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  1. OpenSSL - Frequently Asked Questions
  2. --------------------------------------
  3. [MISC] Miscellaneous questions
  4. * Which is the current version of OpenSSL?
  5. * Where is the documentation?
  6. * How can I contact the OpenSSL developers?
  7. * Where can I get a compiled version of OpenSSL?
  8. * Why aren't tools like 'autoconf' and 'libtool' used?
  9. * What is an 'engine' version?
  10. * How do I check the authenticity of the OpenSSL distribution?
  11. [LEGAL] Legal questions
  12. * Do I need patent licenses to use OpenSSL?
  13. * Can I use OpenSSL with GPL software?
  14. [USER] Questions on using the OpenSSL applications
  15. * Why do I get a "PRNG not seeded" error message?
  16. * Why do I get an "unable to write 'random state'" error message?
  17. * How do I create certificates or certificate requests?
  18. * Why can't I create certificate requests?
  19. * Why does <SSL program> fail with a certificate verify error?
  20. * Why can I only use weak ciphers when I connect to a server using OpenSSL?
  21. * How can I create DSA certificates?
  22. * Why can't I make an SSL connection using a DSA certificate?
  23. * How can I remove the passphrase on a private key?
  24. * Why can't I use OpenSSL certificates with SSL client authentication?
  25. * Why does my browser give a warning about a mismatched hostname?
  26. * How do I install a CA certificate into a browser?
  27. * Why is OpenSSL x509 DN output not conformant to RFC2253?
  28. * What is a "128 bit certificate"? Can I create one with OpenSSL?
  29. * Why does OpenSSL set the authority key identifier extension incorrectly?
  30. [BUILD] Questions about building and testing OpenSSL
  31. * Why does the linker complain about undefined symbols?
  32. * Why does the OpenSSL test fail with "bc: command not found"?
  33. * Why does the OpenSSL test fail with "bc: 1 no implemented"?
  34. * Why does the OpenSSL test fail with "bc: stack empty"?
  35. * Why does the OpenSSL compilation fail on Alpha Tru64 Unix?
  36. * Why does the OpenSSL compilation fail with "ar: command not found"?
  37. * Why does the OpenSSL compilation fail on Win32 with VC++?
  38. * What is special about OpenSSL on Redhat?
  39. * Why does the OpenSSL compilation fail on MacOS X?
  40. * Why does the OpenSSL test suite fail on MacOS X?
  41. * Why does the OpenSSL test suite fail in BN_sqr test [on a 64-bit platform]?
  42. * Why does OpenBSD-i386 build fail on des-586.s with "Unimplemented segment type"?
  43. * Why does the OpenSSL test suite fail in sha512t on x86 CPU?
  44. * Why does compiler fail to compile sha512.c?
  45. * Test suite still fails, what to do?
  46. [PROG] Questions about programming with OpenSSL
  47. * Is OpenSSL thread-safe?
  48. * I've compiled a program under Windows and it crashes: why?
  49. * How do I read or write a DER encoded buffer using the ASN1 functions?
  50. * OpenSSL uses DER but I need BER format: does OpenSSL support BER?
  51. * I've tried using <M_some_evil_pkcs12_macro> and I get errors why?
  52. * I've called <some function> and it fails, why?
  53. * I just get a load of numbers for the error output, what do they mean?
  54. * Why do I get errors about unknown algorithms?
  55. * Why can't the OpenSSH configure script detect OpenSSL?
  56. * Can I use OpenSSL's SSL library with non-blocking I/O?
  57. * Why doesn't my server application receive a client certificate?
  58. * Why does compilation fail due to an undefined symbol NID_uniqueIdentifier?
  59. * I think I've detected a memory leak, is this a bug?
  60. ===============================================================================
  61. [MISC] ========================================================================
  62. * Which is the current version of OpenSSL?
  63. The current version is available from <URL: http://www.openssl.org>.
  64. OpenSSL 0.9.8a was released on October 11th, 2005.
  65. In addition to the current stable release, you can also access daily
  66. snapshots of the OpenSSL development version at <URL:
  67. ftp://ftp.openssl.org/snapshot/>, or get it by anonymous CVS access.
  68. * Where is the documentation?
  69. OpenSSL is a library that provides cryptographic functionality to
  70. applications such as secure web servers. Be sure to read the
  71. documentation of the application you want to use. The INSTALL file
  72. explains how to install this library.
  73. OpenSSL includes a command line utility that can be used to perform a
  74. variety of cryptographic functions. It is described in the openssl(1)
  75. manpage. Documentation for developers is currently being written. A
  76. few manual pages already are available; overviews over libcrypto and
  77. libssl are given in the crypto(3) and ssl(3) manpages.
  78. The OpenSSL manpages are installed in /usr/local/ssl/man/ (or a
  79. different directory if you specified one as described in INSTALL).
  80. In addition, you can read the most current versions at
  81. <URL: http://www.openssl.org/docs/>.
  82. For information on parts of libcrypto that are not yet documented, you
  83. might want to read Ariel Glenn's documentation on SSLeay 0.9, OpenSSL's
  84. predecessor, at <URL: http://www.columbia.edu/~ariel/ssleay/>. Much
  85. of this still applies to OpenSSL.
