author | Michael Krelin <hacker@klever.net> | 2011-10-10 21:26:52 (UTC) |
---|---|---|
committer | Michael Krelin <hacker@klever.net> | 2011-10-12 19:22:51 (UTC) |
commit | 970337c91c02afa9b8d33ab5596270594ffe58e6 (patch) (unidiff) | |
tree | 198e49630826aea7289f60635f52ccb2476d36cc | |
parent | 6a68fcae465905e904eea248ffe6b1ed6b8297a4 (diff) | |
download | dudki-970337c91c02afa9b8d33ab5596270594ffe58e6.zip dudki-970337c91c02afa9b8d33ab5596270594ffe58e6.tar.gz dudki-970337c91c02afa9b8d33ab5596270594ffe58e6.tar.bz2 |
Some work in compiler happiness department.
Signed-off-by: Michael Krelin <hacker@klever.net>
-rw-r--r-- | src/dudki.cc | 2 | ||||
-rw-r--r-- | src/process.cc | 3 |
2 files changed, 4 insertions, 1 deletions
diff --git a/src/dudki.cc b/src/dudki.cc index 91a3342..1f95be4 100644 --- a/src/dudki.cc +++ b/src/dudki.cc | |||
@@ -1,292 +1,294 @@ | |||
1 | #include <unistd.h> | 1 | #include <unistd.h> |
2 | #include <signal.h> | 2 | #include <signal.h> |
3 | #include <syslog.h> | 3 | #include <syslog.h> |
4 | #include <errno.h> | 4 | #include <errno.h> |
5 | #include <iostream> | 5 | #include <iostream> |
6 | #include <fstream> | 6 | #include <fstream> |
7 | #include <stdexcept> | 7 | #include <stdexcept> |
8 | #include <cstring> | ||
9 | #include <stdlib.h> | ||
8 | using namespace std; | 10 | using namespace std; |
9 | #include "configuration.h" | 11 | #include "configuration.h" |
10 | #include "util.h" | 12 | #include "util.h" |
11 | 13 | ||
12 | #include "config.h" | 14 | #include "config.h" |
13 | #ifdef HAVE_GETOPT_H | 15 | #ifdef HAVE_GETOPT_H |
14 | # include <getopt.h> | 16 | # include <getopt.h> |
15 | #endif | 17 | #endif |
16 | 18 | ||
17 | #ifndef DEFAULT_CONF_FILE | 19 | #ifndef DEFAULT_CONF_FILE |
18 | # define DEFAULT_CONF_FILE "/etc/dudki.conf" | 20 | # define DEFAULT_CONF_FILE "/etc/dudki.conf" |
19 | #endif | 21 | #endif |
20 | 22 | ||
21 | #define PHEADER PACKAGE " Version " VERSION | 23 | #define PHEADER PACKAGE " Version " VERSION |
22 | #define PCOPY "Copyright (c) 2004-2006 Klever Group" | 24 | #define PCOPY "Copyright (c) 2004-2006 Klever Group" |
23 | 25 | ||
24 | bool finishing = false; | 26 | bool finishing = false; |
25 | bool restarting = false; | 27 | bool restarting = false; |
26 | static char **_argv = NULL; | 28 | static char **_argv = NULL; |
27 | 29 | ||
28 | static void lethal_signal_handler(int signum) { | 30 | static void lethal_signal_handler(int signum) { |
29 | syslog(LOG_NOTICE,"Lethal signal received. Terminating."); | 31 | syslog(LOG_NOTICE,"Lethal signal received. Terminating."); |
30 | finishing = true; | 32 | finishing = true; |
31 | } | 33 | } |
32 | static void sighup_handler(int signum) { | 34 | static void sighup_handler(int signum) { |
33 | syslog(LOG_NOTICE,"SUGHUP received, reloading."); | 35 | syslog(LOG_NOTICE,"SUGHUP received, reloading."); |
34 | restarting = finishing = true; | 36 | restarting = finishing = true; |
35 | } | 37 | } |
36 | 38 | ||
37 | void check_herd(configuration& config) { | 39 | void check_herd(configuration& config) { |
38 | process::prepare_herd(); | 40 | process::prepare_herd(); |
39 | for(processes_t::iterator i=config.processes.begin();i!=config.processes.end();++i) | 41 | for(processes_t::iterator i=config.processes.begin();i!=config.processes.end();++i) |
40 | i->second.check(i->first,config); | 42 | i->second.check(i->first,config); |
41 | process::unprepare_herd(); | 43 | process::unprepare_herd(); |
42 | } | 44 | } |
43 | 45 | ||
44 | void signal_self(const configuration& config,int signum) { | 46 | void signal_self(const configuration& config,int signum) { |
45 | ifstream pids(config.pidfile.c_str(),ios::in); | 47 | ifstream pids(config.pidfile.c_str(),ios::in); |
46 | if(!pids) | 48 | if(!pids) |
47 | throw runtime_error("Can't detect running instance"); | 49 | throw runtime_error("Can't detect running instance"); |
48 | pid_t pid = 0; | 50 | pid_t pid = 0; |
49 | pids >> pid; | 51 | pids >> pid; |
50 | if(!pid) | 52 | if(!pid) |
51 | throw runtime_error("Can't detect running instance"); | 53 | throw runtime_error("Can't detect running instance"); |
52 | if(pid==getpid()) | 54 | if(pid==getpid()) |
53 | throw 0; | 55 | throw 0; |
54 | if(kill(pid,signum)) | 56 | if(kill(pid,signum)) |
55 | throw runtime_error("Failed to signal running instance"); | 57 | throw runtime_error("Failed to signal running instance"); |
56 | } | 58 | } |
57 | 59 | ||
58 | int main(int argc,char **argv) { | 60 | int main(int argc,char **argv) { |
59 | try { | 61 | try { |
60 | _argv = new char*[argc+1]; | 62 | _argv = new char*[argc+1]; |
61 | if(!_argv) | 63 | if(!_argv) |
62 | throw runtime_error("memory allocation problem at the very start"); | 64 | throw runtime_error("memory allocation problem at the very start"); |
63 | memmove(_argv,argv,sizeof(*_argv)*(argc+1)); | 65 | memmove(_argv,argv,sizeof(*_argv)*(argc+1)); |
