/* * Copyright (c) 2013-2014, Vsevolod Stakhov * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY AUTHOR ''AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL AUTHOR BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #ifndef RDNS_H #define RDNS_H #include #include #include #include #include #include #include #ifdef __cplusplus extern "C" { #endif struct rdns_reply; struct rdns_request; struct rdns_io_channel; typedef void (*dns_callback_type) (struct rdns_reply *reply, void *arg); enum rdns_request_type { RDNS_REQUEST_A = 1, RDNS_REQUEST_NS = 2, RDNS_REQUEST_SOA = 6, RDNS_REQUEST_PTR = 12, RDNS_REQUEST_MX = 15, RDNS_REQUEST_TXT = 16, RDNS_REQUEST_SRV = 33, RDNS_REQUEST_SPF = 99, RDNS_REQUEST_AAAA = 28, RDNS_REQUEST_TLSA = 52, RDNS_REQUEST_ANY = 255 }; union rdns_reply_element_un { struct { struct in_addr addr; } a; struct { struct in6_addr addr; } aaa; struct { char *name; } ptr; struct { char *name; } ns; struct { char *name; uint16_t priority; } mx; struct { char *data; } txt; struct { uint16_t priority; uint16_t weight; uint16_t port; char *target; } srv; struct { char *mname; char *admin; uint32_t serial; int32_t refresh; int32_t retry; int32_t expire; uint32_t minimum; } soa; struct { uint8_t usage; uint8_t selector; uint8_t match_type; uint16_t datalen; uint8_t *data; } tlsa; }; struct rdns_reply_entry { union rdns_reply_element_un content; uint16_t type; int32_t ttl; struct rdns_reply_entry *prev, *next; }; enum dns_rcode { RDNS_RC_NOERROR = 0, RDNS_RC_FORMERR = 1, RDNS_RC_SERVFAIL = 2, RDNS_RC_NXDOMAIN = 3, RDNS_RC_NOTIMP = 4, RDNS_RC_REFUSED = 5, RDNS_RC_YXDOMAIN = 6, RDNS_RC_YXRRSET = 7, RDNS_RC_NXRRSET = 8, RDNS_RC_NOTAUTH = 9, RDNS_RC_NOTZONE = 10, RDNS_RC_TIMEOUT = 11, RDNS_RC_NETERR = 12, RDNS_RC_NOREC = 13 }; struct rdns_reply { struct rdns_request *request; struct rdns_resolver *resolver; struct rdns_reply_entry *entries; const char *requested_name; enum dns_rcode code; }; typedef void (*rdns_periodic_callback)(void *user_data); struct rdns_async_context { void *data; void* (*add_read)(void *priv_data, int fd, void *user_data); void (*del_read)(void *priv_data, void *ev_data); void* (*add_write)(void *priv_data, int fd, void *user_data); void (*del_write)(void *priv_data, void *ev_data); void* (*add_timer)(void *priv_data, double after, void *user_data); void (*repeat_timer)(void *priv_data, void *ev_data); void (*del_timer)(void *priv_data, void *ev_data); void* (*add_periodic)(void *priv_data, double after, rdns_periodic_callback cb, void *user_data); void (*del_periodic)(void *priv_data, void *ev_data); void (*cleanup)(void *priv_data); }; struct rdns_upstream_elt { void *server; void *lib_data; }; struct rdns_upstream_context { void *data; struct rdns_upstream_elt* (*select)(const char *name, size_t len, void *ups_data); struct rdns_upstream_elt* (*select_retransmit)(const char *name, size_t len, void *ups_data); void (*ok)(struct rdns_upstream_elt *elt, void *ups_data); void (*fail)(struct rdns_upstream_elt *elt, void *ups_data); }; /** * Type of rdns plugin */ enum rdns_plugin_type { RDNS_PLUGIN_CURVE = 0 }; typedef ssize_t (*rdns_network_send_callback) (struct rdns_request *req, void *plugin_data); typedef ssize_t (*rdns_network_recv_callback) (struct rdns_io_channel *ioc, void *buf, size_t len, void *plugin_data, struct rdns_request **req_out); typedef void (*rdns_network_finish_callback) (struct rdns_request *req, void *plugin_data); typedef void (*rdns_plugin_dtor_callback) (struct rdns_resolver *resolver, void *plugin_data); struct rdns_plugin { enum rdns_plugin_type type; union { struct { rdns_network_send_callback send_cb; rdns_network_recv_callback recv_cb; rdns_network_finish_callback finish_cb; } curve_plugin; } cb; rdns_plugin_dtor_callback dtor; void *data; }; /* * RDNS logger types */ /* * These types are somehow compatible with glib */ enum rdns_log_level { RDNS_LOG_ERROR = 1 << 3, RDNS_LOG_WARNING = 1 << 4, RDNS_LOG_INFO = 1 << 6, RDNS_LOG_DEBUG = 1 << 7 }; typedef void (*rdns_log_function) ( void *log_data, //!< opaque data pointer enum rdns_log_level level, //!< level of message const char *function, //!< calling function const char *format, //!< format va_list args //!