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/* Copyright (c) 2016-2018 Dovecot authors, see the included COPYING file */
#include "lib.h"
#include "module-dir.h"
#include "dcrypt.h"
#include "istream.h"
#include "json-tree.h"
#include "dcrypt-private.h"
static struct module *dcrypt_module = NULL;
static struct dcrypt_vfs *dcrypt_vfs = NULL;
static const struct dcrypt_settings dcrypt_default_set = {
.module_dir = DCRYPT_MODULE_DIR,
};
bool dcrypt_initialize(const char *backend, const struct dcrypt_settings *set,
const char **error_r)
{
struct module_dir_load_settings mod_set;
const char *error;
if (dcrypt_vfs != NULL) {
return TRUE;
}
if (backend == NULL) backend = "openssl"; /* default for now */
if (set == NULL)
set = &dcrypt_default_set;
const char *implementation = t_strconcat("dcrypt_",backend,NULL);
i_zero(&mod_set);
mod_set.abi_version = DOVECOT_ABI_VERSION;
mod_set.require_init_funcs = TRUE;
if (module_dir_try_load_missing(&dcrypt_module, set->module_dir,
implementation, &mod_set, &error) < 0) {
if (error_r != NULL)
*error_r = error;
return FALSE;
}
module_dir_init(dcrypt_module);
i_assert(dcrypt_vfs != NULL);
if (dcrypt_vfs->initialize != NULL) {
if (!dcrypt_vfs->initialize(set, error_r)) {
dcrypt_deinitialize();
return FALSE;
}
}
/* Destroy SSL module after(most of) the others. Especially lib-fs
backends may still want to access SSL module in their own
atexit-callbacks. */
lib_atexit_priority(dcrypt_deinitialize, LIB_ATEXIT_PRIORITY_LOW);
return TRUE;
}
void dcrypt_deinitialize(void)
{
module_dir_unload(&dcrypt_module);
dcrypt_vfs = NULL;
}
void dcrypt_set_vfs(struct dcrypt_vfs *vfs)
{
dcrypt_vfs = vfs;
}
bool dcrypt_is_initialized(void)
{
return dcrypt_vfs != NULL;
}
bool dcrypt_ctx_sym_create(const char *algorithm, enum dcrypt_sym_mode mode,
struct dcrypt_context_symmetric **ctx_r,
const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->ctx_sym_create(algorithm, mode, ctx_r, error_r);
}
void dcrypt_ctx_sym_destroy(struct dcrypt_context_symmetric **ctx)
{
i_assert(dcrypt_vfs != NULL);
dcrypt_vfs->ctx_sym_destroy(ctx);
}
void dcrypt_ctx_sym_set_key(struct dcrypt_context_symmetric *ctx,
const unsigned char *key, size_t key_len)
{
i_assert(dcrypt_vfs != NULL);
dcrypt_vfs->ctx_sym_set_key(ctx, key, key_len);
}
void dcrypt_ctx_sym_set_iv(struct dcrypt_context_symmetric *ctx,
const unsigned char *iv, size_t iv_len)
{
i_assert(dcrypt_vfs != NULL);
dcrypt_vfs->ctx_sym_set_iv(ctx, iv, iv_len);
}
void dcrypt_ctx_sym_set_key_iv_random(struct dcrypt_context_symmetric *ctx)
{
i_assert(dcrypt_vfs != NULL);
dcrypt_vfs->ctx_sym_set_key_iv_random(ctx);
}
bool dcrypt_ctx_sym_get_key(struct dcrypt_context_symmetric *ctx, buffer_t *key)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->ctx_sym_get_key(ctx, key);
}
bool dcrypt_ctx_sym_get_iv(struct dcrypt_context_symmetric *ctx, buffer_t *iv)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->ctx_sym_get_iv(ctx, iv);
}
unsigned int dcrypt_ctx_sym_get_key_length(struct dcrypt_context_symmetric *ctx)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->ctx_sym_get_key_length(ctx);
}
unsigned int dcrypt_ctx_sym_get_iv_length(struct dcrypt_context_symmetric *ctx)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->ctx_sym_get_iv_length(ctx);
}
void dcrypt_ctx_sym_set_aad(struct dcrypt_context_symmetric *ctx,
const unsigned char *aad, size_t aad_len)
{
i_assert(dcrypt_vfs != NULL);
dcrypt_vfs->ctx_sym_set_aad(ctx, aad, aad_len);
}
