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-rw-r--r--lib/util.cc6
1 files changed, 3 insertions, 3 deletions
diff --git a/lib/util.cc b/lib/util.cc
index ac70938..416e2cc 100644
--- a/lib/util.cc
+++ b/lib/util.cc
@@ -1,295 +1,295 @@
1#include <errno.h> 1#include <errno.h>
2#include <cassert> 2#include <cassert>
3#include <cctype> 3#include <cctype>
4#include <cstring> 4#include <cstring>
5#include <vector> 5#include <vector>
6#include <string> 6#include <string>
7#include <stack> 7#include <stack>
8#include <openssl/bio.h> 8#include <openssl/bio.h>
9#include <openssl/evp.h> 9#include <openssl/evp.h>
10#include <curl/curl.h> 10#include <curl/curl.h>
11#include "opkele/util.h" 11#include "opkele/util.h"
12#include "opkele/exception.h" 12#include "opkele/exception.h"
13 13
14namespace opkele { 14namespace opkele {
15 using namespace std; 15 using namespace std;
16 16
17 namespace util { 17 namespace util {
18 18
19 /* 19 /*
20 * base64 20 * base64
21 */ 21 */
22 string encode_base64(const void *data,size_t length) { 22 string encode_base64(const void *data,size_t length) {
23 BIO *b64 = 0, *bmem = 0; 23 BIO *b64 = 0, *bmem = 0;
24 try { 24 try {
25 b64 = BIO_new(BIO_f_base64()); 25 b64 = BIO_new(BIO_f_base64());
26 if(!b64) 26 if(!b64)
27 throw exception_openssl(OPKELE_CP_ "failed to BIO_new() base64 encoder"); 27 throw exception_openssl(OPKELE_CP_ "failed to BIO_new() base64 encoder");
28 BIO_set_flags(b64,BIO_FLAGS_BASE64_NO_NL); 28 BIO_set_flags(b64,BIO_FLAGS_BASE64_NO_NL);
29 bmem = BIO_new(BIO_s_mem()); 29 bmem = BIO_new(BIO_s_mem());
30 BIO_set_flags(b64,BIO_CLOSE); 30 BIO_set_flags(b64,BIO_CLOSE);
31 if(!bmem) 31 if(!bmem)
32 throw exception_openssl(OPKELE_CP_ "failed to BIO_new() memory buffer"); 32 throw exception_openssl(OPKELE_CP_ "failed to BIO_new() memory buffer");
33 BIO_push(b64,bmem); 33 BIO_push(b64,bmem);
34 if(((size_t)BIO_write(b64,data,length))!=length) 34 if(((size_t)BIO_write(b64,data,length))!=length)
35 throw exception_openssl(OPKELE_CP_ "failed to BIO_write()"); 35 throw exception_openssl(OPKELE_CP_ "failed to BIO_write()");
36 if(BIO_flush(b64)!=1) 36 if(BIO_flush(b64)!=1)
37 throw exception_openssl(OPKELE_CP_ "failed to BIO_flush()"); 37 throw exception_openssl(OPKELE_CP_ "failed to BIO_flush()");
38 char *rvd; 38 char *rvd;
39 long rvl = BIO_get_mem_data(bmem,&rvd); 39 long rvl = BIO_get_mem_data(bmem,&rvd);
40 string rv(rvd,rvl); 40 string rv(rvd,rvl);
41 BIO_free_all(b64); 41 BIO_free_all(b64);
42 return rv; 42 return rv;
43 }catch(...) { 43 }catch(...) {
44 if(b64) BIO_free_all(b64); 44 if(b64) BIO_free_all(b64);
45 throw; 45 throw;
46 } 46 }
47 } 47 }
48 48
49 void decode_base64(const string& data,vector<unsigned char>& rv) { 49 void decode_base64(const string& data,vector<unsigned char>& rv) {
50 BIO *b64 = 0, *bmem = 0; 50 BIO *b64 = 0, *bmem = 0;
51 rv.clear(); 51 rv.clear();
52 try { 52 try {
53 bmem = BIO_new_mem_buf((void*)data.data(),data.size()); 53 bmem = BIO_new_mem_buf((void*)data.data(),data.size());
54 if(!bmem) 54 if(!bmem)
55 throw exception_openssl(OPKELE_CP_ "failed to BIO_new_mem_buf()"); 55 throw exception_openssl(OPKELE_CP_ "failed to BIO_new_mem_buf()");
56 b64 = BIO_new(BIO_f_base64()); 56 b64 = BIO_new(BIO_f_base64());
