static KAL_INT32 eemcs_cdev_rx_callback(struct sk_buff *skb, KAL_UINT32 private_data)
{
CCCI_BUFF_T *p_cccih = NULL;
KAL_UINT32 port_id;
DEBUG_LOG_FUNCTION_ENTRY;
if (skb){
p_cccih = (CCCI_BUFF_T *)skb->data;
DBGLOG(CHAR, DBG, "cdev_rx_callback: CCCI_H(0x%x)(0x%x)(0x%x)(0x%x)",\
p_cccih->data[0],p_cccih->data[1],p_cccih->channel, p_cccih->reserved );
}
port_id = ccci_ch_to_port(p_cccih->channel);
if(CDEV_OPEN == atomic_read(&eemcs_cdev_inst.cdev_node[PORT2IDX(port_id)].cdev_state)){
skb_queue_tail(&eemcs_cdev_inst.cdev_node[PORT2IDX(port_id)].rx_skb_list, skb); /* spin_lock_ireqsave inside, refering skbuff.c */
atomic_inc(&eemcs_cdev_inst.cdev_node[PORT2IDX(port_id)].rx_pkt_cnt); /* increase rx_pkt_cnt */
eemcs_update_statistics_number(0, port_id, RX, QUEUE, \
atomic_read(&eemcs_cdev_inst.cdev_node[PORT2IDX(port_id)].rx_pkt_cnt));
wake_up(&eemcs_cdev_inst.cdev_node[PORT2IDX(port_id)].rx_waitq); /* wake up rx_waitq */
}else{
if(port_id != CCCI_PORT_MD_LOG) /* If port_id == CCCI_PORT_MD_LOG, skip drop info (request by ST team)*/
{
DBGLOG(CHAR, ERR, "!!! PKT DROP when cdev(%d) close", port_id);
}
dev_kfree_skb(skb);
eemcs_ccci_release_rx_skb(port_id, 1, skb);
eemcs_update_statistics(0, port_id, RX, DROP);
}
DEBUG_LOG_FUNCTION_LEAVE;
return KAL_SUCCESS ;
}
KAL_UINT32 ccci_ul_lb_queue(struct sk_buff *skb)
{
CCCI_BUFF_T *pccci_h;
KAL_UINT32 port_id;
KAL_UINT32 rx_qno;
ccci_port_cfg *ccci_port_info;
#ifdef _EEMCS_EXCEPTION_UT
ccci_expt_port_cfg *ccci_expt_port_info;
#endif
pccci_h = (CCCI_BUFF_T *)skb->data;
port_id = ccci_ch_to_port(pccci_h->channel);
DBGLOG(CCCI,DBG, "[CCCI_UT]=========tx_ch(%d) is mapped to PORT(%d)", pccci_h->channel, port_id);
#ifdef _EEMCS_EXCEPTION_UT
if(is_exception_mode(NULL))
{
ccci_expt_port_info = get_expt_port_info(port_id);
rx_qno = SDIO_RXQ(ccci_expt_port_info->expt_rxq_id);
}
else
#endif
{
ccci_port_info = ccci_get_port_info(port_id);
rx_qno = SDIO_RXQ(ccci_port_info->rxq_id);
}
DBGLOG(CCCI,DBG, "[CCCI_UT]=========Loopback Rxqno(%d)", rx_qno);
return rx_qno;
}
static KAL_INT32 eemcs_cdev_rx_callback(struct sk_buff *skb, KAL_UINT32 private_data)
{
CCCI_BUFF_T *p_cccih = NULL;
KAL_UINT32 port_id;
DEBUG_LOG_FUNCTION_ENTRY;
if (skb){
p_cccih = (CCCI_BUFF_T *)skb->data;
DBGLOG(CHAR, DBG, "cdev_rx_callback: CCCI_H(0x%08X, 0x%08X, %02d, 0x%08X",\
p_cccih->data[0],p_cccih->data[1],p_cccih->channel, p_cccih->reserved );
} else {
DEBUG_LOG_FUNCTION_LEAVE;
return KAL_SUCCESS;
}
port_id = ccci_ch_to_port(p_cccih->channel);
//if(CDEV_OPEN == atomic_read(&eemcs_cdev_inst.cdev_node[PORT2IDX(port_id)].cdev_state)) {
skb_queue_tail(&eemcs_cdev_inst.cdev_node[PORT2IDX(port_id)].rx_skb_list, skb); /* spin_lock_ireqsave inside, refering skbuff.c */
atomic_inc(&eemcs_cdev_inst.cdev_node[PORT2IDX(port_id)].rx_pkt_cnt); /* increase rx_pkt_cnt */
eemcs_update_statistics_number(0, port_id, RX, QUEUE, \
