asr_run (3) - Linux Manuals
NAME
asr_run, asr_run_sync, asr_abort, res_send_async, res_query_async, res_search_async, getrrsetbyname_async, gethostbyname_async, gethostbyname2_async, gethostbyaddr_async, getnetbyname_async, getnetbyaddr_async, getaddrinfo_async, getnameinfo_async - asynchronous resolver functionsSYNOPSIS
#include <sys/types.h> #include <sys/socket.h> #include <netdb.h> #include <asr.h>int
asr_run(struct asr_query
int
asr_run_sync(struct asr_query
void
asr_abort(struct asr_query
struct asr_query *
res_send_async(const unsigned char
struct asr_query *
res_query_async(const char
struct asr_query *
res_search_async(const char
struct asr_query *
getrrsetbyname_async(const char
struct asr_query *
gethostbyname_async(const char
struct asr_query *
gethostbyname2_async(const char
struct asr_query *
gethostbyaddr_async(const void
struct asr_query *
getnetbyname_async(const char
struct asr_query *
getnetbyaddr_async(in_addr_t net, int type, void
struct asr_query *
getaddrinfo_async(const char
struct asr_query *
getnameinfo_async(const struct sockaddr
DESCRIPTION
The asr functions provide a simple interface for asynchronous address resolution and nameserver querying. They should be used in place of the classical resolver functions of libc when blocking is not desirable.The principle of operation is as follows: All async requests are made against an asr context which basically defines a list of sources to query and a strategy to do so. The user creates a query through one of the dedicated functions, and gets a handle representing the internal query. A query is a state-machine that can be run to try to fulfill a particular request. This is done by calling in a generic API that performs the state transitions until it needs to give the control back to the user, either because a result is available, or because the next transition implies a blocking call (a file descriptor needs to be read from or written to). The user is responsible for dealing with the situation: either get the result, or wait until the fd conditions are met, and then call back into the resolving machinery when it is ready to proceed.
The asr_run() function drives the resolving process. It runs the asynchronous query represented by the handle until a result is available, or until it cannot continue without blocking. The results are returned to the user through the parameter, which must be a valid pointer to user allocated memory. is defined as:
-
struct asr_result { /* Fields set if the query is not done yet (asr_run returns 0) */ int ar_cond; /* ASR_WANT_READ or ASR_WANT_WRITE */ int ar_fd; /* the fd waiting for io condition */ int ar_timeout; /* time to wait for in milliseconds */ /* Error fields. Depends on the query type. */ int ar_errno; int ar_h_errno; int ar_gai_errno; int ar_rrset_errno; /* Result for res_*_async() calls */ int ar_count; /* number of answers in the dns reply */ int ar_rcode; /* response code in the dns reply */ void *ar_data; /* raw reply packet (must be freed) */ int ar_datalen; /* reply packet length */ struct sockaddr_storage ar_ns; /* nameserver that responded */ /* Result for other calls. Must be freed properly. */ struct addrinfo *ar_addrinfo; struct rrsetinfo *ar_rrsetinfo; struct hostent *ar_hostent; struct netent *ar_netent; };
- 0
- The query cannot be processed further until a specific condition on a file descriptor becomes true. The following members of the structure are filled:
- one of ASR_WANT_READ or ASR_WANT_WRITE,
- the file descriptor waiting for an IO operation,
- the amount of time to wait for in milliseconds.
- 1
- The query is completed. The members relevant to the actual async query type are set accordingly, including error conditions. In any case, the query is cleared and its handle is invalidated.
WORKING WITH THREADS
This implementation of the asynchronous resolver interface is thread-safe and lock-free internally, but the following restriction applies: Two different threads must not create queries on the same context or run queries originating from the same context at the same time. If they want to do that, all calls must be protected by a mutex around that context.It is generally not a problem since the main point of the asynchronous resolver is to multiplex queries within a single thread of control, so sharing a resolver among threads is not useful.
CAVEATS
This DNS resolver implementation doesn't support the EDNS0 protocol extension yet.