| 1 | /* $Cambridge: exim/src/src/acl.c,v 1.84 2009/10/14 14:48:41 nm4 Exp $ */ |
| 2 | |
| 3 | /************************************************* |
| 4 | * Exim - an Internet mail transport agent * |
| 5 | *************************************************/ |
| 6 | |
| 7 | /* Copyright (c) University of Cambridge 1995 - 2007 */ |
| 8 | /* See the file NOTICE for conditions of use and distribution. */ |
| 9 | |
| 10 | /* Code for handling Access Control Lists (ACLs) */ |
| 11 | |
| 12 | #include "exim.h" |
| 13 | |
| 14 | |
| 15 | /* Default callout timeout */ |
| 16 | |
| 17 | #define CALLOUT_TIMEOUT_DEFAULT 30 |
| 18 | |
| 19 | /* ACL verb codes - keep in step with the table of verbs that follows */ |
| 20 | |
| 21 | enum { ACL_ACCEPT, ACL_DEFER, ACL_DENY, ACL_DISCARD, ACL_DROP, ACL_REQUIRE, |
| 22 | ACL_WARN }; |
| 23 | |
| 24 | /* ACL verbs */ |
| 25 | |
| 26 | static uschar *verbs[] = |
| 27 | { US"accept", US"defer", US"deny", US"discard", US"drop", US"require", |
| 28 | US"warn" }; |
| 29 | |
| 30 | /* For each verb, the conditions for which "message" or "log_message" are used |
| 31 | are held as a bitmap. This is to avoid expanding the strings unnecessarily. For |
| 32 | "accept", the FAIL case is used only after "endpass", but that is selected in |
| 33 | the code. */ |
| 34 | |
| 35 | static int msgcond[] = { |
| 36 | (1<<OK) | (1<<FAIL) | (1<<FAIL_DROP), /* accept */ |
| 37 | (1<<OK), /* defer */ |
| 38 | (1<<OK), /* deny */ |
| 39 | (1<<OK) | (1<<FAIL) | (1<<FAIL_DROP), /* discard */ |
| 40 | (1<<OK), /* drop */ |
| 41 | (1<<FAIL) | (1<<FAIL_DROP), /* require */ |
| 42 | (1<<OK) /* warn */ |
| 43 | }; |
| 44 | |
| 45 | /* ACL condition and modifier codes - keep in step with the table that |
| 46 | follows, and the cond_expand_at_top and uschar cond_modifiers tables lower |
| 47 | down. */ |
| 48 | |
| 49 | enum { ACLC_ACL, |
| 50 | ACLC_ADD_HEADER, |
| 51 | ACLC_AUTHENTICATED, |
| 52 | #ifdef EXPERIMENTAL_BRIGHTMAIL |
| 53 | ACLC_BMI_OPTIN, |
| 54 | #endif |
| 55 | ACLC_CONDITION, |
| 56 | ACLC_CONTINUE, |
| 57 | ACLC_CONTROL, |
| 58 | #ifdef EXPERIMENTAL_DCC |
| 59 | ACLC_DCC, |
| 60 | #endif |
| 61 | #ifdef WITH_CONTENT_SCAN |
| 62 | ACLC_DECODE, |
| 63 | #endif |
| 64 | ACLC_DELAY, |
| 65 | #ifdef WITH_OLD_DEMIME |
| 66 | ACLC_DEMIME, |
| 67 | #endif |
| 68 | #ifndef DISABLE_DKIM |
| 69 | ACLC_DKIM_SIGNER, |
| 70 | ACLC_DKIM_STATUS, |
| 71 | #endif |
| 72 | ACLC_DNSLISTS, |
| 73 | ACLC_DOMAINS, |
| 74 | ACLC_ENCRYPTED, |
| 75 | ACLC_ENDPASS, |
| 76 | ACLC_HOSTS, |
| 77 | ACLC_LOCAL_PARTS, |
| 78 | ACLC_LOG_MESSAGE, |
| 79 | ACLC_LOG_REJECT_TARGET, |
| 80 | ACLC_LOGWRITE, |
| 81 | #ifdef WITH_CONTENT_SCAN |
| 82 | ACLC_MALWARE, |
| 83 | #endif |
| 84 | ACLC_MESSAGE, |
| 85 | #ifdef WITH_CONTENT_SCAN |
| 86 | ACLC_MIME_REGEX, |
| 87 | #endif |
| 88 | ACLC_RATELIMIT, |
| 89 | ACLC_RECIPIENTS, |
| 90 | #ifdef WITH_CONTENT_SCAN |
| 91 | ACLC_REGEX, |
| 92 | #endif |
| 93 | ACLC_SENDER_DOMAINS, |
| 94 | ACLC_SENDERS, |
| 95 | ACLC_SET, |
| 96 | #ifdef WITH_CONTENT_SCAN |
| 97 | ACLC_SPAM, |
| 98 | #endif |
| 99 | #ifdef EXPERIMENTAL_SPF |
| 100 | ACLC_SPF, |
| 101 | ACLC_SPF_GUESS, |
| 102 | #endif |
| 103 | ACLC_VERIFY }; |
| 104 | |
| 105 | /* ACL conditions/modifiers: "delay", "control", "continue", "endpass", |
| 106 | "message", "log_message", "log_reject_target", "logwrite", and "set" are |
| 107 | modifiers that look like conditions but always return TRUE. They are used for |
| 108 | their side effects. */ |
| 109 | |
| 110 | static uschar *conditions[] = { |
| 111 | US"acl", |
| 112 | US"add_header", |
| 113 | US"authenticated", |
| 114 | #ifdef EXPERIMENTAL_BRIGHTMAIL |
| 115 | US"bmi_optin", |
| 116 | #endif |
| 117 | US"condition", |
| 118 | US"continue", |
| 119 | US"control", |
| 120 | #ifdef EXPERIMENTAL_DCC |
| 121 | US"dcc", |
| 122 | #endif |
| 123 | #ifdef WITH_CONTENT_SCAN |
| 124 | US"decode", |
| 125 | #endif |
| 126 | US"delay", |
| 127 | #ifdef WITH_OLD_DEMIME |
| 128 | US"demime", |
| 129 | #endif |
| 130 | #ifndef DISABLE_DKIM |
| 131 | US"dkim_signers", |
| 132 | US"dkim_status", |
| 133 | #endif |
| 134 | US"dnslists", |
| 135 | US"domains", |
| 136 | US"encrypted", |
| 137 | US"endpass", |
| 138 | US"hosts", |
| 139 | US"local_parts", |
| 140 | US"log_message", |
| 141 | US"log_reject_target", |
| 142 | US"logwrite", |
| 143 | #ifdef WITH_CONTENT_SCAN |
| 144 | US"malware", |
| 145 | #endif |
| 146 | US"message", |
| 147 | #ifdef WITH_CONTENT_SCAN |
| 148 | US"mime_regex", |
| 149 | #endif |
| 150 | US"ratelimit", |
| 151 | US"recipients", |
| 152 | #ifdef WITH_CONTENT_SCAN |
| 153 | US"regex", |
| 154 | #endif |
| 155 | US"sender_domains", US"senders", US"set", |
| 156 | #ifdef WITH_CONTENT_SCAN |
| 157 | US"spam", |
| 158 | #endif |
| 159 | #ifdef EXPERIMENTAL_SPF |
| 160 | US"spf", |
| 161 | US"spf_guess", |
| 162 | #endif |
| 163 | US"verify" }; |
| 164 | |
| 165 | |
| 166 | /* Return values from decode_control(); keep in step with the table of names |
| 167 | that follows! */ |
| 168 | |
| 169 | enum { |
| 170 | CONTROL_AUTH_UNADVERTISED, |
| 171 | #ifdef EXPERIMENTAL_BRIGHTMAIL |
| 172 | CONTROL_BMI_RUN, |
| 173 | #endif |
| 174 | #ifndef DISABLE_DKIM |
| 175 | CONTROL_DKIM_VERIFY, |
| 176 | #endif |
| 177 | CONTROL_ERROR, |
| 178 | CONTROL_CASEFUL_LOCAL_PART, |
| 179 | CONTROL_CASELOWER_LOCAL_PART, |
| 180 | CONTROL_ENFORCE_SYNC, |
| 181 | CONTROL_NO_ENFORCE_SYNC, |
| 182 | CONTROL_FREEZE, |
| 183 | CONTROL_QUEUE_ONLY, |
| 184 | CONTROL_SUBMISSION, |
| 185 | CONTROL_SUPPRESS_LOCAL_FIXUPS, |
| 186 | #ifdef WITH_CONTENT_SCAN |
| 187 | CONTROL_NO_MBOX_UNSPOOL, |
| 188 | #endif |
| 189 | CONTROL_FAKEDEFER, |
| 190 | CONTROL_FAKEREJECT, |
| 191 | CONTROL_NO_MULTILINE, |
| 192 | CONTROL_NO_PIPELINING, |
| 193 | CONTROL_NO_DELAY_FLUSH, |
| 194 | CONTROL_NO_CALLOUT_FLUSH |
| 195 | }; |
| 196 | |
| 197 | /* ACL control names; keep in step with the table above! This list is used for |
| 198 | turning ids into names. The actual list of recognized names is in the variable |
| 199 | control_def controls_list[] below. The fact that there are two lists is a mess |
| 200 | and should be tidied up. */ |
| 201 | |
| 202 | static uschar *controls[] = { |
| 203 | US"allow_auth_unadvertised", |
| 204 | #ifdef EXPERIMENTAL_BRIGHTMAIL |
| 205 | US"bmi_run", |
| 206 | #endif |
| 207 | #ifndef DISABLE_DKIM |
| 208 | US"dkim_disable_verify", |
| 209 | #endif |
| 210 | US"error", |
| 211 | US"caseful_local_part", |
| 212 | US"caselower_local_part", |
| 213 | US"enforce_sync", |
| 214 | US"no_enforce_sync", |
| 215 | US"freeze", |
| 216 | US"queue_only", |
| 217 | US"submission", |
| 218 | US"suppress_local_fixups", |
| 219 | #ifdef WITH_CONTENT_SCAN |
| 220 | US"no_mbox_unspool", |
| 221 | #endif |
| 222 | US"fakedefer", |
| 223 | US"fakereject", |
| 224 | US"no_multiline_responses", |
| 225 | US"no_pipelining", |
| 226 | US"no_delay_flush", |
| 227 | US"no_callout_flush" |
| 228 | }; |
| 229 | |
| 230 | /* Flags to indicate for which conditions/modifiers a string expansion is done |
| 231 | at the outer level. In the other cases, expansion already occurs in the |
| 232 | checking functions. */ |
| 233 | |
| 234 | static uschar cond_expand_at_top[] = { |
| 235 | TRUE, /* acl */ |
| 236 | TRUE, /* add_header */ |
| 237 | FALSE, /* authenticated */ |
| 238 | #ifdef EXPERIMENTAL_BRIGHTMAIL |
| 239 | TRUE, /* bmi_optin */ |
| 240 | #endif |
| 241 | TRUE, /* condition */ |
| 242 | TRUE, /* continue */ |
| 243 | TRUE, /* control */ |
| 244 | #ifdef EXPERIMENTAL_DCC |
| 245 | TRUE, /* dcc */ |
| 246 | #endif |
| 247 | #ifdef WITH_CONTENT_SCAN |
| 248 | TRUE, /* decode */ |
| 249 | #endif |
| 250 | TRUE, /* delay */ |
| 251 | #ifdef WITH_OLD_DEMIME |
| 252 | TRUE, /* demime */ |
| 253 | #endif |
| 254 | #ifndef DISABLE_DKIM |
| 255 | TRUE, /* dkim_signers */ |
| 256 | TRUE, /* dkim_status */ |
| 257 | #endif |
| 258 | TRUE, /* dnslists */ |
| 259 | FALSE, /* domains */ |
| 260 | FALSE, /* encrypted */ |
| 261 | TRUE, /* endpass */ |
| 262 | FALSE, /* hosts */ |
| 263 | FALSE, /* local_parts */ |
| 264 | TRUE, /* log_message */ |
| 265 | TRUE, /* log_reject_target */ |
| 266 | TRUE, /* logwrite */ |
| 267 | #ifdef WITH_CONTENT_SCAN |
| 268 | TRUE, /* malware */ |
| 269 | #endif |
| 270 | TRUE, /* message */ |
| 271 | #ifdef WITH_CONTENT_SCAN |
| 272 | TRUE, /* mime_regex */ |
| 273 | #endif |
| 274 | TRUE, /* ratelimit */ |
| 275 | FALSE, /* recipients */ |
| 276 | #ifdef WITH_CONTENT_SCAN |
| 277 | TRUE, /* regex */ |
| 278 | #endif |
| 279 | FALSE, /* sender_domains */ |
| 280 | FALSE, /* senders */ |
| 281 | TRUE, /* set */ |
| 282 | #ifdef WITH_CONTENT_SCAN |
| 283 | TRUE, /* spam */ |
| 284 | #endif |
| 285 | #ifdef EXPERIMENTAL_SPF |
| 286 | TRUE, /* spf */ |
| 287 | TRUE, /* spf_guess */ |
| 288 | #endif |
| 289 | TRUE /* verify */ |
| 290 | }; |
| 291 | |
| 292 | /* Flags to identify the modifiers */ |
| 293 | |
| 294 | static uschar cond_modifiers[] = { |
| 295 | FALSE, /* acl */ |
| 296 | TRUE, /* add_header */ |
| 297 | FALSE, /* authenticated */ |
| 298 | #ifdef EXPERIMENTAL_BRIGHTMAIL |
| 299 | TRUE, /* bmi_optin */ |
| 300 | #endif |
| 301 | FALSE, /* condition */ |
| 302 | TRUE, /* continue */ |
| 303 | TRUE, /* control */ |
| 304 | #ifdef EXPERIMENTAL_DCC |
| 305 | FALSE, /* dcc */ |
| 306 | #endif |
| 307 | #ifdef WITH_CONTENT_SCAN |
| 308 | FALSE, /* decode */ |
| 309 | #endif |
| 310 | TRUE, /* delay */ |
| 311 | #ifdef WITH_OLD_DEMIME |
| 312 | FALSE, /* demime */ |
| 313 | #endif |
| 314 | #ifndef DISABLE_DKIM |
| 315 | FALSE, /* dkim_signers */ |
| 316 | FALSE, /* dkim_status */ |
| 317 | #endif |
| 318 | FALSE, /* dnslists */ |
| 319 | FALSE, /* domains */ |
| 320 | FALSE, /* encrypted */ |
| 321 | TRUE, /* endpass */ |
| 322 | FALSE, /* hosts */ |
| 323 | FALSE, /* local_parts */ |
| 324 | TRUE, /* log_message */ |
| 325 | TRUE, /* log_reject_target */ |
| 326 | TRUE, /* logwrite */ |
| 327 | #ifdef WITH_CONTENT_SCAN |
| 328 | FALSE, /* malware */ |
| 329 | #endif |
| 330 | TRUE, /* message */ |
| 331 | #ifdef WITH_CONTENT_SCAN |
| 332 | FALSE, /* mime_regex */ |
| 333 | #endif |
| 334 | FALSE, /* ratelimit */ |
| 335 | FALSE, /* recipients */ |
| 336 | #ifdef WITH_CONTENT_SCAN |
| 337 | FALSE, /* regex */ |
| 338 | #endif |
| 339 | FALSE, /* sender_domains */ |
| 340 | FALSE, /* senders */ |
| 341 | TRUE, /* set */ |
| 342 | #ifdef WITH_CONTENT_SCAN |
| 343 | FALSE, /* spam */ |
| 344 | #endif |
| 345 | #ifdef EXPERIMENTAL_SPF |
| 346 | FALSE, /* spf */ |
| 347 | FALSE, /* spf_guess */ |
| 348 | #endif |
| 349 | FALSE /* verify */ |
| 350 | }; |
| 351 | |
| 352 | /* Bit map vector of which conditions and modifiers are not allowed at certain |
| 353 | times. For each condition and modifier, there's a bitmap of dis-allowed times. |
| 354 | For some, it is easier to specify the negation of a small number of allowed |
| 355 | times. */ |
| 356 | |
| 357 | static unsigned int cond_forbids[] = { |
| 358 | 0, /* acl */ |
| 359 | |
| 360 | (unsigned int) |
| 361 | ~((1<<ACL_WHERE_MAIL)|(1<<ACL_WHERE_RCPT)| /* add_header */ |
| 362 | (1<<ACL_WHERE_PREDATA)|(1<<ACL_WHERE_DATA)| |
| 363 | (1<<ACL_WHERE_MIME)|(1<<ACL_WHERE_NOTSMTP)| |
| 364 | (1<<ACL_WHERE_NOTSMTP_START)), |
| 365 | |
| 366 | (1<<ACL_WHERE_NOTSMTP)| /* authenticated */ |
| 367 | (1<<ACL_WHERE_NOTSMTP_START)| |
| 368 | (1<<ACL_WHERE_CONNECT)|(1<<ACL_WHERE_HELO), |
| 369 | |
| 370 | #ifdef EXPERIMENTAL_BRIGHTMAIL |
| 371 | (1<<ACL_WHERE_AUTH)| /* bmi_optin */ |
| 372 | (1<<ACL_WHERE_CONNECT)|(1<<ACL_WHERE_HELO)| |
| 373 | (1<<ACL_WHERE_DATA)|(1<<ACL_WHERE_MIME)| |
| 374 | (1<<ACL_WHERE_ETRN)|(1<<ACL_WHERE_EXPN)| |
| 375 | (1<<ACL_WHERE_MAILAUTH)| |
| 376 | (1<<ACL_WHERE_MAIL)|(1<<ACL_WHERE_STARTTLS)| |
| 377 | (1<<ACL_WHERE_VRFY)|(1<<ACL_WHERE_PREDATA)| |
| 378 | (1<<ACL_WHERE_NOTSMTP_START), |
| 379 | #endif |
| 380 | |
| 381 | 0, /* condition */ |
| 382 | |
| 383 | 0, /* continue */ |
| 384 | |
| 385 | /* Certain types of control are always allowed, so we let it through |
| 386 | always and check in the control processing itself. */ |
| 387 | |
| 388 | 0, /* control */ |
| 389 | |
| 390 | #ifdef EXPERIMENTAL_DCC |
| 391 | (unsigned int) |
| 392 | ~((1<<ACL_WHERE_DATA)|(1<<ACL_WHERE_NOTSMTP)), /* dcc */ |
| 393 | #endif |
| 394 | |
| 395 | #ifdef WITH_CONTENT_SCAN |
| 396 | (unsigned int) |
| 397 | ~(1<<ACL_WHERE_MIME), /* decode */ |
| 398 | #endif |
| 399 | |
| 400 | (1<<ACL_WHERE_NOTQUIT), /* delay */ |
| 401 | |
| 402 | #ifdef WITH_OLD_DEMIME |
| 403 | (unsigned int) |
| 404 | ~((1<<ACL_WHERE_DATA)|(1<<ACL_WHERE_NOTSMTP)), /* demime */ |
| 405 | #endif |
| 406 | |
| 407 | #ifndef DISABLE_DKIM |
| 408 | (unsigned int) |
| 409 | ~(1<<ACL_WHERE_DKIM), /* dkim_signers */ |
| 410 | |
| 411 | (unsigned int) |
| 412 | ~(1<<ACL_WHERE_DKIM), /* dkim_status */ |
| 413 | #endif |
| 414 | |
| 415 | (1<<ACL_WHERE_NOTSMTP)| /* dnslists */ |
| 416 | (1<<ACL_WHERE_NOTSMTP_START), |
| 417 | |
| 418 | (unsigned int) |
| 419 | ~(1<<ACL_WHERE_RCPT), /* domains */ |
| 420 | |
| 421 | (1<<ACL_WHERE_NOTSMTP)| /* encrypted */ |
| 422 | (1<<ACL_WHERE_CONNECT)| |
| 423 | (1<<ACL_WHERE_NOTSMTP_START)| |
| 424 | (1<<ACL_WHERE_HELO), |
| 425 | |
| 426 | 0, /* endpass */ |
| 427 | |
| 428 | (1<<ACL_WHERE_NOTSMTP)| /* hosts */ |
| 429 | (1<<ACL_WHERE_NOTSMTP_START), |
| 430 | |
| 431 | (unsigned int) |
| 432 | ~(1<<ACL_WHERE_RCPT), /* local_parts */ |
| 433 | |
| 434 | 0, /* log_message */ |
| 435 | |
| 436 | 0, /* log_reject_target */ |
| 437 | |
| 438 | 0, /* logwrite */ |
| 439 | |
| 440 | #ifdef WITH_CONTENT_SCAN |
| 441 | (unsigned int) |
| 442 | ~((1<<ACL_WHERE_DATA)|(1<<ACL_WHERE_NOTSMTP)), /* malware */ |
| 443 | #endif |
| 444 | |
| 445 | 0, /* message */ |
| 446 | |
| 447 | #ifdef WITH_CONTENT_SCAN |
| 448 | (unsigned int) |
| 449 | ~(1<<ACL_WHERE_MIME), /* mime_regex */ |
| 450 | #endif |
| 451 | |
| 452 | 0, /* ratelimit */ |
| 453 | |
| 454 | (unsigned int) |
| 455 | ~(1<<ACL_WHERE_RCPT), /* recipients */ |
| 456 | |
| 457 | #ifdef WITH_CONTENT_SCAN |
| 458 | (unsigned int) |
| 459 | ~((1<<ACL_WHERE_DATA)|(1<<ACL_WHERE_NOTSMTP)| /* regex */ |
| 460 | (1<<ACL_WHERE_MIME)), |
| 461 | #endif |
| 462 | |
| 463 | (1<<ACL_WHERE_AUTH)|(1<<ACL_WHERE_CONNECT)| /* sender_domains */ |
| 464 | (1<<ACL_WHERE_HELO)| |
| 465 | (1<<ACL_WHERE_MAILAUTH)|(1<<ACL_WHERE_QUIT)| |
| 466 | (1<<ACL_WHERE_ETRN)|(1<<ACL_WHERE_EXPN)| |
| 467 | (1<<ACL_WHERE_STARTTLS)|(1<<ACL_WHERE_VRFY), |
| 468 | |
| 469 | (1<<ACL_WHERE_AUTH)|(1<<ACL_WHERE_CONNECT)| /* senders */ |
| 470 | (1<<ACL_WHERE_HELO)| |
| 471 | (1<<ACL_WHERE_MAILAUTH)|(1<<ACL_WHERE_QUIT)| |
| 472 | (1<<ACL_WHERE_ETRN)|(1<<ACL_WHERE_EXPN)| |
| 473 | (1<<ACL_WHERE_STARTTLS)|(1<<ACL_WHERE_VRFY), |
| 474 | |
| 475 | 0, /* set */ |
| 476 | |
| 477 | #ifdef WITH_CONTENT_SCAN |
| 478 | (unsigned int) |
| 479 | ~((1<<ACL_WHERE_DATA)|(1<<ACL_WHERE_NOTSMTP)), /* spam */ |
| 480 | #endif |
| 481 | |
| 482 | #ifdef EXPERIMENTAL_SPF |
| 483 | (1<<ACL_WHERE_AUTH)|(1<<ACL_WHERE_CONNECT)| /* spf */ |
| 484 | (1<<ACL_WHERE_HELO)| |
| 485 | (1<<ACL_WHERE_MAILAUTH)| |
| 486 | (1<<ACL_WHERE_ETRN)|(1<<ACL_WHERE_EXPN)| |
| 487 | (1<<ACL_WHERE_STARTTLS)|(1<<ACL_WHERE_VRFY)| |
| 488 | (1<<ACL_WHERE_NOTSMTP)| |
| 489 | (1<<ACL_WHERE_NOTSMTP_START), |
| 490 | |
| 491 | (1<<ACL_WHERE_AUTH)|(1<<ACL_WHERE_CONNECT)| /* spf_guess */ |
| 492 | (1<<ACL_WHERE_HELO)| |
| 493 | (1<<ACL_WHERE_MAILAUTH)| |
| 494 | (1<<ACL_WHERE_ETRN)|(1<<ACL_WHERE_EXPN)| |
| 495 | (1<<ACL_WHERE_STARTTLS)|(1<<ACL_WHERE_VRFY)| |
| 496 | (1<<ACL_WHERE_NOTSMTP)| |
| 497 | (1<<ACL_WHERE_NOTSMTP_START), |
| 498 | #endif |
| 499 | |
| 500 | /* Certain types of verify are always allowed, so we let it through |
| 501 | always and check in the verify function itself */ |
| 502 | |
| 503 | 0 /* verify */ |
| 504 | }; |
| 505 | |
| 506 | |
| 507 | /* Bit map vector of which controls are not allowed at certain times. For |
| 508 | each control, there's a bitmap of dis-allowed times. For some, it is easier to |
| 509 | specify the negation of a small number of allowed times. */ |
| 510 | |
| 511 | static unsigned int control_forbids[] = { |
| 512 | (unsigned int) |
| 513 | ~((1<<ACL_WHERE_CONNECT)|(1<<ACL_WHERE_HELO)), /* allow_auth_unadvertised */ |
| 514 | |
| 515 | #ifdef EXPERIMENTAL_BRIGHTMAIL |
| 516 | 0, /* bmi_run */ |
| 517 | #endif |
| 518 | |
| 519 | #ifndef DISABLE_DKIM |
| 520 | (1<<ACL_WHERE_DATA)|(1<<ACL_WHERE_NOTSMTP)| /* dkim_disable_verify */ |
| 521 | (1<<ACL_WHERE_NOTSMTP_START), |
| 522 | #endif |
| 523 | |
| 524 | 0, /* error */ |
| 525 | |
| 526 | (unsigned int) |
| 527 | ~(1<<ACL_WHERE_RCPT), /* caseful_local_part */ |
| 528 | |
| 529 | (unsigned int) |
| 530 | ~(1<<ACL_WHERE_RCPT), /* caselower_local_part */ |
| 531 | |
| 532 | (1<<ACL_WHERE_NOTSMTP)| /* enforce_sync */ |
| 533 | (1<<ACL_WHERE_NOTSMTP_START), |
| 534 | |
| 535 | (1<<ACL_WHERE_NOTSMTP)| /* no_enforce_sync */ |
| 536 | (1<<ACL_WHERE_NOTSMTP_START), |
| 537 | |
| 538 | (unsigned int) |
| 539 | ~((1<<ACL_WHERE_MAIL)|(1<<ACL_WHERE_RCPT)| /* freeze */ |
| 540 | (1<<ACL_WHERE_PREDATA)|(1<<ACL_WHERE_DATA)| |
| 541 | (1<<ACL_WHERE_NOTSMTP)|(1<<ACL_WHERE_MIME)), |
| 542 | |
| 543 | (unsigned int) |