atomic_read(&eemcs_cdev_inst.cdev_node[PORT2IDX(port_id)].rx_pkt_cnt));
wake_up(&eemcs_cdev_inst.cdev_node[PORT2IDX(port_id)].rx_waitq); /* wake up rx_waitq */
#if 0
}else{
kal_bool is_valid_exception_tx_channel(CCCI_CHANNEL_T chn)
{
KAL_UINT32 port_id = 0;
port_id = ccci_ch_to_port(chn);
return is_valid_exception_port(port_id, false);
}
KAL_UINT32 eemcs_ccci_UL_write_room_release(CCCI_CHANNEL_T chn){
KAL_UINT32 port_id = 0;
KAL_UINT32 tx_queue_idx = 0;
port_id = ccci_ch_to_port(chn);
tx_queue_idx = ccci_port_info[port_id].txq_id;
atomic_dec(&ccci_port_info[port_id].reserve_space);
atomic_dec(&ccci_tx_waitq[tx_queue_idx].reserve_space);
return 0;
}
KAL_UINT32 eemcs_ccci_boot_UL_write_room_check(void)
{
KAL_UINT32 boot_port_id = 0;
KAL_UINT32 tx_queue_idx=0;
KAL_UINT32 ret = 0;
boot_port_id = ccci_ch_to_port(CH_CTRL_TX);
tx_queue_idx = ccci_port_info[boot_port_id].txq_id;
ret = hif_ul_swq_space(tx_queue_idx);
return ret;
}
KAL_UINT32 eemcs_ccci_unregister_callback(CCCI_CHANNEL_T chn) {
KAL_UINT32 port_id = 0;
DEBUG_LOG_FUNCTION_ENTRY;
DBGLOG(CCCI,DBG, "CCCI channel (%d) UNregister callback", chn);
port_id = ccci_ch_to_port(chn);
ccci_port_info[port_id].ch.rx_cb = NULL;
DEBUG_LOG_FUNCTION_LEAVE;
return KAL_SUCCESS;
}
KAL_UINT32 eemcs_ccci_register_callback(CCCI_CHANNEL_T chn, EEMCS_CCCI_CALLBACK func_ptr , KAL_UINT32 private_data) {
KAL_UINT32 port_id = 0;
DEBUG_LOG_FUNCTION_ENTRY;
port_id = ccci_ch_to_port(chn);
ccci_port_info[port_id].ch.rx_cb = func_ptr;
DBGLOG(CCCI, DBG, "PORT%d(ch%d) register rx callback", port_id, chn);
DEBUG_LOG_FUNCTION_LEAVE;
return KAL_SUCCESS;
}
KAL_UINT32 eemcs_ccci_UL_write_wait(CCCI_CHANNEL_T chn)
{
KAL_UINT32 port_id = 0;
KAL_UINT32 tx_queue_idx=0;
KAL_UINT32 ret = 0;
port_id = ccci_ch_to_port(chn);
tx_queue_idx = ccci_port_info[port_id].txq_id;
ret = wait_event_interruptible_exclusive(ccci_tx_waitq[tx_queue_idx].tx_waitq, (hif_ul_swq_space(tx_queue_idx) - atomic_read(&ccci_tx_waitq[tx_queue_idx].reserve_space) )> 0);
DBGLOG(CCCI, TRA, "ccci_write_wait: wakeup port%d, txq=%d, ret=%d", port_id, tx_queue_idx, ret);
return ret;
}
void ccci_ul_lb_channel(struct sk_buff *skb){
CCCI_BUFF_T *pccci_h;
KAL_UINT32 port_id, tx_ch, rx_ch;
pccci_h = (CCCI_BUFF_T *)skb->data;
port_id = ccci_ch_to_port(pccci_h->channel);
tx_ch = pccci_h->channel;
rx_ch = ccci_port_info[port_id].ch.rx;
pccci_h->channel = rx_ch;
DBGLOG(CCCI,DBG, "[CCCI_UT]=========PORT(%d) tx_ch(%d) LB to rx_ch(%d)",\
port_id, tx_ch, rx_ch);
if(KAL_SUCCESS == ccci_is_net_ch(tx_ch))
{
eccmni_swap(skb);
}
}
KAL_UINT32 eemcs_ccci_UL_write_room_alloc(CCCI_CHANNEL_T chn)
{
KAL_UINT32 port_id = 0;
KAL_UINT32 tx_queue_idx=0;
KAL_UINT32 ret = 0;
#ifdef __EEMCS_EXPT_SUPPORT__
EEMCS_EXCEPTION_STATE mode = EEMCS_EX_INVALID;
#endif
port_id = ccci_ch_to_port(chn);
#ifdef __EEMCS_EXPT_SUPPORT__
/*we just return 1 to bypass this check.
