/* Redis implementation of the global state store */
#include <assert.h>
#include <stdbool.h>
#include <stdlib.h>
#include "hiredis/adapters/ae.h"
#include "utstring.h"
#include "common.h"
#include "db.h"
#include "db_client_table.h"
#include "object_table.h"
#include "task.h"
#include "task_table.h"
#include "event_loop.h"
#include "redis.h"
#include "io.h"
#define LOG_REDIS_ERROR(context, M, ...) \
LOG_ERROR("Redis error %d %s; %s", context->err, context->errstr, M)
#define LOG_REDIS_DEBUG(context, M, ...) \
LOG_DEBUG("Redis error %d %s; %s", context->err, context->errstr, M)
#define CHECK_REDIS_CONNECT(CONTEXT_TYPE, context, M, ...) \
do { \
CONTEXT_TYPE *_context = (context); \
if (!_context) { \
LOG_FATAL("could not allocate redis context"); \
} \
if (_context->err) { \
LOG_REDIS_ERROR(_context, M, ##__VA_ARGS__); \
exit(-1); \
} \
} while (0);
#define REDIS_CALLBACK_HEADER(DB, CB_DATA, REPLY) \
if ((REPLY) == NULL) { \
return; \
} \
db_handle *DB = c->data; \
table_callback_data *CB_DATA = \
outstanding_callbacks_find((int64_t) privdata); \
if (CB_DATA == NULL) \
/* the callback data structure has been \
* already freed; just ignore this reply */ \
return;
db_handle *db_connect(const char *address,
int port,
const char *client_type,
const char *client_addr,
int client_port) {
db_handle *db = malloc(sizeof(db_handle));
/* Sync connection for initial handshake */
redisReply *reply;
redisContext *context = redisConnect(address, port);
CHECK_REDIS_CONNECT(redisContext, context, "could not connect to redis %s:%d",
address, port);
/* Add new client using optimistic locking. */
db_client_id client = globally_unique_id();
while (1) {
reply = redisCommand(context, "WATCH %s", client_type);
freeReplyObject(reply);
reply = redisCommand(context, "HLEN %s", client_type);
freeReplyObject(reply);
reply = redisCommand(context, "MULTI");
freeReplyObject(reply);
reply = redisCommand(
context,
"HMSET db_clients:%b client_type %s address %s:%d db_client_id %b",
(char *) client.id, sizeof(db_client_id), client_type, client_addr,
client_port, (char *) client.id, sizeof(db_client_id));
freeReplyObject(reply);
reply = redisCommand(context, "PUBLISH db_clients %b:%s",
(char *) client.id, sizeof(db_client_id), client_type);
freeReplyObject(reply);
reply = redisCommand(context, "EXEC");
CHECK(reply);
if (reply->type != REDIS_REPLY_NIL) {
freeReplyObject(reply);
break;
}
freeReplyObject(reply);
}
db->client_type = strdup(client_type);
db->client = client;
db->db_client_cache = NULL;
db->sync_context = context;
utarray_new(db->callback_freelist, &ut_ptr_icd);
/* Establish async connection */
db->context = redisAsyncConnect(address, port);
CHECK_REDIS_CONNECT(redisAsyncContext, db->context,
"could not connect to redis %s:%d", address, port);
db->context->data = (void *) db;
/* Establish async connection for subscription */
db->sub_context = redisAsyncConnect(address, port);
CHECK_REDIS_CONNECT(redisAsyncContext, db->sub_context,
"could not connect to redis %s:%d", address, port);
db->sub_context->data = (void *) db;
return db;
}
void db_disconnect(db_handle *db) {
redisFree(db->sync_context);
redisAsyncFree(db->context);
redisAsyncFree(db->sub_context);
db_client_cache_entry *e, *tmp;
HASH_ITER(hh, db->db_client_cache, e, tmp) {
free(e->addr);
HASH_DELETE(hh, db->db_client_cache, e);
free(e);
}
free(db->client_type);
void **p = NULL;
while ((p = (void **) utarray_next(db->callback_freelist, p))) {
free(*p);
}
utarray_free(db->callback_freelist);
free(db);
}
void db_attach(db_handle *db, event_loop *loop) {
db->loop = loop;
redisAeAttach(loop, db->context);
redisAeAttach(loop, db->sub_context);
}
/**
* An internal function to allocate a task object and parse a hashmap reply
* from Redis into the task object. If the Redis reply is malformed, an empty
* task with the given task ID is returned.