  86. There is some documentation about certificate extensions and PKCS#12
  87. in doc/openssl.txt
  88. The original SSLeay documentation is included in OpenSSL as
  89. doc/ssleay.txt. It may be useful when none of the other resources
  90. help, but please note that it reflects the obsolete version SSLeay
  91. 0.6.6.
  92. * How can I contact the OpenSSL developers?
  93. The README file describes how to submit bug reports and patches to
  94. OpenSSL. Information on the OpenSSL mailing lists is available from
  95. <URL: http://www.openssl.org>.
  96. * Where can I get a compiled version of OpenSSL?
  97. You can finder pointers to binary distributions in
  98. http://www.openssl.org/related/binaries.html .
  99. Some applications that use OpenSSL are distributed in binary form.
  100. When using such an application, you don't need to install OpenSSL
  101. yourself; the application will include the required parts (e.g. DLLs).
  102. If you want to build OpenSSL on a Windows system and you don't have
  103. a C compiler, read the "Mingw32" section of INSTALL.W32 for information
  104. on how to obtain and install the free GNU C compiler.
  105. A number of Linux and *BSD distributions include OpenSSL.
  106. * Why aren't tools like 'autoconf' and 'libtool' used?
  107. autoconf will probably be used in future OpenSSL versions. If it was
  108. less Unix-centric, it might have been used much earlier.
  109. * What is an 'engine' version?
  110. With version 0.9.6 OpenSSL was extended to interface to external crypto
  111. hardware. This was realized in a special release '0.9.6-engine'. With
  112. version 0.9.7 the changes were merged into the main development line,
  113. so that the special release is no longer necessary.
  114. * How do I check the authenticity of the OpenSSL distribution?
  115. We provide MD5 digests and ASC signatures of each tarball.
  116. Use MD5 to check that a tarball from a mirror site is identical:
  117. md5sum TARBALL | awk '{print $1;}' | cmp - TARBALL.md5
  118. You can check authenticity using pgp or gpg. You need the OpenSSL team
  119. member public key used to sign it (download it from a key server, see a
  120. list of keys at <URL: http://www.openssl.org/about/>). Then
  121. just do:
  122. pgp TARBALL.asc
  123. [LEGAL] =======================================================================
  124. * Do I need patent licenses to use OpenSSL?
  125. The patents section of the README file lists patents that may apply to
  126. you if you want to use OpenSSL. For information on intellectual
  127. property rights, please consult a lawyer. The OpenSSL team does not
  128. offer legal advice.
  129. You can configure OpenSSL so as not to use IDEA, MDC2 and RC5 by using
  130. ./config no-idea no-mdc2 no-rc5
  131. * Can I use OpenSSL with GPL software?
  132. On many systems including the major Linux and BSD distributions, yes (the
  133. GPL does not place restrictions on using libraries that are part of the
  134. normal operating system distribution).
  135. On other systems, the situation is less clear. Some GPL software copyright
  136. holders claim that you infringe on their rights if you use OpenSSL with
  137. their software on operating systems that don't normally include OpenSSL.
  138. If you develop open source software that uses OpenSSL, you may find it
  139. useful to choose an other license than the GPL, or state explicitly that
  140. "This program is released under the GPL with the additional exemption that
  141. compiling, linking, and/or using OpenSSL is allowed." If you are using
  142. GPL software developed by others, you may want to ask the copyright holder
  143. for permission to use their software with OpenSSL.
  144. [USER] ========================================================================
  145. * Why do I get a "PRNG not seeded" error message?
  146. Cryptographic software needs a source of unpredictable data to work
  147. correctly. Many open source operating systems provide a "randomness
  148. device" (/dev/urandom or /dev/random) that serves this purpose.
  149. All OpenSSL versions try to use /dev/urandom by default; starting with
  150. version 0.9.7, OpenSSL also tries /dev/random if /dev/urandom is not
  151. available.
  152. On other systems, applications have to call the RAND_add() or
  153. RAND_seed() function with appropriate data before generating keys or
  154. performing public key encryption. (These functions initialize the
  155. pseudo-random number generator, PRNG.) Some broken applications do
  156. not do this. As of version 0.9.5, the OpenSSL functions that need
  157. randomness report an error if the random number generator has not been
  158. seeded with at least 128 bits of randomness. If this error occurs and
  159. is not discussed in the documentation of the application you are
  160. using, please contact the author of that application; it is likely
  161. that it never worked correctly. OpenSSL 0.9.5 and later make the
  162. error visible by refusing to perform potentially insecure encryption.
  163. If you are using Solaris 8, you can add /dev/urandom and /dev/random
  164. devices by installing patch 112438 (Sparc) or 112439 (x86), which are
  165. available via the Patchfinder at <URL: http://sunsolve.sun.com>
  166. (Solaris 9 includes these devices by default). For /dev/random support
  167. for earlier Solaris versions, see Sun's statement at
  168. <URL: http://sunsolve.sun.com/pub-cgi/retrieve.pl?doc=fsrdb/27606&zone_32=SUNWski>
  169. (the SUNWski package is available in patch 105710).
