diff --git a/dirmngr/domaininfo.c b/dirmngr/domaininfo.c index 90cdb856c..a2effffef 100644 --- a/dirmngr/domaininfo.c +++ b/dirmngr/domaininfo.c @@ -1,290 +1,291 @@ /* domaininfo.c - Gather statistics about accessed domains * Copyright (C) 2017 Werner Koch * * This file is part of GnuPG. * * GnuPG is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 3 of the License, or * (at your option) any later version. * * GnuPG is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, see . * * SPDX-License-Identifier: GPL-3.0+ */ #include #include #include #include "dirmngr.h" /* Number of bucket for the hash array and limit for the length of a * bucket chain. For debugging values of 13 and 10 are more suitable * and a command like * for j in a b c d e f g h i j k l m n o p q r s t u v w z y z; do \ * for i in a b c d e f g h i j k l m n o p q r s t u v w z y z; do \ * gpg-connect-agent --dirmngr "wkd_get foo@$i.$j.gnupg.net" /bye \ * >/dev/null ; done; done * will quickly add a couple of domains. */ #define NO_OF_DOMAINBUCKETS 103 #define MAX_DOMAINBUCKET_LEN 20 /* Object to keep track of a domain name. */ struct domaininfo_s { struct domaininfo_s *next; unsigned int no_name:1; /* Domain name not found. */ unsigned int wkd_not_found:1; /* A WKD query failed. */ unsigned int wkd_supported:1; /* One WKD entry was found. */ unsigned int wkd_not_supported:1; /* Definitely does not support WKD. */ char name[1]; }; typedef struct domaininfo_s *domaininfo_t; /* And the hashed array. */ static domaininfo_t domainbuckets[NO_OF_DOMAINBUCKETS]; /* The hash function we use. Must not call a system function. */ static inline u32 hash_domain (const char *domain) { const unsigned char *s = (const unsigned char*)domain; u32 hashval = 0; u32 carry; for (; *s; s++) { if (*s == '.') continue; hashval = (hashval << 4) + *s; if ((carry = (hashval & 0xf0000000))) { hashval ^= (carry >> 24); hashval ^= carry; } } return hashval % NO_OF_DOMAINBUCKETS; } void domaininfo_print_stats (void) { int bidx; domaininfo_t di; int count, no_name, wkd_not_found, wkd_supported, wkd_not_supported; int len, minlen, maxlen; count = no_name = wkd_not_found = wkd_supported = wkd_not_supported = 0; maxlen = 0; minlen = -1; for (bidx = 0; bidx < NO_OF_DOMAINBUCKETS; bidx++) { len = 0; for (di = domainbuckets[bidx]; di; di = di->next) { count++; len++; if (di->no_name) no_name++; if (di->wkd_not_found) wkd_not_found++; if (di->wkd_supported) wkd_supported++; if (di->wkd_not_supported) wkd_not_supported++; } if (len > maxlen) maxlen = len; if (minlen == -1 || len < minlen) minlen = len; } log_info ("domaininfo: items=%d chainlen=%d..%d nn=%d nf=%d ns=%d s=%d\n", count, minlen > 0? minlen : 0, maxlen, no_name, wkd_not_found, wkd_not_supported, wkd_supported); } /* Return true if DOMAIN definitely does not support WKD. Noet that * DOMAIN is expected to be lowercase. */ int domaininfo_is_wkd_not_supported (const char *domain) { domaininfo_t di; for (di = domainbuckets[hash_domain (domain)]; di; di = di->next) if (!strcmp (di->name, domain)) return !!di->wkd_not_supported; return 0; /* We don't know. */ } /* Core update function. DOMAIN is expected to be lowercase. * CALLBACK is called to update the existing or the newly inserted * item. */ static void insert_or_update (const char *domain, void (*callback)(domaininfo_t di, int insert_mode)) { domaininfo_t di; domaininfo_t di_new; domaininfo_t di_cut; u32 hash; int count; hash = hash_domain (domain); for (di = domainbuckets[hash]; di; di = di->next) if (!strcmp (di->name, domain)) { callback (di, 0); /* Update */ return; } di_new = xtrycalloc (1, sizeof *di + strlen (domain)); if (!di_new) return; /* Out of core - we ignore this. */ + strcpy (di_new->name, domain); /* Need to do another lookup because the malloc is a system call and * thus the hash array may have been changed by another thread. */ di_cut = NULL; for (count=0, di = domainbuckets[hash]; di; di = di->next, count++) if (!strcmp (di->name, domain)) { callback (di, 0); /* Update */ xfree (di_new); return; } /* Before we insert we need to check whether the chain gets too long. */ di_cut = NULL; if (count >= MAX_DOMAINBUCKET_LEN) { for (count=0, di = domainbuckets[hash]; di; di = di->next, count++) if (count >= MAX_DOMAINBUCKET_LEN/2) { di_cut = di->next; di->next = NULL; break; } } /* Insert */ callback (di_new, 1); di = di_new; di->next = domainbuckets[hash]; domainbuckets[hash] = di; /* Remove the rest of the cutted chain. */ while (di_cut) { di = di_cut->next; xfree (di_cut); di_cut = di; } } /* Helper for domaininfo_set_no_name. */ static void set_no_name_cb (domaininfo_t di, int insert_mode) { (void)insert_mode; di->no_name = 1; /* Obviously the domain is in this case also not supported. */ di->wkd_not_supported = 1; /* The next should already be 0 but we clear it anyway in the case * of a temporary DNS failure. */ di->wkd_supported = 0; } /* Mark DOMAIN as not existent. */ void domaininfo_set_no_name (const char *domain) { insert_or_update (domain, set_no_name_cb); } /* Helper for domaininfo_set_wkd_supported. */ static void set_wkd_supported_cb (domaininfo_t di, int insert_mode) { (void)insert_mode; di->wkd_supported = 1; /* The next will already be set unless the domain enabled WKD in the * meantime. Thus we need to clear it. */ di->wkd_not_supported = 0; } /* Mark DOMAIN as supporting WKD. */ void domaininfo_set_wkd_supported (const char *domain) { insert_or_update (domain, set_wkd_supported_cb); } /* Helper for domaininfo_set_wkd_not_supported. */ static void set_wkd_not_supported_cb (domaininfo_t di, int insert_mode) { (void)insert_mode; di->wkd_not_supported = 1; di->wkd_supported = 0; } /* Mark DOMAIN as not supporting WKD queries (e.g. no policy file). */ void domaininfo_set_wkd_not_supported (const char *domain) { insert_or_update (domain, set_wkd_not_supported_cb); } /* Helper for domaininfo_set_wkd_not_found. */ static void set_wkd_not_found_cb (domaininfo_t di, int insert_mode) { /* Set the not found flag but there is no need to do this if we * already know that the domain either does not support WKD or we * know that it supports WKD. */ if (insert_mode) di->wkd_not_found = 1; else if (!di->wkd_not_supported && !di->wkd_supported) di->wkd_not_found = 1; /* Better clear this flag in case we had a DNS failure in the * past. */ di->no_name = 0; } /* Update a counter for DOMAIN to keep track of failed WKD queries. */ void domaininfo_set_wkd_not_found (const char *domain) { insert_or_update (domain, set_wkd_not_found_cb); } diff --git a/dirmngr/ks-action.c b/dirmngr/ks-action.c index 857aab166..38cd02feb 100644 --- a/dirmngr/ks-action.c +++ b/dirmngr/ks-action.c @@ -1,409 +1,410 @@ /* ks-action.c - OpenPGP keyserver actions * Copyright (C) 2011 Free Software Foundation, Inc. * Copyright (C) 2011, 2014 Werner Koch * Copyright (C) 2015 g10 Code GmbH * * This file is part of GnuPG. * * GnuPG is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 3 of the License, or * (at your option) any later version. * * GnuPG is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, see . */ #include #include #include #include #include #include "dirmngr.h" #include "misc.h" #include "ks-engine.h" #include "ks-action.h" #if USE_LDAP # include "ldap-parse-uri.h" #endif /* Called by the engine's help functions to print the actual help. */ gpg_error_t ks_print_help (ctrl_t ctrl, const char *text) { return dirmngr_status_help (ctrl, text); } /* Called by the engine's help functions to print the actual help. */ gpg_error_t ks_printf_help (ctrl_t ctrl, const char *format, ...) { va_list arg_ptr; gpg_error_t err; char *buf; va_start (arg_ptr, format); buf = es_vbsprintf (format, arg_ptr); err = buf? 0 : gpg_error_from_syserror (); va_end (arg_ptr); if (!err) err = dirmngr_status_help (ctrl, buf); es_free (buf); return err; } /* Run the help command for the engine responsible for URI. */ gpg_error_t ks_action_help (ctrl_t ctrl, const char *url) { gpg_error_t err; parsed_uri_t parsed_uri; /* The broken down URI. */ if (!url || !*url) { ks_print_help (ctrl, "Known schemata:\n"); parsed_uri = NULL; } else { #if USE_LDAP if (ldap_uri_p (url)) err = ldap_parse_uri (&parsed_uri, url); else #endif { err = http_parse_uri (&parsed_uri, url, 1); } if (err) return err; } /* Call all engines to give them a chance to print a help sting. */ err = ks_hkp_help (ctrl, parsed_uri); if (!err) err = ks_http_help (ctrl, parsed_uri); if (!err) err = ks_finger_help (ctrl, parsed_uri); if (!err) err = ks_kdns_help (ctrl, parsed_uri); #if USE_LDAP if (!err) err = ks_ldap_help (ctrl, parsed_uri); #endif if (!parsed_uri) ks_print_help (ctrl, "(Use an URL for engine specific help.)"); else http_release_parsed_uri (parsed_uri); return err; } /* Resolve all host names. This is useful for looking at the status of configured keyservers. */ gpg_error_t ks_action_resolve (ctrl_t ctrl, uri_item_t keyservers) { gpg_error_t err = 0; int any_server = 0; uri_item_t uri; for (uri = keyservers; !err && uri; uri = uri->next) { if (uri->parsed_uri->is_http) { any_server = 1; err = ks_hkp_resolve (ctrl, uri->parsed_uri); if (err) break; } } if (!any_server) err = gpg_error (GPG_ERR_NO_KEYSERVER); return err; } /* Search all configured keyservers for keys matching PATTERNS and write the result to the provided output stream. */ gpg_error_t ks_action_search (ctrl_t ctrl, uri_item_t keyservers, strlist_t patterns, estream_t outfp) { gpg_error_t err = 0; int any_server = 0; int any_results = 0; uri_item_t uri; estream_t infp; if (!patterns) return gpg_error (GPG_ERR_NO_USER_ID); /* FIXME: We only take care of the first pattern. To fully support multiple patterns we might either want to run several queries in parallel and merge them. We also need to decide what to do with errors - it might not be the best idea to ignore an error from one server and silently continue with another server. For now we stop at the first error, unless the server responds with '404 Not Found', in which case we try the next server. */ for (uri = keyservers; !err && uri; uri = uri->next) { int is_http = uri->parsed_uri->is_http; int is_ldap = 0; unsigned int http_status = 0; #if USE_LDAP is_ldap = (strcmp (uri->parsed_uri->scheme, "ldap") == 0 || strcmp (uri->parsed_uri->scheme, "ldaps") == 0 || strcmp (uri->parsed_uri->scheme, "ldapi") == 0); #endif if (is_http || is_ldap) { any_server = 1; #if USE_LDAP if (is_ldap) err = ks_ldap_search (ctrl, uri->parsed_uri, patterns->d, &infp); else #endif { err = ks_hkp_search (ctrl, uri->parsed_uri, patterns->d, &infp, &http_status); } if (err == gpg_error (GPG_ERR_NO_DATA) && http_status == 404 /* not found */) { /* No record found. Clear error and try next server. */ err = 0; continue; } if (!err) { err = copy_stream (infp, outfp); es_fclose (infp); any_results = 1; break; } } } if (!any_server) err = gpg_error (GPG_ERR_NO_KEYSERVER); else if (err == 0 && !any_results) err = gpg_error (GPG_ERR_NO_DATA); return err; } /* Get the requested keys (matching PATTERNS) using all configured keyservers and write the result to the provided output stream. */ gpg_error_t ks_action_get (ctrl_t ctrl, uri_item_t keyservers, strlist_t patterns, estream_t outfp) { gpg_error_t err = 0; gpg_error_t first_err = 0; int any_server = 0; int any_data = 0; strlist_t sl; uri_item_t uri; estream_t infp; if (!patterns) return gpg_error (GPG_ERR_NO_USER_ID); /* FIXME: We only take care of the first keyserver. To fully support multiple keyservers we need to track the result for each pattern and use the next keyserver if one key was not found. The keyservers might not all be fully synced thus it is not clear whether the first keyserver has the freshest copy of the key. Need to think about a better strategy. */ for (uri = keyservers; !err && uri; uri = uri->next) { int is_hkp_s = (strcmp (uri->parsed_uri->scheme, "hkp") == 0 || strcmp (uri->parsed_uri->scheme, "hkps") == 0); int is_http_s = (strcmp (uri->parsed_uri->scheme, "http") == 0 || strcmp (uri->parsed_uri->scheme, "https") == 