const gchar *privacy_get_error (void) { if (privacy_last_error) { strncpy2(tmp_privacy_error, privacy_last_error, BUFSIZ-1); privacy_reset_error(); return tmp_privacy_error; } else { return _("Unknown error"); } }
static gboolean pgpinline_sign(MimeInfo *mimeinfo, PrefsAccount *account, const gchar *from_addr) { MimeInfo *msgcontent; gchar *textstr, *tmp; FILE *fp; gchar *sigcontent; gpgme_ctx_t ctx; gpgme_data_t gpgtext, gpgsig; size_t len; gpgme_error_t err; struct passphrase_cb_info_s info; gpgme_sign_result_t result = NULL; memset (&info, 0, sizeof info); /* get content node from message */ msgcontent = (MimeInfo *) mimeinfo->node->children->data; if (msgcontent->type == MIMETYPE_MULTIPART) { if (!msgcontent->node->children) { debug_print("msgcontent->node->children NULL, bailing\n"); privacy_set_error(_("Malformed message")); return FALSE; } msgcontent = (MimeInfo *) msgcontent->node->children->data; } /* get rid of quoted-printable or anything */ procmime_decode_content(msgcontent); fp = my_tmpfile(); if (fp == NULL) { perror("my_tmpfile"); privacy_set_error(_("Couldn't create temporary file.")); return FALSE; } procmime_write_mimeinfo(msgcontent, fp); rewind(fp); /* read temporary file into memory */ textstr = fp_read_noconv(fp); fclose(fp); gpgme_data_new_from_mem(&gpgtext, textstr, (size_t)strlen(textstr), 0); gpgme_data_new(&gpgsig); if ((err = gpgme_new(&ctx)) != GPG_ERR_NO_ERROR) { debug_print(("Couldn't initialize GPG context, %s"), gpgme_strerror(err)); privacy_set_error(_("Couldn't initialize GPG context, %s"), gpgme_strerror(err)); return FALSE; } gpgme_set_textmode(ctx, 1); gpgme_set_armor(ctx, 1); if (!sgpgme_setup_signers(ctx, account, from_addr)) { gpgme_release(ctx); return FALSE; } prefs_gpg_enable_agent(prefs_gpg_get_config()->use_gpg_agent); if (!getenv("GPG_AGENT_INFO") || !prefs_gpg_get_config()->use_gpg_agent) { info.c = ctx; gpgme_set_passphrase_cb (ctx, gpgmegtk_passphrase_cb, &info); } err = gpgme_op_sign(ctx, gpgtext, gpgsig, GPGME_SIG_MODE_CLEAR); if (err != GPG_ERR_NO_ERROR) { if (err == GPG_ERR_CANCELED) { /* ignore cancelled signing */ privacy_reset_error(); debug_print("gpgme_op_sign cancelled\n"); } else { privacy_set_error(_("Data signing failed, %s"), gpgme_strerror(err)); debug_print("gpgme_op_sign error : %x\n", err); } gpgme_release(ctx); return FALSE; } result = gpgme_op_sign_result(ctx); if (result && result->signatures) { gpgme_new_signature_t sig = result->signatures; while (sig) { debug_print("valid signature: %s\n", sig->fpr); sig = sig->next; } } else if (result && result->invalid_signers) { gpgme_invalid_key_t invalid = result->invalid_signers; while (invalid) { g_warning("invalid signer: %s (%s)", invalid->fpr, gpgme_strerror(invalid->reason)); privacy_set_error(_("Data signing failed due to invalid signer: %s"), gpgme_strerror(invalid->reason)); invalid = invalid->next; } gpgme_release(ctx); return FALSE; } else { /* can't get result (maybe no signing key?) */ debug_print("gpgme_op_sign_result error\n"); privacy_set_error(_("Data signing failed, no results.")); gpgme_release(ctx); return FALSE; } sigcontent = sgpgme_data_release_and_get_mem(gpgsig, &len); if (sigcontent == NULL || len <= 0) { g_warning("sgpgme_data_release_and_get_mem failed"); privacy_set_error(_("Data signing failed, no contents.")); gpgme_data_release(gpgtext); g_free(textstr); g_free(sigcontent); gpgme_release(ctx); return FALSE; } tmp = g_malloc(len+1); g_memmove(tmp, sigcontent, len+1); tmp[len] = '\0'; gpgme_data_release(gpgtext); g_free(textstr); g_free(sigcontent); if (msgcontent->content == MIMECONTENT_FILE && msgcontent->data.filename != NULL) { if (msgcontent->tmp == TRUE) claws_unlink(msgcontent->data.filename); g_free(msgcontent->data.filename); } msgcontent->data.mem = g_strdup(tmp); msgcontent->content = MIMECONTENT_MEM; g_free(tmp); /* avoid all sorts of clear-signing problems with non ascii * chars */ procmime_encode_content(msgcontent, ENC_BASE64); gpgme_release(ctx); return TRUE; }
