FreeCalypso > hg > fc-magnetite
view doc/FCDEV3B-V1-issues @ 631:597869e59805
config: introduced new CONFIG_MCSI_MODEM preprocessor symbol
All MCSI functionality was previously conditionalized on CONFIG_TARGET_FCMODEM
(even earlier it was CONFIG_TARGET_FCDEV3B), but having a dedicated
preprocessor symbol for this purpose (defined in targets/*.h as appropriate)
makes it much easier to support different modem targets with MCSI enabled.
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Sat, 04 Jan 2020 19:07:02 +0000 |
parents | 29c0be5a1962 |
children |
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Our early FCDEV3B boards (the first two batches made in 2017, now retroactively called FCDEV3B V1) had a hardware design defect that affected sleep modes; this defect has been fixed on our current FCDEV3B V2 boards. The design defect on FCDEV3B V1 was as follows: the reset input to the flash chip was connected to Calypso's FDP output per both TI's Leonardo reference schematics and Openmoko's working design, but this arrangement turns out to be unsuitable for the high- capacity Spansion S71PL129NC0HFW4B flash+pSRAM chip we are using, copied from Pirelli DP-L10. Calypso always drives its FDP output low during all sleep periods, including small sleep which can be arbitrarily short, and while TI may have thought it was a good idea to plunge the flash chip into reset during all sleeps, even ultra-short ones, newer flash chips like our current Spansion part are not happy with such reset timing. The datasheet for S29PL-N flash (the flash part of S71PL-N MCPs) says that the minimum reset pulse width must be 30 us, and the "dance" put out on FDP by the Calypso during certain rapid sleep-wake sequences appears to violate this timing requirement. Furthermore, with our current flash chips (both our chosen Spansion part and OM's original Samsung K5A32xx) there is no power saving advantage to putting the flash chip into reset (in fact, with Spansion flash it is the opposite according to the datasheet!), hence the solution is straightforward: on our current FCDEV3B V2 boards we have disconnected FDP from the flash chip, and we use a different circuit to provide our flash chip with the reset which it requires. The practical effect of the just-described hw defect on FCDEV3B V1 boards is that all sleep modes must be disabled when the firmware is running from flash (run-from-RAM firmwares are not affected), otherwise the firmware will erratically hang or self-reboot on certain sleep-wake sequences. If you have an FCDEV3B V1 board and you would like to run our current FC Magnetite firmware on it, you have two options for disabling sleep: Option 1: You can flash a regular sleep-enabled fw build, and then on every boot, before doing anything else, issue an AT%SLEEP=0 command to disable all sleep modes. Option 2: You can compile a special fw build that boots with all sleep modes disabled: ./configure.sh fcdev3b hybrid DISABLE_SLEEP=1 SUFFIX=-nosleep Additionally, there was one (only one) FCDEV3B V1 board from the very first batch (kept by the Mother and not sold or given away to anyone) that had trouble booting from flash on normal power-up. By Murphy's law, it just happened to be the one board on which our very initial bring-up work was done. RAM-loaded fw booted fine, interrupting the boot process serially and having the serially loaded code jump to the image in flash also worked fine, but regular flash boot exhibited erratic behaviour. Eventually it was found that the flash boot problem on that one board occurs only when flash boot mode 1 is used, whereas flash boot mode 0 works fine. I (Mychaela) suspect that the problem has something to do with the watchdog reset that happens as part of flash boot mode 1, the FDP output behaviour during that watchdog reset, and the flash chip's reaction to the latter. The fcdev3b-hacks directory contains two hacks that can be applied to FCDEV3B firmware images (fwimage.bin builds) as xxd binary patches: * The first hack dating from 2017-05 patches the fw to use flash boot mode 0 instead of TI's original flash boot mode 1, but after boot the FFFF:FB10 register is set to put the flash and not the internal ROM at address 0, so the interrupt and exception vectors go to the flash like in TI's original fw, not through the internal ROM. This hack was put together for the purpose of producing flashable fw images that boot without problems on that one board on which flash boot mode 1 didn't work, and worked successfully for that purpose. * The second hack dating from 2018-03 patches the fw to not only use flash boot mode 0, but also route the interrupt and exception vectors through Calypso's internal ROM. I was hoping that this hack would make the sleep mode problem go away without a hardware respin by having the Calypso execute some cycles out of its internal ROM and RAM before hitting the flash after wakeup, but nope, bringing up the SIM interface with AT+CFUN=1 in the l1reconst config when running from flash with small sleep enabled still triggers erratic misbehaviour even with this patch. Just to reiterate, none of these hacks are needed for our current FCDEV3B V2 boards - instead I am merely preserving our development history here.