0); int is_ldap = 0; #if USE_LDAP is_ldap = (strcmp (uri->parsed_uri->scheme, "ldap") == 0 || strcmp (uri->parsed_uri->scheme, "ldaps") == 0 || strcmp (uri->parsed_uri->scheme, "ldapi") == 0); #endif if (is_hkp_s || is_http_s || is_ldap) { any_server = 1; for (sl = patterns; !err && sl; sl = sl->next) { #if USE_LDAP if (is_ldap) err = ks_ldap_get (ctrl, uri->parsed_uri, sl->d, &infp); else #endif if (is_hkp_s) err = ks_hkp_get (ctrl, uri->parsed_uri, sl->d, &infp); else if (is_http_s) err = ks_http_fetch (ctrl, uri->parsed_uri->original, &infp); else BUG (); if (err) { /* It is possible that a server does not carry a key, thus we only save the error and continue with the next pattern. FIXME: It is an open question how to return such an error condition to the caller. */ first_err = err; err = 0; } else { err = copy_stream (infp, outfp); /* Reading from the keyserver should never fail, thus return this error. */ if (!err) any_data = 1; es_fclose (infp); infp = NULL; } } } if (any_data) break; /* Stop loop after a keyserver returned something. */ } if (!any_server) err = gpg_error (GPG_ERR_NO_KEYSERVER); else if (!err && first_err && !any_data) err = first_err; return err; } /* Retrieve keys from URL and write the result to the provided output - stream OUTFP. */ + * stream OUTFP. If OUTFP is NULL the data is written to the bit + * bucket. */ gpg_error_t ks_action_fetch (ctrl_t ctrl, const char *url, estream_t outfp) { gpg_error_t err = 0; estream_t infp; parsed_uri_t parsed_uri; /* The broken down URI. */ if (!url) return gpg_error (GPG_ERR_INV_URI); err = http_parse_uri (&parsed_uri, url, 1); if (err) return err; if (parsed_uri->is_http) { err = ks_http_fetch (ctrl, url, &infp); if (!err) { err = copy_stream (infp, outfp); es_fclose (infp); } } else if (!parsed_uri->opaque) { err = gpg_error (GPG_ERR_INV_URI); } else if (!strcmp (parsed_uri->scheme, "finger")) { err = ks_finger_fetch (ctrl, parsed_uri, &infp); if (!err) { err = copy_stream (infp, outfp); es_fclose (infp); } } else if (!strcmp (parsed_uri->scheme, "kdns")) { err = ks_kdns_fetch (ctrl, parsed_uri, &infp); if (!err) { err = copy_stream (infp, outfp); es_fclose (infp); } } else err = gpg_error (GPG_ERR_INV_URI); http_release_parsed_uri (parsed_uri); return err; } /* Send an OpenPGP key to all keyservers. The key in {DATA,DATALEN} is expected to be in OpenPGP binary transport format. The metadata in {INFO,INFOLEN} is in colon-separated format (concretely, it is the output of 'for x in keys sigs; do gpg --list-$x --with-colons KEYID; done'. This function may modify DATA and INFO. If this is a problem, then the caller should create a copy. */ gpg_error_t ks_action_put (ctrl_t ctrl, uri_item_t keyservers, void *data, size_t datalen, void *info, size_t infolen) { gpg_error_t err = 0; gpg_error_t first_err = 0; int any_server = 0; uri_item_t uri; (void) info; (void) infolen; for (uri = keyservers; !err && uri; uri = uri->next) { int is_http = uri->parsed_uri->is_http; int is_ldap = 0; #if USE_LDAP is_ldap = (strcmp (uri->parsed_uri->scheme, "ldap") == 0 || strcmp (uri->parsed_uri->scheme, "ldaps") == 0 || strcmp (uri->parsed_uri->scheme, "ldapi") == 0); #endif if (is_http || is_ldap) { any_server = 1; #if USE_LDAP if (is_ldap) err = ks_ldap_put (ctrl, uri->parsed_uri, data, datalen, info, infolen); else #endif { err = ks_hkp_put (ctrl, uri->parsed_uri, data, datalen); } if (err) { first_err = err; err = 0; } } } if (!any_server) err = gpg_error (GPG_ERR_NO_KEYSERVER); else if (!err && first_err) err = first_err; return err; } diff --git a/dirmngr/misc.c b/dirmngr/misc.c index 1716141a6..6291a9a35 100644 --- a/dirmngr/misc.c +++ b/dirmngr/misc.c @@ -1,655 +1,656 @@ /* misc.c - miscellaneous * Copyright (C) 2002 Klarälvdalens Datakonsult AB * Copyright (C) 2002, 2003, 2004, 2010 Free Software Foundation, Inc. * * This file is part of DirMngr. * * DirMngr is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * DirMngr is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA */ #include #include #include #include #include #include #include "dirmngr.h" #include "../common/util.h" #include "misc.h" /* Convert the hex encoded STRING back into binary and store the result into the provided buffer RESULT. The actual size of that buffer will be returned. The caller should provide RESULT of at least strlen(STRING)/2 bytes. There is no error detection, the parsing stops at the first non hex character. With RESULT given as NULL, the function does only return the size of the buffer which would be needed. */ size_t unhexify (unsigned char *result, const char *string) { const char *s; size_t n; for (s=string,n=0; hexdigitp (s) && hexdigitp(s+1); s += 2) { if (result) result[n] = xtoi_2 (s); n++; } return n; } char* hashify_data( const char* data, size_t len ) { unsigned char buf[20]; gcry_md_hash_buffer (GCRY_MD_SHA1, buf, data, len); return hexify_data (buf, 20, 0); } /* FIXME: Replace this by hextobin. */ char* hexify_data (const unsigned char* data, size_t len, int with_prefix) { int i; char *result = xmalloc (2*len + (with_prefix?2:0) + 1); char *p; if (with_prefix) p = stpcpy (result, "0x"); else p = result; for (i = 0; i < 2*len; i+=2 ) snprintf (p+i, 3, "%02X", *data++); return result; } char * serial_hex (ksba_sexp_t serial ) { unsigned char* p = serial; char *endp; unsigned long n; char *certid; if (!p) return NULL; else { p++; /* ignore initial '(' */ n = strtoul (p, (char**)&endp, 10); p = endp; if (*p!=':') return NULL; else { int i = 0; certid = xmalloc( sizeof( char )*(2*n + 1 ) ); for (p++; n; n--, p++) { sprintf ( certid+i , "%02X", *p); i += 2; } } } return certid; } /* Take an S-Expression encoded blob and return a pointer to the actual data as well as its length. Return NULL for an invalid S-Expression.*/ const unsigned char * serial_to_buffer (const ksba_sexp_t serial, size_t *length) { unsigned char *p = serial; char *endp; unsigned long n; if (!p || *p != '(') return NULL; p++; n = strtoul (p, &endp, 10); p = endp; if (*p != ':') return NULL; p++; *length = n; return p; } /* Do an in-place percent unescaping of STRING. Returns STRING. Note that this function does not do a '+'-to-space unescaping.*/ char * unpercent_string (char *string) { char *s = string; char *d = string; while (*s) { if (*s == '%' && s[1] && s[2]) { s++; *d++ = xtoi_2 ( s); s += 2; } else *d++ = *s++; } *d = 0; return string; } /* Convert a canonical encoded S-expression in CANON into the GCRY type. */ gpg_error_t canon_sexp_to_gcry (const unsigned char *canon, gcry_sexp_t *r_sexp) { gpg_error_t err; size_t n; gcry_sexp_t sexp; *r_sexp = NULL; n = gcry_sexp_canon_len (canon, 0, NULL, NULL); if (!n) { log_error (_("invalid canonical S-expression found\n")); err = gpg_error (GPG_ERR_INV_SEXP); } else if ((err = gcry_sexp_sscan (&sexp, NULL, canon, n))) log_error (_("converting S-expression failed: %s\n"), gcry_strerror (err)); else *r_sexp = sexp; return err; } /* Return an allocated buffer with the formatted fingerprint as one large hexnumber */ char * get_fingerprint_hexstring (ksba_cert_t cert) { unsigned char digest[20]; gcry_md_hd_t md; int rc; char *buf; int i; rc = gcry_md_open (&md, GCRY_MD_SHA1, 0); if (rc) log_fatal (_("gcry_md_open failed: %s\n"), gpg_strerror (rc)); rc = ksba_cert_hash (cert, 0, HASH_FNC, md); if (rc) { log_error (_("oops: ksba_cert_hash failed: %s\n"), gpg_strerror (rc)); memset (digest, 0xff, 20); /* Use a dummy value. */ } else { gcry_md_final (md); memcpy (digest, gcry_md_read (md, GCRY_MD_SHA1), 20); } gcry_md_close (md); buf = xmalloc (41); *buf = 0; for (i=0; i < 20; i++ ) sprintf (buf+strlen(buf), "%02X", digest[i]); return buf; } /* Return an allocated buffer with the formatted fingerprint as one large hexnumber. This version inserts the usual colons. */ char * get_fingerprint_hexstring_colon (ksba_cert_t cert) { unsigned char digest[20]; gcry_md_hd_t md; int rc; char *buf; int i; rc = gcry_md_open (&md, GCRY_MD_SHA1, 0); if (rc) log_fatal (_("gcry_md_open failed: %s\n"), gpg_strerror (rc)); rc = ksba_cert_hash (cert, 0, HASH_FNC, md); if (rc) { log_error (_("oops: ksba_cert_hash failed: %s\n"), gpg_strerror (rc)); memset (digest, 0xff, 20); /* Use a dummy value. */ } else { gcry_md_final (md); memcpy (digest, gcry_md_read (md, GCRY_MD_SHA1), 20); } gcry_md_close (md); buf = xmalloc (61); *buf = 0; for (i=0; i < 20; i++ ) sprintf (buf+strlen(buf), "%02X:", digest[i]); buf[strlen(buf)-1] = 0; /* Remove railing colon. */ return buf; } /* Dump the serial number SERIALNO to the log stream. */ void dump_serial (ksba_sexp_t serialno) { char *p; p = serial_hex (serialno); log_printf ("%s", p?p:"?"); xfree (p); } /* Dump STRING to the log file but choose the best readable format. */ void dump_string (const char *string) { if (!string) log_printf ("[error]"); else { const unsigned char *s; for (s=string; *s; s++) { if (*s < ' ' || (*s >= 0x7f && *s <= 0xa0)) break; } if (!*s && *string != '[') log_printf ("%s", string); else { log_printf ( "[ "); log_printhex (NULL, string, strlen (string)); log_printf ( " ]"); } } } /* Dump an KSBA cert object to the log stream. Prefix the output with TEXT. This is used for debugging. */ void dump_cert (const char *text, ksba_cert_t cert) { ksba_sexp_t sexp; char *p; ksba_isotime_t t; int idx; log_debug ("BEGIN Certificate '%s':\n", text? text:""); if (cert) { sexp = ksba_cert_get_serial (cert); p = serial_hex (sexp); log_debug (" serial: %s\n", p?p:"?"); xfree (p); ksba_free (sexp); ksba_cert_get_validity (cert, 0, t); log_debug (" notBefore: "); dump_isotime (t); log_printf ("\n"); ksba_cert_get_validity (cert, 1, t); log_debug (" notAfter: "); dump_isotime (t); log_printf ("\n"); p = ksba_cert_get_issuer (cert, 0); log_debug (" issuer: "); dump_string (p); ksba_free (p); log_printf ("\n"); p = ksba_cert_get_subject (cert, 0); log_debug (" subject: "); dump_string (p); ksba_free (p); log_printf ("\n"); for (idx=1; (p = ksba_cert_get_subject (cert, idx)); idx++) { log_debug (" aka: "); dump_string (p); ksba_free (p); log_printf ("\n"); } log_debug (" hash algo: %s\n", ksba_cert_get_digest_algo (cert)); p = get_fingerprint_hexstring (cert); log_debug (" SHA1 fingerprint: %s\n", p); xfree (p); } log_debug ("END Certificate\n"); } /* Log the certificate's name in "#SN/ISSUERDN" format along with TEXT. */ void cert_log_name (const char *text, ksba_cert_t cert) { log_info ("%s", text? text:"certificate" ); if (cert) { ksba_sexp_t sn; char *p; p = ksba_cert_get_issuer (cert, 0); sn = ksba_cert_get_serial (cert); if (p && sn) { log_printf (" #"); dump_serial (sn); log_printf ("/"); dump_string (p); } else log_printf (" [invalid]"); ksba_free (sn); xfree (p); } log_printf ("\n"); } /* Log the certificate's subject DN along with TEXT. */ void cert_log_subject (const char *text, ksba_cert_t cert) { log_info ("%s", text? text:"subject" ); if (cert) { char *p; p = ksba_cert_get_subject (cert, 0); if (p) { log_printf (" /"); dump_string (p); xfree (p); } else log_printf (" [invalid]"); } log_printf ("\n"); } /* Callback to print infos about the TLS certificates. */ void cert_log_cb (http_session_t sess, gpg_error_t err, const char *hostname, const void **certs, size_t *certlens) { ksba_cert_t cert; size_t n; (void)sess; if (!err) return; /* No error - no need to log anything */ log_debug ("expected hostname: %s\n", hostname); for (n=0; certs[n]; n++) { err = ksba_cert_new (&cert); if (!err) err = ksba_cert_init_from_mem (cert, certs[n], certlens[n]); if (err) log_error ("error parsing cert for logging: %s\n", gpg_strerror (err)); else { char textbuf[20]; snprintf (textbuf, sizeof textbuf, "server[%u]", (unsigned int)n); dump_cert (textbuf, cert); } ksba_cert_release (cert); } } /**************** * Remove all %xx escapes; this is done inplace. * Returns: New length of the string. */ static int remove_percent_escapes (unsigned char *string) { int n = 0; unsigned char *p, *s; for (p = s = string; *s; s++) { if (*s == '%') { if (s[1] && s[2] && hexdigitp (s+1) && hexdigitp (s+2)) { s++; *p = xtoi_2 (s); s++; p++; n++; } else { *p++ = *s++; if (*s) *p++ = *s++; if (*s) *p++ = *s++; if (*s) *p = 0; return -1; /* Bad URI. */ } } else { *p++ = *s; n++; } } *p = 0; /* Always keep a string terminator. */ return n; } /* Return the host name and the port (0 if none was given) from the URL. Return NULL on error or if host is not included in the URL. */ char * host_and_port_from_url (const char *url, int *port) { const char *s, *s2; char *buf, *p; int n; s = url; *port = 0; /* Find the scheme */ if ( !