Mercurial > dovecot > original-hg > dovecot-1.2
view src/login-common/ssl-proxy-openssl.c @ 9532:00cd9aacd03c HEAD
Updated copyright notices to include year 2010.
author | Timo Sirainen <tss@iki.fi> |
---|---|
date | Mon, 25 Jan 2010 01:18:58 +0200 |
parents | eecb23d78acf |
children | e388554e373f |
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/* Copyright (c) 2002-2010 Dovecot authors, see the included COPYING file */ #include "common.h" #include "array.h" #include "ioloop.h" #include "network.h" #include "ostream.h" #include "read-full.h" #include "llist.h" #include "ssl-proxy.h" #include <fcntl.h> #include <unistd.h> #include <sys/stat.h> #ifdef HAVE_OPENSSL #include <openssl/crypto.h> #include <openssl/x509.h> #include <openssl/pem.h> #include <openssl/ssl.h> #include <openssl/err.h> #include <openssl/rand.h> #define DOVECOT_SSL_DEFAULT_CIPHER_LIST "ALL:!LOW:!SSLv2" /* Check every 30 minutes if parameters file has been updated */ #define SSL_PARAMFILE_CHECK_INTERVAL (60*30) enum ssl_io_action { SSL_ADD_INPUT, SSL_REMOVE_INPUT, SSL_ADD_OUTPUT, SSL_REMOVE_OUTPUT }; struct ssl_proxy { int refcount; struct ssl_proxy *prev, *next; SSL *ssl; struct ip_addr ip; int fd_ssl, fd_plain; struct io *io_ssl_read, *io_ssl_write, *io_plain_read, *io_plain_write; unsigned char plainout_buf[1024]; unsigned int plainout_size; unsigned char sslout_buf[1024]; unsigned int sslout_size; ssl_handshake_callback_t *handshake_callback; void *handshake_context; char *last_error; unsigned int handshaked:1; unsigned int destroyed:1; unsigned int cert_received:1; unsigned int cert_broken:1; unsigned int client:1; }; struct ssl_parameters { const char *fname; time_t last_mtime, last_check; int fd; DH *dh_512, *dh_1024; }; static int extdata_index; static SSL_CTX *ssl_server_ctx; static SSL_CTX *ssl_client_ctx; static unsigned int ssl_proxy_count; static struct ssl_proxy *ssl_proxies; static struct ssl_parameters ssl_params; static int ssl_username_nid; static void plain_read(struct ssl_proxy *proxy); static void ssl_read(struct ssl_proxy *proxy); static void ssl_write(struct ssl_proxy *proxy); static void ssl_step(struct ssl_proxy *proxy); static void ssl_proxy_destroy(struct ssl_proxy *proxy); static void ssl_proxy_unref(struct ssl_proxy *proxy); static void ssl_params_corrupted(const char *path) { i_fatal("Corrupted SSL parameters file: %s/%s " "(delete it and also the one in %s)", getenv("LOGIN_DIR"), path, PKG_STATEDIR); } static void read_next(struct ssl_parameters *params, void *data, size_t size) { int ret; if ((ret = read_full(params->fd, data, size)) < 0) i_fatal("read(%s) failed: %m", params->fname); if (ret == 0) ssl_params_corrupted(params->fname); } static bool read_dh_parameters_next(struct ssl_parameters *params) { unsigned char *buf; const unsigned char *cbuf; unsigned int len; int bits; /* read bit size. 0 ends the DH parameters list. */ read_next(params, &bits, sizeof(bits)); if (bits == 0) return FALSE; /* read data size. */ read_next(params, &len, sizeof(len)); if (len > 1024*100) /* should be enough? */ ssl_params_corrupted(params->fname); buf = i_malloc(len); read_next(params, buf, len); cbuf = buf; switch (bits) { case 512: params->dh_512 = d2i_DHparams(NULL, &cbuf, len); break; case 1024: params->dh_1024 = d2i_DHparams(NULL, &cbuf, len); break; default: ssl_params_corrupted(params->fname); } i_free(buf); return TRUE; } static void ssl_free_parameters(struct ssl_parameters *params) { if (params->dh_512 != NULL) { DH_free(params->dh_512); params->dh_512 = NULL; } if (params->dh_1024 != NULL) { DH_free(params->dh_1024); params->dh_1024 = NULL; } } static void ssl_read_parameters(struct ssl_parameters *params) { struct stat st; ssize_t ret; char c; bool warned = FALSE; /* we'll wait until parameter file exists */ for (;;) { params->fd = open(params->fname, O_RDONLY); if (params->fd != -1) break; if (errno != ENOENT) { i_fatal("Can't open SSL parameter file %s: %m", params->fname); } if (!warned) { i_warning("Waiting for SSL parameter file %s", params->fname); warned = TRUE; } sleep(1); } if (fstat(params->fd, &st) < 0) i_error("fstat(%s) failed: %m", params->fname); else params->last_mtime = st.st_mtime; ssl_free_parameters(params); while (read_dh_parameters_next(params)) ; if ((ret = read_full(params->fd, &c, 1)) < 0) i_fatal("read(%s) failed: %m", params->fname); else if (ret != 0) { /* more data than expected */ ssl_params_corrupted(params->fname); } if (close(params->fd) < 0) i_error("close() failed: %m"); params->fd = -1; } static void ssl_refresh_parameters(struct ssl_parameters *params) { struct stat st; if (params->last_check > ioloop_time - SSL_PARAMFILE_CHECK_INTERVAL) return; params->last_check = ioloop_time; if (params->last_mtime == 0) ssl_read_parameters(params); else { if (stat(params->fname, &st) < 0) i_error("stat(%s) failed: %m", params->fname); else if (st.st_mtime != params->last_mtime) ssl_read_parameters(params); } } static void ssl_set_io(struct ssl_proxy *proxy, enum ssl_io_action action) { switch (action) { case SSL_ADD_INPUT: if (proxy->io_ssl_read != NULL) break; proxy->io_ssl_read = io_add(proxy->fd_ssl, IO_READ, ssl_step, proxy); break; case SSL_REMOVE_INPUT: if (proxy->io_ssl_read != NULL) io_remove(&proxy->io_ssl_read); break; case SSL_ADD_OUTPUT: if (proxy->io_ssl_write != NULL) break; proxy->io_ssl_write = io_add(proxy->fd_ssl, IO_WRITE, ssl_step, proxy); break; case SSL_REMOVE_OUTPUT: if (proxy->io_ssl_write != NULL) io_remove(&proxy->io_ssl_write); break; } } static void plain_block_input(struct ssl_proxy *proxy, bool block) { if (block) { if (proxy->io_plain_read != NULL) io_remove(&proxy->io_plain_read); } else { if (proxy->io_plain_read == NULL) { proxy->io_plain_read = io_add(proxy->fd_plain, IO_READ, plain_read, proxy); } } } static void plain_read(struct ssl_proxy *proxy) { ssize_t ret; bool corked = FALSE; if (proxy->sslout_size == sizeof(proxy->sslout_buf)) { /* buffer full, block input until it's written */ plain_block_input(proxy, TRUE); return; } proxy->refcount++; while (proxy->sslout_size < sizeof(proxy->sslout_buf) && !proxy->destroyed) { ret = net_receive(proxy->fd_plain, proxy->sslout_buf + proxy->sslout_size, sizeof(proxy->sslout_buf) - proxy->sslout_size); if (ret <= 0) { if (ret < 0) ssl_proxy_destroy(proxy); break; } else { proxy->sslout_size += ret; if (!corked) { net_set_cork(proxy->fd_ssl, TRUE); corked = TRUE; } ssl_write(proxy); } } if (corked) net_set_cork(proxy->fd_ssl, FALSE); ssl_proxy_unref(proxy); } static void plain_write(struct ssl_proxy *proxy) { ssize_t ret; proxy->refcount++; ret = net_transmit(proxy->fd_plain, proxy->plainout_buf, proxy->plainout_size); if (ret < 0) ssl_proxy_destroy(proxy); else { proxy->plainout_size -= ret; memmove(proxy->plainout_buf, proxy->plainout_buf + ret, proxy->plainout_size); if (proxy->plainout_size > 0) { if (proxy->io_plain_write == NULL) { proxy->io_plain_write = io_add(proxy->fd_plain, IO_WRITE, plain_write, proxy); } } else { if (proxy->io_plain_write != NULL) io_remove(&proxy->io_plain_write); } ssl_set_io(proxy, SSL_ADD_INPUT); if (SSL_pending(proxy->ssl) > 0) ssl_read(proxy); } ssl_proxy_unref(proxy); } static const char *ssl_last_error(void) { unsigned long err; char *buf; size_t err_size = 256; err = ERR_get_error(); if (err == 0) { if (errno != 0) return strerror(errno); return "Unknown error"; } buf = t_malloc(err_size); buf[err_size-1] = '\0'; ERR_error_string_n(err, buf, err_size-1); return buf; } static void ssl_handle_error(struct ssl_proxy *proxy, int ret, const char *func_name) { const char *errstr = NULL; int err; proxy->refcount++; i_free_and_null(proxy->last_error); err = SSL_get_error(proxy->ssl, ret); switch (err) { case SSL_ERROR_WANT_READ: ssl_set_io(proxy, SSL_ADD_INPUT); break; case SSL_ERROR_WANT_WRITE: ssl_set_io(proxy, SSL_ADD_OUTPUT); break; case SSL_ERROR_SYSCALL: /* eat up the error queue */ if (ERR_peek_error() != 0) errstr = ssl_last_error(); else if (ret != 0) errstr = strerror(errno); else { /* EOF. */ errstr = "Disconnected"; break; } errstr = t_strdup_printf("%s syscall failed: %s", func_name, errstr); break; case SSL_ERROR_ZERO_RETURN: /* clean connection closing */ ssl_proxy_destroy(proxy); break; case SSL_ERROR_SSL: if (ERR_GET_REASON(ERR_peek_error()) == ERR_R_MALLOC_FAILURE) { i_error("OpenSSL malloc() failed. " "You may need to increase login_process_size"); } errstr = t_strdup_printf("%s failed: %s", func_name, ssl_last_error()); break; default: errstr = t_strdup_printf("%s failed: unknown failure %d (%s)", func_name, err, ssl_last_error()); break; } if (errstr != NULL) { proxy->last_error = i_strdup(errstr); ssl_proxy_destroy(proxy); } ssl_proxy_unref(proxy); } static void ssl_handshake(struct ssl_proxy *proxy) { int ret; if (proxy->client) { ret = SSL_connect(proxy->ssl); if (ret != 1) { ssl_handle_error(proxy, ret, "SSL_connect()"); return; } } else { ret = SSL_accept(proxy->ssl); if (ret != 1) { ssl_handle_error(proxy, ret, "SSL_accept()"); return; } } i_free_and_null(proxy->last_error); proxy->handshaked = TRUE; ssl_set_io(proxy, SSL_ADD_INPUT); plain_block_input(proxy, FALSE); if (proxy->handshake_callback != NULL) { if (proxy->handshake_callback(proxy->handshake_context) < 0) ssl_proxy_destroy(proxy); } } static void ssl_read(struct ssl_proxy *proxy) { int ret; while (proxy->plainout_size < sizeof(proxy->plainout_buf) && !proxy->destroyed) { ret = SSL_read(proxy->ssl, proxy->plainout_buf + proxy->plainout_size, sizeof(proxy->plainout_buf) - proxy->plainout_size); if (ret <= 0) { ssl_handle_error(proxy, ret, "SSL_read()"); break; } else { i_free_and_null(proxy->last_error); proxy->plainout_size += ret; plain_write(proxy); } } } static void ssl_write(struct ssl_proxy *proxy) { int ret; ret = SSL_write(proxy->ssl, proxy->sslout_buf, proxy->sslout_size); if (ret <= 0) ssl_handle_error(proxy, ret, "SSL_write()"); else { i_free_and_null(proxy->last_error); proxy->sslout_size -= ret; memmove(proxy->sslout_buf, proxy->sslout_buf + ret, proxy->sslout_size); ssl_set_io(proxy, proxy->sslout_size > 0 ? SSL_ADD_OUTPUT : SSL_REMOVE_OUTPUT); plain_block_input(proxy, FALSE); } } static void ssl_step(struct ssl_proxy *proxy) { proxy->refcount++; if (!proxy->handshaked) ssl_handshake(proxy); if (proxy->handshaked) { if (proxy->plainout_size == sizeof(proxy->plainout_buf)) ssl_set_io(proxy, SSL_REMOVE_INPUT); else ssl_read(proxy); if (proxy->sslout_size == 0) ssl_set_io(proxy, SSL_REMOVE_OUTPUT); else { net_set_cork(proxy->fd_ssl, TRUE); ssl_write(proxy); net_set_cork(proxy->fd_ssl, FALSE); } } ssl_proxy_unref(proxy); } static int ssl_proxy_new_common(SSL_CTX *ssl_ctx, int fd, struct ip_addr *ip, struct ssl_proxy **proxy_r) { struct ssl_proxy *proxy; SSL *ssl; int sfd[2]; i_assert(fd != -1); *proxy_r = NULL; if (!ssl_initialized) { i_error("SSL support not enabled in configuration"); return -1; } ssl_refresh_parameters(&ssl_params); ssl = SSL_new(ssl_ctx); if (ssl == NULL) { i_error("SSL_new() failed: %s", ssl_last_error()); return -1; } if (SSL_set_fd(ssl, fd) != 1) { i_error("SSL_set_fd() failed: %s", ssl_last_error()); SSL_free(ssl); return -1; } if (socketpair(AF_UNIX, SOCK_STREAM, 0, sfd) < 0) { i_error("socketpair() failed: %m"); SSL_free(ssl); return -1; } net_set_nonblock(sfd[0], TRUE); net_set_nonblock(sfd[1], TRUE); net_set_nonblock(fd, TRUE); proxy = i_new(struct ssl_proxy, 1); proxy->refcount = 2; proxy->ssl = ssl; proxy->fd_ssl = fd; proxy->fd_plain = sfd[0]; proxy->ip = *ip; SSL_set_ex_data(ssl, extdata_index, proxy); ssl_proxy_count++; DLLIST_PREPEND(&ssl_proxies, proxy); main_ref(); *proxy_r = proxy; return sfd[1]; } int ssl_proxy_new(int fd, struct ip_addr *ip, struct ssl_proxy **proxy_r) { int ret; if ((ret = ssl_proxy_new_common(ssl_server_ctx, fd, ip, proxy_r)) < 0) return -1; ssl_step(*proxy_r); return ret; } int ssl_proxy_client_new(int fd, struct ip_addr *ip, ssl_handshake_callback_t *callback, void *context, struct ssl_proxy **proxy_r) { int ret; if ((ret = ssl_proxy_new_common(ssl_client_ctx, fd, ip, proxy_r)) < 0) return -1; (*proxy_r)->handshake_callback = callback; (*proxy_r)->handshake_context = context; (*proxy_r)->client = TRUE; ssl_step(*proxy_r); return ret; } bool ssl_proxy_has_valid_client_cert(const struct ssl_proxy *proxy) { return proxy->cert_received && !proxy->cert_broken; } bool ssl_proxy_has_broken_client_cert(struct ssl_proxy *proxy) { return proxy->cert_received && proxy->cert_broken; } const char *ssl_proxy_get_peer_name(struct ssl_proxy *proxy) { X509 *x509; char *name; int len; if (!ssl_proxy_has_valid_client_cert(proxy)) return NULL; x509 = SSL_get_peer_certificate(proxy->ssl); if (x509 == NULL) return NULL; /* we should have had it.. */ len = X509_NAME_get_text_by_NID(X509_get_subject_name(x509), ssl_username_nid, NULL, 0); if (len < 0) name = ""; else { name = t_malloc(len + 1); if (X509_NAME_get_text_by_NID(X509_get_subject_name(x509), ssl_username_nid, name, len + 1) < 0) name = ""; else if (strlen(name) != (size_t)len) { /* NUL characters in name. Someone's trying to fake being another user? Don't allow it. */ name = ""; } } X509_free(x509); return *name == '\0' ? NULL : name; } bool ssl_proxy_is_handshaked(const struct ssl_proxy *proxy) { return proxy->handshaked; } const char *ssl_proxy_get_last_error(const struct ssl_proxy *proxy) { return proxy->last_error; } const char *ssl_proxy_get_security_string(struct ssl_proxy *proxy) { SSL_CIPHER *cipher; #ifdef HAVE_SSL_COMPRESSION const COMP_METHOD *comp; #endif int bits, alg_bits; const char *comp_str; if (!proxy->handshaked) return ""; cipher = SSL_get_current_cipher(proxy->ssl); bits = SSL_CIPHER_get_bits(cipher, &alg_bits); #ifdef HAVE_SSL_COMPRESSION comp = SSL_get_current_compression(proxy->ssl); comp_str = comp == NULL ? "" : t_strconcat(" ", SSL_COMP_get_name(comp), NULL); #else comp_str = ""; #endif return t_strdup_printf("%s with cipher %s (%d/%d bits)%s", SSL_get_version(proxy->ssl), SSL_CIPHER_get_name(cipher), bits, alg_bits, comp_str); } void ssl_proxy_free(struct ssl_proxy *proxy) { ssl_proxy_unref(proxy); } static void ssl_proxy_unref(struct ssl_proxy *proxy) { if (--proxy->refcount > 0) return; i_assert(proxy->refcount == 0); SSL_free(proxy->ssl); i_free(proxy); main_unref(); } static void ssl_proxy_destroy(struct ssl_proxy *proxy) { if (proxy->destroyed) return; proxy->destroyed = TRUE; ssl_proxy_count--; DLLIST_REMOVE(&ssl_proxies, proxy); if (proxy->io_ssl_read != NULL) io_remove(&proxy->io_ssl_read); if (proxy->io_ssl_write != NULL) io_remove(&proxy->io_ssl_write); if (proxy->io_plain_read != NULL) io_remove(&proxy->io_plain_read); if (proxy->io_plain_write != NULL) io_remove(&proxy->io_plain_write); (void)SSL_shutdown(proxy->ssl); (void)net_disconnect(proxy->fd_ssl); (void)net_disconnect(proxy->fd_plain); ssl_proxy_unref(proxy); main_listen_start(); } static RSA *ssl_gen_rsa_key(SSL *ssl ATTR_UNUSED, int is_export ATTR_UNUSED, int keylength) { return RSA_generate_key(keylength, RSA_F4, NULL, NULL); } static DH *ssl_tmp_dh_callback(SSL *ssl ATTR_UNUSED, int is_export, int keylength) { /* Well, I'm not exactly sure why the logic in here is this. It's the same as in Postfix, so it can't be too wrong. */ if (is_export && keylength == 512 && ssl_params.dh_512 != NULL) return ssl_params.dh_512; return ssl_params.dh_1024; } #ifdef HAVE_SSL_CTX_SET_INFO_CALLBACK static void ssl_info_callback(const SSL *ssl, int where, int ret) { struct ssl_proxy *proxy; proxy = SSL_get_ex_data(ssl, extdata_index); if ((where & SSL_CB_ALERT) != 0) { i_warning("SSL alert: where=0x%x, ret=%d: %s %s [%s]", where, ret, SSL_alert_type_string_long(ret), SSL_alert_desc_string_long(ret), net_ip2addr(&proxy->ip)); } else