bool dcrypt_ctx_sym_get_aad(struct dcrypt_context_symmetric *ctx, buffer_t *aad)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->ctx_sym_get_aad(ctx, aad);
}
void dcrypt_ctx_sym_set_tag(struct dcrypt_context_symmetric *ctx,
const unsigned char *tag, size_t tag_len)
{
i_assert(dcrypt_vfs != NULL);
dcrypt_vfs->ctx_sym_set_tag(ctx, tag, tag_len);
}
bool dcrypt_ctx_sym_get_tag(struct dcrypt_context_symmetric *ctx, buffer_t *tag)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->ctx_sym_get_tag(ctx, tag);
}
unsigned int dcrypt_ctx_sym_get_block_size(struct dcrypt_context_symmetric *ctx)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->ctx_sym_get_block_size(ctx);
}
bool dcrypt_ctx_sym_init(struct dcrypt_context_symmetric *ctx,
const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->ctx_sym_init(ctx, error_r);
}
bool dcrypt_ctx_sym_update(struct dcrypt_context_symmetric *ctx,
const unsigned char *data,
size_t data_len, buffer_t *result,
const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->ctx_sym_update(ctx, data, data_len, result, error_r);
}
bool dcrypt_ctx_sym_final(struct dcrypt_context_symmetric *ctx,
buffer_t *result, const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->ctx_sym_final(ctx, result, error_r);
}
void dcrypt_ctx_sym_set_padding(struct dcrypt_context_symmetric *ctx,
bool padding)
{
i_assert(dcrypt_vfs != NULL);
dcrypt_vfs->ctx_sym_set_padding(ctx, padding);
}
bool dcrypt_ctx_hmac_create(const char *algorithm,
struct dcrypt_context_hmac **ctx_r,
const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->ctx_hmac_create(algorithm, ctx_r, error_r);
}
void dcrypt_ctx_hmac_destroy(struct dcrypt_context_hmac **ctx)
{
i_assert(dcrypt_vfs != NULL);
dcrypt_vfs->ctx_hmac_destroy(ctx);
}
void dcrypt_ctx_hmac_set_key(struct dcrypt_context_hmac *ctx,
const unsigned char *key, size_t key_len)
{
i_assert(dcrypt_vfs != NULL);
dcrypt_vfs->ctx_hmac_set_key(ctx, key, key_len);
}
bool dcrypt_ctx_hmac_get_key(struct dcrypt_context_hmac *ctx, buffer_t *key)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->ctx_hmac_get_key(ctx, key);
}
void dcrypt_ctx_hmac_set_key_random(struct dcrypt_context_hmac *ctx)
{
i_assert(dcrypt_vfs != NULL);
dcrypt_vfs->ctx_hmac_set_key_random(ctx);
}
unsigned int dcrypt_ctx_hmac_get_digest_length(struct dcrypt_context_hmac *ctx)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->ctx_hmac_get_digest_length(ctx);
}
bool dcrypt_ctx_hmac_init(struct dcrypt_context_hmac *ctx, const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->ctx_hmac_init(ctx, error_r);
}
bool dcrypt_ctx_hmac_update(struct dcrypt_context_hmac *ctx,
const unsigned char *data, size_t data_len,
const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->ctx_hmac_update(ctx, data, data_len, error_r);
}
bool dcrypt_ctx_hmac_final(struct dcrypt_context_hmac *ctx, buffer_t *result,
const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->ctx_hmac_final(ctx, result, error_r);
}
bool dcrypt_ecdh_derive_secret(struct dcrypt_private_key *local_key,
struct dcrypt_public_key *pub_key,
buffer_t *shared_secret,
const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
if (dcrypt_vfs->ecdh_derive_secret == NULL) {
*error_r = "Not implemented";
return FALSE;
}
return dcrypt_vfs->ecdh_derive_secret(local_key, pub_key, shared_secret,
error_r);
}
bool dcrypt_ecdh_derive_secret_local(struct dcrypt_private_key *local_key,
buffer_t *R, buffer_t *S,