(s2 = strchr (s, ':')) || s2 == s ) return NULL; /* No scheme given. */ s = s2+1; /* Find the hostname */ if (*s != '/') return NULL; /* Does not start with a slash. */ s++; if (*s != '/') return NULL; /* No host name. */ s++; buf = xtrystrdup (s); if (!buf) { log_error (_("malloc failed: %s\n"), strerror (errno)); return NULL; } if ((p = strchr (buf, '/'))) *p++ = 0; strlwr (buf); if ((p = strchr (p, ':'))) { *p++ = 0; *port = atoi (p); } /* Remove quotes and make sure that no Nul has been encoded. */ if ((n = remove_percent_escapes (buf)) < 0 || n != strlen (buf) ) { log_error (_("bad URL encoding detected\n")); xfree (buf); return NULL; } return buf; } /* A KSBA reader callback to read from an estream. */ static int my_estream_ksba_reader_cb (void *cb_value, char *buffer, size_t count, size_t *r_nread) { estream_t fp = cb_value; if (!fp) return gpg_error (GPG_ERR_INV_VALUE); if (!buffer && !count && !r_nread) { es_rewind (fp); return 0; } *r_nread = es_fread (buffer, 1, count, fp); if (!*r_nread) return -1; /* EOF or error. */ return 0; /* Success. */ } /* Create a KSBA reader object and connect it to the estream FP. */ gpg_error_t create_estream_ksba_reader (ksba_reader_t *r_reader, estream_t fp) { gpg_error_t err; ksba_reader_t reader; *r_reader = NULL; err = ksba_reader_new (&reader); if (!err) err = ksba_reader_set_cb (reader, my_estream_ksba_reader_cb, fp); if (err) { log_error (_("error initializing reader object: %s\n"), gpg_strerror (err)); ksba_reader_release (reader); return err; } *r_reader = reader; return 0; } gpg_error_t armor_data (char **r_string, const void *data, size_t datalen) { gpg_error_t err; struct b64state b64state; estream_t fp; long length; char *buffer; size_t nread; *r_string = NULL; fp = es_fopenmem (0, "rw,samethread"); if (!fp) return gpg_error_from_syserror (); if ((err=b64enc_start_es (&b64state, fp, "PGP PUBLIC KEY BLOCK")) || (err=b64enc_write (&b64state, data, datalen)) || (err = b64enc_finish (&b64state))) { es_fclose (fp); return err; } /* FIXME: To avoid the extra buffer allocation estream should provide a function to snatch the internal allocated memory from such a memory stream. */ length = es_ftell (fp); if (length < 0) { err = gpg_error_from_syserror (); es_fclose (fp); return err; } buffer = xtrymalloc (length+1); if (!buffer) { err = gpg_error_from_syserror (); es_fclose (fp); return err; } es_rewind (fp); if (es_read (fp, buffer, length, &nread)) { err = gpg_error_from_syserror (); es_fclose (fp); return err; } buffer[nread] = 0; es_fclose (fp); *r_string = buffer; return 0; } -/* Copy all data from IN to OUT. */ + +/* Copy all data from IN to OUT. OUT may be NULL to use this fucntion + * as a dummy reader. */ gpg_error_t copy_stream (estream_t in, estream_t out) { char buffer[512]; size_t nread; while (!es_read (in, buffer, sizeof buffer, &nread)) { if (!nread) return 0; /* EOF */ - if (es_write (out, buffer, nread, NULL)) + if (out && es_write (out, buffer, nread, NULL)) break; - } return gpg_error_from_syserror (); } diff --git a/dirmngr/server.c b/dirmngr/server.c index 1fbd007a0..3d0768b2a 100644 --- a/dirmngr/server.c +++ b/dirmngr/server.c @@ -1,2929 +1,2962 @@ /* server.c - LDAP and Keyserver access server * Copyright (C) 2002 Klarälvdalens Datakonsult AB * Copyright (C) 2003, 2004, 2005, 2007, 2008, 2009, 2011, 2015 g10 Code GmbH * Copyright (C) 2014, 2015, 2016 Werner Koch * Copyright (C) 2016 Bundesamt für Sicherheit in der Informationstechnik * * This file is part of GnuPG. * * GnuPG is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 3 of the License, or * (at your option) any later version. * * GnuPG is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, see . * * SPDX-License-Identifier: GPL-3.0+ */ #include #include #include #include #include #include #include #include #include #include #include "dirmngr.h" #include #include "crlcache.h" #include "crlfetch.h" #if USE_LDAP # include "ldapserver.h" #endif #include "ocsp.h" #include "certcache.h" #include "validate.h" #include "misc.h" #if USE_LDAP # include "ldap-wrapper.h" #endif #include "ks-action.h" #include "ks-engine.h" /* (ks_hkp_print_hosttable) */ #if USE_LDAP # include "ldap-parse-uri.h" #endif #include "dns-stuff.h" #include "../common/mbox-util.h" #include "../common/zb32.h" #include "../common/server-help.h" /* To avoid DoS attacks we limit the size of a certificate to something reasonable. The DoS was actually only an issue back when Dirmngr was a system service and not a user service. */ #define MAX_CERT_LENGTH (16*1024) /* The limit for the CERTLIST inquiry. We allow for up to 20 * certificates but also take PEM encoding into account. */ #define MAX_CERTLIST_LENGTH ((MAX_CERT_LENGTH * 20 * 4)/3) /* The same goes for OpenPGP keyblocks, but here we need to allow for much longer blocks; a 200k keyblock is not too unusual for keys with a lot of signatures (e.g. 0x5b0358a2). 9C31503C6D866396 even has 770 KiB as of 2015-08-23. To avoid adding a runtime option we now use 20MiB which should really be enough. Well, a key with several pictures could be larger (the parser as a 18MiB limit for attribute packets) but it won't be nice to the keyservers to send them such large blobs. */ #define MAX_KEYBLOCK_LENGTH (20*1024*1024) #define PARM_ERROR(t) assuan_set_error (ctx, \ gpg_error (GPG_ERR_ASS_PARAMETER), (t)) -#define set_error(e,t) assuan_set_error (ctx, gpg_error (e), (t)) +#define set_error(e,t) (ctx ? assuan_set_error (ctx, gpg_error (e), (t)) \ + /**/: gpg_error (e)) /* Control structure per connection. */ struct server_local_s { /* Data used to associate an Assuan context with local server data */ assuan_context_t assuan_ctx; /* The session id (a counter). */ unsigned int session_id; /* Per-session LDAP servers. */ ldap_server_t ldapservers; /* Per-session list of keyservers. */ uri_item_t keyservers; /* If this flag is set to true this dirmngr process will be terminated after the end of this session. */ int stopme; /* State variable private to is_tor_running. */ int tor_state; /* If the first both flags are set the assuan logging of data lines * is suppressed. The count variable is used to show the number of * non-logged bytes. */ size_t inhibit_data_logging_count; unsigned int inhibit_data_logging : 1; unsigned int inhibit_data_logging_now : 1; }; /* Cookie definition for assuan data line output. */ static gpgrt_ssize_t data_line_cookie_write (void *cookie, const void *buffer, size_t size); static int data_line_cookie_close (void *cookie); static es_cookie_io_functions_t data_line_cookie_functions = { NULL, data_line_cookie_write, NULL, data_line_cookie_close }; /* Local prototypes */ static const char *task_check_wkd_support (ctrl_t ctrl, const char *domain); /* Accessor for the local ldapservers variable. */ ldap_server_t get_ldapservers_from_ctrl (ctrl_t ctrl) { if (ctrl && ctrl->server_local) return ctrl->server_local->ldapservers; else return NULL; } /* Release an uri_item_t list. */ static void release_uri_item_list (uri_item_t list) { while (list) { uri_item_t tmp = list->next; http_release_parsed_uri (list->parsed_uri); xfree (list); list = tmp; } } /* Release all configured keyserver info from CTRL. */ void release_ctrl_keyservers (ctrl_t ctrl) { if (! ctrl->server_local) return; release_uri_item_list (ctrl->server_local->keyservers); ctrl->server_local->keyservers = NULL; } /* Helper to print a message while leaving a command. */ static gpg_error_t leave_cmd (assuan_context_t ctx, gpg_error_t err) { if (err) { const char *name = assuan_get_command_name (ctx); if (!name) name = "?"; if (gpg_err_source (err) == GPG_ERR_SOURCE_DEFAULT) log_error ("command '%s' failed: %s\n", name, gpg_strerror (err)); else log_error ("command '%s' failed: %s <%s>\n", name, gpg_strerror (err), gpg_strsource (err)); } return err; } /* This is a wrapper around assuan_send_data which makes debugging the output in verbose mode easier. */ static gpg_error_t data_line_write (assuan_context_t ctx, const void *buffer_arg, size_t size) { ctrl_t ctrl = assuan_get_pointer (ctx); const char *buffer = buffer_arg; gpg_error_t err; /* If we do not want logging, enable it here. */ if (ctrl && ctrl->server_local && ctrl->server_local->inhibit_data_logging) ctrl->server_local->inhibit_data_logging_now = 1; if (opt.verbose && buffer && size) { /* Ease reading of output by sending a physical line at each LF. */ const char *p; size_t n, nbytes; nbytes = size; do { p = memchr (buffer, '\n', nbytes); n = p ? (p - buffer) + 1 : nbytes; err = assuan_send_data (ctx, buffer, n); if (err) { gpg_err_set_errno (EIO); goto leave; } buffer += n; nbytes -= n; if (nbytes && (err=assuan_send_data (ctx, NULL, 0))) /* Flush line. */ { gpg_err_set_errno (EIO); goto leave; } } while (nbytes); } else { err = assuan_send_data (ctx, buffer, size); if (err) { gpg_err_set_errno (EIO); /* For use by data_line_cookie_write. */ goto leave; } } leave: if (ctrl && ctrl->server_local && ctrl->server_local->inhibit_data_logging) { ctrl->server_local->inhibit_data_logging_now = 0; ctrl->server_local->inhibit_data_logging_count += size; } return err; } /* A write handler used by es_fopencookie to write assuan data lines. */ static gpgrt_ssize_t data_line_cookie_write (void *cookie, const void *buffer, size_t size) { assuan_context_t ctx = cookie; if (data_line_write (ctx, buffer, size)) return -1; return (gpgrt_ssize_t)size; } static int data_line_cookie_close (void *cookie) { assuan_context_t ctx = cookie; if (DBG_IPC) { ctrl_t ctrl = assuan_get_pointer (ctx); if (ctrl && ctrl->server_local && ctrl->server_local->inhibit_data_logging && ctrl->server_local->inhibit_data_logging_count) log_debug ("(%zu bytes sent via D lines not shown)\n", ctrl->server_local->inhibit_data_logging_count); } if (assuan_send_data (ctx, NULL, 0)) { gpg_err_set_errno (EIO); return -1; } return 0; } /* Copy the % and + escaped string S into the buffer D and replace the escape sequences. Note, that it is sufficient to allocate the target string D as long as the source string S, i.e.: strlen(s)+1. Note further that if S contains an escaped binary Nul the resulting string D will contain the 0 as well as all other characters but it will be impossible to know whether this is the original EOS or a copied Nul. */ static void strcpy_escaped_plus (char *d, const unsigned char *s) { while (*s) { if (*s == '%' && s[1] && s[2]) { s++; *d++ = xtoi_2 ( s); s += 2; } else if (*s == '+') *d++ = ' ', s++; else *d++ = *s++; } *d = 0; } /* This function returns true if a Tor server is running. The status * is cached for the current connection. */ static int is_tor_running (ctrl_t ctrl) { /* Check whether we can connect to the proxy. */ if (!ctrl || !ctrl->server_local) return 0; /* Ooops. */ if (!ctrl->server_local->tor_state) { assuan_fd_t sock; sock = assuan_sock_connect_byname (NULL, 0, 0, NULL, ASSUAN_SOCK_TOR); if (sock == ASSUAN_INVALID_FD) ctrl->server_local->tor_state = -1; /* Not running. */ else { assuan_sock_close (sock); ctrl->server_local->tor_state = 1; /* Running. */ } } return (ctrl->server_local->tor_state > 0); } /* Return an error if the assuan context does not belong to the owner of the process or to root. On error FAILTEXT is set as Assuan error string. */ static gpg_error_t check_owner_permission (assuan_context_t ctx, const char *failtext) { #ifdef HAVE_W32_SYSTEM /* Under Windows the dirmngr is always run under the control of the user. */ (void)ctx; (void)failtext; #else gpg_err_code_t ec; assuan_peercred_t