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|
/* 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.
*/
#include <assert.h>
#include <stddef.h>
#include <stdio.h>
#include <stdlib.h>
#include <apr_lib.h>
#include <apr_hash.h>
#include <apr_strings.h>
#include <apr_uri.h>
#include "md.h"
#include "md_crypt.h"
#include "md_event.h"
#include "md_log.h"
#include "md_json.h"
#include "md_result.h"
#include "md_reg.h"
#include "md_store.h"
#include "md_status.h"
#include "md_util.h"
#include "md_acme.h"
#include "md_acme_acct.h"
struct md_reg_t {
apr_pool_t *p;
struct md_store_t *store;
struct apr_hash_t *protos;
struct apr_hash_t *certs;
int can_http;
int can_https;
const char *proxy_url;
const char *ca_file;
int domains_frozen;
md_timeslice_t *renew_window;
md_timeslice_t *warn_window;
md_job_notify_cb *notify;
void *notify_ctx;
};
/**************************************************************************************************/
/* life cycle */
static apr_status_t load_props(md_reg_t *reg, apr_pool_t *p)
{
md_json_t *json;
apr_status_t rv;
rv = md_store_load(reg->store, MD_SG_NONE, NULL, MD_FN_HTTPD_JSON,
MD_SV_JSON, (void**)&json, p);
if (APR_SUCCESS == rv) {
if (md_json_has_key(json, MD_KEY_PROTO, MD_KEY_HTTP, NULL)) {
reg->can_http = md_json_getb(json, MD_KEY_PROTO, MD_KEY_HTTP, NULL);
}
if (md_json_has_key(json, MD_KEY_PROTO, MD_KEY_HTTPS, NULL)) {
reg->can_https = md_json_getb(json, MD_KEY_PROTO, MD_KEY_HTTPS, NULL);
}
}
else if (APR_STATUS_IS_ENOENT(rv)) {
rv = APR_SUCCESS;
}
return rv;
}
apr_status_t md_reg_create(md_reg_t **preg, apr_pool_t *p, struct md_store_t *store,
const char *proxy_url, const char *ca_file)
{
md_reg_t *reg;
apr_status_t rv;
reg = apr_pcalloc(p, sizeof(*reg));
reg->p = p;
reg->store = store;
reg->protos = apr_hash_make(p);
reg->certs = apr_hash_make(p);
reg->can_http = 1;
reg->can_https = 1;
reg->proxy_url = proxy_url? apr_pstrdup(p, proxy_url) : NULL;
reg->ca_file = (ca_file && apr_strnatcasecmp("none", ca_file))?
apr_pstrdup(p, ca_file) : NULL;
md_timeslice_create(®->renew_window, p, MD_TIME_LIFE_NORM, MD_TIME_RENEW_WINDOW_DEF);
md_timeslice_create(®->warn_window, p, MD_TIME_LIFE_NORM, MD_TIME_WARN_WINDOW_DEF);
if (APR_SUCCESS == (rv = md_acme_protos_add(reg->protos, p))) {
rv = load_props(reg, p);
}
*preg = (rv == APR_SUCCESS)? reg : NULL;
return rv;
}
struct md_store_t *md_reg_store_get(md_reg_t *reg)
{
return reg->store;
}
/**************************************************************************************************/
/* checks */
static apr_status_t check_values(md_reg_t *reg, apr_pool_t *p, const md_t *md, int fields)
{
apr_status_t rv = APR_SUCCESS;
const char *err = NULL;
if (MD_UPD_DOMAINS & fields) {
const md_t *other;
const char *domain;
int i;
if (!md->domains || md->domains->nelts <= 0) {
md_log_perror(MD_LOG_MARK, MD_LOG_DEBUG, APR_EINVAL, p,
"empty domain list: %s", md->name);
return APR_EINVAL;
}
for (i = 0; i < md->domains->nelts; ++i) {
domain = APR_ARRAY_IDX(md->domains, i, const char *);
if (!md_dns_is_name(p, domain, 1) && !md_dns_is_wildcard(p, domain)) {
md_log_perror(MD_LOG_MARK, MD_LOG_ERR, APR_EINVAL, p,
"md %s with invalid domain name: %s", md->name, domain);
return APR_EINVAL;
}
}
if (NULL != (other = md_reg_find_overlap(reg, md, &domain, p))) {
md_log_perror(MD_LOG_MARK, MD_LOG_ERR, APR_EINVAL, p,
"md %s shares domain '%s' with md %s",
md->name, domain, other->name);
return APR_EINVAL;
}
}
if (MD_UPD_CONTACTS & fields) {
const char *contact;
int i;
for (i = 0; i < md->contacts->nelts && !err; ++i) {
contact = APR_ARRAY_IDX(md->contacts, i, const char *);
rv = md_util_abs_uri_check(p, contact, &err);
if (err) {
md_log_perror(MD_LOG_MARK, MD_LOG_ERR, APR_EINVAL, p,
"contact for %s invalid (%s): %s", md->name, err, contact);
return APR_EINVAL;
}
}
}
if ((MD_UPD_CA_URL & fields) && md->ca_url) { /* setting to empty is ok */
rv = md_util_abs_uri_check(p, md->ca_url, &err);
if (err) {
md_log_perror(MD_LOG_MARK, MD_LOG_ERR, APR_EINVAL, p,
"CA url for %s invalid (%s): %s", md->name, err, md->ca_url);
return APR_EINVAL;
