#include "Obfuscator.h" //snake case is honestly so disgusting void obf_one_time_please() { xed_tables_init(); } bool obf_init_from_buffer(pobfuscator_t obf, void* buffer, int buffer_size) { obf->current_label_id = 0; obf->machine_mode = XED_MACHINE_MODE_LONG_64; obf->addr_width = XED_ADDRESS_WIDTH_64b; unsigned long long off = 0; obf->code_start = new code_link_t; obf->code_end = obf->code_start; obf->code_start->flags = 0; obf->code_start->group = 0; obf->code_start->label_name = "omegalawl"; obf->code_start->prev = obf->code_start->next = nullptr; while (off < buffer_size) { pcode_link_t link = new code_link_t; link->flags = 0; link->group = 0; xed_decoded_inst_zero(&link->instruction); xed_decoded_inst_set_mode(&link->instruction, obf->machine_mode, obf->addr_width); xed_error_enum_t err = xed_decode(&link->instruction, (unsigned char*)((unsigned char*)buffer + off), 15); if (err != XED_ERROR_NONE) { printf("Failed decoding instruction at %llu with error \"%s\"(%d)", off, xed_error_enum_t2str(err), err); return false; } unsigned int inst_len = xed_decoded_inst_get_length(&link->instruction); link->raw_data_size = inst_len; link->raw_data = (unsigned char*)malloc(inst_len); if (!link->raw_data) { printf("outta memory son.\n"); return false; } memcpy(link->raw_data, ((unsigned char*)buffer + off), inst_len); //filter out 8 byte wide jumps cuz they aint relative dawg and wont be showin up in my shellcod xed_category_enum_t cat = xed_decoded_inst_get_category(&link->instruction); if (cat == XED_CATEGORY_COND_BR || cat == XED_CATEGORY_UNCOND_BR) { unsigned int disp_width = xed_decoded_inst_get_branch_displacement_width(&link->instruction); if (disp_width != 8) { link->flags |= CLFLAG_IS_REL_JUMP; //int jump_delta = xed_decoded_inst_get_branch_displacement(&link->instruction); //printf("Jump delta is %d\n", jump_delta); } } link->prev = obf->code_end; link->next = nullptr; obf->code_end->next = link; obf->code_end = link; off += inst_len; } } bool obf_create_groups(pobfuscator_t obf, int32_t group_size) { int cur_group_id = 0; int cur_offset = 0; //assign instructions to groups for (pcode_link_t t = obf->code_start->next; t; t = t->next) { if (!(t->flags & CLFLAG_IS_LABEL)) { if (!(t->flags & CLFLAG_IS_GAGET)) { if (cur_offset + t->raw_data_size > group_size) { ++cur_group_id; cur_offset = 0; } } cur_offset += t->raw_data_size; t->group = cur_group_id; } } //assign labels to their proper groups for (pcode_link_t t = obf->code_start->next; t; t = t->next) { if (t->flags & CLFLAG_IS_LABEL) { pcode_link_t t2 = t; while (t2 && (t2->flags & CLFLAG_IS_LABEL)) { t2 = t2->next; } if (t2) t->group = t2->group; } } //create group descriptors obf->groups.clear(); pcode_link_t start = obf->code_start->next; cur_offset = 0; pcode_link_t prev_meme = nullptr; for (pcode_link_t t = obf->code_start->next; t; t = t->next) { if (start->group != t->group) { obf->groups.emplace_back(0, start, t->prev, cur_offset); cur_offset = 0; start = t; } cur_offset += t->raw_data_size; prev_meme = t; } if (!prev_meme) return false; obf->groups.emplace_back(0, start, prev_meme, cur_offset); //append jumps to next group onto end for (uint32_t i = 0; i < obf->groups.size() - 1; i++) { pcode_group_t cur_group = &obf->groups[i]; pcode_group_t next_group = &obf->groups[i+1]; //add jump gadget to end of current