  170. On systems without /dev/urandom and /dev/random, it is a good idea to
  171. use the Entropy Gathering Demon (EGD); see the RAND_egd() manpage for
  172. details. Starting with version 0.9.7, OpenSSL will automatically look
  173. for an EGD socket at /var/run/egd-pool, /dev/egd-pool, /etc/egd-pool and
  174. /etc/entropy.
  175. Most components of the openssl command line utility automatically try
  176. to seed the random number generator from a file. The name of the
  177. default seeding file is determined as follows: If environment variable
  178. RANDFILE is set, then it names the seeding file. Otherwise if
  179. environment variable HOME is set, then the seeding file is $HOME/.rnd.
  180. If neither RANDFILE nor HOME is set, versions up to OpenSSL 0.9.6 will
  181. use file .rnd in the current directory while OpenSSL 0.9.6a uses no
  182. default seeding file at all. OpenSSL 0.9.6b and later will behave
  183. similarly to 0.9.6a, but will use a default of "C:\" for HOME on
  184. Windows systems if the environment variable has not been set.
  185. If the default seeding file does not exist or is too short, the "PRNG
  186. not seeded" error message may occur.
  187. The openssl command line utility will write back a new state to the
  188. default seeding file (and create this file if necessary) unless
  189. there was no sufficient seeding.
  190. Pointing $RANDFILE to an Entropy Gathering Daemon socket does not work.
  191. Use the "-rand" option of the OpenSSL command line tools instead.
  192. The $RANDFILE environment variable and $HOME/.rnd are only used by the
  193. OpenSSL command line tools. Applications using the OpenSSL library
  194. provide their own configuration options to specify the entropy source,
  195. please check out the documentation coming the with application.
  196. * Why do I get an "unable to write 'random state'" error message?
  197. Sometimes the openssl command line utility does not abort with
  198. a "PRNG not seeded" error message, but complains that it is
  199. "unable to write 'random state'". This message refers to the
  200. default seeding file (see previous answer). A possible reason
  201. is that no default filename is known because neither RANDFILE
  202. nor HOME is set. (Versions up to 0.9.6 used file ".rnd" in the
  203. current directory in this case, but this has changed with 0.9.6a.)
  204. * How do I create certificates or certificate requests?
  205. Check out the CA.pl(1) manual page. This provides a simple wrapper round
  206. the 'req', 'verify', 'ca' and 'pkcs12' utilities. For finer control check
  207. out the manual pages for the individual utilities and the certificate
  208. extensions documentation (currently in doc/openssl.txt).
  209. * Why can't I create certificate requests?
  210. You typically get the error:
  211. unable to find 'distinguished_name' in config
  212. problems making Certificate Request
  213. This is because it can't find the configuration file. Check out the
  214. DIAGNOSTICS section of req(1) for more information.
  215. * Why does <SSL program> fail with a certificate verify error?
  216. This problem is usually indicated by log messages saying something like
  217. "unable to get local issuer certificate" or "self signed certificate".
  218. When a certificate is verified its root CA must be "trusted" by OpenSSL
  219. this typically means that the CA certificate must be placed in a directory
  220. or file and the relevant program configured to read it. The OpenSSL program
  221. 'verify' behaves in a similar way and issues similar error messages: check
  222. the verify(1) program manual page for more information.
  223. * Why can I only use weak ciphers when I connect to a server using OpenSSL?
  224. This is almost certainly because you are using an old "export grade" browser
  225. which only supports weak encryption. Upgrade your browser to support 128 bit
  226. ciphers.
  227. * How can I create DSA certificates?
  228. Check the CA.pl(1) manual page for a DSA certificate example.
  229. * Why can't I make an SSL connection to a server using a DSA certificate?
  230. Typically you'll see a message saying there are no shared ciphers when
  231. the same setup works fine with an RSA certificate. There are two possible
  232. causes. The client may not support connections to DSA servers most web
  233. browsers (including Netscape and MSIE) only support connections to servers
  234. supporting RSA cipher suites. The other cause is that a set of DH parameters
  235. has not been supplied to the server. DH parameters can be created with the
  236. dhparam(1) command and loaded using the SSL_CTX_set_tmp_dh() for example:
  237. check the source to s_server in apps/s_server.c for an example.
  238. * How can I remove the passphrase on a private key?
  239. Firstly you should be really *really* sure you want to do this. Leaving
  240. a private key unencrypted is a major security risk. If you decide that
  241. you do have to do this check the EXAMPLES sections of the rsa(1) and
  242. dsa(1) manual pages.
  243. * Why can't I use OpenSSL certificates with SSL client authentication?
  244. What will typically happen is that when a server requests authentication
  245. it will either not include your certificate or tell you that you have
  246. no client certificates (Netscape) or present you with an empty list box
  247. (MSIE). The reason for this is that when a server requests a client
  248. certificate it includes a list of CAs names which it will accept. Browsers
  249. will only let you select certificates from the list on the grounds that
  250. there is little point presenting a certificate which the server will
  251. reject.