}
}
if ((MD_UPD_CA_PROTO & fields) && md->ca_proto) { /* setting to empty is ok */
/* Do we want to restrict this to "known" protocols? */
}
if ((MD_UPD_CA_ACCOUNT & fields) && md->ca_account) { /* setting to empty is ok */
/* hmm, in case we know the protocol, some checks could be done */
}
if ((MD_UPD_AGREEMENT & fields) && md->ca_agreement
&& strcmp("accepted", md->ca_agreement)) { /* setting to empty is ok */
rv = md_util_abs_uri_check(p, md->ca_agreement, &err);
if (err) {
md_log_perror(MD_LOG_MARK, MD_LOG_ERR, APR_EINVAL, p,
"CA url for %s invalid (%s): %s", md->name, err, md->ca_agreement);
return APR_EINVAL;
}
}
return rv;
}
/**************************************************************************************************/
/* state assessment */
static apr_status_t state_init(md_reg_t *reg, apr_pool_t *p, md_t *md)
{
md_state_t state = MD_S_COMPLETE;
const char *state_descr = NULL;
const md_pubcert_t *pub;
const md_cert_t *cert;
const md_pkey_spec_t *spec;
apr_status_t rv = APR_SUCCESS;
int i;
if (md->renew_window == NULL) md->renew_window = reg->renew_window;
if (md->warn_window == NULL) md->warn_window = reg->warn_window;
for (i = 0; i < md_cert_count(md); ++i) {
spec = md_pkeys_spec_get(md->pks, i);
md_log_perror(MD_LOG_MARK, MD_LOG_TRACE2, rv, p,
"md{%s}: check cert %s", md->name, md_pkey_spec_name(spec));
rv = md_reg_get_pubcert(&pub, reg, md, i, p);
if (APR_SUCCESS == rv) {
cert = APR_ARRAY_IDX(pub->certs, 0, const md_cert_t*);
if (!md_is_covered_by_alt_names(md, pub->alt_names)) {
state = MD_S_INCOMPLETE;
state_descr = apr_psprintf(p, "certificate(%s) does not cover all domains.",
md_pkey_spec_name(spec));
goto cleanup;
}
if (!md->must_staple != !md_cert_must_staple(cert)) {
state = MD_S_INCOMPLETE;
state_descr = apr_psprintf(p, "'must-staple' is%s requested, but "
"certificate(%s) has it%s enabled.",
md->must_staple? "" : " not",
md_pkey_spec_name(spec),
!md->must_staple? "" : " not");
goto cleanup;
}
md_log_perror(MD_LOG_MARK, MD_LOG_DEBUG, rv, p, "md{%s}: certificate(%d) is ok",
md->name, i);
}
else if (APR_STATUS_IS_ENOENT(rv)) {
state = MD_S_INCOMPLETE;
state_descr = apr_psprintf(p, "certificate(%s) is missing",
md_pkey_spec_name(spec));
rv = APR_SUCCESS;
goto cleanup;
}
else {
state = MD_S_ERROR;
state_descr = "error intializing";
md_log_perror(MD_LOG_MARK, MD_LOG_WARNING, rv, p, "md{%s}: error", md->name);
goto cleanup;
}
}
cleanup:
md_log_perror(MD_LOG_MARK, MD_LOG_TRACE2, rv, p, "md{%s}: state=%d, %s",
md->name, state, state_descr);
md->state = state;
md->state_descr = state_descr;
return rv;
}
/**************************************************************************************************/
/* iteration */
typedef struct {
md_reg_t *reg;
md_reg_do_cb *cb;
void *baton;
const char *exclude;
const void *result;
} reg_do_ctx;
static int reg_md_iter(void *baton, md_store_t *store, md_t *md, apr_pool_t *ptemp)
{
reg_do_ctx *ctx = baton;
(void)store;
if (!ctx->exclude || strcmp(ctx->exclude, md->name)) {
state_init(ctx->reg, ptemp, (md_t*)md);
return ctx->cb(ctx->baton, ctx->reg, md);
}
return 1;
}
static int reg_do(md_reg_do_cb *cb, void *baton, md_reg_t *reg, apr_pool_t *p, const char *exclude)
{
reg_do_ctx ctx;
ctx.reg = reg;
ctx.cb = cb;
ctx.baton = baton;
ctx.exclude = exclude;
return md_store_md_iter(reg_md_iter, &ctx, reg->store, p, MD_SG_DOMAINS, "*");
}
int md_reg_do(md_reg_do_cb *cb, void *baton, md_reg_t *reg, apr_pool_t *p)
{
return reg_do(cb, baton, reg, p, NULL);
}
/**************************************************************************************************/
/* lookup */
md_t *md_reg_get(md_reg_t *reg, const char *name, apr_pool_t *p)
{
md_t *md;
if (APR_SUCCESS == md_load(reg->store, MD_SG_DOMAINS, name, &md, p)) {
state_init(reg, p, md);
return md;
}
return NULL;
}
typedef struct {
const char *domain;
md_t *md;
} find_domain_ctx;
static int find_domain(void *baton, md_reg_t *reg, md_t *md)
{
find_domain_ctx *ctx = baton;
(void)reg;
if (md_contains(md, ctx->domain, 0)) {
ctx->md = md;
return 0;
}
return 1;
}