group pcode_link_t gadget = new code_link_t; gadget->flags = CLFLAG_IS_GAGET; gadget->label_name = ""; gadget->raw_data = new unsigned char[6]; gadget->raw_data_size = 6; gadget->group = i; unsigned char gadget_data[] = { 0xFF, 0x25, 0x00, 0x00, 0x00, 0x00 }; memcpy(gadget->raw_data, gadget_data, 6); pcode_link_t abs_addr = new code_link_t; abs_addr->flags = (CLFLAG_IS_GAGET | CLFLAG_IS_ABS_ADDR); abs_addr->label_name = std::string("Group") + std::to_string(i + 1); abs_addr->raw_data = new unsigned char[8]; abs_addr->raw_data_size = 8; abs_addr->group = i; cur_group->size_in_bytes += END_OF_GROUP_GAGT_SIZE; pcode_link_t real_next = cur_group->end->next; cur_group->end->next = gadget; gadget->next = abs_addr; abs_addr->next = real_next; real_next->prev = abs_addr; abs_addr->prev = gadget; gadget->prev = cur_group->end; cur_group->end = abs_addr; //add label to beginning of next group pcode_link_t next_group_label = new code_link_t; next_group_label->flags = CLFLAG_IS_LABEL; next_group_label->label_name = std::string("Group") + std::to_string(i + 1); next_group_label->group = i + 1; pcode_link_t real_prev = next_group->start->prev; next_group->start->prev = next_group_label; real_prev->next = next_group_label; next_group_label->next = next_group->start; next_group_label->prev = real_prev; next_group->start = next_group_label; } return true; } void obf_replace_rel_jmps(pobfuscator_t obf) { // original_jump -------------------------. // jmp 0x0E(0xEB, 0x0E) ------------------ | -----. // jmp qword ptr[rip] <----------------' | // address here(8 bytes) | // not taken branch code <-----------------------' for (pcode_link_t t = obf->code_start->next; t;) { pcode_link_t real_next = t->next; if (t->flags & CLFLAG_IS_REL_JUMP) { unsigned int jmp_delta_width = xed_decoded_inst_get_branch_displacement_width(&t->instruction); unsigned int opcode_size = t->raw_data_size - jmp_delta_width; switch (jmp_delta_width) { case 1: *(char*)((unsigned char*)t->raw_data + opcode_size) = (char)2; break; case 2: *(short*)((unsigned char*)t->raw_data + opcode_size) = (short)2; break; case 4: *(int*)((unsigned char*)t->raw_data + opcode_size) = (int)2; break; } t->flags = CLFLAG_IS_GAGET; pcode_link_t gadget = new code_link_t; gadget->flags = CLFLAG_IS_GAGET; gadget->label_name = ""; gadget->raw_data = new unsigned char[8]; gadget->raw_data_size = 8; unsigned char gadget_data[] = { 0xEB, 0x0E, 0xFF, 0x25, 0x00, 0x00, 0x00, 0x00 }; memcpy(gadget->raw_data, gadget_data, 8); pcode_link_t abs_addr = new code_link_t; abs_addr->flags = (CLFLAG_IS_GAGET | CLFLAG_IS_ABS_ADDR); abs_addr->label_name = t->label_name; t->label_name = ""; abs_addr->raw_data = new unsigned char[8]; abs_addr->raw_data_size = 8; t->next = gadget; gadget->next = abs_addr; abs_addr->next = real_next; if (real_next) real_next->prev = abs_addr; abs_addr->prev = gadget; gadget->prev = t; } t = real_next; } } bool obf_resolve_abs_addresses(pobfuscator_t obf) { for (pcode_link_t t = obf->code_start->next; t; t = t->next) { if (t->flags & CLFLAG_IS_ABS_ADDR) { pcode_link_t temp; for (temp = t; temp && temp->prev; temp = temp->prev) { if (temp->flags & CLFLAG_IS_LABEL && temp->label_name == t->label_name) { goto have_label_found; } } for (temp = t; temp && temp->next; temp = temp->next) { if (temp->flags & CLFLAG_IS_LABEL && temp->label_name == t->label_name) { goto have_label_found; } } return false; have_label_found: uint64_t addr = obf->groups[temp->group].base_address; for (pcode_link_t temp2 = obf->groups[temp->group].start; temp2 && temp2->group == temp->group; temp2 = temp2->next) { if (temp2 == temp) { break; } if (!