| 544 | ~((1<<ACL_WHERE_MAIL)|(1<<ACL_WHERE_RCPT)| /* queue_only */ |
| 545 | (1<<ACL_WHERE_PREDATA)|(1<<ACL_WHERE_DATA)| |
| 546 | (1<<ACL_WHERE_NOTSMTP)|(1<<ACL_WHERE_MIME)), |
| 547 | |
| 548 | (unsigned int) |
| 549 | ~((1<<ACL_WHERE_MAIL)|(1<<ACL_WHERE_RCPT)| /* submission */ |
| 550 | (1<<ACL_WHERE_PREDATA)), |
| 551 | |
| 552 | (unsigned int) |
| 553 | ~((1<<ACL_WHERE_MAIL)|(1<<ACL_WHERE_RCPT)| /* suppress_local_fixups */ |
| 554 | (1<<ACL_WHERE_PREDATA)| |
| 555 | (1<<ACL_WHERE_NOTSMTP_START)), |
| 556 | |
| 557 | #ifdef WITH_CONTENT_SCAN |
| 558 | (unsigned int) |
| 559 | ~((1<<ACL_WHERE_MAIL)|(1<<ACL_WHERE_RCPT)| /* no_mbox_unspool */ |
| 560 | (1<<ACL_WHERE_PREDATA)|(1<<ACL_WHERE_DATA)| |
| 561 | (1<<ACL_WHERE_MIME)), |
| 562 | #endif |
| 563 | |
| 564 | (unsigned int) |
| 565 | ~((1<<ACL_WHERE_MAIL)|(1<<ACL_WHERE_RCPT)| /* fakedefer */ |
| 566 | (1<<ACL_WHERE_PREDATA)|(1<<ACL_WHERE_DATA)| |
| 567 | (1<<ACL_WHERE_MIME)), |
| 568 | |
| 569 | (unsigned int) |
| 570 | ~((1<<ACL_WHERE_MAIL)|(1<<ACL_WHERE_RCPT)| /* fakereject */ |
| 571 | (1<<ACL_WHERE_PREDATA)|(1<<ACL_WHERE_DATA)| |
| 572 | (1<<ACL_WHERE_MIME)), |
| 573 | |
| 574 | (1<<ACL_WHERE_NOTSMTP)| /* no_multiline */ |
| 575 | (1<<ACL_WHERE_NOTSMTP_START), |
| 576 | |
| 577 | (1<<ACL_WHERE_NOTSMTP)| /* no_pipelining */ |
| 578 | (1<<ACL_WHERE_NOTSMTP_START), |
| 579 | |
| 580 | (1<<ACL_WHERE_NOTSMTP)| /* no_delay_flush */ |
| 581 | (1<<ACL_WHERE_NOTSMTP_START), |
| 582 | |
| 583 | (1<<ACL_WHERE_NOTSMTP)| /* no_callout_flush */ |
| 584 | (1<<ACL_WHERE_NOTSMTP_START) |
| 585 | }; |
| 586 | |
| 587 | /* Structure listing various control arguments, with their characteristics. */ |
| 588 | |
| 589 | typedef struct control_def { |
| 590 | uschar *name; |
| 591 | int value; /* CONTROL_xxx value */ |
| 592 | BOOL has_option; /* Has /option(s) following */ |
| 593 | } control_def; |
| 594 | |
| 595 | static control_def controls_list[] = { |
| 596 | { US"allow_auth_unadvertised", CONTROL_AUTH_UNADVERTISED, FALSE }, |
| 597 | #ifdef EXPERIMENTAL_BRIGHTMAIL |
| 598 | { US"bmi_run", CONTROL_BMI_RUN, FALSE }, |
| 599 | #endif |
| 600 | #ifndef DISABLE_DKIM |
| 601 | { US"dkim_disable_verify", CONTROL_DKIM_VERIFY, FALSE }, |
| 602 | #endif |
| 603 | { US"caseful_local_part", CONTROL_CASEFUL_LOCAL_PART, FALSE }, |
| 604 | { US"caselower_local_part", CONTROL_CASELOWER_LOCAL_PART, FALSE }, |
| 605 | { US"enforce_sync", CONTROL_ENFORCE_SYNC, FALSE }, |
| 606 | { US"freeze", CONTROL_FREEZE, TRUE }, |
| 607 | { US"no_callout_flush", CONTROL_NO_CALLOUT_FLUSH, FALSE }, |
| 608 | { US"no_delay_flush", CONTROL_NO_DELAY_FLUSH, FALSE }, |
| 609 | { US"no_enforce_sync", CONTROL_NO_ENFORCE_SYNC, FALSE }, |
| 610 | { US"no_multiline_responses", CONTROL_NO_MULTILINE, FALSE }, |
| 611 | { US"no_pipelining", CONTROL_NO_PIPELINING, FALSE }, |
| 612 | { US"queue_only", CONTROL_QUEUE_ONLY, FALSE }, |
| 613 | #ifdef WITH_CONTENT_SCAN |
| 614 | { US"no_mbox_unspool", CONTROL_NO_MBOX_UNSPOOL, FALSE }, |
| 615 | #endif |
| 616 | { US"fakedefer", CONTROL_FAKEDEFER, TRUE }, |
| 617 | { US"fakereject", CONTROL_FAKEREJECT, TRUE }, |
| 618 | { US"submission", CONTROL_SUBMISSION, TRUE }, |
| 619 | { US"suppress_local_fixups", CONTROL_SUPPRESS_LOCAL_FIXUPS, FALSE } |
| 620 | }; |
| 621 | |
| 622 | /* Support data structures for Client SMTP Authorization. acl_verify_csa() |
| 623 | caches its result in a tree to avoid repeated DNS queries. The result is an |
| 624 | integer code which is used as an index into the following tables of |
| 625 | explanatory strings and verification return codes. */ |
| 626 | |
| 627 | static tree_node *csa_cache = NULL; |
| 628 | |
| 629 | enum { CSA_UNKNOWN, CSA_OK, CSA_DEFER_SRV, CSA_DEFER_ADDR, |
| 630 | CSA_FAIL_EXPLICIT, CSA_FAIL_DOMAIN, CSA_FAIL_NOADDR, CSA_FAIL_MISMATCH }; |
| 631 | |
| 632 | /* The acl_verify_csa() return code is translated into an acl_verify() return |
| 633 | code using the following table. It is OK unless the client is definitely not |
| 634 | authorized. This is because CSA is supposed to be optional for sending sites, |
| 635 | so recipients should not be too strict about checking it - especially because |
| 636 | DNS problems are quite likely to occur. It's possible to use $csa_status in |
| 637 | further ACL conditions to distinguish ok, unknown, and defer if required, but |
| 638 | the aim is to make the usual configuration simple. */ |
| 639 | |
| 640 | static int csa_return_code[] = { |
| 641 | OK, OK, OK, OK, |
| 642 | FAIL, FAIL, FAIL, FAIL |
| 643 | }; |
| 644 | |
| 645 | static uschar *csa_status_string[] = { |
| 646 | US"unknown", US"ok", US"defer", US"defer", |
| 647 | US"fail", US"fail", US"fail", US"fail" |
| 648 | }; |
| 649 | |
| 650 | static uschar *csa_reason_string[] = { |
| 651 | US"unknown", |
| 652 | US"ok", |
| 653 | US"deferred (SRV lookup failed)", |
| 654 | US"deferred (target address lookup failed)", |
| 655 | US"failed (explicit authorization required)", |
| 656 | US"failed (host name not authorized)", |
| 657 | US"failed (no authorized addresses)", |
| 658 | US"failed (client address mismatch)" |
| 659 | }; |
| 660 | |
| 661 | /* Enable recursion between acl_check_internal() and acl_check_condition() */ |
| 662 | |
| 663 | static int acl_check_internal(int, address_item *, uschar *, int, uschar **, |
| 664 | uschar **); |
| 665 | |
| 666 | |
| 667 | /************************************************* |
| 668 | * Pick out name from list * |
| 669 | *************************************************/ |
| 670 | |
| 671 | /* Use a binary chop method |
| 672 | |
| 673 | Arguments: |
| 674 | name name to find |
| 675 | list list of names |
| 676 | end size of list |
| 677 | |
| 678 | Returns: offset in list, or -1 if not found |
| 679 | */ |
| 680 | |
| 681 | static int |
| 682 | acl_checkname(uschar *name, uschar **list, int end) |
| 683 | { |
| 684 | int start = 0; |
| 685 | |
| 686 | while (start < end) |
| 687 | { |
| 688 | int mid = (start + end)/2; |
| 689 | int c = Ustrcmp(name, list[mid]); |
| 690 | if (c == 0) return mid; |
| 691 | if (c < 0) end = mid; else start = mid + 1; |
| 692 | } |
| 693 | |
| 694 | return -1; |
| 695 | } |
| 696 | |
| 697 | |
| 698 | /************************************************* |
| 699 | * Read and parse one ACL * |
| 700 | *************************************************/ |
| 701 | |
| 702 | /* This function is called both from readconf in order to parse the ACLs in the |
| 703 | configuration file, and also when an ACL is encountered dynamically (e.g. as |
| 704 | the result of an expansion). It is given a function to call in order to |
| 705 | retrieve the lines of the ACL. This function handles skipping comments and |
| 706 | blank lines (where relevant). |
| 707 | |
| 708 | Arguments: |
| 709 | func function to get next line of ACL |
| 710 | error where to put an error message |
| 711 | |
| 712 | Returns: pointer to ACL, or NULL |
| 713 | NULL can be legal (empty ACL); in this case error will be NULL |
| 714 | */ |
| 715 | |
| 716 | acl_block * |
| 717 | acl_read(uschar *(*func)(void), uschar **error) |
| 718 | { |
| 719 | acl_block *yield = NULL; |
| 720 | acl_block **lastp = &yield; |
| 721 | acl_block *this = NULL; |
| 722 | acl_condition_block *cond; |
| 723 | acl_condition_block **condp = NULL; |
| 724 | uschar *s; |
| 725 | |
| 726 | *error = NULL; |
| 727 | |
| 728 | while ((s = (*func)()) != NULL) |
| 729 | { |
| 730 | int v, c; |
| 731 | BOOL negated = FALSE; |
| 732 | uschar *saveline = s; |
| 733 | uschar name[64]; |
| 734 | |
| 735 | /* Conditions (but not verbs) are allowed to be negated by an initial |
| 736 | exclamation mark. */ |
| 737 | |
| 738 | while (isspace(*s)) s++; |
| 739 | if (*s == '!') |
| 740 | { |
| 741 | negated = TRUE; |
| 742 | s++; |
| 743 | } |
| 744 | |
| 745 | /* Read the name of a verb or a condition, or the start of a new ACL, which |
| 746 | can be started by a name, or by a macro definition. */ |
| 747 | |
| 748 | s = readconf_readname(name, sizeof(name), s); |
| 749 | if (*s == ':' || (isupper(name[0]) && *s == '=')) return yield; |
| 750 | |
| 751 | /* If a verb is unrecognized, it may be another condition or modifier that |
| 752 | continues the previous verb. */ |
| 753 | |
| 754 | v = acl_checkname(name, verbs, sizeof(verbs)/sizeof(char *)); |
| 755 | if (v < 0) |
| 756 | { |
| 757 | if (this == NULL) |
| 758 | { |
| 759 | *error = string_sprintf("unknown ACL verb \"%s\" in \"%s\"", name, |
| 760 | saveline); |
| 761 | return NULL; |
| 762 | } |
| 763 | } |
| 764 | |
| 765 | /* New verb */ |
| 766 | |
| 767 | else |
| 768 | { |
| 769 | if (negated) |
| 770 | { |
| 771 | *error = string_sprintf("malformed ACL line \"%s\"", saveline); |
| 772 | return NULL; |
| 773 | } |
| 774 | this = store_get(sizeof(acl_block)); |
| 775 | *lastp = this; |
| 776 | lastp = &(this->next); |
| 777 | this->next = NULL; |
| 778 | this->verb = v; |
| 779 | this->condition = NULL; |
| 780 | condp = &(this->condition); |
| 781 | if (*s == 0) continue; /* No condition on this line */ |
| 782 | if (*s == '!') |
| 783 | { |
| 784 | negated = TRUE; |
| 785 | s++; |
| 786 | } |
| 787 | s = readconf_readname(name, sizeof(name), s); /* Condition name */ |
| 788 | } |
| 789 | |
| 790 | /* Handle a condition or modifier. */ |
| 791 | |
| 792 | c = acl_checkname(name, conditions, sizeof(conditions)/sizeof(char *)); |
| 793 | if (c < 0) |
| 794 | { |
| 795 | *error = string_sprintf("unknown ACL condition/modifier in \"%s\"", |
| 796 | saveline); |
| 797 | return NULL; |
| 798 | } |
| 799 | |
| 800 | /* The modifiers may not be negated */ |
| 801 | |
| 802 | if (negated && cond_modifiers[c]) |
| 803 | { |
| 804 | *error = string_sprintf("ACL error: negation is not allowed with " |
| 805 | "\"%s\"", conditions[c]); |
| 806 | return NULL; |
| 807 | } |
| 808 | |
| 809 | /* ENDPASS may occur only with ACCEPT or DISCARD. */ |
| 810 | |
| 811 | if (c == ACLC_ENDPASS && |
| 812 | this->verb != ACL_ACCEPT && |
| 813 | this->verb != ACL_DISCARD) |
| 814 | { |
| 815 | *error = string_sprintf("ACL error: \"%s\" is not allowed with \"%s\"", |
| 816 | conditions[c], verbs[this->verb]); |
| 817 | return NULL; |
| 818 | } |
| 819 | |
| 820 | cond = store_get(sizeof(acl_condition_block)); |
| 821 | cond->next = NULL; |
| 822 | cond->type = c; |
| 823 | cond->u.negated = negated; |
| 824 | |
| 825 | *condp = cond; |
| 826 | condp = &(cond->next); |
| 827 | |
| 828 | /* The "set" modifier is different in that its argument is "name=value" |
| 829 | rather than just a value, and we can check the validity of the name, which |
| 830 | gives us a variable name to insert into the data block. The original ACL |
| 831 | variable names were acl_c0 ... acl_c9 and acl_m0 ... acl_m9. This was |
| 832 | extended to 20 of each type, but after that people successfully argued for |
| 833 | arbitrary names. In the new scheme, the names must start with acl_c or acl_m. |
| 834 | After that, we allow alphanumerics and underscores, but the first character |
| 835 | after c or m must be a digit or an underscore. This retains backwards |
| 836 | compatibility. */ |
| 837 | |
| 838 | if (c == ACLC_SET) |
| 839 | { |
| 840 | uschar *endptr; |
| 841 | |
| 842 | if (Ustrncmp(s, "acl_c", 5) != 0 && |
| 843 | Ustrncmp(s, "acl_m", 5) != 0) |
| 844 | { |
| 845 | *error = string_sprintf("invalid variable name after \"set\" in ACL " |
| 846 | "modifier \"set %s\" (must start \"acl_c\" or \"acl_m\")", s); |
| 847 | return NULL; |
| 848 | } |
| 849 | |
| 850 | endptr = s + 5; |
| 851 | if (!isdigit(*endptr) && *endptr != '_') |
| 852 | { |
| 853 | *error = string_sprintf("invalid variable name after \"set\" in ACL " |
| 854 | "modifier \"set %s\" (digit or underscore must follow acl_c or acl_m)", |
| 855 | s); |
| 856 | return NULL; |
| 857 | } |
| 858 | |
| 859 | while (*endptr != 0 && *endptr != '=' && !isspace(*endptr)) |
| 860 | { |
| 861 | if (!isalnum(*endptr) && *endptr != '_') |
| 862 | { |
| 863 | *error = string_sprintf("invalid character \"%c\" in variable name " |
| 864 | "in ACL modifier \"set %s\"", *endptr, s); |
| 865 | return NULL; |
| 866 | } |
| 867 | endptr++; |
| 868 | } |
| 869 | |
| 870 | cond->u.varname = string_copyn(s + 4, endptr - s - 4); |
| 871 | s = endptr; |
| 872 | while (isspace(*s)) s++; |
| 873 | } |
| 874 | |
| 875 | /* For "set", we are now positioned for the data. For the others, only |
| 876 | "endpass" has no data */ |
| 877 | |
| 878 | if (c != ACLC_ENDPASS) |
| 879 | { |
| 880 | if (*s++ != '=') |
| 881 | { |
| 882 | *error = string_sprintf("\"=\" missing after ACL \"%s\" %s", name, |
| 883 | cond_modifiers[c]? US"modifier" : US"condition"); |
| 884 | return NULL; |
| 885 | } |
| 886 | while (isspace(*s)) s++; |
| 887 | cond->arg = string_copy(s); |
| 888 | } |
| 889 | } |
| 890 | |
| 891 | return yield; |
| 892 | } |
| 893 | |
| 894 | |
| 895 | |
| 896 | /************************************************* |
| 897 | * Set up added header line(s) * |
| 898 | *************************************************/ |
| 899 | |
| 900 | /* This function is called by the add_header modifier, and also from acl_warn() |
| 901 | to implement the now-deprecated way of adding header lines using "message" on a |
| 902 | "warn" verb. The argument is treated as a sequence of header lines which are |
| 903 | added to a chain, provided there isn't an identical one already there. |
| 904 | |
| 905 | Argument: string of header lines |
| 906 | Returns: nothing |
| 907 | */ |
| 908 | |
| 909 | static void |
| 910 | setup_header(uschar *hstring) |
| 911 | { |
| 912 | uschar *p, *q; |
| 913 | int hlen = Ustrlen(hstring); |
| 914 | |
| 915 | /* An empty string does nothing; otherwise add a final newline if necessary. */ |
| 916 | |
| 917 | if (hlen <= 0) return; |
| 918 | if (hstring[hlen-1] != '\n') hstring = string_sprintf("%s\n", hstring); |
| 919 | |
| 920 | /* Loop for multiple header lines, taking care about continuations */ |
| 921 | |
| 922 | for (p = q = hstring; *p != 0; ) |
| 923 | { |
| 924 | uschar *s; |
| 925 | int newtype = htype_add_bot; |
| 926 | header_line **hptr = &acl_added_headers; |
| 927 | |
| 928 | /* Find next header line within the string */ |
| 929 | |
| 930 | for (;;) |
| 931 | { |
| 932 | q = Ustrchr(q, '\n'); |
| 933 | if (*(++q) != ' ' && *q != '\t') break; |
| 934 | } |
| 935 | |
| 936 | /* If the line starts with a colon, interpret the instruction for where to |
| 937 | add it. This temporarily sets up a new type. */ |
| 938 | |
| 939 | if (*p == ':') |
| 940 | { |
| 941 | if (strncmpic(p, US":after_received:", 16) == 0) |
| 942 | { |
| 943 | newtype = htype_add_rec; |
| 944 | p += 16; |
| 945 | } |
| 946 | else if (strncmpic(p, US":at_start_rfc:", 14) == 0) |
| 947 | { |
| 948 | newtype = htype_add_rfc; |
| 949 | p += 14; |
| 950 | } |
| 951 | else if (strncmpic(p, US":at_start:", 10) == 0) |
| 952 | { |
| 953 | newtype = htype_add_top; |
| 954 | p += 10; |
| 955 | } |
| 956 | else if (strncmpic(p, US":at_end:", 8) == 0) |
| 957 | { |
| 958 | newtype = htype_add_bot; |
| 959 | p += 8; |
| 960 | } |
| 961 | while (*p == ' ' || *p == '\t') p++; |
| 962 | } |
| 963 | |
| 964 | /* See if this line starts with a header name, and if not, add X-ACL-Warn: |
| 965 | to the front of it. */ |
| 966 | |
| 967 | for (s = p; s < q - 1; s++) |
| 968 | { |
| 969 | if (*s == ':' || !isgraph(*s)) break; |
| 970 | } |
| 971 | |
| 972 | s = string_sprintf("%s%.*s", (*s == ':')? "" : "X-ACL-Warn: ", q - p, p); |
| 973 | hlen = Ustrlen(s); |
| 974 | |
| 975 | /* See if this line has already been added */ |
| 976 | |
| 977 | while (*hptr != NULL) |
| 978 | { |
| 979 | if (Ustrncmp((*hptr)->text, s, hlen) == 0) break; |
| 980 | hptr = &((*hptr)->next); |
| 981 | } |
| 982 | |
| 983 | /* Add if not previously present */ |
| 984 | |
| 985 | if (*hptr == NULL) |
| 986 | { |
| 987 | header_line *h = store_get(sizeof(header_line)); |
| 988 | h->text = s; |
| 989 | h->next = NULL; |
| 990 | h->type = newtype; |
| 991 | h->slen = hlen; |
| 992 | *hptr = h; |
| 993 | hptr = &(h->next); |
| 994 | } |
| 995 | |
| 996 | /* Advance for next header line within the string */ |
| 997 | |
| 998 | p = q; |
| 999 | } |
| 1000 | } |
| 1001 | |
| 1002 | |
| 1003 | |
| 1004 | |
| 1005 | /************************************************* |
| 1006 | * Handle warnings * |
| 1007 | *************************************************/ |
| 1008 | |
| 1009 | /* This function is called when a WARN verb's conditions are true. It adds to |
| 1010 | the message's headers, and/or writes information to the log. In each case, this |
| 1011 | only happens once (per message for headers, per connection for log). |
| 1012 | |
| 1013 | ** NOTE: The header adding action using the "message" setting is historic, and |
| 1014 | its use is now deprecated. The new add_header modifier should be used instead. |
| 1015 | |
| 1016 | Arguments: |
| 1017 | where ACL_WHERE_xxxx indicating which ACL this is |
| 1018 | user_message message for adding to headers |
| 1019 | log_message message for logging, if different |
| 1020 | |
| 1021 | Returns: nothing |
| 1022 | */ |
| 1023 | |
| 1024 | static void |
| 1025 | acl_warn(int where, uschar *user_message, uschar *log_message) |
| 1026 | { |