< set of arguments ); struct rdns_request_name { char *name; enum rdns_request_type type; unsigned int len; }; /* * RDNS API */ /** * Create DNS resolver structure */ struct rdns_resolver *rdns_resolver_new (void); /** * Bind resolver to specified async context * @param ctx */ void rdns_resolver_async_bind (struct rdns_resolver *resolver, struct rdns_async_context *ctx); /** * Add new DNS server definition to the resolver * @param resolver resolver object * @param name name of DNS server (should be ipv4 or ipv6 address) * @param priority priority (can be 0 for fair round-robin) * @param io_cnt a number of sockets that are simultaneously opened to this server * @return opaque pointer that could be used to select upstream */ void* rdns_resolver_add_server (struct rdns_resolver *resolver, const char *name, unsigned int port, int priority, unsigned int io_cnt); /** * Load nameservers definition from resolv.conf file * @param resolver resolver object * @param path path to resolv.conf file (/etc/resolv.conf typically) * @return true if resolv.conf has been parsed */ bool rdns_resolver_parse_resolv_conf (struct rdns_resolver *resolver, const char *path); /** * Set an external logger function to log messages from the resolver * @param resolver resolver object * @param logger logger callback * @param log_data opaque data */ void rdns_resolver_set_logger (struct rdns_resolver *resolver, rdns_log_function logger, void *log_data); /** * Set log level for an internal logger (stderr one) * @param resolver resolver object * @param level desired log level */ void rdns_resolver_set_log_level (struct rdns_resolver *resolver, enum rdns_log_level level); /** * Set upstream library for selecting DNS upstreams * @param resolver resolver object * @param ups_ctx upstream functions * @param ups_data opaque data */ void rdns_resolver_set_upstream_lib (struct rdns_resolver *resolver, struct rdns_upstream_context *ups_ctx, void *ups_data); /** * Set maximum number of dns requests to be sent to a socket to be refreshed * @param resolver resolver object * @param max_ioc_uses unsigned count of socket usage limit * @param check_time specifies how often to check for sockets and refresh them */ void rdns_resolver_set_max_io_uses (struct rdns_resolver *resolver, uint64_t max_ioc_uses, double check_time); /** * Register new plugin for rdns resolver * @param resolver * @param plugin */ void rdns_resolver_register_plugin (struct rdns_resolver *resolver, struct rdns_plugin *plugin); /** * Init DNS resolver * @param resolver * @return */ bool rdns_resolver_init (struct rdns_resolver *resolver); /** * Decrease refcount for a resolver and free it if refcount is 0 * @param resolver */ void rdns_resolver_release (struct rdns_resolver *resolver); /** * Make a DNS request * @param resolver resolver object * @param cb callback to call on resolve completing * @param ud user data for callback * @param timeout timeout in seconds * @param repeats how much time to retransmit query * @param queries how much RR queries to send * @param ... -> queries in format: [,type_argument[,type_argument...]] * @return opaque request object or NULL */ struct rdns_request* rdns_make_request_full ( struct rdns_resolver *resolver, dns_callback_type cb, void *cbdata, double timeout, unsigned int repeats, unsigned int queries, ... ); /** * Get textual presentation of DNS error code */ const char *rdns_strerror (enum dns_rcode rcode); /** * Get textual presentation of DNS request type */ const char *rdns_strtype (enum rdns_request_type type); /** * Increase refcount for a request * @param req * @return */ struct rdns_request* rdns_request_retain (struct rdns_request *req); /** * Decrease refcount for a request and free it if refcount is 0 * @param req */ void rdns_request_release (struct rdns_request *req); /** * Check whether a request contains `type` request * @param req request object * @param type check for a specified type * @return true if `type` has been requested */ bool rdns_request_has_type (struct rdns_request *req, enum rdns_request_type type); /** * Return requested name for a request * @param req request object * @return requested name as it was passed to `rdns_make_request` */ const struct rdns_request_name* rdns_request_get_name (struct rdns_request *req, unsigned int *count); /** * Return PTR string for a request (ipv4 or ipv6) addresses * @param str string representation of IP address * @return name to resolve or NULL if `str` is not an IP address; caller must free result when it is unused */ char * rdns_generate_ptr_from_str (const char *str); /* * Private functions used by async libraries as callbacks */ void rdns_process_read (int fd, void *arg); void rdns_process_timer (void *arg); void rdns_process_retransmit (int fd, void *arg); #ifdef __cplusplus } #endif #endif