1. 25 May, 2021 1 commit
    • Jeremy Linton's avatar
      rpi4: update the iobase constant · 2973dc5d
      Jeremy Linton authored
      
      
      The PCIe root port is outside of the current RPi
      MMIO regions, so we need to adjust the address map.
      Given much of the code depends on the legacy IOBASE
      lets separate that from the actual MMIO begin/end.
      Signed-off-by: default avatarJeremy Linton <jeremy.linton@arm.com>
      Change-Id: Id65460ae58556bd8826dba08bbad79953e2a7c0b
      2973dc5d
  2. 22 Mar, 2021 1 commit
  3. 17 Jul, 2020 1 commit
  4. 01 Apr, 2020 2 commits
    • Andrei Warkentin's avatar
      rpi: Implement PSCI CPU_OFF · 2e5f8443
      Andrei Warkentin authored
      We simulate the PSCI CPU_OFF operation by reseting the core via RMR.
      For secondaries, that already puts them in the holding pen waiting for a
      "warm boot" request as part of PSCI CPU_ON. For the BSP, we have to add
      logic to distinguish a regular boot from a CPU_OFF state, where, like the
      secondaries, the BSP needs to wait foor a "warm boot" request as part
      of CPU_ON.
      
      Testing done:
      
      - ACS suite now passes more tests (since it repeatedly
      calls code on secondaries via CPU_ON).
      
      - Linux testing including offlining/onlineing CPU0, e.g.
      "echo 0 > /sys/devices/system/cpu/cpu0/online".
      
      Change-Id: Id0ae11a0ee0721b20fa2578b54dadc72dcbd69e0
      Link: https://developer.trustedfirmware.org/T686
      
      Signed-off-by: default avatarAndrei Warkentin <andrey.warkentin@gmail.com>
      [Andre: adapt to unified plat_helpers.S, smaller fixes]
      Signed-off-by: default avatarAndre Przywara <andre.przywara@arm.com>
      2e5f8443
    • Andre Przywara's avatar
      rpi: move plat_helpers.S to common · 07aa0c7e
      Andre Przywara authored
      
      
      The plat_helpers.S file was almost identical between its RPi3 and RPi4
      versions. Unify the two files, moving it into the common/ directory.
      
      This adds a plat_rpi_get_model() function, which can be used to trigger
      RPi4 specific action, detected at runtime. We use that to do the RPi4
      specific L2 cache initialisation.
      
      Change-Id: I2295704fd6dde7c76fe83b6d98c7bf998d4bf074
      Signed-off-by: default avatarAndre Przywara <andre.przywara@arm.com>
      07aa0c7e
  5. 17 Mar, 2020 3 commits
    • Andre Przywara's avatar
      rpi: console: Autodetect Mini-UART vs. PL011 configuration · 9cc3fa1b
      Andre Przywara authored
      
      
      The Raspberry Pi has two different UART devices pin-muxed to GPIO 14&15:
      One ARM PL011 one and the 8250 compatible "Mini-UART".
      A dtoverlay parameter in config.txt will tell the firmware to switch
      between the two: it will setup the right clocks and will configure the
      pinmuxes accordingly.
      
      To autodetect the user's choice, we read the pinmux register and check
      its setting: ALT5 (0x2) means the Mini-UART is used, ALT0 (0x4) points
      to the PL011.
      Based on that we select the UART driver to initialise.
      
      This will allow console output in any case.
      
      Change-Id: I620d3ce68de6c6576599f2a405636020e1fd1376
      Signed-off-by: default avatarAndre Przywara <andre.przywara@arm.com>
      9cc3fa1b
    • Andre Przywara's avatar
      rpi: Allow using PL011 UART for RPi3/RPi4 · 5e6d821c
      Andre Przywara authored
      
      
      The Broadcom 283x SoCs feature multiple UARTs: the mostly used
      "Mini-UART", which is an 8250 compatible IP, and at least one PL011.
      While the 8250 is usually used for serial console purposes, it suffers
      from a design flaw, where its clock depends on the VPU clock, which can
      change at runtime. This will reliably mess up the baud rate.
      To avoid this problem, people might choose to use the PL011 UART for
      the serial console, which is pin-mux'ed to the very same GPIO pins.
      This can be done by adding "miniuart-bt" to the "dtoverlay=" line in
      config.txt.
      
      To prepare for this situation, use the newly gained freedom of sharing
      one console_t pointer across different UART drivers, to introduce the
      option of choosing the PL011 for the console.
      