| 1027 | if (log_message != NULL && log_message != user_message) |
| 1028 | { |
| 1029 | uschar *text; |
| 1030 | string_item *logged; |
| 1031 | |
| 1032 | text = string_sprintf("%s Warning: %s", host_and_ident(TRUE), |
| 1033 | string_printing(log_message)); |
| 1034 | |
| 1035 | /* If a sender verification has failed, and the log message is "sender verify |
| 1036 | failed", add the failure message. */ |
| 1037 | |
| 1038 | if (sender_verified_failed != NULL && |
| 1039 | sender_verified_failed->message != NULL && |
| 1040 | strcmpic(log_message, US"sender verify failed") == 0) |
| 1041 | text = string_sprintf("%s: %s", text, sender_verified_failed->message); |
| 1042 | |
| 1043 | /* Search previously logged warnings. They are kept in malloc |
| 1044 | store so they can be freed at the start of a new message. */ |
| 1045 | |
| 1046 | for (logged = acl_warn_logged; logged != NULL; logged = logged->next) |
| 1047 | if (Ustrcmp(logged->text, text) == 0) break; |
| 1048 | |
| 1049 | if (logged == NULL) |
| 1050 | { |
| 1051 | int length = Ustrlen(text) + 1; |
| 1052 | log_write(0, LOG_MAIN, "%s", text); |
| 1053 | logged = store_malloc(sizeof(string_item) + length); |
| 1054 | logged->text = (uschar *)logged + sizeof(string_item); |
| 1055 | memcpy(logged->text, text, length); |
| 1056 | logged->next = acl_warn_logged; |
| 1057 | acl_warn_logged = logged; |
| 1058 | } |
| 1059 | } |
| 1060 | |
| 1061 | /* If there's no user message, we are done. */ |
| 1062 | |
| 1063 | if (user_message == NULL) return; |
| 1064 | |
| 1065 | /* If this isn't a message ACL, we can't do anything with a user message. |
| 1066 | Log an error. */ |
| 1067 | |
| 1068 | if (where > ACL_WHERE_NOTSMTP) |
| 1069 | { |
| 1070 | log_write(0, LOG_MAIN|LOG_PANIC, "ACL \"warn\" with \"message\" setting " |
| 1071 | "found in a non-message (%s) ACL: cannot specify header lines here: " |
| 1072 | "message ignored", acl_wherenames[where]); |
| 1073 | return; |
| 1074 | } |
| 1075 | |
| 1076 | /* The code for setting up header lines is now abstracted into a separate |
| 1077 | function so that it can be used for the add_header modifier as well. */ |
| 1078 | |
| 1079 | setup_header(user_message); |
| 1080 | } |
| 1081 | |
| 1082 | |
| 1083 | |
| 1084 | /************************************************* |
| 1085 | * Verify and check reverse DNS * |
| 1086 | *************************************************/ |
| 1087 | |
| 1088 | /* Called from acl_verify() below. We look up the host name(s) of the client IP |
| 1089 | address if this has not yet been done. The host_name_lookup() function checks |
| 1090 | that one of these names resolves to an address list that contains the client IP |
| 1091 | address, so we don't actually have to do the check here. |
| 1092 | |
| 1093 | Arguments: |
| 1094 | user_msgptr pointer for user message |
| 1095 | log_msgptr pointer for log message |
| 1096 | |
| 1097 | Returns: OK verification condition succeeded |
| 1098 | FAIL verification failed |
| 1099 | DEFER there was a problem verifying |
| 1100 | */ |
| 1101 | |
| 1102 | static int |
| 1103 | acl_verify_reverse(uschar **user_msgptr, uschar **log_msgptr) |
| 1104 | { |
| 1105 | int rc; |
| 1106 | |
| 1107 | user_msgptr = user_msgptr; /* stop compiler warning */ |
| 1108 | |
| 1109 | /* Previous success */ |
| 1110 | |
| 1111 | if (sender_host_name != NULL) return OK; |
| 1112 | |
| 1113 | /* Previous failure */ |
| 1114 | |
| 1115 | if (host_lookup_failed) |
| 1116 | { |
| 1117 | *log_msgptr = string_sprintf("host lookup failed%s", host_lookup_msg); |
| 1118 | return FAIL; |
| 1119 | } |
| 1120 | |
| 1121 | /* Need to do a lookup */ |
| 1122 | |
| 1123 | HDEBUG(D_acl) |
| 1124 | debug_printf("looking up host name to force name/address consistency check\n"); |
| 1125 | |
| 1126 | if ((rc = host_name_lookup()) != OK) |
| 1127 | { |
| 1128 | *log_msgptr = (rc == DEFER)? |
| 1129 | US"host lookup deferred for reverse lookup check" |
| 1130 | : |
| 1131 | string_sprintf("host lookup failed for reverse lookup check%s", |
| 1132 | host_lookup_msg); |
| 1133 | return rc; /* DEFER or FAIL */ |
| 1134 | } |
| 1135 | |
| 1136 | host_build_sender_fullhost(); |
| 1137 | return OK; |
| 1138 | } |
| 1139 | |
| 1140 | |
| 1141 | |
| 1142 | /************************************************* |
| 1143 | * Check client IP address matches CSA target * |
| 1144 | *************************************************/ |
| 1145 | |
| 1146 | /* Called from acl_verify_csa() below. This routine scans a section of a DNS |
| 1147 | response for address records belonging to the CSA target hostname. The section |
| 1148 | is specified by the reset argument, either RESET_ADDITIONAL or RESET_ANSWERS. |
| 1149 | If one of the addresses matches the client's IP address, then the client is |
| 1150 | authorized by CSA. If there are target IP addresses but none of them match |
| 1151 | then the client is using an unauthorized IP address. If there are no target IP |
| 1152 | addresses then the client cannot be using an authorized IP address. (This is |
| 1153 | an odd configuration - why didn't the SRV record have a weight of 1 instead?) |
| 1154 | |
| 1155 | Arguments: |
| 1156 | dnsa the DNS answer block |
| 1157 | dnss a DNS scan block for us to use |
| 1158 | reset option specifing what portion to scan, as described above |
| 1159 | target the target hostname to use for matching RR names |
| 1160 | |
| 1161 | Returns: CSA_OK successfully authorized |
| 1162 | CSA_FAIL_MISMATCH addresses found but none matched |
| 1163 | CSA_FAIL_NOADDR no target addresses found |
| 1164 | */ |
| 1165 | |
| 1166 | static int |
| 1167 | acl_verify_csa_address(dns_answer *dnsa, dns_scan *dnss, int reset, |
| 1168 | uschar *target) |
| 1169 | { |
| 1170 | dns_record *rr; |
| 1171 | dns_address *da; |
| 1172 | |
| 1173 | BOOL target_found = FALSE; |
| 1174 | |
| 1175 | for (rr = dns_next_rr(dnsa, dnss, reset); |
| 1176 | rr != NULL; |
| 1177 | rr = dns_next_rr(dnsa, dnss, RESET_NEXT)) |
| 1178 | { |
| 1179 | /* Check this is an address RR for the target hostname. */ |
| 1180 | |
| 1181 | if (rr->type != T_A |
| 1182 | #if HAVE_IPV6 |
| 1183 | && rr->type != T_AAAA |
| 1184 | #ifdef SUPPORT_A6 |
| 1185 | && rr->type != T_A6 |
| 1186 | #endif |
| 1187 | #endif |
| 1188 | ) continue; |
| 1189 | |
| 1190 | if (strcmpic(target, rr->name) != 0) continue; |
| 1191 | |
| 1192 | target_found = TRUE; |
| 1193 | |
| 1194 | /* Turn the target address RR into a list of textual IP addresses and scan |
| 1195 | the list. There may be more than one if it is an A6 RR. */ |
| 1196 | |
| 1197 | for (da = dns_address_from_rr(dnsa, rr); da != NULL; da = da->next) |
| 1198 | { |
| 1199 | /* If the client IP address matches the target IP address, it's good! */ |
| 1200 | |
| 1201 | DEBUG(D_acl) debug_printf("CSA target address is %s\n", da->address); |
| 1202 | |
| 1203 | if (strcmpic(sender_host_address, da->address) == 0) return CSA_OK; |
| 1204 | } |
| 1205 | } |
| 1206 | |
| 1207 | /* If we found some target addresses but none of them matched, the client is |
| 1208 | using an unauthorized IP address, otherwise the target has no authorized IP |
| 1209 | addresses. */ |
| 1210 | |
| 1211 | if (target_found) return CSA_FAIL_MISMATCH; |
| 1212 | else return CSA_FAIL_NOADDR; |
| 1213 | } |
| 1214 | |
| 1215 | |
| 1216 | |
| 1217 | /************************************************* |
| 1218 | * Verify Client SMTP Authorization * |
| 1219 | *************************************************/ |
| 1220 | |
| 1221 | /* Called from acl_verify() below. This routine calls dns_lookup_special() |
| 1222 | to find the CSA SRV record corresponding to the domain argument, or |
| 1223 | $sender_helo_name if no argument is provided. It then checks that the |
| 1224 | client is authorized, and that its IP address corresponds to the SRV |
| 1225 | target's address by calling acl_verify_csa_address() above. The address |
| 1226 | should have been returned in the DNS response's ADDITIONAL section, but if |
| 1227 | not we perform another DNS lookup to get it. |
| 1228 | |
| 1229 | Arguments: |
| 1230 | domain pointer to optional parameter following verify = csa |
| 1231 | |
| 1232 | Returns: CSA_UNKNOWN no valid CSA record found |
| 1233 | CSA_OK successfully authorized |
| 1234 | CSA_FAIL_* client is definitely not authorized |
| 1235 | CSA_DEFER_* there was a DNS problem |
| 1236 | */ |
| 1237 | |
| 1238 | static int |
| 1239 | acl_verify_csa(uschar *domain) |
| 1240 | { |
| 1241 | tree_node *t; |
| 1242 | uschar *found, *p; |
| 1243 | int priority, weight, port; |
| 1244 | dns_answer dnsa; |
| 1245 | dns_scan dnss; |
| 1246 | dns_record *rr; |
| 1247 | int rc, type; |
| 1248 | uschar target[256]; |
| 1249 | |
| 1250 | /* Work out the domain we are using for the CSA lookup. The default is the |
| 1251 | client's HELO domain. If the client has not said HELO, use its IP address |
| 1252 | instead. If it's a local client (exim -bs), CSA isn't applicable. */ |
| 1253 | |
| 1254 | while (isspace(*domain) && *domain != '\0') ++domain; |
| 1255 | if (*domain == '\0') domain = sender_helo_name; |
| 1256 | if (domain == NULL) domain = sender_host_address; |
| 1257 | if (sender_host_address == NULL) return CSA_UNKNOWN; |
| 1258 | |
| 1259 | /* If we have an address literal, strip off the framing ready for turning it |
| 1260 | into a domain. The framing consists of matched square brackets possibly |
| 1261 | containing a keyword and a colon before the actual IP address. */ |
| 1262 | |
| 1263 | if (domain[0] == '[') |
| 1264 | { |
| 1265 | uschar *start = Ustrchr(domain, ':'); |
| 1266 | if (start == NULL) start = domain; |
| 1267 | domain = string_copyn(start + 1, Ustrlen(start) - 2); |
| 1268 | } |
| 1269 | |
| 1270 | /* Turn domains that look like bare IP addresses into domains in the reverse |
| 1271 | DNS. This code also deals with address literals and $sender_host_address. It's |
| 1272 | not quite kosher to treat bare domains such as EHLO 192.0.2.57 the same as |
| 1273 | address literals, but it's probably the most friendly thing to do. This is an |
| 1274 | extension to CSA, so we allow it to be turned off for proper conformance. */ |
| 1275 | |
| 1276 | if (string_is_ip_address(domain, NULL) != 0) |
| 1277 | { |
| 1278 | if (!dns_csa_use_reverse) return CSA_UNKNOWN; |
| 1279 | dns_build_reverse(domain, target); |
| 1280 | domain = target; |
| 1281 | } |
| 1282 | |
| 1283 | /* Find out if we've already done the CSA check for this domain. If we have, |
| 1284 | return the same result again. Otherwise build a new cached result structure |
| 1285 | for this domain. The name is filled in now, and the value is filled in when |
| 1286 | we return from this function. */ |
| 1287 | |
| 1288 | t = tree_search(csa_cache, domain); |
| 1289 | if (t != NULL) return t->data.val; |
| 1290 | |
| 1291 | t = store_get_perm(sizeof(tree_node) + Ustrlen(domain)); |
| 1292 | Ustrcpy(t->name, domain); |
| 1293 | (void)tree_insertnode(&csa_cache, t); |
| 1294 | |
| 1295 | /* Now we are ready to do the actual DNS lookup(s). */ |
| 1296 | |
| 1297 | found = domain; |
| 1298 | switch (dns_special_lookup(&dnsa, domain, T_CSA, &found)) |
| 1299 | { |
| 1300 | /* If something bad happened (most commonly DNS_AGAIN), defer. */ |
| 1301 | |
| 1302 | default: |
| 1303 | return t->data.val = CSA_DEFER_SRV; |
| 1304 | |
| 1305 | /* If we found nothing, the client's authorization is unknown. */ |
| 1306 | |
| 1307 | case DNS_NOMATCH: |
| 1308 | case DNS_NODATA: |
| 1309 | return t->data.val = CSA_UNKNOWN; |
| 1310 | |
| 1311 | /* We got something! Go on to look at the reply in more detail. */ |
| 1312 | |
| 1313 | case DNS_SUCCEED: |
| 1314 | break; |
| 1315 | } |
| 1316 | |
| 1317 | /* Scan the reply for well-formed CSA SRV records. */ |
| 1318 | |
| 1319 | for (rr = dns_next_rr(&dnsa, &dnss, RESET_ANSWERS); |
| 1320 | rr != NULL; |
| 1321 | rr = dns_next_rr(&dnsa, &dnss, RESET_NEXT)) |
| 1322 | { |
| 1323 | if (rr->type != T_SRV) continue; |
| 1324 | |
| 1325 | /* Extract the numerical SRV fields (p is incremented) */ |
| 1326 | |
| 1327 | p = rr->data; |
| 1328 | GETSHORT(priority, p); |
| 1329 | GETSHORT(weight, p); |
| 1330 | GETSHORT(port, p); |
| 1331 | |
| 1332 | DEBUG(D_acl) |
| 1333 | debug_printf("CSA priority=%d weight=%d port=%d\n", priority, weight, port); |
| 1334 | |
| 1335 | /* Check the CSA version number */ |
| 1336 | |
| 1337 | if (priority != 1) continue; |
| 1338 | |
| 1339 | /* If the domain does not have a CSA SRV record of its own (i.e. the domain |
| 1340 | found by dns_special_lookup() is a parent of the one we asked for), we check |
| 1341 | the subdomain assertions in the port field. At the moment there's only one |
| 1342 | assertion: legitimate SMTP clients are all explicitly authorized with CSA |
| 1343 | SRV records of their own. */ |
| 1344 | |
| 1345 | if (found != domain) |
| 1346 | { |
| 1347 | if (port & 1) |
| 1348 | return t->data.val = CSA_FAIL_EXPLICIT; |
| 1349 | else |
| 1350 | return t->data.val = CSA_UNKNOWN; |
| 1351 | } |
| 1352 | |
| 1353 | /* This CSA SRV record refers directly to our domain, so we check the value |
| 1354 | in the weight field to work out the domain's authorization. 0 and 1 are |
| 1355 | unauthorized; 3 means the client is authorized but we can't check the IP |
| 1356 | address in order to authenticate it, so we treat it as unknown; values |
| 1357 | greater than 3 are undefined. */ |
| 1358 | |
| 1359 | if (weight < 2) return t->data.val = CSA_FAIL_DOMAIN; |
| 1360 | |
| 1361 | if (weight > 2) continue; |
| 1362 | |
| 1363 | /* Weight == 2, which means the domain is authorized. We must check that the |
| 1364 | client's IP address is listed as one of the SRV target addresses. Save the |
| 1365 | target hostname then break to scan the additional data for its addresses. */ |
| 1366 | |
| 1367 | (void)dn_expand(dnsa.answer, dnsa.answer + dnsa.answerlen, p, |
| 1368 | (DN_EXPAND_ARG4_TYPE)target, sizeof(target)); |
| 1369 | |
| 1370 | DEBUG(D_acl) debug_printf("CSA target is %s\n", target); |
| 1371 | |
| 1372 | break; |
| 1373 | } |
| 1374 | |
| 1375 | /* If we didn't break the loop then no appropriate records were found. */ |
| 1376 | |
| 1377 | if (rr == NULL) return t->data.val = CSA_UNKNOWN; |
| 1378 | |
| 1379 | /* Do not check addresses if the target is ".", in accordance with RFC 2782. |
| 1380 | A target of "." indicates there are no valid addresses, so the client cannot |
| 1381 | be authorized. (This is an odd configuration because weight=2 target=. is |
| 1382 | equivalent to weight=1, but we check for it in order to keep load off the |
| 1383 | root name servers.) Note that dn_expand() turns "." into "". */ |
| 1384 | |
| 1385 | if (Ustrcmp(target, "") == 0) return t->data.val = CSA_FAIL_NOADDR; |
| 1386 | |
| 1387 | /* Scan the additional section of the CSA SRV reply for addresses belonging |
| 1388 | to the target. If the name server didn't return any additional data (e.g. |
| 1389 | because it does not fully support SRV records), we need to do another lookup |
| 1390 | to obtain the target addresses; otherwise we have a definitive result. */ |
| 1391 | |
| 1392 | rc = acl_verify_csa_address(&dnsa, &dnss, RESET_ADDITIONAL, target); |
| 1393 | if (rc != CSA_FAIL_NOADDR) return t->data.val = rc; |
| 1394 | |
| 1395 | /* The DNS lookup type corresponds to the IP version used by the client. */ |
| 1396 | |
| 1397 | #if HAVE_IPV6 |
| 1398 | if (Ustrchr(sender_host_address, ':') != NULL) |
| 1399 | type = T_AAAA; |
| 1400 | else |
| 1401 | #endif /* HAVE_IPV6 */ |
| 1402 | type = T_A; |
| 1403 | |
| 1404 | |
| 1405 | #if HAVE_IPV6 && defined(SUPPORT_A6) |
| 1406 | DNS_LOOKUP_AGAIN: |
| 1407 | #endif |
| 1408 | |
| 1409 | switch (dns_lookup(&dnsa, target, type, NULL)) |
| 1410 | { |
| 1411 | /* If something bad happened (most commonly DNS_AGAIN), defer. */ |
| 1412 | |
| 1413 | default: |
| 1414 | return t->data.val = CSA_DEFER_ADDR; |
| 1415 | |
| 1416 | /* If the query succeeded, scan the addresses and return the result. */ |
| 1417 | |
| 1418 | case DNS_SUCCEED: |
| 1419 | rc = acl_verify_csa_address(&dnsa, &dnss, RESET_ANSWERS, target); |
| 1420 | if (rc != CSA_FAIL_NOADDR) return t->data.val = rc; |
| 1421 | /* else fall through */ |
| 1422 | |
| 1423 | /* If the target has no IP addresses, the client cannot have an authorized |
| 1424 | IP address. However, if the target site uses A6 records (not AAAA records) |
| 1425 | we have to do yet another lookup in order to check them. */ |
| 1426 | |
| 1427 | case DNS_NOMATCH: |
| 1428 | case DNS_NODATA: |
| 1429 | |
| 1430 | #if HAVE_IPV6 && defined(SUPPORT_A6) |
| 1431 | if (type == T_AAAA) { type = T_A6; goto DNS_LOOKUP_AGAIN; } |
| 1432 | #endif |
| 1433 | |
| 1434 | return t->data.val = CSA_FAIL_NOADDR; |
| 1435 | } |
| 1436 | } |
| 1437 | |
| 1438 | |
| 1439 | |
| 1440 | /************************************************* |
| 1441 | * Handle verification (address & other) * |
| 1442 | *************************************************/ |
| 1443 | |
| 1444 | /* This function implements the "verify" condition. It is called when |
| 1445 | encountered in any ACL, because some tests are almost always permitted. Some |