*
* @param id The ID of the task we're looking up. If the reply from Redis is
* well-formed, the reply's ID should match this ID. Else, the returned
* task will have its ID set to this ID.
* @param num_redis_replies The number of keys and values in the Redis hashmap.
* @param redis_replies A pointer to the Redis hashmap keys and values.
* @return A pointer to the parsed task.
*/
task *parse_redis_task_table_entry(task_id id,
int num_redis_replies,
redisReply **redis_replies) {
task *task_result;
if (num_redis_replies == 0) {
/* There was no information about this task. */
return NULL;
}
/* Exit immediately if there weren't 6 fields, one for each key-value pair.
* The keys are "node", "state", and "task_spec". */
DCHECK(num_redis_replies == 6);
/* Parse the task struct's fields. */
scheduling_state state = 0;
node_id node = NIL_ID;
task_spec *spec = NULL;
for (int i = 0; i < num_redis_replies; i = i + 2) {
char *key = redis_replies[i]->str;
redisReply *value = redis_replies[i + 1];
if (strcmp(key, "node") == 0) {
memcpy(&node, value->str, value->len);
} else if (strcmp(key, "state") == 0) {
int scanned = sscanf(value->str, "%d", (int *) &state);
if (scanned != 1) {
LOG_FATAL("Scheduling state for task is malformed");
state = 0;
}
} else if (strcmp(key, "task_spec") == 0) {
spec = malloc(value->len);
memcpy(spec, value->str, value->len);
} else {
LOG_FATAL("Found unexpected %s field in task log", key);
}
}
/* Exit immediately if we couldn't parse the task spec. */
if (spec == NULL) {
LOG_FATAL("Could not parse task spec from task log");
}
/* Build and return the task. */
DCHECK(task_ids_equal(task_spec_id(spec), id));
task_result = alloc_task(spec, state, node);
free_task_spec(spec);
return task_result;
}
/*
* ==== object_table callbacks ====
*/
void redis_object_table_add_callback(redisAsyncContext *c,
void *r,
void *privdata) {
REDIS_CALLBACK_HEADER(db, callback_data, r)
if (callback_data->done_callback) {
task_table_done_callback done_callback = callback_data->done_callback;
done_callback(callback_data->id, callback_data->user_context);
}
destroy_timer_callback(db->loop, callback_data);
}
void redis_object_table_add(table_callback_data *callback_data) {
CHECK(callback_data);
db_handle *db = callback_data->db_handle;
object_id id = callback_data->id;
int status = redisAsyncCommand(db->context, redis_object_table_add_callback,
(void *) callback_data->timer_id,
"SADD obj:%b %b", id.id, sizeof(object_id),
(char *) db->client.id, sizeof(db_client_id));
if ((status == REDIS_ERR) || db->context->err) {
LOG_REDIS_DEBUG(db->context, "could not add object_table entry");
}
}
void redis_object_table_lookup(table_callback_data *callback_data) {
CHECK(callback_data);
db_handle *db = callback_data->db_handle;
/* Call redis asynchronously */
object_id id = callback_data->id;
int status = redisAsyncCommand(db->context, redis_object_table_get_entry,
(void *) callback_data->timer_id,
"SMEMBERS obj:%b", id.id, sizeof(object_id));
if ((status == REDIS_ERR) || db->context->err) {
LOG_REDIS_DEBUG(db->context, "error in object_table lookup");
}
}
void redis_result_table_add_callback(redisAsyncContext *c,
void *r,
void *privdata) {
REDIS_CALLBACK_HEADER(db, callback_data, r)
redisReply *reply = r;
CHECK(reply->type == REDIS_REPLY_STATUS ||
reply->type == REDIS_REPLY_INTEGER);
if (callback_data->done_callback) {
result_table_done_callback done_callback = callback_data->done_callback;
done_callback(callback_data->id, callback_data->user_context);
}
