/* $OpenBSD: gss-serv.c,v 1.8 2005/08/30 22:08:05 djm Exp $ */ /* * Copyright (c) 2001-2003 Simon Wilkinson. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR `AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "includes.h" #ifdef GSSAPI #include "buffer.h" #include "bufaux.h" #include "compat.h" #include #include "kex.h" #include "auth.h" #include "log.h" #include "channels.h" #include "session.h" #include "servconf.h" #include "monitor_wrap.h" #include "xmalloc.h" #include "getput.h" #include "ssh-gss.h" extern ServerOptions options; extern u_char *session_id2; extern int session_id2_len; static ssh_gssapi_client gssapi_client = { GSS_C_EMPTY_BUFFER, GSS_C_EMPTY_BUFFER, GSS_C_NO_CREDENTIAL, NULL, {NULL, NULL, NULL}}; ssh_gssapi_mech gssapi_null_mech = { NULL, NULL, {0, NULL}, NULL, NULL, NULL, NULL}; #ifdef KRB5 extern ssh_gssapi_mech gssapi_kerberos_mech; #endif #ifdef GSI extern ssh_gssapi_mech gssapi_gsi_mech; #endif ssh_gssapi_mech* supported_mechs[]= { #ifdef KRB5 &gssapi_kerberos_mech, #endif #ifdef GSI &gssapi_gsi_mech, #endif &gssapi_null_mech, }; #ifdef GSS_C_GLOBUS_LIMITED_PROXY_FLAG static int limited = 0; #endif /* Unpriviledged */ void ssh_gssapi_supported_oids(gss_OID_set *oidset) { int i = 0; OM_uint32 min_status; int present; gss_OID_set supported; gss_create_empty_oid_set(&min_status, oidset); /* Ask priviledged process what mechanisms it supports. */ PRIVSEP(gss_indicate_mechs(&min_status, &supported)); while (supported_mechs[i]->name != NULL) { if (GSS_ERROR(gss_test_oid_set_member(&min_status, &supported_mechs[i]->oid, supported, &present))) present = 0; if (present) gss_add_oid_set_member(&min_status, &supported_mechs[i]->oid, oidset); i++; } } /* Wrapper around accept_sec_context * Requires that the context contains: * oid * credentials (from ssh_gssapi_acquire_cred) */ /* Priviledged */ OM_uint32 ssh_gssapi_accept_ctx(Gssctxt *ctx, gss_buffer_desc *recv_tok, gss_buffer_desc *send_tok, OM_uint32 *flags) { OM_uint32 status; gss_OID mech; ctx->major = gss_accept_sec_context(&ctx->minor, &ctx->context, ctx->creds, recv_tok, GSS_C_NO_CHANNEL_BINDINGS, &ctx->client, &mech, send_tok, flags, NULL, &ctx->client_creds); if (GSS_ERROR(ctx->major)) ssh_gssapi_error(ctx); if (ctx->client_creds) debug("Received some client credentials"); else debug("Got no client credentials"); status = ctx->major; /* Now, if we're complete and we have the right flags, then * we flag the user as also having been authenticated */ if (((flags == NULL) || ((*flags & GSS_C_MUTUAL_FLAG) && (*flags & GSS_C_INTEG_FLAG))) && (ctx->major == GSS_S_COMPLETE)) { if (ssh_gssapi_getclient(ctx, &gssapi_client)) fatal("Couldn't convert client name"); #ifdef GSS_C_GLOBUS_LIMITED_PROXY_FLAG if (flags && (*flags & GSS_C_GLOBUS_LIMITED_PROXY_FLAG)) limited=1; #endif } return (status); } /* * This parses an exported name, extracting the mechanism specific portion * to use for ACL checking. It verifies that the name belongs the mechanism * originally selected. */ static OM_uint32 ssh_gssapi_parse_ename(Gssctxt *ctx, gss_buffer_t ename, gss_buffer_t name) { u_char *tok; OM_uint32 offset; OM_uint32 oidl; tok=ename->value; #ifdef GSI /* GSI gss_export_name() is broken. */ if ((ctx->oid->length == gssapi_gsi_mech.oid.length) && (memcmp(ctx->oid->elements, gssapi_gsi_mech.oid.elements, gssapi_gsi_mech.oid.length) == 0)) { name->length = ename->length; name->value = xmalloc(ename->length+1); memcpy(name->value, ename->value, ename->length); return GSS_S_COMPLETE; } #endif /* * Check that ename is long enough for all of the fixed length * header, and that the initial ID bytes are correct */ if (ename->length<6 || memcmp(tok,"\x04\x01", 2)!