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|
/* tracking.c - Client side caching: keys tracking and invalidation
*
* Copyright (c) 2019, Salvatore Sanfilippo <antirez at gmail dot com>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* * Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* * Neither the name of Redis nor the names of its contributors may be used
* to endorse or promote products derived from this software without
* specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#include "server.h"
/* The tracking table is constituted by a radix tree of keys, each pointing
* to a radix tree of client IDs, used to track the clients that may have
* certain keys in their local, client side, cache.
*
* When a client enables tracking with "CLIENT TRACKING on", each key served to
* the client is remembered in the table mapping the keys to the client IDs.
* Later, when a key is modified, all the clients that may have local copy
* of such key will receive an invalidation message.
*
* Clients will normally take frequently requested objects in memory, removing
* them when invalidation messages are received. */
rax *TrackingTable = NULL;
rax *PrefixTable = NULL;
uint64_t TrackingTableTotalItems = 0; /* Total number of IDs stored across
the whole tracking table. This gives
an hint about the total memory we
are using server side for CSC. */
robj *TrackingChannelName;
/* This is the structure that we have as value of the PrefixTable, and
* represents the list of keys modified, and the list of clients that need
* to be notified, for a given prefix. */
typedef struct bcastState {
rax *keys; /* Keys modified in the current event loop cycle. */
rax *clients; /* Clients subscribed to the notification events for this
prefix. */
} bcastState;
/* Remove the tracking state from the client 'c'. Note that there is not much
* to do for us here, if not to decrement the counter of the clients in
* tracking mode, because we just store the ID of the client in the tracking
* table, so we'll remove the ID reference in a lazy way. Otherwise when a
* client with many entries in the table is removed, it would cost a lot of
* time to do the cleanup. */
void disableTracking(client *c) {
/* If this client is in broadcasting mode, we need to unsubscribe it
* from all the prefixes it is registered to. */
if (c->flags & CLIENT_TRACKING_BCAST) {
raxIterator ri;
raxStart(&ri,c->client_tracking_prefixes);
raxSeek(&ri,"^",NULL,0);
while(raxNext(&ri)) {
bcastState *bs = raxFind(PrefixTable,ri.key,ri.key_len);
serverAssert(bs != raxNotFound);
raxRemove(bs->clients,(unsigned char*)&c,sizeof(c),NULL);
/* Was it the last client? Remove the prefix from the
* table. */
if (raxSize(bs->clients) == 0) {
raxFree(bs->clients);
raxFree(bs->keys);
zfree(bs);
raxRemove(PrefixTable,ri.key,ri.key_len,NULL);
}
}
raxStop(&ri);
raxFree(c->client_tracking_prefixes);
c->client_tracking_prefixes = NULL;
}
/* Clear flags and adjust the count. */
if (c->flags & CLIENT_TRACKING) {
server.tracking_clients--;
c->flags &= ~(CLIENT_TRACKING|CLIENT_TRACKING_BROKEN_REDIR|
CLIENT_TRACKING_BCAST|CLIENT_TRACKING_OPTIN|
CLIENT_TRACKING_OPTOUT|CLIENT_TRACKING_CACHING|
CLIENT_TRACKING_NOLOOP);
}
}
static int stringCheckPrefix(unsigned char *s1, size_t s1_len, unsigned char *s2, size_t s2_len) {
size_t min_length = s1_len < s2_len ? s1_len : s2_len;
return memcmp(s1,s2,min_length) == 0;
}
/* Check if any of the provided prefixes collide with one another or
* with an existing prefix for the client. A collision is defined as two
* prefixes that will emit an invalidation for the same key. If no prefix
* collision is found, 1 is return, otherwise 0 is returned and the client
* has an error emitted describing the error. */
int checkPrefixCollisionsOrReply(client *c, robj **prefixes, size_t numprefix) {
for (size_t i = 0; i < numprefix; i++) {
/* Check input list has no overlap with existing prefixes. */
if (c->client_tracking_prefixes) {
