PCIe Controller Device Tree
This PCIe controller is based on the Synopsis Designware PCIe IP and thus inherits all the common properties defined in snps,dw-pcie.yaml and snps,dw-pcie-ep.yaml. Some of the controller instances are dual mode where in they can work either in root port mode or endpoint mode but one at a time.
Required Properties
- power-domains: A phandle to the node that controls power to the
respective PCIe controller and a specifier name for the PCIe controller.
Following are the specifiers for the different PCIe controllers:
- TEGRA194_POWER_DOMAIN_PCIEX8B: C0
- TEGRA194_POWER_DOMAIN_PCIEX1A: C1
- TEGRA194_POWER_DOMAIN_PCIEX1A: C2
- TEGRA194_POWER_DOMAIN_PCIEX1A: C3
- TEGRA194_POWER_DOMAIN_PCIEX4A: C4
- TEGRA194_POWER_DOMAIN_PCIEX8A: C5
- reg: A list of physical base address and length pairs for each set of controller registers. Must contain an entry for each entry in the reg-names property.
- reg-names: Must include the following entries:
- "appl": Controller's application logic registers 26 "config": As per the definition in snps,dw-pcie.yaml.
- "atu_dma": iATU and DMA registers. This is where the iATU (internal Address Translation Unit) registers of the PCIe core are made available for SW access.
- "dbi": The aperture where root port's own configuration registers are available.
- interrupts: A list of interrupt outputs of the controller. Must contain an entry for each entry in the interrupt-names property.
- interrupt-names: Must include the following entries:
- "intr": The Tegra interrupt that is asserted for controller interrupts.
- clocks: Must contain an entry for each entry in clock-names.
- clock-names: Must include the following entries:
- core
- resets: Must contain an entry for each entry in reset-names.
- reset-names: Must include the following entries:
- apb
- core
- phys: Must contain a phandle to P2U PHY for each entry in phy-names.
- phy-names: Must include an entry for each active lane.
- "p2u-N": where N ranges from 0 to one less than the total number of lanes
- nvidia,bpmp: Must contain a pair of phandle to BPMP controller node
followed by controller-id. The following are the controller IDs for each
controller.
- 0: C0
- 1: C1
- 2: C2
- 3: C3
- 4: C4
- 5: C5
- vddio-pex-ctl-supply: Regulator supply for PCIe side band signals.
RC Mode
- compatible: Tegra19x must contain "nvidia,tegra194-pcie"
- device_type: Must be "pci" for RC mode
- interrupt-names: Must include the following entries: "msi": The Tegra interrupt that is asserted when an MSI is received
- bus-range: Range of bus numbers associated with this controller
- #address-cells: Address representation for root ports (must be 3):
- cell 0 specifies the bus and device numbers of the root port:
[23:16]: bus number
[15:11]: device number
- cell 1 denotes the upper 32 address bits and should be 0
- cell 2 contains the lower 32 address bits and is used to translate to the CPU address space.
- cell 0 specifies the bus and device numbers of the root port:
- #size-cells: Size representation for root ports (must be 2)
- ranges: Describes the translation of addresses for root ports and
standard PCI regions. The entries must be 7 cells each, where the first
three cells correspond to the address as described for the #address-cells
property above, the fourth and fifth cells are for the physical CPU address
to translate to and the sixth and seventh cells are as described for the
#size-cells property above.
- Entries setup the mapping for the standard I/O, memory and
prefetchable PCI regions. The first cell determines the type of
region that is setup:
- 0x81000000: I/O memory region.
- 0x82000000: non-prefetchable memory region.
- 0xc2000000: prefetchable memory region.
Refer to the standard PCI bus binding document for a more detailed explanation.
- Entries setup the mapping for the standard I/O, memory and
prefetchable PCI regions. The first cell determines the type of
region that is setup:
- #interrupt-cells: Size representation for interrupts (must be 1).