gboolean pgpmime_sign(MimeInfo *mimeinfo, PrefsAccount *account, const gchar *from_addr) { MimeInfo *msgcontent, *sigmultipart, *newinfo; gchar *textstr, *micalg = NULL; FILE *fp; gchar *boundary = NULL; gchar *sigcontent; gpgme_ctx_t ctx; gpgme_data_t gpgtext, gpgsig; gpgme_error_t err; size_t len; struct passphrase_cb_info_s info; gpgme_sign_result_t result = NULL; gchar *test_msg; fp = my_tmpfile(); if (fp == NULL) { perror("my_tmpfile"); privacy_set_error(_("Couldn't create temporary file: %s"), g_strerror(errno)); return FALSE; } procmime_write_mimeinfo(mimeinfo, fp); rewind(fp); /* read temporary file into memory */ test_msg = file_read_stream_to_str(fp); claws_fclose(fp); memset (&info, 0, sizeof info); /* remove content node from message */ msgcontent = (MimeInfo *) mimeinfo->node->children->data; g_node_unlink(msgcontent->node); /* create temporary multipart for content */ sigmultipart = procmime_mimeinfo_new(); sigmultipart->type = MIMETYPE_MULTIPART; sigmultipart->subtype = g_strdup("signed"); do { g_free(boundary); boundary = generate_mime_boundary("Sig"); } while (strstr(test_msg, boundary) != NULL); g_free(test_msg); g_hash_table_insert(sigmultipart->typeparameters, g_strdup("boundary"), g_strdup(boundary)); g_hash_table_insert(sigmultipart->typeparameters, g_strdup("protocol"), g_strdup("application/pgp-signature")); g_node_append(sigmultipart->node, msgcontent->node); g_node_append(mimeinfo->node, sigmultipart->node); /* write message content to temporary file */ fp = my_tmpfile(); if (fp == NULL) { perror("my_tmpfile"); privacy_set_error(_("Couldn't create temporary file: %s"), g_strerror(errno)); return FALSE; } procmime_write_mimeinfo(sigmultipart, fp); rewind(fp); /* read temporary file into memory */ textstr = get_canonical_content(fp, boundary); g_free(boundary); claws_fclose(fp); gpgme_data_new_from_mem(&gpgtext, textstr, (size_t)strlen(textstr), 0); gpgme_data_new(&gpgsig); if ((err = gpgme_new(&ctx)) != GPG_ERR_NO_ERROR) { debug_print(("Couldn't initialize GPG context, %s\n"), gpgme_strerror(err)); privacy_set_error(_("Couldn't initialize GPG context, %s"), gpgme_strerror(err)); return FALSE; } gpgme_set_textmode(ctx, 1); gpgme_set_armor(ctx, 1); gpgme_signers_clear (ctx); if (!sgpgme_setup_signers(ctx, account, from_addr)) { gpgme_release(ctx); return FALSE; } prefs_gpg_enable_agent(prefs_gpg_get_config()->use_gpg_agent); if (g_getenv("GPG_AGENT_INFO") && prefs_gpg_get_config()->use_gpg_agent) { debug_print("GPG_AGENT_INFO environment defined, running without passphrase callback\n"); } else { info.c = ctx; gpgme_set_passphrase_cb (ctx, gpgmegtk_passphrase_cb, &info); } err = gpgme_op_sign(ctx, gpgtext, gpgsig, GPGME_SIG_MODE_DETACH); if (err != GPG_ERR_NO_ERROR) { if (err == GPG_ERR_CANCELED) { /* ignore cancelled signing */ privacy_reset_error(); debug_print("gpgme_op_sign cancelled\n"); } else { privacy_set_error(_("Data signing failed, %s"), gpgme_strerror(err)); debug_print("gpgme_op_sign error : %x\n", err); } gpgme_release(ctx); return FALSE; } result = gpgme_op_sign_result(ctx); if (result && result->signatures) { gpgme_new_signature_t sig = result->signatures; if (gpgme_get_protocol(ctx) == GPGME_PROTOCOL_OpenPGP) { gchar *down_algo = g_ascii_strdown(gpgme_hash_algo_name( result->signatures->hash_algo), -1); micalg = g_strdup_printf("pgp-%s", down_algo); g_free(down_algo); } else { micalg = g_strdup(gpgme_hash_algo_name( result->signatures->hash_algo)); } while (sig) { debug_print("valid signature: %s\n", sig->fpr); sig = sig->next; } } else if (result && result->invalid_signers) { gpgme_invalid_key_t invalid = result->invalid_signers; while (invalid) { g_warning("invalid signer: %s (%s)", invalid->fpr, gpgme_strerror(invalid->reason)); privacy_set_error(_("Data signing failed due to invalid signer: %s"), gpgme_strerror(invalid->reason)); invalid = invalid->next; } gpgme_release(ctx); return FALSE; } else { /* can't get result (maybe no signing key?) */ debug_print("gpgme_op_sign_result error\n"); privacy_set_error(_("Data signing failed, no results.")); gpgme_release(ctx); return FALSE; } sigcontent = sgpgme_data_release_and_get_mem(gpgsig, &len); gpgme_data_release(gpgtext); g_free(textstr); if (sigcontent == NULL || len <= 0) { g_warning("sgpgme_data_release_and_get_mem failed"); privacy_set_error(_("Data signing failed, no contents.")); g_free(micalg); g_free(sigcontent); return FALSE; } /* add signature */ g_hash_table_insert(sigmultipart->typeparameters, g_strdup("micalg"), micalg); newinfo = procmime_mimeinfo_new(); newinfo->type = MIMETYPE_APPLICATION; newinfo->subtype = g_strdup("pgp-signature"); newinfo->description = g_strdup(_("OpenPGP digital signature")); newinfo->content = MIMECONTENT_MEM; newinfo->data.mem = g_malloc(len + 1); g_memmove(newinfo->data.mem, sigcontent, len); newinfo->data.mem[len] = '\0'; g_node_append(sigmultipart->node, newinfo->node); g_free(sigcontent); gpgme_release(ctx); return TRUE; }