task_id *task_id = callback_data->data;
free(task_id);
destroy_timer_callback(db->loop, callback_data);
}
void redis_result_table_add(table_callback_data *callback_data) {
CHECK(callback_data);
db_handle *db = callback_data->db_handle;
object_id id = callback_data->id;
task_id *result_task_id = (task_id *) callback_data->data;
/* Add the result entry to the result table. */
int status = redisAsyncCommand(db->context, redis_result_table_add_callback,
(void *) callback_data->timer_id,
"SET result:%b %b", id.id, sizeof(object_id),
(*result_task_id).id, sizeof(task_id));
if ((status == REDIS_ERR) || db->context->err) {
LOG_REDIS_DEBUG(db->context, "Error in result table add");
}
}
void redis_result_table_lookup_task_callback(redisAsyncContext *c,
void *r,
void *privdata) {
REDIS_CALLBACK_HEADER(db, callback_data, r)
redisReply *reply = r;
/* Check that we received a Redis hashmap. */
if (reply->type != REDIS_REPLY_ARRAY) {
LOG_FATAL("Expected Redis array, received type %d %s", reply->type,
reply->str);
}
/* If the user registered a success callback, construct the task object from
* the Redis reply and call the callback. */
result_table_lookup_callback done_callback = callback_data->done_callback;
task_id *result_task_id = callback_data->data;
if (done_callback) {
task *task_reply = parse_redis_task_table_entry(
*result_task_id, reply->elements, reply->element);
done_callback(callback_data->id, task_reply, callback_data->user_context);
free_task(task_reply);
}
free(result_task_id);
destroy_timer_callback(db->loop, callback_data);
}
void redis_result_table_lookup_object_callback(redisAsyncContext *c,
void *r,
void *privdata) {
REDIS_CALLBACK_HEADER(db, callback_data, r)
redisReply *reply = r;
if (reply->type == REDIS_REPLY_STRING) {
/* If we found the object, get the spec of the task that created it. */
DCHECK(reply->len == sizeof(task_id));
task_id *result_task_id = malloc(sizeof(task_id));
memcpy(result_task_id, reply->str, reply->len);
callback_data->data = (void *) result_task_id;
int status =
redisAsyncCommand(db->context, redis_result_table_lookup_task_callback,
(void *) callback_data->timer_id, "HGETALL task:%b",
(*result_task_id).id, sizeof(task_id));
if ((status == REDIS_ERR) || db->context->err) {
LOG_REDIS_DEBUG(db->context, "Could not look up result table entry");
}
} else if (reply->type == REDIS_REPLY_NIL) {
/* The object with the requested ID was not in the table. */
LOG_INFO("Object's result not in table.");
result_table_lookup_callback done_callback = callback_data->done_callback;
if (done_callback) {
done_callback(callback_data->id, NULL, callback_data->user_context);
}
destroy_timer_callback(db->loop, callback_data);
return;
} else {
LOG_FATAL("expected string or nil, received type %d", reply->type);
}
}
void redis_result_table_lookup(table_callback_data *callback_data) {
CHECK(callback_data);
db_handle *db = callback_data->db_handle;
/* First, lookup the ID of the task that created this object. */
object_id id = callback_data->id;
int status =
redisAsyncCommand(db->context, redis_result_table_lookup_object_callback,
(void *) callback_data->timer_id, "GET result:%b",
id.id, sizeof(object_id));
if ((status == REDIS_ERR) || db->context->err) {
LOG_REDIS_DEBUG(db->context, "Error in result table lookup");
}
}
/**
* Get an entry from the plasma manager table in redis.
*
* @param db The database handle.
* @param index The index of the plasma manager.
* @param manager The pointer where the IP address of the manager gets written.
* @return Void.