57 if(!b64) 57 if(!b64)
58 throw exception_openssl(OPKELE_CP_ "failed to BIO_new() base64 decoder"); 58 throw exception_openssl(OPKELE_CP_ "failed to BIO_new() base64 decoder");
59 BIO_set_flags(b64,BIO_FLAGS_BASE64_NO_NL); 59 BIO_set_flags(b64,BIO_FLAGS_BASE64_NO_NL);
60 BIO_push(b64,bmem); 60 BIO_push(b64,bmem);
61 unsigned char tmp[512]; 61 unsigned char tmp[512];
62 size_t rb = 0; 62 size_t rb = 0;
63 while((rb=BIO_read(b64,tmp,sizeof(tmp)))>0) 63 while((rb=BIO_read(b64,tmp,sizeof(tmp)))>0)
64 rv.insert(rv.end(),tmp,&tmp[rb]); 64 rv.insert(rv.end(),tmp,&tmp[rb]);
65 BIO_free_all(b64); 65 BIO_free_all(b64);
66 }catch(...) { 66 }catch(...) {
67 if(b64) BIO_free_all(b64); 67 if(b64) BIO_free_all(b64);
68 throw; 68 throw;
69 } 69 }
70 } 70 }
71 71
72 /* 72 /*
73 * big numerics 73 * big numerics
74 */ 74 */
75 75
76 BIGNUM *base64_to_bignum(const string& b64) { 76 BIGNUM *base64_to_bignum(const string& b64) {
77 vector<unsigned char> bin; 77 vector<unsigned char> bin;
78 decode_base64(b64,bin); 78 decode_base64(b64,bin);
79 BIGNUM *rv = BN_bin2bn(&(bin.front()),bin.size(),0); 79 BIGNUM *rv = BN_bin2bn(&(bin.front()),bin.size(),0);
80 if(!rv) 80 if(!rv)
81 throw failed_conversion(OPKELE_CP_ "failed to BN_bin2bn()"); 81 throw failed_conversion(OPKELE_CP_ "failed to BN_bin2bn()");
82 return rv; 82 return rv;
83 } 83 }
84 84
85 BIGNUM *dec_to_bignum(const string& dec) { 85 BIGNUM *dec_to_bignum(const string& dec) {
86 BIGNUM *rv = 0; 86 BIGNUM *rv = 0;
87 if(!BN_dec2bn(&rv,dec.c_str())) 87 if(!BN_dec2bn(&rv,dec.c_str()))
88 throw failed_conversion(OPKELE_CP_ "failed to BN_dec2bn()"); 88 throw failed_conversion(OPKELE_CP_ "failed to BN_dec2bn()");
89 return rv; 89 return rv;
90 } 90 }
91 91
92 string bignum_to_base64(const BIGNUM *bn) { 92 string bignum_to_base64(const BIGNUM *bn) {
93 vector<unsigned char> bin(BN_num_bytes(bn)+1); 93 vector<unsigned char> bin(BN_num_bytes(bn)+1);
94 unsigned char *binptr = &(bin.front())+1; 94 unsigned char *binptr = &(bin.front())+1;
95 int l = BN_bn2bin(bn,binptr); 95 int l = BN_bn2bin(bn,binptr);
96 if(l && (*binptr)&0x80){ 96 if(l && (*binptr)&0x80){
97 (*(--binptr)) = 0; ++l; 97 (*(--binptr)) = 0; ++l;
98 } 98 }
99 return encode_base64(binptr,l); 99 return encode_base64(binptr,l);
100 } 100 }
101 101
102 /* 102 /*
103 * w3c times 103 * w3c times
104 */ 104 */
105 105
106 string time_to_w3c(time_t t) { 106 string time_to_w3c(time_t t) {
107 struct tm tm_t; 107 struct tm tm_t;
108 if(!gmtime_r(&t,&tm_t)) 108 if(!gmtime_r(&t,&tm_t))
109 throw failed_conversion(OPKELE_CP_ "failed to BN_dec2bn()"); 109 throw failed_conversion(OPKELE_CP_ "failed to BN_dec2bn()");
110 char rv[25]; 110 char rv[25];
111 if(!strftime(rv,sizeof(rv)-1,"%Y-%m-%dT%H:%M:%SZ",&tm_t)) 111 if(!strftime(rv,sizeof(rv)-1,"%Y-%m-%dT%H:%M:%SZ",&tm_t))
112 throw failed_conversion(OPKELE_CP_ "failed to strftime()"); 112 throw failed_conversion(OPKELE_CP_ "failed to strftime()");
113 return rv; 113 return rv;
114 } 114 }
115 115
116 time_t w3c_to_time(const string& w) { 116 time_t w3c_to_time(const string& w) {
117 struct tm tm_t; 117 struct tm tm_t;
118 memset(&tm_t,0,sizeof(tm_t)); 118 memset(&tm_t,0,sizeof(tm_t));
119 if( 119 if(
120 sscanf( 120 sscanf(
121 w.c_str(), 121 w.c_str(),
