Merge branch 'newsoc/cix-p1' into soc/newsoc

+26

Documentation/devicetree/bindings/arm/cix.yaml

··· 1 + # SPDX-License-Identifier: GPL-2.0-only OR BSD-2-Clause 2 + %YAML 1.2 3 + --- 4 + $id: http://devicetree.org/schemas/arm/cix.yaml# 5 + $schema: http://devicetree.org/meta-schemas/core.yaml# 6 + 7 + title: CIX platforms 8 + 9 + maintainers: 10 + - Peter Chen <peter.chen@cixtech.com> 11 + - Fugang Duan <fugang.duan@cixtech.com> 12 + 13 + properties: 14 + $nodename: 15 + const: '/' 16 + compatible: 17 + oneOf: 18 + 19 + - description: Radxa Orion O6 20 + items: 21 + - const: radxa,orion-o6 22 + - const: cix,sky1 23 + 24 + additionalProperties: true 25 + 26 + ...

+77

Documentation/devicetree/bindings/mailbox/cix,sky1-mbox.yaml

··· 1 + # SPDX-License-Identifier: (GPL-2.0 OR BSD-2-Clause) 2 + %YAML 1.2 3 + --- 4 + $id: http://devicetree.org/schemas/mailbox/cix,sky1-mbox.yaml# 5 + $schema: http://devicetree.org/meta-schemas/core.yaml# 6 + 7 + title: Cixtech mailbox controller 8 + 9 + maintainers: 10 + - Guomin Chen <Guomin.Chen@cixtech.com> 11 + 12 + description: 13 + The Cixtech mailbox controller, used in the Cixtech Sky1 SoC, 14 + is used for message transmission between multiple processors 15 + within the SoC, such as the AP, PM, audio DSP, SensorHub MCU, 16 + and others 17 + 18 + Each Cixtech mailbox controller is unidirectional, so they are 19 + typically used in pairs-one for receiving and one for transmitting. 20 + 21 + Each Cixtech mailbox supports 11 channels with different transmission modes 22 + channel 0-7 - Fast channel with 32bit transmit register and IRQ support 23 + channel 8 - Doorbell mode,using the mailbox as an interrupt-generating 24 + mechanism. 25 + channel 9 - Fifo based channel with 32*32bit depth fifo and IRQ support 26 + channel 10 - Reg based channel with 32*32bit transmit register and 27 + Doorbell+transmit acknowledgment IRQ support 28 + 29 + In the CIX Sky1 SoC use case, there are 4 pairs of mailbox controllers 30 + AP <--> PM - using Doorbell transfer mode 31 + AP <--> SE - using REG transfer mode 32 + AP <--> DSP - using FIFO transfer mode 33 + AP <--> SensorHub - using FIFO transfer mode 34 + 35 + properties: 36 + compatible: 37 + const: cix,sky1-mbox 38 + 39 + reg: 40 + maxItems: 1 41 + 42 + interrupts: 43 + maxItems: 1 44 + 45 + "#mbox-cells": 46 + const: 1 47 + 48 + cix,mbox-dir: 49 + $ref: /schemas/types.yaml#/definitions/string 50 + description: Direction of the mailbox relative to the AP 51 + enum: [tx, rx] 52 + 53 + required: 54 + - compatible 55 + - reg 56 + - interrupts 57 + - "#mbox-cells" 58 + - cix,mbox-dir 59 + 60 + additionalProperties: false 61 + 62 + examples: 63 + - | 64 + #include <dt-bindings/interrupt-controller/arm-gic.h> 65 + 66 + soc { 67 + #address-cells = <2>; 68 + #size-cells = <2>; 69 + 70 + mbox_ap2pm: mailbox@30000000 { 71 + compatible = "cix,sky1-mbox"; 72 + reg = <0 0x30000000 0 0x10000>; 73 + interrupts = <GIC_SPI 136 IRQ_TYPE_LEVEL_HIGH 0>; 74 + #mbox-cells = <1>; 75 + cix,mbox-dir = "tx"; 76 + }; 77 + };

+2

Documentation/devicetree/bindings/vendor-prefixes.yaml

··· 306 306 description: Cirrus Logic, Inc. 307 307 "^cisco,.*": 308 308 description: Cisco Systems, Inc. 309 + "^cix,.*": 310 + description: CIX Technology Group Co., Ltd. 309 311 "^clockwork,.*": 310 312 description: Clockwork Tech LLC 311 313 "^cloos,.*":

+13

MAINTAINERS

··· 2472 2472 F: arch/arm/mach-ep93xx/ 2473 2473 F: drivers/iio/adc/ep93xx_adc.c 2474 2474 2475 + ARM/CIX SOC SUPPORT 2476 + M: Peter Chen <peter.chen@cixtech.com> 2477 + M: Fugang Duan <fugang.duan@cixtech.com> 2478 + R: CIX Linux Kernel Upstream Group <cix-kernel-upstream@cixtech.com> 2479 + L: linux-arm-kernel@lists.infradead.org (moderated for non-subscribers) 2480 + S: Maintained 2481 + T: git git://git.kernel.org/pub/scm/linux/kernel/git/peter.chen/cix.git 2482 + F: Documentation/devicetree/bindings/arm/cix.yaml 2483 + F: Documentation/devicetree/bindings/mailbox/cix,sky1-mbox.yaml 2484 + F: arch/arm64/boot/dts/cix/ 2485 + F: drivers/mailbox/cix-mailbox.c 2486 + K: \bcix\b 2487 + 2475 2488 ARM/CLKDEV SUPPORT 2476 2489 M: Russell King <linux@armlinux.org.uk> 2477 2490 L: linux-arm-kernel@lists.infradead.org (moderated for non-subscribers)

+6

arch/arm64/Kconfig.platforms

··· 106 106 help 107 107 This enables support for the Blaize SoC family 108 108 109 + config ARCH_CIX 110 + bool "Cixtech SoC family" 111 + help 112 + This enables support for the Cixtech SoC family, 113 + like P1(sky1). 114 + 109 115 config ARCH_EXYNOS 110 116 bool "Samsung Exynos SoC family" 111 117 select COMMON_CLK_SAMSUNG

+1

arch/arm64/boot/dts/Makefile

··· 13 13 subdir-y += blaize 14 14 subdir-y += broadcom 15 15 subdir-y += cavium 16 + subdir-y += cix 16 17 subdir-y += exynos 17 18 subdir-y += freescale 18 19 subdir-y += hisilicon

+2

arch/arm64/boot/dts/cix/Makefile

··· 1 + # SPDX-License-Identifier: GPL-2.0 2 + dtb-$(CONFIG_ARCH_CIX) += sky1-orion-o6.dtb

+39

arch/arm64/boot/dts/cix/sky1-orion-o6.dts

··· 1 + // SPDX-License-Identifier: BSD-3-Clause 2 + /* 3 + * Copyright 2025 Cix Technology Group Co., Ltd. 4 + * 5 + */ 6 + 7 + /dts-v1/; 8 + 9 + #include "sky1.dtsi" 10 + / { 11 + model = "Radxa Orion O6"; 12 + compatible = "radxa,orion-o6", "cix,sky1"; 13 + 14 + aliases { 15 + serial2 = &uart2; 16 + }; 17 + 18 + chosen { 19 + stdout-path = &uart2; 20 + }; 21 + 22 + reserved-memory { 23 + #address-cells = <2>; 24 + #size-cells = <2>; 25 + ranges; 26 + 27 + linux,cma { 28 + compatible = "shared-dma-pool"; 29 + reusable; 30 + size = <0x0 0x28000000>; 31 + linux,cma-default; 32 + }; 33 + }; 34 + 35 + }; 36 + 37 + &uart2 { 38 + status = "okay"; 39 + };