  252. The solution is to add the relevant CA certificate to your servers "trusted
  253. CA list". How you do this depends on the server software in uses. You can
  254. print out the servers list of acceptable CAs using the OpenSSL s_client tool:
  255. openssl s_client -connect www.some.host:443 -prexit
  256. If your server only requests certificates on certain URLs then you may need
  257. to manually issue an HTTP GET command to get the list when s_client connects:
  258. GET /some/page/needing/a/certificate.html
  259. If your CA does not appear in the list then this confirms the problem.
  260. * Why does my browser give a warning about a mismatched hostname?
  261. Browsers expect the server's hostname to match the value in the commonName
  262. (CN) field of the certificate. If it does not then you get a warning.
  263. * How do I install a CA certificate into a browser?
  264. The usual way is to send the DER encoded certificate to the browser as
  265. MIME type application/x-x509-ca-cert, for example by clicking on an appropriate
  266. link. On MSIE certain extensions such as .der or .cacert may also work, or you
  267. can import the certificate using the certificate import wizard.
  268. You can convert a certificate to DER form using the command:
  269. openssl x509 -in ca.pem -outform DER -out ca.der
  270. Occasionally someone suggests using a command such as:
  271. openssl pkcs12 -export -out cacert.p12 -in cacert.pem -inkey cakey.pem
  272. DO NOT DO THIS! This command will give away your CAs private key and
  273. reduces its security to zero: allowing anyone to forge certificates in
  274. whatever name they choose.
  275. * Why is OpenSSL x509 DN output not conformant to RFC2253?
  276. The ways to print out the oneline format of the DN (Distinguished Name) have
  277. been extended in version 0.9.7 of OpenSSL. Using the new X509_NAME_print_ex()
  278. interface, the "-nameopt" option could be introduded. See the manual
  279. page of the "openssl x509" commandline tool for details. The old behaviour
  280. has however been left as default for the sake of compatibility.
  281. * What is a "128 bit certificate"? Can I create one with OpenSSL?
  282. The term "128 bit certificate" is a highly misleading marketing term. It does
  283. *not* refer to the size of the public key in the certificate! A certificate
  284. containing a 128 bit RSA key would have negligible security.
  285. There were various other names such as "magic certificates", "SGC
  286. certificates", "step up certificates" etc.
  287. You can't generally create such a certificate using OpenSSL but there is no
  288. need to any more. Nowadays web browsers using unrestricted strong encryption
  289. are generally available.
  290. When there were tight restrictions on the export of strong encryption
  291. software from the US only weak encryption algorithms could be freely exported
  292. (initially 40 bit and then 56 bit). It was widely recognised that this was
  293. inadequate. A relaxation of the rules allowed the use of strong encryption but
  294. only to an authorised server.
  295. Two slighly different techniques were developed to support this, one used by
  296. Netscape was called "step up", the other used by MSIE was called "Server Gated
  297. Cryptography" (SGC). When a browser initially connected to a server it would
  298. check to see if the certificate contained certain extensions and was issued by
  299. an authorised authority. If these test succeeded it would reconnect using
  300. strong encryption.
  301. Only certain (initially one) certificate authorities could issue the
  302. certificates and they generally cost more than ordinary certificates.
  303. Although OpenSSL can create certificates containing the appropriate extensions
  304. the certificate would not come from a permitted authority and so would not
  305. be recognized.
  306. The export laws were later changed to allow almost unrestricted use of strong
  307. encryption so these certificates are now obsolete.
  308. * Why does OpenSSL set the authority key identifier (AKID) extension incorrectly?
  309. It doesn't: this extension is often the cause of confusion.
  310. Consider a certificate chain A->B->C so that A signs B and B signs C. Suppose
  311. certificate C contains AKID.
  312. The purpose of this extension is to identify the authority certificate B. This
  313. can be done either by including the subject key identifier of B or its issuer
  314. name and serial number.
  315. In this latter case because it is identifying certifcate B it must contain the
  316. issuer name and serial number of B.
  317. It is often wrongly assumed that it should contain the subject name of B. If it
  318. did this would be redundant information because it would duplicate the issuer
  319. name of C.
  320. [BUILD] =======================================================================
  321. * Why does the linker complain about undefined symbols?
  322. Maybe the compilation was interrupted, and make doesn't notice that
  323. something is missing. Run "make clean; make".
  324. If you used ./Configure instead of ./config, make sure that you
  325. selected the right target. File formats may differ slightly between
  326. OS versions (for example sparcv8/sparcv9, or a.out/elf).
  327. In case you get errors about the following symbols, use the config
  328. option "no-asm", as described in INSTALL:
  329. BF_cbc_encrypt, BF_decrypt, BF_encrypt, CAST_cbc_encrypt,
  330. CAST_decrypt, CAST_encrypt, RC4, RC5_32_cbc_encrypt, RC5_32_decrypt,
  331. RC5_32_encrypt, bn_add_words, bn_div_words, bn_mul_add_words,
  332. bn_mul_comba4, bn_mul_comba8, bn_mul_words, bn_sqr_comba4,
  333. bn_sqr_comba8, bn_sqr_words, bn_sub_words, des_decrypt3,
  334. des_ede3_cbc_encrypt, des_encrypt, des_encrypt2, des_encrypt3,
  335. des_ncbc_encrypt, md5_block_asm_host_order, sha1_block_asm_data_order
  336. If none of these helps, you may want to try using the current snapshot.
  337. If the problem persists, please submit a bug report.
  338. * Why does the OpenSSL test fail with "bc: command not found"?