- interrupt-map-mask and interrupt-map: Standard PCI IRQ mapping properties. Refer to the standard PCI bus binding document for a more detailed explanation.
EP Mode
In Tegra194, Only controllers C0, C4, and C5 support EP mode.
- compatible: Tegra19x must contain "nvidia,tegra194-pcie-ep"
- reg-names: Must include the following entries: "addr_space": Used to map remote RC address space.
- reset-gpios: Must contain a phandle to a GPIO controller followed by GPIO that is being used as PERST input signal. Refer to the pci.txt document.
Optional properties:
- pinctrl-names: A list of pinctrl state names. It is mandatory for C5 controller and optional for other controllers.
- "default": Configures PCIe I/O for proper operation.
- pinctrl-0: phandle for the 'default' state of pin configuration.
It is mandatory for C5 controller and optional for other controllers.
- supports-clkreq: Refer to Documentation/devicetree/bindings/pci/pci.txt
- nvidia,update-fc-fixup: This is a boolean property and needs to be
present to improve performance when a platform is designed in such a way
that it satisfies at least one of the following conditions thereby enabling
root port to exchange optimum number of FC (Flow Control) credits with
downstream devices.
- If C0/C4/C5 run at x1/x2 link widths (irrespective of speed and MPS)
- If C0/C1/C2/C3/C4/C5 operate at their respective max link widths
and:
- speed is Gen-2 and MPS is 256B
- speed is >= Gen-3 with any MPS
- nvidia,aspm-cmrt-us: Common Mode Restore Time for proper operation of ASPM to be specified in microseconds.
- nvidia,aspm-pwr-on-t-us: Power On time for proper operation of ASPM to be specified in microseconds.
- nvidia,aspm-l0s-entrance-latency-us: ASPM L0s entrance latency to be specified in microseconds.
- nvidia,pex-prsnt-gpios: Must contain a phandle to a GPIO controller followed by GPIO that is being used to support hot plug and unplug via PRSNT# pin.
- nvidia,enable-safety: Set this property to enable safety features like HSI, etc.
RC Mode
- vpcie3v3-supply: A phandle to the regulator node that supplies 3.3V to the slot if the platform has one such slot. (Ex:- x16 slot owned by C5 controller in p2972-0000 platform).
- vpcie12v-supply: A phandle to the regulator node that supplies 12V to the slot if the platform has one such slot. (Ex:- x16 slot owned by C5 controller in p2972-0000 platform).
EP Mode
nvidia,refclk-select-gpios: Must contain a phandle to a GPIO controller
followed by GPIO that is being used to enable REFCLK to controller from host.
Note: On Tegra194's P2972-0000 platform, only the C5 controller
can be enabled to operate in the endpoint mode because of the way the platform
is designed.
Examples
Tegra194 RC mode:
pcie@14180000 {
compatible = "nvidia,tegra194-pcie";
power-domains = <&bpmp TEGRA194_POWER_DOMAIN_PCIEX8B>;
reg = <0x00 0x14180000 0x0 0x00020000 /* appl registers (128K) */
