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|
/*
* rpc_client.c
* ------------
* Remote procedure call client-side private API implementation.
*
* Authors: Rob Austein, Paul Selkirk
* Copyright (c) 2015-2018, NORDUnet A/S All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
* - Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
*
* - Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* - Neither the name of the NORDUnet nor the names of its contributors may
* be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
* IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
* TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
* PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED
* TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "hal.h"
#include "hal_internal.h"
#include "xdr_internal.h"
#include "hashsig.h"
#ifndef HAL_RPC_CLIENT_DEBUG
#define HAL_RPC_CLIENT_DEBUG 0
#endif
#if HAL_RPC_CLIENT_DEBUG
#include <stdio.h>
#define check(op) do { const hal_error_t _err_ = (op); if (_err_ != HAL_OK) { hal_log(HAL_LOG_DEBUG, "%s returned %d (%s)", #op, _err_, hal_error_string(_err_)); return _err_; } } while (0)
#else
#define check(op) do { const hal_error_t _err_ = (op); if (_err_ != HAL_OK) { return _err_; } } while (0)
#endif
#define pad(n) (((n) + 3) & ~3)
#define nargs(n) ((n) * 4)
#if RPC_CLIENT != RPC_CLIENT_LOCAL
/*
* Consolidate a bit of the repetitive code from the packet receive loop.
* We're looking for a packet which is a response to the packet we sent,
* so if the opcode is wrong, we discard and wait for another packet.
*/
static hal_error_t read_matching_packet(const rpc_func_num_t expected_func,
uint8_t *inbuf,
const size_t inbuf_max,
const uint8_t **iptr,
const uint8_t **ilimit)
{
hal_client_handle_t dummy_client;
uint32_t received_func;
size_t ilen = inbuf_max;
hal_error_t err;
hal_assert(inbuf != NULL && iptr != NULL && ilimit != NULL);
do {
if ((err = hal_rpc_recv(inbuf, &ilen)) != HAL_OK)
return err;
hal_assert(ilen <= inbuf_max);
*iptr = inbuf;
*ilimit = inbuf + ilen;
if ((err = hal_xdr_decode_int(iptr, *ilimit, &received_func)) == HAL_ERROR_XDR_BUFFER_OVERFLOW)
continue;
if (err != HAL_OK)
return err;
if ((err = hal_xdr_decode_int(iptr, *ilimit, &dummy_client.handle)) == HAL_ERROR_XDR_BUFFER_OVERFLOW)
continue;
if (err != HAL_OK)
return err;
} while (received_func != expected_func);
return HAL_OK;
}
/*
* RPC calls.
*
* In reading these, it helps to know that every call takes a minimum
* of two arguments (function code and client handle, even if the
* latter is just a dummy), and that every call returns a minimum of
* three values (function code, client handle, and return status).
* This may seem a bit redundant, but There Are Reasons:
* read_matching_packet() wants to make sure the result we're getting
* is from the function we thought we called, and having the client
* handle always present in a known place vastly simplifies the task
* of the client-side MUX daemon.
*/
static hal_error_t get_version(uint32_t *version)
{
uint8_t outbuf[nargs(2)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(4)];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
hal_client_handle_t dummy_client = {0};
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_GET_VERSION));
check(hal_xdr_encode_int(&optr, olimit, dummy_client.handle));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_GET_VERSION, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
if (rpc_ret == HAL_OK) {
check(hal_xdr_decode_int(&iptr, ilimit, version));
}
return rpc_ret;
}
static hal_error_t get_random(void *buffer, const size_t length)
{
uint8_t outbuf[nargs(3)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(4) + pad(length)];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
size_t rcvlen = length;
hal_client_handle_t dummy_client = {0};
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_GET_RANDOM));
check(hal_xdr_encode_int(&optr, olimit, dummy_client.handle));
check(hal_xdr_encode_int(&optr, olimit, (uint32_t)length));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_GET_RANDOM, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
if (rpc_ret == HAL_OK) {
check(hal_xdr_decode_variable_opaque(&iptr, ilimit, buffer, &rcvlen));
// XXX check rcvlen vs length
}
return rpc_ret;
}
static hal_error_t set_pin(const hal_client_handle_t client,
const hal_user_t user,
const char * const pin, const size_t pin_len)
{
uint8_t outbuf[nargs(4) + pad(pin_len)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(3)];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_SET_PIN));
check(hal_xdr_encode_int(&optr, olimit, client.handle));
check(hal_xdr_encode_int(&optr, olimit, user));
check(hal_xdr_encode_variable_opaque(&optr, olimit, (const uint8_t *)pin, pin_len));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_SET_PIN, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
return rpc_ret;
}
/*
* We may end up wanting to wrap a client-side cache around the
* login()/logout()/logout_all() calls and reimplement is_logged_in()
* on the client side using that cache, so that access checks don't
* need to cross the RPC boundary. Then again, we might not, if the
* RPC call is fast enough, so implementing all before the RPC would
* qualify as premature optimization. There aren't all that many
* things on the client side that would use this anyway, so the whole
* question may be moot.
