On Fri, Jun 16, 2023 at 04:41:24PM +0300, Laurent Pinchart wrote: > Hi Tommaso, > > On Fri, Jun 16, 2023 at 12:20:16AM +0200, Tommaso Merciai wrote: > > On Thu, Jun 15, 2023 at 07:52:36PM +0300, Laurent Pinchart wrote: > > > On Thu, Jun 15, 2023 at 06:15:43PM +0200, Tommaso Merciai wrote: > > > > On Thu, Jun 15, 2023 at 02:00:46PM +0200, Hans de Goede wrote: > > > > > On 6/15/23 13:54, Tommaso Merciai wrote: > > > > > > On Thu, Jun 15, 2023 at 01:26:25PM +0200, Tommaso Merciai wrote: > > > > > >> On Thu, Jun 15, 2023 at 01:10:40PM +0200, Hans de Goede wrote: > > > > > >>> On 6/15/23 12:05, Tommaso Merciai wrote: > > > > > >>>> Hi Hans, Laurent, Sakari, > > > > > >>>> > > > > > >>>> Can I cherry-pick this patch and use these new functions also > > > > > >>>> for cci regs of the alvium driver? > > > > > >>> > > > > > >>> Yes that sounds like a good plan. > > > > > >>> > > > > > >>>> Are on going to be merge? > > > > > >>> > > > > > >>> Yes this will hopefully get merged upstream soon. > > > > > >> > > > > > >> Thanks for the info! > > > > > >> > > > > > >> I want to ask you your opinion about this: > > > > > >> > > > > > >> Into alvium driver actually I'm using the following defines > > > > > >> manipulations: > > > > > >> > > > > > >> #define REG_BCRM_REG_ADDR_R REG_BCRM_CCI_16BIT(0x0014) > > > > > >> > > > > > >> #define REG_BCRM_FEATURE_INQUIRY_R REG_BCRM_V4L2_64BIT(0x0008) > > > > > >> #define REG_BCRM_DEVICE_FIRMWARE_VERSION_R REG_BCRM_V4L2_64BIT(0x0010) > > > > > >> > > > > > >> My plan is to use your cci API for cci register in this way defines > > > > > >> became like: > > > > > >> > > > > > >> #define REG_BCRM_REG_ADDR_R CCI_REG16(0x0014) > > > > > >> > > > > > >> And leave v4l2 regs are it are right now: > > > > > >> > > > > > >> #define REG_BCRM_FEATURE_INQUIRY_R REG_BCRM_V4L2_64BIT(0x0008) > > > > > >> #define REG_BCRM_DEVICE_FIRMWARE_VERSION_R REG_BCRM_V4L2_64BIT(0x0010) > > > > > >> > > > > > >> What do you think about? > > > > > > > > > > > > Or maybe is worth don't use v4l2 bit for v4l2 regs, I think is implicit > > > > > > that what regs that are not CCI are v4l2, then we return wit the > > > > > > following defines: > > > > > > > > > > > > > > > > > > > > > > > > #define REG_BCRM_REG_ADDR_R CCI_REG16(0x0014) > > > > > > ^CCI regs > > > > > > > > > > > > #define REG_BCRM_FEATURE_INQUIRY_R 0x0008 > > > > > > #define REG_BCRM_DEVICE_FIRMWARE_VERSION_R 0x0010 > > > > > > ^v4l2 regs > > > > > > > > > > I'm not sure what you mean with "V4L2" registers ? I guess you mean > > > > > registers which cannot be accessed through the CCI helper functions, > > > > > but starting with v2 this is no longer true. There now is a CCI_REG64() > > > > > so you can simply use that. > > > > > > > > I'm playing a bit with v3 of your cci api :) > > > > > > > > My problem is the following, bcrm regs are not real regs but are offset > > > > from bcrm address (this is not fixed, it depends on the camera). > > > > > > > > Then the workflow is: > > > > > > > > - read bcrm_address (base address) > > > > - then sum this to the offset (regs) > > > > > > > > Myabe this clarify: > > > > > > > > static int alvium_read(struct alvium_dev *alvium, u32 reg, u64 *val) > > > > > > I would add a int *err argument to your read and write wrappers. > > > > > > Thanks for your hint! > > What about using: > > > > static int alvium_write(struct alvium_dev *alvium, u32 reg, u64 val) > > { > > if (reg & REG_BCRM_V4L2) { > > reg &= ~REG_BCRM_V4L2; > > reg += alvium->bcrm_addr; > > } > > > > return cci_write(alvium->regmap, reg, val, NULL); > > } > > > > Then: > > > > ret = alvium_write(alvium, reg, val); > > if (ret) { > > dev_err(dev, "Fail to write reg\n"); > > return ret; > > } > > > > > > I prefer to use this format if for you is ok. > > Let me know. > > This is fine when you have to write a single register only, but it makes > things more complicated when writing multiple registers. Consider this: > > int ret; > > ret = alvium_write(alvium, REG_A, val); > if (ret) > return ret; > > ret = alvium_write(alvium, REG_B, val); > if (ret) > return ret; > > ret = alvium_write(alvium, REG_C, val); > if (ret) > return ret; > > ret = alvium_write(alvium, REG_D, val); > if (ret) > return ret; > > return 0; > > and compare it to > > int ret = 0; > > alvium_write(alvium, REG_A, val, &ret); > alvium_write(alvium, REG_B, val, &ret); > alvium_write(alvium, REG_C, val, &ret); > alvium_write(alvium, REG_D, val, &ret); > > return ret; Is worth to add is also in alvium_write_hshake right? Regards, Tommaso > > > > > { > > > > int ret; > > > > > > > > if (reg & REG_BCRM_V4L2) > > > > reg += alvium->bcrm_addr; > > > > > > > > > > You should also clear the REG_BCRM_V4L2 bit here: > > > > > > if (reg & REG_BCRM_V4L2) { > > > reg &= ~REG_BCRM_V4L2; > > > reg += alvium->bcrm_addr; > > > } > > > > > > > cci_read(alvium->regmap, reg, val, &ret); > > > > if (ret) > > > > return ret; > > > > > > > > return 0; > > > > > > Just > > > > > > return cci_read(alvium->regmap, reg, val, err); > > > > > > Same for alvium_write().. > > > > > > > } > > > > > > > > int alvium_write(struct alvium_dev *alvium, u32 reg, u64 val) > > > > { > > > > int ret; > > > > > > > > if (reg & REG_BCRM_V4L2) > > > > reg += alvium->bcrm_addr; > > > > > > > > cci_write(alvium->regmap, reg, val, &ret); > > > > if (ret) > > > > return ret; > > > > > > > > return 0; > > > > } > > > > > > > > Where for example: > > > > > > > > #define REG_BCRM_V4L2 BIT(31) > > > > #define REG_BCRM_V4L2_64BIT(n) (REG_BCRM_V4L2 | CCI_REG64(n)) > > > > > > > > #define REG_BCRM_WRITE_HANDSHAKE_RW REG_BCRM_V4L2_8BIT(0x0418) > > > > > > > > > > > > But I'm not sure that I'm in the right direction. > > > > > > This looks good to me. > > > > > > The fact that both Hans' helpers and part of the Alvium camera registers > > > are named CCI is not a complete coincidence, but it doesn't mean they're > > > identical. I would thus keep the REG_BCRM_CCI_* macros for clarity, > > > simply defining them as CCI_* wrappers: > > > > > > #define REG_BCRM_V4L2_8BIT(n) CCI_REG8(n) > > > ... > > > > > > > In real I need first to get the real address then sum the bcrm_address > > > > if this is a bcrm regs(offset) then re-incapsule the address into the > > > > right CCI_REG# defines. > > > > > > > > Then I'm not completely sure that cci fits my use case. > > > > What do you think about? > > > > > > > > Btw really great work! :) > > > > > > > > > > ? > > > > > > > > > > > >>> Note I'm about to send out a v3 addressing some small > > > > > >>> remarks on this v2. I'll Cc you on that. > > > > > >> > > > > > >> Thanks, in this way I can test that and let you know my feedback. > > > > > >> > > > > > >>>> Let me know. > > > > > >>>> Thanks! :) > > > > > >>>> > > > > > >>>> On Thu, Jun 15, 2023 at 12:21:00PM +0300, Laurent Pinchart wrote: > > > > > >>>>> On Thu, Jun 15, 2023 at 11:11:20AM +0200, Hans de Goede wrote: > > > > > >>>>>> On 6/14/23 23:48, Sakari Ailus wrote: > > > > > >>>>>>> On Thu, Jun 15, 2023 at 12:34:29AM +0300, Laurent Pinchart wrote: > > > > > >>>>>>>> On Wed, Jun 14, 2023 at 08:39:56PM +0000, Sakari Ailus wrote: > > > > > >>>>>>>>> On Wed, Jun 14, 2023 at 09:23:39PM +0200, Hans de Goede wrote: > > > > > >>>>>>>>>> The CSI2 specification specifies a standard method to access camera sensor > > > > > >>>>>>>>>> registers called "Camera Control Interface (CCI)". > > > > > >>>>>>>>>> > > > > > >>>>>>>>>> This uses either 8 or 16 bit (big-endian wire order) register addresses > > > > > >>>>>>>>>> and supports 8, 16, 24 or 32 bit (big-endian wire order) register widths. > > > > > >>>>>>>>>> > > > > > >>>>>>>>>> Currently a lot of Linux camera sensor drivers all have their own custom > > > > > >>>>>>>>>> helpers for this, often copy and pasted from other drivers. > > > > > >>>>>>>>>> > > > > > >>>>>>>>>> Add a set of generic helpers for this so that all sensor drivers can > > > > > >>>>>>>>>> switch to a single common implementation. > > > > > >>>>>>>>>> > > > > > >>>>>>>>>> These helpers take an extra optional "int *err" function parameter, > > > > > >>>>>>>>>> this can be used to chain