| 1446 | just don't make sense, and always fail (for example, an attempt to test a host |
| 1447 | lookup for a non-TCP/IP message). Others are restricted to certain ACLs. |
| 1448 | |
| 1449 | Arguments: |
| 1450 | where where called from |
| 1451 | addr the recipient address that the ACL is handling, or NULL |
| 1452 | arg the argument of "verify" |
| 1453 | user_msgptr pointer for user message |
| 1454 | log_msgptr pointer for log message |
| 1455 | basic_errno where to put verify errno |
| 1456 | |
| 1457 | Returns: OK verification condition succeeded |
| 1458 | FAIL verification failed |
| 1459 | DEFER there was a problem verifying |
| 1460 | ERROR syntax error |
| 1461 | */ |
| 1462 | |
| 1463 | static int |
| 1464 | acl_verify(int where, address_item *addr, uschar *arg, |
| 1465 | uschar **user_msgptr, uschar **log_msgptr, int *basic_errno) |
| 1466 | { |
| 1467 | int sep = '/'; |
| 1468 | int callout = -1; |
| 1469 | int callout_overall = -1; |
| 1470 | int callout_connect = -1; |
| 1471 | int verify_options = 0; |
| 1472 | int rc; |
| 1473 | BOOL verify_header_sender = FALSE; |
| 1474 | BOOL defer_ok = FALSE; |
| 1475 | BOOL callout_defer_ok = FALSE; |
| 1476 | BOOL no_details = FALSE; |
| 1477 | BOOL success_on_redirect = FALSE; |
| 1478 | address_item *sender_vaddr = NULL; |
| 1479 | uschar *verify_sender_address = NULL; |
| 1480 | uschar *pm_mailfrom = NULL; |
| 1481 | uschar *se_mailfrom = NULL; |
| 1482 | |
| 1483 | /* Some of the verify items have slash-separated options; some do not. Diagnose |
| 1484 | an error if options are given for items that don't expect them. This code has |
| 1485 | now got very message. Refactoring to use a table would be a good idea one day. |
| 1486 | */ |
| 1487 | |
| 1488 | uschar *slash = Ustrchr(arg, '/'); |
| 1489 | uschar *list = arg; |
| 1490 | uschar *ss = string_nextinlist(&list, &sep, big_buffer, big_buffer_size); |
| 1491 | |
| 1492 | if (ss == NULL) goto BAD_VERIFY; |
| 1493 | |
| 1494 | /* Handle name/address consistency verification in a separate function. */ |
| 1495 | |
| 1496 | if (strcmpic(ss, US"reverse_host_lookup") == 0) |
| 1497 | { |
| 1498 | if (slash != NULL) goto NO_OPTIONS; |
| 1499 | if (sender_host_address == NULL) return OK; |
| 1500 | return acl_verify_reverse(user_msgptr, log_msgptr); |
| 1501 | } |
| 1502 | |
| 1503 | /* TLS certificate verification is done at STARTTLS time; here we just |
| 1504 | test whether it was successful or not. (This is for optional verification; for |
| 1505 | mandatory verification, the connection doesn't last this long.) */ |
| 1506 | |
| 1507 | if (strcmpic(ss, US"certificate") == 0) |
| 1508 | { |
| 1509 | if (slash != NULL) goto NO_OPTIONS; |
| 1510 | if (tls_certificate_verified) return OK; |
| 1511 | *user_msgptr = US"no verified certificate"; |
| 1512 | return FAIL; |
| 1513 | } |
| 1514 | |
| 1515 | /* We can test the result of optional HELO verification that might have |
| 1516 | occurred earlier. If not, we can attempt the verification now. */ |
| 1517 | |
| 1518 | if (strcmpic(ss, US"helo") == 0) |
| 1519 | { |
| 1520 | if (slash != NULL) goto NO_OPTIONS; |
| 1521 | if (!helo_verified && !helo_verify_failed) smtp_verify_helo(); |
| 1522 | return helo_verified? OK : FAIL; |
| 1523 | } |
| 1524 | |
| 1525 | /* Do Client SMTP Authorization checks in a separate function, and turn the |
| 1526 | result code into user-friendly strings. */ |
| 1527 | |
| 1528 | if (strcmpic(ss, US"csa") == 0) |
| 1529 | { |
| 1530 | rc = acl_verify_csa(list); |
| 1531 | *log_msgptr = *user_msgptr = string_sprintf("client SMTP authorization %s", |
| 1532 | csa_reason_string[rc]); |
| 1533 | csa_status = csa_status_string[rc]; |
| 1534 | DEBUG(D_acl) debug_printf("CSA result %s\n", csa_status); |
| 1535 | return csa_return_code[rc]; |
| 1536 | } |
| 1537 | |
| 1538 | /* Check that all relevant header lines have the correct syntax. If there is |
| 1539 | a syntax error, we return details of the error to the sender if configured to |
| 1540 | send out full details. (But a "message" setting on the ACL can override, as |
| 1541 | always). */ |
| 1542 | |
| 1543 | if (strcmpic(ss, US"header_syntax") == 0) |
| 1544 | { |
| 1545 | if (slash != NULL) goto NO_OPTIONS; |
| 1546 | if (where != ACL_WHERE_DATA && where != ACL_WHERE_NOTSMTP) goto WRONG_ACL; |
| 1547 | rc = verify_check_headers(log_msgptr); |
| 1548 | if (rc != OK && smtp_return_error_details && *log_msgptr != NULL) |
| 1549 | *user_msgptr = string_sprintf("Rejected after DATA: %s", *log_msgptr); |
| 1550 | return rc; |
| 1551 | } |
| 1552 | |
| 1553 | /* Check that no recipient of this message is "blind", that is, every envelope |
| 1554 | recipient must be mentioned in either To: or Cc:. */ |
| 1555 | |
| 1556 | if (strcmpic(ss, US"not_blind") == 0) |
| 1557 | { |
| 1558 | if (slash != NULL) goto NO_OPTIONS; |
| 1559 | if (where != ACL_WHERE_DATA && where != ACL_WHERE_NOTSMTP) goto WRONG_ACL; |
| 1560 | rc = verify_check_notblind(); |
| 1561 | if (rc != OK) |
| 1562 | { |
| 1563 | *log_msgptr = string_sprintf("bcc recipient detected"); |
| 1564 | if (smtp_return_error_details) |
| 1565 | *user_msgptr = string_sprintf("Rejected after DATA: %s", *log_msgptr); |
| 1566 | } |
| 1567 | return rc; |
| 1568 | } |
| 1569 | |
| 1570 | /* The remaining verification tests check recipient and sender addresses, |
| 1571 | either from the envelope or from the header. There are a number of |
| 1572 | slash-separated options that are common to all of them. */ |
| 1573 | |
| 1574 | |
| 1575 | /* Check that there is at least one verifiable sender address in the relevant |
| 1576 | header lines. This can be followed by callout and defer options, just like |
| 1577 | sender and recipient. */ |
| 1578 | |
| 1579 | if (strcmpic(ss, US"header_sender") == 0) |
| 1580 | { |
| 1581 | if (where != ACL_WHERE_DATA && where != ACL_WHERE_NOTSMTP) goto WRONG_ACL; |
| 1582 | verify_header_sender = TRUE; |
| 1583 | } |
| 1584 | |
| 1585 | /* Otherwise, first item in verify argument must be "sender" or "recipient". |
| 1586 | In the case of a sender, this can optionally be followed by an address to use |
| 1587 | in place of the actual sender (rare special-case requirement). */ |
| 1588 | |
| 1589 | else if (strncmpic(ss, US"sender", 6) == 0) |
| 1590 | { |
| 1591 | uschar *s = ss + 6; |
| 1592 | if (where > ACL_WHERE_NOTSMTP) |
| 1593 | { |
| 1594 | *log_msgptr = string_sprintf("cannot verify sender in ACL for %s " |
| 1595 | "(only possible for MAIL, RCPT, PREDATA, or DATA)", |
| 1596 | acl_wherenames[where]); |
| 1597 | return ERROR; |
| 1598 | } |
| 1599 | if (*s == 0) |
| 1600 | verify_sender_address = sender_address; |
| 1601 | else |
| 1602 | { |
| 1603 | while (isspace(*s)) s++; |
| 1604 | if (*s++ != '=') goto BAD_VERIFY; |
| 1605 | while (isspace(*s)) s++; |
| 1606 | verify_sender_address = string_copy(s); |
| 1607 | } |
| 1608 | } |
| 1609 | else |
| 1610 | { |
| 1611 | if (strcmpic(ss, US"recipient") != 0) goto BAD_VERIFY; |
| 1612 | if (addr == NULL) |
| 1613 | { |
| 1614 | *log_msgptr = string_sprintf("cannot verify recipient in ACL for %s " |
| 1615 | "(only possible for RCPT)", acl_wherenames[where]); |
| 1616 | return ERROR; |
| 1617 | } |
| 1618 | } |
| 1619 | |
| 1620 | /* Remaining items are optional; they apply to sender and recipient |
| 1621 | verification, including "header sender" verification. */ |
| 1622 | |
| 1623 | while ((ss = string_nextinlist(&list, &sep, big_buffer, big_buffer_size)) |
| 1624 | != NULL) |
| 1625 | { |
| 1626 | if (strcmpic(ss, US"defer_ok") == 0) defer_ok = TRUE; |
| 1627 | else if (strcmpic(ss, US"no_details") == 0) no_details = TRUE; |
| 1628 | else if (strcmpic(ss, US"success_on_redirect") == 0) success_on_redirect = TRUE; |
| 1629 | |
| 1630 | /* These two old options are left for backwards compatibility */ |
| 1631 | |
| 1632 | else if (strcmpic(ss, US"callout_defer_ok") == 0) |
| 1633 | { |
| 1634 | callout_defer_ok = TRUE; |
| 1635 | if (callout == -1) callout = CALLOUT_TIMEOUT_DEFAULT; |
| 1636 | } |
| 1637 | |
| 1638 | else if (strcmpic(ss, US"check_postmaster") == 0) |
| 1639 | { |
| 1640 | pm_mailfrom = US""; |
| 1641 | if (callout == -1) callout = CALLOUT_TIMEOUT_DEFAULT; |
| 1642 | } |
| 1643 | |
| 1644 | /* The callout option has a number of sub-options, comma separated */ |
| 1645 | |
| 1646 | else if (strncmpic(ss, US"callout", 7) == 0) |
| 1647 | { |
| 1648 | callout = CALLOUT_TIMEOUT_DEFAULT; |
| 1649 | ss += 7; |
| 1650 | if (*ss != 0) |
| 1651 | { |
| 1652 | while (isspace(*ss)) ss++; |
| 1653 | if (*ss++ == '=') |
| 1654 | { |
| 1655 | int optsep = ','; |
| 1656 | uschar *opt; |
| 1657 | uschar buffer[256]; |
| 1658 | while (isspace(*ss)) ss++; |
| 1659 | |
| 1660 | /* This callout option handling code has become a mess as new options |
| 1661 | have been added in an ad hoc manner. It should be tidied up into some |
| 1662 | kind of table-driven thing. */ |
| 1663 | |
| 1664 | while ((opt = string_nextinlist(&ss, &optsep, buffer, sizeof(buffer))) |
| 1665 | != NULL) |
| 1666 | { |
| 1667 | if (strcmpic(opt, US"defer_ok") == 0) callout_defer_ok = TRUE; |
| 1668 | else if (strcmpic(opt, US"no_cache") == 0) |
| 1669 | verify_options |= vopt_callout_no_cache; |
| 1670 | else if (strcmpic(opt, US"random") == 0) |
| 1671 | verify_options |= vopt_callout_random; |
| 1672 | else if (strcmpic(opt, US"use_sender") == 0) |
| 1673 | verify_options |= vopt_callout_recipsender; |
| 1674 | else if (strcmpic(opt, US"use_postmaster") == 0) |
| 1675 | verify_options |= vopt_callout_recippmaster; |
| 1676 | else if (strcmpic(opt, US"postmaster") == 0) pm_mailfrom = US""; |
| 1677 | else if (strcmpic(opt, US"fullpostmaster") == 0) |
| 1678 | { |
| 1679 | pm_mailfrom = US""; |
| 1680 | verify_options |= vopt_callout_fullpm; |
| 1681 | } |
| 1682 | |
| 1683 | else if (strncmpic(opt, US"mailfrom", 8) == 0) |
| 1684 | { |
| 1685 | if (!verify_header_sender) |
| 1686 | { |
| 1687 | *log_msgptr = string_sprintf("\"mailfrom\" is allowed as a " |
| 1688 | "callout option only for verify=header_sender (detected in ACL " |
| 1689 | "condition \"%s\")", arg); |
| 1690 | return ERROR; |
| 1691 | } |
| 1692 | opt += 8; |
| 1693 | while (isspace(*opt)) opt++; |
| 1694 | if (*opt++ != '=') |
| 1695 | { |
| 1696 | *log_msgptr = string_sprintf("'=' expected after " |
| 1697 | "\"mailfrom\" in ACL condition \"%s\"", arg); |
| 1698 | return ERROR; |
| 1699 | } |
| 1700 | while (isspace(*opt)) opt++; |
| 1701 | se_mailfrom = string_copy(opt); |
| 1702 | } |
| 1703 | |
| 1704 | else if (strncmpic(opt, US"postmaster_mailfrom", 19) == 0) |
| 1705 | { |
| 1706 | opt += 19; |
| 1707 | while (isspace(*opt)) opt++; |
| 1708 | if (*opt++ != '=') |
| 1709 | { |
| 1710 | *log_msgptr = string_sprintf("'=' expected after " |
| 1711 | "\"postmaster_mailfrom\" in ACL condition \"%s\"", arg); |
| 1712 | return ERROR; |
| 1713 | } |
| 1714 | while (isspace(*opt)) opt++; |
| 1715 | pm_mailfrom = string_copy(opt); |
| 1716 | } |
| 1717 | |
| 1718 | else if (strncmpic(opt, US"maxwait", 7) == 0) |
| 1719 | { |
| 1720 | opt += 7; |
| 1721 | while (isspace(*opt)) opt++; |
| 1722 | if (*opt++ != '=') |
| 1723 | { |
| 1724 | *log_msgptr = string_sprintf("'=' expected after \"maxwait\" in " |
| 1725 | "ACL condition \"%s\"", arg); |
| 1726 | return ERROR; |
| 1727 | } |
| 1728 | while (isspace(*opt)) opt++; |
| 1729 | callout_overall = readconf_readtime(opt, 0, FALSE); |
| 1730 | if (callout_overall < 0) |
| 1731 | { |
| 1732 | *log_msgptr = string_sprintf("bad time value in ACL condition " |
| 1733 | "\"verify %s\"", arg); |
| 1734 | return ERROR; |
| 1735 | } |
| 1736 | } |
| 1737 | else if (strncmpic(opt, US"connect", 7) == 0) |
| 1738 | { |
| 1739 | opt += 7; |
| 1740 | while (isspace(*opt)) opt++; |
| 1741 | if (*opt++ != '=') |
| 1742 | { |
| 1743 | *log_msgptr = string_sprintf("'=' expected after " |
| 1744 | "\"callout_overaall\" in ACL condition \"%s\"", arg); |
| 1745 | return ERROR; |
| 1746 | } |
| 1747 | while (isspace(*opt)) opt++; |
| 1748 | callout_connect = readconf_readtime(opt, 0, FALSE); |
| 1749 | if (callout_connect < 0) |
| 1750 | { |
| 1751 | *log_msgptr = string_sprintf("bad time value in ACL condition " |
| 1752 | "\"verify %s\"", arg); |
| 1753 | return ERROR; |
| 1754 | } |
| 1755 | } |
| 1756 | else /* Plain time is callout connect/command timeout */ |
| 1757 | { |
| 1758 | callout = readconf_readtime(opt, 0, FALSE); |
| 1759 | if (callout < 0) |
| 1760 | { |
| 1761 | *log_msgptr = string_sprintf("bad time value in ACL condition " |
| 1762 | "\"verify %s\"", arg); |
| 1763 | return ERROR; |
| 1764 | } |
| 1765 | } |
| 1766 | } |
| 1767 | } |
| 1768 | else |
| 1769 | { |
| 1770 | *log_msgptr = string_sprintf("'=' expected after \"callout\" in " |
| 1771 | "ACL condition \"%s\"", arg); |
| 1772 | return ERROR; |
| 1773 | } |
| 1774 | } |
| 1775 | } |
| 1776 | |
| 1777 | /* Option not recognized */ |
| 1778 | |
| 1779 | else |
| 1780 | { |
| 1781 | *log_msgptr = string_sprintf("unknown option \"%s\" in ACL " |
| 1782 | "condition \"verify %s\"", ss, arg); |
| 1783 | return ERROR; |
| 1784 | } |
| 1785 | } |
| 1786 | |
| 1787 | if ((verify_options & (vopt_callout_recipsender|vopt_callout_recippmaster)) == |
| 1788 | (vopt_callout_recipsender|vopt_callout_recippmaster)) |
| 1789 | { |
| 1790 | *log_msgptr = US"only one of use_sender and use_postmaster can be set " |
| 1791 | "for a recipient callout"; |
| 1792 | return ERROR; |
| 1793 | } |
| 1794 | |
| 1795 | /* Handle sender-in-header verification. Default the user message to the log |
| 1796 | message if giving out verification details. */ |
| 1797 | |
| 1798 | if (verify_header_sender) |
| 1799 | { |
| 1800 | int verrno; |
| 1801 | rc = verify_check_header_address(user_msgptr, log_msgptr, callout, |
| 1802 | callout_overall, callout_connect, se_mailfrom, pm_mailfrom, verify_options, |
| 1803 | &verrno); |
| 1804 | if (rc != OK) |
| 1805 | { |
| 1806 | *basic_errno = verrno; |
| 1807 | if (smtp_return_error_details) |
| 1808 | { |
| 1809 | if (*user_msgptr == NULL && *log_msgptr != NULL) |
| 1810 | *user_msgptr = string_sprintf("Rejected after DATA: %s", *log_msgptr); |
| 1811 | if (rc == DEFER) acl_temp_details = TRUE; |
| 1812 | } |
| 1813 | } |
| 1814 | } |
| 1815 | |
| 1816 | /* Handle a sender address. The default is to verify *the* sender address, but |
| 1817 | optionally a different address can be given, for special requirements. If the |
| 1818 | address is empty, we are dealing with a bounce message that has no sender, so |
| 1819 | we cannot do any checking. If the real sender address gets rewritten during |
| 1820 | verification (e.g. DNS widening), set the flag to stop it being rewritten again |
| 1821 | during message reception. |
| 1822 | |
| 1823 | A list of verified "sender" addresses is kept to try to avoid doing to much |
| 1824 | work repetitively when there are multiple recipients in a message and they all |
| 1825 | require sender verification. However, when callouts are involved, it gets too |
| 1826 | complicated because different recipients may require different callout options. |
| 1827 | Therefore, we always do a full sender verify when any kind of callout is |
| 1828 | specified. Caching elsewhere, for instance in the DNS resolver and in the |
| 1829 | callout handling, should ensure that this is not terribly inefficient. */ |
| 1830 | |
| 1831 | else if (verify_sender_address != NULL) |
| 1832 | { |
| 1833 | if ((verify_options & (vopt_callout_recipsender|vopt_callout_recippmaster)) |
| 1834 | != 0) |
| 1835 | { |
| 1836 | *log_msgptr = US"use_sender or use_postmaster cannot be used for a " |
| 1837 | "sender verify callout"; |
| 1838 | return ERROR; |
| 1839 | } |
| 1840 | |
| 1841 | sender_vaddr = verify_checked_sender(verify_sender_address); |
| 1842 | if (sender_vaddr != NULL && /* Previously checked */ |
| 1843 | callout <= 0) /* No callout needed this time */ |
| 1844 | { |
| 1845 | /* If the "routed" flag is set, it means that routing worked before, so |
| 1846 | this check can give OK (the saved return code value, if set, belongs to a |
| 1847 | callout that was done previously). If the "routed" flag is not set, routing |
| 1848 | must have failed, so we use the saved return code. */ |
| 1849 | |
| 1850 | if (testflag(sender_vaddr, af_verify_routed)) rc = OK; else |
| 1851 | { |
| 1852 | rc = sender_vaddr->special_action; |
| 1853 | *basic_errno = sender_vaddr->basic_errno; |
| 1854 | } |
| 1855 | HDEBUG(D_acl) debug_printf("using cached sender verify result\n"); |
| 1856 | } |
| 1857 | |
| 1858 | /* Do a new verification, and cache the result. The cache is used to avoid |
| 1859 | verifying the sender multiple times for multiple RCPTs when callouts are not |
| 1860 | specified (see comments above). |
| 1861 | |
| 1862 | The cache is also used on failure to give details in response to the first |
| 1863 | RCPT that gets bounced for this reason. However, this can be suppressed by |
| 1864 | the no_details option, which sets the flag that says "this detail has already |
| 1865 | been sent". The cache normally contains just one address, but there may be |
| 1866 | more in esoteric circumstances. */ |
