Sample Null Transform Plugin¶
This section provides a step-by-step description of what the null transform plugin does, along with sections of code that apply. For context, you can find each code snippet in the complete source code. Some of the error checking details are left out - to give the description a step-by-step flow, only the highlights of the transform are included.
Below is an overview of the null transform plugin:
Gets a handle to HTTP transactions.
void TSPluginInit (int argc, const char *argv[]) { TSHttpHookAdd (TS_HTTP_READ_RESPONSE_HDR_HOOK, TSContCreate (transform_plugin, NULL));
With this
TSPluginInit
routine, the plugin is called back every time Traffic Server reads a response header.Checks to see if the transaction response is transformable.
static int transform_plugin (TSCont contp, TSEvent event, void *edata) { TSHttpTxn txnp = (TSHttpTxn) edata; switch (event) { case TS_EVENT_HTTP_READ_RESPONSE_HDR: if (transformable (txnp)) { transform_add (txnp); }
The default behavior for transformations is to cache the transformed content (you can also tell Traffic Server to cache untransformed content, if you want). Therefore, only responses received directly from an origin server need to be transformed. Objects served from cache are already transformed. To determine whether the response is from the origin server, the routine
transformable
checks the response header for the “200 OK” server response.static int transformable (TSHttpTxn txnp) { TSMBuffer bufp; TSMLoc hdr_loc; TSHttpStatus resp_status; TSHttpTxnServerRespGet (txnp, &bufp, &hdr_loc); if (TS_HTTP_STATUS_OK == (resp_status = TSHttpHdrStatusGet (bufp, hdr_loc)) ) { return 1; } else { return 0; } }
If the response is transformable, then the plugin creates a transformation vconnection that gets called back when the response data is ready to be transformed (as it is streaming from the origin server).
static void transform_add (TSHttpTxn txnp) { TSVConn connp; connp = TSTransformCreate (null_transform, txnp); TSHttpTxnHookAdd (txnp, TS_HTTP_RESPONSE_TRANSFORM_HOOK, connp); }
The previous code fragment shows that the handler function for the transformation vconnection is
null_transform
.Get a handle to the output vconnection (that receives data from the tranformation).
output_conn = TSTransformOutputVConnGet (contp);
Get a handle to the input VIO. (See the
handle_transform
function.)input_vio = TSVConnWriteVIOGet (contp);
This is so that the transformation can get information about the upstream vconnection’s write operation to the input buffer.
Initiate a write to the output vconnection of the specified number of bytes. When the write is initiated, the transformation expects to receive
WRITE_READY
,WRITE_COMPLETE
, orERROR
events from the output vconnection. See thehandle_transform
function for the following code fragment:data->output_vio = TSVConnWrite (output_conn, contp, data->output_reader, TSVIONBytesGet (input_vio));
Copy data from the input buffer to the output buffer. See the
handle_transform
function for the following code fragment:TSIOBufferCopy (TSVIOBufferGet (data->output_vio), TSVIOReaderGet (input_vio), towrite, 0);
Tell the input buffer that the transformation has read the data. See the
handle_transform
function for the following code fragment:TSIOBufferReaderConsume (TSVIOReaderGet (input_vio), towrite);
Modify the input VIO to tell it how much data has been read (increase the value of
ndone
). See thehandle_transform
function for the following code fragment:TSVIONDoneSet (input_vio, TSVIONDoneGet (input_vio) + towrite);
If there is more data left to read ( if ndone < nbytes), then the
handle_transform
function wakes up the downstream vconnection with a reenable and wakes up the upstream vconnection by sending itWRITE_READY
:if (TSVIONTodoGet (input_vio) > 0) { if (towrite > 0) { TSVIOReenable (data->output_vio); TSContCall (TSVIOContGet (input_vio), TS_EVENT_VCONN_WRITE_READY, input_vio); } } else {
The process of passing data through the transformation is illustrated in the following diagram. The downstream vconnections send
WRITE_READY
events when they need more data; when data is available, the upstream vconnections reenable the downstream vconnections. In this instance, theTSVIOReenable
function sendsTS_EVENT_IMMEDIATE
.Passing Data Through a Transformation {#PassingDataThroughaTransformation}
If the
handle_transform
function finds there is no more data to read, then it setsnbytes
tondone
on the output (downstream) VIO and wakes up the output vconnection with a reenable. It then triggers the end of the write operation from the upstream vconnection by sending the upstream vconnection aWRITE_COMPLETE
event.TSVIONBytesSet (data->output_vio, TSVIONDoneGet (input_vio)); TSVIOReenable (data->output_vio); TSContCall (TSVIOContGet (input_vio), TS_EVENT_VCONN_WRITE_COMPLETE, input_vio); }
When the upstream vconnection receives the
WRITE_COMPLETE
event, it will probably shut down the write operation.Similarly, when the downstream vconnection has consumed all of the data, it sends the transformation a
WRITE_COMPLETE
event. The transformation handles this event with a shut down (the transformation shuts down the write operation to the downstream vconnection). See thenull_plugin
function for the following code fragment:case TS_EVENT_VCONN_WRITE_COMPLETE: TSVConnShutdown (TSTransformOutputVConnGet (contp), 0, 1 break;
The following diagram illustrates the flow of events:
Ending the Transformation {#EndingTransformation}