md_t *md_reg_find(md_reg_t *reg, const char *domain, apr_pool_t *p)
{
find_domain_ctx ctx;
ctx.domain = domain;
ctx.md = NULL;
md_reg_do(find_domain, &ctx, reg, p);
if (ctx.md) {
state_init(reg, p, ctx.md);
}
return ctx.md;
}
typedef struct {
const md_t *md_checked;
md_t *md;
const char *s;
} find_overlap_ctx;
static int find_overlap(void *baton, md_reg_t *reg, md_t *md)
{
find_overlap_ctx *ctx = baton;
const char *overlap;
(void)reg;
if ((overlap = md_common_name(ctx->md_checked, md))) {
ctx->md = md;
ctx->s = overlap;
return 0;
}
return 1;
}
md_t *md_reg_find_overlap(md_reg_t *reg, const md_t *md, const char **pdomain, apr_pool_t *p)
{
find_overlap_ctx ctx;
ctx.md_checked = md;
ctx.md = NULL;
ctx.s = NULL;
reg_do(find_overlap, &ctx, reg, p, md->name);
if (pdomain && ctx.s) {
*pdomain = ctx.s;
}
if (ctx.md) {
state_init(reg, p, ctx.md);
}
return ctx.md;
}
/**************************************************************************************************/
/* manipulation */
static apr_status_t p_md_add(void *baton, apr_pool_t *p, apr_pool_t *ptemp, va_list ap)
{
md_reg_t *reg = baton;
apr_status_t rv = APR_SUCCESS;
md_t *md, *mine;
int do_check;
md = va_arg(ap, md_t *);
do_check = va_arg(ap, int);
if (reg->domains_frozen) return APR_EACCES;
mine = md_clone(ptemp, md);
if (do_check && APR_SUCCESS != (rv = check_values(reg, ptemp, md, MD_UPD_ALL))) goto leave;
if (APR_SUCCESS != (rv = state_init(reg, ptemp, mine))) goto leave;
rv = md_save(reg->store, p, MD_SG_DOMAINS, mine, 1);
leave:
return rv;
}
static apr_status_t add_md(md_reg_t *reg, md_t *md, apr_pool_t *p, int do_checks)
{
return md_util_pool_vdo(p_md_add, reg, p, md, do_checks, NULL);
}
apr_status_t md_reg_add(md_reg_t *reg, md_t *md, apr_pool_t *p)
{
return add_md(reg, md, p, 1);
}
static apr_status_t p_md_update(void *baton, apr_pool_t *p, apr_pool_t *ptemp, va_list ap)
{
md_reg_t *reg = baton;
apr_status_t rv = APR_SUCCESS;
const char *name;
const md_t *md, *updates;
int fields, do_checks;
md_t *nmd;
name = va_arg(ap, const char *);
updates = va_arg(ap, const md_t *);
fields = va_arg(ap, int);
do_checks = va_arg(ap, int);
if (NULL == (md = md_reg_get(reg, name, ptemp))) {
md_log_perror(MD_LOG_MARK, MD_LOG_DEBUG, APR_ENOENT, ptemp, "md %s", name);
return APR_ENOENT;
}
md_log_perror(MD_LOG_MARK, MD_LOG_DEBUG, 0, ptemp, "md[%s]: update store", name);
if (do_checks && APR_SUCCESS != (rv = check_values(reg, ptemp, updates, fields))) {
return rv;
}
if (reg->domains_frozen) return APR_EACCES;
nmd = md_copy(ptemp, md);
if (MD_UPD_DOMAINS & fields) {
nmd->domains = updates->domains;
md_log_perror(MD_LOG_MARK, MD_LOG_TRACE1, 0, ptemp, "update domains: %s", name);
}
if (MD_UPD_CA_URL & fields) {
nmd->ca_url = updates->ca_url;
md_log_perror(MD_LOG_MARK, MD_LOG_TRACE1, 0, ptemp, "update ca url: %s", name);
}
if (MD_UPD_CA_PROTO & fields) {
nmd->ca_proto = updates->ca_proto;
md_log_perror(MD_LOG_MARK, MD_LOG_TRACE1, 0, ptemp, "update ca protocol: %s", name);
}
if (MD_UPD_CA_ACCOUNT & fields) {
nmd->ca_account = updates->ca_account;
md_log_perror(MD_LOG_MARK, MD_LOG_TRACE1, 0, ptemp, "update account: %s", name);
}
if (MD_UPD_CONTACTS & fields) {
nmd->contacts = updates->contacts;
md_log_perror(MD_LOG_MARK, MD_LOG_TRACE1, 0, ptemp, "update contacts: %s", name);
}
if (MD_UPD_AGREEMENT & fields) {
md_log_perror(MD_LOG_MARK, MD_LOG_TRACE1, 0, ptemp, "update agreement: %s", name);
nmd->ca_agreement = updates->ca_agreement;
}
if (MD_UPD_DRIVE_MODE & fields) {
md_log_perror(MD_LOG_MARK, MD_LOG_TRACE1, 0, ptemp, "update drive-mode: %s", name);
nmd->renew_mode = updates->renew_mode;
}
if (MD_UPD_RENEW_WINDOW & fields) {
md_log_perror(MD_LOG_MARK, MD_LOG_TRACE1, 0, ptemp, "update renew-window: %s", name);
*nmd->renew_window = *updates->renew_window;
}
if (MD_UPD_WARN_WINDOW & fields) {
md_log_perror(MD_LOG_MARK, MD_LOG_TRACE1, 0, ptemp, "update warn-window: %s", name);
*nmd->warn_window = *updates->warn_window;
}
if (MD_UPD_CA_CHALLENGES & fields) {
md_log_perror(MD_LOG_MARK, MD_LOG_TRACE1, 0, ptemp, "update ca challenges: %s", name);
nmd->ca_challenges = (updates->ca_challenges?
