-/*
- * Copyright (C) 2005-2012 Andre Noll <maan@systemlinux.org>
- *
- * Licensed under the GPL v2. For licencing details see COPYING.
- */
+/* Copyright (C) 2005 Andre Noll <maan@tuebingen.mpg.de>, see file COPYING. */
/** \file recv.h Receiver-related structures and exported symbols of recv_common.c. */
*/
struct receiver_node {
/** Points to the corresponding receiver. */
- struct receiver *receiver;
+ const struct receiver *receiver;
/** Receiver-specific data. */
void *private_data;
- /** Pointer to the configuration data for this instance. */
- void *conf;
+ /** The parsed command line options for this instance. */
+ struct lls_parse_result *lpr;
/** The task associated with this instance. */
- struct task task;
+ struct task *task;
/** The receiver node is always the root of the buffer tree. */
struct btr_node *btrn;
/** Each receiver node maintains a buffer pool for the received data. */
/**
* The file descriptor to receive the stream.
*
- * The pre_select function of the receiver adds this file descriptor to
+ * The pre_monitor function of the receiver adds this file descriptor to
* the set of file descriptors which are watched for readability or
* writability, depending on the state of the connection (if any).
*
- * If \a fd is readable, the post_select function of the receiver reads
+ * If \a fd is readable, the post_monitor function of the receiver reads
* data from this fd into the buffer pool area of \a btrp.
*
* \sa \ref receiver.
};
/**
- * Describes one supported paraslash receiver.
+ * Describes a possible data source for audio streams.
+ *
+ * A paraslash receiver is a modular piece of software which is capable of
+ * receiving an audio data stream from a data source. Received audio data is
+ * fed to consumers through the buffer tree mechanism.
+ *
+ * This structure contains the methods which have to be implemented by each
+ * receiver.
*
- * \sa http_recv.c, udp_recv.c
+ * \sa \ref http_recv.c, \ref udp_recv.c, \ref dccp_recv.c, \ref afh_recv.c,
+ * struct \ref receiver_node, struct \ref filter, struct \ref writer, struct
+ * \ref sched.
*/
struct receiver {
- /**
- * The name of the receiver.
- */
- const char *name;
- /**
- * The receiver init function.
- *
- * It must fill in all other function pointers and is assumed to succeed.
- *
- * \sa http_recv_init udp_recv_init.
- */
- void (*init)(struct receiver *r);
- /**
- * The command line parser of the receiver.
- *
- * It should check whether the command line options given by \a argc and \a
- * argv are valid. On success, it should return a pointer to the
- * receiver-specific configuration data determined by \a argc and \a argv.
- * Note that this might be called more than once with different values of
- * \a argc and \a argv.
- */
- void *(*parse_config)(int argc, char **argv);
- /**
- * Deallocate the configuration structure of a receiver node.
- *
- * This calls the receiver-specific cleanup function generated by
- * gengetopt.
- */
- void (*free_config)(void *conf);
/**
* Open one instance of the receiver.
*
- * This should allocate the output buffer of \a rn. and may also
- * perform any other work necessary for retrieving the stream according
- * to the configuration stored in the \a conf member of \a rn which is
- * guaranteed to point to valid configuration data (as previously
- * obtained from the config parser).
- *
- * \sa receiver_node::conf, receiver_node::buf.
+ * This should allocate the output buffer of the given receiver node
+ * and prepare it for retrieving the audio stream according to the
+ * configuration stored in rn->lpr.
*/
int (*open)(struct receiver_node *rn);
/**
* It should free all resources associated with given receiver node
* that were allocated during the corresponding open call.
*
- * \sa receiver_node.
+ * \sa \ref receiver_node.
*/
void (*close)(struct receiver_node *rn);
+ /** Ask the scheduler to monitor receive fds. */
+ void (*pre_monitor)(struct sched *s, void *context);
+ /** Receive data and make it available to consumers. */
+ int (*post_monitor)(struct sched *s, void *context);
/**
- * Add file descriptors to fd_sets and compute timeout for select(2).
- *
- * The pre_select function gets called from the driving application
- * before entering its select loop. The receiver may use this hook to
- * add any file descriptors to the sets of file descriptors given by \a
- * s.
+ * Answer a buffer tree query.
*
- * \sa select(2), time.c struct task, struct sched.
+ * This optional function pointer allows for inter node communication
+ * of the buffer tree nodes. See \ref btr_command_handler for details.
*/
- void (*pre_select)(struct sched *s, struct task *t);
- /**
- * Evaluate the result from select().
- *
- * This hook gets called after the call to select(). It should check
- * all file descriptors which were added to any of the fd sets during
- * the previous call to pre_select. According to the result, it may
- * then use any non-blocking I/O to establish a connection or to
- * receive the audio data.
- *
- * \sa select(2), struct receiver.
- */
- void (*post_select)(struct sched *s, struct task *t);
-
- /** The two help texts of this receiver. */
- struct ggo_help help;
+ btr_command_handler execute;
};
-/** Define an array of all available receivers. */
-#define DEFINE_RECEIVER_ARRAY struct receiver receivers[] = { \
- HTTP_RECEIVER \
- DCCP_RECEIVER \
- UDP_RECEIVER \
- {.name = NULL}};
-
-/** Iterate over all available receivers. */
-#define FOR_EACH_RECEIVER(i) for (i = 0; receivers[i].name; i++)
-
-void recv_init(void);
-void *check_receiver_arg(char *ra, int *receiver_num);
-void print_receiver_helps(int detailed);
-int generic_recv_pre_select(struct sched *s, struct task *t);
+#define RECV_CMD(_num) (lls_cmd(_num, recv_cmd_suite))
-/** \cond receiver */
-extern void http_recv_init(struct receiver *r);
-#define HTTP_RECEIVER {.name = "http", .init = http_recv_init},
-extern void dccp_recv_init(struct receiver *r);
-#define DCCP_RECEIVER {.name = "dccp", .init = dccp_recv_init},
-extern void udp_recv_init(struct receiver *r);
-#define UDP_RECEIVER {.name = "udp", .init = udp_recv_init},
+#define RECV_CMD_OPT_RESULT(_recv, _opt, _lpr) \
+ (lls_opt_result(LSG_RECV_CMD_ ## _recv ## _OPT_ ## _opt, _lpr))
+#define RECV_CMD_OPT_GIVEN(_recv, _opt, _lpr) \
+ (lls_opt_given(RECV_CMD_OPT_RESULT(_recv, _opt, _lpr)))
+#define RECV_CMD_OPT_STRING_VAL(_recv, _opt, _lpr) \
+ (lls_string_val(0, RECV_CMD_OPT_RESULT(_recv, _opt, _lpr)))
+#define RECV_CMD_OPT_UINT32_VAL(_recv, _opt, _lpr) \
+ (lls_uint32_val(0, RECV_CMD_OPT_RESULT(_recv, _opt, _lpr)))
+#define RECV_CMD_OPT_INT32_VAL(_recv, _opt, _lpr) \
+ (lls_int32_val(0, RECV_CMD_OPT_RESULT(_recv, _opt, _lpr)))
-extern struct receiver receivers[];
-/** \endcond receiver */
+/** Iterate over all available receivers. */
+#define FOR_EACH_RECEIVER(i) for (i = 1; lls_cmd(i, recv_cmd_suite); i++)
+int check_receiver_arg(const char *ra, struct lls_parse_result **lprp);
+void print_receiver_helps(bool detailed);
+int generic_recv_pre_monitor(struct sched *s, struct receiver_node *rn);