gpgv.cc 16 KB

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  1. #include <config.h>
  2. #include <apt-pkg/configuration.h>
  3. #include <apt-pkg/error.h>
  4. #include <apt-pkg/gpgv.h>
  5. #include <apt-pkg/strutl.h>
  6. #include <apt-pkg/fileutl.h>
  7. #include "aptmethod.h"
  8. #include <ctype.h>
  9. #include <errno.h>
  10. #include <stddef.h>
  11. #include <stdio.h>
  12. #include <stdlib.h>
  13. #include <string.h>
  14. #include <sys/wait.h>
  15. #include <unistd.h>
  16. #include <array>
  17. #include <algorithm>
  18. #include <sstream>
  19. #include <iterator>
  20. #include <iostream>
  21. #include <string>
  22. #include <vector>
  23. #include <apti18n.h>
  24. using std::string;
  25. using std::vector;
  26. #define GNUPGPREFIX "[GNUPG:]"
  27. #define GNUPGBADSIG "[GNUPG:] BADSIG"
  28. #define GNUPGERRSIG "[GNUPG:] ERRSIG"
  29. #define GNUPGNOPUBKEY "[GNUPG:] NO_PUBKEY"
  30. #define GNUPGVALIDSIG "[GNUPG:] VALIDSIG"
  31. #define GNUPGGOODSIG "[GNUPG:] GOODSIG"
  32. #define GNUPGEXPKEYSIG "[GNUPG:] EXPKEYSIG"
  33. #define GNUPGEXPSIG "[GNUPG:] EXPSIG"
  34. #define GNUPGREVKEYSIG "[GNUPG:] REVKEYSIG"
  35. #define GNUPGNODATA "[GNUPG:] NODATA"
  36. #define APTKEYWARNING "[APTKEY:] WARNING"
  37. struct Digest {
  38. enum class State {
  39. Untrusted,
  40. Weak,
  41. Trusted,
  42. } state;
  43. char name[32];
  44. State getState() const {
  45. std::string optionUntrusted;
  46. std::string optionWeak;
  47. strprintf(optionUntrusted, "APT::Hashes::%s::Untrusted", name);
  48. strprintf(optionWeak, "APT::Hashes::%s::Weak", name);
  49. if (_config->FindB(optionUntrusted, state == State::Untrusted) == true)
  50. return State::Untrusted;
  51. if (_config->FindB(optionWeak, state == State::Weak) == true)
  52. return State::Weak;
  53. return state;
  54. }
  55. };
  56. static constexpr Digest Digests[] = {
  57. {Digest::State::Untrusted, "Invalid digest"},
  58. {Digest::State::Untrusted, "MD5"},
  59. {Digest::State::Weak, "SHA1"},
  60. {Digest::State::Weak, "RIPE-MD/160"},
  61. {Digest::State::Trusted, "Reserved digest"},
  62. {Digest::State::Trusted, "Reserved digest"},
  63. {Digest::State::Trusted, "Reserved digest"},
  64. {Digest::State::Trusted, "Reserved digest"},
  65. {Digest::State::Trusted, "SHA256"},
  66. {Digest::State::Trusted, "SHA384"},
  67. {Digest::State::Trusted, "SHA512"},
  68. {Digest::State::Trusted, "SHA224"},
  69. };
  70. static Digest FindDigest(std::string const & Digest)
  71. {
  72. int id = atoi(Digest.c_str());
  73. if (id >= 0 && static_cast<unsigned>(id) < _count(Digests)) {
  74. return Digests[id];
  75. } else {
  76. return Digests[0];
  77. }
  78. }
  79. struct Signer {
  80. std::string key;
  81. std::string note;
  82. };
  83. static bool IsTheSameKey(std::string const &validsig, std::string const &goodsig) {
  84. // VALIDSIG reports a keyid (40 = 24 + 16), GOODSIG is a longid (16) only
  85. return validsig.compare(24, 16, goodsig, strlen("GOODSIG "), 16) == 0;
  86. }
  87. class GPGVMethod : public aptMethod
