Tom Rini | 53633a8 | 2024-02-29 12:33:36 -0500 | [diff] [blame^] | 1 | # SPDX-License-Identifier: (GPL-2.0-only OR BSD-2-Clause) |
| 2 | %YAML 1.2 |
| 3 | --- |
| 4 | $id: http://devicetree.org/schemas/pci/snps,dw-pcie-common.yaml# |
| 5 | $schema: http://devicetree.org/meta-schemas/core.yaml# |
| 6 | |
| 7 | title: Synopsys DWC PCIe RP/EP controller |
| 8 | |
| 9 | maintainers: |
| 10 | - Jingoo Han <jingoohan1@gmail.com> |
| 11 | - Gustavo Pimentel <gustavo.pimentel@synopsys.com> |
| 12 | |
| 13 | description: |
| 14 | Generic Synopsys DesignWare PCIe Root Port and Endpoint controller |
| 15 | properties. |
| 16 | |
| 17 | select: false |
| 18 | |
| 19 | properties: |
| 20 | reg: |
| 21 | description: |
| 22 | DWC PCIe CSR space is normally accessed over the dedicated Data Bus |
| 23 | Interface - DBI. In accordance with the reference manual the register |
| 24 | configuration space belongs to the Configuration-Dependent Module (CDM) |
| 25 | and is split up into several sub-parts Standard PCIe configuration |
| 26 | space, Port Logic Registers (PL), Shadow Config-space Registers, |
| 27 | iATU/eDMA registers. The particular sub-space is selected by the |
| 28 | CDM/ELBI (dbi_cs) and CS2 (dbi_cs2) signals (selector bits). Such |
| 29 | configuration provides a flexible interface for the system engineers to |
| 30 | either map the particular space at a desired MMIO address or just leave |
| 31 | them in a contiguous memory space if pure Native or AXI Bridge DBI access |
| 32 | is selected. Note the PCIe CFG-space, PL and Shadow registers are |
| 33 | specific for each activated function, while the rest of the sub-spaces |
| 34 | are common for all of them (if there are more than one). |
| 35 | minItems: 2 |
| 36 | maxItems: 7 |
| 37 | |
| 38 | reg-names: |
| 39 | minItems: 2 |
| 40 | maxItems: 7 |
| 41 | |
| 42 | interrupts: |
| 43 | description: |
| 44 | There are two main sub-blocks which are normally capable of |
| 45 | generating interrupts. It's System Information Interface and MSI |
| 46 | interface. While the former one has some common for the Host and |
| 47 | Endpoint controllers IRQ-signals, the later interface is obviously |
| 48 | Root Complex specific since it's responsible for the incoming MSI |
| 49 | messages signalling. The System Information IRQ signals are mainly |
| 50 | responsible for reporting the generic PCIe hierarchy and Root |
| 51 | Complex events like VPD IO request, general AER, PME, Hot-plug, link |
| 52 | bandwidth change, link equalization request, INTx asserted/deasserted |
| 53 | Message detection, embedded DMA Tx/Rx/Error. |
| 54 | minItems: 1 |
| 55 | maxItems: 26 |
| 56 | |
| 57 | interrupt-names: |
| 58 | minItems: 1 |
| 59 | maxItems: 26 |
| 60 | |
| 61 | clocks: |
| 62 | description: |
| 63 | DWC PCIe reference manual explicitly defines a set of the clocks required |
| 64 | to get the controller working correctly. In general all of them can |
| 65 | be divided into two groups':' application and core clocks. Note the |
| 66 | platforms may have some of the clock sources unspecified in case if the |
| 67 | corresponding domains are fed up from a common clock source. |
| 68 | minItems: 1 |
| 69 | maxItems: 7 |
| 70 | |
| 71 | clock-names: |
| 72 | minItems: 1 |
| 73 | maxItems: 7 |
| 74 | items: |
| 75 | oneOf: |
| 76 | - description: |
| 77 | Data Bus Interface (DBI) clock. Clock signal for the AXI-bus |
| 78 | interface of the Configuration-Dependent Module, which is |
| 79 | basically the set of the controller CSRs. |
| 80 | const: dbi |
| 81 | - description: |
| 82 | Application AXI-bus Master interface clock. Basically this is |
| 83 | a clock for the controller DMA interface (PCI-to-CPU). |