exception check will be taken when writing SKB to swq */
if(is_exception_mode(&mode))
{
return 1;
}
#endif
tx_queue_idx = ccci_port_info[port_id].txq_id;
// for poll
if(atomic_read(&ccci_port_info[port_id].reserve_space) >= 1){
DBGLOG(CCCI, TRA, "ccci_write_room_alloc: port%d write space has reserved",port_id);
return 1;
}
ret = hif_ul_swq_space(tx_queue_idx) - atomic_read(&ccci_tx_waitq[tx_queue_idx].reserve_space);
if (ret > 0){
atomic_inc(&ccci_port_info[port_id].reserve_space);
atomic_inc(&ccci_tx_waitq[tx_queue_idx].reserve_space);
} else {
DBGLOG(CCCI, INF, "ccci_write_room_alloc: port%d, tx_qlen=%d, resv=%d, ret=%d", \
port_id, mtlte_df_UL_pkt_in_swq(tx_queue_idx), atomic_read(&ccci_tx_waitq[tx_queue_idx].reserve_space), ret);
}
DBGLOG(CCCI, TRA, "ccci_write_room_alloc: txq=%d, size=%d",tx_queue_idx, ret);
return ret;
}
int ccci_df_to_ccci_callback(unsigned int rxq_no)
{
int ret, hc_ret;
bool is_xcmd = false;
struct sk_buff * skb = NULL;
CCCI_BUFF_T *ccci_h = NULL;
XBOOT_CMD *p_xcmd = NULL;
KAL_UINT32 port_id = CCCI_PORT_CTRL;
static KAL_UINT32 rx_err_cnt[CCCI_PORT_NUM_MAX] = {0};
#ifdef __EEMCS_EXPT_SUPPORT__
EEMCS_EXCEPTION_STATE mode = EEMCS_EX_INVALID;
#endif
#if defined (DBG_FEATURE_ADD_CCCI_SEQNO)
KAL_INT16 channel, seq_num, assert_bit;
#endif
DEBUG_LOG_FUNCTION_ENTRY;
/* Step 1. read skb from swq */
skb = hif_dl_read_swq(rxq_no);
if(skb == NULL) {
DBGLOG(CCCI, DBG, "ccci_df_to_ccci_callback read NULL skb on %d", rxq_no);
if(is_exception_mode(&mode))
return KAL_FAIL;
else
KAL_ASSERT(NULL != skb);
}
/* Step 2. call handle complete */
hc_ret = hif_dl_pkt_handle_complete(rxq_no);
KAL_ASSERT(0 == hc_ret);
wake_lock_timeout(&eemcs_wake_lock, HZ/2); // Using 0.5s wake lock
/* Step 3. buffer type */
if (rxq_no == RXQ_Q0) {
//is_xcmd = is_xboot_command(skb);
p_xcmd = (XBOOT_CMD *)skb->data;
if (p_xcmd->magic == (KAL_UINT32)MAGIC_MD_CMD) {
if (check_device_state() >= EEMCS_MOLY_HS_P1) {
DBGLOG(CCCI, ERR, "can't recv xBoot cmd when EEMCS state=%d", check_device_state());
} else {
is_xcmd = true;
}
}
}
if (is_xcmd) {
/* Step 4. callback to xBoot */
CDEV_LOG(port_id, CCCI, INF, "XBOOT_CMD: 0x%08X, 0x%08X, 0x%08X, 0x%08X",\
p_xcmd->magic, p_xcmd->msg_id, p_xcmd->status, p_xcmd->reserved[0]);
ret = ccci_port_info[port_id].ch.rx_cb(skb, 0);
} else {
ccci_h = (CCCI_BUFF_T *)skb->data;
port_id = ccci_ch_to_port(ccci_h->channel);
