1 |
--- djbdns-1.05-original/query.c Sun Feb 11 21:11:45 2001 |
2 |
+++ djbdns-1.05/query.c Wed Mar 26 15:48:20 2003 |
3 |
@@ -91,6 +91,21 @@ |
4 |
} |
5 |
} |
6 |
|
7 |
+static int move_name_to_alias(struct query *z,uint32 ttl) |
8 |
+{ |
9 |
+ int j ; |
10 |
+ |
11 |
+ if (z->alias[QUERY_MAXALIAS - 1]) return 0 ; |
12 |
+ for (j = QUERY_MAXALIAS - 1;j > 0;--j) |
13 |
+ z->alias[j] = z->alias[j - 1]; |
14 |
+ for (j = QUERY_MAXALIAS - 1;j > 0;--j) |
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+ z->aliasttl[j] = z->aliasttl[j - 1]; |
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+ z->alias[0] = z->name[0]; |
17 |
+ z->aliasttl[0] = ttl; |
18 |
+ z->name[0] = 0; |
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+ return 1 ; |
20 |
+} |
21 |
+ |
22 |
static int rqa(struct query *z) |
23 |
{ |
24 |
int i; |
25 |
@@ -123,7 +138,6 @@ |
26 |
static char *t1 = 0; |
27 |
static char *t2 = 0; |
28 |
static char *t3 = 0; |
29 |
-static char *cname = 0; |
30 |
static char *referral = 0; |
31 |
static unsigned int *records = 0; |
32 |
|
33 |
@@ -179,15 +193,14 @@ |
34 |
uint16 datalen; |
35 |
char *control; |
36 |
char *d; |
37 |
+ char *owner_name = 0 ; |
38 |
const char *dtype; |
39 |
unsigned int dlen; |
40 |
int flagout; |
41 |
- int flagcname; |
42 |
int flagreferral; |
43 |
int flagsoa; |
44 |
uint32 ttl; |
45 |
uint32 soattl; |
46 |
- uint32 cnamettl; |
47 |
int i; |
48 |
int j; |
49 |
int k; |
50 |
@@ -252,7 +265,10 @@ |
51 |
|
52 |
byte_copy(key,2,DNS_T_CNAME); |
53 |
cached = cache_get(key,dlen + 2,&cachedlen,&ttl); |
54 |
- if (cached) { |
55 |
+ /* A previous explicit query might have caused an empty RRSet to have been |
56 |
+ ** cached. Take care to ignore such a thing. |
57 |
+ */ |
58 |
+ if (cached && cachedlen) { |
59 |
if (typematch(DNS_T_CNAME,dtype)) { |
60 |
log_cachedanswer(d,DNS_T_CNAME); |
61 |
if (!rqa(z)) goto DIE; |
62 |
@@ -261,8 +277,11 @@ |
63 |
return 1; |
64 |
} |
65 |
log_cachedcname(d,cached); |
66 |
- if (!dns_domain_copy(&cname,cached)) goto DIE; |
67 |
- goto CNAME; |
68 |
+ if (!z->level) { |
69 |
+ if (!move_name_to_alias(z,ttl)) goto DIE ; |
70 |
+ } |
71 |
+ if (!dns_domain_copy(&z->name[z->level],cached)) goto DIE; |
72 |
+ goto NEWNAME; |
73 |
} |
74 |
|
75 |
if (typematch(DNS_T_NS,dtype)) { |
76 |
@@ -351,7 +370,7 @@ |
77 |
} |
78 |
} |
79 |
|
80 |
- if (!typematch(DNS_T_ANY,dtype) && !typematch(DNS_T_AXFR,dtype) && !typematch(DNS_T_CNAME,dtype) && !typematch(DNS_T_NS,dtype) && !typematch(DNS_T_PTR,dtype) && !typematch(DNS_T_A,dtype) && !typematch(DNS_T_MX,dtype)) { |
81 |
+ if (!typematch(DNS_T_ANY,dtype) && !typematch(DNS_T_AXFR,dtype) && !typematch(DNS_T_NS,dtype) && !typematch(DNS_T_PTR,dtype) && !typematch(DNS_T_A,dtype) && !typematch(DNS_T_MX,dtype)) { |
82 |
byte_copy(key,2,dtype); |
83 |