const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->ecdh_derive_secret_local(local_key, R, S, error_r);
}
bool dcrypt_ecdh_derive_secret_peer(struct dcrypt_public_key *peer_key,
buffer_t *R, buffer_t *S,
const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->ecdh_derive_secret_peer(peer_key, R, S, error_r);
}
bool dcrypt_pbkdf2(const unsigned char *password, size_t password_len,
const unsigned char *salt, size_t salt_len,
const char *hash, unsigned int rounds, buffer_t *result,
unsigned int result_len, const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->pbkdf2(password, password_len, salt, salt_len,
hash, rounds, result, result_len, error_r);
}
bool dcrypt_keypair_generate(struct dcrypt_keypair *pair_r,
enum dcrypt_key_type kind, unsigned int bits,
const char *curve, const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
i_zero(pair_r);
return dcrypt_vfs->generate_keypair(pair_r, kind, bits, curve, error_r);
}
bool dcrypt_key_load_private(struct dcrypt_private_key **key_r,
const char *data, const char *password,
struct dcrypt_private_key *dec_key,
const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->load_private_key(key_r, data, password,
dec_key, error_r);
}
bool dcrypt_key_load_public(struct dcrypt_public_key **key_r,
const char *data, const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->load_public_key(key_r, data, error_r);
}
bool dcrypt_key_store_private(struct dcrypt_private_key *key,
enum dcrypt_key_format format,
const char *cipher, buffer_t *destination,
const char *password,
struct dcrypt_public_key *enc_key,
const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->store_private_key(key, format, cipher,
destination, password, enc_key,
error_r);
}
bool dcrypt_key_store_public(struct dcrypt_public_key *key,
enum dcrypt_key_format format,
buffer_t *destination, const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->store_public_key(key, format, destination, error_r);
}
void dcrypt_key_convert_private_to_public(struct dcrypt_private_key *priv_key,
struct dcrypt_public_key **pub_key_r)
{
i_assert(dcrypt_vfs != NULL);
dcrypt_vfs->private_to_public_key(priv_key, pub_key_r);
}
bool dcrypt_key_string_get_info(const char *key_data,
enum dcrypt_key_format *format_r,
enum dcrypt_key_version *version_r,
enum dcrypt_key_kind *kind_r,
enum dcrypt_key_encryption_type *encryption_type_r,
const char **encryption_key_hash_r,
const char **key_hash_r, const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->
key_string_get_info(key_data, format_r, version_r, kind_r,
encryption_type_r, encryption_key_hash_r,
key_hash_r, error_r);
}
enum dcrypt_key_type dcrypt_key_type_private(struct dcrypt_private_key *key)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->private_key_type(key);
}
enum dcrypt_key_type dcrypt_key_type_public(struct dcrypt_public_key *key)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->public_key_type(key);
}
bool dcrypt_key_id_public(struct dcrypt_public_key *key, const char *algorithm,
buffer_t *result, const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->public_key_id(key, algorithm, result, error_r);
}
bool dcrypt_key_id_public_old(struct dcrypt_public_key *key, buffer_t *result,
const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->public_key_id_old(key, result, error_r);
}
bool dcrypt_key_id_private(struct dcrypt_private_key *key,
const char *algorithm, buffer_t *result,
const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->private_key_id(key, algorithm, result, error_r);
