From 26a029d407be480d791972afb5975cf62c9360a6 Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Fri, 19 Apr 2024 02:47:55 +0200 Subject: Adding upstream version 124.0.1. Signed-off-by: Daniel Baumann --- .../src/third_party/libdisasm/ia32_operand.c | 425 +++++++++++++++++++++ 1 file changed, 425 insertions(+) create mode 100644 toolkit/crashreporter/google-breakpad/src/third_party/libdisasm/ia32_operand.c (limited to 'toolkit/crashreporter/google-breakpad/src/third_party/libdisasm/ia32_operand.c') diff --git a/toolkit/crashreporter/google-breakpad/src/third_party/libdisasm/ia32_operand.c b/toolkit/crashreporter/google-breakpad/src/third_party/libdisasm/ia32_operand.c new file mode 100644 index 0000000000..8e7f16a0c0 --- /dev/null +++ b/toolkit/crashreporter/google-breakpad/src/third_party/libdisasm/ia32_operand.c @@ -0,0 +1,425 @@ +#include +#include +#include + +#include "libdis.h" +#include "ia32_insn.h" +#include "ia32_operand.h" +#include "ia32_modrm.h" +#include "ia32_reg.h" +#include "x86_imm.h" +#include "x86_operand_list.h" + + + +/* apply segment override to memory operand in insn */ +static void apply_seg( x86_op_t *op, unsigned int prefixes ) { + if (! prefixes ) return; + + /* apply overrides from prefix */ + switch ( prefixes & PREFIX_REG_MASK ) { + case PREFIX_CS: + op->flags |= op_cs_seg; break; + case PREFIX_SS: + op->flags |= op_ss_seg; break; + case PREFIX_DS: + op->flags |= op_ds_seg; break; + case PREFIX_ES: + op->flags |= op_es_seg; break; + case PREFIX_FS: + op->flags |= op_fs_seg; break; + case PREFIX_GS: + op->flags |= op_gs_seg; break; + } + + return; +} + +static size_t decode_operand_value( unsigned char *buf, size_t buf_len, + x86_op_t *op, x86_insn_t *insn, + unsigned int addr_meth, size_t op_size, + unsigned int op_value, unsigned char modrm, + size_t gen_regs ) { + size_t size = 0; + + /* ++ Do Operand Addressing Method / Decode operand ++ */ + switch (addr_meth) { + /* This sets the operand Size based on the Intel Opcode Map + * (Vol 2, Appendix A). Letter encodings are from section + * A.1.1, 'Codes for Addressing Method' */ + + /* ---------------------- Addressing Method -------------- */ + /* Note that decoding mod ModR/M operand adjusts the size of + * the instruction, but decoding the reg operand does not. + * This should not cause any problems, as every 'reg' operand + * has an associated 'mod' operand. + * Goddamn-Intel-Note: + * Some Intel addressing methods [M, R] specify that modR/M + * byte may only refer to a memory address/may only refer to + * a register -- however Intel provides no clues on what to do + * if, say, the modR/M for an M opcode decodes to a register + * rather than a memory address ... returning 0 is out of the + * question, as this would be an Immediate or a RelOffset, so + * instead these modR/Ms are decoded with total disregard to + * the M, R constraints. */ + + /* MODRM -- mod operand. sets size to at least 1! */ + case ADDRMETH_E: /* ModR/M present, Gen reg or memory */ + size = ia32_modrm_decode( buf, buf_len, op, insn, + gen_regs ); + break; + case ADDRMETH_M: /* ModR/M only refers to memory */ + size = ia32_modrm_decode( buf, buf_len, op, insn, + gen_regs ); + break; + case ADDRMETH_Q: /* ModR/M present, MMX or Memory */ + size = ia32_modrm_decode( buf, buf_len, op, insn, + REG_MMX_OFFSET ); + break; + case ADDRMETH_R: /* ModR/M mod == gen reg */ + size = ia32_modrm_decode( buf, buf_len, op, insn, + gen_regs ); + break; + case ADDRMETH_W: /* ModR/M