/*******************************************************************************
**
** Function smp_compute_csrk
**
** Description This function is called to calculate CSRK
**
**
** Returns void
**
*******************************************************************************/
void smp_compute_csrk(tSMP_CB *p_cb, tSMP_INT_DATA *p_data)
{
BT_OCTET16 er;
UINT8 buffer[4]; /* for (r || DIV) r=1*/
UINT16 r=1;
UINT8 *p=buffer;
tSMP_ENC output;
tSMP_STATUS status = SMP_PAIR_FAIL_UNKNOWN;
SMP_TRACE_DEBUG1 ("smp_compute_csrk div=%x", p_cb->div);
BTM_GetDeviceEncRoot(er);
/* CSRK = d1(ER, DIV, 1) */
UINT16_TO_STREAM(p, p_cb->div);
UINT16_TO_STREAM(p, r);
if (!SMP_Encrypt(er, BT_OCTET16_LEN, buffer, 4, &output))
{
SMP_TRACE_ERROR0("smp_generate_csrk failed");
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &status);
}
else
{
memcpy((void *)p_cb->csrk, output.param_buf, BT_OCTET16_LEN);
smp_send_csrk_info(p_cb, NULL);
}
}
/*******************************************************************************
**
** Function smp_rand_back
**
** Description This function is to process the rand command finished,
** process the random/encrypted number for further action.
**
** Returns void
**
*******************************************************************************/
static void smp_rand_back(tBTM_RAND_ENC *p)
{
tSMP_CB *p_cb = &smp_cb;
UINT8 *pp = p->param_buf;
UINT8 failure = SMP_PAIR_FAIL_UNKNOWN;
UINT8 state = p_cb->rand_enc_proc & ~0x80;
SMP_TRACE_DEBUG1 ("smp_rand_back state=0x%x", state);
if (p && p->status == HCI_SUCCESS)
{
switch (state)
{
case SMP_GEN_SRAND_MRAND:
memcpy((void *)p_cb->rand, p->param_buf, p->param_len);
smp_genenrate_rand_cont(p_cb, NULL);
break;
case SMP_GEN_SRAND_MRAND_CONT:
memcpy((void *)&p_cb->rand[8], p->param_buf, p->param_len);
smp_genenrate_confirm(p_cb, NULL);
break;
case SMP_GEN_DIV_LTK:
STREAM_TO_UINT16(p_cb->div, pp);
smp_genenrate_ltk_cont(p_cb, NULL);
break;
case SMP_GEN_DIV_CSRK:
STREAM_TO_UINT16(p_cb->div, pp);
smp_compute_csrk(p_cb, NULL);
break;
case SMP_GEN_TK:
smp_proc_passkey(p_cb, p);
break;
case SMP_GEN_RAND_V:
memcpy(p_cb->enc_rand, p->param_buf, BT_OCTET8_LEN);
smp_generate_y(p_cb, NULL);
break;
}
return;
}
SMP_TRACE_ERROR1("smp_rand_back Key generation failed: (%d)", p_cb->rand_enc_proc);
smp_sm_event(p_cb, SMP_AUTH_CMPL_EVT, &failure);
}
/*******************************************************************************
** Function smp_set_state
** Returns None
*******************************************************************************/
void smp_set_state(tSMP_STATE state)
{
if (state < SMP_ST_MAX)
{
SMP_TRACE_DEBUG4( "State change: %s(%d) ==> %s(%d)",
smp_get_state_name(smp_cb.state), smp_cb.state,
smp_get_state_name(state), state );
smp_cb.state = state;
}
else
{
SMP_TRACE_DEBUG1("smp_set_state invalid state =%d", state );
}
}
/*******************************************************************************
**
** Function smp_sm_event
**
** Description Handle events to the state machine. It looks up the entry
** in the smp_entry_table array.
** If it is a valid entry, it gets the state table.Set the next state,
** if not NULL state.Execute the action function according to the
** state table. If the state returned by action function is not NULL
** state, adjust the new state to the returned state.If (api_evt != MAX),
** call callback function.
**
** Returns void.
**
*******************************************************************************/
void smp_sm_event(tSMP_CB *p_cb, tSMP_EVENT event, void *p_data)
{
UINT8 curr_state = p_cb->state;
tSMP_SM_TBL state_table;
UINT8 action, entry, i;
tSMP_ENTRY_TBL entry_table = smp_entry_table[p_cb->role];
SMP_TRACE_EVENT0("main smp_sm_event");
if (curr_state >= SMP_ST_MAX)
{
SMP_TRACE_DEBUG1( "Invalid state: %d", curr_state) ;
return;
}
SMP_TRACE_DEBUG5( "SMP Role: %s State: [%s (%d)], Event: [%s (%d)]",\
(p_cb->role == 0x01) ?"Slave" : "Master", smp_get_state_name( p_cb->state),
p_cb->state, smp_get_event_name(event), event) ;
/* look up the state table for the current state */
/* lookup entry /w event & curr_state */
/* If entry is ignore, return.
* Otherwise, get state table (according to curr_state or all_state) */
if ( (entry = entry_table[event - 1][curr_state]) != SMP_SM_IGNORE )
{
if (entry & SMP_ALL_TBL_MASK)
{
entry &= ~SMP_ALL_TBL_MASK;
state_table = smp_all_table;
}
else
state_table = smp_state_table[curr_state][p_cb->role];
}
else
{
SMP_TRACE_DEBUG4( "Ignore event [%s (%d)] in state [%s (%d)]",
smp_get_event_name(event), event, smp_get_state_name(curr_state), curr_state);
return;
}
/* Get possible next state from state table. */
smp_set_state(state_table[entry-1][SMP_SME_NEXT_STATE]);
/* If action is not ignore, clear param, exec action and get next state.