=0) return GSS_S_FAILURE; /* * Extract the OID, and check it. Here GSSAPI breaks with tradition * and does use the OID type and length bytes. To confuse things * there are two lengths - the first including these, and the * second without. */ oidl = GET_16BIT(tok+2); /* length including next two bytes */ oidl = oidl-2; /* turn it into the _real_ length of the variable OID */ /* * Check the BER encoding for correct type and length, that the * string is long enough and that the OID matches that in our context */ if (tok[4] != 0x06 || tok[5] != oidl || ename->length < oidl+6 || !ssh_gssapi_check_oid(ctx,tok+6,oidl)) return GSS_S_FAILURE; offset = oidl+6; if (ename->length < offset+4) return GSS_S_FAILURE; name->length = GET_32BIT(tok+offset); offset += 4; if (ename->length < offset+name->length) return GSS_S_FAILURE; name->value = xmalloc(name->length+1); memcpy(name->value,tok+offset,name->length); ((char *)name->value)[name->length] = 0; return GSS_S_COMPLETE; } /* Extract the client details from a given context. This can only reliably * be called once for a context */ /* Priviledged (called from accept_secure_ctx) */ OM_uint32 ssh_gssapi_getclient(Gssctxt *ctx, ssh_gssapi_client *client) { int i = 0; gss_buffer_desc ename; client->mech = NULL; while (supported_mechs[i]->name != NULL) { if (supported_mechs[i]->oid.length == ctx->oid->length && (memcmp(supported_mechs[i]->oid.elements, ctx->oid->elements, ctx->oid->length) == 0)) client->mech = supported_mechs[i]; i++; } if (client->mech == NULL) return GSS_S_FAILURE; if ((ctx->major = gss_display_name(&ctx->minor, ctx->client, &client->displayname, NULL))) { ssh_gssapi_error(ctx); return (ctx->major); } if ((ctx->major = gss_export_name(&ctx->minor, ctx->client, &ename))) { ssh_gssapi_error(ctx); return (ctx->major); } if ((ctx->major = ssh_gssapi_parse_ename(ctx,&ename, &client->exportedname))) { return (ctx->major); } /* We can't copy this structure, so we just move the pointer to it */ client->creds = ctx->client_creds; ctx->client_creds = GSS_C_NO_CREDENTIAL; return (ctx->major); } /* As user - called on fatal/exit */ void ssh_gssapi_cleanup_creds(void) { if (gssapi_client.store.filename != NULL) { /* Unlink probably isn't sufficient */ debug("removing gssapi cred file\"%s\"", gssapi_client.store.filename); unlink(gssapi_client.store.filename); } } /* As user */ void ssh_gssapi_storecreds(void) { if (gssapi_client.mech && gssapi_client.mech->storecreds) { (*gssapi_client.mech->storecreds)(&gssapi_client); } else debug("ssh_gssapi_storecreds: Not a GSSAPI mechanism"); } /* This allows GSSAPI methods to do things to the childs environment based * on the passed authentication process and credentials. */ /* As user */ void ssh_gssapi_do_child(char ***envp, u_int *envsizep) { if (gssapi_client.store.envvar != NULL && gssapi_client.store.envval != NULL) { debug("Setting %s to %s", gssapi_client.store.envvar, gssapi_client.store.envval); child_set_env(envp, envsizep, gssapi_client.store.envvar, gssapi_client.store.envval); } } /* Priviledged */ int ssh_gssapi_userok(char *user) { OM_uint32 lmin; if (gssapi_client.exportedname.length == 0 || gssapi_client.exportedname.value == NULL) { debug("No suitable client data"); return 0; } #ifdef GSS_C_GLOBUS_LIMITED_PROXY_FLAG if (limited) { debug("limited proxy not acceptable for remote login"); return 0; } #endif if (gssapi_client.mech && gssapi_client.mech->userok) if ((*gssapi_client.mech->userok)(&gssapi_client, user)) return 1; else { /* Destroy delegated