cred; ec = gpg_err_code (assuan_get_peercred (ctx, &cred)); if (!ec && cred->uid && cred->uid != getuid ()) ec = GPG_ERR_EPERM; if (ec) return set_error (ec, failtext); #endif return 0; } /* Common code for get_cert_local and get_issuer_cert_local. */ static ksba_cert_t do_get_cert_local (ctrl_t ctrl, const char *name, const char *command) { unsigned char *value; size_t valuelen; int rc; char *buf; ksba_cert_t cert; buf = name? strconcat (command, " ", name, NULL) : xtrystrdup (command); if (!buf) rc = gpg_error_from_syserror (); else { rc = assuan_inquire (ctrl->server_local->assuan_ctx, buf, &value, &valuelen, MAX_CERT_LENGTH); xfree (buf); } if (rc) { log_error (_("assuan_inquire(%s) failed: %s\n"), command, gpg_strerror (rc)); return NULL; } if (!valuelen) { xfree (value); return NULL; } rc = ksba_cert_new (&cert); if (!rc) { rc = ksba_cert_init_from_mem (cert, value, valuelen); if (rc) { ksba_cert_release (cert); cert = NULL; } } xfree (value); return cert; } /* Ask back to return a certificate for NAME, given as a regular gpgsm * certificate identifier (e.g. fingerprint or one of the other * methods). Alternatively, NULL may be used for NAME to return the * current target certificate. Either return the certificate in a * KSBA object or NULL if it is not available. */ ksba_cert_t get_cert_local (ctrl_t ctrl, const char *name) { if (!ctrl || !ctrl->server_local || !ctrl->server_local->assuan_ctx) { if (opt.debug) log_debug ("get_cert_local called w/o context\n"); return NULL; } return do_get_cert_local (ctrl, name, "SENDCERT"); } /* Ask back to return the issuing certificate for NAME, given as a * regular gpgsm certificate identifier (e.g. fingerprint or one * of the other methods). Alternatively, NULL may be used for NAME to * return the current target certificate. Either return the certificate * in a KSBA object or NULL if it is not available. */ ksba_cert_t get_issuing_cert_local (ctrl_t ctrl, const char *name) { if (!ctrl || !ctrl->server_local || !ctrl->server_local->assuan_ctx) { if (opt.debug) log_debug ("get_issuing_cert_local called w/o context\n"); return NULL; } return do_get_cert_local (ctrl, name, "SENDISSUERCERT"); } /* Ask back to return a certificate with subject NAME and a * subjectKeyIdentifier of KEYID. */ ksba_cert_t get_cert_local_ski (ctrl_t ctrl, const char *name, ksba_sexp_t keyid) { unsigned char *value; size_t valuelen; int rc; char *buf; ksba_cert_t cert; char *hexkeyid; if (!ctrl || !ctrl->server_local || !ctrl->server_local->assuan_ctx) { if (opt.debug) log_debug ("get_cert_local_ski called w/o context\n"); return NULL; } if (!name || !keyid) { log_debug ("get_cert_local_ski called with insufficient arguments\n"); return NULL; } hexkeyid = serial_hex (keyid); if (!hexkeyid) { log_debug ("serial_hex() failed\n"); return NULL; } buf = strconcat ("SENDCERT_SKI ", hexkeyid, " /", name, NULL); if (!buf) { log_error ("can't allocate enough memory: %s\n", strerror (errno)); xfree (hexkeyid); return NULL; } xfree (hexkeyid); rc = assuan_inquire (ctrl->server_local->assuan_ctx, buf, &value, &valuelen, MAX_CERT_LENGTH); xfree (buf); if (rc) { log_error (_("assuan_inquire(%s) failed: %s\n"), "SENDCERT_SKI", gpg_strerror (rc)); return NULL; } if (!valuelen) { xfree (value); return NULL; } rc = ksba_cert_new (&cert); if (!rc) { rc = ksba_cert_init_from_mem (cert, value, valuelen); if (rc) { ksba_cert_release (cert); cert = NULL; } } xfree (value); return cert; } /* Ask the client via an inquiry to check the istrusted status of the certificate specified by the hexified fingerprint HEXFPR. Returns 0 if the certificate is trusted by the client or an error code. */ gpg_error_t get_istrusted_from_client (ctrl_t ctrl, const char *hexfpr) { unsigned char *value; size_t valuelen; int rc; char request[100]; if (!ctrl || !ctrl->server_local || !ctrl->server_local->assuan_ctx || !hexfpr) return gpg_error (GPG_ERR_INV_ARG); snprintf (request, sizeof request, "ISTRUSTED %s", hexfpr); rc = assuan_inquire (ctrl->server_local->assuan_ctx, request, &value, &valuelen, 100); if (rc) { log_error (_("assuan_inquire(%s) failed: %s\n"), request, gpg_strerror (rc)); return rc; } /* The expected data is: "1" or "1 cruft" (not a C-string). */ if (valuelen && *value == '1' && (valuelen == 1 || spacep (value+1))) rc = 0; else rc = gpg_error (GPG_ERR_NOT_TRUSTED); xfree (value); return rc; } /* Ask the client to return the certificate associated with the current command. This is sometimes needed because the client usually sends us just the cert ID, assuming that the request can be satisfied from the cache, where the cert ID is used as key. */ static int inquire_cert_and_load_crl (assuan_context_t ctx) { ctrl_t ctrl = assuan_get_pointer (ctx); gpg_error_t err; unsigned char *value = NULL; size_t valuelen; ksba_cert_t cert = NULL; err = assuan_inquire( ctx, "SENDCERT", &value, &valuelen, 0); if (err) return err; /* { */ /* FILE *fp = fopen ("foo.der", "r"); */ /* value = xmalloc (2000); */ /* valuelen = fread (value, 1, 2000, fp); */ /* fclose (fp); */ /* } */ if (!valuelen) /* No data returned; return a comprehensible error. */ return gpg_error (GPG_ERR_MISSING_CERT); err = ksba_cert_new (&cert); if (err) goto leave; err = ksba_cert_init_from_mem (cert, value, valuelen); if(err) goto leave; xfree (value); value = NULL; err = crl_cache_reload_crl (ctrl, cert); leave: ksba_cert_release (cert); xfree (value); return err; } /* Handle OPTION commands. */ static gpg_error_t option_handler (assuan_context_t ctx, const char *key, const char *value) { ctrl_t ctrl = assuan_get_pointer (ctx); gpg_error_t err = 0; if (!strcmp (key, "force-crl-refresh")) { int i = *value? atoi (value) : 0; ctrl->force_crl_refresh = i; } else if (!strcmp (key, "audit-events")) { int i = *value? atoi (value) : 0; ctrl->audit_events = i; } else if (!strcmp (key, "http-proxy")) { xfree (ctrl->http_proxy); if (!*value || !strcmp (value, "none")) ctrl->http_proxy = NULL; else if (!(ctrl->http_proxy = xtrystrdup (value))) err = gpg_error_from_syserror (); } else if (!strcmp (key, "honor-keyserver-url-used")) { /* Return an error if we are running in Tor mode. */ if (dirmngr_use_tor ()) err = gpg_error (GPG_ERR_FORBIDDEN); } else if (!strcmp (key, "http-crl")) { int i = *value? atoi (value) : 0; ctrl->http_no_crl = !i; } else err = gpg_error (GPG_ERR_UNKNOWN_OPTION); return err; } static const char hlp_dns_cert[] = "DNS_CERT \n" "DNS_CERT --pka \n" "DNS_CERT --dane \n" "\n" "Return the CERT record for . is one of\n" " * Return the first record of any supported subtype\n" " PGP Return the first record of subtype PGP (3)\n" " IPGP Return the first record of subtype IPGP (6)\n" "If the content of a certificate is available (PGP) it is returned\n" "by data lines. Fingerprints and URLs are returned via status lines.\n" "In --pka mode the fingerprint and if available an URL is returned.\n" "In --dane mode the key is returned from RR type 61"; static gpg_error_t cmd_dns_cert (assuan_context_t ctx, char *line) { /* ctrl_t ctrl = assuan_get_pointer (ctx); */ gpg_error_t err = 0; int pka_mode, dane_mode; char *mbox = NULL; char *namebuf = NULL; char *encodedhash = NULL; const char *name; int certtype; char *p; void *key = NULL; size_t keylen; unsigned char *fpr = NULL; size_t fprlen; char *url = NULL; pka_mode = has_option (line, "--pka"); dane_mode = has_option (line, "--dane"); line = skip_options (line); if (pka_mode && dane_mode) { err = PARM_ERROR ("either --pka or --dane may be given"); goto leave; } if (pka_mode || dane_mode) ; /* No need to parse here - we do this later. */ else { p = strchr (line, ' '); if (!p) { err = PARM_ERROR ("missing arguments"); goto leave; } *p++ = 0; if (!strcmp (line, "*")) certtype = DNS_CERTTYPE_ANY; else if (!strcmp (line, "IPGP")) certtype = DNS_CERTTYPE_IPGP; else if (!strcmp (line, "PGP")) certtype = DNS_CERTTYPE_PGP; else { err = PARM_ERROR ("unknown subtype"); goto leave; } while (spacep (p)) p++; line = p; if (!*line) { err = PARM_ERROR ("name missing"); goto leave; } } if (pka_mode || dane_mode) { char *domain; /* Points to mbox. */ char hashbuf[32]; /* For SHA-1 and SHA-256. */ /* We lowercase ascii characters but the DANE I-D does not allow this. FIXME: Check after the release of the RFC whether to change this. */ mbox = mailbox_from_userid (line); if (!mbox || !(domain = strchr (mbox, '@'))) { err = set_error (GPG_ERR_INV_USER_ID, "no mailbox in user id"); goto leave; } *domain++ = 0; if (pka_mode) { gcry_md_hash_buffer (GCRY_MD_SHA1, hashbuf, mbox, strlen (mbox)); encodedhash = zb32_encode (hashbuf, 8*20); if (!encodedhash) { err = gpg_error_from_syserror (); goto leave; } namebuf = strconcat (encodedhash, "._pka.", domain, NULL); if (!namebuf) { err = gpg_error_from_syserror (); goto leave; } name = namebuf; certtype = DNS_CERTTYPE_IPGP; } else { /* Note: The hash is truncated to 28 bytes and we lowercase the result only for aesthetic reasons. */ gcry_md_hash_buffer (GCRY_MD_SHA256, hashbuf, mbox, strlen (mbox)); encodedhash = bin2hex (hashbuf, 28, NULL); if (!encodedhash) { err = gpg_error_from_syserror (); goto leave; } ascii_strlwr (encodedhash); namebuf = strconcat (encodedhash, "._openpgpkey.", domain, NULL); if (!namebuf) { err = gpg_error_from_syserror (); goto leave; } name = namebuf; certtype = DNS_CERTTYPE_RR61; } } else name = line; err = get_dns_cert (name, certtype, &key, &keylen, &fpr, &fprlen, &url); if (err) goto leave; if (key) { err = data_line_write (ctx, key, keylen); if (err) goto leave; } if (fpr) { char *tmpstr; tmpstr = bin2hex (fpr, fprlen, NULL); if (!tmpstr) err = gpg_error_from_syserror (); else { err = assuan_write_status (ctx, "FPR", tmpstr); xfree (tmpstr); } if (err) goto leave; } if (url) { err = assuan_write_status (ctx, "URL", url); if (err) goto leave; } leave: xfree (key); xfree (fpr); xfree (url); xfree (mbox); xfree (namebuf); xfree (encodedhash); return leave_cmd (ctx, err); } -static const char hlp_wkd_get[] = - "WKD_GET [--submission-address|--policy-flags] \n" - "\n" - "Return the key or other info for \n" - "from the Web Key Directory."; +/* Core of cmd_wkd_get and task_check_wkd_support. If CTX is NULL + * this function will not write anything to the assuan output. */ static gpg_error_t -cmd_wkd_get (assuan_context_t ctx, char *line) +proc_wkd_get (ctrl_t ctrl, assuan_context_t ctx, char *line) { - ctrl_t ctrl = assuan_get_pointer (ctx); gpg_error_t err = 0; char *mbox = NULL; char *domainbuf = NULL; char *domain; /* Points to mbox or domainbuf. */ char *domain_orig;/* Points to mbox. */ char sha1buf[20]; char *uri = NULL; char *encodedhash = NULL; int opt_submission_addr; int opt_policy_flags; int is_wkd_query; /* True if this is a real WKD query. */ int no_log = 0; char portstr[20] = { 0 }; opt_submission_addr = has_option (line, "--submission-address"); opt_policy_flags = has_option (line, "--policy-flags"); if (has_option (line, "--quick")) ctrl->timeout = opt.connect_quick_timeout; line = skip_options (line); is_wkd_query = !(opt_policy_flags || opt_submission_addr); mbox = mailbox_from_userid (line); if (!mbox || !