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zephyr/subsys/bluetooth/host/hci_ecc.c
Johan Hedberg 2975ca0754 Bluetooth: Kconfig: Rename CONFIG_BLUETOOTH_* to CONFIG_BT_* 
The API name space for Bluetooth is bt_* and BT_* so it makes sense to
align the Kconfig name space with this. The additional benefit is that
this also makes the names shorter. It is also in line with what Linux
uses for Bluetooth Kconfig entries.

Some Bluetooth-related Networking Kconfig defines are renamed as well
in order to be consistent, such as NET_L2_BLUETOOTH.

Signed-off-by: Johan Hedberg <johan.hedberg@intel.com>
2017-08-09 11:14:19 +03:00

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/**
* @file hci_ecc.c
* HCI ECC emulation
*/
/*
* Copyright (c) 2016 Intel Corporation
*
* SPDX-License-Identifier: Apache-2.0
*/
#include <zephyr.h>
#include <atomic.h>
#include <misc/stack.h>
#include <misc/byteorder.h>
#include <tinycrypt/constants.h>
#include <tinycrypt/utils.h>
#include <tinycrypt/ecc.h>
#include <tinycrypt/ecc_dh.h>
#include <bluetooth/bluetooth.h>
#include <bluetooth/conn.h>
#include <bluetooth/hci.h>
#include <bluetooth/hci_driver.h>
#define BT_DBG_ENABLED IS_ENABLED(CONFIG_BT_DEBUG_HCI_CORE)
#include "common/log.h"
#include "hci_ecc.h"
#ifdef CONFIG_BT_HCI_RAW
#include <bluetooth/hci_raw.h>
#include "hci_raw_internal.h"
#else
#include "hci_core.h"
#endif
static struct k_thread ecc_thread_data;
static BT_STACK_NOINIT(ecc_thread_stack, 1024);
/* based on Core Specification 4.2 Vol 3. Part H 2.3.5.6.1 */
static const u32_t debug_private_key[8] = {
0xcd3c1abd, 0x5899b8a6, 0xeb40b799, 0x4aff607b, 0xd2103f50, 0x74c9b3e3,
0xa3c55f38, 0x3f49f6d4
};
#if defined(CONFIG_BT_USE_DEBUG_KEYS)
static const u8_t debug_public_key[64] = {
0xe6, 0x9d, 0x35, 0x0e, 0x48, 0x01, 0x03, 0xcc, 0xdb, 0xfd, 0xf4, 0xac,
0x11, 0x91, 0xf4, 0xef, 0xb9, 0xa5, 0xf9, 0xe9, 0xa7, 0x83, 0x2c, 0x5e,
0x2c, 0xbe, 0x97, 0xf2, 0xd2, 0x03, 0xb0, 0x20, 0x8b, 0xd2, 0x89, 0x15,
0xd0, 0x8e, 0x1c, 0x74, 0x24, 0x30, 0xed, 0x8f, 0xc2, 0x45, 0x63, 0x76,
0x5c, 0x15, 0x52, 0x5a, 0xbf, 0x9a, 0x32, 0x63, 0x6d, 0xeb, 0x2a, 0x65,
0x49, 0x9c, 0x80, 0xdc
};
#endif
enum {
PENDING_PUB_KEY,
PENDING_DHKEY,
/* Total number of flags - must be at the end of the enum */
NUM_FLAGS,
};
static ATOMIC_DEFINE(flags, NUM_FLAGS);
static K_SEM_DEFINE(cmd_sem, 0, 1);
static struct {
u8_t private_key[32];
union {
u8_t pk[64];
u8_t dhkey[32];
};
} ecc;
static void send_cmd_status(u16_t opcode, u8_t status)
{
struct bt_hci_evt_cmd_status *evt;
struct bt_hci_evt_hdr *hdr;
struct net_buf *buf;
BT_DBG("opcode %x status %x", opcode, status);
