示例#1
0
static InstTransResult translate_MOVoa (NativeModulePtr natM, BasicBlock *& block, InstPtr ip, MCInst &inst) {
    InstTransResult ret;
    Function *F = block->getParent();
    // loading functions only available if its a 32-bit offset
    if( ip->has_external_ref() && width == 32) {
        Value *addrInt = getValueForExternal<32>(F->getParent(), ip, block);
        TASSERT(addrInt != 0, "Could not get external data reference");
        R_WRITE<width>(block, X86::EAX, addrInt);
        return ContinueBlock;
        //ret = doRMMov<32>(ip, block, addrInt, MCOperand::CreateReg(X86::EAX)) ;
    }
    else if( ip->has_call_tgt() && width == 32 ) {
        Value *callback_fn = makeCallbackForLocalFunction(
                block->getParent()->getParent(), 
                ip->get_call_tgt(0)
            );
        Value *addrInt = new PtrToIntInst(
            callback_fn, llvm::Type::getInt32Ty(block->getContext()), "", block);
        ret = doRMMov<32>(ip, block, addrInt, MCOperand::CreateReg(X86::EAX)) ;
    }
    else if( ip->is_data_offset() ) {
        ret = doRMMov<width>(ip, block, 
                GLOBAL_DATA_OFFSET(block, natM, ip), 
                MCOperand::CreateReg(X86::EAX) ); 
    } else { 
        Value *addrv = CONST_V<width>(block, OP(0).getImm());
        ret = doRMMov<width>(ip, block, addrv, MCOperand::CreateReg(X86::EAX)) ;
    }
    return ret ; 
}
static InstTransResult translate_CALL32m(
    NativeModulePtr natM, 
    BasicBlock *& block, 
    InstPtr ip, 
    MCInst &inst) 
{

    InstTransResult ret;

    // is this an external call?
    if( ip->has_ext_call_target() ) {   
        std::string  s = ip->get_ext_call_target()->getSymbolName();
        ret = doCallPCExtern(block, s);
    // not external call, but some weird way of calling local function?
    } else if( ip->has_call_tgt() ) {
        ret = doCallPC(ip, block, ip->get_call_tgt(0));
    }
    // is this referencing global data?
    else if( ip->is_data_offset() ) {
        doCallM<32>(block, ip, STD_GLOBAL_OP(0));
        ret = ContinueBlock;
    // is this a simple address computation?
    } else {
        doCallM<32>(block, ip, ADDR(0));
        ret = ContinueBlock;
    }       

    return ret;
}
示例#3
0
static InstTransResult doMOVSrm(NativeModulePtr natM, BasicBlock *& block, InstPtr ip, MCInst &inst) {
    InstTransResult ret;
    Function *F = block->getParent();
    // MOV from memory to XMM register will set the unused poriton
    // of the XMM register to 0s.
    // Just set the whole thing to zero, and let the subsequent
    // write take care of the rest
    R_WRITE<128>(block, OP(0).getReg(), CONST_V<128>(block, 0));

    if( ip->has_external_ref()) {
        Value *addrInt = getValueForExternal<width>(F->getParent(), ip, block);
        TASSERT(addrInt != NULL, "Could not get address for external");
        R_WRITE<width>(block, OP(0).getReg(), addrInt);
        return ContinueBlock;
    }
    else if( ip->is_data_offset() ) {
        ret = doRMMov<width>(ip, block, 
                GLOBAL( block, natM, inst, ip, 1 ),
                OP(0) );
    } else {
        ret = doRMMov<width>(ip, block, ADDR(1), OP(0));
    }
    return ret ;

}
示例#4
0
static InstTransResult translate_MOVao (NativeModulePtr natM, BasicBlock *& block, InstPtr ip, MCInst &inst) {
    InstTransResult ret;
    Function *F = block->getParent();
    if( ip->is_data_offset() ) {
        ret = doMRMov<width>(ip, block, 
                GLOBAL_DATA_OFFSET(block, natM, ip), 
                MCOperand::CreateReg(X86::EAX) ); 
    } else { 
        Value *addrv = CONST_V<width>(block, OP(0).getImm());
        ret = doMRMov<width>(ip, block, addrv, MCOperand::CreateReg(X86::EAX)) ;
    }
    return ret ; 
}
示例#5
0
static InstTransResult translate_MOV32mr(NativeModulePtr natM, BasicBlock *& block, InstPtr ip, MCInst &inst) 
{
    InstTransResult ret;
    Function *F = block->getParent();
    if( ip->has_external_ref()) {
        Value *addrInt = getValueForExternal<32>(F->getParent(), ip, block);
        TASSERT(addrInt != NULL, "Could not get address for external");
        return doMRMov<32>(ip, block, addrInt, OP(5) );
    }
    else if( ip->is_data_offset() ) {
        ret = doMRMov<32>(ip, block, GLOBAL( block, natM, inst, ip, 0), OP(5) );
    } else { 
        ret = doMRMov<32>(ip, block, ADDR(0), OP(5)) ; 
    }
    return ret ; 
}
示例#6
0
static InstTransResult translate_LEA64_32r(NativeModulePtr natM, BasicBlock *&block, InstPtr ip, MCInst &inst) {
    InstTransResult ret;
    Function *F = block->getParent();
    if( ip->has_call_tgt() ) {
        Value *callback_fn = archMakeCallbackForLocalFunction(
                block->getParent()->getParent(),
                ip->get_call_tgt(0));
        Value *addrInt = new PtrToIntInst(
            callback_fn, llvm::Type::getInt32Ty(block->getContext()), "", block);
        ret = doLeaV<32>(block, OP(0), addrInt);
    } else if( ip->is_data_offset() ) {
        ret = doLea<32>(ip, block, STD_GLOBAL_OP(1), OP(0));
    } else {
        ret = doLea<32>(ip, block, ADDR(1), OP(0));
    }
    return ret;
}
static InstTransResult translate_JMP32m(NativeModulePtr natM, BasicBlock *& block, InstPtr ip, MCInst &inst) {
    InstTransResult ret;

