#ifndef UPSTREAM_H
#define UPSTREAM_H

#include "config.h"
#include "util.h"
#include "rdns.h"
#include "ucl.h"

enum rspamd_upstream_rotation {
	RSPAMD_UPSTREAM_RANDOM = 0,
	RSPAMD_UPSTREAM_HASHED,
	RSPAMD_UPSTREAM_ROUND_ROBIN,
	RSPAMD_UPSTREAM_MASTER_SLAVE,
	RSPAMD_UPSTREAM_SEQUENTIAL,
	RSPAMD_UPSTREAM_UNDEF
};

enum rspamd_upstream_flag {
	RSPAMD_UPSTREAM_FLAG_NORESOLVE = (1 << 0),
};

struct rspamd_config;
/* Opaque upstream structures */
struct upstream;
struct upstream_list;
struct upstream_ctx;

/**
 * Init upstreams library
 * @param resolver
 */
struct upstream_ctx* rspamd_upstreams_library_init (void);

/**
 * Remove reference from upstreams library
 */
void rspamd_upstreams_library_unref (struct upstream_ctx *ctx);

/**
 * Configure attributes of upstreams library
 * @param cfg
 */
void rspamd_upstreams_library_config (struct rspamd_config *cfg,
		struct upstream_ctx *ctx, struct event_base *ev_base,
		struct rdns_resolver *resolver);

/**
 * Upstream error logic
 * 1. During error time we count upstream_ok and upstream_fail
 * 2. If failcount is more then maxerrors then we mark upstream as unavailable for dead time
 * 3. After dead time we mark upstream as alive and go to the step 1
 * 4. If all upstreams are dead, marks every upstream as alive
 */

/**
 * Add an error to an upstream
 */
void rspamd_upstream_fail (struct upstream *up);

/**
 * Increase upstream successes count
 */
void rspamd_upstream_ok (struct upstream *up);

/**
 * Set weight for an upstream
 * @param up
 */
void rspamd_upstream_set_weight (struct upstream *up, guint weight);

/**
 * Create new list of upstreams
 * @return
 */
struct upstream_list* rspamd_upstreams_create (struct upstream_ctx *ctx);

/**
 * Sets specific flag to the upstream list
 * @param ups
 * @param flags
 */
void rspamd_upstreams_set_flags (struct upstream_list *ups,
		enum rspamd_upstream_flag flags);

/**
 * Sets rotation policy for upstreams list
 * @param ups
 * @param rot
 */
void rspamd_upstreams_set_rotation (struct upstream_list *ups,
		enum rspamd_upstream_rotation rot);

/**
 * Destroy list of upstreams
 * @param ups
 */
void rspamd_upstreams_destroy (struct upstream_list *ups);

/**
 * Returns count of upstreams in a list
 * @param ups
 * @return
 */
gsize rspamd_upstreams_count (struct upstream_list *ups);

/**
 * Returns the number of upstreams in the list
 * @param ups
 * @return
 */
gsize rspamd_upstreams_alive (struct upstream_list *ups);

enum rspamd_upstream_parse_type {
	RSPAMD_UPSTREAM_PARSE_DEFAULT = 0,
	RSPAMD_UPSTREAM_PARSE_NAMESERVER,
};

/**
 * Add upstream from the string
 * @param ups upstream list
 * @param str string in format "name[:port[:priority]]"
 * @param def_port default port number
 * @param data optional userdata
 * @return TRUE if upstream has been added
 */
gboolean rspamd_upstreams_add_upstream (struct upstream_list *ups, const gchar *str,
		guint16 def_port, enum rspamd_upstream_parse_type parse_type,
		void *data);

/**
 * Add multiple upstreams from comma, semicolon or space separated line
 * @param ups upstream list
 * @param str string in format "(<ups>([<sep>+]<ups>)*)+"
 * @param def_port default port number
 * @param data optional userdata
 * @return TRUE if **any** of upstreams has been added
 */
gboolean rspamd_upstreams_parse_line (struct upstream_list *ups,
		const gchar *str, guint16 def_port, void *data);


/**
 * Parse upstreams list from the UCL object
 * @param ups
 * @param in
 * @param def_port
 * @param data
 * @return
 */
gboolean rspamd_upstreams_from_ucl (struct upstream_list *ups,
		const ucl_object_t *in, guint16 def_port, void *data);


typedef void (*rspamd_upstream_traverse_func) (struct upstream *up, guint idx,
		void *ud);

/**
 * Traverse upstreams list calling the function specified
 * @param ups
 * @param cb
 * @param ud
 */
void rspamd_upstreams_foreach (struct upstream_list *ups,
		rspamd_upstream_traverse_func cb, void *ud);

/**
 * Returns the current IP address of the upstream
 * @param up
 * @return
 */
rspamd_inet_addr_t* rspamd_upstream_addr (struct upstream *up);

/**
 * Add custom address for an upstream (ownership of addr is transferred to upstream)
 * @param up
 * @return
 */
gboolean rspamd_upstream_add_addr (struct upstream *up,
		rspamd_inet_addr_t *addr);

/**
 * Returns the symbolic name of the upstream
 * @param up
 * @return
 */
const gchar* rspamd_upstream_name (struct upstream *up);

/**
 * Sets opaque user data associated with this upstream
 * @param up
 * @param data
 * @return old data
 */
gpointer rspamd_upstream_set_data (struct upstream *up, gpointer data);

/**
 * Gets opaque user data associated with this upstream
 * @param up
 * @return
 */
gpointer rspamd_upstream_get_data (struct upstream *up);

/**
 * Get new upstream from the list
 * @param ups upstream list
 * @param type type of rotation algorithm, for `RSPAMD_UPSTREAM_HASHED` it is required to specify `key` and `keylen` as arguments
 * @return
 */
struct upstream* rspamd_upstream_get (struct upstream_list *ups,
		enum rspamd_upstream_rotation default_type,
		const guchar *key, gsize keylen);

/**
 * Get new upstream from the list
 * @param ups upstream list
 * @param type type of rotation algorithm, for `RSPAMD_UPSTREAM_HASHED` it is required to specify `key` and `keylen` as arguments
 * @return
 */
struct upstream* rspamd_upstream_get_forced (struct upstream_list *ups,
		enum rspamd_upstream_rotation forced_type,
		const guchar *key, gsize keylen);

/**
 * Re-resolve addresses for all upstreams registered
 */
void rspamd_upstream_reresolve (struct upstream_ctx *ctx);

#endif /* UPSTREAM_H */
/*
 * vi:ts=4
 */