      This is for now hard-coded to choose the Mini-UART by default.
      A follow-up patch will introduce automatic detection.
      Signed-off-by: default avatarAndre Przywara <andre.przywara@arm.com>
      Change-Id: I8cf2522151e09ff4ff94a6d396aec6fc4b091a05
      5e6d821c
    • Andre Przywara's avatar
      rpi3: console: Use same "clock-less" setup scheme as RPi4 · 795aefe5
      Andre Przywara authored
      
      
      In the wake of the upcoming unification of the console setup code
      between RPi3 and RPi4, extend the "clock-less" setup scheme to the
      RPi3. This avoid programming any clocks or baud rate registers,
      which makes the port more robust against GPU firmware changes.
      Signed-off-by: default avatarAndre Przywara <andre.przywara@arm.com>
      Change-Id: Ida83a963bb18a878997e9cbd55f8ceac6a2e1c1f
      795aefe5
  6. 30 Dec, 2019 1 commit
    • Andre Przywara's avatar
      plat: rpi4: Skip UART initialisation · 0eda713b
      Andre Przywara authored
      
      
      So far we have seen two different clock setups for the Raspberry Pi 4
      board, with the VPU clock divider being different. This was handled by
      reading the divider register and adjusting the base clock rate
      accordingly.
      Recently a new GPU firmware version appeared that changed the clock rate
      *again*, though this time at a higher level, so the VPU rate (and the
      apparent PLLC parent clock) did not seem to change, judging by reading
      the clock registers.
      So rather than playing cat and mouse with the GPU firmware or going
      further down the rabbit hole of exploring the whole clock tree, let's
      just skip the baud rate programming altogether. This works because the
      GPU firmware actually sets up and programs the debug UART already, so
      we can just use it.
      
      Pass 0 as the base clock rate to let the console driver skip the setup,
      also remove the no longer needed clock code.
      Signed-off-by: default avatarAndre Przywara <andre.przywara@arm.com>
      Change-Id: Ica88a3f3c9c11059357c1e6dd8f7a4d9b1f98fd7
      0eda713b
  7. 25 Sep, 2019 8 commits
    • Andre Przywara's avatar
      rpi4: Add stdout-path to device tree · 1a7422eb
      Andre Przywara authored
      
      
      Some device tree users like to find a pointer to the standard serial
      console in the device tree, in the "stdout-path" property of the /chosen
      node.
      
      Add the location of the Mini UART in that property, so that DT users are
      happy, for instance Linux' earlycon detection.
      
      Change-Id: I178e55016e5640de5ab0bc6e061944bd3583ea96
      Signed-off-by: default avatarAndre Przywara <andre.przywara@arm.com>
      1a7422eb
    • Andre Przywara's avatar
      rpi4: Add GIC maintenance interrupt to GIC DT node · 3903a8cd
      Andre Przywara authored
      
      
      For being able to use the virtualisation support the GIC offers, we need
      to know the interrupt number of the maintenance interrupt. This
      information is missing from the official RPi4 device tree.
      
      Use libfdt to add the "interrupts" property to the GIC node, which
      allows hypervisors like KVM or Xen to be able to use the GIC's help on
      virtualising interrupts.
      
      Change-Id: Iab84f0885a5bf29fb84ca8f385e8a39d27700c75
      Signed-off-by: default avatarAndre Przywara <andre.przywara@arm.com>
      3903a8cd
    • Andre Przywara's avatar
      rpi4: Cleanup memory regions, move pens to first page · 882c0ff6
      Andre Przywara authored
      
      
      Now that we have the SMP pens in the first page of DRAM, we can get rid
      of all the fancy RPi3 memory regions that our RPi4 port does not really
      need. This avoids using up memory all over the place, restricting ATF
      to just run in the first 512KB of DRAM.
      
      Remove the now unused regions. This also moves the SMP pens into our
      first memory page (holding the firmware magic), where the original
      firmware put them, but where there is also enough space for them.
      
      Since the pens will require code execution privileges, we amend the
      memory attributes used for that page to include write and execution
      rights.
      
      Change-Id: I131633abeb4a4d7b9057e737b9b0d163b73e47c6
      Signed-off-by: default avatarAndre Przywara <andre.przywara@arm.com>
      882c0ff6
    • Andre Przywara's avatar
      rpi4: Reserve resident BL31 region from non-secure world · 2b19e2f3
      Andre Przywara authored
      
      
      The GPU firmware loads the armstub8.bin (BL31) image at address 0, the
      beginning of DRAM. As this holds the resident PSCI code and the SMP
      pens, the non-secure world should better know about this, to avoid
      accessing memory owned by TF-A. This is particularly criticial as the
      Raspberry Pi 4 does not feature a secure memory controller, so
      overwriting code is a very real danger.
      