}
bool dcrypt_key_id_private_old(struct dcrypt_private_key *key, buffer_t *result,
const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->private_key_id_old(key, result, error_r);
}
void dcrypt_keypair_unref(struct dcrypt_keypair *keypair)
{
i_assert(dcrypt_vfs != NULL);
dcrypt_vfs->unref_keypair(keypair);
}
void dcrypt_key_ref_public(struct dcrypt_public_key *key)
{
i_assert(dcrypt_vfs != NULL);
dcrypt_vfs->ref_public_key(key);
}
void dcrypt_key_ref_private(struct dcrypt_private_key *key)
{
i_assert(dcrypt_vfs != NULL);
dcrypt_vfs->ref_private_key(key);
}
void dcrypt_key_unref_public(struct dcrypt_public_key **key)
{
i_assert(dcrypt_vfs != NULL);
dcrypt_vfs->unref_public_key(key);
}
void dcrypt_key_unref_private(struct dcrypt_private_key **key)
{
i_assert(dcrypt_vfs != NULL);
dcrypt_vfs->unref_private_key(key);
}
bool dcrypt_rsa_encrypt(struct dcrypt_public_key *key,
const unsigned char *data, size_t data_len,
buffer_t *result, enum dcrypt_padding padding,
const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->rsa_encrypt(key, data, data_len, result,
padding, error_r);
}
bool dcrypt_rsa_decrypt(struct dcrypt_private_key *key,
const unsigned char *data, size_t data_len,
buffer_t *result, enum dcrypt_padding padding,
const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->rsa_decrypt(key, data, data_len, result,
padding, error_r);
}
const char *dcrypt_oid2name(const unsigned char *oid, size_t oid_len,
const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->oid2name(oid, oid_len, error_r);
}
bool dcrypt_name2oid(const char *name, buffer_t *oid, const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
return dcrypt_vfs->name2oid(name, oid, error_r);
}
bool dcrypt_key_store_private_raw(struct dcrypt_private_key *key,
pool_t pool,
enum dcrypt_key_type *key_type_r,
ARRAY_TYPE(dcrypt_raw_key) *keys_r,
const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
if (dcrypt_vfs->key_store_private_raw == NULL) {
*error_r = "Not implemented";
return FALSE;
}
return dcrypt_vfs->key_store_private_raw(key, pool, key_type_r, keys_r,
error_r);
}
bool dcrypt_key_store_public_raw(struct dcrypt_public_key *key,
pool_t pool,
enum dcrypt_key_type *key_type_r,
ARRAY_TYPE(dcrypt_raw_key) *keys_r,
const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
if (dcrypt_vfs->key_store_public_raw == NULL) {
*error_r = "Not implemented";
return FALSE;
}
return dcrypt_vfs->key_store_public_raw(key, pool, key_type_r, keys_r,
error_r);
}
bool dcrypt_key_load_private_raw(struct dcrypt_private_key **key_r,
enum dcrypt_key_type key_type,
const ARRAY_TYPE(dcrypt_raw_key) *keys,
const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
if (dcrypt_vfs->key_load_private_raw == NULL) {
*error_r = "Not implemented";
return FALSE;
}
return dcrypt_vfs->key_load_private_raw(key_r, key_type, keys,
error_r);
}
bool dcrypt_key_load_public_raw(struct dcrypt_public_key **key_r,
enum dcrypt_key_type key_type,
const ARRAY_TYPE(dcrypt_raw_key) *keys,
const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
if (dcrypt_vfs->key_load_public_raw == NULL) {
*error_r = "Not implemented";
return FALSE;
}
return dcrypt_vfs->key_load_public_raw(key_r, key_type, keys,
error_r);
}
bool dcrypt_key_get_curve_public(struct dcrypt_public_key *key,
const char **curve_r, const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
if (dcrypt_vfs->key_get_curve_public == NULL) {
*error_r = "Not implemented";
return FALSE;