| 1867 | |
| 1868 | else |
| 1869 | { |
| 1870 | BOOL routed = TRUE; |
| 1871 | uschar *save_address_data = deliver_address_data; |
| 1872 | |
| 1873 | sender_vaddr = deliver_make_addr(verify_sender_address, TRUE); |
| 1874 | if (no_details) setflag(sender_vaddr, af_sverify_told); |
| 1875 | if (verify_sender_address[0] != 0) |
| 1876 | { |
| 1877 | /* If this is the real sender address, save the unrewritten version |
| 1878 | for use later in receive. Otherwise, set a flag so that rewriting the |
| 1879 | sender in verify_address() does not update sender_address. */ |
| 1880 | |
| 1881 | if (verify_sender_address == sender_address) |
| 1882 | sender_address_unrewritten = sender_address; |
| 1883 | else |
| 1884 | verify_options |= vopt_fake_sender; |
| 1885 | |
| 1886 | if (success_on_redirect) |
| 1887 | verify_options |= vopt_success_on_redirect; |
| 1888 | |
| 1889 | /* The recipient, qualify, and expn options are never set in |
| 1890 | verify_options. */ |
| 1891 | |
| 1892 | rc = verify_address(sender_vaddr, NULL, verify_options, callout, |
| 1893 | callout_overall, callout_connect, se_mailfrom, pm_mailfrom, &routed); |
| 1894 | |
| 1895 | HDEBUG(D_acl) debug_printf("----------- end verify ------------\n"); |
| 1896 | |
| 1897 | if (rc == OK) |
| 1898 | { |
| 1899 | if (Ustrcmp(sender_vaddr->address, verify_sender_address) != 0) |
| 1900 | { |
| 1901 | DEBUG(D_acl) debug_printf("sender %s verified ok as %s\n", |
| 1902 | verify_sender_address, sender_vaddr->address); |
| 1903 | } |
| 1904 | else |
| 1905 | { |
| 1906 | DEBUG(D_acl) debug_printf("sender %s verified ok\n", |
| 1907 | verify_sender_address); |
| 1908 | } |
| 1909 | } |
| 1910 | else *basic_errno = sender_vaddr->basic_errno; |
| 1911 | } |
| 1912 | else rc = OK; /* Null sender */ |
| 1913 | |
| 1914 | /* Cache the result code */ |
| 1915 | |
| 1916 | if (routed) setflag(sender_vaddr, af_verify_routed); |
| 1917 | if (callout > 0) setflag(sender_vaddr, af_verify_callout); |
| 1918 | sender_vaddr->special_action = rc; |
| 1919 | sender_vaddr->next = sender_verified_list; |
| 1920 | sender_verified_list = sender_vaddr; |
| 1921 | |
| 1922 | /* Restore the recipient address data, which might have been clobbered by |
| 1923 | the sender verification. */ |
| 1924 | |
| 1925 | deliver_address_data = save_address_data; |
| 1926 | } |
| 1927 | |
| 1928 | /* Put the sender address_data value into $sender_address_data */ |
| 1929 | |
| 1930 | sender_address_data = sender_vaddr->p.address_data; |
| 1931 | } |
| 1932 | |
| 1933 | /* A recipient address just gets a straightforward verify; again we must handle |
| 1934 | the DEFER overrides. */ |
| 1935 | |
| 1936 | else |
| 1937 | { |
| 1938 | address_item addr2; |
| 1939 | |
| 1940 | if (success_on_redirect) |
| 1941 | verify_options |= vopt_success_on_redirect; |
| 1942 | |
| 1943 | /* We must use a copy of the address for verification, because it might |
| 1944 | get rewritten. */ |
| 1945 | |
| 1946 | addr2 = *addr; |
| 1947 | rc = verify_address(&addr2, NULL, verify_options|vopt_is_recipient, callout, |
| 1948 | callout_overall, callout_connect, se_mailfrom, pm_mailfrom, NULL); |
| 1949 | HDEBUG(D_acl) debug_printf("----------- end verify ------------\n"); |
| 1950 | |
| 1951 | *basic_errno = addr2.basic_errno; |
| 1952 | *log_msgptr = addr2.message; |
| 1953 | *user_msgptr = (addr2.user_message != NULL)? |
| 1954 | addr2.user_message : addr2.message; |
| 1955 | |
| 1956 | /* Allow details for temporary error if the address is so flagged. */ |
| 1957 | if (testflag((&addr2), af_pass_message)) acl_temp_details = TRUE; |
| 1958 | |
| 1959 | /* Make $address_data visible */ |
| 1960 | deliver_address_data = addr2.p.address_data; |
| 1961 | } |
| 1962 | |
| 1963 | /* We have a result from the relevant test. Handle defer overrides first. */ |
| 1964 | |
| 1965 | if (rc == DEFER && (defer_ok || |
| 1966 | (callout_defer_ok && *basic_errno == ERRNO_CALLOUTDEFER))) |
| 1967 | { |
| 1968 | HDEBUG(D_acl) debug_printf("verify defer overridden by %s\n", |
| 1969 | defer_ok? "defer_ok" : "callout_defer_ok"); |
| 1970 | rc = OK; |
| 1971 | } |
| 1972 | |
| 1973 | /* If we've failed a sender, set up a recipient message, and point |
| 1974 | sender_verified_failed to the address item that actually failed. */ |
| 1975 | |
| 1976 | if (rc != OK && verify_sender_address != NULL) |
| 1977 | { |
| 1978 | if (rc != DEFER) |
| 1979 | { |
| 1980 | *log_msgptr = *user_msgptr = US"Sender verify failed"; |
| 1981 | } |
| 1982 | else if (*basic_errno != ERRNO_CALLOUTDEFER) |
| 1983 | { |
| 1984 | *log_msgptr = *user_msgptr = US"Could not complete sender verify"; |
| 1985 | } |
| 1986 | else |
| 1987 | { |
| 1988 | *log_msgptr = US"Could not complete sender verify callout"; |
| 1989 | *user_msgptr = smtp_return_error_details? sender_vaddr->user_message : |
| 1990 | *log_msgptr; |
| 1991 | } |
| 1992 | |
| 1993 | sender_verified_failed = sender_vaddr; |
| 1994 | } |
| 1995 | |
| 1996 | /* Verifying an address messes up the values of $domain and $local_part, |
| 1997 | so reset them before returning if this is a RCPT ACL. */ |
| 1998 | |
| 1999 | if (addr != NULL) |
| 2000 | { |
| 2001 | deliver_domain = addr->domain; |
| 2002 | deliver_localpart = addr->local_part; |
| 2003 | } |
| 2004 | return rc; |
| 2005 | |
| 2006 | /* Syntax errors in the verify argument come here. */ |
| 2007 | |
| 2008 | BAD_VERIFY: |
| 2009 | *log_msgptr = string_sprintf("expected \"sender[=address]\", \"recipient\", " |
| 2010 | "\"helo\", \"header_syntax\", \"header_sender\" or " |
| 2011 | "\"reverse_host_lookup\" at start of ACL condition " |
| 2012 | "\"verify %s\"", arg); |
| 2013 | return ERROR; |
| 2014 | |
| 2015 | /* Options supplied when not allowed come here */ |
| 2016 | |
| 2017 | NO_OPTIONS: |
| 2018 | *log_msgptr = string_sprintf("unexpected '/' found in \"%s\" " |
| 2019 | "(this verify item has no options)", arg); |
| 2020 | return ERROR; |
| 2021 | |
| 2022 | /* Calls in the wrong ACL come here */ |
| 2023 | |
| 2024 | WRONG_ACL: |
| 2025 | *log_msgptr = string_sprintf("cannot check header contents in ACL for %s " |
| 2026 | "(only possible in ACL for DATA)", acl_wherenames[where]); |
| 2027 | return ERROR; |
| 2028 | } |
| 2029 | |
| 2030 | |
| 2031 | |
| 2032 | |
| 2033 | /************************************************* |
| 2034 | * Check argument for control= modifier * |
| 2035 | *************************************************/ |
| 2036 | |
| 2037 | /* Called from acl_check_condition() below |
| 2038 | |
| 2039 | Arguments: |
| 2040 | arg the argument string for control= |
| 2041 | pptr set to point to the terminating character |
| 2042 | where which ACL we are in |
| 2043 | log_msgptr for error messages |
| 2044 | |
| 2045 | Returns: CONTROL_xxx value |
| 2046 | */ |
| 2047 | |
| 2048 | static int |
| 2049 | decode_control(uschar *arg, uschar **pptr, int where, uschar **log_msgptr) |
| 2050 | { |
| 2051 | int len; |
| 2052 | control_def *d; |
| 2053 | |
| 2054 | for (d = controls_list; |
| 2055 | d < controls_list + sizeof(controls_list)/sizeof(control_def); |
| 2056 | d++) |
| 2057 | { |
| 2058 | len = Ustrlen(d->name); |
| 2059 | if (Ustrncmp(d->name, arg, len) == 0) break; |
| 2060 | } |
| 2061 | |
| 2062 | if (d >= controls_list + sizeof(controls_list)/sizeof(control_def) || |
| 2063 | (arg[len] != 0 && (!d->has_option || arg[len] != '/'))) |
| 2064 | { |
| 2065 | *log_msgptr = string_sprintf("syntax error in \"control=%s\"", arg); |
| 2066 | return CONTROL_ERROR; |
| 2067 | } |
| 2068 | |
| 2069 | *pptr = arg + len; |
| 2070 | return d->value; |
| 2071 | } |
| 2072 | |
| 2073 | |
| 2074 | |
| 2075 | /************************************************* |
| 2076 | * Handle rate limiting * |
| 2077 | *************************************************/ |
| 2078 | |
| 2079 | /* Called by acl_check_condition() below to calculate the result |
| 2080 | of the ACL ratelimit condition. |
| 2081 | |
| 2082 | Note that the return value might be slightly unexpected: if the |
| 2083 | sender's rate is above the limit then the result is OK. This is |
| 2084 | similar to the dnslists condition, and is so that you can write |
| 2085 | ACL clauses like: defer ratelimit = 15 / 1h |
| 2086 | |
| 2087 | Arguments: |
| 2088 | arg the option string for ratelimit= |
| 2089 | where ACL_WHERE_xxxx indicating which ACL this is |
| 2090 | log_msgptr for error messages |
| 2091 | |
| 2092 | Returns: OK - Sender's rate is above limit |
| 2093 | FAIL - Sender's rate is below limit |
| 2094 | DEFER - Problem opening ratelimit database |
| 2095 | ERROR - Syntax error in options. |
| 2096 | */ |
| 2097 | |
| 2098 | static int |
| 2099 | acl_ratelimit(uschar *arg, int where, uschar **log_msgptr) |
| 2100 | { |
| 2101 | double limit, period; |
| 2102 | uschar *ss; |
| 2103 | uschar *key = NULL; |
| 2104 | int sep = '/'; |
| 2105 | BOOL leaky = FALSE, strict = FALSE, noupdate = FALSE; |
| 2106 | BOOL per_byte = FALSE, per_cmd = FALSE, per_conn = FALSE, per_mail = FALSE; |
| 2107 | int old_pool, rc; |
| 2108 | tree_node **anchor, *t; |
| 2109 | open_db dbblock, *dbm; |
| 2110 | dbdata_ratelimit *dbd; |
| 2111 | struct timeval tv; |
| 2112 | |
| 2113 | /* Parse the first two options and record their values in expansion |
| 2114 | variables. These variables allow the configuration to have informative |
| 2115 | error messages based on rate limits obtained from a table lookup. */ |
| 2116 | |
| 2117 | /* First is the maximum number of messages per period and maximum burst |
| 2118 | size, which must be greater than or equal to zero. Zero is useful for |
| 2119 | rate measurement as opposed to rate limiting. */ |
| 2120 | |
| 2121 | sender_rate_limit = string_nextinlist(&arg, &sep, NULL, 0); |
| 2122 | if (sender_rate_limit == NULL) |
| 2123 | limit = -1.0; |
| 2124 | else |
| 2125 | { |
| 2126 | limit = Ustrtod(sender_rate_limit, &ss); |
| 2127 | if (tolower(*ss) == 'k') { limit *= 1024.0; ss++; } |
| 2128 | else if (tolower(*ss) == 'm') { limit *= 1024.0*1024.0; ss++; } |
| 2129 | else if (tolower(*ss) == 'g') { limit *= 1024.0*1024.0*1024.0; ss++; } |
| 2130 | } |
| 2131 | if (limit < 0.0 || *ss != 0) |
| 2132 | { |
| 2133 | *log_msgptr = string_sprintf("syntax error in argument for " |
| 2134 | "\"ratelimit\" condition: \"%s\" is not a positive number", |
| 2135 | sender_rate_limit); |
| 2136 | return ERROR; |
| 2137 | } |
| 2138 | |
| 2139 | /* Second is the rate measurement period and exponential smoothing time |
| 2140 | constant. This must be strictly greater than zero, because zero leads to |
| 2141 | run-time division errors. */ |
| 2142 | |
| 2143 | sender_rate_period = string_nextinlist(&arg, &sep, NULL, 0); |
| 2144 | if (sender_rate_period == NULL) period = -1.0; |
| 2145 | else period = readconf_readtime(sender_rate_period, 0, FALSE); |
| 2146 | if (period <= 0.0) |
| 2147 | { |
| 2148 | *log_msgptr = string_sprintf("syntax error in argument for " |
| 2149 | "\"ratelimit\" condition: \"%s\" is not a time value", |
| 2150 | sender_rate_period); |
| 2151 | return ERROR; |
| 2152 | } |
| 2153 | |
| 2154 | /* Parse the other options. Should we check if the per_* options are being |
| 2155 | used in ACLs where they don't make sense, e.g. per_mail in the connect ACL? */ |
| 2156 | |
| 2157 | while ((ss = string_nextinlist(&arg, &sep, big_buffer, big_buffer_size)) |
| 2158 | != NULL) |
| 2159 | { |
| 2160 | if (strcmpic(ss, US"leaky") == 0) leaky = TRUE; |
| 2161 | else if (strcmpic(ss, US"strict") == 0) strict = TRUE; |
| 2162 | else if (strcmpic(ss, US"noupdate") == 0) noupdate = TRUE; |
| 2163 | else if (strcmpic(ss, US"per_byte") == 0) per_byte = TRUE; |
| 2164 | else if (strcmpic(ss, US"per_cmd") == 0) per_cmd = TRUE; |
| 2165 | else if (strcmpic(ss, US"per_rcpt") == 0) per_cmd = TRUE; /* alias */ |
| 2166 | else if (strcmpic(ss, US"per_conn") == 0) per_conn = TRUE; |
| 2167 | else if (strcmpic(ss, US"per_mail") == 0) per_mail = TRUE; |
| 2168 | else key = string_sprintf("%s", ss); |
| 2169 | } |
| 2170 | |
| 2171 | if (leaky + strict > 1 || per_byte + per_cmd + per_conn + per_mail > 1) |
| 2172 | { |
| 2173 | *log_msgptr = US"conflicting options for \"ratelimit\" condition"; |
| 2174 | return ERROR; |
| 2175 | } |
| 2176 | |
| 2177 | /* Default option values */ |
| 2178 | |
| 2179 | if (!strict) leaky = TRUE; |
| 2180 | if (!per_byte && !per_cmd && !per_conn) per_mail = TRUE; |
| 2181 | |
| 2182 | /* Create the lookup key. If there is no explicit key, use sender_host_address. |
| 2183 | If there is no sender_host_address (e.g. -bs or acl_not_smtp) then we simply |
| 2184 | omit it. The smoothing constant (sender_rate_period) and the per_xxx options |
| 2185 | are added to the key because they alter the meaning of the stored data. */ |
| 2186 | |
| 2187 | if (key == NULL) |
| 2188 | key = (sender_host_address == NULL)? US"" : sender_host_address; |
| 2189 | |
| 2190 | key = string_sprintf("%s/%s/%s/%s", |
| 2191 | sender_rate_period, |
| 2192 | per_byte? US"per_byte" : |
| 2193 | per_cmd? US"per_cmd" : |
| 2194 | per_mail? US"per_mail" : US"per_conn", |
| 2195 | strict? US"strict" : US"leaky", |
| 2196 | key); |
| 2197 | |
| 2198 | HDEBUG(D_acl) debug_printf("ratelimit condition limit=%.0f period=%.0f key=%s\n", |
| 2199 | limit, period, key); |
| 2200 | |
| 2201 | /* See if we have already computed the rate by looking in the relevant tree. |
| 2202 | For per-connection rate limiting, store tree nodes and dbdata in the permanent |
| 2203 | pool so that they survive across resets. */ |
| 2204 | |
| 2205 | anchor = NULL; |
| 2206 | old_pool = store_pool; |
| 2207 | |
| 2208 | if (per_conn) |
| 2209 | { |
| 2210 | anchor = &ratelimiters_conn; |
| 2211 | store_pool = POOL_PERM; |
| 2212 | } |
| 2213 | else if (per_mail || per_byte) |
| 2214 | anchor = &ratelimiters_mail; |
| 2215 | else if (per_cmd) |
| 2216 | anchor = &ratelimiters_cmd; |
| 2217 | |
| 2218 | if (anchor != NULL && (t = tree_search(*anchor, key)) != NULL) |
| 2219 | { |
| 2220 | dbd = t->data.ptr; |
| 2221 | /* The following few lines duplicate some of the code below. */ |
| 2222 | rc = (dbd->rate < limit)? FAIL : OK; |
| 2223 | store_pool = old_pool; |
| 2224 | sender_rate = string_sprintf("%.1f", dbd->rate); |
| 2225 | HDEBUG(D_acl) |
| 2226 | debug_printf("ratelimit found pre-computed rate %s\n", sender_rate); |
| 2227 | return rc; |
| 2228 | } |
| 2229 | |
| 2230 | /* We aren't using a pre-computed rate, so get a previously recorded |
| 2231 | rate from the database, update it, and write it back when required. If there's |
| 2232 | no previous rate for this key, create one. */ |
| 2233 | |
| 2234 | dbm = dbfn_open(US"ratelimit", O_RDWR, &dbblock, TRUE); |
| 2235 | if (dbm == NULL) |
| 2236 | { |
| 2237 | store_pool = old_pool; |
| 2238 | sender_rate = NULL; |
| 2239 | HDEBUG(D_acl) debug_printf("ratelimit database not available\n"); |
| 2240 | *log_msgptr = US"ratelimit database not available"; |
| 2241 | return DEFER; |
| 2242 | } |
| 2243 | dbd = dbfn_read(dbm, key); |
| 2244 | |
| 2245 | gettimeofday(&tv, NULL); |
| 2246 | |
| 2247 | if (dbd == NULL) |
| 2248 | { |
| 2249 | HDEBUG(D_acl) debug_printf("ratelimit initializing new key's data\n"); |
| 2250 | dbd = store_get(sizeof(dbdata_ratelimit)); |
| 2251 | dbd->time_stamp = tv.tv_sec; |
| 2252 | dbd->time_usec = tv.tv_usec; |
| 2253 | dbd->rate = 0.0; |
| 2254 | } |
| 2255 | else |
| 2256 | { |
| 2257 | /* The smoothed rate is computed using an exponentially weighted moving |
| 2258 | average adjusted for variable sampling intervals. The standard EWMA for |
| 2259 | a fixed sampling interval is: f'(t) = (1 - a) * f(t) + a * f'(t - 1) |
| 2260 | where f() is the measured value and f'() is the smoothed value. |
| 2261 | |
| 2262 | Old data decays out of the smoothed value exponentially, such that data n |
| 2263 | samples old is multiplied by a^n. The exponential decay time constant p |
| 2264 | is defined such that data p samples old is multiplied by 1/e, which means |
| 2265 | that a = exp(-1/p). We can maintain the same time constant for a variable |
| 2266 | sampling interval i by using a = exp(-i/p). |
| 2267 | |
| 2268 | The rate we are measuring is messages per period, suitable for directly |
| 2269 | comparing with the limit. The average rate between now and the previous |
| 2270 | message is period / interval, which we feed into the EWMA as the sample. |
| 2271 | |
| 2272 | It turns out that the number of messages required for the smoothed rate |
| 2273 | to reach the limit when they are sent in a burst is equal to the limit. |
| 2274 | This can be seen by analysing the value of the smoothed rate after N |
| 2275 | messages sent at even intervals. Let k = (1 - a) * p/i |
| 2276 | |
| 2277 | rate_1 = (1 - a) * p/i + a * rate_0 |
| 2278 | = k + a * rate_0 |
| 2279 | rate_2 = k + a * rate_1 |
| 2280 | = k + a * k + a^2 * rate_0 |
| 2281 | rate_3 = k + a * k + a^2 * k + a^3 * rate_0 |
| 2282 | rate_N = rate_0 * a^N + k * SUM(x=0..N-1)(a^x) |
| 2283 | = rate_0 * a^N + k * (1 - a^N) / (1 - a) |
| 2284 | = rate_0 * a^N + p/i * (1 - a^N) |
| 2285 | |
| 2286 | When N is large, a^N -> 0 so rate_N -> p/i as desired. |
| 2287 | |