64 | string config_file = DEFAULT_CONF_FILE; | 66 | string config_file = DEFAULT_CONF_FILE; |
65 | enum { | 67 | enum { |
66 | op_default, | 68 | op_default, |
67 | op_work, | 69 | op_work, |
68 | op_signal, | 70 | op_signal, |
69 | op_ensure, | 71 | op_ensure, |
70 | op_test | 72 | op_test |
71 | } op = op_default; | 73 | } op = op_default; |
72 | int op_signum = 0; | 74 | int op_signum = 0; |
73 | while(true) { | 75 | while(true) { |
74 | #defineSHORTOPTSTRING "f:hVLrkcets:" | 76 | #defineSHORTOPTSTRING "f:hVLrkcets:" |
75 | #ifdef HAVE_GETOPT_LONG | 77 | #ifdef HAVE_GETOPT_LONG |
76 | static struct option opts[] = { | 78 | static struct option opts[] = { |
77 | { "help", no_argument, 0, 'h' }, | 79 | { "help", no_argument, 0, 'h' }, |
78 | { "usage", no_argument, 0, 'h' }, | 80 | { "usage", no_argument, 0, 'h' }, |
79 | { "version", no_argument, 0, 'V' }, | 81 | { "version", no_argument, 0, 'V' }, |
80 | { "license", no_argument, 0, 'L' }, | 82 | { "license", no_argument, 0, 'L' }, |
81 | { "config", required_argument, 0, 'f' }, | 83 | { "config", required_argument, 0, 'f' }, |
82 | { "kill", no_argument, 0, 'k' }, | 84 | { "kill", no_argument, 0, 'k' }, |
83 | { "reload", no_argument, 0, 'r' }, | 85 | { "reload", no_argument, 0, 'r' }, |
84 | { "signal", required_argument, 0, 's' }, | 86 | { "signal", required_argument, 0, 's' }, |
85 | { "check", no_argument, 0, 'c' }, | 87 | { "check", no_argument, 0, 'c' }, |
86 | { "ensure", no_argument, 0, 'e' }, | 88 | { "ensure", no_argument, 0, 'e' }, |
87 | { "test", no_argument, 0, 't' }, | 89 | { "test", no_argument, 0, 't' }, |
88 | { NULL, 0, 0, 0 } | 90 | { NULL, 0, 0, 0 } |
89 | }; | 91 | }; |
90 | int c = getopt_long(argc,argv,SHORTOPTSTRING,opts,NULL); | 92 | int c = getopt_long(argc,argv,SHORTOPTSTRING,opts,NULL); |
91 | #else /* !HAVE_GETOPT_LONG */ | 93 | #else /* !HAVE_GETOPT_LONG */ |
92 | int c = getopt(argc,argv,SHORTOPTSTRING); | 94 | int c = getopt(argc,argv,SHORTOPTSTRING); |
93 | #endif /* /HAVE_GETOPT_LONG */ | 95 | #endif /* /HAVE_GETOPT_LONG */ |
94 | if(c==-1) | 96 | if(c==-1) |
95 | break; | 97 | break; |
96 | switch(c) { | 98 | switch(c) { |
97 | case 'h': | 99 | case 'h': |
98 | cerr << PHEADER << endl | 100 | cerr << PHEADER << endl |
99 | << PCOPY << endl << endl | 101 | << PCOPY << endl << endl |
100 | << " " << argv[0] << " [options] [processes]" << endl << endl << | 102 | << " " << argv[0] << " [options] [processes]" << endl << endl << |
101 | #ifdef HAVE_GETOPT_LONG | 103 | #ifdef HAVE_GETOPT_LONG |
102 | " -h, --help\n" | 104 | " -h, --help\n" |
103 | " --usage display this text\n" | 105 | " --usage display this text\n" |
104 | " -V, --version display version number\n" | 106 | " -V, --version display version number\n" |
105 | " -L, --license show license\n" | 107 | " -L, --license show license\n" |
106 | " -f filename, --config=filename\n" | 108 | " -f filename, --config=filename\n" |
107 | " specify the configuration file to use\n" | 109 | " specify the configuration file to use\n" |
108 | "\n" | 110 | "\n" |
109 | " -k, --kill stop running instance (send SIGTERM)\n" | 111 | " -k, --kill stop running instance (send SIGTERM)\n" |
110 | " -r, --reload reload running instance (send SIGHUP)\n" | 112 | " -r, --reload reload running instance (send SIGHUP)\n" |
111 | " -s signum, --signal=signum\n" | 113 | " -s signum, --signal=signum\n" |
112 | " send the specified signal to the running process\n" | 114 | " send the specified signal to the running process\n" |
113 | " -c, --check check if the process is running\n" | 115 | " -c, --check check if the process is running\n" |
114 | " (the above commands operate on dudki itself if no\n" | 116 | " (the above commands operate on dudki itself if no\n" |
115 | " process name has been specified)\n" | 117 | " process name has been specified)\n" |
116 | " -e, --ensure ensure that dudki is running\n" | 118 | " -e, --ensure ensure that dudki is running\n" |
117 | " -t, --test test configuration file and exit" | 119 | " -t, --test test configuration file and exit" |
118 | #else /* !HAVE_GETOPT_LONG */ | 120 | #else /* !HAVE_GETOPT_LONG */ |
119 | " -h display this text\n" | 121 | " -h display this text\n" |
120 | " -V display version number\n" | 122 | " -V display version number\n" |
121 | " -L show license\n" | 123 | " -L show license\n" |
122 | " -f filename specify the configuration file to use\n" | 124 | " -f filename specify the configuration file to use\n" |
123 | "\n" | 125 | "\n" |
124 | " -k stop running instance (send SIGTERM)\n" | 126 | " -k stop running instance (send SIGTERM)\n" |
125 | " -r reload running instance (send SIGHUP)\n" | 127 | " -r reload running instance (send SIGHUP)\n" |
126 | " -s signum send the specified signal to the running process\n" | 128 | " -s signum send the specified signal to the running process\n" |
127 | " -c check if the process is running\n" | 129 | " -c check if the process is running\n" |