(domain = strchr (mbox, '@'))) { err = set_error (GPG_ERR_INV_USER_ID, "no mailbox in user id"); goto leave; } *domain++ = 0; domain_orig = domain; /* First check whether we already know that the domain does not * support WKD. */ if (is_wkd_query) { if (domaininfo_is_wkd_not_supported (domain_orig)) { err = gpg_error (GPG_ERR_NO_DATA); goto leave; } } /* Check for SRV records. */ if (1) { struct srventry *srvs; unsigned int srvscount; size_t domainlen, targetlen; int i; err = get_dns_srv (domain, "openpgpkey", NULL, &srvs, &srvscount); if (err) goto leave; /* Find the first target which also ends in DOMAIN or is equal * to DOMAIN. */ domainlen = strlen (domain); for (i = 0; i < srvscount; i++) { - log_debug ("srv: trying '%s:%hu'\n", srvs[i].target, srvs[i].port); + if (DBG_DNS) + log_debug ("srv: trying '%s:%hu'\n", srvs[i].target, srvs[i].port); targetlen = strlen (srvs[i].target); if ((targetlen > domainlen + 1 && srvs[i].target[targetlen - domainlen - 1] == '.' && !ascii_strcasecmp (srvs[i].target + targetlen - domainlen, domain)) || (targetlen == domainlen && !ascii_strcasecmp (srvs[i].target, domain))) { /* found. */ domainbuf = xtrystrdup (srvs[i].target); if (!domainbuf) { err = gpg_error_from_syserror (); xfree (srvs); goto leave; } domain = domainbuf; if (srvs[i].port) snprintf (portstr, sizeof portstr, ":%hu", srvs[i].port); break; } } xfree (srvs); } gcry_md_hash_buffer (GCRY_MD_SHA1, sha1buf, mbox, strlen (mbox)); encodedhash = zb32_encode (sha1buf, 8*20); if (!encodedhash) { err = gpg_error_from_syserror (); goto leave; } if (opt_submission_addr) { uri = strconcat ("https://", domain, portstr, "/.well-known/openpgpkey/submission-address", NULL); } else if (opt_policy_flags) { uri = strconcat ("https://", domain, portstr, "/.well-known/openpgpkey/policy", NULL); } else { uri = strconcat ("https://", domain, portstr, "/.well-known/openpgpkey/hu/", encodedhash, NULL); no_log = 1; if (uri) { err = dirmngr_status_printf (ctrl, "SOURCE", "https://%s%s", domain, portstr); if (err) goto leave; } } if (!uri) { err = gpg_error_from_syserror (); goto leave; } /* Setup an output stream and perform the get. */ { estream_t outfp; - outfp = es_fopencookie (ctx, "w", data_line_cookie_functions); - if (!outfp) + outfp = ctx? es_fopencookie (ctx, "w", data_line_cookie_functions) : NULL; + if (!outfp && ctx) err = set_error (GPG_ERR_ASS_GENERAL, "error setting up a data stream"); else { - if (no_log) - ctrl->server_local->inhibit_data_logging = 1; - ctrl->server_local->inhibit_data_logging_now = 0; - ctrl->server_local->inhibit_data_logging_count = 0; + if (ctrl->server_local) + { + if (no_log) + ctrl->server_local->inhibit_data_logging = 1; + ctrl->server_local->inhibit_data_logging_now = 0; + ctrl->server_local->inhibit_data_logging_count = 0; + } err = ks_action_fetch (ctrl, uri, outfp); es_fclose (outfp); - ctrl->server_local->inhibit_data_logging = 0; + if (ctrl->server_local) + ctrl->server_local->inhibit_data_logging = 0; + /* Register the result under the domain name of MBOX. */ switch (gpg_err_code (err)) { case 0: domaininfo_set_wkd_supported (domain_orig); break; case GPG_ERR_NO_NAME: /* There is no such domain. */ domaininfo_set_no_name (domain_orig); break; case GPG_ERR_NO_DATA: - if (is_wkd_query) /* Mark that and schedule a check. */ + if (is_wkd_query && ctrl->server_local) { + /* Mark that and schedule a check. */ domaininfo_set_wkd_not_found (domain_orig); workqueue_add_task (task_check_wkd_support, domain_orig, ctrl->server_local->session_id, 1); } else if (opt_policy_flags) /* No policy file - no support. */ domaininfo_set_wkd_not_supported (domain_orig); break; default: /* Don't register other errors. */ break; } } } leave: xfree (uri); xfree (encodedhash); xfree (mbox); xfree (domainbuf); + return err; +} + + +static const char hlp_wkd_get[] = + "WKD_GET [--submission-address|--policy-flags] \n" + "\n" + "Return the key or other info for \n" + "from the Web Key Directory."; +static gpg_error_t +cmd_wkd_get (assuan_context_t ctx, char *line) +{ + ctrl_t ctrl = assuan_get_pointer (ctx); + gpg_error_t err; + + err = proc_wkd_get (ctrl, ctx, line); + return leave_cmd (ctx, err); } /* A task to check whether DOMAIN supports WKD. This is done by * checking whether the policy flags file can be read. */ static const char * task_check_wkd_support (ctrl_t ctrl, const char *domain) { + char *string; + if (!ctrl || !domain) return "check_wkd_support"; - log_debug ("FIXME: Implement %s\n", __func__); + string = strconcat ("--policy-flags foo@", domain, NULL); + if (!string) + log_error ("%s: %s\n", __func__, gpg_strerror (gpg_error_from_syserror ())); + else + { + proc_wkd_get (ctrl, NULL, string); + xfree (string); + } return NULL; } static const char hlp_ldapserver[] = "LDAPSERVER \n" "\n" "Add a new LDAP server to the list of configured LDAP servers.\n" "DATA is in the same format as expected in the configure file."; static gpg_error_t cmd_ldapserver (assuan_context_t ctx, char *line) { #if USE_LDAP ctrl_t ctrl = assuan_get_pointer (ctx); ldap_server_t server; ldap_server_t *last_next_p; while (spacep (line)) line++; if (*line == '\0') return leave_cmd (ctx, PARM_ERROR (_("ldapserver missing"))); server = ldapserver_parse_one (line, "", 0); if (! server) return leave_cmd (ctx, gpg_error (GPG_ERR_INV_ARG)); last_next_p = &ctrl->server_local->ldapservers; while (*last_next_p) last_next_p = &(*last_next_p)->next; *last_next_p = server; return leave_cmd (ctx, 0); #else (void)line; return leave_cmd (ctx, gpg_error (GPG_ERR_NOT_IMPLEMENTED)); #endif } static const char hlp_isvalid[] = "ISVALID [--only-ocsp] [--force-default-responder]" " |\n" "\n" "This command checks whether the certificate identified by the\n" "certificate_id is valid. This is done by consulting CRLs or\n" "whatever has been configured. Note, that the returned error codes\n" "are from gpg-error.h. The command may callback using the inquire\n" "function. See the manual for details.\n" "\n" "The CERTIFICATE_ID is a hex encoded string consisting of two parts,\n" "delimited by a single dot. The first part is the SHA-1 hash of the\n" "issuer name and the second part the serial number.\n" "\n" "Alternatively the certificate's fingerprint may be given in which\n" "case an OCSP request is done before consulting the CRL.\n" "\n" "If the option --only-ocsp is given, no fallback to a CRL check will\n" "be used.\n" "\n" "If the option --force-default-responder is given, only the default\n" "OCSP responder will be used and any other methods of obtaining an\n" "OCSP responder URL won't be used."; static gpg_error_t cmd_isvalid (assuan_context_t ctx, char *line) { ctrl_t ctrl = assuan_get_pointer (ctx); char *issuerhash, *serialno; gpg_error_t err; int did_inquire = 0; int ocsp_mode = 0; int only_ocsp; int force_default_responder; only_ocsp = has_option (line, "--only-ocsp"); force_default_responder = has_option (line, "--force-default-responder"); line = skip_options (line); issuerhash = xstrdup (line); /* We need to work on a copy of the line because that same Assuan context may be used for an inquiry. That is because Assuan reuses its line buffer. */ serialno = strchr (issuerhash, '.'); if (serialno) *serialno++ = 0; else { char *endp = strchr (issuerhash, ' '); if (endp) *endp = 0; if (strlen (issuerhash) != 40) { xfree (issuerhash); return leave_cmd (ctx, PARM_ERROR (_("serialno missing in cert ID"))); } ocsp_mode = 1; } again: if (ocsp_mode) { /* Note, that we ignore the given issuer hash and instead rely on the current certificate semantics used with this command. */ if (!opt.allow_ocsp) err = gpg_error (GPG_ERR_NOT_SUPPORTED); else err = ocsp_isvalid (ctrl, NULL, NULL, force_default_responder); /* Fixme: If we got no ocsp response and --only-ocsp is not used we should fall back to CRL mode. Thus we need to clear OCSP_MODE, get the issuerhash and the serialno from the current certificate and jump to again. */ } else if (only_ocsp) err = gpg_error (GPG_ERR_NO_CRL_KNOWN); else { switch (crl_cache_isvalid (ctrl, issuerhash, serialno, ctrl->force_crl_refresh)) { case CRL_CACHE_VALID: err = 0; break; case CRL_CACHE_INVALID: err = gpg_error (GPG_ERR_CERT_REVOKED); break; case CRL_CACHE_DONTKNOW: if (did_inquire) err = gpg_error (GPG_ERR_NO_CRL_KNOWN); else if (!(err = inquire_cert_and_load_crl (ctx))) { did_inquire = 1; goto again; } break; case CRL_CACHE_CANTUSE: err = gpg_error (GPG_ERR_NO_CRL_KNOWN); break; default: log_fatal ("crl_cache_isvalid returned invalid code\n"); } } xfree (issuerhash); return leave_cmd (ctx, err); } /* If the line contains a SHA-1 fingerprint as the first argument, return the FPR vuffer on success. The function checks that the fingerprint consists of valid characters and prints and error message if it does not and returns NULL. Fingerprints are considered optional and thus no explicit error is returned. NULL is also returned if there is no fingerprint at all available. FPR must be a caller provided buffer of at least 20 bytes. Note that colons within the fingerprint are allowed to separate 2 hex digits; this allows for easier cutting and pasting using the usual fingerprint rendering. */ static unsigned char * get_fingerprint_from_line (const char *line, unsigned char *fpr) { const char *s; int i; for (s=line, i=0; *s && *s != ' '; s++ ) { if ( hexdigitp (s) && hexdigitp (s+1) ) { if ( i >= 20 ) return NULL; /* Fingerprint too long. */ fpr[i++] = xtoi_2 (s); s++; } else if ( *s != ':' ) return NULL; /* Invalid. */ } if ( i != 20 ) return NULL; /* Fingerprint to short. */ return fpr; } static const char hlp_checkcrl[] = "CHECKCRL []\n" "\n" "Check whether the certificate with FINGERPRINT (SHA-1 hash of the\n" "entire X.509 certificate blob) is valid or not by consulting the\n" "CRL responsible for this certificate. If the fingerprint has not\n" "been given or the certificate is not known, the function \n" "inquires the certificate using an\n" "\n" " INQUIRE TARGETCERT\n" "\n" "and the caller is expected to return the certificate for the\n" "request (which should match FINGERPRINT) as a binary blob.\n" "Processing then takes place without further interaction; in\n" "particular dirmngr tries to locate other required certificate by\n" "its own mechanism which includes a local certificate store as well\n" "as a list of trusted root certificates.\n" "\n" "The return value is the usual gpg-error code or 0 for ducesss;\n" "i.e. the certificate validity has been confirmed by a valid CRL."; static gpg_error_t cmd_checkcrl (assuan_context_t ctx, char *line) { ctrl_t ctrl = assuan_get_pointer (ctx); gpg_error_t err; unsigned char fprbuffer[20], *fpr; ksba_cert_t cert; fpr = get_fingerprint_from_line (line, fprbuffer); cert = fpr? get_cert_byfpr (fpr) : NULL; if (!cert) { /* We do not have this certificate yet or the fingerprint has not been given. Inquire it from the client. */ unsigned char *value = NULL; size_t valuelen; err = assuan_inquire (ctrl->server_local->assuan_ctx, "TARGETCERT", &value, &valuelen, MAX_CERT_LENGTH); if (err) { log_error (_("assuan_inquire failed: %s\n"), gpg_strerror (err)); goto leave; } if (!valuelen) /* No data returned; return a comprehensible error. */ err = gpg_error (GPG_ERR_MISSING_CERT); else { err = ksba_cert_new (&cert); if (!err) err = ksba_cert_init_from_mem (cert, value, valuelen); } xfree (value); if(err) goto leave; } assert (cert); err = crl_cache_cert_isvalid (ctrl, cert, ctrl->force_crl_refresh); if (gpg_err_code (err) == GPG_ERR_NO_CRL_KNOWN) { err = crl_cache_reload_crl (ctrl, cert); if (!err) err = crl_cache_cert_isvalid (ctrl, cert, 0); } leave: ksba_cert_release (cert); return leave_cmd (ctx, err); } static const char hlp_checkocsp[] = "CHECKOCSP [--force-default-responder] []\n" "\n" "Check whether the certificate with FINGERPRINT (SHA-1 hash of the\n" "entire X.509 certificate blob) is valid or not by asking an OCSP\n" "responder responsible for this certificate. The optional\n" "fingerprint may be used for a quick check in case an OCSP check has\n" "been done for this certificate recently (we always cache OCSP\n" "responses for a couple of minutes). If the fingerprint has not been\n" "given or there is no cached result, the function inquires the\n" "certificate using an\n" "\n" " INQUIRE TARGETCERT\n" "\n" "and the caller is expected to return the certificate for the\n" "request (which should match FINGERPRINT) as a binary blob.\n" "Processing then takes place without further interaction; in\n" "particular dirmngr tries to locate other required certificates by\n" "its own mechanism which includes a local certificate store as well\n" "as a list of trusted root certificates.\n" "\n" "If the option --force-default-responder is given, only the default\n" "OCSP responder will be used and any other methods of obtaining an\n" "OCSP responder URL won't be used.