+330

arch/arm64/boot/dts/cix/sky1.dtsi

··· 1 + // SPDX-License-Identifier: BSD-3-Clause 2 + /* 3 + * Copyright 2025 Cix Technology Group Co., Ltd. 4 + * 5 + */ 6 + 7 + #include <dt-bindings/interrupt-controller/arm-gic.h> 8 + #include <dt-bindings/clock/cix,sky1.h> 9 + 10 + / { 11 + interrupt-parent = <&gic>; 12 + #address-cells = <2>; 13 + #size-cells = <2>; 14 + 15 + cpus { 16 + #address-cells = <2>; 17 + #size-cells = <0>; 18 + 19 + cpu0: cpu@0 { 20 + compatible = "arm,cortex-a520"; 21 + enable-method = "psci"; 22 + reg = <0x0 0x0>; 23 + device_type = "cpu"; 24 + capacity-dmips-mhz = <403>; 25 + }; 26 + 27 + cpu1: cpu@100 { 28 + compatible = "arm,cortex-a520"; 29 + enable-method = "psci"; 30 + reg = <0x0 0x100>; 31 + device_type = "cpu"; 32 + capacity-dmips-mhz = <403>; 33 + }; 34 + 35 + cpu2: cpu@200 { 36 + compatible = "arm,cortex-a520"; 37 + enable-method = "psci"; 38 + reg = <0x0 0x200>; 39 + device_type = "cpu"; 40 + capacity-dmips-mhz = <403>; 41 + }; 42 + 43 + cpu3: cpu@300 { 44 + compatible = "arm,cortex-a520"; 45 + enable-method = "psci"; 46 + reg = <0x0 0x300>; 47 + device_type = "cpu"; 48 + capacity-dmips-mhz = <403>; 49 + }; 50 + 51 + cpu4: cpu@400 { 52 + compatible = "arm,cortex-a720"; 53 + enable-method = "psci"; 54 + reg = <0x0 0x400>; 55 + device_type = "cpu"; 56 + capacity-dmips-mhz = <1024>; 57 + }; 58 + 59 + cpu5: cpu@500 { 60 + compatible = "arm,cortex-a720"; 61 + enable-method = "psci"; 62 + reg = <0x0 0x500>; 63 + device_type = "cpu"; 64 + capacity-dmips-mhz = <1024>; 65 + }; 66 + 67 + cpu6: cpu@600 { 68 + compatible = "arm,cortex-a720"; 69 + enable-method = "psci"; 70 + reg = <0x0 0x600>; 71 + device_type = "cpu"; 72 + capacity-dmips-mhz = <1024>; 73 + }; 74 + 75 + cpu7: cpu@700 { 76 + compatible = "arm,cortex-a720"; 77 + enable-method = "psci"; 78 + reg = <0x0 0x700>; 79 + device_type = "cpu"; 80 + capacity-dmips-mhz = <1024>; 81 + }; 82 + 83 + cpu8: cpu@800 { 84 + compatible = "arm,cortex-a720"; 85 + enable-method = "psci"; 86 + reg = <0x0 0x800>; 87 + device_type = "cpu"; 88 + capacity-dmips-mhz = <1024>; 89 + }; 90 + 91 + cpu9: cpu@900 { 92 + compatible = "arm,cortex-a720"; 93 + enable-method = "psci"; 94 + reg = <0x0 0x900>; 95 + device_type = "cpu"; 96 + capacity-dmips-mhz = <1024>; 97 + }; 98 + 99 + cpu10: cpu@a00 { 100 + compatible = "arm,cortex-a720"; 101 + enable-method = "psci"; 102 + reg = <0x0 0xa00>; 103 + device_type = "cpu"; 104 + capacity-dmips-mhz = <1024>; 105 + }; 106 + 107 + cpu11: cpu@b00 { 108 + compatible = "arm,cortex-a720"; 109 + enable-method = "psci"; 110 + reg = <0x0 0xb00>; 111 + device_type = "cpu"; 112 + capacity-dmips-mhz = <1024>; 113 + }; 114 + 115 + cpu-map { 116 + cluster0 { 117 + core0 { 118 + cpu = <&cpu0>; 119 + }; 120 + core1 { 121 + cpu = <&cpu1>; 122 + }; 123 + core2 { 124 + cpu = <&cpu2>; 125 + }; 126 + core3 { 127 + cpu = <&cpu3>; 128 + }; 129 + core4 { 130 + cpu = <&cpu4>; 131 + }; 132 + core5 { 133 + cpu = <&cpu5>; 134 + }; 135 + core6 { 136 + cpu = <&cpu6>; 137 + }; 138 + core7 { 139 + cpu = <&cpu7>; 140 + }; 141 + core8 { 142 + cpu = <&cpu8>; 143 + }; 144 + core9 { 145 + cpu = <&cpu9>; 146 + }; 147 + core10 { 148 + cpu = <&cpu10>; 149 + }; 150 + core11 { 151 + cpu = <&cpu11>; 152 + }; 153 + }; 154 + }; 155 + }; 156 + 157 + firmware { 158 + ap_to_pm_scmi: scmi { 159 + compatible = "arm,scmi"; 160 + mbox-names = "tx", "rx"; 161 + mboxes = <&mbox_ap2pm 8>, <&mbox_pm2ap 8>; 162 + shmem = <&ap2pm_scmi_mem>, <&pm2ap_scmi_mem>; 163 + #address-cells = <1>; 164 + #size-cells = <0>; 165 + 166 + scmi_clk: protocol@14 { 167 + reg = <0x14>; 168 + #clock-cells = <1>; 169 + }; 170 + }; 171 + }; 172 + 173 + pmu-a520 { 174 + compatible = "arm,cortex-a520-pmu"; 175 + interrupts = <GIC_PPI 7 IRQ_TYPE_LEVEL_LOW &ppi_partition0>; 176 + }; 177 + 178 + pmu-a720 { 179 + compatible = "arm,cortex-a720-pmu"; 180 + interrupts = <GIC_PPI 7 IRQ_TYPE_LEVEL_LOW &ppi_partition1>; 181 + }; 182 + 183 + psci { 184 + compatible = "arm,psci-1.0"; 185 + method = "smc"; 186 + }; 187 + 188 + soc@0 { 189 + compatible = "simple-bus"; 190 + ranges = <0 0 0 0 0x20 0>; 191 + dma-ranges; 192 + #address-cells = <2>; 193 + #size-cells = <2>; 194 + 195 + uart0: serial@40b0000 { 196 + compatible = "arm,pl011", "arm,primecell"; 197 + reg = <0x0 0x040b0000 0x0 0x1000>; 198 + interrupts = <GIC_SPI 296 IRQ_TYPE_LEVEL_HIGH 0>; 199 + clocks = <&scmi_clk CLK_TREE_FCH_UART0_FUNC>, <&scmi_clk CLK_TREE_FCH_UART0_APB>; 200 + clock-names = "uartclk", "apb_pclk"; 201 + status = "disabled"; 202 + }; 203 + 204 + uart1: serial@40c0000 { 205 + compatible = "arm,pl011", "arm,primecell"; 206 + reg = <0x0 0x040c0000 0x0 0x1000>; 207 + interrupts = <GIC_SPI 297 IRQ_TYPE_LEVEL_HIGH 0>; 208 + clocks = <&scmi_clk CLK_TREE_FCH_UART1_FUNC>, <&scmi_clk CLK_TREE_FCH_UART1_APB>; 209 + clock-names = "uartclk", "apb_pclk"; 210 + status = "disabled"; 211 + }; 212 + 213 + uart2: serial@40d0000 { 214 + compatible = "arm,pl011", "arm,primecell"; 215 + reg = <0x0 0x040d0000 0x0 0x1000>; 216 + interrupts = <GIC_SPI 298 IRQ_TYPE_LEVEL_HIGH 0>; 217 + clocks = <&scmi_clk CLK_TREE_FCH_UART2_FUNC>, <&scmi_clk CLK_TREE_FCH_UART2_APB>; 218 + clock-names = "uartclk", "apb_pclk"; 219 + status = "disabled"; 220 + }; 221 + 222 + uart3: serial@40e0000 { 223 + compatible = "arm,pl011", "arm,primecell"; 224 + reg = <0x0 0x040e0000 0x0 0x1000>; 225 + interrupts = <GIC_SPI 299 IRQ_TYPE_LEVEL_HIGH 0>; 226 + clocks = <&scmi_clk CLK_TREE_FCH_UART3_FUNC>, <&scmi_clk CLK_TREE_FCH_UART3_APB>; 227 + clock-names = "uartclk", "apb_pclk"; 228 + status = "disabled"; 229 + }; 230 + 231 + mbox_ap2se: mailbox@5060000 { 232 + compatible = "cix,sky1-mbox"; 233 + reg = <0x0 0x05060000 0x0 0x10000>; 234 + interrupts = <GIC_SPI 378 IRQ_TYPE_LEVEL_HIGH 0>; 235 + #mbox-cells = <1>; 236 + cix,mbox-dir = "tx"; 237 + }; 238 + 239 + mbox_se2ap: mailbox@5070000 { 240 + compatible = "cix,sky1-mbox"; 241 + reg = <0x0 0x05070000 0x0 0x10000>; 242 + interrupts = <GIC_SPI 379 IRQ_TYPE_LEVEL_HIGH 0>; 243 + #mbox-cells = <1>; 244 + cix,mbox-dir = "rx"; 245 + }; 246 + 247 + ap2pm_scmi_mem: shmem@6590000 { 248 + compatible = "arm,scmi-shmem"; 249 + reg = <0x0 0x06590000 0x0 0x80>; 250 + reg-io-width = <4>; 251 + }; 252 + 253 + mbox_ap2pm: mailbox@6590080 { 254 + compatible = "cix,sky1-mbox"; 255 + reg = <0x0 0x06590080 0x0 0xff80>; 256 + interrupts = <GIC_SPI 363 IRQ_TYPE_LEVEL_HIGH 0>; 257 + #mbox-cells = <1>; 258 + cix,mbox-dir = "tx"; 259 + }; 260 + 261 + pm2ap_scmi_mem: shmem@65a0000 { 262 + compatible = "arm,scmi-shmem"; 263 + reg = <0x0 0x065a0000 0x0 0x80>; 264 + reg-io-width = <4>; 265 + }; 266 + 267 + mbox_pm2ap: mailbox@65a0080 { 268 + compatible = "cix,sky1-mbox"; 269 + reg = <0x0 0x065a0080 0x0 0xff80>; 270 + interrupts = <GIC_SPI 359 IRQ_TYPE_LEVEL_HIGH 0>; 271 + #mbox-cells = <1>; 272 + cix,mbox-dir = "rx"; 273 + }; 274 + 275 + mbox_sfh2ap: mailbox@8090000 { 276 + compatible = "cix,sky1-mbox"; 277 + reg = <0x0 0x08090000 0x0 0x10000>; 278 + interrupts = <GIC_SPI 391 IRQ_TYPE_LEVEL_HIGH 0>; 279 + #mbox-cells = <1>; 280 + cix,mbox-dir = "rx"; 281 + }; 282 + 283 + mbox_ap2sfh: mailbox@80a0000 { 284 + compatible = "cix,sky1-mbox"; 285 + reg = <0x0 0x080a0000 0x0 0x10000>; 286 + interrupts = <GIC_SPI 392 IRQ_TYPE_LEVEL_HIGH 0>; 287 + #mbox-cells = <1>; 288 + cix,mbox-dir = "tx"; 289 + }; 290 + 291 + gic: interrupt-controller@e010000 { 292 + compatible = "arm,gic-v3"; 293 + reg = <0x0 0x0e010000 0 0x10000>, /* GICD */ 294 + <0x0 0x0e090000 0 0x300000>; /* GICR * 12 */ 295 + interrupts = <GIC_PPI 9 IRQ_TYPE_LEVEL_LOW 0>; 296 + #interrupt-cells = <4>; 297 + interrupt-controller; 298 + #address-cells = <2>; 299 + #size-cells = <2>; 300 + ranges; 301 + 302 + gic_its: msi-controller@e050000 { 303 + compatible = "arm,gic-v3-its"; 304 + reg = <0x0 0x0e050000 0x0 0x30000>; 305 + msi-controller; 306 + #msi-cells = <1>; 307 + }; 308 + 309 + ppi-partitions { 310 + ppi_partition0: interrupt-partition-0 { 311 + affinity = <&cpu0 &cpu1 &cpu2 &cpu3>; 312 + }; 313 + 314 + ppi_partition1: interrupt-partition-1 { 315 + affinity = <&cpu4 &cpu5 &cpu6 &cpu7 &cpu8 &cpu9 &cpu10 &cpu11>; 316 + }; 317 + }; 318 + }; 319 + }; 320 + 321 + timer { 322 + compatible = "arm,armv8-timer"; 323 + interrupt-names = "sec-phys", "phys", "virt", "hyp-phys", "hyp-virt"; 324 + interrupts = <GIC_PPI 13 IRQ_TYPE_LEVEL_LOW 0>, 325 + <GIC_PPI 14 IRQ_TYPE_LEVEL_LOW 0>, 326 + <GIC_PPI 11 IRQ_TYPE_LEVEL_LOW 0>, 327 + <GIC_PPI 10 IRQ_TYPE_LEVEL_LOW 0>, 328 + <GIC_PPI 12 IRQ_TYPE_LEVEL_LOW 0>; 329 + }; 330 + };

