On 5/17/21 1:25 PM, Boris Brezillon wrote: > On Mon, 17 May 2021 11:24:25 +0200 > Patrice CHOTARD <patrice.chotard@xxxxxxxxxxx> wrote: > >> Hi Boris >> >> On 5/17/21 9:41 AM, Boris Brezillon wrote: >>> On Fri, 7 May 2021 15:17:54 +0200 >>> <patrice.chotard@xxxxxxxxxxx> wrote: >>> >>>> +/** >>>> + * spi_mem_poll_status() - Poll memory device status >>>> + * @mem: SPI memory device >>>> + * @op: the memory operation to execute >>>> + * @mask: status bitmask to ckeck >>>> + * @match: (status & mask) expected value >>>> + * @timeout_ms: timeout in milliseconds >>>> + * >>>> + * This function send a polling status request to the controller driver >>>> + * >>>> + * Return: 0 in case of success, -ETIMEDOUT in case of error, >>>> + * -EOPNOTSUPP if not supported. >>>> + */ >>>> +int spi_mem_poll_status(struct spi_mem *mem, >>>> + const struct spi_mem_op *op, >>>> + u16 mask, u16 match, u16 timeout_ms) >>> >>> Maybe you should pass a delay_us too, to poll the status at the right >>> rate in the SW-based case (can also be used by drivers if they need to >> >> Ok, i will add a polling_rate_us parameter to poll_status() callback, >> even if in STM32 driver case we will not use it, i agree it should be useful >> depending of driver's implementation. >> >>> configure the polling rate). You could also add an initial_delay_us to >>> avoid polling the status too early: an erase operation will take longer >>> than a write which will take longer than a read. No need to check the >>> status just after issuing the command, especially if the polling is >>> done in SW. Those 2 arguments should also be passed to the driver. >> >> Regarding the addition of an initial_delay_us. We got two solution: >> - use the same polling rate already used by read_poll_timeout() and >> set read_poll_timeout()'s sleep_before_read parameter to true (in our case 20 us >> will be used as initial delay and as polling rate). >> >> - add an udelay(initial_delay_us) or even better usleep_range(initial_delay_us, >> initial_delay_us + delta) before calling read_poll_timeout(). >> >> I imagine you prefer the second solution ? > > Yep, you might want to use udelay() when the delay is small and > usleep_range() otherwise. > >> >> By adding polling_rate_us and initial_delay_us parameters to >> spi_mem_poll_status(), it implies to update all spinand_wait() calls for >> different operations (reset, read page, write page, erase) with respective >> initial_delay_us/polling_rate_us values for spi_mem_poll_status()'s parameters. >> >> Can you provide adequate initial_delay_us and polling rate_us for each operation type ?. > > If I refer to the datasheets I have, > > tBERS (erase) 1ms to 4ms > tPROG 300us to 400us > tREAD 25us to 100us > > Let's assume we want to minimize the latency, I'd recommend dividing > the min value by 4 for the initial delay, and dividing it by 20 for the > poll delay, which gives: > > ERASE -> initial_delay = 250us, poll_delay = 50us > PROG -> initial_delay = 100us, poll_delay = 20us another remark, it should be: PROG -> initial_delay = 75 us (300 / 4) , poll_delay = 15us ( 300 / 20) Patrice > READ -> initial_delay = 6us, poll_delay = 5us > > Of course, that'd be even better if we were able to extract this > information from the NAND ID (or ONFI table), but I guess we can live > with those optimistic values in the meantime. >