PARCJSON *
ccnxManifestHashGroup_ToJson(const CCNxManifestHashGroup *group)
{
PARCJSON *root = parcJSON_Create();
PARCJSONArray *ptrList = parcJSONArray_Create();
for (size_t i = 0; i < parcLinkedList_Size(group->pointers); i++) {
CCNxManifestHashGroupPointer *ptr = (CCNxManifestHashGroupPointer *) parcLinkedList_GetAtIndex(group->pointers, i);
PARCJSON *ptrJson = parcJSON_Create();
// Type.
parcJSON_AddInteger(ptrJson, "type", ccnxManifestHashGroupPointer_GetType(ptr));
// Digest.
char *digestString = parcBuffer_ToHexString(ptr->digest);
parcJSON_AddString(ptrJson, "digest", digestString);
parcMemory_Deallocate(&digestString);
// Add the tuple to the list.
PARCJSONValue *val = parcJSONValue_CreateFromJSON(ptrJson);
parcJSONArray_AddValue(ptrList, val);
// Cleanup
parcJSONValue_Release(&val);
parcJSON_Release(&ptrJson);
}
root = parcJSON_AddArray(root, "HashGroup", ptrList);
parcJSONArray_Release(&ptrList);
if (group->overallDataDigest != NULL) {
char *digestString = parcBuffer_ToHexString(group->overallDataDigest);
root = parcJSON_AddString(root, "overallDataDigest", digestString);
parcMemory_Deallocate((void **) &digestString);
}
if (group->locator != NULL) {
char *locatorString = ccnxName_ToString(group->locator);
root = parcJSON_AddString(root, "locator", locatorString);
parcMemory_Deallocate((void **) &locatorString);
}
if (group->entrySize > 0) {
root = parcJSON_AddInteger(root, "entrySize", group->entrySize);
}
if (group->dataSize > 0) {
root = parcJSON_AddInteger(root, "dataSize", group->dataSize);
}
if (group->blockSize > 0) {
root = parcJSON_AddInteger(root, "blockSize", group->blockSize);
}
if (group->treeHeight > 0) {
root = parcJSON_AddInteger(root, "treeHeight", group->treeHeight);
}
return root;
}
MetisGenericEther *
metisGenericEther_Create(MetisForwarder *metis, const char *deviceName, uint16_t etherType)
{
assertNotNull(metis, "Parameter metis must be non-null");
// The Darwin generic ether allows a NULL device name, it is used in the unit tests.
MetisGenericEther *ether = NULL;
if (metisEthernet_IsValidEthertype(etherType)) {
ether = parcObject_CreateInstance(MetisGenericEther);
ether->ethertype = etherType;
ether->logger = metisLogger_Acquire(metisForwarder_GetLogger(metis));
ether->etherSocket = -1; // invalid valid
ether->workBuffer = parcEventBuffer_Create();
ether->macAddress = NULL;
ether->mtu = metisSystem_InterfaceMtu(metis, deviceName);
_darwinEthernet_SetInterfaceAddress(ether, deviceName);
bool success = _darwinEthernet_SetupReceive(ether, deviceName);
if (success) {
if (metisLogger_IsLoggable(ether->logger, MetisLoggerFacility_IO, PARCLogLevel_Info)) {
char *str = parcBuffer_ToHexString(ether->macAddress);
metisLogger_Log(ether->logger, MetisLoggerFacility_IO, PARCLogLevel_Info, __func__,
"GenericEther %p created on device %s (%s) for ethertype 0x%04x fd %d bufferLength %u mtu %u",
(void *) ether, deviceName, str, etherType, ether->etherSocket, ether->etherBufferLength, ether->mtu);
parcMemory_Deallocate((void **) &str);
}