122 "%04d-%02d-%02dT%02d:%02d:%02dZ", 122 "%04d-%02d-%02dT%02d:%02d:%02dZ",
123 &tm_t.tm_year,&tm_t.tm_mon,&tm_t.tm_mday, 123 &tm_t.tm_year,&tm_t.tm_mon,&tm_t.tm_mday,
124 &tm_t.tm_hour,&tm_t.tm_min,&tm_t.tm_sec 124 &tm_t.tm_hour,&tm_t.tm_min,&tm_t.tm_sec
125 ) != 6 ) 125 ) != 6 )
126 throw failed_conversion(OPKELE_CP_ "failed to sscanf()"); 126 throw failed_conversion(OPKELE_CP_ "failed to sscanf()");
127 tm_t.tm_mon--; 127 tm_t.tm_mon--;
128 tm_t.tm_year-=1900; 128 tm_t.tm_year-=1900;
129 time_t rv = mktime(&tm_t); 129 time_t rv = mktime(&tm_t);
130 if(rv==(time_t)-1) 130 if(rv==(time_t)-1)
131 throw failed_conversion(OPKELE_CP_ "failed to mktime()"); 131 throw failed_conversion(OPKELE_CP_ "failed to mktime()");
132 return rv; 132 return rv;
133 } 133 }
134 134
135 /* 135 /*
136 * 136 *
137 */ 137 */
138 138
139 string url_encode(const string& str) { 139 string url_encode(const string& str) {
140 char * t = curl_escape(str.c_str(),str.length()); 140 char * t = curl_escape(str.c_str(),str.length());
141 if(!t) 141 if(!t)
142 throw failed_conversion(OPKELE_CP_ "failed to curl_escape()"); 142 throw failed_conversion(OPKELE_CP_ "failed to curl_escape()");
143 string rv(t); 143 string rv(t);
144 curl_free(t); 144 curl_free(t);
145 return rv; 145 return rv;
146 } 146 }
147 147
148 string long_to_string(long l) { 148 string long_to_string(long l) {
149 char rv[32]; 149 char rv[32];
150 int r=snprintf(rv,sizeof(rv),"%ld",l); 150 int r=snprintf(rv,sizeof(rv),"%ld",l);
151 if(r<0 || r>=(int)sizeof(rv)) 151 if(r<0 || r>=(int)sizeof(rv))
152 throw failed_conversion(OPKELE_CP_ "failed to snprintf()"); 152 throw failed_conversion(OPKELE_CP_ "failed to snprintf()");
153 return rv; 153 return rv;
154 } 154 }
155 155
156 long string_to_long(const string& s) { 156 long string_to_long(const string& s) {
157 char *endptr = 0; 157 char *endptr = 0;
158 long rv = strtol(s.c_str(),&endptr,10); 158 long rv = strtol(s.c_str(),&endptr,10);
159 if((!endptr) || endptr==s.c_str()) 159 if((!endptr) || endptr==s.c_str())
160 throw failed_conversion(OPKELE_CP_ "failed to strtol()"); 160 throw failed_conversion(OPKELE_CP_ "failed to strtol()");
161 return rv; 161 return rv;
162 } 162 }
163 163
164 /* 164 /*
165 * Normalize URL according to the rules, described in rfc 3986, section 6 165 * Normalize URL according to the rules, described in rfc 3986, section 6
166 * 166 *
167 * - uppercase hext triplets (e.g. %ab -> %AB) 167 * - uppercase hext triplets (e.g. %ab -> %AB)
168 * - lowercase scheme and host 168 * - lowercase scheme and host
169 * - decode %-encoded characters, specified as unreserved in rfc 3986, section 2.3, 169 * - decode %-encoded characters, specified as unreserved in rfc 3986, section 2.3,
170 * that is - [:alpha:][:digit:]._~- 170 * that is - [:alpha:][:digit:]._~-
171 * - remove dot segments 171 * - remove dot segments
172 * - remove empty and default ports 172 * - remove empty and default ports
173 * - if there's no path component, add '/' 173 * - if there's no path component, add '/'
174 */ 174 */
175 string rfc_3986_normalize_uri(const string& uri) { 175 string rfc_3986_normalize_uri(const string& uri) {
176 string rv; 176 string rv;
177 string::size_type colon = uri.find(':'); 177 string::size_type colon = uri.find(':');
