/* http.c - HTTP protocol handler * Copyright (C) 1999, 2001-2004, 2006, 2009, 2010, * 2011 Free Software Foundation, Inc. * Copyright (C) 1999, 2001-2004, 2006, 2009, 2010, 2011, 2014 Werner Koch * Copyright (C) 2015-2017, 2021 g10 Code GmbH * * This file is part of GnuPG. * * This file is free software; you can redistribute it and/or modify * it under the terms of either * * - the GNU Lesser General Public License as published by the Free * Software Foundation; either version 3 of the License, or (at * your option) any later version. * * or * * - 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. * * or both in parallel, as here. * * This file 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 . */ /* Simple HTTP client implementation. We try to keep the code as self-contained as possible. There are some constraints however: - estream is required. We now require estream because it provides a very useful and portable asprintf implementation and the fopencookie function. - stpcpy is required - fixme: list other requirements. - Either HTTP_USE_NTBTLS or HTTP_USE_GNUTLS must be defined to select which TLS library to use. - With HTTP_NO_WSASTARTUP the socket initialization is not done under Windows. This is useful if the socket layer has already been initialized elsewhere. This also avoids the installation of an exit handler to cleanup the socket layer. */ #ifdef HAVE_CONFIG_H # include #endif #include #include #include #include #include #include #include #ifdef HAVE_W32_SYSTEM # ifdef HAVE_WINSOCK2_H # include # endif # include #else /*!HAVE_W32_SYSTEM*/ # include # include # include # include # include # include # include # include #endif /*!HAVE_W32_SYSTEM*/ #ifdef WITHOUT_NPTH /* Give the Makefile a chance to build without Pth. */ # undef USE_NPTH #endif #ifdef USE_NPTH # include #endif #if defined (HTTP_USE_GNUTLS) && defined (HTTP_USE_NTBTLS) # error Both, HTTP_USE_GNUTLS and HTTP_USE_NTBTLS, are defined. #endif #ifdef HTTP_USE_NTBTLS # include #elif HTTP_USE_GNUTLS # include # include #endif /*HTTP_USE_GNUTLS*/ #include /* We need the socket wrapper. */ #include "../common/util.h" #include "../common/i18n.h" #include "../common/sysutils.h" /* (gnupg_fd_t) */ #include "dns-stuff.h" #include "dirmngr-status.h" /* (dirmngr_status_printf) */ #include "http.h" #include "http-common.h" #ifdef USE_NPTH # define my_select(a,b,c,d,e) npth_select ((a), (b), (c), (d), (e)) # define my_accept(a,b,c) npth_accept ((a), (b), (c)) #else # define my_select(a,b,c,d,e) select ((a), (b), (c), (d), (e)) # define my_accept(a,b,c) accept ((a), (b), (c)) #endif #ifdef HAVE_W32_SYSTEM #define sock_close(a) closesocket(a) #else #define sock_close(a) close(a) #endif #ifndef EAGAIN #define EAGAIN EWOULDBLOCK #endif #ifndef INADDR_NONE /* Slowaris is missing that. */ #define INADDR_NONE ((unsigned long)(-1)) #endif /*INADDR_NONE*/ #define HTTP_PROXY_ENV "http_proxy" #define MAX_LINELEN 20000 /* Max. length of a HTTP header line. */ #define VALID_URI_CHARS "abcdefghijklmnopqrstuvwxyz" \ "ABCDEFGHIJKLMNOPQRSTUVWXYZ" \ "01234567890@" \ "!\"#$%&'()*+,-./:;<=>?[\\]^_{|}~" #if HTTP_USE_NTBTLS typedef ntbtls_t tls_session_t; #elif HTTP_USE_GNUTLS typedef gnutls_session_t tls_session_t; #else # error building without TLS is not supported #endif static gpg_err_code_t do_parse_uri (parsed_uri_t uri, int only_local_part, int no_scheme_check, int force_tls); static gpg_error_t parse_uri (parsed_uri_t *ret_uri, const char *uri, int no_scheme_check, int force_tls); static int remove_escapes (char *string); static int insert_escapes (char *buffer, const char *string, const char *special); static uri_tuple_t parse_tuple (char *string); static gpg_error_t send_request (ctrl_t ctrl, http_t hd, const char *httphost, const char *auth,const char *proxy, const char *srvtag, unsigned int timeout, strlist_t headers); static char *build_rel_path (parsed_uri_t uri); static gpg_error_t parse_response (http_t hd); static gpg_error_t connect_server (ctrl_t ctrl, const char *server, unsigned short port, unsigned int flags, const char *srvtag, unsigned int timeout, assuan_fd_t *r_sock); static gpgrt_ssize_t read_server (assuan_fd_t sock, void *buffer, size_t size); static gpg_error_t write_server (assuan_fd_t sock, const char *data, size_t length); static gpgrt_ssize_t cookie_read (void *cookie, void *buffer, size_t size); static gpgrt_ssize_t cookie_write (void *cookie, const void *buffer, size_t size); static int cookie_close (void *cookie); #if defined(HAVE_W32_SYSTEM) && defined(HTTP_USE_NTBTLS) static gpgrt_ssize_t simple_cookie_read (void *cookie, void *buffer, size_t size); static gpgrt_ssize_t simple_cookie_write (void *cookie, const void *buffer, size_t size); #endif /* A socket object used to a allow ref counting of sockets. */ struct my_socket_s { assuan_fd_t fd; /* The actual socket - shall never be ASSUAN_INVALID_FD. */ int refcount; /* Number of references to this socket. */ }; typedef struct my_socket_s *my_socket_t; /* Cookie function structure and cookie object. */ static es_cookie_io_functions_t cookie_functions = { cookie_read, cookie_write, NULL, cookie_close }; struct cookie_s { /* Socket object or NULL if already closed. */ my_socket_t sock; /* The session object or NULL if not used. */ http_session_t session; /* True if TLS is to be used. */ int use_tls; /* The remaining content length and a flag telling whether to use the content length. */ uint64_t content_length; unsigned int content_length_valid:1; }; typedef struct cookie_s *cookie_t; /* Simple cookie functions. Here the cookie is an int with the * socket. */ #if defined(HAVE_W32_SYSTEM) && defined(HTTP_USE_NTBTLS) static es_cookie_io_functions_t simple_cookie_functions = { simple_cookie_read, simple_cookie_write, NULL, NULL }; #endif #if SIZEOF_UNSIGNED_LONG == 8 # define HTTP_SESSION_MAGIC 0x0068545470534553 /* "hTTpSES" */ #else # define HTTP_SESSION_MAGIC 0x68547365 /* "hTse" */ #endif /* The session object. */ struct http_session_s { unsigned long magic; int refcount; /* Number of references to this object. */ tls_session_t tls_session; struct { int done; /* Verifciation has been done. */ int rc; /* TLS verification return code. */ unsigned int status; /* Verification status. */ } verify; char *servername; /* Malloced server name. */ /* A callback function to log details of TLS certifciates. */ void (*cert_log_cb) (http_session_t, gpg_error_t, const char *, const void **, size_t *); /* The flags passed to the session object. */ unsigned int flags; /* A per-session TLS verification callback. */ http_verify_cb_t verify_cb; void *verify_cb_value; /* The connect timeout */ unsigned int connect_timeout; #ifdef HTTP_USE_GNUTLS gnutls_certificate_credentials_t certcred; #endif /*HTTP_USE_GNUTLS*/ }; /* An object to save header lines. */ struct header_s { struct header_s *next; char *value; /* The value of the header (malloced). */ char name[1]; /* The name of the header (canonicalized). */ }; typedef struct header_s *header_t; #if SIZEOF_UNSIGNED_LONG == 8 # define HTTP_CONTEXT_MAGIC 0x0068545470435458 /* "hTTpCTX" */ #else # define HTTP_CONTEXT_MAGIC 0x68546378 /* "hTcx" */ #endif /* Our handle context. */ struct http_context_s { unsigned long magic; unsigned int status_code; my_socket_t sock; unsigned int in_data:1; unsigned int is_http_0_9:1; estream_t fp_read; estream_t fp_write; void *write_cookie; void *read_cookie; http_session_t session; parsed_uri_t uri; http_req_t req_type; char *buffer; /* Line buffer. */ size_t buffer_size; unsigned int flags; header_t headers; /* Received headers. */ }; /* Two flags to enable verbose and debug mode. Although currently not * set-able a value > 1 for OPT_DEBUG enables debugging of the session * reference counting. */ static int opt_verbose; static int opt_debug; /* The global callback for the verification function. */ static gpg_error_t (*tls_callback) (http_t, http_session_t, int); /* The list of files with trusted CA certificates. */ static strlist_t tls_ca_certlist; /* The list of files with extra trusted CA certificates. */ static strlist_t cfg_ca_certlist; /* The global callback for net activity. */ static void (*netactivity_cb)(void); #if defined(HAVE_W32_SYSTEM) && !defined(HTTP_NO_WSASTARTUP) #if GNUPG_MAJOR_VERSION == 1 #define REQ_WINSOCK_MAJOR 1 #define REQ_WINSOCK_MINOR 1 #else #define REQ_WINSOCK_MAJOR 2 #define REQ_WINSOCK_MINOR 2 #endif static void deinit_sockets (void) { WSACleanup(); } static void init_sockets (void) { static int initialized; static WSADATA wsdata; if (initialized) return; if ( WSAStartup( MAKEWORD (REQ_WINSOCK_MINOR, REQ_WINSOCK_MAJOR), &wsdata ) ) { log_error ("error initializing socket library: ec=%d\n", (int)WSAGetLastError () ); return; } if ( LOBYTE(wsdata.wVersion) != REQ_WINSOCK_MAJOR || HIBYTE(wsdata.wVersion) != REQ_WINSOCK_MINOR ) { log_error ("socket library version is %x.%x - but %d.%d needed\n", LOBYTE(wsdata.wVersion), HIBYTE(wsdata.wVersion), REQ_WINSOCK_MAJOR, REQ_WINSOCK_MINOR); WSACleanup(); return; } atexit ( deinit_sockets ); initialized = 1; } #endif /*HAVE_W32_SYSTEM && !HTTP_NO_WSASTARTUP*/ /* Create a new socket object. Returns NULL and closes FD if not enough memory is available. */ static my_socket_t _my_socket_new (int lnr, assuan_fd_t fd) { my_socket_t so; so = xtrymalloc (sizeof *so); if (!so) { int save_errno = errno; assuan_sock_close (fd); gpg_err_set_errno (save_errno); return NULL; } so->fd = fd; so->refcount = 1; if (opt_debug) log_debug ("http.c:%d:socket_new: object %p for fd %d created\n", lnr, so, (int)so->fd); return so; } #define my_socket_new(a) _my_socket_new (__LINE__, (a)) /* Bump up the reference counter for the socket object SO. */ static my_socket_t _my_socket_ref (int lnr, my_socket_t so) { so->refcount++; if (opt_debug > 1) log_debug ("http.c:%d:socket_ref: object %p for fd %d refcount now %d\n", lnr, so, (int)so->fd, so->refcount); return so; } #define my_socket_ref(a) _my_socket_ref (__LINE__,(a)) /* Bump down the reference counter for the socket object SO. If SO has no more references, close the socket and release the object. */ static void _my_socket_unref (int lnr, my_socket_t so, void (*preclose)(void*), void *preclosearg) { if (so) { so->refcount--; if (opt_debug > 1) log_debug ("http.c:%d:socket_unref: object %p for fd %d ref now %d\n", lnr, so, (int)so->fd, so->refcount); if (!so->refcount) { if (preclose) preclose (preclosearg); assuan_sock_close (so->fd); xfree (so); } } } #define my_socket_unref(a,b,c) _my_socket_unref (__LINE__,(a),(b),(c)) #ifdef HTTP_USE_GNUTLS static ssize_t