128 | " (the above commands operate on dudki itself if no\n" | 130 | " (the above commands operate on dudki itself if no\n" |
129 | " process name has been specified)\n" | 131 | " process name has been specified)\n" |
130 | " -e ensure that dudki is running\n" | 132 | " -e ensure that dudki is running\n" |
131 | " -t test configuration file and exit" | 133 | " -t test configuration file and exit" |
132 | #endif /* /HAVE_GETOPT_LONG */ | 134 | #endif /* /HAVE_GETOPT_LONG */ |
133 | << endl; | 135 | << endl; |
134 | exit(0); | 136 | exit(0); |
135 | break; | 137 | break; |
136 | case 'V': | 138 | case 'V': |
137 | cerr << VERSION << endl; | 139 | cerr << VERSION << endl; |
138 | exit(0); | 140 | exit(0); |
139 | break; | 141 | break; |
140 | case 'L': | 142 | case 'L': |
141 | extern const char *COPYING; | 143 | extern const char *COPYING; |
142 | cerr << COPYING << endl; | 144 | cerr << COPYING << endl; |
143 | exit(0); | 145 | exit(0); |
144 | break; | 146 | break; |
145 | case 'f': | 147 | case 'f': |
146 | config_file = optarg; | 148 | config_file = optarg; |
147 | break; | 149 | break; |
148 | case 'k': | 150 | case 'k': |
149 | if(op!=op_default) { | 151 | if(op!=op_default) { |
150 | cerr << "Can't obey two or more orders at once" << endl; | 152 | cerr << "Can't obey two or more orders at once" << endl; |
151 | exit(1); | 153 | exit(1); |
152 | } | 154 | } |
153 | op = op_signal; op_signum = SIGTERM; | 155 | op = op_signal; op_signum = SIGTERM; |
154 | break; | 156 | break; |
155 | case 'r': | 157 | case 'r': |
156 | if(op!=op_default) { | 158 | if(op!=op_default) { |
157 | cerr << "Can't obey two or more orders at once" << endl; | 159 | cerr << "Can't obey two or more orders at once" << endl; |
158 | exit(1); | 160 | exit(1); |
159 | } | 161 | } |
160 | op = op_signal; op_signum = SIGHUP; | 162 | op = op_signal; op_signum = SIGHUP; |
161 | break; | 163 | break; |
162 | case 'c': | 164 | case 'c': |
163 | if(op!=op_default) { | 165 | if(op!=op_default) { |
164 | cerr << "Can't obey two or more orders at once" << endl; | 166 | cerr << "Can't obey two or more orders at once" << endl; |
165 | exit(1); | 167 | exit(1); |
166 | } | 168 | } |
167 | op = op_signal; op_signum = 0; | 169 | op = op_signal; op_signum = 0; |
168 | break; | 170 | break; |
169 | case 'e': | 171 | case 'e': |
170 | if(op!=op_default) { | 172 | if(op!=op_default) { |
171 | cerr << "Can't obey two or more orders at once" << endl; | 173 | cerr << "Can't obey two or more orders at once" << endl; |
172 | exit(1); | 174 | exit(1); |
173 | } | 175 | } |
174 | op = op_ensure; | 176 | op = op_ensure; |
175 | break; | 177 | break; |
176 | case 't': | 178 | case 't': |
177 | if(op!=op_default) { | 179 | if(op!=op_default) { |
178 | cerr << "Can't obey two or more orders at once" << endl; | 180 | cerr << "Can't obey two or more orders at once" << endl; |
179 | exit(1); | 181 | exit(1); |
180 | } | 182 | } |
181 | op = op_test; | 183 | op = op_test; |
182 | break; | 184 | break; |
183 | case 's': | 185 | case 's': |
184 | if(op!=op_default) { | 186 | if(op!=op_default) { |
185 | cerr << "Can't obey two or more orders at once" << endl; | 187 | cerr << "Can't obey two or more orders at once" << endl; |
186 | exit(1); | 188 | exit(1); |
187 | } | 189 | } |
188 | op = op_signal; | 190 | op = op_signal; |
189 | errno = 0; | 191 | errno = 0; |
190 | op_signum = strtol(optarg,NULL,0); | 192 | op_signum = strtol(optarg,NULL,0); |
191 | if(errno) { | 193 | if(errno) { |
192 | cerr << "Can't obtain the signal value" << endl; | 194 | cerr << "Can't obtain the signal value" << endl; |
193 | exit(1); | 195 | exit(1); |
194 | } | 196 | } |
195 | break; | 197 | break; |
196 | default: | 198 | default: |
197 | cerr << "Huh??" << endl; | 199 | cerr << "Huh??" << endl; |
198 | exit(1); | 200 | exit(1); |
199 | break; | 201 | break; |
200 | } | 202 | } |
201 | } | 203 | } |
202 | const char *sid = *argv; | 204 | const char *sid = *argv; |
203 | const char *t; | 205 | const char *t; |
204 | while(t = index(sid,'/')) { | 206 | while(t = index(sid,'/')) { |
205 | sid = t; sid++; | 207 | sid = t; sid++; |
206 | } | 208 | } |
207 | openlog(sid,LOG_CONS|LOG_PERROR|LOG_PID,LOG_DAEMON); | 209 | openlog(sid,LOG_CONS|LOG_PERROR|LOG_PID,LOG_DAEMON); |
208 | configuration config; | 210 | configuration config; |
209 | config.parse(config_file); | 211 | config.parse(config_file); |
210 | switch(op) { | 212 | switch(op) { |
211 | case op_test: | 213 | case op_test: |
212 | cerr << "Configuration OK" << endl; | 214 | cerr << "Configuration OK" << endl; |
213 | break; | 215 | break; |
214 | case op_signal: | 216 | case op_signal: |
215 | try { | 217 | try { |
216 | if(optind>=argc) { | 218 | if(optind>=argc) { |
217 | signal_self(config,op_signum); | 219 | signal_self(config,op_signum); |
218 | }else{ | 220 | }else{ |