| 2288 | rate_N = p/i + (rate_0 - p/i) * a^N |
| 2289 | a^N = (rate_N - p/i) / (rate_0 - p/i) |
| 2290 | N * -i/p = log((rate_N - p/i) / (rate_0 - p/i)) |
| 2291 | N = p/i * log((rate_0 - p/i) / (rate_N - p/i)) |
| 2292 | |
| 2293 | Numerical analysis of the above equation, setting the computed rate to |
| 2294 | increase from rate_0 = 0 to rate_N = limit, shows that for large sending |
| 2295 | rates, p/i, the number of messages N = limit. So limit serves as both the |
| 2296 | maximum rate measured in messages per period, and the maximum number of |
| 2297 | messages that can be sent in a fast burst. */ |
| 2298 | |
| 2299 | double this_time = (double)tv.tv_sec |
| 2300 | + (double)tv.tv_usec / 1000000.0; |
| 2301 | double prev_time = (double)dbd->time_stamp |
| 2302 | + (double)dbd->time_usec / 1000000.0; |
| 2303 | |
| 2304 | /* We must avoid division by zero, and deal gracefully with the clock going |
| 2305 | backwards. If we blunder ahead when time is in reverse then the computed |
| 2306 | rate will be bogus. To be safe we clamp interval to a very small number. */ |
| 2307 | |
| 2308 | double interval = this_time - prev_time <= 0.0 ? 1e-9 |
| 2309 | : this_time - prev_time; |
| 2310 | |
| 2311 | double i_over_p = interval / period; |
| 2312 | double a = exp(-i_over_p); |
| 2313 | |
| 2314 | dbd->time_stamp = tv.tv_sec; |
| 2315 | dbd->time_usec = tv.tv_usec; |
| 2316 | |
| 2317 | /* If we are measuring the rate in bytes per period, multiply the |
| 2318 | measured rate by the message size. If we don't know the message size |
| 2319 | then it's safe to just use a value of zero and let the recorded rate |
| 2320 | decay as if nothing happened. */ |
| 2321 | |
| 2322 | if (per_byte) |
| 2323 | dbd->rate = (message_size < 0 ? 0.0 : (double)message_size) |
| 2324 | * (1 - a) / i_over_p + a * dbd->rate; |
| 2325 | else if (per_cmd && where == ACL_WHERE_NOTSMTP) |
| 2326 | dbd->rate = (double)recipients_count |
| 2327 | * (1 - a) / i_over_p + a * dbd->rate; |
| 2328 | else |
| 2329 | dbd->rate = (1 - a) / i_over_p + a * dbd->rate; |
| 2330 | } |
| 2331 | |
| 2332 | /* Clients sending at the limit are considered to be over the limit. This |
| 2333 | matters for edge cases such the first message sent by a client (which gets |
| 2334 | the initial rate of 0.0) when the rate limit is zero (i.e. the client should |
| 2335 | be completely blocked). */ |
| 2336 | |
| 2337 | rc = (dbd->rate < limit)? FAIL : OK; |
| 2338 | |
| 2339 | /* Update the state if the rate is low or if we are being strict. If we |
| 2340 | are in leaky mode and the sender's rate is too high, we do not update |
| 2341 | the recorded rate in order to avoid an over-aggressive sender's retry |
| 2342 | rate preventing them from getting any email through. If noupdate is set, |
| 2343 | do not do any updates. */ |
| 2344 | |
| 2345 | if ((rc == FAIL || !leaky) && !noupdate) |
| 2346 | { |
| 2347 | dbfn_write(dbm, key, dbd, sizeof(dbdata_ratelimit)); |
| 2348 | HDEBUG(D_acl) debug_printf("ratelimit db updated\n"); |
| 2349 | } |
| 2350 | else |
| 2351 | { |
| 2352 | HDEBUG(D_acl) debug_printf("ratelimit db not updated: %s\n", |
| 2353 | noupdate? "noupdate set" : "over the limit, but leaky"); |
| 2354 | } |
| 2355 | |
| 2356 | dbfn_close(dbm); |
| 2357 | |
| 2358 | /* Store the result in the tree for future reference, if necessary. */ |
| 2359 | |
| 2360 | if (anchor != NULL && !noupdate) |
| 2361 | { |
| 2362 | t = store_get(sizeof(tree_node) + Ustrlen(key)); |
| 2363 | t->data.ptr = dbd; |
| 2364 | Ustrcpy(t->name, key); |
| 2365 | (void)tree_insertnode(anchor, t); |
| 2366 | } |
| 2367 | |
| 2368 | /* We create the formatted version of the sender's rate very late in |
| 2369 | order to ensure that it is done using the correct storage pool. */ |
| 2370 | |
| 2371 | store_pool = old_pool; |
| 2372 | sender_rate = string_sprintf("%.1f", dbd->rate); |
| 2373 | |
| 2374 | HDEBUG(D_acl) |
| 2375 | debug_printf("ratelimit computed rate %s\n", sender_rate); |
| 2376 | |
| 2377 | return rc; |
| 2378 | } |
| 2379 | |
| 2380 | |
| 2381 | |
| 2382 | /************************************************* |
| 2383 | * Handle conditions/modifiers on an ACL item * |
| 2384 | *************************************************/ |
| 2385 | |
| 2386 | /* Called from acl_check() below. |
| 2387 | |
| 2388 | Arguments: |
| 2389 | verb ACL verb |
| 2390 | cb ACL condition block - if NULL, result is OK |
| 2391 | where where called from |
| 2392 | addr the address being checked for RCPT, or NULL |
| 2393 | level the nesting level |
| 2394 | epp pointer to pass back TRUE if "endpass" encountered |
| 2395 | (applies only to "accept" and "discard") |
| 2396 | user_msgptr user message pointer |
| 2397 | log_msgptr log message pointer |
| 2398 | basic_errno pointer to where to put verify error |
| 2399 | |
| 2400 | Returns: OK - all conditions are met |
| 2401 | DISCARD - an "acl" condition returned DISCARD - only allowed |
| 2402 | for "accept" or "discard" verbs |
| 2403 | FAIL - at least one condition fails |
| 2404 | FAIL_DROP - an "acl" condition returned FAIL_DROP |
| 2405 | DEFER - can't tell at the moment (typically, lookup defer, |
| 2406 | but can be temporary callout problem) |
| 2407 | ERROR - ERROR from nested ACL or expansion failure or other |
| 2408 | error |
| 2409 | */ |
| 2410 | |
| 2411 | static int |
| 2412 | acl_check_condition(int verb, acl_condition_block *cb, int where, |
| 2413 | address_item *addr, int level, BOOL *epp, uschar **user_msgptr, |
| 2414 | uschar **log_msgptr, int *basic_errno) |
| 2415 | { |
| 2416 | uschar *user_message = NULL; |
| 2417 | uschar *log_message = NULL; |
| 2418 | uschar *p = NULL; |
| 2419 | int rc = OK; |
| 2420 | #ifdef WITH_CONTENT_SCAN |
| 2421 | int sep = '/'; |
| 2422 | #endif |
| 2423 | |
| 2424 | for (; cb != NULL; cb = cb->next) |
| 2425 | { |
| 2426 | uschar *arg; |
| 2427 | int control_type; |
| 2428 | |
| 2429 | /* The message and log_message items set up messages to be used in |
| 2430 | case of rejection. They are expanded later. */ |
| 2431 | |
| 2432 | if (cb->type == ACLC_MESSAGE) |
| 2433 | { |
| 2434 | user_message = cb->arg; |
| 2435 | continue; |
| 2436 | } |
| 2437 | |
| 2438 | if (cb->type == ACLC_LOG_MESSAGE) |
| 2439 | { |
| 2440 | log_message = cb->arg; |
| 2441 | continue; |
| 2442 | } |
| 2443 | |
| 2444 | /* The endpass "condition" just sets a flag to show it occurred. This is |
| 2445 | checked at compile time to be on an "accept" or "discard" item. */ |
| 2446 | |
| 2447 | if (cb->type == ACLC_ENDPASS) |
| 2448 | { |
| 2449 | *epp = TRUE; |
| 2450 | continue; |
| 2451 | } |
| 2452 | |
| 2453 | /* For other conditions and modifiers, the argument is expanded now for some |
| 2454 | of them, but not for all, because expansion happens down in some lower level |
| 2455 | checking functions in some cases. */ |
| 2456 | |
| 2457 | if (cond_expand_at_top[cb->type]) |
| 2458 | { |
| 2459 | arg = expand_string(cb->arg); |
| 2460 | if (arg == NULL) |
| 2461 | { |
| 2462 | if (expand_string_forcedfail) continue; |
| 2463 | *log_msgptr = string_sprintf("failed to expand ACL string \"%s\": %s", |
| 2464 | cb->arg, expand_string_message); |
| 2465 | return search_find_defer? DEFER : ERROR; |
| 2466 | } |
| 2467 | } |
| 2468 | else arg = cb->arg; |
| 2469 | |
| 2470 | /* Show condition, and expanded condition if it's different */ |
| 2471 | |
| 2472 | HDEBUG(D_acl) |
| 2473 | { |
| 2474 | int lhswidth = 0; |
| 2475 | debug_printf("check %s%s %n", |
| 2476 | (!cond_modifiers[cb->type] && cb->u.negated)? "!":"", |
| 2477 | conditions[cb->type], &lhswidth); |
| 2478 | |
| 2479 | if (cb->type == ACLC_SET) |
| 2480 | { |
| 2481 | debug_printf("acl_%s ", cb->u.varname); |
| 2482 | lhswidth += 5 + Ustrlen(cb->u.varname); |
| 2483 | } |
| 2484 | |
| 2485 | debug_printf("= %s\n", cb->arg); |
| 2486 | |
| 2487 | if (arg != cb->arg) |
| 2488 | debug_printf("%.*s= %s\n", lhswidth, |
| 2489 | US" ", CS arg); |
| 2490 | } |
| 2491 | |
| 2492 | /* Check that this condition makes sense at this time */ |
| 2493 | |
| 2494 | if ((cond_forbids[cb->type] & (1 << where)) != 0) |
| 2495 | { |
| 2496 | *log_msgptr = string_sprintf("cannot %s %s condition in %s ACL", |
| 2497 | cond_modifiers[cb->type]? "use" : "test", |
| 2498 | conditions[cb->type], acl_wherenames[where]); |
| 2499 | return ERROR; |
| 2500 | } |
| 2501 | |
| 2502 | /* Run the appropriate test for each condition, or take the appropriate |
| 2503 | action for the remaining modifiers. */ |
| 2504 | |
| 2505 | switch(cb->type) |
| 2506 | { |
| 2507 | case ACLC_ADD_HEADER: |
| 2508 | setup_header(arg); |
| 2509 | break; |
| 2510 | |
| 2511 | /* A nested ACL that returns "discard" makes sense only for an "accept" or |
| 2512 | "discard" verb. */ |
| 2513 | |
| 2514 | case ACLC_ACL: |
| 2515 | rc = acl_check_internal(where, addr, arg, level+1, user_msgptr, log_msgptr); |
| 2516 | if (rc == DISCARD && verb != ACL_ACCEPT && verb != ACL_DISCARD) |
| 2517 | { |
| 2518 | *log_msgptr = string_sprintf("nested ACL returned \"discard\" for " |
| 2519 | "\"%s\" command (only allowed with \"accept\" or \"discard\")", |
| 2520 | verbs[verb]); |
| 2521 | return ERROR; |
| 2522 | } |
| 2523 | break; |
| 2524 | |
| 2525 | case ACLC_AUTHENTICATED: |
| 2526 | rc = (sender_host_authenticated == NULL)? FAIL : |
| 2527 | match_isinlist(sender_host_authenticated, &arg, 0, NULL, NULL, MCL_STRING, |
| 2528 | TRUE, NULL); |
| 2529 | break; |
| 2530 | |
| 2531 | #ifdef EXPERIMENTAL_BRIGHTMAIL |
| 2532 | case ACLC_BMI_OPTIN: |
| 2533 | { |
| 2534 | int old_pool = store_pool; |
| 2535 | store_pool = POOL_PERM; |
| 2536 | bmi_current_optin = string_copy(arg); |
| 2537 | store_pool = old_pool; |
| 2538 | } |
| 2539 | break; |
| 2540 | #endif |
| 2541 | |
| 2542 | case ACLC_CONDITION: |
| 2543 | /* The true/false parsing here should be kept in sync with that used in |
| 2544 | expand.c when dealing with ECOND_BOOL so that we don't have too many |
| 2545 | different definitions of what can be a boolean. */ |
| 2546 | if (Ustrspn(arg, "0123456789") == Ustrlen(arg)) /* Digits, or empty */ |
| 2547 | rc = (Uatoi(arg) == 0)? FAIL : OK; |
| 2548 | else |
| 2549 | rc = (strcmpic(arg, US"no") == 0 || |
| 2550 | strcmpic(arg, US"false") == 0)? FAIL : |
| 2551 | (strcmpic(arg, US"yes") == 0 || |
| 2552 | strcmpic(arg, US"true") == 0)? OK : DEFER; |
| 2553 | if (rc == DEFER) |
| 2554 | *log_msgptr = string_sprintf("invalid \"condition\" value \"%s\"", arg); |
| 2555 | break; |
| 2556 | |
| 2557 | case ACLC_CONTINUE: /* Always succeeds */ |
| 2558 | break; |
| 2559 | |
| 2560 | case ACLC_CONTROL: |
| 2561 | control_type = decode_control(arg, &p, where, log_msgptr); |
| 2562 | |
| 2563 | /* Check if this control makes sense at this time */ |
| 2564 | |
| 2565 | if ((control_forbids[control_type] & (1 << where)) != 0) |
| 2566 | { |
| 2567 | *log_msgptr = string_sprintf("cannot use \"control=%s\" in %s ACL", |
| 2568 | controls[control_type], acl_wherenames[where]); |
| 2569 | return ERROR; |
| 2570 | } |
| 2571 | |
| 2572 | switch(control_type) |
| 2573 | { |
| 2574 | case CONTROL_AUTH_UNADVERTISED: |
| 2575 | allow_auth_unadvertised = TRUE; |
| 2576 | break; |
| 2577 | |
| 2578 | #ifdef EXPERIMENTAL_BRIGHTMAIL |
| 2579 | case CONTROL_BMI_RUN: |
| 2580 | bmi_run = 1; |
| 2581 | break; |
| 2582 | #endif |
| 2583 | |
| 2584 | #ifndef DISABLE_DKIM |
| 2585 | case CONTROL_DKIM_VERIFY: |
| 2586 | dkim_disable_verify = TRUE; |
| 2587 | break; |
| 2588 | #endif |
| 2589 | |
| 2590 | case CONTROL_ERROR: |
| 2591 | return ERROR; |
| 2592 | |
| 2593 | case CONTROL_CASEFUL_LOCAL_PART: |
| 2594 | deliver_localpart = addr->cc_local_part; |
| 2595 | break; |
| 2596 | |
| 2597 | case CONTROL_CASELOWER_LOCAL_PART: |
| 2598 | deliver_localpart = addr->lc_local_part; |
| 2599 | break; |
| 2600 | |
| 2601 | case CONTROL_ENFORCE_SYNC: |
| 2602 | smtp_enforce_sync = TRUE; |
| 2603 | break; |
| 2604 | |
| 2605 | case CONTROL_NO_ENFORCE_SYNC: |
| 2606 | smtp_enforce_sync = FALSE; |
| 2607 | break; |
| 2608 | |
| 2609 | #ifdef WITH_CONTENT_SCAN |
| 2610 | case CONTROL_NO_MBOX_UNSPOOL: |
| 2611 | no_mbox_unspool = TRUE; |
| 2612 | break; |
| 2613 | #endif |
| 2614 | |
| 2615 | case CONTROL_NO_MULTILINE: |
| 2616 | no_multiline_responses = TRUE; |
| 2617 | break; |
| 2618 | |
| 2619 | case CONTROL_NO_PIPELINING: |
| 2620 | pipelining_enable = FALSE; |
| 2621 | break; |
| 2622 | |
| 2623 | case CONTROL_NO_DELAY_FLUSH: |
| 2624 | disable_delay_flush = TRUE; |
| 2625 | break; |
| 2626 | |
| 2627 | case CONTROL_NO_CALLOUT_FLUSH: |
| 2628 | disable_callout_flush = TRUE; |
| 2629 | break; |
| 2630 | |
| 2631 | case CONTROL_FAKEDEFER: |
| 2632 | case CONTROL_FAKEREJECT: |
| 2633 | fake_response = (control_type == CONTROL_FAKEDEFER) ? DEFER : FAIL; |
| 2634 | if (*p == '/') |
| 2635 | { |
| 2636 | uschar *pp = p + 1; |
| 2637 | while (*pp != 0) pp++; |
| 2638 | fake_response_text = expand_string(string_copyn(p+1, pp-p-1)); |
| 2639 | p = pp; |
| 2640 | } |
| 2641 | else |
| 2642 | { |
| 2643 | /* Explicitly reset to default string */ |
| 2644 | fake_response_text = US"Your message has been rejected but is being kept for evaluation.\nIf it was a legitimate message, it may still be delivered to the target recipient(s)."; |
| 2645 | } |
| 2646 | break; |
| 2647 | |
| 2648 | case CONTROL_FREEZE: |
| 2649 | deliver_freeze = TRUE; |
| 2650 | deliver_frozen_at = time(NULL); |
| 2651 | freeze_tell = freeze_tell_config; /* Reset to configured value */ |
| 2652 | if (Ustrncmp(p, "/no_tell", 8) == 0) |
| 2653 | { |
| 2654 | p += 8; |
| 2655 | freeze_tell = NULL; |
| 2656 | } |
| 2657 | if (*p != 0) |
| 2658 | { |
| 2659 | *log_msgptr = string_sprintf("syntax error in \"control=%s\"", arg); |
| 2660 | return ERROR; |
| 2661 | } |
| 2662 | break; |
| 2663 | |
| 2664 | case CONTROL_QUEUE_ONLY: |
| 2665 | queue_only_policy = TRUE; |
| 2666 | break; |
| 2667 | |
| 2668 | case CONTROL_SUBMISSION: |
| 2669 | originator_name = US""; |
| 2670 | submission_mode = TRUE; |
| 2671 | while (*p == '/') |
| 2672 | { |
| 2673 | if (Ustrncmp(p, "/sender_retain", 14) == 0) |
| 2674 | { |
| 2675 | p += 14; |
| 2676 | active_local_sender_retain = TRUE; |
| 2677 | active_local_from_check = FALSE; |
| 2678 | } |
| 2679 | else if (Ustrncmp(p, "/domain=", 8) == 0) |
| 2680 | { |
| 2681 | uschar *pp = p + 8; |
| 2682 | while (*pp != 0 && *pp != '/') pp++; |
| 2683 | submission_domain = string_copyn(p+8, pp-p-8); |
| 2684 | p = pp; |
| 2685 | } |
| 2686 | /* The name= option must be last, because it swallows the rest of |
| 2687 | the string. */ |
| 2688 | else if (Ustrncmp(p, "/name=", 6) == 0) |
| 2689 | { |
| 2690 | uschar *pp = p + 6; |
| 2691 | while (*pp != 0) pp++; |
| 2692 | submission_name = string_copy(parse_fix_phrase(p+6, pp-p-6, |
| 2693 | big_buffer, big_buffer_size)); |
| 2694 | p = pp; |
| 2695 | } |
| 2696 | else break; |
| 2697 | } |
| 2698 | if (*p != 0) |
| 2699 | { |
| 2700 | *log_msgptr = string_sprintf("syntax error in \"control=%s\"", arg); |
| 2701 | return ERROR; |
| 2702 | } |
| 2703 | break; |
| 2704 | |
| 2705 | case CONTROL_SUPPRESS_LOCAL_FIXUPS: |
| 2706 | suppress_local_fixups = TRUE; |
| 2707 | break; |
| 2708 | } |
| 2709 | break; |
| 2710 | |
| 2711 | #ifdef EXPERIMENTAL_DCC |
| 2712 | case ACLC_DCC: |
| 2713 | { |
| 2714 | /* Seperate the regular expression and any optional parameters. */ |
| 2715 | uschar *ss = string_nextinlist(&arg, &sep, big_buffer, big_buffer_size); |
| 2716 | /* Run the dcc backend. */ |
| 2717 | rc = dcc_process(&ss); |
| 2718 | /* Modify return code based upon the existance of options. */ |
| 2719 | while ((ss = string_nextinlist(&arg, &sep, big_buffer, big_buffer_size)) |
| 2720 | != NULL) { |
| 2721 | if (strcmpic(ss, US"defer_ok") == 0 && rc == DEFER) |
| 2722 | { |
| 2723 | /* FAIL so that the message is passed to the next ACL */ |
| 2724 | rc = FAIL; |
| 2725 | } |
| 2726 | } |
| 2727 | } |
| 2728 | break; |
| 2729 | #endif |
| 2730 | |
| 2731 | #ifdef WITH_CONTENT_SCAN |
| 2732 | case ACLC_DECODE: |
| 2733 | rc = mime_decode(&arg); |
| 2734 | break; |
| 2735 | #endif |
| 2736 | |
| 2737 | case ACLC_DELAY: |
| 2738 | { |
| 2739 | int delay = readconf_readtime(arg, 0, FALSE); |
| 2740 | if (delay < 0) |
| 2741 | { |
| 2742 | *log_msgptr = string_sprintf("syntax error in argument for \"delay\" " |
| 2743 | "modifier: \"%s\" is not a time value", arg); |
| 2744 | return ERROR; |
| 2745 | } |
| 2746 | else |
| 2747 | { |
| 2748 | HDEBUG(D_acl) debug_printf("delay modifier requests %d-second delay\n", |
| 2749 | delay); |
| 2750 | if (host_checking) |
| 2751 | { |
| 2752 | HDEBUG(D_acl) |
| 2753 | debug_printf("delay skipped in -bh checking mode\n"); |
| 2754 | } |
| 2755 | |
| 2756 | /* It appears to be impossible to detect that a TCP/IP connection has |
| 2757 | gone away without reading from it. This means that we cannot shorten |
| 2758 | the delay below if the client goes away, because we cannot discover |
| 2759 | that the client has closed its end of the connection. (The connection |
| 2760 | is actually in a half-closed state, waiting for the server to close its |
| 2761 | end.) It would be nice to be able to detect this state, so that the |
