diff --git a/demos/tunala/.cvsignore b/demos/tunala/.cvsignore deleted file mode 100644 index f9eca981d2f1c5d58bea0a893fa78fd799d235fc..0000000000000000000000000000000000000000 --- a/demos/tunala/.cvsignore +++ /dev/null @@ -1,4 +0,0 @@ -tunala - -*.flc -semantic.cache diff --git a/demos/tunala/A-client.pem b/demos/tunala/A-client.pem deleted file mode 100644 index a4caf6ef8a85325d2018e21c35f30c052d467a25..0000000000000000000000000000000000000000 --- a/demos/tunala/A-client.pem +++ /dev/null @@ -1,84 +0,0 @@ -Certificate: - Data: - Version: 3 (0x2) - Serial Number: 2 (0x2) - Signature Algorithm: md5WithRSAEncryption - Issuer: C=NZ, L=Wellington, O=Really Irresponsible Authorisation Authority (RIAA), OU=Cert-stamping, CN=Jackov al-Trades/Email=none@fake.domain - Validity - Not Before: Jan 16 05:19:30 2002 GMT - Not After : Jan 14 05:19:30 2012 GMT - Subject: C=NZ, L=Auckland, O=Mordor, OU=SSL grunt things, CN=tunala-client/Email=client@fake.domain - Subject Public Key Info: - Public Key Algorithm: rsaEncryption - RSA Public Key: (1024 bit) - Modulus (1024 bit): - 00:b0:d3:56:5c:c8:7f:fb:f4:95:9d:04:84:4f:82: - b7:a2:75:5c:81:48:8c:56:5d:52:ee:38:e1:5c:c8: - 9a:70:8e:72:f2:00:1c:17:ef:df:b7:06:59:82:04: - f1:f6:49:11:12:a6:4d:cb:1e:ed:ac:59:1c:4a:d0: - 3d:de:e6:f2:8d:cd:39:c2:0f:e0:46:2f:db:cb:9f: - 47:f7:56:e7:f8:16:5f:68:71:fb:3a:e3:ab:d2:e5: - 05:b7:da:65:61:fe:6d:30:e4:12:a8:b5:c1:71:24: - 6b:aa:80:05:41:17:a0:8b:6e:8b:e6:04:cf:85:7b: - 2a:ac:a1:79:7d:f4:96:6e:77 - Exponent: 65537 (0x10001) - X509v3 extensions: - X509v3 Basic Constraints: - CA:FALSE - Netscape Comment: - OpenSSL Generated Certificate - X509v3 Subject Key Identifier: - F8:43:CB:4F:4D:4F:BC:6E:52:1A:FD:F9:7B:E1:12:3F:A7:A3:BA:93 - X509v3 Authority Key Identifier: - keyid:49:FB:45:72:12:C4:CC:E1:45:A1:D3:08:9E:95:C4:2C:6D:55:3F:17 - DirName:/C=NZ/L=Wellington/O=Really Irresponsible Authorisation Authority (RIAA)/OU=Cert-stamping/CN=Jackov al-Trades/Email=none@fake.domain - serial:00 - - Signature Algorithm: md5WithRSAEncryption - 8f:5f:0e:43:da:9d:61:43:7e:03:38:9a:e6:50:9d:42:e8:95: - 34:49:75:ec:04:8d:5c:85:99:94:70:a0:e7:1f:1e:a0:8b:0f: - d6:e2:cb:f7:35:d9:96:72:bd:a6:e9:8d:4e:b1:e2:ac:97:7f: - 2f:70:01:9d:aa:04:bc:d4:01:2b:63:77:a5:de:63:3c:a8:f5: - f2:72:af:ec:11:12:c0:d4:70:cf:71:a6:fb:e9:1d:b3:27:07: - aa:f2:b1:f3:87:d6:ab:8b:ce:c2:08:1b:3c:f9:ba:ff:77:71: - 86:09:ef:9e:4e:04:06:63:44:e9:93:20:90:c7:2d:50:c6:50: - f8:66 ------BEGIN CERTIFICATE----- -MIID9TCCA16gAwIBAgIBAjANBgkqhkiG9w0BAQQFADCBtDELMAkGA1UEBhMCTlox -EzARBgNVBAcTCldlbGxpbmd0b24xPDA6BgNVBAoTM1JlYWxseSBJcnJlc3BvbnNp -YmxlIEF1dGhvcmlzYXRpb24gQXV0aG9yaXR5IChSSUFBKTEWMBQGA1UECxMNQ2Vy -dC1zdGFtcGluZzEZMBcGA1UEAxMQSmFja292IGFsLVRyYWRlczEfMB0GCSqGSIb3 -DQEJARYQbm9uZUBmYWtlLmRvbWFpbjAeFw0wMjAxMTYwNTE5MzBaFw0xMjAxMTQw -NTE5MzBaMIGHMQswCQYDVQQGEwJOWjERMA8GA1UEBxMIQXVja2xhbmQxDzANBgNV -BAoTBk1vcmRvcjEZMBcGA1UECxMQU1NMIGdydW50IHRoaW5nczEWMBQGA1UEAxMN -dHVuYWxhLWNsaWVudDEhMB8GCSqGSIb3DQEJARYSY2xpZW50QGZha2UuZG9tYWlu 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-79+3BlmCBPH2SRESpk3LHu2sWRxK0D3e5vKNzTnCD+BGL9vLn0f3Vuf4Fl9ocfs6 -46vS5QW32mVh/m0w5BKotcFxJGuqgAVBF6CLbovmBM+FeyqsoXl99JZudwIDAQAB -AoGAU4chbqbPvkclPYzaq2yGLlneHrwUft+KwzlfS6L/QVgo+CQRIUWQmjaHpaGM -YtjVFcg1S1QK1bUqZjTEZT0XKhfbYmqW8yYTfbcDEbnY7esoYlvIlW8qRlPRlTBE -utKrtZafmVhLgoNawYGD0aLZofPqpYjbGUlrC7nrem2vNJECQQDVLD3Qb+OlEMET -73ApnJhYsK3e+G2LTrtjrS8y5zS4+Xv61XUqvdV7ogzRl0tpvSAmMOItVyoYadkB -S3xSIWX9AkEA1Fm1FhkQSZwGG5rf4c6gMN71jJ6JE3/kocdVa0sUjRevIupo4XQ2 -Vkykxi84MRP8cfHqyjewq7Ozv3op2MGWgwJBAKemsb66IJjzAkaBav7u70nhOf0/ -+Dc1Zl7QF2y7NVW8sGrnccx5m+ot2lMD4AV6/kvK6jaqdKrapBZGnbGiHqkCQQDI -T1r33mqz1R8Z2S2Jtzz6/McKf930a/dC+GLGVEutkILf39lRmytKmv/wB0jtWtoO -rlJ5sLDSNzC+1cE1u997AkEAu3IrtGmLKiuS6kDj6W47m+iiTIsuSJtTJb1SbUaK -fIoBNFxbvJYW6rUU9+PxpMRaEhzh5s24/jBOE+mlb17mRQ== ------END RSA PRIVATE KEY----- diff --git a/demos/tunala/A-server.pem b/demos/tunala/A-server.pem deleted file mode 100644 index e9f37b1895b1290c17056949ce80570497f9d6c1..0000000000000000000000000000000000000000 --- a/demos/tunala/A-server.pem +++ /dev/null @@ -1,84 +0,0 @@ -Certificate: - Data: - Version: 3 (0x2) - Serial Number: 1 (0x1) - Signature Algorithm: md5WithRSAEncryption - Issuer: C=NZ, L=Wellington, O=Really Irresponsible Authorisation Authority (RIAA), OU=Cert-stamping, CN=Jackov al-Trades/Email=none@fake.domain - Validity - Not Before: Jan 16 05:14:06 2002 GMT - Not After : Jan 14 05:14:06 2012 GMT - Subject: C=NZ, L=Wellington, O=Middle Earth, OU=SSL dev things, CN=tunala-server/Email=server@fake.domain - Subject Public Key Info: - Public Key Algorithm: rsaEncryption - RSA Public Key: (1024 bit) - Modulus (1024 bit): - 00:a9:3e:62:87:97:13:6b:de:8f:bc:1d:0a:3f:65: - 0c:f9:76:a3:53:ce:97:30:27:0d:c6:df:72:1f:8d: - 5a:ce:58:23:6a:65:e5:e3:72:1a:8d:7f:fe:90:01: - ea:42:f1:9f:6e:7b:0a:bd:eb:52:15:7b:f4:3d:9c: - 4e:db:74:29:2b:d1:81:9d:b9:9e:18:2b:87:e1:da: - 50:20:3c:59:6c:c9:83:3e:2c:11:0b:78:1e:03:f4: - 56:3a:db:95:6a:75:33:85:a9:7b:cc:3c:4a:67:96: - f2:24:b2:a0:cb:2e:cc:52:18:16:6f:44:d9:29:64: - 07:2e:fb:56:cc:7c:dc:a2:d7 - Exponent: 65537 (0x10001) - X509v3 extensions: - X509v3 Basic Constraints: - CA:FALSE - Netscape Comment: - OpenSSL Generated Certificate - X509v3 Subject Key Identifier: - 70:AC:7A:B5:6E:97:C2:82:AF:11:9E:32:CB:8D:48:49:93:B7:DC:22 - X509v3 Authority Key Identifier: - keyid:49:FB:45:72:12:C4:CC:E1:45:A1:D3:08:9E:95:C4:2C:6D:55:3F:17 - DirName:/C=NZ/L=Wellington/O=Really Irresponsible Authorisation Authority (RIAA)/OU=Cert-stamping/CN=Jackov al-Trades/Email=none@fake.domain - serial:00 - - Signature Algorithm: md5WithRSAEncryption - 2e:cb:a3:cd:6d:a8:9d:d1:dc:e5:f0:e0:27:7e:4b:5a:90:a8: - 85:43:f0:05:f7:04:43:d7:5f:d1:a5:8f:5c:58:eb:fc:da:c6: - 7c:e0:0b:2b:98:72:95:f6:79:48:96:7a:fa:0c:6b:09:ec:c6: - 8c:91:74:45:9f:8f:0f:16:78:e3:66:14:fa:1e:f4:f0:23:ec: - cd:a9:52:77:20:4d:c5:05:2c:52:b6:7b:f3:42:33:fd:90:1f: - 3e:88:6f:9b:23:61:c8:80:3b:e6:57:84:2e:f7:26:c7:35:ed: - 00:8b:08:30:9b:aa:21:83:b6:6d:b8:7c:8a:9b:2a:ef:79:3d: - 96:31 ------BEGIN CERTIFICATE----- -MIID+zCCA2SgAwIBAgIBATANBgkqhkiG9w0BAQQFADCBtDELMAkGA1UEBhMCTlox -EzARBgNVBAcTCldlbGxpbmd0b24xPDA6BgNVBAoTM1JlYWxseSBJcnJlc3BvbnNp -YmxlIEF1dGhvcmlzYXRpb24gQXV0aG9yaXR5IChSSUFBKTEWMBQGA1UECxMNQ2Vy -dC1zdGFtcGluZzEZMBcGA1UEAxMQSmFja292IGFsLVRyYWRlczEfMB0GCSqGSIb3 -DQEJARYQbm9uZUBmYWtlLmRvbWFpbjAeFw0wMjAxMTYwNTE0MDZaFw0xMjAxMTQw -NTE0MDZaMIGNMQswCQYDVQQGEwJOWjETMBEGA1UEBxMKV2VsbGluZ3RvbjEVMBMG -A1UEChMMTWlkZGxlIEVhcnRoMRcwFQYDVQQLEw5TU0wgZGV2IHRoaW5nczEWMBQG -A1UEAxMNdHVuYWxhLXNlcnZlcjEhMB8GCSqGSIb3DQEJARYSc2VydmVyQGZha2Uu -ZG9tYWluMIGfMA0GCSqGSIb3DQEBAQUAA4GNADCBiQKBgQCpPmKHlxNr3o+8HQo/ -ZQz5dqNTzpcwJw3G33IfjVrOWCNqZeXjchqNf/6QAepC8Z9uewq961IVe/Q9nE7b -dCkr0YGduZ4YK4fh2lAgPFlsyYM+LBELeB4D9FY625VqdTOFqXvMPEpnlvIksqDL -LsxSGBZvRNkpZAcu+1bMfNyi1wIDAQABo4IBQDCCATwwCQYDVR0TBAIwADAsBglg -hkgBhvhCAQ0EHxYdT3BlblNTTCBHZW5lcmF0ZWQgQ2VydGlmaWNhdGUwHQYDVR0O 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-dC1zdGFtcGluZzEZMBcGA1UEAxMQSmFja292IGFsLVRyYWRlczEfMB0GCSqGSIb3 -DQEJARYQbm9uZUBmYWtlLmRvbWFpbjAeFw0wMjAxMTYwNTA5NTlaFw0xMjAxMTQw -NTA5NTlaMIG0MQswCQYDVQQGEwJOWjETMBEGA1UEBxMKV2VsbGluZ3RvbjE8MDoG -A1UEChMzUmVhbGx5IElycmVzcG9uc2libGUgQXV0aG9yaXNhdGlvbiBBdXRob3Jp -dHkgKFJJQUEpMRYwFAYDVQQLEw1DZXJ0LXN0YW1waW5nMRkwFwYDVQQDExBKYWNr -b3YgYWwtVHJhZGVzMR8wHQYJKoZIhvcNAQkBFhBub25lQGZha2UuZG9tYWluMIGf -MA0GCSqGSIb3DQEBAQUAA4GNADCBiQKBgQC7QdDfFIrJn3X24hKmpkyk3TG0Ivxd -K2wWmDPXq1wjr8lUTwrA6hM5Ba9N36jLieWpXhviLOWu9DBza5GmtgCuXloATKTC -94xOdKHlciTVujG3wDlLDB5e710Kar84nnj6VueL1RyZ0bmP5PANa4mbGW9Tqc7J -CkBTTW2y9d0SgQIDAQABo4IBFTCCAREwHQYDVR0OBBYEFEn7RXISxMzhRaHTCJ6V -xCxtVT8XMIHhBgNVHSMEgdkwgdaAFEn7RXISxMzhRaHTCJ6VxCxtVT8XoYG6pIG3 -MIG0MQswCQYDVQQGEwJOWjETMBEGA1UEBxMKV2VsbGluZ3RvbjE8MDoGA1UEChMz -UmVhbGx5IElycmVzcG9uc2libGUgQXV0aG9yaXNhdGlvbiBBdXRob3JpdHkgKFJJ -QUEpMRYwFAYDVQQLEw1DZXJ0LXN0YW1waW5nMRkwFwYDVQQDExBKYWNrb3YgYWwt -VHJhZGVzMR8wHQYJKoZIhvcNAQkBFhBub25lQGZha2UuZG9tYWluggEAMAwGA1Ud -EwQFMAMBAf8wDQYJKoZIhvcNAQEEBQADgYEAYQo95V/NY+eKxYxkhibZiUQygph+ -gTfgbDG20MsnH6+8//w5ArHauFCgDrf0P2VyACgq+N4pBTWFGaAaLwbjKy9HCe2E -j9C91tO1CqDS4MJkDB5AP13FTkK6fP1ZCiTQranOAp3DlGWTTWsFVyW5kVfQ9diS -ZOyJZ9Fit5XM2X0= ------END CERTIFICATE----- diff --git a/demos/tunala/INSTALL b/demos/tunala/INSTALL deleted file mode 100644 index a65bbeb8d11b7f99a39acd6f571464471d8f3156..0000000000000000000000000000000000000000 --- a/demos/tunala/INSTALL +++ /dev/null @@ -1,107 +0,0 @@ -There are two ways to build this code; - -(1) Manually - -(2) Using all-singing all-dancing (all-confusing) autotools, ie. autoconf, -automake, and their little friends (autoheader, etc). - -================= -Building Manually -================= - -There is a basic "Makefile" in this directory that gets moved out of the way and -ignored when building with autoconf et al. This Makefile is suitable for -building tunala on Linux using gcc. Any other platform probably requires some -tweaking. Here are the various bits you might need to do if you want to build -this way and the default Makefile isn't sufficient; - -* Compiler: Edit the "CC" definition in Makefile - -* Headers, features: tunala.h controls what happens in the non-autoconf world. - It, by default, assumes the system has *everything* (except autoconf's - "config.h") so if a target system is missing something it must define the - appropriate "NO_***" symbols in CFLAGS. These include; - - - NO_HAVE_UNISTD_H, NO_HAVE_FCNTL_H, NO_HAVE_LIMITS_H - Indicates the compiling system doesn't have (or need) these header files. - - NO_HAVE_STRSTR, NO_HAVE_STRTOUL - Indicates the compiling system doesn't have these functions. Replacements - are compiled and used in breakage.c - - NO_HAVE_SELECT, NO_HAVE_SOCKET - Pointless symbols - these indicate select() and/or socket() are missing in - which case the program won't compile anyway. - - If you want to specify any of these, add them with "-D" prefixed to each in - the CFLAGS definition in Makefile. - -* Compilation flags: edit DEBUG_FLAGS and/or CFLAGS directly to control the - flags passed to the compiler. This can also be used to change the degree of - optimisation. - -* Linker flags: some systems (eg. Solaris) require extra linker flags such as; - -ldl, -lsocket, -lnsl, etc. If unsure, bring up the man page for whichever - function is "undefined" when the linker fails - that usually indicates what - you need to add. Make changes to the LINK_FLAGS symbol. - -* Linker command: if a different linker syntax or even a different program is - required to link, edit the linker line directly in the "tunala:" target - definition - it currently assumes the "CC" (compiler) program is used to link. - -====================== -Building Automagically -====================== - -Automagic building is handled courtesy of autoconf, automake, etc. There are in -fact two steps required to build, and only the first has to be done on a system -with these tools installed (and if I was prepared to bloat out the CVS -repository, I could store these extra files, but I'm not). - -First step: "autogunk.sh" -------------------------- - -The "./autogunk.sh" script will call all the necessary autotool commands to -create missing files and run automake and autoconf. The result is that a -"./configure" script should be generated and a "Makefile.in" generated from the -supplied "Makefile.am". NB: This script also moves the "manual" Makefile (see -above) out of the way and calls it "Makefile.plain" - the "ungunk" script -reverses this to leave the directory it was previously. - -Once "ungunk" has been run, the resulting directory should be able to build on -other systems without autoconf, automake, or libtool. Which is what the second -step describes; - -Second step: "./configure" --------------------------- - -The second step is to run the generated "./configure" script to create a -config.h header for your system and to generate a "Makefile" (generated from -"Makefile.in") tweaked to compile on your system. This is the standard sort of -thing you see in GNU packages, for example, and the standard tricks also work. -Eg. to override "configure"'s choice of compiler, set the CC environment -variable