  339. You didn't install "bc", the Unix calculator. If you want to run the
  340. tests, get GNU bc from ftp://ftp.gnu.org or from your OS distributor.
  341. * Why does the OpenSSL test fail with "bc: 1 no implemented"?
  342. On some SCO installations or versions, bc has a bug that gets triggered
  343. when you run the test suite (using "make test"). The message returned is
  344. "bc: 1 not implemented".
  345. The best way to deal with this is to find another implementation of bc
  346. and compile/install it. GNU bc (see http://www.gnu.org/software/software.html
  347. for download instructions) can be safely used, for example.
  348. * Why does the OpenSSL test fail with "bc: stack empty"?
  349. On some DG/ux versions, bc seems to have a too small stack for calculations
  350. that the OpenSSL bntest throws at it. This gets triggered when you run the
  351. test suite (using "make test"). The message returned is "bc: stack empty".
  352. The best way to deal with this is to find another implementation of bc
  353. and compile/install it. GNU bc (see http://www.gnu.org/software/software.html
  354. for download instructions) can be safely used, for example.
  355. * Why does the OpenSSL compilation fail on Alpha Tru64 Unix?
  356. On some Alpha installations running Tru64 Unix and Compaq C, the compilation
  357. of crypto/sha/sha_dgst.c fails with the message 'Fatal: Insufficient virtual
  358. memory to continue compilation.' As far as the tests have shown, this may be
  359. a compiler bug. What happens is that it eats up a lot of resident memory
  360. to build something, probably a table. The problem is clearly in the
  361. optimization code, because if one eliminates optimization completely (-O0),
  362. the compilation goes through (and the compiler consumes about 2MB of resident
  363. memory instead of 240MB or whatever one's limit is currently).
  364. There are three options to solve this problem:
  365. 1. set your current data segment size soft limit higher. Experience shows
  366. that about 241000 kbytes seems to be enough on an AlphaServer DS10. You do
  367. this with the command 'ulimit -Sd nnnnnn', where 'nnnnnn' is the number of
  368. kbytes to set the limit to.
  369. 2. If you have a hard limit that is lower than what you need and you can't
  370. get it changed, you can compile all of OpenSSL with -O0 as optimization
  371. level. This is however not a very nice thing to do for those who expect to
  372. get the best result from OpenSSL. A bit more complicated solution is the
  373. following:
  374. ----- snip:start -----
  375. make DIRS=crypto SDIRS=sha "`grep '^CFLAG=' Makefile.ssl | \
  376. sed -e 's/ -O[0-9] / -O0 /'`"
  377. rm `ls crypto/*.o crypto/sha/*.o | grep -v 'sha_dgst\.o'`
  378. make
  379. ----- snip:end -----
  380. This will only compile sha_dgst.c with -O0, the rest with the optimization
  381. level chosen by the configuration process. When the above is done, do the
  382. test and installation and you're set.
  383. 3. Reconfigure the toolkit with no-sha0 option to leave out SHA0. It
  384. should not be used and is not used in SSL/TLS nor any other recognized
  385. protocol in either case.
  386. * Why does the OpenSSL compilation fail with "ar: command not found"?
  387. Getting this message is quite usual on Solaris 2, because Sun has hidden
  388. away 'ar' and other development commands in directories that aren't in
  389. $PATH by default. One of those directories is '/usr/ccs/bin'. The
  390. quickest way to fix this is to do the following (it assumes you use sh
  391. or any sh-compatible shell):
  392. ----- snip:start -----
  393. PATH=${PATH}:/usr/ccs/bin; export PATH
  394. ----- snip:end -----
  395. and then redo the compilation. What you should really do is make sure
  396. '/usr/ccs/bin' is permanently in your $PATH, for example through your
  397. '.profile' (again, assuming you use a sh-compatible shell).
  398. * Why does the OpenSSL compilation fail on Win32 with VC++?
  399. Sometimes, you may get reports from VC++ command line (cl) that it
  400. can't find standard include files like stdio.h and other weirdnesses.
  401. One possible cause is that the environment isn't correctly set up.
  402. To solve that problem for VC++ versions up to 6, one should run
  403. VCVARS32.BAT which is found in the 'bin' subdirectory of the VC++
  404. installation directory (somewhere under 'Program Files'). For VC++
  405. version 7 (and up?), which is also called VS.NET, the file is called
  406. VSVARS32.BAT instead.
  407. This needs to be done prior to running NMAKE, and the changes are only
  408. valid for the current DOS session.
  409. * What is special about OpenSSL on Redhat?
  410. Red Hat Linux (release 7.0 and later) include a preinstalled limited
  411. version of OpenSSL. For patent reasons, support for IDEA, RC5 and MDC2
  412. is disabled in this version. The same may apply to other Linux distributions.