*
* For now, we leave all of these as plain RPC calls, but we may want
* to revisit this if the is_logged_in() call turns into a bottleneck.
*/
static hal_error_t login(const hal_client_handle_t client,
const hal_user_t user,
const char * const pin, const size_t pin_len)
{
uint8_t outbuf[nargs(4) + pad(pin_len)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(3)];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_LOGIN));
check(hal_xdr_encode_int(&optr, olimit, client.handle));
check(hal_xdr_encode_int(&optr, olimit, user));
check(hal_xdr_encode_variable_opaque(&optr, olimit, (const uint8_t *)pin, pin_len));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_LOGIN, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
return rpc_ret;
}
static hal_error_t logout(const hal_client_handle_t client)
{
uint8_t outbuf[nargs(2)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(3)];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_LOGOUT));
check(hal_xdr_encode_int(&optr, olimit, client.handle));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_LOGOUT, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
return rpc_ret;
}
static hal_error_t logout_all(void)
{
uint8_t outbuf[nargs(2)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(3)];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
hal_client_handle_t dummy_client = {0};
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_LOGOUT_ALL));
check(hal_xdr_encode_int(&optr, olimit, dummy_client.handle));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_LOGOUT_ALL, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
return rpc_ret;
}
static hal_error_t is_logged_in(const hal_client_handle_t client,
const hal_user_t user)
{
uint8_t outbuf[nargs(3)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(3)];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_IS_LOGGED_IN));
check(hal_xdr_encode_int(&optr, olimit, client.handle));
check(hal_xdr_encode_int(&optr, olimit, user));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_IS_LOGGED_IN, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
return rpc_ret;
}
static hal_error_t hash_get_digest_len(const hal_digest_algorithm_t alg, size_t *length)
{
uint8_t outbuf[nargs(3)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(4)];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
uint32_t len32;
hal_client_handle_t dummy_client = {0};
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_HASH_GET_DIGEST_LEN));
check(hal_xdr_encode_int(&optr, olimit, dummy_client.handle));
check(hal_xdr_encode_int(&optr, olimit, alg));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_HASH_GET_DIGEST_LEN, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
if (rpc_ret == HAL_OK) {
check(hal_xdr_decode_int(&iptr, ilimit, &len32));
*length = (size_t)len32;
}
return rpc_ret;
}
static hal_error_t hash_get_digest_algorithm_id(const hal_digest_algorithm_t alg,
uint8_t *id, size_t *len, const size_t len_max)
{
uint8_t outbuf[nargs(4)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(4) + pad(len_max)];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
hal_client_handle_t dummy_client = {0};
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_HASH_GET_DIGEST_ALGORITHM_ID));
check(hal_xdr_encode_int(&optr, olimit, dummy_client.handle));
check(hal_xdr_encode_int(&optr, olimit, alg));
check(hal_xdr_encode_int(&optr, olimit, len_max));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_HASH_GET_DIGEST_ALGORITHM_ID,
inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
if (rpc_ret == HAL_OK) {
*len = len_max;
check(hal_xdr_decode_variable_opaque(&iptr, ilimit, id, len));
}
return rpc_ret;
}
static hal_error_t hash_get_algorithm(const hal_hash_handle_t hash, hal_digest_algorithm_t *alg)
{
uint8_t outbuf[nargs(3)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(4)];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
uint32_t alg32;
hal_client_handle_t dummy_client = {0};
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_HASH_GET_ALGORITHM));
check(hal_xdr_encode_int(&optr, olimit, dummy_client.handle));
check(hal_xdr_encode_int(&optr, olimit, hash.handle));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_HASH_GET_ALGORITHM, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
if (rpc_ret == HAL_OK) {
check(hal_xdr_decode_int(&iptr, ilimit, &alg32));
*alg = (hal_digest_algorithm_t) alg32;
}
return rpc_ret;
}
static hal_error_t hash_initialize(const hal_client_handle_t client,
const hal_session_handle_t session,
hal_hash_handle_t *hash,
const hal_digest_algorithm_t alg,
const uint8_t * const key, const size_t key_len)
{
uint8_t outbuf[nargs(5) + pad(key_len)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(4)];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_HASH_INITIALIZE));
check(hal_xdr_encode_int(&optr, olimit, client.handle));
check(hal_xdr_encode_int(&optr, olimit, session.handle));
check(hal_xdr_encode_int(&optr, olimit, alg));