prior to running configure, eg. - - CC=gcc ./configure - -would cause "gcc" to be used even if there is an otherwise preferable (to -autoconf) native compiler on your system. - -After this run "make" and it should build the "tunala" executable. - -Notes ------ - -- Some versions of autoconf (or automake?) generate a Makefile syntax that gives - trouble to some "make" programs on some systems (eg. OpenBSD). If this - happens, either build 'Manually' (see above) or use "gmake" instead of "make". - I don't like this either but like even less the idea of sifting into all the - script magic crud that's involved. - -- On a solaris system I tried, the "configure" script specified some broken - compiler flags in the resulting Makefile that don't even get echoed to - stdout/err when the error happens (evil!). If this happens, go into the - generated Makefile, find the two affected targets ("%.o:" and "%.lo"), and - remove the offending hidden option in the $(COMPILE) line all the sludge after - the two first lines of script (ie. after the "echo" and the "COMPILE" lines). - NB: This will probably only function if "--disable-shared" was used, otherwise - who knows what would result ... - diff --git a/demos/tunala/Makefile b/demos/tunala/Makefile deleted file mode 100644 index bef1704a3caa69018d404fb260e0bb334b146beb..0000000000000000000000000000000000000000 --- a/demos/tunala/Makefile +++ /dev/null @@ -1,41 +0,0 @@ -# Edit these to suit -# -# Oh yeah, and please read the README too. - - -SSL_HOMEDIR=../.. -SSL_INCLUDEDIR=$(SSL_HOMEDIR)/include -SSL_LIBDIR=$(SSL_HOMEDIR) - -RM=rm -f -CC=gcc -DEBUG_FLAGS=-g -ggdb3 -Wall -Wshadow -INCLUDE_FLAGS=-I$(SSL_INCLUDEDIR) -CFLAGS=$(DEBUG_FLAGS) $(INCLUDE_FLAGS) -DNO_CONFIG_H -COMPILE=$(CC) $(CFLAGS) -c - -# Edit, particularly the "-ldl" if not building with "dlfcn" support -LINK_FLAGS=-L$(SSL_LIBDIR) -lssl -lcrypto -ldl - -SRCS=buffer.c cb.c ip.c sm.c tunala.c breakage.c -OBJS=buffer.o cb.o ip.o sm.o tunala.o breakage.o - -TARGETS=tunala - -default: $(TARGETS) - -clean: - $(RM) $(OBJS) $(TARGETS) *.bak core - -.c.o: - $(COMPILE) $< - -tunala: $(OBJS) - $(CC) -o tunala $(OBJS) $(LINK_FLAGS) - -# Extra dependencies, should really use makedepend -buffer.o: buffer.c tunala.h -cb.o: cb.c tunala.h -ip.o: ip.c tunala.h -sm.o: sm.c tunala.h -tunala.o: tunala.c tunala.h diff --git a/demos/tunala/Makefile.am b/demos/tunala/Makefile.am deleted file mode 100644 index 706c7806c9d91e38f94a2939b70a600266189a39..0000000000000000000000000000000000000000 --- a/demos/tunala/Makefile.am +++ /dev/null @@ -1,7 +0,0 @@ -# Our includes come from the OpenSSL build-tree we're in -INCLUDES = -I$(top_builddir)/../../include - -bin_PROGRAMS = tunala - -tunala_SOURCES = tunala.c buffer.c cb.c ip.c sm.c breakage.c -tunala_LDADD = -L$(top_builddir)/../.. -lssl -lcrypto diff --git a/demos/tunala/README b/demos/tunala/README deleted file mode 100644 index 15690088f3356b69bade9676883903fd95f4fedc..0000000000000000000000000000000000000000 --- a/demos/tunala/README +++ /dev/null @@ -1,233 +0,0 @@ -This is intended to be an example of a state-machine driven SSL application. It -acts as an SSL tunneler (functioning as either the server or client half, -depending on command-line arguments). *PLEASE* read the comments in tunala.h -before you treat this stuff as anything more than a curiosity - YOU HAVE BEEN -WARNED!! There, that's the draconian bit out of the way ... - - -Why "tunala"?? --------------- - -I thought I asked you to read tunala.h?? :-) - - -Show me -------- - -If you want to simply see it running, skip to the end and see some example -command-line arguments to demonstrate with. - - -Where to look and what to do? ------------------------------ - -The code is split up roughly coinciding with the detaching of an "abstract" SSL -state machine (which is the purpose of all this) and its surrounding application -specifics. This is primarily to make it possible for me to know when I could cut -corners and when I needed to be rigorous (or at least maintain the pretense as -such :-). - -Network stuff: - -Basically, the network part of all this is what is supposed to be abstracted out -of the way. The intention is to illustrate one way to stick OpenSSL's mechanisms -inside a little memory-driven sandbox and operate it like a pure state-machine. -So, the network code is inside both ip.c (general utility functions and gory -IPv4 details) and tunala.c itself, which takes care of application specifics -like the main select() loop. The connectivity between the specifics of this -application (TCP/IP tunneling and the associated network code) and the -underlying abstract SSL state machine stuff is through the use of the "buffer_t" -type, declared in tunala.h and implemented in buffer.c. - -State machine: - -Which leaves us, generally speaking, with the abstract "state machine" code left -over and this is sitting inside sm.c, with declarations inside tunala.h. As can -be seen by the definition of the state_machine_t structure and the associated -functions to manipulate it, there are the 3 OpenSSL "handles" plus 4 buffer_t -structures dealing with IO on both the encrypted and unencrypted sides ("dirty" -and "clean" respectively). The "SSL" handle is what facilitates the reading and -writing of the unencrypted (tunneled) data. The two "BIO" handles act as the -read and write channels for encrypted tunnel traffic - in other applications -these are often socket BIOs so that the OpenSSL framework operates with the -network layer directly. In this example, those two BIOs are memory BIOs -(BIO_s_mem()) so that the sending and receiving of the tunnel traffic stays -within the state-machine, and we can handle where this gets send to (or read -from) ourselves. - - -Why? ----- - -If you take a look at the "state_machine_t" section of tunala.h and the code in -sm.c, you will notice that nothing related to the concept of 'transport' is -involved. The binding to TCP/IP networking occurs in tunala.c, specifically -within the "tunala_item_t" structure that associates a state_machine_t object -with 4 file-descriptors. The way to best see where the bridge between the -outside world (TCP/IP reads, writes, select()s, file-descriptors, etc) and the -state machine is, is to examine the "tunala_item_io()" function in tunala.c. -This is currently around lines 641-732 but of course could be subject to change. - - -And...? -------- - -Well, although that function is around 90 lines of code, it could easily have -been a lot less only I was trying to address an easily missed "gotcha" (item (2) -below). The main() code that drives the select/accept/IO loop initialises new -tunala_item_t structures when connections arrive, and works out which -file-descriptors go where depending on whether we're an SSL client or server -(client --> accepted connection is clean and proxied is dirty, server --> -accepted connection is dirty and proxied is clean). What that tunala_item_io() -function is attempting to do is 2 things; - - (1) Perform all reads and writes on the network directly into the - state_machine_t's buffers (based on a previous select() result), and only - then allow the abstact state_machine_t to "churn()" using those buffers. - This will cause the SSL machine to consume as much input data from the two - "IN" buffers as possible, and generate as much output data into the two - "OUT" buffers as possible. Back up in the main() function, the next main - loop loop will examine these output buffers and select() for writability - on the corresponding sockets if the buffers are non-empty. - - (2) Handle the complicated tunneling-specific issue of cascading "close"s. - This is the reason for most of the complexity in the logic - if one side - of the tunnel is closed, you can't simply close the other side and throw - away the whole thing - (a) there may still be outgoing data on the other - side of the tunnel that hasn't been sent yet, (b) the close (or things - happening during the close) may cause more data to be generated that needs - sending on the other side. Of course, this logic is complicated yet futher - by the fact that it's different depending on which side closes first :-) - state_machine_close_clean() will indicate to the state machine that the - unencrypted side of the tunnel has closed, so any existing outgoing data - needs to be flushed, and the SSL stream needs to be closed down using the - appropriate shutdown sequence. state_machine_close_dirty() is simpler - because it indicates that the SSL stream has been disconnected, so all - that remains before closing the other side is to flush out anything that - remains and wait for it to all be sent. - -Anyway, with those things in mind, the code should be a little easier to follow -in terms of "what is *this* bit supposed to achieve??!!". - - -How might this help? --------------------- - -Well, the reason I wrote this is that there seemed to be rather a flood of -questions of late on the openssl-dev and openssl-users lists about getting this -whole IO logic thing sorted out, particularly by those who were trying to either -use non-blocking IO, or wanted SSL in an environment where "something else" was -handling the network already and they needed to operate in memory only. This -code is loosely based on some other stuff I've been working on, although that -stuff is far more complete, far more dependant on a whole slew of other -network/framework code I don't want to incorporate here, and far harder to look -at for 5 minutes and follow where everything is going. I will be trying over -time to suck in a few things from that into this demo in the hopes it might be -more useful, and maybe to even make this demo usable as a utility of its own. -Possible things include: - - * controlling multiple processes/threads - this can be used to combat - latencies and get passed file-descriptor limits on some systems, and it uses - a "controller" process/thread that maintains IPC links with the - processes/threads doing the real work. - - * cert verification rules - having some say over which certs get in or out :-) - - * control over SSL protocols and cipher suites - - * A few other things you can already do in s_client and s_server :-) - - * Support (and control over) session resuming, particularly when functioning - as an SSL client. - -If you have a particular environment where this model might work to let you "do -SSL" without having OpenSSL be aware of the transport, then you should find you -could use the state_machine_t structure (or your own variant thereof) and hook -it up to your transport stuff in much the way tunala.c matches it up with those -4 file-descriptors. The state_machine_churn(), state_machine_close_clean(), and -state_machine_close_dirty() functions are the main things to understand - after -that's done, you just have to ensure you're feeding and bleeding the 4 -state_machine buffers in a logical fashion. This state_machine loop handles not -only handshakes and normal streaming, but also renegotiates - there's no special -handling required beyond keeping an eye on those 4 buffers and keeping them in -sync with your outer "loop" logic. Ie. if one of the OUT buffers is not empty, -you need to find an opportunity to try and forward its data on. If one of the IN -buffers is not full, you should keep an eye out for data arriving that should be -placed there. - -This approach could hopefully also allow you to run the SSL protocol in very -different environments. As an example, you could support encrypted event-driven -IPC where threads/processes pass messages to each other inside an SSL layer; -each IPC-message's payload would be in fact the "dirty" content, and the "clean" -payload coming out of the tunnel at each end would be the real intended message. -Likewise, this could *easily* be made to work across unix domain sockets, or -even entirely different network/comms protocols. - -This is also a quick and easy way to do VPN if you (and the remote network's -gateway) support virtual network devices that are encapsulted in a single -network connection, perhaps PPP going through an SSL tunnel? - - -Suggestions ------------ - -Please let me know if you find this useful, or if there's anything wrong or -simply too confusing about it. Patches are also welcome, but please attach a -description of what it changes and why, and "diff -urN" format is preferred. -Mail to geoff@openssl.org should do the trick. - - -Example -------- - -Here is an example of how to use "tunala" ... - -First, it's assumed that OpenSSL has already built, and that you are building -inside the ./demos/tunala/ directory. If not - please correct the paths and -flags inside the Makefile. Likewise, if you want to tweak the building, it's -best to try and do so in the makefile (eg. removing the debug flags and adding -optimisation flags). - -Secondly, this code has mostly only been tested on Linux. However, some -autoconf/etc support has been added and the code has been compiled on openbsd -and solaris using that. - -Thirdly, if you are Win32, you probably need to do some *major* rewriting of -ip.c to stand a hope in hell. Good luck, and please mail me the diff if you do -this, otherwise I will take a look at another time. It can certainly be done, -but it's very non-POSIXy. - -See the INSTALL document for details on building. - -Now, if you don't have an executable "tunala" compiled, go back to "First,...". -Rinse and repeat. - -Inside one console, try typing; - -(i) ./tunala -listen localhost:8080 -proxy localhost:8081 -cacert CA.pem \ - -cert A-client.pem -out_totals -v_peer -v_strict - -In another console, type; - -(ii) ./tunala -listen localhost:8081 -proxy localhost:23 -cacert CA.pem \ - -cert A-server.pem -server 1 -out_totals -v_peer -v_strict - -Now if you open another console and "telnet localhost 8080", you should be -tunneled through to the telnet service on your local machine (if it's running - -you could change it to port "22" and tunnel ssh instead if you so desired). When -you logout of the telnet session, the tunnel should cleanly shutdown and show -you some traffic stats in both consoles. Feel free to experiment. :-) - -Notes: - - - the format for the "-listen" argument can skip the host part (eg. "-listen - 8080" is fine). If you do, the listening socket will listen on all interfaces - so you can connect from other machines for example. Using the "localhost" - form listens only on 127.0.0.1 so you can only connect locally (unless, of - course, you've set up weird stuff with your networking in which case probably - none of the above applies). - - - ./tunala -? gives you a list of other command-line options, but tunala.c is - also a good place to look :-) - - diff --git a/demos/tunala/autogunk.sh b/demos/tunala/autogunk.sh deleted file mode 100755 index c9783c6261c398ea165889b56961ec84726ad862..0000000000000000000000000000000000000000 --- a/demos/tunala/autogunk.sh +++ /dev/null @@ -1,25 +0,0 @@ -#!/bin/sh - -# This script tries to follow the "GNU way" w.r.t. the autobits. -# This does of course generate a number of irritating files. -# Try to get over it (I am getting there myself). - -# This should generate any missing crud, and then run autoconf which should turn -# configure.in into a "./configure" script and "Makefile.am" into a -# "Makefile.in". Then running "./configure" should turn "Makefile.in" into -# "Makefile" and should generate the config.h containing your systems various -# settings. I know ... what a hassle ... - -# Also, sometimes these autobits things generate bizarre output (looking like -# errors). So I direct everything "elsewhere" ... - -(aclocal -autoheader -libtoolize --copy --force -automake --foreign --add-missing --copy -autoconf) 1> /dev/null 2>&1 - -# Move the "no-autotools" Makefile out of the way -if test ! -f Makefile.plain; then - mv Makefile Makefile.plain -fi diff --git a/demos/tunala/autoungunk.sh b/demos/tunala/autoungunk.sh deleted file mode 100755 index 21790880d71d828e92244c517b4a0167d5165d07..0000000000000000000000000000000000000000 --- a/demos/tunala/autoungunk.sh +++ /dev/null @@ -1,19 +0,0 @@ -#!/bin/sh - -# This script tries to clean up as much as is possible from whatever diabolical -# mess has been left in the directory thanks to autoconf, automake, and their -# friends. - -if test -f Makefile.plain; then - if test -f Makefile; then - make distclean - fi - mv Makefile.plain Makefile -else - make clean -fi - -rm -f aclocal.m4 config.* configure install-sh \ - missing mkinstalldirs stamp-h.* Makefile.in \ - ltconfig ltmain.sh depcomp -rm -rf autom4te.cache diff --git a/demos/tunala/breakage.c b/demos/tunala/breakage.c deleted file mode 100644 index dcdd64b0ef183556f5ea977ebcfcdc3624a5c717..0000000000000000000000000000000000000000 --- a/demos/tunala/breakage.c +++ /dev/null @@ -1,66 +0,0 @@ -#include "tunala.h" - -int int_strtoul(const char *str, unsigned long *val) -{ -#ifdef HAVE_STRTOUL - char *tmp; - unsigned long ret = strtoul(str, &tmp, 10); - if((str == tmp) || (*tmp != '\0')) - /* The value didn't parse cleanly */ - return 0; - if(ret == ULONG_MAX) - /* We hit a limit */ - return 0; - *val = ret; - return 1; -#else - char buf[2]; - unsigned long ret = 0; - buf[1] = '\0'; - if(str == '\0') - /* An empty string ... */ - return 0; - while(*str != '\0') { - /* We have to multiply 'ret' by 10 before absorbing the next - * digit. If this will overflow, catch it now. */ - if(ret && (((ULONG_MAX + 10) / ret) < 10)) - return 0; - ret *= 10; - if(!isdigit(*str)) - return 0; - buf[0] = *str; - ret += atoi(buf); - str++; - } - *val = ret; - return 1; -#endif -} - -#ifndef HAVE_STRSTR -char *int_strstr(const char *haystack, const char *needle) -{ - const char *sub_haystack = haystack, *sub_needle = needle; - unsigned int offset = 0; - if(!needle) - return haystack; - if(!haystack) - return NULL; - while((*sub_haystack != '\0') && (*sub_needle != '\0')) { - if(sub_haystack[offset] == sub_needle) { - /* sub_haystack is still a candidate */ - offset++; - sub_needle++; - } else { - /* sub_haystack is no longer a possibility */ - sub_haystack++; - offset = 0; - sub_needle = needle; - } - } - if(*sub_haystack == '\0') - /* Found nothing */ - return NULL; - return sub_haystack; -} -#endif diff --git a/demos/tunala/buffer.c b/demos/tunala/buffer.c deleted file mode 100644 index c5cd004209ad9a033781e7ff33612985c1e3674d..0000000000000000000000000000000000000000 --- a/demos/tunala/buffer.c +++ /dev/null @@ -1,205 +0,0 @@ -#include "tunala.h" - -#ifndef NO_BUFFER - -void buffer_init(buffer_t *buf) -{ - buf->used = 0; - buf->total_in = buf->total_out = 0; -} - -void buffer_close(buffer_t *buf) -{ - /* Our data is static - nothing needs "release", just reset it */ - buf->used = 0; -} - -/* Code these simple ones in compact form */ -unsigned int buffer_used(buffer_t *buf) { - return buf->used; } -unsigned int buffer_unused(buffer_t *buf) { - return (MAX_DATA_SIZE - buf->used); } -int buffer_full(buffer_t *buf) { - return (buf->used == MAX_DATA_SIZE ? 1 : 0); } -int buffer_notfull(buffer_t *buf) { - return (buf->used < MAX_DATA_SIZE ? 1 : 0); } -int buffer_empty(buffer_t *buf) { - return (buf->used == 0 ? 1 : 0); } -int buffer_notempty(buffer_t *buf) { - return (buf->used > 0 ? 1 : 0); } -unsigned long buffer_total_in(buffer_t *buf) { - return buf->total_in; } -unsigned long buffer_total_out(buffer_t *buf) { - return buf->total_out; } - -/* These 3 static (internal) functions don't adjust the "total" variables as - * it's not sure when they're called how it should be interpreted. Only the - * higher-level "buffer_[to|from]_[fd|SSL|BIO]" functions should alter these - * values. */ -#if 0 /* To avoid "unused" warnings */ -static unsigned int buffer_adddata(buffer_t *buf, const unsigned char *ptr, - unsigned int size) -{ - unsigned int added = MAX_DATA_SIZE - buf->used; - if(added > size) - added = size; - if(added == 0) - return 0; - memcpy(buf->data + buf->used, ptr, added); - buf->used += added; - buf->total_in += added; - return added; -} - -static unsigned int buffer_tobuffer(buffer_t *to, buffer_t *from, int cap) -{ - unsigned int moved, tomove = from->used; - if((int)tomove > cap) - tomove = cap; - if(tomove == 0) - return 0; - moved = buffer_adddata(to, from->data, tomove); - if(moved == 0) - return 0; - buffer_takedata(from, NULL, moved); - return moved; -} -#endif - -static unsigned int buffer_takedata(buffer_t *buf, unsigned char *ptr, - unsigned int size) -{ - unsigned int taken = buf->used; - if(taken > size) - taken = size; - if(taken == 0) - return 0; - if(ptr) - memcpy(ptr, buf->data, taken); - buf->used -= taken; - /* Do we have to scroll? */ - if(buf->used > 0) - memmove(buf->data, buf->data + taken, buf->used); - return taken; -} - -#ifndef NO_IP - -int buffer_from_fd(buffer_t *buf, int fd) -{ - int toread = buffer_unused(buf); - if(toread == 0) - /* Shouldn't be called in this case! */ - abort(); - toread = read(fd, buf->data + buf->used, toread); - if(toread > 0) { - buf->used += toread; - buf->total_in += toread; - } - return toread; -} - -int buffer_to_fd(buffer_t *buf, int fd) -{ - int towrite = buffer_used(buf); - if(towrite == 0) - /* Shouldn't be called in this case! */ - abort(); - towrite = write(fd, buf->data, towrite); - if(towrite > 0) { - buffer_takedata(buf, NULL, towrite); - buf->total_out += towrite; - } - return towrite; -} - -#endif /* !defined(NO_IP) */ - -#ifndef NO_OPENSSL - -static void int_ssl_check(SSL *s, int ret) -{ - int e = SSL_get_error(s, ret); - switch(e) { - /* These seem to be harmless and already "dealt with" by our - * non-blocking environment. NB: "ZERO_RETURN" is the clean - * "error" indicating a successfully closed SSL tunnel. We let - * this happen because our IO loop should not appear to have - * broken on this condition - and outside the IO loop, the - * "shutdown" state is checked. */ - case SSL_ERROR_NONE: - case SSL_ERROR_WANT_READ: - case SSL_ERROR_WANT_WRITE: - case SSL_ERROR_WANT_X509_LOOKUP: - case SSL_ERROR_ZERO_RETURN: - return; - /* These seem to be indications of a genuine error that should - * result in the SSL tunnel being regarded as "dead". */ - case SSL_ERROR_SYSCALL: - case SSL_ERROR_SSL: - SSL_set_app_data(s, (char *)1); - return; - default: - break; - } - /* For any other errors that (a) exist, and (b) crop up - we need to - * interpret what to do with them - so "politely inform" the caller that - * the code needs updating here. */ - abort(); -} - -void buffer_from_SSL(buffer_t *buf, SSL *ssl) -{ - int ret; - if(!ssl || buffer_full(buf)) - return; - ret = SSL_read(ssl, buf->data + buf->used, buffer_unused(buf)); - if(ret > 0) { - buf->used += ret; - buf->total_in += ret; - } - if(ret < 0) - int_ssl_check(ssl, ret); -} - -void buffer_to_SSL(buffer_t *buf, SSL *ssl) -{ - int ret; - if(!ssl || buffer_empty(buf)) - return; - ret = SSL_write(ssl, buf->data, buf->used); - if(ret > 0) { - buffer_takedata(buf, NULL, ret); - buf->total_out += ret; - } - if(ret < 0) - int_ssl_check(ssl, ret); -} - -void buffer_from_BIO(buffer_t *buf, BIO *bio) -{ - int ret; - if(!bio || buffer_full(buf)) - return; - ret = BIO_read(bio, buf->data + buf->used, buffer_unused(buf)); - if(ret > 0) { - buf->used += ret; - buf->total_in += ret; - } -} - -void buffer_to_BIO(buffer_t *buf, BIO *bio) -{ - int ret; - if(!bio || buffer_empty(buf)) - return; - ret = BIO_write(bio, buf->data, buf->used); - if(ret > 0) { - buffer_takedata(buf, NULL, ret); - buf->total_out += ret; - } -} - -#endif /* !defined(NO_OPENSSL) */ - -#endif /* !defined(NO_BUFFER) */ diff --git a/demos/tunala/cb.c b/demos/tunala/cb.c deleted file mode 100644 index f6e452ae93579767944e8aba728c1a0efe0c4362..0000000000000000000000000000000000000000 --- a/demos/tunala/cb.c +++ /dev/null @@ -1,162 +0,0 @@ -#include "tunala.h" - -#ifndef NO_OPENSSL - -/* For callbacks generating output, here are their file-descriptors. */ -static FILE *fp_cb_ssl_info = NULL; -static FILE *fp_cb_ssl_verify = NULL; -/* Output level: - * 0 = nothing, - * 1 = minimal, just errors, - * 2 = minimal, all steps, - * 3 = detail, all steps */ -static unsigned int cb_ssl_verify_level = 1; - -/* Other static rubbish (to mirror s_cb.c where required) */ -static int int_verify_depth = 10; - -/* This function is largely borrowed from the