buf = bt_buf_get_cmd_complete(K_FOREVER);
bt_buf_set_type(buf, BT_BUF_EVT);
hdr = net_buf_add(buf, sizeof(*hdr));
hdr->evt = BT_HCI_EVT_CMD_STATUS;
hdr->len = sizeof(*evt);
evt = net_buf_add(buf, sizeof(*evt));
evt->ncmd = 1;
evt->opcode = sys_cpu_to_le16(opcode);
evt->status = status;
bt_recv_prio(buf);
}
static u8_t generate_keys(void)
{
#if !defined(CONFIG_BT_USE_DEBUG_KEYS)
do {
int rc;
rc = uECC_make_key(ecc.pk, ecc.private_key, &curve_secp256r1);
if (rc == TC_CRYPTO_FAIL) {
BT_ERR("Failed to create ECC public/private pair");
return BT_HCI_ERR_UNSPECIFIED;
}
/* make sure generated key isn't debug key */
} while (memcmp(ecc.private_key, debug_private_key, 32) == 0);
#else
memcpy(&ecc.pk, debug_public_key, 64);
memcpy(ecc.private_key, debug_private_key, 32);
#endif
return 0;
}
static void emulate_le_p256_public_key_cmd(void)
{
struct bt_hci_evt_le_p256_public_key_complete *evt;
struct bt_hci_evt_le_meta_event *meta;
struct bt_hci_evt_hdr *hdr;
struct net_buf *buf;
u8_t status;
BT_DBG("");
status = generate_keys();
buf = bt_buf_get_rx(BT_BUF_EVT, K_FOREVER);
hdr = net_buf_add(buf, sizeof(*hdr));
hdr->evt = BT_HCI_EVT_LE_META_EVENT;
hdr->len = sizeof(*meta) + sizeof(*evt);
meta = net_buf_add(buf, sizeof(*meta));
meta->subevent = BT_HCI_EVT_LE_P256_PUBLIC_KEY_COMPLETE;
evt = net_buf_add(buf, sizeof(*evt));
evt->status = status;
if (status) {
memset(evt->key, 0, sizeof(evt->key));
} else {
/* Convert X and Y coordinates from big-endian (provided
* by crypto API) to little endian HCI.
*/
sys_memcpy_swap(evt->key, ecc.pk, 32);
sys_memcpy_swap(&evt->key[32], &ecc.pk[32], 32);
}
atomic_clear_bit(flags, PENDING_PUB_KEY);
bt_recv(buf);
}
static void emulate_le_generate_dhkey(void)
{
struct bt_hci_evt_le_generate_dhkey_complete *evt;
struct bt_hci_evt_le_meta_event *meta;
struct bt_hci_evt_hdr *hdr;
struct net_buf *buf;
int ret;
ret = uECC_valid_public_key(ecc.pk, &curve_secp256r1);
if (ret < 0) {
BT_ERR("public key is not valid (ret %d)", ret);
ret = TC_CRYPTO_FAIL;
} else {
ret = uECC_shared_secret(ecc.pk, ecc.private_key, ecc.dhkey,
&curve_secp256r1);
}
buf = bt_buf_get_rx(BT_BUF_EVT, K_FOREVER);
hdr = net_buf_add(buf, sizeof(*hdr));
hdr->evt = BT_HCI_EVT_LE_META_EVENT;
hdr->len = sizeof(*meta) + sizeof(*evt);
meta = net_buf_add(buf, sizeof(*meta));
meta->subevent = BT_HCI_EVT_LE_GENERATE_DHKEY_COMPLETE;
evt = net_buf_add(buf, sizeof(*evt));
if (ret == TC_CRYPTO_FAIL) {
evt->status = BT_HCI_ERR_UNSPECIFIED;
memset(evt->dhkey, 0, sizeof(evt->dhkey));
} else {
evt->status = 0;
/* Convert from big-endian (provided by crypto API) to
* little-endian HCI.