} else {
if (metisLogger_IsLoggable(ether->logger, MetisLoggerFacility_IO, PARCLogLevel_Error)) {
metisLogger_Log(ether->logger, MetisLoggerFacility_IO, PARCLogLevel_Error, __func__,
"GenericEther failed to created on device %s for ethertype 0x%04x",
deviceName, etherType);
}
// this will also null ether
metisGenericEther_Release(ðer);
}
assertTrue(ether->etherBufferLength < 65536, "Buffer length way too big, expected less than 65536 got %u", ether->etherBufferLength);
} else {
if (metisLogger_IsLoggable(metisForwarder_GetLogger(metis), MetisLoggerFacility_IO, PARCLogLevel_Error)) {
metisLogger_Log(metisForwarder_GetLogger(metis), MetisLoggerFacility_IO, PARCLogLevel_Error, __func__,
"GenericEther failed to created on device %s for ethertype 0x%04x, invalid ethertype",
deviceName, etherType);
}
}
return ether;
}
LONGBOW_TEST_CASE(Global, ccnxCodecSchemaV1ManifestDecoder_DecodeHashGroupMetadata)
{
// Re-build the expected metadata from the manifest
CCNxName *groupLocator = ccnxName_CreateFromCString("ccnx:/locator");
PARCBuffer *digest = parcBuffer_Allocate(16);
for (size_t i = 0; i < parcBuffer_Limit(digest); i++) {
parcBuffer_PutUint8(digest, 0);
}
parcBuffer_Flip(digest);
size_t entrySize = 1;
size_t dataSize = 2;
size_t blockSize = 3;
size_t treeHeight = 4;
// Compute the expected size of this metadata group.
size_t metadataSize = 4 * (4 + 8) + 4 + parcBuffer_Limit(digest) + 4 + strlen("ccnx:/locator");
// See test_ccnxCodecSchemaV1_ManifestEncoder.c for the packet construction details.
uint8_t rawMetadata[89] = { 0x00, CCNxCodecSchemaV1Types_CCNxManifestHashGroup_Metadata,
0x00, metadataSize,
0x00, CCNxCodecSchemaV1Types_CCNxManifestHashGroupMetadata_Locator,
0x00, strlen("ccnx:/locator"),
'c', 'c',
'n', 'x',
':', '/',
'l', 'o',
'c', 'a',
't', 'o',
'r',
0x00, CCNxCodecSchemaV1Types_CCNxManifestHashGroupMetadata_DataSize,
0x00, 0x08,
0x00, 0x00,
0x00, 0x00,
0x00, 0x00,
0x00, dataSize,
0x00, CCNxCodecSchemaV1Types_CCNxManifestHashGroupMetadata_BlockSize,
0x00, 0x08,
0x00, 0x00,
0x00, 0x00,
0x00, 0x00,
0x00, blockSize,
0x00, CCNxCodecSchemaV1Types_CCNxManifestHashGroupMetadata_EntrySize,
0x00, 0x08,
0x00, 0x00,
0x00, 0x00,
0x00, 0x00,
0x00, entrySize,
0x00, CCNxCodecSchemaV1Types_CCNxManifestHashGroupMetadata_TreeHeight,
0x00, 0x08,
0x00, 0x00,
0x00, 0x00,
0x00, 0x00,
0x00, treeHeight,
0x00, CCNxCodecSchemaV1Types_CCNxManifestHashGroupMetadata_OverallDataSha256,
0x00, parcBuffer_Remaining(digest),
0x00, 0x00,
0x00, 0x00,
0x00, 0x00,
0x00, 0x00,
0x00, 0x00,
0x00, 0x00,
0x00, 0x00,
0x00, 0x00 };
PARCBuffer *wireFormat = parcBuffer_Flip(parcBuffer_CreateFromArray(rawMetadata, sizeof(rawMetadata)));
// Create the encoder and swallow the top level container
CCNxCodecTlvDecoder *decoder = ccnxCodecTlvDecoder_Create(wireFormat);
ccnxCodecTlvDecoder_GetType(decoder); // swallow type
uint16_t length = ccnxCodecTlvDecoder_GetLength(decoder);
// Decode the metadata
CCNxManifestHashGroup *group = ccnxManifestHashGroup_Create();
bool result = _decodeHashGroupMetadata(decoder, group, length);
