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- /*
- * 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.
- *
- */
- // Enclave3.cpp : Defines the exported functions for the DLL application
- #include "sgx_eid.h"
- #include "Enclave3_t.h"
- #include "EnclaveMessageExchange.h"
- #include "error_codes.h"
- #include "Utility_E3.h"
- #include "sgx_thread.h"
- #include "sgx_dh.h"
- #include <map>
- #define UNUSED(val) (void)(val)
- std::map<sgx_enclave_id_t, dh_session_t>g_src_session_info_map;
- static uint32_t e3_foo1_wrapper(ms_in_msg_exchange_t *ms, size_t param_lenth, char** resp_buffer, size_t* resp_length);
- //Function pointer table containing the list of functions that the enclave exposes
- const struct {
- size_t num_funcs;
- const void* table[1];
- } func_table = {
- 1,
- {
- (const void*)e3_foo1_wrapper,
- }
- };
- //Makes use of the sample code function to establish a secure channel with the destination enclave
- uint32_t test_create_session(sgx_enclave_id_t src_enclave_id,
- sgx_enclave_id_t dest_enclave_id)
- {
- ATTESTATION_STATUS ke_status = SUCCESS;
- dh_session_t dest_session_info;
- //Core reference code function for creating a session
- ke_status = create_session(src_enclave_id, dest_enclave_id,&dest_session_info);
- if(ke_status == SUCCESS)
- {
- //Insert the session information into the map under the corresponding destination enclave id
- g_src_session_info_map.insert(std::pair<sgx_enclave_id_t, dh_session_t>(dest_enclave_id, dest_session_info));
- }
- memset(&dest_session_info, 0, sizeof(dh_session_t));
- return ke_status;
- }
- //Makes use of the sample code function to do an enclave to enclave call (Test Vector)
- uint32_t test_enclave_to_enclave_call(sgx_enclave_id_t src_enclave_id,
- sgx_enclave_id_t dest_enclave_id)
- {
- ATTESTATION_STATUS ke_status = SUCCESS;
- external_param_struct_t *p_struct_var, struct_var;
- internal_param_struct_t internal_struct_var;
- uint32_t target_fn_id, msg_type;
- char* marshalled_inp_buff;
- size_t marshalled_inp_buff_len;
- char* out_buff;
- size_t out_buff_len;
- dh_session_t *dest_session_info;
- size_t max_out_buff_size;
- char* retval;
- max_out_buff_size = 50;
- msg_type = ENCLAVE_TO_ENCLAVE_CALL;
- target_fn_id = 0;
- internal_struct_var.ivar1 = 0x5;
- internal_struct_var.ivar2 = 0x6;
- struct_var.var1 = 0x3;
- struct_var.var2 = 0x4;
- struct_var.p_internal_struct = &internal_struct_var;
- p_struct_var = &struct_var;
- size_t len_data = sizeof(struct_var) - sizeof(struct_var.p_internal_struct);
- size_t len_ptr_data = sizeof(internal_struct_var);
- //Marshals the input parameters for calling function foo1 in Enclave1 into a input buffer
- ke_status = marshal_input_parameters_e1_foo1(target_fn_id, msg_type, p_struct_var, len_data,
- len_ptr_data, &marshalled_inp_buff, &marshalled_inp_buff_len);
- if(ke_status != SUCCESS)
- {
- return ke_status;
- }
- //Search the map for the session information associated with the destination enclave id passed in
- std::map<sgx_enclave_id_t, dh_session_t>::iterator it = g_src_session_info_map.find(dest_enclave_id);
- if(it != g_src_session_info_map.end())
- {
- dest_session_info = &it->second;
- }
- else
- {
- SAFE_FREE(marshalled_inp_buff);
- return INVALID_SESSION;
- }
- //Core Reference Code function
- ke_status = send_request_receive_response(src_enclave_id, dest_enclave_id, dest_session_info,
- marshalled_inp_buff, marshalled_inp_buff_len, max_out_buff_size, &out_buff, &out_buff_len);
