1353 lines
56 KiB
Groff
1353 lines
56 KiB
Groff
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.\" udns.3
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.\" udns library manpage
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.\"
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.\" Copyright (C) 2005-2014 Michael Tokarev <mjt+udns@tls.msk.ru>
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.\" This file is part of UDNS library, an async DNS stub resolver.
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.\"
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.\" This library is free software; you can redistribute it and/or
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.\" modify it under the terms of the GNU Lesser General Public
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.\" License as published by the Free Software Foundation; either
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.\" version 2.1 of the License, or (at your option) any later version.
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.\"
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.\" This library is distributed in the hope that it will be useful,
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.\" but WITHOUT ANY WARRANTY; without even the implied warranty of
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.\" MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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.\" Lesser General Public License for more details.
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.\"
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.\" You should have received a copy of the GNU Lesser General Public
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.\" License along with this library, in file named COPYING.LGPL; if not,
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.\" write to the Free Software Foundation, Inc., 59 Temple Place,
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.\" Suite 330, Boston, MA 02111-1307 USA
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.TH udns 3 "Jan 2014" "Library Functions"
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.SH NAME
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udns \- stub DNS resolver library
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.SH SYNOPSYS
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.nf
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#include <udns.h>
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struct \fBdns_ctx\fR;
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struct \fBdns_query\fR;
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extern struct dns_ctx \fBdns_defctx\fR;
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struct dns_ctx *\fIctx\fR;
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typedef void \fBdns_query_fn\fR(\fIctx\fR, void *\fIresult\fR, void *\fIdata\fR);
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typedef int
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\fBdns_parse_fn\fR(const unsigned char *\fIqnd\fR,
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const unsigned char *\fIpkt\fR,
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const unsigned char *\fIcur\fR,
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const unsigned char *\fIend\fR,
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void **\fIresultp\fR);
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\fBcc\fR ... -l\fBudns\fR
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.fi
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.SH DESCRIPTION
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.PP
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The DNS library, \fBudns\fR, implements thread-safe stub DNS resolver
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functionality, which may be used both traditional, syncronous way
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and asyncronously, with application-supplied event loop.
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.PP
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While DNS works with both TCP and UDP, performing UDP query first and
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if the result does not fit in UDP buffer (512 bytes max for original
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DNS protocol), retrying the query over TCP, the library uses UDP only,
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but uses EDNS0 (RFC2671) extensions which allows larger UDP buffers.
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.PP
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The library uses single UDP socket to perform all operations even when
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asking multiple nameservers. This way, it is very simple to use the
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library in asyncronous event-loop applications: an application should
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add only single socket to the set of filedescriptors it monitors for I/O.
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.PP
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The library uses two main objects, \fIresolver context\fR of type
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\fBstruct\ dns_ctx\fR, and \fIquery structure\fR of type
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\fBstruct\ dns_query\fR, both are opaque for an application.
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Resolver context holds global information about the resolver,
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such as list of nameservers to use, list of active requests and the like.
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Query objects holds information about a single DNS query in progress and
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are allocated/processed/freed by the library. Pointer to query structure
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may be treated as an identifier of an in-progress query and may be used
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to cancel the asyncronous query or to wait for it to complete.
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.PP
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Asyncronous interface works as follows. An application initializes
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resolver context, submits any number of queries for it using one of
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supplied \fBdns_submit_\fIXXX\fR() routines (each return the query
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identifier as pointer to query structure), waits for input on the
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UDP socket used by the library, and gives some control to the library
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by calling \fBdns_ioevent\fR() and \fBdns_timeouts\fR() routines when
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appropriate. The library performs all necessary processing and executes
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application supplied callback routine when a query completes (either
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successefully or not), giving it the result if any, pointer to the
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resolver context (from which completion status may be obtained), and
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the data pointer supplied by an application when the query has been
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submitted. When submitting a query, an application requests how to
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handle the reply -- to either return raw DNS reply packet for its
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own low-level processing, or it may provide an address of \fIparsing
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routine\fR of type \fBdns_parse_fn\fR to perform conversion of on-wire
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format into easy to use data structure (the library provides parsing
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routines for several commonly used resource record types, as well as
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type-safe higher-level inteface that requests parsing automatically).
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The I/O monitoring and timeout handling may be either traditional
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select() or poll() based, or any callback-driven technique may be
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used.
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.PP
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Additionally, the library provides traditional syncronous interface,
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which may be intermixed with asyncronous calls (during syncronous
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query processing, other asyncronous queries for the same resolver
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context continued to be processed as usual). An application uses
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one of numerous \fBdns_resolve_\fIXXX\fR() routines provided by the
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library to perform a query. As with asyncronous interface, an
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application may either request to return raw DNS packet or type-specific
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data structure by providing the parsing routine to handle the reply.
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Every routine from \fBdns_resolve_\fIXXX\fR() series return pointer
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to result or NULL in case of any error. Query completion status
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(or length of the raw DNS packet) is available from the resolver
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context using \fBdns_status\fR() routine, the same way as for the
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asyncronous interface.
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.PP
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Internally, library uses on-wire format of domain names, referred
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to as \fIDN format\fR in this manual page. This is a series of domain
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\fIlabels\fR whith preceeding length byte, terminated by zero-length
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label wich is integral part of the DN format. There are several routines
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provided to convert from traditional asciiz string to DN and back.
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Higher-level type-specific query interface hides the DN format from
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an application.
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.SH "COMMON DEFINITIONS"
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.PP
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Every DNS Resource Record (RR) has a \fItype\fR and a \fIclass\fR.
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The library defines several integer constants, \fBDNS_C_\fIXXX\fR and
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\fBDNS_T_\fIXXX\fR, to use as symbolic names for RR classes and types,
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such as \fBDNS_C_IN\fR for Internet class, \fBDNS_T_A\fR for IPv4
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address record type and so on. See udns.h header file for complete list
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of all such constants.
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.PP
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The following constants are defined in udns.h header file:
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.IP "\fBDNS_MAXDN\fR (255 bytes)"
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Maximum length of the domain name in internal (on-wire) DN format.
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.IP "\fBDNS_MAXLABEL\fR (63 bytes)"
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Maximum length of a single label in DN format.
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.IP "\fBDNS_MAXNAME\fR (1024 bytes)"
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Maximum length of asciiz format of a domain name.
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.IP "\fBDNS_HSIZE\fR (12 bytes)"
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Size of header in DNS packet.
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.IP "\fBDNS_PORT\fR (53)"
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Default port to use when contacting a DNS server.
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.IP "\fBDNS_MAXSERV\fR (6 servers)"
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Maximum number of DNS servers to use.
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.IP "\fBDNS_MAXPACKET\fR (512 bytes)"
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Maximum length of DNS UDP packet as specified by original DNS protocol
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.IP "\fBDNS_EDNS0PACKET\fR (4096 bytes)"
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Default length of DNS UDP packet (with EDNS0 extensions) the library uses.
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Note that recursive nameservers usually resides near the client asking them
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to resolve names, e.g. on the same LAN segment or even on the same host, so
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UDP packet fragmentation isn't a problem in most cases. Note also that
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the size of actual packets will be as many bytes as actual reply size requires,
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which is smaller than this value in almost all cases.
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.PP
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Additionally, several constants are defined to simplify work with raw DNS
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packets, such as DNS response codes (\fBDNS_R_\fIXXX\fR), DNS header layout
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(\fBDNS_H_\fIXXX\fR) and others. Again, see udns.h for complete list.
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Library error codes (\fBDNS_E_\fIXXX\fR) are described later in this
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manual page.
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.SH "RESOLVER CONTEXT"
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.PP
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Resolver context, of type \fBstruct\ dns_ctx\fR, is an object which is
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opaque to an application. Several routines provided by the library
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to initialize, copy and free resolver contexts. Most other high-level
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routines in this library expects a pointer to resolver context, \fIctx\fR,
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as the first argument. There is a default resolver context available,
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named \fBdns_defctx\fR. When the context pointer \fIctx\fR passed to
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a routine is NULL, \fBdns_defctx\fR is used. Several resolver contexts
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may be active at the same time, for example, when an application is
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multi-threaded and each thread uses resolver.
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.PP
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In order to use the library, an application should initialize and open
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one or more resolver context objects. These are two separate actions,
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performed by \fBdns_init\fR() (or \fBdns_reset\fR()), and \fBdns_open\fR().
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Between the two calls, an application is free to pefrorm additional
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initialisation, such as setting custom nameservers, options or domain search
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lists. Optionally, in case no additional custom initialisation is required,
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\fBdns_init\fR() may open the context if \fIdo_open\fR argument (see below)
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is non-zero.
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.PP
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When initializing resolver context, the library uses information from
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system file /etc/resolv.conf (see \fBresolv.conf\fR(5)), consults
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environment variables \fB$LOCALDOMAIN\fR, \fB$NSCACHEIP\fR,
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\fB$NAMESERVERS\fR and \fB$RES_OPTIONS\fR, and local host name to obtain
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list of local nameservers, domain name search list and various resolver
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options.
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.PP
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The following routines to initialize resolver context are available:
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.PP
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.nf
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void \fBdns_reset\fR(\fIctx\fR)
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int \fBdns_init\fR(\fIctx\fR, int \fIdo_open\fR)
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.fi
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.RS
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\fBdns_reset\fR() resets a given resolver context to default values,
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preparing it to be opened by \fBdns_open\fR().
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It is ok to call this routine against opened and active context - all active
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queries will be dropped, sockets will be closed and so on. This routine
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does not initialize any parameters from system configuration files, use
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\fBdns_init\fR() for this. There's no error return - operation always
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succeeds. \fBdns_init\fR() does everything \fBdns_reset\fR() does,
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plus initializes various parameters of the context according to system
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configuration and process environment variables. If \fIdo_open\fR is
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non-zero, \fBdns_init\fR() calls \fIdns_open\fR(), so that the whole
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library initialisation is performed in a single step.