apr_array_copy(p, updates->ca_challenges) : NULL);
}
if (MD_UPD_PKEY_SPEC & fields) {
md_log_perror(MD_LOG_MARK, MD_LOG_TRACE1, 0, ptemp, "update pkey spec: %s", name);
nmd->pks = md_pkeys_spec_clone(p, updates->pks);
}
if (MD_UPD_REQUIRE_HTTPS & fields) {
md_log_perror(MD_LOG_MARK, MD_LOG_TRACE1, 0, ptemp, "update require-https: %s", name);
nmd->require_https = updates->require_https;
}
if (MD_UPD_TRANSITIVE & fields) {
md_log_perror(MD_LOG_MARK, MD_LOG_TRACE1, 0, ptemp, "update transitive: %s", name);
nmd->transitive = updates->transitive;
}
if (MD_UPD_MUST_STAPLE & fields) {
md_log_perror(MD_LOG_MARK, MD_LOG_TRACE1, 0, ptemp, "update must-staple: %s", name);
nmd->must_staple = updates->must_staple;
}
if (MD_UPD_PROTO & fields) {
md_log_perror(MD_LOG_MARK, MD_LOG_TRACE1, 0, ptemp, "update proto: %s", name);
nmd->acme_tls_1_domains = updates->acme_tls_1_domains;
}
if (MD_UPD_STAPLING & fields) {
md_log_perror(MD_LOG_MARK, MD_LOG_TRACE1, 0, ptemp, "update stapling: %s", name);
nmd->stapling = updates->stapling;
}
if (fields && APR_SUCCESS == (rv = md_save(reg->store, p, MD_SG_DOMAINS, nmd, 0))) {
rv = state_init(reg, ptemp, nmd);
}
return rv;
}
apr_status_t md_reg_update(md_reg_t *reg, apr_pool_t *p,
const char *name, const md_t *md, int fields,
int do_checks)
{
return md_util_pool_vdo(p_md_update, reg, p, name, md, fields, do_checks, NULL);
}
apr_status_t md_reg_delete_acct(md_reg_t *reg, apr_pool_t *p, const char *acct_id)
{
apr_status_t rv = APR_SUCCESS;
rv = md_store_remove(reg->store, MD_SG_ACCOUNTS, acct_id, MD_FN_ACCOUNT, p, 1);
if (APR_SUCCESS == rv) {
md_store_remove(reg->store, MD_SG_ACCOUNTS, acct_id, MD_FN_ACCT_KEY, p, 1);
}
return rv;
}
/**************************************************************************************************/
/* certificate related */
static apr_status_t pubcert_load(void *baton, apr_pool_t *p, apr_pool_t *ptemp, va_list ap)
{
md_reg_t *reg = baton;
apr_array_header_t *certs;
md_pubcert_t *pubcert, **ppubcert;
const md_t *md;
int index;
const md_cert_t *cert;
md_cert_state_t cert_state;
md_store_group_t group;
apr_status_t rv;
ppubcert = va_arg(ap, md_pubcert_t **);
group = (md_store_group_t)va_arg(ap, int);
md = va_arg(ap, const md_t *);
index = va_arg(ap, int);
if (md->cert_files && md->cert_files->nelts) {
rv = md_chain_fload(&certs, p, APR_ARRAY_IDX(md->cert_files, index, const char *));
}
else {
md_pkey_spec_t *spec = md_pkeys_spec_get(md->pks, index);;
rv = md_pubcert_load(reg->store, group, md->name, spec, &certs, p);
}
if (APR_SUCCESS != rv) goto leave;
if (certs->nelts == 0) {
rv = APR_ENOENT;
goto leave;
}
pubcert = apr_pcalloc(p, sizeof(*pubcert));
pubcert->certs = certs;
cert = APR_ARRAY_IDX(certs, 0, const md_cert_t *);
if (APR_SUCCESS != (rv = md_cert_get_alt_names(&pubcert->alt_names, cert, p))) goto leave;
switch ((cert_state = md_cert_state_get(cert))) {
case MD_CERT_VALID:
case MD_CERT_EXPIRED:
break;
default:
md_log_perror(MD_LOG_MARK, MD_LOG_ERR, APR_EINVAL, ptemp,
"md %s has unexpected cert state: %d", md->name, cert_state);
rv = APR_ENOTIMPL;
break;
}
leave:
*ppubcert = (APR_SUCCESS == rv)? pubcert : NULL;
return rv;
}
apr_status_t md_reg_get_pubcert(const md_pubcert_t **ppubcert, md_reg_t *reg,
const md_t *md, int i, apr_pool_t *p)
{
apr_status_t rv = APR_SUCCESS;
const md_pubcert_t *pubcert;
const char *name;
name = apr_psprintf(p, "%s[%d]", md->name, i);
pubcert = apr_hash_get(reg->certs, name, (apr_ssize_t)strlen(name));
if (!pubcert && !reg->domains_frozen) {
rv = md_util_pool_vdo(pubcert_load, reg, reg->p, &pubcert, MD_SG_DOMAINS, md, i, NULL);
if (APR_STATUS_IS_ENOENT(rv)) {
/* We cache it missing with an empty record */
pubcert = apr_pcalloc(reg->p, sizeof(*pubcert));
}
else if (APR_SUCCESS != rv) goto leave;
if (p != reg->p) name = apr_pstrdup(reg->p, name);
apr_hash_set(reg->certs, name, (apr_ssize_t)strlen(name), pubcert);
}
leave:
if (APR_SUCCESS == rv && (!pubcert || !pubcert->certs)) {
rv = APR_ENOENT;
}
*ppubcert = (APR_SUCCESS == rv)? pubcert : NULL;
return rv;
}
apr_status_t md_reg_get_cred_files(const char **pkeyfile, const char **pcertfile,
md_reg_t *reg, md_store_group_t group,
const md_t *md, md_pkey_spec_t *spec, apr_pool_t *p)
{
apr_status_t rv;
rv = md_store_get_fname(pkeyfile, reg->store, group, md->name, md_pkey_filename(spec, p), p);
if (APR_SUCCESS != rv) return rv;
if (!md_file_exists(*pkeyfile, p)) return APR_ENOENT;
rv = md_store_get_fname(pcertfile, reg->store, group, md->name, md_chain_filename(spec, p), p);
if (APR_SUCCESS != rv) return rv;
if (!md_file_exists(*pcertfile, p)) return APR_ENOENT;
return APR_SUCCESS;
}
apr_time_t md_reg_valid_until(md_reg_t *reg, const md_t *md, apr_pool_t *p)
{
const md_pubcert_t *pub;
const md_cert_t *cert;
int i;
apr_time_t t, valid_until = 0;
apr_status_t rv;
for (i = 0; i < md_cert_count(md); ++i) {
rv = md_reg_get_pubcert(&pub, reg, md, i, p);
