static ndn_Error decodeSelectors(struct ndn_Interest *interest, struct ndn_TlvDecoder *decoder) { ndn_Error error; size_t endOffset; int gotExpectedType; if ((error = ndn_TlvDecoder_readNestedTlvsStart(decoder, ndn_Tlv_Selectors, &endOffset))) return error; if ((error = ndn_TlvDecoder_readOptionalNonNegativeIntegerTlv (decoder, ndn_Tlv_MinSuffixComponents, endOffset, &interest->minSuffixComponents))) return error; if ((error = ndn_TlvDecoder_readOptionalNonNegativeIntegerTlv (decoder, ndn_Tlv_MaxSuffixComponents, endOffset, &interest->maxSuffixComponents))) return error; if ((error = ndn_TlvDecoder_peekType (decoder, ndn_Tlv_PublisherPublicKeyLocator, endOffset, &gotExpectedType))) return error; if (gotExpectedType) { if ((error = ndn_decodeTlvKeyLocator (ndn_Tlv_PublisherPublicKeyLocator, &interest->keyLocator, decoder))) return error; } else // Clear the key locator. ndn_KeyLocator_initialize(&interest->keyLocator, interest->keyLocator.keyName.components, interest->keyLocator.keyName.maxComponents); if ((error = ndn_TlvDecoder_peekType(decoder, ndn_Tlv_Exclude, endOffset, &gotExpectedType))) return error; if (gotExpectedType) { if ((error = decodeExclude(&interest->exclude, decoder))) return error; } else interest->exclude.nEntries = 0; if ((error = ndn_TlvDecoder_readOptionalNonNegativeIntegerTlv (decoder, ndn_Tlv_ChildSelector, endOffset, &interest->childSelector))) return error; if ((error = ndn_TlvDecoder_readBooleanTlv (decoder, ndn_Tlv_MustBeFresh, endOffset, &interest->mustBeFresh))) return error; if ((error = ndn_TlvDecoder_finishNestedTlvs(decoder, endOffset))) return error; return NDN_ERROR_success; }
static ndn_Error decodeMetaInfo(struct ndn_MetaInfo *metaInfo, struct ndn_TlvDecoder *decoder) { ndn_Error error; size_t endOffset; int gotExpectedType; if ((error = ndn_TlvDecoder_readNestedTlvsStart(decoder, ndn_Tlv_MetaInfo, &endOffset))) return error; int type; if ((error = ndn_TlvDecoder_readOptionalNonNegativeIntegerTlv (decoder, ndn_Tlv_ContentType, endOffset, &type))) return error; if (type < 0 || type == ndn_ContentType_BLOB) // Default to BLOB if the value is omitted. metaInfo->type = ndn_ContentType_BLOB; else if (type == ndn_ContentType_LINK || type == ndn_ContentType_KEY || type == ndn_ContentType_NACK) // The ContentType enum is set up with the correct integer for each NDN-TLV ContentType. metaInfo->type = type; else { // Unrecognized content type. metaInfo->type = ndn_ContentType_OTHER_CODE; metaInfo->otherTypeCode = type; } if ((error = ndn_TlvDecoder_readOptionalNonNegativeIntegerTlvAsDouble (decoder, ndn_Tlv_FreshnessPeriod, endOffset, &metaInfo->freshnessPeriod))) return error; if ((error = ndn_TlvDecoder_peekType (decoder, ndn_Tlv_FinalBlockId, endOffset, &gotExpectedType))) return error; if (gotExpectedType) { size_t finalBlockIdEndOffset; if ((error = ndn_TlvDecoder_readNestedTlvsStart (decoder, ndn_Tlv_FinalBlockId, &finalBlockIdEndOffset))) return error; if ((error = ndn_decodeTlvNameComponent(&metaInfo->finalBlockId, decoder))) return error; if ((error = ndn_TlvDecoder_finishNestedTlvs(decoder, finalBlockIdEndOffset))) return error; } else ndn_NameComponent_initialize(&metaInfo->finalBlockId, 0, 0); // Set fields not used by NDN-TLV to none. metaInfo->timestampMilliseconds = -1; if ((error = ndn_TlvDecoder_finishNestedTlvs(decoder, endOffset))) return error; return NDN_ERROR_success; }