  88. {
  89. private:
  90. string VerifyGetSigners(const char *file, const char *outfile,
  91. std::string const &key,
  92. vector<string> &GoodSigners,
  93. vector<string> &BadSigners,
  94. vector<string> &WorthlessSigners,
  95. vector<Signer> &SoonWorthlessSigners,
  96. vector<string> &NoPubKeySigners);
  97. protected:
  98. virtual bool URIAcquire(std::string const &Message, FetchItem *Itm) APT_OVERRIDE;
  99. public:
  100. GPGVMethod() : aptMethod("gpgv","1.0",SingleInstance | SendConfig) {};
  101. };
  102. static void PushEntryWithKeyID(std::vector<std::string> &Signers, char * const buffer, bool const Debug)
  103. {
  104. char * const msg = buffer + sizeof(GNUPGPREFIX);
  105. char *p = msg;
  106. // skip the message
  107. while (*p && !isspace(*p))
  108. ++p;
  109. // skip the seperator whitespace
  110. ++p;
  111. // skip the hexdigit fingerprint
  112. while (*p && isxdigit(*p))
  113. ++p;
  114. // cut the rest from the message
  115. *p = '\0';
  116. if (Debug == true)
  117. std::clog << "Got " << msg << " !" << std::endl;
  118. Signers.push_back(msg);
  119. }
  120. static void PushEntryWithUID(std::vector<std::string> &Signers, char * const buffer, bool const Debug)
  121. {
  122. std::string msg = buffer + sizeof(GNUPGPREFIX);
  123. auto const nuke = msg.find_last_not_of("\n\t\r");
  124. if (nuke != std::string::npos)
  125. msg.erase(nuke + 1);
  126. if (Debug == true)
  127. std::clog << "Got " << msg << " !" << std::endl;
  128. Signers.push_back(msg);
  129. }
  130. string GPGVMethod::VerifyGetSigners(const char *file, const char *outfile,
  131. std::string const &key,
  132. vector<string> &GoodSigners,
  133. vector<string> &BadSigners,
  134. vector<string> &WorthlessSigners,
  135. vector<Signer> &SoonWorthlessSigners,
  136. vector<string> &NoPubKeySigners)
  137. {
  138. bool const Debug = DebugEnabled();
  139. if (Debug == true)
  140. std::clog << "inside VerifyGetSigners" << std::endl;
  141. int fd[2];
  142. bool const keyIsID = (key.empty() == false && key[0] != '/');
  143. if (pipe(fd) < 0)
  144. return "Couldn't create pipe";
  145. pid_t pid = fork();
  146. if (pid < 0)
  147. return string("Couldn't spawn new process") + strerror(errno);
  148. else if (pid == 0)
  149. ExecGPGV(outfile, file, 3, fd, (keyIsID ? "" : key));
  150. close(fd[1]);
  151. FILE *pipein = fdopen(fd[0], "r");
  152. // Loop over the output of apt-key (which really is gnupg), and check the signatures.
  153. std::vector<std::string> ValidSigners;
  154. std::vector<std::string> ErrSigners;
  155. size_t buffersize = 0;
  156. char *buffer = NULL;
  157. bool gotNODATA = false;
  158. while (1)
  159. {
  160. if (getline(&buffer, &buffersize, pipein) == -1)
  161. break;
  162. if (Debug == true)
  163. std::clog << "Read: " << buffer << std::endl;
  164. // Push the data into three separate vectors, which
  165. // we later concatenate. They're kept separate so
  166. // if we improve the apt method communication stuff later
  167. // it will be better.