present, mem or SIMD reg */ + size = ia32_modrm_decode( buf, buf_len, op, insn, + REG_SIMD_OFFSET ); + break; + + /* MODRM -- reg operand. does not effect size! */ + case ADDRMETH_C: /* ModR/M reg == control reg */ + ia32_reg_decode( modrm, op, REG_CTRL_OFFSET ); + break; + case ADDRMETH_D: /* ModR/M reg == debug reg */ + ia32_reg_decode( modrm, op, REG_DEBUG_OFFSET ); + break; + case ADDRMETH_G: /* ModR/M reg == gen-purpose reg */ + ia32_reg_decode( modrm, op, gen_regs ); + break; + case ADDRMETH_P: /* ModR/M reg == qword MMX reg */ + ia32_reg_decode( modrm, op, REG_MMX_OFFSET ); + break; + case ADDRMETH_S: /* ModR/M reg == segment reg */ + ia32_reg_decode( modrm, op, REG_SEG_OFFSET ); + break; + case ADDRMETH_T: /* ModR/M reg == test reg */ + ia32_reg_decode( modrm, op, REG_TEST_OFFSET ); + break; + case ADDRMETH_V: /* ModR/M reg == SIMD reg */ + ia32_reg_decode( modrm, op, REG_SIMD_OFFSET ); + break; + + /* No MODRM : note these set operand type explicitly */ + case ADDRMETH_A: /* No modR/M -- direct addr */ + op->type = op_absolute; + + /* segment:offset address used in far calls */ + x86_imm_sized( buf, buf_len, + &op->data.absolute.segment, 2 ); + if ( insn->addr_size == 4 ) { + x86_imm_sized( buf, buf_len, + &op->data.absolute.offset.off32, 4 ); + size = 6; + } else { + x86_imm_sized( buf, buf_len, + &op->data.absolute.offset.off16, 2 ); + size = 4; + } + + break; + case ADDRMETH_I: /* Immediate val */ + op->type = op_immediate; + /* if it ever becomes legal to have imm as dest and + * there is a src ModR/M operand, we are screwed! */ + if ( op->flags & op_signed ) { + x86_imm_signsized(buf, buf_len, &op->data.byte, + op_size); + } else { + x86_imm_sized(buf, buf_len, &op->data.byte, + op_size); + } + size = op_size; + break; + case ADDRMETH_J: /* Rel offset to add to IP [jmp] */ + /* this fills op->data.near_offset or + op->data.far_offset depending on the size of + the operand */ + op->flags |= op_signed; + if ( op_size == 1 ) { + /* one-byte near offset */ + op->type = op_relative_near; + x86_imm_signsized(buf, buf_len, + &op->data.relative_near, 1); + } else { + /* far offset...is this truly signed? */ + op->type = op_relative_far; + x86_imm_signsized(buf, buf_len, + &op->data.relative_far, op_size ); + } + size = op_size; + break; + case ADDRMETH_O: /* No ModR/M; op is word/dword offset */ + /* NOTE: these are actually RVAs not offsets to seg!! */ + /* note bene: 'O' ADDR_METH uses addr_size to + determine operand size */ + op->type = op_offset; + op->flags |= op_pointer; + x86_imm_sized( buf, buf_len, &op->data.offset, + insn->addr_size ); + + size = insn->addr_size; + break; + + /* Hard-coded: these are specified in the insn definition */ + case ADDRMETH_F: /* EFLAGS register */ + op->type = op_register; + op->flags |= op_hardcode; + ia32_handle_register( &op->data.reg, REG_FLAGS_INDEX ); + break; + case ADDRMETH_X: /* Memory addressed by DS:SI [string] */ + op->type = op_expression; + op->flags |= op_hardcode; + op->flags |= op_ds_seg | op_pointer | op_string; + ia32_handle_register( &op->data.expression.base, + REG_DWORD_OFFSET + 6 ); + break; + case ADDRMETH_Y: /* Memory addressed by ES:DI [string] */ + op->type = op_expression; + op->flags |= op_hardcode; + op->flags |= op_es_seg | op_pointer | op_string; + ia32_handle_register( &op->data.expression.base, + REG_DWORD_OFFSET + 7 ); + break; + case ADDRMETH_RR: /* Gen Register hard-coded in opcode */ + op->type = op_register; + op->flags |= op_hardcode; + ia32_handle_register( &op->data.reg, + op_value + gen_regs ); + break; + case ADDRMETH_RS: /* Seg Register hard-coded in opcode */ + op->type = op_register; + op->flags |= op_hardcode; + ia32_handle_register( &op->data.reg, + op_value + REG_SEG_OFFSET ); + break; + case ADDRMETH_RF: /* FPU Register hard-coded in opcode */ + op->type = op_register; + op->flags |= op_hardcode; + ia32_handle_register( &op->data.reg, + op_value + REG_FPU_OFFSET ); + break; + case ADDRMETH_RT: /* TST Register hard-coded in opcode */ + op->type = op_register; + op->flags |= op_hardcode; + ia32_handle_register( &op->data.reg, + op_value + REG_TEST_OFFSET ); + break; + case ADDRMETH_II: /* Immediate hard-coded in opcode */ + op->type = op_immediate; + op->data.dword = op_value; + op->flags |= op_hardcode; + break; + + case 0: /* Operand is not used */ + default: + /* ignore -- operand not used in this insn */ + op->type = op_unused; /* this shouldn't happen! */ + break; + } + + return size; +} + +static size_t decode_operand_size( unsigned int op_type, x86_insn_t *insn, + x86_op_t *op ){ + size_t size; + + /* ++ Do Operand Type ++ */ + switch (op_type) { + /* This sets the operand Size based on the Intel Opcode Map + * (Vol 2, Appendix A). Letter encodings are from section + * A.1.2, 'Codes for Operand Type' */ + /* NOTE: in this routines, 'size' refers to the size + * of the operand in the raw (encoded) instruction; + * 'datatype' stores the actual size and datatype + * of the operand */ + + /* ------------------------ Operand Type ----------------- */ + case OPTYPE_c: /* byte or word [op size attr] */ + size = (insn->op_size == 4) ? 2 : 1; + op->datatype = (size == 4) ? op_word : op_byte; + break; + case OPTYPE_a: /* 2 word or 2 dword [op size attr] */ + /* pointer to a 16:16 or 32:32 BOUNDS operand */ + size = (insn->op_size == 4) ? 8 : 4; + op->datatype = (size == 4) ? op_bounds32 : op_bounds16; + break; + case OPTYPE_v: /* word or dword [op size attr] */ + size = (insn->op_size == 4) ? 4 : 2; + op->datatype = (size == 4) ? op_dword : op_word; + break; + case OPTYPE_p: /* 32/48-bit ptr [op size attr] */ + /* technically these flags are not accurate: the + * value s a 16:16 pointer or a 16:32 pointer, where + * the first '16' is a segment */ + size = (insn->addr_size == 4) ? 6 : 4; + op->datatype = (size == 4) ? op_descr32 : op_descr16; + break; + case OPTYPE_b: /* byte, ignore op-size */ + size = 1; + op->datatype = op_byte; + break; + case OPTYPE_w: /* word, ignore op-size */ + size = 2; + op->datatype = op_word; + break; + case OPTYPE_d: /* dword , ignore op-size */ + size = 4; + op->datatype = op_dword; + break; + case OPTYPE_s: /* 6-byte psuedo-descriptor */ + /* ptr to 6-byte value which is 32:16 in 32-bit + * mode, or 8:24:16 in 16-bit mode. The high byte + * is ignored in 16-bit mode. */ + size = 6; + op->datatype = (insn->addr_size == 4) ? + op_pdescr32 : op_pdescr16; + break; + case OPTYPE_q: /* qword, ignore op-size */ + size = 8; + op->datatype = op_qword; + break; + case OPTYPE_dq: /* d-qword, ignore op-size */ + size = 16; + op->datatype = op_dqword; + break; + case OPTYPE_ps: /* 128-bit FP data */ + size = 16; + /* really this is 4 packed SP FP values */ + op->datatype = op_ssimd; + break; + case OPTYPE_pd: /* 128-bit FP data */ + size = 16; + /* really this is 2 packed DP FP values */ + op->datatype = op_dsimd; + break; + case OPTYPE_ss: /* Scalar elem of 128-bit FP data */ + size = 16; + /* this only looks at the low dword (4 bytes) + * of