/* Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifndef mod_md_md_reg_h #define mod_md_md_reg_h struct apr_hash_t; struct apr_array_header_t; struct md_store_t; struct md_pkey_t; struct md_cert_t; /** * A registry for managed domains with a md_store_t as persistence. * */ typedef struct md_reg_t md_reg_t; /** * Initialize the registry, using the pool and loading any existing information * from the store. */ apr_status_t md_reg_init(md_reg_t **preg, apr_pool_t *pm, struct md_store_t *store, const char *proxy_url); struct md_store_t *md_reg_store_get(md_reg_t *reg); apr_status_t md_reg_set_props(md_reg_t *reg, apr_pool_t *p, int can_http, int can_https); /** * Add a new md to the registry. This will check the name for uniqueness and * that domain names do not overlap with already existing mds. */ apr_status_t md_reg_add(md_reg_t *reg, md_t *md, apr_pool_t *p); /** * Find the md, if any, that contains the given domain name. * NULL if none found. */ md_t *md_reg_find(md_reg_t *reg, const char *domain, apr_pool_t *p); /** * Find one md, which domain names overlap with the given md and that has a different * name. There may be more than one existing md that overlaps. It is not defined * which one will be returned. */ md_t *md_reg_find_overlap(md_reg_t *reg, const md_t *md, const char **pdomain, apr_pool_t *p); /** * Get the md with the given unique name. NULL if it does not exist. * Will update the md->state. */ md_t *md_reg_get(md_reg_t *reg, const char *name, apr_pool_t *p); /** * Assess the capability and need to driving this managed domain. */ apr_status_t md_reg_assess(md_reg_t *reg, md_t *md, int *perrored, int *prenew, apr_pool_t *p); /** * Callback invoked for every md in the registry. If 0 is returned, iteration stops. */ typedef int md_reg_do_cb(void *baton, md_reg_t *reg, md_t *md); /** * Invoke callback for all mds in this registry. Order is not guaranteed. * If the callback returns 0, iteration stops. Returns 0 if iteration was * aborted. */ int md_reg_do(md_reg_do_cb *cb, void *baton, md_reg_t *reg, apr_pool_t *p); /** * Bitmask for fields that are updated. */ #define MD_UPD_DOMAINS 0x0001 #define MD_UPD_CA_URL 0x0002 #define MD_UPD_CA_PROTO 0x0004 #define MD_UPD_CA_ACCOUNT 0x0008 #define MD_UPD_CONTACTS 0x0010 #define MD_UPD_AGREEMENT 0x0020 #define MD_UPD_CERT_URL 0x0040 #define MD_UPD_DRIVE_MODE 0x0080 #define MD_UPD_RENEW_WINDOW 0x0100 #define MD_UPD_CA_CHALLENGES 0x0200 #define MD_UPD_PKEY_SPEC 0x0400 #define MD_UPD_REQUIRE_HTTPS 0x0800 #define MD_UPD_TRANSITIVE 0x1000 #define MD_UPD_MUST_STAPLE 0x2000 #define MD_UPD_ALL 0x7FFFFFFF /** * Update the given fields for the managed domain. Take the new * values from the given md, all other values remain unchanged. */ apr_status_t md_reg_update(md_reg_t *reg, apr_pool_t *p, const char *name, const md_t *md, int fields); /** * Get the credentials available for the managed domain md. Returns APR_ENOENT * when none is available. The returned values are immutable. */ apr_status_t md_reg_creds_get(const md_creds_t **pcreds, md_reg_t *reg, md_store_group_t group, const md_t *md, apr_pool_t *p); apr_status_t md_reg_get_cred_files(md_reg_t *reg, const md_t *md, apr_pool_t *p, const char **pkeyfile, const char **pcertfile); /** * Synchronise the give master mds with the store. */ apr_status_t md_reg_sync(md_reg_t *reg, apr_pool_t *p, apr_pool_t *ptemp, apr_array_header_t *master_mds); apr_status_t md_reg_remove(md_reg_t *reg, apr_pool_t *p, const char *name, int archive); /**************************************************************************************************/ /* protocol drivers */ typedef struct md_proto_t md_proto_t; typedef struct md_proto_driver_t md_proto_driver_t; struct md_proto_driver_t { const md_proto_t *proto; apr_pool_t *p; const char *challenge; int can_http; int can_https; struct md_store_t *store; md_reg_t *reg; const md_t *md; void *baton; int reset; apr_time_t stage_valid_from; const char *proxy_url; }; typedef apr_status_t md_proto_init_cb(md_proto_driver_t *driver); typedef apr_status_t md_proto_stage_cb(md_proto_driver_t *driver); typedef apr_status_t md_proto_preload_cb(md_proto_driver_t *driver, md_store_group_t group); struct md_proto_t { const char *protocol; md_proto_init_cb *init; md_proto_stage_cb *stage; md_proto_preload_cb *preload; }; /** * Stage a new credentials set for the given managed domain in a separate location * without interfering with any existing credentials. */ apr_status_t md_reg_stage(md_reg_t *reg, const md_t *md, const char *challenge, int reset, apr_time_t *pvalid_from, apr_pool_t *p); /** * Load a staged set of new credentials for the managed domain. This will archive * any existing credential data and make the staged set the new live one. * If staging is incomplete or missing, the load will fail and all credentials remain * as they are. */ apr_status_t md_reg_load(md_reg_t *reg, const char *name, apr_pool_t *p); #endif /* mod_md_md_reg_h */