| 84 | const: mstr |
| 85 | - description: |
| 86 | Application AXI-bus Slave interface clock. This is a clock for |
| 87 | the CPU-to-PCI memory IO interface. |
| 88 | const: slv |
| 89 | - description: |
| 90 | Controller Core-PCS PIPE interface clock. It's normally |
| 91 | supplied by an external PCS-PHY. |
| 92 | const: pipe |
| 93 | - description: |
| 94 | Controller Primary clock. It's assumed that all controller input |
| 95 | signals (except resets) are synchronous to this clock. |
| 96 | const: core |
| 97 | - description: |
| 98 | Auxiliary clock for the controller PMC domain. The controller |
| 99 | partitioning implies having some parts to operate with this |
| 100 | clock in some power management states. |
| 101 | const: aux |
| 102 | - description: |
| 103 | Generic reference clock. In case if there are several |
| 104 | interfaces fed up with a common clock source it's advisable to |
| 105 | define it with this name (for instance pipe, core and aux can |
| 106 | be connected to a single source of the periodic signal). |
| 107 | const: ref |
| 108 | - description: |
| 109 | Clock for the PHY registers interface. Originally this is |
| 110 | a PHY-viewport-based interface, but some platform may have |
| 111 | specifically designed one. |
| 112 | const: phy_reg |
| 113 | - description: |
| 114 | Vendor-specific clock names. Consider using the generic names |
| 115 | above for new bindings. |
| 116 | oneOf: |
| 117 | - description: See native 'dbi' clock for details |
| 118 | enum: [ pcie, pcie_apb_sys, aclk_dbi ] |
| 119 | - description: See native 'mstr/slv' clock for details |
| 120 | enum: [ pcie_bus, pcie_inbound_axi, pcie_aclk, aclk_mst, aclk_slv ] |
| 121 | - description: See native 'pipe' clock for details |
| 122 | enum: [ pcie_phy, pcie_phy_ref, link ] |
| 123 | - description: See native 'aux' clock for details |
| 124 | enum: [ pcie_aux ] |
| 125 | - description: See native 'ref' clock for details. |
| 126 | enum: [ gio ] |
| 127 | - description: See nativs 'phy_reg' clock for details |
| 128 | enum: [ pcie_apb_phy, pclk ] |
| 129 | |
| 130 | resets: |
| 131 | description: |
| 132 | DWC PCIe reference manual explicitly defines a set of the reset |
| 133 | signals required to be de-asserted to properly activate the controller |
| 134 | sub-parts. All of these signals can be divided into two sub-groups':' |
| 135 | application and core resets with respect to the main sub-domains they |
| 136 | are supposed to reset. Note the platforms may have some of these signals |
| 137 | unspecified in case if they are automatically handled or aggregated into |
| 138 | a comprehensive control module. |
| 139 | minItems: 1 |
| 140 | maxItems: 10 |
| 141 | |
| 142 | reset-names: |
| 143 | minItems: 1 |
| 144 | maxItems: 10 |
| 145 | items: |
| 146 | oneOf: |
| 147 | - description: Data Bus Interface (DBI) domain reset |
| 148 | const: dbi |
| 149 | - description: AXI-bus Master interface reset |
| 150 | const: mstr |
| 151 | - description: AXI-bus Slave interface reset |
| 152 | const: slv |
| 153 | - description: Application-dependent interface reset |
| 154 | const: app |
| 155 | - description: Controller Non-sticky CSR flags reset |
| 156 | const: non-sticky |
| 157 | - description: Controller sticky CSR flags reset |
| 158 | const: sticky |
| 159 | - description: PIPE-interface (Core-PCS) logic reset |
| 160 | const: pipe |
| 161 | - description: |
| 162 | Controller primary reset (resets everything except PMC module) |
| 163 | const: core |
| 164 | - description: PCS/PHY block reset |
| 165 | const: phy |
| 166 | - description: PMC hot reset signal |
| 167 | const: hot |
