int match_partial_index_name(char *iname)
{
char tmp_name[TBLD_HASH_KEY_SIZE];
memset(tmp_name, 0, TBLD_HASH_KEY_SIZE);
memcpy(tmp_name, iname, strlen(iname));
long val = -1;
if(SHASH_OK != shash_get(IndD, (void*)tmp_name, (void*)&val)) {
cf_debug(AS_SINDEX, "shash get failed on %s", iname);
}
return val != -1 ? val - 1 : -1;
}
int find_table(char *tname)
{
long val = -1;
char tmp_tname[TBLD_HASH_KEY_SIZE];
memset(tmp_tname, 0, TBLD_HASH_KEY_SIZE);
memcpy(tmp_tname, tname, strlen(tname));
if(SHASH_OK != shash_get(TblD, (void *)tmp_tname, (void *)&val)) {
cf_detail(AS_SINDEX, "shash get failed on %s", tname);
}
return val != -1 ? val - 1 : -1;
}
static int _find_index(int tmatch, icol_t *ic, bool prtl)
{
if (ic->cmatch < -1) {
return getImatchFromOCmatch(ic->cmatch);
}
int imatch = -1;
r_tbl_t *rt = &Tbl[tmatch];
if (!C_IS_O(rt->col[ic->cmatch].type)) {
imatch = rt->col[ic->cmatch].imatch;
} else {
ci_t *ci = NULL;
char tmp_cname[CDICT_HASH_KEY_SIZE];
memset(tmp_cname, 0, CDICT_HASH_KEY_SIZE);
memcpy(tmp_cname, rt->col[ic->cmatch].name, strlen(rt->col[ic->cmatch].name));
if(SHASH_OK != shash_get(rt->cdict, tmp_cname, (void **) &ci)) {
cf_debug(AS_SINDEX, "shash get failed on %s", rt->col[ic->cmatch].name);
}
if (!ci || !ci->ilist) {
return -1;
}
cf_ll_iterator * iter = cf_ll_getIterator(ci->ilist, true);
cf_ll_element * ele;
while ((ele = cf_ll_getNext(iter))) {
int im = ((ll_ai_match_element *)ele)->match;
r_ind_t *ri = &Index[im];
if (!icol_cmp(ic, ri->icol)) {
imatch = im;
break;
}
}
cf_ll_releaseIterator(iter);
}
if (imatch == -1) {
return -1;
} else if (!prtl) {
return Index[imatch].done ? imatch : - 1;
} else {
return imatch;
}
}
icol_t *find_column(int tmatch, char *cname)
{
char tmp_cname[CDICT_HASH_KEY_SIZE];
memset(tmp_cname, 0, CDICT_HASH_KEY_SIZE);
memcpy(tmp_cname, cname, strlen(cname));
r_tbl_t *rt = &Tbl[tmatch];
ci_t *ci = NULL;
if(SHASH_OK != shash_get(rt->cdict, (void *)tmp_cname, (void **)&ci)) {
cf_debug(AS_SINDEX, "shash get failed on %s", cname);
}
icol_t *ic = NULL;
if (ci && (ic = (icol_t *) cf_malloc(sizeof(icol_t)))) {
bzero(ic, sizeof(icol_t));
ic->fimatch = -1;
// icmatch should point to cmatch in ci
ic->cmatch = ci->cmatch;
}
return ic;
}
static void*
async_receiver_fn(void *thdata)
{
int rv = -1;
bool network_error = false;
cl_async_work *workitem = NULL;
// cl_async_work *tmpworkitem = NULL;
as_msg msg;
cf_queue *q_to_use = NULL;
cl_cluster_node *thisnode = NULL;
uint8_t rd_stack_buf[STACK_BUF_SZ];
uint8_t *rd_buf = rd_stack_buf;
size_t rd_buf_sz = 0;
uint64_t acktrid;
// uint64_t starttime, endtime;
int progress_timeout_ms;
unsigned int thread_id = cf_atomic32_incr(&g_thread_count);
if (thdata == NULL) {
q_to_use = g_cl_async_q;
} else {
thisnode = (cl_cluster_node *)thdata;
q_to_use = thisnode->asyncwork_q;
}
//Infinite loop which keeps picking work items from the list and try to find the end result
while(1) {
network_error = false;
#if ONEASYNCFD
if(thisnode->dunned == true) {
do {
rv = cf_queue_pop(thisnode->asyncwork_q, &workitem, CF_QUEUE_NOWAIT);
if (rv == CF_QUEUE_OK) {
cl_cluster_node_put(thisnode);
free(workitem);
}
} while (rv == CF_QUEUE_OK);
//We want to delete all the workitems of this node
shash_reduce_delete(g_cl_async_hashtab, cl_del_node_asyncworkitems, thisnode);
break;
}
#endif
//This call will block if there is no element in the queue
cf_queue_pop(q_to_use, &workitem, CF_QUEUE_FOREVER);
//TODO: What if the node gets dunned while this pop call is blocked ?