one used in OpenSSL's "s_client" - * and "s_server" utilities. */ -void cb_ssl_info(const SSL *s, int where, int ret) -{ - const char *str1, *str2; - int w; - - if(!fp_cb_ssl_info) - return; - - w = where & ~SSL_ST_MASK; - str1 = (w & SSL_ST_CONNECT ? "SSL_connect" : (w & SSL_ST_ACCEPT ? - "SSL_accept" : "undefined")), - str2 = SSL_state_string_long(s); - - if (where & SSL_CB_LOOP) - fprintf(fp_cb_ssl_info, "(%s) %s\n", str1, str2); - else if (where & SSL_CB_EXIT) { - if (ret == 0) - fprintf(fp_cb_ssl_info, "(%s) failed in %s\n", str1, str2); -/* In a non-blocking model, we get a few of these "error"s simply because we're - * calling "reads" and "writes" on the state-machine that are virtual NOPs - * simply to avoid wasting the time seeing if we *should* call them. Removing - * this case makes the "-out_state" output a lot easier on the eye. */ -#if 0 - else if (ret < 0) - fprintf(fp_cb_ssl_info, "%s:error in %s\n", str1, str2); -#endif - } -} - -void cb_ssl_info_set_output(FILE *fp) -{ - fp_cb_ssl_info = fp; -} - -static const char *int_reason_no_issuer = "X509_V_ERR_UNABLE_TO_GET_ISSUER_CERT"; -static const char *int_reason_not_yet = "X509_V_ERR_CERT_NOT_YET_VALID"; -static const char *int_reason_before = "X509_V_ERR_ERROR_IN_CERT_NOT_BEFORE_FIELD"; -static const char *int_reason_expired = "X509_V_ERR_CERT_HAS_EXPIRED"; -static const char *int_reason_after = "X509_V_ERR_ERROR_IN_CERT_NOT_AFTER_FIELD"; - -/* Stolen wholesale from apps/s_cb.c :-) And since then, mutilated ... */ -int cb_ssl_verify(int ok, X509_STORE_CTX *ctx) -{ - char buf1[256]; /* Used for the subject name */ - char buf2[256]; /* Used for the issuer name */ - const char *reason = NULL; /* Error reason (if any) */ - X509 *err_cert; - int err, depth; - - if(!fp_cb_ssl_verify || (cb_ssl_verify_level == 0)) - return ok; - err_cert = X509_STORE_CTX_get_current_cert(ctx); - err = X509_STORE_CTX_get_error(ctx); - depth = X509_STORE_CTX_get_error_depth(ctx); - - buf1[0] = buf2[0] = '\0'; - /* Fill buf1 */ - X509_NAME_oneline(X509_get_subject_name(err_cert), buf1, 256); - /* Fill buf2 */ - X509_NAME_oneline(X509_get_issuer_name(ctx->current_cert), buf2, 256); - switch (ctx->error) { - case X509_V_ERR_UNABLE_TO_GET_ISSUER_CERT: - reason = int_reason_no_issuer; - break; - case X509_V_ERR_CERT_NOT_YET_VALID: - reason = int_reason_not_yet; - break; - case X509_V_ERR_ERROR_IN_CERT_NOT_BEFORE_FIELD: - reason = int_reason_before; - break; - case X509_V_ERR_CERT_HAS_EXPIRED: - reason = int_reason_expired; - break; - case X509_V_ERR_ERROR_IN_CERT_NOT_AFTER_FIELD: - reason = int_reason_after; - break; - } - - if((cb_ssl_verify_level == 1) && ok) - return ok; - fprintf(fp_cb_ssl_verify, "chain-depth=%d, ", depth); - if(reason) - fprintf(fp_cb_ssl_verify, "error=%s\n", reason); - else - fprintf(fp_cb_ssl_verify, "error=%d\n", err); - if(cb_ssl_verify_level < 3) - return ok; - fprintf(fp_cb_ssl_verify, "--> subject = %s\n", buf1); - fprintf(fp_cb_ssl_verify, "--> issuer = %s\n", buf2); - if(!ok) - fprintf(fp_cb_ssl_verify,"--> verify error:num=%d:%s\n",err, - X509_verify_cert_error_string(err)); - fprintf(fp_cb_ssl_verify, "--> verify return:%d\n",ok); - return ok; -} - -void cb_ssl_verify_set_output(FILE *fp) -{ - fp_cb_ssl_verify = fp; -} - -void cb_ssl_verify_set_depth(unsigned int verify_depth) -{ - int_verify_depth = verify_depth; -} - -void cb_ssl_verify_set_level(unsigned int level) -{ - if(level < 4) - cb_ssl_verify_level = level; -} - -RSA *cb_generate_tmp_rsa(SSL *s, int is_export, int keylength) -{ - /* TODO: Perhaps make it so our global key can be generated on-the-fly - * after certain intervals? */ - static RSA *rsa_tmp = NULL; - BIGNUM *bn = NULL; - int ok = 1; - if(!rsa_tmp) { - ok = 0; - if(!(bn = BN_new())) - goto end; - if(!BN_set_word(bn, RSA_F4)) - goto end; - if(!(rsa_tmp = RSA_new())) - goto end; - if(!RSA_generate_key_ex(rsa_tmp, keylength, bn, NULL)) - goto end; - ok = 1; - } -end: - if(bn) - BN_free(bn); - if(!ok) { - RSA_free(rsa_tmp); - rsa_tmp = NULL; - } - return rsa_tmp; -} - -#endif /* !defined(NO_OPENSSL) */ - diff --git a/demos/tunala/configure.in b/demos/tunala/configure.in deleted file mode 100644 index 590cdbfd263b710b8a50502263cb5da6a70c547b..0000000000000000000000000000000000000000 --- a/demos/tunala/configure.in +++ /dev/null @@ -1,29 +0,0 @@ -dnl Process this file with autoconf to produce a configure script. -AC_INIT(tunala.c) -AM_CONFIG_HEADER(config.h) -AM_INIT_AUTOMAKE(tunala, 0.0.1-dev) - -dnl Checks for programs. (Though skip libtool) -AC_PROG_CC -dnl AC_PROG_LIBTOOL -dnl AM_PROG_LIBTOOL - -dnl Checks for libraries. -AC_CHECK_LIB(dl, dlopen) -AC_CHECK_LIB(z, inflate) -AC_CHECK_LIB(socket, socket) -AC_CHECK_LIB(nsl, gethostbyname) - -dnl Checks for header files. -AC_HEADER_STDC -AC_CHECK_HEADERS(fcntl.h limits.h unistd.h) - -dnl Checks for typedefs, structures, and compiler characteristics. -AC_C_CONST - -dnl Checks for library functions. -AC_CHECK_FUNCS(strstr strtoul) -AC_CHECK_FUNCS(select socket) -AC_CHECK_FUNCS(dlopen) - -AC_OUTPUT(Makefile) diff --git a/demos/tunala/ip.c b/demos/tunala/ip.c deleted file mode 100644 index 96ef4e65360682d64553c70b2ca01e9b0c10f23e..0000000000000000000000000000000000000000 --- a/demos/tunala/ip.c +++ /dev/null @@ -1,146 +0,0 @@ -#include "tunala.h" - -#ifndef NO_IP - -#define IP_LISTENER_BACKLOG 511 /* So if it gets masked by 256 or some other - such value it'll still be respectable */ - -/* Any IP-related initialisations. For now, this means blocking SIGPIPE */ -int ip_initialise(void) -{ - struct sigaction sa; - - sa.sa_handler = SIG_IGN; - sa.sa_flags = 0; - sigemptyset(&sa.sa_mask); - if(sigaction(SIGPIPE, &sa, NULL) != 0) - return 0; - return 1; -} - -int ip_create_listener_split(const char *ip, unsigned short port) -{ - struct sockaddr_in in_addr; - int fd = -1; - int reuseVal = 1; - - /* Create the socket */ - if((fd = socket(PF_INET, SOCK_STREAM, 0)) == -1) - goto err; - /* Set the SO_REUSEADDR flag - servers act weird without it */ - if(setsockopt(fd, SOL_SOCKET, SO_REUSEADDR, (char *)(&reuseVal), - sizeof(reuseVal)) != 0) - goto err; - /* Prepare the listen address stuff */ - in_addr.sin_family = AF_INET; - memcpy(&in_addr.sin_addr.s_addr, ip, 4); - in_addr.sin_port = htons(port); - /* Bind to the required port/address/interface */ - if(bind(fd, (struct sockaddr *)&in_addr, sizeof(struct sockaddr_in)) != 0) - goto err; - /* Start "listening" */ - if(listen(fd, IP_LISTENER_BACKLOG) != 0) - goto err; - return fd; -err: - if(fd != -1) - close(fd); - return -1; -} - -int ip_create_connection_split(const char *ip, unsigned short port) -{ - struct sockaddr_in in_addr; - int flags, fd = -1; - - /* Create the socket */ - if((fd = socket(PF_INET, SOCK_STREAM, 0)) == -1) - goto err; - /* Make it non-blocking */ - if(((flags = fcntl(fd, F_GETFL, 0)) < 0) || - (fcntl(fd, F_SETFL, flags | O_NONBLOCK) < 0)) - goto err; - /* Prepare the connection address stuff */ - in_addr.sin_family = AF_INET; - memcpy(&in_addr.sin_addr.s_addr, ip, 4); - in_addr.sin_port = htons(port); - /* Start a connect (non-blocking, in all likelihood) */ - if((connect(fd, (struct sockaddr *)&in_addr, - sizeof(struct sockaddr_in)) != 0) && - (errno != EINPROGRESS)) - goto err; - return fd; -err: - if(fd != -1) - close(fd); - return -1; -} - -static char all_local_ip[] = {0x00,0x00,0x00,0x00}; - -int ip_parse_address(const char *address, const char **parsed_ip, - unsigned short *parsed_port, int accept_all_ip) -{ - char buf[256]; - struct hostent *lookup; - unsigned long port; - const char *ptr = strstr(address, ":"); - const char *ip = all_local_ip; - - if(!ptr) { - /* We assume we're listening on all local interfaces and have - * only specified a port. */ - if(!accept_all_ip) - return 0; - ptr = address; - goto determine_port; - } - if((ptr - address) > 255) - return 0; - memset(buf, 0, 256); - memcpy(buf, address, ptr - address); - ptr++; - if((lookup = gethostbyname(buf)) == NULL) { - /* Spit a message to differentiate between lookup failures and - * bad strings. */ - fprintf(stderr, "hostname lookup for '%s' failed\n", buf); - return 0; - } - ip = lookup->h_addr_list[0]; -determine_port: - if(strlen(ptr) < 1) - return 0; - if(!int_strtoul(ptr, &port) || (port > 65535)) - return 0; - *parsed_ip = ip; - *parsed_port = (unsigned short)port; - return 1; -} - -int ip_create_listener(const char *address) -{ - const char *ip; - unsigned short port; - - if(!ip_parse_address(address, &ip, &port, 1)) - return -1; - return ip_create_listener_split(ip, port); -} - -int ip_create_connection(const char *address) -{ - const char *ip; - unsigned short port; - - if(!ip_parse_address(address, &ip, &port, 0)) - return -1; - return ip_create_connection_split(ip, port); -} - -int ip_accept_connection(int listen_fd) -{ - return accept(listen_fd, NULL, NULL); -} - -#endif /* !defined(NO_IP) */ - diff --git a/demos/tunala/sm.c b/demos/tunala/sm.c deleted file mode 100644 index 25359e67ef49d99663c4ab9fea6dfe62c072ab8f..0000000000000000000000000000000000000000 --- a/demos/tunala/sm.c +++ /dev/null @@ -1,151 +0,0 @@ -#include "tunala.h" - -#ifndef NO_TUNALA - -void state_machine_init(state_machine_t *machine) -{ - machine->ssl = NULL; - machine->bio_intossl = machine->bio_fromssl = NULL; - buffer_init(&machine->clean_in); - buffer_init(&machine->clean_out); - buffer_init(&machine->dirty_in); - buffer_init(&machine->dirty_out); -} - -void state_machine_close(state_machine_t *machine) -{ - if(machine->ssl) - SSL_free(machine->ssl); -/* SSL_free seems to decrement the reference counts already so doing this goes - * kaboom. */ -#if 0 - if(machine->bio_intossl) - BIO_free(machine->bio_intossl); - if(machine->bio_fromssl) - BIO_free(machine->bio_fromssl); -#endif - buffer_close(&machine->clean_in); - buffer_close(&machine->clean_out); - buffer_close(&machine->dirty_in); - buffer_close(&machine->dirty_out); - state_machine_init(machine); -} - -buffer_t *state_machine_get_buffer(state_machine_t *machine, sm_buffer_t type) -{ - switch(type) { - case SM_CLEAN_IN: - return &machine->clean_in; - case SM_CLEAN_OUT: - return &machine->clean_out; - case SM_DIRTY_IN: - return &machine->dirty_in; - case SM_DIRTY_OUT: - return &machine->dirty_out; - default: - break; - } - /* Should never get here */ - abort(); - return NULL; -} - -SSL *state_machine_get_SSL(state_machine_t *machine) -{ - return machine->ssl; -} - -int state_machine_set_SSL(state_machine_t *machine, SSL *ssl, int is_server) -{ - if(machine->ssl) - /* Shouldn't ever be set twice */ - abort(); - machine->ssl = ssl; - /* Create the BIOs to handle the dirty side of the SSL */ - if((machine->bio_intossl = BIO_new(BIO_s_mem())) == NULL) - abort(); - if((machine->bio_fromssl = BIO_new(BIO_s_mem())) == NULL) - abort(); - /* Hook up the BIOs on the dirty side of the SSL */ - SSL_set_bio(machine->ssl, machine->bio_intossl, machine->bio_fromssl); - if(is_server) - SSL_set_accept_state(machine->ssl); - else - SSL_set_connect_state(machine->ssl); - /* If we're the first one to generate traffic - do it now otherwise we - * go into the next select empty-handed and our peer will not send data - * but will similarly wait for us. */ - return state_machine_churn(machine); -} - -/* Performs the data-IO loop and returns zero if the machine should close */ -int state_machine_churn(state_machine_t *machine) -{ - unsigned int loop; - if(machine->ssl == NULL) { - if(buffer_empty(&machine->clean_out)) - /* Time to close this state-machine altogether */ - return 0; - else - /* Still buffered data on the clean side to go out */ - return 1; - } - /* Do this loop twice to cover any dependencies about which precise - * order of reads and writes is required. */ - for(loop = 0; loop < 2; loop++) { - buffer_to_SSL(&machine->clean_in, machine->ssl); - buffer_to_BIO(&machine->dirty_in, machine->bio_intossl); - buffer_from_SSL(&machine->clean_out, machine->ssl); - buffer_from_BIO(&machine->dirty_out, machine->bio_fromssl); - } - /* We close on the SSL side if the info callback noticed some problems - * or an SSL shutdown was underway and shutdown traffic had all been - * sent. */ - if(SSL_get_app_data(machine->ssl) || (SSL_get_shutdown(machine->ssl) && - buffer_empty(&machine->dirty_out))) { - /* Great, we can seal off the dirty side completely */ - if(!state_machine_close_dirty(machine)) - return 0; - } - /* Either the SSL is alive and well, or the closing process still has - * outgoing data waiting to be sent */ - return 1; -} - -/* Called when the clean side of the SSL has lost its connection */ -int state_machine_close_clean(state_machine_t *machine) -{ - /* Well, first thing to do is null out the clean-side buffers - they're - * no use any more. */ - buffer_close(&machine->clean_in); - buffer_close(&machine->clean_out); - /* And start an SSL shutdown */ - if(machine->ssl) - SSL_shutdown(machine->ssl); - /* This is an "event", so flush the SSL of any generated traffic */ - state_machine_churn(machine); - if(buffer_empty(&machine->dirty_in) && - buffer_empty(&machine->dirty_out)) - return 0; - return 1; -} - -/* Called when the dirty side of the SSL has lost its connection. This is pretty - * terminal as all that can be left to do is send any buffered output on the - * clean side - after that, we're done. */ -int state_machine_close_dirty(state_machine_t *machine) -{ - buffer_close(&machine->dirty_in); - buffer_close(&machine->dirty_out); - buffer_close(&machine->clean_in); - if(machine->ssl) - SSL_free(machine->ssl); - machine->ssl = NULL; - machine->bio_intossl = machine->bio_fromssl = NULL; - if(buffer_empty(&machine->clean_out)) - return 0; - return 1; -} - -#endif /* !defined(NO_TUNALA) */ - diff --git a/demos/tunala/test.sh b/demos/tunala/test.sh deleted file mode 100755 index 105b447333bc10b58cea27d66f83b9ef5cf8bd39..0000000000000000000000000000000000000000 --- a/demos/tunala/test.sh +++ /dev/null @@ -1,107 +0,0 @@ -#!