  413. Users may therefore wish to install more or all of the features left out.
  414. To do this you MUST ensure that you do not overwrite the openssl that is in
  415. /usr/bin on your Red Hat machine. Several packages depend on this file,
  416. including sendmail and ssh. /usr/local/bin is a good alternative choice. The
  417. libraries that come with Red Hat 7.0 onwards have different names and so are
  418. not affected. (eg For Red Hat 7.2 they are /lib/libssl.so.0.9.6b and
  419. /lib/libcrypto.so.0.9.6b with symlinks /lib/libssl.so.2 and
  420. /lib/libcrypto.so.2 respectively).
  421. Please note that we have been advised by Red Hat attempting to recompile the
  422. openssl rpm with all the cryptography enabled will not work. All other
  423. packages depend on the original Red Hat supplied openssl package. It is also
  424. worth noting that due to the way Red Hat supplies its packages, updates to
  425. openssl on each distribution never change the package version, only the
  426. build number. For example, on Red Hat 7.1, the latest openssl package has
  427. version number 0.9.6 and build number 9 even though it contains all the
  428. relevant updates in packages up to and including 0.9.6b.
  429. A possible way around this is to persuade Red Hat to produce a non-US
  430. version of Red Hat Linux.
  431. FYI: Patent numbers and expiry dates of US patents:
  432. MDC-2: 4,908,861 13/03/2007
  433. IDEA: 5,214,703 25/05/2010
  434. RC5: 5,724,428 03/03/2015
  435. * Why does the OpenSSL compilation fail on MacOS X?
  436. If the failure happens when trying to build the "openssl" binary, with
  437. a large number of undefined symbols, it's very probable that you have
  438. OpenSSL 0.9.6b delivered with the operating system (you can find out by
  439. running '/usr/bin/openssl version') and that you were trying to build
  440. OpenSSL 0.9.7 or newer. The problem is that the loader ('ld') in
  441. MacOS X has a misfeature that's quite difficult to go around.
  442. Look in the file PROBLEMS for a more detailed explanation and for possible
  443. solutions.
  444. * Why does the OpenSSL test suite fail on MacOS X?
  445. If the failure happens when running 'make test' and the RC4 test fails,
  446. it's very probable that you have OpenSSL 0.9.6b delivered with the
  447. operating system (you can find out by running '/usr/bin/openssl version')
  448. and that you were trying to build OpenSSL 0.9.6d. The problem is that
  449. the loader ('ld') in MacOS X has a misfeature that's quite difficult to
  450. go around and has linked the programs "openssl" and the test programs
  451. with /usr/lib/libcrypto.dylib and /usr/lib/libssl.dylib instead of the
  452. libraries you just built.
  453. Look in the file PROBLEMS for a more detailed explanation and for possible
  454. solutions.
  455. * Why does the OpenSSL test suite fail in BN_sqr test [on a 64-bit platform]?
  456. Failure in BN_sqr test is most likely caused by a failure to configure the
  457. toolkit for current platform or lack of support for the platform in question.
  458. Run './config -t' and './apps/openssl version -p'. Do these platform
  459. identifiers match? If they don't, then you most likely failed to run
  460. ./config and you're hereby advised to do so before filing a bug report.
  461. If ./config itself fails to run, then it's most likely problem with your
  462. local environment and you should turn to your system administrator (or
  463. similar). If identifiers match (and/or no alternative identifier is
  464. suggested by ./config script), then the platform is unsupported. There might
  465. or might not be a workaround. Most notably on SPARC64 platforms with GNU
  466. C compiler you should be able to produce a working build by running
  467. './config -m32'. I understand that -m32 might not be what you want/need,
  468. but the build should be operational. For further details turn to
  469. <openssl-dev@openssl.org>.
  470. * Why does OpenBSD-i386 build fail on des-586.s with "Unimplemented segment type"?
  471. As of 0.9.7 assembler routines were overhauled for position independence
  472. of the machine code, which is essential for shared library support. For
  473. some reason OpenBSD is equipped with an out-of-date GNU assembler which
  474. finds the new code offensive. To work around the problem, configure with
  475. no-asm (and sacrifice a great deal of performance) or patch your assembler
  476. according to <URL: http://www.openssl.org/~appro/gas-1.92.3.OpenBSD.patch>.
  477. For your convenience a pre-compiled replacement binary is provided at
  478. <URL: http://www.openssl.org/~appro/gas-1.92.3.static.aout.bin>.
  479. Reportedly elder *BSD a.out platforms also suffer from this problem and
  480. remedy should be same. Provided binary is statically linked and should be
  481. working across wider range of *BSD branches, not just OpenBSD.
  482. * Why does the OpenSSL test suite fail in sha512t on x86 CPU?
  483. If the test program in question fails withs SIGILL, Illegal Instruction
  484. exception, then you more than likely to run SSE2-capable CPU, such as
  485. Intel P4, under control of kernel which does not support SSE2
  486. instruction extentions. See accompanying INSTALL file and
  487. OPENSSL_ia32cap(3) documentation page for further information.
  488. * Why does compiler fail to compile sha512.c?
  489. OpenSSL SHA-512 implementation depends on compiler support for 64-bit
  490. integer type. Few elder compilers [ULTRIX cc, SCO compiler to mention a
  491. couple] lack support for this and therefore are incapable of compiling
  492. the module in question. The recommendation is to disable SHA-512 by
  493. adding no-sha512 to ./config [or ./Configure] command line. Another
  494. possible alternative might be to switch to GCC.