CDEV_LOG(port_id, CCCI, INF, "CCCI_H: 0x%08X, 0x%08X, 0x%08X, 0x%08X",\
ccci_h->data[0],ccci_h->data[1],ccci_h->channel, ccci_h->reserved);
/*check rx sequence number for expect*/
#if defined (DBG_FEATURE_ADD_CCCI_SEQNO)
channel = ccci_h->channel;
seq_num = ccci_h->seq_num;
assert_bit = ccci_h->assert_bit;
DBGLOG(CCCI, DBG, "Port%d CCCI_H: data[0]=0x%08X, data[1]=0x%08X, ch=0x%02X, seqno=0x%02X, assert=%d, resv=0x%08X(0x%08X, 0x%08X, 0x%08X)",\
port_id, ccci_h->data[0],ccci_h->data[1],ccci_h->channel, ccci_h->seq_num, \
ccci_h->assert_bit, ccci_h->reserved, channel, seq_num, assert_bit);
if(((seq_num - ccci_seqno_tbl[channel].seqno[RX]) & 0x7FFF) != 1 && assert_bit) {
DBGLOG(CCCI, ERR, "Port%d seqno out-of-order(0x%02X->0x%02X): data[0]=0x%08X, data[1]=0x%08X, ch=0x%02X, seqno=0x%02X, assert=%d, resv=0x%08X", \
port_id, seq_num, ccci_seqno_tbl[channel].seqno[RX], ccci_h->data[0], ccci_h->data[1], \
ccci_h->channel, ccci_h->seq_num, ccci_h->assert_bit, ccci_h->reserved);
hif_force_md_assert_swint();
}
ccci_seqno_tbl[channel].seqno[RX] = seq_num;
#endif
/* Step 4. callback to CCCI device */
if(NULL != ccci_port_info[port_id].ch.rx_cb){
#ifdef __EEMCS_EXPT_SUPPORT__
if(is_exception_mode(&mode))
{
if(!is_valid_exception_port(port_id, true))
{
ret = KAL_FAIL;
dev_kfree_skb(skb);
eemcs_ccci_release_rx_skb(port_id, 1, skb);
eemcs_expt_ccci_rx_drop(port_id);
DBGLOG(CCCI, ERR, "PKT DROP when PORT%d(rxq=%d) at md exception", \
port_id, rxq_no);
goto _end;
} else {
ret = ccci_port_info[port_id].ch.rx_cb(skb, 0);
}
}
else
#endif
{
ret = ccci_port_info[port_id].ch.rx_cb(skb, 0);
}
rx_err_cnt[port_id] = 0;
} else {
ret = KAL_FAIL;
dev_kfree_skb(skb);
eemcs_ccci_release_rx_skb(port_id, 1, skb);
if (rx_err_cnt[port_id]%20 == 0) {
DBGLOG(CCCI, ERR, "PKT DROP when PORT%d rx callback(ch=%d) not registered", \
port_id, ccci_h->channel);
}
rx_err_cnt[port_id]++;
eemcs_update_statistics(0, port_id, RX, DROP);
}
eemcs_update_statistics(0, port_id, RX, NORMAL);
}
_end:
DEBUG_LOG_FUNCTION_LEAVE;
return ret;
}
KAL_INT32 eemcs_ccci_boot_UL_write_skb_to_swq(struct sk_buff *skb)
{
XBOOT_CMD *p_xcmd = NULL;
KAL_UINT32 tx_queue_idx = 0;
KAL_INT32 ret = KAL_SUCCESS;
#ifdef __EEMCS_EXPT_SUPPORT__
ccci_expt_port_cfg *expt_port_info;
EEMCS_EXCEPTION_STATE mode = EEMCS_EX_INVALID;
#endif
DEBUG_LOG_FUNCTION_ENTRY;
// Use boot state, not EEMCS state
//if (check_device_state() < EEMCS_MOLY_HS_P1) {
if (eemcs_boot_get_state() < MD_ROM_BOOT_READY) {