/bin/sh - -HTTP="localhost:8080" -CLIENT_PORT="9020" -SERVER_PORT="9021" - -sub_test () -{ - echo "STARTING - $VER $CIPHER" - ./tunala -listen localhost:$CLIENT_PORT -proxy localhost:$SERVER_PORT \ - -cacert CA.pem -cert A-client.pem -server 0 \ - -dh_special standard -v_peer -v_strict \ - $VER -cipher $CIPHER 1> tc1.txt 2> tc2.txt & - ./tunala -listen localhost:$SERVER_PORT -proxy $HTTP \ - -cacert CA.pem -cert A-server.pem -server 1 \ - -dh_special standard -v_peer -v_strict \ - $VER -cipher $CIPHER 1> ts1.txt 2> ts2.txt & - # Wait for the servers to be listening before starting the wget test - DONE="no" - while [ "$DONE" != "yes" ]; do - L1=`netstat -a | egrep "LISTEN[\t ]*$" | grep ":$CLIENT_PORT"` - L2=`netstat -a | egrep "LISTEN[\t ]*$" | grep ":$SERVER_PORT"` - if [ "x$L1" != "x" ]; then - DONE="yes" - elif [ "x$L2" != "x" ]; then - DONE="yes" - else - sleep 1 - fi - done - HTML=`wget -O - -T 1 http://localhost:$CLIENT_PORT 2> /dev/null | grep ""` - if [ "x$HTML" != "x" ]; then - echo "OK - $CIPHER ($VER)" - else - echo "FAIL - $CIPHER ($VER)" - killall tunala - exit 1 - fi - killall tunala - # Wait for the servers to stop before returning - otherwise the next - # test my fail to start ... (fscking race conditions) - DONE="yes" - while [ "$DONE" != "no" ]; do - L1=`netstat -a | egrep "LISTEN[\t ]*$" | grep ":$CLIENT_PORT"` - L2=`netstat -a | egrep "LISTEN[\t ]*$" | grep ":$SERVER_PORT"` - if [ "x$L1" != "x" ]; then - DONE="yes" - elif [ "x$L2" != "x" ]; then - DONE="yes" - else - DONE="no" - fi - done - exit 0 -} - -run_test () -{ - (sub_test 1> /dev/null) || exit 1 -} - -run_ssl_test () -{ -killall tunala 1> /dev/null 2> /dev/null -echo "" -echo "Starting all $PRETTY tests" -if [ "$PRETTY" != "SSLv2" ]; then - if [ "$PRETTY" != "SSLv3" ]; then - export VER="-no_ssl2 -no_ssl3" - export OSSL="-tls1" - else - export VER="-no_ssl2 -no_tls1" - export OSSL="-ssl3" - fi -else - export VER="-no_ssl3 -no_tls1" - export OSSL="-ssl2" -fi -LIST="`../../apps/openssl ciphers $OSSL | sed -e 's/:/ /g'`" -#echo "$LIST" -for i in $LIST; do \ - DSS=`echo "$i" | grep "DSS"` - if [ "x$DSS" != "x" ]; then - echo "---- skipping $i (no DSA cert/keys) ----" - else - export CIPHER=$i - run_test - echo "SUCCESS: $i" - fi -done; -} - -# Welcome the user -echo "Tests will assume an http server running at $HTTP" - -# TLSv1 test -export PRETTY="TLSv1" -run_ssl_test - -# SSLv3 test -export PRETTY="SSLv3" -run_ssl_test - -# SSLv2 test -export PRETTY="SSLv2" -run_ssl_test - diff --git a/demos/tunala/tunala.c b/demos/tunala/tunala.c deleted file mode 100644 index ec49d3e943e3c2e276d624cdbd6b8ac97b41ce22..0000000000000000000000000000000000000000 --- a/demos/tunala/tunala.c +++ /dev/null @@ -1,1109 +0,0 @@ -#if defined(NO_BUFFER) || defined(NO_IP) || defined(NO_OPENSSL) -#error "Badness, NO_BUFFER, NO_IP or NO_OPENSSL is defined, turn them *off*" -#endif - -/* Include our bits'n'pieces */ -#include "tunala.h" - - -/********************************************/ -/* Our local types that specify our "world" */ -/********************************************/ - -/* These represent running "tunnels". Eg. if you wanted to do SSL in a - * "message-passing" scanario, the "int" file-descriptors might be replaced by - * thread or process IDs, and the "select" code might be replaced by message - * handling code. Whatever. */ -typedef struct _tunala_item_t { - /* The underlying SSL state machine. This is a data-only processing unit - * and we communicate with it by talking to its four "buffers". */ - state_machine_t sm; - /* The file-descriptors for the "dirty" (encrypted) side of the SSL - * setup. In actuality, this is typically a socket and both values are - * identical. */ - int dirty_read, dirty_send; - /* The file-descriptors for the "clean" (unencrypted) side of the SSL - * setup. These could be stdin/stdout, a socket (both values the same), - * or whatever you like. */ - int clean_read, clean_send; -} tunala_item_t; - -/* This structure is used as the data for running the main loop. Namely, in a - * network format such as this, it is stuff for select() - but as pointed out, - * when moving the real-world to somewhere else, this might be replaced by - * something entirely different. It's basically the stuff that controls when - * it's time to do some "work". */ -typedef struct _select_sets_t { - int max; /* As required as the first argument to select() */ - fd_set reads, sends, excepts; /* As passed to select() */ -} select_sets_t; -typedef struct _tunala_selector_t { - select_sets_t last_selected; /* Results of the last select() */ - select_sets_t next_select; /* What we'll next select on */ -} tunala_selector_t; - -/* This structure is *everything*. We do it to avoid the use of globals so that, - * for example, it would be easier to shift things around between async-IO, - * thread-based, or multi-fork()ed (or combinations thereof). */ -typedef struct _tunala_world_t { - /* The file-descriptor we "listen" on for new connections */ - int listen_fd; - /* The array of tunnels */ - tunala_item_t *tunnels; - /* the number of tunnels in use and allocated, respectively */ - unsigned int tunnels_used, tunnels_size; - /* Our outside "loop" context stuff */ - tunala_selector_t selector; - /* Our SSL_CTX, which is configured as the SSL client or server and has - * the various cert-settings and callbacks configured. */ - SSL_CTX *ssl_ctx; - /* Simple flag with complex logic :-) Indicates whether we're an SSL - * server or an SSL client. */ - int server_mode; -} tunala_world_t; - -/*****************************/ -/* Internal static functions */ -/*****************************/ - -static SSL_CTX *initialise_ssl_ctx(int server_mode, const char *engine_id, - const char *CAfile, const char *cert, const char *key, - const char *dcert, const char *dkey, const char *cipher_list, - const char *dh_file, const char *dh_special, int tmp_rsa, - int ctx_options, int out_state, int out_verify, int verify_mode, - unsigned int verify_depth); -static void selector_init(tunala_selector_t *selector); -static void selector_add_listener(tunala_selector_t *selector, int fd); -static void selector_add_tunala(tunala_selector_t *selector, tunala_item_t *t); -static int selector_select(tunala_selector_t *selector); -/* This returns -1 for error, 0 for no new connections, or 1 for success, in - * which case *newfd is populated. */ -static int selector_get_listener(tunala_selector_t *selector, int fd, int *newfd); -static int tunala_world_new_item(tunala_world_t *world, int fd, - const char *ip, unsigned short port, int flipped); -static void tunala_world_del_item(tunala_world_t *world, unsigned int idx); -static int tunala_item_io(tunala_selector_t *selector, tunala_item_t *item); - -/*********************************************/ -/* MAIN FUNCTION (and its utility functions) */ -/*********************************************/ - -static const char *def_proxyhost = "127.0.0.1:443"; -static const char *def_listenhost = "127.0.0.1:8080"; -static int def_max_tunnels = 50; -static const char *def_cacert = NULL; -static const char *def_cert = NULL; -static const char *def_key = NULL; -static const char *def_dcert = NULL; -static const char *def_dkey = NULL; -static const char *def_engine_id = NULL; -static int def_server_mode = 0; -static int def_flipped = 0; -static const char *def_cipher_list = NULL; -static const char *def_dh_file = NULL; -static const char *def_dh_special = NULL; -static int def_tmp_rsa = 1; -static int def_ctx_options = 0; -static int def_verify_mode = 0; -static unsigned int def_verify_depth = 10; -static int def_out_state = 0; -static unsigned int def_out_verify = 0; -static int def_out_totals = 0; -static int def_out_conns = 0; - -static const char *helpstring = -"\n'Tunala' (A tunneler with a New Zealand accent)\n" -"Usage: tunala [options], where options are from;\n" -" -listen [host:] (default = 127.0.0.1:8080)\n" -" -proxy : (default = 127.0.0.1:443)\n" -" -maxtunnels (default = 50)\n" -" -cacert (default = NULL)\n" -" -cert (default = NULL)\n" -" -key (default = whatever '-cert' is)\n" -" -dcert (usually for DSA, default = NULL)\n" -" -dkey (usually for DSA, default = whatever '-dcert' is)\n" -" -engine (default = NULL)\n" -" -server <0|1> (default = 0, ie. an SSL client)\n" -" -flipped <0|1> (makes SSL servers be network clients, and vice versa)\n" -" -cipher (specifies cipher list to use)\n" -" -dh_file (a PEM file containing DH parameters to use)\n" -" -dh_special (see below: def=NULL)\n" -" -no_tmp_rsa (don't generate temporary RSA keys)\n" -" -no_ssl2 (disable SSLv2)\n" -" -no_ssl3 (disable SSLv3)\n" -" -no_tls1 (disable TLSv1)\n" -" -v_peer (verify the peer certificate)\n" -" -v_strict (do not continue if peer doesn't authenticate)\n" -" -v_once (no verification in renegotiates)\n" -" -v_depth (limit certificate chain depth, default = 10)\n" -" -out_conns (prints client connections and disconnections)\n" -" -out_state (prints SSL handshake states)\n" -" -out_verify <0|1|2|3> (prints certificate verification states: def=1)\n" -" -out_totals (prints out byte-totals when a tunnel closes)\n" -" - (displays this help screen)\n" -"Notes:\n" -"(1) It is recommended to specify a cert+key when operating as an SSL server.\n" -" If you only specify '-cert', the same file must contain a matching\n" -" private key.\n" -"(2) Either dh_file or dh_special can be used to specify where DH parameters\n" -" will be obtained from (or '-dh_special NULL' for the default choice) but\n" -" you cannot specify both. For dh_special, 'generate' will create new DH\n" -" parameters on startup, and 'standard' will use embedded parameters\n" -" instead.\n" -"(3) Normally an ssl client connects to an ssl server - so that an 'ssl client\n" -" tunala' listens for 'clean' client connections and proxies ssl, and an\n" -" 'ssl server tunala' listens for ssl connections and proxies 'clean'. With\n" -" '-flipped 1', this behaviour is reversed so that an 'ssl server tunala'\n" -" listens for clean client connections and proxies ssl (but participating\n" -" as an ssl *server* in the SSL/TLS protocol), and an 'ssl client tunala'\n" -" listens for ssl connections (participating as an ssl *client* in the\n" -" SSL/TLS protocol) and proxies 'clean' to the end destination. This can\n" -" be useful for allowing network access to 'servers' where only the server\n" -" needs to authenticate the client (ie. the other way is not required).