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SubjectRe: [PATCH 1/5] drivers/misc: Support for RF interface device framework
Date
On Tuesday 18 June 2013, Akhil Goyal wrote:
> On 6/18/2013 2:58 AM, Arnd Bergmann wrote:
> >> + /*
> >> + * Spin_locks are changed to mutexes if PREEMPT_RT is enabled,
> >> + * i.e they can sleep. This fact is problem for us because
> >> + * add_wait_queue()/wake_up_all() takes wait queue spin lock.
> >> + * Since spin lock can sleep with PREEMPT_RT, wake_up_all() can not be
> >> + * called from rf_notify_dl_tti (which is called in interrupt context).
> >> + * As a workaround, wait_q_lock is used for protecting the wait_q and
> >> + * add_wait_queue_locked()/ wake_up_locked() functions of wait queues
> >> + * are used.
> >> + */
> >> + raw_spin_lock_irqsave(&rf_dev->wait_q_lock, flags);
> >> + __add_wait_queue_tail_exclusive(&rf_dev->wait_q,&wait);
> >> + raw_spin_unlock_irqrestore(&rf_dev->wait_q_lock, flags);
> >> + set_current_state(TASK_INTERRUPTIBLE);
> >> + /*Now wait here, tti notificaion will wake us up*/
> >> + schedule();
> >> + set_current_state(TASK_RUNNING);
> >> + raw_spin_lock_irqsave(&rf_dev->wait_q_lock, flags);
> >> + __remove_wait_queue(&rf_dev->wait_q,&wait);
> >> + raw_spin_unlock_irqrestore(&rf_dev->wait_q_lock, flags);
> >
> > This is not a proper method of waiting for an event. Why can't you
> > use wait_event() here?
> wait_event() is internally calling spin_lock_irqsave() and this function
> will be called in hard IRQ context with PREEMPT_RT enabled(IRQF_NODELAY
> set). So wait_event cannot be used.
> This problem can be solved if we can get the following patch applied on
> the tree.
> https://patchwork.kernel.org/patch/2161261/

I see. How about using wait_event here then and adding a comment about
the RT kernel?

> > The explanation about the interrupt handler seems incorrect, since PREEMPT_RT
> > also turns interrupt handlers into threads.
> The interrupt handler has real time requirement and thus running in
> HARDIRQ context with flag IRQF_NODELAY. We get this interrupt in every
> millisecond.

Ok. So there would be no problem without the RT patch set.

IRQF_NODELAY is specific to the RT kernel, so you can change the wait_event
function to something else in the same patch that adds this flag.
> >> +#define RF_MAGIC 0xEE
> >> +#define RIF_DEV_INIT _IOWR(RF_MAGIC, 1, struct rf_init_params)
> >> +#define RIF_SET_TIMER_SOURCE _IOW(RF_MAGIC, 2, unsigned int)
> >> +#define RIF_GET_STATE _IOR(RF_MAGIC, 3, unsigned int)
> >> +#define RIF_SET_TIMER_CORRECTION _IOW(RF_MAGIC, 4, struct rif_dac_params)
> >> +#define RIF_RUN_PHY_CMDS _IOW(RF_MAGIC, 5, struct rif_phy_cmd_set)
> >> +#define RIF_READ_RSSI _IOWR(RF_MAGIC, 6, struct rf_rssi)
> >> +#define RIF_READ_PHY_REGS _IOR(RF_MAGIC, 7, struct rif_reg_buf)
> >> +#define RIF_READ_CTRL_REGS _IOR(RF_MAGIC, 8, struct rif_reg_buf)
> >> +#define RIF_START _IO(RF_MAGIC, 9)
> >> +#define RIF_STOP _IO(RF_MAGIC, 10)
> >> +#define RIF_GET_DEV_INFO _IOWR(RF_MAGIC, 11, struct rf_dev_info)
> >> +#define RIF_WRITE_PHY_REGS _IOR(RF_MAGIC, 12, struct rif_write_reg_buf)
> >> +#define RIF_GET_DAC_VALUE _IOR(RF_MAGIC, 13, struct rif_dac_buf)
> >> +#define RIF_SET_TX_ATTEN _IOW(RF_MAGIC, 14, struct rf_tx_buf)
> >> +#define RIF_EN_DIS_TX _IOW(RF_MAGIC, 15, struct rf_tx_en_dis)
> >> +#define RIF_WRITE_CTRL_REGS _IOW(RF_MAGIC, 16, struct rif_write_reg_buf)
> >> +#define RIF_READ_RX_GAIN _IOWR(RF_MAGIC, 17, struct rf_rx_gain)
> >> +#define RIF_CONFIG_SNIFF _IOWR(RF_MAGIC, 18, struct rf_sniff_params)
> >> +#define RIF_WRITE_RX_GAIN _IOW(RF_MAGIC, 19, struct rf_rx_gain)
> >> +#define RIF_SET_GAIN_CTRL_MODE _IOW(RF_MAGIC, 20, struct rf_gain_ctrl)
> >> +#define RIF_INIT_SYNTH_TABLE _IOW(RF_MAGIC, 21, struct rf_synth_table)
> >> +#define RIF_CHANNEL_OPEN _IOW(RF_MAGIC, 22, struct rf_channel_params)
> >> +#define RIF_CHANNEL_CLOSE _IOW(RF_MAGIC, 23, unsigned int)
> >> +#define RIF_REGISTER_EVENT _IOW(RF_MAGIC, 24, struct rf_event_listener)
> >> +#define RIF_UNREGISTER_EVENT _IO(RF_MAGIC, 25)
> >
> > On the whole, the ioctl API looks very complex to me. It may well be that
> > the complexity is necessary, but I cannot tell because I don't understand
> > the subsystem. Can you find someone from another company that has hardware
> > which would use the same subsystem, and have them do a review of the API
> > to ensure it works for them as well?
> >
> Antenna controller is a Freescale designed hardware block in the BSC9131
> SOC. I am not aware of any other company which has similar kind of
> controller. I could not find any existing Antenna Controller Driver in
> kernel.
>
> AD9361 RF PHY is being used by other companies also but again there is
> no open source driver for that.
>
> This framework binds the Radio PHY and the Antenna Controller and expose
> the complete rf device(phy + controller) to the user space. Since I am
> not aware of other companies using similar hardware, I was hoping to get
> feedback about framework and APIs on the list itself.

Ok. I hope you can find someone else to provide a review of the API.

> Also I will try to explain more on the IOCTL APIs in the Documentation
> file that I have added in this patch.

Yes, that would be good.

Arnd


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