if (NULL != skb){
p_xcmd = (XBOOT_CMD *)skb->data;
if (p_xcmd->magic == (unsigned int)MAGIC_MD_CMD_ACK) {
KAL_ASSERT(p_xcmd->msg_id < CMDID_MAX);
DBGLOG(CCCI, DBG, "XBOOT_CMD: [TX]0x%X, 0x%X, 0x%X, 0x%X",
p_xcmd->magic, p_xcmd->msg_id, p_xcmd->status, p_xcmd->reserved[0]);
} else {
KAL_ASSERT(skb->len > 0);
DBGLOG(CCCI, DBG, "XBOOT_BIN: get %dByte bin to md", skb->len);
}
} else {
DBGLOG(CCCI, WAR, "CH_CTRL_TX write NULL skb to kick DF process!");
}
#ifdef __EEMCS_EXPT_SUPPORT__
if(is_exception_mode(&mode))
{
if(is_valid_exception_tx_channel(CH_CTRL_TX))
{
expt_port_info = get_expt_port_info(ccci_ch_to_port(CH_CTRL_TX));
/* set exception TX Q*/
tx_queue_idx = expt_port_info->expt_txq_id;
DBGLOG(CCCI, DBG, "[EXPT]boot_write_skb_to_swq: ch=%d, txq=%d", CH_CTRL_TX, tx_queue_idx);
hif_ul_write_swq(tx_queue_idx, skb);
}
else
{
DBGLOG(CCCI, ERR, "[EXPT]Invalid exception channel(%d)", CH_CTRL_TX);
/*
* if KAL_FAIL is returned, skb is freed at device layer
* we don't have to free it here
*/
//eemcs_ex_ccci_tx_drop(ccci_ch_to_port(chn));
ret = KAL_FAIL;
}
}
else
#endif
{
tx_queue_idx = ccci_port_info[ccci_ch_to_port(CH_CTRL_TX)].txq_id;
hif_ul_write_swq(tx_queue_idx, skb);
}
} else {
eemcs_ccci_UL_write_skb_to_swq(CH_CTRL_TX, skb);
}
DEBUG_LOG_FUNCTION_LEAVE;
return ret;
}
KAL_INT32 eemcs_ccci_UL_write_skb_to_swq(CCCI_CHANNEL_T chn, struct sk_buff *skb)
{
//KAL_DBGPRINT(KAL, DBG_INFO,("====> %s, chn: %d\n", KAL_FUNC_NAME, chn)) ;
//return mtlte_df_UL_write_skb_to_swq(df_ul_ccci_ch_to_q[chn], skb) ;
CCCI_BUFF_T *pccci_h = NULL;
KAL_UINT32 tx_queue_idx;
KAL_INT32 ret = KAL_SUCCESS;
#ifdef __EEMCS_EXPT_SUPPORT__
ccci_expt_port_cfg *expt_port_info;
EEMCS_EXCEPTION_STATE mode = EEMCS_EX_INVALID;
#endif
KAL_UINT32 channel = 0;
bool force_md_assert_flag = false;
#if defined (DBG_FEATURE_ADD_CCCI_SEQNO)
KAL_UINT64 flag;
#endif
DEBUG_LOG_FUNCTION_ENTRY;
if(NULL != skb){
pccci_h = (CCCI_BUFF_T *)skb->data;
DBGLOG(CCCI, DBG, "[TX]CCCI_H: 0x%x, 0x%x, 0x%x, 0x%x",\
pccci_h->data[0], pccci_h->data[1], pccci_h->channel, pccci_h->reserved);
#if defined (DBG_FEATURE_ADD_CCCI_SEQNO)
channel = (pccci_h->channel)|(pccci_h->seq_num <<16)|(pccci_h->assert_bit <<31);
#else
channel = pccci_h->channel;
#endif
if (channel == CCCI_FORCE_RESET_MODEM_CHANNEL)
force_md_assert_flag = true;
//1. seperate data and ack packet for ccmni0&1 UL
#if defined (TDD_DL_DROP_SOLUTION2)