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.RE
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.PP
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.nf
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struct dns_ctx *\fBdns_new\fR(struct dns_ctx *\fIcopy\fR)
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void \fBdns_free\fR(\fIctx\fR)
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.fi
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.RS
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\fBdns_new\fR() allocates new resolver context and copies all parameters
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for a given resolver context \fIcopy\fR, or default context if \fIcopy\fR
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is NULL, and returns pointer to the newly allocated context. The context
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being copied should be initialized.
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\fBdns_new\fR() may fail if there's no memory available to make a copy
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of \fIcopy\fR, in which case the routine will return NULL pointer.
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\fBdns_free\fR() is used to close assotiated socket and free resolver
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context resources and cancelling (abandoming) all active queries
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assotiated with it. It's an error to free \fBdns_defctx\fR, only
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dynamically allocated contexts returned by \fBdns_new\fR() are allowed
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to be freed by \fBdns_free\fR().
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.RE
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.PP
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.nf
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int \fBdns_add_serv\fR(\fIctx\fR, const char *\fIservaddr\fR)
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int \fBdns_add_serv_s\fR(\fIctx\fR, const struct sockaddr *\fIsa\fR)
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int \fBdns_add_srch\fR(\fIctx\fR, const char *\fIsrch\fR)
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.fi
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.RS
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Add an element to list of nameservers (\fBdns_add_serv\fR(), as
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asciiz-string \fIservaddr\fR with an IP address of the nameserver,
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and \fBdns_add_serv_s\fR(), as initialized socket address \fIsa\fR),
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or search list (\fBdns_add_srch\fR(), as a pointer to domain name)
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for the given context \fIctx\fR. If the last argument is a NULL
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pointer, the corresponding list (search or nameserver) is reset
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instead. Upon successeful completion, each routine returns new
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number of elements in the list in question. On error, negative
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value is returned and global variable \fBerrno\fR is set appropriately.
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It is an error to call any of this functions if the context is
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opened (after \fBdns_open\fR() or \fBdns_init\fR() with non-zero argument).
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.RE
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.PP
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.nf
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int \fBdns_set_opts\fR(\fIctx\fR, const char *\fIopts\fR)
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.fi
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.RS
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set resolver context options from \fIopts\fR string, in the same way as
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processing \fBoptions\fR statement in resolv.conf and \fB$RES_OPTIONS\fR
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environment variable. Return number of unrecognized/invalid options
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found (all recognized and valid options gets processed).
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.RE
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.PP
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.nf
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void \fBdns_set_opt\fR(\fIctx\fR, int \fIopt\fR, \fIval\fR)
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.fi
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.RS
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.B TODO
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The \fIflags\fR argument is a bitmask with the following bits defined:
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.IP \fBDNS_NOSRCH\fR
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do not perform domain name search in search list.
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.IP \fBDNS_NORD\fR
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do not request recursion when performing queries
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(i.e. don't set RD flag in querues).
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.IP \fBDNS_AAONLY\fR
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request authoritative answers only (i.e. set AA
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flag in queries).
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.RE
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.PP
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.nf
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int \fBdns_open\fR(\fIctx\fR)
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int \fBdns_sock\fR(const \fIctx\fR)
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void \fBdns_close\fR(\fIctx\fR)
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.fi
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.RS
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\fBdns_open\fR() opens the UDP socket used for queries if not already
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open, and return assotiated filedescriptor (or negative value in case
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of error). Before any query can be submitted, the context should be
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opened using this routine. And before opening, the context should be
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initialized.
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\fBdns_sock\fR() return the UDP socket if open, or -1 if not.
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\fBdns_close\fR() closes the UDP socket if it was open, and drops all active
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queries if any.
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.RE
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.PP
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.nf
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int \fBdns_active\fR(const \fIctx\fR)
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.fi
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.RS
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return number of active queries queued for the given context
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\fIctx\fR, or zero if none.
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.RE
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|
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.PP
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.nf
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int \fBdns_status\fR(const \fIctx\fR)
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.fi
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.RS
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return status code from last operation. When using syncronous
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interface, this is the query completion status of the last query.
|
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With asyncronous interface, from within the callback routine,
|
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this is the query completion status of the query for which the
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callback is being called. When query submission fails, this
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is the error code indicating failure reason. All error codes
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are negative and are represented by \fBDNS_E_\fIXXX\fR constants
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described below.
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.RE
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|
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.PP
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||
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.nf
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void \fBdns_ioevent\fR(\fIctx\fR, time_t \fInow\fR)
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.fi
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.RS
|
||
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this routine may be called by an application to process I/O
|
||
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events on the UDP socket used by the library, as returned
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by \fBdns_sock\fR(). The routine tries to receive incoming
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UDP datagram from the socket and process it. The socket is
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set up to be non-blocking, so it is safe to call the routine
|
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even if there's no data to read. The routine will process
|
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as many datagrams as are queued for the socket, so it is
|
||
|
safe to use it with either level-triggered or edge-triggered
|
||
|
I/O monitoring model. The \fInow\fR argument is either a
|
||
|
current time as returned by \fBtime\fR(), or 0, in which
|
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|
case the routine will obtain current time by it's own.
|
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.RE
|
||
|
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||
|
.PP
|
||
|
.nf
|
||
|
int \fBdns_timeouts\fR(\fIctx\fR, int \fImaxwait\fR, time_t \fInow\fR)
|
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|
.fi
|
||
|
.RS
|
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|
process any pending timeouts and return number of secounds
|
||
|
from current time (\fInow\fR if it is not 0) to the time when
|
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the library wants the application to pass it control to process
|
||
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more queued requests. In case when there are no requests pending,
|
||
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this time is -1. The routine will not request a time larger than
|
||
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\fImaxwait\fR secounds if it is greather or equal to zero. If
|
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\fInow\fR is 0, the routine will obtain current time by it's own;
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||
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when it is not 0, it should contain current time as returned by
|
||
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\fBtime\fR().
|
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|
.RE
|
||
|
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||
|
.PP
|
||
|
.nf
|
||
|
typedef void \fBdns_utm_fn\fR(\fIctx\fR, int \fItimeout\fR, void *\fIdata\fR)
|
||
|
void \fBdns_set_tmcbck\fR(\fIctx\fR, dns_utm_fn *\fIutmfn\fR, void *\fIdata\fR)
|
||
|
.fi
|
||
|
.RS
|
||
|
An application may use custom callback-based I/O multiplexing mechanism.
|
||
|
Usually such a mechanism have concept of a \fItimer\fR, and an ability
|
||
|
to register a timer event in a form of a callback routine which will
|
||
|
be executed after certain amount of time. In order to use such an
|
||
|
event mechanism, udns provides an ability to register and de-register
|
||
|
timer events necessary for internal processing using whatever event
|
||
|
mechanism an application uses. For this to work, it is possible to
|
||
|
assotiate a pointer to a routine that will perform necessary work for
|
||
|
(de)registering timer events with a given resolver context, and
|
||
|
udns will call that routine at appropriate times. Prototype of
|
||
|
such a routine is shown by \fBdns_utm_fn\fR typedef above. Libudns
|
||
|
assotiates single timer with resolver context. User-supplied \fIutmfn\fR
|
||
|
routine will be called by the library with the following arguments:
|
||
|
.IP "\fIctx\fR == NULL"
|
||
|
delete user timer, at context free time or when an application changes
|
||
|
user timer request routine using \fBdns_set_tmcbck\fR();
|
||
|
.IP "\fIctx\fR != NULL, \fItimeout\fR < 0"
|
||
|
don't fire timer anymore, when there are no active requests;
|
||
|
.IP "\fIctx\fR != NULL, \fItimeout\fR == 0"
|
||
|
fire timer at the next possibility, but not immediately;
|
||
|
.IP "\fIctx\fR != NULL, \fItimeout\fR > 0"
|
||
|
fire timer after \fItimeout\fR seconds after now.
|
||
|
.PP
|
||
|
The \fIdata\fR argument passed to the routine will be the same
|
||
|
as passed to \fBdns_set_tmcbck\fR().
|
||
|
.PP
|
||
|
When a timer expires, an application should call \fBdns_timeouts\fR()
|
||
|
routine (see below). Non-callback timer usage is provided too.
|
||
|
.RE
|
||
|
|
||
|
.PP
|
||
|
.B XXXX TODO: some more resolver context routines, like dns_set_dbgfn() etc.
|
||
|
|
||
|
.SH "QUERY INTERFACE"
|
||
|
|
||
|
.PP
|
||
|
There are two ways to perform DNS queries: traditional syncronous
|
||
|
way, when udns performs all the necessary processing and return
|
||
|
control to the application only when the query completes, and
|
||
|
asyncronous way, when an application submits one or more queries
|
||
|
to the library using given resolver context, and waits for completion
|
||
|
by monitoring filedescriptor used by library and calling library
|
||
|
routines to process input on that filedescriptor. Asyncronous mode
|
||
|
works with callback routines: an application supplies an address of
|
||
|
a routine to execute when the query completes, and a data pointer,
|
||
|
which is passed to the callback routine.
|
||
|
|
||
|
.PP
|
||
|
Queries are submitted to the library in a form of \fBstruct\ dns_query\fR.
|
||
|
To perform asyncronous query, an application calls one of the
|
||
|
\fBdns_submit_\fIXXX\fR() rounines, and provides necessary information
|
||
|
for a callback, together with all the query parameters.
|
||
|
When the query completes, library will call application-supplied callback
|
||
|
routine, giving it the resolver context (wich holds query completion status),
|
||
|
dynamically allocated result (which will be either raw DNS packet or, if
|
||
|
applicatin requested parsing the result by specifying non-NULL parse routine,
|
||
|
ready-to-use type-specific structure), and a data pointer provided by an
|
||
|
application when it submitted the query. It is the application who's
|
||
|
responsible for freeing the result memory.
|
||
|
.PP
|
||
|
Generic query callback routine looks like this:
|
||
|
.nf
|
||
|
typedef void
|
||
|
\fBdns_query_fn\fR(\fIctx\fR, void *\fIresult\fR, void *\fIdata\fR)
|
||
|
.fi
|
||
|
Type-specific query interface expects similar form of callback
|
||
|
routine with the only difference in type of \fBresult\fR argument,
|
||
|
which will be pointer to specific data structure (decoded reply)
|
||
|
instead of this void pointer to raw DNS packet data.
