#ifndef _CONSUMER_H
#define _CONSUMER_H
-#include <semaphore.h>
-
#include <common/consumer.h>
+#include <common/hashtable/hashtable.h>
#include <lttng/lttng.h>
+#include "health.h"
+
enum consumer_dst_type {
CONSUMER_DST_LOCAL,
CONSUMER_DST_NET,
};
+struct consumer_socket {
+ /* File descriptor */
+ int fd;
+ /*
+ * To use this socket (send/recv), this lock MUST be acquired.
+ */
+ pthread_mutex_t *lock;
+
+ /*
+ * Indicates if the socket was registered by a third part
+ * (REGISTER_CONSUMER) or is the spawn consumer of the session daemon.
+ * During the destroy phase of a consumer output, we close the socket if
+ * this flag is set to 1 since we don't need the fd anymore.
+ */
+ unsigned int registered;
+
+ struct lttng_ht_node_ulong node;
+};
+
struct consumer_data {
enum lttng_consumer_type type;
pthread_t thread; /* Worker thread interacting with the consumer */
- sem_t sem;
+
+ /* Conditions used by the consumer thread to indicate readiness. */
+ pthread_cond_t cond;
+ pthread_condattr_t condattr;
+ pthread_mutex_t cond_mutex;
+
+ /*
+ * This is a flag condition indicating that the consumer thread is ready
+ * and connected to the lttng-consumerd daemon. This flag MUST only be
+ * updated by locking the condition mutex above or before spawning a
+ * consumer thread.
+ *
+ * A value of 0 means that the thread is NOT ready. A value of 1 means that
+ * the thread consumer did connect successfully to the lttng-consumerd
+ * daemon. A negative value indicates that there is been an error and the
+ * thread has likely quit.
+ */
+ int consumer_thread_is_ready;
/* Mutex to control consumerd pid assignation */
pthread_mutex_t pid_mutex;
/* consumer error and command Unix socket path */
char err_unix_sock_path[PATH_MAX];
char cmd_unix_sock_path[PATH_MAX];
+
+ /* Health check of the thread */
+ struct health_state health;
+
+ /* communication lock */
+ pthread_mutex_t lock;
};
/*
/* Data path for network streaming. */
struct lttng_uri data;
+
+ /* Flag if network sockets were sent to the consumer. */
+ unsigned int control_sock_sent;
+ unsigned int data_sock_sent;
};
/*
* Consumer output object describing where and how to send data.
*/
struct consumer_output {
- /* Consumer socket file descriptor */
- int sock;
/* If the consumer is enabled meaning that should be used */
unsigned int enabled;
enum consumer_dst_type type;
+
/*
* The net_seq_index is the index of the network stream on the consumer
- * side. It's basically the relayd socket file descriptor value so the
- * consumer can identify which streams goes with which socket.
+ * side. It tells the consumer which streams goes to which relayd with this
+ * index. The relayd sockets are index with it on the consumer side.
*/
int net_seq_index;
+
/*
* Subdirectory path name used for both local and network consumer.
*/
char subdir[PATH_MAX];
+
+ /*
+ * Hashtable of consumer_socket index by the file descriptor value. For
+ * multiarch consumer support, we can have more than one consumer (ex: 32
+ * and 64 bit).
+ */
+ struct lttng_ht *socks;
+
union {
char trace_path[PATH_MAX];
struct consumer_net net;
} dst;
};
+struct consumer_socket *consumer_find_socket(int key,
+ struct consumer_output *consumer);
+struct consumer_socket *consumer_allocate_socket(int fd);
+void consumer_add_socket(struct consumer_socket *sock,
+ struct consumer_output *consumer);
+void consumer_del_socket(struct consumer_socket *sock,
+ struct consumer_output *consumer);
+void consumer_destroy_socket(struct consumer_socket *sock);
+
struct consumer_output *consumer_create_output(enum consumer_dst_type type);
struct consumer_output *consumer_copy_output(struct consumer_output *obj);
void consumer_destroy_output(struct consumer_output *obj);
int consumer_set_network_uri(struct consumer_output *obj,
struct lttng_uri *uri);
-int consumer_send_fds(int sock, int *fds, size_t nb_fd);
-int consumer_send_stream(int sock, struct consumer_output *dst,
- struct lttcomm_consumer_msg *msg, int *fds, size_t nb_fd);
-int consumer_send_channel(int sock, struct lttcomm_consumer_msg *msg);
+int consumer_send_fds(struct consumer_socket *sock, int *fds, size_t nb_fd);
+int consumer_send_stream(struct consumer_socket *sock,
+ struct consumer_output *dst, struct lttcomm_consumer_msg *msg,
+ int *fds, size_t nb_fd);
+int consumer_send_channel(struct consumer_socket *sock,
+ struct lttcomm_consumer_msg *msg);
+int consumer_send_relayd_socket(struct consumer_socket *consumer_sock,
+ struct lttcomm_sock *sock, struct consumer_output *consumer,
+ enum lttng_stream_type type);
+int consumer_send_destroy_relayd(struct consumer_socket *sock,
+ struct consumer_output *consumer);
+int consumer_recv_status_reply(struct consumer_socket *sock);
+void consumer_output_send_destroy_relayd(struct consumer_output *consumer);
+int consumer_create_socket(struct consumer_data *data,
+ struct consumer_output *output);
+int consumer_set_subdir(struct consumer_output *consumer,
+ const char *session_name);
+
void consumer_init_stream_comm_msg(struct lttcomm_consumer_msg *msg,
enum lttng_consumer_command cmd,
int channel_key,
int net_index,
unsigned int metadata_flag,
const char *name,
- const char *pathname);
+ const char *pathname,
+ unsigned int session_id);
void consumer_init_channel_comm_msg(struct lttcomm_consumer_msg *msg,
enum lttng_consumer_command cmd,
int channel_key,
uint64_t max_sb_size,
uint64_t mmap_len,
- const char *name);
+ const char *name,
+ unsigned int nb_init_streams);
+int consumer_is_data_pending(unsigned int id,
+ struct consumer_output *consumer);
#endif /* _CONSUMER_H */