if ((chn != CH_NET1_TX) && (chn != CH_NET2_TX) && !force_md_assert_flag) {
KAL_ASSERT(pccci_h->channel == chn);
}
#else
KAL_ASSERT(pccci_h->channel == chn);
#endif
//2. ccci channel check
KAL_ASSERT(pccci_h->channel < CH_NUM_MAX || force_md_assert_flag);
//3. fs packet check: the value of reserve is less than fs_buf_max_num=5
if ((pccci_h->channel == CH_FS_TX) && (pccci_h->reserved > 0x4)) {
int *pdata = skb->data;
DBGLOG(CCCI, ERR, "[TX]FS: 0x%08x, 0x%08x, 0x%08x, 0x%08x, 0x%08x, 0x%08x, 0x%08x, 0x%08x",\
*pdata, *(pdata+1), *(pdata+2), *(pdata+3), *(pdata+4), *(pdata+5), *(pdata+6), *(pdata+7));
}
} else {
DBGLOG(CCCI, WAR, "CH%d write NULL skb to kick DF process!", chn);
}
if(force_md_assert_flag){
tx_queue_idx = 0;
hif_ul_write_swq(tx_queue_idx, skb);
}else{
#ifdef __EEMCS_EXPT_SUPPORT__
if(is_exception_mode(&mode))
{
if(is_valid_exception_tx_channel(chn))
{
/* add sequence number in ccci header */
#if defined (DBG_FEATURE_ADD_CCCI_SEQNO)
if (likely(pccci_h)) {
spin_lock_irqsave(&ccci_seqno_tbl[pccci_h->channel].tx_seqno_lock, flag);
pccci_h->seq_num = ccci_seqno_tbl[pccci_h->channel].seqno[TX]++;
pccci_h->assert_bit = 1; //why assert_bit=1 instead of assert_bit=0????
spin_unlock_irqrestore(&ccci_seqno_tbl[pccci_h->channel].tx_seqno_lock, flag);
DBGLOG(CCCI, DBG, "[TX] CH%d:ch=%d seq_num=(0x%02X->0x%02X) assert_bit=%d channel=0x%08X", chn, \
pccci_h->channel, pccci_h->seq_num, ccci_seqno_tbl[pccci_h->channel].seqno[TX], \
pccci_h->assert_bit, channel);
}
#endif
expt_port_info = get_expt_port_info(ccci_ch_to_port(chn));
/* set exception TX Q*/
tx_queue_idx = expt_port_info->expt_txq_id;
hif_ul_write_swq(tx_queue_idx, skb);
atomic_dec(&ccci_port_info[ccci_ch_to_port(chn)].reserve_space);
atomic_dec(&ccci_tx_waitq[tx_queue_idx].reserve_space);
eemcs_update_statistics(0, ccci_ch_to_port(chn), TX, NORMAL);
} else {
DBGLOG(CCCI, WAR, "[EXPT] Invalid exception channel(%d)!", chn);
/*
* if KAL_FAIL is returned, skb is freed at device layer
* we don't have to free it here
*/
//eemcs_ex_ccci_tx_drop(ccci_ch_to_port(chn));
ret = KAL_FAIL;
}
}
else
#endif
{
/* add sequence number in ccci header */
#if defined (DBG_FEATURE_ADD_CCCI_SEQNO)
if (likely(pccci_h)) {
spin_lock_irqsave(&ccci_seqno_tbl[pccci_h->channel].tx_seqno_lock, flag);
pccci_h->seq_num = ccci_seqno_tbl[pccci_h->channel].seqno[TX]++;
pccci_h->assert_bit = 1; //why assert_bit=1 instead of assert_bit=0????