  495. * Test suite still fails, what to do?
  496. Another common reason for failure to complete some particular test is
  497. simply bad code generated by a buggy component in toolchain or deficiency
  498. in run-time environment. There are few cases documented in PROBLEMS file,
  499. consult it for possible workaround before you beat the drum. Even if you
  500. don't find solution or even mention there, do reserve for possibility of
  501. a compiler bug. Compiler bugs might appear in rather bizarre ways, they
  502. never make sense, and tend to emerge when you least expect them. In order
  503. to identify one, drop optimization level, e.g. by editing CFLAG line in
  504. top-level Makefile, recompile and re-run the test.
  505. [PROG] ========================================================================
  506. * Is OpenSSL thread-safe?
  507. Yes (with limitations: an SSL connection may not concurrently be used
  508. by multiple threads). On Windows and many Unix systems, OpenSSL
  509. automatically uses the multi-threaded versions of the standard
  510. libraries. If your platform is not one of these, consult the INSTALL
  511. file.
  512. Multi-threaded applications must provide two callback functions to
  513. OpenSSL. This is described in the threads(3) manpage.
  514. * I've compiled a program under Windows and it crashes: why?
  515. This is usually because you've missed the comment in INSTALL.W32.
  516. Your application must link against the same version of the Win32
  517. C-Runtime against which your openssl libraries were linked. The
  518. default version for OpenSSL is /MD - "Multithreaded DLL".
  519. If you are using Microsoft Visual C++'s IDE (Visual Studio), in
  520. many cases, your new project most likely defaulted to "Debug
  521. Singlethreaded" - /ML. This is NOT interchangeable with /MD and your
  522. program will crash, typically on the first BIO related read or write
  523. operation.
  524. For each of the six possible link stage configurations within Win32,
  525. your application must link against the same by which OpenSSL was
  526. built. If you are using MS Visual C++ (Studio) this can be changed
  527. by:
  528. 1. Select Settings... from the Project Menu.
  529. 2. Select the C/C++ Tab.
  530. 3. Select "Code Generation from the "Category" drop down list box
  531. 4. Select the Appropriate library (see table below) from the "Use
  532. run-time library" drop down list box. Perform this step for both
  533. your debug and release versions of your application (look at the
  534. top left of the settings panel to change between the two)
  535. Single Threaded /ML - MS VC++ often defaults to
  536. this for the release
  537. version of a new project.
  538. Debug Single Threaded /MLd - MS VC++ often defaults to
  539. this for the debug version
  540. of a new project.
  541. Multithreaded /MT
  542. Debug Multithreaded /MTd
  543. Multithreaded DLL /MD - OpenSSL defaults to this.
  544. Debug Multithreaded DLL /MDd
  545. Note that debug and release libraries are NOT interchangeable. If you
  546. built OpenSSL with /MD your application must use /MD and cannot use /MDd.
  547. As per 0.9.8 the above limitation is eliminated for .DLLs. OpenSSL
  548. .DLLs compiled with some specific run-time option [we insist on the
  549. default /MD] can be deployed with application compiled with different
  550. option or even different compiler. But there is a catch! Instead of
  551. re-compiling OpenSSL toolkit, as you would have to with prior versions,
  552. you have to compile small C snippet with compiler and/or options of
  553. your choice. The snippet gets installed as
  554. <install-root>/include/openssl/applink.c and should be either added to
  555. your application project or simply #include-d in one [and only one]
  556. of your application source files. Failure to link this shim module
  557. into your application manifests itself as fatal "no OPENSSL_Applink"
  558. run-time error. An explicit reminder is due that in this situation
  559. [mixing compiler options] it is as important to add CRYPTO_malloc_init
  560. prior first call to OpenSSL.
  561. * How do I read or write a DER encoded buffer using the ASN1 functions?
  562. You have two options. You can either use a memory BIO in conjunction
  563. with the i2d_*_bio() or d2i_*_bio() functions or you can use the
  564. i2d_*(), d2i_*() functions directly. Since these are often the
  565. cause of grief here are some code fragments using PKCS7 as an example:
  566. unsigned char *buf, *p;
  567. int len;
  568. len = i2d_PKCS7(p7, NULL);
  569. buf = OPENSSL_malloc(len); /* or Malloc, error checking omitted */
  570. p = buf;
  571. i2d_PKCS7(p7, &p);
  572. At this point buf contains the len bytes of the DER encoding of
  573. p7.
  574. The opposite assumes we already have len bytes in buf:
  575. unsigned char *p;
  576. p = buf;
  577. p7 = d2i_PKCS7(NULL, &p, len);
  578. At this point p7 contains a valid PKCS7 structure of NULL if an error
  579. occurred. If an error occurred ERR_print_errors(bio) should give more
  580. information.
  581. The reason for the temporary variable 'p' is that the ASN1 functions
  582. increment the passed pointer so it is ready to read or write the next
  583. structure. This is often a cause of problems: without the temporary
  584. variable the buffer pointer is changed to point just after the data
  585. that has been read or written. This may well be uninitialized data
  586. and attempts to free the buffer will have unpredictable results
  587. because it no longer points to the same address.