\n" "\n" "The return value is the usual gpg-error code or 0 for ducesss;\n" "i.e. the certificate validity has been confirmed by a valid CRL."; static gpg_error_t cmd_checkocsp (assuan_context_t ctx, char *line) { ctrl_t ctrl = assuan_get_pointer (ctx); gpg_error_t err; unsigned char fprbuffer[20], *fpr; ksba_cert_t cert; int force_default_responder; force_default_responder = has_option (line, "--force-default-responder"); line = skip_options (line); fpr = get_fingerprint_from_line (line, fprbuffer); cert = fpr? get_cert_byfpr (fpr) : NULL; if (!cert) { /* We do not have this certificate yet or the fingerprint has not been given. Inquire it from the client. */ unsigned char *value = NULL; size_t valuelen; err = assuan_inquire (ctrl->server_local->assuan_ctx, "TARGETCERT", &value, &valuelen, MAX_CERT_LENGTH); if (err) { log_error (_("assuan_inquire failed: %s\n"), gpg_strerror (err)); goto leave; } if (!valuelen) /* No data returned; return a comprehensible error. */ err = gpg_error (GPG_ERR_MISSING_CERT); else { err = ksba_cert_new (&cert); if (!err) err = ksba_cert_init_from_mem (cert, value, valuelen); } xfree (value); if(err) goto leave; } assert (cert); if (!opt.allow_ocsp) err = gpg_error (GPG_ERR_NOT_SUPPORTED); else err = ocsp_isvalid (ctrl, cert, NULL, force_default_responder); leave: ksba_cert_release (cert); return leave_cmd (ctx, err); } static int lookup_cert_by_url (assuan_context_t ctx, const char *url) { ctrl_t ctrl = assuan_get_pointer (ctx); gpg_error_t err = 0; unsigned char *value = NULL; size_t valuelen; /* Fetch single certificate given it's URL. */ err = fetch_cert_by_url (ctrl, url, &value, &valuelen); if (err) { log_error (_("fetch_cert_by_url failed: %s\n"), gpg_strerror (err)); goto leave; } /* Send the data, flush the buffer and then send an END. */ err = assuan_send_data (ctx, value, valuelen); if (!err) err = assuan_send_data (ctx, NULL, 0); if (!err) err = assuan_write_line (ctx, "END"); if (err) { log_error (_("error sending data: %s\n"), gpg_strerror (err)); goto leave; } leave: return err; } /* Send the certificate, flush the buffer and then send an END. */ static gpg_error_t return_one_cert (void *opaque, ksba_cert_t cert) { assuan_context_t ctx = opaque; gpg_error_t err; const unsigned char *der; size_t derlen; der = ksba_cert_get_image (cert, &derlen); if (!der) err = gpg_error (GPG_ERR_INV_CERT_OBJ); else { err = assuan_send_data (ctx, der, derlen); if (!err) err = assuan_send_data (ctx, NULL, 0); if (!err) err = assuan_write_line (ctx, "END"); } if (err) log_error (_("error sending data: %s\n"), gpg_strerror (err)); return err; } /* Lookup certificates from the internal cache or using the ldap servers. */ static int lookup_cert_by_pattern (assuan_context_t ctx, char *line, int single, int cache_only) { gpg_error_t err = 0; char *p; strlist_t sl, list = NULL; int truncated = 0, truncation_forced = 0; int count = 0; int local_count = 0; #if USE_LDAP ctrl_t ctrl = assuan_get_pointer (ctx); unsigned char *value = NULL; size_t valuelen; struct ldapserver_iter ldapserver_iter; cert_fetch_context_t fetch_context; #endif /*USE_LDAP*/ int any_no_data = 0; /* Break the line down into an STRLIST */ for (p=line; *p; line = p) { while (*p && *p != ' ') p++; if (*p) *p++ = 0; if (*line) { sl = xtrymalloc (sizeof *sl + strlen (line)); if (!sl) { err = gpg_error_from_errno (errno); goto leave; } memset (sl, 0, sizeof *sl); strcpy_escaped_plus (sl->d, line); sl->next = list; list = sl; } } /* First look through the internal cache. The certificates returned here are not counted towards the truncation limit. */ if (single && !cache_only) ; /* Do not read from the local cache in this case. */ else { for (sl=list; sl; sl = sl->next) { err = get_certs_bypattern (sl->d, return_one_cert, ctx); if (!err) local_count++; if (!err && single) goto ready; if (gpg_err_code (err) == GPG_ERR_NO_DATA) { err = 0; if (cache_only) any_no_data = 1; } else if (gpg_err_code (err) == GPG_ERR_INV_NAME && !cache_only) { /* No real fault because the internal pattern lookup can't yet cope with all types of pattern. */ err = 0; } if (err) goto ready; } } /* Loop over all configured servers unless we want only the certificates from the cache. */ #if USE_LDAP for (ldapserver_iter_begin (&ldapserver_iter, ctrl); !cache_only && !ldapserver_iter_end_p (&ldapserver_iter) && ldapserver_iter.server->host && !truncation_forced; ldapserver_iter_next (&ldapserver_iter)) { ldap_server_t ldapserver = ldapserver_iter.server; if (DBG_LOOKUP) log_debug ("cmd_lookup: trying %s:%d base=%s\n", ldapserver->host, ldapserver->port, ldapserver->base?ldapserver->base : "[default]"); /* Fetch certificates matching pattern */ err = start_cert_fetch (ctrl, &fetch_context, list, ldapserver); if ( gpg_err_code (err) == GPG_ERR_NO_DATA ) { if (DBG_LOOKUP) log_debug ("cmd_lookup: no data\n"); err = 0; any_no_data = 1; continue; } if (err) { log_error (_("start_cert_fetch failed: %s\n"), gpg_strerror (err)); goto leave; } /* Fetch the certificates for this query. */ while (!truncation_forced) { xfree (value); value = NULL; err = fetch_next_cert (fetch_context, &value, &valuelen); if (gpg_err_code (err) == GPG_ERR_NO_DATA ) { err = 0; any_no_data = 1; break; /* Ready. */ } if (gpg_err_code (err) == GPG_ERR_TRUNCATED) { truncated = 1; err = 0; break; /* Ready. */ } if (gpg_err_code (err) == GPG_ERR_EOF) { err = 0; break; /* Ready. */ } if (!err && !value) { err = gpg_error (GPG_ERR_BUG); goto leave; } if (err) { log_error (_("fetch_next_cert failed: %s\n"), gpg_strerror (err)); end_cert_fetch (fetch_context); goto leave; } if (DBG_LOOKUP) log_debug ("cmd_lookup: returning one cert%s\n", truncated? " (truncated)":""); /* Send the data, flush the buffer and then send an END line as a certificate delimiter. */ err = assuan_send_data (ctx, value, valuelen); if (!err) err = assuan_send_data (ctx, NULL, 0); if (!err) err = assuan_write_line (ctx, "END"); if (err) { log_error (_("error sending data: %s\n"), gpg_strerror (err)); end_cert_fetch (fetch_context); goto leave; } if (++count >= opt.max_replies ) { truncation_forced = 1; log_info (_("max_replies %d exceeded\n"), opt.max_replies ); } if (single) break; } end_cert_fetch (fetch_context); } #endif /*USE_LDAP*/ ready: if (truncated || truncation_forced) { char str[50]; sprintf (str, "%d", count); assuan_write_status (ctx, "TRUNCATED", str); } if (!err && !count && !local_count && any_no_data) err = gpg_error (GPG_ERR_NO_DATA); leave: free_strlist (list); return err; } static const char hlp_lookup[] = "LOOKUP [--url] [--single] [--cache-only] \n" "\n" "Lookup certificates matching PATTERN. With --url the pattern is\n" "expected to be one URL.\n" "\n" "If --url is not given: To allow for multiple patterns (which are ORed)\n" "quoting is required: Spaces are translated to \"+\" or \"%20\";\n" "obviously this requires that the usual escape quoting rules are applied.\n" "\n" "If --url is given no special escaping is required because URLs are\n" "already escaped this way.\n" "\n" "If --single is given the first and only the first match will be\n" "returned. If --cache-only is _not_ given, no local query will be\n" "done.\n" "\n" "If --cache-only is given no external lookup is done so that only\n" "certificates from the cache may get returned."; static gpg_error_t cmd_lookup (assuan_context_t ctx, char *line) { gpg_error_t err; int lookup_url, single, cache_only; lookup_url = has_leading_option (line, "--url"); single = has_leading_option (line, "--single"); cache_only = has_leading_option (line, "--cache-only"); line = skip_options (line); if (lookup_url && cache_only) err = gpg_error (GPG_ERR_NOT_FOUND); else if (lookup_url && single) err = gpg_error (GPG_ERR_NOT_IMPLEMENTED); else if (lookup_url) err = lookup_cert_by_url (ctx, line); else err = lookup_cert_by_pattern (ctx, line, single, cache_only); return leave_cmd (ctx, err); } static const char hlp_loadcrl[] = "LOADCRL [--url] \n" "\n" "Load the CRL in the file with name FILENAME into our cache. Note\n" "that FILENAME should be given with an absolute path because\n" "Dirmngrs cwd is not known. With --url the CRL is directly loaded\n" "from the given URL.\n" "\n" "This command is usually used by gpgsm using the invocation \"gpgsm\n" "--call-dirmngr loadcrl \". A direct invocation of Dirmngr\n" "is not useful because gpgsm might need to callback gpgsm to ask for\n" "the CA's certificate."; static gpg_error_t cmd_loadcrl (assuan_context_t ctx, char *line) { ctrl_t ctrl = assuan_get_pointer (ctx); gpg_error_t err = 0; int use_url = has_leading_option (line, "--url"); line = skip_options (line); if (use_url) { ksba_reader_t reader; err = crl_fetch (ctrl, line, &reader); if (err) log_error (_("fetching CRL from '%s' failed: %s\n"), line, gpg_strerror (err)); else { err = crl_cache_insert (ctrl, line, reader); if (err) log_error (_("processing CRL from '%s' failed: %s\n"), line, gpg_strerror (err)); crl_close_reader (reader); } } else { char *buf; buf = xtrymalloc (strlen (line)+1); if (!buf) err = gpg_error_from_syserror (); else { strcpy_escaped_plus (buf, line); err = crl_cache_load (ctrl, buf); xfree (buf); } } return leave_cmd (ctx, err); } static const char hlp_listcrls[] = "LISTCRLS\n" "\n" "List the content of all CRLs in a readable format. This command is\n" "usually used by gpgsm using the invocation \"gpgsm --call-dirmngr\n" "listcrls\". It may also be used directly using \"dirmngr\n" "--list-crls\"."; static gpg_error_t cmd_listcrls (assuan_context_t ctx, char *line) { gpg_error_t err; estream_t fp; (void)line; fp = es_fopencookie (ctx, "w", data_line_cookie_functions); if (!fp) err = set_error (GPG_ERR_ASS_GENERAL, "error setting up a data stream"); else { err = crl_cache_list (fp); es_fclose (fp); } return leave_cmd (ctx, err); } static const char hlp_cachecert[] = "CACHECERT\n" "\n" "Put a certificate into the internal cache. This command might be\n" "useful if a client knows in advance certificates required for a\n" "test and wants to make sure they get added to the internal cache.\n" "It is also helpful for debugging. To get the actual certificate,\n" "this command immediately inquires it using\n" "\n" " INQUIRE TARGETCERT\n" "\n" "and the caller is expected to return the certificate for the\n" "request as a binary blob."; static gpg_error_t cmd_cachecert (assuan_context_t ctx, char *line) { ctrl_t ctrl = assuan_get_pointer (ctx); gpg_error_t err; ksba_cert_t cert = NULL; unsigned char *value = NULL; size_t valuelen; (void)line; err = assuan_inquire (ctrl->server_local->assuan_ctx, "TARGETCERT", &value, &valuelen, MAX_CERT_LENGTH); if (err) { log_error (_("assuan_inquire failed: %s\n"), gpg_strerror (err)); goto leave; } if (!valuelen) /* No data returned; return a comprehensible error. */ err = gpg_error (GPG_ERR_MISSING_CERT); else { err = ksba_cert_new (&cert); if (!err) err = ksba_cert_init_from_mem (cert, value, valuelen); } xfree (value); if(err) goto leave; err = cache_cert (cert); leave: ksba_cert_release (cert); return leave_cmd (ctx, err); } static const char hlp_validate[] = "VALIDATE [--systrust] [--tls] [--no-crl]\n" "\n" "Validate a certificate using the certificate validation function\n" "used internally by dirmngr. This command is only useful for\n" "debugging. To get the actual certificate, this command immediately\n" "inquires it using\n" "\n" " INQUIRE TARGETCERT\n" "\n" "and the caller is expected to return the certificate for the\n" "request as a binary blob. The option --tls modifies this by asking\n" "for list of certificates with\n" "\n" " INQUIRE CERTLIST\n" "\n" "Here the first certificate is the target certificate, the remaining\n" "certificates are suggested intermediary certificates. All certifciates\n" "need to be PEM encoded.