if (ret == 0) { i_warning("SSL failed: where=0x%x: %s [%s]", where, SSL_state_string_long(ssl), net_ip2addr(&proxy->ip)); } else { i_warning("SSL: where=0x%x, ret=%d: %s [%s]", where, ret, SSL_state_string_long(ssl), net_ip2addr(&proxy->ip)); } } #endif static int ssl_verify_client_cert(int preverify_ok, X509_STORE_CTX *ctx) { SSL *ssl; struct ssl_proxy *proxy; ssl = X509_STORE_CTX_get_ex_data(ctx, SSL_get_ex_data_X509_STORE_CTX_idx()); proxy = SSL_get_ex_data(ssl, extdata_index); proxy->cert_received = TRUE; if (verbose_ssl || (verbose_auth && !preverify_ok)) { char buf[1024]; X509_NAME *subject; subject = X509_get_subject_name(ctx->current_cert); (void)X509_NAME_oneline(subject, buf, sizeof(buf)); buf[sizeof(buf)-1] = '\0'; /* just in case.. */ if (!preverify_ok) i_info("Invalid certificate: %s: %s", X509_verify_cert_error_string(ctx->error),buf); else i_info("Valid certificate: %s", buf); } if (!preverify_ok) proxy->cert_broken = TRUE; /* Return success anyway, because if ssl_require_client_cert=no we could still allow authentication. */ return 1; } static int pem_password_callback(char *buf, int size, int rwflag ATTR_UNUSED, void *userdata) { if (userdata == NULL) { i_error("SSL private key file is password protected, " "but password isn't given"); return 0; } if (i_strocpy(buf, userdata, size) < 0) return 0; return strlen(buf); } unsigned int ssl_proxy_get_count(void) { return ssl_proxy_count; } static bool is_pem_key_file(const char *path) { char buf[4096]; int fd, ret; /* this code is used only for giving a better error message, so it needs to catch only the normal key files */ fd = open(path, O_RDONLY); if (fd == -1) return FALSE; ret = read(fd, buf, sizeof(buf)-1); close(fd); if (ret <= 0) return FALSE; buf[ret] = '\0'; return strstr(buf, "PRIVATE KEY---") != NULL; } static void ssl_proxy_ctx_init(SSL_CTX *ssl_ctx) { const char *cafile; SSL_CTX_set_options(ssl_ctx, SSL_OP_ALL); cafile = getenv("SSL_CA_FILE"); if (cafile != NULL) { if (SSL_CTX_load_verify_locations(ssl_ctx, cafile, NULL) != 1) { i_fatal("Can't load CA file %s: %s", cafile, ssl_last_error()); } } #ifdef HAVE_SSL_CTX_SET_INFO_CALLBACK if (verbose_ssl) SSL_CTX_set_info_callback(ssl_ctx, ssl_info_callback); #endif if (SSL_CTX_need_tmp_RSA(ssl_ctx)) SSL_CTX_set_tmp_rsa_callback(ssl_ctx, ssl_gen_rsa_key); SSL_CTX_set_tmp_dh_callback(ssl_ctx, ssl_tmp_dh_callback); } static void ssl_proxy_ctx_verify_client(SSL_CTX *ssl_ctx) { const char *cafile; #if OPENSSL_VERSION_NUMBER >= 0x00907000L X509_STORE *store; store = SSL_CTX_get_cert_store(ssl_ctx); X509_STORE_set_flags(store, X509_V_FLAG_CRL_CHECK | X509_V_FLAG_CRL_CHECK_ALL); #endif cafile = getenv("SSL_CA_FILE"); SSL_CTX_set_verify(ssl_ctx, SSL_VERIFY_PEER | SSL_VERIFY_CLIENT_ONCE, ssl_verify_client_cert); SSL_CTX_set_client_CA_list(ssl_ctx, SSL_load_client_CA_file(cafile)); } static void ssl_proxy_init_server(const char *certfile, const char *keyfile) { const char *cipher_list, *username_field; char *password; unsigned long err; password = getenv("SSL_KEY_PASSWORD"); if ((ssl_server_ctx = SSL_CTX_new(SSLv23_server_method())) == NULL) i_fatal("SSL_CTX_new() failed"); ssl_proxy_ctx_init(ssl_server_ctx); cipher_list = getenv("SSL_CIPHER_LIST"); if (cipher_list == NULL) cipher_list = DOVECOT_SSL_DEFAULT_CIPHER_LIST; if (SSL_CTX_set_cipher_list(ssl_server_ctx, cipher_list) != 1) { i_fatal("Can't set cipher list to '%s': %s", cipher_list, ssl_last_error()); } if (SSL_CTX_use_certificate_chain_file(ssl_server_ctx, certfile) != 1) { err = ERR_peek_error(); if (ERR_GET_LIB(err) != ERR_LIB_PEM || ERR_GET_REASON(err) != PEM_R_NO_START_LINE) { i_fatal("Can't load certificate file %s: %s", certfile, ssl_last_error()); } else if (is_pem_key_file(certfile)) { i_fatal("Can't load certificate file %s: " "The file contains a private key " "(you've mixed ssl_cert_file and ssl_key_file settings)", certfile); } else { i_fatal("Can't load certificate file %s: " "The file doesn't contain a certificate.", certfile); } } SSL_CTX_set_default_passwd_cb(ssl_server_ctx, pem_password_callback); SSL_CTX_set_default_passwd_cb_userdata(ssl_server_ctx, password); if (SSL_CTX_use_PrivateKey_file(ssl_server_ctx, keyfile, SSL_FILETYPE_PEM) != 1) { err = ERR_peek_error(); if (ERR_GET_LIB(err) == ERR_LIB_X509 && ERR_GET_REASON(err) == X509_R_KEY_VALUES_MISMATCH) { i_fatal("Can't load private key file %s: " "Key is for a different cert than %s", keyfile, certfile); } else { i_fatal("Can't load private key file %s: %s", keyfile, ssl_last_error()); } } if (getenv("SSL_VERIFY_CLIENT_CERT") != NULL) ssl_proxy_ctx_verify_client(ssl_server_ctx); username_field = getenv("SSL_CERT_USERNAME_FIELD"); if (username_field == NULL) ssl_username_nid = NID_commonName; else { ssl_username_nid = OBJ_txt2nid(username_field); if (ssl_username_nid == NID_undef) { i_fatal("Invalid ssl_cert_username_field: %s", username_field); } } } static void ssl_proxy_init_client(void) { if ((ssl_client_ctx = SSL_CTX_new(SSLv23_client_method())) == NULL) i_fatal("SSL_CTX_new() failed"); ssl_proxy_ctx_init(ssl_client_ctx); ssl_proxy_ctx_verify_client(ssl_client_ctx); } void ssl_proxy_init(void) { static char dovecot[] = "dovecot"; const char *certfile, *keyfile; unsigned char buf; memset(&ssl_params, 0, sizeof(ssl_params)); certfile = getenv("SSL_CERT_FILE"); keyfile = getenv("SSL_KEY_FILE"); ssl_params.fname = getenv("SSL_PARAM_FILE"); if (certfile == NULL || keyfile == NULL || ssl_params.fname == NULL) { /* SSL support is disabled */ return; } SSL_library_init(); SSL_load_error_strings(); extdata_index = SSL_get_ex_new_index(0, dovecot, NULL, NULL, NULL); ssl_proxy_init_server(certfile, keyfile); ssl_proxy_init_client(); /* PRNG initialization might want to use /dev/urandom, make sure it does it before chrooting. We might not have enough entropy at the first try, so this function may fail. It's still been initialized though. */ (void)RAND_bytes(&buf, 1); ssl_proxy_count = 0; ssl_proxies = NULL; ssl_initialized = TRUE; } void ssl_proxy_deinit(void) { if (!ssl_initialized) return; while (ssl_proxies != NULL) ssl_proxy_destroy(ssl_proxies); ssl_free_parameters(&ssl_params); SSL_CTX_free(ssl_server_ctx); SSL_CTX_free(ssl_client_ctx); EVP_cleanup(); ERR_free_strings(); } #endif