*/
void redis_get_cached_db_client(db_handle *db,
db_client_id db_client_id,
const char **manager) {
db_client_cache_entry *entry;
HASH_FIND(hh, db->db_client_cache, &db_client_id, sizeof(db_client_id),
entry);
if (!entry) {
/* This is a very rare case. It should happen at most once per db client. */
redisReply *reply =
redisCommand(db->sync_context, "HGET db_clients:%b address",
(char *) db_client_id.id, sizeof(db_client_id));
CHECK(reply->type == REDIS_REPLY_STRING);
entry = malloc(sizeof(db_client_cache_entry));
entry->db_client_id = db_client_id;
entry->addr = strdup(reply->str);
HASH_ADD(hh, db->db_client_cache, db_client_id, sizeof(db_client_id),
entry);
freeReplyObject(reply);
}
*manager = entry->addr;
}
void redis_object_table_get_entry(redisAsyncContext *c,
void *r,
void *privdata) {
REDIS_CALLBACK_HEADER(db, callback_data, r)
redisReply *reply = r;
db_client_id *managers = malloc(reply->elements * sizeof(db_client_id));
int64_t manager_count = reply->elements;
if (reply->type == REDIS_REPLY_ARRAY) {
const char **manager_vector = malloc(manager_count * sizeof(char *));
for (int j = 0; j < reply->elements; ++j) {
CHECK(reply->element[j]->type == REDIS_REPLY_STRING);
memcpy(managers[j].id, reply->element[j]->str, sizeof(db_client_id));
redis_get_cached_db_client(db, managers[j], manager_vector + j);
}
object_table_lookup_done_callback done_callback =
callback_data->done_callback;
done_callback(callback_data->id, manager_count, manager_vector,
callback_data->user_context);
/* remove timer */
destroy_timer_callback(callback_data->db_handle->loop, callback_data);
free(managers);
} else {
LOG_FATAL("expected integer or string, received type %d", reply->type);
}
}
void object_table_redis_callback(redisAsyncContext *c,
void *r,
void *privdata) {
REDIS_CALLBACK_HEADER(db, callback_data, r)
redisReply *reply = r;
CHECK(reply->type == REDIS_REPLY_ARRAY);
/* First entry is message type, second is topic, third is payload. */
CHECK(reply->elements > 2);
/* If this condition is true, we got the initial message that acknowledged the
* subscription. */
if (strncmp(reply->element[1]->str, "add", 3) != 0) {
if (callback_data->done_callback) {
object_table_done_callback done_callback = callback_data->done_callback;
done_callback(callback_data->id, callback_data->user_context);
}
event_loop_remove_timer(db->loop, callback_data->timer_id);
return;
}
/* Otherwise, parse the task and call the callback. */
object_table_subscribe_data *data = callback_data->data;
if (data->object_available_callback) {
data->object_available_callback(callback_data->id, data->subscribe_context);
}
}
void redis_object_table_subscribe(table_callback_data *callback_data) {
db_handle *db = callback_data->db_handle;
/* subscribe to key notification associated to object id */
object_id id = callback_data->id;
int status = redisAsyncCommand(db->sub_context, object_table_redis_callback,
(void *) callback_data->timer_id,
"SUBSCRIBE __keyspace@0__:%b add", id.id,
sizeof(object_id));
if ((status == REDIS_ERR) || db->sub_context->err) {
LOG_REDIS_DEBUG(db->sub_context,
"error in redis_object_table_subscribe_callback");
}
}
/*
* ==== task_table callbacks ====
*/
void redis_task_table_get_task_callback(redisAsyncContext *c,
void *r,
void *privdata) {
REDIS_CALLBACK_HEADER(db, callback_data, r)
redisReply *reply = r;
/* Check that we received a Redis hashmap. */
if (reply->type != REDIS_REPLY_ARRAY) {
LOG_FATAL("Expected Redis array, received type %d %s", reply->type,
reply->str);
}
/* If the user registered a success callback, construct the task object from
* the Redis reply and call the callback. */
if (callback_data->done_callback) {
task_table_get_callback done_callback = callback_data->done_callback;
task *task_reply = parse_redis_task_table_entry(
callback_data->id, reply->elements, reply->element);
done_callback(task_reply, callback_data->user_context);
free_task(task_reply);
}
destroy_timer_callback(db->loop, callback_data);
}
void redis_task_table_get_task(table_callback_data *callback_data) {
CHECK(callback_data);
db_handle *db = callback_data->db_handle;
task_id id = callback_data->id;
int status =
redisAsyncCommand(db->context, redis_task_table_get_task_callback,
(void *) callback_data->timer_id, "HGETALL task:%b",
id.id, sizeof(task_id));
if ((status == REDIS_ERR) || db->sub_context->err) {
LOG_REDIS_DEBUG(db->sub_context, "Could not get task from task table");
}
}
void redis_task_table_publish(table_callback_data *callback_data,
bool task_added) {
db_handle *db = callback_data->db_handle;
task *task = callback_data->data;
task_id id = task_task_id(task);
node_id node = task_node(task);
scheduling_state state = task_state(task);
task_spec *spec = task_task_spec(task);
LOG_DEBUG("Called log_publish callback");
/* Check whether the vector (requests_info) indicating the status of the
* requests has been allocated.