219 | int failures = 0; | 221 | int failures = 0; |
220 | for(int narg=optind;narg<argc;narg++) { | 222 | for(int narg=optind;narg<argc;narg++) { |
221 | try { | 223 | try { |
222 | processes_t::const_iterator i = config.processes.find(argv[narg]); | 224 | processes_t::const_iterator i = config.processes.find(argv[narg]); |
223 | if(i==config.processes.end()) | 225 | if(i==config.processes.end()) |
224 | throw runtime_error("no such process configured"); | 226 | throw runtime_error("no such process configured"); |
225 | if(op_signum) | 227 | if(op_signum) |
226 | i->second.signal(op_signum); | 228 | i->second.signal(op_signum); |
227 | else | 229 | else |
228 | i->second.check(); | 230 | i->second.check(); |
229 | }catch(exception& e) { | 231 | }catch(exception& e) { |
230 | cerr << "dudki(" << argv[narg] << "): " << e.what() << endl; | 232 | cerr << "dudki(" << argv[narg] << "): " << e.what() << endl; |
231 | failures++; | 233 | failures++; |
232 | } | 234 | } |
233 | } | 235 | } |
234 | if(failures) | 236 | if(failures) |
235 | throw runtime_error("not all processes have been successfully signaled"); | 237 | throw runtime_error("not all processes have been successfully signaled"); |
236 | } | 238 | } |
237 | exit(0); | 239 | exit(0); |
238 | }catch(exception& e) { | 240 | }catch(exception& e) { |
239 | exit(1); | 241 | exit(1); |
240 | } | 242 | } |
241 | break; | 243 | break; |
242 | case op_ensure: | 244 | case op_ensure: |
243 | try { | 245 | try { |
244 | signal_self(config,0); | 246 | signal_self(config,0); |
245 | break; | 247 | break; |
246 | }catch(exception& e) { | 248 | }catch(exception& e) { |
247 | syslog(LOG_NOTICE,"The dudki process is down, taking its place"); | 249 | syslog(LOG_NOTICE,"The dudki process is down, taking its place"); |
248 | config.daemonize = true; | 250 | config.daemonize = true; |
249 | }catch(int zero) { | 251 | }catch(int zero) { |
250 | // we throw zero in case we're ensuring that this very process is running. | 252 | // we throw zero in case we're ensuring that this very process is running. |
251 | // we don't have to daemonize if we're daemonic. | 253 | // we don't have to daemonize if we're daemonic. |
252 | config.daemonize = false; | 254 | config.daemonize = false; |
253 | } | 255 | } |
254 | case op_default: | 256 | case op_default: |
255 | case op_work: | 257 | case op_work: |
256 | { | 258 | { |
257 | if(config.daemonize) { | 259 | if(config.daemonize) { |
258 | pid_t pf = fork(); | 260 | pid_t pf = fork(); |
259 | if(pf<0) | 261 | if(pf<0) |
260 | throw runtime_error(string(__PRETTY_FUNCTION__)+": failed to fork()"); | 262 | throw runtime_error(string(__PRETTY_FUNCTION__)+": failed to fork()"); |
261 | if(pf) { | 263 | if(pf) { |
262 | _exit(0); | 264 | _exit(0); |
263 | } | 265 | } |
264 | } | 266 | } |
265 | pid_file pidfile; | 267 | pid_file pidfile; |
266 | pidfile.set(config.pidfile); | 268 | pidfile.set(config.pidfile); |
267 | signal(SIGINT,lethal_signal_handler); | 269 | signal(SIGINT,lethal_signal_handler); |
268 | signal(SIGABRT,lethal_signal_handler); | 270 | signal(SIGABRT,lethal_signal_handler); |
269 | signal(SIGTERM,lethal_signal_handler); | 271 | signal(SIGTERM,lethal_signal_handler); |
270 | signal(SIGHUP,sighup_handler); | 272 | signal(SIGHUP,sighup_handler); |
271 | sigset_t sset; | 273 | sigset_t sset; |
272 | sigemptyset(&sset); | 274 | sigemptyset(&sset); |
273 | sigaddset(&sset,SIGINT); sigaddset(&sset,SIGABRT); | 275 | sigaddset(&sset,SIGINT); sigaddset(&sset,SIGABRT); |
274 | sigaddset(&sset,SIGTERM); sigaddset(&sset,SIGHUP); | 276 | sigaddset(&sset,SIGTERM); sigaddset(&sset,SIGHUP); |
275 | sigprocmask(SIG_UNBLOCK,&sset,NULL); | 277 | sigprocmask(SIG_UNBLOCK,&sset,NULL); |
276 | while(!finishing) { | 278 | while(!finishing) { |
277 | check_herd(config); | 279 | check_herd(config); |
278 | sleep(config.check_interval); | 280 | sleep(config.check_interval); |
279 | } | 281 | } |
280 | if(restarting) | 282 | if(restarting) |
281 | execvp(_argv[0],_argv); | 283 | execvp(_argv[0],_argv); |
282 | } | 284 | } |
283 | break; | 285 | break; |
284 | default: | 286 | default: |
285 | throw runtime_error(string(__PRETTY_FUNCTION__)+": internal error"); | 287 | throw runtime_error(string(__PRETTY_FUNCTION__)+": internal error"); |
286 | } | 288 | } |
287 | }catch(exception& e) { | 289 | }catch(exception& e) { |
288 | cerr << "Oops: " << e.what() << endl; | 290 | cerr << "Oops: " << e.what() << endl; |
289 | return 1; | 291 | return 1; |
290 | } | 292 | } |
291 | exit(0); | 293 | exit(0); |
292 | } | 294 | } |
diff --git a/src/process.cc b/src/process.cc index 4807b98..3e9cc2b 100644 --- a/src/process.cc +++ b/src/process.cc | |||
@@ -1,302 +1,303 @@ | |||
1 | #include <stdio.h> | 1 | #include <stdio.h> |
2 | #include <sys/types.h> | 2 | #include <sys/types.h> |
3 | #include <unistd.h> | 3 | #include <unistd.h> |
4 | #include <signal.h> | 4 | #include <signal.h> |
