The Debian Linux variant for the Raspberry Pi (Raspbian) is still 32 bit for both the Pi 3 and 4, so I would think 32 bit ports would run on both. The Raspberry Pi 4 has a Quad Core A72, 1 to 4 Gigabytes of LPDDR4 SDRAM, Gigabit ethernet, USB 3, Wi-fi and bluetooth. I have not looked into it enough to see what UARTs it uses.
On Wed, Jan 8, 2020 at 1:18 AM Christian Mauderer < christian.maude...@embedded-brains.de> wrote: > On 08/01/2020 00:24, Joel Sherrill wrote: > > > > > > On Tue, Jan 7, 2020 at 12:42 PM Christian Mauderer <l...@c-mauderer.de > > <mailto:l...@c-mauderer.de>> wrote: > > > > Hello Alan, > > > > I pushed the patches mentioned further below. So the raspberry BSP > > should now work again for all raspberry 1 and 2 on the official > master > > branch. Note that the > > > > kernel_address=0x200000 > > > > is still necessary. > > > > > > This is awesome work. What about the Pi 3 and and Pi 4? I think Niteesh > > has the Pi 3 working so that leaves the 4. Any idea? > > > > --joel > > > > As far as I followed his work Niteesh had some minimal version working > with the mini UART and thought about trying the existing NS16550 (after > I suggested that one). But I haven't seen a patch yet. So currently even > if some basic stuff runs there will be no console. > > Beneath that: Pi 3 and Pi 4 are both 64Bit cores. I don't have any > experience with aarch64. Therefore I'm not sure whether we can safely > use them with 32Bit fallback. It seems to work to some extend but > according to > > https://en.wikipedia.org/wiki/ARM_architecture#AArch64 > > "ARMv8-A allows 32-bit applications to be executed in > a 64-bit OS, and a 32-bit OS to be under the control > of a 64-bit hypervisor." > > So I'm not sure in which situations we will run into problems. Maybe on > interrupts? > > Best regards > > Christian > > > > > Best regards > > > > Christian > > > > On 06/01/2020 11:10, Christian Mauderer wrote: > > > Hello Alan, > > > > > > thanks for your very detailed tests. > > > > > > On 05/01/2020 23:42, Alan Cudmore wrote: > > >> I finally found the time to try the latest RTEMS head on my > > collection > > >> of Raspberry Pi models. > > >> The last time I tried to run RTEMS on a Pi, I had trouble with the > > >> current version of the Raspberry Pi Firmware, so I had to go back > > to a > > >> specific tag on the Rasberry Pi firmware repository to get RTEMS > to > > >> work. This time, the head of the firmware repository seems to > > work (at > > >> least on the single core models) > > >> > > >> To keep things simple, I'm just going address the single core > models > > >> here, I can follow up after I finish testing the Raspberry Pi 2. > > >> > > >> Test Setup: > > >> I used the git.rtems.org <http://git.rtems.org> > > <http://git.rtems.org> rtems master from Jan 03 > > >> 2020. > > >> I used the Raspberry Pi firmware from the same date. > > >> The firmware can be found here: > > >> https://github.com/raspberrypi/firmware/tree/master/boot > > >> To boot an RTEMS image, you can copy all files from the above > "boot" > > >> directory on a DOS formatted SD/MicroSD card along with the RTEMS > > image > > >> (more about that in a minute). > > >> On the SD card, I deleted the "dtb" files, as well as the overlay > > >> directory. I dont think these are necessary to boot an RTEMS > image. > > >> > > >> I built a new arm-rtems5 toolchain using the RSB tool (head from > the > > >> same date) and built the "raspberrypi" BSP. After a quick test > > failed, I > > >> reviewed the latest mailing list posts, and ended up applying the > > linker > > >> script patch: > > >> https://lists.rtems.org/pipermail/devel/2019-December/056551.html > > > > > > I don't think that we will apply that patch. It moves code in an > area > > > that is protected against access to catch null pointer accesses > later. > > > This increases the image size. > > > > > > The alternative is to add the line > > > > > > kernel_address=0x200000 > > > > > > to the config.txt of the raspberry SD image. Niteesh is in the > process > > > of documenting this: > > > > > > > https://lists.rtems.org/pipermail/devel/2020-January/056796.html > > > > > >> > > >> After applying this patch and rebuilding, a few RTEMS samples > > seemed to > > >> work fine on the Raspberry Pi Zero Models 1.2 and 1.3 (no > > wireless). I > > >> ran hello.exe, ticker.exe, and unlimited.exe > > >> > > >> The above images must be prepared using the