check(hal_xdr_encode_variable_opaque(&optr, olimit, key, key_len));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_HASH_INITIALIZE, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
if (rpc_ret == HAL_OK) {
check(hal_xdr_decode_int(&iptr, ilimit, &hash->handle));
}
return rpc_ret;
}
static hal_error_t hash_update(const hal_hash_handle_t hash,
const uint8_t * data, const size_t length)
{
uint8_t outbuf[nargs(4) + pad(length)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(3)];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
hal_client_handle_t dummy_client = {0};
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_HASH_UPDATE));
check(hal_xdr_encode_int(&optr, olimit, dummy_client.handle));
check(hal_xdr_encode_int(&optr, olimit, hash.handle));
check(hal_xdr_encode_variable_opaque(&optr, olimit, data, length));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_HASH_UPDATE, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
return rpc_ret;
}
static hal_error_t hash_finalize(const hal_hash_handle_t hash,
uint8_t *digest, const size_t length)
{
uint8_t outbuf[nargs(4)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(4) + pad(length)];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
size_t digest_len = length;
hal_client_handle_t dummy_client = {0};
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_HASH_FINALIZE));
check(hal_xdr_encode_int(&optr, olimit, dummy_client.handle));
check(hal_xdr_encode_int(&optr, olimit, hash.handle));
check(hal_xdr_encode_int(&optr, olimit, length));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_HASH_FINALIZE, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
if (rpc_ret == HAL_OK) {
check(hal_xdr_decode_variable_opaque(&iptr, ilimit, digest, &digest_len));
/* XXX check digest_len vs length */
}
return rpc_ret;
}
static hal_error_t pkey_remote_load(const hal_client_handle_t client,
const hal_session_handle_t session,
hal_pkey_handle_t *pkey,
hal_uuid_t *name,
const uint8_t * const der, const size_t der_len,
const hal_key_flags_t flags)
{
uint8_t outbuf[nargs(5) + pad(der_len)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(5) + pad(sizeof(name->uuid))];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
size_t name_len = sizeof(name->uuid);
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_PKEY_LOAD));
check(hal_xdr_encode_int(&optr, olimit, client.handle));
check(hal_xdr_encode_int(&optr, olimit, session.handle));
check(hal_xdr_encode_variable_opaque(&optr, olimit, der, der_len));
check(hal_xdr_encode_int(&optr, olimit, flags));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_PKEY_LOAD, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
if (rpc_ret == HAL_OK) {
check(hal_xdr_decode_int(&iptr, ilimit, &pkey->handle));
check(hal_xdr_decode_variable_opaque(&iptr, ilimit, name->uuid, &name_len));
if (name_len != sizeof(name->uuid))
return HAL_ERROR_KEY_NAME_TOO_LONG;
}
return rpc_ret;
}
static hal_error_t pkey_remote_open(const hal_client_handle_t client,
const hal_session_handle_t session,
hal_pkey_handle_t *pkey,
const hal_uuid_t * const name)
{
uint8_t outbuf[nargs(4) + pad(sizeof(name->uuid))], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(4)];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_PKEY_OPEN));
check(hal_xdr_encode_int(&optr, olimit, client.handle));
check(hal_xdr_encode_int(&optr, olimit, session.handle));
check(hal_xdr_encode_variable_opaque(&optr, olimit, name->uuid, sizeof(name->uuid)));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_PKEY_OPEN, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
if (rpc_ret == HAL_OK)
check(hal_xdr_decode_int(&iptr, ilimit, &pkey->handle));
return rpc_ret;
}
static hal_error_t pkey_remote_generate_rsa(const hal_client_handle_t client,
const hal_session_handle_t session,
hal_pkey_handle_t *pkey,
hal_uuid_t *name,
const unsigned key_len,
const uint8_t * const exp, const size_t exp_len,
const hal_key_flags_t flags)
{
uint8_t outbuf[nargs(6) + pad(exp_len)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(5) + pad(sizeof(name->uuid))];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
size_t name_len = sizeof(name->uuid);
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_PKEY_GENERATE_RSA));
check(hal_xdr_encode_int(&optr, olimit, client.handle));
check(hal_xdr_encode_int(&optr, olimit, session.handle));
check(hal_xdr_encode_int(&optr, olimit, key_len));
check(hal_xdr_encode_variable_opaque(&optr, olimit, exp, exp_len));
check(hal_xdr_encode_int(&optr, olimit, flags));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_PKEY_GENERATE_RSA, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
if (rpc_ret == HAL_OK) {
check(hal_xdr_decode_int(&iptr, ilimit, &pkey->handle));
check(hal_xdr_decode_variable_opaque(&iptr, ilimit, name->uuid, &name_len));
if (name_len != sizeof(name->uuid))
return HAL_ERROR_KEY_NAME_TOO_LONG;
}
return rpc_ret;
}