if (APR_SUCCESS == rv) {
cert = APR_ARRAY_IDX(pub->certs, 0, const md_cert_t*);
t = md_cert_get_not_after(cert);
if (valid_until == 0 || t < valid_until) {
valid_until = t;
}
}
}
return valid_until;
}
apr_time_t md_reg_renew_at(md_reg_t *reg, const md_t *md, apr_pool_t *p)
{
const md_pubcert_t *pub;
const md_cert_t *cert;
md_timeperiod_t certlife, renewal;
int i;
apr_time_t renew_at = 0;
apr_status_t rv;
if (md->state == MD_S_INCOMPLETE) return apr_time_now();
for (i = 0; i < md_cert_count(md); ++i) {
rv = md_reg_get_pubcert(&pub, reg, md, i, p);
if (APR_STATUS_IS_ENOENT(rv)) return apr_time_now();
if (APR_SUCCESS == rv) {
cert = APR_ARRAY_IDX(pub->certs, 0, const md_cert_t*);
certlife.start = md_cert_get_not_before(cert);
certlife.end = md_cert_get_not_after(cert);
renewal = md_timeperiod_slice_before_end(&certlife, md->renew_window);
if (md_log_is_level(p, MD_LOG_TRACE1)) {
md_log_perror(MD_LOG_MARK, MD_LOG_TRACE2, 0, p,
"md[%s]: certificate(%d) valid[%s] renewal[%s]",
md->name, i,
md_timeperiod_print(p, &certlife),
md_timeperiod_print(p, &renewal));
}
if (renew_at == 0 || renewal.start < renew_at) {
renew_at = renewal.start;
}
}
}
return renew_at;
}
int md_reg_should_renew(md_reg_t *reg, const md_t *md, apr_pool_t *p)
{
apr_time_t renew_at;
renew_at = md_reg_renew_at(reg, md, p);
return renew_at && (renew_at <= apr_time_now());
}
int md_reg_should_warn(md_reg_t *reg, const md_t *md, apr_pool_t *p)
{
const md_pubcert_t *pub;
const md_cert_t *cert;
md_timeperiod_t certlife, warn;
int i;
apr_status_t rv;
if (md->state == MD_S_INCOMPLETE) return 0;
for (i = 0; i < md_cert_count(md); ++i) {
rv = md_reg_get_pubcert(&pub, reg, md, i, p);
if (APR_STATUS_IS_ENOENT(rv)) return 0;
if (APR_SUCCESS == rv) {
cert = APR_ARRAY_IDX(pub->certs, 0, const md_cert_t*);
certlife.start = md_cert_get_not_before(cert);
certlife.end = md_cert_get_not_after(cert);
warn = md_timeperiod_slice_before_end(&certlife, md->warn_window);
if (md_log_is_level(p, MD_LOG_TRACE1)) {
md_log_perror(MD_LOG_MARK, MD_LOG_TRACE2, 0, p,
"md[%s]: certificate(%d) life[%s] warn[%s]",
md->name, i,
md_timeperiod_print(p, &certlife),
md_timeperiod_print(p, &warn));
}
if (md_timeperiod_has_started(&warn, apr_time_now())) {
return 1;
}
}
}
return 0;
}
/**************************************************************************************************/
/* syncing */
apr_status_t md_reg_set_props(md_reg_t *reg, apr_pool_t *p, int can_http, int can_https)
{
if (reg->can_http != can_http || reg->can_https != can_https) {
md_json_t *json;
if (reg->domains_frozen) return APR_EACCES;
reg->can_http = can_http;
reg->can_https = can_https;
json = md_json_create(p);
md_json_setb(can_http, json, MD_KEY_PROTO, MD_KEY_HTTP, NULL);
md_json_setb(can_https, json, MD_KEY_PROTO, MD_KEY_HTTPS, NULL);
return md_store_save(reg->store, p, MD_SG_NONE, NULL, MD_FN_HTTPD_JSON, MD_SV_JSON, json, 0);
}
return APR_SUCCESS;
}
static md_t *find_closest_match(apr_array_header_t *mds, const md_t *md)
{
md_t *candidate, *m;
apr_size_t cand_n, n;
int i;
candidate = md_get_by_name(mds, md->name);
if (!candidate) {
/* try to find an instance that contains all domain names from md */
for (i = 0; i < mds->nelts; ++i) {
m = APR_ARRAY_IDX(mds, i, md_t *);
if (md_contains_domains(m, md)) {
return m;
}
}
/* no matching name and no md in the list has all domains.
* We consider that managed domain as closest match that contains at least one
* domain name from md, ONLY if there is no other one that also has.
*/
cand_n = 0;
for (i = 0; i < mds->nelts; ++i) {
m = APR_ARRAY_IDX(mds, i, md_t *);
n = md_common_name_count(md, m);
if (n > cand_n) {
candidate = m;
cand_n = n;
}
}
}
return candidate;
}
typedef struct {
apr_pool_t *p;
apr_array_header_t *master_mds;
apr_array_header_t *store_names;
apr_array_header_t *maybe_new_mds;
apr_array_header_t *new_mds;
apr_array_header_t *unassigned_mds;
} sync_ctx_v2;
static int iter_add_name(void *baton, const char *dir, const char *name,
md_store_vtype_t vtype, void *value, apr_pool_t *ptemp)
{
sync_ctx_v2 *ctx = baton;
(void)dir;
(void)value;
(void)ptemp;
(void)vtype;
APR_ARRAY_PUSH(ctx->store_names, const char*) = apr_pstrdup(ctx->p, name);
return APR_SUCCESS;
}
/* A better scaling version:
* 1. The consistency of the MDs in 'master_mds' has already been verified. E.g.
* that no domain lists overlap etc.
* 2. All MD storage that exists will be overwritten by the settings we have.
* And "exists" meaning that "store/MD_SG_DOMAINS/name" exists.
* 3. For MDs that have no directory in "store/MD_SG_DOMAINS", we load all MDs
* outside the list of known names from MD_SG_DOMAINS. In this list, we
* look for the MD with the most domain overlap.
* - if we find it, we assume this is a rename and move the old MD to the new name.
* - if not, MD is completely new.
* 4. Any MD in store that does not match the "master_mds" will just be left as is.