\n" "\n" "The option --systrust changes the behaviour to include the system\n" "provided root certificates as trust anchors. The option --no-crl\n" "skips CRL checks"; static gpg_error_t cmd_validate (assuan_context_t ctx, char *line) { ctrl_t ctrl = assuan_get_pointer (ctx); gpg_error_t err; ksba_cert_t cert = NULL; certlist_t certlist = NULL; unsigned char *value = NULL; size_t valuelen; int systrust_mode, tls_mode, no_crl; systrust_mode = has_option (line, "--systrust"); tls_mode = has_option (line, "--tls"); no_crl = has_option (line, "--no-crl"); line = skip_options (line); if (tls_mode) err = assuan_inquire (ctrl->server_local->assuan_ctx, "CERTLIST", &value, &valuelen, MAX_CERTLIST_LENGTH); else err = assuan_inquire (ctrl->server_local->assuan_ctx, "TARGETCERT", &value, &valuelen, MAX_CERT_LENGTH); if (err) { log_error (_("assuan_inquire failed: %s\n"), gpg_strerror (err)); goto leave; } if (!valuelen) /* No data returned; return a comprehensible error. */ err = gpg_error (GPG_ERR_MISSING_CERT); else if (tls_mode) { estream_t fp; fp = es_fopenmem_init (0, "rb", value, valuelen); if (!fp) err = gpg_error_from_syserror (); else { err = read_certlist_from_stream (&certlist, fp); es_fclose (fp); if (!err && !certlist) err = gpg_error (GPG_ERR_MISSING_CERT); if (!err) { /* Extraxt the first certificate from the list. */ cert = certlist->cert; ksba_cert_ref (cert); } } } else { err = ksba_cert_new (&cert); if (!err) err = ksba_cert_init_from_mem (cert, value, valuelen); } xfree (value); if(err) goto leave; if (!tls_mode) { /* If we have this certificate already in our cache, use the * cached version for validation because this will take care of * any cached results. We don't need to do this in tls mode * because this has already been done for certificate in a * certlist_t. */ unsigned char fpr[20]; ksba_cert_t tmpcert; cert_compute_fpr (cert, fpr); tmpcert = get_cert_byfpr (fpr); if (tmpcert) { ksba_cert_release (cert); cert = tmpcert; } } /* Quick hack to make verification work by inserting the supplied * certs into the cache. */ if (tls_mode && certlist) { certlist_t cl; for (cl = certlist->next; cl; cl = cl->next) cache_cert (cl->cert); } err = validate_cert_chain (ctrl, cert, NULL, (VALIDATE_FLAG_TRUST_CONFIG | (tls_mode ? VALIDATE_FLAG_TLS : 0) | (systrust_mode ? VALIDATE_FLAG_TRUST_SYSTEM : 0) | (no_crl ? VALIDATE_FLAG_NOCRLCHECK : 0)), NULL); leave: ksba_cert_release (cert); release_certlist (certlist); return leave_cmd (ctx, err); } /* Parse an keyserver URI and store it in a new uri item which is returned at R_ITEM. On error return an error code. */ static gpg_error_t make_keyserver_item (const char *uri, uri_item_t *r_item) { gpg_error_t err; uri_item_t item; *r_item = NULL; item = xtrymalloc (sizeof *item + strlen (uri)); if (!item) return gpg_error_from_syserror (); item->next = NULL; item->parsed_uri = NULL; strcpy (item->uri, uri); #if USE_LDAP if (ldap_uri_p (item->uri)) err = ldap_parse_uri (&item->parsed_uri, uri); else #endif { err = http_parse_uri (&item->parsed_uri, uri, 1); } if (err) xfree (item); else *r_item = item; return err; } /* If no keyserver is stored in CTRL but a global keyserver has been set, put that global keyserver into CTRL. We need use this function to help migrate from the old gpg based keyserver configuration to the new dirmngr based configuration. */ static gpg_error_t ensure_keyserver (ctrl_t ctrl) { gpg_error_t err; uri_item_t item; uri_item_t onion_items = NULL; uri_item_t plain_items = NULL; uri_item_t ui; strlist_t sl; if (ctrl->server_local->keyservers) return 0; /* Already set for this session. */ if (!opt.keyserver) { /* No global option set. Fall back to default: */ return make_keyserver_item (DIRMNGR_DEFAULT_KEYSERVER, &ctrl->server_local->keyservers); } for (sl = opt.keyserver; sl; sl = sl->next) { err = make_keyserver_item (sl->d, &item); if (err) goto leave; if (item->parsed_uri->onion) { item->next = onion_items; onion_items = item; } else { item->next = plain_items; plain_items = item; } } /* Decide which to use. Note that the session has no keyservers yet set. */ if (onion_items && !onion_items->next && plain_items && !plain_items->next) { /* If there is just one onion and one plain keyserver given, we take only one depending on whether Tor is running or not. */ if (is_tor_running (ctrl)) { ctrl->server_local->keyservers = onion_items; onion_items = NULL; } else { ctrl->server_local->keyservers = plain_items; plain_items = NULL; } } else if (!is_tor_running (ctrl)) { /* Tor is not running. It does not make sense to add Onion addresses. */ ctrl->server_local->keyservers = plain_items; plain_items = NULL; } else { /* In all other cases add all keyservers. */ ctrl->server_local->keyservers = onion_items; onion_items = NULL; for (ui = ctrl->server_local->keyservers; ui && ui->next; ui = ui->next) ; if (ui) ui->next = plain_items; else ctrl->server_local->keyservers = plain_items; plain_items = NULL; } leave: release_uri_item_list (onion_items); release_uri_item_list (plain_items); return err; } static const char hlp_keyserver[] = "KEYSERVER [] [|]\n" "Options are:\n" " --help\n" " --clear Remove all configured keyservers\n" " --resolve Resolve HKP host names and rotate\n" " --hosttable Print table of known hosts and pools\n" " --dead Mark as dead\n" " --alive Mark as alive\n" "\n" "If called without arguments list all configured keyserver URLs.\n" "If called with an URI add this as keyserver. Note that keyservers\n" "are configured on a per-session base. A default keyserver may already be\n" "present, thus the \"--clear\" option must be used to get full control.\n" "If \"--clear\" and an URI are used together the clear command is\n" "obviously executed first. A RESET command does not change the list\n" "of configured keyservers."; static gpg_error_t cmd_keyserver (assuan_context_t ctx, char *line) { ctrl_t ctrl = assuan_get_pointer (ctx); gpg_error_t err = 0; int clear_flag, add_flag, help_flag, host_flag, resolve_flag; int dead_flag, alive_flag; uri_item_t item = NULL; /* gcc 4.4.5 is not able to detect that it is always initialized. */ clear_flag = has_option (line, "--clear"); help_flag = has_option (line, "--help"); resolve_flag = has_option (line, "--resolve"); host_flag = has_option (line, "--hosttable"); dead_flag = has_option (line, "--dead"); alive_flag = has_option (line, "--alive"); line = skip_options (line); add_flag = !!*line; if (help_flag) { err = ks_action_help (ctrl, line); goto leave; } if (resolve_flag) { err = ensure_keyserver (ctrl); if (!err) err = ks_action_resolve (ctrl, ctrl->server_local->keyservers); if (err) goto leave; } if (alive_flag && dead_flag) { err = set_error (GPG_ERR_ASS_PARAMETER, "no support for zombies"); goto leave; } if (dead_flag) { err = check_owner_permission (ctx, "no permission to use --dead"); if (err) goto leave; } if (alive_flag || dead_flag) { if (!*line) { err = set_error (GPG_ERR_ASS_PARAMETER, "name of host missing"); goto leave; } err = ks_hkp_mark_host (ctrl, line, alive_flag); if (err) goto leave; } if (host_flag) { err = ks_hkp_print_hosttable (ctrl); if (err) goto leave; } if (resolve_flag || host_flag || alive_flag || dead_flag) goto leave; if (add_flag) { err = make_keyserver_item (line, &item); if (err) goto leave; } if (clear_flag) release_ctrl_keyservers (ctrl); if (add_flag) { item->next = ctrl->server_local->keyservers; ctrl->server_local->keyservers = item; } if (!add_flag && !clear_flag && !help_flag) { /* List configured keyservers. However, we first add a global keyserver. */ uri_item_t u; err = ensure_keyserver (ctrl); if (err) { assuan_set_error (ctx, err, "Bad keyserver configuration in dirmngr.conf"); goto leave; } for (u=ctrl->server_local->keyservers; u; u = u->next) dirmngr_status (ctrl, "KEYSERVER", u->uri, NULL); } err = 0; leave: return leave_cmd (ctx, err); } static const char hlp_ks_search[] = "KS_SEARCH {}\n" "\n" "Search the configured OpenPGP keyservers (see command KEYSERVER)\n" "for keys matching PATTERN"; static gpg_error_t cmd_ks_search (assuan_context_t ctx, char *line) { ctrl_t ctrl = assuan_get_pointer (ctx); gpg_error_t err; strlist_t list, sl; char *p; estream_t outfp; if (has_option (line, "--quick")) ctrl->timeout = opt.connect_quick_timeout; line = skip_options (line); /* Break the line down into an strlist. Each pattern is percent-plus escaped. */ list = NULL; for (p=line; *p; line = p) { while (*p && *p != ' ') p++; if (*p) *p++ = 0; if (*line) { sl = xtrymalloc (sizeof *sl + strlen (line)); if (!sl) { err = gpg_error_from_syserror (); goto leave; } sl->flags = 0; strcpy_escaped_plus (sl->d, line); sl->next = list; list = sl; } } err = ensure_keyserver (ctrl); if (err) goto leave; /* Setup an output stream and perform the search. */ outfp = es_fopencookie (ctx, "w", data_line_cookie_functions); if (!outfp) err = set_error (GPG_ERR_ASS_GENERAL, "error setting up a data stream"); else { err = ks_action_search (ctrl, ctrl->server_local->keyservers, list, outfp); es_fclose (outfp); } leave: free_strlist (list); return leave_cmd (ctx, err); } static const char hlp_ks_get[] = "KS_GET {}\n" "\n" "Get the keys matching PATTERN from the configured OpenPGP keyservers\n" "(see command KEYSERVER). Each pattern should be a keyid, a fingerprint,\n" "or an exact name indicated by the '=' prefix."; static gpg_error_t cmd_ks_get (assuan_context_t ctx, char *line) { ctrl_t ctrl = assuan_get_pointer (ctx); gpg_error_t err; strlist_t list, sl; char *p; estream_t outfp; if (has_option (line, "--quick")) ctrl->timeout = opt.connect_quick_timeout; line = skip_options (line); /* Break the line into a strlist. Each pattern is by definition percent-plus escaped. However we only support keyids and fingerprints and thus the client has no need to apply the escaping. */ list = NULL; for (p=line; *p; line = p) { while (*p && *p != ' ') p++; if (*p) *p++ = 0; if (*line) { sl = xtrymalloc (sizeof *sl + strlen (line)); if (!sl) { err = gpg_error_from_syserror (); goto leave; } sl->flags = 0; strcpy_escaped_plus (sl->d, line); sl->next = list; list = sl; } } err = ensure_keyserver (ctrl); if (err) goto leave; /* Setup an output stream and perform the get. */ outfp = es_fopencookie (ctx, "w", data_line_cookie_functions); if (!outfp) err = set_error (GPG_ERR_ASS_GENERAL, "error setting up a data stream"); else { ctrl->server_local->inhibit_data_logging = 1; ctrl->server_local->inhibit_data_logging_now = 0; ctrl->server_local->inhibit_data_logging_count = 0; err = ks_action_get (ctrl, ctrl->server_local->keyservers, list, outfp); es_fclose (outfp); ctrl->server_local->inhibit_data_logging = 0; } leave: free_strlist (list); return leave_cmd (ctx, err); } static const char hlp_ks_fetch[] = "KS_FETCH \n" "\n" "Get the key(s) from URL."; static gpg_error_t cmd_ks_fetch (assuan_context_t ctx, char *line) { ctrl_t ctrl = assuan_get_pointer (ctx); gpg_error_t err; estream_t outfp; if (has_option (line, "--quick")) ctrl->timeout = opt.connect_quick_timeout; line = skip_options (line); err = ensure_keyserver (ctrl); /* FIXME: Why do we needs this here? */ if (err) goto leave; /* Setup an output stream and perform the get. */ outfp = es_fopencookie (ctx, "w", data_line_cookie_functions); if (!outfp) err = set_error (GPG_ERR_ASS_GENERAL, "error setting up a data stream"); else { ctrl->server_local->inhibit_data_logging = 1; ctrl->server_local->inhibit_data_logging_now = 0; ctrl->server_local->inhibit_data_logging_count = 0; err = ks_action_fetch (ctrl, line, outfp); es_fclose (outfp); ctrl->server_local->inhibit_data_logging = 0; } leave: return leave_cmd (ctx, err); } static const char hlp_ks_put[] = "KS_PUT\n" "\n" "Send a key to the configured OpenPGP keyservers. The actual key material\n" "is then requested by Dirmngr using\n" "\n" " INQUIRE KEYBLOCK\n" "\n" "The client shall respond with a binary version of the keyblock (e.g.,\n" "the output of `gpg --export KEYID'). For LDAP\n" "keyservers Dirmngr may ask for meta information of the provided keyblock\n" "using:\n" "\n" " INQUIRE KEYBLOCK_INFO\n" "\n" "The client shall respond with a colon delimited info lines (the output\n" "of 'for x in keys sigs; do gpg --list-$x --with-colons KEYID; done').