+2

arch/arm64/configs/defconfig

··· 45 45 CONFIG_ARCH_BRCMSTB=y 46 46 CONFIG_ARCH_BERLIN=y 47 47 CONFIG_ARCH_BLAIZE=y 48 + CONFIG_ARCH_CIX=y 48 49 CONFIG_ARCH_EXYNOS=y 49 50 CONFIG_ARCH_SPARX5=y 50 51 CONFIG_ARCH_K3=y ··· 1446 1445 CONFIG_QCOM_APCS_IPC=y 1447 1446 CONFIG_MTK_ADSP_MBOX=m 1448 1447 CONFIG_QCOM_IPCC=y 1448 + CONFIG_CIX_MBOX=y 1449 1449 CONFIG_ROCKCHIP_IOMMU=y 1450 1450 CONFIG_TEGRA_IOMMU_SMMU=y 1451 1451 CONFIG_ARM_SMMU=y

+10

drivers/mailbox/Kconfig

··· 340 340 kernel is running, and E902 core used for power management among other 341 341 things. 342 342 343 + config CIX_MBOX 344 + tristate "CIX Mailbox" 345 + depends on ARCH_CIX || COMPILE_TEST 346 + depends on OF 347 + help 348 + Mailbox implementation for CIX IPC system. The controller supports 349 + 11 mailbox channels with different operating mode and every channel 350 + is unidirectional. Say Y here if you want to use the CIX Mailbox 351 + support. 352 + 343 353 endif

+2

drivers/mailbox/Makefile

··· 72 72 obj-$(CONFIG_QCOM_IPCC) += qcom-ipcc.o 73 73 74 74 obj-$(CONFIG_THEAD_TH1520_MBOX) += mailbox-th1520.o 75 + 76 + obj-$(CONFIG_CIX_MBOX) += cix-mailbox.o