* The action function may set the Param for cback.
* Depending on param, call cback or free buffer. */
/* execute action */
/* execute action functions */
for (i = 0; i < SMP_NUM_ACTIONS; i++)
{
if ((action = state_table[entry-1][i]) != SMP_SM_NO_ACTION)
{
(*smp_sm_action[action])(p_cb, (tSMP_INT_DATA *)p_data);
}
else
{
break;
}
}
SMP_TRACE_DEBUG1( "result state = %s", smp_get_state_name( p_cb->state ) ) ;
}
/*******************************************************************************
**
** Function smp_sm_event
**
** Description Handle events to the state machine. It looks up the entry
** in the smp_entry_table array.
** If it is a valid entry, it gets the state table.Set the next state,
** if not NULL state.Execute the action function according to the
** state table. If the state returned by action function is not NULL
** state, adjust the new state to the returned state.If (api_evt != MAX),
** call callback function.
**
** Returns void.
**
*******************************************************************************/
void smp_sm_event(tSMP_CB *p_cb, tSMP_EVENT event, void *p_data)
{
UINT8 curr_state = p_cb->state;
tSMP_SM_TBL state_table;
UINT8 action, entry, i;
tSMP_ENTRY_TBL entry_table = smp_entry_table[p_cb->role];
SMP_TRACE_EVENT0("main smp_sm_event");
if (curr_state >= SMP_ST_MAX)
{
SMP_TRACE_DEBUG1( "Invalid state: %d", curr_state) ;
return;
}
SMP_TRACE_DEBUG5( "SMP Role: %s State: [%s (%d)], Event: [%s (%d)]",\
(p_cb->role == 0x01) ?"Slave" : "Master", smp_get_state_name( p_cb->state),
p_cb->state, smp_get_event_name(event), event) ;
/* look up the state table for the current state */
/* lookup entry /w event & curr_state */
/* If entry is ignore, return.
* Otherwise, get state table (according to curr_state or all_state) */
if ((event < SMP_MAX_EVT) && ( (entry = entry_table[event - 1][curr_state]) != SMP_SM_IGNORE ))
{
if (entry & SMP_ALL_TBL_MASK)
{
entry &= ~SMP_ALL_TBL_MASK;
state_table = smp_all_table;
}
else
state_table = smp_state_table[curr_state][p_cb->role];
}
else
{
#ifdef BLUETOOTH_RTK
if(event == SMP_MASTER_ID_EVT && p_cb->state == SMP_ST_ENC_PENDING) {
SMP_TRACE_EVENT1("need to pending event(%d) until SMP_BOND_REQ_EVT", event);
master_id_pending.pending = TRUE;
master_id_pending.p_cb = p_cb;
master_id_pending.event = event;
master_id_pending.p_data = GKI_getbuf(sizeof(BT_OCTET16)+sizeof(BT_OCTET8));
memcpy(master_id_pending.p_data, p_data, sizeof(BT_OCTET16)+sizeof(BT_OCTET8));
} else if(event == SMP_ENCRPTION_INFO_EVT && p_cb->state == SMP_ST_ENC_PENDING) {
SMP_TRACE_EVENT1("need to pending event(%d) until SMP_BOND_REQ_EVT", event);
enc_info_pending.pending = TRUE;
enc_info_pending.p_cb = p_cb;
enc_info_pending.event = event;
enc_info_pending.p_data = GKI_getbuf(sizeof(BT_OCTET16));
memcpy(enc_info_pending.p_data, p_data, sizeof(BT_OCTET16));
} else
#endif
SMP_TRACE_DEBUG4( "Ignore event [%s (%d)] in state [%s (%d)]",
smp_get_event_name(event), event, smp_get_state_name(curr_state), curr_state);
return;
}
/* Get possible next state from state table. */
smp_set_state(state_table[entry-1][SMP_SME_NEXT_STATE]);
/* If action is not ignore, clear param, exec action and get next state.
* The action function may set the Param for cback.
* Depending on param, call cback or free buffer. */
/* execute action */
/* execute action functions */
for (i = 0; i < SMP_NUM_ACTIONS; i++)
{
if ((action = state_table[entry-1][i]) != SMP_SM_NO_ACTION)
{
(*smp_sm_action[action])(p_cb, (tSMP_INT_DATA *)p_data);
}
else
{
break;
}
}
SMP_TRACE_DEBUG1( "result state = %s", smp_get_state_name( p_cb->state ) ) ;
#ifdef BLUETOOTH_RTK
if(event == SMP_BOND_REQ_EVT && enc_info_pending.pending == TRUE) {
SMP_TRACE_EVENT0("to process pending event SMP_ENCRPTION_INFO_EVT");
smp_sm_event(enc_info_pending.p_cb, enc_info_pending.event, enc_info_pending.p_data);
enc_info_pending.pending = FALSE;
GKI_freebuf(enc_info_pending.p_data);
}
if(event == SMP_BOND_REQ_EVT && master_id_pending.pending == TRUE) {
SMP_TRACE_EVENT0("to process pending event SMP_ID_INFO_EVT");
smp_sm_event(master_id_pending.p_cb, master_id_pending.event, master_id_pending.p_data);
master_id_pending.pending = FALSE;
GKI_freebuf(master_id_pending.p_data);
}
if(event == SMP_L2CAP_CONN_EVT && p_cb->state == SMP_ST_IDLE) {
SMP_TRACE_EVENT0("clean enc_info_pending");
memset(&enc_info_pending, 0 , sizeof(enc_info_pending));
memset(&master_id_pending, 0 , sizeof(master_id_pending));
}
#endif
}