|
||
|
|
||
|
.PP
|
||
|
Result parsing routine looks like this:
|
||
|
.nf
|
||
|
typedef int
|
||
|
\fBdns_parse_fn\fR(const unsigned char *\fIqdn\fR,
|
||
|
const unsigned char *\fIpkt\fR,
|
||
|
const unsigned char *\fIcur\fR,
|
||
|
const unsigned char *\fIend\fR,
|
||
|
void **\fIresultp\fR);
|
||
|
.fi
|
||
|
When called by the library, the arguments are as follows:
|
||
|
\fIpkt\fR points to the start of the packet received;
|
||
|
\fIend\fR points past the end of the packet received;
|
||
|
\fIcur\fR points past the query DN in the query section of the
|
||
|
packet;
|
||
|
\fIqdn\fR points to the original query DN.
|
||
|
The routine should allocate a single buffer to hold the result,
|
||
|
parse the reply filling in the buffer, and return the buffer
|
||
|
using \fIresultp\fR argument. It returns 0 in case of error,
|
||
|
or udns error code (\fBDNS_E_\fIXXX\fR constants) in case of
|
||
|
error.
|
||
|
Note that by the time when the parse routine is called by the
|
||
|
library, packet is already verified to be a reply to the
|
||
|
original query, by matching query DN, query class and query type.
|
||
|
|
||
|
.PP
|
||
|
Type-specific query inteface supplies necessary parsing routines
|
||
|
automatically.
|
||
|
|
||
|
.PP
|
||
|
In case of error, query completion status as returned by
|
||
|
\fBdns_status\fR(\fIctx\fR), will contain one of the following values:
|
||
|
.IP "positive value"
|
||
|
length of raw DNS packet if parsing is not requested.
|
||
|
.IP 0
|
||
|
the query was successeful and the \fIreply\fR points to type-specific
|
||
|
data structure.
|
||
|
.IP \fBDNS_E_TEMPFAIL\fR
|
||
|
temporary error, the resolver nameserver was not able to
|
||
|
process our query or timed out.
|
||
|
.IP \fBDNS_E_PROTOCOL\fR
|
||
|
protocol error, a nameserver returned malformed reply.
|
||
|
.IP \fBDNS_E_NXDOMAIN\fR
|
||
|
the domain name does not exist.
|
||
|
.IP \fBDNS_E_NODATA\fR
|
||
|
there is no data of requested type found.
|
||
|
.IP \fBDNS_E_NOMEM\fR
|
||
|
out of memory while processing request.
|
||
|
.IP \fBDNS_E_BADQUERY\fR
|
||
|
some aspect of the query (most common is the domain name in question)
|
||
|
is invalid, and the library can't even start a query.
|
||
|
|
||
|
.PP
|
||
|
Library provides two series of routines which uses similar interface --
|
||
|
one for asyncronous queries and another for syncronous queries. There
|
||
|
are two general low-level routines in each series to submit (asyncronous
|
||
|
interface) and resolve (syncronous interface) queries, as well as several
|
||
|
type-specific routines with more easy-to-use interfaces. To submit
|
||
|
an asyncronous query, use one of \fBdns_submit_\fIXXX\fR() routine, each
|
||
|
of which accepts query parameters, pointers to callback routine and to
|
||
|
callback data, and optional current time hint. Note type-specific
|
||
|
\fBdns_submit_\fIXXX\fR() routines expects specific type of the callback
|
||
|
routine as well, which accepts reply as a pointer to corresponding
|
||
|
structure, not a void pointer). Every \fBdns_submit_\fIXXX\fR() routine
|
||
|
return pointer to internal query structure of type struct\ dns_query,
|
||
|
used as an identifier for the given query.
|
||
|
|
||
|
.PP
|
||
|
To resolve a query syncronously, use one of \fBdns_resolve_\fIXXX\fR()
|
||
|
routines, which accepts the same query parameters (but not the
|
||
|
callback pointers) as corresponding \fBdns_submit_\fIXXX\fR(), and
|
||
|
return the query result, which is the same as passed to the callback
|
||
|
routine in case of asyncronous interface.
|
||
|
|
||
|
.PP
|
||
|
In either case, the result memory (if the query completed successefully)
|
||
|
is dynamically allocated and should be freed by an application. If
|
||
|
the query failed for any reason, the result will be NULL, and error
|
||
|
status will be available from \fBdns_status\fR(\fIctx\fR) routine
|
||
|
as shown above.
|
||
|
|
||
|
.PP
|
||
|
.nf
|
||
|
struct dns_query *
|
||
|
\fBdns_submit_dn\fR(\fIctx\fR,
|
||
|
const unsigned char *\fIdn\fR, \fIqcls\fR, \fIqtyp\fR, \fIflags\fR,
|
||
|
\fIparse\fR, \fIcbck\fR, \fIdata\fR)
|
||
|
struct dns_query *
|
||
|
\fBdns_submit_p\fR(\fIctx\fR,
|
||
|
const char *\fIname\fR, \fIqcls\fR, \fIqtyp\fR, \fIflags\fR,
|
||
|
\fIparse\fR, \fIcbck\fR, \fIdata\fR)
|
||
|
enum dns_class \fIqcls\fR;
|
||
|
enum dns_type \fIqtyp\fR;
|
||
|
int \fIflags\fR;
|
||
|
dns_parse_fn *\fIparse\fR;
|
||
|
dns_query_fn *\fIcbck\fR;
|
||
|
void *\fIdata\fR;
|
||
|
.fi
|
||
|
.RS
|
||
|
submit a query for processing for the given resolver context \fIctx\fR.
|
||
|
Two routines differs only in 3rd argument, which is domain name in
|
||
|
DN format (\fIdn\fR) or asciiz string (\fIname\fR). The query will be
|
||
|
performed for the given domain name, with type \fIqtyp\fR in class \fIqcls\fR,
|
||
|
using option bits in \fIflags\fR, using RR parsing routine pointed by
|
||
|
\fIparse\fR if not-NULL, and upon completion, \fIcbck\fR function will
|
||
|
be called with the \fIdata\fR argument.
|
||
|
In case of successeful query submission,
|
||
|
the routine return pointer to internal query structure which may be treated
|
||
|
as an identifier of the query as used by the library, and may be used as an
|
||
|
argument for \fBdns_cancel\fR() routine. In case of error, NULL will be
|
||
|
returned, and context error status (available using \fIdns_status\fR() routine)
|
||
|
will be set to corresponding error code, which in this case may be
|
||
|
DNS_E_BADQUERY if the \fIname\fR of \fIdn\fR is invalid, DNS_E_NOMEM if
|
||
|
there's no memory available to allocate query structure, or DNS_E_TEMPFAIL
|
||
|
if an internal error occured.
|
||
|
.RE
|
||
|
|
||
|
.PP
|
||
|
.nf
|
||
|
void *\fBdns_resolve_dn\fR(\fIctx\fR,
|
||
|
const unsigned char *\fIdn\fR, \fIqcls\fR, \fIqtyp\fR, \fIflags\fR, \fIparse\fR);
|
||
|
void *\fBdns_resolve_p\fR(\fIctx\fR,
|
||
|
const char *\fIname\fR, \fIqcls\fR, \fIqtyp\fR, \fIflags\fR, \fIparse\fR)
|
||
|
enum dns_class \fIqcls\fR;
|
||
|
enum dns_type \fIqtyp\fR;
|
||
|
int \fIflags\fR;
|
||
|
dns_parse_fn *\fIparse\fR;
|
||
|
.fi
|
||
|
.RS
|
||
|
syncronous interface. The routines perform all the steps necessary to resolve
|
||
|
the given query and return the result. If there's no positive result for any
|
||
|
reason, all the routines return NULL, and set context error status (available
|
||
|
using \fBdns_status\fR() routine) to indicate the error code. If the query
|
||
|
was successeful, context status code will contain either the length of the
|
||
|
raw DNS reply packet if \fIparse\fR argument was NULL (in which case the return
|
||
|
value is pointer to the reply DNS packet), or 0 (in which case the return value
|
||
|
is the result of \fIparse\fR routine). If the query successeful (return value
|
||
|
is not NULL), the memory returned was dynamically allocated by the library
|
||
|
and should be free()d by application after use.
|
||
|
.RE
|
||
|
|
||
|
.PP
|
||
|
.nf
|
||
|
void *\fBdns_resolve\fR(\fIctx\fR, struct dns_query *\fIq\fR)
|
||
|
.fi
|
||
|
.RS
|
||
|
wait for the given query \fIq\fR, as returned by one of
|
||
|
\fBdns_submit_\fIXXX\fR() routines, for completion, and
|
||
|
return the result. The callback routine will not be called
|
||
|
for this query. After completion, the query identifier \fIq\fR
|
||
|
is not valid. Both \fBdns_resolve_dn\fR() and \fBdns_resolve_p\fR()
|
||
|
are just wrappers around corresponding submit routines and this
|
||
|
\fBdns_resolve\fR() routine.
|
||
|
.RE
|
||
|
|
||
|
.PP
|
||
|
.nf
|
||
|
void \fBdns_cancel\fR(\fIctx\fR, struct dns_query *\fIq\fR)
|
||
|
.fi
|
||
|
.RS
|
||
|
cancel an active query \fIq\fR, without calling a callback routine.
|
||
|
After completion, the query identifier \fIq\fR is not valid.
|
||
|
.RE
|
||
|
|
||
|
.SH "TYPE-SPECIFIC QUERIES"
|
||
|
|
||
|
.PP
|
||
|
In addition to the generic low-level query interface, the library provides
|
||
|
a set of routines to perform specific queries in a type-safe manner, as
|
||
|
well as parsers for several well-known resource record types. The library
|
||
|
implements high-level interface for A, AAAA, PTR, MX and TXT records
|
||
|
and DNSBL and RHSBL functionality. These routines returns specific types
|
||
|
as result of a query, instead of raw DNS packets. The following types
|
||
|
and routines are available.
