[PATCH v4 00/11] PCI: rockchip: Fix RK3399 PCIe endpoint controller driver
Rick Wertenbroek
rick.wertenbroek at gmail.com
Mon Apr 17 02:26:18 PDT 2023
This is a series of patches that fixes the PCIe endpoint controller driver
for the Rockchip RK3399 SoC. The driver was introduced in commit
cf590b078391 ("PCI: rockchip: Add EP driver for Rockchip PCIe controller")
The original driver had issues and would not allow for the RK3399 to
operate in PCIe endpoint mode correctly. This patch series fixes that so
that the PCIe core controller of the RK3399 SoC can now act as a PCIe
endpoint. This is v4 of the patch series and addresses the comments received
during the review of the v3 [1]. The changes to the v3 are minor and none of
them change the logic of the driver.
Thank you in advance for reviewing this patch series and hopefully
getting this merged. Having a functional PCIe endpoint controller
driver for the RK3399 would allow to develop further PCIe endpoint
functions through the Linux PCIe endpoint framework using this SoC.
[1] https://lore.kernel.org/linux-pci/20230404082426.3880812-1-rick.wertenbroek@gmail.com/
Summary of changes to V3 :
* Set the fields in the standard order in the dtsi and removed unnecessary
change in associated documentation, thanks to Krzysztof for pointing this out.
* Added comment to explain how MSI-X capabilities advertisement was removed.
* Changed Damien Le Moal <damien.lemoal at opensource.wdc.com> address to his
kernel.org address Damien Le Moal <dlemoal at kernel.org> in tags.
* [minor] Simplified code where a power of 2 was applied followed by a ilog2
operation.
* [minor] Small code changes, replaced constant variable by macro, split
remaining long lines.
Summary of changes to V2 :
* Fix issue with memory mapping from PCIe space to physical space
There was a small mistake with the number of bits passed from the AXI
physical address to the PCIe space address.
* Disable the advertisement of MSI-X capabilities by the endpoint
According to the technical reference manual the controller cannot
generate MSI-X, so the controller should not advertise this capability.
* Add the alignment value to the endpoint attributes.
* [minor] Clean code (line length, variable names, small refactorings).
As pointed out by reviews on the V2.
* [minor] Fix error in variable name.
* [minor] Remove a patch that introduced unnecessary late parameter checks.
General problem statement and overview of the patch series :
Problem: The Rockchip RK3399 PCIe endpoint controller driver introduced in
commit cf590b078391 ("PCI: rockchip: Add EP driver for Rockchip PCIe
controller") did not work.
Summary of problems with the driver :
* Missing dtsi entry
* Could not update Device ID (DID)
* The endpoint could not be configured by a host computer because the
endpoint kept sending Configuration Request Retry Status (CRS) messages
* The kernel would sometimes hang on probe due to access to registers in
a clock domain of which the PLLs were not locked
* The memory window mapping and address translation mechanism had
conflicting mappings and did not follow the technical reference manual
as to how the address translation should be done
* Legacy IRQs were not generated by the endpoint
* Message Signaled interrupts (MSI) were not generated by the endpoint
* MSI-X capabilities were advertised but the controller cannot generate
them according to the technical reference manual
The problems have been addressed and validated through tests (see below).
Summary of patches :
This patch series is composed of 11 patches that do the following :
1) Remove writes to unused registers in the PCIe core register space.
The registers that were written to is marked "unused" and read
only in the technical reference manual of the RK3399 SoC.
2) Write PCI Device ID (DID) to correct register, the DID was written to
a read only register and therefore would not update the DID.
3) Assert PCI Configuration Enable bit after probe so that it would stop
sending Configuration Request Retry Status (CRS) messages to the
host once configured, without this the host would retry until
timeout and cancel the PCI configuration.
4) Add poll and timeout to wait for PHY PLLs to be locked, this
is the only patch that also applies to the root complex function
of the PCIe core controller, without this the kernel would
sometimes access registers in the PHY PLL clock domain when the PLLs
were not yet locked and the system would hang. This was hackily solved
in other non mainline patches (e.g., in armbian) with a "msleep()"
that was added after PHY PLL configuration but without realizing
why it was needed. A poll with timeout seems like a sane approach.
5) Add dtsi entry for RK3399 PCIe endpoint core. The new entry is
in "disabled" status by default, so unless it is explicitly enabled
it will not conflict with the PCIe root complex controller entry.
Developers that will enable it would know that the root complex function
then must be disabled, this can be done in the board level DTS.
6) Update the RK3399 example in the documentation to a valid one.
7) Fix legacy IRQ generation for RK3399 PCIe endpoint core, the legacy IRQs
were not sent by the device because their generation did not follow the
instructions in the technical reference manual. They now work.
8) Fix window mapping and address translation for endpoint. The window
mapping and address translation did not follow the technical reference
manual and a single memory region was used which resulted in conflicting
address translations for memory allocated in that region. The current
patch allows to allocate up to 32 memory windows with 1MB pages.
9) Use u32 variable to access 32-bit registers, u16 variables were used to
access and manipulate data of 32-bit registers, this would lead to
overflows e.g., when left shifting more than 16 bits.