0x00 0x38000000 0x0 0x00040000 /* configuration space (256K) */
0x00 0x38040000 0x0 0x00040000>; /* iATU_DMA reg space (256K) */
reg-names = "appl", "config", "atu_dma";
#address-cells = <3>;
#size-cells = <2>;
device_type = "pci";
num-lanes = <8>;
linux,pci-domain = <0>;
pinctrl-names = "default";
pinctrl-0 = <&pex_rst_c5_out_state>, <&clkreq_c5_bi_dir_state>;
clocks = <&bpmp TEGRA194_CLK_PEX0_CORE_0>;
clock-names = "core";
resets = <&bpmp TEGRA194_RESET_PEX0_CORE_0_APB>,
<&bpmp TEGRA194_RESET_PEX0_CORE_0>;
reset-names = "apb", "core";
interrupts = <GIC_SPI 72 IRQ_TYPE_LEVEL_HIGH>, /* controller interrupt */
<GIC_SPI 73 IRQ_TYPE_LEVEL_HIGH>; /* MSI interrupt */
interrupt-names = "intr", "msi";
#interrupt-cells = <1>;
interrupt-map-mask = <0 0 0 0>;
interrupt-map = <0 0 0 0 &gic GIC_SPI 72 IRQ_TYPE_LEVEL_HIGH>;
nvidia,bpmp = <&bpmp 0>;
supports-clkreq;
nvidia,aspm-cmrt-us = <60>;
nvidia,aspm-pwr-on-t-us = <20>;
nvidia,aspm-l0s-entrance-latency-us = <3>;
bus-range = <0x0 0xff>;
ranges = <0x81000000 0x0 0x38100000 0x0 0x38100000 0x0 0x00100000 /* downstream I/O (1MB) */
0x82000000 0x0 0x38200000 0x0 0x38200000 0x0 0x01E00000 /* non-prefetchable memory (30MB) */
0xc2000000 0x18 0x00000000 0x18 0x00000000 0x4 0x00000000>; /* prefetchable memory (16GB) */
vddio-pex-ctl-supply = <&vdd_1v8ao>;
vpcie3v3-supply = <&vdd_3v3_pcie>;
vpcie12v-supply = <&vdd_12v_pcie>;
phys = <&p2u_hsio_2>, <&p2u_hsio_3>, <&p2u_hsio_4>,
<&p2u_hsio_5>;
phy-names = "p2u-0", "p2u-1", "p2u-2", "p2u-3";
};
Tegra194 EP mode:
pcie_ep@141a0000 {
compatible = "nvidia,tegra194-pcie-ep", "snps,dw-pcie-ep";
power-domains = <&bpmp TEGRA194_POWER_DOMAIN_PCIEX8A>;
reg = <0x00 0x141a0000 0x0 0x00020000 /* appl registers (128K) */
0x00 0x3a040000 0x0 0x00040000 /* iATU_DMA reg space (256K) */
0x00 0x3a080000 0x0 0x00040000 /* DBI reg space (256K) */
0x1c 0x00000000 0x4 0x00000000>; /* Address Space (16G) */
reg-names = "appl", "atu_dma", "dbi", "addr_space";
num-lanes = <8>;
num-ib-windows = <2>;
num-ob-windows = <8>;
pinctrl-names = "default";
pinctrl-0 = <&clkreq_c5_bi_dir_state>;
clocks = <&bpmp TEGRA194_CLK_PEX1_CORE_5>;
clock-names = "core";
resets = <&bpmp TEGRA194_RESET_PEX1_CORE_5_APB>,
<&bpmp TEGRA194_RESET_PEX1_CORE_5>;
reset-names = "apb", "core";
interrupts = <GIC_SPI 53 IRQ_TYPE_LEVEL_HIGH>; /* controller interrupt */
interrupt-names = "intr";
nvidia,bpmp = <&bpmp 5>;
nvidia,aspm-cmrt-us = <60>;
nvidia,aspm-pwr-on-t-us = <20>;
nvidia,aspm-l0s-entrance-latency-us = <3>;
vddio-pex-ctl-supply = <&vdd_1v8ao>;
reset-gpios = <&gpio TEGRA194_MAIN_GPIO(GG, 1) GPIO_ACTIVE_LOW>;
nvidia,refclk-select-gpios = <&gpio_aon TEGRA194_AON_GPIO(AA, 5)
GPIO_ACTIVE_HIGH>;
phys = <&p2u_nvhs_0>, <&p2u_nvhs_1>, <&p2u_nvhs_2>,
<&p2u_nvhs_3>, <&p2u_nvhs_4>, <&p2u_nvhs_5>,
<&p2u_nvhs_6>, <&p2u_nvhs_7>;
phy-names = "p2u-0", "p2u-1", "p2u-2", "p2u-3", "p2u-4",
"p2u-5", "p2u-6", "p2u-7";
};