| 2762 | Exim process is not held up unnecessarily. However, it seems that we |
| 2763 | can't. The poll() function does not do the right thing, and in any case |
| 2764 | it is not always available. |
| 2765 | |
| 2766 | NOTE 1: If ever this state of affairs changes, remember that we may be |
| 2767 | dealing with stdin/stdout here, in addition to TCP/IP connections. |
| 2768 | Also, delays may be specified for non-SMTP input, where smtp_out and |
| 2769 | smtp_in will be NULL. Whatever is done must work in all cases. |
| 2770 | |
| 2771 | NOTE 2: The added feature of flushing the output before a delay must |
| 2772 | apply only to SMTP input. Hence the test for smtp_out being non-NULL. |
| 2773 | */ |
| 2774 | |
| 2775 | else |
| 2776 | { |
| 2777 | if (smtp_out != NULL && !disable_delay_flush) mac_smtp_fflush(); |
| 2778 | while (delay > 0) delay = sleep(delay); |
| 2779 | } |
| 2780 | } |
| 2781 | } |
| 2782 | break; |
| 2783 | |
| 2784 | #ifdef WITH_OLD_DEMIME |
| 2785 | case ACLC_DEMIME: |
| 2786 | rc = demime(&arg); |
| 2787 | break; |
| 2788 | #endif |
| 2789 | |
| 2790 | #ifndef DISABLE_DKIM |
| 2791 | case ACLC_DKIM_SIGNER: |
| 2792 | if (dkim_signing_domain != NULL) |
| 2793 | { |
| 2794 | rc = match_isinlist(dkim_signing_domain, |
| 2795 | &arg,0,NULL,NULL,MCL_STRING,TRUE,NULL); |
| 2796 | if (rc == FAIL) |
| 2797 | { |
| 2798 | rc = match_isinlist(dkim_exim_expand_query(DKIM_IDENTITY), |
| 2799 | &arg,0,NULL,NULL,MCL_STRING,TRUE,NULL); |
| 2800 | } |
| 2801 | } |
| 2802 | else |
| 2803 | { |
| 2804 | rc = FAIL; |
| 2805 | } |
| 2806 | break; |
| 2807 | |
| 2808 | case ACLC_DKIM_STATUS: |
| 2809 | rc = match_isinlist(dkim_exim_expand_query(DKIM_VERIFY_STATUS), |
| 2810 | &arg,0,NULL,NULL,MCL_STRING,TRUE,NULL); |
| 2811 | break; |
| 2812 | #endif |
| 2813 | |
| 2814 | case ACLC_DNSLISTS: |
| 2815 | rc = verify_check_dnsbl(&arg); |
| 2816 | break; |
| 2817 | |
| 2818 | case ACLC_DOMAINS: |
| 2819 | rc = match_isinlist(addr->domain, &arg, 0, &domainlist_anchor, |
| 2820 | addr->domain_cache, MCL_DOMAIN, TRUE, &deliver_domain_data); |
| 2821 | break; |
| 2822 | |
| 2823 | /* The value in tls_cipher is the full cipher name, for example, |
| 2824 | TLSv1:DES-CBC3-SHA:168, whereas the values to test for are just the |
| 2825 | cipher names such as DES-CBC3-SHA. But program defensively. We don't know |
| 2826 | what may in practice come out of the SSL library - which at the time of |
| 2827 | writing is poorly documented. */ |
| 2828 | |
| 2829 | case ACLC_ENCRYPTED: |
| 2830 | if (tls_cipher == NULL) rc = FAIL; else |
| 2831 | { |
| 2832 | uschar *endcipher = NULL; |
| 2833 | uschar *cipher = Ustrchr(tls_cipher, ':'); |
| 2834 | if (cipher == NULL) cipher = tls_cipher; else |
| 2835 | { |
| 2836 | endcipher = Ustrchr(++cipher, ':'); |
| 2837 | if (endcipher != NULL) *endcipher = 0; |
| 2838 | } |
| 2839 | rc = match_isinlist(cipher, &arg, 0, NULL, NULL, MCL_STRING, TRUE, NULL); |
| 2840 | if (endcipher != NULL) *endcipher = ':'; |
| 2841 | } |
| 2842 | break; |
| 2843 | |
| 2844 | /* Use verify_check_this_host() instead of verify_check_host() so that |
| 2845 | we can pass over &host_data to catch any looked up data. Once it has been |
| 2846 | set, it retains its value so that it's still there if another ACL verb |
| 2847 | comes through here and uses the cache. However, we must put it into |
| 2848 | permanent store in case it is also expected to be used in a subsequent |
| 2849 | message in the same SMTP connection. */ |
| 2850 | |
| 2851 | case ACLC_HOSTS: |
| 2852 | rc = verify_check_this_host(&arg, sender_host_cache, NULL, |
| 2853 | (sender_host_address == NULL)? US"" : sender_host_address, &host_data); |
| 2854 | if (host_data != NULL) host_data = string_copy_malloc(host_data); |
| 2855 | break; |
| 2856 | |
| 2857 | case ACLC_LOCAL_PARTS: |
| 2858 | rc = match_isinlist(addr->cc_local_part, &arg, 0, |
| 2859 | &localpartlist_anchor, addr->localpart_cache, MCL_LOCALPART, TRUE, |
| 2860 | &deliver_localpart_data); |
| 2861 | break; |
| 2862 | |
| 2863 | case ACLC_LOG_REJECT_TARGET: |
| 2864 | { |
| 2865 | int logbits = 0; |
| 2866 | int sep = 0; |
| 2867 | uschar *s = arg; |
| 2868 | uschar *ss; |
| 2869 | while ((ss = string_nextinlist(&s, &sep, big_buffer, big_buffer_size)) |
| 2870 | != NULL) |
| 2871 | { |
| 2872 | if (Ustrcmp(ss, "main") == 0) logbits |= LOG_MAIN; |
| 2873 | else if (Ustrcmp(ss, "panic") == 0) logbits |= LOG_PANIC; |
| 2874 | else if (Ustrcmp(ss, "reject") == 0) logbits |= LOG_REJECT; |
| 2875 | else |
| 2876 | { |
| 2877 | logbits |= LOG_MAIN|LOG_REJECT; |
| 2878 | log_write(0, LOG_MAIN|LOG_PANIC, "unknown log name \"%s\" in " |
| 2879 | "\"log_reject_target\" in %s ACL", ss, acl_wherenames[where]); |
| 2880 | } |
| 2881 | } |
| 2882 | log_reject_target = logbits; |
| 2883 | } |
| 2884 | break; |
| 2885 | |
| 2886 | case ACLC_LOGWRITE: |
| 2887 | { |
| 2888 | int logbits = 0; |
| 2889 | uschar *s = arg; |
| 2890 | if (*s == ':') |
| 2891 | { |
| 2892 | s++; |
| 2893 | while (*s != ':') |
| 2894 | { |
| 2895 | if (Ustrncmp(s, "main", 4) == 0) |
| 2896 | { logbits |= LOG_MAIN; s += 4; } |
| 2897 | else if (Ustrncmp(s, "panic", 5) == 0) |
| 2898 | { logbits |= LOG_PANIC; s += 5; } |
| 2899 | else if (Ustrncmp(s, "reject", 6) == 0) |
| 2900 | { logbits |= LOG_REJECT; s += 6; } |
| 2901 | else |
| 2902 | { |
| 2903 | logbits = LOG_MAIN|LOG_PANIC; |
| 2904 | s = string_sprintf(":unknown log name in \"%s\" in " |
| 2905 | "\"logwrite\" in %s ACL", arg, acl_wherenames[where]); |
| 2906 | } |
| 2907 | if (*s == ',') s++; |
| 2908 | } |
| 2909 | s++; |
| 2910 | } |
| 2911 | while (isspace(*s)) s++; |
| 2912 | |
| 2913 | |
| 2914 | if (logbits == 0) logbits = LOG_MAIN; |
| 2915 | log_write(0, logbits, "%s", string_printing(s)); |
| 2916 | } |
| 2917 | break; |
| 2918 | |
| 2919 | #ifdef WITH_CONTENT_SCAN |
| 2920 | case ACLC_MALWARE: |
| 2921 | { |
| 2922 | /* Separate the regular expression and any optional parameters. */ |
| 2923 | uschar *ss = string_nextinlist(&arg, &sep, big_buffer, big_buffer_size); |
| 2924 | /* Run the malware backend. */ |
| 2925 | rc = malware(&ss); |
| 2926 | /* Modify return code based upon the existance of options. */ |
| 2927 | while ((ss = string_nextinlist(&arg, &sep, big_buffer, big_buffer_size)) |
| 2928 | != NULL) { |
| 2929 | if (strcmpic(ss, US"defer_ok") == 0 && rc == DEFER) |
| 2930 | { |
| 2931 | /* FAIL so that the message is passed to the next ACL */ |
| 2932 | rc = FAIL; |
| 2933 | } |
| 2934 | } |
| 2935 | } |
| 2936 | break; |
| 2937 | |
| 2938 | case ACLC_MIME_REGEX: |
| 2939 | rc = mime_regex(&arg); |
| 2940 | break; |
| 2941 | #endif |
| 2942 | |
| 2943 | case ACLC_RATELIMIT: |
| 2944 | rc = acl_ratelimit(arg, where, log_msgptr); |
| 2945 | break; |
| 2946 | |
| 2947 | case ACLC_RECIPIENTS: |
| 2948 | rc = match_address_list(addr->address, TRUE, TRUE, &arg, NULL, -1, 0, |
| 2949 | &recipient_data); |
| 2950 | break; |
| 2951 | |
| 2952 | #ifdef WITH_CONTENT_SCAN |
| 2953 | case ACLC_REGEX: |
| 2954 | rc = regex(&arg); |
| 2955 | break; |
| 2956 | #endif |
| 2957 | |
| 2958 | case ACLC_SENDER_DOMAINS: |
| 2959 | { |
| 2960 | uschar *sdomain; |
| 2961 | sdomain = Ustrrchr(sender_address, '@'); |
| 2962 | sdomain = (sdomain == NULL)? US"" : sdomain + 1; |
| 2963 | rc = match_isinlist(sdomain, &arg, 0, &domainlist_anchor, |
| 2964 | sender_domain_cache, MCL_DOMAIN, TRUE, NULL); |
| 2965 | } |
| 2966 | break; |
| 2967 | |
| 2968 | case ACLC_SENDERS: |
| 2969 | rc = match_address_list(sender_address, TRUE, TRUE, &arg, |
| 2970 | sender_address_cache, -1, 0, &sender_data); |
| 2971 | break; |
| 2972 | |
| 2973 | /* Connection variables must persist forever */ |
| 2974 | |
| 2975 | case ACLC_SET: |
| 2976 | { |
| 2977 | int old_pool = store_pool; |
| 2978 | if (cb->u.varname[0] == 'c') store_pool = POOL_PERM; |
| 2979 | acl_var_create(cb->u.varname)->data.ptr = string_copy(arg); |
| 2980 | store_pool = old_pool; |
| 2981 | } |
| 2982 | break; |
| 2983 | |
| 2984 | #ifdef WITH_CONTENT_SCAN |
| 2985 | case ACLC_SPAM: |
| 2986 | { |
| 2987 | /* Seperate the regular expression and any optional parameters. */ |
| 2988 | uschar *ss = string_nextinlist(&arg, &sep, big_buffer, big_buffer_size); |
| 2989 | /* Run the spam backend. */ |
| 2990 | rc = spam(&ss); |
| 2991 | /* Modify return code based upon the existance of options. */ |
| 2992 | while ((ss = string_nextinlist(&arg, &sep, big_buffer, big_buffer_size)) |
| 2993 | != NULL) { |
| 2994 | if (strcmpic(ss, US"defer_ok") == 0 && rc == DEFER) |
| 2995 | { |
| 2996 | /* FAIL so that the message is passed to the next ACL */ |
| 2997 | rc = FAIL; |
| 2998 | } |
| 2999 | } |
| 3000 | } |
| 3001 | break; |
| 3002 | #endif |
| 3003 | |
| 3004 | #ifdef EXPERIMENTAL_SPF |
| 3005 | case ACLC_SPF: |
| 3006 | rc = spf_process(&arg, sender_address, SPF_PROCESS_NORMAL); |
| 3007 | break; |
| 3008 | case ACLC_SPF_GUESS: |
| 3009 | rc = spf_process(&arg, sender_address, SPF_PROCESS_GUESS); |
| 3010 | break; |
| 3011 | #endif |
| 3012 | |
| 3013 | /* If the verb is WARN, discard any user message from verification, because |
| 3014 | such messages are SMTP responses, not header additions. The latter come |
| 3015 | only from explicit "message" modifiers. However, put the user message into |
| 3016 | $acl_verify_message so it can be used in subsequent conditions or modifiers |
| 3017 | (until something changes it). */ |
| 3018 | |
| 3019 | case ACLC_VERIFY: |
| 3020 | rc = acl_verify(where, addr, arg, user_msgptr, log_msgptr, basic_errno); |
| 3021 | acl_verify_message = *user_msgptr; |
| 3022 | if (verb == ACL_WARN) *user_msgptr = NULL; |
| 3023 | break; |
| 3024 | |
| 3025 | default: |
| 3026 | log_write(0, LOG_MAIN|LOG_PANIC_DIE, "internal ACL error: unknown " |
| 3027 | "condition %d", cb->type); |
| 3028 | break; |
| 3029 | } |
| 3030 | |
| 3031 | /* If a condition was negated, invert OK/FAIL. */ |
| 3032 | |
| 3033 | if (!cond_modifiers[cb->type] && cb->u.negated) |
| 3034 | { |
| 3035 | if (rc == OK) rc = FAIL; |
| 3036 | else if (rc == FAIL || rc == FAIL_DROP) rc = OK; |
| 3037 | } |
| 3038 | |
| 3039 | if (rc != OK) break; /* Conditions loop */ |
| 3040 | } |
| 3041 | |
| 3042 | |
| 3043 | /* If the result is the one for which "message" and/or "log_message" are used, |
| 3044 | handle the values of these modifiers. If there isn't a log message set, we make |
| 3045 | it the same as the user message. |
| 3046 | |
| 3047 | "message" is a user message that will be included in an SMTP response. Unless |
| 3048 | it is empty, it overrides any previously set user message. |
| 3049 | |
| 3050 | "log_message" is a non-user message, and it adds to any existing non-user |
| 3051 | message that is already set. |
| 3052 | |
| 3053 | Most verbs have but a single return for which the messages are relevant, but |
| 3054 | for "discard", it's useful to have the log message both when it succeeds and |
| 3055 | when it fails. For "accept", the message is used in the OK case if there is no |
| 3056 | "endpass", but (for backwards compatibility) in the FAIL case if "endpass" is |
| 3057 | present. */ |
| 3058 | |
| 3059 | if (*epp && rc == OK) user_message = NULL; |
| 3060 | |
| 3061 | if (((1<<rc) & msgcond[verb]) != 0) |
| 3062 | { |
| 3063 | uschar *expmessage; |
| 3064 | uschar *old_user_msgptr = *user_msgptr; |
| 3065 | uschar *old_log_msgptr = (*log_msgptr != NULL)? *log_msgptr : old_user_msgptr; |
| 3066 | |
| 3067 | /* If the verb is "warn", messages generated by conditions (verification or |
| 3068 | nested ACLs) are always discarded. This also happens for acceptance verbs |
| 3069 | when they actually do accept. Only messages specified at this level are used. |
| 3070 | However, the value of an existing message is available in $acl_verify_message |
| 3071 | during expansions. */ |
| 3072 | |
| 3073 | if (verb == ACL_WARN || |
| 3074 | (rc == OK && (verb == ACL_ACCEPT || verb == ACL_DISCARD))) |
| 3075 | *log_msgptr = *user_msgptr = NULL; |
| 3076 | |
| 3077 | if (user_message != NULL) |
| 3078 | { |
| 3079 | acl_verify_message = old_user_msgptr; |
| 3080 | expmessage = expand_string(user_message); |
| 3081 | if (expmessage == NULL) |
| 3082 | { |
| 3083 | if (!expand_string_forcedfail) |
| 3084 | log_write(0, LOG_MAIN|LOG_PANIC, "failed to expand ACL message \"%s\": %s", |
| 3085 | user_message, expand_string_message); |
| 3086 | } |
| 3087 | else if (expmessage[0] != 0) *user_msgptr = expmessage; |
| 3088 | } |
| 3089 | |
| 3090 | if (log_message != NULL) |
| 3091 | { |
| 3092 | acl_verify_message = old_log_msgptr; |
| 3093 | expmessage = expand_string(log_message); |
| 3094 | if (expmessage == NULL) |
| 3095 | { |
| 3096 | if (!expand_string_forcedfail) |
| 3097 | log_write(0, LOG_MAIN|LOG_PANIC, "failed to expand ACL message \"%s\": %s", |
| 3098 | log_message, expand_string_message); |
| 3099 | } |
| 3100 | else if (expmessage[0] != 0) |
| 3101 | { |
| 3102 | *log_msgptr = (*log_msgptr == NULL)? expmessage : |
| 3103 | string_sprintf("%s: %s", expmessage, *log_msgptr); |
| 3104 | } |
| 3105 | } |
| 3106 | |
| 3107 | /* If no log message, default it to the user message */ |
| 3108 | |
| 3109 | if (*log_msgptr == NULL) *log_msgptr = *user_msgptr; |
| 3110 | } |
| 3111 | |
| 3112 | acl_verify_message = NULL; |
| 3113 | return rc; |
| 3114 | } |
| 3115 | |
| 3116 | |
| 3117 | |
| 3118 | |
| 3119 | |
| 3120 | /************************************************* |
| 3121 | * Get line from a literal ACL * |
| 3122 | *************************************************/ |
| 3123 | |
| 3124 | /* This function is passed to acl_read() in order to extract individual lines |
| 3125 | of a literal ACL, which we access via static pointers. We can destroy the |
| 3126 | contents because this is called only once (the compiled ACL is remembered). |
| 3127 | |
| 3128 | This code is intended to treat the data in the same way as lines in the main |
| 3129 | Exim configuration file. That is: |
| 3130 | |
| 3131 | . Leading spaces are ignored. |
| 3132 | |
| 3133 | . A \ at the end of a line is a continuation - trailing spaces after the \ |
| 3134 | are permitted (this is because I don't believe in making invisible things |
| 3135 | significant). Leading spaces on the continued part of a line are ignored. |
| 3136 | |
| 3137 | . Physical lines starting (significantly) with # are totally ignored, and |
| 3138 | may appear within a sequence of backslash-continued lines. |
| 3139 | |
| 3140 | . Blank lines are ignored, but will end a sequence of continuations. |
| 3141 | |
| 3142 | Arguments: none |
| 3143 | Returns: a pointer to the next line |
| 3144 | */ |
| 3145 | |
| 3146 | |
| 3147 | static uschar *acl_text; /* Current pointer in the text */ |
| 3148 | static uschar *acl_text_end; /* Points one past the terminating '0' */ |
| 3149 | |
| 3150 | |
| 3151 | static uschar * |
| 3152 | acl_getline(void) |
| 3153 | { |
| 3154 | uschar *yield; |
| 3155 | |
| 3156 | /* This loop handles leading blank lines and comments. */ |
| 3157 | |
| 3158 | for(;;) |
| 3159 | { |
| 3160 | while (isspace(*acl_text)) acl_text++; /* Leading spaces/empty lines */ |
| 3161 | if (*acl_text == 0) return NULL; /* No more data */ |
| 3162 | yield = acl_text; /* Potential data line */ |
| 3163 | |
| 3164 | while (*acl_text != 0 && *acl_text != '\n') acl_text++; |
| 3165 | |
| 3166 | /* If we hit the end before a newline, we have the whole logical line. If |
| 3167 | it's a comment, there's no more data to be given. Otherwise, yield it. */ |
| 3168 | |
| 3169 | if (*acl_text == 0) return (*yield == '#')? NULL : yield; |
| 3170 | |
| 3171 | /* After reaching a newline, end this loop if the physical line does not |
| 3172 | start with '#'. If it does, it's a comment, and the loop continues. */ |
| 3173 | |
| 3174 | if (*yield != '#') break; |
| 3175 | } |
| 3176 | |
| 3177 | /* This loop handles continuations. We know we have some real data, ending in |
| 3178 | newline. See if there is a continuation marker at the end (ignoring trailing |
| 3179 | white space). We know that *yield is not white space, so no need to test for |
| 3180 | cont > yield in the backwards scanning loop. */ |
| 3181 | |
| 3182 | for(;;) |
| 3183 | { |
| 3184 | uschar *cont; |
| 3185 | for (cont = acl_text - 1; isspace(*cont); cont--); |
| 3186 | |
| 3187 | /* If no continuation follows, we are done. Mark the end of the line and |
| 3188 | return it. */ |
| 3189 | |
| 3190 | if (*cont != '\\') |
| 3191 | { |
| 3192 | *acl_text++ = 0; |
| 3193 | return yield; |
| 3194 | } |
| 3195 | |
| 3196 | /* We have encountered a continuation. Skip over whitespace at the start of |
| 3197 | the next line, and indeed the whole of the next line or lines if they are |
| 3198 | comment lines. */ |
| 3199 | |
| 3200 | for (;;) |
| 3201 | { |
| 3202 | while (*(++acl_text) == ' ' || *acl_text == '\t'); |
| 3203 | if (*acl_text != '#') break; |
| 3204 | while (*(++acl_text) != 0 && *acl_text != '\n'); |
| 3205 | } |
| 3206 | |
| 3207 | /* We have the start of a continuation line. Move all the rest of the data |
| 3208 | to join onto the previous line, and then find its end. If the end is not a |
| 3209 | newline, we are done. Otherwise loop to look for another continuation. */ |