| 168 | - description: Cold reset signal |
| 169 | const: pwr |
| 170 | - description: |
| 171 | Vendor-specific reset names. Consider using the generic names |
| 172 | above for new bindings. |
| 173 | oneOf: |
| 174 | - description: See native 'app' reset for details |
| 175 | enum: [ apps, gio, apb ] |
| 176 | - description: See native 'phy' reset for details |
| 177 | enum: [ pciephy, link ] |
| 178 | - description: See native 'pwr' reset for details |
| 179 | enum: [ turnoff ] |
| 180 | |
| 181 | phys: |
| 182 | description: |
| 183 | There can be up to the number of possible lanes PHYs specified placed in |
| 184 | the phandle array in the line-based order. Obviously each the specified |
| 185 | PHYs are supposed to be able to work in the PCIe mode with a speed |
| 186 | implied by the DWC PCIe controller they are attached to. |
| 187 | minItems: 1 |
| 188 | maxItems: 16 |
| 189 | |
| 190 | phy-names: |
| 191 | minItems: 1 |
| 192 | maxItems: 16 |
| 193 | oneOf: |
| 194 | - description: Generic PHY names |
| 195 | items: |
| 196 | pattern: '^pcie[0-9]+$' |
| 197 | - description: |
| 198 | Vendor-specific PHY names. Consider using the generic |
| 199 | names above for new bindings. |
| 200 | items: |
| 201 | oneOf: |
| 202 | - pattern: '^pcie(-?phy[0-9]*)?$' |
| 203 | - pattern: '^p2u-[0-7]$' |
| 204 | |
| 205 | reset-gpio: |
| 206 | deprecated: true |
| 207 | description: |
| 208 | Reference to the GPIO-controlled PERST# signal. It is used to reset all |
| 209 | the peripheral devices available on the PCIe bus. |
| 210 | maxItems: 1 |
| 211 | |
| 212 | reset-gpios: |
| 213 | description: |
| 214 | Reference to the GPIO-controlled PERST# signal. It is used to reset all |
| 215 | the peripheral devices available on the PCIe bus. |
| 216 | maxItems: 1 |
| 217 | |
| 218 | max-link-speed: |
| 219 | maximum: 5 |
| 220 | |
| 221 | num-lanes: |
| 222 | description: |
| 223 | Number of PCIe link lanes to use. Can be omitted if the already brought |
| 224 | up link is supposed to be preserved. |
| 225 | maximum: 16 |
| 226 | |
| 227 | num-ob-windows: |
| 228 | $ref: /schemas/types.yaml#/definitions/uint32 |
| 229 | deprecated: true |
| 230 | description: |
| 231 | Number of outbound address translation windows. This parameter can be |
| 232 | auto-detected based on the iATU memory writability. So there is no |
| 233 | point in having a dedicated DT-property for it. |
| 234 | maximum: 256 |
| 235 | |
| 236 | num-ib-windows: |
| 237 | $ref: /schemas/types.yaml#/definitions/uint32 |
| 238 | deprecated: true |
| 239 | description: |
| 240 | Number of inbound address translation windows. In the same way as |
| 241 | for the outbound AT windows, this parameter can be auto-detected based |
| 242 | on the iATU memory writability. There is no point having a dedicated |
| 243 | DT-property for it either. |
| 244 | maximum: 256 |
| 245 | |
| 246 | num-viewport: |
| 247 | $ref: /schemas/types.yaml#/definitions/uint32 |
| 248 | deprecated: true |
| 249 | description: |
| 250 | Number of outbound view ports configured in hardware. It's the same as |
| 251 | the number of outbound AT windows. |
| 252 | maximum: 256 |
| 253 | |
| 254 | snps,enable-cdm-check: |
| 255 | $ref: /schemas/types.yaml#/definitions/flag |
| 256 | description: |
| 257 | Enable automatic checking of CDM (Configuration Dependent Module) |
| 258 | registers for data corruption. CDM registers include standard PCIe |
| 259 | configuration space registers, Port Logic registers, DMA and iATU |
| 260 | registers. This feature has been available since DWC PCIe v4.80a. |
| 261 | |
| 262 | dma-coherent: true |
| 263 | |
| 264 | additionalProperties: true |
| 265 | |
| 266 | ... |