raxIterator ri;
raxStart(&ri,c->client_tracking_prefixes);
raxSeek(&ri,"^",NULL,0);
while(raxNext(&ri)) {
if (stringCheckPrefix(ri.key,ri.key_len,
prefixes[i]->ptr,sdslen(prefixes[i]->ptr)))
{
sds collision = sdsnewlen(ri.key,ri.key_len);
addReplyErrorFormat(c,
"Prefix '%s' overlaps with an existing prefix '%s'. "
"Prefixes for a single client must not overlap.",
(unsigned char *)prefixes[i]->ptr,
(unsigned char *)collision);
sdsfree(collision);
raxStop(&ri);
return 0;
}
}
raxStop(&ri);
}
/* Check input has no overlap with itself. */
for (size_t j = i + 1; j < numprefix; j++) {
if (stringCheckPrefix(prefixes[i]->ptr,sdslen(prefixes[i]->ptr),
prefixes[j]->ptr,sdslen(prefixes[j]->ptr)))
{
addReplyErrorFormat(c,
"Prefix '%s' overlaps with another provided prefix '%s'. "
"Prefixes for a single client must not overlap.",
(unsigned char *)prefixes[i]->ptr,
(unsigned char *)prefixes[j]->ptr);
return i;
}
}
}
return 1;
}
/* Set the client 'c' to track the prefix 'prefix'. If the client 'c' is
* already registered for the specified prefix, no operation is performed. */
void enableBcastTrackingForPrefix(client *c, char *prefix, size_t plen) {
bcastState *bs = raxFind(PrefixTable,(unsigned char*)prefix,plen);
/* If this is the first client subscribing to such prefix, create
* the prefix in the table. */
if (bs == raxNotFound) {
bs = zmalloc(sizeof(*bs));
bs->keys = raxNew();
bs->clients = raxNew();
raxInsert(PrefixTable,(unsigned char*)prefix,plen,bs,NULL);
}
if (raxTryInsert(bs->clients,(unsigned char*)&c,sizeof(c),NULL,NULL)) {
if (c->client_tracking_prefixes == NULL)
c->client_tracking_prefixes = raxNew();
raxInsert(c->client_tracking_prefixes,
(unsigned char*)prefix,plen,NULL,NULL);
}
}
/* Enable the tracking state for the client 'c', and as a side effect allocates
* the tracking table if needed. If the 'redirect_to' argument is non zero, the
* invalidation messages for this client will be sent to the client ID
* specified by the 'redirect_to' argument. Note that if such client will
* eventually get freed, we'll send a message to the original client to
* inform it of the condition. Multiple clients can redirect the invalidation
* messages to the same client ID. */
void enableTracking(client *c, uint64_t redirect_to, uint64_t options, robj **prefix, size_t numprefix) {
if (!(c->flags & CLIENT_TRACKING)) server.tracking_clients++;
c->flags |= CLIENT_TRACKING;
c->flags &= ~(CLIENT_TRACKING_BROKEN_REDIR|CLIENT_TRACKING_BCAST|
CLIENT_TRACKING_OPTIN|CLIENT_TRACKING_OPTOUT|
CLIENT_TRACKING_NOLOOP);
c->client_tracking_redirection = redirect_to;
/* This may be the first client we ever enable. Create the tracking
* table if it does not exist. */
if (TrackingTable == NULL) {
TrackingTable = raxNew();
PrefixTable = raxNew();
TrackingChannelName = createStringObject("__redis__:invalidate",20);
}
/* For broadcasting, set the list of prefixes in the client. */
if (options & CLIENT_TRACKING_BCAST) {
c->flags |= CLIENT_TRACKING_BCAST;
if (numprefix == 0) enableBcastTrackingForPrefix(c,"",0);
for (size_t j = 0; j < numprefix; j++) {
sds sdsprefix = prefix[j]->ptr;
enableBcastTrackingForPrefix(c,sdsprefix,sdslen(sdsprefix));
}
}
/* Set the remaining flags that don't need any special handling. */
c->flags |= options & (CLIENT_TRACKING_OPTIN|CLIENT_TRACKING_OPTOUT|
CLIENT_TRACKING_NOLOOP);
}
/* This function is called after the execution of a readonly command in the
* case the client 'c' has keys tracking enabled and the tracking is not
* in BCAST mode. It will populate the tracking invalidation table according
* to the keys the user fetched, so that Redis will know what are the clients
* that should receive an invalidation message with certain groups of keys
* are modified. */
void trackingRememberKeys(client *tracking, client *executing) {
/* Return if we are in optin/out mode and the right CACHING command
* was/wasn't given in order to modify the default behavior. */
uint64_t optin = tracking->flags & CLIENT_TRACKING_OPTIN;
