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/*- * Copyright (C) 2002-2003 NetGroup, Politecnico di Torino (Italy) * Copyright (C) 2005-2009 Jung-uk Kim <jkim@FreeBSD.org> * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the Politecnico di Torino nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * $FreeBSD: release/9.1.0/sys/amd64/amd64/bpf_jit_machdep.h 207081 2010-04-22 23:47:19Z jkim $ */ #ifndef _BPF_JIT_MACHDEP_H_ #define _BPF_JIT_MACHDEP_H_ /* * Registers */ #define RAX 0 #define RCX 1 #define RDX 2 #define RBX 3 #define RSP 4 #define RBP 5 #define RSI 6 #define RDI 7 #define R8 0 #define R9 1 #define R10 2 #define R11 3 #define R12 4 #define R13 5 #define R14 6 #define R15 7 #define EAX 0 #define ECX 1 #define EDX 2 #define EBX 3 #define ESP 4 #define EBP 5 #define ESI 6 #define EDI 7 #define R8D 0 #define R9D 1 #define R10D 2 #define R11D 3 #define R12D 4 #define R13D 5 #define R14D 6 #define R15D 7 #define AX 0 #define CX 1 #define DX 2 #define BX 3 #define SP 4 #define BP 5 #define SI 6 #define DI 7 #define AL 0 #define CL 1 #define DL 2 #define BL 3 /* Optimization flags */ #define BPF_JIT_FRET 0x01 #define BPF_JIT_FPKT 0x02 #define BPF_JIT_FMEM 0x04 #define BPF_JIT_FJMP 0x08 #define BPF_JIT_FLEN 0x10 #define BPF_JIT_FLAG_ALL \ (BPF_JIT_FPKT | BPF_JIT_FMEM | BPF_JIT_FJMP | BPF_JIT_FLEN) /* A stream of native binary code */ typedef struct bpf_bin_stream { /* Current native instruction pointer. */ int cur_ip; /* * Current BPF instruction pointer, i.e. position in * the BPF program reached by the jitter. */ int bpf_pc; /* Instruction buffer, contains the generated native code. */ char *ibuf; /* Jumps reference table. */ u_int *refs; } bpf_bin_stream; /* * Prototype of the emit functions. * * Different emit functions are used to create the reference table and * to generate the actual filtering code. This allows to have simpler * instruction macros. * The first parameter is the stream that will receive the data. * The second one is a variable containing the data. * The third one is the length, that can be 1, 2, or 4 since it is possible * to emit a byte, a short, or a word at a time. */ typedef void (*emit_func)(bpf_bin_stream *stream, u_int value, u_int n); /* * Native instruction macros */ /* movl i32,r32 */ #define MOVid(i32, r32) do { \ emitm(&stream, (11 << 4) | (1 << 3) | (r32 & 0x7), 1); \ emitm(&stream, i32, 4); \ } while (0) /* movq i64,r64 */ #define MOViq(i64, r64) do { \ emitm(&stream, 0x48, 1); \ emitm(&stream, (11 << 4) | (1 << 3) | (r64 & 0x7), 1); \ emitm(&stream, i64, 4); \ emitm(&stream, (i64 >> 32), 4); \ } while (0) /* movl sr32,dr32 */ #define MOVrd(sr32, dr32) do { \ emitm(&stream, 0x89, 1); \ emitm(&stream, \ (3 << 6) | ((sr32 & 0x7) << 3) | (dr32 & 0x7), 1); \ } while (0) /* movl sr32,dr32 (dr32 = %r8-15d) */ #define MOVrd2(sr32, dr32) do { \ emitm(&stream, 0x8941, 2); \ emitm(&stream, \ (3 << 6) | ((sr32 & 0x7) << 3) | (dr32 & 0x7), 1); \ } while (0) /* movl sr32,dr32 (sr32 = %r8-15d) */ #define MOVrd3(sr32, dr32) do { \ emitm(&stream, 0x8944, 2); \ emitm(&stream, \ (3 << 6) | ((sr32 & 0x7) << 3) | (dr32 & 0x7), 1); \ } while (0) /* movq sr64,dr64 */ #define MOVrq(sr64, dr64) do { \ emitm(&stream, 0x8948, 2); \ emitm(&stream, \ (3 << 6) | ((sr64 & 0x7) << 3) | (dr64 & 0x7), 1); \ } while (0) /* movq sr64,dr64 (dr64 = %r8-15) */ #define MOVrq2(sr64, dr64) do { \ emitm(&stream, 