/** * "Generate contents for the given BlockInfoVec on the given Link." [DTN2] * * @return "the total length of the formatted blocks for this bundle." [DTN2] */ public static int generate_blocks(Bundle bundle, BlockInfoVec blocks, final Link link) { // "now assert there's at least 2 blocks (primary + payload) and // that the primary is first" [DTN2] assert (blocks.size() >= 2); assert (blocks.front().type() == bundle_block_type_t.PRIMARY_BLOCK); // "now we make a pass through the list and call generate on // each block processor" [DTN2] for (int i = 0; i < blocks.size(); i++) { boolean last = i == blocks.size() - 1; BlockInfo iter = blocks.get(i); iter.owner().generate(bundle, blocks, iter, link, last); BPF.getInstance() .getBPFLogger() .debug( TAG, String.format( "generated block (owner %s type %s) " + "data_offset %d data_length %d , contents_length %d", iter.owner().block_type(), iter.type(), iter.data_offset(), iter.data_length(), iter.contents().position())); if (last) { assert ((iter.flags() & BundleProtocol.block_flag_t.BLOCK_FLAG_LAST_BLOCK.getCode()) != 0); } else { assert ((iter.flags() & BundleProtocol.block_flag_t.BLOCK_FLAG_LAST_BLOCK.getCode()) == 0); } } // "Now that all the EID references are added to the dictionary, // generate the primary block." [DTN2] PrimaryBlockProcessor pbp = (PrimaryBlockProcessor) find_processor(BundleProtocol.bundle_block_type_t.PRIMARY_BLOCK); assert (blocks.front().owner() == pbp); pbp.generate_primary(bundle, blocks, blocks.front()); // "make a final pass through, calling finalize() and extracting // the block length" [DTN2] int total_len = 0; for (int i = blocks.size() - 1; i >= 0; i--) { BlockInfo iter = blocks.get(i); iter.owner().finalize(bundle, blocks, iter, link); total_len += iter.full_length(); } return total_len; }
/** * "Loop through the bundle's received block list to validate each entry." [DTN2] * * @return "true if the bundle is valid, false if it should be deleted." [DTN2] */ public static boolean validate( Bundle bundle, status_report_reason_t[] reception_reason, status_report_reason_t[] deletion_reason) { int primary_blocks = 0, payload_blocks = 0; BlockInfoVec recv_blocks = bundle.recv_blocks(); // "a bundle must include at least two blocks (primary and payload)" // [DTN2] if (recv_blocks.size() < 2) { BPF.getInstance().getBPFLogger().error(TAG, "bundle fails to contain at least two blocks"); deletion_reason[0] = BundleProtocol.status_report_reason_t.REASON_BLOCK_UNINTELLIGIBLE; return false; } // "the first block of a bundle must be a primary block" [DTN2] if (recv_blocks.front().type() != BundleProtocol.bundle_block_type_t.PRIMARY_BLOCK) { BPF.getInstance().getBPFLogger().error(TAG, "bundle fails to contain a primary block"); deletion_reason[0] = BundleProtocol.status_report_reason_t.REASON_BLOCK_UNINTELLIGIBLE; return false; } // "validate each individual block" [DTN2] int last_block_index = recv_blocks.size() - 1; for (int i = 0; i < recv_blocks.size(); i++) { BlockInfo current_block = recv_blocks.get(i); // "a block may not have enough data for the preamble" [DTN2] if (current_block.data_offset() == 0) { // "either the block is not the last one and something went // badly wrong, or it is the last block present" [DTN2] if (i != last_block_index) { BPF.getInstance().getBPFLogger().error(TAG, "bundle block too short for the preamble"); deletion_reason[0] = BundleProtocol.status_report_reason_t.REASON_BLOCK_UNINTELLIGIBLE; return false; } // "this is the last block, so drop it" [DTN2] BPF.getInstance().getBPFLogger().debug(TAG, "forgetting preamble-starved last block"); recv_blocks.remove(current_block); if (recv_blocks.size() < 2) { BPF.getInstance() .getBPFLogger() .error(TAG, "bundle fails to contain at least two blocks"); deletion_reason[0] = BundleProtocol.status_report_reason_t.REASON_BLOCK_UNINTELLIGIBLE; return false; } // "continue with the tests; results may have changed now that // a different block is last" [DTN2] return false; } else { if (current_block.type() == BundleProtocol.bundle_block_type_t.PRIMARY_BLOCK) { primary_blocks++; } if (current_block.type() == BundleProtocol.bundle_block_type_t.PAYLOAD_BLOCK) { payload_blocks++; } } if (!current_block .owner() .validate(bundle, recv_blocks, current_block, reception_reason, deletion_reason)) { return false; } // "a bundle's last block must be flagged as such, // and all other blocks should not be flagged" [DTN2] if (i == last_block_index) { if (!current_block.last_block()) { if (!bundle.fragmented_incoming()) { BPF.getInstance().getBPFLogger().error(TAG, "bundle's last block not flagged"); deletion_reason[0] = BundleProtocol.status_report_reason_t.REASON_BLOCK_UNINTELLIGIBLE; return false; } else { BPF.getInstance() .getBPFLogger() .debug(TAG, "bundle's last block not flagged, but " + "it is a reactive fragment"); } } } else { if (current_block.last_block()) { BPF.getInstance().getBPFLogger().error(TAG, "bundle block incorrectly flagged as last"); deletion_reason[0] = BundleProtocol.status_report_reason_t.REASON_BLOCK_UNINTELLIGIBLE; return false; } } } // "a bundle must contain one, and only one, primary block" [DTN2] if (primary_blocks != 1) { BPF.getInstance() .getBPFLogger() .error(TAG, String.format("bundle contains %d primary blocks", primary_blocks)); deletion_reason[0] = BundleProtocol.status_report_reason_t.REASON_BLOCK_UNINTELLIGIBLE; return false; } // "a bundle must not contain more than one payload block" [DTN2] if (payload_blocks > 1) { BPF.getInstance() .getBPFLogger() .error(TAG, String.format("bundle contains %d payload blocks", payload_blocks)); deletion_reason[0] = BundleProtocol.status_report_reason_t.REASON_BLOCK_UNINTELLIGIBLE; return false; } return true; }