static hal_error_t pkey_remote_generate_ec(const hal_client_handle_t client,
const hal_session_handle_t session,
hal_pkey_handle_t *pkey,
hal_uuid_t *name,
const hal_curve_name_t curve,
const hal_key_flags_t flags)
{
uint8_t outbuf[nargs(5)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(5) + pad(sizeof(name->uuid))];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
size_t name_len = sizeof(name->uuid);
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_PKEY_GENERATE_EC));
check(hal_xdr_encode_int(&optr, olimit, client.handle));
check(hal_xdr_encode_int(&optr, olimit, session.handle));
check(hal_xdr_encode_int(&optr, olimit, curve));
check(hal_xdr_encode_int(&optr, olimit, flags));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_PKEY_GENERATE_EC, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
if (rpc_ret == HAL_OK) {
check(hal_xdr_decode_int(&iptr, ilimit, &pkey->handle));
check(hal_xdr_decode_variable_opaque(&iptr, ilimit, name->uuid, &name_len));
if (name_len != sizeof(name->uuid))
return HAL_ERROR_KEY_NAME_TOO_LONG;
}
return rpc_ret;
}
static hal_error_t pkey_remote_generate_hashsig(const hal_client_handle_t client,
const hal_session_handle_t session,
hal_pkey_handle_t *pkey,
hal_uuid_t *name,
const size_t hss_levels,
const lms_algorithm_t lms_type,
const lmots_algorithm_t lmots_type,
const hal_key_flags_t flags)
{
uint8_t outbuf[nargs(7)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(5) + pad(sizeof(name->uuid))];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
size_t name_len = sizeof(name->uuid);
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_PKEY_GENERATE_HASHSIG));
check(hal_xdr_encode_int(&optr, olimit, client.handle));
check(hal_xdr_encode_int(&optr, olimit, session.handle));
check(hal_xdr_encode_int(&optr, olimit, (uint32_t)hss_levels));
check(hal_xdr_encode_int(&optr, olimit, (uint32_t)lms_type));
check(hal_xdr_encode_int(&optr, olimit, (uint32_t)lmots_type));
check(hal_xdr_encode_int(&optr, olimit, flags));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_PKEY_GENERATE_HASHSIG, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
if (rpc_ret == HAL_OK) {
check(hal_xdr_decode_int(&iptr, ilimit, &pkey->handle));
check(hal_xdr_decode_variable_opaque(&iptr, ilimit, name->uuid, &name_len));
if (name_len != sizeof(name->uuid))
return HAL_ERROR_KEY_NAME_TOO_LONG;
}
return rpc_ret;
}
static hal_error_t pkey_remote_close(const hal_pkey_handle_t pkey)
{
uint8_t outbuf[nargs(3)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(3)];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
hal_client_handle_t dummy_client = {0};
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_PKEY_CLOSE));
check(hal_xdr_encode_int(&optr, olimit, dummy_client.handle));
check(hal_xdr_encode_int(&optr, olimit, pkey.handle));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_PKEY_CLOSE, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
return rpc_ret;
}
static hal_error_t pkey_remote_delete(const hal_pkey_handle_t pkey)
{
uint8_t outbuf[nargs(3)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(3)];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
hal_client_handle_t dummy_client = {0};
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_PKEY_DELETE));
check(hal_xdr_encode_int(&optr, olimit, dummy_client.handle));
check(hal_xdr_encode_int(&optr, olimit, pkey.handle));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_PKEY_DELETE, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
return rpc_ret;
}
static hal_error_t pkey_remote_get_key_type(const hal_pkey_handle_t pkey,
hal_key_type_t *type)
{
uint8_t outbuf[nargs(3)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(4)];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
uint32_t type32;
hal_client_handle_t dummy_client = {0};
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_PKEY_GET_KEY_TYPE));
check(hal_xdr_encode_int(&optr, olimit, dummy_client.handle));
check(hal_xdr_encode_int(&optr, olimit, pkey.handle));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_PKEY_GET_KEY_TYPE, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
if (rpc_ret == HAL_OK) {
check(hal_xdr_decode_int(&iptr, ilimit, &type32));
*type = (hal_key_type_t)type32;
}
return rpc_ret;
}
static hal_error_t pkey_remote_get_key_curve(const hal_pkey_handle_t pkey,
hal_curve_name_t *curve)
{
uint8_t outbuf[nargs(3)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(4)];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
uint32_t curve32;
hal_client_handle_t dummy_client = {0};
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_PKEY_GET_KEY_CURVE));
check(hal_xdr_encode_int(&optr, olimit, dummy_client.handle));
check(hal_xdr_encode_int(&optr, olimit, pkey.handle));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_PKEY_GET_KEY_CURVE, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
if (rpc_ret == HAL_OK) {
check(hal_xdr_decode_int(&iptr, ilimit, &curve32));
