#include "key_helper.h" #include #include "session_pre_key.h" #include "ratchet.h" #include "curve.h" #include "signal_protocol_internal.h" #include "utlist.h" struct signal_protocol_key_helper_pre_key_list_node { session_pre_key *element; struct signal_protocol_key_helper_pre_key_list_node *next; }; int signal_protocol_key_helper_generate_identity_key_pair(ratchet_identity_key_pair **key_pair, signal_context *global_context) { int result = 0; ratchet_identity_key_pair *result_pair = 0; ec_key_pair *ec_pair = 0; ec_public_key *public_key = 0; ec_private_key *private_key = 0; assert(global_context); result = curve_generate_key_pair(global_context, &ec_pair); if(result < 0) { goto complete; } public_key = ec_key_pair_get_public(ec_pair); private_key = ec_key_pair_get_private(ec_pair); result = ratchet_identity_key_pair_create( &result_pair, public_key, private_key); complete: if(result >= 0) { *key_pair = result_pair; } SIGNAL_UNREF(ec_pair); return result; } int signal_protocol_key_helper_generate_registration_id(uint32_t *registration_id, int extended_range, signal_context *global_context) { uint32_t range; uint32_t id_value; int result = 0; assert(global_context); assert(global_context->crypto_provider.random_func); if(extended_range == 0) { range = 16380; } else if(extended_range == 1) { range = INT32_MAX - 1; } else { return SG_ERR_INVAL; } result = global_context->crypto_provider.random_func( (uint8_t *)(&id_value), sizeof(id_value), global_context->crypto_provider.user_data); if(result < 0) { return result; } id_value = (id_value % range) + 1; *registration_id = id_value; return 0; } int signal_protocol_key_helper_get_random_sequence(int *value, int max, signal_context *global_context) { int result = 0; int32_t result_value; assert(global_context); assert(global_context->crypto_provider.random_func); result = global_context->crypto_provider.random_func( (uint8_t *)(&result_value), sizeof(result_value), global_context->crypto_provider.user_data); if(result < 0) { return result; } result_value = ((result_value & 0x7FFFFFFF) % max); *value = result_value; return 0; } int signal_protocol_key_helper_generate_pre_keys(signal_protocol_key_helper_pre_key_list_node **head, unsigned int start, unsigned int count, signal_context *global_context) { int result = 0; ec_key_pair *ec_pair = 0; session_pre_key *pre_key = 0; signal_protocol_key_helper_pre_key_list_node *result_head = 0; signal_protocol_key_helper_pre_key_list_node *cur_node = 0; signal_protocol_key_helper_pre_key_list_node *node = 0; unsigned int start_index = start - 1; unsigned int i; assert(global_context); for(i = 0; i < count; i++) { uint32_t id = 0; result = curve_generate_key_pair(global_context, &ec_pair); if(result < 0) { goto complete; } id = ((start_index + i) % (PRE_KEY_MEDIUM_MAX_VALUE - 1)) + 1; result = session_pre_key_create(&pre_key, id, ec_pair); if(result < 0) { goto complete; } SIGNAL_UNREF(ec_pair); ec_pair = 0; node = malloc(sizeof(signal_protocol_key_helper_pre_key_list_node)); if(!node) { result = SG_ERR_NOMEM; goto complete; } node->element = pre_key; node->next = 0; if(!result_head) { result_head = node; cur_node = node; } else { cur_node->next = node; cur_node = node; } pre_key = 0; node = 0; } complete: if(ec_pair) { SIGNAL_UNREF(ec_pair); } if(pre_key) { SIGNAL_UNREF(pre_key); } if(node) { free(node); } if(result < 0) { if(result_head) { signal_protocol_key_helper_pre_key_list_node *tmp_node; LL_FOREACH_SAFE(result_head, cur_node, tmp_node) { LL_DELETE(result_head, cur_node); SIGNAL_UNREF(cur_node->element); free(cur_node); } } } else { *head = result_head; } return result; } session_pre_key *signal_protocol_key_helper_key_list_element(const signal_protocol_key_helper_pre_key_list_node *node) { assert(node); assert(node->element); return node->element; } signal_protocol_key_helper_pre_key_list_node *signal_protocol_key_helper_key_list_next(const signal_protocol_key_helper_pre_key_list_node *node) { assert(node); return node->next; } void signal_protocol_key_helper_key_list_free(signal_protocol_key_helper_pre_key_list_node *head) { if(head) { signal_protocol_key_helper_pre_key_list_node *cur_node; signal_protocol_key_helper_pre_key_list_node *tmp_node; LL_FOREACH_SAFE(head, cur_node, tmp_node) { LL_DELETE(head, cur_node); SIGNAL_UNREF(cur_node->element); free(cur_node); } } } int signal_protocol_key_helper_generate_signed_pre_key(session_signed_pre_key **signed_pre_key, const ratchet_identity_key_pair *identity_key_pair, uint32_t signed_pre_key_id, uint64_t timestamp, signal_context *global_context) { int result = 0; session_signed_pre_key *result_signed_pre_key = 0; ec_key_pair *ec_pair = 0; signal_buffer *public_buf = 0; signal_buffer *signature_buf = 0; ec_public_key *public_key = 0; ec_private_key *private_key = 0; assert(global_context); result = curve_generate_key_pair(global_context, &ec_pair); if(result < 0) { goto complete; } public_key = ec_key_pair_get_public(ec_pair); result = ec_public_key_serialize(&public_buf, public_key); if(result < 0) { goto complete; } private_key = ratchet_identity_key_pair_get_private(identity_key_pair); result = curve_calculate_signature(global_context, &signature_buf, private_key, signal_buffer_data(public_buf), signal_buffer_len(public_buf)); if(result < 0) { goto complete; } result = session_signed_pre_key_create(&result_signed_pre_key, signed_pre_key_id, timestamp, ec_pair, signal_buffer_data(signature_buf), signal_buffer_len(signature_buf)); complete: SIGNAL_UNREF(ec_pair); signal_buffer_free(public_buf); signal_buffer_free(signature_buf); if(result >= 0) { *signed_pre_key = result_signed_pre_key; } return result; } int signal_protocol_key_helper_generate_sender_signing_key(ec_key_pair **key_pair, signal_context *global_context) { int result; assert(global_context); result = curve_generate_key_pair(global_context, key_pair); return result; } int signal_protocol_key_helper_generate_sender_key(signal_buffer **key_buffer, signal_context *global_context) { int result = 0; signal_buffer *result_buffer = 0; assert(global_context); result_buffer = signal_buffer_alloc(32); if(!result_buffer) { result = SG_ERR_NOMEM; goto complete; } result = signal_crypto_random(global_context, signal_buffer_data(result_buffer), signal_buffer_len(result_buffer)); complete: if(result < 0) { signal_buffer_free(result_buffer); } else { *key_buffer = result_buffer; result = 0; } return result; } int signal_protocol_key_helper_generate_sender_key_id(uint32_t *key_id, signal_context *global_context) { int result; int value; result = signal_protocol_key_helper_get_random_sequence(&value, INT32_MAX, global_context); if(result >= 0) { *key_id = (uint32_t)value; } return result; }