static ndn_Error decodeMetaInfo(struct ndn_MetaInfo *metaInfo, struct ndn_TlvDecoder *decoder) { ndn_Error error; size_t endOffset; int gotExpectedType; if ((error = ndn_TlvDecoder_readNestedTlvsStart(decoder, ndn_Tlv_MetaInfo, &endOffset))) return error; // The ContentType enum is set up with the correct integer for each NDN-TLV ContentType. if ((error = ndn_TlvDecoder_readOptionalNonNegativeIntegerTlv (decoder, ndn_Tlv_ContentType, endOffset, (int *)&metaInfo->type))) return error; if ((int)metaInfo->type < 0) // Set to the actual value for the default. metaInfo->type = ndn_ContentType_BLOB; if ((error = ndn_TlvDecoder_readOptionalNonNegativeIntegerTlvAsDouble (decoder, ndn_Tlv_FreshnessPeriod, endOffset, &metaInfo->freshnessPeriod))) return error; if ((error = ndn_TlvDecoder_peekType (decoder, ndn_Tlv_FinalBlockId, endOffset, &gotExpectedType))) return error; if (gotExpectedType) { size_t finalBlockIdEndOffset; if ((error = ndn_TlvDecoder_readNestedTlvsStart (decoder, ndn_Tlv_FinalBlockId, &finalBlockIdEndOffset))) return error; if ((error = ndn_TlvDecoder_readBlobTlv (decoder, ndn_Tlv_NameComponent, &metaInfo->finalBlockId.value))) return error; if ((error = ndn_TlvDecoder_finishNestedTlvs(decoder, finalBlockIdEndOffset))) return error; } else ndn_NameComponent_initialize(&metaInfo->finalBlockId, 0, 0); // Set fields not used by NDN-TLV to none. metaInfo->timestampMilliseconds = -1; if ((error = ndn_TlvDecoder_finishNestedTlvs(decoder, endOffset))) return error; return NDN_ERROR_success; }
ndn_Error ndn_decodeTlvLpPacket (struct ndn_LpPacket *lpPacket, struct ndn_TlvDecoder *decoder) { ndn_Error error; size_t endOffset; ndn_LpPacket_clear(lpPacket); if ((error = ndn_TlvDecoder_readNestedTlvsStart (decoder, ndn_Tlv_LpPacket_LpPacket, &endOffset))) return error; while (decoder->offset < endOffset) { // Imitate ndn_TlvDecoder_readTypeAndLength. uint64_t fieldTypeVarNumber; int fieldType; uint64_t fieldLength; size_t fieldEndOffset; if ((error = ndn_TlvDecoder_readVarNumber(decoder, &fieldTypeVarNumber))) return error; fieldType = (int)fieldTypeVarNumber; if ((error = ndn_TlvDecoder_readVarNumber(decoder, &fieldLength))) return error; fieldEndOffset = decoder->offset + (size_t)fieldLength; if (fieldEndOffset > decoder->inputLength) return NDN_ERROR_TLV_length_exceeds_buffer_length; if (fieldType == ndn_Tlv_LpPacket_Fragment) { // Set the fragment to the bytes of the TLV value. if ((error = ndn_TlvDecoder_getSlice (decoder, decoder->offset, fieldEndOffset, &lpPacket->fragmentWireEncoding))) return error; ndn_TlvDecoder_seek(decoder, fieldEndOffset); // The fragment is supposed to be the last field. break; } else if (fieldType == ndn_Tlv_LpPacket_Nack) { struct ndn_NetworkNack *networkNack; int code; if ((error = ndn_NetworkNack_add(lpPacket, &networkNack))) return error; if ((error = ndn_TlvDecoder_readOptionalNonNegativeIntegerTlv (decoder, ndn_Tlv_LpPacket_NackReason, fieldEndOffset, &code))) return error; // The enum numeric values are the same as this wire format, so use as is. if (code < 0 || code == ndn_NetworkNackReason_NONE) // This includes an omitted NackReason. networkNack->reason = ndn_NetworkNackReason_NONE; else if (code == ndn_NetworkNackReason_CONGESTION || code == ndn_NetworkNackReason_DUPLICATE || code == ndn_NetworkNackReason_NO_ROUTE) networkNack->reason = code; else { // Unrecognized reason. networkNack->reason = ndn_NetworkNackReason_OTHER_CODE; networkNack->otherReasonCode = code; } } else if (fieldType == ndn_Tlv_LpPacket_IncomingFaceId) { struct ndn_IncomingFaceId *incomingFaceId; if ((error = ndn_IncomingFaceId_add(lpPacket, &incomingFaceId))) return error; if ((error = ndn_TlvDecoder_readNonNegativeInteger (decoder, fieldLength, &incomingFaceId->faceId))) return error; } else { // Unrecognized field type. The conditions for ignoring are here: // http://redmine.named-data.net/projects/nfd/wiki/NDNLPv2 int canIgnore = (fieldType >= ndn_Tlv_LpPacket_IGNORE_MIN && fieldType <= ndn_Tlv_LpPacket_IGNORE_MAX && (fieldType & 0x01) == 1); if (!canIgnore) return NDN_ERROR_did_not_get_the_expected_TLV_type; // Ignore. ndn_TlvDecoder_seek(decoder, fieldEndOffset); } if ((error = ndn_TlvDecoder_finishNestedTlvs(decoder, fieldEndOffset))) return error; } if ((error = ndn_TlvDecoder_finishNestedTlvs(decoder, endOffset))) return error; return NDN_ERROR_success; }
static ndn_Error ndn_decodeTlvInterestV02 (struct ndn_Interest *interest, size_t *signedPortionBeginOffset, size_t *signedPortionEndOffset, struct ndn_TlvDecoder *decoder) { ndn_Error error; size_t endOffset; int gotExpectedType; if ((error = ndn_TlvDecoder_readNestedTlvsStart(decoder, ndn_Tlv_Interest, &endOffset))) return error; if ((error = ndn_decodeTlvName (&interest->name, signedPortionBeginOffset, signedPortionEndOffset, decoder))) return error; if ((error = ndn_TlvDecoder_peekType(decoder, ndn_Tlv_Selectors, endOffset, &gotExpectedType))) return error; if (gotExpectedType) { if ((error = decodeSelectors(interest, decoder))) return error; } else { // Set selectors to none. interest->minSuffixComponents = -1; interest->maxSuffixComponents = -1; ndn_KeyLocator_initialize (&interest->keyLocator, interest->keyLocator.keyName.components, interest->keyLocator.keyName.maxComponents); interest->exclude.nEntries = 0; interest->childSelector = -1; interest->mustBeFresh = 0; } // Require a Nonce, but don't force it to be 4 bytes. if ((error = ndn_TlvDecoder_readBlobTlv(decoder, ndn_Tlv_Nonce, &interest->nonce))) return error; if ((error = ndn_TlvDecoder_readOptionalNonNegativeIntegerTlvAsDouble (decoder, ndn_Tlv_InterestLifetime, endOffset, &interest->interestLifetimeMilliseconds))) return error; // Get the encoded sequence of delegations as is. if ((error = ndn_TlvDecoder_readOptionalBlobTlv (decoder, ndn_Tlv_ForwardingHint, endOffset, &interest->forwardingHintWireEncoding))) return error; if ((error = ndn_TlvDecoder_peekType(decoder, ndn_Tlv_Data, endOffset, &gotExpectedType))) return error; if (gotExpectedType) { // Get the bytes of the Link TLV. size_t linkBeginOffset = decoder->offset; size_t linkEndOffset; if ((error = ndn_TlvDecoder_readNestedTlvsStart (decoder, ndn_Tlv_Data, &linkEndOffset))) return error; ndn_TlvDecoder_seek(decoder, linkEndOffset); if ((error = ndn_TlvDecoder_getSlice (decoder, linkBeginOffset, linkEndOffset, &interest->linkWireEncoding))) return error; } else ndn_Blob_initialize(&interest->linkWireEncoding, 0, 0); if ((error = ndn_TlvDecoder_readOptionalNonNegativeIntegerTlv (decoder, ndn_Tlv_SelectedDelegation, endOffset, &interest->selectedDelegationIndex))) return error; if (interest->selectedDelegationIndex >= 0 && !interest->linkWireEncoding.value) return NDN_ERROR_Interest_has_a_selected_delegation_but_no_link_object; if ((error = ndn_TlvDecoder_finishNestedTlvs(decoder, endOffset))) return error; return NDN_ERROR_success; }