- if(ke_status != SUCCESS)
- {
- SAFE_FREE(marshalled_inp_buff);
- SAFE_FREE(out_buff);
- return ke_status;
- }
- ////Un-marshal the return value and output parameters from foo1 of Enclave1
- ke_status = unmarshal_retval_and_output_parameters_e1_foo1(out_buff, p_struct_var, &retval);
- if(ke_status != SUCCESS)
- {
- SAFE_FREE(marshalled_inp_buff);
- SAFE_FREE(out_buff);
- return ke_status;
- }
- SAFE_FREE(marshalled_inp_buff);
- SAFE_FREE(out_buff);
- SAFE_FREE(retval);
- return SUCCESS;
- }
- //Makes use of the sample code function to do a generic secret message exchange (Test Vector)
- uint32_t test_message_exchange(sgx_enclave_id_t src_enclave_id,
- sgx_enclave_id_t dest_enclave_id)
- {
- ATTESTATION_STATUS ke_status = SUCCESS;
- uint32_t target_fn_id, msg_type;
- char* marshalled_inp_buff;
- size_t marshalled_inp_buff_len;
- char* out_buff;
- size_t out_buff_len;
- dh_session_t *dest_session_info;
- size_t max_out_buff_size;
- char* secret_response;
- uint32_t secret_data;
- target_fn_id = 0;
- msg_type = MESSAGE_EXCHANGE;
- max_out_buff_size = 50;
- secret_data = 0x12345678; //Secret Data here is shown only for purpose of demonstration.
- //Marshals the parameters into a buffer
- ke_status = marshal_message_exchange_request(target_fn_id, msg_type, secret_data, &marshalled_inp_buff, &marshalled_inp_buff_len);
- if(ke_status != SUCCESS)
- {
- return ke_status;
- }
- //Search the map for the session information associated with the destination enclave id passed in
- std::map<sgx_enclave_id_t, dh_session_t>::iterator it = g_src_session_info_map.find(dest_enclave_id);
- if(it != g_src_session_info_map.end())
- {
- dest_session_info = &it->second;
- }
- else
- {
- SAFE_FREE(marshalled_inp_buff);
- return INVALID_SESSION;
- }
- //Core Reference Code function
- ke_status = send_request_receive_response(src_enclave_id, dest_enclave_id, dest_session_info, marshalled_inp_buff,
- marshalled_inp_buff_len, max_out_buff_size, &out_buff, &out_buff_len);
- if(ke_status != SUCCESS)
- {
- SAFE_FREE(marshalled_inp_buff);
- SAFE_FREE(out_buff);
- return ke_status;
- }
- //Un-marshal the secret response data
- ke_status = umarshal_message_exchange_response(out_buff, &secret_response);
- if(ke_status != SUCCESS)
- {
- SAFE_FREE(marshalled_inp_buff);
- SAFE_FREE(out_buff);
- return ke_status;
- }
- SAFE_FREE(marshalled_inp_buff);
- SAFE_FREE(out_buff);
- SAFE_FREE(secret_response);
- return SUCCESS;
- }
- //Makes use of the sample code function to close a current session
- uint32_t test_close_session(sgx_enclave_id_t src_enclave_id,
- sgx_enclave_id_t dest_enclave_id)
- {
- dh_session_t dest_session_info;
- ATTESTATION_STATUS ke_status = SUCCESS;
- //Search the map for the session information associated with the destination enclave id passed in
- std::map<sgx_enclave_id_t, dh_session_t>::iterator it = g_src_session_info_map.find(dest_enclave_id);
- if(it != g_src_session_info_map.end())
- {
- dest_session_info = it->second;
- }
- else
- {
- return NULL;
- }
- //Core reference code function for closing a session
- ke_status = close_session(src_enclave_id, dest_enclave_id);
- //Erase the session information associated with the destination enclave id
- g_src_session_info_map.erase(dest_enclave_id);
- return ke_status;
- }
- //Function that is used to verify the trust of the other enclave
- //Each enclave can have its own way verifying the peer enclave identity