10) Don't advertise MSI-X in PCIe capabilities because according to the TRM
the controller is not capable of generating them.
11) Set address alignment for the endpoint mode.
Validation on real hardware:
This patch series has been tested by me with kernels 6.0.19, 6.1.21-24,
and 5.19 on real hardware, a FriendlyElec NanoPC-T4 RK3399 based single
computer board connected to a host computer through PCIe x1 and x4. The
driver was also tested by Damien Le Moal <damien.lemoal at opensource.wdc.com>
on a Pine Rockpro64 board [2,3].
[2] https://lore.kernel.org/linux-pci/20230330085357.2653599-1-damien.lemoal@opensource.wdc.com/
[3] https://lore.kernel.org/linux-pci/29a5ccc3-d2c8-b844-a333-28bc20657942@fastmail.com/
The PCIe endpoint test function driver was loaded on the SoC and the PCIe
endpoint test driver was loaded on the host computer. The following tests were
executed through this setup :
* enumeration of the PCIe endpoint device (lspci)
lspci -vvv
* validation of PCI header and capabilities
setpci and lspci -xxxx
* device was recognized by host computer dans PCIe endpoint test driver
was loaded
lspci -v states "Kernel modules: pci_endpoint_test"
* tested the BARs 0-5
sudo /usr/bin/pcitest -b 0
...
sudo /usr/bin/pcitest -b 5
* tested legacy interrupt through the test driver
sudo /usr/bin/pcitest -i 0
sudo /usr/bin/pcitest -l
* tested MSI interrupt through the test driver
sudo /usr/bin/pcitest -i 1
sudo /usr/bin/pcitest -m 1
* tested read/write to and from host through the test driver with checksum
sudo /usr/bin/pcitest -r -s 1024
sudo /usr/bin/pcitest -w -s 1024
* tested read/write with DMA enabled (all read/write tests also did IRQ)
sudo /usr/bin/pcitest -r -d -s 8192
sudo /usr/bin/pcitest -w -d -s 8192
* tested larged transfers e.g., 100kB with and without DMA
Commands used on the SoC to launch the endpoint function (configfs) :
modprobe -i pci-epf-test
mkdir -p /sys/kernel/config/pci_ep/functions/pci_epf_test/pci_epf_test.0
echo 0xb500 > /sys/kernel/config/pci_ep/functions/pci_epf_test/pci_epf_test.0/deviceid
echo 0x104c > /sys/kernel/config/pci_ep/functions/pci_epf_test/pci_epf_test.0/vendorid
echo 16 > /sys/kernel/config/pci_ep/functions/pci_epf_test/pci_epf_test.0/msi_interrupts
ln -s /sys/kernel/config/pci_ep/functions/pci_epf_test/pci_epf_test.0 \
/sys/kernel/config/pci_ep/controllers/fd000000.pcie-ep/
echo 1 > /sys/kernel/config/pci_ep/controllers/fd000000.pcie-ep/start
Note: to enable the endpoint controller on the board the file :
arch/arm64/boot/dts/rockchip/rk3399-nanopc-t4.dts
Was edited to set the status of &pcie0 to "disabled" and &pcie0_ep
to "okay". This is not submitted as a patch because most users
will use the PCIe core controller in host (root complex) mode
rather than endpoint mode.
I have tested and confirmed all functionality required for the
endpoint with the test driver and tools. With the initial driver commit
cf590b078391 ("PCI: rockchip: Add EP driver for Rockchip PCIe controller")
the device would not even be enumerated by the host computer (mainly because
of CRS messages being sent back to the root complex) and tests would not pass
(driver would not even be loaded because DID was not set correctly)
and then only the BAR test would pass. Now all tests pass as stated above.
Best regards
Rick
Damien Le Moal (1):
PCI: rockchip: Set address alignment for endpoint mode
Rick Wertenbroek (10):
PCI: rockchip: Remove writes to unused registers
PCI: rockchip: Write PCI Device ID to correct register
PCI: rockchip: Assert PCI Configuration Enable bit after probe
PCI: rockchip: Add poll and timeout to wait for PHY PLLs to be locked
arm64: dts: rockchip: Add dtsi entry for RK3399 PCIe endpoint core
dt-bindings: PCI: Update the RK3399 example to a valid one
PCI: rockchip: Fix legacy IRQ generation for RK3399 PCIe endpoint core
PCI: rockchip: Fix window mapping and address translation for endpoint
PCI: rockchip: Use u32 variable to access 32-bit registers
PCI: rockchip: Don't advertise MSI-X in PCIe capabilities
.../bindings/pci/rockchip,rk3399-pcie-ep.yaml | 4 +-
arch/arm64/boot/dts/rockchip/rk3399.dtsi | 27 +++
drivers/pci/controller/pcie-rockchip-ep.c | 221 ++++++++----------
drivers/pci/controller/pcie-rockchip.c | 17 ++
drivers/pci/controller/pcie-rockchip.h | 49 ++--
5 files changed, 181 insertions(+), 137 deletions(-)
--
2.25.1
More information about the linux-arm-kernel
mailing list