*curve = (hal_curve_name_t)curve32;
}
return rpc_ret;
}
static hal_error_t pkey_remote_get_key_flags(const hal_pkey_handle_t pkey,
hal_key_flags_t *flags)
{
uint8_t outbuf[nargs(3)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(4)];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
uint32_t flags32;
hal_client_handle_t dummy_client = {0};
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_PKEY_GET_KEY_FLAGS));
check(hal_xdr_encode_int(&optr, olimit, dummy_client.handle));
check(hal_xdr_encode_int(&optr, olimit, pkey.handle));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_PKEY_GET_KEY_FLAGS, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
if (rpc_ret == HAL_OK) {
check(hal_xdr_decode_int(&iptr, ilimit, &flags32));
*flags = (hal_key_flags_t)flags32;
}
return rpc_ret;
}
static size_t pkey_remote_get_public_key_len(const hal_pkey_handle_t pkey)
{
uint8_t outbuf[nargs(3)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(4)];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
uint32_t len32;
hal_client_handle_t dummy_client = {0};
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_PKEY_GET_PUBLIC_KEY_LEN));
check(hal_xdr_encode_int(&optr, olimit, dummy_client.handle));
check(hal_xdr_encode_int(&optr, olimit, pkey.handle));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_PKEY_GET_PUBLIC_KEY_LEN, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
if (rpc_ret == HAL_OK &&
hal_xdr_decode_int(&iptr, ilimit, &len32) == HAL_OK)
return (size_t)len32;
return 0;
}
static hal_error_t pkey_remote_get_public_key(const hal_pkey_handle_t pkey,
uint8_t *der, size_t *der_len, const size_t der_max)
{
uint8_t outbuf[nargs(4)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(4) + pad(der_max)];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
hal_client_handle_t dummy_client = {0};
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_PKEY_GET_PUBLIC_KEY));
check(hal_xdr_encode_int(&optr, olimit, dummy_client.handle));
check(hal_xdr_encode_int(&optr, olimit, pkey.handle));
check(hal_xdr_encode_int(&optr, olimit, der_max));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_PKEY_GET_PUBLIC_KEY, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
if (rpc_ret == HAL_OK) {
*der_len = der_max;
check(hal_xdr_decode_variable_opaque(&iptr, ilimit, der, der_len));
}
return rpc_ret;
}
static hal_error_t pkey_remote_sign(const hal_pkey_handle_t pkey,
const hal_hash_handle_t hash,
const uint8_t * const input, const size_t input_len,
uint8_t * signature, size_t *signature_len, const size_t signature_max)
{
uint8_t outbuf[nargs(6) + pad(input_len)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(4) + pad(signature_max)];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
hal_client_handle_t dummy_client = {0};
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_PKEY_SIGN));
check(hal_xdr_encode_int(&optr, olimit, dummy_client.handle));
check(hal_xdr_encode_int(&optr, olimit, pkey.handle));
check(hal_xdr_encode_int(&optr, olimit, hash.handle));
check(hal_xdr_encode_variable_opaque(&optr, olimit, input, input_len));
check(hal_xdr_encode_int(&optr, olimit, signature_max));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_PKEY_SIGN, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
if (rpc_ret == HAL_OK) {
*signature_len = signature_max;
check(hal_xdr_decode_variable_opaque(&iptr, ilimit, signature, signature_len));
}
return rpc_ret;
}
static hal_error_t pkey_remote_verify(const hal_pkey_handle_t pkey,
const hal_hash_handle_t hash,
const uint8_t * const input, const size_t input_len,
const uint8_t * const signature, const size_t signature_len)
{
uint8_t outbuf[nargs(6) + pad(input_len) + pad(signature_len)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(3)];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
hal_client_handle_t dummy_client = {0};
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_PKEY_VERIFY));
check(hal_xdr_encode_int(&optr, olimit, dummy_client.handle));
check(hal_xdr_encode_int(&optr, olimit, pkey.handle));
check(hal_xdr_encode_int(&optr, olimit, hash.handle));
check(hal_xdr_encode_variable_opaque(&optr, olimit, input, input_len));
check(hal_xdr_encode_variable_opaque(&optr, olimit, signature, signature_len));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_PKEY_VERIFY, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
return rpc_ret;
}
static hal_error_t pkey_remote_match(const hal_client_handle_t client,
const hal_session_handle_t session,
const hal_key_type_t type,
const hal_curve_name_t curve,
const hal_key_flags_t mask,
const hal_key_flags_t flags,
const hal_pkey_attribute_t *attributes,
const unsigned attributes_len,
unsigned *state,
hal_uuid_t *result,
unsigned *result_len,
const unsigned result_max,
const hal_uuid_t * const previous_uuid)
{
size_t attributes_buffer_len = 0;
if (attributes != NULL)
for (int i = 0; i < attributes_len; i++)
attributes_buffer_len += pad(attributes[i].length);
