#include #include #include #include "ipfs/importer/importer.h" #include "ipfs/merkledag/merkledag.h" #include "ipfs/repo/fsrepo/fs_repo.h" #include "ipfs/unixfs/unixfs.h" #define MAX_DATA_SIZE 262144 // 1024 * 256; /*** * Imports OS files into the datastore */ /** * read the next chunk of bytes, create a node, and add a link to the node in the passed-in node * @param file the file handle * @param node the node to add to * @returns number of bytes read */ size_t ipfs_import_chunk(FILE* file, struct Node* parent_node, struct FSRepo* fs_repo, size_t* total_size) { unsigned char buffer[MAX_DATA_SIZE]; size_t bytes_read = fread(buffer, 1, MAX_DATA_SIZE, file); // put the file bits into a new UnixFS file struct UnixFS* new_unixfs = NULL; ipfs_unixfs_new(&new_unixfs); new_unixfs->data_type = UNIXFS_FILE; ipfs_unixfs_add_data(&buffer[0], bytes_read, new_unixfs); // protobuf the UnixFS size_t protobuf_size = ipfs_unixfs_protobuf_encode_size(new_unixfs); unsigned char protobuf[protobuf_size]; size_t bytes_written = 0; ipfs_unixfs_protobuf_encode(new_unixfs, protobuf, protobuf_size, &bytes_written); // we're done with the object ipfs_unixfs_free(new_unixfs); // create a new node struct Node* new_node = NULL; ipfs_node_new_from_data(protobuf, bytes_written, &new_node); ipfs_node_set_hash(new_node, new_unixfs->hash, new_unixfs->hash_length); // persist size_t size_of_node = 0; ipfs_merkledag_add(new_node, fs_repo, &size_of_node); // put link in parent node struct NodeLink* new_link = NULL; ipfs_node_link_create("", new_node->hash, new_node->hash_size, &new_link); new_link->t_size = size_of_node; *total_size += new_link->t_size; ipfs_node_add_link(parent_node, new_link); ipfs_node_free(new_node); if (bytes_read != MAX_DATA_SIZE) { // We have read everything, now save the parent_node, // which is a sort of "directory" entry /* // build UnixFS for the parent struct UnixFS* unix_fs; if (ipfs_unixfs_new(&unix_fs) == 0) { return 0; } unix_fs->data_type = UNIXFS_FILE; unix_fs->bytes_size = *total_size; // now encode unixfs and put in parent_node->data size_t temp_size = ipfs_unixfs_protobuf_encode_size(unix_fs); unsigned char temp[temp_size]; size_t bytes_written; if (ipfs_unixfs_protobuf_encode(unix_fs, temp, temp_size, &bytes_written) == 0) { ipfs_unixfs_free(unix_fs); return 0; } parent_node->data_size = bytes_written; parent_node->data = (unsigned char*)malloc(bytes_written); if (parent_node->data == NULL) { ipfs_unixfs_free(unix_fs); return 0; } memcpy(parent_node->data, temp, bytes_written); ipfs_unixfs_free(unix_fs); */ // persist the main node ipfs_merkledag_add(parent_node, fs_repo, &bytes_written); } return bytes_read; } /** * Creates a node based on an incoming file * @param file_name the file to import * @param parent_node the root node (has links to others) * @returns true(1) on success */ int ipfs_import_file(const char* fileName, struct Node** parent_node, struct FSRepo* fs_repo) { int retVal = 1; int bytes_read = MAX_DATA_SIZE; size_t total_size = 0; FILE* file = fopen(fileName, "rb"); retVal = ipfs_node_new(parent_node); if (retVal == 0) return 0; // add all nodes while ( bytes_read == MAX_DATA_SIZE) { bytes_read = ipfs_import_chunk(file, *parent_node, fs_repo, &total_size); } fclose(file); return 1; } /** * called from the command line * @param argc the number of arguments * @param argv the arguments */ int ipfs_import(int argc, char** argv) { /* * Param 0: ipfs * param 1: add * param 2: filename */ struct Node* directory_node = NULL; struct FSRepo* fs_repo = NULL; // open the repo int retVal = ipfs_repo_fsrepo_new(NULL, NULL, &fs_repo); if (retVal == 0) { return 0; } retVal = ipfs_repo_fsrepo_open(fs_repo); // import the file(s) retVal = ipfs_import_file(argv[2], &directory_node, fs_repo); // give some results to the user int buffer_len = 100; unsigned char buffer[buffer_len]; retVal = ipfs_cid_hash_to_base58(directory_node->hash, directory_node->hash_size, buffer, buffer_len); if (retVal == 0) { printf("Unable to generate hash\n"); return 0; } printf("added %s %s\n", buffer, argv[2]); if (directory_node != NULL) ipfs_node_free(directory_node); if (fs_repo != NULL) ipfs_repo_fsrepo_free(fs_repo); return retVal; }