my_gnutls_read (gnutls_transport_ptr_t ptr, void *buffer, size_t size) { my_socket_t sock = ptr; #if USE_NPTH return npth_read (sock->fd, buffer, size); #else return read (sock->fd, buffer, size); #endif } static ssize_t my_gnutls_write (gnutls_transport_ptr_t ptr, const void *buffer, size_t size) { my_socket_t sock = ptr; #if USE_NPTH return npth_write (sock->fd, buffer, size); #else return write (sock->fd, buffer, size); #endif } #endif /*HTTP_USE_GNUTLS*/ #ifdef HTTP_USE_NTBTLS /* Connect the ntbls callback to our generic callback. */ static gpg_error_t my_ntbtls_verify_cb (void *opaque, ntbtls_t tls, unsigned int verify_flags) { http_t hd = opaque; (void)verify_flags; log_assert (hd && hd->session && hd->session->verify_cb); log_assert (hd->magic == HTTP_CONTEXT_MAGIC); log_assert (hd->session->magic == HTTP_SESSION_MAGIC); return hd->session->verify_cb (hd->session->verify_cb_value, hd, hd->session, (hd->flags | hd->session->flags), tls); } #endif /*HTTP_USE_NTBTLS*/ /* This notification function is called by estream whenever stream is closed. Its purpose is to mark the closing in the handle so that a http_close won't accidentally close the estream. The function http_close removes this notification so that it won't be called if http_close was used before an es_fclose. */ static void fp_onclose_notification (estream_t stream, void *opaque) { http_t hd = opaque; log_assert (hd->magic == HTTP_CONTEXT_MAGIC); if (hd->fp_read && hd->fp_read == stream) hd->fp_read = NULL; else if (hd->fp_write && hd->fp_write == stream) hd->fp_write = NULL; } /* * Helper function to create an HTTP header with hex encoded data. A * new buffer is returned. This buffer is the concatenation of the * string PREFIX, the hex-encoded DATA of length LEN and the string * SUFFIX. On error NULL is returned and ERRNO set. */ static char * make_header_line (const char *prefix, const char *suffix, const void *data, size_t len ) { static unsigned char bintoasc[] = "ABCDEFGHIJKLMNOPQRSTUVWXYZ" "abcdefghijklmnopqrstuvwxyz" "0123456789+/"; const unsigned char *s = data; char *buffer, *p; buffer = xtrymalloc (strlen (prefix) + (len+2)/3*4 + strlen (suffix) + 1); if (!buffer) return NULL; p = stpcpy (buffer, prefix); for ( ; len >= 3 ; len -= 3, s += 3 ) { *p++ = bintoasc[(s[0] >> 2) & 077]; *p++ = bintoasc[(((s[0] <<4)&060)|((s[1] >> 4)&017))&077]; *p++ = bintoasc[(((s[1]<<2)&074)|((s[2]>>6)&03))&077]; *p++ = bintoasc[s[2]&077]; *p = 0; } if ( len == 2 ) { *p++ = bintoasc[(s[0] >> 2) & 077]; *p++ = bintoasc[(((s[0] <<4)&060)|((s[1] >> 4)&017))&077]; *p++ = bintoasc[((s[1]<<2)&074)]; *p++ = '='; } else if ( len == 1 ) { *p++ = bintoasc[(s[0] >> 2) & 077]; *p++ = bintoasc[(s[0] <<4)&060]; *p++ = '='; *p++ = '='; } *p = 0; strcpy (p, suffix); return buffer; } /* Set verbosity and debug mode for this module. */ void http_set_verbose (int verbose, int debug) { opt_verbose = verbose; opt_debug = debug; } /* Register a non-standard global TLS callback function. If no verification is desired a callback needs to be registered which always returns NULL. */ void http_register_tls_callback (gpg_error_t (*cb)(http_t, http_session_t, int)) { tls_callback = cb; } /* Register a CA certificate for future use. The certificate is expected to be in FNAME. PEM format is assume if FNAME has a suffix of ".pem". If FNAME is NULL the list of CA files is removed. */ void http_register_tls_ca (const char *fname) { gpg_err_code_t ec; strlist_t sl; if (!fname) { free_strlist (tls_ca_certlist); tls_ca_certlist = NULL; } else { /* Warn if we can't access right now, but register it anyway in case it becomes accessible later */ if ((ec = gnupg_access (fname, F_OK))) log_info (_("can't access '%s': %s\n"), fname, gpg_strerror (ec)); sl = add_to_strlist (&tls_ca_certlist, fname); if (*sl->d && !strcmp (sl->d + strlen (sl->d) - 4, ".pem")) sl->flags = 1; } } /* Register a CA certificate for future use. The certificate is * expected to be in FNAME. PEM format is assume if FNAME has a * suffix of ".pem". If FNAME is NULL the list of CA files is * removed. This is a variant of http_register_tls_ca which puts the * certificate into a separate list enabled using HTTP_FLAG_TRUST_CFG. */ void http_register_cfg_ca (const char *fname) { gpg_err_code_t ec; strlist_t sl; if (!fname) { free_strlist (cfg_ca_certlist); cfg_ca_certlist = NULL; } else { /* Warn if we can't access right now, but register it anyway in case it becomes accessible later */ if ((ec = gnupg_access (fname, F_OK))) log_info (_("can't access '%s': %s\n"), fname, gpg_strerror (ec)); sl = add_to_strlist (&cfg_ca_certlist, fname); if (*sl->d && !strcmp (sl->d + strlen (sl->d) - 4, ".pem")) sl->flags = 1; } } /* Register a callback which is called every time the HTTP mode has * made a successful connection to some server. */ void http_register_netactivity_cb (void (*cb)(void)) { netactivity_cb = cb; } /* Call the netactivity callback if any. */ static void notify_netactivity (void) { if (netactivity_cb) netactivity_cb (); } /* Free the TLS session associated with SESS, if any. */ static void close_tls_session (http_session_t sess) { if (sess->tls_session) { #if HTTP_USE_NTBTLS /* FIXME!! Possibly, ntbtls_get_transport and close those streams. Somehow get SOCK to call my_socket_unref. */ ntbtls_release (sess->tls_session); #elif HTTP_USE_GNUTLS my_socket_t sock = gnutls_transport_get_ptr (sess->tls_session); my_socket_unref (sock, NULL, NULL); gnutls_deinit (sess->tls_session); if (sess->certcred) gnutls_certificate_free_credentials (sess->certcred); #endif /*HTTP_USE_GNUTLS*/ xfree (sess->servername); sess->tls_session = NULL; } } /* Release a session. Take care not to release it while it is being used by a http context object. */ static void session_unref (int lnr, http_session_t sess) { if (!sess) return; log_assert (sess->magic == HTTP_SESSION_MAGIC); sess->refcount--; if (opt_debug > 1) log_debug ("http.c:%d:session_unref: sess %p ref now %d\n", lnr, sess, sess->refcount); if (sess->refcount) return; close_tls_session (sess); sess->magic = 0xdeadbeef; xfree (sess); } #define http_session_unref(a) session_unref (__LINE__, (a)) void http_session_release (http_session_t sess) { http_session_unref (sess); } /* Create a new session object which is currently used to enable TLS * support. It may eventually allow reusing existing connections. * Valid values for FLAGS are: * HTTP_FLAG_TRUST_DEF - Use the CAs set with http_register_tls_ca * HTTP_FLAG_TRUST_SYS - Also use the CAs defined by the system * HTTP_FLAG_TRUST_CFG - Also use CAs set with http_register_cfg_ca * HTTP_FLAG_NO_CRL - Do not consult CRLs for https. */ gpg_error_t http_session_new (http_session_t *r_session, const char *intended_hostname, unsigned int flags, http_verify_cb_t verify_cb, void *verify_cb_value) { gpg_error_t err; http_session_t sess; *r_session = NULL; sess = xtrycalloc (1, sizeof *sess); if (!sess) return gpg_error_from_syserror (); sess->magic = HTTP_SESSION_MAGIC; sess->refcount = 1; sess->flags = flags; sess->verify_cb = verify_cb; sess->verify_cb_value = verify_cb_value; sess->connect_timeout = 0; #if HTTP_USE_NTBTLS { (void)intended_hostname; /* Not needed because we do not preload * certificates. */ err = ntbtls_new (&sess->tls_session, NTBTLS_CLIENT); if (err) { log_error ("ntbtls_new failed: %s\n", gpg_strerror (err)); goto leave; } } #elif HTTP_USE_GNUTLS { const char *errpos; int rc; strlist_t sl; int add_system_cas = !!(flags & HTTP_FLAG_TRUST_SYS); int is_hkps_pool; rc = gnutls_certificate_allocate_credentials (&sess->certcred); if (rc < 0) { log_error ("gnutls_certificate_allocate_credentials failed: %s\n", gnutls_strerror (rc)); err = gpg_error (GPG_ERR_GENERAL); goto leave; } /* Disabled for 2.3.2 to due problems with the standard hkps pool. */ /* is_hkps_pool = (intended_hostname */ /* && !ascii_strcasecmp (intended_hostname, */ /* get_default_keyserver (1))); */ is_hkps_pool = 0; /* If we are looking for the hkps pool from sks-keyservers.net, * then forcefully use its dedicated certificate authority. */ /* Disabled for 2.3.2 because the service had to be shutdown. */ /* if (is_hkps_pool) */ /* { */ /* char *pemname = make_filename_try (gnupg_datadir (), */ /* "sks-keyservers.netCA.pem", NULL); */ /* if (!pemname) */ /* { */ /* err = gpg_error_from_syserror (); */ /* log_error ("setting CA from file '%s' failed: %s\n", */ /* pemname, gpg_strerror (err)); */ /* } */ /* else */ /* { */ /* rc = gnutls_certificate_set_x509_trust_file */ /* (sess->certcred, pemname, GNUTLS_X509_FMT_PEM); */ /* if (rc < 0) */ /* log_info ("setting CA from file '%s' failed: %s\n", */ /* pemname, gnutls_strerror (rc)); */ /* xfree (pemname); */ /* } */ /* */ /* if (is_hkps_pool) */ /* add_system_cas = 0; */ /* } */ /* Add configured certificates to the session. */ if ((flags & HTTP_FLAG_TRUST_DEF) && !is_hkps_pool) { for (sl = tls_ca_certlist; sl; sl = sl->next) { rc = gnutls_certificate_set_x509_trust_file (sess->certcred, sl->d, (sl->flags & 1)? GNUTLS_X509_FMT_PEM : GNUTLS_X509_FMT_DER); if (rc < 0) log_info ("setting CA from file '%s' failed: %s\n", sl->d, gnutls_strerror (rc)); } /* If HKP trust is requested and there are no HKP certificates * configured, also try the standard system certificates. */ if (!tls_ca_certlist) add_system_cas = 1; } /* Add system certificates to the session. */ if (add_system_cas) { #if GNUTLS_VERSION_NUMBER >= 0x030014 static int shown; rc = gnutls_certificate_set_x509_system_trust (sess->certcred); if (rc < 0) log_info ("setting system CAs failed: %s\n", gnutls_strerror (rc)); else if (!shown) { shown = 1; log_info ("number of system provided CAs: %d\n", rc); } #endif /* gnutls >= 3.0.20 */ } /* Add other configured certificates to the session. */ if ((flags & HTTP_FLAG_TRUST_CFG) && !is_hkps_pool) { for (sl = cfg_ca_certlist; sl; sl = sl->next) { rc = gnutls_certificate_set_x509_trust_file (sess->certcred, sl->d, (sl->flags & 1)? GNUTLS_X509_FMT_PEM : GNUTLS_X509_FMT_DER); if (rc < 0) log_info ("setting extra CA from file '%s' failed: %s\n", sl->d, gnutls_strerror (rc)); } } rc = gnutls_init (&sess->tls_session, GNUTLS_CLIENT); if (rc < 0) { log_error ("gnutls_init failed: %s\n", gnutls_strerror (rc)); err = gpg_error (GPG_ERR_GENERAL); goto leave; } /* A new session has the transport ptr set to (void*(-1), we need it to be NULL. */ gnutls_transport_set_ptr (sess->tls_session, NULL); rc = gnutls_priority_set_direct (sess->tls_session, "NORMAL", &errpos); if (rc < 0) { log_error ("gnutls_priority_set_direct failed at '%s': %s\n", errpos, gnutls_strerror (rc)); err = gpg_error (GPG_ERR_GENERAL); goto leave; } rc = gnutls_credentials_set (sess->tls_session, GNUTLS_CRD_CERTIFICATE, sess->certcred); if (rc < 0) { log_error ("gnutls_credentials_set failed: %s\n", gnutls_strerror (rc)); err = gpg_error (GPG_ERR_GENERAL); goto leave; } } #else /*!HTTP_USE_GNUTLS && !HTTP_USE_NTBTLS*/ { (void)intended_hostname; (void)flags; } #endif /*!HTTP_USE_GNUTLS && !HTTP_USE_NTBTLS*/ if (opt_debug > 1) log_debug ("http.c:session_new: sess %p created\n", sess); err = 0; leave: if (err) http_session_unref (sess); else *r_session = sess; return err; } /* Increment the reference count for session SESS. Passing NULL for SESS is allowed. */ http_session_t http_session_ref (http_session_t sess) { if (sess) { sess->refcount++; if (opt_debug > 1) log_debug ("http.c:session_ref: sess %p ref now %d\n", sess, sess->refcount); } return sess; } void http_session_set_log_cb (http_session_t sess, void (*cb)(http_session_t, gpg_error_t, const char *hostname, const void **certs, size_t *certlens)) { sess->cert_log_cb = cb; } /* Set the TIMEOUT in milliseconds for the connection's connect * calls. Using 0 disables the timeout. */ void http_session_set_timeout (http_session_t sess, unsigned int timeout) { sess->connect_timeout = timeout; } /* Start a HTTP retrieval and on success store at R_HD a context pointer for completing the request and to wait for the response. If HTTPHOST is not NULL it is used for the Host header instead of a Host header derived from the URL. */ gpg_error_t http_open (ctrl_t ctrl, http_t *r_hd, http_req_t reqtype, const char *url, const char *httphost, const char *auth, unsigned int flags, const char *proxy, http_session_t session, const char *srvtag, strlist_t headers) { gpg_error_t err; http_t hd; *r_hd = NULL; if (!(reqtype == HTTP_REQ_GET || reqtype == HTTP_REQ_POST)) return gpg_err_make (default_errsource, GPG_ERR_INV_ARG); /* Create the handle. */ hd = xtrycalloc (1, sizeof *hd); if (!hd) return gpg_error_from_syserror (); hd->magic = HTTP_CONTEXT_MAGIC; hd->req_type = reqtype; hd->flags = flags; hd->session = http_session_ref (session); err = parse_uri (&hd->uri, url, 0, !!(flags & HTTP_FLAG_FORCE_TLS)); if (!err) err = send_request (ctrl, hd, httphost, auth, proxy, srvtag, hd->session? hd->session->connect_timeout : 0, headers); if (err) { my_socket_unref (hd->sock, NULL, NULL); if (hd->fp_read) es_fclose (hd->fp_read); if (hd->fp_write) es_fclose (hd->fp_write); http_session_unref (hd->session); xfree (hd); } else *r_hd = hd; return err; } /* This function is useful to connect to a generic TCP service using this http abstraction layer. This has the advantage of providing service tags and an estream interface. TIMEOUT is in milliseconds. */ gpg_error_t http_raw_connect (ctrl_t ctrl, http_t *r_hd, const char *server, unsigned short port, unsigned int flags, const char *srvtag, unsigned int timeout) { gpg_error_t err = 0; http_t hd; cookie_t cookie; *r_hd = NULL; if ((flags & HTTP_FLAG_FORCE_TOR)) { int mode; if (assuan_sock_get_flag (ASSUAN_INVALID_FD, "tor-mode", &mode) || !mode) { log_error ("Tor support is not available\n"); return gpg_err_make (default_errsource, GPG_ERR_NOT_IMPLEMENTED); } /* Non-blocking connects do not work with our Tor proxy because * we can't continue the Socks protocol after the EINPROGRESS. * Disable the timeout to use a blocking connect. */ timeout = 0; } /* Create the handle. */ hd = xtrycalloc (1, sizeof *hd); if (!hd) return gpg_error_from_syserror (); hd->magic = HTTP_CONTEXT_MAGIC; hd->req_type = HTTP_REQ_OPAQUE; hd->flags = flags; /* Connect. */ { assuan_fd_t sock; err = connect_server (ctrl, server, port, hd->flags, srvtag, timeout, &sock); if (err) { xfree (hd); return err; } hd->sock = my_socket_new (sock); if (!hd->sock) { err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); xfree (hd); return err; } } /* Setup estreams for reading and writing. */ cookie = xtrycalloc (1, sizeof *cookie); if (!cookie) { err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); goto leave; } cookie->sock = my_socket_ref (hd->sock); hd->fp_write = es_fopencookie (cookie, "w", cookie_functions); if (!hd->fp_write) { err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); my_socket_unref (cookie->sock, NULL, NULL); xfree (cookie); goto leave; } hd->write_cookie = cookie; /* Cookie now owned by FP_WRITE. */ cookie = xtrycalloc (1, sizeof *cookie); if (!cookie) { err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); goto leave; } cookie->sock = my_socket_ref (hd->sock); hd->fp_read = es_fopencookie (cookie, "r", cookie_functions); if (!hd->fp_read) { err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); my_socket_unref (cookie->sock, NULL, NULL); xfree (cookie); goto leave; } hd->read_cookie = cookie; /* Cookie now owned by FP_READ. */ /* Register close notification to interlock the use of es_fclose in http_close and in user code. */ err = es_onclose (hd->fp_write, 1, fp_onclose_notification, hd); if (!err) err = es_onclose (hd->fp_read, 1, fp_onclose_notification, hd); leave: if (err) { if (hd->fp_read) es_fclose (hd->fp_read); if (hd->fp_write) es_fclose (hd->fp_write); my_socket_unref (hd->sock, NULL, NULL); xfree (hd); } else *r_hd = hd; return err; } void http_start_data (http_t hd) { if (!hd->in_data) { if (opt_debug || (hd->flags & HTTP_FLAG_LOG_RESP)) log_debug_string ("\r\n", "http.c:request-header:"); es_fputs ("\r\n", hd->fp_write); es_fflush (hd->fp_write); hd->in_data = 1; } else es_fflush (hd->fp_write); } gpg_error_t http_wait_response (http_t hd) { gpg_error_t err; cookie_t cookie; int use_tls; /* Make sure that we are in the data. */ http_start_data (hd); /* Close the write stream. Note that the reference counted socket object keeps the actual system socket open. */ cookie = hd->write_cookie; if (!cookie) return gpg_err_make (default_errsource, GPG_ERR_INTERNAL); use_tls = cookie->use_tls; es_fclose (hd->fp_write); hd->fp_write = NULL; /* The close has released the cookie and thus we better set it to NULL. */ hd->write_cookie = NULL; /* Shutdown one end of the socket is desired. As per HTTP/1.0 this is not required but some very old servers (e.g. the original pksd keyserver didn't worked without it. */ if ((hd->flags & HTTP_FLAG_SHUTDOWN)) shutdown (FD2INT (hd->sock->fd), 1); hd->in_data = 0; /* Create a new cookie and a stream for reading. */ cookie = xtrycalloc (1, sizeof *cookie); if (!cookie) return gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); cookie->sock = my_socket_ref (hd->sock); cookie->session = http_session_ref (hd->session); cookie->use_tls = use_tls; hd->read_cookie = cookie; hd->fp_read = es_fopencookie (cookie, "r", cookie_functions); if (!hd->fp_read) { err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); my_socket_unref (cookie->sock, NULL, NULL); http_session_unref (cookie->session); xfree (cookie); hd->read_cookie = NULL; return err; } err = parse_response (hd); if (!err) err = es_onclose (hd->fp_read, 1, fp_onclose_notification, hd); return err; } /* Convenience function to send a request and wait for the response. Closes the handle on error. If PROXY is not NULL, this value will be used as an HTTP proxy and any enabled $http_proxy gets ignored. */ gpg_error_t http_open_document (ctrl_t ctrl, http_t *r_hd, const char *document, const char *auth, unsigned int flags, const char *proxy, http_session_t session, const char *srvtag, strlist_t headers) { gpg_error_t err; err = http_open (ctrl, r_hd, HTTP_REQ_GET, document, NULL, auth, flags, proxy, session, srvtag, headers); if (err) return err; err = http_wait_response (*r_hd); if (err) http_close (*r_hd, 0); return err; } void http_close (http_t hd, int keep_read_stream) { if (!hd) return; log_assert (hd->magic == HTTP_CONTEXT_MAGIC); /* First remove the close notifications for the streams. */ if (hd->fp_read) es_onclose (hd->fp_read, 0, fp_onclose_notification, hd); if (hd->fp_write) es_onclose (hd->fp_write, 0, fp_onclose_notification, hd); /* Now we can close the streams. */ my_socket_unref (hd->sock, NULL, NULL); if (hd->fp_read && !keep_read_stream) es_fclose (hd->fp_read); if (hd->fp_write) es_fclose (hd->fp_write); http_session_unref (hd->session); hd->magic = 0xdeadbeef; http_release_parsed_uri (hd->uri); while (hd->headers) { header_t tmp = hd->headers->next; xfree (hd->headers->value); xfree (hd->headers); hd->headers = tmp; } xfree (hd->buffer); xfree (hd); } estream_t http_get_read_ptr (http_t hd) { return hd?hd->fp_read:NULL; } estream_t http_get_write_ptr (http_t hd) { return hd?hd->fp_write:NULL; } unsigned int http_get_status_code (http_t hd) { return hd?hd->status_code:0; } /* Return information pertaining to TLS. If TLS is not in use for HD, NULL is returned. WHAT is used ask for specific information: (NULL) := Only check whether TLS is in use. Returns an unspecified string if TLS is in use. That string may even be the empty string. */ const char * http_get_tls_info (http_t hd, const char *what) { (void)what; if (!hd) return NULL; return hd->uri->use_tls? "":NULL; } static gpg_error_t parse_uri (parsed_uri_t *ret_uri, const char *uri, int no_scheme_check, int force_tls) { gpg_err_code_t ec; *ret_uri = xtrycalloc (1, sizeof **ret_uri + 2 * strlen (uri) + 1); if (!*ret_uri) return gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); strcpy ((*ret_uri)->buffer, uri); strcpy ((*ret_uri)->buffer + strlen (uri) + 1, uri); (*ret_uri)->original = (*ret_uri)->buffer + strlen (uri) + 1; ec = do_parse_uri (*ret_uri, 0, no_scheme_check, force_tls); if (ec) { http_release_parsed_uri (*ret_uri); *ret_uri = NULL; } return gpg_err_make (default_errsource, ec); } /* * Parse an URI and put the result into the newly allocated RET_URI. * On success the caller must use http_release_parsed_uri() to * releases the resources. If the HTTP_PARSE_NO_SCHEME_CHECK flag is * set, the function tries to parse the URL in the same way it would * do for an HTTP style URI. */ gpg_error_t http_parse_uri (parsed_uri_t *ret_uri, const char *uri, unsigned int flags) { return parse_uri (ret_uri, uri, !!