* If was not allocate it, allocate it and initialize it.
* This vector has an entry for each redis command, and it stores true if a
* reply for that command
* has been received, and false otherwise.
* The first entry in the callback corresponds to RPUSH, and the second entry to
* PUBLISH.
*/
#define NUM_DB_REQUESTS 2
#define PUSH_INDEX 0
#define PUBLISH_INDEX 1
if (callback_data->requests_info == NULL) {
callback_data->requests_info = malloc(NUM_DB_REQUESTS * sizeof(bool));
for (int i = 0; i < NUM_DB_REQUESTS; i++) {
((bool *) callback_data->requests_info)[i] = false;
}
}
if (((bool *) callback_data->requests_info)[PUSH_INDEX] == false) {
/* If the task has already been added to the task table, only update the
* scheduling information fields. */
int status = REDIS_OK;
if (task_added) {
status = redisAsyncCommand(
db->context, redis_task_table_publish_push_callback,
(void *) callback_data->timer_id, "HMSET task:%b state %d node %b",
(char *) id.id, sizeof(task_id), state, (char *) node.id,
sizeof(node_id));
} else {
status = redisAsyncCommand(
db->context, redis_task_table_publish_push_callback,
(void *) callback_data->timer_id,
"HMSET task:%b state %d node %b task_spec %b", (char *) id.id,
sizeof(task_id), state, (char *) node.id, sizeof(node_id),
(char *) spec, task_spec_size(spec));
}
if ((status = REDIS_ERR) || db->context->err) {
LOG_REDIS_DEBUG(db->context, "error setting task in task_table_add_task");
}
}
if (((bool *) callback_data->requests_info)[PUBLISH_INDEX] == false) {
int status = redisAsyncCommand(
db->context, redis_task_table_publish_publish_callback,
(void *) callback_data->timer_id, "PUBLISH task:%b:%d %b",
(char *) node.id, sizeof(node_id), state, (char *) task,
task_size(task));
if ((status == REDIS_ERR) || db->context->err) {
LOG_REDIS_DEBUG(db->context,
"error publishing task in task_table_add_task");
}
}
}
void redis_task_table_add_task(table_callback_data *callback_data) {
redis_task_table_publish(callback_data, false);
}
void redis_task_table_update(table_callback_data *callback_data) {
redis_task_table_publish(callback_data, true);
}
void redis_task_table_publish_push_callback(redisAsyncContext *c,
void *r,
void *privdata) {
LOG_DEBUG("Calling publish push callback");
REDIS_CALLBACK_HEADER(db, callback_data, r)
CHECK(callback_data->requests_info != NULL);
((bool *) callback_data->requests_info)[PUSH_INDEX] = true;
if (((bool *) callback_data->requests_info)[PUBLISH_INDEX] == true) {
if (callback_data->done_callback) {
task_table_done_callback done_callback = callback_data->done_callback;
done_callback(callback_data->id, callback_data->user_context);
}
destroy_timer_callback(db->loop, callback_data);
}
}
void redis_task_table_publish_publish_callback(redisAsyncContext *c,
void *r,
void *privdata) {
LOG_DEBUG("Calling publish publish callback");
REDIS_CALLBACK_HEADER(db, callback_data, r)
CHECK(callback_data->requests_info != NULL);
((bool *) callback_data->requests_info)[PUBLISH_INDEX] = true;
if (((bool *) callback_data->requests_info)[PUSH_INDEX] == true) {
if (callback_data->done_callback) {
task_table_done_callback done_callback = callback_data->done_callback;
done_callback(callback_data->id, callback_data->user_context);
}
destroy_timer_callback(db->loop, callback_data);
}
}
void redis_task_table_subscribe_callback(redisAsyncContext *c,
void *r,
void *privdata) {
REDIS_CALLBACK_HEADER(db, callback_data, r)
redisReply *reply = r;
CHECK(reply->type == REDIS_REPLY_ARRAY);
/* If this condition is true, we got the initial message that acknowledged the
* subscription. */
CHECK(reply->elements > 2);
/* First entry is message type, then possibly the regex we psubscribed to,