178 if(colon==string::npos) 178 if(colon==string::npos)
179 throw bad_input(OPKELE_CP_ "No scheme specified in URI"); 179 throw bad_input(OPKELE_CP_ "No scheme specified in URI");
180 transform( 180 transform(
181 uri.begin(), uri.begin()+colon+1, 181 uri.begin(), uri.begin()+colon+1,
182 back_inserter(rv), ::tolower ); 182 back_inserter(rv), ::tolower );
183 bool s; 183 bool s;
184 if(rv=="http:") 184 if(rv=="http:")
185 s = false; 185 s = false;
186 else if(rv=="https:") 186 else if(rv=="https:")
187 s = true; 187 s = true;
188 else 188 else
189 throw not_implemented(OPKELE_CP_ "Only http(s) URIs can be normalized here"); 189 throw not_implemented(OPKELE_CP_ "Only http(s) URIs can be normalized here");
190 string::size_type ul = uri.length(); 190 string::size_type ul = uri.length();
191 if(ul <= (colon+3)) 191 if(ul <= (colon+3))
192 throw bad_input(OPKELE_CP_ "Unexpected end of URI being normalized encountered"); 192 throw bad_input(OPKELE_CP_ "Unexpected end of URI being normalized encountered");
193 if(uri[colon+1]!='/' || uri[colon+2]!='/') 193 if(uri[colon+1]!='/' || uri[colon+2]!='/')
194 throw bad_input(OPKELE_CP_ "Unexpected input in URI being normalized after scheme component"); 194 throw bad_input(OPKELE_CP_ "Unexpected input in URI being normalized after scheme component");
195 rv += "//"; 195 rv += "//";
196 string::size_type interesting = uri.find_first_of(":/#?",colon+3); 196 string::size_type interesting = uri.find_first_of(":/#?",colon+3);
197 if(interesting==string::npos) { 197 if(interesting==string::npos) {
198 transform( 198 transform(
199 uri.begin()+colon+3,uri.end(), 199 uri.begin()+colon+3,uri.end(),
200 back_inserter(rv), ::tolower ); 200 back_inserter(rv), ::tolower );
201 rv += '/'; return rv; 201 rv += '/'; return rv;
202 } 202 }
203 transform( 203 transform(
204 uri.begin()+colon+3,uri.begin()+interesting, 204 uri.begin()+colon+3,uri.begin()+interesting,
205 back_inserter(rv), ::tolower ); 205 back_inserter(rv), ::tolower );
206 bool qf = false; 206 bool qf = false;
207 char ic = uri[interesting]; 207 char ic = uri[interesting];
208 if(ic==':') { 208 if(ic==':') {
209 string::size_type ni = uri.find_first_of("/#?%",interesting+1); 209 string::size_type ni = uri.find_first_of("/#?%",interesting+1);
210 const char *nptr = uri.data()+interesting+1; 210 const char *nptr = uri.data()+interesting+1;
211 char *eptr = 0; 211 char *eptr = 0;
212 long port = strtol(nptr,&eptr,10); 212 long port = strtol(nptr,&eptr,10);
213 if( (port>0) && (port<65535) && port!=(s?443:80) ) { 213 if( (port>0) && (port<65535) && port!=(s?443:80) ) {
214 char tmp[6]; 214 char tmp[8];
215 snprintf(tmp,sizeof(tmp),"%ld",port); 215 snprintf(tmp,sizeof(tmp),":%ld",port);
216 rv += ':'; rv += tmp; 216 rv += tmp;
217 } 217 }
218 if(ni==string::npos) { 218 if(ni==string::npos) {
219 rv += '/'; return rv; 219 rv += '/'; return rv;
220 } 220 }
221 interesting = ni; 221 interesting = ni;
222 }else if(ic!='/') { 222 }else if(ic!='/') {
223 rv += '/'; rv += ic; 223 rv += '/'; rv += ic;
224 qf = true; 224 qf = true;
225 ++interesting; 225 ++interesting;
226 } 226 }
227 string::size_type n = interesting; 227 string::size_type n = interesting;
228 char tmp[3] = { 0,0,0 }; 228 char tmp[3] = { 0,0,0 };
