Move few patters with whine_malloc, if (successful) copy+free, to a new
whine_realloc. It should do the same thing, but with a help from OS it
can avoid unnecessary copy and free if allocation of more data after
current data is possible.
Added few setting remanining space to 0, because realloc does not use
calloc like whine_malloc does. There is no advantage of zeroing what we
will immediately overwrite. Zero only remaining space.
Fix error created in 1ce1c6beae
Many thanks to Hartmut Birr for finding the bug and bisecting to
the guilty commit.
The breaking commit creates cache entries which have F_NXDOMAIN
set but none of F_IPV4, F_IPV6 or F_SRV. If cache_scan_free() is called
to delete such an entry it will fail to do so.
If the cache has no free slots and the least-recently-used slot is such
an entry, then a new insertion will attempt to make space by calling
cache_scan_free(), which will fail when it should be impossible and
trigger the internal error.
This patch also changes the method of calling querystr() such that
it is only called when logging is enabled, to eliminate any
possible performance problems from searching the larger table.
Try and log exactly what was returned, rather than just what
got cached. Also give validation status of RRsets if extra logging specified.
This commit also fixes a long-standing bug in caching of CNAME chains
leading to a PTR record.
Based on and inspired by a patch from Dominik DL6ER <dl6er@dl6er.de>
The sharing point for DNSSEC RR data used to be when it entered the
cache, having been validated. After that queries requiring the KEY or
DS records would share the cached values. There is a common case in
dual-stack hosts that queries for A and AAAA records for the same
domain are made simultaneously. If required keys were not in the
cache, this would result in two requests being sent upstream for the
same key data (and all the subsequent chain-of-trust queries.) Now we
combine these requests and elide the duplicates, resulting in fewer
queries upstream and better performance. To keep a better handle on
what's going on, the "extra" logging mode has been modified to
associate queries and answers for DNSSEC queries in the same way as
ordinary queries. The requesting address and port have been removed
from DNSSEC logging lines, since this is no longer strictly defined.
This should be largely transparent, but it drastically
improves performance and reduces memory foot-print when
configuring large numbers domains of the form
local=/adserver.com/
or
local=/adserver.com/#
Lookup times now grow as log-to-base-2 of the number of domains,
rather than greater than linearly, as before.
The change makes multiple addresses associated with a domain work
address=/example.com/1.2.3.4
address=/example.com/5.6.7.8
It also handles multiple upstream servers for a domain better; using
the same try/retry alogrithms as non domain-specific servers. This
also applies to DNSSEC-generated queries.
Finally, some of the oldest and gnarliest code in dnsmasq has had
a significant clean-up. It's far from perfect, but it _is_ better.
This moves the class argument to cache-insert into an argument,
rather then overloading a union in the address argument. Note that
tha class is NOT stored in the cache other than for DS/DNSKEY entries,
so must always be C_IN except for these. The data-extraction code
ensures this as it only attempts to cache C_IN class records.
This was the source of a large number of #ifdefs, originally
included for use with old embedded libc versions. I'm
sure no-one wants or needs IPv6-free code these days, so this
is a move towards more maintainable code.
For ease of implementaion, dnsmasq has always forked a new process to
handle each incoming TCP connection. A side-effect of this is that any
DNS queries answered from TCP connections are not cached: when TCP
connections were rare, this was not a problem. With the coming of
DNSSEC, it's now the case that some DNSSEC queries have answers which
spill to TCP, and if, for instance, this applies to the keys for the
root then those never get cached, and performance is very bad. This
fix passes cache entries back from the TCP child process to the main
server process, and fixes the problem.
These normally have enough space for a name of up to SMALLDNAME characters.
When used to hold /etc/hosts entries, they are allocated with just enough
bytes for the name held. When used to hold other configured stuff, (CNAMES
DS records. DHCP names etc), the name is replaced by a pointer to a string
held elsewhere, and F_NAMEP set. Hence only enough space to hold a char *
is needed, rather than SMALLDNAME bytes.
Many thanks to Kristian Evensen for finding and diagnosing this.
We can't copy the whole of a crec structure in make_non_terminals, since
crec structures allocated to represent /etc/hosts entries are allocated with
just enough space for the actual name they contain, not the full
SMALLDNAME bytes declared in struct crec. Using structure copy therefore
copies beyond the end of the allocated source and, just occaisionally,
into unmapped memory, resulting in a SEGV.
Since the crecs we're making here always have F_NAMEP set, we're not
interested in copying the name field from the source anyway, we use the
namep part of the union and set it to point some way into the name
of the source crec to get the super-domain that we're representing.
The fix is therefore to copy the relevant fields of the crec, rather
than copying the whole and overwriting.