uint8_t outbuf[nargs(11 + attributes_len * 2) + attributes_buffer_len + pad(sizeof(hal_uuid_t))];
uint8_t *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(5 + result_max) + pad(result_max * sizeof(hal_uuid_t))];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_PKEY_MATCH));
check(hal_xdr_encode_int(&optr, olimit, client.handle));
check(hal_xdr_encode_int(&optr, olimit, session.handle));
check(hal_xdr_encode_int(&optr, olimit, type));
check(hal_xdr_encode_int(&optr, olimit, curve));
check(hal_xdr_encode_int(&optr, olimit, mask));
check(hal_xdr_encode_int(&optr, olimit, flags));
check(hal_xdr_encode_int(&optr, olimit, attributes_len));
if (attributes != NULL) {
for (int i = 0; i < attributes_len; i++) {
check(hal_xdr_encode_int(&optr, olimit, attributes[i].type));
check(hal_xdr_encode_variable_opaque(&optr, olimit, attributes[i].value, attributes[i].length));
}
}
check(hal_xdr_encode_int(&optr, olimit, *state));
check(hal_xdr_encode_int(&optr, olimit, result_max));
check(hal_xdr_encode_variable_opaque(&optr, olimit, previous_uuid->uuid, sizeof(previous_uuid->uuid)));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_PKEY_MATCH, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
if (rpc_ret == HAL_OK) {
uint32_t array_len, ustate;
*result_len = 0;
check(hal_xdr_decode_int(&iptr, ilimit, &ustate));
*state = ustate;
check(hal_xdr_decode_int(&iptr, ilimit, &array_len));
for (int i = 0; i < array_len; ++i) {
size_t uuid_len = sizeof(result[i].uuid);
check(hal_xdr_decode_variable_opaque(&iptr, ilimit, result[i].uuid, &uuid_len));
if (uuid_len != sizeof(result[i].uuid))
return HAL_ERROR_KEY_NAME_TOO_LONG;
}
*result_len = array_len;
}
return rpc_ret;
}
static hal_error_t pkey_remote_set_attributes(const hal_pkey_handle_t pkey,
const hal_pkey_attribute_t *attributes,
const unsigned attributes_len)
{
size_t outbuf_len = nargs(4 + 2 * attributes_len);
for (int i = 0; i < attributes_len; i++)
outbuf_len += pad(attributes[i].length);
uint8_t outbuf[outbuf_len], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(3)];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
hal_client_handle_t dummy_client = {0};
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_PKEY_SET_ATTRIBUTES));
check(hal_xdr_encode_int(&optr, olimit, dummy_client.handle));
check(hal_xdr_encode_int(&optr, olimit, pkey.handle));
check(hal_xdr_encode_int(&optr, olimit, attributes_len));
for (int i = 0; i < attributes_len; i++) {
check(hal_xdr_encode_int(&optr, olimit, attributes[i].type));
if (attributes[i].length == HAL_PKEY_ATTRIBUTE_NIL)
check(hal_xdr_encode_int(&optr, olimit, HAL_PKEY_ATTRIBUTE_NIL));
else
check(hal_xdr_encode_variable_opaque(&optr, olimit, attributes[i].value, attributes[i].length));
}
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_PKEY_SET_ATTRIBUTES, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
return rpc_ret;
}
static hal_error_t pkey_remote_get_attributes(const hal_pkey_handle_t pkey,
hal_pkey_attribute_t *attributes,
const unsigned attributes_len,
uint8_t *attributes_buffer,
const size_t attributes_buffer_len)
{
/* inbuf[] here includes one extra word per attribute for padding */
uint8_t outbuf[nargs(5 + attributes_len)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(3 + 3 * attributes_len) + attributes_buffer_len];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
hal_client_handle_t dummy_client = {0};
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_PKEY_GET_ATTRIBUTES));
check(hal_xdr_encode_int(&optr, olimit, dummy_client.handle));
check(hal_xdr_encode_int(&optr, olimit, pkey.handle));
check(hal_xdr_encode_int(&optr, olimit, attributes_len));
for (int i = 0; i < attributes_len; i++)
check(hal_xdr_encode_int(&optr, olimit, attributes[i].type));
check(hal_xdr_encode_int(&optr, olimit, attributes_buffer_len));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_PKEY_GET_ATTRIBUTES, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
if (rpc_ret == HAL_OK) {
uint8_t *abuf = attributes_buffer;
uint32_t u32;
check(hal_xdr_decode_int(&iptr, ilimit, &u32));
if (u32 != attributes_len)
return HAL_ERROR_RPC_PROTOCOL_ERROR;
for (int i = 0; i < attributes_len; i++) {
check(hal_xdr_decode_int(&iptr, ilimit, &u32));
if (u32 != attributes[i].type)
return HAL_ERROR_RPC_PROTOCOL_ERROR;
if (attributes_buffer_len == 0) {
check(hal_xdr_decode_int(&iptr, ilimit, &u32));
attributes[i].value = NULL;
attributes[i].length = u32;
}
else {
size_t len = attributes_buffer + attributes_buffer_len - abuf;
check(hal_xdr_decode_variable_opaque(&iptr, ilimit, abuf, &len));
attributes[i].value = abuf;
attributes[i].length = len;
abuf += u32;
}
}
}
return rpc_ret;
}
static hal_error_t pkey_remote_export(const hal_pkey_handle_t pkey,
const hal_pkey_handle_t kekek,
uint8_t *pkcs8, size_t *pkcs8_len, const size_t pkcs8_max,
uint8_t *kek, size_t *kek_len, const size_t kek_max)
{