+645

drivers/mailbox/cix-mailbox.c

··· 1 + // SPDX-License-Identifier: GPL-2.0 2 + /* 3 + * Copyright 2025 Cix Technology Group Co., Ltd. 4 + */ 5 + 6 + #include <linux/device.h> 7 + #include <linux/err.h> 8 + #include <linux/io.h> 9 + #include <linux/interrupt.h> 10 + #include <linux/kernel.h> 11 + #include <linux/mailbox_controller.h> 12 + #include <linux/module.h> 13 + #include <linux/platform_device.h> 14 + 15 + #include "mailbox.h" 16 + 17 + /* 18 + * The maximum transmission size is 32 words or 128 bytes. 19 + */ 20 + #define CIX_MBOX_MSG_WORDS 32 /* Max length = 32 words */ 21 + #define CIX_MBOX_MSG_LEN_MASK 0x7fL /* Max length = 128 bytes */ 22 + 23 + /* [0~7] Fast channel 24 + * [8] doorbell base channel 25 + * [9]fifo base channel 26 + * [10] register base channel 27 + */ 28 + #define CIX_MBOX_FAST_IDX 7 29 + #define CIX_MBOX_DB_IDX 8 30 + #define CIX_MBOX_FIFO_IDX 9 31 + #define CIX_MBOX_REG_IDX 10 32 + #define CIX_MBOX_CHANS 11 33 + 34 + /* Register define */ 35 + #define CIX_REG_MSG(n) (0x0 + 0x4*(n)) /* 0x0~0x7c */ 36 + #define CIX_REG_DB_ACK CIX_REG_MSG(CIX_MBOX_MSG_WORDS) /* 0x80 */ 37 + #define CIX_ERR_COMP (CIX_REG_DB_ACK + 0x4) /* 0x84 */ 38 + #define CIX_ERR_COMP_CLR (CIX_REG_DB_ACK + 0x8) /* 0x88 */ 39 + #define CIX_REG_F_INT(IDX) (CIX_ERR_COMP_CLR + 0x4*(IDX+1)) /* 0x8c~0xa8 */ 40 + #define CIX_FIFO_WR (CIX_REG_F_INT(CIX_MBOX_FAST_IDX+1)) /* 0xac */ 41 + #define CIX_FIFO_RD (CIX_FIFO_WR + 0x4) /* 0xb0 */ 42 + #define CIX_FIFO_STAS (CIX_FIFO_WR + 0x8) /* 0xb4 */ 43 + #define CIX_FIFO_WM (CIX_FIFO_WR + 0xc) /* 0xb8 */ 44 + #define CIX_INT_ENABLE (CIX_FIFO_WR + 0x10) /* 0xbc */ 45 + #define CIX_INT_ENABLE_SIDE_B (CIX_FIFO_WR + 0x14) /* 0xc0 */ 46 + #define CIX_INT_CLEAR (CIX_FIFO_WR + 0x18) /* 0xc4 */ 47 + #define CIX_INT_STATUS (CIX_FIFO_WR + 0x1c) /* 0xc8 */ 48 + #define CIX_FIFO_RST (CIX_FIFO_WR + 0x20) /* 0xcc */ 49 + 50 + #define CIX_MBOX_TX 0 51 + #define CIX_MBOX_RX 1 52 + 53 + #define CIX_DB_INT_BIT BIT(0) 54 + #define CIX_DB_ACK_INT_BIT BIT(1) 55 + 56 + #define CIX_FIFO_WM_DEFAULT CIX_MBOX_MSG_WORDS 57 + #define CIX_FIFO_STAS_WMK BIT(0) 58 + #define CIX_FIFO_STAS_FULL BIT(1) 59 + #define CIX_FIFO_STAS_EMPTY BIT(2) 60 + #define CIX_FIFO_STAS_UFLOW BIT(3) 61 + #define CIX_FIFO_STAS_OFLOW BIT(4) 62 + 63 + #define CIX_FIFO_RST_BIT BIT(0) 64 + 65 + #define CIX_DB_INT BIT(0) 66 + #define CIX_ACK_INT BIT(1) 67 + #define CIX_FIFO_FULL_INT BIT(2) 68 + #define CIX_FIFO_EMPTY_INT BIT(3) 69 + #define CIX_FIFO_WM01_INT BIT(4) 70 + #define CIX_FIFO_WM10_INT BIT(5) 71 + #define CIX_FIFO_OFLOW_INT BIT(6) 72 + #define CIX_FIFO_UFLOW_INT BIT(7) 73 + #define CIX_FIFO_N_EMPTY_INT BIT(8) 74 + #define CIX_FAST_CH_INT(IDX) BIT((IDX)+9) 75 + 76 + #define CIX_SHMEM_OFFSET 0x80 77 + 78 + enum cix_mbox_chan_type { 79 + CIX_MBOX_TYPE_DB, 80 + CIX_MBOX_TYPE_REG, 81 + CIX_MBOX_TYPE_FIFO, 82 + CIX_MBOX_TYPE_FAST, 83 + }; 84 + 85 + struct cix_mbox_con_priv { 86 + enum cix_mbox_chan_type type; 87 + struct mbox_chan *chan; 88 + int index; 89 + }; 90 + 91 + struct cix_mbox_priv { 92 + struct device *dev; 93 + int irq; 94 + int dir; 95 + void __iomem *base; /* region for mailbox */ 96 + struct cix_mbox_con_priv con_priv[CIX_MBOX_CHANS]; 97 + struct mbox_chan mbox_chans[CIX_MBOX_CHANS]; 98 + struct mbox_controller mbox; 99 + bool use_shmem; 100 + }; 101 + 102 + /* 103 + * The CIX mailbox supports four types of transfers: 104 + * CIX_MBOX_TYPE_DB, CIX_MBOX_TYPE_FAST, CIX_MBOX_TYPE_REG, and CIX_MBOX_TYPE_FIFO. 105 + * For the REG and FIFO types of transfers, the message format is as follows: 106 + */ 107 + union cix_mbox_msg_reg_fifo { 108 + u32 length; /* unit is byte */ 109 + u32 buf[CIX_MBOX_MSG_WORDS]; /* buf[0] must be the byte length of this array */ 110 + }; 111 + 112 + static struct cix_mbox_priv *to_cix_mbox_priv(struct mbox_controller *mbox) 113 + { 114 + return container_of(mbox, struct cix_mbox_priv, mbox); 115 + } 116 + 117 + static void cix_mbox_write(struct cix_mbox_priv *priv, u32 val, u32 offset) 118 + { 119 + if (priv->use_shmem) 120 + iowrite32(val, priv->base + offset - CIX_SHMEM_OFFSET); 121 + else 122 + iowrite32(val, priv->base + offset); 123 + } 124 + 125 + static u32 cix_mbox_read(struct cix_mbox_priv *priv, u32 offset) 126 + { 127 + if (priv->use_shmem) 128 + return ioread32(priv->base + offset - CIX_SHMEM_OFFSET); 129 + else 130 + return ioread32(priv->base + offset); 131 + } 132 + 133 + static bool mbox_fifo_empty(struct mbox_chan *chan) 134 + { 135 + struct cix_mbox_priv *priv = to_cix_mbox_priv(chan->mbox); 136 + 137 + return ((cix_mbox_read(priv, CIX_FIFO_STAS) & CIX_FIFO_STAS_EMPTY) ? true : false); 138 + } 139 + 140 + /* 141 + *The transmission unit of the CIX mailbox is word. 142 + *The byte length should be converted into the word length. 143 + */ 144 + static inline u32 mbox_get_msg_size(void *msg) 145 + { 146 + u32 len; 147 + 148 + len = ((u32 *)msg)[0] & CIX_MBOX_MSG_LEN_MASK; 149 + return DIV_ROUND_UP(len, 4); 150 + } 151 + 152 + static int cix_mbox_send_data_db(struct mbox_chan *chan, void *data) 153 + { 154 + struct cix_mbox_priv *priv = to_cix_mbox_priv(chan->mbox); 155 + 156 + /* trigger doorbell irq */ 157 + cix_mbox_write(priv, CIX_DB_INT_BIT, CIX_REG_DB_ACK); 158 + 159 + return 0; 160 + } 161 + 162 + static int cix_mbox_send_data_reg(struct mbox_chan *chan, void *data) 163 + { 164 + struct cix_mbox_priv *priv = to_cix_mbox_priv(chan->mbox); 165 + union cix_mbox_msg_reg_fifo *msg = data; 166 + u32 len, i; 167 + 168 + if (!data) 169 + return -EINVAL; 170 + 171 + len = mbox_get_msg_size(data); 172 + for (i = 0; i < len; i++) 173 + cix_mbox_write(priv, msg->buf[i], CIX_REG_MSG(i)); 174 + 175 + /* trigger doorbell irq */ 176 + cix_mbox_write(priv, CIX_DB_INT_BIT, CIX_REG_DB_ACK); 177 + 178 + return 0; 179 + } 180 + 181 + static int cix_mbox_send_data_fifo(struct mbox_chan *chan, void *data) 182 + { 183 + struct cix_mbox_priv *priv = to_cix_mbox_priv(chan->mbox); 184 + union cix_mbox_msg_reg_fifo *msg = data; 185 + u32 len, val, i; 186 + 187 + if (!data) 188 + return -EINVAL; 189 + 190 + len = mbox_get_msg_size(data); 191 + cix_mbox_write(priv, len, CIX_FIFO_WM); 192 + for (i = 0; i < len; i++) 193 + cix_mbox_write(priv, msg->buf[i], CIX_FIFO_WR); 194 + 195 + /* Enable fifo empty interrupt */ 196 + val = cix_mbox_read(priv, CIX_INT_ENABLE); 197 + val |= CIX_FIFO_EMPTY_INT; 198 + cix_mbox_write(priv, val, CIX_INT_ENABLE); 199 + 200 + return 0; 201 + } 202 + 203 + static int cix_mbox_send_data_fast(struct mbox_chan *chan, void *data) 204 + { 205 + struct cix_mbox_priv *priv = to_cix_mbox_priv(chan->mbox); 206 + struct cix_mbox_con_priv *cp = chan->con_priv; 207 + u32 *arg = (u32 *)data; 208 + int index = cp->index; 209 + 210 + if (!data) 211 + return -EINVAL; 212 + 213 + if (index < 0 || index > CIX_MBOX_FAST_IDX) { 214 + dev_err(priv->dev, "Invalid