229 stack<string::size_type> psegs; psegs.push(rv.length()); 229 stack<string::size_type> psegs; psegs.push(rv.length());
230 string pseg; 230 string pseg;
231 for(;n<ul;) { 231 for(;n<ul;) {
232 string::size_type unsafe = uri.find_first_of(qf?"%":"%/?#",n); 232 string::size_type unsafe = uri.find_first_of(qf?"%":"%/?#",n);
233 if(unsafe==string::npos) { 233 if(unsafe==string::npos) {
234 pseg.append(uri,n,ul-n-1); n = ul-1; 234 pseg.append(uri,n,ul-n-1); n = ul-1;
235 }else{ 235 }else{
236 pseg.append(uri,n,unsafe-n); 236 pseg.append(uri,n,unsafe-n);
237 n = unsafe; 237 n = unsafe;
238 } 238 }
239 char c = uri[n++]; 239 char c = uri[n++];
240 if(c=='%') { 240 if(c=='%') {
241 if((n+1)>=ul) 241 if((n+1)>=ul)
242 throw bad_input(OPKELE_CP_ "Unexpected end of URI encountered while parsing percent-encoded character"); 242 throw bad_input(OPKELE_CP_ "Unexpected end of URI encountered while parsing percent-encoded character");
243 tmp[0] = uri[n++]; 243 tmp[0] = uri[n++];
244 tmp[1] = uri[n++]; 244 tmp[1] = uri[n++];
245 if(!( isxdigit(tmp[0]) && isxdigit(tmp[1]) )) 245 if(!( isxdigit(tmp[0]) && isxdigit(tmp[1]) ))
246 throw bad_input(OPKELE_CP_ "Invalid percent-encoded character in URI being normalized"); 246 throw bad_input(OPKELE_CP_ "Invalid percent-encoded character in URI being normalized");
247 int cc = strtol(tmp,0,16); 247 int cc = strtol(tmp,0,16);
248 if( isalpha(cc) || isdigit(cc) || strchr("._~-",cc) ) 248 if( isalpha(cc) || isdigit(cc) || strchr("._~-",cc) )
249 pseg += cc; 249 pseg += cc;
250 else{ 250 else{
251 pseg += '%'; 251 pseg += '%';
252 pseg += toupper(tmp[0]); pseg += toupper(tmp[1]); 252 pseg += toupper(tmp[0]); pseg += toupper(tmp[1]);
253 } 253 }
254 }else if(qf) { 254 }else if(qf) {
255 rv += pseg; rv += c; 255 rv += pseg; rv += c;
256 pseg.clear(); 256 pseg.clear();
257 }else if(n>=ul || strchr("?/#",c)) { 257 }else if(n>=ul || strchr("?/#",c)) {
258 if(pseg.empty() || pseg==".") { 258 if(pseg.empty() || pseg==".") {
259 }else if(pseg=="..") { 259 }else if(pseg=="..") {
260 if(psegs.size()>1) { 260 if(psegs.size()>1) {
261 rv.resize(psegs.top()); psegs.pop(); 261 rv.resize(psegs.top()); psegs.pop();
262 } 262 }
263 }else{ 263 }else{
264 psegs.push(rv.length()); 264 psegs.push(rv.length());
265 if(c!='/') { 265 if(c!='/') {
266 pseg += c; 266 pseg += c;
267 qf = true; 267 qf = true;
268 } 268 }
269 rv += '/'; rv += pseg; 269 rv += '/'; rv += pseg;
270 } 270 }
271 if(c=='/' && (n>=ul || strchr("?#",uri[n])) ) { 271 if(c=='/' && (n>=ul || strchr("?#",uri[n])) ) {
272 rv += '/'; 272 rv += '/';
273 if(n<ul) 273 if(n<ul)
274 qf = true; 274 qf = true;
275 }else if(strchr("?#",c)) { 275 }else if(strchr("?#",c)) {
276 if(psegs.size()==1 && psegs.top()==rv.length()) 276 if(psegs.size()==1 && psegs.top()==rv.length())
277 rv += '/'; 277 rv += '/';
278 if(pseg.empty()) 278 if(pseg.empty())
279 rv += c; 279 rv += c;
280 qf = true; 280 qf = true;
281 } 281 }
282 pseg.clear(); 282 pseg.clear();
283 }else{ 283 }else{
284 pseg += c; 284 pseg += c;
285 } 285 }
286 } 286 }
287 if(!pseg.empty()) { 287 if(!pseg.empty()) {
288 rv += '/'; rv += pseg; 288 rv += '/'; rv += pseg;
289 } 289 }
290 return rv; 290 return rv;
291 } 291 }
292 292
293 } 293 }
294 294
295} 295}