uint64_t optout = tracking->flags & CLIENT_TRACKING_OPTOUT;
uint64_t caching_given = tracking->flags & CLIENT_TRACKING_CACHING;
if ((optin && !caching_given) || (optout && caching_given)) return;
getKeysResult result = GETKEYS_RESULT_INIT;
int numkeys = getKeysFromCommand(executing->cmd,executing->argv,executing->argc,&result);
if (!numkeys) {
getKeysFreeResult(&result);
return;
}
/* Shard channels are treated as special keys for client
* library to rely on `COMMAND` command to discover the node
* to connect to. These channels doesn't need to be tracked. */
if (executing->cmd->flags & CMD_PUBSUB) {
return;
}
keyReference *keys = result.keys;
for(int j = 0; j < numkeys; j++) {
int idx = keys[j].pos;
sds sdskey = executing->argv[idx]->ptr;
rax *ids = raxFind(TrackingTable,(unsigned char*)sdskey,sdslen(sdskey));
if (ids == raxNotFound) {
ids = raxNew();
int inserted = raxTryInsert(TrackingTable,(unsigned char*)sdskey,
sdslen(sdskey),ids, NULL);
serverAssert(inserted == 1);
}
if (raxTryInsert(ids,(unsigned char*)&tracking->id,sizeof(tracking->id),NULL,NULL))
TrackingTableTotalItems++;
}
getKeysFreeResult(&result);
}
/* Given a key name, this function sends an invalidation message in the
* proper channel (depending on RESP version: PubSub or Push message) and
* to the proper client (in case of redirection), in the context of the
* client 'c' with tracking enabled.
*
* In case the 'proto' argument is non zero, the function will assume that
* 'keyname' points to a buffer of 'keylen' bytes already expressed in the
* form of Redis RESP protocol. This is used for:
* - In BCAST mode, to send an array of invalidated keys to all
* applicable clients
* - Following a flush command, to send a single RESP NULL to indicate
* that all keys are now invalid. */
void sendTrackingMessage(client *c, char *keyname, size_t keylen, int proto) {
uint64_t old_flags = c->flags;
c->flags |= CLIENT_PUSHING;
int using_redirection = 0;
if (c->client_tracking_redirection) {
client *redir = lookupClientByID(c->client_tracking_redirection);
if (!redir) {
c->flags |= CLIENT_TRACKING_BROKEN_REDIR;
/* We need to signal to the original connection that we
* are unable to send invalidation messages to the redirected
* connection, because the client no longer exist. */
if (c->resp > 2) {
addReplyPushLen(c,2);
addReplyBulkCBuffer(c,"tracking-redir-broken",21);
addReplyLongLong(c,c->client_tracking_redirection);
}
if (!(old_flags & CLIENT_PUSHING)) c->flags &= ~CLIENT_PUSHING;
return;
}
if (!(old_flags & CLIENT_PUSHING)) c->flags &= ~CLIENT_PUSHING;
c = redir;
using_redirection = 1;
old_flags = c->flags;
c->flags |= CLIENT_PUSHING;
}
/* Only send such info for clients in RESP version 3 or more. However
* if redirection is active, and the connection we redirect to is
* in Pub/Sub mode, we can support the feature with RESP 2 as well,
* by sending Pub/Sub messages in the __redis__:invalidate channel. */
if (c->resp > 2) {
addReplyPushLen(c,2);
addReplyBulkCBuffer(c,"invalidate",10);
} else if (using_redirection && c->flags & CLIENT_PUBSUB) {
/* We use a static object to speedup things, however we assume
* that addReplyPubsubMessage() will not take a reference. */
addReplyPubsubMessage(c,TrackingChannelName,NULL,shared.messagebulk);
} else {
/* If are here, the client is not using RESP3, nor is
* redirecting to another client. We can't send anything to
* it since RESP2 does not support push messages in the same
* connection. */
if (!(old_flags & CLIENT_PUSHING)) c->flags &= ~CLIENT_PUSHING;
return;
}
/* Send the "value" part, which is the array of keys. */
if (proto) {
addReplyProto(c,keyname,keylen);
} else {
addReplyArrayLen(c,1);
addReplyBulkCBuffer(c,keyname,keylen);
}
updateClientMemUsageAndBucket(c);
if (!(old_flags & CLIENT_PUSHING)) c->flags &= ~CLIENT_PUSHING;
}
/* This function is called when a key is modified in Redis and in the case
* we have at least one client with the BCAST mode enabled.