following command: > > >> $ arm-rtems5-objcopy -Obinary ticker.exe kernel.img > > >> Then I copied kernel.img over the linux kernel on the SD card. > > >> > > >> For all of these tests, I found this serial to USB board to be > very > > >> useful in my tests: > > >> https://www.adafruit.com/product/3589 > > >> It can power the pi through the USB cable and has a power switch > > as well. > > >> > > >> After the Pi Zero models, I tried my remaining older single core > > models: > > >> 1. Raspberry Pi Model B ( Original single core model with 512MB > > of RAM > > >> and 26 pin GPIO header) > > >> 2. Raspberry Pi Model B+ (Updated Single core model with 512MB of > RAM > > >> and 40 pin GPIO header) > > >> 3. Raspberry Pi Model A+ (Smaller form factor single core model > with > > >> 256MB of RAM and 40 pin GPIO header) > > >> (Note this model has been updated to now have 512MB of RAM) > > >> > > >> All three of the above models had the same exception that has been > > >> discussed on the mailing list: > > >> https://lists.rtems.org/pipermail/devel/2019-December/056556.html > > > > > > I addressed that issue in the following patch set: > > > > > > > https://lists.rtems.org/pipermail/devel/2019-December/056623.html > > > > https://lists.rtems.org/pipermail/devel/2019-December/056622.html > > > > https://lists.rtems.org/pipermail/devel/2019-December/056624.html > > > > > > I'll push it in the next days together with patches regarding the > > > console from Niteesh. I just gave it some more time for review > during > > > the public holidays. > > > > > > Basically it addresses the issues that you describe below. > > > > > >> > > >> All of these single core models are supposed to be compatible, and > > >> should run the same RTEMS image given the same memory > configuration. > > >> Since the previous message was discussing the bspgetworkarea.c > > changes, > > >> I made a couple of changes: > > >> - Reverted to the generic bspgetworkarea.c file, and changed the > > memory > > >> size from 256MB to 128MB ( same as the 4.11 release ). > > >> With these changes, the same RTEMS images worked on all single > > core models: > > >> - RPi Zero 1.2 and 1.3 > > >> - RPi Model B > > >> - RPi Model B+ > > >> - RPi Model A+ > > >> > > >> Findings: > > >> 1. The code that identifies the models in bspstart.c does not > account > > >> for the older models: > > >> > > > https://git.rtems.org/rtems/tree/bsps/arm/raspberrypi/start/bspstart.c > > >> The RPi Model B, B+, and A+ that I have all use the older > > revision which > > >> is not in the table in bspstart.c. I think we can fix this by > > adding the > > >> older revision codes in the table, but I think this code is > > mostly cosmetic. > > >> > > > https://www.raspberrypi.org/documentation/hardware/raspberrypi/revision-codes/README.md > > >> > > >> 2. I think the code that determines the memory size in > > bspgetworkarea.c > > >> is not correct: > > >> > > > https://git.rtems.org/rtems/tree/bsps/arm/raspberrypi/start/bspgetworkarea.c > > >> a) The mask for the memory size field should probably be 0x7 > > rather > > >> than 0xf. The 0xF picks up the "new revision" field of the word. > > >> > > >> > > > https://git.rtems.org/rtems/tree/bsps/arm/raspberrypi/start/bspgetworkarea.c#n70 > > >> b) I'm not sure if the rpi_mem array is correct. The values > > are used > > >> in address size calculations, but the values seem to be in > Kilobytes, > > >> not Megabytes. Maybe I'm not catching a shift that is done on > > these values. > > >> > > >> > > > https://git.rtems.org/rtems/tree/bsps/arm/raspberrypi/start/bspgetworkarea.c#n73 > > >> c) I'm not sure that the numbers all add up. Line 80 computes > the > > >> ram_end value by adding the Work Area start to the total size of > the > > >> RAM. I think this will overrun the end of the RAM. > > >> > > >> > > > https://git.rtems.org/rtems/tree/bsps/arm/raspberrypi/start/bspgetworkarea.c#n80 > > >> d) I would like to look at the relationship between the > ram_end > > >> calculation and the ram_size given in the autoconfigure setting ( > > >> currently at 256MiB). Are the MMU settings done based on the hard > > coded > > >> linker script value that may conflict with the sizes set here? > > >> e) the code may not work for the older models that do not > > have the > > >> updated revision fields. > > >> > > >> If the intent is to cover the different raspberry pi memory sizes > > >> automatically, then we