- extern "C" uint32_t verify_peer_enclave_trust(sgx_dh_session_enclave_identity_t* peer_enclave_identity)
- {
- if(!peer_enclave_identity)
- {
- return INVALID_PARAMETER_ERROR;
- }
- if(peer_enclave_identity->isv_prod_id != 0 || !(peer_enclave_identity->attributes.flags & SGX_FLAGS_INITTED))
- // || peer_enclave_identity->attributes.xfrm !=3)// || peer_enclave_identity->mr_signer != xx //TODO: To be hardcoded with values to check
- {
- return ENCLAVE_TRUST_ERROR;
- }
- else
- {
- return SUCCESS;
- }
- }
- //Dispatch function that calls the approriate enclave function based on the function id
- //Each enclave can have its own way of dispatching the calls from other enclave
- extern "C" uint32_t enclave_to_enclave_call_dispatcher(char* decrypted_data,
- size_t decrypted_data_length,
- char** resp_buffer,
- size_t* resp_length)
- {
- ms_in_msg_exchange_t *ms;
- uint32_t (*fn1)(ms_in_msg_exchange_t *ms, size_t, char**, size_t*);
- if(!decrypted_data || !resp_length)
- {
- return INVALID_PARAMETER_ERROR;
- }
- ms = (ms_in_msg_exchange_t *)decrypted_data;
- if(ms->target_fn_id >= func_table.num_funcs)
- {
- return INVALID_PARAMETER_ERROR;
- }
- fn1 = (uint32_t (*)(ms_in_msg_exchange_t*, size_t, char**, size_t*))func_table.table[ms->target_fn_id];
- return fn1(ms, decrypted_data_length, resp_buffer, resp_length);
- }
- //Operates on the input secret and generates the output secret
- uint32_t get_message_exchange_response(uint32_t inp_secret_data)
- {
- uint32_t secret_response;
- //User should use more complex encryption method to protect their secret, below is just a simple example
- secret_response = inp_secret_data & 0x11111111;
- return secret_response;
- }
- //Generates the response from the request message
- extern "C" uint32_t message_exchange_response_generator(char* decrypted_data,
- char** resp_buffer,
- size_t* resp_length)
- {
- ms_in_msg_exchange_t *ms;
- uint32_t inp_secret_data;
- uint32_t out_secret_data;
- if(!decrypted_data || !resp_length)
- {
- return INVALID_PARAMETER_ERROR;
- }
- ms = (ms_in_msg_exchange_t *)decrypted_data;
- if(umarshal_message_exchange_request(&inp_secret_data,ms) != SUCCESS)
- return ATTESTATION_ERROR;
- out_secret_data = get_message_exchange_response(inp_secret_data);
- if(marshal_message_exchange_response(resp_buffer, resp_length, out_secret_data) != SUCCESS)
- return MALLOC_ERROR;
- return SUCCESS;
- }
- static uint32_t e3_foo1(param_struct_t *p_struct_var)
- {
- if(!p_struct_var)
- {
- return INVALID_PARAMETER_ERROR;
- }
- p_struct_var->var1++;
- p_struct_var->var2++;
- return(p_struct_var->var1 * p_struct_var->var2);
- }
- //Function which is executed on request from the source enclave
- static uint32_t e3_foo1_wrapper(ms_in_msg_exchange_t *ms,
- size_t param_lenth,
- char** resp_buffer,
- size_t* resp_length)
- {
- UNUSED(param_lenth);
-
- uint32_t ret;
- param_struct_t *p_struct_var;
- if(!ms || !resp_length)
- {
- return INVALID_PARAMETER_ERROR;
- }
- p_struct_var = (param_struct_t*)malloc(sizeof(param_struct_t));
- if(!p_struct_var)
- return MALLOC_ERROR;
- if(unmarshal_input_parameters_e3_foo1(p_struct_var, ms) != SUCCESS)
- {
- SAFE_FREE(p_struct_var);
- return ATTESTATION_ERROR;
- }
- ret = e3_foo1(p_struct_var);
- if(marshal_retval_and_output_parameters_e3_foo1(resp_buffer, resp_length, ret, p_struct_var) != SUCCESS)
- {
- SAFE_FREE(p_struct_var);
- return MALLOC_ERROR;
- }
- SAFE_FREE(p_struct_var);
- return SUCCESS;
- }
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