}
return dcrypt_vfs->key_get_curve_public(key, curve_r, error_r);
}
const char *dcrypt_key_get_id_public(struct dcrypt_public_key *key)
{
i_assert(dcrypt_vfs != NULL);
if (dcrypt_vfs->key_get_id_public == NULL)
return NULL;
return dcrypt_vfs->key_get_id_public(key);
}
const char *dcrypt_key_get_id_private(struct dcrypt_private_key *key)
{
i_assert(dcrypt_vfs != NULL);
if (dcrypt_vfs->key_get_id_private == NULL)
return NULL;
return dcrypt_vfs->key_get_id_private(key);
}
void dcrypt_key_set_id_public(struct dcrypt_public_key *key, const char *id)
{
i_assert(dcrypt_vfs != NULL);
if (dcrypt_vfs->key_set_id_public == NULL)
return;
dcrypt_vfs->key_set_id_public(key, id);
}
void dcrypt_key_set_id_private(struct dcrypt_private_key *key, const char *id)
{
i_assert(dcrypt_vfs != NULL);
if (dcrypt_vfs->key_set_id_private == NULL)
return;
dcrypt_vfs->key_set_id_private(key, id);
}
enum dcrypt_key_usage dcrypt_key_get_usage_public(struct dcrypt_public_key *key)
{
i_assert(dcrypt_vfs != NULL);
if (dcrypt_vfs->key_get_usage_public == NULL)
return DCRYPT_KEY_USAGE_NONE;
return dcrypt_vfs->key_get_usage_public(key);
}
enum dcrypt_key_usage dcrypt_key_get_usage_private(struct dcrypt_private_key *key)
{
i_assert(dcrypt_vfs != NULL);
if (dcrypt_vfs->key_get_usage_private == NULL)
return DCRYPT_KEY_USAGE_NONE;
return dcrypt_vfs->key_get_usage_private(key);
}
void dcrypt_key_set_usage_public(struct dcrypt_public_key *key,
enum dcrypt_key_usage usage)
{
i_assert(dcrypt_vfs != NULL);
if (dcrypt_vfs->key_set_usage_public == NULL)
return;
dcrypt_vfs->key_set_usage_public(key, usage);
}
void dcrypt_key_set_usage_private(struct dcrypt_private_key *key,
enum dcrypt_key_usage usage)
{
i_assert(dcrypt_vfs != NULL);
if (dcrypt_vfs->key_set_usage_private == NULL)
return;
dcrypt_vfs->key_set_usage_private(key, usage);
}
bool dcrypt_sign(struct dcrypt_private_key *key, const char *algorithm,
enum dcrypt_signature_format format,
const void *data, size_t data_len, buffer_t *signature_r,
enum dcrypt_padding padding, const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
if (dcrypt_vfs->sign == NULL) {
*error_r = "Not implemented";
return FALSE;
}
return dcrypt_vfs->sign(key, algorithm, format, data, data_len,
signature_r, padding, error_r);
}
bool dcrypt_verify(struct dcrypt_public_key *key, const char *algorithm,
enum dcrypt_signature_format format,
const void *data, size_t data_len,
const unsigned char *signature, size_t signature_len,
bool *valid_r, enum dcrypt_padding padding,
const char **error_r)
{
i_assert(dcrypt_vfs != NULL);
if (dcrypt_vfs->verify == NULL) {
*error_r = "Not implemented";
return FALSE;
}
return dcrypt_vfs->verify(key, algorithm, format, data, data_len,
signature, signature_len,
valid_r, padding, error_r);
}
int parse_jwk_key(const char *key_data, struct json_tree **tree_r,
const char **error_r)
{
struct istream *is = i_stream_create_from_data(key_data, strlen(key_data));
struct json_parser *parser = json_parser_init(is);
struct json_tree *tree = json_tree_init();
const char *error;
enum json_type type;
const char *value;
int ret;
i_stream_unref(&is);
while ((ret = json_parse_next(parser, &type, &value)) == 1)
json_tree_append(tree, type, value);
i_assert(ret == -1);
if (json_parser_deinit(&parser, &error) != 0) {
json_tree_deinit(&tree);
*error_r = error;
if (error == NULL)
*error_r = "Truncated JSON";
return -1;
}
*tree_r = tree;
return 0;
}
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