cached = cache_get(key,dlen + 2,&cachedlen,&ttl); |
84 |
if (cached && (cachedlen || byte_diff(dtype,2,DNS_T_ANY))) { |
85 |
@@ -471,29 +490,31 @@ |
86 |
if (rcode && (rcode != 3)) goto DIE; /* impossible; see irrelevant() */ |
87 |
|
88 |
flagout = 0; |
89 |
- flagcname = 0; |
90 |
flagreferral = 0; |
91 |
flagsoa = 0; |
92 |
soattl = 0; |
93 |
- cnamettl = 0; |
94 |
+ if (!dns_domain_copy(&owner_name,d)) goto DIE; |
95 |
+ /* This code assumes that the CNAME chain is presented in the correct |
96 |
+ ** order. The example algorithm in RFC 1034 will actually result in this |
97 |
+ ** being the case, but the words do not require it to be so. |
98 |
+ */ |
99 |
for (j = 0;j < numanswers;++j) { |
100 |
pos = dns_packet_getname(buf,len,pos,&t1); if (!pos) goto DIE; |
101 |
pos = dns_packet_copy(buf,len,pos,header,10); if (!pos) goto DIE; |
102 |
|
103 |
- if (dns_domain_equal(t1,d)) |
104 |
+ if (dns_domain_equal(t1,owner_name)) |
105 |
if (byte_equal(header + 2,2,DNS_C_IN)) { /* should always be true */ |
106 |
if (typematch(header,dtype)) |
107 |
flagout = 1; |
108 |
else if (typematch(header,DNS_T_CNAME)) { |
109 |
- if (!dns_packet_getname(buf,len,pos,&cname)) goto DIE; |
110 |
- flagcname = 1; |
111 |
- cnamettl = ttlget(header + 4); |
112 |
+ if (!dns_packet_getname(buf,len,pos,&owner_name)) goto DIE; |
113 |
} |
114 |
} |
115 |
|
116 |
uint16_unpack_big(header + 8,&datalen); |
117 |
pos += datalen; |
118 |
} |
119 |
+ dns_domain_free(&owner_name) ; |
120 |
posauthority = pos; |
121 |
|
122 |
for (j = 0;j < numauthority;++j) { |
123 |
@@ -515,15 +536,6 @@ |
124 |
} |
125 |
posglue = pos; |
126 |
|
127 |
- |
128 |
- if (!flagcname && !rcode && !flagout && flagreferral && !flagsoa) |
129 |
- if (dns_domain_equal(referral,control) || !dns_domain_suffix(referral,control)) { |
130 |
- log_lame(whichserver,control,referral); |
131 |
- byte_zero(whichserver,4); |
132 |
- goto HAVENS; |
133 |
- } |
134 |
- |
135 |
- |
136 |
if (records) { alloc_free(records); records = 0; } |
137 |
|
138 |
k = numanswers + numauthority + numglue; |
139 |
@@ -670,24 +682,36 @@ |
140 |
|
141 |
alloc_free(records); records = 0; |
142 |
|
143 |
+ if (byte_diff(DNS_T_CNAME,2,dtype)) { |
144 |
+ /* This code assumes that the CNAME chain is presented in the correct |
145 |
+ ** order. The example algorithm in RFC 1034 will actually result in this |
146 |
+ ** being the case, but the words do not require it to be so. |
147 |
+ */ |
148 |
+ pos = posanswers; |
149 |
+ for (j = 0;j < numanswers;++j) { |
150 |
+ pos = dns_packet_getname(buf,len,pos,&t1); if (!pos) goto DIE; |
151 |
+ pos = dns_packet_copy(buf,len,pos,header,10); if (!pos) goto DIE; |
152 |
+ |
153 |
+ if (dns_domain_equal(t1,d)) |
154 |
+ if (byte_equal(header + 2,2,DNS_C_IN)) { /* should always be true */ |
155 |
+ if (typematch(header,DNS_T_CNAME)) { |
156 |