* Its goal is to set the key in the right broadcast state if the key
* matches one or more prefixes in the prefix table. Later when we
* return to the event loop, we'll send invalidation messages to the
* clients subscribed to each prefix. */
void trackingRememberKeyToBroadcast(client *c, char *keyname, size_t keylen) {
raxIterator ri;
raxStart(&ri,PrefixTable);
raxSeek(&ri,"^",NULL,0);
while(raxNext(&ri)) {
if (ri.key_len > keylen) continue;
if (ri.key_len != 0 && memcmp(ri.key,keyname,ri.key_len) != 0)
continue;
bcastState *bs = ri.data;
/* We insert the client pointer as associated value in the radix
* tree. This way we know who was the client that did the last
* change to the key, and can avoid sending the notification in the
* case the client is in NOLOOP mode. */
raxInsert(bs->keys,(unsigned char*)keyname,keylen,c,NULL);
}
raxStop(&ri);
}
/* This function is called from signalModifiedKey() or other places in Redis
* when a key changes value. In the context of keys tracking, our task here is
* to send a notification to every client that may have keys about such caching
* slot.
*
* Note that 'c' may be NULL in case the operation was performed outside the
* context of a client modifying the database (for instance when we delete a
* key because of expire).
*
* The last argument 'bcast' tells the function if it should also schedule
* the key for broadcasting to clients in BCAST mode. This is the case when
* the function is called from the Redis core once a key is modified, however
* we also call the function in order to evict keys in the key table in case
* of memory pressure: in that case the key didn't really change, so we want
* just to notify the clients that are in the table for this key, that would
* otherwise miss the fact we are no longer tracking the key for them. */
void trackingInvalidateKey(client *c, robj *keyobj, int bcast) {
if (TrackingTable == NULL) return;
unsigned char *key = (unsigned char*)keyobj->ptr;
size_t keylen = sdslen(keyobj->ptr);
if (bcast && raxSize(PrefixTable) > 0)
trackingRememberKeyToBroadcast(c,(char *)key,keylen);
rax *ids = raxFind(TrackingTable,key,keylen);
if (ids == raxNotFound) return;
raxIterator ri;
raxStart(&ri,ids);
raxSeek(&ri,"^",NULL,0);
while(raxNext(&ri)) {
uint64_t id;
memcpy(&id,ri.key,sizeof(id));
client *target = lookupClientByID(id);
/* Note that if the client is in BCAST mode, we don't want to
* send invalidation messages that were pending in the case
* previously the client was not in BCAST mode. This can happen if
* TRACKING is enabled normally, and then the client switches to
* BCAST mode. */
if (target == NULL ||
!(target->flags & CLIENT_TRACKING)||
target->flags & CLIENT_TRACKING_BCAST)
{
continue;
}
/* If the client enabled the NOLOOP mode, don't send notifications
* about keys changed by the client itself. */
if (target->flags & CLIENT_TRACKING_NOLOOP &&
target == server.current_client)
{
continue;
}
/* If target is current client and it's executing a command, we need schedule key invalidation.