* then topic, then payload. */
redisReply *payload = reply->element[reply->elements - 1];
if (payload->str == NULL) {
if (callback_data->done_callback) {
task_table_done_callback done_callback = callback_data->done_callback;
done_callback(callback_data->id, callback_data->user_context);
}
/* Note that we do not destroy the callback data yet because the
* subscription callback needs this data. */
event_loop_remove_timer(db->loop, callback_data->timer_id);
return;
}
/* Otherwise, parse the task and call the callback. */
task_table_subscribe_data *data = callback_data->data;
task *task = malloc(payload->len);
memcpy(task, payload->str, payload->len);
if (data->subscribe_callback) {
data->subscribe_callback(task, data->subscribe_context);
}
free_task(task);
}
void redis_task_table_subscribe(table_callback_data *callback_data) {
db_handle *db = callback_data->db_handle;
task_table_subscribe_data *data = callback_data->data;
int status = REDIS_OK;
if (IS_NIL_ID(data->node)) {
/* TODO(swang): Implement the state_filter by translating the bitmask into
* a Redis key-matching pattern. */
status =
redisAsyncCommand(db->sub_context, redis_task_table_subscribe_callback,
(void *) callback_data->timer_id,
"PSUBSCRIBE task:*:%d", data->state_filter);
} else {
node_id node = data->node;
status = redisAsyncCommand(
db->sub_context, redis_task_table_subscribe_callback,
(void *) callback_data->timer_id, "SUBSCRIBE task:%b:%d",
(char *) node.id, sizeof(node_id), data->state_filter);
}
if ((status == REDIS_ERR) || db->sub_context->err) {
LOG_REDIS_DEBUG(db->sub_context, "error in task_table_register_callback");
}
}
/*
* ==== db client table callbacks ====
*/
void redis_db_client_table_subscribe_callback(redisAsyncContext *c,
void *r,
void *privdata) {
REDIS_CALLBACK_HEADER(db, callback_data, r)
redisReply *reply = r;
CHECK(reply->type == REDIS_REPLY_ARRAY);
/* If this condition is true, we got the initial message that acknowledged the
* subscription. */
CHECK(reply->elements > 2);
/* First entry is message type, then possibly the regex we psubscribed to,
* then topic, then payload. */
redisReply *payload = reply->element[reply->elements - 1];
if (payload->str == NULL) {
if (callback_data->done_callback) {
db_client_table_done_callback done_callback =
callback_data->done_callback;
done_callback(callback_data->id, callback_data->user_context);
}
/* Note that we do not destroy the callback data yet because the
* subscription callback needs this data. */
event_loop_remove_timer(db->loop, callback_data->timer_id);
return;
}
/* Otherwise, parse the payload and call the callback. */
db_client_table_subscribe_data *data = callback_data->data;
db_client_id client;
memcpy(client.id, payload->str, sizeof(db_client_id));
/* We subtract 1 + sizeof(db_client_id) to compute the length of the
* client_type string, and we add 1 to null-terminate the string. */
int client_type_length = payload->len - 1 - sizeof(db_client_id) + 1;
char *client_type = malloc(client_type_length);
memcpy(client_type, &payload->str[1 + sizeof(db_client_id)],
client_type_length);
if (data->subscribe_callback) {
data->subscribe_callback(client, client_type, data->subscribe_context);
}
free(client_type);
}
void redis_db_client_table_subscribe(table_callback_data *callback_data) {
db_handle *db = callback_data->db_handle;
int status = redisAsyncCommand(
db->sub_context, redis_db_client_table_subscribe_callback,
(void *) callback_data->timer_id, "SUBSCRIBE db_clients");
if ((status == REDIS_ERR) || db->sub_context->err) {
LOG_REDIS_DEBUG(db->sub_context,
"error in db_client_table_register_callback");
}
}
db_client_id get_db_client_id(db_handle *db) {
CHECK(db != NULL);
return db->client;
}