Mbox index %d\n", index); 215 + return -EINVAL; 216 + } 217 + 218 + cix_mbox_write(priv, arg[0], CIX_REG_F_INT(index)); 219 + 220 + return 0; 221 + } 222 + 223 + static int cix_mbox_send_data(struct mbox_chan *chan, void *data) 224 + { 225 + struct cix_mbox_priv *priv = to_cix_mbox_priv(chan->mbox); 226 + struct cix_mbox_con_priv *cp = chan->con_priv; 227 + 228 + if (priv->dir != CIX_MBOX_TX) { 229 + dev_err(priv->dev, "Invalid Mbox dir %d\n", priv->dir); 230 + return -EINVAL; 231 + } 232 + 233 + switch (cp->type) { 234 + case CIX_MBOX_TYPE_DB: 235 + cix_mbox_send_data_db(chan, data); 236 + break; 237 + case CIX_MBOX_TYPE_REG: 238 + cix_mbox_send_data_reg(chan, data); 239 + break; 240 + case CIX_MBOX_TYPE_FIFO: 241 + cix_mbox_send_data_fifo(chan, data); 242 + break; 243 + case CIX_MBOX_TYPE_FAST: 244 + cix_mbox_send_data_fast(chan, data); 245 + break; 246 + default: 247 + dev_err(priv->dev, "Invalid channel type: %d\n", cp->type); 248 + return -EINVAL; 249 + } 250 + return 0; 251 + } 252 + 253 + static void cix_mbox_isr_db(struct mbox_chan *chan) 254 + { 255 + struct cix_mbox_priv *priv = to_cix_mbox_priv(chan->mbox); 256 + u32 int_status; 257 + 258 + int_status = cix_mbox_read(priv, CIX_INT_STATUS); 259 + 260 + if (priv->dir == CIX_MBOX_RX) { 261 + /* rx interrupt is triggered */ 262 + if (int_status & CIX_DB_INT) { 263 + cix_mbox_write(priv, CIX_DB_INT, CIX_INT_CLEAR); 264 + mbox_chan_received_data(chan, NULL); 265 + /* trigger ack interrupt */ 266 + cix_mbox_write(priv, CIX_DB_ACK_INT_BIT, CIX_REG_DB_ACK); 267 + } 268 + } else { 269 + /* tx ack interrupt is triggered */ 270 + if (int_status & CIX_ACK_INT) { 271 + cix_mbox_write(priv, CIX_ACK_INT, CIX_INT_CLEAR); 272 + mbox_chan_received_data(chan, NULL); 273 + } 274 + } 275 + } 276 + 277 + static void cix_mbox_isr_reg(struct mbox_chan *chan) 278 + { 279 + struct cix_mbox_priv *priv = to_cix_mbox_priv(chan->mbox); 280 + u32 int_status; 281 + 282 + int_status = cix_mbox_read(priv, CIX_INT_STATUS); 283 + 284 + if (priv->dir == CIX_MBOX_RX) { 285 + /* rx interrupt is triggered */ 286 + if (int_status & CIX_DB_INT) { 287 + u32 data[CIX_MBOX_MSG_WORDS], len, i; 288 + 289 + cix_mbox_write(priv, CIX_DB_INT, CIX_INT_CLEAR); 290 + data[0] = cix_mbox_read(priv, CIX_REG_MSG(0)); 291 + len = mbox_get_msg_size(data); 292 + for (i = 1; i < len; i++) 293 + data[i] = cix_mbox_read(priv, CIX_REG_MSG(i)); 294 + 295 + /* trigger ack interrupt */ 296 + cix_mbox_write(priv, CIX_DB_ACK_INT_BIT, CIX_REG_DB_ACK); 297 + mbox_chan_received_data(chan, data); 298 + } 299 + } else { 300 + /* tx ack interrupt is triggered */ 301 + if (int_status & CIX_ACK_INT) { 302 + cix_mbox_write(priv, CIX_ACK_INT, CIX_INT_CLEAR); 303 + mbox_chan_txdone(chan, 0); 304 + } 305 + } 306 + } 307 + 308 + static void cix_mbox_isr_fifo(struct mbox_chan *chan) 309 + { 310 + struct cix_mbox_priv *priv = to_cix_mbox_priv(chan->mbox); 311 + u32 int_status, status; 312 + 313 + int_status = cix_mbox_read(priv, CIX_INT_STATUS); 314 + 315 + if (priv->dir == CIX_MBOX_RX) { 316 + /* FIFO waterMark interrupt is generated */ 317 + if (int_status & (CIX_FIFO_FULL_INT | CIX_FIFO_WM01_INT)) { 318 + u32 data[CIX_MBOX_MSG_WORDS] = { 0 }, i = 0; 319 + 320 + cix_mbox_write(priv, (CIX_FIFO_FULL_INT | CIX_FIFO_WM01_INT), 321 + CIX_INT_CLEAR); 322 + do { 323 + data[i++] = cix_mbox_read(priv, CIX_FIFO_RD); 324 + } while (!mbox_fifo_empty(chan) && i < CIX_MBOX_MSG_WORDS); 325 + 326 + mbox_chan_received_data(chan, data); 327 + } 328 + /* FIFO underflow is generated */ 329 + if (int_status & CIX_FIFO_UFLOW_INT) { 330 + status = cix_mbox_read(priv, CIX_FIFO_STAS); 331 + dev_err(priv->dev, "fifo underflow: int_stats %d\n", status); 332 + cix_mbox_write(priv, CIX_FIFO_UFLOW_INT, CIX_INT_CLEAR); 333 + } 334 + } else { 335 + /* FIFO empty interrupt is generated */ 336 + if (int_status & CIX_FIFO_EMPTY_INT) { 337 + u32 val; 338 + 339 + cix_mbox_write(priv, CIX_FIFO_EMPTY_INT, CIX_INT_CLEAR); 340 + /* Disable empty irq*/ 341 + val = cix_mbox_read(priv, CIX_INT_ENABLE); 342 + val &= ~CIX_FIFO_EMPTY_INT; 343 + cix_mbox_write(priv, val, CIX_INT_ENABLE); 344 + mbox_chan_txdone(chan, 0); 345 + } 346 + /* FIFO overflow is generated */ 347 + if (int_status & CIX_FIFO_OFLOW_INT) { 348 + status = cix_mbox_read(priv, CIX_FIFO_STAS); 349 + dev_err(priv->dev, "fifo overlow: int_stats %d\n", status); 350 + cix_mbox_write(priv, CIX_FIFO_OFLOW_INT, CIX_INT_CLEAR); 351 + } 352 + } 353 + } 354 + 355 + static void cix_mbox_isr_fast(struct mbox_chan *chan) 356 + { 357 + struct cix_mbox_priv *priv = to_cix_mbox_priv(chan->mbox); 358 + struct cix_mbox_con_priv *cp = chan->con_priv; 359 + u32 int_status, data; 360 + 361 + /* no irq will be trigger for TX dir mbox */ 362 + if (priv->dir != CIX_MBOX_RX) 363 + return; 364 + 365 + int_status = cix_mbox_read(priv, CIX_INT_STATUS); 366 + 367 + if (int_status & CIX_FAST_CH_INT(cp->index)) { 368 + cix_mbox_write(priv, CIX_FAST_CH_INT(cp->index), CIX_INT_CLEAR); 369 + data = cix_mbox_read(priv, CIX_REG_F_INT(cp->index)); 370 + mbox_chan_received_data(chan, &data); 371 + } 372 + } 373 + 374 + static irqreturn_t cix_mbox_isr(int irq, void *arg) 375 + { 376 + struct mbox_chan *chan = arg; 377 + struct cix_mbox_priv *priv = to_cix_mbox_priv(chan->mbox); 378 + struct cix_mbox_con_priv *cp = chan->con_priv; 379 + 380 + switch (cp->type) { 381 + case CIX_MBOX_TYPE_DB: 382 + cix_mbox_isr_db(chan); 383 + break; 384 + case CIX_MBOX_TYPE_REG: 385 + cix_mbox_isr_reg(chan); 386 + break; 387 + case CIX_MBOX_TYPE_FIFO: 388 + cix_mbox_isr_fifo(chan); 389 + break; 390 + case CIX_MBOX_TYPE_FAST: 391 + cix_mbox_isr_fast(chan); 392 + break; 393 + default: 394 + dev_err(priv->dev, "Invalid channel type: %d\n", cp->type); 395 + return IRQ_NONE; 396 + } 397 + 398 + return IRQ_HANDLED; 399 + } 400 + 401 + static int cix_mbox_startup(struct mbox_chan *chan) 402 + { 403 + struct cix_mbox_priv *priv = to_cix_mbox_priv(chan->mbox); 404 + struct cix_mbox_con_priv *cp = chan->con_priv; 405 + int index = cp->index, ret; 406 + u32 val; 407 + 408 + ret = request_irq(priv->irq, cix_mbox_isr, 0, 409 + dev_name(priv->dev), chan); 410 + if (ret) { 411 + dev_err(priv->dev, "Unable to acquire IRQ %d\n", priv->irq); 412 + return ret; 413 + } 414 + 415 + switch (cp->type) { 416 + case CIX_MBOX_TYPE_DB: 417 + /* Overwrite txdone_method for DB channel */ 418 + chan->txdone_method = TXDONE_BY_ACK; 419 + fallthrough; 420 + case CIX_MBOX_TYPE_REG: 421 + if (priv->dir == CIX_MBOX_TX) { 422 + /* Enable ACK interrupt */ 423 + val = cix_mbox_read(priv, CIX_INT_ENABLE); 424 + val |= CIX_ACK_INT; 425 + cix_mbox_write(priv, val, CIX_INT_ENABLE); 426 + } else { 427 + /* Enable Doorbell interrupt */ 428 + val = cix_mbox_read(priv, CIX_INT_ENABLE_SIDE_B); 429 + val |= CIX_DB_INT; 430 + cix_mbox_write(priv, val, CIX_INT_ENABLE_SIDE_B); 431 + } 432 + break; 433 + case CIX_MBOX_TYPE_FIFO: 434 + /* reset fifo */ 435 + cix_mbox_write(priv, CIX_FIFO_RST_BIT, CIX_FIFO_RST); 436 + /* set default watermark */ 437 + cix_mbox_write(priv, CIX_FIFO_WM_DEFAULT, CIX_FIFO_WM); 438 + if (priv->dir == CIX_MBOX_TX) { 439 + /* Enable fifo overflow interrupt */ 440 + val = cix_mbox_read(priv, CIX_INT_ENABLE); 441 + val |= CIX_FIFO_OFLOW_INT; 442 + cix_mbox_write(priv, val, CIX_INT_ENABLE); 443 + } else { 444 + /* Enable fifo full/underflow interrupt */ 445 + val = cix_mbox_read(priv, CIX_INT_ENABLE_SIDE_B); 446 + val |= CIX_FIFO_UFLOW_INT|CIX_FIFO_WM01_INT; 447 + cix_mbox_write(priv, val, CIX_INT_ENABLE_SIDE_B); 448 + } 449 + break; 450 + case CIX_MBOX_TYPE_FAST: 451 + /* Only RX channel has intterupt */ 452 + if (priv->dir == CIX_MBOX_RX) { 453 + if (index < 0 || index > CIX_MBOX_FAST_IDX) { 454 + dev_err(priv->dev, "Invalid index %d\n", index); 455 + ret = -EINVAL; 456 + goto failed; 457 + } 458 + /* enable fast channel interrupt */ 459 + val = cix_mbox_read(priv, CIX_INT_ENABLE_SIDE_B); 460 + val |= CIX_FAST_CH_INT(index); 461 + cix_mbox_write(priv, val, CIX_INT_ENABLE_SIDE_B); 462 + } 463 + break; 464 + default: 465 + dev_err(priv->dev, "Invalid channel type: %d\n", cp->type); 466 + ret = -EINVAL; 467 + goto failed; 468 + } 469 + return 0; 470 + 471 + failed: 472 + free_irq(priv->irq, chan); 473 + return ret; 474 + } 475 + 476 + static void cix_mbox_shutdown(struct mbox_chan *chan) 477 + { 478 + struct cix_mbox_priv *priv = to_cix_mbox_priv(chan->mbox); 479 + struct cix_mbox_con_priv *cp = chan->con_priv; 480 + int index = cp->index; 481 + u32 val; 482 + 483 + switch (cp->type) { 484 + case CIX_MBOX_TYPE_DB: 485 + case CIX_MBOX_TYPE_REG: 486 + if (priv->dir == CIX_MBOX_TX) { 487 + /* Disable ACK interrupt */ 488 + val = cix_mbox_read(priv, CIX_INT_ENABLE); 489 + val &= ~CIX_ACK_INT; 490 + cix_mbox_write(priv, val, CIX_INT_ENABLE); 491 + } else if (priv->dir == CIX_MBOX_RX) { 492 + /* Disable Doorbell interrupt */ 493 + val = cix_mbox_read(priv, CIX_INT_ENABLE_SIDE_B); 494 + val &= ~CIX_DB_INT; 495 + cix_mbox_write(priv, val, CIX_INT_ENABLE_SIDE_B); 496 + } 497 + break; 498 + case CIX_MBOX_TYPE_FIFO: 499 + if (priv->dir == CIX_MBOX_TX) { 500 + /* Disable empty/fifo overflow irq*/ 501 + val = cix_mbox_read(priv, CIX_INT_ENABLE); 502 + val &= ~(CIX_FIFO_EMPTY_INT | CIX_FIFO_OFLOW_INT); 503 + cix_mbox_write(priv, val, CIX_INT_ENABLE); 504 + } else if (priv->dir == CIX_MBOX_RX) { 505 + /* Disable fifo WM01/underflow interrupt */ 506 + val = cix_mbox_read(priv, CIX_INT_ENABLE_SIDE_B); 507 + val &= ~(CIX_FIFO_UFLOW_INT | CIX_FIFO_WM01_INT); 508 + cix_mbox_write(priv, val, CIX_INT_ENABLE_SIDE_B); 509 + } 510 + break; 511 + case CIX_MBOX_TYPE_FAST: 512 + if (priv->dir == CIX_MBOX_RX) { 513 + if (index < 0 || index > CIX_MBOX_FAST_IDX) { 514 + dev_err(priv->dev, "Invalid index %d\n", index); 515 + break; 516 + } 517 + /* Disable fast channel interrupt */ 518 + val = cix_mbox_read(priv, CIX_INT_ENABLE_SIDE_B); 519 + val &= ~CIX_FAST_CH_INT(index); 520 + cix_mbox_write(priv, val, CIX_INT_ENABLE_SIDE_B); 521 + } 522 + break; 523 + 524 + default: 525 + dev_err(priv->dev, "Invalid channel type: %d\n", cp->type); 526 + break; 527 + } 528 + 529 + free_irq(priv->irq, chan); 530 + } 531 + 532 + static const struct mbox_chan_ops cix_mbox_chan_ops = { 533 + .send_data = cix_mbox_send_data, 534 + .startup = cix_mbox_startup, 535 + .shutdown = cix_mbox_shutdown, 536 + }; 537 + 538 + static void cix_mbox_init(struct cix_mbox_priv *priv) 539 + { 540 + struct cix_mbox_con_priv *cp; 541 + int i; 542 + 543 + for (i = 0; i < CIX_MBOX_CHANS; i++) { 544 + cp = &priv->con_priv[i]; 545 + cp->index = i; 546 + cp->chan = &priv->mbox_chans[i]; 547 + priv->mbox_chans[i].con_priv = cp; 548 + if (cp->index <= CIX_MBOX_FAST_IDX) 549 + cp->type = CIX_MBOX_TYPE_FAST; 550 + if (cp->index == CIX_MBOX_DB_IDX) 551 + cp->type = CIX_MBOX_TYPE_DB; 552 + if (cp->index == CIX_MBOX_FIFO_IDX) 553 + cp->type = CIX_MBOX_TYPE_FIFO; 554 + if (cp->index == CIX_MBOX_REG_IDX) 555 + cp->type = CIX_MBOX_TYPE_REG; 556 + } 557 + } 558 + 559 + static int cix_mbox_probe(struct platform_device *pdev) 560 + { 561 + struct device *dev = &pdev->dev; 562 + struct cix_mbox_priv *priv; 563 + struct resource *res; 564 + const char *dir_str; 565 + int ret; 566 + 567 + priv = devm_kzalloc(dev, sizeof(*priv), GFP_KERNEL); 568 + if (!priv) 569 + return -ENOMEM; 570 + 571 + priv->dev = dev; 572 + priv->base = devm_platform_get_and_ioremap_resource(pdev, 0, &res); 573 + if (IS_ERR(priv->base)) 574 + return PTR_ERR(priv->base); 575 + 576 + /* 577 + * The first 0x80 bytes of the register space of the cix mailbox controller 578 + * can be used as shared memory for clients. When this shared memory is in 579 + * use, the base address of the mailbox is offset by 0x80. Therefore, when 580 + * performing subsequent read/write operations, it is necessary to subtract 581 + * the offset CIX_SHMEM_OFFSET. 582 + * 583 + * When the base address of the mailbox is offset by 0x80, it indicates 584 + * that shmem is in use. 585 + */ 586 + priv->use_shmem = !!(res->start & CIX_SHMEM_OFFSET); 587 + 588 + priv->irq = platform_get_irq(pdev, 0); 589 + if (priv->irq < 0) 590 + return priv->irq; 591 + 592 + if (device_property_read_string(dev, "cix,mbox-dir", &dir_str)) { 593 + dev_err(priv->dev, "cix,mbox_dir property not found\n"); 594 + return -EINVAL; 595 + } 596 + 597 + if (!strcmp(dir_str, "tx")) 598 + priv->dir = 0; 599 + else if (!strcmp(dir_str, "rx")) 600 + priv->dir = 1; 601 + else { 602 + dev_err(priv->dev, "cix,mbox_dir=%s is not expected\n", dir_str); 603 + return -EINVAL; 604 + } 605 + 606 + cix_mbox_init(priv); 607 + 608 + priv->mbox.dev = dev; 609 + priv->mbox.ops = &cix_mbox_chan_ops; 610 + priv->mbox.chans = priv->mbox_chans; 611 + priv->mbox.txdone_irq = true; 612 + priv->mbox.num_chans = CIX_MBOX_CHANS; 613 + priv->mbox.of_xlate = NULL; 614 + 615 + platform_set_drvdata(pdev, priv); 616 + ret = devm_mbox_controller_register(dev, &priv->mbox); 617 + if (ret) 618 + dev_err(dev, "Failed to register mailbox %d\n", ret); 619 + 620 + return ret; 621 + } 622 + 623 + static const struct of_device_id cix_mbox_dt_ids[] = { 624 + { .compatible = "cix,sky1-mbox" }, 625 + { }, 626 + }; 627 + MODULE_DEVICE_TABLE(of, cix_mbox_dt_ids); 628 + 629 + static struct platform_driver cix_mbox_driver = { 630 + .probe = cix_mbox_probe, 631 + .driver = { 632 + .name = "cix_mbox", 633 + .of_match_table = cix_mbox_dt_ids, 634 + }, 635 + }; 636 + 637 + static int __init cix_mailbox_init(void) 638 + { 639 + return platform_driver_register(&cix_mbox_driver); 640 + } 641 + arch_initcall(cix_mailbox_init); 642 + 643 + MODULE_AUTHOR("Cix Technology Group Co., Ltd."); 644 + MODULE_DESCRIPTION("CIX mailbox driver"); 645 + MODULE_LICENSE("GPL");