\n" -" Even with client and server authentication, this 'technique' mitigates\n" -" some DoS (denial-of-service) potential as it will be the network client\n" -" having to perform the first private key operation rather than the other\n" -" way round.\n" -"(4) The 'technique' used by setting '-flipped 1' is probably compatible with\n" -" absolutely nothing except another complimentary instance of 'tunala'\n" -" running with '-flipped 1'. :-)\n"; - -/* Default DH parameters for use with "-dh_special standard" ... stolen striaght - * from s_server. */ -static unsigned char dh512_p[]={ - 0xDA,0x58,0x3C,0x16,0xD9,0x85,0x22,0x89,0xD0,0xE4,0xAF,0x75, - 0x6F,0x4C,0xCA,0x92,0xDD,0x4B,0xE5,0x33,0xB8,0x04,0xFB,0x0F, - 0xED,0x94,0xEF,0x9C,0x8A,0x44,0x03,0xED,0x57,0x46,0x50,0xD3, - 0x69,0x99,0xDB,0x29,0xD7,0x76,0x27,0x6B,0xA2,0xD3,0xD4,0x12, - 0xE2,0x18,0xF4,0xDD,0x1E,0x08,0x4C,0xF6,0xD8,0x00,0x3E,0x7C, - 0x47,0x74,0xE8,0x33, - }; -static unsigned char dh512_g[]={ - 0x02, - }; - -/* And the function that parses the above "standard" parameters, again, straight - * out of s_server. */ -static DH *get_dh512(void) - { - DH *dh=NULL; - - if ((dh=DH_new()) == NULL) return(NULL); - dh->p=BN_bin2bn(dh512_p,sizeof(dh512_p),NULL); - dh->g=BN_bin2bn(dh512_g,sizeof(dh512_g),NULL); - if ((dh->p == NULL) || (dh->g == NULL)) - return(NULL); - return(dh); - } - -/* Various help/error messages used by main() */ -static int usage(const char *errstr, int isunknownarg) -{ - if(isunknownarg) - fprintf(stderr, "Error: unknown argument '%s'\n", errstr); - else - fprintf(stderr, "Error: %s\n", errstr); - fprintf(stderr, "%s\n", helpstring); - return 1; -} - -static int err_str0(const char *str0) -{ - fprintf(stderr, "%s\n", str0); - return 1; -} - -static int err_str1(const char *fmt, const char *str1) -{ - fprintf(stderr, fmt, str1); - fprintf(stderr, "\n"); - return 1; -} - -static int parse_max_tunnels(const char *s, unsigned int *maxtunnels) -{ - unsigned long l; - if(!int_strtoul(s, &l) || (l < 1) || (l > 1024)) { - fprintf(stderr, "Error, '%s' is an invalid value for " - "maxtunnels\n", s); - return 0; - } - *maxtunnels = (unsigned int)l; - return 1; -} - -static int parse_server_mode(const char *s, int *servermode) -{ - unsigned long l; - if(!int_strtoul(s, &l) || (l > 1)) { - fprintf(stderr, "Error, '%s' is an invalid value for the " - "server mode\n", s); - return 0; - } - *servermode = (int)l; - return 1; -} - -static int parse_dh_special(const char *s, const char **dh_special) -{ - if((strcmp(s, "NULL") == 0) || (strcmp(s, "generate") == 0) || - (strcmp(s, "standard") == 0)) { - *dh_special = s; - return 1; - } - fprintf(stderr, "Error, '%s' is an invalid value for 'dh_special'\n", s); - return 0; -} - -static int parse_verify_level(const char *s, unsigned int *verify_level) -{ - unsigned long l; - if(!int_strtoul(s, &l) || (l > 3)) { - fprintf(stderr, "Error, '%s' is an invalid value for " - "out_verify\n", s); - return 0; - } - *verify_level = (unsigned int)l; - return 1; -} - -static int parse_verify_depth(const char *s, unsigned int *verify_depth) -{ - unsigned long l; - if(!int_strtoul(s, &l) || (l < 1) || (l > 50)) { - fprintf(stderr, "Error, '%s' is an invalid value for " - "verify_depth\n", s); - return 0; - } - *verify_depth = (unsigned int)l; - return 1; -} - -/* Some fprintf format strings used when tunnels close */ -static const char *io_stats_dirty = -" SSL traffic; %8lu bytes in, %8lu bytes out\n"; -static const char *io_stats_clean = -" clear traffic; %8lu bytes in, %8lu bytes out\n"; - -int main(int argc, char *argv[]) -{ - unsigned int loop; - int newfd; - tunala_world_t world; - tunala_item_t *t_item; - const char *proxy_ip; - unsigned short proxy_port; - /* Overridables */ - const char *proxyhost = def_proxyhost; - const char *listenhost = def_listenhost; - unsigned int max_tunnels = def_max_tunnels; - const char *cacert = def_cacert; - const char *cert = def_cert; - const char *key = def_key; - const char *dcert = def_dcert; - const char *dkey = def_dkey; - const char *engine_id = def_engine_id; - int server_mode = def_server_mode; - int flipped = def_flipped; - const char *cipher_list = def_cipher_list; - const char *dh_file = def_dh_file; - const char *dh_special = def_dh_special; - int tmp_rsa = def_tmp_rsa; - int ctx_options = def_ctx_options; - int verify_mode = def_verify_mode; - unsigned int verify_depth = def_verify_depth; - int out_state = def_out_state; - unsigned int out_verify = def_out_verify; - int out_totals = def_out_totals; - int out_conns = def_out_conns; - -/* Parse command-line arguments */ -next_arg: - argc--; argv++; - if(argc > 0) { - if(strcmp(*argv, "-listen") == 0) { - if(argc < 2) - return usage("-listen requires an argument", 0); - argc--; argv++; - listenhost = *argv; - goto next_arg; - } else if(strcmp(*argv, "-proxy") == 0) { - if(argc < 2) - return usage("-proxy requires an argument", 0); - argc--; argv++; - proxyhost = *argv; - goto next_arg; - } else if(strcmp(*argv, "-maxtunnels") == 0) { - if(argc < 2) - return usage("-maxtunnels requires an argument", 0); - argc--; argv++; - if(!parse_max_tunnels(*argv, &max_tunnels)) - return 1; - goto next_arg; - } else if(strcmp(*argv, "-cacert") == 0) { - if(argc < 2) - return usage("-cacert requires an argument", 0); - argc--; argv++; - if(strcmp(*argv, "NULL") == 0) - cacert = NULL; - else - cacert = *argv; - goto next_arg; - } else if(strcmp(*argv, "-cert") == 0) { - if(argc < 2) - return usage("-cert requires an argument", 0); - argc--; argv++; - if(strcmp(*argv, "NULL") == 0) - cert = NULL; - else - cert = *argv; - goto next_arg; - } else if(strcmp(*argv, "-key") == 0) { - if(argc < 2) - return usage("-key requires an argument", 0); - argc--; argv++; - if(strcmp(*argv, "NULL") == 0) - key = NULL; - else - key = *argv; - goto next_arg; - } else if(strcmp(*argv, "-dcert") == 0) { - if(argc < 2) - return usage("-dcert requires an argument", 0); - argc--; argv++; - if(strcmp(*argv, "NULL") == 0) - dcert = NULL; - else - dcert = *argv; - goto next_arg; - } else if(strcmp(*argv, "-dkey") == 0) { - if(argc < 2) - return usage("-dkey requires an argument", 0); - argc--; argv++; - if(strcmp(*argv, "NULL") == 0) - dkey = NULL; - else - dkey = *argv; - goto next_arg; - } else if(strcmp(*argv, "-engine") == 0) { - if(argc < 2) - return usage("-engine requires an argument", 0); - argc--; argv++; - engine_id = *argv; - goto next_arg; - } else if(strcmp(*argv, "-server") == 0) { - if(argc < 2) - return usage("-server requires an argument", 0); - argc--; argv++; - if(!parse_server_mode(*argv, &server_mode)) - return 1; - goto next_arg; - } else if(strcmp(*argv, "-flipped") == 0) { - if(argc < 2) - return usage("-flipped requires an argument", 0); - argc--; argv++; - if(!parse_server_mode(*argv, &flipped)) - return 1; - goto next_arg; - } else if(strcmp(*argv, "-cipher") == 0) { - if(argc < 2) - return usage("-cipher requires an argument", 0); - argc--; argv++; - cipher_list = *argv; - goto next_arg; - } else if(strcmp(*argv, "-dh_file") == 0) { - if(argc < 2) - return usage("-dh_file requires an argument", 0); - if(dh_special) - return usage("cannot mix -dh_file with " - "-dh_special", 0); - argc--; argv++; - dh_file = *argv; - goto next_arg; - } else if(strcmp(*argv, "-dh_special") == 0) { - if(argc < 2) - return usage("-dh_special requires an argument", 0); - if(dh_file) - return usage("cannot mix -dh_file with " - "-dh_special", 0); - argc--; argv++; - if(!parse_dh_special(*argv, &dh_special)) - return 1; - goto next_arg; - } else if(strcmp(*argv, "-no_tmp_rsa") == 0) { - tmp_rsa = 0; - goto next_arg; - } else if(strcmp(*argv, "-no_ssl2") == 0) { - ctx_options |= SSL_OP_NO_SSLv2; - goto next_arg; - } else if(strcmp(*argv, "-no_ssl3") == 0) { - ctx_options |= SSL_OP_NO_SSLv3; - goto next_arg; - } else if(strcmp(*argv, "-no_tls1") == 0) { - ctx_options |= SSL_OP_NO_TLSv1; - goto next_arg; - } else if(strcmp(*argv, "-v_peer") == 0) { - verify_mode |= SSL_VERIFY_PEER; - goto next_arg; - } else if(strcmp(*argv, "-v_strict") == 0) { - verify_mode |= SSL_VERIFY_FAIL_IF_NO_PEER_CERT; - goto next_arg; - } else if(strcmp(*argv, "-v_once") == 0) { - verify_mode |= SSL_VERIFY_CLIENT_ONCE; - goto next_arg; - } else if(strcmp(*argv, "-v_depth") == 0) { - if(argc < 2) - return usage("-v_depth requires an argument", 0); - argc--; argv++; - if(!parse_verify_depth(*argv, &verify_depth)) - return 1; - goto next_arg; - } else if(strcmp(*argv, "-out_state") == 0) { - out_state = 1; - goto next_arg; - } else if(strcmp(*argv, "-out_verify") == 0) { - if(argc < 2) - return usage("-out_verify requires an argument", 0); - argc--; argv++; - if(!parse_verify_level(*argv, &out_verify)) - return 1; - goto next_arg; - } else if(strcmp(*argv, "-out_totals") == 0) { - out_totals = 1; - goto next_arg; - } else if(strcmp(*argv, "-out_conns") == 0) { - out_conns = 1; - goto next_arg; - } else if((strcmp(*argv, "-h") == 0) || - (strcmp(*argv, "-help") == 0) || - (strcmp(*argv, "-?") == 0)) { - fprintf(stderr, "%s\n", helpstring); - return 0; - } else - return usage(*argv, 1); - } - /* Run any sanity checks we want here */ - if(!cert && !dcert && server_mode) - fprintf(stderr, "WARNING: you are running an SSL server without " - "a certificate - this may not work!\n"); - - /* Initialise network stuff */ - if(!ip_initialise()) - return err_str0("ip_initialise failed"); - /* Create the SSL_CTX */ - if((world.ssl_ctx = initialise_ssl_ctx(server_mode, engine_id, - cacert, cert, key, dcert, dkey, cipher_list, dh_file, - dh_special, tmp_rsa, ctx_options, out_state, out_verify, - verify_mode, verify_depth)) == NULL) - return err_str1("initialise_ssl_ctx(engine_id=%s) failed", - (engine_id == NULL) ? "NULL" : engine_id); - if(engine_id) - fprintf(stderr, "Info, engine '%s' initialised\n", engine_id); - /* Create the listener */ - if((world.listen_fd = ip_create_listener(listenhost)) == -1) - return err_str1("ip_create_listener(%s) failed", listenhost); - fprintf(stderr, "Info, listening on '%s'\n", listenhost); - if(!ip_parse_address(proxyhost, &proxy_ip, &proxy_port, 0)) - return err_str1("ip_parse_address(%s) failed", proxyhost); - fprintf(stderr, "Info, proxying to '%s' (%d.%d.%d.%d:%d)\n", proxyhost, - (int)proxy_ip[0], (int)proxy_ip[1], - (int)proxy_ip[2], (int)proxy_ip[3], (int)proxy_port); - fprintf(stderr, "Info, set maxtunnels to %d\n", (int)max_tunnels); - fprintf(stderr, "Info, set to operate as an SSL %s\n", - (server_mode ? "server" : "client")); - /* Initialise the rest of the stuff */ - world.tunnels_used = world.tunnels_size = 0; - world.tunnels = NULL; - world.server_mode = server_mode; - selector_init(&world.selector); - -/* We're ready to loop */ -main_loop: - /* Should we listen for *new* tunnels? */ - if(world.tunnels_used < max_tunnels) - selector_add_listener(&world.selector, world.listen_fd); - /* We should add in our existing tunnels */ - for(loop = 0; loop < world.tunnels_used; loop++) - selector_add_tunala(&world.selector, world.tunnels + loop); - /* Now do the select */ - switch(selector_select(&world.selector)) { - case -1: - if(errno != EINTR) { - fprintf(stderr, "selector_select returned a " - "badness error.\n"); - goto shouldnt_happen; - } - fprintf(stderr, "Warn, selector interrupted by a signal\n"); - goto main_loop; - case 0: - fprintf(stderr, "Warn, selector_select returned 0 - signal?""?