+ ttl = ttlget(header + 4); |
157 |
+ if (z->level == 0) { |
158 |
+ if (!move_name_to_alias(z,ttl)) goto DIE ; |
159 |
+ } |
160 |
+ if (!dns_packet_getname(buf,len,pos,&z->name[z->level])) goto DIE; |
161 |
+ d = z->name[z->level]; |
162 |
+ if (!dns_domain_suffix(d,control) || !roots_same(d,control)) |
163 |
+ goto NEWNAME ; /* Cannot trust the chain further - restart using current name */ |
164 |
+ } |
165 |
+ } |
166 |
|
167 |
- if (flagcname) { |
168 |
- ttl = cnamettl; |
169 |
- CNAME: |
170 |
- if (!z->level) { |
171 |
- if (z->alias[QUERY_MAXALIAS - 1]) goto DIE; |
172 |
- for (j = QUERY_MAXALIAS - 1;j > 0;--j) |
173 |
- z->alias[j] = z->alias[j - 1]; |
174 |
- for (j = QUERY_MAXALIAS - 1;j > 0;--j) |
175 |
- z->aliasttl[j] = z->aliasttl[j - 1]; |
176 |
- z->alias[0] = z->name[0]; |
177 |
- z->aliasttl[0] = ttl; |
178 |
- z->name[0] = 0; |
179 |
+ uint16_unpack_big(header + 8,&datalen); |
180 |
+ pos += datalen; |
181 |
} |
182 |
- if (!dns_domain_copy(&z->name[z->level],cname)) goto DIE; |
183 |
- goto NEWNAME; |
184 |
} |
185 |
|
186 |
+ /* A "no such name" error applies to the end of any CNAME chain, not to the start. */ |
187 |
if (rcode == 3) { |
188 |
log_nxdomain(whichserver,d,soattl); |
189 |
cachegeneric(DNS_T_ANY,d,"",0,soattl); |
190 |
@@ -700,10 +724,26 @@ |
191 |
return 1; |
192 |
} |
193 |
|
194 |
+ /* We check for a lame server _after_ we have cached any records that it |
195 |
+ ** might have returned to us. This copes better with the incorrect |
196 |
+ ** behaviour of one content DNS server software that doesn't return |
197 |
+ ** complete CNAME chains but instead returns only the first link in a |
198 |
+ ** chain followed by a lame delegation to the same server. |
199 |
+ ** Also: We check for a lame server _after_ following the CNAME chain. The |
200 |
+ ** delegation in a referral answer applies to the _end_ of the chain, not |
201 |
+ ** to the beginning. |
202 |
+ */ |
203 |
+ if (!rcode && !flagout && flagreferral && !flagsoa) |
204 |
+ if (dns_domain_equal(referral,control) || !dns_domain_suffix(referral,control)) { |
205 |
+ log_lame(whichserver,control,referral); |
206 |
+ byte_zero(whichserver,4); |
207 |
+ goto HAVENS; |
208 |
+ } |
209 |
+ |
210 |
if (!flagout && flagsoa) |
211 |
+ /* Don't save empty RRSets for those types that we use as special markers. */ |
212 |
if (byte_diff(DNS_T_ANY,2,dtype)) |
213 |
- if (byte_diff(DNS_T_AXFR,2,dtype)) |
214 |
- if (byte_diff(DNS_T_CNAME,2,dtype)) { |
215 |
+ if (byte_diff(DNS_T_AXFR,2,dtype)) { |
216 |
save_start(); |
217 |
save_finish(dtype,d,soattl); |
218 |
log_nodata(whichserver,d,dtype,soattl); |
219 |
@@ -815,6 +855,7 @@ |
220 |
DIE: |
221 |
cleanup(z); |
222 |
if (records) { alloc_free(records); records = 0; } |
223 |
+ dns_domain_free(&owner_name) ; |
224 |
return -1; |
225 |
} |
226 |
|