spin_unlock_irqrestore(&ccci_seqno_tbl[pccci_h->channel].tx_seqno_lock, flag);
DBGLOG(CCCI, DBG, "[TX] CH%d:ch=%d seq_num=(0x%02X->0x%02X) assert_bit=%d channel=0x%08X", chn, \
pccci_h->channel, pccci_h->seq_num, ccci_seqno_tbl[pccci_h->channel].seqno[TX], \
pccci_h->assert_bit, channel);
}
#endif
tx_queue_idx = ccci_port_info[ccci_ch_to_port(chn)].txq_id;
hif_ul_write_swq(tx_queue_idx, skb);
atomic_dec(&ccci_port_info[ccci_ch_to_port(chn)].reserve_space);
atomic_dec(&ccci_tx_waitq[tx_queue_idx].reserve_space);
eemcs_update_statistics(0, ccci_ch_to_port(chn), TX, NORMAL);
}
}
DEBUG_LOG_FUNCTION_LEAVE;
return ret;
}
KAL_INT32 eemcs_ccci_UL_write_skb_to_swq(CCCI_CHANNEL_T chn, struct sk_buff *skb)
{
//KAL_DBGPRINT(KAL, DBG_INFO,("====> %s, chn: %d\n", KAL_FUNC_NAME, chn)) ;
//return mtlte_df_UL_write_skb_to_swq(df_ul_ccci_ch_to_q[chn], skb) ;
CCCI_BUFF_T *pccci_h = NULL;
KAL_UINT32 tx_queue_idx;
KAL_INT32 ret = KAL_SUCCESS;
#ifdef __EEMCS_EXPT_SUPPORT__
ccci_expt_port_cfg *expt_port_info;
EEMCS_EXCEPTION_STATE mode = EEMCS_EX_INVALID;
#endif
DEBUG_LOG_FUNCTION_ENTRY;
if(NULL != skb){
pccci_h = (CCCI_BUFF_T *)skb->data;
DBGLOG(CCCI, DBG, "[TX]CCCI_H: 0x%x, 0x%x, 0x%x, 0x%x",\
pccci_h->data[0], pccci_h->data[1], pccci_h->channel, pccci_h->reserved);
KAL_ASSERT(pccci_h->channel == chn);
KAL_ASSERT(pccci_h->channel < CH_NUM_MAX || pccci_h->channel == CCCI_FORCE_RESET_MODEM_CHANNEL);
}else{
DBGLOG(CCCI, WAR, "CH%d write NULL skb to kick DF process!", chn);
}
if(pccci_h->channel == CCCI_FORCE_RESET_MODEM_CHANNEL){
tx_queue_idx = 0;
hif_ul_write_swq(tx_queue_idx, skb);
}else{
#ifdef __EEMCS_EXPT_SUPPORT__
if(is_exception_mode(&mode))
{
if(is_valid_exception_tx_channel(chn))
{
expt_port_info = get_expt_port_info(ccci_ch_to_port(chn));
/* set exception TX Q*/
tx_queue_idx = expt_port_info->expt_txq_id;
DBGLOG(CCCI, DBG, "[EXPT] ccci_UL_write_skb_to_swq write skb to DF: ch=%d, txq=%d", chn, tx_queue_idx);
hif_ul_write_swq(tx_queue_idx, skb);
atomic_dec(&ccci_port_info[ccci_ch_to_port(chn)].reserve_space);
atomic_dec(&ccci_tx_waitq[tx_queue_idx].reserve_space);
eemcs_update_statistics(0, ccci_ch_to_port(chn), TX, NORMAL);
}
else
{
DBGLOG(CCCI, WAR, "[EXPT] Invalid exception channel(%d)!", chn);
/*
* if KAL_FAIL is returned, skb is freed at device layer
* we don't have to free it here
*/
//eemcs_ex_ccci_tx_drop(ccci_ch_to_port(chn));
ret = KAL_FAIL;
}
}
else
#endif
{
tx_queue_idx = ccci_port_info[ccci_ch_to_port(chn)].txq_id;
hif_ul_write_swq(tx_queue_idx, skb);
atomic_dec(&ccci_port_info[ccci_ch_to_port(chn)].reserve_space);
atomic_dec(&ccci_tx_waitq[tx_queue_idx].reserve_space);
eemcs_update_statistics(0, ccci_ch_to_port(chn), TX, NORMAL);
}
}
DEBUG_LOG_FUNCTION_LEAVE;
return ret;
}
int ccci_df_to_ccci_callback(unsigned int rxq_no)
{
int ret, hc_ret, is_xcmd;
struct sk_buff * skb = NULL;