0x8949, 2); \ emitm(&stream, \ (3 << 6) | ((sr64 & 0x7) << 3) | (dr64 & 0x7), 1); \ } while (0) /* movq sr64,dr64 (sr64 = %r8-15) */ #define MOVrq3(sr64, dr64) do { \ emitm(&stream, 0x894c, 2); \ emitm(&stream, \ (3 << 6) | ((sr64 & 0x7) << 3) | (dr64 & 0x7), 1); \ } while (0) /* movl (sr64,or64,1),dr32 */ #define MOVobd(sr64, or64, dr32) do { \ emitm(&stream, 0x8b, 1); \ emitm(&stream, ((dr32 & 0x7) << 3) | 4, 1); \ emitm(&stream, ((or64 & 0x7) << 3) | (sr64 & 0x7), 1); \ } while (0) /* movw (sr64,or64,1),dr16 */ #define MOVobw(sr64, or64, dr16) do { \ emitm(&stream, 0x8b66, 2); \ emitm(&stream, ((dr16 & 0x7) << 3) | 4, 1); \ emitm(&stream, ((or64 & 0x7) << 3) | (sr64 & 0x7), 1); \ } while (0) /* movb (sr64,or64,1),dr8 */ #define MOVobb(sr64, or64, dr8) do { \ emitm(&stream, 0x8a, 1); \ emitm(&stream, ((dr8 & 0x7) << 3) | 4, 1); \ emitm(&stream, ((or64 & 0x7) << 3) | (sr64 & 0x7), 1); \ } while (0) /* movl sr32,(dr64,or64,1) */ #define MOVomd(sr32, dr64, or64) do { \ emitm(&stream, 0x89, 1); \ emitm(&stream, ((sr32 & 0x7) << 3) | 4, 1); \ emitm(&stream, ((or64 & 0x7) << 3) | (dr64 & 0x7), 1); \ } while (0) /* bswapl dr32 */ #define BSWAP(dr32) do { \ emitm(&stream, 0xf, 1); \ emitm(&stream, (0x19 << 3) | dr32, 1); \ } while (0) /* xchgb %al,%ah */ #define SWAP_AX() do { \ emitm(&stream, 0xc486, 2); \ } while (0) /* pushq r64 */ #define PUSH(r64) do { \ emitm(&stream, (5 << 4) | (0 << 3) | (r64 & 0x7), 1); \ } while (0) /* leaveq */ #define LEAVE() do { \ emitm(&stream, 0xc9, 1); \ } while (0) /* retq */ #define RET() do { \ emitm(&stream, 0xc3, 1); \ } while (0) /* addl sr32,dr32 */ #define ADDrd(sr32, dr32) do { \ emitm(&stream, 0x01, 1); \ emitm(&stream, \ (3 << 6) | ((sr32 & 0x7) << 3) | (dr32 & 0x7), 1); \ } while (0) /* addl i32,%eax */ #define ADD_EAXi(i32) do { \ emitm(&stream, 0x05, 1); \ emitm(&stream, i32, 4); \ } while (0) /* addl i8,r32 */ #define ADDib(i8, r32) do { \ emitm(&stream, 0x83, 1); \ emitm(&stream, (24 << 3) | r32, 1); \ emitm(&stream, i8, 1); \ } while (0) /* subl sr32,dr32 */ #define SUBrd(sr32, dr32) do { \ emitm(&stream, 0x29, 1); \ emitm(&stream, \ (3 << 6) | ((sr32 & 0x7) << 3) | (dr32 & 0x7), 1); \ } while (0) /* subl i32,%eax */ #define SUB_EAXi(i32) do { \ emitm(&stream, 0x2d, 1); \ emitm(&stream, i32, 4); \ } while (0) /* subq i8,r64 */ #define SUBib(i8, r64) do { \ emitm(&stream, 0x8348, 2); \ emitm(&stream, (29 << 3) | (r64 & 0x7), 1); \ emitm(&stream, i8, 1); \ } while (0) /* mull r32 */ #define MULrd(r32) do { \ emitm(&stream, 0xf7, 1); \ emitm(&stream, (7 << 5) | (r32 & 0x7), 1); \ } while (0) /* divl r32 */ #define DIVrd(r32) do { \ emitm(&stream, 0xf7, 1); \ emitm(&stream, (15 << 4) | (r32 & 0x7), 1); \ } while (0) /* andb i8,r8 */ #define ANDib(i8, r8) do { \ if (r8 == AL) { \ emitm(&stream, 0x24, 1); \ } else { \ emitm(&stream, 0x80, 1); \ emitm(&stream, (7 << 5) | r8, 1); \ } \ emitm(&stream, i8, 1); \ } while (0) /* andl i32,r32 */ #define ANDid(i32, r32) do { \ if (r32 == EAX) { \ emitm(&stream, 0x25, 1); \ } else { \ emitm(&stream, 0x81, 1); \ emitm(&stream, (7 << 5) | r32, 1); \ } \ emitm(&stream, i32, 4); \ } while (0) /* andl sr32,dr32 */ #define ANDrd(sr32, dr32) do { \ emitm(&stream, 0x21, 1); \ emitm(&stream, \ (3 << 6) | ((sr32 & 0x7) << 3) | (dr32 & 0x7), 1); \ } while (0) /* testl i32,r32 */ #define TESTid(i32, r32) do { \ if (r32 == EAX) { \ emitm(&stream, 0xa9, 1); \ } else { \ emitm(&stream, 0xf7, 1); \ emitm(&stream, (3 << 6) | r32, 1); \ } \ emitm(&stream, i32, 4); \ } while (0) /* testl sr32,dr32 */ #define TESTrd(sr32, dr32) do { \ emitm(&stream, 0x85, 1); \ emitm(&stream, \ (3 << 6) | ((sr32 & 0x7) << 3) | (dr32 & 0x7), 1); \ } while (0) /* orl sr32,dr32 */ #define ORrd(sr32, dr32) do { \ emitm(&stream, 0x09, 1); \ emitm(&stream, \ (3 << 6) | ((sr32 & 0x7) << 3) | (dr32 & 0x7), 1); \ } while (0) /* orl i32,r32 */ #define ORid(i32, r32) do { \ if (r32 == EAX) { \ emitm(&stream, 0x0d, 1); \ } else { \ emitm(&stream, 0x81, 1); \ emitm(&stream, (25 << 3) | r32, 1); \ } \ emitm(&stream, i32, 4); \ } while (0) /* shll i8,r32 */ #define SHLib(i8, r32) do { \ emitm(&stream, 0xc1, 1); \ emitm(&stream, (7 << 5) | (r32 & 0x7), 1); \ emitm(&stream, i8, 1); \ } while (0) /* shll %cl,dr32 */ #define SHL_CLrb(dr32) do { \ emitm(&stream, 0xd3, 1); \ emitm(&stream, (7 << 5) | (dr32 & 0x7), 1); \ } while (0) /* shrl i8,r32 */ #define SHRib(i8, r32) do { \ emitm(&stream, 0xc1, 1); \ emitm(&stream, (29 << 3) | (r32 & 0x7), 1); \ emitm(&stream, i8, 1); \ } while (0) /* shrl %cl,dr32 */ #define SHR_CLrb(dr32) do { \ emitm(&stream, 0xd3, 1); \ emitm(&stream, (29 << 3) | (dr32 & 0x7), 1); \ } while (0) /* negl r32 */ #define NEGd(r32) do { \ emitm(&stream, 0xf7, 1); \ emitm(&stream, (27 << 3) | (r32 & 0x7), 1); \ } while (0) /* cmpl sr32,dr32 */ #define CMPrd(sr32, dr32) do { \ emitm(&stream, 0x39, 1); \ emitm(&stream, \ (3 << 6) | ((sr32 & 0x7) << 3) | (dr32 & 0x7), 1); \ } while (0) /* cmpl i32,dr32 */ #define CMPid(i32, dr32) do { \ if (dr32 == EAX){ \ emitm(&stream, 0x3d, 1); \ emitm(&stream, i32, 4); \ } else { \ emitm(&stream, 0x81, 1); \ emitm(&stream, (0x1f << 3) | (dr32 & 0x7), 1); \ emitm(&stream, i32, 4); \ } \ } while (0) /* jb off8 */ #define JBb(off8) do { \ emitm(&stream, 0x72, 1); \ emitm(&stream, off8, 1); \ } while (0) /* jae off8 */ #define JAEb(off8) do { \ emitm(&stream, 0x73, 1); \ emitm(&stream, off8, 1); \ } while (0) /* jne off8 */ #define JNEb(off8) do { \ emitm(&stream, 0x75, 1); \ emitm(&stream, off8, 1); \ } while (0) /* ja off8 */ #define JAb(off8) do { \ emitm(&stream, 0x77, 1); \ emitm(&stream, off8, 1); \ } while (0) /* jmp off32 */ #define JMP(off32) do { \ emitm(&stream, 0xe9, 1); \ emitm(&stream, off32, 4); \ } while (0) /* xorl r32,r32 */ #define ZEROrd(r32) do { \ emitm(&stream, 0x31, 1); \ emitm(&stream, (3 << 6) | ((r32 & 0x7) << 3) | (r32 & 0x7), 1); \ } while (0) /* * Conditional long jumps */ #define JB 0x82 #define JAE 0x83 #define JE 0x84 #define JNE 0x85 #define JBE 0x86 #define JA 0x87 #define JCC(t, f) do { \ if (ins->jt != 0 && ins->jf != 0) { \ /* 5 is the size of the following jmp */ \ emitm(&stream, ((t) << 8) | 0x0f, 2); \ emitm(&stream, stream.refs[stream.bpf_pc + ins->jt] - \ stream.refs[stream.bpf_pc] + 5, 4); \ JMP(stream.refs[stream.bpf_pc + ins->jf] - \ stream.refs[stream.bpf_pc]); \ } else if (ins->jt != 0) { \ emitm(&stream, ((t) << 8) | 0x0f, 2); \ emitm(&stream, stream.refs[stream.bpf_pc + ins->jt] - \ stream.refs[stream.bpf_pc], 4); \ } else { \ emitm(&stream, ((f) << 8) | 0x0f, 2); \ emitm(&stream, stream.refs[stream.bpf_pc + ins->jf] - \ stream.refs[stream.bpf_pc], 4); \ } \ } while (0) #define JUMP(off) do { \ if ((off) != 0) \ JMP(stream.refs[stream.bpf_pc + (off)] - \ stream.refs[stream.bpf_pc]); \ } while (0) #endif /* _BPF_JIT_MACHDEP_H_ */