    // translate JMP mem32 API calls
    // as a call <api>, ret;
    if( ip->has_ext_call_target() ) {
        std::string  s = ip->get_ext_call_target()->getSymbolName();
        ret = doCallPCExtern(block, s, true);
        if (ret != EndBlock) {
            return doRet(block);
        } else {
            // noreturn api calls don't need to fix stack
            return ret;
        }
    } else if (ip->has_jump_table() && ip->is_data_offset()) {
        // this is a jump table that got converted
        // into a table in the data section
        doJumpTableViaData(natM, block, ip, inst);
        // return a "ret", since the jmp is simulated
        // as a call/ret pair
        return doRet(block);

    } else if(ip->has_jump_table()) {
        // this is a conformant jump table
        // emit an llvm switch
        doJumpTableViaSwitch(natM, block, ip, inst);
        return EndBlock;

    } else {
        
        std::string msg("NIY: JMP32m only supported for external API calls and jump tables: ");
        
        msg += to_string<VA>(ip->get_loc(), std::hex);
        throw TErr(__LINE__, __FILE__, msg.c_str());
        return EndBlock;
    }

}
示例#8
0
static InstTransResult translate_MOV32ri(NativeModulePtr natM, BasicBlock *& block, InstPtr ip, MCInst &inst) {
    InstTransResult ret;
    Function *F = block->getParent();
    if( ip->has_call_tgt() ) {
        Value *callback_fn = makeCallbackForLocalFunction(
                block->getParent()->getParent(), 
                ip->get_call_tgt(0)
            );
        Value *addrInt = new PtrToIntInst(
            callback_fn, llvm::Type::getInt32Ty(block->getContext()), "", block);
        ret = doRIMovV<32>(ip, block, 
                addrInt,
                OP(0) );
    }
    else if( ip->is_data_offset() ) {
        ret = doRIMovV<32>(ip, block, 
                GLOBAL_DATA_OFFSET(block, natM, ip), 
                OP(0) );
    } else { 
        ret = doRIMov<32>(ip, block, OP(1), OP(0)) ;
    }
    return ret ;
}
示例#9
0
//GENERIC_TRANSLATION_32MI(MOV32mi, 
//	doMIMov<32>(ip,   block, ADDR(0), OP(5)),
//	doMIMov<32>(ip,   block, STD_GLOBAL_OP(0), OP(5)),
//    doMIMovV<32>(ip,  block, ADDR_NOREF(0), GLOBAL_DATA_OFFSET(block, natM, ip))
//    )
//
static InstTransResult translate_MOV32mi(NativeModulePtr natM, BasicBlock *&block, InstPtr ip, MCInst &inst) {
    InstTransResult ret;
    Function *F = block->getParent();
    if( ip->has_call_tgt() ) {
        Value *callback_fn = makeCallbackForLocalFunction(
                block->getParent()->getParent(), 
                ip->get_call_tgt(0)
            );
        Value *addrInt = new PtrToIntInst(
            callback_fn, llvm::Type::getInt32Ty(block->getContext()), "", block);
        ret = doMIMovV<32>(ip, block, ADDR(0), addrInt);
    }
    else if( ip->is_data_offset() ) {
        if( ip->get_reloc_offset() < OP(5).getOffset() ) {
            doMIMov<32>(ip,   block, STD_GLOBAL_OP(0), OP(5));
        } else {
            doMIMovV<32>(ip,  block, ADDR_NOREF(0), GLOBAL_DATA_OFFSET(block, natM, ip));
        } 
        ret = ContinueBlock;
    } else { 
        ret = doMIMov<32>(ip,   block, ADDR(0), OP(5));
    }
    return ret;
}