      Use the newly introduced function to add a node into reserved-memory
      node, where non-secure world can check for regions to be excluded from
      its mappings.
      
      Reserve the first 512KB of memory for now. We can refine this later if
      need be.
      
      Change-Id: I00e55e70c5c02615320d79ff35bc32b805d30770
      Signed-off-by: default avatarAndre Przywara <andre.przywara@arm.com>
      2b19e2f3
    • Andre Przywara's avatar
      rpi4: Amend DTB to advertise PSCI · f67fa69c
      Andre Przywara authored
      
      
      The device tree provided by the official Raspberry Pi firmware uses
      spin tables for SMP bringup.
      
      One of the benefit of having TF-A is that it provides PSCI services, so
      let's rewrite the DTB to advertise PSCI instead of spin tables.
      This uses the (newly exported) routine from the QEMU platform port.
      
      Change-Id: Ifddcb14041ca253a333f8c2d5e97a42db152470c
      Signed-off-by: default avatarAndre Przywara <andre.przywara@arm.com>
      f67fa69c
    • Andre Przywara's avatar
      rpi4: Determine BL33 entry point at runtime · 448fb352
      Andre Przywara authored
      
      
      Now that we have the armstub magic value in place, the GPU firmware will
      write the kernel load address (and DTB address) into our special page,
      so we can always easily access the actual location without hardcoding
      any addresses into the BL31 image.
      
      Make the compile-time defined PRELOADED_BL33_BASE macro optional, and
      read the BL33 entry point from the magic location, if the macro was not
      defined. We do the same for the DTB address.
      
      This also splits the currently "common" definition of
      plat_get_ns_image_entrypoint() to be separate between RPi3 and RPi4.
      
      Change-Id: I6f26c0adc6fce2df47786b271c490928b4529abb
      Signed-off-by: default avatarAndre Przywara <andre.przywara@arm.com>
      448fb352
    • Andre Przywara's avatar
      rpi4: Accommodate "armstub8.bin" header at the beginning of BL31 image · c4597e13
      Andre Przywara authored
      
      
      The Raspberry Pi GPU firmware checks for a magic value at offset 240
      (0xf0) of the armstub8.bin image it loads. If that value matches,
      it writes the kernel load address and the DTB address into subsequent
      memory locations.
      We can use these addresses to avoid hardcoding these values into the BL31
      image, to make it more flexible and a drop-in replacement for the
      official armstub8.bin.
      
      Reserving just 16 bytes at offset 240 of the final image file is not easily
      possible, though, as this location is in the middle of the generic BL31
      entry point code.
      However we can prepend an extra section before the actual BL31 image, to
      contain the magic and addresses. This needs to be 4KB, because the
      actual BL31 entry point needs to be page aligned.
      
      Use the platform linker script hook that the generic code provides, to
      add an almost empty 4KB code block before the entry point code. The very
      first word contains a branch instruction to jump over this page, into
      the actual entry code.
      This also gives us plenty of room for the SMP pens later.
      
      Change-Id: I38caa5e7195fa39cbef8600933a03d86f09263d6
      Signed-off-by: default avatarAndre Przywara <andre.przywara@arm.com>
      c4597e13
    • Andre Przywara's avatar
      Add basic support for Raspberry Pi 4 · f5cb15b0
      Andre Przywara authored
      
      
      The Raspberry Pi 4 is a single board computer with four Cortex-A72
      cores. From a TF-A perspective it is quite similar to the Raspberry Pi
      3, although it comes with more memory (up to 4GB) and has a GIC.
      
      This initial port though differs quite a lot from the existing rpi3
      platform port, mainly due to taking a much simpler and more robust
      approach to loading the non-secure payload:
      The GPU firmware of the SoC, which is responsible for initial platform
      setup (including DRAM initialisation), already loads the kernel, device
      tree and the "armstub" into DRAM. We take advantage of this, by placing
      just a BL31 component into the armstub8.bin component, which will be
      executed first, in AArch64 EL3.
      The non-secure payload can be a kernel or a boot loader (U-Boot or
      EDK-2), disguised as the "kernel" image and loaded by the GPU firmware.
      
      So this is just a BL31-only port, which directly drops into EL2
      and executes whatever has been loaded as the "kernel" image, handing
      over the DTB address in x0.
      
      Change-Id: I636f4d1f661821566ad9e341d69ba36f6bbfb546
      Signed-off-by: default avatarAndre Przywara <andre.przywara@arm.com>
      f5cb15b0