\n"; static gpg_error_t cmd_ks_put (assuan_context_t ctx, char *line) { ctrl_t ctrl = assuan_get_pointer (ctx); gpg_error_t err; unsigned char *value = NULL; size_t valuelen; unsigned char *info = NULL; size_t infolen; /* No options for now. */ line = skip_options (line); err = ensure_keyserver (ctrl); if (err) goto leave; /* Ask for the key material. */ err = assuan_inquire (ctx, "KEYBLOCK", &value, &valuelen, MAX_KEYBLOCK_LENGTH); if (err) { log_error (_("assuan_inquire failed: %s\n"), gpg_strerror (err)); goto leave; } if (!valuelen) /* No data returned; return a comprehensible error. */ { err = gpg_error (GPG_ERR_MISSING_CERT); goto leave; } /* Ask for the key meta data. Not actually needed for HKP servers but we do it anyway to test the client implementation. */ err = assuan_inquire (ctx, "KEYBLOCK_INFO", &info, &infolen, MAX_KEYBLOCK_LENGTH); if (err) { log_error (_("assuan_inquire failed: %s\n"), gpg_strerror (err)); goto leave; } /* Send the key. */ err = ks_action_put (ctrl, ctrl->server_local->keyservers, value, valuelen, info, infolen); leave: xfree (info); xfree (value); return leave_cmd (ctx, err); } static const char hlp_loadswdb[] = "LOADSWDB [--force]\n" "\n" "Load and verify the swdb.lst from the Net."; static gpg_error_t cmd_loadswdb (assuan_context_t ctx, char *line) { ctrl_t ctrl = assuan_get_pointer (ctx); gpg_error_t err; err = dirmngr_load_swdb (ctrl, has_option (line, "--force")); return leave_cmd (ctx, err); } static const char hlp_getinfo[] = "GETINFO \n" "\n" "Multi purpose command to return certain information. \n" "Supported values of WHAT are:\n" "\n" "version - Return the version of the program.\n" "pid - Return the process id of the server.\n" "tor - Return OK if running in Tor mode\n" "dnsinfo - Return info about the DNS resolver\n" "socket_name - Return the name of the socket.\n" "session_id - Return the current session_id.\n" "workqueue - Inspect the work queue\n"; static gpg_error_t cmd_getinfo (assuan_context_t ctx, char *line) { ctrl_t ctrl = assuan_get_pointer (ctx); gpg_error_t err; char numbuf[50]; if (!strcmp (line, "version")) { const char *s = VERSION; err = assuan_send_data (ctx, s, strlen (s)); } else if (!strcmp (line, "pid")) { snprintf (numbuf, sizeof numbuf, "%lu", (unsigned long)getpid ()); err = assuan_send_data (ctx, numbuf, strlen (numbuf)); } else if (!strcmp (line, "socket_name")) { const char *s = dirmngr_get_current_socket_name (); err = assuan_send_data (ctx, s, strlen (s)); } else if (!strcmp (line, "session_id")) { snprintf (numbuf, sizeof numbuf, "%u", ctrl->server_local->session_id); err = assuan_send_data (ctx, numbuf, strlen (numbuf)); } else if (!strcmp (line, "tor")) { int use_tor; use_tor = dirmngr_use_tor (); if (use_tor) { if (!is_tor_running (ctrl)) err = assuan_write_status (ctx, "NO_TOR", "Tor not running"); else err = 0; if (!err) assuan_set_okay_line (ctx, use_tor == 1 ? "- Tor mode is enabled" /**/ : "- Tor mode is enforced"); } else err = set_error (GPG_ERR_FALSE, "Tor mode is NOT enabled"); } else if (!strcmp (line, "dnsinfo")) { if (standard_resolver_p ()) assuan_set_okay_line (ctx, "- Forced use of System resolver (w/o Tor support)"); else { #ifdef USE_LIBDNS assuan_set_okay_line (ctx, (recursive_resolver_p () ? "- Libdns recursive resolver" : "- Libdns stub resolver")); #else assuan_set_okay_line (ctx, "- System resolver (w/o Tor support)"); #endif } err = 0; } else if (!strcmp (line, "workqueue")) { workqueue_dump_queue (ctrl); err = 0; } else err = set_error (GPG_ERR_ASS_PARAMETER, "unknown value for WHAT"); return leave_cmd (ctx, err); } static const char hlp_killdirmngr[] = "KILLDIRMNGR\n" "\n" "This command allows a user - given sufficient permissions -\n" "to kill this dirmngr process.\n"; static gpg_error_t cmd_killdirmngr (assuan_context_t ctx, char *line) { ctrl_t ctrl = assuan_get_pointer (ctx); (void)line; ctrl->server_local->stopme = 1; assuan_set_flag (ctx, ASSUAN_FORCE_CLOSE, 1); return gpg_error (GPG_ERR_EOF); } static const char hlp_reloaddirmngr[] = "RELOADDIRMNGR\n" "\n" "This command is an alternative to SIGHUP\n" "to reload the configuration."; static gpg_error_t cmd_reloaddirmngr (assuan_context_t ctx, char *line) { (void)ctx; (void)line; dirmngr_sighup_action (); return 0; } /* Tell the assuan library about our commands. */ static int register_commands (assuan_context_t ctx) { static struct { const char *name; assuan_handler_t handler; const char * const help; } table[] = { { "DNS_CERT", cmd_dns_cert, hlp_dns_cert }, { "WKD_GET", cmd_wkd_get, hlp_wkd_get }, { "LDAPSERVER", cmd_ldapserver, hlp_ldapserver }, { "ISVALID", cmd_isvalid, hlp_isvalid }, { "CHECKCRL", cmd_checkcrl, hlp_checkcrl }, { "CHECKOCSP", cmd_checkocsp, hlp_checkocsp }, { "LOOKUP", cmd_lookup, hlp_lookup }, { "LOADCRL", cmd_loadcrl, hlp_loadcrl }, { "LISTCRLS", cmd_listcrls, hlp_listcrls }, { "CACHECERT", cmd_cachecert, hlp_cachecert }, { "VALIDATE", cmd_validate, hlp_validate }, { "KEYSERVER", cmd_keyserver, hlp_keyserver }, { "KS_SEARCH", cmd_ks_search, hlp_ks_search }, { "KS_GET", cmd_ks_get, hlp_ks_get }, { "KS_FETCH", cmd_ks_fetch, hlp_ks_fetch }, { "KS_PUT", cmd_ks_put, hlp_ks_put }, { "GETINFO", cmd_getinfo, hlp_getinfo }, { "LOADSWDB", cmd_loadswdb, hlp_loadswdb }, { "KILLDIRMNGR",cmd_killdirmngr,hlp_killdirmngr }, { "RELOADDIRMNGR",cmd_reloaddirmngr,hlp_reloaddirmngr }, { NULL, NULL } }; int i, j, rc; for (i=j=0; table[i].name; i++) { rc = assuan_register_command (ctx, table[i].name, table[i].handler, table[i].help); if (rc) return rc; } return 0; } /* Note that we do not reset the list of configured keyservers. */ static gpg_error_t reset_notify (assuan_context_t ctx, char *line) { ctrl_t ctrl = assuan_get_pointer (ctx); (void)line; #if USE_LDAP ldapserver_list_free (ctrl->server_local->ldapservers); #endif /*USE_LDAP*/ ctrl->server_local->ldapservers = NULL; return 0; } /* This function is called by our assuan log handler to test whether a * log message shall really be printed. The function must return * false to inhibit the logging of MSG. CAT gives the requested log * category. MSG might be NULL. */ int dirmngr_assuan_log_monitor (assuan_context_t ctx, unsigned int cat, const char *msg) { ctrl_t ctrl = assuan_get_pointer (ctx); (void)cat; (void)msg; if (!ctrl || !ctrl->server_local) return 1; /* Can't decide - allow logging. */ if (!ctrl->server_local->inhibit_data_logging) return 1; /* Not requested - allow logging. */ /* Disallow logging if *_now is true. */ return !ctrl->server_local->inhibit_data_logging_now; } /* Startup the server and run the main command loop. With FD = -1, * use stdin/stdout. SESSION_ID is either 0 or a unique number * identifying a session. */ void start_command_handler (assuan_fd_t fd, unsigned int session_id) { static const char hello[] = "Dirmngr " VERSION " at your service"; static char *hello_line; int rc; assuan_context_t ctx; ctrl_t ctrl; ctrl = xtrycalloc (1, sizeof *ctrl); if (ctrl) ctrl->server_local = xtrycalloc (1, sizeof *ctrl->server_local); if (!ctrl || !ctrl->server_local) { log_error (_("can't allocate control structure: %s\n"), strerror (errno)); xfree (ctrl); return; } dirmngr_init_default_ctrl (ctrl); rc = assuan_new (&ctx); if (rc) { log_error (_("failed to allocate assuan context: %s\n"), gpg_strerror (rc)); dirmngr_exit (2); } if (fd == ASSUAN_INVALID_FD) { assuan_fd_t filedes[2]; filedes[0] = assuan_fdopen (0); filedes[1] = assuan_fdopen (1); rc = assuan_init_pipe_server (ctx, filedes); } else { rc = assuan_init_socket_server (ctx, fd, ASSUAN_SOCKET_SERVER_ACCEPTED); } if (rc) { assuan_release (ctx); log_error (_("failed to initialize the server: %s\n"), gpg_strerror(rc)); dirmngr_exit (2); } rc = register_commands (ctx); if (rc) { log_error (_("failed to the register commands with Assuan: %s\n"), gpg_strerror(rc)); dirmngr_exit (2); } if (!hello_line) { hello_line = xtryasprintf ("Home: %s\n" "Config: %s\n" "%s", gnupg_homedir (), opt.config_filename? opt.config_filename : "[none]", hello); } ctrl->server_local->assuan_ctx = ctx; assuan_set_pointer (ctx, ctrl); assuan_set_hello_line (ctx, hello_line); assuan_register_option_handler (ctx, option_handler); assuan_register_reset_notify (ctx, reset_notify); ctrl->server_local->session_id = session_id; for (;;) { rc = assuan_accept (ctx); if (rc == -1) break; if (rc) { log_info (_("Assuan accept problem: %s\n"), gpg_strerror (rc)); break; } #ifndef HAVE_W32_SYSTEM if (opt.verbose) { assuan_peercred_t peercred; if (!assuan_get_peercred (ctx, &peercred)) log_info ("connection from process %ld (%ld:%ld)\n", (long)peercred->pid, (long)peercred->uid, (long)peercred->gid); } #endif rc = assuan_process (ctx); if (rc) { log_info (_("Assuan processing failed: %s\n"), gpg_strerror (rc)); continue; } } #if USE_LDAP ldap_wrapper_connection_cleanup (ctrl); ldapserver_list_free (ctrl->server_local->ldapservers); #endif /*USE_LDAP*/ ctrl->server_local->ldapservers = NULL; release_ctrl_keyservers (ctrl); ctrl->server_local->assuan_ctx = NULL; assuan_release (ctx); if (ctrl->server_local->stopme) dirmngr_exit (0); if (ctrl->refcount) log_error ("oops: connection control structure still referenced (%d)\n", ctrl->refcount); else { release_ctrl_ocsp_certs (ctrl); xfree (ctrl->server_local); dirmngr_deinit_default_ctrl (ctrl); xfree (ctrl); } } /* Send a status line back to the client. KEYWORD is the status keyword, the optional string arguments are blank separated added to the line, the last argument must be a NULL. */ gpg_error_t dirmngr_status (ctrl_t ctrl, const char *keyword, ...) { gpg_error_t err = 0; va_list arg_ptr; const char *text; + assuan_context_t ctx; va_start (arg_ptr, keyword); - if (ctrl->server_local) + if (ctrl->server_local && (ctx = ctrl->server_local->assuan_ctx)) { - assuan_context_t ctx = ctrl->server_local->assuan_ctx; char buf[950], *p; size_t n; p = buf; n = 0; while ( (text = va_arg (arg_ptr, const char *)) ) { if (n) { *p++ = ' '; n++; } for ( ; *text && n < DIM (buf)-2; n++) *p++ = *text++; } *p = 0; err = assuan_write_status (ctx, keyword, buf); } va_end (arg_ptr); return err; } /* Print a help status line. The function splits text at LFs. */ gpg_error_t dirmngr_status_help (ctrl_t ctrl, const char *text) { gpg_error_t err = 0; + assuan_context_t ctx; - if (ctrl->server_local) + if (ctrl->server_local && (ctx = ctrl->server_local->assuan_ctx)) { - assuan_context_t ctx = ctrl->server_local->assuan_ctx; char buf[950], *p; size_t n; do { p = buf; n = 0; for ( ; *text && *text != '\n' && n < DIM (buf)-2; n++) *p++ = *text++; if (*text == '\n') text++; *p = 0; err = assuan_write_status (ctx, "#", buf); } while (!err && *text); } return err; } /* Print a help status line using a printf like format. The function * splits text at LFs. */ gpg_error_t dirmngr_status_helpf (ctrl_t ctrl, const char *format, ...) { va_list arg_ptr; gpg_error_t err; char *buf; va_start (arg_ptr, format); buf = es_vbsprintf (format, arg_ptr); err = buf? 0 : gpg_error_from_syserror (); va_end (arg_ptr); if (!err) err = dirmngr_status_help (ctrl, buf); es_free (buf); return err; } /* This function is similar to print_assuan_status but takes a CTRL * arg instead of an assuan context as first argument. */ gpg_error_t dirmngr_status_printf (ctrl_t ctrl, const char *keyword, const char *format, ...) { gpg_error_t err; va_list arg_ptr; - assuan_context_t ctx = ctrl->server_local->assuan_ctx; + assuan_context_t ctx; + + if (!ctrl->server_local || !(ctx = ctrl->server_local->assuan_ctx)) + return 0; va_start (arg_ptr, format); err = vprint_assuan_status (ctx, keyword, format, arg_ptr); va_end (arg_ptr); return err; } /* Send a tick progress indicator back. Fixme: This is only done for the currently active channel. */ gpg_error_t dirmngr_tick (ctrl_t ctrl) { static time_t next_tick = 0; gpg_error_t err = 0; time_t now = time (NULL); if (!next_tick) { next_tick = now + 1; } else if ( now > next_tick ) { if (ctrl) { err = dirmngr_status (ctrl, "PROGRESS", "tick", "? 0 0", NULL); if (err) { /* Take this as in indication for a cancel request. */ err = gpg_error (GPG_ERR_CANCELED); } now = time (NULL); } next_tick = now + 1; } return err; }