a bunch of register accesses together with > > > > > >>>>>>>>>> only a single error check at the end, rather then needing to error > > > > > >>>>>>>>>> check each individual register access. The first failing call will > > > > > >>>>>>>>>> set the contents of err to a non 0 value and all other calls will > > > > > >>>>>>>>>> then become no-ops. > > > > > >>>>>>>>>> > > > > > >>>>>>>>>> Link: https://lore.kernel.org/linux-media/59aefa7f-7bf9-6736-6040-39551329cd0a@xxxxxxxxxx/ > > > > > >>>>>>>>>> Signed-off-by: Hans de Goede <hdegoede@xxxxxxxxxx> > > > > > >>>>>>>>>> --- > > > > > >>>>>>>>>> Changes in v2: > > > > > >>>>>>>>>> - Drop cci_reg_type enum > > > > > >>>>>>>>>> - Make having an encoded reg-width mandatory rather then using 0 to encode > > > > > >>>>>>>>>> 8 bit width making reg-addresses without an encoded width default to > > > > > >>>>>>>>>> a width of 8 > > > > > >>>>>>>>>> - Add support for 64 bit wide registers > > > > > >>>>>>>> > > > > > >>>>>>>> I'm in two minds about this. This means that the read and write > > > > > >>>>>>>> functions take a u64 argument, which will be less efficient on 32-bit > > > > > >>>>>>>> platforms. I think it would be possible, with some macro magic, to > > > > > >>>>>>>> accept different argument sizes, but maybe that's a micro-optimization > > > > > >>>>>>>> that would actually result in worse code. > > > > > >>>>>>>> > > > > > >>>>>>>> 64-bit support could be useful, but as far as I can tell, it's not used > > > > > >>>>>>>> in this series, so maybe we could leave this for later ? > > > > > >>>>>>> > > > > > >>>>>>> I prefer to have it now, I just told Tommaso working on the Alvium driver > > > > > >>>>>>> to use this, and he needs 64-bit access. :-) > > > > > >>>>>>> > > > > > >>>>>>> You could also easily have 32-bit and 64-bit variant of the functions, with > > > > > >>>>>>> C11 _Generic(). Introducing it now would be easier than later. > > > > > >>>>>> > > > > > >>>>>> I took a quick look at C11 _Generic() and that looks at the type > > > > > >>>>>> of "things" so in this case it would look at type of the val argument. > > > > > >>>>>> > > > > > >>>>>> Problem is that that can still be e.g. an int when doing a > > > > > >>>>>> read/write from a 64 bit registers. > > > > > >>>>>> > > > > > >>>>>> So we would then need to handle the 64 bit width case in the 32 > > > > > >>>>>> bit versions of the functions too. > > > > > >>>>>> > > > > > >>>>>> And likewise I can see someone passing a long on a 64 bit > > > > > >>>>>> arch while doing a cci_write() to a non 64 bit register. > > > > > >>>>>> > > > > > >>>>>> So this would basically mean copy and pasting cci_read() > > > > > >>>>>> + cci_write() 2x with the only difference being one > > > > > >>>>>> variant taking a 32 bit val argument and the other a > > > > > >>>>>> 64 bit val argument. > > > > > >>>>>> > > > > > >>>>>> This seems like premature optimization to me. > > > > > >>>>>> > > > > > >>>>>> As mentioned in my reply to Laurent if we want to > > > > > >>>>>> optimize things we really should look at avoiding > > > > > >>>>>> unnecessary i2c transfers, or packing multiple > > > > > >>>>>> writes into a single i2c transfer for writes to > > > > > >>>>>> subsequent registers. That is where significant > > > > > >>>>>> speedups can be made. > > > > > >>>>> > > > > > >>>>> This is something I'd really like to see, but it's way more work. > > > > > >>>>> > > > > > >>>>> There's an important need of applying changes atomically, which is often > > > > > >>>>> not possible to strictly guarantee over I2C. Userspace ends up writing > > > > > >>>>> V4L2 controls as quickly as it can after the start of a frame, hoping > > > > > >>>>> they will all reach the sensor before the end of the frame. Some > > > > > >>>>> platforms have camera-specific I2C controllers that have the ability to > > > > > >>>>> buffer I2C transfers and issue them based on a hardware trigger. How to > > > > > >>>>> fit this in thé kernel I2C API will be an interesting exercise. > > -- > Regards, > > Laurent Pinchart