+279

include/dt-bindings/clock/cix,sky1.h

··· 1 + /* SPDX-License-Identifier: (GPL-2.0-only OR BSD-2-Clause) */ 2 + /* 3 + * Copyright 2024-2025 Cix Technology Group Co., Ltd. 4 + */ 5 + 6 + #ifndef _DT_BINDINGS_CLK_CIX_SKY1_H 7 + #define _DT_BINDINGS_CLK_CIX_SKY1_H 8 + 9 + #define CLK_TREE_CPU_GICxCLK 0 10 + #define CLK_TREE_CPU_PPUCLK 1 11 + #define CLK_TREE_CPU_PERIPHCLK 2 12 + #define CLK_TREE_DSU_CLK 3 13 + #define CLK_TREE_DSU_PCLK 4 14 + #define CLK_TREE_CPU_CLK_BC0 5 15 + #define CLK_TREE_CPU_CLK_BC1 6 16 + #define CLK_TREE_CPU_CLK_BC2 7 17 + #define CLK_TREE_CPU_CLK_BC3 8 18 + #define CLK_TREE_CPU_CLK_MC0 9 19 + #define CLK_TREE_CPU_CLK_MC1 10 20 + #define CLK_TREE_CPU_CLK_MC2 11 21 + #define CLK_TREE_CPU_CLK_MC3 12 22 + #define CLK_TREE_CPU_CLK_LC0 13 23 + #define CLK_TREE_CPU_CLK_LC1 14 24 + #define CLK_TREE_CPU_CLK_LC2 15 25 + #define CLK_TREE_CPU_CLK_LC3 16 26 + #define CLK_TREE_CSI_CTRL0_PCLK 17 27 + #define CLK_TREE_CSI_CTRL1_PCLK 18 28 + #define CLK_TREE_CSI_CTRL2_PCLK 19 29 + #define CLK_TREE_CSI_CTRL3_PCLK 20 30 + #define CLK_TREE_CSI_DMA0_PCLK 21 31 + #define CLK_TREE_CSI_DMA1_PCLK 22 32 + #define CLK_TREE_CSI_DMA2_PCLK 23 33 + #define CLK_TREE_CSI_DMA3_PCLK 24 34 + #define CLK_TREE_CSI_PHY0_PSM 25 35 + #define CLK_TREE_CSI_PHY1_PSM 26 36 + #define CLK_TREE_CSI_PHY0_APBCLK 27 37 + #define CLK_TREE_CSI_PHY1_APBCLK 28 38 + #define CLK_TREE_FCH_APB_CLK 29 39 + #define CLK_TREE_GPU_CLK_400M 30 40 + #define CLK_TREE_GPU_CLK_CORE 31 41 + #define CLK_TREE_GPU_CLK_STACKS 32 42 + #define CLK_TREE_DP0_PIXEL0 33 43 + #define CLK_TREE_DP0_PIXEL1 34 44 + #define CLK_TREE_DP1_PIXEL0 35 45 + #define CLK_TREE_DP1_PIXEL1 36 46 + #define CLK_TREE_DP2_PIXEL0 37 47 + #define CLK_TREE_DP2_PIXEL1 38 48 + #define CLK_TREE_DP3_PIXEL0 39 49 + #define CLK_TREE_DP3_PIXEL1 40 50 + #define CLK_TREE_DP4_PIXEL0 41 51 + #define CLK_TREE_DP4_PIXEL1 42 52 + #define CLK_TREE_DPU_CLK 43 53 + #define CLK_TREE_DPU0_ACLK 44 54 + #define CLK_TREE_DPU1_ACLK 45 55 + #define CLK_TREE_DPU2_ACLK 46 56 + #define CLK_TREE_DPU3_ACLK 47 57 + #define CLK_TREE_DPU4_ACLK 48 58 + #define CLK_TREE_DPC0_VIDCLK0 49 59 + #define CLK_TREE_DPC0_VIDCLK1 50 60 + #define CLK_TREE_DPC1_VIDCLK0 51 61 + #define CLK_TREE_DPC1_VIDCLK1 52 62 + #define CLK_TREE_DPC2_VIDCLK0 53 63 + #define CLK_TREE_DPC2_VIDCLK1 54 64 + #define CLK_TREE_DPC3_VIDCLK0 55 65 + #define CLK_TREE_DPC3_VIDCLK1 56 66 + #define CLK_TREE_DPC4_VIDCLK0 57 67 + #define CLK_TREE_DPC4_VIDCLK1 58 68 + #define CLK_TREE_DPC0_APBCLK 59 69 + #define CLK_TREE_DPC1_APBCLK 60 70 + #define CLK_TREE_DPC2_APBCLK 61 71 + #define CLK_TREE_DPC3_APBCLK 62 72 + #define CLK_TREE_DPC4_APBCLK 63 73 + #define CLK_TREE_NPU_MEMCLK 64 74 + #define CLK_TREE_NPU_SYSCLK 65 75 + #define CLK_TREE_NPU_DBGCLK 66 76 + #define CLK_TREE_VPU_APBCLK 67 77 + #define CLK_TREE_ISP_ACLK 68 78 + #define CLK_TREE_ISP_SCLK 69 79 + #define CLK_TREE_AUDIO_CLK4 70 80 + #define CLK_TREE_AUDIO_CLK5 71 81 + #define CLK_TREE_CAMERA_MCLK0 72 82 + #define CLK_TREE_CAMERA_MCLK1 73 83 + #define CLK_TREE_CAMERA_MCLK2 74 84 + #define CLK_TREE_CAMERA_MCLK3 75 85 + #define CLK_TREE_AUDIO_CLK0 76 86 + #define CLK_TREE_AUDIO_CLK1 77 87 + #define CLK_TREE_AUDIO_CLK2 78 88 + #define CLK_TREE_AUDIO_CLK3 79 89 + #define CLK_TREE_MM_NI700_CLK 80 90 + #define CLK_TREE_SYS_NI700_CLK 81 91 + #define CLK_TREE_GMAC0_ACLK 82 92 + #define CLK_TREE_GMAC1_ACLK 83 93 + #define CLK_TREE_GMAC0_DIV_ACLK 84 94 + #define CLK_TREE_GMAC0_DIV_TXCLK 85 95 + #define CLK_TREE_GMAC0_RGMII0_TXCLK 86 96 + #define CLK_TREE_GMAC1_DIV_ACLK 87 97 + #define CLK_TREE_GMAC1_DIV_TXCLK 88 98 + #define CLK_TREE_GMAC1_RGMII0_TXCLK 89 99 + #define CLK_TREE_GMAC0_PCLK 90 100 + #define CLK_TREE_GMAC1_PCLK 91 101 + #define CLK_TREE_USB2_0_AXI_GATE 92 102 + #define CLK_TREE_USB2_0_APB_GATE 93 103 + #define CLK_TREE_USB2_1_AXI_GATE 94 104 + #define CLK_TREE_USB2_1_APB_GATE 95 105 + #define CLK_TREE_USB2_2_AXI_GATE 96 106 + #define CLK_TREE_USB2_2_APB_GATE 97 107 + #define CLK_TREE_USB2_3_AXI_GATE 98 108 + #define CLK_TREE_USB2_3_APB_GATE 99 109 + #define CLK_TREE_USB2_0_PHY_GATE 100 110 + #define CLK_TREE_USB2_1_PHY_GATE 101 111 + #define CLK_TREE_USB2_2_PHY_GATE 102 112 + #define CLK_TREE_USB2_3_PHY_GATE 103 113 + #define CLK_TREE_USB3C_DRD_AXI_GATE 104 114 + #define CLK_TREE_USB3C_DRD_APB_GATE 105 115 + #define CLK_TREE_USB3C_DRD_PHY2_GATE 106 116 + #define CLK_TREE_USB3C_DRD_PHY3_GATE 107 117 + #define CLK_TREE_USB3C_0_AXI_GATE 108 118 + #define CLK_TREE_USB3C_0_APB_GATE 109 119 + #define CLK_TREE_USB3C_0_PHY2_GATE 110 120 + #define CLK_TREE_USB3C_0_PHY3_GATE 111 121 + #define CLK_TREE_USB3C_1_AXI_GATE 112 122 + #define CLK_TREE_USB3C_1_APB_GATE 113 123 + #define CLK_TREE_USB3C_1_PHY2_GATE 114 124 + #define CLK_TREE_USB3C_1_PHY3_GATE 115 125 + #define CLK_TREE_USB3C_2_AXI_GATE 116 126 + #define CLK_TREE_USB3C_2_APB_GATE 117 127 + #define CLK_TREE_USB3C_2_PHY2_GATE 118 128 + #define CLK_TREE_USB3C_2_PHY3_GATE 119 129 + #define CLK_TREE_USB3A_0_AXI_GATE 120 130 + #define CLK_TREE_USB3A_0_APB_GATE 121 131 + #define CLK_TREE_USB3A_0_PHY2_GATE 122 132 + #define CLK_TREE_USB3A_1_AXI_GATE 123 133 + #define CLK_TREE_USB3A_1_APB_GATE 124 134 + #define CLK_TREE_USB3A_1_PHY2_GATE 125 135 + #define CLK_TREE_USB3A_PHY3_GATE 126 136 + #define CLK_TREE_USB2_0_CLK_SOF 127 137 + #define CLK_TREE_USB2_1_CLK_SOF 128 138 + #define CLK_TREE_USB2_2_CLK_SOF 129 139 + #define CLK_TREE_USB2_3_CLK_SOF 130 140 + #define CLK_TREE_USB3C_DRD_CLK_SOF 131 141 + #define CLK_TREE_USB3C_H0_CLK_SOF 132 142 + #define CLK_TREE_USB3C_H1_CLK_SOF 133 143 + #define CLK_TREE_USB3C_H2_CLK_SOF 134 144 + #define CLK_TREE_USB3A_H0_CLK_SOF 135 145 + #define CLK_TREE_USB3A_H1_CLK_SOF 136 146 + #define CLK_TREE_USB2_0_CLK_LPM 137 147 + #define CLK_TREE_USB2_1_CLK_LPM 138 148 + #define CLK_TREE_USB2_2_CLK_LPM 139 149 + #define CLK_TREE_USB2_3_CLK_LPM 140 150 + #define CLK_TREE_USB3C_DRD_CLK_LPM 141 151 + #define CLK_TREE_USB3C_H0_CLK_LPM 142 152 + #define CLK_TREE_USB3C_H1_CLK_LPM 143 153 + #define CLK_TREE_USB3C_H2_CLK_LPM 144 154 + #define CLK_TREE_USB3A_H0_CLK_LPM 145 155 + #define CLK_TREE_USB3A_H1_CLK_LPM 146 156 + #define CLK_TREE_USB2_0_PHY_REF 147 157 + #define CLK_TREE_USB2_1_PHY_REF 148 158 + #define CLK_TREE_USB2_2_PHY_REF 149 159 + #define CLK_TREE_USB2_3_PHY_REF 150 160 + #define CLK_TREE_USB3C_DRD_PHY_REF 151 161 + #define CLK_TREE_USB3C_H0_PHY_REF 152 162 + #define CLK_TREE_USB3C_H1_PHY_REF 153 163 + #define CLK_TREE_USB3C_H2_PHY_REF 154 164 + #define CLK_TREE_USB3A_H0_PHY_REF 155 165 + #define CLK_TREE_USB3A_H1_PHY_REF 156 166 + #define CLK_TREE_USB3C_DRD_PHY_x4_REF 157 167 + #define CLK_TREE_USB3C_H0_PHY_x4_REF 158 168 + #define CLK_TREE_USB3C_H1_PHY_x4_REF 159 169 + #define CLK_TREE_USB3C_H2_PHY_x4_REF 160 170 + #define CLK_TREE_USB3A_PHY_x2_REF 161 171 + #define CLK_TREE_PCIE_X8CTRL_APB 162 172 + #define CLK_TREE_PCIE_X4CTRL_APB 163 173 + #define CLK_TREE_PCIE_X2CTRL_APB 164 174 + #define CLK_TREE_PCIE_X1_0CTRL_APB 165 175 + #define CLK_TREE_PCIE_X1_1CTRL_APB 166 176 + #define CLK_TREE_PCIE_X8_PHY_APB 167 177 + #define CLK_TREE_PCIE_X4_PHY_APB 168 178 + #define CLK_TREE_PCIE_X211_PHY_APB 169 179 + #define CLK_TREE_PCIE_NI700_CLK 170 180 + #define CLK_TREE_PCIE_CTRL0_CLK 171 181 + #define CLK_TREE_PCIE_CTRL1_CLK 172 182 + #define CLK_TREE_PCIE_CTRL2_CLK 173 183 + #define CLK_TREE_PCIE_CTRL3_CLK 174 184 + #define CLK_TREE_PCIE_CTRL4_CLK 175 185 + #define CLK_TREE_CSI_CTRL0_SYSCLK 176 186 + #define CLK_TREE_CSI_CTRL1_SYSCLK 177 187 + #define CLK_TREE_CSI_CTRL2_SYSCLK 178 188 + #define CLK_TREE_CSI_CTRL3_SYSCLK 179 189 + #define CLK_TREE_CSI_CTRL0_PIXEL0_CLK 180 190 + #define CLK_TREE_CSI_CTRL0_PIXEL1_CLK 181 191 + #define CLK_TREE_CSI_CTRL0_PIXEL2_CLK 182 192 + #define CLK_TREE_CSI_CTRL0_PIXEL3_CLK 183 193 + #define CLK_TREE_CSI_CTRL1_PIXEL0_CLK 184 194 + #define CLK_TREE_CSI_CTRL2_PIXEL0_CLK 185 195 + #define CLK_TREE_CSI_CTRL2_PIXEL1_CLK 186 196 + #define CLK_TREE_CSI_CTRL2_PIXEL2_CLK 187 197 + #define CLK_TREE_CSI_CTRL2_PIXEL3_CLK 188 198 + #define CLK_TREE_CSI_CTRL3_PIXEL0_CLK 189 199 + #define CLK_TREE_CI700_GCLK0 190 200 + #define CLK_TREE_DDRC0_ACLK_CLK 191 201 + #define CLK_TREE_DDRC1_ACLK_CLK 192 202 + #define CLK_TREE_DDRC2_ACLK_CLK 193 203 + #define CLK_TREE_DDRC3_ACLK_CLK 194 204 + #define CLK_TREE_DDRC0_DFICLK_CLK 195 205 + #define CLK_TREE_DDRC1_DFICLK_CLK 196 206 + #define CLK_TREE_DDRC2_DFICLK_CLK 197 207 + #define CLK_TREE_DDRC3_DFICLK_CLK 198 208 + #define CLK_TREE_PHY0_SYNC_CLK 199 209 + #define CLK_TREE_PHY1_SYNC_CLK 200 210 + #define CLK_TREE_PHY2_SYNC_CLK 201 211 + #define CLK_TREE_PHY3_SYNC_CLK 202 212 + #define CLK_TREE_PHY0_BYPASS_CLK 203 213 + #define CLK_TREE_PHY1_BYPASS_CLK 204 214 + #define CLK_TREE_PHY2_BYPASS_CLK 205 215 + #define CLK_TREE_PHY3_BYPASS_CLK 206 216 + #define CLK_TREE_DDRC_0_APB 207 217 + #define CLK_TREE_DDRC_1_APB 208 218 + #define CLK_TREE_DDRC_2_APB 209 219 + #define CLK_TREE_DDRC_3_APB 210 220 + #define CLK_TREE_TZC400_0_APB 211 221 + #define CLK_TREE_TZC400_1_APB 212 222 + #define CLK_TREE_TZC400_2_APB 213 223 + #define CLK_TREE_TZC400_3_APB 214 224 + #define CLK_TREE_S5_SENSOR_HUB_25M 215 225 + #define CLK_TREE_S5_SENSOR_HUB_400M 216 226 + #define CLK_TREE_S5_CSS600_100M 217 227 + #define CLK_TREE_S5_DFD_800M 218 228 + #define CLK_TREE_S5_CSU_SE_800M 219 229 + #define CLK_TREE_S5_CSU_PM_800M 220 230 + #define CLK_TREE_PCIE_REF_B0 221 231 + #define CLK_TREE_PCIE_REF_B1 222 232 + #define CLK_TREE_PCIE_REF_B2 223 233 + #define CLK_TREE_PCIE_REF_B3 224 234 + #define CLK_TREE_PCIE_REF_B4 225 235 + #define CLK_TREE_PCIE_REF_PHY_X8 226 236 + #define CLK_TREE_PCIE_REF_PHY_X4 227 237 + #define CLK_TREE_PCIE_REF_PHY_X211 228 238 + #define CLK_TREE_GMAC_REC_CLK 229 239 + #define CLK_TREE_GPUTOP_PLL 230 240 + #define CLK_TREE_GPUCORE_PLL 231 241 + #define CLK_TREE_CPU_PLL_LIT 232 242 + #define CLK_TREE_CPU_PLL0 233 243 + #define CLK_TREE_CPU_PLL1 234 244 + #define CLK_TREE_CPU_PLL2 235 245 + #define CLK_TREE_CPU_PLL3 236 246 + #define CLK_TREE_FCH_I3C0_FUNC 237 247 + #define CLK_TREE_FCH_I3C1_FUNC 238 248 + #define CLK_TREE_FCH_DMA_ACLK 239 249 + #define CLK_TREE_FCH_XSPI_FUNC 240 250 + #define CLK_TREE_FCH_XSPI_MACLK 241 251 + #define CLK_TREE_FCH_TIMER_FUN 242 252 + #define CLK_TREE_FCH_APB_IO_S0 243 253 + #define CLK_TREE_FCH_I3C0_APB 244 254 + #define CLK_TREE_FCH_I3C1_APB 245 255 + #define CLK_TREE_FCH_UART0_APB 246 256 + #define CLK_TREE_FCH_UART1_APB 247 257 + #define CLK_TREE_FCH_UART2_APB 248 258 + #define CLK_TREE_FCH_UART3_APB 249 259 + #define CLK_TREE_FCH_SPI0_APB 250 260 + #define CLK_TREE_FCH_SPI1_APB 251 261 + #define CLK_TREE_FCH_XSPI_APB 252 262 + #define CLK_TREE_FCH_I2C0_APB 253 263 + #define CLK_TREE_FCH_I2C1_APB 254 264 + #define CLK_TREE_FCH_I2C2_APB 255 265 + #define CLK_TREE_FCH_I2C3_APB 256 266 + #define CLK_TREE_FCH_I2C4_APB 257 267 + #define CLK_TREE_FCH_I2C5_APB 258 268 + #define CLK_TREE_FCH_I2C6_APB 259 269 + #define CLK_TREE_FCH_I2C7_APB 260 270 + #define CLK_TREE_FCH_TIMER_APB 261 271 + #define CLK_TREE_FCH_GPIO_APB 262 272 + #define CLK_TREE_FCH_UART0_FUNC 263 273 + #define CLK_TREE_FCH_UART1_FUNC 264 274 + #define CLK_TREE_FCH_UART2_FUNC 265 275 + #define CLK_TREE_FCH_UART3_FUNC 266 276 + /* 267~271 not used by AP, skip */ 277 + #define CLK_TREE_GPU_CLK_200M 272 278 + 279 + #endif