#if ONEASYNCFD
//cf_debug("Elements remaining in this node's queue=%d, Hash table size=%d",
// cf_queue_sz(thisnode->asyncwork_q), shash_get_size(g_cl_async_hashtab));
#endif
// If we have no progress in 50ms, we should move to the next workitem
// and revisit this workitem at a later stage
progress_timeout_ms = DEFAULT_PROGRESS_TIMEOUT;
// Read into this fine cl_msg, which is the short header
rv = cf_socket_read_timeout(workitem->fd, (uint8_t *) &msg, sizeof(as_msg), workitem->deadline, progress_timeout_ms);
if (rv) {
#if DEBUG
cf_debug("Citrusleaf: error when reading header from server - rv %d fd %d", rv, workitem->fd);
#endif
if (rv != ETIMEDOUT) {
cf_error("Citrusleaf: error when reading header from server - rv %d fd %d",rv,workitem->fd);
network_error = true;
goto Error;
} else {
goto Retry;
}
}
#ifdef DEBUG_VERBOSE
dump_buf("read header from cluster", (uint8_t *) &msg, sizeof(cl_msg));
#endif
cl_proto_swap(&msg.proto);
cl_msg_swap_header(&msg.m);
// second read for the remainder of the message
rd_buf_sz = msg.proto.sz - msg.m.header_sz;
if (rd_buf_sz > 0) {
if (rd_buf_sz > sizeof(rd_stack_buf)) {
rd_buf = malloc(rd_buf_sz);
if (!rd_buf) {
cf_error("malloc fail: trying %zu",rd_buf_sz);
rv = -1;
goto Error;
}
}
rv = cf_socket_read_timeout(workitem->fd, rd_buf, rd_buf_sz, workitem->deadline, progress_timeout_ms);
if (rv) {
//We already read some part of the message before but failed to read the
//remaining data for whatever reason (network error or timeout). We cannot
//reread as we already read partial data. Declare this as error.
cf_error("Timeout after reading the header but before reading the body");
goto Error;
}
#ifdef DEBUG_VERBOSE
dump_buf("read body from cluster", rd_buf, rd_buf_sz);
#endif
}
rv = CITRUSLEAF_OK;
goto Ok;
Retry:
//We are trying to postpone the reading
if (workitem->deadline && workitem->deadline < cf_getms()) {
cf_error("async receiver: out of time : deadline %"PRIu64" now %"PRIu64,
workitem->deadline, cf_getms());
//cf_error("async receiver: Workitem missed the final deadline");
rv = CITRUSLEAF_FAIL_TIMEOUT;
goto Error;
} else {
//We have time. Push the element back to the queue to be considered later
cf_queue_push(q_to_use, &workitem);
}
//If we allocated memory in this loop, release it.
if (rd_buf && (rd_buf != rd_stack_buf)) {
free(rd_buf);
}
cf_atomic_int_incr(&g_async_stats.retries);
continue;
Error:
if (network_error == true) {
/*
* In case of Async work (for XDS), it may be extreme to
* dun a node in case of network error. We just cleanup
* things and retry to connect to the remote cluster.
* The network error may be a transient one.
*/
}
#if ONEASYNCFD
//Do not close FD
#else
//We do not know the state of FD. It may have pending data to be read.
//We cannot reuse the FD. So, close it to be on safe side.
cf_error("async receiver: Closing the fd %d because of error", workitem->fd);
cf_close(workitem->fd);
workitem->fd = -1;
#endif
cf_atomic_int_incr(&g_async_stats.dropouts);
//Continue down with what we do during an Ok
//Inform the caller that there is no response from the server for this workitem.
//No response does not mean that the work is not done. The work might be
//successfully completed on the server side, we just didnt get response for it.
if (g_fail_cb_fn) {
g_fail_cb_fn(workitem->udata, rv, workitem->starttime);
}
Ok:
//rd_buf may not be there during an error condition.
if (rd_buf && (rv == CITRUSLEAF_OK)) {
//As of now, async functionality is there only for put call.
//In put call, we do not get anything back other than the trid field.
//So, just pass variable to get back the trid and ignore others.
if (0 != cl_parse(&msg.m, rd_buf, rd_buf_sz, NULL, NULL, NULL, &acktrid, NULL)) {
rv = CITRUSLEAF_FAIL_UNKNOWN;
}
else {
rv = msg.m.result_code;
if (workitem->trid != acktrid) {
#if ONEASYNCFD
//It is likely that we may get response for a different trid.
//Just delete the correct one from the queue
//put back the current workitem back in the queue.
shash_get(g_cl_async_hashtab, &acktrid, &tmpworkitem);
cf_queue_delete(q_to_use, &tmpworkitem, true);
cf_queue_push(q_to_use, &workitem);
//From now on workitem will be the one for which we got ack
workitem = tmpworkitem;
#endif
#ifdef DEBUG
cf_debug("Got reply for a different trid. Expected=%"PRIu64" Got=%"PRIu64" FD=%d",
workitem->trid, acktrid, workitem->fd);
#endif
}
}
if (g_success_cb_fn) {
g_success_cb_fn(workitem->udata, rv, workitem->starttime);
}
}
//Remember to put back the FD into the pool, if it is re-usable.
if (workitem->fd != -1) {
cl_cluster_node_fd_put(workitem->node, workitem->fd, true);
}
//Also decrement the reference count for this node
cl_cluster_node_put(workitem->node);
#if ONEASYNCFD
//Delete the item from the global hashtable
if (shash_delete(g_cl_async_hashtab, &workitem->trid) != SHASH_OK)
{
#if DEBUG
cf_debug("Failure while trying to delete trid=%"PRIu64" from hashtable", workitem->trid);
#endif
}
#endif
//Push it back into the free pool. If the attempt fails, free it.
if (cf_queue_push(g_cl_workitems_freepool_q, &workitem) == -1) {
free(workitem);
}
//If we allocated memory in this loop, release it.
if (rd_buf && (rd_buf != rd_stack_buf)) {
free(rd_buf);
}
// Kick this thread out if its ID is greater than total
if (thread_id > cf_atomic32_get(g_async_num_threads)) {
cf_atomic32_decr(&g_thread_count);
return NULL;
}
}//The infnite loop
return NULL;
}