|
||
|
|
||
|
.PP
|
||
|
.nf
|
||
|
struct \fBdns_rr_null\fR {
|
||
|
char *\fBdnsn_qname\fR; /* original query name */
|
||
|
char *\fBdnsn_cname\fR; /* canonical name */
|
||
|
unsigned \fBdnsn_ttl\fR; /* Time-To-Live (TTL) value */
|
||
|
int \fBdnsn_nrr\fR; /* number of records in the set */
|
||
|
};
|
||
|
.fi
|
||
|
.PP
|
||
|
NULL RR set, used as a base for all other RR type structures.
|
||
|
Every RR structure as used by the library have four standard
|
||
|
fields as in struct\ \fBdns_rr_null\fR.
|
||
|
|
||
|
.SS "IN A Queries"
|
||
|
.PP
|
||
|
.nf
|
||
|
struct \fBdns_rr_a4\fR { /* IN A RRset */
|
||
|
char *\fBdnsa4_qname\fR; /* original query name */
|
||
|
char *\fBdnsa4_cname\fR; /* canonical name */
|
||
|
unsigned \fBdnsa4_ttl\fR; /* Time-To-Live (TTL) value */
|
||
|
int \fBdnsa4_nrr\fR; /* number of addresses in the set */
|
||
|
struct in_addr \fBdnsa4_addr\fR[]; /* array of addresses */
|
||
|
};
|
||
|
typedef void
|
||
|
\fBdns_query_a4_fn\fR(\fIctx\fR, struct dns_rr_a4 *\fIresult\fR, \fIdata\fR)
|
||
|
dns_parse_fn \fBdns_parse_a4\fB;
|
||
|
struct dns_query *
|
||
|
\fBdns_submit_a4\fB(\fIctx\fR, const char *\fIname\fR, int \fIflags\fR,
|
||
|
dns_query_a4_fn *\fIcbck\fR, \fIdata\fR);
|
||
|
struct dns_rr_a4 *
|
||
|
\fBdns_resolve_a4\fB(\fIctx\fR, const char *\fIname\fR, int \fIflags\fR);
|
||
|
.fi
|
||
|
.PP
|
||
|
The \fBdns_rr_a4\fR structure holds a result of an \fBIN A\fR query,
|
||
|
which is an array of IPv4 addresses. Callback routine for IN A queries
|
||
|
expected to be of type \fBdns_query_a4_fn\fR, which expects pointer to
|
||
|
\fBdns_rr_a4\fR structure as query result instead of raw DNS packet.
|
||
|
The \fBdns_parse_a4\fR() is used to convert raw DNS reply packet into
|
||
|
\fBdns_rr_a4\fR structure (it is used internally and may be used directly too
|
||
|
with generic query interface). Routines \fBdns_submit_a4\fR() and
|
||
|
\fBdns_resolve_a4\fR() are used to perform A IN queries in a type-safe
|
||
|
manner. The \fIname\fR parameter is the domain name in question, and
|
||
|
\fIflags\fR is query flags bitmask, with one bit, DNS_NOSRCH, of practical
|
||
|
interest (if the \fIname\fR is absolute, that is, it ends up with a dot,
|
||
|
DNS_NOSRCH flag will be set automatically).
|
||
|
|
||
|
.SS "IN AAAA Queries"
|
||
|
.PP
|
||
|
.nf
|
||
|
struct \fBdns_rr_a6\fR { /* IN AAAA RRset */
|
||
|
char *\fBdnsa6_qname\fR; /* original query name */
|
||
|
char *\fBdnsa6_cname\fR; /* canonical name */
|
||
|
unsigned \fBdnsa6_ttl\fR; /* Time-To-Live (TTL) value */
|
||
|
int \fBdnsa6_nrr\fR; /* number of addresses in the set */
|
||
|
struct in6_addr \fBdnsa6_addr\fR[]; /* array of addresses */
|
||
|
};
|
||
|
typedef void
|
||
|
\fBdns_query_a6_fn\fR(\fIctx\fR, struct dns_rr_a6 *\fIresult\fR, \fIdata\fR)
|
||
|
dns_parse_fn \fBdns_parse_a6\fB;
|
||
|
struct dns_query *
|
||
|
\fBdns_submit_a6\fB(\fIctx\fR, const char *\fIname\fR, int \fIflags\fR,
|
||
|
dns_query_a6_fn *\fIcbck\fR, \fIdata\fR);
|
||
|
struct dns_rr_a6 *
|
||
|
\fBdns_resolve_a6\fB(\fIctx\fR, const char *\fIname\fR, int \fIflags\fR);
|
||
|
.fi
|
||
|
.PP
|
||
|
The \fBdns_rr_a6\fR structure holds a result of an \fBIN AAAA\fR query,
|
||
|
which is an array of IPv6 addresses. Callback routine for IN AAAA queries
|
||
|
expected to be of type \fBdns_query_a6_fn\fR, which expects pointer to
|
||
|
\fBdns_rr_a6\fR structure as query result instead of raw DNS packet.
|
||
|
The \fBdns_parse_a6\fR() is used to convert raw DNS reply packet into
|
||
|
\fBdns_rr_a6\fR structure (it is used internally and may be used directly too
|
||
|
with generic query interface). Routines \fBdns_submit_a6\fR() and
|
||
|
\fBdns_resolve_a6\fR() are used to perform AAAA IN queries in a type-safe
|
||
|
manner. The \fIname\fR parameter is the domain name in question, and
|
||
|
\fIflags\fR is query flags bitmask, with one bit, DNS_NOSRCH, of practical
|
||
|
interest (if the \fIname\fR is absolute, that is, it ends up with a dot,
|
||
|
DNS_NOSRCH flag will be set automatically).
|
||
|
|
||
|
.SS "IN PTR Queries"
|
||
|
.PP
|
||
|
.nf
|
||
|
struct \fBdns_rr_ptr\fR { /* IN PTR RRset */
|
||
|
char *\fBdnsptr_qname\fR; /* original query name */
|
||
|
char *\fBdnsptr_cname\fR; /* canonical name */
|
||
|
unsigned \fBdnsptr_ttl\fR; /* Time-To-Live (TTL) value */
|
||
|
int \fBdnsptr_nrr\fR; /* number of domain name pointers */
|
||
|
char *\fBdnsptr_ptr\fR[]; /* array of domain name pointers */
|
||
|
};
|
||
|
typedef void
|
||
|
\fBdns_query_ptr_fn\fR(\fIctx\fR, struct dns_rr_ptr *\fIresult\fR, \fIdata\fR)
|
||
|
dns_parse_fn \fBdns_parse_ptr\fB;
|
||
|
struct dns_query *
|
||
|
\fBdns_submit_a4ptr\fB(\fIctx\fR, const struct in_addr *\fBaddr\fR,
|
||
|
dns_query_ptr_fn *\fIcbck\fR, \fIdata\fR);
|
||
|
struct dns_rr_ptr *
|
||
|
\fBdns_resolve_a4ptr\fB(\fIctx\fR, const struct in_addr *\fBaddr\fR);
|
||
|
struct dns_query *
|
||
|
\fBdns_submit_a6ptr\fB(\fIctx\fR, const struct in6_addr *\fBaddr\fR,
|
||
|
dns_query_ptr_fn *\fIcbck\fR, \fIdata\fR);
|
||
|
struct dns_rr_ptr *
|
||
|
\fBdns_resolve_a6ptr\fB(\fIctx\fR, const struct in6_addr *\fBaddr\fR);
|
||
|
.fi
|
||
|
.PP
|
||
|
The \fBdns_rr_ptr\fR structure holds a result of an IN PTR query, which
|
||
|
is an array of domain name pointers for a given IPv4 or IPv6 address.
|
||
|
Callback routine for IN PTR queries expected to be of type
|
||
|
\fBdns_query_ptr_fn\fR, which expects pointer to \fBdns_rr_ptr\fR
|
||
|
structure as query result instead of raw DNS packet. The \fBdns_parse_ptr\fR()
|
||
|
is used to convert raw DNS reply packet into \fBdns_rr_ptr\fR structure
|
||
|
(it is used internally and may be used directly too with generic query
|
||
|
interface). Routines \fBdns_submit_a4ptr\fR() and \fBdns_resolve_a4ptr\fR()
|
||
|
are used to perform IN PTR queries for IPv4 addresses in a type-safe
|
||
|
manner. Routines \fBdns_submit_a6ptr\fR() and \fBdns_resolve_a6ptr\fR()
|
||
|
are used to perform IN PTR queries for IPv6 addresses.
|
||
|
|
||
|
.SS "IN MX Queries"
|
||
|
.PP
|
||
|
.nf
|
||
|
struct \fBdns_mx\fR { /* single MX record */
|
||
|
int \fBpriority\fR; /* priority value of this MX */
|
||
|
char *\fBname\fR; /* domain name of this MX */
|
||
|
};
|
||
|
struct \fBdns_rr_mx\fR { /* IN MX RRset */
|
||
|
char *\fBdnsmx_qname\fR; /* original query name */
|
||
|
char *\fBdnsmx_cname\fR; /* canonical name */
|
||
|
unsigned \fBdnsmx_ttl\fR; /* Time-To-Live (TTL) value */
|
||
|
int \fBdnsmx_nrr\fR; /* number of mail exchangers in the set */
|
||
|
struct dns_mx \fBdnsmx_mx\fR[]; /* array of mail exchangers */
|
||
|
};
|
||
|
typedef void
|
||
|
\fBdns_query_mx_fn\fR(\fIctx\fR, struct dns_rr_mx *\fIresult\fR, \fIdata\fR)
|
||
|
dns_parse_fn \fBdns_parse_mx\fB;
|
||
|
struct dns_query *
|
||
|
\fBdns_submit_mx\fB(\fIctx\fR, const char *\fIname\fR, int \fIflags\fR,
|
||
|
dns_query_mx_fn *\fIcbck\fR, \fIdata\fR);
|
||
|
struct dns_rr_mx *
|
||
|
\fBdns_resolve_mx\fB(\fIctx\fR, const char *\fIname\fR, int \fIflags\fR);
|
||
|
.fi
|
||
|
.PP
|
||
|
The \fBdns_rr_mx\fR structure holds a result of an IN MX query, which
|
||
|
is an array of mail exchangers for a given domain. Callback routine for IN MX
|
||
|
queries expected to be of type \fBdns_query_mx_fn\fR, which expects pointer to
|
||
|
\fBdns_rr_mx\fR structure as query result instead of raw DNS packet.