uint8_t outbuf[nargs(6)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(5) + pad(pkcs8_max) + pad(kek_max)];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
hal_client_handle_t dummy_client = {0};
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_PKEY_EXPORT));
check(hal_xdr_encode_int(&optr, olimit, dummy_client.handle));
check(hal_xdr_encode_int(&optr, olimit, pkey.handle));
check(hal_xdr_encode_int(&optr, olimit, kekek.handle));
check(hal_xdr_encode_int(&optr, olimit, pkcs8_max));
check(hal_xdr_encode_int(&optr, olimit, kek_max));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_PKEY_EXPORT, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
if (rpc_ret == HAL_OK) {
*pkcs8_len = pkcs8_max;
check(hal_xdr_decode_variable_opaque(&iptr, ilimit, pkcs8, pkcs8_len));
*kek_len = kek_max;
check(hal_xdr_decode_variable_opaque(&iptr, ilimit, kek, kek_len));
}
return rpc_ret;
}
static hal_error_t pkey_remote_import(const hal_client_handle_t client,
const hal_session_handle_t session,
hal_pkey_handle_t *pkey,
hal_uuid_t *name,
const hal_pkey_handle_t kekek,
const uint8_t * const pkcs8, const size_t pkcs8_len,
const uint8_t * const kek, const size_t kek_len,
const hal_key_flags_t flags)
{
uint8_t outbuf[nargs(7) + pad(pkcs8_len) + pad(kek_len)], *optr = outbuf, *olimit = outbuf + sizeof(outbuf);
uint8_t inbuf[nargs(5) + pad(sizeof(name->uuid))];
const uint8_t *iptr = inbuf, *ilimit = inbuf + sizeof(inbuf);
size_t name_len = sizeof(name->uuid);
hal_error_t rpc_ret;
check(hal_xdr_encode_int(&optr, olimit, RPC_FUNC_PKEY_IMPORT));
check(hal_xdr_encode_int(&optr, olimit, client.handle));
check(hal_xdr_encode_int(&optr, olimit, session.handle));
check(hal_xdr_encode_int(&optr, olimit, kekek.handle));
check(hal_xdr_encode_variable_opaque(&optr, olimit, pkcs8, pkcs8_len));
check(hal_xdr_encode_variable_opaque(&optr, olimit, kek, kek_len));
check(hal_xdr_encode_int(&optr, olimit, flags));
check(hal_rpc_send(outbuf, optr - outbuf));
check(read_matching_packet(RPC_FUNC_PKEY_IMPORT, inbuf, sizeof(inbuf), &iptr, &ilimit));
check(hal_xdr_decode_int(&iptr, ilimit, &rpc_ret));
if (rpc_ret == HAL_OK) {
check(hal_xdr_decode_int(&iptr, ilimit, &pkey->handle));
check(hal_xdr_decode_variable_opaque(&iptr, ilimit, name->uuid, &name_len));
if (name_len != sizeof(name->uuid))
return HAL_ERROR_KEY_NAME_TOO_LONG;
}
return rpc_ret;
}
#if RPC_CLIENT == RPC_CLIENT_MIXED
/*
* "Mixed" mode pkey operations, where the public key operation itself
* takes place on the HSM but the hashing takes place locally. If
* we're given a hash context in this case, it's local, so we have to
* pull the digest from the hash context and send that to the HSM.
*/
static hal_error_t pkey_mixed_sign(const hal_pkey_handle_t pkey,
const hal_hash_handle_t hash,
const uint8_t * const input, const size_t input_len,
uint8_t * signature, size_t *signature_len, const size_t signature_max)
{
if (input != NULL)
return hal_rpc_remote_pkey_dispatch.sign(pkey, hash, input, input_len,
signature, signature_len, signature_max);
hal_digest_algorithm_t alg;
hal_key_type_t pkey_type;
size_t digest_len;
hal_error_t err;
if ((err = hal_rpc_hash_get_algorithm(hash, &alg)) != HAL_OK ||
(err = hal_rpc_hash_get_digest_length(alg, &digest_len)) != HAL_OK ||
(err = hal_rpc_pkey_get_key_type(pkey, &pkey_type)) != HAL_OK)
return err;
uint8_t digest[digest_len > signature_max ? digest_len : signature_max];
switch (pkey_type) {
case HAL_KEY_TYPE_RSA_PRIVATE:
case HAL_KEY_TYPE_RSA_PUBLIC:
if ((err = hal_rpc_pkcs1_construct_digestinfo(hash, digest, &digest_len, sizeof(digest))) != HAL_OK)
return err;
break;
default:
if ((err = hal_rpc_hash_finalize(hash, digest, digest_len)) != HAL_OK)
return err;
}
return hal_rpc_remote_pkey_dispatch.sign(pkey, hal_hash_handle_none, digest, digest_len,
signature, signature_len, signature_max);
}
static hal_error_t pkey_mixed_verify(const hal_pkey_handle_t pkey,
const hal_hash_handle_t hash,
const uint8_t * const input, const size_t input_len,
const uint8_t * const signature, const size_t signature_len)
{
if (input != NULL)
return hal_rpc_remote_pkey_dispatch.verify(pkey, hash, input, input_len,
signature, signature_len);
hal_digest_algorithm_t alg;
hal_key_type_t pkey_type;
size_t digest_len;
hal_error_t err;
if ((err = hal_rpc_hash_get_algorithm(hash, &alg)) != HAL_OK ||
(err = hal_rpc_hash_get_digest_length(alg, &digest_len)) != HAL_OK ||
(err = hal_rpc_pkey_get_key_type(pkey, &pkey_type)) != HAL_OK)
return err;
uint8_t digest[digest_len > signature_len ? digest_len : signature_len];
switch (pkey_type) {
case HAL_KEY_TYPE_RSA_PRIVATE:
case HAL_KEY_TYPE_RSA_PUBLIC:
if ((err = hal_rpc_pkcs1_construct_digestinfo(hash, digest, &digest_len, sizeof(digest))) != HAL_OK)
return err;
break;
default:
if ((err = hal_rpc_hash_finalize(hash, digest, digest_len)) != HAL_OK)
return err;
}
return hal_rpc_remote_pkey_dispatch.verify(pkey, hal_hash_handle_none,
digest, digest_len, signature, signature_len);
}
#endif /* RPC_CLIENT == RPC_CLIENT_MIXED */
/*
* Dispatch vectors.