CCCI_BUFF_T *ccci_h = NULL;
XBOOT_CMD *p_xcmd = NULL;
KAL_UINT32 port_id = 0;
#ifdef __EEMCS_EXPT_SUPPORT__
EEMCS_EXCEPTION_STATE mode = EEMCS_EX_INVALID;
#endif
DEBUG_LOG_FUNCTION_ENTRY;
/* Step 1. read skb from swq */
skb = hif_dl_read_swq(rxq_no);
if(skb == NULL) {
DBGLOG(CCCI, DBG, "ccci_df_to_ccci_callback read NULL skb on %d", rxq_no);
if(is_exception_mode(&mode))
return KAL_FAIL;
else
KAL_ASSERT(NULL != skb);
}
/* Step 2. call handle complete */
hc_ret = hif_dl_pkt_handle_complete(rxq_no);
KAL_ASSERT(0 == hc_ret);
DBGLOG(CCCI, DBG, "ccci_df_to_ccci_callback() rxq_no = %d", rxq_no);
/* Step 3. buffer type */
if (rxq_no == RXQ_Q0) {
is_xcmd = is_xboot_command(skb);
} else {
is_xcmd = false;
}
wake_lock_timeout(&eemcs_wake_lock, HZ); // Using 1s wake lock
if (is_xcmd == true) {
/* Step 4. callback to xBoot */
p_xcmd = (XBOOT_CMD *)skb->data;
KAL_ASSERT(p_xcmd->magic == (KAL_UINT32)MAGIC_MD_CMD);
if (NULL != ccci_port_info[CCCI_PORT_CTRL].ch.rx_cb){
DBGLOG(CCCI, DBG, "[CCCI][DF CALLBACK] XBOOT_CMD (0x%X)(0x%X)(0x%X)(0x%X)",\
p_xcmd->magic, p_xcmd->msg_id, p_xcmd->status, p_xcmd->reserved[0]);
#ifdef __EEMCS_EXPT_SUPPORT__
if(is_exception_mode(&mode))
{
if(!is_valid_exception_port(CCCI_PORT_CTRL, true))
{
ret = KAL_FAIL;
dev_kfree_skb(skb);
eemcs_expt_ccci_rx_drop(port_id);
DBGLOG(CCCI, ERR, "[CCCI] [DF CALLBACK] EXCEPTION MODE PKT DROPPED !! Q(%d) PORT(%d)", rxq_no, CCCI_PORT_CTRL);
goto _end;
}
else
{
ret = ccci_port_info[CCCI_PORT_CTRL].ch.rx_cb(skb, 0);
}
}
else
#endif
{
ret = ccci_port_info[CCCI_PORT_CTRL].ch.rx_cb(skb, 0);
}
} else {
ret = KAL_FAIL;
dev_kfree_skb(skb);
DBGLOG(CCCI, ERR, "[CCCI] !!! PKT DROP !!! ccci_df_to_ccci_callback xBoot not registered");
}
} else {
/* Step 4. callback to CCCI device */
ccci_h = (CCCI_BUFF_T *)skb->data;
KAL_ASSERT(ccci_h->channel < CH_NUM_MAX);
port_id = ccci_ch_to_port(ccci_h->channel);
if(NULL != ccci_port_info[port_id].ch.rx_cb){
DBGLOG(CCCI,DBG,"ccci_df_to_ccci_callback Rx packet CCCI_H(0x%x)(0x%x)(0x%x)(0x%x)",\
ccci_h->data[0],ccci_h->data[1],ccci_h->channel, ccci_h->reserved );
#ifdef __EEMCS_EXPT_SUPPORT__
if(is_exception_mode(&mode))
{
if(!is_valid_exception_port(port_id, true))
{
ret = KAL_FAIL;
dev_kfree_skb(skb);
eemcs_expt_ccci_rx_drop(port_id);
DBGLOG(CCCI, ERR, "[CCCI] [DF CALLBACK] EXCEPTION MODE PKT DROPPED !! Q(%d) PORT(%d)", rxq_no, port_id);
goto _end;
}
else
{
ret = ccci_port_info[port_id].ch.rx_cb(skb, 0);
}
}
else
#endif
{
ret = ccci_port_info[port_id].ch.rx_cb(skb, 0);
}
}else{
ret = KAL_FAIL;
dev_kfree_skb(skb);
DBGLOG(CCCI,ERR, "[CCCI] !!! PKT DROP !!! ccci_df_to_ccci_callback ccci_port(%d) channel Rx(%d) not registered", port_id, ccci_h->channel);
eemcs_update_statistics(0, port_id, RX, DROP);
}
eemcs_update_statistics(0, port_id, RX, NORMAL);
}
_end:
DEBUG_LOG_FUNCTION_LEAVE;
return ret;
}