*/
sys_memcpy_swap(evt->dhkey, ecc.dhkey, sizeof(ecc.dhkey));
}
atomic_clear_bit(flags, PENDING_DHKEY);
bt_recv(buf);
}
static void ecc_thread(void *p1, void *p2, void *p3)
{
while (true) {
k_sem_take(&cmd_sem, K_FOREVER);
if (atomic_test_bit(flags, PENDING_PUB_KEY)) {
emulate_le_p256_public_key_cmd();
} else if (atomic_test_bit(flags, PENDING_DHKEY)) {
emulate_le_generate_dhkey();
} else {
__ASSERT(0, "Unhandled ECC command");
}
STACK_ANALYZE("ecc stack", ecc_thread_stack);
}
}
static void clear_ecc_events(struct net_buf *buf)
{
struct bt_hci_cp_le_set_event_mask *cmd;
cmd = (void *)buf->data + sizeof(struct bt_hci_cmd_hdr);
/*
* don't enable controller ECC events as those will be generated from
* emulation code
*/
cmd->events[0] &= ~0x80; /* LE Read Local P-256 PKey Compl */
cmd->events[1] &= ~0x01; /* LE Generate DHKey Compl Event */
}
static void le_gen_dhkey(struct net_buf *buf)
{
struct bt_hci_cp_le_generate_dhkey *cmd;
u8_t status;
if (atomic_test_bit(flags, PENDING_PUB_KEY)) {
status = BT_HCI_ERR_CMD_DISALLOWED;
goto send_status;
}
if (buf->len < sizeof(struct bt_hci_cp_le_generate_dhkey)) {
status = BT_HCI_ERR_INVALID_PARAM;
goto send_status;
}
if (atomic_test_and_set_bit(flags, PENDING_DHKEY)) {
status = BT_HCI_ERR_CMD_DISALLOWED;
goto send_status;
}
cmd = (void *)buf->data;
/* Convert X and Y coordinates from little-endian HCI to
* big-endian (expected by the crypto API).
*/
sys_memcpy_swap(ecc.pk, cmd->key, 32);
sys_memcpy_swap(&ecc.pk[32], &cmd->key[32], 32);
k_sem_give(&cmd_sem);
status = BT_HCI_ERR_SUCCESS;
send_status:
net_buf_unref(buf);
send_cmd_status(BT_HCI_OP_LE_GENERATE_DHKEY, status);
}
static void le_p256_pub_key(struct net_buf *buf)
{
u8_t status;
net_buf_unref(buf);
if (atomic_test_bit(flags, PENDING_DHKEY)) {
status = BT_HCI_ERR_CMD_DISALLOWED;
} else if (atomic_test_and_set_bit(flags, PENDING_PUB_KEY)) {
status = BT_HCI_ERR_CMD_DISALLOWED;
} else {
k_sem_give(&cmd_sem);
status = BT_HCI_ERR_SUCCESS;
}
send_cmd_status(BT_HCI_OP_LE_P256_PUBLIC_KEY, status);
}
int bt_hci_ecc_send(struct net_buf *buf)
{
if (bt_buf_get_type(buf) == BT_BUF_CMD) {
struct bt_hci_cmd_hdr *chdr = (void *)buf->data;
switch (sys_le16_to_cpu(chdr->opcode)) {
case BT_HCI_OP_LE_P256_PUBLIC_KEY:
net_buf_pull(buf, sizeof(*chdr));
le_p256_pub_key(buf);
return 0;
case BT_HCI_OP_LE_GENERATE_DHKEY:
net_buf_pull(buf, sizeof(*chdr));
le_gen_dhkey(buf);
return 0;
case BT_HCI_OP_LE_SET_EVENT_MASK:
clear_ecc_events(buf);
break;
default:
break;
}
}
return bt_dev.drv->send(buf);
}
int default_CSPRNG(u8_t *dst, unsigned int len)
{
return !bt_rand(dst, len);
}
void bt_hci_ecc_init(void)
{
k_thread_create(&ecc_thread_data, ecc_thread_stack,
K_THREAD_STACK_SIZEOF(ecc_thread_stack), ecc_thread,
NULL, NULL, NULL, K_PRIO_PREEMPT(10), 0, K_NO_WAIT);
}
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