(flags & HTTP_PARSE_NO_SCHEME_CHECK), 0); } void http_release_parsed_uri (parsed_uri_t uri) { if (uri) { uri_tuple_t r, r2; for (r = uri->params; r; r = r2) { r2 = r->next; xfree (r); } for (r = uri->query; r; r = r2) { r2 = r->next; xfree (r); } xfree (uri); } } static gpg_err_code_t do_parse_uri (parsed_uri_t uri, int only_local_part, int no_scheme_check, int force_tls) { uri_tuple_t *tail; char *p, *p2, *p3, *pp; int n; p = uri->buffer; n = strlen (uri->buffer); /* Initialize all fields to an empty string or an empty list. */ uri->scheme = uri->host = uri->path = p + n; uri->port = 0; uri->params = uri->query = NULL; uri->use_tls = 0; uri->is_http = 0; uri->is_ldap = 0; uri->opaque = 0; uri->v6lit = 0; uri->onion = 0; uri->explicit_port = 0; uri->off_host = 0; uri->off_path = 0; /* A quick validity check unless we have the opaque scheme. */ if (strspn (p, VALID_URI_CHARS) != n && strncmp (p, "opaque:", 7)) return GPG_ERR_BAD_URI; /* Invalid characters found. */ if (!only_local_part) { /* Find the scheme. */ if (!(p2 = strchr (p, ':')) || p2 == p) return GPG_ERR_BAD_URI; /* No scheme. */ *p2++ = 0; for (pp=p; *pp; pp++) *pp = tolower (*(unsigned char*)pp); uri->scheme = p; if (!strcmp (uri->scheme, "http") && !force_tls) { uri->port = 80; uri->is_http = 1; } else if (!strcmp (uri->scheme, "hkp") && !force_tls) { uri->port = 11371; uri->is_http = 1; } else if (!strcmp (uri->scheme, "https") || !strcmp (uri->scheme,"hkps") || (force_tls && (!strcmp (uri->scheme, "http") || !strcmp (uri->scheme,"hkp")))) { uri->port = 443; uri->is_http = 1; uri->use_tls = 1; } else if (!strcmp (uri->scheme, "opaque")) { uri->opaque = 1; uri->path = p2; return 0; } else if (!no_scheme_check) return GPG_ERR_INV_URI; /* Not an http style scheme. */ else if (!strcmp (uri->scheme, "ldap") && !force_tls) { uri->port = 389; uri->is_ldap = 1; } else if (!strcmp (uri->scheme, "ldaps") || (force_tls && (!strcmp (uri->scheme, "ldap")))) { uri->port = 636; uri->is_ldap = 1; uri->use_tls = 1; } else if (!strcmp (uri->scheme, "ldapi")) /* LDAP via IPC. */ { uri->port = 0; uri->is_ldap = 1; } p = p2; if (*p == '/' && p[1] == '/' ) /* There seems to be a hostname. */ { p += 2; if ((p2 = strchr (p, '/'))) { if (p2 - uri->buffer > 10000) return GPG_ERR_BAD_URI; uri->off_path = p2 - uri->buffer; *p2++ = 0; } else { n = (p - uri->buffer) + strlen (p); if (n > 10000) return GPG_ERR_BAD_URI; uri->off_path = n; } /* Check for username/password encoding */ if ((p3 = strchr (p, '@'))) { uri->auth = p; *p3++ = '\0'; p = p3; } for (pp=p; *pp; pp++) *pp = tolower (*(unsigned char*)pp); /* Handle an IPv6 literal */ if( *p == '[' && (p3=strchr( p, ']' )) ) { *p3++ = '\0'; /* worst case, uri->host should have length 0, points to \0 */ uri->host = p + 1; if (p - uri->buffer > 10000) return GPG_ERR_BAD_URI; uri->off_host = (p + 1) - uri->buffer; uri->v6lit = 1; p = p3; } else { uri->host = p; if (p - uri->buffer > 10000) return GPG_ERR_BAD_URI; uri->off_host = p - uri->buffer; } if ((p3 = strchr (p, ':'))) { *p3++ = '\0'; uri->port = atoi (p3); uri->explicit_port = 1; } if ((n = remove_escapes (uri->host)) < 0) return GPG_ERR_BAD_URI; if (n != strlen (uri->host)) return GPG_ERR_BAD_URI; /* Hostname includes a Nul. */ p = p2 ? p2 : NULL; } else if (!no_scheme_check && (uri->is_http || uri->is_ldap)) return GPG_ERR_INV_URI; /* HTTP or LDAP w/o leading double slash. */ else { uri->opaque = 1; uri->path = p; if (is_onion_address (uri->path)) uri->onion = 1; return 0; } } /* End global URI part. */ /* Parse the pathname part if any. */ if (p && *p) { /* TODO: Here we have to check params. */ /* Do we have a query part? */ if ((p2 = strchr (p, '?'))) *p2++ = 0; uri->path = p; if ((n = remove_escapes (p)) < 0) return GPG_ERR_BAD_URI; if (n != strlen (p)) return GPG_ERR_BAD_URI; /* Path includes a Nul. */ p = p2 ? p2 : NULL; /* Parse a query string if any. */ if (p && *p) { tail = &uri->query; for (;;) { uri_tuple_t elem; if ((p2 = strchr (p, '&'))) *p2++ = 0; if (!(elem = parse_tuple (p))) return GPG_ERR_BAD_URI; *tail = elem; tail = &elem->next; if (!p2) break; /* Ready. */ p = p2; } } } if (is_onion_address (uri->host)) uri->onion = 1; return 0; } /* * Remove all %xx escapes; this is done in-place. Returns: New length * of the string. */ static int remove_escapes (char *string) { int n = 0; unsigned char *p, *s; for (p = s = (unsigned char*)string; *s; s++) { if (*s == '%') { if (s[1] && s[2] && isxdigit (s[1]) && isxdigit (s[2])) { s++; *p = *s >= '0' && *s <= '9' ? *s - '0' : *s >= 'A' && *s <= 'F' ? *s - 'A' + 10 : *s - 'a' + 10; *p <<= 4; s++; *p |= *s >= '0' && *s <= '9' ? *s - '0' : *s >= 'A' && *s <= 'F' ? *s - 'A' + 10 : *s - 'a' + 10; 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; /* Make sure to keep a string terminator. */ return n; } /* If SPECIAL is NULL this function escapes in forms mode. */ static size_t escape_data (char *buffer, const void *data, size_t datalen, const char *special) { int forms = !special; const unsigned char *s; size_t n = 0; if (forms) special = "%;?&="; for (s = data; datalen; s++, datalen--) { if (forms && *s == ' ') { if (buffer) *buffer++ = '+'; n++; } else if (forms && *s == '\n') { if (buffer) memcpy (buffer, "%0D%0A", 6); n += 6; } else if (forms && *s == '\r' && datalen > 1 && s[1] == '\n') { if (buffer) memcpy (buffer, "%0D%0A", 6); n += 6; s++; datalen--; } else if (strchr (VALID_URI_CHARS, *s) && !strchr (special, *s)) { if (buffer) *(unsigned char*)buffer++ = *s; n++; } else { if (buffer) { snprintf (buffer, 4, "%%%02X", *s); buffer += 3; } n += 3; } } return n; } static int insert_escapes (char *buffer, const char *string, const char *special) { return escape_data (buffer, string, strlen (string), special); } /* Allocate a new string from STRING using standard HTTP escaping as well as escaping of characters given in SPECIALS. A common pattern for SPECIALS is "%;?&=". However it depends on the needs, for example "+" and "/: often needs to be escaped too. Returns NULL on failure and sets ERRNO. If SPECIAL is NULL a dedicated forms encoding mode is used. */ char * http_escape_string (const char *string, const char *specials) { int n; char *buf; n = insert_escapes (NULL, string, specials); buf = xtrymalloc (n+1); if (buf) { insert_escapes (buf, string, specials); buf[n] = 0; } return buf; } /* Allocate a new string from {DATA,DATALEN} using standard HTTP escaping as well as escaping of characters given in SPECIALS. A common pattern for SPECIALS is "%;?&=". However it depends on the needs, for example "+" and "/: often needs to be escaped too. Returns NULL on failure and sets ERRNO. If SPECIAL is NULL a dedicated forms encoding mode is used. */ char * http_escape_data (const void *data, size_t datalen, const char *specials) { int n; char *buf; n = escape_data (NULL, data, datalen, specials); buf = xtrymalloc (n+1); if (buf) { escape_data (buf, data, datalen, specials); buf[n] = 0; } return buf; } static uri_tuple_t parse_tuple (char *string) { char *p = string; char *p2; int n; uri_tuple_t tuple; if ((p2 = strchr (p, '='))) *p2++ = 0; if ((n = remove_escapes (p)) < 0) return NULL; /* Bad URI. */ if (n != strlen (p)) return NULL; /* Name with a Nul in it. */ tuple = xtrycalloc (1, sizeof *tuple); if (!tuple) return NULL; /* Out of core. */ tuple->name = p; if (!p2) /* We have only the name, so we assume an empty value string. */ { tuple->value = p + strlen (p); tuple->valuelen = 0; tuple->no_value = 1; /* Explicitly mark that we have seen no '='. */ } else /* Name and value. */ { if ((n = remove_escapes (p2)) < 0) { xfree (tuple); return NULL; /* Bad URI. */ } tuple->value = p2; tuple->valuelen = n; } return tuple; } /* Return true if STRING is likely "hostname:port" or only "hostname". */ static int is_hostname_port (const char *string) { int colons = 0; if (!string || !*string) return 0; for (; *string; string++) { if (*string == ':') { if (colons) return 0; if (!string[1]) return 0; colons++; } else if (!colons && strchr (" \t\f\n\v_@[]/", *string)) return 0; /* Invalid characters in hostname. */ else if (colons && !digitp (string)) return 0; /* Not a digit in the port. */ } return 1; } /* * Send a HTTP request to the server * Returns 0 if the request was successful */ static gpg_error_t send_request (ctrl_t ctrl, http_t hd, const char *httphost, const char *auth, const char *proxy, const char *srvtag, unsigned int timeout, strlist_t headers) { gpg_error_t err; const char *server; char *request, *p; unsigned short port; const char *http_proxy = NULL; char *proxy_authstr = NULL; char *authstr = NULL; assuan_fd_t sock; int have_http_proxy = 0; if (hd->uri->use_tls && !hd->session) { log_error ("TLS requested but no session object provided\n"); return gpg_err_make (default_errsource, GPG_ERR_INTERNAL); } if (hd->uri->use_tls && !hd->session->tls_session) { log_error ("TLS requested but no TLS context available\n"); return gpg_err_make (default_errsource, GPG_ERR_INTERNAL); } if (opt_debug) log_debug ("Using TLS library: %s %s\n", #if HTTP_USE_NTBTLS "NTBTLS", ntbtls_check_version (NULL) #elif HTTP_USE_GNUTLS "GNUTLS", gnutls_check_version (NULL) #endif /*HTTP_USE_GNUTLS*/ ); if ((hd->flags & HTTP_FLAG_FORCE_TOR)) { int mode; if (assuan_sock_get_flag (ASSUAN_INVALID_FD, "tor-mode", &mode) || !mode) { log_error ("Tor support is not available\n"); return gpg_err_make (default_errsource, GPG_ERR_NOT_IMPLEMENTED); } /* Non-blocking connects do not work with our Tor proxy because * we can't continue the Socks protocol after the EINPROGRESS. * Disable the timeout to use a blocking connect. */ timeout = 0; } server = *hd->uri->host ? hd->uri->host : "localhost"; port = hd->uri->port ? hd->uri->port : 80; /* Try to use SNI. */ if (hd->uri->use_tls) { #if HTTP_USE_GNUTLS int rc; #endif xfree (hd->session->servername); hd->session->servername = xtrystrdup (httphost? httphost : server); if (!hd->session->servername) { err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); return err; } #if HTTP_USE_NTBTLS err = ntbtls_set_hostname (hd->session->tls_session, hd->session->servername); if (err) { log_info ("ntbtls_set_hostname failed: %s\n", gpg_strerror (err)); return err; } #elif HTTP_USE_GNUTLS rc = gnutls_server_name_set (hd->session->tls_session, GNUTLS_NAME_DNS, hd->session->servername, strlen (hd->session->servername)); if (rc < 0) log_info ("gnutls_server_name_set failed: %s\n", gnutls_strerror (rc)); #endif /*HTTP_USE_GNUTLS*/ } if ( (proxy && *proxy) || ( (hd->flags & HTTP_FLAG_TRY_PROXY) && (http_proxy = getenv (HTTP_PROXY_ENV)) && *http_proxy )) { parsed_uri_t uri; if (proxy) http_proxy = proxy; err = parse_uri (&uri, http_proxy, 0, 0); if (gpg_err_code (err) == GPG_ERR_INV_URI && is_hostname_port (http_proxy)) { /* Retry assuming a "hostname:port" string. */ char *tmpname = strconcat ("http://", http_proxy, NULL); if (tmpname && !parse_uri (&uri, tmpname, 0, 0)) err = 0; xfree (tmpname); } if (err) ; else if (!strcmp (uri->scheme, "http")) have_http_proxy = 1; else if (!strcmp (uri->scheme, "socks4") || !strcmp (uri->scheme, "socks5h")) err = gpg_err_make (default_errsource, GPG_ERR_NOT_IMPLEMENTED); else err = gpg_err_make (default_errsource, GPG_ERR_INV_URI); if (err) { log_error ("invalid HTTP proxy (%s): %s\n", http_proxy, gpg_strerror (err)); return gpg_err_make (default_errsource, GPG_ERR_CONFIGURATION); } if (uri->auth) { remove_escapes (uri->auth); proxy_authstr = make_header_line ("Proxy-Authorization: Basic ", "\r\n", uri->auth, strlen(uri->auth)); if (!proxy_authstr) { err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); http_release_parsed_uri (uri); return err; } } err = connect_server (ctrl, *uri->host ? uri->host : "localhost", uri->port ? uri->port : 80, hd->flags, NULL, timeout, &sock); http_release_parsed_uri (uri); } else { err = connect_server (ctrl, server, port, hd->flags, srvtag, timeout, &sock); } if (err) { xfree (proxy_authstr); return err; } hd->sock = my_socket_new (sock); if (!hd->sock) { xfree (proxy_authstr); return gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); } if (have_http_proxy && hd->uri->use_tls) { int saved_flags; cookie_t cookie; /* Try to use the CONNECT method to proxy our TLS stream. */ request = es_bsprintf ("CONNECT %s:%hu HTTP/1.0\r\nHost: %s:%hu\r\n%s", httphost ? httphost : server, port, httphost ? httphost : server, port, proxy_authstr ? proxy_authstr : ""); xfree (proxy_authstr); proxy_authstr = NULL; if (! request) return gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); if (opt_debug || (hd->flags & HTTP_FLAG_LOG_RESP)) log_debug_string (request, "http.c:request:"); cookie = xtrycalloc (1, sizeof *cookie); if (! cookie) { err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); xfree (request); return err; } cookie->sock = my_socket_ref (hd->sock); hd->write_cookie = cookie; hd->fp_write = es_fopencookie (cookie, "w", cookie_functions); if (! hd->fp_write) { err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); my_socket_unref (cookie->sock, NULL, NULL); xfree (cookie); xfree (request); hd->write_cookie = NULL; return err; } else if (es_fputs (request, hd->fp_write) || es_fflush (hd->fp_write)) err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); xfree (request); request = NULL; /* Make sure http_wait_response doesn't close the stream. */ saved_flags = hd->flags; hd->flags &= ~HTTP_FLAG_SHUTDOWN; /* Get the response. */ err = http_wait_response (hd); /* Restore flags, destroy stream. */ hd->flags = saved_flags; es_fclose (hd->fp_read); hd->fp_read = NULL; hd->read_cookie = NULL; /* Reset state. */ hd->in_data = 0; if (err) return err; if (hd->status_code != 200) { request = es_bsprintf ("CONNECT %s:%hu", httphost ? httphost : server, port); log_error (_("error accessing '%s': http status %u\n"), request ? request : "out of core", http_get_status_code (hd)); xfree (request); return gpg_error (GPG_ERR_NO_DATA); } /* We are done with the proxy, the code below will establish a * TLS session and talk directly to the target server. */ http_proxy = NULL; } #if HTTP_USE_NTBTLS if (hd->uri->use_tls) { estream_t in, out; my_socket_ref (hd->sock); /* Until we support send/recv in estream under Windows we need * to use es_fopencookie. */ # ifdef HAVE_W32_SYSTEM in = es_fopencookie ((void*)(unsigned int)hd->sock->fd, "rb", simple_cookie_functions); # else in = es_fdopen_nc (hd->sock->fd, "rb"); # endif if (!in) { err = gpg_error_from_syserror (); xfree (proxy_authstr); return err; } # ifdef HAVE_W32_SYSTEM out = es_fopencookie ((void*)(unsigned int)hd->sock->fd, "wb", simple_cookie_functions); # else out = es_fdopen_nc (hd->sock->fd, "wb"); # endif if (!out) { err = gpg_error_from_syserror (); es_fclose (in); xfree (proxy_authstr); return err; } err = ntbtls_set_transport (hd->session->tls_session, in, out); if (err) { log_info ("TLS set_transport failed: %s <%s>\n", gpg_strerror (err), gpg_strsource (err)); xfree (proxy_authstr); return err; } if (hd->session->verify_cb) { err = ntbtls_set_verify_cb (hd->session->tls_session, my_ntbtls_verify_cb, hd); if (err) { log_error ("ntbtls_set_verify_cb failed: %s\n", gpg_strerror (err)); xfree (proxy_authstr); return err; } } while ((err = ntbtls_handshake (hd->session->tls_session))) { #if NTBTLS_VERSION_NUMBER >= 0x000200 unsigned int tlevel, ttype; const char *s = ntbtls_get_last_alert (hd->session->tls_session, &tlevel, &ttype); if (s) log_info ("TLS alert: %s (%u.%u)\n", s, tlevel, ttype); #endif switch (err) { default: log_info ("TLS handshake failed: %s <%s>\n", gpg_strerror (err), gpg_strsource (err)); xfree (proxy_authstr); return err; } } hd->session->verify.done = 0; /* Try the available verify callbacks until one returns success * or a real error. Note that NTBTLS does the verification * during the handshake via */ err = 0; /* Fixme check that the CB has been called. */ if (hd->session->verify_cb && gpg_err_source (err) == GPG_ERR_SOURCE_DIRMNGR && gpg_err_code (err) == GPG_ERR_NOT_IMPLEMENTED) err = hd->session->verify_cb (hd->session->verify_cb_value, hd, hd->session, (hd->flags | hd->session->flags), hd->session->tls_session); if (tls_callback && gpg_err_source (err) == GPG_ERR_SOURCE_DIRMNGR && gpg_err_code (err) == GPG_ERR_NOT_IMPLEMENTED) err = tls_callback (hd, hd->session, 0); if (gpg_err_source (err) == GPG_ERR_SOURCE_DIRMNGR && gpg_err_code (err) == GPG_ERR_NOT_IMPLEMENTED) err = http_verify_server_credentials (hd->session); if (err) { log_info ("TLS connection authentication failed: %s <%s>\n", gpg_strerror (err), gpg_strsource (err)); xfree (proxy_authstr); return err; } } #elif HTTP_USE_GNUTLS if (hd->uri->use_tls) { int rc; my_socket_ref (hd->sock); gnutls_transport_set_ptr (hd->session->tls_session, hd->sock); gnutls_transport_set_pull_function (hd->session->tls_session, my_gnutls_read); gnutls_transport_set_push_function (hd->session->tls_session, my_gnutls_write); handshake_again: do { rc = gnutls_handshake (hd->session->tls_session); } while (rc == GNUTLS_E_INTERRUPTED || rc == GNUTLS_E_AGAIN); if (rc < 0) { if (rc == GNUTLS_E_WARNING_ALERT_RECEIVED || rc == GNUTLS_E_FATAL_ALERT_RECEIVED) { gnutls_alert_description_t alertno; const char *alertstr; alertno = gnutls_alert_get (hd->session->tls_session); alertstr = gnutls_alert_get_name (alertno); log_info ("TLS handshake %s: %s (alert %d)\n", rc == GNUTLS_E_WARNING_ALERT_RECEIVED ? "warning" : "failed", alertstr, (int)alertno); if (alertno == GNUTLS_A_UNRECOGNIZED_NAME && server) log_info (" (sent server name '%s')\n", server); if (rc == GNUTLS_E_WARNING_ALERT_RECEIVED) goto handshake_again; } else log_info ("TLS handshake failed: %s\n", gnutls_strerror (rc)); xfree (proxy_authstr); return gpg_err_make (default_errsource, GPG_ERR_NETWORK); } hd->session->verify.done = 0; if (tls_callback) err = tls_callback (hd, hd->session, 0); else err = http_verify_server_credentials (hd->session); if (err) { log_info ("TLS connection authentication failed: %s\n", gpg_strerror (err)); xfree (proxy_authstr); return err; } } #endif /*HTTP_USE_GNUTLS*/ if (auth || hd->uri->auth) { char *myauth; if (auth) { myauth = xtrystrdup (auth); if (!myauth) { xfree (proxy_authstr); return gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); } remove_escapes (myauth); } else { remove_escapes (hd->uri->auth); myauth = hd->uri->auth; } authstr = make_header_line ("Authorization: Basic ", "\r\n", myauth, strlen (myauth)); if (auth) xfree (myauth); if (!authstr) { xfree (proxy_authstr); return gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); } } p = build_rel_path (hd->uri); if (!p) { xfree (authstr); xfree (proxy_authstr); return gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); } if (http_proxy && *http_proxy) { request = es_bsprintf ("%s %s://%s:%hu%s%s HTTP/1.0\r\n%s%s", hd->req_type == HTTP_REQ_GET ? "GET" : hd->req_type == HTTP_REQ_HEAD ? "HEAD" : hd->req_type == HTTP_REQ_POST ? "POST" : "OOPS", hd->uri->use_tls? "https" : "http", httphost? httphost : server, port, *p == '/' ? "" : "/", p, authstr ? authstr : "", proxy_authstr ? proxy_authstr : ""); } else { char portstr[35]; if (port == (hd->uri->use_tls? 443 : 80)) *portstr = 0; else snprintf (portstr, sizeof portstr, ":%u", port); request = es_bsprintf ("%s %s%s HTTP/1.0\r\nHost: %s%s\r\n%s", hd->req_type == HTTP_REQ_GET ? "GET" : hd->req_type == HTTP_REQ_HEAD ? "HEAD" : hd->req_type == HTTP_REQ_POST ? "POST" : "OOPS", *p == '/' ? "" : "/", p, httphost? httphost : server, portstr, authstr? authstr:""); } xfree (p); if (!request) { err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); xfree (authstr); xfree (proxy_authstr); return err; } if (opt_debug || (hd->flags & HTTP_FLAG_LOG_RESP)) log_debug_string (request, "http.c:request:"); /* First setup estream so that we can write even the first line using estream. This is also required for the sake of gnutls. */ { cookie_t cookie; cookie = xtrycalloc (1, sizeof *cookie); if (!cookie) { err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); goto leave; } cookie->sock = my_socket_ref (hd->sock); hd->write_cookie = cookie; cookie->use_tls = hd->uri->use_tls; cookie->session = http_session_ref (hd->session); hd->fp_write = es_fopencookie (cookie, "w", cookie_functions); if (!hd->fp_write) { err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); my_socket_unref (cookie->sock, NULL, NULL); xfree (cookie); hd->write_cookie = NULL; } else if (es_fputs (request, hd->fp_write) || es_fflush (hd->fp_write)) err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); else err = 0; if (!err) { for (;headers; headers=headers->next) { if (opt_debug || (hd->flags & HTTP_FLAG_LOG_RESP)) log_debug_string (headers->d, "http.c:request-header:"); if ((es_fputs (headers->d, hd->fp_write) || es_fflush (hd->fp_write)) || (es_fputs("\r\n",hd->fp_write) || es_fflush(hd->fp_write))) { err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); break; } } } } leave: es_free (request); xfree (authstr); xfree (proxy_authstr); return err; } /* * Build the relative path from the parsed URI. Minimal * implementation. May return NULL in case of memory failure; errno * is then set accordingly. */ static char * build_rel_path (parsed_uri_t uri) { uri_tuple_t r; char *rel_path, *p; int n; /* Count the needed space. */ n = insert_escapes (NULL, uri->path, "%;?&"); /* TODO: build params. */ for (r = uri->query; r; r = r->next) { n++; /* '?'/'&' */ n += insert_escapes (NULL, r->name, "%;?&="); if (!r->no_value) { n++; /* '=' */ n += insert_escapes (NULL, r->value, "%;?&="); } } n++; /* Now allocate and copy. */ p = rel_path = xtrymalloc (n); if (!p) return NULL; n = insert_escapes (p, uri->path, "%;?