5 | #include <pwd.h> | 5 | #include <pwd.h> |
6 | #include <grp.h> | 6 | #include <grp.h> |
7 | #include <dirent.h> | 7 | #include <dirent.h> |
8 | #include <sys/wait.h> | 8 | #include <sys/wait.h> |
9 | #include <syslog.h> | 9 | #include <syslog.h> |
10 | #include <stdlib.h> | ||
10 | #include <errno.h> | 11 | #include <errno.h> |
11 | #include <iostream> | 12 | #include <iostream> |
12 | #include <fstream> | 13 | #include <fstream> |
13 | #include <sstream> | 14 | #include <sstream> |
14 | #include <stdexcept> | 15 | #include <stdexcept> |
15 | #include <string> | 16 | #include <string> |
16 | #include <vector> | 17 | #include <vector> |
17 | using namespace std; | 18 | using namespace std; |
18 | #include "process.h" | 19 | #include "process.h" |
19 | #include "configuration.h" | 20 | #include "configuration.h" |
20 | 21 | ||
21 | static multimap<string,pid_t> procpids; | 22 | static multimap<string,pid_t> procpids; |
22 | 23 | ||
23 | void process::check() const { | 24 | void process::check() const { |
24 | if(!pidfile.empty()) { | 25 | if(!pidfile.empty()) { |
25 | signal(0); | 26 | signal(0); |
26 | }else if(!process_name.empty()) { | 27 | }else if(!process_name.empty()) { |
27 | if(procpids.empty()) | 28 | if(procpids.empty()) |
28 | gather_proc_info(); | 29 | gather_proc_info(); |
29 | if(procpids.find(process_name)==procpids.end()) | 30 | if(procpids.find(process_name)==procpids.end()) |
30 | throw runtime_error("no such process"); | 31 | throw runtime_error("no such process"); |
31 | } // XXX: or else? | 32 | } // XXX: or else? |
32 | } | 33 | } |
33 | void process::check(const string& id,configuration& config) { | 34 | void process::check(const string& id,configuration& config) { |
34 | try { | 35 | try { |
35 | check(); | 36 | check(); |
36 | patience = 0; | 37 | patience = 0; |
37 | }catch(exception& e) { | 38 | }catch(exception& e) { |
38 | if(patience>60) { // TODO: configurable | 39 | if(patience>60) { // TODO: configurable |
39 | patience = 0; | 40 | patience = 0; |
40 | }else{ | 41 | }else{ |
41 | if(patience<10) { // TODO: configurable | 42 | if(patience<10) { // TODO: configurable |
42 | syslog(LOG_NOTICE,"The process '%s' is down, trying to launch.",id.c_str()); | 43 | syslog(LOG_NOTICE,"The process '%s' is down, trying to launch.",id.c_str()); |
43 | do_notify(id,"Starting up", | 44 | do_notify(id,"Starting up", |
44 | "The named process seems to be down. Dudki will try\n" | 45 | "The named process seems to be down. Dudki will try\n" |
45 | "to revive it by running the specified command.\n", | 46 | "to revive it by running the specified command.\n", |
46 | config); | 47 | config); |
47 | try { | 48 | try { |
48 | launch(id,config); | 49 | launch(id,config); |
49 | }catch(exception& e) { | 50 | }catch(exception& e) { |
50 | syslog(LOG_ERR,"Error trying to launch process '%s': %s",id.c_str(),e.what()); | 51 | syslog(LOG_ERR,"Error trying to launch process '%s': %s",id.c_str(),e.what()); |
51 | } | 52 | } |
52 | }else if(patience==10){ // TODO: configurable like the above | 53 | }else if(patience==10){ // TODO: configurable like the above |
53 | syslog(LOG_NOTICE,"Giving up on process '%s' for a while",id.c_str()); | 54 | syslog(LOG_NOTICE,"Giving up on process '%s' for a while",id.c_str()); |
54 | do_notify(id,"Giving up", | 55 | do_notify(id,"Giving up", |
55 | "After a number of attempts to relaunch the named process\n" | 56 | "After a number of attempts to relaunch the named process\n" |
56 | "It still seems to be down. Dudki is giving up attempts\n" | 57 | "It still seems to be down. Dudki is giving up attempts\n" |
57 | "to revive the process for a while.\n", | 58 | "to revive the process for a while.\n", |
58 | config); | 59 | config); |
59 | } | 60 | } |
60 | patience++; | 61 | patience++; |
61 | } | 62 | } |
62 | } | 63 | } |
63 | } | 64 | } |
64 | 65 | ||
65 | void process::launch(const string& id,configuration& config) { | 66 | void process::launch(const string& id,configuration& config) { |
66 | uid_t uid = (uid_t)-1; | 67 | uid_t uid = (uid_t)-1; |
67 | gid_t gid = (gid_t)-1; | 68 | gid_t gid = (gid_t)-1; |
68 | if(!user.empty()) { | 69 | if(!user.empty()) { |
69 | struct passwd *ptmp = getpwnam(user.c_str()); | 70 | struct passwd *ptmp = getpwnam(user.c_str()); |
70 | if(ptmp) { | 71 | if(ptmp) { |
71 | uid = ptmp->pw_uid; | 72 | uid = ptmp->pw_uid; |
72 | gid = ptmp->pw_gid; | 73 | gid = ptmp->pw_gid; |
73 | }else{ | 74 | }else{ |
74 | errno=0; | 75 | errno=0; |
75 | uid = strtol(user.c_str(),NULL,0); | 76 | uid = strtol(user.c_str(),NULL,0); |
76 | if(errno) | 77 | if(errno) |
77 | throw runtime_error("Failed to resolve User value to uid"); | 78 | throw runtime_error("Failed to resolve User value to uid"); |
78 | } | 79 | } |
79 | } | 80 | } |
80 | if(!group.empty()) { | 81 | if(!group.empty()) { |
81 | struct group *gtmp = getgrnam(group.c_str()); | 82 | struct group *gtmp = getgrnam(group.c_str()); |
