,lists,seq,2}}. {call_ext,1,{extfunc,lists,sum,1}}. {call_last,0,{f,7},0}. {function, module_info, 0, 9}. {label,8}. {func_info,{atom,eg},{atom,module_info},0}. {label,9}. {move,{atom,eg},{x,0}}. {call_ext_only,1,{extfunc,erlang,get_module_info,1}}. {function, module_info, 1, 11}. {label,10}. {func_info,{atom,eg},{atom,module_info},1}. {label,11}. {move,{x,0},{x,1}}. {move,{atom,eg},{x,0}}. {call_ext_only,2,{extfunc,erlang,get_module_info,2}}.
VM opcode形式, VM就是来解释运行这些code的
root@ubuntu:~/exam# cat eg.dis B5146074: i_func_info_IaaI 0 eg kilo_byte 0 B5146088: move_cx "*" x(1) B5146094: i_move_call_only_fcr eg:kilo_byte/2 10 x(0) B51460A0: i_func_info_IaaI 0 eg kilo_byte 2 B51460B4: i_is_eq_immed_frc f(B51460C8) x(0) 0 B51460C0: move_return_xr x(1) x(0) B51460C8: i_fetch_rc x(0) 1 B51460D0: i_minus_jId j(00000000) 2 x(0) B51460E0: test_heap_II 2 2 B51460EC: put_list_xxx x(1) x(1) x(1) B51460F4: i_call_only_f eg:kilo_byte/2 B51460FC: i_func_info_IaaI 0 eg loop 0 B5146110: allocate_tt 0 0 B5146118: move_cx 100 x(1) B5146124: i_move_call_ext_cre 1 x(0) lists:seq/2 B5146130: i_call_ext_e lists:sum/1 B5146138: i_call_last_fP eg:loop/0 0 B5146144: i_func_info_IaaI 0 eg module_info 0 B5146158: move_cr eg x(0) B5146160: allocate_tt 0 1 B5146168: call_bif1_e erlang:get_module_info/1 B5146170: deallocate_return_P 0 B5146178: i_func_info_IaaI 0 eg module_info 1 B514618C: move_rx x(0) x(1) B5146194: move_cr eg x(0) B514619C: allocate_tt 0 2 B51461A4: call_bif2_e erlang:get_module_info/2 B51461AC: deallocate_return_P 0
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