*/
apr_status_t md_reg_sync_start(md_reg_t *reg, apr_array_header_t *master_mds, apr_pool_t *p)
{
sync_ctx_v2 ctx;
apr_status_t rv;
md_t *md, *oldmd;
const char *name;
int i, idx;
md_log_perror(MD_LOG_MARK, MD_LOG_DEBUG, 0, p, "sync MDs, start");
ctx.p = p;
ctx.master_mds = master_mds;
ctx.store_names = apr_array_make(p, master_mds->nelts + 100, sizeof(const char*));
ctx.maybe_new_mds = apr_array_make(p, master_mds->nelts, sizeof(md_t*));
ctx.new_mds = apr_array_make(p, master_mds->nelts, sizeof(md_t*));
ctx.unassigned_mds = apr_array_make(p, master_mds->nelts, sizeof(md_t*));
rv = md_store_iter_names(iter_add_name, &ctx, reg->store, p, MD_SG_DOMAINS, "*");
if (APR_SUCCESS != rv) {
md_log_perror(MD_LOG_MARK, MD_LOG_ERR, rv, p, "listing existing store MD names");
goto leave;
}
/* Get all MDs that are not already present in store */
for (i = 0; i < ctx.master_mds->nelts; ++i) {
md = APR_ARRAY_IDX(ctx.master_mds, i, md_t*);
idx = md_array_str_index(ctx.store_names, md->name, 0, 1);
if (idx < 0) {
APR_ARRAY_PUSH(ctx.maybe_new_mds, md_t*) = md;
md_array_remove_at(ctx.store_names, idx);
}
}
if (ctx.maybe_new_mds->nelts == 0) goto leave; /* none new */
if (ctx.store_names->nelts == 0) goto leave; /* all new */
md_log_perror(MD_LOG_MARK, MD_LOG_DEBUG, 0, p,
"sync MDs, %d potentially new MDs detected, looking for renames among "
"the %d unassigned store domains", (int)ctx.maybe_new_mds->nelts,
(int)ctx.store_names->nelts);
for (i = 0; i < ctx.store_names->nelts; ++i) {
name = APR_ARRAY_IDX(ctx.store_names, i, const char*);
if (APR_SUCCESS == md_load(reg->store, MD_SG_DOMAINS, name, &md, p)) {
APR_ARRAY_PUSH(ctx.unassigned_mds, md_t*) = md;
}
}
md_log_perror(MD_LOG_MARK, MD_LOG_DEBUG, 0, p,
"sync MDs, %d MDs maybe new, checking store", (int)ctx.maybe_new_mds->nelts);
for (i = 0; i < ctx.maybe_new_mds->nelts; ++i) {
md = APR_ARRAY_IDX(ctx.maybe_new_mds, i, md_t*);
oldmd = find_closest_match(ctx.unassigned_mds, md);
if (oldmd) {
/* found the rename, move the domains and possible staging directory */
md_log_perror(MD_LOG_MARK, MD_LOG_DEBUG, 0, p,
"sync MDs, found MD %s under previous name %s", md->name, oldmd->name);
rv = md_store_rename(reg->store, p, MD_SG_DOMAINS, oldmd->name, md->name);
if (APR_SUCCESS != rv) {
md_log_perror(MD_LOG_MARK, MD_LOG_ERR, 0, p,
"sync MDs, renaming MD %s to %s failed", oldmd->name, md->name);
/* ignore it? */
}
md_store_rename(reg->store, p, MD_SG_STAGING, oldmd->name, md->name);
md_array_remove(ctx.unassigned_mds, oldmd);
}
else {
APR_ARRAY_PUSH(ctx.new_mds, md_t*) = md;
}
}
leave:
md_log_perror(MD_LOG_MARK, MD_LOG_DEBUG, 0, p,
"sync MDs, %d existing, %d moved, %d new.",
(int)ctx.master_mds->nelts - ctx.maybe_new_mds->nelts,
(int)ctx.maybe_new_mds->nelts - ctx.new_mds->nelts,
(int)ctx.new_mds->nelts);
return rv;
}
/**
* Finish syncing an MD with the store.
* 1. if there are changed properties (or if the MD is new), save it.