82 | if(gtmp) { | 83 | if(gtmp) { |
83 | gid = gtmp->gr_gid; | 84 | gid = gtmp->gr_gid; |
84 | }else{ | 85 | }else{ |
85 | errno = 0; | 86 | errno = 0; |
86 | gid = strtol(group.c_str(),NULL,0); | 87 | gid = strtol(group.c_str(),NULL,0); |
87 | if(errno) | 88 | if(errno) |
88 | throw runtime_error("Failed to reslove Group value to gid"); | 89 | throw runtime_error("Failed to reslove Group value to gid"); |
89 | } | 90 | } |
90 | } | 91 | } |
91 | pid_t p = fork(); | 92 | pid_t p = fork(); |
92 | if(p<0) | 93 | if(p<0) |
93 | throw runtime_error(string(__PRETTY_FUNCTION__)+": failed to fork()"); | 94 | throw runtime_error(string(__PRETTY_FUNCTION__)+": failed to fork()"); |
94 | if(!p) { | 95 | if(!p) { |
95 | // child | 96 | // child |
96 | try { | 97 | try { |
97 | setsid(); | 98 | setsid(); |
98 | if(!group.empty()) { | 99 | if(!group.empty()) { |
99 | if(user.empty()) { | 100 | if(user.empty()) { |
100 | if((getgid()!=gid) && setgid(gid)) | 101 | if((getgid()!=gid) && setgid(gid)) |
101 | throw runtime_error(string(__PRETTY_FUNCTION__)+": failed to setgid()"); | 102 | throw runtime_error(string(__PRETTY_FUNCTION__)+": failed to setgid()"); |
102 | }else{ | 103 | }else{ |
103 | if(initgroups(user.c_str(),gid)) | 104 | if(initgroups(user.c_str(),gid)) |
104 | throw runtime_error(string(__PRETTY_FUNCTION__)+": failed to initgroups()"); | 105 | throw runtime_error(string(__PRETTY_FUNCTION__)+": failed to initgroups()"); |
105 | } | 106 | } |
106 | } | 107 | } |
107 | if(!chroot.empty()) { | 108 | if(!chroot.empty()) { |
108 | if(::chroot(chroot.c_str())) | 109 | if(::chroot(chroot.c_str())) |
109 | throw runtime_error(string(__PRETTY_FUNCTION__)+": failed to chroot()"); | 110 | throw runtime_error(string(__PRETTY_FUNCTION__)+": failed to chroot()"); |
110 | } | 111 | } |
111 | if(!user.empty()) { | 112 | if(!user.empty()) { |
112 | if((getuid()!=uid) && setuid(uid)) | 113 | if((getuid()!=uid) && setuid(uid)) |
113 | throw runtime_error(string(__PRETTY_FUNCTION__)+": failed to setuid()"); | 114 | throw runtime_error(string(__PRETTY_FUNCTION__)+": failed to setuid()"); |
114 | } | 115 | } |
115 | char *argv[] = { "/bin/sh", "-c", (char*)restart_cmd.c_str(), NULL }; | 116 | char *argv[] = { const_cast<char*>("/bin/sh"), const_cast<char*>("-c"), (char*)restart_cmd.c_str(), NULL }; |
116 | close(0); close(1); close(2); | 117 | close(0); close(1); close(2); |
117 | execv("/bin/sh",argv); | 118 | execv("/bin/sh",argv); |
118 | }catch(exception& e) { | 119 | }catch(exception& e) { |
119 | syslog(LOG_ERR,"Error trying to launch process '%s': %s",id.c_str(),e.what()); | 120 | syslog(LOG_ERR,"Error trying to launch process '%s': %s",id.c_str(),e.what()); |
120 | } | 121 | } |
121 | _exit(-1); | 122 | _exit(-1); |
122 | } | 123 | } |
123 | // parent | 124 | // parent |
124 | int rv; | 125 | int rv; |
125 | if(waitpid(p,&rv,0)<0) | 126 | if(waitpid(p,&rv,0)<0) |
126 | throw runtime_error(string(__PRETTY_FUNCTION__)+": failed to waitpid()"); | 127 | throw runtime_error(string(__PRETTY_FUNCTION__)+": failed to waitpid()"); |
127 | } | 128 | } |
128 | 129 | ||
129 | void process::do_notify(const string& id,const string& event,const string& description,configuration& config) { | 130 | void process::do_notify(const string& id,const string& event,const string& description,configuration& config) { |
130 | string the_notify; | 131 | string the_notify; |
131 | if(!notify.empty()) | 132 | if(!notify.empty()) |
132 | the_notify=notify; | 133 | the_notify=notify; |
133 | else if(!config.notify.empty()) | 134 | else if(!config.notify.empty()) |
134 | the_notify=config.notify; | 135 | the_notify=config.notify; |
135 | else | 136 | else |
136 | return; | 137 | return; |
137 | try { | 138 | try { |
138 | string::size_type colon = the_notify.find(':'); | 139 | string::size_type colon = the_notify.find(':'); |
139 | if(colon==string::npos) | 140 | if(colon==string::npos) |
140 | throw runtime_error("invalid notify action specification"); | 141 | throw runtime_error("invalid notify action specification"); |
141 | string nschema = the_notify.substr(0,colon); | 142 | string nschema = the_notify.substr(0,colon); |
142 | string ntarget = the_notify.substr(colon+1); | 143 | string ntarget = the_notify.substr(colon+1); |
143 | if(nschema=="mailto") { | 144 | if(nschema=="mailto") { |
144 | notify_mailto(ntarget,id,event,description,config); | 145 | notify_mailto(ntarget,id,event,description,config); |
145 | }else | 146 | }else |
146 | throw runtime_error("unrecognized notification schema"); | 147 | throw runtime_error("unrecognized notification schema"); |
147 | }catch(exception& e) { | 148 | }catch(exception& e) { |
148 | syslog(LOG_ERR,"Notification error: %s",e.what()); | 149 | syslog(LOG_ERR,"Notification error: %s",e.what()); |
149 | } | 150 | } |
150 | } | 151 | } |
151 | 152 | ||