|
||
|
The \fBdns_parse_mx\fR() is used to convert raw DNS reply packet into
|
||
|
\fBdns_rr_mx\fR structure (it is used internally and may be used directly too
|
||
|
with generic query interface). Routines \fBdns_submit_mx\fR() and
|
||
|
\fBdns_resolve_mx\fR() are used to perform IN MX queries in a type-safe
|
||
|
manner. The \fIname\fR parameter is the domain name in question, and
|
||
|
\fIflags\fR is query flags bitmask, with one bit, DNS_NOSRCH, of practical
|
||
|
interest (if the \fIname\fR is absolute, that is, it ends up with a dot,
|
||
|
DNS_NOSRCH flag will be set automatically).
|
||
|
|
||
|
.SS "TXT Queries"
|
||
|
.PP
|
||
|
.nf
|
||
|
struct \fBdns_txt\fR { /* single TXT record */
|
||
|
int \fBlen\fR; /* length of the text */
|
||
|
unsigned char *\fBtxt\fR; /* pointer to the text */
|
||
|
};
|
||
|
struct \fBdns_rr_txt\fR { /* TXT RRset */
|
||
|
char *\fBdnstxt_qname\fR; /* original query name */
|
||
|
char *\fBdnstxt_cname\fR; /* canonical name */
|
||
|
unsigned \fBdnstxt_ttl\fR; /* Time-To-Live (TTL) value */
|
||
|
int \fBdnstxt_nrr\fR; /* number of text records in the set */
|
||
|
struct dns_txt \fBdnstxt_txt\fR[]; /* array of TXT records */
|
||
|
};
|
||
|
typedef void
|
||
|
\fBdns_query_txt_fn\fR(\fIctx\fR, struct dns_rr_txt *\fIresult\fR, \fIdata\fR)
|
||
|
dns_parse_fn \fBdns_parse_txt\fB;
|
||
|
struct dns_query *
|
||
|
\fBdns_submit_txt\fB(\fIctx\fR, const char *\fIname\fR, enum dns_class \fIqcls\fR,
|
||
|
int \fIflags\fR, dns_query_txt_fn *\fIcbck\fR, \fIdata\fR);
|
||
|
struct dns_rr_txt *
|
||
|
\fBdns_resolve_txt\fB(\fIctx\fR, const char *\fIname\fR,
|
||
|
enum dns_class \fIqcls\fR, int \fIflags\fR);
|
||
|
.fi
|
||
|
.PP
|
||
|
The \fBdns_rr_txt\fR structure holds a result of a TXT query, which is an
|
||
|
array of text records for a given domain name. Callback routine for TXT
|
||
|
queries expected to be of type \fBdns_query_txt_fn\fR, which expects pointer
|
||
|
to \fBdns_rr_txt\fR structure as query result instead of raw DNS packet.
|
||
|
The \fBdns_parse_txt\fR() is used to convert raw DNS reply packet into
|
||
|
\fBdns_rr_txt\fR structure (it is used internally and may be used directly too
|
||
|
with generic query interface). Routines \fBdns_submit_txt\fR() and
|
||
|
\fBdns_resolve_txt\fR() are used to perform IN MX queries in a type-safe
|
||
|
manner. The \fIname\fR parameter is the domain name in question, and
|
||
|
\fIflags\fR is query flags bitmask, with one bit, DNS_NOSRCH, of practical
|
||
|
interest (if the \fIname\fR is absolute, that is, it ends up with a dot,
|
||
|
DNS_NOSRCH flag will be set automatically). Note that each TXT string
|
||
|
is represented by \fBstruct\ dns_txt\fR, while zero-terminated (and the
|
||
|
len field of the structure does not include the terminator), may contain
|
||
|
embedded null characters -- content of TXT records is not interpreted
|
||
|
by the library in any way.
|
||
|
|
||
|
.SS "SRV Queries"
|
||
|
.PP
|
||
|
.nf
|
||
|
struct \fBdns_srv\fR { /* single SRV record */
|
||
|
int \fBpriority\fR; /* priority of the record */
|
||
|
int \fBweight\fR; /* weight of the record */
|
||
|
int \fBport\fR; /* the port number to connect to */
|
||
|
char *\fBname\fR; /* target host name */
|
||
|
};
|
||
|
struct \fBdns_rr_srv\fR { /* SRV RRset */
|
||
|
char *\fBdnssrv_qname\fR; /* original query name */
|
||
|
char *\fBdnssrv_cname\fR; /* canonical name */
|
||
|
unsigned \fBdnssrv_ttl\fR; /* Time-To-Live (TTL) value */
|
||
|
int \fBdnssrv_nrr\fR; /* number of text records in the set */
|
||
|
struct dns_srv \fBdnssrv_srv\fR[]; /* array of SRV records */
|
||
|
};
|
||
|
typedef void
|
||
|
\fBdns_query_srv_fn\fR(\fIctx\fR, struct dns_rr_srv *\fIresult\fR, \fIdata\fR)
|
||
|
dns_parse_fn \fBdns_parse_srv\fB;
|
||
|
struct dns_query *
|
||
|
\fBdns_submit_srv\fB(\fIctx\fR, const char *\fIname\fR, const char *\fIservice\fR, const char *\fIprotocol\fR,
|
||
|
int \fIflags\fR, dns_query_txt_fn *\fIcbck\fR, \fIdata\fR);
|
||
|
struct dns_rr_srv *
|
||
|
\fBdns_resolve_srv\fB(\fIctx\fR, const char *\fIname\fR, const char *\fIservice\fR, const char *\fIprotocol\fR,
|
||
|
int \fIflags\fR);
|
||
|
.fi
|
||
|
.PP
|
||
|
The \fBdns_rr_srv\fR structure holds a result of an IN SRV (rfc2782) query,
|
||
|
which is an array of servers (together with port numbers) which are performing
|
||
|
operations for a given \fIservice\fR using given \fIprotocol\fR on a target
|
||
|
domain \fIname\fR. Callback routine for IN SRV queries expected to be of type
|
||
|
\fBdns_query_srv_fn\fR, which expects pointer to \fBdns_rr_srv\fR structure as
|
||
|
query result instead of raw DNS packet. The \fBdns_parse_srv\fR() is used to
|
||
|
convert raw DNS reply packet into \fBdns_rr_srv\fR structure (it is used
|
||
|
internally and may be used directly too with generic query interface).
|
||
|
Routines \fBdns_submit_srv\fR() and \fBdns_resolve_srv\fR() are used to
|
||
|
perform IN SRV queries in a type-safe manner. The \fIname\fR parameter
|
||
|
is the domain name in question, \fIservice\fR and \fRprotocl\fR specifies the
|
||
|
service and the protocol in question (the library will construct query DN
|
||
|
according to rfc2782 rules) and may be NULL (in this case the library
|
||
|
assumes \fIname\fR parameter holds the complete SRV query), and
|
||
|
\fIflags\fR is query flags bitmask, with one bit, DNS_NOSRCH, of practical
|
||
|
interest (if the \fIname\fR is absolute, that is, it ends up with a dot,
|
||
|
DNS_NOSRCH flag will be set automatically).
|
||
|
|
||
|
.SS "NAPTR Queries"
|
||
|
.PP
|
||
|
.nf
|
||
|
struct \fBdns_naptr\fR { /* single NAPTR record */
|
||
|
int \fBorder\fR; /* record order */
|
||
|
int \fBpreference\fR; /* preference of this record */
|
||
|
char *\fBflags\fR; /* application-specific flags */
|
||
|
char *\fBservice\fR; /* service parameter */
|
||
|
char *\fBregexp\fR; /* substitutional regular expression */
|
||
|
char *\fBreplacement\fR; /* replacement string */
|
||
|
};
|
||
|
struct \fBdns_rr_naptr\fR { /* NAPTR RRset */
|
||
|
char *\fBdnsnaptr_qname\fR; /* original query name */
|
||
|
char *\fBdnsnaptr_cname\fR; /* canonical name */
|
||
|
unsigned \fBdnsnaptr_ttl\fR; /* Time-To-Live (TTL) value */
|
||
|
int \fBdnsnaptr_nrr\fR; /* number of text records in the set */
|
||
|
struct dns_naptr \fBdnsnaptr_naptr\fR[]; /* array of NAPTR records */
|
||
|
};
|
||
|
typedef void
|
||
|
\fBdns_query_naptr_fn\fR(\fIctx\fR, struct dns_rr_naptr *\fIresult\fR, \fIdata\fR)
|
||
|
dns_parse_fn \fBdns_parse_naptr\fB;
|
||
|
struct dns_query *
|
||
|
\fBdns_submit_naptr\fB(\fIctx\fR, const char *\fIname\fR, int \fIflags\fR,
|
||
|
dns_query_txt_fn *\fIcbck\fR, \fIdata\fR);
|
||
|
struct dns_rr_naptr *
|
||
|
\fBdns_resolve_naptr\fB(\fIctx\fR, const char *\fIname\fR, int \fIflags\fR);
|
||
|
.fi
|
||
|
.PP
|
||
|
The \fBdns_rr_naptr\fR structure holds a result of an IN NAPTR (rfc3403) query.
|
||
|
Callback routine for IN NAPTR queries expected to be of type
|
||
|
\fBdns_query_naptr_fn\fR, expects pointer to \fBdns_rr_naptr\fR
|
||
|
structure as query result instead of raw DNS packet.