\n"); - goto main_loop; - default: - break; - } - /* Accept new connection if we should and can */ - if((world.tunnels_used < max_tunnels) && (selector_get_listener( - &world.selector, world.listen_fd, - &newfd) == 1)) { - /* We have a new connection */ - if(!tunala_world_new_item(&world, newfd, proxy_ip, - proxy_port, flipped)) - fprintf(stderr, "tunala_world_new_item failed\n"); - else if(out_conns) - fprintf(stderr, "Info, new tunnel opened, now up to " - "%d\n", world.tunnels_used); - } - /* Give each tunnel its moment, note the while loop is because it makes - * the logic easier than with "for" to deal with an array that may shift - * because of deletes. */ - loop = 0; - t_item = world.tunnels; - while(loop < world.tunnels_used) { - if(!tunala_item_io(&world.selector, t_item)) { - /* We're closing whether for reasons of an error or a - * natural close. Don't increment loop or t_item because - * the next item is moving to us! */ - if(!out_totals) - goto skip_totals; - fprintf(stderr, "Tunnel closing, traffic stats follow\n"); - /* Display the encrypted (over the network) stats */ - fprintf(stderr, io_stats_dirty, - buffer_total_in(state_machine_get_buffer( - &t_item->sm,SM_DIRTY_IN)), - buffer_total_out(state_machine_get_buffer( - &t_item->sm,SM_DIRTY_OUT))); - /* Display the local (tunnelled) stats. NB: Data we - * *receive* is data sent *out* of the state_machine on - * its 'clean' side. Hence the apparent back-to-front - * OUT/IN mixup here :-) */ - fprintf(stderr, io_stats_clean, - buffer_total_out(state_machine_get_buffer( - &t_item->sm,SM_CLEAN_OUT)), - buffer_total_in(state_machine_get_buffer( - &t_item->sm,SM_CLEAN_IN))); -skip_totals: - tunala_world_del_item(&world, loop); - if(out_conns) - fprintf(stderr, "Info, tunnel closed, down to %d\n", - world.tunnels_used); - } - else { - /* Move to the next item */ - loop++; - t_item++; - } - } - goto main_loop; - /* Should never get here */ -shouldnt_happen: - abort(); - return 1; -} - -/****************/ -/* OpenSSL bits */ -/****************/ - -static int ctx_set_cert(SSL_CTX *ctx, const char *cert, const char *key) -{ - FILE *fp = NULL; - X509 *x509 = NULL; - EVP_PKEY *pkey = NULL; - int toret = 0; /* Assume an error */ - - /* cert */ - if(cert) { - if((fp = fopen(cert, "r")) == NULL) { - fprintf(stderr, "Error opening cert file '%s'\n", cert); - goto err; - } - if(!PEM_read_X509(fp, &x509, NULL, NULL)) { - fprintf(stderr, "Error reading PEM cert from '%s'\n", - cert); - goto err; - } - if(!SSL_CTX_use_certificate(ctx, x509)) { - fprintf(stderr, "Error, cert in '%s' can not be used\n", - cert); - goto err; - } - /* Clear the FILE* for reuse in the "key" code */ - fclose(fp); - fp = NULL; - fprintf(stderr, "Info, operating with cert in '%s'\n", cert); - /* If a cert was given without matching key, we assume the same - * file contains the required key. */ - if(!key) - key = cert; - } else { - if(key) - fprintf(stderr, "Error, can't specify a key without a " - "corresponding certificate\n"); - else - fprintf(stderr, "Error, ctx_set_cert called with " - "NULLs!\n"); - goto err; - } - /* key */ - if(key) { - if((fp = fopen(key, "r")) == NULL) { - fprintf(stderr, "Error opening key file '%s'\n", key); - goto err; - } - if(!PEM_read_PrivateKey(fp, &pkey, NULL, NULL)) { - fprintf(stderr, "Error reading PEM key from '%s'\n", - key); - goto err; - } - if(!SSL_CTX_use_PrivateKey(ctx, pkey)) { - fprintf(stderr, "Error, key in '%s' can not be used\n", - key); - goto err; - } - fprintf(stderr, "Info, operating with key in '%s'\n", key); - } else - fprintf(stderr, "Info, operating without a cert or key\n"); - /* Success */ - toret = 1; err: - if(x509) - X509_free(x509); - if(pkey) - EVP_PKEY_free(pkey); - if(fp) - fclose(fp); - return toret; -} - -static int ctx_set_dh(SSL_CTX *ctx, const char *dh_file, const char *dh_special) -{ - DH *dh = NULL; - FILE *fp = NULL; - - if(dh_special) { - if(strcmp(dh_special, "NULL") == 0) - return 1; - if(strcmp(dh_special, "standard") == 0) { - if((dh = get_dh512()) == NULL) { - fprintf(stderr, "Error, can't parse 'standard'" - " DH parameters\n"); - return 0; - } - fprintf(stderr, "Info, using 'standard' DH parameters\n"); - goto do_it; - } - if(strcmp(dh_special, "generate") != 0) - /* This shouldn't happen - screening values is handled - * in main(). */ - abort(); - fprintf(stderr, "Info, generating DH parameters ... "); - fflush(stderr); - if(!(dh = DH_new()) || !DH_generate_parameters_ex(dh, 512, - DH_GENERATOR_5, NULL)) { - fprintf(stderr, "error!\n"); - if(dh) - DH_free(dh); - return 0; - } - fprintf(stderr, "complete\n"); - goto do_it; - } - /* So, we're loading dh_file */ - if((fp = fopen(dh_file, "r")) == NULL) { - fprintf(stderr, "Error, couldn't open '%s' for DH parameters\n", - dh_file); - return 0; - } - dh = PEM_read_DHparams(fp, NULL, NULL, NULL); - fclose(fp); - if(dh == NULL) { - fprintf(stderr, "Error, could not parse DH parameters from '%s'\n", - dh_file); - return 0; - } - fprintf(stderr, "Info, using DH parameters from file '%s'\n", dh_file); -do_it: - SSL_CTX_set_tmp_dh(ctx, dh); - DH_free(dh); - return 1; -} - -static SSL_CTX *initialise_ssl_ctx(int server_mode, const char *engine_id, - const char *CAfile, const char *cert, const char *key, - const char *dcert, const char *dkey, const char *cipher_list, - const char *dh_file, const char *dh_special, int tmp_rsa, - int ctx_options, int out_state, int out_verify, int verify_mode, - unsigned int verify_depth) -{ - SSL_CTX *ctx = NULL, *ret = NULL; - const SSL_METHOD *meth; - ENGINE *e = NULL; - - OpenSSL_add_ssl_algorithms(); - SSL_load_error_strings(); - - meth = (server_mode ? SSLv23_server_method() : SSLv23_client_method()); - if(meth == NULL) - goto err; - if(engine_id) { - ENGINE_load_builtin_engines(); - if((e = ENGINE_by_id(engine_id)) == NULL) { - fprintf(stderr, "Error obtaining '%s' engine, openssl " - "errors follow\n", engine_id); - goto err; - } - if(!ENGINE_set_default(e, ENGINE_METHOD_ALL)) { - fprintf(stderr, "Error assigning '%s' engine, openssl " - "errors follow\n", engine_id); - goto err; - } - ENGINE_free(e); - } - if((ctx = SSL_CTX_new(meth)) == NULL) - goto err; - /* cacert */ - if(CAfile) { - if(!X509_STORE_load_locations(SSL_CTX_get_cert_store(ctx), - CAfile, NULL)) { - fprintf(stderr, "Error loading CA cert(s) in '%s'\n", - CAfile); - goto err; - } - fprintf(stderr, "Info, operating with CA cert(s) in '%s'\n", - CAfile); - } else - fprintf(stderr, "Info, operating without a CA cert(-list)\n"); - if(!SSL_CTX_set_default_verify_paths(ctx)) { - fprintf(stderr, "Error setting default verify paths\n"); - goto err; - } - - /* cert and key */ - if((cert || key) && !ctx_set_cert(ctx, cert, key)) - goto err; - /* dcert and dkey */ - if((dcert || dkey) && !ctx_set_cert(ctx, dcert, dkey)) - goto err; - /* temporary RSA key generation */ - if(tmp_rsa) - SSL_CTX_set_tmp_rsa_callback(ctx, cb_generate_tmp_rsa); - - /* cipher_list */ - if(cipher_list) { - if(!SSL_CTX_set_cipher_list(ctx, cipher_list)) { - fprintf(stderr, "Error setting cipher list '%s'\n", - cipher_list); - goto err; - } - fprintf(stderr, "Info, set cipher list '%s'\n", cipher_list); - } else - fprintf(stderr, "Info, operating with default cipher list\n"); - - /* dh_file & dh_special */ - if((dh_file || dh_special) && !ctx_set_dh(ctx, dh_file, dh_special)) - goto err; - - /* ctx_options */ - SSL_CTX_set_options(ctx, ctx_options); - - /* out_state (output of SSL handshake states to screen). */ - if(out_state) - cb_ssl_info_set_output(stderr); - - /* out_verify */ - if(out_verify > 0) { - cb_ssl_verify_set_output(stderr); - cb_ssl_verify_set_level(out_verify); - } - - /* verify_depth */ - cb_ssl_verify_set_depth(verify_depth); - - /* Success! (includes setting verify_mode) */ - SSL_CTX_set_info_callback(ctx, cb_ssl_info); - SSL_CTX_set_verify(ctx, verify_mode, cb_ssl_verify); - ret = ctx; -err: - if(!ret) { - ERR_print_errors_fp(stderr); - if(ctx) - SSL_CTX_free(ctx); - } - return ret; -} - -/*****************/ -/* Selector bits */ -/*****************/ - -static void selector_sets_init(select_sets_t *s) -{ - s->max = 0; - FD_ZERO(&s->reads); - FD_ZERO(&s->sends); - FD_ZERO(&s->excepts); -} -static void selector_init(tunala_selector_t *selector) -{ - selector_sets_init(&selector->last_selected); - selector_sets_init(&selector->next_select); -} - -#define SEL_EXCEPTS 0x00 -#define SEL_READS 0x01 -#define SEL_SENDS 0x02 -static void selector_add_raw_fd(tunala_selector_t *s, int fd, int flags) -{ - FD_SET(fd, &s->next_select.excepts); - if(flags & SEL_READS) - FD_SET(fd, &s->next_select.reads); - if(flags & SEL_SENDS) - FD_SET(fd, &s->next_select.sends); - /* Adjust "max" */ - if(s->next_select.max < (fd + 1)) - s->next_select.max = fd + 1; -} - -static void selector_add_listener(tunala_selector_t *selector, int fd) -{ - selector_add_raw_fd(selector, fd, SEL_READS); -} - -static void selector_add_tunala(tunala_selector_t *s, tunala_item_t *t) -{ - /* Set clean read if sm.clean_in is not full */ - if(t->clean_read != -1) { - selector_add_raw_fd(s, t->clean_read, - (buffer_full(state_machine_get_buffer(&t->sm, - SM_CLEAN_IN)) ? SEL_EXCEPTS : SEL_READS)); - } - /* Set clean send if sm.clean_out is not empty */ - if(t->clean_send != -1) { - selector_add_raw_fd(s, t->clean_send, - (buffer_empty(state_machine_get_buffer(&t->sm, - SM_CLEAN_OUT)) ? SEL_EXCEPTS : SEL_SENDS)); - } - /* Set dirty read if sm.dirty_in is not full */ - if(t->dirty_read != -1) { - selector_add_raw_fd(s, t->dirty_read, - (buffer_full(state_machine_get_buffer(&t->sm, - SM_DIRTY_IN)) ? SEL_EXCEPTS : SEL_READS)); - } - /* Set dirty send if sm.dirty_out is not empty */ - if(t->dirty_send != -1) { - selector_add_raw_fd(s, t->dirty_send, - (buffer_empty(state_machine_get_buffer(&t->sm, - SM_DIRTY_OUT)) ? SEL_EXCEPTS : SEL_SENDS)); - } -} - -static int selector_select(tunala_selector_t *selector) -{ - memcpy(&selector->last_selected, &selector->next_select, - sizeof(select_sets_t)); - selector_sets_init(&selector->next_select); - return select(selector->last_selected.max, - &selector->last_selected.reads, - &selector->last_selected.sends, - &selector->last_selected.excepts, NULL); -} - -/* This returns -1 for error, 0 for no new connections, or 1 for success, in - * which case *newfd is populated. */ -static int selector_get_listener(tunala_selector_t *selector, int fd, int *newfd) -{ - if(FD_ISSET(fd, &selector->last_selected.excepts)) - return -1; - if(!FD_ISSET(fd, &selector->last_selected.reads)) - return 0; - if((*newfd = ip_accept_connection(fd)) == -1) - return -1; - return 1; -} - -/************************/ -/* "Tunala" world stuff */ -/************************/ - -static int tunala_world_make_room(tunala_world_t *world) -{ - unsigned int newsize; - tunala_item_t *newarray; - - if(world->tunnels_used < world->tunnels_size) - return 1; - newsize = (world->tunnels_size == 0 ? 16 : - ((world->tunnels_size * 3) / 2)); - if((newarray = malloc(newsize * sizeof(tunala_item_t))) == NULL) - return 0; - memset(newarray, 0, newsize * sizeof(tunala_item_t)); - if(world->tunnels_used > 0) - memcpy(newarray, world->tunnels, - world->tunnels_used * sizeof(tunala_item_t)); - if(world->tunnels_size > 0) - free(world->tunnels); - /* migrate */ - world->tunnels = newarray; - world->tunnels_size = newsize; - return 1; -} - -static int tunala_world_new_item(tunala_world_t *world, int fd, - const char *ip, unsigned short port, int flipped) -{ - tunala_item_t *item; - int newfd; - SSL *new_ssl = NULL; - - if(!tunala_world_make_room(world)) - return 0; - if((new_ssl = SSL_new(world->ssl_ctx)) == NULL) { - fprintf(stderr, "Error creating new SSL\n"); - ERR_print_errors_fp(stderr); - return 0; - } - item = world->tunnels + (world->tunnels_used++); - state_machine_init(&item->sm); - item->clean_read = item->clean_send = - item->dirty_read = item->dirty_send = -1; - if((newfd = ip_create_connection_split(ip, port)) == -1) - goto err; - /* Which way round? If we're a server, "fd" is the dirty side and the - * connection we open is the clean one. For a client, it's the other way - * around. Unless, of course, we're "flipped" in which case everything - * gets reversed. :-) */ - if((world->server_mode && !flipped) || - (!world->server_mode && flipped)) { - item->dirty_read = item->dirty_send = fd; - item->clean_read = item->clean_send = newfd; - } else { - item->clean_read = item->clean_send = fd; - item->dirty_read = item->dirty_send = newfd; - } - /* We use the SSL's "app_data" to indicate a call-back induced "kill" */ - SSL_set_app_data(new_ssl, NULL); - if(!state_machine_set_SSL(&item->sm, new_ssl, world->server_mode)) - goto err; - return 1; -err: - tunala_world_del_item(world, world->tunnels_used - 1); - return 0; - -} - -static void tunala_world_del_item(tunala_world_t *world, unsigned int idx) -{ - tunala_item_t *item = world->tunnels + idx; - if(item->clean_read != -1) - close(item->clean_read); - if(item->clean_send != item->clean_read) - close(item->clean_send); - item->clean_read = item->clean_send = -1; - if(item->dirty_read != -1) - close(item->dirty_read); - if(item->dirty_send != item->dirty_read) - close(item->dirty_send); - item->dirty_read = item->dirty_send = -1; - state_machine_close(&item->sm); - /* OK, now we fix the item array */ - if(idx + 1 < world->tunnels_used) - /* We need to scroll entries to the left */ - memmove(world->tunnels + idx, - world->tunnels + (idx + 1), - (world->tunnels_used - (idx + 1)) * - sizeof(tunala_item_t)); - world->tunnels_used--; -} - -static int tunala_item_io(tunala_selector_t *selector, tunala_item_t *item) -{ - int c_r, c_s, d_r, d_s; /* Four boolean flags */ - - /* Take ourselves out of the gene-pool if there was an except */ - if((item->clean_read != -1) && FD_ISSET(item->clean_read, - &selector->last_selected.excepts)) - return 0; - if((item->clean_send != -1) && FD_ISSET(item->clean_send, - &selector->last_selected.excepts)) - return 0; - if((item->dirty_read != -1) && FD_ISSET(item->dirty_read, - &selector->last_selected.excepts)) - return 0; - if((item->dirty_send != -1) && FD_ISSET(item->dirty_send, - &selector->last_selected.excepts)) - return 0; - /* Grab our 4 IO flags */ - c_r = c_s = d_r = d_s = 0; - if(item->clean_read != -1) - c_r = FD_ISSET(item->clean_read, &selector->last_selected.reads); - if(item->clean_send != -1) - c_s = FD_ISSET(item->clean_send, &selector->last_selected.sends); - if(item->dirty_read != -1) - d_r = FD_ISSET(item->dirty_read, &selector->last_selected.reads); - if(item->dirty_send != -1) - d_s = FD_ISSET(item->dirty_send, &selector->last_selected.sends); - /* If no IO has happened for us, skip needless data looping */ - if(!c_r && !c_s && !d_r && !d_s) - return 1; - if(c_r) - c_r = (buffer_from_fd(state_machine_get_buffer(&item->sm, - SM_CLEAN_IN), item->clean_read) <= 0); - if(c_s) - c_s = (buffer_to_fd(state_machine_get_buffer(&item->sm, - SM_CLEAN_OUT), item->clean_send) <= 0); - if(d_r) - d_r = (buffer_from_fd(state_machine_get_buffer(&item->sm, - SM_DIRTY_IN), item->dirty_read) <= 0); - if(d_s) - d_s = (buffer_to_fd(state_machine_get_buffer(&item->sm, - SM_DIRTY_OUT), item->dirty_send) <= 0); - /* If any of the flags is non-zero, that means they need closing */ - if(c_r) { - close(item->clean_read); - if(item->clean_send == item->clean_read) - item->clean_send = -1; - item->clean_read = -1; - } - if(c_s && (item->clean_send != -1)) { - close(item->clean_send); - if(item->clean_send == item->clean_read) - item->clean_read = -1; - item->clean_send = -1; - } - if(d_r) { - close(item->dirty_read); - if(item->dirty_send == item->dirty_read) - item->dirty_send = -1; - item->dirty_read = -1; - } - if(d_s && (item->dirty_send != -1)) { - close(item->dirty_send); - if(item->dirty_send == item->dirty_read) - item->dirty_read = -1; - item->dirty_send = -1; - } - /* This function name is attributed to the term donated by David - * Schwartz on openssl-dev, message-ID: - * . :-) */ - if(!state_machine_churn(&item->sm)) - /* If the SSL closes, it will also zero-out the _in buffers - * and will in future process just outgoing data. As and - * when the outgoing data has gone, it will return zero - * here to tell us to bail out. */ - return 0; - /* Otherwise, we return zero if both sides are dead. */ - if(((item->clean_read == -1) || (item->clean_send == -1)) && - ((item->dirty_read == -1) || (item->dirty_send == -1))) - return 0; - /* If only one side closed, notify the SSL of this so it can take - * appropriate action. */ - if((item->clean_read == -1) || (item->clean_send == -1)) { - if(!state_machine_close_clean(&item->sm)) - return 0; - } - if((item->dirty_read == -1) || (item->dirty_send == -1)) { - if(!state_machine_close_dirty(&item->sm)) - return 0; - } - return 1; -} - diff --git a/demos/tunala/tunala.h b/demos/tunala/tunala.h deleted file mode 100644 index 3a752f259a949bee636ad6574cd2cd1e570e7430..0000000000000000000000000000000000000000 --- a/demos/tunala/tunala.h +++ /dev/null @@ -1,215 +0,0 @@ -/* Tunala ("Tunneler with a New Zealand accent") - * - * Written by Geoff Thorpe, but endorsed/supported by noone. Please use this is - * if it's useful or informative to you, but it's only here as a scratchpad for - * ideas about how you might (or might not) program with OpenSSL. If you deploy - * this is in a mission-critical environment, and have not read, understood, - * audited, and modified this code to your satisfaction, and the result is that - * all hell breaks loose and you are looking for a new employer, then it proves - * nothing except perhaps that Darwinism is alive and well. Let's just say, *I* - * don't use this in a mission-critical environment, so it would be stupid for - * anyone to assume that it is solid and/or tested enough when even its author - * doesn't place that much trust in it. You have been warned. - * - * With thanks to Cryptographic Appliances, Inc. - */ - -#ifndef _TUNALA_H -#define _TUNALA_H - -/* pull in autoconf fluff */ -#ifndef NO_CONFIG_H -#include "config.h" -#else -/* We don't have autoconf, we have to set all of these unless a tweaked Makefile - * tells us not to ... */ -/* headers */ -#ifndef NO_HAVE_SELECT -#define HAVE_SELECT -#endif -#ifndef NO_HAVE_SOCKET -#define HAVE_SOCKET -#endif -#ifndef NO_HAVE_UNISTD_H -#define HAVE_UNISTD_H -#endif -#ifndef NO_HAVE_FCNTL_H -#define HAVE_FCNTL_H -#endif -#ifndef NO_HAVE_LIMITS_H -#define HAVE_LIMITS_H -#endif -/* features */ -#ifndef NO_HAVE_STRSTR -#define HAVE_STRSTR -#endif -#ifndef NO_HAVE_STRTOUL -#define HAVE_STRTOUL -#endif -#endif - -#if !defined(HAVE_SELECT) || !defined(HAVE_SOCKET) -#error "can't build without some network basics like select() and socket()" -#endif - -#include -#ifndef NO_SYSTEM_H -#include -#ifdef HAVE_UNISTD_H -#include -#endif -#ifdef HAVE_FCNTL_H -#include -#endif -#ifdef HAVE_LIMITS_H -#include -#endif -#include -#include -#include -#include -#include -#endif /* !defined(NO_SYSTEM_H) */ - -#ifndef NO_OPENSSL -#include -#include -#include -#endif /* !defined(NO_OPENSSL) */ - -#ifndef OPENSSL_NO_BUFFER -/* This is the generic "buffer" type that is used when feeding the - * state-machine. It's basically a FIFO with respect to the "adddata" & - * "takedata" type functions that operate on it. */ -#define MAX_DATA_SIZE 16384 -typedef struct _buffer_t { - unsigned char data[MAX_DATA_SIZE]; - unsigned int used; - /* Statistical values - counts the total number of bytes read in and - * read out (respectively) since "buffer_init()" */ - unsigned long total_in, total_out; -} buffer_t; - -/* Initialise a buffer structure before use */ -void buffer_init(buffer_t *buf); -/* Cleanup a buffer structure - presently not needed, but if buffer_t is - * converted to using dynamic allocation, this would be required - so should be - * called to protect against an explosion of memory leaks later if the change is - * made. */ -void buffer_close(buffer_t *buf); - -/* Basic functions to manipulate buffers */ - -unsigned int buffer_used(buffer_t *buf); /* How much data in the buffer */ -unsigned int buffer_unused(buffer_t *buf); /* How much space in the buffer */ -int buffer_full(buffer_t *buf); /* Boolean, is it full? */ -int buffer_notfull(buffer_t *buf); /* Boolean, is it not full? */ -int buffer_empty(buffer_t *buf); /* Boolean, is it empty? */ -int buffer_notempty(buffer_t *buf); /* Boolean, is it not empty? */ -unsigned long buffer_total_in(buffer_t *buf); /* Total bytes written to buffer */ -unsigned long buffer_total_out(buffer_t *buf); /* Total bytes read from buffer */ - -#if 0 /* Currently used only within buffer.c - better to expose only - * higher-level functions anyway */ -/* Add data to the tail of the buffer, returns the amount that was actually - * added (so, you need to check if return value is less than size) */ -unsigned int buffer_adddata(buffer_t *buf, const unsigned char *ptr, - unsigned int size); - -/* Take data from the front of the buffer (and scroll the rest forward). If - * "ptr" is NULL, this just removes data off the front of the buffer. Return - * value is the amount actually removed (can be less than size if the buffer has - * too little data). */ -unsigned int buffer_takedata(buffer_t *buf, unsigned char *ptr, - unsigned int size); - -/* Flushes as much data as possible out of the "from" buffer into the "to" - * buffer. Return value is the amount moved. The amount moved can be restricted - * to a maximum by specifying "cap" - setting it to -1 means no limit. */ -unsigned int buffer_tobuffer(buffer_t *to, buffer_t *from, int cap); -#endif - -#ifndef NO_IP -/* Read or write between a file-descriptor and a buffer */ -int buffer_from_fd(buffer_t *buf, int fd); -int buffer_to_fd(buffer_t *buf, int fd); -#endif /* !defined(NO_IP) */ - -#ifndef NO_OPENSSL -/* Read or write between an SSL or BIO and a buffer */ -void buffer_from_SSL(buffer_t *buf, SSL *ssl); -void buffer_to_SSL(buffer_t *buf, SSL *ssl); -void buffer_from_BIO(buffer_t *buf, BIO *bio); -void buffer_to_BIO(buffer_t *buf, BIO *bio); - -/* Callbacks */ -void cb_ssl_info(const SSL *s, int where, int ret); -void cb_ssl_info_set_output(FILE *fp); /* Called if output should be sent too */ -int cb_ssl_verify(int ok, X509_STORE_CTX *ctx); -void cb_ssl_verify_set_output(FILE *fp); -void cb_ssl_verify_set_depth(unsigned int verify_depth); -void cb_ssl_verify_set_level(unsigned int level); -RSA *cb_generate_tmp_rsa(SSL *s, int is_export, int keylength); -#endif /* !defined(NO_OPENSSL) */ -#endif /* !defined(OPENSSL_NO_BUFFER) */ - -#ifndef NO_TUNALA -#ifdef OPENSSL_NO_BUFFER -#error "TUNALA section of tunala.h requires BUFFER support" -#endif -typedef struct _state_machine_t { - SSL *ssl; - BIO *bio_intossl; - BIO *bio_fromssl; - buffer_t clean_in, clean_out; - buffer_t dirty_in, dirty_out; -} state_machine_t; -typedef enum { - SM_CLEAN_IN, SM_CLEAN_OUT, - SM_DIRTY_IN, SM_DIRTY_OUT -} sm_buffer_t; -void state_machine_init(state_machine_t *machine); -void state_machine_close(state_machine_t *machine); -buffer_t *state_machine_get_buffer(state_machine_t *machine, sm_buffer_t type); -SSL *state_machine_get_SSL(state_machine_t *machine); -int state_machine_set_SSL(state_machine_t *machine, SSL *ssl, int is_server); -/* Performs the data-IO loop and returns zero if the machine should close */ -int state_machine_churn(state_machine_t *machine); -/* Is used to handle closing conditions - namely when one side of the tunnel has - * closed but the other should finish flushing. */ -int state_machine_close_clean(state_machine_t *machine); -int state_machine_close_dirty(state_machine_t *machine); -#endif /* !defined(NO_TUNALA) */ - -#ifndef NO_IP -/* Initialise anything related to the networking. This includes blocking pesky - * SIGPIPE signals. */ -int ip_initialise(void); -/* ip is the 4-byte ip address (eg. 127.0.0.1 is {0x7F,0x00,0x00,0x01}), port is - * the port to listen on (host byte order), and the return value is the - * file-descriptor or -1 on error. */ -int ip_create_listener_split(const char *ip, unsigned short port); -/* Same semantics as above. */ -int ip_create_connection_split(const char *ip, unsigned short port); -/* Converts a string into the ip/port before calling the above */ -int ip_create_listener(const char *address); -int ip_create_connection(const char *address); -/* Just does a string conversion on its own. NB: If accept_all_ip is non-zero, - * then the address string could be just a port. Ie. it's suitable for a - * listening address but not a connecting address. */ -int ip_parse_address(const char *address, const char **parsed_ip, - unsigned short *port, int accept_all_ip); -/* Accepts an incoming connection through the listener. Assumes selects and - * what-not have deemed it an appropriate thing to do. */ -int ip_accept_connection(int listen_fd); -#endif /* !defined(NO_IP) */ - -/* These functions wrap up things that can be portability hassles. */ -int int_strtoul(const char *str, unsigned long *val); -#ifdef HAVE_STRSTR -#define int_strstr strstr -#else -char *int_strstr(const char *haystack, const char *needle); -#endif - -#endif /* !defined(_TUNALA_H) */