* 2. read any existing certificate and init the state of the memory MD
*/
apr_status_t md_reg_sync_finish(md_reg_t *reg, md_t *md, apr_pool_t *p, apr_pool_t *ptemp)
{
md_t *old;
apr_status_t rv;
int changed = 1;
if (!md->ca_url) {
md->ca_url = MD_ACME_DEF_URL;
md->ca_proto = MD_PROTO_ACME;
}
rv = state_init(reg, ptemp, md);
if (APR_SUCCESS != rv) goto leave;
md_log_perror(MD_LOG_MARK, MD_LOG_DEBUG, rv, ptemp, "loading md %s", md->name);
if (APR_SUCCESS == md_load(reg->store, MD_SG_DOMAINS, md->name, &old, ptemp)) {
md_log_perror(MD_LOG_MARK, MD_LOG_DEBUG, rv, ptemp, "loaded md %s", md->name);
/* Some parts are kept from old, lacking new values */
if ((!md->contacts || apr_is_empty_array(md->contacts)) && old->contacts) {
md->contacts = md_array_str_clone(p, old->contacts);
}
if (md->ca_challenges && old->ca_challenges) {
if (!md_array_str_eq(md->ca_challenges, old->ca_challenges, 0)) {
md->ca_challenges = md_array_str_compact(p, md->ca_challenges, 0);
}
}
if (!md->ca_account && old->ca_account) {
md->ca_account = apr_pstrdup(p, old->ca_account);
}
/* if everything remains the same, spare the write back */
if (!MD_VAL_UPDATE(md, old, state)
&& !MD_SVAL_UPDATE(md, old, ca_url)
&& !MD_SVAL_UPDATE(md, old, ca_proto)
&& !MD_SVAL_UPDATE(md, old, ca_agreement)
&& !MD_VAL_UPDATE(md, old, transitive)
&& md_equal_domains(md, old, 1)
&& !MD_VAL_UPDATE(md, old, renew_mode)
&& md_timeslice_eq(md->renew_window, old->renew_window)
&& md_timeslice_eq(md->warn_window, old->warn_window)
&& md_pkeys_spec_eq(md->pks, old->pks)
&& !MD_VAL_UPDATE(md, old, require_https)
&& !MD_VAL_UPDATE(md, old, must_staple)
&& md_array_str_eq(md->acme_tls_1_domains, old->acme_tls_1_domains, 0)
&& !MD_VAL_UPDATE(md, old, stapling)
&& md_array_str_eq(md->contacts, old->contacts, 0)
&& md_array_str_eq(md->cert_files, old->cert_files, 0)
&& md_array_str_eq(md->pkey_files, old->pkey_files, 0)
&& md_array_str_eq(md->ca_challenges, old->ca_challenges, 0)) {
changed = 0;
}
}
if (changed) {
md_log_perror(MD_LOG_MARK, MD_LOG_DEBUG, rv, ptemp, "saving md %s", md->name);
rv = md_save(reg->store, ptemp, MD_SG_DOMAINS, md, 0);
}
leave:
md_log_perror(MD_LOG_MARK, MD_LOG_DEBUG, rv, ptemp, "sync MDs, finish done");
return rv;
}
apr_status_t md_reg_remove(md_reg_t *reg, apr_pool_t *p, const char *name, int archive)
{
if (reg->domains_frozen) return APR_EACCES;
return md_store_move(reg->store, p, MD_SG_DOMAINS, MD_SG_ARCHIVE, name, archive);
}
typedef struct {
md_reg_t *reg;
apr_pool_t *p;
apr_array_header_t *mds;
} cleanup_challenge_ctx;
static apr_status_t cleanup_challenge_inspector(void *baton, const char *dir, const char *name,
md_store_vtype_t vtype, void *value,
apr_pool_t *ptemp)
{
cleanup_challenge_ctx *ctx = baton;
const md_t *md;
int i, used;
apr_status_t rv;
(void)value;
(void)vtype;
(void)dir;
for (used = 0, i = 0; i < ctx->mds->nelts && !used; ++i) {
md = APR_ARRAY_IDX(ctx->mds, i, const md_t *);
used = !strcmp(name, md->name);
}
if (!used) {
md_log_perror(MD_LOG_MARK, MD_LOG_DEBUG, 0, ptemp,
"challenges/%s: not in use, purging", name);
rv = md_store_purge(ctx->reg->store, ctx->p, MD_SG_CHALLENGES, name);
if (APR_SUCCESS != rv) {
md_log_perror(MD_LOG_MARK, MD_LOG_WARNING, rv, ptemp,
"challenges/%s: unable to purge", name);
}
}
return APR_SUCCESS;
}
apr_status_t md_reg_cleanup_challenges(md_reg_t *reg, apr_pool_t *p, apr_pool_t *ptemp,
apr_array_header_t *mds)
{
apr_status_t rv;
cleanup_challenge_ctx ctx;
(void)p;
ctx.reg = reg;
ctx.p = ptemp;
ctx.mds = mds;
rv = md_store_iter_names(cleanup_challenge_inspector, &ctx, reg->store, ptemp,
MD_SG_CHALLENGES, "*");
return rv;
}
/**************************************************************************************************/
/* driving */
static apr_status_t run_init(void *baton, apr_pool_t *p, ...)
{
va_list ap;
md_reg_t *reg = baton;
const md_t *md;
md_proto_driver_t *driver, **pdriver;
md_result_t *result;
apr_table_t *env;
const char *s;
int preload;
(void)p;
va_start(ap, p);
pdriver = va_arg(ap, md_proto_driver_t **);
md = va_arg(ap, const md_t *);
preload = va_arg(ap, int);
env = va_arg(ap, apr_table_t *);
result = va_arg(ap, md_result_t *);
va_end(ap);
*pdriver = driver = apr_pcalloc(p, sizeof(*driver));
driver->p = p;
driver->env = env? apr_table_copy(p, env) : apr_table_make(p, 10);
driver->reg = reg;
driver->store = md_reg_store_get(reg);
driver->proxy_url = reg->proxy_url;
driver->ca_file = reg->ca_file;
driver->md = md;
driver->can_http = reg->can_http;
driver->can_https = reg->can_https;
s = apr_table_get(driver->env, MD_KEY_ACTIVATION_DELAY);
if (!s || APR_SUCCESS != md_duration_parse(&driver->activation_delay, s, "d")) {
driver->activation_delay = 0;
}
if (!md->ca_proto) {
md_result_printf(result, APR_EGENERAL, "CA protocol is not defined");
md_log_perror(MD_LOG_MARK, MD_LOG_WARNING, 0, p, "md[%s]: %s", md->name, result->detail);
goto leave;
}
driver->proto = apr_hash_get(reg->protos, md->ca_proto, (apr_ssize_t)strlen(md->ca_proto));
if (!driver->proto) {
md_result_printf(result, APR_EGENERAL, "Unknown CA protocol '%s'", md->ca_proto);
goto leave;
}
if (preload) {