  588. * OpenSSL uses DER but I need BER format: does OpenSSL support BER?
  589. The short answer is yes, because DER is a special case of BER and OpenSSL
  590. ASN1 decoders can process BER.
  591. The longer answer is that ASN1 structures can be encoded in a number of
  592. different ways. One set of ways is the Basic Encoding Rules (BER) with various
  593. permissible encodings. A restriction of BER is the Distinguished Encoding
  594. Rules (DER): these uniquely specify how a given structure is encoded.
  595. Therefore, because DER is a special case of BER, DER is an acceptable encoding
  596. for BER.
  597. * I've tried using <M_some_evil_pkcs12_macro> and I get errors why?
  598. This usually happens when you try compiling something using the PKCS#12
  599. macros with a C++ compiler. There is hardly ever any need to use the
  600. PKCS#12 macros in a program, it is much easier to parse and create
  601. PKCS#12 files using the PKCS12_parse() and PKCS12_create() functions
  602. documented in doc/openssl.txt and with examples in demos/pkcs12. The
  603. 'pkcs12' application has to use the macros because it prints out
  604. debugging information.
  605. * I've called <some function> and it fails, why?
  606. Before submitting a report or asking in one of the mailing lists, you
  607. should try to determine the cause. In particular, you should call
  608. ERR_print_errors() or ERR_print_errors_fp() after the failed call
  609. and see if the message helps. Note that the problem may occur earlier
  610. than you think -- you should check for errors after every call where
  611. it is possible, otherwise the actual problem may be hidden because
  612. some OpenSSL functions clear the error state.
  613. * I just get a load of numbers for the error output, what do they mean?
  614. The actual format is described in the ERR_print_errors() manual page.
  615. You should call the function ERR_load_crypto_strings() before hand and
  616. the message will be output in text form. If you can't do this (for example
  617. it is a pre-compiled binary) you can use the errstr utility on the error
  618. code itself (the hex digits after the second colon).
  619. * Why do I get errors about unknown algorithms?
  620. This can happen under several circumstances such as reading in an
  621. encrypted private key or attempting to decrypt a PKCS#12 file. The cause
  622. is forgetting to load OpenSSL's table of algorithms with
  623. OpenSSL_add_all_algorithms(). See the manual page for more information.
  624. * Why can't the OpenSSH configure script detect OpenSSL?
  625. Several reasons for problems with the automatic detection exist.
  626. OpenSSH requires at least version 0.9.5a of the OpenSSL libraries.
  627. Sometimes the distribution has installed an older version in the system
  628. locations that is detected instead of a new one installed. The OpenSSL
  629. library might have been compiled for another CPU or another mode (32/64 bits).
  630. Permissions might be wrong.
  631. The general answer is to check the config.log file generated when running
  632. the OpenSSH configure script. It should contain the detailed information
  633. on why the OpenSSL library was not detected or considered incompatible.
  634. * Can I use OpenSSL's SSL library with non-blocking I/O?
  635. Yes; make sure to read the SSL_get_error(3) manual page!
  636. A pitfall to avoid: Don't assume that SSL_read() will just read from
  637. the underlying transport or that SSL_write() will just write to it --
  638. it is also possible that SSL_write() cannot do any useful work until
  639. there is data to read, or that SSL_read() cannot do anything until it
  640. is possible to send data. One reason for this is that the peer may
  641. request a new TLS/SSL handshake at any time during the protocol,
  642. requiring a bi-directional message exchange; both SSL_read() and
  643. SSL_write() will try to continue any pending handshake.
  644. * Why doesn't my server application receive a client certificate?
  645. Due to the TLS protocol definition, a client will only send a certificate,
  646. if explicitly asked by the server. Use the SSL_VERIFY_PEER flag of the
  647. SSL_CTX_set_verify() function to enable the use of client certificates.
  648. * Why does compilation fail due to an undefined symbol NID_uniqueIdentifier?
  649. For OpenSSL 0.9.7 the OID table was extended and corrected. In earlier
  650. versions, uniqueIdentifier was incorrectly used for X.509 certificates.
  651. The correct name according to RFC2256 (LDAP) is x500UniqueIdentifier.
  652. Change your code to use the new name when compiling against OpenSSL 0.9.7.
  653. * I think I've detected a memory leak, is this a bug?
  654. In most cases the cause of an apparent memory leak is an OpenSSL internal table
  655. that is allocated when an application starts up. Since such tables do not grow
  656. in size over time they are harmless.
  657. These internal tables can be freed up when an application closes using various
  658. functions. Currently these include following:
  659. Thread-local cleanup functions:
  660. ERR_remove_state()
  661. Application-global cleanup functions that are aware of usage (and therefore
  662. thread-safe):
  663. ENGINE_cleanup() and CONF_modules_unload()
  664. "Brutal" (thread-unsafe) Application-global cleanup functions:
  665. ERR_free_strings(), EVP_cleanup() and CRYPTO_cleanup_all_ex_data().
  666. ===============================================================================