Hi Nikita, > On 11/06/2013 03:19 PM, Lubomir Popov wrote: >> On 06-Nov-13 14:12, Nikita Kiryanov wrote: >>> In drivers/i2c/omap24xx_i2c.c there are a few checks that attempt to >>> detect unconfigured pads for the i2c bus in use. These checks are >>> all in the form of >>> >>> if (status == I2C_STAT_XRDY) { >>> printf("unconfigured pads\n"); >>> return -1; >>> } >>> >>> This check seems peculiar to me since the meaning of I2C_STAT_XRDY is >>> that new data is requested for transmission. Why is that indication that >>> the bus is not padconf'd for I2C? >> Hi Nikita, >> >> This has been empirically confirmed on OMAP4 and OMAP5. When the pads >> are not >> configured, the I2C controller is actually disconnected from the bus. >> The clock >> input for its state machine has to come from the bus however due to >> stretching >> etc., although it is internally generated. So actually nothing changes >> within >> the controller after a transaction attempt is made, and it keeps its >> initial >> state with XRDY set only (ready to accept transmit data). I use this as an >> indicator. Not perfect, but works in most cases. >> >> Regards, >> Lubo >> >> > > Thanks for the quick reply. > The reason I stumbled across this is that this check hasn't been working > well on our OMAP3 based devices. Some I2C transactions work fine, but > some of them fail this check in the address phase, especially if the I2C > transactions happen in quick successions. You mean that you occasionally get this error on an otherwise properly configured and working bus, right? Does this happen with particular slave devices only, or randomly? And is it happening in the SPL, or in regular U-Boot?
> We did not have any I2C issues > with the previous driver, and while this behavior is symptomatic of > timing issues playing around with the delays didn't help. Which delays did you modify? Did you try to increase I2C_WAIT/I2C_TIMEOUT? > I was wondering if you might have some insights as to what may cause the > controller to behave this way other than unconfigured pads? Unfortunately I don't have any hands-on experience with OMAP3 (apart from some very quick testing on a AM3359 derivative), and cannot guarantee that the I2C controller IP on OMAP3 is absolutely the same as on OMAP4/5 (most probably it isn't; shall check this on Monday). Anyway, if everything else is OK (muxmode/pad config, pull-ups, power, etc.), the only reasonable explanation would be that there is not enough time for the controller to update its status register under certain conditions, and these would be either a slower clock rate (that makes byte transmission time come close to the timeout), or clock stretching by some slaves; btw, the latter seems probable, judging from your words that this happens in the address phase, when some devices could take longer to prepare for action, and they do this by stretching the clock. That is why I'm asking if you tried to increase I2C_TIMEOUT. Did you do any measurements on the bus to see if all is OK and the clock rate is right, and if it gets stretched by some slaves? Regards, Lubo _______________________________________________ U-Boot mailing list U-Boot@lists.denx.de http://lists.denx.de/mailman/listinfo/u-boot