  168. if (strncmp(buffer, GNUPGBADSIG, sizeof(GNUPGBADSIG)-1) == 0)
  169. PushEntryWithUID(BadSigners, buffer, Debug);
  170. else if (strncmp(buffer, GNUPGERRSIG, sizeof(GNUPGERRSIG)-1) == 0)
  171. PushEntryWithKeyID(ErrSigners, buffer, Debug);
  172. else if (strncmp(buffer, GNUPGNOPUBKEY, sizeof(GNUPGNOPUBKEY)-1) == 0)
  173. {
  174. PushEntryWithKeyID(NoPubKeySigners, buffer, Debug);
  175. ErrSigners.erase(std::remove_if(ErrSigners.begin(), ErrSigners.end(), [&](std::string const &errsig) {
  176. return errsig.compare(strlen("ERRSIG "), 16, buffer, sizeof(GNUPGNOPUBKEY), 16) == 0; }), ErrSigners.end());
  177. }
  178. else if (strncmp(buffer, GNUPGNODATA, sizeof(GNUPGNODATA)-1) == 0)
  179. gotNODATA = true;
  180. else if (strncmp(buffer, GNUPGEXPKEYSIG, sizeof(GNUPGEXPKEYSIG)-1) == 0)
  181. PushEntryWithUID(WorthlessSigners, buffer, Debug);
  182. else if (strncmp(buffer, GNUPGEXPSIG, sizeof(GNUPGEXPSIG)-1) == 0)
  183. PushEntryWithUID(WorthlessSigners, buffer, Debug);
  184. else if (strncmp(buffer, GNUPGREVKEYSIG, sizeof(GNUPGREVKEYSIG)-1) == 0)
  185. PushEntryWithUID(WorthlessSigners, buffer, Debug);
  186. else if (strncmp(buffer, GNUPGGOODSIG, sizeof(GNUPGGOODSIG)-1) == 0)
  187. PushEntryWithKeyID(GoodSigners, buffer, Debug);
  188. else if (strncmp(buffer, GNUPGVALIDSIG, sizeof(GNUPGVALIDSIG)-1) == 0)
  189. {
  190. std::istringstream iss(buffer + sizeof(GNUPGVALIDSIG));
  191. vector<string> tokens{std::istream_iterator<string>{iss},
  192. std::istream_iterator<string>{}};
  193. auto const sig = tokens[0];
  194. // Reject weak digest algorithms
  195. Digest digest = FindDigest(tokens[7]);
  196. switch (digest.getState()) {
  197. case Digest::State::Weak:
  198. // Treat them like an expired key: For that a message about expiry
  199. // is emitted, a VALIDSIG, but no GOODSIG.
  200. SoonWorthlessSigners.push_back({sig, digest.name});
  201. if (Debug == true)
  202. std::clog << "Got weak VALIDSIG, key ID: " << sig << std::endl;
  203. break;
  204. case Digest::State::Untrusted:
  205. // Treat them like an expired key: For that a message about expiry
  206. // is emitted, a VALIDSIG, but no GOODSIG.
  207. WorthlessSigners.push_back(sig);
  208. GoodSigners.erase(std::remove_if(GoodSigners.begin(), GoodSigners.end(), [&](std::string const &goodsig) {
  209. return IsTheSameKey(sig, goodsig); }), GoodSigners.end());
  210. if (Debug == true)
  211. std::clog << "Got untrusted VALIDSIG, key ID: " << sig << std::endl;
  212. break;
  213. case Digest::State::Trusted:
  214. if (Debug == true)
  215. std::clog << "Got trusted VALIDSIG, key ID: " << sig << std::endl;
  216. break;
  217. }
  218. ValidSigners.push_back(sig);
  219. }
  220. else if (strncmp(buffer, APTKEYWARNING, sizeof(APTKEYWARNING)-1) == 0)
  221. Warning("%s", buffer + sizeof(APTKEYWARNING));
  222. }
  223. fclose(pipein);
  224. free(buffer);
  225. std::move(ErrSigners.begin(), ErrSigners.end(), std::back_inserter(WorthlessSigners));
  226. // apt-key has a --keyid parameter, but this requires gpg, so we call it without it
  227. // and instead check after the fact which keyids where used for verification
  228. if (keyIsID == true)
  229. {
  230. if (Debug == true)
  231. std::clog << "GoodSigs needs to be limited to keyid " << key << std::endl;
  232. bool foundGood = false;
  233. for (auto const &k: VectorizeString(key, ','))
  234. {
  235. if (std::find(ValidSigners.begin(), ValidSigners.end(), k) == ValidSigners.end())
  236. continue;
  237. // we look for GOODSIG here as well as an expired sig is a valid sig as well (but not a good one)
  238. std::string const goodfingerprint = "GOODSIG " + k;
  239. std::string const goodlongkeyid = "GOODSIG " + k.substr(24, 16);
  240. foundGood = std::find(GoodSigners.begin(), GoodSigners.end(), goodfingerprint) != GoodSigners.end();