|
||
|
The \fBdns_parse_naptr\fR() is used to convert raw DNS reply packet into
|
||
|
\fBdns_rr_naptr\fR structure (it is used
|
||
|
internally and may be used directly too with generic query interface).
|
||
|
Routines \fBdns_submit_naptr\fR() and \fBdns_resolve_naptr\fR() are used to
|
||
|
perform IN NAPTR queries in a type-safe manner. The \fIname\fR parameter
|
||
|
is the domain name in question, and \fIflags\fR is query flags bitmask,
|
||
|
with one bit, DNS_NOSRCH, of practical interest (if the \fIname\fR is
|
||
|
absolute, that is, it ends up with a dot, DNS_NOSRCH flag will be set
|
||
|
automatically).
|
||
|
|
||
|
.SS "DNSBL Interface"
|
||
|
.PP
|
||
|
A DNS-based blocklists, or a DNSBLs, are in wide use nowadays, especially
|
||
|
to protect mailservers from spammers. The library provides DNSBL interface,
|
||
|
a set of routines to perform queries against DNSBLs. Routines accepts an
|
||
|
IP address (IPv4 and IPv6 are both supported) and a base DNSBL zone as
|
||
|
query parameters, and returns either \fBdns_rr_a4\fR or \fBdns_rr_txt\fR
|
||
|
structure. Note that IPv6 interface return IPv4 RRset.
|
||
|
.PP
|
||
|
.nf
|
||
|
struct dns_query *
|
||
|
\fBdns_submit_a4dnsbl\fR(\fIctx\fR,
|
||
|
const struct in_addr *\fIaddr\fR, const char *\fIdnsbl\fR,
|
||
|
dns_query_a4_fn *\fIcbck\fR, void *\fIdata\fR);
|
||
|
struct dns_query *
|
||
|
\fBdns_submit_a4dnsbl_txt\fR(\fIctx\fR,
|
||
|
const struct in_addr *\fIaddr\fR, const char *\fIdnsbl\fR,
|
||
|
dns_query_txt_fn *\fIcbck\fR, void *\fIdata\fR);
|
||
|
struct dns_query *
|
||
|
\fBdns_submit_a6dnsbl\fR(\fIctx\fR,
|
||
|
const struct in6_addr *\fIaddr\fR, const char *\fIdnsbl\fR,
|
||
|
dns_query_a4_fn *\fIcbck\fR, void *\fIdata\fR);
|
||
|
struct dns_query *
|
||
|
\fBdns_submit_a6dnsbl_txt\fR(\fIctx\fR,
|
||
|
const struct in6_addr *\fIaddr\fR, const char *\fIdnsbl\fR,
|
||
|
dns_query_txt_fn *\fIcbck\fR, void *\fIdata\fR);
|
||
|
struct dns_rr_a4 *\fBdns_resolve_a4dnsbl\fR(\fIctx\fR,
|
||
|
const struct in_addr *\fIaddr\fR, const char *\fIdnsbl\fR)
|
||
|
struct dns_rr_txt *\fBdns_resolve_a4dnsbl_txt\fR(\fIctx\fR,
|
||
|
const struct in_addr *\fIaddr\fR, const char *\fIdnsbl\fR)
|
||
|
struct dns_rr_a4 *\fBdns_resolve_a6dnsbl\fR(\fIctx\fR,
|
||
|
const struct in6_addr *\fIaddr\fR, const char *\fIdnsbl\fR)
|
||
|
struct dns_rr_txt *\fBdns_resolve_a6dnsbl_txt\fR(\fIctx\fR,
|
||
|
const struct in6_addr *\fIaddr\fR, const char *\fIdnsbl\fR)
|
||
|
.fi
|
||
|
Perform (submit or resolve) a DNSBL query for the given \fIdnsbl\fR
|
||
|
domain and an IP \fIaddr\fR in question, requesting either A or TXT
|
||
|
records.
|
||
|
|
||
|
.SS "RHSBL Interface"
|
||
|
.PP
|
||
|
RHSBL is similar to DNSBL, but instead of an IP address, the
|
||
|
parameter is a domain name.
|
||
|
.PP
|
||
|
.nf
|
||
|
struct dns_query *
|
||
|
\fBdns_submit_rhsbl\fR(\fIctx\fR, const char *\fIname\fR, const char *\fIrhsbl\fR,
|
||
|
dns_query_a4_fn *\fIcbck\fR, void *\fIdata\fR);
|
||
|
struct dns_query *
|
||
|
\fBdns_submit_rhsbl_txt\fR(\fIctx\fR, const char *\fIname\fR, const char *\fIrhsbl\fR,
|
||
|
dns_query_txt_fn *\fIcbck\fR, void *\fIdata\fR);
|
||
|
struct dns_rr_a4 *
|
||
|
\fBdns_resolve_rhsbl\fR(\fIctx\fR, const char *\fIname\fR, const char *\fIrhsbl\fR);
|
||
|
struct dns_rr_txt *
|
||
|
\fBdns_resolve_rhsbl_txt\fR(\fIctx\fR, const char *\fIname\fR, const char *\fIrhsbl\fR);
|
||
|
.fi
|
||
|
Perform (submit or resolve) a RHSBL query for the given \fIrhsbl\fR
|
||
|
domain and \fIname\fR in question, requesting either A or TXT records.
|
||
|
|
||
|
|
||
|
.SH "LOW-LEVEL INTERFACE"
|
||
|
|
||
|
.SS "Domain Names (DNs)"
|
||
|
|
||
|
.PP
|
||
|
A DN is a series of domain name labels each starts with length byte,
|
||
|
followed by empty label (label with zero length). The following
|
||
|
routines to work with DNs are provided.
|
||
|
|
||
|
.PP
|
||
|
.nf
|
||
|
unsigned \fBdns_dnlen\fR(const unsigned char *\fIdn\fR)
|
||
|
.fi
|
||
|
.RS
|
||
|
return length of the domain name \fIdn\fR, including the terminating label.
|
||
|
.RE
|
||
|
|
||
|
.PP
|
||
|
.nf
|
||
|
unsigned \fBdns_dnlabels\fR(const unsigned char *\fIdn\fR)
|
||
|
.fi
|
||
|
.RS
|
||
|
return number of non-zero labels in domain name \fIdn\fR.
|
||
|
.RE
|
||
|
|
||
|
.PP
|
||
|
.nf
|
||
|
unsigned \fBdns_dnequal\fR(\fIdn1\fR, \fIdn2\fR)
|
||
|
const unsigned char *\fIdn1\fR, *\fIdn2\fR;
|
||
|
.fi
|
||
|
.RS
|
||
|
test whenever the two domain names, \fIdn1\fR and \fIdn2\fR, are
|
||
|
equal (case-insensitive). Return domain name length if equal
|
||
|
or 0 if not.
|
||
|
.RE
|
||
|
|
||
|
.PP
|
||
|
.nf
|
||
|
unsigned \fBdns_dntodn\fR(\fIsdn\fR, \fIddn\fR, \fIdnsiz\fR)
|
||
|
const unsigned char *\fIsdn\fR;
|
||
|
unsigned char *\fIddn\fR;
|
||
|
unsigned \fIdnsiz\fR;
|
||
|
.fi
|
||
|
.RS
|
||
|
copies the source domain name \fIsdn\fR to destination buffer \fIddn\fR
|
||
|
of size \fIdnsiz\fR. Return domain name length or 0 if \fIddn\fR is
|
||
|
too small.
|
||
|
.RE
|
||
|
|
||
|
.PP
|
||
|
.nf
|
||
|
int \fBdns_ptodn\fR(\fIname\fR, \fInamelen\fR, \fIdn\fR, \fIdnsiz\fR, \fIisabs\fR)
|
||
|
int \fBdns_sptodn\fR(\fIname\fR, \fIdn\fR, \fIdnsiz\fR)
|
||
|
const char *\fIname\fR; unsigned \fInamelen\fR;
|
||
|
unsigned char *\fIdn\fR; unsigned \fIdnsiz\fR;
|
||
|
int *\fIisabs\fR;
|
||
|
.fi
|
||
|
.RS
|
||
|
convert asciiz name \fIname\fR of length \fInamelen\fR to DN format,
|
||
|
placing result into buffer \fIdn\fR of size \fIdnsiz\fR. Return
|
||
|
length of the DN if successeful, 0 if the \fIdn\fR buffer supplied is
|
||
|
too small, or negative value if \fIname\fR is invalid. If \fIisabs\fR
|
||
|
is non-NULL and conversion was successeful, *\fIisabs\fR will be set to
|
||
|
either 1 or 0 depending whenever \fIname\fR was absolute (i.e. ending with
|
||
|
a dot) or not. Name length, \fInamelength\fR, may be zero, in which case
|
||
|
strlen(\fIname\fR) will be used. Second form, \fBdns_sptodn\fR(), is a
|
||
|
simplified form of \fBdns_ptodn\fR(), equivalent to
|
||
|
.br
|
||
|
.nf
|
||
|
\fBdns_ptodn\fR(\fIname\fR, 0, \fIdn\fR, \fIdnlen\fR, 0).
|
||
|
.fi
|
||
|
.RE
|
||
|
|
||
|
.PP
|
||
|
.nf
|
||
|
extern const unsigned char \fBdns_inaddr_arpa_dn\fR[]
|
||
|
int \fBdns_a4todn\fR(const struct in_addr *\fIaddr\fR, const unsigned char *\fItdn\fR,
|
||
|
unsigned char *\fIdn\fR, unsigned \fIdnsiz\fR)
|
||
|
int \fBdns_a4ptodn\fR(const struct in_addr *\fIaddr\fR, const char *\fItname\fR,
|
||
|
unsigned char *\fIdn\fR, unsigned \fIdnsiz\fR)
|
||
|
extern const unsigned char \fBdns_ip6_arpa_dn\fR[]
|
||
|
int \fBdns_a6todn\fR(const struct in6_addr *\fIaddr\fR, const unsigned char *\fItdn\fR,
|
||
|
unsigned char *\fIdn\fR, unsigned \fIdnsiz\fR)
|
||
|
int \fBdns_a6ptodn\fR(const struct in6_addr *\fIaddr\fR, const char *\fItname\fR,
|
||
|
unsigned char *\fIdn\fR, unsigned \fIdnsiz\fR)
|
||
|
.fi
|
||
|
.RS
|
||
|
several variants of routines to convert IPv4 and IPv6 address \fIaddr\fR
|
||
|
into reverseDNS-like domain name in DN format, storing result in \fIdn\fR
|
||
|
of size \fIdnsiz\fR. \fItdn\fR (or \fItname\fR) is the base zone name,
|
||
|
like in-addr.arpa for IPv4 or in6.arpa for IPv6. If \fItdn\fR (or \fItname\fR)
|
||
|
is NULL, \fBdns_inaddr_arpa_dn\fR (or \fBdns_ip6_arpa_dn\fR) will be used.