152 | void process::notify_mailto(const string& email,const string& id,const string& event,const string& description,configuration& config) { | 153 | void process::notify_mailto(const string& email,const string& id,const string& event,const string& description,configuration& config) { |
153 | int files[2]; | 154 | int files[2]; |
154 | if(pipe(files)) | 155 | if(pipe(files)) |
155 | throw runtime_error("Failed to pipe()"); | 156 | throw runtime_error("Failed to pipe()"); |
156 | pid_t pid = vfork(); | 157 | pid_t pid = vfork(); |
157 | if(pid==-1) { | 158 | if(pid==-1) { |
158 | close(files[0]); | 159 | close(files[0]); |
159 | close(files[1]); | 160 | close(files[1]); |
160 | throw runtime_error("Failed to vfork()"); | 161 | throw runtime_error("Failed to vfork()"); |
161 | } | 162 | } |
162 | if(!pid) { | 163 | if(!pid) { |
163 | // child | 164 | // child |
164 | if(dup2(files[0],0)!=0) | 165 | if(dup2(files[0],0)!=0) |
165 | _exit(-1); | 166 | _exit(-1); |
166 | close(1); | 167 | close(1); |
167 | close(files[0]); | 168 | close(files[0]); |
168 | close(files[1]); | 169 | close(files[1]); |
169 | execl("/usr/sbin/sendmail","usr/sbin/sendmail","-i",email.c_str(),NULL); | 170 | execl("/usr/sbin/sendmail","usr/sbin/sendmail","-i",email.c_str(),NULL); |
170 | _exit(-1); | 171 | _exit(-1); |
171 | } | 172 | } |
172 | // parent | 173 | // parent |
173 | int status; | 174 | int status; |
174 | if(waitpid(pid,&status,WNOHANG)) { | 175 | if(waitpid(pid,&status,WNOHANG)) { |
175 | close(files[0]); | 176 | close(files[0]); |
176 | close(files[1]); | 177 | close(files[1]); |
177 | throw runtime_error("vfork()ed sendmail child exited unexpectedly"); | 178 | throw runtime_error("vfork()ed sendmail child exited unexpectedly"); |
178 | } | 179 | } |
179 | close(files[0]); | 180 | close(files[0]); |
180 | FILE *mta = fdopen(files[1],"w"); | 181 | FILE *mta = fdopen(files[1],"w"); |
181 | for(headers_t::const_iterator i=mailto_headers.begin();i!=mailto_headers.end();++i) { | 182 | for(headers_t::const_iterator i=mailto_headers.begin();i!=mailto_headers.end();++i) { |
182 | fprintf(mta,"%s: %s\n",i->first.c_str(),i->second.c_str()); | 183 | fprintf(mta,"%s: %s\n",i->first.c_str(),i->second.c_str()); |
183 | } | 184 | } |
184 | for(headers_t::const_iterator i=config.mailto_headers.begin();i!=config.mailto_headers.end();++i) { | 185 | for(headers_t::const_iterator i=config.mailto_headers.begin();i!=config.mailto_headers.end();++i) { |
185 | if(mailto_headers.find(i->first)!=mailto_headers.end()) | 186 | if(mailto_headers.find(i->first)!=mailto_headers.end()) |
186 | continue; | 187 | continue; |
187 | fprintf(mta,"%s: %s\n",i->first.c_str(),i->second.c_str()); | 188 | fprintf(mta,"%s: %s\n",i->first.c_str(),i->second.c_str()); |
188 | } | 189 | } |
189 | fprintf(mta, | 190 | fprintf(mta, |
190 | "Subject: [%s] %s\n\n" | 191 | "Subject: [%s] %s\n\n" |
191 | "%s\n" | 192 | "%s\n" |
192 | "---\n" | 193 | "---\n" |
193 | "This message was sent automatically by the 'dudki' daemon\n", | 194 | "This message was sent automatically by the 'dudki' daemon\n", |
194 | id.c_str(), event.c_str(), | 195 | id.c_str(), event.c_str(), |
195 | description.c_str() ); | 196 | description.c_str() ); |
196 | fclose(mta); | 197 | fclose(mta); |
197 | waitpid(pid,&status,0); | 198 | waitpid(pid,&status,0); |
198 | // TODO: check the return code | 199 | // TODO: check the return code |
199 | } | 200 | } |
200 | 201 | ||
201 | void process::signal(int signum) const { | 202 | void process::signal(int signum) const { |
202 | if(!pidfile.empty()) { | 203 | if(!pidfile.empty()) { |
203 | ifstream pids(pidfile.c_str(),ios::in); | 204 | ifstream pids(pidfile.c_str(),ios::in); |
204 | if(!pids) | 205 | if(!pids) |
205 | throw runtime_error("no pidfile found"); | 206 | throw runtime_error("no pidfile found"); |
206 | pid_t pid = 0; | 207 | pid_t pid = 0; |
207 | pids >> pid; | 208 | pids >> pid; |
208 | pids.close(); | 209 | pids.close(); |
209 | if(!pid) | 210 | if(!pid) |
210 | throw runtime_error("no pid in pidfile"); | 211 | throw runtime_error("no pid in pidfile"); |
211 | if(kill(pid,signum)) | 212 | if(kill(pid,signum)) |
212 | throw runtime_error("failed to signal process"); | 213 | throw runtime_error("failed to signal process"); |
213 | }else if(!process_name.empty()) { | 214 | }else if(!process_name.empty()) { |
214 | if(procpids.empty()) | 215 | if(procpids.empty()) |
215 | gather_proc_info(); | 216 | gather_proc_info(); |
216 | pair<multimap<string,pid_t>::const_iterator,multimap<string,pid_t>::const_iterator> range = procpids.equal_range(process_name); | 217 | pair<multimap<string,pid_t>::const_iterator,multimap<string,pid_t>::const_iterator> range = procpids.equal_range(process_name); |
217 | int count = 0; | 218 | int count = 0; |
218 | for(multimap<string,pid_t>::const_iterator i=range.first;i!=range.second;++i) { | 219 | for(multimap<string,pid_t>::const_iterator i=range.first;i!=range.second;++i) { |
