/*BEGIN_LEGAL Copyright (c) 2007, Intel Corp. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * 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. * Neither the name of Intel Corporation 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. END_LEGAL */ extern "C" { #include "xed-interface.h" } #include <iostream> #include <iomanip> using namespace std; int main(int argc, char** argv); int main(int argc, char** argv) { // initialize the XED tables -- one time. xed_tables_init(); // The state of the machine -- required for decoding xed_state_t dstate; xed_state_zero(&dstate); xed_state_init(&dstate, XED_MACHINE_MODE_LEGACY_32, XED_ADDRESS_WIDTH_32b, XED_ADDRESS_WIDTH_32b); // create the decoded instruction, and fill in the machine mode (dstate) xed_decoded_inst_t xedd; xed_decoded_inst_zero_set_mode(&xedd, &dstate); // make up a simple 2Byte instruction to decode unsigned int bytes = 2; unsigned char itext[15] = { 0, 0}; // call decode xed_error_enum_t xed_error = xed_decode(&xedd, STATIC_CAST(const xed_uint8_t*,itext), bytes); // check for errors xed_bool_t okay = (xed_error == XED_ERROR_NONE); if (okay) { cout << "OK" << endl; return 0; } return 1; (void) argc; (void) argv; //pacify compiler }
There is a makefile in the examples directory. Here's how to compile it from a kit:
% g++ -Ipath-to-xed2-kit/include -Ipath-to-xed2-kit/examples -c path-to-xed2-kit/examples/xed-min.cpp % g++ -o xed-min xed-min.o path-to-xed2-kit/lib/libxed.a
Here is a more detailed example (examples/xed-ex1.cpp) that walks the operands much like the printing routines do for the xed_decoded_inst_t .
/*BEGIN_LEGAL Copyright (c) 2007, Intel Corp. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * 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. * Neither the name of Intel Corporation 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. END_LEGAL */ extern "C" { #include "xed-interface.h" } #include "xed-examples-ostreams.H" #include <iostream> #include <iomanip> #include <sstream> #include <cassert> using namespace std; int main(int argc, char** argv); void print_attributes(xed_decoded_inst_t* xedd) { const xed_inst_t* xi = xed_decoded_inst_inst(xedd); unsigned int i, nattributes = xed_attribute_max(); xed_uint32_t all_attributes = xed_inst_get_attributes(xi); if (all_attributes == 0) return; cout << "ATTRIBUTES: "; for(i=0;i<nattributes;i++) { xed_attribute_enum_t attr = xed_attribute(i); if (xed_inst_get_attribute(xi,attr)) cout << xed_attribute_enum_t2str(attr) << " "; } cout << endl; } void print_flags(xed_decoded_inst_t* xedd) { unsigned int i, nflags; if (xed_decoded_inst_uses_rflags(xedd)) { cout << "FLAGS:" << endl; const xed_simple_flag_t* rfi = xed_decoded_inst_get_rflags_info(xedd); if (xed_simple_flag_reads_flags(rfi)) { cout << " reads-rflags "; } else if (xed_simple_flag_writes_flags(rfi)) { //XED provides may-write and must-write information if (xed_simple_flag_get_may_write(rfi)) { cout << " may-write-rflags "; } if (xed_simple_flag_get_must_write(rfi)) { cout << " must-write-rflags "; } } nflags = xed_simple_flag_get_nflags(rfi); for( i=0;i<nflags ;i++) { const xed_flag_action_t* fa = xed_simple_flag_get_flag_action(rfi,i); char buf[500]; xed_flag_action_print(fa,buf,500); cout << buf << " "; } cout << endl; // or as as bit-union const xed_flag_set_t* read_set = xed_simple_flag_get_read_flag_set(rfi); const xed_flag_set_t* written_set = xed_simple_flag_get_written_flag_set(rfi); char buf[500]; xed_flag_set_print(read_set,buf,500); cout << " read: " << buf << endl; xed_flag_set_print(written_set,buf,500); cout << " written: " << buf << endl; } } void print_memops(xed_decoded_inst_t* xedd) { unsigned int i, memops = xed_decoded_inst_number_of_memory_operands(xedd); cout << "Memory Operands" << endl; for( i=0;i<memops ; i++) { xed_bool_t r_or_w = false; cout << " " << i << " "; if ( xed_decoded_inst_mem_read(xedd,i)) { cout << "read "; r_or_w = true; } if (xed_decoded_inst_mem_written(xedd,i)) { cout << "written "; r_or_w = true; } if (!r_or_w) { cout << "agen "; // LEA instructions } xed_reg_enum_t seg = xed_decoded_inst_get_seg_reg(xedd,i); if (seg != XED_REG_INVALID) { cout << "SEG= " << xed_reg_enum_t2str(seg) << " "; } xed_reg_enum_t base = xed_decoded_inst_get_base_reg(xedd,i); if (base != XED_REG_INVALID) { cout << "BASE= " << xed_reg_enum_t2str(base) << "/" << xed_reg_class_enum_t2str(xed_reg_class(base)) << " "; } xed_reg_enum_t indx = xed_decoded_inst_get_index_reg(xedd,i); if (i == 0 && indx != XED_REG_INVALID) { cout << "INDEX= " << xed_reg_enum_t2str(indx) << "/" << xed_reg_class_enum_t2str(xed_reg_class(indx)) << " "; if (xed_decoded_inst_get_scale(xedd,i) != 0) { // only have a scale if the index exists. cout << "SCALE= " << xed_decoded_inst_get_scale(xedd,i) << " "; } } xed_uint_t disp_bits = xed_decoded_inst_get_memory_displacement_width(xedd,i); if (disp_bits) { cout << "DISPLACEMENT_BYTES= " << disp_bits << " "; xed_int64_t disp = xed_decoded_inst_get_memory_displacement(xedd,i); cout << hex << setfill('0') << setw(16) << disp << setfill(' ') << dec; } cout << endl; } cout << " MemopBytes = " << xed_decoded_inst_get_memory_operand_length(xedd,0) << endl; } void print_operands(xed_decoded_inst_t* xedd) { unsigned int i, noperands; cout << "Operands" << endl; const xed_inst_t* xi = xed_decoded_inst_inst(xedd); noperands = xed_inst_noperands(xi); for( i=0; i < noperands ; i++) { const xed_operand_t* op = xed_inst_operand(xi,i); xed_operand_enum_t op_name = xed_operand_name(op); cout << i << " " << xed_operand_enum_t2str(op_name) << " "; switch(op_name) { case XED_OPERAND_AGEN: case XED_OPERAND_MEM0: case XED_OPERAND_MEM1: // we print memops in a different function break; case XED_OPERAND_PTR: // pointer (always in conjunction with a IMM0) case XED_OPERAND_RELBR: { // branch displacements xed_uint_t disp_bits = xed_decoded_inst_get_branch_displacement_width(xedd); if (disp_bits) { cout << "BRANCH_DISPLACEMENT_BYTES= " << disp_bits << " "; xed_int32_t disp = xed_decoded_inst_get_branch_displacement(xedd); cout << hex << setfill('0') << setw(8) << disp << setfill(' ') << dec; } } break; case XED_OPERAND_IMM0: { // immediates xed_uint_t width = xed_decoded_inst_get_immediate_width(xedd); if (xed_decoded_inst_get_immediate_is_signed(xedd)) { xed_int32_t x =xed_decoded_inst_get_signed_immediate(xedd); cout << hex << setfill('0') << setw(8) << x << setfill(' ') << dec << '(' << width << ')'; } else { xed_uint64_t x = xed_decoded_inst_get_unsigned_immediate(xedd); cout << hex << setfill('0') << setw(16) << x << setfill(' ') << dec << '(' << width << ')'; } break; } case XED_OPERAND_IMM1: { // immediates xed_uint8_t x = xed_decoded_inst_get_second_immediate(xedd); cout << hex << setfill('0') << setw(2) << (int)x << setfill(' ') << dec; break; } case XED_OPERAND_REG0: case XED_OPERAND_REG1: case XED_OPERAND_REG2: case XED_OPERAND_REG3: case XED_OPERAND_REG4: case XED_OPERAND_REG5: case XED_OPERAND_REG6: case XED_OPERAND_REG7: case XED_OPERAND_REG8: case XED_OPERAND_REG9: case XED_OPERAND_REG10: case XED_OPERAND_REG11: case XED_OPERAND_REG12: case XED_OPERAND_REG13: case XED_OPERAND_REG14: case XED_OPERAND_REG15: { xed_reg_enum_t r = xed_decoded_inst_get_reg(xedd, op_name); cout << xed_operand_enum_t2str(op_name) << "=" << xed_reg_enum_t2str(r); break; } default: cout << "[Not currently printing value of field " << xed_operand_enum_t2str(op_name) << ']'; break; } cout << " " << xed_operand_visibility_enum_t2str(xed_operand_operand_visibility(op)) << " / " << xed_operand_action_enum_t2str(xed_operand_rw(op)) << " / " << xed_operand_width_enum_t2str(xed_operand_width(op)); cout << " bytes=" << xed_decoded_inst_operand_length(xedd,i); cout << endl; } } int main(int argc, char** argv) { xed_state_t dstate; xed_decoded_inst_t xedd; int i, bytes = 0; unsigned char itext[XED_MAX_INSTRUCTION_BYTES]; xed_bool_t long_mode = false; unsigned int first_argv; xed_tables_init(); xed_state_zero(&dstate); if (argc > 2 && strcmp(argv[1], "-64") == 0) long_mode = true; if (long_mode) { first_argv = 2; dstate.mmode=XED_MACHINE_MODE_LONG_64; } else { first_argv=1; xed_state_init(&dstate, XED_MACHINE_MODE_LEGACY_32, XED_ADDRESS_WIDTH_32b, XED_ADDRESS_WIDTH_32b); } xed_decoded_inst_zero_set_mode(&xedd, &dstate); for( i=first_argv ;i < argc; i++) { unsigned int x; // sscanf is deprecated for MSVS8, so I'm using istringstreams //sscanf(argv[i],"%x", &x); istringstream s(argv[i]); s >> hex >> x; assert(bytes < XED_MAX_INSTRUCTION_BYTES); itext[bytes++] = STATIC_CAST(xed_uint8_t,x); } if (bytes == 0) { cout << "Must supply some hex bytes" << endl; exit(1); } cout << "Attempting to decode: " << hex << setfill('0') ; for(i=0;i<bytes;i++) cout << setw(2) << static_cast<xed_uint_t>(itext[i]) << " "; cout << endl << setfill(' ') << dec; xed_error_enum_t xed_error = xed_decode(&xedd, REINTERPRET_CAST(const xed_uint8_t*,itext), bytes); switch(xed_error) { case XED_ERROR_NONE: break; case XED_ERROR_BUFFER_TOO_SHORT: cout << "Not enough bytes provided" << endl; exit(1); case XED_ERROR_GENERAL_ERROR: cout << "Could not decode given input." << endl; exit(1); default: cout << "Unhandled error code " << xed_error_enum_t2str(xed_error) << endl; exit(1); } cout << "iclass " << xed_iclass_enum_t2str(xed_decoded_inst_get_iclass(&xedd)) << "\t"; cout << "category " << xed_category_enum_t2str(xed_decoded_inst_get_category(&xedd)) << "\t"; cout << "ISA-extension " << xed_extension_enum_t2str(xed_decoded_inst_get_extension(&xedd)) << endl; cout << "instruction-length " << xed_decoded_inst_get_length(&xedd) << endl; cout << "effective-operand-width " << xed_operand_values_get_effective_operand_width(xed_decoded_inst_operands_const(&xedd)) << endl; cout << "effective-address-width " << xed_operand_values_get_effective_address_width(xed_decoded_inst_operands_const(&xedd)) << endl; cout << "iform-enum-name " << xed_iform_enum_t2str(xed_decoded_inst_get_iform_enum(&xedd)) << endl; cout << "iform-enum-name-dispatch (zero based) " << xed_decoded_inst_get_iform_enum_dispatch(&xedd) << endl; cout << "iclass-max-iform-dispatch " << xed_iform_max_per_iclass(xed_decoded_inst_get_iclass(&xedd)) << endl; // operands print_operands(&xedd); // memops print_memops(&xedd); // flags print_flags(&xedd); // attributes print_attributes(&xedd); return 0; }
Here are a few examples of running the program:
% ./xed-ex1 0 0 iclass ADD category INT_ALU ISA-extension BASE instruction-length 2 effective-operand-width 8b effective-address-width 32b Operands 0 MEM0 EXPLICIT / RW 1 REG AL EXPLICIT / R 2 REG EFLAGS SUPPRESSED / W Memory Operands 0 read SEG= DS BASE= EAX/REG32 MemopLength = 1 FLAGS: must-write-rflags of-mod sf-mod zf-mod af-mod pf-mod cf-mod read: written: of sf zf af pf cf =============================================================================== % ./xed-ex1 f2 0f 58 9c 24 e0 00 00 00 iclass ADDSD category SSE ISA-extension SSE2 instruction-length 9 effective-operand-width 32b effective-address-width 32b Operands 0 REG XMM3 EXPLICIT / RW 1 MEM0 EXPLICIT / R Memory Operands 0 read SEG= SS BASE= ESP/REG32 DISPLACEMENT= DISP32 0x000000e0 MemopLength = 8 =============================================================================== ./xed-ex1 f3 90 iclass PAUSE category INT_ALU ISA-extension BASE instruction-length 2 effective-operand-width 32b effective-address-width 32b Operands Memory Operands MemopLength = 0 ===============================================================================