*/
const hal_rpc_misc_dispatch_t hal_rpc_remote_misc_dispatch = {
.set_pin = set_pin,
.login = login,
.logout = logout,
.logout_all = logout_all,
.is_logged_in = is_logged_in,
.get_random = get_random,
.get_version = get_version
};
const hal_rpc_hash_dispatch_t hal_rpc_remote_hash_dispatch = {
.get_digest_length = hash_get_digest_len,
.get_digest_algorithm_id = hash_get_digest_algorithm_id,
.get_algorithm = hash_get_algorithm,
.initialize = hash_initialize,
.update = hash_update,
.finalize = hash_finalize
};
const hal_rpc_pkey_dispatch_t hal_rpc_remote_pkey_dispatch = {
.load = pkey_remote_load,
.open = pkey_remote_open,
.generate_rsa = pkey_remote_generate_rsa,
.generate_ec = pkey_remote_generate_ec,
.generate_hashsig = pkey_remote_generate_hashsig,
.close = pkey_remote_close,
.delete = pkey_remote_delete,
.get_key_type = pkey_remote_get_key_type,
.get_key_curve = pkey_remote_get_key_curve,
.get_key_flags = pkey_remote_get_key_flags,
.get_public_key_len = pkey_remote_get_public_key_len,
.get_public_key = pkey_remote_get_public_key,
.sign = pkey_remote_sign,
.verify = pkey_remote_verify,
.match = pkey_remote_match,
.set_attributes = pkey_remote_set_attributes,
.get_attributes = pkey_remote_get_attributes,
.export = pkey_remote_export,
.import = pkey_remote_import
};
#if RPC_CLIENT == RPC_CLIENT_MIXED
const hal_rpc_pkey_dispatch_t hal_rpc_mixed_pkey_dispatch = {
.load = pkey_remote_load,
.open = pkey_remote_open,
.generate_rsa = pkey_remote_generate_rsa,
.generate_ec = pkey_remote_generate_ec,
.generate_hashsig = pkey_remote_generate_hashsig,
.close = pkey_remote_close,
.delete = pkey_remote_delete,
.get_key_type = pkey_remote_get_key_type,
.get_key_curve = pkey_remote_get_key_curve,
.get_key_flags = pkey_remote_get_key_flags,
.get_public_key_len = pkey_remote_get_public_key_len,
.get_public_key = pkey_remote_get_public_key,
.sign = pkey_mixed_sign,
.verify = pkey_mixed_verify,
.match = pkey_remote_match,
.set_attributes = pkey_remote_set_attributes,
.get_attributes = pkey_remote_get_attributes,
.export = pkey_remote_export,
.import = pkey_remote_import
};
#endif /* RPC_CLIENT == RPC_CLIENT_MIXED */
#endif /* RPC_CLIENT != RPC_CLIENT_LOCAL */
#if RPC_CLIENT == RPC_CLIENT_REMOTE
const hal_rpc_misc_dispatch_t * hal_rpc_misc_dispatch = &hal_rpc_remote_misc_dispatch;
const hal_rpc_hash_dispatch_t * hal_rpc_hash_dispatch = &hal_rpc_remote_hash_dispatch;
const hal_rpc_pkey_dispatch_t * hal_rpc_pkey_dispatch = &hal_rpc_remote_pkey_dispatch;
#endif
#if RPC_CLIENT == RPC_CLIENT_MIXED
const hal_rpc_misc_dispatch_t * hal_rpc_misc_dispatch = &hal_rpc_remote_misc_dispatch;
const hal_rpc_hash_dispatch_t * hal_rpc_hash_dispatch = &hal_rpc_local_hash_dispatch;
const hal_rpc_pkey_dispatch_t * hal_rpc_pkey_dispatch = &hal_rpc_mixed_pkey_dispatch;
#endif
hal_error_t hal_rpc_client_init(void)
{
#if RPC_CLIENT == RPC_CLIENT_LOCAL
return HAL_OK;
#else
return hal_rpc_client_transport_init();
#endif
}
hal_error_t hal_rpc_client_close(void)
{
#if RPC_CLIENT == RPC_CLIENT_LOCAL
return HAL_OK;
#else
return hal_rpc_client_transport_close();
#endif
}
/*
* Local variables:
* indent-tabs-mode: nil
* End:
*/
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