#include "ssb.connections.h"

#include "mem.h"
#include "ssb.h"

#include <uv.h>
#include <sqlite3.h>

#include <string.h>

#if !defined(_countof)
#define _countof(a) ((int)(sizeof((a)) / sizeof(*(a))))
#endif

typedef struct _tf_ssb_connections_t
{
	tf_ssb_t* ssb;
	sqlite3* db;
	uv_timer_t timer;
} tf_ssb_connections_t;

static void _tf_ssb_connections_changed_callback(tf_ssb_t* ssb, tf_ssb_change_t change, tf_ssb_connection_t* connection, void* user_data)
{
	tf_ssb_connections_t* connections = user_data;
	switch (change)
	{
	case k_tf_ssb_change_create:
		{
			char key[k_id_base64_len];
			if (tf_ssb_connection_get_host(connection) &&
				*tf_ssb_connection_get_host(connection) &&
				tf_ssb_connection_get_port(connection) &&
				tf_ssb_connection_get_id(connection, key, sizeof(key)))
			{
				tf_ssb_connections_set_attempted(connections, tf_ssb_connection_get_host(connection), tf_ssb_connection_get_port(connection), key);
			}
		}
		break;
	case k_tf_ssb_change_connect:
		{
			char key[k_id_base64_len];
			if (tf_ssb_connection_get_id(connection, key, sizeof(key)))
			{
				tf_ssb_connections_set_succeeded(connections, tf_ssb_connection_get_host(connection), tf_ssb_connection_get_port(connection), key);
			}
		}
		break;
	case k_tf_ssb_change_remove:
		break;
	}
}

static bool _tf_ssb_connections_get_next_connection(tf_ssb_connections_t* connections, char* host, size_t host_size, int* port, char* key, size_t key_size)
{
	bool result = false;
	sqlite3_stmt* statement;
	if (sqlite3_prepare(connections->db, "SELECT host, port, key FROM connections WHERE last_attempt IS NULL OR (strftime('%s', 'now') - last_attempt > $1) ORDER BY last_attempt LIMIT 1", -1, &statement, NULL) == SQLITE_OK)
	{
		if (sqlite3_bind_int(statement, 1, 60000) == SQLITE_OK &&
			sqlite3_step(statement) == SQLITE_ROW)
		{
			snprintf(host, host_size, "%s", sqlite3_column_text(statement, 0));
			*port = sqlite3_column_int(statement, 1);
			snprintf(key, key_size, "%s", sqlite3_column_text(statement, 2));
			result = true;
		}
		sqlite3_finalize(statement);
	}
	else
	{
		printf("prepare: %s\n", sqlite3_errmsg(connections->db));
	}
	return result;
}

static void _tf_ssb_connections_timer(uv_timer_t* timer)
{
	tf_ssb_connections_t* connections = timer->data;
	tf_ssb_connection_t* active[4];
	int count = tf_ssb_get_connections(connections->ssb, active, _countof(active));
	if (count < (int)_countof(active))
	{
		char host[256];
		int port;
		char key[k_id_base64_len];
		if (_tf_ssb_connections_get_next_connection(connections, host, sizeof(host), &port, key, sizeof(key)))
		{
			uint8_t key_bin[k_id_bin_len];
			if (tf_ssb_id_str_to_bin(key_bin, key))
			{
				tf_ssb_connect(connections->ssb, host, port, key_bin);
			}
		}
	}
}

tf_ssb_connections_t* tf_ssb_connections_create(tf_ssb_t* ssb)
{
	tf_ssb_connections_t* connections = tf_malloc(sizeof(tf_ssb_connections_t));
	memset(connections, 0, sizeof(*connections));
	connections->ssb = ssb;
	connections->db = tf_ssb_get_db(ssb);

	tf_ssb_add_connections_changed_callback(ssb, _tf_ssb_connections_changed_callback, NULL, connections);

	uv_loop_t* loop = tf_ssb_get_loop(ssb);
	connections->timer.data = connections;
	uv_timer_init(loop, &connections->timer);
	uv_timer_start(&connections->timer, _tf_ssb_connections_timer, 2000, 2000);
	uv_unref((uv_handle_t*)&connections->timer);

	return connections;
}

static void _tf_ssb_connections_on_handle_close(uv_handle_t* handle)
{
	tf_ssb_connections_t* connections = handle->data;
	handle->data = NULL;
	tf_free(connections);
}

void tf_ssb_connections_destroy(tf_ssb_connections_t* connections)
{
	uv_close((uv_handle_t*)&connections->timer, _tf_ssb_connections_on_handle_close);
}

void tf_ssb_connections_store(tf_ssb_connections_t* connections, const char* host, int port, const char* key)
{
	sqlite3_stmt* statement;
	if (sqlite3_prepare(connections->db, "INSERT INTO connections (host, port, key) VALUES ($1, $2, $3) ON CONFLICT DO NOTHING", -1, &statement, NULL) == SQLITE_OK)
	{
		if (sqlite3_bind_text(statement, 1, host, -1, NULL) == SQLITE_OK &&
			sqlite3_bind_int(statement, 2, port) == SQLITE_OK &&
			sqlite3_bind_text(statement, 3, key, -1, NULL) == SQLITE_OK)
		{
			int r = sqlite3_step(statement);
			if (r != SQLITE_DONE)
			{
				printf("tf_ssb_connections_store: %d, %s.\n", r, sqlite3_errmsg(connections->db));
			}
		}
		sqlite3_finalize(statement);
	}
}

void tf_ssb_connections_set_attempted(tf_ssb_connections_t* connections, const char* host, int port, const char* key)
{
	sqlite3_stmt* statement;
	if (sqlite3_prepare(connections->db, "UPDATE connections SET last_attempt = strftime('%s', 'now') WHERE host = $1 AND port = $2 AND key = $3", -1, &statement, NULL) == SQLITE_OK)
	{
		if (sqlite3_bind_text(statement, 1, host, -1, NULL) == SQLITE_OK &&
			sqlite3_bind_int(statement, 2, port) == SQLITE_OK &&
			sqlite3_bind_text(statement, 3, key, -1, NULL) == SQLITE_OK)
		{
			if (sqlite3_step(statement) != SQLITE_DONE)
			{
				printf("tf_ssb_connections_set_attempted: %s.\n", sqlite3_errmsg(connections->db));
			}
		}
		sqlite3_finalize(statement);
	}
}

void tf_ssb_connections_set_succeeded(tf_ssb_connections_t* connections, const char* host, int port, const char* key)
{
	sqlite3_stmt* statement;
	if (sqlite3_prepare(connections->db, "UPDATE connections SET last_success = strftime('%s', 'now') WHERE host = $1 AND port = $2 AND key = $3", -1, &statement, NULL) == SQLITE_OK)
	{
		if (sqlite3_bind_text(statement, 1, host, -1, NULL) == SQLITE_OK &&
			sqlite3_bind_int(statement, 2, port) == SQLITE_OK &&
			sqlite3_bind_text(statement, 3, key, -1, NULL) == SQLITE_OK)
		{
			if (sqlite3_step(statement) != SQLITE_DONE)
			{
				printf("tf_ssb_connections_set_succeeded: %s.\n", sqlite3_errmsg(connections->db));
			}
		}
		sqlite3_finalize(statement);
	}
}