|
||
|
The routines may be used to construct a DN for a DNSBL lookup for example.
|
||
|
All routines return length of the resulting DN on success, -1 if resulting
|
||
|
DN is invalid, or 0 if the \fIdn\fR buffer (\fIdnsiz\fR) is too small.
|
||
|
To hold standard rDNS DN, a buffer of size \fBDNS_A4RSIZE\fR (30 bytes) for
|
||
|
IPv4 address, or \fBDNS_A6RSIZE\fR (74 bytes) for IPv6 address, is sufficient.
|
||
|
.RE
|
||
|
|
||
|
.PP
|
||
|
.nf
|
||
|
int \fBdns_dntop\fR(\fIdn\fR, \fIname\fR, \fInamesiz\fR)
|
||
|
const unsigned char *\fIdn\fR;
|
||
|
const char *\fIname\fR; unsigned \fInamesiz\fR;
|
||
|
.fi
|
||
|
.RS
|
||
|
convert domain name \fIdn\fR in DN format to asciiz string, placing result
|
||
|
into \fIname\fR buffer of size \fInamesiz\fR. Maximum length of asciiz
|
||
|
representation of domain name is \fBDNS_MAXNAME\fR (1024) bytes. Root
|
||
|
domain is represented as empty string. Return length of the resulting name
|
||
|
(including terminating character, i.e. strlen(name)+1) on success, 0 if the
|
||
|
\fIname\fR buffer is too small, or negative value if \fIdn\fR is invalid
|
||
|
(last case should never happen since all routines in this library which
|
||
|
produce domain names ensure the DNs generated are valid).
|
||
|
.RE
|
||
|
|
||
|
.PP
|
||
|
.nf
|
||
|
const char *\fBdns_dntosp\fR(const unsigned char *\fIdn\fR)
|
||
|
.fi
|
||
|
.RS
|
||
|
convert domain name \fIdn\fR in DN format to asciiz string using static
|
||
|
buffer. Return the resulting asciiz string on success or NULL on failure.
|
||
|
Note since this routine uses static buffer, it is not thread-safe.
|
||
|
.RE
|
||
|
|
||
|
.PP
|
||
|
.nf
|
||
|
unsigned \fBdns_dntop_size\fR(const unsigned char *\fIdn\fR)
|
||
|
.fi
|
||
|
.RS
|
||
|
return the buffer size needed to convert the \fIdn\fR domain name
|
||
|
in DN format to asciiz string, for \fBdns_dntop\fR(). The routine
|
||
|
return either the size of buffer required, including the trailing
|
||
|
zero byte, or 0 if \fIdn\fR is invalid.
|
||
|
.RE
|
||
|
|
||
|
.SS "Working with DNS Packets"
|
||
|
|
||
|
.PP
|
||
|
The following routines are provided to encode and decode DNS on-wire
|
||
|
packets. This is low-level interface.
|
||
|
|
||
|
.PP
|
||
|
DNS response codes (returned by \fBdns_rcode\fR() routine) are
|
||
|
defined as constants prefixed with \fBDNS_R_\fR. See udns.h
|
||
|
header file for the complete list. In particular, constants
|
||
|
\fBDNS_R_NOERROR\fR (0), \fBDNS_R_SERVFAIL\fR, \fBDNS_R_NXDOMAIN\fR
|
||
|
may be of interest to an application.
|
||
|
|
||
|
.PP
|
||
|
.nf
|
||
|
unsigned \fBdns_get16\fR(const unsigned char *\fIp\fR)
|
||
|
unsigned \fBdns_get32\fR(const unsigned char *\fIp\fR)
|
||
|
.fi
|
||
|
.RS
|
||
|
helper routines, convert 16-bit or 32-bit integer in on-wire
|
||
|
format pointed to by \fIp\fR to unsigned.
|
||
|
.RE
|
||
|
|
||
|
.PP
|
||
|
.nf
|
||
|
unsigned char *\fBdns_put16\fR(unsigned char *\fId\fR, unsigned \fIn\fR)
|
||
|
unsigned char *\fBdns_put32\fR(unsigned char *\fId\fR, unsigned \fIn\fR)
|
||
|
.fi
|
||
|
.RS
|
||
|
helper routine, convert unsigned 16-bit or 32-bit integer \fIn\fR to
|
||
|
on-wire format to buffer pointed to by \fId\fR, return \fId\fR+2 or
|
||
|
\fId\fR+4.
|
||
|
.RE
|
||
|
|
||
|
.PP
|
||
|
.nf
|
||
|
\fBDNS_HSIZE\fR (12)
|
||
|
.fi
|
||
|
.RS
|
||
|
defines size of DNS header. Data section
|
||
|
in the DNS packet immediately follows the header. In the header,
|
||
|
there are query identifier (id), various flags and codes,
|
||
|
and number of resource records in various data sections.
|
||
|
See udns.h header file for complete list of DNS header definitions.
|
||
|
.RE
|
||
|
|
||
|
.PP
|
||
|
.nf
|
||
|
unsigned \fBdns_qid\fR(const unsigned char *\fIpkt\fR)
|
||
|
int \fBdns_rd\fR(const unsigned char *\fIpkt\fR)
|
||
|
int \fBdns_tc\fR(const unsigned char *\fIpkt\fR)
|
||
|
int \fBdns_aa\fR(const unsigned char *\fIpkt\fR)
|
||
|
int \fBdns_qr\fR(const unsigned char *\fIpkt\fR)
|
||
|
int \fBdns_ra\fR(const unsigned char *\fIpkt\fR)
|
||
|
unsigned \fBdns_opcode\fR(const unsigned char *\fIpkt\fR)
|
||
|
unsigned \fBdns_rcode\fR(const unsigned char *\fIpkt\fR)
|
||
|
unsigned \fBdns_numqd\fR(const unsigned char *\fIpkt\fR)
|
||
|
unsigned \fBdns_numan\fR(const unsigned char *\fIpkt\fR)
|
||
|
unsigned \fBdns_numns\fR(const unsigned char *\fIpkt\fR)
|
||
|
unsigned \fBdns_numar\fR(const unsigned char *\fIpkt\fR)
|
||
|
const unsigned char *\fBdns_payload\fR(const unsigned char *\fIpkt\fR)
|
||
|
.fi
|
||
|
.RS
|
||
|
return various parts from the DNS packet header \fIpkt\fR:
|
||
|
query identifier (qid),
|
||
|
recursion desired (rd) flag,
|
||
|
truncation occured (tc) flag,
|
||
|
authoritative answer (aa) flag,
|
||
|
query response (qr) flag,
|
||
|
recursion available (ra) flag,
|
||
|
operation code (opcode),
|
||
|
result code (rcode),
|
||
|
number of entries in question section (numqd),
|
||
|
number of answers (numan),
|
||
|
number of authority records (numns),
|
||
|
number of additional records (numar),
|
||
|
and the pointer to the packet data (payload).
|
||
|
.RE
|
||
|
|
||
|
.PP
|
||
|
.nf
|
||
|
int \fBdns_getdn\fR(\fIpkt\fR, \fIcurp\fR, \fIpkte\fR, \fIdn\fR, \fIdnsiz\fR)
|
||
|
const unsigned char *\fBdns_skipdn\fR(\fIcur\fR, \fIpkte\fR)
|
||
|
const unsigned char *\fIpkt\fR, *\fIpkte\fR, **\fIcurp\fR, *\fIcur\fR;
|
||
|
unsigned char *\fIdn\fR; unsigned \fIdnsiz\fR;
|
||
|
.fi
|
||
|
.RS
|
||
|
\fBdns_getdn\fR() extract DN from DNS packet \fIpkt\fR which ends before
|
||
|
\fIpkte\fR starting at position *\fIcurp\fR into buffer pointed to by
|
||
|
\fIdn\fR of size \fIdnsiz\fR. Upon successeful completion, *\fIcurp\fR
|
||
|
will point to the next byte in the packet after the extracted domain name.
|
||
|
It return positive number (length of the DN if \fIdn\fR) upon successeful
|
||
|
completion, negative value on error (when the packet contains invalid data),
|
||
|
or zero if the \fIdnsiz\fR is too small (maximum length of a domain name is
|
||
|
\fBDNS_MAXDN\fR). \fBdns_skipdn\fR() return pointer to the next byte in
|
||
|
DNS packet which ends up before \fIpkte\fR after a domain name which starts
|
||
|
at the \fIcur\fP byte, or NULL if the packet is invalid. \fBdns_skipdn\fR()
|
||
|
is more or less equivalent to what \fBdns_getdn\fR() does, except it does not
|
||
|
actually extract the domain name in question, and uses simpler interface.
|
||
|
.RE
|
||
|
|
||
|
.PP
|
||
|
.nf
|
||
|
struct \fBdns_rr\fR {
|
||
|
unsigned char \fBdnsrr_dn\fR[DNS_MAXDN]; /* the RR DN name */
|
||
|
enum dns_class \fBdnsrr_cls\fR; /* class of the RR */
|
||
|
enum dns_type \fBdnsrr_typ\fR; /* type of the RR */
|
||
|
unsigned \fBdnsrr_ttl\fR; /* TTL value */
|
||
|
unsigned \fBdnsrr_dsz\fR; /* size of data in bytes */
|
||
|
const unsigned char *\fBdnsrr_dptr\fR; /* pointer to the first data byte */
|
||
|
const unsigned char *\fBdnsrr_dend\fR; /* next byte after RR */
|
||
|
};
|
||
|
.fi
|
||
|
.RS
|
||
|
The \fBdns_rr\fR structure is used to hold information about
|
||
|
single DNS Resource Record (RR) in an easy to use form.