result->status = driver->proto->init_preload(driver, result);
}
else {
result->status = driver->proto->init(driver, result);
}
leave:
if (APR_SUCCESS != result->status) {
md_log_perror(MD_LOG_MARK, MD_LOG_WARNING, result->status, p, "md[%s]: %s", md->name,
result->detail? result->detail : "<see error log for details>");
}
else {
md_log_perror(MD_LOG_MARK, MD_LOG_DEBUG, 0, p, "%s: init done", md->name);
}
return result->status;
}
static apr_status_t run_test_init(void *baton, apr_pool_t *p, apr_pool_t *ptemp, va_list ap)
{
const md_t *md;
apr_table_t *env;
md_result_t *result;
md_proto_driver_t *driver;
(void)p;
md = va_arg(ap, const md_t *);
env = va_arg(ap, apr_table_t *);
result = va_arg(ap, md_result_t *);
return run_init(baton, ptemp, &driver, md, 0, env, result, NULL);
}
apr_status_t md_reg_test_init(md_reg_t *reg, const md_t *md, struct apr_table_t *env,
md_result_t *result, apr_pool_t *p)
{
return md_util_pool_vdo(run_test_init, reg, p, md, env, result, NULL);
}
static apr_status_t run_renew(void *baton, apr_pool_t *p, apr_pool_t *ptemp, va_list ap)
{
const md_t *md;
int reset;
md_proto_driver_t *driver;
apr_table_t *env;
apr_status_t rv;
md_result_t *result;
(void)p;
md = va_arg(ap, const md_t *);
env = va_arg(ap, apr_table_t *);
reset = va_arg(ap, int);
result = va_arg(ap, md_result_t *);
rv = run_init(baton, ptemp, &driver, md, 0, env, result, NULL);
if (APR_SUCCESS == rv) {
md_log_perror(MD_LOG_MARK, MD_LOG_DEBUG, 0, ptemp, "%s: run staging", md->name);
driver->reset = reset;
rv = driver->proto->renew(driver, result);
}
md_log_perror(MD_LOG_MARK, MD_LOG_DEBUG, rv, ptemp, "%s: staging done", md->name);
return rv;
}
apr_status_t md_reg_renew(md_reg_t *reg, const md_t *md, apr_table_t *env,
int reset, md_result_t *result, apr_pool_t *p)
{
return md_util_pool_vdo(run_renew, reg, p, md, env, reset, result, NULL);
}
static apr_status_t run_load_staging(void *baton, apr_pool_t *p, apr_pool_t *ptemp, va_list ap)
{
md_reg_t *reg = baton;
const md_t *md;
md_proto_driver_t *driver;
md_result_t *result;
apr_table_t *env;
md_job_t *job;
apr_status_t rv;
/* For the MD, check if something is in the STAGING area. If none is there,
* return that status. Otherwise ask the protocol driver to preload it into
* a new, temporary area.
* If that succeeds, we move the TEMP area over the DOMAINS (causing the
* existing one go to ARCHIVE).
* Finally, we clean up the data from CHALLENGES and STAGING.
*/
md = va_arg(ap, const md_t*);
env = va_arg(ap, apr_table_t*);
result = va_arg(ap, md_result_t*);
if (APR_STATUS_IS_ENOENT(rv = md_load(reg->store, MD_SG_STAGING, md->name, NULL, ptemp))) {
md_log_perror(MD_LOG_MARK, MD_LOG_TRACE2, 0, ptemp, "%s: nothing staged", md->name);
goto out;
}
rv = run_init(baton, ptemp, &driver, md, 1, env, result, NULL);
if (APR_SUCCESS != rv) goto out;
apr_hash_set(reg->certs, md->name, (apr_ssize_t)strlen(md->name), NULL);
md_result_activity_setn(result, "preloading staged to tmp");
rv = driver->proto->preload(driver, MD_SG_TMP, result);
if (APR_SUCCESS != rv) goto out;
/* If we had a job saved in STAGING, copy it over too */
job = md_reg_job_make(reg, md->name, ptemp);
if (APR_SUCCESS == md_job_load(job)) {
md_job_set_group(job, MD_SG_TMP);
md_job_save(job, NULL, ptemp);
}
/* swap */
md_result_activity_setn(result, "moving tmp to become new domains");
rv = md_store_move(reg->store, p, MD_SG_TMP, MD_SG_DOMAINS, md->name, 1);
if (APR_SUCCESS != rv) {
md_result_set(result, rv, NULL);
goto out;
}
md_store_purge(reg->store, p, MD_SG_STAGING, md->name);
md_store_purge(reg->store, p, MD_SG_CHALLENGES, md->name);
md_result_set(result, APR_SUCCESS, "new certificate successfully saved in domains");
md_event_holler("installed", md->name, job, result, ptemp);
if (job->dirty) md_job_save(job, result, ptemp);
out:
if (!APR_STATUS_IS_ENOENT(rv)) {
md_log_perror(MD_LOG_MARK, MD_LOG_TRACE1, rv, ptemp, "%s: load done", md->name);
}
return rv;
}
apr_status_t md_reg_load_staging(md_reg_t *reg, const md_t *md, apr_table_t *env,
md_result_t *result, apr_pool_t *p)
{
if (reg->domains_frozen) return APR_EACCES;
return md_util_pool_vdo(run_load_staging, reg, p, md, env, result, NULL);
}
apr_status_t md_reg_freeze_domains(md_reg_t *reg, apr_array_header_t *mds)
{
apr_status_t rv = APR_SUCCESS;
md_t *md;
const md_pubcert_t *pubcert;
int i, j;
assert(!reg->domains_frozen);
/* prefill the certs cache for all mds */
for (i = 0; i < mds->nelts; ++i) {
md = APR_ARRAY_IDX(mds, i, md_t*);
for (j = 0; j < md_cert_count(md); ++j) {
rv = md_reg_get_pubcert(&pubcert, reg, md, i, reg->p);
if (APR_SUCCESS != rv && !APR_STATUS_IS_ENOENT(rv)) goto leave;
}
}
reg->domains_frozen = 1;
leave:
return rv;
}
void md_reg_set_renew_window_default(md_reg_t *reg, md_timeslice_t *renew_window)
{
*reg->renew_window = *renew_window;
}
void md_reg_set_warn_window_default(md_reg_t *reg, md_timeslice_t *warn_window)
{
*reg->warn_window = *warn_window;
}
md_job_t *md_reg_job_make(md_reg_t *reg, const char *mdomain, apr_pool_t *p)
{
return md_job_make(p, reg->store, MD_SG_STAGING, mdomain);
}
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