credentials if userok fails */ gss_release_buffer(&lmin, &gssapi_client.displayname); gss_release_buffer(&lmin, &gssapi_client.exportedname); gss_release_cred(&lmin, &gssapi_client.creds); memset(&gssapi_client, 0, sizeof(ssh_gssapi_client)); return 0; } else debug("ssh_gssapi_userok: Unknown GSSAPI mechanism"); return (0); } /* Return a list of the gss-group1-sha1-x mechanisms supported by this * program. * * We only support the mechanisms that we've indicated in the list above, * but we check that they're supported by the GSSAPI mechanism on the * machine. We also check, before including them in the list, that * we have the necesary information in order to carry out the key exchange * (that is, that the user has credentials, the server's creds are accessible, * etc) * * The way that this is done is fairly nasty, as we do a lot of work that * is then thrown away. This should possibly be implemented with a cache * that stores the results (in an expanded Gssctxt structure), which are * then used by the first calls if that key exchange mechanism is chosen. */ /* Unpriviledged */ char * ssh_gssapi_server_mechanisms() { gss_OID_set supported; Gssctxt *ctx = NULL; OM_uint32 maj_status, min_status; Buffer buf; int i = 0; int first = 0; int present; char * mechs; ssh_gssapi_supported_oids(&supported); buffer_init(&buf); while(supported_mechs[i]->name != NULL) { if ((maj_status=gss_test_oid_set_member(&min_status, &supported_mechs[i]->oid, supported, &present))) { present=0; } if (present) { if (!GSS_ERROR(PRIVSEP(ssh_gssapi_server_ctx(&ctx, &supported_mechs[i]->oid)))) { /* Append gss_group1_sha1_x to our list */ if (first++!=0) buffer_put_char(&buf,','); buffer_append(&buf, KEX_GSS_SHA1, sizeof(KEX_GSS_SHA1)-1); buffer_append(&buf, supported_mechs[i]->enc_name, strlen(supported_mechs[i]->enc_name)); debug("GSSAPI mechanism %s (%s%s) supported", supported_mechs[i]->name, KEX_GSS_SHA1, supported_mechs[i]->enc_name); } else { debug("no credentials for GSSAPI mechanism %s", supported_mechs[i]->name); } } else { debug("GSSAPI mechanism %s not supported", supported_mechs[i]->name); } ssh_gssapi_delete_ctx(&ctx); i++; } buffer_put_char(&buf,'\0'); mechs=xmalloc(buffer_len(&buf)); buffer_get(&buf,mechs,buffer_len(&buf)); buffer_free(&buf); if (strlen(mechs)==0) { options.gss_authentication = 0; /* no mechs. skip gss auth. */ return(NULL); } else { return(mechs); } } /* Return the OID that corresponds to the given context name */ /* Unpriviledged */ gss_OID ssh_gssapi_server_id_kex(char *name) { int i=0; if (strncmp(name, KEX_GSS_SHA1, sizeof(KEX_GSS_SHA1)-1) !=0) { return(NULL); } name+=sizeof(KEX_GSS_SHA1)-1; /* Move to the start of the MIME string */ while (supported_mechs[i]->name!=NULL && strcmp(name,supported_mechs[i]->enc_name)!=0) { i++; } if (supported_mechs[i]->name==NULL) return (NULL); debug("using GSSAPI mechanism %s (%s%s)", supported_mechs[i]->name, KEX_GSS_SHA1, supported_mechs[i]->enc_name); return &supported_mechs[i]->oid; } /* Priviledged */ int ssh_gssapi_localname(char **user) { *user = NULL; if (gssapi_client.displayname.length==0 || gssapi_client.displayname.value==NULL) { debug("No suitable client data"); return(0);; } if (gssapi_client.mech && gssapi_client.mech->localname) { return((*gssapi_client.mech->localname)(&gssapi_client,user)); } else { debug("Unknown client authentication type"); } return(0); } /* Priviledged */ OM_uint32 ssh_gssapi_checkmic(Gssctxt *ctx, gss_buffer_t gssbuf, gss_buffer_t gssmic) { ctx->major = gss_verify_mic(&ctx->minor, ctx->context, gssbuf, gssmic, NULL); return (ctx->major); } #endif