219 | pid_t pid = i->second; | 220 | pid_t pid = i->second; |
220 | if(kill(i->second,signum)) | 221 | if(kill(i->second,signum)) |
221 | throw runtime_error("failed to signal process"); | 222 | throw runtime_error("failed to signal process"); |
222 | count++; | 223 | count++; |
223 | } | 224 | } |
224 | if(!count) | 225 | if(!count) |
225 | throw runtime_error("no running instance detected"); | 226 | throw runtime_error("no running instance detected"); |
226 | }else | 227 | }else |
227 | throw runtime_error("nothing is known about the process"); | 228 | throw runtime_error("nothing is known about the process"); |
228 | } | 229 | } |
229 | 230 | ||
230 | void process::prepare_herd() { | 231 | void process::prepare_herd() { |
231 | procpids.clear(); | 232 | procpids.clear(); |
232 | } | 233 | } |
233 | void process::unprepare_herd() { | 234 | void process::unprepare_herd() { |
234 | procpids.clear(); | 235 | procpids.clear(); |
235 | } | 236 | } |
236 | void process::gather_proc_info() { | 237 | void process::gather_proc_info() { |
237 | vector<pid_t> allpids; | 238 | vector<pid_t> allpids; |
238 | DIR *pd = opendir("/proc"); | 239 | DIR *pd = opendir("/proc"); |
239 | if(!pd) | 240 | if(!pd) |
240 | throw runtime_error("failed to open /proc"); | 241 | throw runtime_error("failed to open /proc"); |
241 | struct dirent *pde; | 242 | struct dirent *pde; |
242 | pid_t selfpid = getpid(); | 243 | pid_t selfpid = getpid(); |
243 | while(pde=readdir(pd)) { | 244 | while(pde=readdir(pd)) { |
244 | errno=0; | 245 | errno=0; |
245 | pid_t pid = atoi(pde->d_name); | 246 | pid_t pid = atoi(pde->d_name); |
246 | if((!pid) || pid==selfpid) | 247 | if((!pid) || pid==selfpid) |
247 | continue; | 248 | continue; |
248 | allpids.push_back(pid); | 249 | allpids.push_back(pid); |
249 | } | 250 | } |
250 | closedir(pd); | 251 | closedir(pd); |
251 | char s[256]; | 252 | char s[256]; |
252 | procpids.clear(); | 253 | procpids.clear(); |
253 | for(vector<pid_t>::const_iterator i=allpids.begin();i!=allpids.end();++i) { | 254 | for(vector<pid_t>::const_iterator i=allpids.begin();i!=allpids.end();++i) { |
254 | int r = snprintf(s,sizeof(s),"/proc/%d/stat",*i); | 255 | int r = snprintf(s,sizeof(s),"/proc/%d/stat",*i); |
255 | if(r>=sizeof(s) || r<1) | 256 | if(r>=sizeof(s) || r<1) |
256 | continue; | 257 | continue; |
257 | string cmd; | 258 | string cmd; |
258 | ifstream ss(s,ios::in); | 259 | ifstream ss(s,ios::in); |
259 | if(ss) { | 260 | if(ss) { |
260 | getline(ss,cmd); | 261 | getline(ss,cmd); |
261 | string::size_type op = cmd.find('('); | 262 | string::size_type op = cmd.find('('); |
262 | if(op==string::npos) | 263 | if(op==string::npos) |
263 | continue; | 264 | continue; |
264 | cmd.erase(0,op+1); | 265 | cmd.erase(0,op+1); |
265 | string::size_type cp = cmd.find(')'); | 266 | string::size_type cp = cmd.find(')'); |
266 | if(cp==string::npos) | 267 | if(cp==string::npos) |
267 | continue; | 268 | continue; |
268 | cmd.erase(cp); | 269 | cmd.erase(cp); |
269 | }else{ | 270 | }else{ |
270 | r = snprintf(s,sizeof(s),"/proc/%d/status",*i); | 271 | r = snprintf(s,sizeof(s),"/proc/%d/status",*i); |
271 | if(r>=sizeof(s) || r<1) | 272 | if(r>=sizeof(s) || r<1) |
272 | continue; | 273 | continue; |
273 | ifstream ss(s,ios::in); | 274 | ifstream ss(s,ios::in); |
274 | if(!ss) | 275 | if(!ss) |
275 | continue; | 276 | continue; |
276 | ss >> cmd; | 277 | ss >> cmd; |
277 | if(cmd.empty()) | 278 | if(cmd.empty()) |
278 | continue; | 279 | continue; |
279 | } | 280 | } |
280 | r = snprintf(s,sizeof(s),"/proc/%d/cmdline",*i); | 281 | r = snprintf(s,sizeof(s),"/proc/%d/cmdline",*i); |
281 | if(r>=sizeof(s) || r<1) | 282 | if(r>=sizeof(s) || r<1) |
282 | continue; | 283 | continue; |
283 | ifstream cs(s,ios::binary); | 284 | ifstream cs(s,ios::binary); |
284 | if(!cs) | 285 | if(!cs) |
285 | continue; | 286 | continue; |
286 | string command; | 287 | string command; |
287 | while(cs) { | 288 | while(cs) { |
288 | string cl; | 289 | string cl; |
289 | getline(cs,cl,(char)0); | 290 | getline(cs,cl,(char)0); |
290 | string::size_type lsl = cl.rfind('/'); | 291 | string::size_type lsl = cl.rfind('/'); |
291 | if(lsl!=string::npos) | 292 | if(lsl!=string::npos) |
292 | cl.erase(0,lsl+1); | 293 | cl.erase(0,lsl+1); |
293 | if(cl.substr(0,cmd.length())==cmd) { | 294 | if(cl.substr(0,cmd.length())==cmd) { |
294 | command = cl; | 295 | command = cl; |
295 | break; | 296 | break; |
296 | } | 297 | } |
297 | } | 298 | } |
298 | procpids.insert(pair<string,pid_t>(cmd,*i)); | 299 | procpids.insert(pair<string,pid_t>(cmd,*i)); |
299 | if((!command.empty()) && cmd!=command) | 300 | if((!command.empty()) && cmd!=command) |
300 | procpids.insert(pair<string,pid_t>(command,*i)); | 301 | procpids.insert(pair<string,pid_t>(command,*i)); |
301 | } | 302 | } |
302 | } | 303 | } |