assertTrue(result, "Expected hash group metadata to be decoded correctly.");
const CCNxName *actualLocator = ccnxManifestHashGroup_GetLocator(group);
size_t actualEntrySize = ccnxManifestHashGroup_GetEntrySize(group);
size_t actualDataSize = ccnxManifestHashGroup_GetDataSize(group);
size_t actualBlockSize = ccnxManifestHashGroup_GetBlockSize(group);
size_t actualTreeHeight = ccnxManifestHashGroup_GetTreeHeight(group);
const PARCBuffer *actualDigest = ccnxManifestHashGroup_GetOverallDataDigest(group);
assertTrue(ccnxName_Equals(groupLocator, actualLocator), "Expected decoded locator to equal %s, got %s", ccnxName_ToString(groupLocator), ccnxName_ToString(actualLocator));
assertTrue(entrySize == actualEntrySize, "Expected %zu entry size, got %zu", entrySize, actualEntrySize);
assertTrue(dataSize == actualDataSize, "Expected %zu data size, got %zu", dataSize, actualDataSize);
assertTrue(blockSize == actualBlockSize, "Expected %zu block size, got %zu", blockSize, actualBlockSize);
assertTrue(treeHeight == actualTreeHeight, "Expected %zu tree height, got %zu", treeHeight, actualTreeHeight);
assertTrue(parcBuffer_Equals(digest, actualDigest), "Expected %s digest, got %s", parcBuffer_ToHexString(digest), parcBuffer_ToHexString(actualDigest));
parcBuffer_Release(&digest);
ccnxName_Release(&groupLocator);
ccnxManifestHashGroup_Release(&group);
ccnxCodecTlvDecoder_Destroy(&decoder);
parcBuffer_Release(&wireFormat);
}
LONGBOW_TEST_CASE(Global, ccnxCodecSchemaV1ManifestDecoder_DecodeHashGroup)
{
uint8_t rawManifest[40] = { 0x00, 0x07, 0x00, 0x24,
0x00, 0x02, 0x00, 0x20,
0x46, 0x46, 0x46, 0x46,
0x46, 0x46, 0x46, 0x46,
0x46, 0x46, 0x46, 0x46,
0x46, 0x46, 0x46, 0x46,
0x46, 0x46, 0x46, 0x46,
0x46, 0x46, 0x46, 0x46,
0x46, 0x46, 0x46, 0x46,
0x46, 0x46, 0x46, 0x46 };
PARCBuffer *wireFormat = parcBuffer_Flip(parcBuffer_CreateFromArray(rawManifest, 40));
CCNxCodecTlvDecoder *decoder = ccnxCodecTlvDecoder_Create(wireFormat);
CCNxTlvDictionary *dict = ccnxCodecSchemaV1TlvDictionary_CreateManifest();
ccnxCodecTlvDecoder_GetType(decoder); // swallow type
uint16_t length = ccnxCodecTlvDecoder_GetLength(decoder);
CCNxManifestHashGroup *group = ccnxManifestHashGroup_Create();
bool result = _decodeHashGroup(decoder, dict, group, length);
assertTrue(result, "Expected hash group to be decoded correctly.");
PARCBuffer *expectedPointer = parcBuffer_AllocateCString("FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF");
CCNxManifestHashGroupPointer *pointer = ccnxManifestHashGroup_GetPointerAtIndex(group, 0);
const PARCBuffer *actualPointer = ccnxManifestHashGroupPointer_GetDigest(pointer);
assertTrue(parcBuffer_Equals(expectedPointer, actualPointer), "Expected decoded pointer to equal %s, got %s", parcBuffer_ToHexString(expectedPointer), parcBuffer_ToHexString(actualPointer));
parcBuffer_Release(&expectedPointer);
ccnxManifestHashGroup_Release(&group);
ccnxManifest_Release(&dict);
ccnxCodecTlvDecoder_Destroy(&decoder);
parcBuffer_Release(&wireFormat);
}