  241. if (Debug == true)
  242. std::clog << "Key " << k << " is valid sig, is " << goodfingerprint << " also a good one? " << (foundGood ? "yes" : "no") << std::endl;
  243. std::string goodsig;
  244. if (foundGood == false)
  245. {
  246. foundGood = std::find(GoodSigners.begin(), GoodSigners.end(), goodlongkeyid) != GoodSigners.end();
  247. if (Debug == true)
  248. std::clog << "Key " << k << " is valid sig, is " << goodlongkeyid << " also a good one? " << (foundGood ? "yes" : "no") << std::endl;
  249. goodsig = goodlongkeyid;
  250. }
  251. else
  252. goodsig = goodfingerprint;
  253. if (foundGood == false)
  254. continue;
  255. std::copy(GoodSigners.begin(), GoodSigners.end(), std::back_insert_iterator<std::vector<std::string> >(NoPubKeySigners));
  256. GoodSigners.clear();
  257. GoodSigners.push_back(goodsig);
  258. NoPubKeySigners.erase(
  259. std::remove(NoPubKeySigners.begin(),
  260. std::remove(NoPubKeySigners.begin(), NoPubKeySigners.end(), goodfingerprint),
  261. goodlongkeyid),
  262. NoPubKeySigners.end()
  263. );
  264. break;
  265. }
  266. if (foundGood == false)
  267. {
  268. std::copy(GoodSigners.begin(), GoodSigners.end(), std::back_insert_iterator<std::vector<std::string> >(NoPubKeySigners));
  269. GoodSigners.clear();
  270. }
  271. }
  272. int status;
  273. waitpid(pid, &status, 0);
  274. if (Debug == true)
  275. {
  276. ioprintf(std::clog, "gpgv exited with status %i\n", WEXITSTATUS(status));
  277. }
  278. if (Debug)
  279. {
  280. std::cerr << "Summary:" << std::endl << " Good: ";
  281. std::copy(GoodSigners.begin(), GoodSigners.end(), std::ostream_iterator<std::string>(std::cerr, ", "));
  282. std::cerr << std::endl << " Bad: ";
  283. std::copy(BadSigners.begin(), BadSigners.end(), std::ostream_iterator<std::string>(std::cerr, ", "));
  284. std::cerr << std::endl << " Worthless: ";
  285. std::copy(WorthlessSigners.begin(), WorthlessSigners.end(), std::ostream_iterator<std::string>(std::cerr, ", "));
  286. std::cerr << std::endl << " SoonWorthless: ";
  287. std::for_each(SoonWorthlessSigners.begin(), SoonWorthlessSigners.end(), [](Signer const &sig) { std::cerr << sig.key << ", "; });
  288. std::cerr << std::endl << " NoPubKey: ";
  289. std::copy(NoPubKeySigners.begin(), NoPubKeySigners.end(), std::ostream_iterator<std::string>(std::cerr, ", "));
  290. std::cerr << std::endl << " NODATA: " << (gotNODATA ? "yes" : "no") << std::endl;
  291. }
  292. if (WEXITSTATUS(status) == 112)
  293. {
  294. // acquire system checks for "NODATA" to generate GPG errors (the others are only warnings)
  295. std::string errmsg;
  296. //TRANSLATORS: %s is a single techy word like 'NODATA'
  297. strprintf(errmsg, _("Clearsigned file isn't valid, got '%s' (does the network require authentication?)"), "NODATA");
  298. return errmsg;
  299. }
  300. else if (gotNODATA)
  301. {
  302. // acquire system checks for "NODATA" to generate GPG errors (the others are only warnings)
  303. std::string errmsg;
  304. //TRANSLATORS: %s is a single techy word like 'NODATA'
  305. strprintf(errmsg, _("Signed file isn't valid, got '%s' (does the network require authentication?)"), "NODATA");
  306. return errmsg;
  307. }
  308. else if (WEXITSTATUS(status) == 0)
  309. {
  310. if (keyIsID)
  311. {
  312. // gpgv will report success, but we want to enforce a certain keyring
  313. // so if we haven't found the key the valid we found is in fact invalid
  314. if (GoodSigners.empty())
  315. return _("At least one invalid signature was encountered.");
  316. }
  317. else
  318. {
  319. if (GoodSigners.empty())
  320. return _("Internal error: Good signature, but could not determine key fingerprint?!");
  321. }
  322. return "";
  323. }
  324. else if (WEXITSTATUS(status) == 1)
  325. return _("At least one invalid signature was encountered.");