&"); p += n; /* TODO: add params. */ for (r = uri->query; r; r = r->next) { *p++ = r == uri->query ? '?' : '&'; n = insert_escapes (p, r->name, "%;?&="); p += n; if (!r->no_value) { *p++ = '='; /* TODO: Use valuelen. */ n = insert_escapes (p, r->value, "%;?&="); p += n; } } *p = 0; return rel_path; } /* Transform a header name into a standard capitalized format; e.g. "Content-Type". Conversion stops at the colon. As usual we don't use the localized versions of ctype.h. */ static void capitalize_header_name (char *name) { int first = 1; for (; *name && *name != ':'; name++) { if (*name == '-') first = 1; else if (first) { if (*name >= 'a' && *name <= 'z') *name = *name - 'a' + 'A'; first = 0; } else if (*name >= 'A' && *name <= 'Z') *name = *name - 'A' + 'a'; } } /* Store an HTTP header line in LINE away. Line continuation is supported as well as merging of headers with the same name. This function may modify LINE. */ static gpg_err_code_t store_header (http_t hd, char *line) { size_t n; char *p, *value; header_t h; n = strlen (line); if (n && line[n-1] == '\n') { line[--n] = 0; if (n && line[n-1] == '\r') line[--n] = 0; } if (!n) /* we are never called to hit this. */ return GPG_ERR_BUG; if (*line == ' ' || *line == '\t') { /* Continuation. This won't happen too often as it is not recommended. We use a straightforward implementation. */ if (!hd->headers) return GPG_ERR_PROTOCOL_VIOLATION; n += strlen (hd->headers->value); p = xtrymalloc (n+1); if (!p) return gpg_err_code_from_syserror (); strcpy (stpcpy (p, hd->headers->value), line); xfree (hd->headers->value); hd->headers->value = p; return 0; } capitalize_header_name (line); p = strchr (line, ':'); if (!p) return GPG_ERR_PROTOCOL_VIOLATION; *p++ = 0; while (*p == ' ' || *p == '\t') p++; value = p; for (h=hd->headers; h; h = h->next) if ( !strcmp (h->name, line) ) break; if (h) { /* We have already seen a line with that name. Thus we assume * it is a comma separated list and merge them. */ p = strconcat (h->value, ",", value, NULL); if (!p) return gpg_err_code_from_syserror (); xfree (h->value); h->value = p; return 0; } /* Append a new header. */ h = xtrymalloc (sizeof *h + strlen (line)); if (!h) return gpg_err_code_from_syserror (); strcpy (h->name, line); h->value = xtrymalloc (strlen (value)+1); if (!h->value) { xfree (h); return gpg_err_code_from_syserror (); } strcpy (h->value, value); h->next = hd->headers; hd->headers = h; return 0; } /* Return the header NAME from the last response. The returned value is valid as along as HD has not been closed and no other request has been send. If the header was not found, NULL is returned. NAME must be canonicalized, that is the first letter of each dash delimited part must be uppercase and all other letters lowercase. */ const char * http_get_header (http_t hd, const char *name) { header_t h; for (h=hd->headers; h; h = h->next) if ( !strcmp (h->name, name) ) return h->value; return NULL; } /* Return a newly allocated and NULL terminated array with pointers to header names. The array must be released with xfree() and its content is only values as long as no other request has been send. */ const char ** http_get_header_names (http_t hd) { const char **array; size_t n; header_t h; for (n=0, h = hd->headers; h; h = h->next) n++; array = xtrycalloc (n+1, sizeof *array); if (array) { for (n=0, h = hd->headers; h; h = h->next) array[n++] = h->name; } return array; } /* * Parse the response from a server. * Returns: Errorcode and sets some files in the handle */ static gpg_err_code_t parse_response (http_t hd) { char *line, *p, *p2; size_t maxlen, len; cookie_t cookie = hd->read_cookie; const char *s; /* Delete old header lines. */ while (hd->headers) { header_t tmp = hd->headers->next; xfree (hd->headers->value); xfree (hd->headers); hd->headers = tmp; } /* Wait for the status line. */ do { maxlen = MAX_LINELEN; len = es_read_line (hd->fp_read, &hd->buffer, &hd->buffer_size, &maxlen); line = hd->buffer; if (!line) return gpg_err_code_from_syserror (); /* Out of core. */ if (!maxlen) return GPG_ERR_TRUNCATED; /* Line has been truncated. */ if (!len) return GPG_ERR_EOF; if (opt_debug || (hd->flags & HTTP_FLAG_LOG_RESP)) log_debug_string (line, "http.c:response:\n"); } while (!*line); if ((p = strchr (line, '/'))) *p++ = 0; if (!p || strcmp (line, "HTTP")) return 0; /* Assume http 0.9. */ if ((p2 = strpbrk (p, " \t"))) { *p2++ = 0; p2 += strspn (p2, " \t"); } if (!p2) return 0; /* Also assume http 0.9. */ p = p2; /* TODO: Add HTTP version number check. */ if ((p2 = strpbrk (p, " \t"))) *p2++ = 0; if (!isdigit ((unsigned int)p[0]) || !isdigit ((unsigned int)p[1]) || !isdigit ((unsigned int)p[2]) || p[3]) { /* Malformed HTTP status code - assume http 0.9. */ hd->is_http_0_9 = 1; hd->status_code = 200; return 0; } hd->status_code = atoi (p); /* Skip all the header lines and wait for the empty line. */ do { maxlen = MAX_LINELEN; len = es_read_line (hd->fp_read, &hd->buffer, &hd->buffer_size, &maxlen); line = hd->buffer; if (!line) return gpg_err_code_from_syserror (); /* Out of core. */ /* Note, that we can silently ignore truncated lines. */ if (!len) return GPG_ERR_EOF; /* Trim line endings of empty lines. */ if ((*line == '\r' && line[1] == '\n') || *line == '\n') *line = 0; if (opt_debug || (hd->flags & HTTP_FLAG_LOG_RESP)) log_info ("http.c:RESP: '%.*s'\n", (int)strlen(line)-(*line&&line[1]?2:0),line); if (*line) { gpg_err_code_t ec = store_header (hd, line); if (ec) return ec; } } while (len && *line); cookie->content_length_valid = 0; if (!(hd->flags & HTTP_FLAG_IGNORE_CL)) { s = http_get_header (hd, "Content-Length"); if (s) { cookie->content_length_valid = 1; cookie->content_length = string_to_u64 (s); } } return 0; } #if 0 static int start_server () { struct sockaddr_in mya; struct sockaddr_in peer; int fd, client; fd_set rfds; int addrlen; int i; if ((fd = socket (AF_INET, SOCK_STREAM, 0)) == -1) { log_error ("socket() failed: %s\n", strerror (errno)); return -1; } i = 1; if (setsockopt (fd, SOL_SOCKET, SO_REUSEADDR, (byte *) & i, sizeof (i))) log_info ("setsockopt(SO_REUSEADDR) failed: %s\n", strerror (errno)); mya.sin_family = AF_INET; memset (&mya.sin_addr, 0, sizeof (mya.sin_addr)); mya.sin_port = htons (11371); if (bind (fd, (struct sockaddr *) &mya, sizeof (mya))) { log_error ("bind to port 11371 failed: %s\n", strerror (errno)); sock_close (fd); return -1; } if (listen (fd, 5)) { log_error ("listen failed: %s\n", strerror (errno)); sock_close (fd); return -1; } for (;;) { FD_ZERO (&rfds); FD_SET (fd, &rfds); if (my_select (fd + 1, &rfds, NULL, NULL, NULL) <= 0) continue; /* ignore any errors */ if (!FD_ISSET (fd, &rfds)) continue; addrlen = sizeof peer; client = my_accept (fd, (struct sockaddr *) &peer, &addrlen); if (client == -1) continue; /* oops */ log_info ("connect from %s\n", inet_ntoa (peer.sin_addr)); fflush (stdout); fflush (stderr); if (!fork ()) { int c; FILE *fp; fp = fdopen (client, "r"); while ((c = getc (fp)) != EOF) putchar (c); fclose (fp); exit (0); } sock_close (client); } return 0; } #endif /* Return true if SOCKS shall be used. This is the case if tor_mode * is enabled and the desired address is not the loopback address. * This function is basically a copy of the same internal function in * Libassuan. */ static int use_socks (struct sockaddr_storage *addr) { int mode; if (assuan_sock_get_flag (ASSUAN_INVALID_FD, "tor-mode", &mode) || !mode) return 0; /* Not in Tor mode. */ else if (addr->ss_family == AF_INET6) { struct sockaddr_in6 *addr_in6 = (struct sockaddr_in6 *)addr; const unsigned char *s; int i; s = (unsigned char *)&addr_in6->sin6_addr.s6_addr; if (s[15] != 1) return 1; /* Last octet is not 1 - not the loopback address. */ for (i=0; i < 15; i++, s++) if (*s) return 1; /* Non-zero octet found - not the loopback address. */ return 0; /* This is the loopback address. */ } else if (addr->ss_family == AF_INET) { struct sockaddr_in *addr_in = (struct sockaddr_in *)addr; if (*(unsigned char*)&addr_in->sin_addr.s_addr == 127) return 0; /* Loopback (127.0.0.0/8) */ return 1; } else return 0; } /* Wrapper around assuan_sock_new which takes the domain from an * address parameter. */ static assuan_fd_t my_sock_new_for_addr (struct sockaddr_storage *addr, int type, int proto) { int domain; if (use_socks (addr)) { /* Libassaun always uses 127.0.0.1 to connect to the socks * server (i.e. the Tor daemon). */ domain = AF_INET; } else domain = addr->ss_family; return assuan_sock_new (domain, type, proto); } /* Call WSAGetLastError and map it to a libgpg-error. */ #ifdef HAVE_W32_SYSTEM static gpg_error_t my_wsagetlasterror (void) { int wsaerr; gpg_err_code_t ec; wsaerr = WSAGetLastError (); switch (wsaerr) { case WSAENOTSOCK: ec = GPG_ERR_EINVAL; break; case WSAEWOULDBLOCK: ec = GPG_ERR_EAGAIN; break; case ERROR_BROKEN_PIPE: ec = GPG_ERR_EPIPE; break; case WSANOTINITIALISED: ec = GPG_ERR_ENOSYS; break; case WSAENOBUFS: ec = GPG_ERR_ENOBUFS; break; case WSAEMSGSIZE: ec = GPG_ERR_EMSGSIZE; break; case WSAECONNREFUSED: ec = GPG_ERR_ECONNREFUSED; break; case WSAEISCONN: ec = GPG_ERR_EISCONN; break; case WSAEALREADY: ec = GPG_ERR_EALREADY; break; case WSAETIMEDOUT: ec = GPG_ERR_ETIMEDOUT; break; default: ec = GPG_ERR_EIO; break; } return gpg_err_make (default_errsource, ec); } #endif /*HAVE_W32_SYSTEM*/ /* Connect SOCK and return GPG_ERR_ETIMEOUT if a connection could not * be established within TIMEOUT milliseconds. 