/* * Copyright (C) 2011-2017 Intel Corporation. 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. * */ #ifndef _URTS_COM_H_ #define _URTS_COM_H_ #include "arch.h" #include "sgx_error.h" #include "se_error_internal.h" #include "se_trace.h" #include "file.h" #include "sgx_eid.h" #include "se_map.h" #include "launch_checker.h" #include "debugger_support.h" #include "loader.h" #include "binparser.h" #include "cpuid.h" #include "se_macro.h" #include "prd_css_util.h" #include "se_detect.h" #ifndef PARSER #include "elfparser.h" #define PARSER ElfParser #endif #include "ittnotify.h" #include "ittnotify_config.h" #include "ittnotify_types.h" extern "C" int __itt_init_ittlib(const char*, __itt_group_id); extern "C" __itt_global* __itt_get_ittapi_global(); #define HSW_C0 0x306c3 #define GPR_A0 0x406e0 #define GPR_B0 0x406e1 #define GPR_P0 0x506e0 #ifndef SE_SIM static int validate_platform() { int cpu_info[4] = {0, 0, 0, 0}; __cpuid(cpu_info, 1); // The compatibility between SDK and PSW is checked by the metadata version. // Below check the compatibility between the platform and uRTS only. // It is HSW users' responsibility to make the uRTS version to consistent with the HSW patch. if(cpu_info[0] == HSW_C0) { return SGX_SUCCESS; } // GPR region else if(cpu_info[0] == GPR_A0 || cpu_info[0] == GPR_B0 || cpu_info[0] == GPR_P0) { SE_TRACE(SE_TRACE_ERROR, "ERROR: The enclave cannot be launched on current platform.\n"); return SGX_ERROR_INVALID_VERSION; } return SGX_SUCCESS; } #endif static sgx_status_t get_metadata(BinParser *parser, const int debug, metadata_t **metadata, sgx_misc_attribute_t *sgx_misc_attr) { assert(parser != NULL && metadata != NULL && sgx_misc_attr != NULL); uint64_t meta_rva = parser->get_metadata_offset(); const uint8_t *base_addr = parser->get_start_addr(); uint64_t meta_block_size = parser->get_metadata_block_size(); uint64_t version = META_DATA_MAKE_VERSION(MAJOR_VERSION,MINOR_VERSION ); //scan multiple metadata list in sgx_metadata section do{ *metadata = GET_PTR(metadata_t, base_addr, meta_rva); if((*metadata)->magic_num != METADATA_MAGIC) return SGX_ERROR_INVALID_METADATA; //check metadata version if(version == (*metadata)->version) break; if(0 == (*metadata)->size) { SE_TRACE(SE_TRACE_ERROR, "ERROR: metadata's size can't be zero.\n"); return SGX_ERROR_INVALID_METADATA; } meta_rva += (*metadata)->size; /*goto next metadata offset*/ if(meta_rva - (parser->get_metadata_offset()) >= meta_block_size) { SE_TRACE(SE_TRACE_ERROR, "ERROR: Exceed metadata block bound.\n"); return SGX_ERROR_INVALID_METADATA; } }while(1); return (sgx_status_t)get_enclave_creator()->get_misc_attr(sgx_misc_attr, *metadata, NULL, debug); } static int __create_enclave(BinParser &parser, uint8_t* base_addr, const metadata_t *metadata, se_file_t& file, const bool debug, SGXLaunchToken *lc, le_prd_css_file_t *prd_css_file, sgx_enclave_id_t *enclave_id, sgx_misc_attribute_t *misc_attr) { // The "parser" will be registered into "loader" and "loader" will be registered into "enclave". // After enclave is created, "parser" and "loader" are not needed any more. debug_enclave_info_t *debug_info = NULL; int ret = SGX_SUCCESS; CLoader loader(base_addr, parser); ret = loader.load_enclave_ex(lc, debug, metadata, prd_css_file, misc_attr); if (ret != SGX_SUCCESS) { return ret; } CEnclave* enclave = new CEnclave(loader); // initialize the enclave object ret = enclave->initialize(file, loader.get_enclave_id(), const_cast(loader.get_start_addr()), metadata->enclave_size, metadata->tcs_policy); if (ret != SGX_SUCCESS) { loader.destroy_enclave(); delete enclave; // The `enclave' object owns the `loader' object. return ret; } std::vector tcs_list = loader.get_tcs_list(); for (unsigned idx = 0; idx < tcs_list.size(); ++idx) { enclave->add_thread(tcs_list[idx]); SE_TRACE(SE_TRACE_DEBUG, "add tcs %p\n", tcs_list[idx]); } // It is accurate to get debug flag from secs enclave->set_dbg_flag(!!(loader.get_secs().attributes.flags & SGX_FLAGS_DEBUG)); debug_info = const_cast(enclave->get_debug_info()); enclave->set_extra_debug_info(const_cast(loader.get_secs())); //add enclave to enclave pool before init_enclave because in simualtion //mode init_enclave will rely on CEnclavePool to get Enclave instance. if (FALSE == CEnclavePool::instance()->add_enclave(enclave)) { ret = SGX_ERROR_UNEXPECTED; goto fail; } if(debug) debug_info->enclave_type |= ET_DEBUG; if (!(get_enclave_creator()->use_se_hw())) debug_info->enclave_type |= ET_SIM; bool isVTuneProfiling; if(debug || !(get_enclave_creator()->use_se_hw())) { SE_TRACE(SE_TRACE_DEBUG, "Debug enclave. Checking if VTune is profiling\n"); __itt_init_ittlib(NULL, __itt_group_none); if(__itt_get_ittapi_global()->api_initialized && __itt_get_ittapi_global()->lib) isVTuneProfiling = true; else isVTuneProfiling = false; if(isVTuneProfiling) { SE_TRACE(SE_TRACE_DEBUG, "VTune is profiling\n"); bool thread_updated; thread_updated = enclave->update_debug_flag(1); if(thread_updated == false) { SE_TRACE(SE_TRACE_DEBUG, "Failed to update debug OPTIN bit\n"); } else { SE_TRACE(SE_TRACE_DEBUG, "Updated debug OPTIN bit\n"); } uint64_t enclave_start_addr; uint64_t enclave_end_addr; const char* enclave_path; enclave_start_addr = (uint64_t) loader.get_start_addr(); enclave_end_addr = enclave_start_addr + (uint64_t) metadata->enclave_size; SE_TRACE(SE_TRACE_DEBUG, "Invoking VTune's module mapping API __itt_module_load \n"); SE_TRACE(SE_TRACE_DEBUG, "Enclave_start_addr==0x%llx\n", enclave_start_addr); SE_TRACE(SE_TRACE_DEBUG, "Enclave_end_addr==0x%llx\n", enclave_end_addr); enclave_path = (const char*)file.name; SE_TRACE(SE_TRACE_DEBUG, "Enclave_path==%s\n", enclave_path); __itt_module_load((void*)enclave_start_addr, (void*) enclave_end_addr, enclave_path); } else { SE_TRACE(SE_TRACE_DEBUG, "VTune is not profiling. Debug OPTIN bit not set and API to do module mapping not invoked\n"); } } //send debug event to debugger when enclave is debug mode or release mode //set struct version debug_info->struct_version = enclave->get_debug_info()->struct_version; //generate load debug event after EINIT generate_enclave_debug_event(URTS_EXCEPTION_POSTINITENCLAVE, debug_info); //call trts to do some intialization if(SGX_SUCCESS != (ret = get_enclave_creator()->initialize(loader.get_enclave_id()))) { sgx_status_t status = SGX_SUCCESS; CEnclavePool::instance()->remove_enclave(loader.get_enclave_id(), status); goto fail; } if(SGX_SUCCESS != (ret = loader.set_memory_protection())) { sgx_status_t