  326. else if (WEXITSTATUS(status) == 111)
  327. return _("Could not execute 'apt-key' to verify signature (is gnupg installed?)");
  328. else
  329. return _("Unknown error executing apt-key");
  330. }
  331. bool GPGVMethod::URIAcquire(std::string const &Message, FetchItem *Itm)
  332. {
  333. URI const Get = Itm->Uri;
  334. string const Path = Get.Host + Get.Path; // To account for relative paths
  335. std::string const key = LookupTag(Message, "Signed-By");
  336. vector<string> GoodSigners;
  337. vector<string> BadSigners;
  338. // a worthless signature is a expired or revoked one
  339. vector<string> WorthlessSigners;
  340. vector<Signer> SoonWorthlessSigners;
  341. vector<string> NoPubKeySigners;
  342. FetchResult Res;
  343. Res.Filename = Itm->DestFile;
  344. URIStart(Res);
  345. // Run apt-key on file, extract contents and get the key ID of the signer
  346. string msg = VerifyGetSigners(Path.c_str(), Itm->DestFile.c_str(), key,
  347. GoodSigners, BadSigners, WorthlessSigners,
  348. SoonWorthlessSigners, NoPubKeySigners);
  349. // Check if all good signers are soon worthless and warn in that case
  350. if (std::all_of(GoodSigners.begin(), GoodSigners.end(), [&](std::string const &good) {
  351. return std::any_of(SoonWorthlessSigners.begin(), SoonWorthlessSigners.end(), [&](Signer const &weak) {
  352. return IsTheSameKey(weak.key, good);
  353. });
  354. }))
  355. {
  356. for (auto const & Signer : SoonWorthlessSigners)
  357. // TRANSLATORS: The second %s is the reason and is untranslated for repository owners.
  358. Warning(_("Signature by key %s uses weak digest algorithm (%s)"), Signer.key.c_str(), Signer.note.c_str());
  359. }
  360. if (GoodSigners.empty() || !BadSigners.empty() || !NoPubKeySigners.empty())
  361. {
  362. string errmsg;
  363. // In this case, something bad probably happened, so we just go
  364. // with what the other method gave us for an error message.
  365. if (BadSigners.empty() && WorthlessSigners.empty() && NoPubKeySigners.empty())
  366. errmsg = msg;
  367. else
  368. {
  369. if (!BadSigners.empty())
  370. {
  371. errmsg += _("The following signatures were invalid:\n");
  372. for (vector<string>::iterator I = BadSigners.begin();
  373. I != BadSigners.end(); ++I)
  374. errmsg += (*I + "\n");
  375. }
  376. if (!WorthlessSigners.empty())
  377. {
  378. errmsg += _("The following signatures were invalid:\n");
  379. for (vector<string>::iterator I = WorthlessSigners.begin();
  380. I != WorthlessSigners.end(); ++I)
  381. errmsg += (*I + "\n");
  382. }
  383. if (!NoPubKeySigners.empty())
  384. {
  385. errmsg += _("The following signatures couldn't be verified because the public key is not available:\n");
  386. for (vector<string>::iterator I = NoPubKeySigners.begin();
  387. I != NoPubKeySigners.end(); ++I)
  388. errmsg += (*I + "\n");
  389. }
  390. }
  391. // this is only fatal if we have no good sigs or if we have at
  392. // least one bad signature. good signatures and NoPubKey signatures
  393. // happen easily when a file is signed with multiple signatures
  394. if(GoodSigners.empty() or !BadSigners.empty())
  395. return _error->Error("%s", errmsg.c_str());
  396. }
  397. // Just pass the raw output up, because passing it as a real data
  398. // structure is too difficult with the method stuff. We keep it
  399. // as three separate vectors for future extensibility.
  400. Res.GPGVOutput = GoodSigners;
  401. std::move(BadSigners.begin(), BadSigners.end(), std::back_inserter(Res.GPGVOutput));
  402. std::move(NoPubKeySigners.begin(), NoPubKeySigners.end(), std::back_inserter(Res.GPGVOutput));
  403. URIDone(Res);
  404. if (DebugEnabled())
  405. std::clog << "apt-key succeeded\n";
  406. return true;
  407. }
  408. int main()
  409. {
  410. return GPGVMethod().Run();
  411. }