(temp2->flags & CLFLAG_IS_LABEL)) { addr += temp2->raw_data_size; } } *(uint64_t*)((unsigned char*)t->raw_data) = addr; } } return true; } bool obf_gen_all_labels(pobfuscator_t obf) { for (pcode_link_t t = obf->code_start->next; t; t = t->next) { if (t->flags & CLFLAG_IS_REL_JUMP) { int jump_delta = xed_decoded_inst_get_branch_displacement(&t->instruction); if (!obf_gen_label(obf, t, jump_delta)) return false; } } return true; } bool obf_gen_label(pobfuscator_t obf, pcode_link_t jmp, int32_t delta) { pcode_link_t temp; //when going positive, counting starts at NEXT instruction(excluding size of jmp) //when negative, counting INCLUDES the size of the jmp instructrion if (delta > 0) { temp = jmp->next; while (delta && temp) { delta -= temp->instruction._decoded_length; //if (delta == 0) break; temp = temp->next; } if (temp && temp->flags & CLFLAG_IS_LABEL) { jmp->label_name = temp->label_name; return true; } } else if (delta < 0) { temp = jmp; while (temp) { delta += temp->instruction._decoded_length; if (delta == 0) break; temp = temp->prev; } if (temp && temp->prev && (temp->prev->flags & CLFLAG_IS_LABEL)) { jmp->label_name = temp->prev->label_name; return true; } } else return false; if (!temp) return false; //couldnt find label, adding new one pcode_link_t new_label = new code_link_t; new_label->flags = CLFLAG_IS_LABEL; new_label->label_name = std::to_string(++obf->current_label_id); jmp->label_name = new_label->label_name; new_label->next = temp; new_label->prev = temp->prev; if (temp->prev) temp->prev->next = new_label; temp->prev = new_label; return true; } bool obf_allocate_group_buffers(pobfuscator_t obf, FnAllocateMem AllocMem) { } bool obf_copy_groups_into_buffers(pobfuscator_t obf, FnMemCopy MemCopy) { } #include void obf_dbg_print_code(pobfuscator_t obf) { HANDLE StdHandle = GetStdHandle(STD_OUTPUT_HANDLE); if (!StdHandle) return; for (pcode_link_t t = obf->code_start->next; t; t = t->next) { if (t->group % 2) SetConsoleTextAttribute(StdHandle, 12); else SetConsoleTextAttribute(StdHandle, 14); if (t->flags & CLFLAG_IS_REL_JUMP) { printf("\tRel jmp to: %s\t\t", t->label_name.data()); } else if (t->flags & CLFLAG_IS_LABEL) { //SetConsoleTextAttribute(StdHandle, 13); printf("Label: %s \n", t->label_name.data()); } else if (t->flags & CLFLAG_IS_ABS_ADDR) { printf("\tAbs jmp to: %s\t", t->label_name.data()); } else { printf("\tInstruction: \t\t"); } if (!(t->flags & CLFLAG_IS_LABEL)) { obf_print_byte_array(t->raw_data, t->raw_data_size); } } } void obf_dbg_print_group(pobfuscator_t obf, int group_id) { if (group_id >= obf->groups.size()) return; for (pcode_link_t t = obf->groups[group_id].start; t && t->group == group_id; t = t->next) { if (!(t->flags & CLFLAG_IS_LABEL)) { obf_print_byte_array(t->raw_data, t->raw_data_size); } } } #include #include void obf_print_byte_array(void* arr, unsigned int size) { unsigned char* b = (unsigned char*)arr; for (int i = 0; i < size; i++) { std::cout << std::hex << std::setw(2) << std::setfill('0') << (int)b[i] << ' '; } std::cout << '\n'; return; }