status = SGX_SUCCESS; CEnclavePool::instance()->remove_enclave(loader.get_enclave_id(), status); goto fail; } *enclave_id = loader.get_enclave_id(); return SGX_SUCCESS; fail: loader.destroy_enclave(); delete enclave; return ret; } sgx_status_t _create_enclave(const bool debug, se_file_handle_t pfile, se_file_t& file, le_prd_css_file_t *prd_css_file, sgx_launch_token_t *launch, int *launch_updated, sgx_enclave_id_t *enclave_id, sgx_misc_attribute_t *misc_attr) { unsigned int ret = SGX_SUCCESS; sgx_status_t lt_result = SGX_SUCCESS; uint32_t file_size = 0; map_handle_t* mh = NULL; sgx_misc_attribute_t sgx_misc_attr; metadata_t *metadata = NULL; SGXLaunchToken *lc = NULL; memset(&sgx_misc_attr, 0, sizeof(sgx_misc_attribute_t)); if(NULL == launch || NULL == launch_updated || NULL == enclave_id) return SGX_ERROR_INVALID_PARAMETER; #ifndef SE_SIM ret = validate_platform(); if(ret != SGX_SUCCESS) return (sgx_status_t)ret; #endif mh = map_file(pfile, &file_size); if (!mh) return SGX_ERROR_OUT_OF_MEMORY; PARSER parser(const_cast(mh->base_addr), (uint64_t)(file_size)); if(SGX_SUCCESS != (ret = parser.run_parser())) { goto clean_return; } //Make sure HW uRTS won't load simulation enclave and vice verse. if(get_enclave_creator()->use_se_hw() != (!parser.get_symbol_rva("g_global_data_sim"))) { SE_TRACE_WARNING("HW and Simulation mode incompatibility detected. The enclave is linked with the incorrect tRTS library.\n"); ret = SGX_ERROR_MODE_INCOMPATIBLE; goto clean_return; } if(SGX_SUCCESS != (ret = get_metadata(&parser, debug, &metadata, &sgx_misc_attr))) { goto clean_return; } *launch_updated = FALSE; lc = new SGXLaunchToken(&metadata->enclave_css, &sgx_misc_attr.secs_attr, launch); lt_result = lc->update_launch_token(false); if(SGX_SUCCESS != lt_result) { ret = lt_result; goto clean_return; } #ifndef SE_SIM // Only LE allows the prd_css_file if(is_le(lc, &metadata->enclave_css) == false && prd_css_file != NULL) { ret = SGX_ERROR_INVALID_PARAMETER; goto clean_return; } #endif //Need to set the whole misc_attr instead of just secs_attr. do { ret = __create_enclave(parser, mh->base_addr, metadata, file, debug, lc, prd_css_file, enclave_id, misc_attr); //SGX_ERROR_ENCLAVE_LOST caused by initializing enclave while power transition occurs } while(SGX_ERROR_ENCLAVE_LOST == ret); if(SE_ERROR_INVALID_LAUNCH_TOKEN == ret || SGX_ERROR_INVALID_CPUSVN == ret) ret = SGX_ERROR_UNEXPECTED; // The launch token is updated, so the SE_INVALID_MEASUREMENT is only caused by signature. if(SE_ERROR_INVALID_MEASUREMENT == ret) ret = SGX_ERROR_INVALID_SIGNATURE; // The launch token is updated, so the SE_ERROR_INVALID_ISVSVNLE means user needs to update the LE image if (SE_ERROR_INVALID_ISVSVNLE == ret) ret = SGX_ERROR_UPDATE_NEEDED; if(SGX_SUCCESS != ret) goto clean_return; else if(lc->is_launch_updated()) { *launch_updated = TRUE; ret = lc->get_launch_token(launch); } clean_return: if(mh != NULL) unmap_file(mh); if(lc != NULL) delete lc; return (sgx_status_t)ret; } extern "C" sgx_status_t sgx_destroy_enclave(const sgx_enclave_id_t enclave_id) { sgx_status_t status = SGX_SUCCESS; CEnclave* enclave = CEnclavePool::instance()->remove_enclave(enclave_id, status); if (enclave) { delete enclave; } return status; } #endif