the xmmm register passed as a param. + * This is a 16-byte register where only 4 bytes + * are used in the insn. Painful, ain't it? */ + op->datatype = op_sssimd; + break; + case OPTYPE_sd: /* Scalar elem of 128-bit FP data */ + size = 16; + /* this only looks at the low qword (8 bytes) + * of the xmmm register passed as a param. + * This is a 16-byte register where only 8 bytes + * are used in the insn. Painful, again... */ + op->datatype = op_sdsimd; + break; + case OPTYPE_pi: /* qword mmx register */ + size = 8; + op->datatype = op_qword; + break; + case OPTYPE_si: /* dword integer register */ + size = 4; + op->datatype = op_dword; + break; + case OPTYPE_fs: /* single-real */ + size = 4; + op->datatype = op_sreal; + break; + case OPTYPE_fd: /* double real */ + size = 8; + op->datatype = op_dreal; + break; + case OPTYPE_fe: /* extended real */ + size = 10; + op->datatype = op_extreal; + break; + case OPTYPE_fb: /* packed BCD */ + size = 10; + op->datatype = op_bcd; + break; + case OPTYPE_fv: /* pointer to FPU env: 14 or 28-bytes */ + size = (insn->addr_size == 4)? 28 : 14; + op->datatype = (size == 28)? op_fpuenv32: op_fpuenv16; + break; + case OPTYPE_ft: /* pointer to FPU env: 94 or 108 bytes */ + size = (insn->addr_size == 4)? 108 : 94; + op->datatype = (size == 108)? + op_fpustate32: op_fpustate16; + break; + case OPTYPE_fx: /* 512-byte register stack */ + size = 512; + op->datatype = op_fpregset; + break; + case OPTYPE_fp: /* floating point register */ + size = 10; /* double extended precision */ + op->datatype = op_fpreg; + break; + case OPTYPE_m: /* fake operand type used for "lea Gv, M" */ + size = insn->addr_size; + op->datatype = (size == 4) ? op_dword : op_word; + break; + case OPTYPE_none: /* handle weird instructions that have no encoding but use a dword datatype, like invlpg */ + size = 0; + op->datatype = op_none; + break; + case 0: + default: + size = insn->op_size; + op->datatype = (size == 4) ? op_dword : op_word; + break; + } + return size; +} + +size_t ia32_decode_operand( unsigned char *buf, size_t buf_len, + x86_insn_t *insn, unsigned int raw_op, + unsigned int raw_flags, unsigned int prefixes, + unsigned char modrm ) { + unsigned int addr_meth, op_type, op_size, gen_regs; + x86_op_t *op; + size_t size; + + /* ++ Yank optype and addr mode out of operand flags */ + addr_meth = raw_flags & ADDRMETH_MASK; + op_type = raw_flags & OPTYPE_MASK; + + if ( raw_flags == ARG_NONE ) { + /* operand is not used in this instruction */ + return 0; + } + + /* allocate a new operand */ + op = x86_operand_new( insn ); + + /* ++ Copy flags from opcode table to x86_insn_t */ + op->access = (enum x86_op_access) OP_PERM(raw_flags); + op->flags = (enum x86_op_flags) (OP_FLAGS(raw_flags) >> 12); + + /* Get size (for decoding) and datatype of operand */ + op_size = decode_operand_size(op_type, insn, op); + + /* override default register set based on Operand Type */ + /* this allows mixing of 8, 16, and 32 bit regs in insn */ + if (op_size == 1) { + gen_regs = REG_BYTE_OFFSET; + } else if (op_size == 2) { + gen_regs = REG_WORD_OFFSET; + } else { + gen_regs = REG_DWORD_OFFSET; + } + + size = decode_operand_value( buf, buf_len, op, insn, addr_meth, + op_size, raw_op, modrm, gen_regs ); + + /* if operand is an address, apply any segment override prefixes */ + if ( op->type == op_expression || op->type == op_offset ) { + apply_seg(op, prefixes); + } + + return size; /* return number of bytes in instruction */ +} -- cgit v1.2.3