| 3210 | |
| 3211 | memmove(cont, acl_text, acl_text_end - acl_text); |
| 3212 | acl_text_end -= acl_text - cont; |
| 3213 | acl_text = cont; |
| 3214 | while (*acl_text != 0 && *acl_text != '\n') acl_text++; |
| 3215 | if (*acl_text == 0) return yield; |
| 3216 | } |
| 3217 | |
| 3218 | /* Control does not reach here */ |
| 3219 | } |
| 3220 | |
| 3221 | |
| 3222 | |
| 3223 | |
| 3224 | |
| 3225 | /************************************************* |
| 3226 | * Check access using an ACL * |
| 3227 | *************************************************/ |
| 3228 | |
| 3229 | /* This function is called from address_check. It may recurse via |
| 3230 | acl_check_condition() - hence the use of a level to stop looping. The ACL is |
| 3231 | passed as a string which is expanded. A forced failure implies no access check |
| 3232 | is required. If the result is a single word, it is taken as the name of an ACL |
| 3233 | which is sought in the global ACL tree. Otherwise, it is taken as literal ACL |
| 3234 | text, complete with newlines, and parsed as such. In both cases, the ACL check |
| 3235 | is then run. This function uses an auxiliary function for acl_read() to call |
| 3236 | for reading individual lines of a literal ACL. This is acl_getline(), which |
| 3237 | appears immediately above. |
| 3238 | |
| 3239 | Arguments: |
| 3240 | where where called from |
| 3241 | addr address item when called from RCPT; otherwise NULL |
| 3242 | s the input string; NULL is the same as an empty ACL => DENY |
| 3243 | level the nesting level |
| 3244 | user_msgptr where to put a user error (for SMTP response) |
| 3245 | log_msgptr where to put a logging message (not for SMTP response) |
| 3246 | |
| 3247 | Returns: OK access is granted |
| 3248 | DISCARD access is apparently granted... |
| 3249 | FAIL access is denied |
| 3250 | FAIL_DROP access is denied; drop the connection |
| 3251 | DEFER can't tell at the moment |
| 3252 | ERROR disaster |
| 3253 | */ |
| 3254 | |
| 3255 | static int |
| 3256 | acl_check_internal(int where, address_item *addr, uschar *s, int level, |
| 3257 | uschar **user_msgptr, uschar **log_msgptr) |
| 3258 | { |
| 3259 | int fd = -1; |
| 3260 | acl_block *acl = NULL; |
| 3261 | uschar *acl_name = US"inline ACL"; |
| 3262 | uschar *ss; |
| 3263 | |
| 3264 | /* Catch configuration loops */ |
| 3265 | |
| 3266 | if (level > 20) |
| 3267 | { |
| 3268 | *log_msgptr = US"ACL nested too deep: possible loop"; |
| 3269 | return ERROR; |
| 3270 | } |
| 3271 | |
| 3272 | if (s == NULL) |
| 3273 | { |
| 3274 | HDEBUG(D_acl) debug_printf("ACL is NULL: implicit DENY\n"); |
| 3275 | return FAIL; |
| 3276 | } |
| 3277 | |
| 3278 | /* At top level, we expand the incoming string. At lower levels, it has already |
| 3279 | been expanded as part of condition processing. */ |
| 3280 | |
| 3281 | if (level == 0) |
| 3282 | { |
| 3283 | ss = expand_string(s); |
| 3284 | if (ss == NULL) |
| 3285 | { |
| 3286 | if (expand_string_forcedfail) return OK; |
| 3287 | *log_msgptr = string_sprintf("failed to expand ACL string \"%s\": %s", s, |
| 3288 | expand_string_message); |
| 3289 | return ERROR; |
| 3290 | } |
| 3291 | } |
| 3292 | else ss = s; |
| 3293 | |
| 3294 | while (isspace(*ss))ss++; |
| 3295 | |
| 3296 | /* If we can't find a named ACL, the default is to parse it as an inline one. |
| 3297 | (Unless it begins with a slash; non-existent files give rise to an error.) */ |
| 3298 | |
| 3299 | acl_text = ss; |
| 3300 | |
| 3301 | /* Handle the case of a string that does not contain any spaces. Look for a |
| 3302 | named ACL among those read from the configuration, or a previously read file. |
| 3303 | It is possible that the pointer to the ACL is NULL if the configuration |
| 3304 | contains a name with no data. If not found, and the text begins with '/', |
| 3305 | read an ACL from a file, and save it so it can be re-used. */ |
| 3306 | |
| 3307 | if (Ustrchr(ss, ' ') == NULL) |
| 3308 | { |
| 3309 | tree_node *t = tree_search(acl_anchor, ss); |
| 3310 | if (t != NULL) |
| 3311 | { |
| 3312 | acl = (acl_block *)(t->data.ptr); |
| 3313 | if (acl == NULL) |
| 3314 | { |
| 3315 | HDEBUG(D_acl) debug_printf("ACL \"%s\" is empty: implicit DENY\n", ss); |
| 3316 | return FAIL; |
| 3317 | } |
| 3318 | acl_name = string_sprintf("ACL \"%s\"", ss); |
| 3319 | HDEBUG(D_acl) debug_printf("using ACL \"%s\"\n", ss); |
| 3320 | } |
| 3321 | |
| 3322 | else if (*ss == '/') |
| 3323 | { |
| 3324 | struct stat statbuf; |
| 3325 | fd = Uopen(ss, O_RDONLY, 0); |
| 3326 | if (fd < 0) |
| 3327 | { |
| 3328 | *log_msgptr = string_sprintf("failed to open ACL file \"%s\": %s", ss, |
| 3329 | strerror(errno)); |
| 3330 | return ERROR; |
| 3331 | } |
| 3332 | |
| 3333 | if (fstat(fd, &statbuf) != 0) |
| 3334 | { |
| 3335 | *log_msgptr = string_sprintf("failed to fstat ACL file \"%s\": %s", ss, |
| 3336 | strerror(errno)); |
| 3337 | return ERROR; |
| 3338 | } |
| 3339 | |
| 3340 | acl_text = store_get(statbuf.st_size + 1); |
| 3341 | acl_text_end = acl_text + statbuf.st_size + 1; |
| 3342 | |
| 3343 | if (read(fd, acl_text, statbuf.st_size) != statbuf.st_size) |
| 3344 | { |
| 3345 | *log_msgptr = string_sprintf("failed to read ACL file \"%s\": %s", |
| 3346 | ss, strerror(errno)); |
| 3347 | return ERROR; |
| 3348 | } |
| 3349 | acl_text[statbuf.st_size] = 0; |
| 3350 | (void)close(fd); |
| 3351 | |
| 3352 | acl_name = string_sprintf("ACL \"%s\"", ss); |
| 3353 | HDEBUG(D_acl) debug_printf("read ACL from file %s\n", ss); |
| 3354 | } |
| 3355 | } |
| 3356 | |
| 3357 | /* Parse an ACL that is still in text form. If it came from a file, remember it |
| 3358 | in the ACL tree, having read it into the POOL_PERM store pool so that it |
| 3359 | persists between multiple messages. */ |
| 3360 | |
| 3361 | if (acl == NULL) |
| 3362 | { |
| 3363 | int old_pool = store_pool; |
| 3364 | if (fd >= 0) store_pool = POOL_PERM; |
| 3365 | acl = acl_read(acl_getline, log_msgptr); |
| 3366 | store_pool = old_pool; |
| 3367 | if (acl == NULL && *log_msgptr != NULL) return ERROR; |
| 3368 | if (fd >= 0) |
| 3369 | { |
| 3370 | tree_node *t = store_get_perm(sizeof(tree_node) + Ustrlen(ss)); |
| 3371 | Ustrcpy(t->name, ss); |
| 3372 | t->data.ptr = acl; |
| 3373 | (void)tree_insertnode(&acl_anchor, t); |
| 3374 | } |
| 3375 | } |
| 3376 | |
| 3377 | /* Now we have an ACL to use. It's possible it may be NULL. */ |
| 3378 | |
| 3379 | while (acl != NULL) |
| 3380 | { |
| 3381 | int cond; |
| 3382 | int basic_errno = 0; |
| 3383 | BOOL endpass_seen = FALSE; |
| 3384 | |
| 3385 | *log_msgptr = *user_msgptr = NULL; |
| 3386 | acl_temp_details = FALSE; |
| 3387 | |
| 3388 | if ((where == ACL_WHERE_QUIT || where == ACL_WHERE_NOTQUIT) && |
| 3389 | acl->verb != ACL_ACCEPT && |
| 3390 | acl->verb != ACL_WARN) |
| 3391 | { |
| 3392 | *log_msgptr = string_sprintf("\"%s\" is not allowed in a QUIT or not-QUIT ACL", |
| 3393 | verbs[acl->verb]); |
| 3394 | return ERROR; |
| 3395 | } |
| 3396 | |
| 3397 | HDEBUG(D_acl) debug_printf("processing \"%s\"\n", verbs[acl->verb]); |
| 3398 | |
| 3399 | /* Clear out any search error message from a previous check before testing |
| 3400 | this condition. */ |
| 3401 | |
| 3402 | search_error_message = NULL; |
| 3403 | cond = acl_check_condition(acl->verb, acl->condition, where, addr, level, |
| 3404 | &endpass_seen, user_msgptr, log_msgptr, &basic_errno); |
| 3405 | |
| 3406 | /* Handle special returns: DEFER causes a return except on a WARN verb; |
| 3407 | ERROR always causes a return. */ |
| 3408 | |
| 3409 | switch (cond) |
| 3410 | { |
| 3411 | case DEFER: |
| 3412 | HDEBUG(D_acl) debug_printf("%s: condition test deferred\n", verbs[acl->verb]); |
| 3413 | if (basic_errno != ERRNO_CALLOUTDEFER) |
| 3414 | { |
| 3415 | if (search_error_message != NULL && *search_error_message != 0) |
| 3416 | *log_msgptr = search_error_message; |
| 3417 | if (smtp_return_error_details) acl_temp_details = TRUE; |
| 3418 | } |
| 3419 | else |
| 3420 | { |
| 3421 | acl_temp_details = TRUE; |
| 3422 | } |
| 3423 | if (acl->verb != ACL_WARN) return DEFER; |
| 3424 | break; |
| 3425 | |
| 3426 | default: /* Paranoia */ |
| 3427 | case ERROR: |
| 3428 | HDEBUG(D_acl) debug_printf("%s: condition test error\n", verbs[acl->verb]); |
| 3429 | return ERROR; |
| 3430 | |
| 3431 | case OK: |
| 3432 | HDEBUG(D_acl) debug_printf("%s: condition test succeeded\n", |
| 3433 | verbs[acl->verb]); |
| 3434 | break; |
| 3435 | |
| 3436 | case FAIL: |
| 3437 | HDEBUG(D_acl) debug_printf("%s: condition test failed\n", verbs[acl->verb]); |
| 3438 | break; |
| 3439 | |
| 3440 | /* DISCARD and DROP can happen only from a nested ACL condition, and |
| 3441 | DISCARD can happen only for an "accept" or "discard" verb. */ |
| 3442 | |
| 3443 | case DISCARD: |
| 3444 | HDEBUG(D_acl) debug_printf("%s: condition test yielded \"discard\"\n", |
| 3445 | verbs[acl->verb]); |
| 3446 | break; |
| 3447 | |
| 3448 | case FAIL_DROP: |
| 3449 | HDEBUG(D_acl) debug_printf("%s: condition test yielded \"drop\"\n", |
| 3450 | verbs[acl->verb]); |
| 3451 | break; |
| 3452 | } |
| 3453 | |
| 3454 | /* At this point, cond for most verbs is either OK or FAIL or (as a result of |
| 3455 | a nested ACL condition) FAIL_DROP. However, for WARN, cond may be DEFER, and |
| 3456 | for ACCEPT and DISCARD, it may be DISCARD after a nested ACL call. */ |
| 3457 | |
| 3458 | switch(acl->verb) |
| 3459 | { |
| 3460 | case ACL_ACCEPT: |
| 3461 | if (cond == OK || cond == DISCARD) return cond; |
| 3462 | if (endpass_seen) |
| 3463 | { |
| 3464 | HDEBUG(D_acl) debug_printf("accept: endpass encountered - denying access\n"); |
| 3465 | return cond; |
| 3466 | } |
| 3467 | break; |
| 3468 | |
| 3469 | case ACL_DEFER: |
| 3470 | if (cond == OK) |
| 3471 | { |
| 3472 | acl_temp_details = TRUE; |
| 3473 | return DEFER; |
| 3474 | } |
| 3475 | break; |
| 3476 | |
| 3477 | case ACL_DENY: |
| 3478 | if (cond == OK) return FAIL; |
| 3479 | break; |
| 3480 | |
| 3481 | case ACL_DISCARD: |
| 3482 | if (cond == OK || cond == DISCARD) return DISCARD; |
| 3483 | if (endpass_seen) |
| 3484 | { |
| 3485 | HDEBUG(D_acl) debug_printf("discard: endpass encountered - denying access\n"); |
| 3486 | return cond; |
| 3487 | } |
| 3488 | break; |
| 3489 | |
| 3490 | case ACL_DROP: |
| 3491 | if (cond == OK) return FAIL_DROP; |
| 3492 | break; |
| 3493 | |
| 3494 | case ACL_REQUIRE: |
| 3495 | if (cond != OK) return cond; |
| 3496 | break; |
| 3497 | |
| 3498 | case ACL_WARN: |
| 3499 | if (cond == OK) |
| 3500 | acl_warn(where, *user_msgptr, *log_msgptr); |
| 3501 | else if (cond == DEFER && (log_extra_selector & LX_acl_warn_skipped) != 0) |
| 3502 | log_write(0, LOG_MAIN, "%s Warning: ACL \"warn\" statement skipped: " |
| 3503 | "condition test deferred%s%s", host_and_ident(TRUE), |
| 3504 | (*log_msgptr == NULL)? US"" : US": ", |
| 3505 | (*log_msgptr == NULL)? US"" : *log_msgptr); |
| 3506 | *log_msgptr = *user_msgptr = NULL; /* In case implicit DENY follows */ |
| 3507 | break; |
| 3508 | |
| 3509 | default: |
| 3510 | log_write(0, LOG_MAIN|LOG_PANIC_DIE, "internal ACL error: unknown verb %d", |
| 3511 | acl->verb); |
| 3512 | break; |
| 3513 | } |
| 3514 | |
| 3515 | /* Pass to the next ACL item */ |
| 3516 | |
| 3517 | acl = acl->next; |
| 3518 | } |
| 3519 | |
| 3520 | /* We have reached the end of the ACL. This is an implicit DENY. */ |
| 3521 | |
| 3522 | HDEBUG(D_acl) debug_printf("end of %s: implicit DENY\n", acl_name); |
| 3523 | return FAIL; |
| 3524 | } |
| 3525 | |
| 3526 | |
| 3527 | /************************************************* |
| 3528 | * Check access using an ACL * |
| 3529 | *************************************************/ |
| 3530 | |
| 3531 | /* This is the external interface for ACL checks. It sets up an address and the |
| 3532 | expansions for $domain and $local_part when called after RCPT, then calls |
| 3533 | acl_check_internal() to do the actual work. |
| 3534 | |
| 3535 | Arguments: |
| 3536 | where ACL_WHERE_xxxx indicating where called from |
| 3537 | recipient RCPT address for RCPT check, else NULL |
| 3538 | s the input string; NULL is the same as an empty ACL => DENY |
| 3539 | user_msgptr where to put a user error (for SMTP response) |
| 3540 | log_msgptr where to put a logging message (not for SMTP response) |
| 3541 | |
| 3542 | Returns: OK access is granted by an ACCEPT verb |
| 3543 | DISCARD access is granted by a DISCARD verb |
| 3544 | FAIL access is denied |
| 3545 | FAIL_DROP access is denied; drop the connection |
| 3546 | DEFER can't tell at the moment |
| 3547 | ERROR disaster |
| 3548 | */ |
| 3549 | |
| 3550 | int |
| 3551 | acl_check(int where, uschar *recipient, uschar *s, uschar **user_msgptr, |
| 3552 | uschar **log_msgptr) |
| 3553 | { |
| 3554 | int rc; |
| 3555 | address_item adb; |
| 3556 | address_item *addr = NULL; |
| 3557 | |
| 3558 | *user_msgptr = *log_msgptr = NULL; |
| 3559 | sender_verified_failed = NULL; |
| 3560 | ratelimiters_cmd = NULL; |
| 3561 | log_reject_target = LOG_MAIN|LOG_REJECT; |
| 3562 | |
| 3563 | if (where == ACL_WHERE_RCPT) |
| 3564 | { |
| 3565 | adb = address_defaults; |
| 3566 | addr = &adb; |
| 3567 | addr->address = recipient; |
| 3568 | if (deliver_split_address(addr) == DEFER) |
| 3569 | { |
| 3570 | *log_msgptr = US"defer in percent_hack_domains check"; |
| 3571 | return DEFER; |
| 3572 | } |
| 3573 | deliver_domain = addr->domain; |
| 3574 | deliver_localpart = addr->local_part; |
| 3575 | } |
| 3576 | |
| 3577 | rc = acl_check_internal(where, addr, s, 0, user_msgptr, log_msgptr); |
| 3578 | |
| 3579 | deliver_domain = deliver_localpart = deliver_address_data = |
| 3580 | sender_address_data = NULL; |
| 3581 | |
| 3582 | /* A DISCARD response is permitted only for message ACLs, excluding the PREDATA |
| 3583 | ACL, which is really in the middle of an SMTP command. */ |
| 3584 | |
| 3585 | if (rc == DISCARD) |
| 3586 | { |
| 3587 | if (where > ACL_WHERE_NOTSMTP || where == ACL_WHERE_PREDATA) |
| 3588 | { |
| 3589 | log_write(0, LOG_MAIN|LOG_PANIC, "\"discard\" verb not allowed in %s " |
| 3590 | "ACL", acl_wherenames[where]); |
| 3591 | return ERROR; |
| 3592 | } |
| 3593 | return DISCARD; |
| 3594 | } |
| 3595 | |
| 3596 | /* A DROP response is not permitted from MAILAUTH */ |
| 3597 | |
| 3598 | if (rc == FAIL_DROP && where == ACL_WHERE_MAILAUTH) |
| 3599 | { |
| 3600 | log_write(0, LOG_MAIN|LOG_PANIC, "\"drop\" verb not allowed in %s " |
| 3601 | "ACL", acl_wherenames[where]); |
| 3602 | return ERROR; |
| 3603 | } |
| 3604 | |
| 3605 | /* Before giving a response, take a look at the length of any user message, and |
| 3606 | split it up into multiple lines if possible. */ |
| 3607 | |
| 3608 | *user_msgptr = string_split_message(*user_msgptr); |
| 3609 | if (fake_response != OK) |
| 3610 | fake_response_text = string_split_message(fake_response_text); |
| 3611 | |
| 3612 | return rc; |
| 3613 | } |
| 3614 | |
| 3615 | |
| 3616 | |
| 3617 | /************************************************* |
| 3618 | * Create ACL variable * |
| 3619 | *************************************************/ |
| 3620 | |
| 3621 | /* Create an ACL variable or reuse an existing one. ACL variables are in a |
| 3622 | binary tree (see tree.c) with acl_var_c and acl_var_m as root nodes. |
| 3623 | |
| 3624 | Argument: |
| 3625 | name pointer to the variable's name, starting with c or m |
| 3626 | |
| 3627 | Returns the pointer to variable's tree node |
| 3628 | */ |
| 3629 | |
| 3630 | tree_node * |
| 3631 | acl_var_create(uschar *name) |
| 3632 | { |
| 3633 | tree_node *node, **root; |
| 3634 | root = (name[0] == 'c')? &acl_var_c : &acl_var_m; |
| 3635 | node = tree_search(*root, name); |
| 3636 | if (node == NULL) |
| 3637 | { |
| 3638 | node = store_get(sizeof(tree_node) + Ustrlen(name)); |
| 3639 | Ustrcpy(node->name, name); |
| 3640 | (void)tree_insertnode(root, node); |
| 3641 | } |
| 3642 | node->data.ptr = NULL; |
| 3643 | return node; |
| 3644 | } |
| 3645 | |
| 3646 | |
| 3647 | |
| 3648 | /************************************************* |
| 3649 | * Write an ACL variable in spool format * |
| 3650 | *************************************************/ |
| 3651 | |
| 3652 | /* This function is used as a callback for tree_walk when writing variables to |
| 3653 | the spool file. To retain spool file compatibility, what is written is -aclc or |
| 3654 | -aclm followed by the rest of the name and the data length, space separated, |
| 3655 | then the value itself, starting on a new line, and terminated by an additional |
| 3656 | newline. When we had only numbered ACL variables, the first line might look |
| 3657 | like this: "-aclc 5 20". Now it might be "-aclc foo 20" for the variable called |
| 3658 | acl_cfoo. |
| 3659 | |
| 3660 | Arguments: |
| 3661 | name of the variable |
| 3662 | value of the variable |
| 3663 | ctx FILE pointer (as a void pointer) |
| 3664 | |
| 3665 | Returns: nothing |
| 3666 | */ |
| 3667 | |
| 3668 | void |
| 3669 | acl_var_write(uschar *name, uschar *value, void *ctx) |
| 3670 | { |
| 3671 | FILE *f = (FILE *)ctx; |
| 3672 | fprintf(f, "-acl%c %s %d\n%s\n", name[0], name+1, Ustrlen(value), value); |
| 3673 | } |
| 3674 | |
| 3675 | /* End of acl.c */ |