* As the invalidation messages may be interleaved with command
* response and should after command response. */
if (target == server.current_client && (server.current_client->flags & CLIENT_EXECUTING_COMMAND)) {
incrRefCount(keyobj);
listAddNodeTail(server.tracking_pending_keys, keyobj);
} else {
sendTrackingMessage(target,(char *)keyobj->ptr,sdslen(keyobj->ptr),0);
}
}
raxStop(&ri);
/* Free the tracking table: we'll create the radix tree and populate it
* again if more keys will be modified in this caching slot. */
TrackingTableTotalItems -= raxSize(ids);
raxFree(ids);
raxRemove(TrackingTable,(unsigned char*)key,keylen,NULL);
}
void trackingHandlePendingKeyInvalidations(void) {
if (!listLength(server.tracking_pending_keys)) return;
/* Flush pending invalidation messages only when we are not in nested call.
* So the messages are not interleaved with transaction response. */
if (server.execution_nesting) return;
listNode *ln;
listIter li;
listRewind(server.tracking_pending_keys,&li);
while ((ln = listNext(&li)) != NULL) {
robj *key = listNodeValue(ln);
/* current_client maybe freed, so we need to send invalidation
* message only when current_client is still alive */
if (server.current_client != NULL) {
if (key != NULL) {
sendTrackingMessage(server.current_client,(char *)key->ptr,sdslen(key->ptr),0);
} else {
sendTrackingMessage(server.current_client,shared.null[server.current_client->resp]->ptr,
sdslen(shared.null[server.current_client->resp]->ptr),1);
}
}
if (key != NULL) decrRefCount(key);
}
listEmpty(server.tracking_pending_keys);
}
/* This function is called when one or all the Redis databases are
* flushed. Caching keys are not specific for each DB but are global:
* currently what we do is send a special notification to clients with
* tracking enabled, sending a RESP NULL, which means, "all the keys",
* in order to avoid flooding clients with many invalidation messages
* for all the keys they may hold.
*/
void freeTrackingRadixTreeCallback(void *rt) {
raxFree(rt);
}
void freeTrackingRadixTree(rax *rt) {
raxFreeWithCallback(rt,freeTrackingRadixTreeCallback);
}
/* A RESP NULL is sent to indicate that all keys are invalid */
void trackingInvalidateKeysOnFlush(int async) {
if (server.tracking_clients) {
listNode *ln;
listIter li;
listRewind(server.clients,&li);
while ((ln = listNext(&li)) != NULL) {
client *c = listNodeValue(ln);
if (c->flags & CLIENT_TRACKING) {
if (c == server.current_client) {
/* We use a special NULL to indicate that we should send null */
listAddNodeTail(server.tracking_pending_keys,NULL);
} else {
sendTrackingMessage(c,shared.null[c->resp]->ptr,sdslen(shared.null[c->resp]->ptr),1);
}
}
}
}
/* In case of FLUSHALL, reclaim all the memory used by tracking. */
if (TrackingTable) {
if (async) {
freeTrackingRadixTreeAsync(TrackingTable);
} else {
freeTrackingRadixTree(TrackingTable);
}
TrackingTable = raxNew();
TrackingTableTotalItems = 0;
}
}
/* Tracking forces Redis to remember information about which client may have
* certain keys. In workloads where there are a lot of reads, but keys are
* hardly modified, the amount of information we have to remember server side
* could be a lot, with the number of keys being totally not bound.
*
* So Redis allows the user to configure a maximum number of keys for the
* invalidation table. This function makes sure that we don't go over the
* specified fill rate: if we are over, we can just evict information about
* a random key, and send invalidation messages to clients like if the key was
* modified. */
void trackingLimitUsedSlots(void) {
static unsigned int timeout_counter = 0;
if (TrackingTable == NULL) return;
if (server.tracking_table_max_keys == 0) return; /* No limits set. */
size_t max_keys = server.tracking_table_max_keys;
if (raxSize(TrackingTable) <= max_keys) {
timeout_counter = 0;
return; /* Limit not reached. */
}
/* We have to invalidate a few keys to reach the limit again. The effort
* we do here is proportional to the number of times we entered this
* function and found that we are still over the limit. */
int effort = 100 * (timeout_counter+1);
/* We just remove one key after another by using a random walk. */
raxIterator ri;
raxStart(&ri,TrackingTable);
while(effort > 0) {
effort--;
raxSeek(&ri,"^",NULL,0);
raxRandomWalk(&ri,0);
if (raxEOF(&ri)) break;
robj *keyobj = createStringObject((char*)ri.key,ri.key_len);
trackingInvalidateKey(NULL,keyobj,0);
decrRefCount(keyobj);
if (raxSize(TrackingTable) <= max_keys) {
timeout_counter = 0;
raxStop(&ri);
return; /* Return ASAP: we are again under the limit. */
}
}
/* If we reach this point, we were not able to go under the configured
* limit using the maximum effort we had for this run. */
raxStop(&ri);
timeout_counter++;
}
/* Generate Redis protocol for an array containing all the key names
* in the 'keys' radix tree. If the client is not NULL, the list will not
* include keys that were modified the last time by this client, in order
* to implement the NOLOOP option.
