#include #include #include #include #include "libp2p/crypto/rsa.h" #include "libp2p/utils/logger.h" #include "libp2p/record/record.h" #include "ipfs/core/http_request.h" #include "ipfs/datastore/ds_helper.h" #include "ipfs/merkledag/merkledag.h" #include "ipfs/routing/routing.h" #include "ipfs/importer/resolver.h" int ipfs_routing_generic_put_value (ipfs_routing* offlineRouting, const unsigned char *key, size_t key_size, const void *val, size_t vlen) { int err; char *record, *nkey; size_t len, nkey_len; err = libp2p_record_make_put_record (&record, &len, offlineRouting->sk, (const char*)key, val, vlen, 0); if (err) { return err; } nkey = malloc(key_size * 2); // FIXME: size of encoded key if (!nkey) { free (record); return -1; } if (!ipfs_datastore_helper_ds_key_from_binary(key, key_size, (unsigned char*)nkey, key_size+1, &nkey_len)) { free (nkey); free (record); return -1; } // TODO: Save to db as offline storage. free (record); return 0; // success. } /*** * Get a value from the merkledag * @param routing the context * @param key the key * @param key_size the size of the key * @param val where to put the results * @param vlen the size of the results * @returns true(1) on success, false(0) otherwise */ int ipfs_routing_generic_get_value (ipfs_routing* routing, const unsigned char *key, size_t key_size, void **val, size_t *vlen) { int retVal = 0; if (routing->local_node->mode == MODE_API_AVAILABLE) { unsigned char buffer[256]; if (!ipfs_cid_hash_to_base58(key, key_size, &buffer[0], 256)) { libp2p_logger_error("offline", "Unable to convert hash to its Base58 representation.\n"); return 0; } libp2p_logger_debug("offline", "Attempting to ask API for dht get %s.\n", buffer); char* response; struct HttpRequest* req = ipfs_core_http_request_new(); req->command = "dht"; req->sub_command = "get"; req->arguments = libp2p_utils_vector_new(1); libp2p_utils_vector_add(req->arguments, buffer); if (!ipfs_core_http_request_get(routing->local_node, req, &response)) { libp2p_logger_error("offline", "Unable to call API for dht get.\n"); return 0; } //TODO: put results in val fprintf(stdout, "%s", response); return 1; } else { struct HashtableNode* node = NULL; *val = NULL; if (!ipfs_merkledag_get(key, key_size, &node, routing->local_node->repo)) { goto exit; } // protobuf the node int protobuf_size = ipfs_hashtable_node_protobuf_encode_size(node); *val = malloc(protobuf_size); if (ipfs_hashtable_node_protobuf_encode(node, *val, protobuf_size, vlen) == 0) { goto exit; } retVal = 1; exit: if (node != NULL) ipfs_hashtable_node_free(node); if (retVal != 1 && *val != NULL) { free(*val); *val = NULL; } } return retVal; } int ipfs_routing_offline_find_providers (ipfs_routing* offlineRouting, const unsigned char *key, size_t key_size, struct Libp2pVector** peers) { return ErrOffline; } int ipfs_routing_offline_find_peer (ipfs_routing* offlineRouting, const unsigned char *peer_id, size_t pid_size, struct Libp2pPeer **result) { return ErrOffline; } /** * Attempt to publish that this node can provide a value * @param offlineRouting the context * @param incoming_hash the hash (in binary form) * @param incoming_hash_size the length of the hash array * @returns true(1) on success, false(0) otherwise */ int ipfs_routing_offline_provide (ipfs_routing* offlineRouting, const unsigned char *incoming_hash, size_t incoming_hash_size) { if (offlineRouting->local_node->mode == MODE_API_AVAILABLE) { //TODO: publish this through the api unsigned char buffer[256]; if (!ipfs_cid_hash_to_base58(incoming_hash, incoming_hash_size, &buffer[0], 256)) { libp2p_logger_error("offline", "Unable to convert hash to its Base58 representation.\n"); return 0; } char* response; struct HttpRequest* request = ipfs_core_http_request_new(); request->command = "dht"; request->sub_command = "provide"; request->arguments = libp2p_utils_vector_new(1); libp2p_utils_vector_add(request->arguments, buffer); if (!ipfs_core_http_request_get(offlineRouting->local_node, request, &response)) { libp2p_logger_error("offline", "Unable to call API for dht publish.\n"); return 0; } fprintf(stdout, "%s", response); return 1; } else { libp2p_logger_debug("offline", "Unable to announce that I can provide the hash, as API not available.\n"); } return 0; } int ipfs_routing_offline_ping (ipfs_routing* offlineRouting, struct Libp2pPeer* peer) { return ErrOffline; } /** * For offline, this does nothing * @param offlineRouting the interface * @returns 0 */ int ipfs_routing_offline_bootstrap (ipfs_routing* offlineRouting) { return 0; } struct IpfsRouting* ipfs_routing_new_offline (struct IpfsNode* local_node, struct RsaPrivateKey *private_key) { struct IpfsRouting *offlineRouting = malloc (sizeof(struct IpfsRouting)); if (offlineRouting) { offlineRouting->local_node = local_node; offlineRouting->sk = private_key; offlineRouting->PutValue = ipfs_routing_generic_put_value; offlineRouting->GetValue = ipfs_routing_generic_get_value; offlineRouting->FindProviders = ipfs_routing_offline_find_providers; offlineRouting->FindPeer = ipfs_routing_offline_find_peer; offlineRouting->Provide = ipfs_routing_offline_provide; offlineRouting->Ping = ipfs_routing_offline_ping; offlineRouting->Bootstrap = ipfs_routing_offline_bootstrap; } return offlineRouting; } int ipfs_routing_offline_free(ipfs_routing* incoming) { free(incoming); return 1; }