|
||
|
.RE
|
||
|
|
||
|
.PP
|
||
|
.nf
|
||
|
struct \fBdns_parse\fR {
|
||
|
const unsigned char *\fBdnsp_pkt\fR; /* pointer to the packet being parsed */
|
||
|
const unsigned char *\fBdnsp_end\fR; /* end of the packet pointer */
|
||
|
const unsigned char *\fBdnsp_cur\fR; /* current packet positionn */
|
||
|
const unsigned char *\fBdnsp_ans\fR; /* pointer to the answer section */
|
||
|
int \fBdnsp_rrl\fR; /* number of RRs left */
|
||
|
int \fBdnsp_nrr\fR; /* number of relevant RRs seen so far */
|
||
|
unsigned \fBdnsp_ttl\fR; /* TTL value so far */
|
||
|
const unsigned char *\fBdnsp_qdn\fR; /* the domain of interest or NULL */
|
||
|
enum dns_class \fBdnsp_qcls\fR; /* class of interest or 0 for any */
|
||
|
enum dns_type \fBdnsp_qtyp\fR; /* type of interest or 0 for any */
|
||
|
unsigned char \fBdnsp_dnbuf\fR[DNS_MAXDN]; /* domain name buffer */
|
||
|
};
|
||
|
.fi
|
||
|
.RS
|
||
|
The \fBdns_parse\fR structure is used to parse DNS reply packet.
|
||
|
It holds information about the packet being parsed (dnsp_pkt, dnsp_end and
|
||
|
dnsp_cur fields), number of RRs in the current section left to do, and
|
||
|
the information about specific RR which we're looking for (dnsp_qdn,
|
||
|
dnsp_qcls and dnsp_qtyp fields).
|
||
|
.RE
|
||
|
|
||
|
.PP
|
||
|
.nf
|
||
|
int \fBdns_initparse\fR(struct dns_parse *\fIp\fR,
|
||
|
const unsigned char *\fIqdn\fR,
|
||
|
const unsigned char *\fIpkt\fR,
|
||
|
const unsigned char *\fIcur\fR,
|
||
|
const unsigned char *\fIend\fR)
|
||
|
.fi
|
||
|
.RS
|
||
|
initializes the RR parsing structure \fIp\fR. Arguments \fIpkt\fR, \fIcur\fR
|
||
|
and \fIend\fR should describe the received packet: \fIpkt\fR is the start of
|
||
|
the packet, \fIend\fR points to the next byte after the end of the packet,
|
||
|
and \fIcur\fR points past the query DN in query section (to query class+type
|
||
|
information). And \fIqdn\fR points to the query DN. This is the arguments
|
||
|
passed to \fBdns_parse_fn\fR() routine. \fBdns_initparse\fR() initializes
|
||
|
\fBdnsp_pkt\fR, \fBdnsp_end\fR and \fBdnsp_qdn\fR fields to the corresponding
|
||
|
arguments, extracts and initializes \fBdnsp_qcls\fR and \fBdnsp_qtyp\fR
|
||
|
fields to the values found at \fIcur\fR pointer, initializes
|
||
|
\fBdnsp_cur\fR and \fBdnsp_ans\fR fields to be \fIcur\fR+4 (to the start of
|
||
|
answer section), and initializes \fBdnsp_rrl\fR field to be number of entries
|
||
|
in answer section. \fBdnsp_ttl\fR will be set to max TTL value, 0xffffffff,
|
||
|
and \fBdnsp_nrr\fR to 0.
|
||
|
.RE
|
||
|
|
||
|
.PP
|
||
|
.nf
|
||
|
int \fBdns_nextrr\fR(struct dns_parse *\fIp\fR, struct dns_rr *\fIrr\fR);
|
||
|
.fi
|
||
|
.RS
|
||
|
searches for next RR in the packet based on the criteria provided in
|
||
|
the \fIp\fR structure, filling in the \fIrr\fR structure and
|
||
|
advancing \fIp\fR->\fBdnsp_cur\fR to the next RR in the packet.
|
||
|
RR selection is based on dnsp_qdn, dnsp_qcls and dnsp_qtyp fields in
|
||
|
the dns_parse structure. Any (or all) of the 3 fields may be 0,
|
||
|
which means any actual value from the packet is acceptable. In case
|
||
|
the field isn't 0 (or NULL for dnsp_qdn), only RRs with corresponding
|
||
|
characteristics are acceptable. Additionally, when dnsp_qdn is non-NULL,
|
||
|
\fBdns_nextrr\fR() performs automatic CNAME expansion.
|
||
|
Routine will return positive value on success, 0 in case it reached the end
|
||
|
of current section in the packet (\fIp\fR->\fBdnsp_rrl\fR is zero), or
|
||
|
negative value if next RR can not be decoded (packet format is invalid).
|
||
|
The routine updates \fIp\fR->\fBdnsp_qdn\fR automatically when this
|
||
|
field is non-NULL and it encounters appropriate CNAME RRs (saving CNAME
|
||
|
target in \fIp\fR->\fBdnsp_dnbuf\fR), so after end of the process,
|
||
|
\fIp\fR->\fBdnsp_qdn\fR will point to canonical name of the domain
|
||
|
in question. The routine updates \fIp\fR->\fBdnsp_ttl\fR value to
|
||
|
be the minimum TTL of all RRs found.
|
||
|
.RE
|
||
|
|
||
|
.PP
|
||
|
.nf
|
||
|
void \fBdns_rewind\fR(struct dns_parse *\fIp\fR, const unsigned char *\fIqdn\fR)
|
||
|
.fi
|
||
|
.RS
|
||
|
this routine "rewinds" the packet parse state structure to be at the
|
||
|
same state as after a call to \fBdns_initparse\fR(), i.e. reposition
|
||
|
the parse structure \fIp\fR to the start of answer section and
|
||
|
initialize \fIp\fR->\fBdnsp_rrl\fR to the number of entries in
|
||
|
answer section.
|
||
|
.RE
|
||
|
|
||
|
.PP
|
||
|
.nf
|
||
|
int \fBdns_stdrr_size\fR(const struct dns_parse *\fIp\fR);
|
||
|
.fi
|
||
|
.RS
|
||
|
return size to hold standard RRset structure information, as shown
|
||
|
in \fBdns_rr_null\fR structure (for the query and canonical
|
||
|
names). Used to calculate amount of memory to allocate for common
|
||
|
part of type-specific RR structures in parsing routines.
|
||
|
.RE
|
||
|
|
||
|
.PP
|
||
|
.nf
|
||
|
void *\fBdns_stdrr_finish\fR(struct dns_rr_null *\fIret\fR, char *\fIcp\fR,
|
||
|
const struct dns_parse *\fIp\fR);
|
||
|
.fi
|
||
|
.RS
|
||
|
initializes standard RRset fields in \fIret\fR structure using buffer
|
||
|
pointed to by \fIcp\fR, which should have at least as many bytes
|
||
|
as \fBdns_stdrr_size\fR(\fIp\fR) returned. Used to finalize common
|
||
|
part of type-specific RR structures in parsing routines.
|
||
|
.RE
|
||
|
|
||
|
.PP
|
||
|
See library source for usage examples of all the above low-level routines,
|
||
|
especially source of the parsing routines.
|
||
|
|
||
|
.SS "Auxilary Routines"
|
||
|
|
||
|
.PP
|
||
|
.nf
|
||
|
int \fBdns_pton\fR(int \fIaf\fR, const char *\fIsrc\fR, void *\fIdst\fR);
|
||
|
.fi
|
||
|
.RS
|
||
|
privides functionality similar to standard \fBinet_pton\fR() routine,
|
||
|
to convert printable representation of an IP address of family \fIaf\fR
|
||
|
(either \fBAF_INET\fR or \fBAF_INET6\fR) pointed to by \fIsrc\fR into
|
||
|
binary form suitable for socket addresses and transmission over network,
|
||
|
in buffer pointed to by \fIdst\fR. The destination buffer should be
|
||
|
of size 4 for \fBAF_INET\fR family or 16 for \fBAF_INET6\fR.
|
||
|
The return value is positive on success, 0 if \fIsrc\fR is not a valid text
|
||
|
representation of an address of family \fIaf\fR, or negative if the
|
||
|
given address family is not supported.
|
||
|
.RE
|
||
|
|
||
|
.PP
|
||
|
.nf
|
||
|
const char *\fBdns_ntop\fR(int \fIaf\fR, const void *\fIsrc\fR,
|
||
|
char *\fIdst\fR, int \fIdstsize\fR)
|
||
|
.fi
|
||
|
.RS
|
||
|
privides functionality similar to standard \fBinet_ntop\fR() routine,
|
||
|
to convert binary representation of an IP address of family \fIaf\fR
|
||
|
(either \fBAF_INET\fR or \fBAF_INET6\fR) pointed to by \fIsrc\fR
|
||
|
(either 4 or 16 bytes) into printable form in buffer in buffer pointed
|
||
|
to by \fIdst\fR of size \fIdstsize\fR. The destination buffer should be
|
||
|
at least of size 16 bytes for \fBAF_INET\fR family or 46 bytes for
|
||
|
\fBAF_INET6\fR. The return value is either \fIdst\fR, or NULL pointer
|
||
|
if \fIdstsize\fR is too small to hold this address or if the given
|
||
|
address family is not supported.
|
||
|
.RE
|
||
|
|
||
|
.SH AUTHOR
|
||
|
.PP
|
||
|
The \fBudns\fR library has been written by Michael Tokarev, mjt+udns@tls.msk.ru.
|
||
|
|
||
|
.SH VERSION
|
||
|
.PP
|
||
|
This manual page corresponds to udns version 0.4, released Jan-2014.
|