*
* If the resulting array would be empty, NULL is returned instead. */
sds trackingBuildBroadcastReply(client *c, rax *keys) {
raxIterator ri;
uint64_t count;
if (c == NULL) {
count = raxSize(keys);
} else {
count = 0;
raxStart(&ri,keys);
raxSeek(&ri,"^",NULL,0);
while(raxNext(&ri)) {
if (ri.data != c) count++;
}
raxStop(&ri);
if (count == 0) return NULL;
}
/* Create the array reply with the list of keys once, then send
* it to all the clients subscribed to this prefix. */
char buf[32];
size_t len = ll2string(buf,sizeof(buf),count);
sds proto = sdsempty();
proto = sdsMakeRoomFor(proto,count*15);
proto = sdscatlen(proto,"*",1);
proto = sdscatlen(proto,buf,len);
proto = sdscatlen(proto,"\r\n",2);
raxStart(&ri,keys);
raxSeek(&ri,"^",NULL,0);
while(raxNext(&ri)) {
if (c && ri.data == c) continue;
len = ll2string(buf,sizeof(buf),ri.key_len);
proto = sdscatlen(proto,"$",1);
proto = sdscatlen(proto,buf,len);
proto = sdscatlen(proto,"\r\n",2);
proto = sdscatlen(proto,ri.key,ri.key_len);
proto = sdscatlen(proto,"\r\n",2);
}
raxStop(&ri);
return proto;
}
/* This function will run the prefixes of clients in BCAST mode and
* keys that were modified about each prefix, and will send the
* notifications to each client in each prefix. */
void trackingBroadcastInvalidationMessages(void) {
raxIterator ri, ri2;
/* Return ASAP if there is nothing to do here. */
if (TrackingTable == NULL || !server.tracking_clients) return;
raxStart(&ri,PrefixTable);
raxSeek(&ri,"^",NULL,0);
/* For each prefix... */
while(raxNext(&ri)) {
bcastState *bs = ri.data;
if (raxSize(bs->keys)) {
/* Generate the common protocol for all the clients that are
* not using the NOLOOP option. */
sds proto = trackingBuildBroadcastReply(NULL,bs->keys);
/* Send this array of keys to every client in the list. */
raxStart(&ri2,bs->clients);
raxSeek(&ri2,"^",NULL,0);
while(raxNext(&ri2)) {
client *c;
memcpy(&c,ri2.key,sizeof(c));
if (c->flags & CLIENT_TRACKING_NOLOOP) {
/* This client may have certain keys excluded. */
sds adhoc = trackingBuildBroadcastReply(c,bs->keys);
if (adhoc) {
sendTrackingMessage(c,adhoc,sdslen(adhoc),1);
sdsfree(adhoc);
}
} else {
sendTrackingMessage(c,proto,sdslen(proto),1);
}
}
raxStop(&ri2);
/* Clean up: we can remove everything from this state, because we
* want to only track the new keys that will be accumulated starting
* from now. */
sdsfree(proto);
}
raxFree(bs->keys);
bs->keys = raxNew();
}
raxStop(&ri);
}
/* This is just used in order to access the amount of used slots in the
* tracking table. */
uint64_t trackingGetTotalItems(void) {
return TrackingTableTotalItems;
}
uint64_t trackingGetTotalKeys(void) {
if (TrackingTable == NULL) return 0;
return raxSize(TrackingTable);
}
uint64_t trackingGetTotalPrefixes(void) {
if (PrefixTable == NULL) return 0;
return raxSize(PrefixTable);
}
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