0 indicates the * system's default timeout. The other args are the usual connect * args. On success 0 is returned, on timeout GPG_ERR_ETIMEDOUT, and * another error code for other errors. On timeout the caller needs * to close the socket as soon as possible to stop an ongoing * handshake. * * This implementation is for well-behaving systems; see Stevens, * Network Programming, 2nd edition, Vol 1, 15.4. */ static gpg_error_t connect_with_timeout (assuan_fd_t sock, struct sockaddr *addr, int addrlen, unsigned int timeout) { gpg_error_t err; int syserr; socklen_t slen; fd_set rset, wset; struct timeval tval; int n; #ifndef HAVE_W32_SYSTEM int oflags; # define RESTORE_BLOCKING() do { \ fcntl (sock, F_SETFL, oflags); \ } while (0) #else /*HAVE_W32_SYSTEM*/ # define RESTORE_BLOCKING() do { \ unsigned long along = 0; \ ioctlsocket (FD2INT (sock), FIONBIO, &along); \ } while (0) #endif /*HAVE_W32_SYSTEM*/ if (!timeout) { /* Shortcut. */ if (assuan_sock_connect (sock, addr, addrlen)) err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); else err = 0; return err; } /* Switch the socket into non-blocking mode. */ #ifdef HAVE_W32_SYSTEM { unsigned long along = 1; if (ioctlsocket (FD2INT (sock), FIONBIO, &along)) return my_wsagetlasterror (); } #else oflags = fcntl (sock, F_GETFL, 0); if (fcntl (sock, F_SETFL, oflags | O_NONBLOCK)) return gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); #endif /* Do the connect. */ if (!assuan_sock_connect (sock, addr, addrlen)) { /* Immediate connect. Restore flags. */ RESTORE_BLOCKING (); return 0; /* Success. */ } err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); if (gpg_err_code (err) != GPG_ERR_EINPROGRESS #ifdef HAVE_W32_SYSTEM && gpg_err_code (err) != GPG_ERR_EAGAIN #endif ) { RESTORE_BLOCKING (); return err; } FD_ZERO (&rset); FD_SET (FD2INT (sock), &rset); wset = rset; tval.tv_sec = timeout / 1000; tval.tv_usec = (timeout % 1000) * 1000; n = my_select (FD2INT(sock)+1, &rset, &wset, NULL, &tval); if (n < 0) { err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); RESTORE_BLOCKING (); return err; } if (!n) { /* Timeout: We do not restore the socket flags on timeout * because the caller is expected to close the socket. */ return gpg_err_make (default_errsource, GPG_ERR_ETIMEDOUT); } if (!FD_ISSET (sock, &rset) && !FD_ISSET (sock, &wset)) { /* select misbehaved. */ return gpg_err_make (default_errsource, GPG_ERR_SYSTEM_BUG); } slen = sizeof (syserr); if (getsockopt (FD2INT(sock), SOL_SOCKET, SO_ERROR, (void*)&syserr, &slen) < 0) { /* Assume that this is Solaris which returns the error in ERRNO. */ err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); } else if (syserr) err = gpg_err_make (default_errsource, gpg_err_code_from_errno (syserr)); else err = 0; /* Connected. */ RESTORE_BLOCKING (); return err; #undef RESTORE_BLOCKING } /* Actually connect to a server. On success 0 is returned and the * file descriptor for the socket is stored at R_SOCK; on error an * error code is returned and ASSUAN_INVALID_FD is stored at R_SOCK. * TIMEOUT is the connect timeout in milliseconds. Note that the * function tries to connect to all known addresses and the timeout is * for each one. */ static gpg_error_t connect_server (ctrl_t ctrl, const char *server, unsigned short port, unsigned int flags, const char *srvtag, unsigned int timeout, assuan_fd_t *r_sock) { gpg_error_t err; assuan_fd_t sock = ASSUAN_INVALID_FD; unsigned int srvcount = 0; int hostfound = 0; int anyhostaddr = 0; int srv, connected, v4_valid, v6_valid; gpg_error_t last_err = 0; struct srventry *serverlist = NULL; *r_sock = ASSUAN_INVALID_FD; #if defined(HAVE_W32_SYSTEM) && !defined(HTTP_NO_WSASTARTUP) init_sockets (); #endif /*Windows*/ check_inet_support (&v4_valid, &v6_valid); /* Onion addresses require special treatment. */ if (is_onion_address (server)) { #ifdef ASSUAN_SOCK_TOR if (opt_debug) log_debug ("http.c:connect_server:onion: name='%s' port=%hu\n", server, port); sock = assuan_sock_connect_byname (server, port, 0, NULL, ASSUAN_SOCK_TOR); if (sock == ASSUAN_INVALID_FD) { err = gpg_err_make (default_errsource, (errno == EHOSTUNREACH)? GPG_ERR_UNKNOWN_HOST : gpg_err_code_from_syserror ()); log_error ("can't connect to '%s': %s\n", server, gpg_strerror (err)); return err; } notify_netactivity (); *r_sock = sock; return 0; #else /*!ASSUAN_SOCK_TOR*/ err = gpg_err_make (default_errsource, GPG_ERR_ENETUNREACH); return ASSUAN_INVALID_FD; #endif /*!HASSUAN_SOCK_TOR*/ } /* Do the SRV thing */ if (srvtag) { err = get_dns_srv (ctrl, server, srvtag, NULL, &serverlist, &srvcount); if (err) log_info ("getting '%s' SRV for '%s' failed: %s\n", srvtag, server, gpg_strerror (err)); /* Note that on error SRVCOUNT is zero. */ err = 0; } if (!serverlist) { /* Either we're not using SRV, or the SRV lookup failed. Make up a fake SRV record. */ serverlist = xtrycalloc (1, sizeof *serverlist); if (!serverlist) return gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); serverlist->port = port; strncpy (serverlist->target, server, DIMof (struct srventry, target)); serverlist->target[DIMof (struct srventry, target)-1] = '\0'; srvcount = 1; } connected = 0; for (srv=0; srv < srvcount && !connected; srv++) { dns_addrinfo_t aibuf, ai; if (opt_debug) log_debug ("http.c:connect_server: trying name='%s' port=%hu\n", serverlist[srv].target, port); err = resolve_dns_name (ctrl, serverlist[srv].target, port, 0, SOCK_STREAM, &aibuf, NULL); if (err) { log_info ("resolving '%s' failed: %s\n", serverlist[srv].target, gpg_strerror (err)); last_err = err; continue; /* Not found - try next one. */ } hostfound = 1; for (ai = aibuf; ai && !connected; ai = ai->next) { if (ai->family == AF_INET && ((flags & HTTP_FLAG_IGNORE_IPv4) || !v4_valid)) continue; if (ai->family == AF_INET6 && ((flags & HTTP_FLAG_IGNORE_IPv6) || !v6_valid)) continue; if (sock != ASSUAN_INVALID_FD) assuan_sock_close (sock); sock = my_sock_new_for_addr (ai->addr, ai->socktype, ai->protocol); if (sock == ASSUAN_INVALID_FD) { if (errno == EAFNOSUPPORT) { if (ai->family == AF_INET) v4_valid = 0; if (ai->family == AF_INET6) v6_valid = 0; continue; } err = gpg_err_make (default_errsource, gpg_err_code_from_syserror ()); log_error ("error creating socket: %s\n", gpg_strerror (err)); free_dns_addrinfo (aibuf); xfree (serverlist); return err; } anyhostaddr = 1; err = connect_with_timeout (sock, (struct sockaddr *)ai->addr, ai->addrlen, timeout); if (err) { last_err = err; } else { connected = 1; notify_netactivity (); } } free_dns_addrinfo (aibuf); } xfree (serverlist); if (!connected) { if (!hostfound) log_error ("can't connect to '%s': %s\n", server, "host not found"); else if (!anyhostaddr) log_error ("can't connect to '%s': %s\n", server, "no IP address for host"); else { #ifdef HAVE_W32_SYSTEM log_error ("can't connect to '%s': ec=%d\n", server, (int)WSAGetLastError()); #else log_error ("can't connect to '%s': %s\n", server, gpg_strerror (last_err)); #endif } err = last_err? last_err : gpg_err_make (default_errsource, GPG_ERR_UNKNOWN_HOST); if (sock != ASSUAN_INVALID_FD) assuan_sock_close (sock); return err; } *r_sock = sock; return 0; } /* Helper to read from a socket. This handles npth things and * EINTR. */ static gpgrt_ssize_t read_server (assuan_fd_t sock, void *buffer, size_t size) { int nread; do { #ifdef HAVE_W32_SYSTEM /* Under Windows we need to use recv for a socket. */ # if defined(USE_NPTH) npth_unprotect (); # endif nread = recv (FD2INT (sock), buffer, size, 0); # if defined(USE_NPTH) npth_protect (); # endif #else /*!HAVE_W32_SYSTEM*/ # ifdef USE_NPTH nread = npth_read (sock, buffer, size); # else nread = read (sock, buffer, size); # endif #endif /*!HAVE_W32_SYSTEM*/ } while (nread == -1 && errno == EINTR); return nread; } static gpg_error_t write_server (assuan_fd_t sock, const char *data, size_t length) { int nleft; int nwritten; nleft = length; while (nleft > 0) { #if defined(HAVE_W32_SYSTEM) # if defined(USE_NPTH) npth_unprotect (); # endif nwritten = send (FD2INT (sock), data, nleft, 0); # if defined(USE_NPTH) npth_protect (); # endif if ( nwritten == SOCKET_ERROR ) { log_info ("network write failed: ec=%d\n", (int)WSAGetLastError ()); return gpg_error (GPG_ERR_NETWORK); } #else /*!HAVE_W32_SYSTEM*/ # ifdef USE_NPTH nwritten = npth_write (sock, data, nleft); # else nwritten = write (sock, data, nleft); # endif if (nwritten == -1) { if (errno == EINTR) continue; if (errno == EAGAIN) { struct timeval tv; tv.tv_sec = 0; tv.tv_usec = 50000; my_select (0, NULL, NULL, NULL, &tv); continue; } log_info ("network write failed: %s\n", strerror (errno)); return gpg_error_from_syserror (); } #endif /*!HAVE_W32_SYSTEM*/ nleft -= nwritten; data += nwritten; } return 0; } /* Read handler for estream. */ static gpgrt_ssize_t cookie_read (void *cookie, void *buffer, size_t size) { cookie_t c = cookie; int nread; if (c->content_length_valid) { if (!c->content_length) return 0; /* EOF */ if (c->content_length < size) size = c->content_length; } #if HTTP_USE_NTBTLS if (c->use_tls && c->session && c->session->tls_session) { estream_t in, out; ntbtls_get_stream (c->session->tls_session, &in, &out); nread = es_fread (buffer, 1, size, in); if (opt_debug) log_debug ("TLS network read: %d/%zu\n", nread, size); } else #elif HTTP_USE_GNUTLS if (c->use_tls && c->session && c->session->tls_session) { again: nread = gnutls_record_recv (c->session->tls_session, buffer, size); if (nread < 0) { if (nread == GNUTLS_E_INTERRUPTED) goto again; if (nread == GNUTLS_E_AGAIN) { struct timeval tv; tv.tv_sec = 0; tv.tv_usec = 50000; my_select (0, NULL, NULL, NULL, &tv); goto again; } if (nread == GNUTLS_E_REHANDSHAKE) goto again; /* A client is allowed to just ignore this request. */ if (nread == GNUTLS_E_PREMATURE_TERMINATION) { /* The server terminated the connection. Close the TLS session, and indicate EOF using a short read. */ close_tls_session (c->session); return 0; } log_info ("TLS network read failed: %s\n", gnutls_strerror (nread)); gpg_err_set_errno (EIO); return -1; } } else #endif /*HTTP_USE_GNUTLS*/ { nread = read_server (c->sock->fd, buffer, size); } if (c->content_length_valid && nread > 0) { if (nread < c->content_length) c->content_length -= nread; else c->content_length = 0; } return (gpgrt_ssize_t)nread; } /* Write handler for estream. */ static gpgrt_ssize_t cookie_write (void *cookie, const void *buffer_arg, size_t size) { const char *buffer = buffer_arg; cookie_t c = cookie; int nwritten = 0; #if HTTP_USE_NTBTLS if (c->use_tls && c->session && c->session->tls_session) { estream_t in, out; ntbtls_get_stream (c->session->tls_session, &in, &out); if (size == 0) es_fflush (out); else nwritten = es_fwrite (buffer, 1, size, out); if (opt_debug) log_debug ("TLS network write: %d/%zu\n", nwritten, size); } else #elif HTTP_USE_GNUTLS if (c->use_tls && c->session && c->session->tls_session) { int nleft = size; while (nleft > 0) { nwritten = gnutls_record_send (c->session->tls_session, buffer, nleft); if (nwritten <= 0) { if (nwritten == GNUTLS_E_INTERRUPTED) continue; if (nwritten == GNUTLS_E_AGAIN) { struct timeval tv; tv.tv_sec = 0; tv.tv_usec = 50000; my_select (0, NULL, NULL, NULL, &tv); continue; } log_info ("TLS network write failed: %s\n", gnutls_strerror (nwritten)); gpg_err_set_errno (EIO); return -1; } nleft -= nwritten; buffer += nwritten; } } else #endif /*HTTP_USE_GNUTLS*/ { if ( write_server (c->sock->fd, buffer, size) ) { gpg_err_set_errno (EIO); nwritten = -1; } else nwritten = size; } return (gpgrt_ssize_t)nwritten; } #if defined(HAVE_W32_SYSTEM) && defined(HTTP_USE_NTBTLS) static gpgrt_ssize_t simple_cookie_read (void *cookie, void *buffer, size_t size) { assuan_fd_t sock = (assuan_fd_t)cookie; return read_server (sock, buffer, size); } static gpgrt_ssize_t simple_cookie_write (void *cookie, const void *buffer_arg, size_t size) { assuan_fd_t sock = (assuan_fd_t)cookie; const char *buffer = buffer_arg; int nwritten; if (write_server (sock, buffer, size)) { gpg_err_set_errno (EIO); nwritten = -1; } else nwritten = size; return (gpgrt_ssize_t)nwritten; } #endif /*HAVE_W32_SYSTEM*/ #ifdef HTTP_USE_GNUTLS /* Wrapper for gnutls_bye used by my_socket_unref. */ static void send_gnutls_bye (void *opaque) { tls_session_t tls_session = opaque; int ret; again: do ret = gnutls_bye (tls_session, GNUTLS_SHUT_RDWR); while (ret == GNUTLS_E_INTERRUPTED); if (ret == GNUTLS_E_AGAIN) { struct timeval tv; tv.tv_sec = 0; tv.tv_usec = 50000; my_select (0, NULL, NULL, NULL, &tv); goto again; } } #endif /*HTTP_USE_GNUTLS*/ /* Close handler for estream. */ static int cookie_close (void *cookie) { cookie_t c = cookie; if (!c) return 0; #if HTTP_USE_NTBTLS if (c->use_tls && c->session && c->session->tls_session) { /* FIXME!! Possibly call ntbtls_close_notify for close of write stream. */ my_socket_unref (c->sock, NULL, NULL); } else #elif HTTP_USE_GNUTLS if (c->use_tls && c->session && c->session->tls_session) my_socket_unref (c->sock, send_gnutls_bye, c->session->tls_session); else #endif /*HTTP_USE_GNUTLS*/ if (c->sock) my_socket_unref (c->sock, NULL, NULL); if (c->session) http_session_unref (c->session); xfree (c); return 0; } /* Verify the credentials of the server. Returns 0 on success and store the result in the session object. */ gpg_error_t http_verify_server_credentials (http_session_t sess) { #if HTTP_USE_GNUTLS static const char errprefix[] = "TLS verification of peer failed"; int rc; unsigned int status; const char *hostname; const gnutls_datum_t *certlist; unsigned int certlistlen; gnutls_x509_crt_t cert; gpg_error_t err = 0; sess->verify.done = 1; sess->verify.status = 0; sess->verify.rc = GNUTLS_E_CERTIFICATE_ERROR; if (gnutls_certificate_type_get (sess->tls_session) != GNUTLS_CRT_X509) { log_error ("%s: %s\n", errprefix, "not an X.509 certificate"); sess->verify.rc = GNUTLS_E_UNSUPPORTED_CERTIFICATE_TYPE; return gpg_error (GPG_ERR_GENERAL); } rc = gnutls_certificate_verify_peers2 (sess->tls_session, &status); if (rc) { log_error ("%s: %s\n", errprefix, gnutls_strerror (rc)); if (!err) err = gpg_error (GPG_ERR_GENERAL); } else if (status) { log_error ("%s: status=0x%04x\n", errprefix, status); #if GNUTLS_VERSION_NUMBER >= 0x030104 { gnutls_datum_t statusdat; if (!gnutls_certificate_verification_status_print (status, GNUTLS_CRT_X509, &statusdat, 0)) { log_info ("%s: %s\n", errprefix, statusdat.data); gnutls_free (statusdat.data); } } #endif /*gnutls >= 3.1.4*/ sess->verify.status = status; if (!err) err = gpg_error (GPG_ERR_GENERAL); } hostname = sess->servername; if (!hostname || !strchr (hostname, '.')) { log_error ("%s: %s\n", errprefix, "hostname missing"); if (!err) err = gpg_error (GPG_ERR_GENERAL); } certlist = gnutls_certificate_get_peers (sess->tls_session, &certlistlen); if (!certlistlen) { log_error ("%s: %s\n", errprefix, "server did not send a certificate"); if (!err) err = gpg_error (GPG_ERR_GENERAL); /* Need to stop here. */ if (err) return err; } rc = gnutls_x509_crt_init (&cert); if (rc < 0) { if (!err) err = gpg_error (GPG_ERR_GENERAL); if (err) return err; } rc = gnutls_x509_crt_import (cert, &certlist[0], GNUTLS_X509_FMT_DER); if (rc < 0) { log_error ("%s: %s: %s\n", errprefix, "error importing certificate", gnutls_strerror (rc)); if (!err) err = gpg_error (GPG_ERR_GENERAL); } if (!gnutls_x509_crt_check_hostname (cert, hostname)) { log_error ("%s: %s\n", errprefix, "hostname does not match"); if (!err) err = gpg_error (GPG_ERR_GENERAL); } gnutls_x509_crt_deinit (cert); if (!err) sess->verify.rc = 0; if (sess->cert_log_cb) { const void *bufarr[10]; size_t buflenarr[10]; size_t n; for (n = 0; n < certlistlen && n < DIM (bufarr)-1; n++) { bufarr[n] = certlist[n].data; buflenarr[n] = certlist[n].size; } bufarr[n] = NULL; buflenarr[n] = 0; sess->cert_log_cb (sess, err, hostname, bufarr, buflenarr); } return err; #else /*!HTTP_USE_GNUTLS*/ (void)sess; return gpg_error (GPG_ERR_NOT_IMPLEMENTED); #endif } /* Return the first query variable with the specified key. If there is no such variable, return NULL. */ struct uri_tuple_s * uri_query_lookup (parsed_uri_t uri, const char *key) { struct uri_tuple_s *t; for (t = uri->query; t; t = t->next) if (strcmp (t->name, key) == 0) return t; return NULL; } const char * uri_query_value (parsed_uri_t url, const char *key) { struct uri_tuple_s *t; t = uri_query_lookup (url, key); return t? t->value : NULL; } /* Return true if both URI point to the same host for the purpose of * redirection check. A is the original host and B the host given in * the Location header. As a temporary workaround a fixed list of * exceptions is also consulted. */ static int same_host_p (parsed_uri_t a, parsed_uri_t b) { static struct { const char *from; /* NULL uses the last entry from the table. */ const char *to; } allow[] = { { "protonmail.com", "api.protonmail.com" }, { NULL, "api.protonmail.ch" }, { "protonmail.ch", "api.protonmail.com" }, { NULL, "api.protonmail.ch" }, { "pm.me", "api.protonmail.ch" } }; static const char *subdomains[] = { "openpgpkey." }; int i; const char *from; if (!a->host || !b->host) return 0; if (!ascii_strcasecmp (a->host, b->host)) return 1; from = NULL; for (i=0; i < DIM (allow); i++) { if (allow[i].from) from = allow[i].from; if (!from) continue; if (!ascii_strcasecmp (from, a->host) && !ascii_strcasecmp (allow[i].to, b->host)) return 1; } /* Also consider hosts the same if they differ only in a subdomain; * in both direction. This allows to have redirection between the * WKD advanced and direct lookup methods. */ for (i=0; i < DIM (subdomains); i++) { const char *subdom = subdomains[i]; size_t subdomlen = strlen (subdom); if (!ascii_strncasecmp (a->host, subdom, subdomlen) && !ascii_strcasecmp (a->host + subdomlen, b->host)) return 1; if (!ascii_strncasecmp (b->host, subdom, subdomlen) && !ascii_strcasecmp (b->host + subdomlen, a->host)) return 1; } return 0; } /* Prepare a new URL for a HTTP redirect. INFO has flags controlling * the operation, STATUS_CODE is used for diagnostics, LOCATION is the * value of the "Location" header, and R_URL reveives the new URL on * success or NULL or error. Note that INFO->ORIG_URL is * required. */ gpg_error_t http_prepare_redirect (http_redir_info_t *info, unsigned int status_code, const char *location, char **r_url) { gpg_error_t err; parsed_uri_t locuri; parsed_uri_t origuri; char *newurl; char *p; *r_url = NULL; if (!info || !info->orig_url) return gpg_error (GPG_ERR_INV_ARG); if (!info->silent) log_info (_("URL '%s' redirected to '%s' (%u)\n"), info->orig_url, location? location:"[none]", status_code); if (!info->redirects_left) { if (!info->silent) log_error (_("too many redirections\n")); return gpg_error (GPG_ERR_NO_DATA); } info->redirects_left--; if (!location || !*location) return gpg_error (GPG_ERR_NO_DATA); err = http_parse_uri (&locuri, location, 0); if (err) return err; /* Make sure that an onion address only redirects to another * onion address, or that a https address only redirects to a * https address. */ if (info->orig_onion && !locuri->onion) { dirmngr_status_printf (info->ctrl, "WARNING", "http_redirect %u" " redirect from onion to non-onion address" " rejected", err); http_release_parsed_uri (locuri); return gpg_error (GPG_ERR_FORBIDDEN); } if (!info->allow_downgrade && info->orig_https && !locuri->use_tls) { err = gpg_error (GPG_ERR_FORBIDDEN); dirmngr_status_printf (info->ctrl, "WARNING", "http_redirect %u" " redirect '%s' to '%s' rejected", err, info->orig_url, location); http_release_parsed_uri (locuri); return err; } if (info->trust_location) { /* We trust the Location - return it verbatim. */ http_release_parsed_uri (locuri); newurl = xtrystrdup (location); if (!newurl) { err = gpg_error_from_syserror (); return err; } } else if ((err = http_parse_uri (&origuri, info->orig_url, 0))) { http_release_parsed_uri (locuri); return err; } else if (same_host_p (origuri, locuri)) { /* The host is the same or on an exception list and thus we can * take the location verbatim. */ http_release_parsed_uri (origuri); http_release_parsed_uri (locuri); newurl = xtrystrdup (location); if (!newurl) { err = gpg_error_from_syserror (); return err; } } else { /* We take only the host and port from the URL given in the * Location. This limits the effects of redirection attacks by * rogue hosts returning an URL to servers in the client's own * network. We don't even include the userinfo because they * should be considered similar to the path and query parts. */ if (!(locuri->off_path - locuri->off_host)) { http_release_parsed_uri (origuri); http_release_parsed_uri (locuri); return gpg_error (GPG_ERR_BAD_URI); } if (!(origuri->off_path - origuri->off_host)) { http_release_parsed_uri (origuri); http_release_parsed_uri (locuri); return gpg_error (GPG_ERR_BAD_URI); } newurl = xtrymalloc (strlen (origuri->original) + (locuri->off_path - locuri->off_host) + 1); if (!newurl) { err = gpg_error_from_syserror (); http_release_parsed_uri (origuri); http_release_parsed_uri (locuri); return err; } /* Build new URL from * uriguri: scheme userinfo ---- ---- path rest * locuri: ------ -------- host port ---- ---- */ p = newurl; memcpy (p, origuri->original, origuri->off_host); p += origuri->off_host; memcpy (p, locuri->original + locuri->off_host, (locuri->off_path - locuri->off_host)); p += locuri->off_path - locuri->off_host; strcpy (p, origuri->original + origuri->off_path); http_release_parsed_uri (origuri); http_release_parsed_uri (locuri); if (!info->silent) log_info (_("redirection changed to '%s'\n"), newurl); dirmngr_status_printf (info->ctrl, "WARNING", "http_redirect_cleanup %u" " changed from '%s' to '%s'", 0, info->orig_url, newurl); } *r_url = newurl; return 0; } /* Return string describing the http STATUS. Returns an empty string * for an unknown status. */ const char * http_status2string (unsigned int status) { switch (status) { case 500: return "Internal Server Error"; case 501: return "Not Implemented"; case 502: return "Bad Gateway"; case 503: return "Service Unavailable"; case 504: return "Gateway Timeout"; case 505: return "HTTP version Not Supported"; case 506: return "Variant Also Negation"; case 507: return "Insufficient Storage"; case 508: return "Loop Detected"; case 510: return "Not Extended"; case 511: return "Network Authentication Required"; } return ""; }