can probably rework this code to work for > > all models. > > >> We may be able to use the following rationale to simplify the > > memory logic: > > >> 1. All of the current production single core raspberry Pi models > have > > >> 512MB of RAM. Do we need to worry about out of production 256MiB > > models? > > >> I have an older A+ model with 256MiB, but I am unlikely to use it > for > > >> anything serious. I would rather use a Raspberry Pi Zero instead. > > Given > > >> that, we could assume that the "raspberrypi" BSP has 512 MiB of > RAM. > > >> This would only require the calculation of how much memory is > > devoted to > > >> the GPU. > > >> > > >> 2. All of the Raspberry Pi 2 models have 1 Gigabyte of RAM, so the > > >> raspberrypi2 BSP can safely assume 1 gigabyte. > > >> > > >> We could also use the specific revision code register (old and > > new) to > > >> set the RAM size, since that should be accurate. > > >> > > >> Anyway, that is what I have so far on the single core models. I > would > > >> like to take a look at the Pi 2 next. Note that the Pi 2 is a > > Quad A7, > > >> that is considered "legacy" but it is still in production. The > latest > > >> Raspberry Pi 2 has been switched to a Quad core A53, so it is now > > very > > >> similar to the Raspberry Pi 3 without the Wireless/Bluetooth > > module. I > > >> dont have a Raspberry Pi 2 with an A53. > > >> > > >> There are quite a few newer models as well, so it's probably > worth a > > >> discussion of what we really want to support. My personal > > preferences: > > >> - Of the single core models, I would be happy with Raspberry Pi > Zero > > >> (and possibly Zero W) support. These are are very inexpensive and > > >> available worldwide. It may be the least expensive non-simulator > > RTEMS > > >> target board available. > > >> - I would like one multi-core model as an inexpensive SMP target > > to work > > >> with and learn RTEMS SMP details. Again, my focus is on low cost > and > > >> wide availability. > > > > > > In the ideal case: All models. > > > In the real case: It's unfunded. Therefore we take the ones that > > someone > > > is ready to add and maintain during free time. > > > > > > Beneath that I think it's more a question which models should be in > > > which BSP variant. > > > > > > The `raspberry` variant uses the following CPU_CFLAGS: > > > > > > CPU_CFLAGS = -mcpu=arm1176jzf-s > > > > > > The `raspberry2` variant uses the following CPU_CFLAGS: > > > > > > CPU_CFLAGS = -march=armv7-a -mthumb -mfpu=neon -mfloat-abi=hard > > > -mtune=cortex-a7 > > > > > > Maybe we will need a variant in the future for an aarch64 support > when > > > the core is supported in RTEMS somewhen. Currently I hope that we > can > > > just fall back to 32 Bit mode for the newer models. > > > > > > So the variants will end up with only a different core. It should > be > > > possible to handle other differences by parsing the FDT. Niteesh > > already > > > started that with the console. > > > > > >> > > >> Thanks for you attention, and happy new year! > > > > > > A happy new year to you too. > > > > > > Best regards > > > > > > Christian > > > > > >> Alan > > >> > > >> > > >> > > >> _______________________________________________ > > >> devel mailing list > > >> devel@rtems.org <mailto:devel@rtems.org> > > >> http://lists.rtems.org/mailman/listinfo/devel > > >> > > > _______________________________________________ > > > devel mailing list > > > devel@rtems.org <mailto:devel@rtems.org> > > > http://lists.rtems.org/mailman/listinfo/devel > > > > > _______________________________________________ > > devel mailing list > > devel@rtems.org <mailto:devel@rtems.org> > > http://lists.rtems.org/mailman/listinfo/devel > > > > > > _______________________________________________ > > devel mailing list > > devel@rtems.org > > http://lists.rtems.org/mailman/listinfo/devel > > > > -- > -------------------------------------------- > embedded brains GmbH > Herr Christian Mauderer > Dornierstr. 4 > D-82178 Puchheim > Germany > email: christian.maude...@embedded-brains.de > Phone: +49-89-18 94 741 - 18 > Fax: +49-89-18 94 741 - 08 > PGP: Public key available on request. > > Diese Nachricht ist keine geschäftliche Mitteilung im Sinne des EHUG. > _______________________________________________ > devel mailing list > devel@rtems.org > http://lists.rtems.org/mailman/listinfo/devel
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